diff options
author | Martin Ruckert <martin.ruckert@hm.edu> | 2021-11-12 11:09:17 +0000 |
---|---|---|
committer | Martin Ruckert <martin.ruckert@hm.edu> | 2021-11-12 11:09:17 +0000 |
commit | 58c3fe089d4cdc595f6f175a8a9bf35b9c53a89e (patch) | |
tree | b4c17f1b9dbaca6e8b3755030c33fe05da74d5e5 /Build | |
parent | 4026136ac968e7ffa4e168a0f005ea62c7099c6a (diff) |
eliminating htex.w and giving all file names the hi... prefix
git-svn-id: svn://tug.org/texlive/trunk@61033 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build')
-rw-r--r-- | Build/source/texk/web2c/hitexdir/am/hitex.am | 46 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/format.w | 186 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hilexer.c (renamed from Build/source/texk/web2c/hitexdir/hishrink-lexer.c) | 810 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hilexer.l | 353 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hiparser.c (renamed from Build/source/texk/web2c/hitexdir/hishrink-parser.c) | 2316 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hiparser.h (renamed from Build/source/texk/web2c/hitexdir/hishrink-parser.h) | 111 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hiparser.y | 1111 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/hitex.w | 32918 | ||||
-rw-r--r-- | Build/source/texk/web2c/hitexdir/htex.w | 29213 |
9 files changed, 34811 insertions, 32253 deletions
diff --git a/Build/source/texk/web2c/hitexdir/am/hitex.am b/Build/source/texk/web2c/hitexdir/am/hitex.am index 109cb4e0e42..2419d82d3bc 100644 --- a/Build/source/texk/web2c/hitexdir/am/hitex.am +++ b/Build/source/texk/web2c/hitexdir/am/hitex.am @@ -16,9 +16,9 @@ hiall: hitex hishrink histretch ## Except we eschew all lex/yacc steps in the Makefile here; see below. ## AM_YFLAGS = -d -v -Wno-yacc -hitex_CPPFLAGS = $(AM_CPPFLAGS) $(ZLIB_INCLUDES) +hitex_CPPFLAGS = $(AM_CPPFLAGS) $(ZLIB_INCLUDES) hitex_CPPFLAGS += -I$(srcdir)/libmd5 -hitex_LDADD = $(KPATHSEA_LIBS) $(ZLIB_LIBS) +hitex_LDADD = $(KPATHSEA_LIBS) $(ZLIB_LIBS) libmd5.a hitex_LDADD += libmd5.a hitex_DEPENDENCIES = $(KPATHSEA_DEPEND) $(ZLIB_DEPEND) libmd5.a # @@ -32,20 +32,19 @@ hishrink_LDADD = $(ZLIB_LIBS) hishrink_DEPENDENCIES = $(ZLIB_DEPEND) # HiTeX CWEB sources -hitex_web = hitexdir/format.w hitexdir/htex.w hitexdir/hitex.w +hitex_web = hitexdir/format.w hitexdir/hitex.w # Creating several files: need stamp file and two rules with identical recipes hi_ctangle_sh = CWEBINPUTS=$(srcdir)/hitexdir AM_V_P=$(AM_V_P) $(SHELL) ./tangle-sh $@ $(CTANGLE) # HiTeX C/yacc/lex sources generated using ctangle. # For each cweb (.w) source file, list the files generated. -format_c_h_l_y = basetypes.h error.h hformat.h \ - mkhformat.c \ - hput.c hput.h \ - hget.c hget.h \ - shrink.l shrink.y \ +format_c_h_l_y = hibasetypes.h hierror.h hiformat.h \ + himktables.c \ + hiput.c hiput.h \ + higet.c higet.h \ + hilexer.l hiparser.y \ hishrink.c histretch.c -htex_c_h = htex.c htex.h hitex_c_h = hitex.c hitex.h $(format_c_h_l_y): format-tangle @@ -60,36 +59,31 @@ $(hitex_c_h): hitex-tangle hitex-tangle: ctangle$(EXEEXT) hitexdir/hitex.w tangle-sh $(hi_ctangle_sh) hitex -# htex.c needs hitex.h, so depend on the hitex tangle. -$(htex_c_h): htex-tangle hitex-tangle - $(hi_ctangle_sh) htex -# -htex-tangle: ctangle$(EXEEXT) hitexdir/htex.w tangle-sh hitex-tangle - $(hi_ctangle_sh) htex - -# Generating hformat.c using mkhformat. -hformat.c: mkhformat - ./mkhformat >hformat.c || { rm -f hformat.c; exit 1; } +# Generating hitables.c using himktables. +hitables.c: himktables + ./himktables > $@ || { rm -f hitables.c; exit 1; } # hitex -nodist_hitex_SOURCES = hformat.c hput.c $(htex_c_h) $(hitex_c_h) +nodist_hitex_SOURCES = hitables.c hiput.c $(hitex_c_h) # histretch -nodist_histretch_SOURCES = hformat.c histretch.c +nodist_histretch_SOURCES = hitables.c histretch.c # The actual sources for the lexer and parser are in format.w. # However, to simplify life with Automake (a little), we include the # generated [.ch] files as if they were the sources here, and don't try # to have Automake support the derivation from .w. # -nodist_hishrink_SOURCES = hformat.c hishrink.c \ - hitexdir/hishrink-lexer.c \ - hitexdir/hishrink-parser.c hitexdir/hishrink-parser.h +# The $(srcdir) is not necessary if everything is up to date, +# but can help with the remake if the [.ch] or [.ly] are not present. +nodist_hishrink_SOURCES = hitables.c \ + hitexdir/hilexer.c \ + hitexdir/hiparser.c hitexdir/hiparser.h # This is our attempt to ensure that bison got run before anything else, # when needed. # -$(hishrink_OBJECTS): $(srcdir)/hitexdir/hishrink-parser.h +$(hishrink_OBJECTS): $(srcdir)/hitexdir/hiparser.h # # By the way, the $(BUILT_SOURCES) suggestion in the Automake manual for # this does not work for us, because we want to be able to invoke @@ -100,7 +94,7 @@ EXTRA_DIST += hitexdir/ChangeLog $(hitex_web) DISTCLEANFILES += $(nodist_hitex_SOURCES) DISTCLEANFILES += $(nodist_hishrink_SOURCES) $(nodist_histretch_SOURCES) -DISTCLEANFILES += format-tangle htex-tangle hitex-tangle +DISTCLEANFILES += format-tangle hitex-tangle ## HiTeX tests # still missing diff --git a/Build/source/texk/web2c/hitexdir/format.w b/Build/source/texk/web2c/hitexdir/format.w index 1a9f6f54a25..5b1fd22a2d8 100644 --- a/Build/source/texk/web2c/hitexdir/format.w +++ b/Build/source/texk/web2c/hitexdir/format.w @@ -47,9 +47,9 @@ \def\setrevision$#1: #2 ${\gdef\lastrevision{#2}} -\setrevision$Revision: 2515 $ +\setrevision$Revision: 2541 $ \def\setdate$#1(#2) ${\gdef\lastdate{#2}} -\setdate$Date: 2021-09-23 17:59:58 +0200 (Thu, 23 Sep 2021) $ +\setdate$Date: 2021-10-26 09:03:28 +0200 (Tue, 26 Oct 2021) $ \null @@ -719,7 +719,7 @@ HGETTAG(a);@/@t{}@> @<read and check the end byte |z|@>= HGETTAG(z);@+ if (a!=z) - QUIT(@["Tag mismatch [%s,%d]!=[%s,%d] at 0x%x to 0x%tx\n"@],@| + QUIT(@["Tag mismatch [%s,%d]!=[%s,%d] at 0x%x to " SIZE_F "\n"@],@| NAME(a),INFO(a),NAME(z),INFO(z),@|node_pos, hpos-hstart-1); @ @@ -938,7 +938,7 @@ Last not least, we add rules for signed\index{signed integer} integers. @ @<parsing rules@>= -integer: SIGNED @+| UNSIGNED { RNG("number",$1,0,INT32_MAX);}; +integer: SIGNED @+| UNSIGNED { RNG("number",$1,0,0x7FFFFFFF);}; @ To preserve the ``signedness'' of an integer also for positive signed integers @@ -1227,7 +1227,7 @@ void hwrite_charcode(uint32_t c) \getcode @<shared get functions@>= #define @[HGET_UTF8C(X)@] (X)=HGET8;@+ if ((X&0xC0)!=0x80) \ - QUIT(@["UTF8 continuation byte expected at 0x%tx got 0x%02X\n"@],hpos-hstart-1,X)@; + QUIT(@["UTF8 continuation byte expected at " SIZE_F " got 0x%02X\n"@],hpos-hstart-1,X)@; uint32_t hget_utf8(void) { uint8_t a; @@ -2824,7 +2824,7 @@ void hget_size_boundary(info_t info) { uint32_t n; if (info<2) return; n=HGET8; - if (n-1!=0x100-info) QUIT(@["Size boundary byte 0x%x with info value %d at 0x%tx"@], + if (n-1!=0x100-info) QUIT(@["Size boundary byte 0x%x with info value %d at " SIZE_F@], n, info,hpos-hstart-1); } @@ -2861,7 +2861,7 @@ void hget_list(list_t *l) hpos=hpos+(L).s; hget_size_boundary(I);\ { uint32_t s=hget_list_size(I); \ if (s!=(L).s) \ - QUIT(@["List sizes at 0x%x and 0x%tx do not match 0x%x != 0x%x"@],node_pos+1,hpos-hstart-I-1,(L).s,s);} + QUIT(@["List sizes at 0x%x and " SIZE_F " do not match 0x%x != 0x%x"@],node_pos+1,hpos-hstart-I-1,(L).s,s);} @ \putcode @@ -5788,7 +5788,7 @@ content_node: stream_def_node @+ | stream_ins_node; { xdimen_t x; uint16_t f,r; uint8_t n; - DBG(DBGDEF,"Defining normal stream %d at 0x%tx\n",*(hpos-1),hpos-hstart-2); + DBG(DBGDEF,"Defining normal stream %d at " SIZE_F "\n",*(hpos-1),hpos-hstart-2); hget_xdimen_node(&x); @+hwrite_xdimen_node(&x); HGET16(f); @+RNG("magnification factor",f,0,1000);@+ hwritef(" %d",f); n=HGET8; if (n==255) hwritef(" *"); else { REF_RNG(stream_kind,n);@+hwrite_ref(n);@+} @@ -5804,7 +5804,7 @@ static bool hget_stream_def(void) else { ref_t df; @<read the start byte |a|@>@; - DBG(DBGDEF,"Defining stream %d at 0x%tx\n",*hpos,hpos-hstart-1); + DBG(DBGDEF,"Defining stream %d at " SIZE_F "\n",*hpos,hpos-hstart-1); DEF(df,stream_kind,HGET8); hwrite_start();@+hwritef("stream");@+@+hwrite_ref(df.n); if (df.n>0) @@ -6165,12 +6165,12 @@ void hput_range(uint8_t pg, bool on) { if (((next_range-1)/2)>max_ref[range_kind]) QUIT("Page range %d > %d",(next_range-1)/2,max_ref[range_kind]); if (on && page_on[pg]!=0) - QUIT(@["Template %d is switched on at 0x%x and 0x%tx"@],@| + QUIT(@["Template %d is switched on at 0x%x and " SIZE_F@],@| pg, range_pos[page_on[pg]].pos, hpos-hstart); else if (!on && page_on[pg]==0) - QUIT(@["Template %d is switched off at 0x%tx but was not on"@],@| + QUIT(@["Template %d is switched off at " SIZE_F " but was not on"@],@| pg, hpos-hstart); - DBG(DBGRANGE,@["Range *%d %s at 0x%tx\n"@],pg,on?"on":"off",hpos-hstart); + DBG(DBGRANGE,@["Range *%d %s at " SIZE_F "\n"@],pg,on?"on":"off",hpos-hstart); range_pos[next_range].pg=pg; range_pos[next_range].pos=hpos-hstart; range_pos[next_range].on=on; @@ -6365,15 +6365,15 @@ void hput_hint(char * str) { size_t s; DBG(DBGBASIC,"Writing hint output %s\n",str); s=hput_banner("hint",str); - DBG(DBGDIR,@["Root entry at 0x%tx\n"@],s); + DBG(DBGDIR,@["Root entry at " SIZE_F "\n"@],s); s+=hput_root(); - DBG(DBGDIR,@["Directory section at 0x%tx\n"@],s); + DBG(DBGDIR,@["Directory section at " SIZE_F "\n"@],s); s+=hput_section(0); - DBG(DBGDIR,@["Definition section at 0x%tx\n"@],s); + DBG(DBGDIR,@["Definition section at " SIZE_F "\n"@],s); s+=hput_section(1); - DBG(DBGDIR,@["Content section at 0x%tx\n"@],s); + DBG(DBGDIR,@["Content section at " SIZE_F "\n"@],s); s+=hput_section(2); - DBG(DBGDIR,@["Auxiliary sections at 0x%tx\n"@],s); + DBG(DBGDIR,@["Auxiliary sections at " SIZE_F "\n"@],s); hput_optional_sections(); } @ @@ -6396,7 +6396,7 @@ and advance the stream position accordingly.\label{HPUT}\label{HGET} \getcode @<shared get macros@>= -#define HGET_ERROR @/ QUIT(@["HGET overrun in section %d at 0x%tx\n"@],@|section_no,hpos-hstart) +#define HGET_ERROR @/ QUIT(@["HGET overrun in section %d at " SIZE_F "\n"@],@|section_no,hpos-hstart) #define @[HEND@] @[((hpos<=hend)?0:(HGET_ERROR,0))@] #define @[HGET8@] ((hpos<hend)?*(hpos++):(HGET_ERROR,0)) @@ -6410,7 +6410,7 @@ and advance the stream position accordingly.\label{HPUT}\label{HGET} @<put functions@>= void hput_error(void) {@+if (hpos<hend) return; - QUIT(@["HPUT overrun section %d pos=0x%tx\n"@],@|section_no,hpos-hstart); + QUIT(@["HPUT overrun section %d pos=" SIZE_F "\n"@],@|section_no,hpos-hstart); } @ @@ -6708,8 +6708,8 @@ void hput_increase_buffer(uint32_t n) bsize=dir[section_no].bsize*buffer_factor+0.5; if (bsize<pos+n) bsize=pos+n; if (bsize>=HINT_NO_POS) bsize=HINT_NO_POS; - if (bsize<pos+n) QUIT(@["Unable to increase buffer size 0x%tx by 0x%x byte"@],@|hpos-hstart,n); - DBG(DBGBUFFER,@["Reallocating output buffer "@|" for section %d from 0x%x to 0x%tx byte\n"@], + if (bsize<pos+n) QUIT(@["Unable to increase buffer size " SIZE_F " by 0x%x byte"@],@|hpos-hstart,n); + DBG(DBGBUFFER,@["Reallocating output buffer "@|" for section %d from 0x%x to " SIZE_F " byte\n"@], section_no,dir[section_no].bsize,bsize); REALLOCATE(dir[section_no].buffer,bsize,uint8_t); dir[section_no].bsize=(uint32_t)bsize; @@ -6722,7 +6722,7 @@ static size_t hput_data(uint16_t n, uint8_t *buffer, uint32_t size) { size_t s; s=fwrite(buffer,1,size,hout); if (s!=size) - QUIT(@["short write 0x%tx < %d in section %d"@],s,size,n); + QUIT(@["short write " SIZE_F " < %d in section %d"@],s,size,n); return s; } @@ -7063,7 +7063,7 @@ The name of the directory section must be the empty string. \getcode @<get file functions@>= static void hget_root(entry_t *root) -{ DBG(DBGDIR,"Root entry at 0x%tx\n",hpos-hstart); +{ DBG(DBGDIR,"Root entry at " SIZE_F "\n",hpos-hstart); hget_entry(root); root->pos=hpos-hstart; max_section_no=root->section_no; @@ -7168,7 +7168,7 @@ static size_t hput_root(void) dir[0].section_no=max_section_no; hput_entry(&dir[0]); s=hput_data(0, hstart,hpos-hstart); - DBG(DBGDIR,@["Writing root size=0x%tx\n"@],s); + DBG(DBGDIR,@["Writing root size=" SIZE_F "\n"@],s); return s; } @@ -7226,7 +7226,7 @@ static void hput_optional_sections(void) } fclose(f); if (fsize!=dir[i].size) - QUIT(@["File size 0x%tx does not match directory size %u"@],@|fsize,dir[i].size); + QUIT(@["File size " SIZE_F " does not match directory size %u"@],@|fsize,dir[i].size); } } @ @@ -8752,7 +8752,7 @@ There is no good program without good error handling\index{error message}\index{ To print messages\index{message} or indicate errors, I define the following macros: \index{MESSAGE+\.{MESSAGE}}\index{QUIT+\.{QUIT}} -@(error.h@>= +@(hierror.h@>= #ifndef _ERROR_H #define _ERROR_H #include <stdlib.h> @@ -8772,25 +8772,22 @@ For portability, we first define the output specifier for expressions of type |s \index{DBG+\.{DBG}}\index{SIZE F+\.{SIZE\_F}}\index{DBGTAG+\.{DBGTAG}} \index{RNG+\.{RNG}}\index{TAGERR+\.{TAGERR}} @<debug macros@>= -#if 0 -/* use 0x percent tx instead */ #ifdef WIN32 #define SIZE_F "0x%x" #else #define SIZE_F "0x%zx" #endif -#endif #ifdef DEBUG #define @[DBG(FLAGS,...)@] ((debugflags & (FLAGS))?LOG(__VA_ARGS__):0) #else #define @[DBG(FLAGS,...)@] 0 #endif -#define @[DBGTAG(A,P)@] @[DBG(DBGTAGS,@["tag [%s,%d] at 0x%tx\n"@],@|NAME(A),INFO(A),(P)-hstart)@] +#define @[DBGTAG(A,P)@] @[DBG(DBGTAGS,@["tag [%s,%d] at " SIZE_F "\n"@],@|NAME(A),INFO(A),(P)-hstart)@] #define @[RNG(S,N,A,Z)@] @/\ if ((int)(N)<(int)(A)||(int)(N)>(int)(Z)) QUIT(S@, " %d out of range [%d - %d]",N,A,Z) -#define @[TAGERR(A)@] @[QUIT(@["Unknown tag [%s,%d] at 0x%tx\n"@],NAME(A),INFO(A),hpos-hstart)@] +#define @[TAGERR(A)@] @[QUIT(@["Unknown tag [%s,%d] at " SIZE_F "\n"@],NAME(A),INFO(A),hpos-hstart)@] @ The \.{bison} generated parser will need a function |yyerror| for @@ -8865,7 +8862,7 @@ void hff_hpos(void) @ -We will put the |hnode_size| variable into the {\tt hformat.c} file +We will put the |hnode_size| variable into the {\tt tables.c} file using the following function. We add some comments and split negative values into their components, to make the result more readable. @@ -9275,7 +9272,7 @@ The code to skip the end\index{end byte} byte |z| and to check the start\index{s @<skip and check the start byte |a|@>= HTEGTAG(a); - if (a!=z) QUIT(@["Tag mismatch [%s,%d]!=[%s,%d] at 0x%tx to 0x%x\n"@],@|NAME(a),INFO(a),NAME(z),INFO(z),@| + if (a!=z) QUIT(@["Tag mismatch [%s,%d]!=[%s,%d] at " SIZE_F " to 0x%x\n"@],@|NAME(a),INFO(a),NAME(z),INFO(z),@| hpos-hstart,node_pos-1); @ @@ -9727,7 +9724,7 @@ void hteg_size_boundary(info_t info) { uint32_t n; if (info<2) return; n=HTEG8; - if (n-1!=0x100-info) QUIT(@["List size boundary byte 0x%x does not match info value %d at 0x%tx"@], + if (n-1!=0x100-info) QUIT(@["List size boundary byte 0x%x does not match info value %d at " SIZE_F@], n, info,hpos-hstart); } @@ -9755,7 +9752,7 @@ void hteg_list(list_t *l) l->p=hpos-hstart; hteg_size_boundary(INFO(z)); s=hteg_list_size(INFO(z)); - if (s!=l->s) QUIT(@["List sizes at 0x%tx and 0x%x do not match 0x%x != 0x%x"@], + if (s!=l->s) QUIT(@["List sizes at " SIZE_F " and 0x%x do not match 0x%x != 0x%x"@], hpos-hstart,node_pos-1,s,l->s); @<skip and check the start byte |a|@>@; } @@ -9851,7 +9848,7 @@ To define basic types in a portable way, we create an include file. The macro |_MSC_VER| (Microsoft Visual C Version)\index{Microsoft Visual C} is defined only if using the respective compiler. \index{false+\\{false}}\index{true+\\{true}}\index{bool+\&{bool}} -@(basetypes.h@>= +@(hibasetypes.h@>= #ifndef __BASETYPES_H__ #define __BASETYPES_H__ #include <stdlib.h> @@ -9873,7 +9870,6 @@ is defined only if using the respective compiler. #define false (!true) #define __SIZEOF_FLOAT__ 4 #define __SIZEOF_DOUBLE__ 8 -#define INT32_MAX (2147483647) #define PRIx64 "I64x" #pragma @[warning( disable : @[4244@]@t @> @[4996@]@t @> @[4127@])@] #else @@ -9898,11 +9894,11 @@ typedef double float64_t; -\subsection{{\tt hformat.h}}\index{hformat.h+{\tt hformat.h}} -The \.{hformat.h} file contains definitions of types, macros, variables and functions +\subsection{{\tt format.h}}\index{format.h+{\tt format.h}} +The \.{format.h} file contains definitions of types, macros, variables and functions that are needed in other compilation units. -@(hformat.h@>= +@(hiformat.h@>= #ifndef _HFORMAT_H_ #define _HFORMAT_H_ @<debug macros@>@; @@ -9926,15 +9922,15 @@ extern signed char hnode_size[0x100]; #endif @ -\subsection{{\tt hformat.c}}\index{hformat.c+{\tt hformat.c}}\index{mkhformat.c+{\tt mkhformat.c}} -For maximum flexibility and efficiency, the file {\tt hformat.c} +\subsection{{\tt tables.c}}\index{tables.c+{\tt tables.c}}\index{mktables.c+{\tt mktables.c}} +For maximum flexibility and efficiency, the file {\tt tables.c} is generated by a \CEE\ program. -Here is the |main| program of {\tt mkhformat}: +Here is the |main| program of {\tt mktables}: -@(mkhformat.c@>= +@(himktables.c@>= #include <stdio.h> -#include "basetypes.h" -#include "hformat.h" +#include "hibasetypes.h" +#include "hiformat.h" @<skip macros@>@; int max_fixed[32], max_default[32]; @@ -9952,8 +9948,8 @@ int main(void) int i; - printf("#include \"basetypes.h\"\n"@/ - "#include \"hformat.h\"\n\n");@/ + printf("#include \"hibasetypes.h\"\n"@/ + "#include \"hiformat.h\"\n\n");@/ @<print |content_name| and |definition_name|@>@; @@ -10001,11 +9997,11 @@ The following code prints the arrays containing the default values. @ -\subsection{{\tt hget.h}}\index{hget.h+{\tt hget.h}} -The \.{hget.h} file contains function prototypes for all the functions +\subsection{{\tt get.h}}\index{get.h+{\tt get.h}} +The \.{get.h} file contains function prototypes for all the functions that read the short format. -@(hget.h@>= +@(higet.h@>= @<hint types@>@; @<directory entry type@>@; @<shared get macros@>@; @@ -10049,9 +10045,9 @@ extern uint8_t hff_tag; -\subsection{{\tt hget.c}}\index{hget.c+{\tt hget.c}} -@(hget.c@>= -#include "basetypes.h" +\subsection{{\tt get.c}}\index{get.c+{\tt get.c}} +@(higet.c@>= +#include "hibasetypes.h" #include <string.h> #include <math.h> #include <zlib.h> @@ -10059,9 +10055,9 @@ extern uint8_t hff_tag; #include <sys/stat.h> #include <fcntl.h> -#include "error.h" -#include "hformat.h" -#include "hget.h" +#include "hierror.h" +#include "hiformat.h" +#include "higet.h" @<common variables@>@; @@ -10074,12 +10070,12 @@ extern uint8_t hff_tag; @<shared skip functions@>@; @ -\subsection{{\tt hput.h}}\index{hput.h+{\tt hput.h}} -The \.{hput.h} file contains function prototypes for all the functions +\subsection{{\tt put.h}}\index{put.h+{\tt put.h}} +The \.{put.h} file contains function prototypes for all the functions that write the short format. -@(hput.h@>= +@(hiput.h@>= @<put macros@>@; @<hint macros@>@; @<hint types@>@; @@ -10148,18 +10144,18 @@ extern int hcompress_depth(int n, int c); @ -\subsection{{\tt hput.c}}\label{writeshort}\index{hput.c+{\tt hput.c}} +\subsection{{\tt put.c}}\label{writeshort}\index{put.c+{\tt put.c}} \noindent -@(hput.c@>= -#include "basetypes.h" +@(hiput.c@>= +#include "hibasetypes.h" #include <string.h> #include <ctype.h> #include <sys/types.h> #include <sys/stat.h> #include <zlib.h> -#include "error.h" -#include "hformat.h" -#include "hput.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" @<common variables@>@; @<shared put variables@>@; @@ -10168,18 +10164,18 @@ extern int hcompress_depth(int n, int c); @<put functions@>@; @ -\subsection{{\tt shrink.l}}\index{shrink.l+{\tt shrink.l}}\index{scanning} -The definitions for lex are collected in the file {\tt shrink.l} +\subsection{{\tt lexer.l}}\index{lexer.l+{\tt lexer.l}}\index{scanning} +The definitions for lex are collected in the file {\tt lexer.l} -@(shrink.l@>= +@(hilexer.l@>= %{ -#include "basetypes.h" -#include "error.h" -#include "hformat.h" -#include "hput.h" +#include "hibasetypes.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" @<enable bison debugging@>@; -#include "hishrink-parser.h" +#include "hiparser.h" @<scanning macros@>@;@+ @<scanning functions@>@; @@ -10206,20 +10202,20 @@ int yywrap (void )@+{ return 1;@+} -\subsection{{\tt shrink.y}}\index{shrink.y+{\tt shrink.y}}\index{parsing} +\subsection{{\tt parser.y}}\index{parser.y+{\tt parser.y}}\index{parsing} -The grammar rules for bison are collected in the file {\tt shrink.y}. +The grammar rules for bison are collected in the file {\tt parser.y}. % for the option %token-table use the command line parameter -k -@(shrink.y@>= +@(hiparser.y@>= %{ -#include "basetypes.h" +#include "hibasetypes.h" #include <string.h> #include <math.h> -#include "error.h" -#include "hformat.h" -#include "hput.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" extern char **hfont_name; /* in common variables */ @<definition checks@>@; @@ -10261,7 +10257,7 @@ extern int yylex(void); \.{shrink} is a \CEE\ program translating a \HINT\ file in long format into a \HINT\ file in short format. @(hishrink.c@>= -#include "basetypes.h" +#include "hibasetypes.h" #include <string.h> #include <ctype.h> #include <sys/types.h> @@ -10271,10 +10267,10 @@ extern int yylex(void); #endif #include <zlib.h> -#include "error.h" -#include "hformat.h" -#include "hput.h" -#include "hishrink-parser.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" +#include "hiparser.h" extern void yyset_debug(int lex_debug); extern int yylineno; @@ -10334,7 +10330,7 @@ explain_usage: format into a \HINT\ file in long format. @(histretch.c@>= -#include "basetypes.h" +#include "hibasetypes.h" #include <math.h> #include <string.h> #include <ctype.h> @@ -10345,9 +10341,9 @@ format into a \HINT\ file in long format. #include <direct.h> #endif #include <fcntl.h> -#include "error.h" -#include "hformat.h" -#include "hget.h" +#include "hierror.h" +#include "hiformat.h" +#include "higet.h" @<get macros@>@; @<write macros@>@; @@ -10399,7 +10395,7 @@ In the above program, the get functions call the write functions and the write functions call some get functions. This requires function declarations to satisfy the define before use requirement of \CEE. Some of the necessary function declarations are already -contained in {\tt hget.h}. The remaining declarations are these: +contained in {\tt get.h}. The remaining declarations are these: @<get function declarations@>= extern void hget_xdimen_node(xdimen_t *x); @@ -10420,15 +10416,15 @@ extern int hget_txt(void); \.{skip} is a \CEE\ program reading the content section of a \HINT\ file in short format backwards. -@(skip.c@>= -#include "basetypes.h" +@(hiskip.c@>= +#include "hibasetypes.h" #include <string.h> #include <zlib.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> -#include "error.h" -#include "hformat.h" +#include "hierror.h" +#include "hiformat.h" @<hint types@>@; @<common variables@>@; diff --git a/Build/source/texk/web2c/hitexdir/hishrink-lexer.c b/Build/source/texk/web2c/hitexdir/hilexer.c index 22a3f4fa4d9..228cd613cd1 100644 --- a/Build/source/texk/web2c/hitexdir/hishrink-lexer.c +++ b/Build/source/texk/web2c/hitexdir/hilexer.c @@ -1,13 +1,12 @@ -#line 2 "shrink.lex.c" +#line 1 "lexer.c" -#line 4 "shrink.lex.c" +#line 3 "lexer.c" #define YY_INT_ALIGNED short int /* A lexical scanner generated by flex */ /* %not-for-header */ - /* %if-c-only */ /* %if-not-reentrant */ @@ -17,8 +16,8 @@ #define FLEX_SCANNER #define YY_FLEX_MAJOR_VERSION 2 -#define YY_FLEX_MINOR_VERSION 5 -#define YY_FLEX_SUBMINOR_VERSION 37 +#define YY_FLEX_MINOR_VERSION 6 +#define YY_FLEX_SUBMINOR_VERSION 4 #if YY_FLEX_SUBMINOR_VERSION > 0 #define FLEX_BETA #endif @@ -27,7 +26,7 @@ /* %endif */ /* %if-c-only */ - + /* %endif */ /* %if-c-only */ @@ -109,50 +108,39 @@ typedef unsigned int flex_uint32_t; #define UINT32_MAX (4294967295U) #endif +#ifndef SIZE_MAX +#define SIZE_MAX (~(size_t)0) +#endif + #endif /* ! C99 */ #endif /* ! FLEXINT_H */ /* %endif */ +/* begin standard C++ headers. */ /* %if-c++-only */ /* %endif */ -#ifdef __cplusplus - -/* The "const" storage-class-modifier is valid. */ -#define YY_USE_CONST - -#else /* ! __cplusplus */ - -/* C99 requires __STDC__ to be defined as 1. */ -#if defined (__STDC__) - -#define YY_USE_CONST - -#endif /* defined (__STDC__) */ -#endif /* ! __cplusplus */ - -#ifdef YY_USE_CONST +/* TODO: this is always defined, so inline it */ #define yyconst const + +#if defined(__GNUC__) && __GNUC__ >= 3 +#define yynoreturn __attribute__((__noreturn__)) #else -#define yyconst +#define yynoreturn #endif /* %not-for-header */ - /* Returned upon end-of-file. */ #define YY_NULL 0 /* %ok-for-header */ /* %not-for-header */ - -/* Promotes a possibly negative, possibly signed char to an unsigned - * integer for use as an array index. If the signed char is negative, - * we want to instead treat it as an 8-bit unsigned char, hence the - * double cast. +/* Promotes a possibly negative, possibly signed char to an + * integer in range [0..255] for use as an array index. */ -#define YY_SC_TO_UI(c) ((unsigned int) (unsigned char) c) +#define YY_SC_TO_UI(c) ((YY_CHAR) (c)) /* %ok-for-header */ /* %if-reentrant */ @@ -167,25 +155,29 @@ typedef unsigned int flex_uint32_t; * definition of BEGIN. */ #define BEGIN (yy_start) = 1 + 2 * - /* Translate the current start state into a value that can be later handed * to BEGIN to return to the state. The YYSTATE alias is for lex * compatibility. */ #define YY_START (((yy_start) - 1) / 2) #define YYSTATE YY_START - /* Action number for EOF rule of a given start state. */ #define YY_STATE_EOF(state) (YY_END_OF_BUFFER + state + 1) - /* Special action meaning "start processing a new file". */ -#define YY_NEW_FILE yyrestart(yyin ) - +#define YY_NEW_FILE yyrestart( yyin ) #define YY_END_OF_BUFFER_CHAR 0 /* Size of default input buffer. */ #ifndef YY_BUF_SIZE +#ifdef __ia64__ +/* On IA-64, the buffer size is 16k, not 8k. + * Moreover, YY_BUF_SIZE is 2*YY_READ_BUF_SIZE in the general case. + * Ditto for the __ia64__ case accordingly. + */ +#define YY_BUF_SIZE 32768 +#else #define YY_BUF_SIZE 16384 +#endif /* __ia64__ */ #endif /* The state buf must be large enough to hold one state per character in the main buffer. @@ -203,7 +195,7 @@ typedef size_t yy_size_t; #endif /* %if-not-reentrant */ -extern yy_size_t yyleng; +extern int yyleng; /* %endif */ /* %if-c-only */ @@ -215,10 +207,10 @@ extern FILE *yyin, *yyout; #define EOB_ACT_CONTINUE_SCAN 0 #define EOB_ACT_END_OF_FILE 1 #define EOB_ACT_LAST_MATCH 2 - + /* Note: We specifically omit the test for yy_rule_can_match_eol because it requires * access to the local variable yy_act. Since yyless() is a macro, it would break - * existing scanners that call yyless() from OUTSIDE yylex. + * existing scanners that call yyless() from OUTSIDE yylex. * One obvious solution it to make yy_act a global. I tried that, and saw * a 5% performance hit in a non-yylineno scanner, because yy_act is * normally declared as a register variable-- so it is not worth it. @@ -230,6 +222,13 @@ extern FILE *yyin, *yyout; if ( yytext[yyl] == '\n' )\ --yylineno;\ }while(0) + #define YY_LINENO_REWIND_TO(dst) \ + do {\ + const char *p;\ + for ( p = yy_cp-1; p >= (dst); --p)\ + if ( *p == '\n' )\ + --yylineno;\ + }while(0) /* Return all but the first "n" matched characters back to the input stream. */ #define yyless(n) \ @@ -244,7 +243,6 @@ extern FILE *yyin, *yyout; YY_DO_BEFORE_ACTION; /* set up yytext again */ \ } \ while ( 0 ) - #define unput(c) yyunput( c, (yytext_ptr) ) #ifndef YY_STRUCT_YY_BUFFER_STATE @@ -264,12 +262,12 @@ struct yy_buffer_state /* Size of input buffer in bytes, not including room for EOB * characters. */ - yy_size_t yy_buf_size; + int yy_buf_size; /* Number of characters read into yy_ch_buf, not including EOB * characters. */ - yy_size_t yy_n_chars; + int yy_n_chars; /* Whether we "own" the buffer - i.e., we know we created it, * and can realloc() it to grow it, and should free() it to @@ -292,7 +290,7 @@ struct yy_buffer_state int yy_bs_lineno; /**< The line count. */ int yy_bs_column; /**< The column count. */ - + /* Whether to try to fill the input buffer when we reach the * end of it. */ @@ -319,13 +317,12 @@ struct yy_buffer_state /* %if-c-only Standard (non-C++) definition */ /* %not-for-header */ - /* %if-not-reentrant */ /* Stack of input buffers. */ static size_t yy_buffer_stack_top = 0; /**< index of top of stack. */ static size_t yy_buffer_stack_max = 0; /**< capacity of stack. */ -static YY_BUFFER_STATE * yy_buffer_stack = 0; /**< Stack as an array. */ +static YY_BUFFER_STATE * yy_buffer_stack = NULL; /**< Stack as an array. */ /* %endif */ /* %ok-for-header */ @@ -340,7 +337,6 @@ static YY_BUFFER_STATE * yy_buffer_stack = 0; /**< Stack as an array. */ #define YY_CURRENT_BUFFER ( (yy_buffer_stack) \ ? (yy_buffer_stack)[(yy_buffer_stack_top)] \ : NULL) - /* Same as previous macro, but useful when we know that the buffer stack is not * NULL or when we need an lvalue. For internal use only. */ @@ -350,14 +346,13 @@ static YY_BUFFER_STATE * yy_buffer_stack = 0; /**< Stack as an array. */ /* %if-not-reentrant */ /* %not-for-header */ - /* yy_hold_char holds the character lost when yytext is formed. */ static char yy_hold_char; -static yy_size_t yy_n_chars; /* number of characters read into yy_ch_buf */ -yy_size_t yyleng; +static int yy_n_chars; /* number of characters read into yy_ch_buf */ +int yyleng; /* Points to current character in buffer. */ -static char *yy_c_buf_p = (char *) 0; +static char *yy_c_buf_p = NULL; static int yy_init = 0; /* whether we need to initialize */ static int yy_start = 0; /* start state number */ @@ -369,78 +364,77 @@ static int yy_did_buffer_switch_on_eof; /* %endif */ -void yyrestart (FILE *input_file ); -void yy_switch_to_buffer (YY_BUFFER_STATE new_buffer ); -YY_BUFFER_STATE yy_create_buffer (FILE *file,int size ); -void yy_delete_buffer (YY_BUFFER_STATE b ); -void yy_flush_buffer (YY_BUFFER_STATE b ); -void yypush_buffer_state (YY_BUFFER_STATE new_buffer ); -void yypop_buffer_state (void ); +void yyrestart ( FILE *input_file ); +void yy_switch_to_buffer ( YY_BUFFER_STATE new_buffer ); +YY_BUFFER_STATE yy_create_buffer ( FILE *file, int size ); +void yy_delete_buffer ( YY_BUFFER_STATE b ); +void yy_flush_buffer ( YY_BUFFER_STATE b ); +void yypush_buffer_state ( YY_BUFFER_STATE new_buffer ); +void yypop_buffer_state ( void ); -static void yyensure_buffer_stack (void ); -static void yy_load_buffer_state (void ); -static void yy_init_buffer (YY_BUFFER_STATE b,FILE *file ); +static void yyensure_buffer_stack ( void ); +static void yy_load_buffer_state ( void ); +static void yy_init_buffer ( YY_BUFFER_STATE b, FILE *file ); +#define YY_FLUSH_BUFFER yy_flush_buffer( YY_CURRENT_BUFFER ) -#define YY_FLUSH_BUFFER yy_flush_buffer(YY_CURRENT_BUFFER ) - -YY_BUFFER_STATE yy_scan_buffer (char *base,yy_size_t size ); -YY_BUFFER_STATE yy_scan_string (yyconst char *yy_str ); -YY_BUFFER_STATE yy_scan_bytes (yyconst char *bytes,yy_size_t len ); +YY_BUFFER_STATE yy_scan_buffer ( char *base, yy_size_t size ); +YY_BUFFER_STATE yy_scan_string ( const char *yy_str ); +YY_BUFFER_STATE yy_scan_bytes ( const char *bytes, int len ); /* %endif */ -void *yyalloc (yy_size_t ); -void *yyrealloc (void *,yy_size_t ); -void yyfree (void * ); +void *yyalloc ( yy_size_t ); +void *yyrealloc ( void *, yy_size_t ); +void yyfree ( void * ); #define yy_new_buffer yy_create_buffer - #define yy_set_interactive(is_interactive) \ { \ if ( ! YY_CURRENT_BUFFER ){ \ yyensure_buffer_stack (); \ YY_CURRENT_BUFFER_LVALUE = \ - yy_create_buffer(yyin,YY_BUF_SIZE ); \ + yy_create_buffer( yyin, YY_BUF_SIZE ); \ } \ YY_CURRENT_BUFFER_LVALUE->yy_is_interactive = is_interactive; \ } - #define yy_set_bol(at_bol) \ { \ if ( ! YY_CURRENT_BUFFER ){\ yyensure_buffer_stack (); \ YY_CURRENT_BUFFER_LVALUE = \ - yy_create_buffer(yyin,YY_BUF_SIZE ); \ + yy_create_buffer( yyin, YY_BUF_SIZE ); \ } \ YY_CURRENT_BUFFER_LVALUE->yy_at_bol = at_bol; \ } - #define YY_AT_BOL() (YY_CURRENT_BUFFER_LVALUE->yy_at_bol) /* %% [1.0] yytext/yyin/yyout/yy_state_type/yylineno etc. def's & init go here */ /* Begin user sect3 */ #define FLEX_DEBUG +typedef flex_uint8_t YY_CHAR; -typedef unsigned char YY_CHAR; - -FILE *yyin = (FILE *) 0, *yyout = (FILE *) 0; +FILE *yyin = NULL, *yyout = NULL; typedef int yy_state_type; extern int yylineno; - int yylineno = 1; extern char *yytext; +#ifdef yytext_ptr +#undef yytext_ptr +#endif #define yytext_ptr yytext +/* %% [1.5] DFA */ + /* %if-c-only Standard (non-C++) definition */ -static yy_state_type yy_get_previous_state (void ); -static yy_state_type yy_try_NUL_trans (yy_state_type current_state ); -static int yy_get_next_buffer (void ); -static void yy_fatal_error (yyconst char msg[] ); +static yy_state_type yy_get_previous_state ( void ); +static yy_state_type yy_try_NUL_trans ( yy_state_type current_state ); +static int yy_get_next_buffer ( void ); +static void yynoreturn yy_fatal_error ( const char* msg ); /* %endif */ @@ -450,12 +444,11 @@ static void yy_fatal_error (yyconst char msg[] ); #define YY_DO_BEFORE_ACTION \ (yytext_ptr) = yy_bp; \ /* %% [2.0] code to fiddle yytext and yyleng for yymore() goes here \ */\ - yyleng = (size_t) (yy_cp - yy_bp); \ + yyleng = (int) (yy_cp - yy_bp); \ (yy_hold_char) = *yy_cp; \ *yy_cp = '\0'; \ /* %% [3.0] code to copy yytext_ptr to yytext[] goes here, if %array \ */\ (yy_c_buf_p) = yy_cp; - /* %% [4.0] data tables for the DFA and the user's section 1 definitions go here */ #define YY_NUM_RULES 126 #define YY_END_OF_BUFFER 127 @@ -466,7 +459,7 @@ struct yy_trans_info flex_int32_t yy_verify; flex_int32_t yy_nxt; }; -static yyconst flex_int16_t yy_accept[371] = +static const flex_int16_t yy_accept[371] = { 0, 0, 0, 0, 0, 0, 0, 127, 125, 6, 6, 43, 47, 10, 125, 114, 125, 4, 4, 1, 2, @@ -510,7 +503,7 @@ static yyconst flex_int16_t yy_accept[371] = 92, 124, 124, 38, 93, 124, 117, 124, 119, 0 } ; -static yyconst flex_int32_t yy_ec[256] = +static const YY_CHAR yy_ec[256] = { 0, 1, 1, 1, 1, 1, 1, 1, 1, 2, 3, 4, 4, 2, 1, 1, 1, 1, 1, 1, 1, @@ -542,7 +535,7 @@ static yyconst flex_int32_t yy_ec[256] = 65, 65, 65, 65, 65 } ; -static yyconst flex_int32_t yy_meta[66] = +static const YY_CHAR yy_meta[66] = { 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, @@ -553,7 +546,7 @@ static yyconst flex_int32_t yy_meta[66] = 4, 1, 1, 1, 4 } ; -static yyconst flex_int16_t yy_base[376] = +static const flex_int16_t yy_base[376] = { 0, 0, 0, 65, 130, 194, 258, 629, 630, 630, 630, 630, 630, 74, 68, 64, 68, 77, 72, 630, 630, @@ -598,7 +591,7 @@ static yyconst flex_int16_t yy_base[376] = 503, 507, 511, 514, 70 } ; -static yyconst flex_int16_t yy_def[376] = +static const flex_int16_t yy_def[376] = { 0, 370, 1, 371, 371, 372, 372, 370, 370, 370, 370, 370, 370, 373, 374, 370, 370, 370, 370, 370, 370, @@ -643,7 +636,7 @@ static yyconst flex_int16_t yy_def[376] = 370, 370, 370, 370, 370 } ; -static yyconst flex_int16_t yy_nxt[696] = +static const flex_int16_t yy_nxt[696] = { 0, 8, 9, 10, 9, 9, 11, 12, 8, 13, 14, 8, 15, 16, 16, 8, 17, 18, 18, 19, 20, @@ -724,7 +717,7 @@ static yyconst flex_int16_t yy_nxt[696] = } ; -static yyconst flex_int16_t yy_chk[696] = +static const flex_int16_t yy_chk[696] = { 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, @@ -806,7 +799,7 @@ static yyconst flex_int16_t yy_chk[696] = } ; /* Table of booleans, true if rule could match eol. */ -static yyconst flex_int32_t yy_rule_can_match_eol[127] = +static const flex_int32_t yy_rule_can_match_eol[127] = { 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, @@ -822,22 +815,22 @@ static char *yy_last_accepting_cpos; extern int yy_flex_debug; int yy_flex_debug = 1; -static yyconst flex_int16_t yy_rule_linenum[126] = +static const flex_int16_t yy_rule_linenum[126] = { 0, - 170, 171, 172, 173, 174, 175, 176, 178, 180, 182, - 184, 185, 186, 187, 188, 193, 194, 195, 196, 197, - 198, 199, 200, 202, 204, 206, 207, 208, 209, 211, - 212, 213, 215, 216, 217, 219, 220, 222, 224, 225, - 226, 228, 229, 231, 232, 233, 235, 238, 240, 241, - 243, 244, 245, 246, 247, 248, 249, 251, 252, 254, - 256, 257, 258, 259, 260, 261, 262, 263, 264, 267, - 269, 270, 271, 273, 274, 275, 276, 279, 280, 281, - 283, 284, 285, 286, 287, 288, 289, 291, 292, 293, - 294, 296, 298, 300, 302, 304, 306, 307, 309, 311, - - 312, 313, 314, 316, 318, 319, 320, 322, 324, 326, - 327, 328, 329, 330, 332, 334, 336, 337, 339, 341, - 343, 345, 347, 349, 350 + 171, 172, 173, 174, 175, 176, 177, 179, 181, 183, + 185, 186, 187, 188, 189, 194, 195, 196, 197, 198, + 199, 200, 201, 203, 205, 207, 208, 209, 210, 212, + 213, 214, 216, 217, 218, 220, 221, 223, 225, 226, + 227, 229, 230, 232, 233, 234, 236, 239, 241, 242, + 244, 245, 246, 247, 248, 249, 250, 252, 253, 255, + 257, 258, 259, 260, 261, 262, 263, 264, 265, 268, + 270, 271, 272, 274, 275, 276, 277, 280, 281, 282, + 284, 285, 286, 287, 288, 289, 290, 292, 293, 294, + 295, 297, 299, 301, 303, 305, 307, 308, 310, 312, + + 313, 314, 315, 317, 319, 320, 321, 323, 325, 327, + 328, 329, 330, 331, 333, 335, 337, 338, 340, 342, + 344, 346, 348, 350, 351 } ; /* The intent behind this definition is that it'll catch @@ -848,15 +841,15 @@ static yyconst flex_int16_t yy_rule_linenum[126] = #define YY_MORE_ADJ 0 #define YY_RESTORE_YY_MORE_OFFSET char *yytext; -#line 1 "shrink.l" -/*509:*/ -#line 3 "shrink.l" - #line 10175 "format.w" +#line 1 "lexer.l" +#line 2 "lexer.l" + /*509:*/ + #line 10171 "format.w" -#include "basetypes.h" -#include "error.h" -#include "hformat.h" -#include "hput.h" +#include "hibasetypes.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" /*423:*/ #ifdef DEBUG @@ -866,7 +859,7 @@ extern int yydebug; #define YYDEBUG 0 #endif /*:423*/ -#include "hishrink-parser.h" +#include "hiparser.h" /*22:*/ #define SCAN_UDEC(S) yylval.u= strtoul(S,NULL,10) @@ -987,32 +980,34 @@ float64_t xtof(char*x) } /*:61*/ int yywrap(void){ - #line 10186 "format.w" + #line 10182 "format.w" return 1;} #ifdef _MSC_VER #pragma warning( disable : 4267) #endif +#line 989 "lexer.c" #define YY_NO_UNISTD_H 1 #define YY_NO_INPUT 1 -/*23:*/ -/*:23*/ /*32:*/ +#line 152 "lexer.l" + /*23:*/ + /*:23*/ /*32:*/ -/*:32*/ /*39:*/ -/*:39*/ /*41:*/ -/*:41*/ /*43:*/ -/*:43*/ /*45:*/ -/*:45*/ /*149:*/ + /*:32*/ /*39:*/ + /*:39*/ /*41:*/ + /*:41*/ /*43:*/ + /*:43*/ /*45:*/ + /*:45*/ /*149:*/ -/*:149*/ -#line 1009 "shrink.lex.c" + /*:149*/ +#line 1003 "lexer.c" #define INITIAL 0 #define STR 1 #define TXT 2 #ifndef YY_NO_UNISTD_H -/* Special case for "unistd.h", since it is non-ANSI. We include it way +/* Special case for "hiunistd.h", since it is non-ANSI. We include it way * down here because we want the user's section 1 to have been scanned first. * The user has a chance to override it with an option. */ @@ -1031,7 +1026,7 @@ int yywrap(void){ /* %if-reentrant */ /* %if-c-only */ -static int yy_init_globals (void ); +static int yy_init_globals ( void ); /* %endif */ /* %if-reentrant */ @@ -1041,31 +1036,31 @@ static int yy_init_globals (void ); /* Accessor methods to globals. These are made visible to non-reentrant scanners for convenience. */ -int yylex_destroy (void ); +int yylex_destroy ( void ); -int yyget_debug (void ); +int yyget_debug ( void ); -void yyset_debug (int debug_flag ); +void yyset_debug ( int debug_flag ); -YY_EXTRA_TYPE yyget_extra (void ); +YY_EXTRA_TYPE yyget_extra ( void ); -void yyset_extra (YY_EXTRA_TYPE user_defined ); +void yyset_extra ( YY_EXTRA_TYPE user_defined ); -FILE *yyget_in (void ); +FILE *yyget_in ( void ); -void yyset_in (FILE * in_str ); +void yyset_in ( FILE * _in_str ); -FILE *yyget_out (void ); +FILE *yyget_out ( void ); -void yyset_out (FILE * out_str ); +void yyset_out ( FILE * _out_str ); -yy_size_t yyget_leng (void ); + int yyget_leng ( void ); -char *yyget_text (void ); +char *yyget_text ( void ); -int yyget_lineno (void ); +int yyget_lineno ( void ); -void yyset_lineno (int line_number ); +void yyset_lineno ( int _line_number ); /* %if-bison-bridge */ /* %endif */ @@ -1076,34 +1071,35 @@ void yyset_lineno (int line_number ); #ifndef YY_SKIP_YYWRAP #ifdef __cplusplus -extern "C" int yywrap (void ); +extern "C" int yywrap ( void ); #else -extern int yywrap (void ); +extern int yywrap ( void ); #endif #endif /* %not-for-header */ - +#ifndef YY_NO_UNPUT + +#endif /* %ok-for-header */ /* %endif */ #ifndef yytext_ptr -static void yy_flex_strncpy (char *,yyconst char *,int ); +static void yy_flex_strncpy ( char *, const char *, int ); #endif #ifdef YY_NEED_STRLEN -static int yy_flex_strlen (yyconst char * ); +static int yy_flex_strlen ( const char * ); #endif #ifndef YY_NO_INPUT /* %if-c-only Standard (non-C++) definition */ /* %not-for-header */ - #ifdef __cplusplus -static int yyinput (void ); +static int yyinput ( void ); #else -static int input (void ); +static int input ( void ); #endif /* %ok-for-header */ @@ -1116,15 +1112,20 @@ static int input (void ); static int yy_start_stack_depth = 0; static int *yy_start_stack = NULL; - static void yy_push_state (int new_state ); + static void yy_push_state ( int _new_state ); - static void yy_pop_state (void ); + static void yy_pop_state ( void ); /* %endif */ /* Amount of stuff to slurp up with each read. */ #ifndef YY_READ_BUF_SIZE +#ifdef __ia64__ +/* On IA-64, the buffer size is 16k, not 8k */ +#define YY_READ_BUF_SIZE 16384 +#else #define YY_READ_BUF_SIZE 8192 +#endif /* __ia64__ */ #endif /* Copy whatever the last rule matched to the standard output. */ @@ -1133,7 +1134,7 @@ static int input (void ); /* This used to be an fputs(), but since the string might contain NUL's, * we now use fwrite(). */ -#define ECHO do { if (fwrite( yytext, yyleng, 1, yyout )) {} } while (0) +#define ECHO do { if (fwrite( yytext, (size_t) yyleng, 1, yyout )) {} } while (0) /* %endif */ /* %if-c++-only C++ definition */ /* %endif */ @@ -1148,7 +1149,7 @@ static int input (void ); if ( YY_CURRENT_BUFFER_LVALUE->yy_is_interactive ) \ { \ int c = '*'; \ - size_t n; \ + int n; \ for ( n = 0; n < max_size && \ (c = getc( yyin )) != EOF && c != '\n'; ++n ) \ buf[n] = (char) c; \ @@ -1161,7 +1162,7 @@ static int input (void ); else \ { \ errno=0; \ - while ( (result = fread(buf, 1, max_size, yyin))==0 && ferror(yyin)) \ + while ( (result = (int) fread(buf, 1, (yy_size_t) max_size, yyin)) == 0 && ferror(yyin)) \ { \ if( errno != EINTR) \ { \ @@ -1202,11 +1203,9 @@ static int input (void ); /* %if-tables-serialization structures and prototypes */ /* %not-for-header */ - /* %ok-for-header */ /* %not-for-header */ - /* %tables-yydmap generated elements */ /* %endif */ /* end tables serialization structures and prototypes */ @@ -1237,7 +1236,7 @@ extern int yylex (void); /* Code executed at the end of each rule. */ #ifndef YY_BREAK -#define YY_BREAK break; +#define YY_BREAK /*LINTED*/break; #endif /* %% [6.0] YY_RULE_SETUP definition goes here */ @@ -1245,22 +1244,14 @@ extern int yylex (void); YY_USER_ACTION /* %not-for-header */ - /** The main scanner function which does all the work. */ YY_DECL { - register yy_state_type yy_current_state; - register char *yy_cp, *yy_bp; - register int yy_act; + yy_state_type yy_current_state; + char *yy_cp, *yy_bp; + int yy_act; -/* %% [7.0] user's declarations go here */ -#line 167 "shrink.l" - - - /*3:*/ -#line 1263 "shrink.lex.c" - if ( !(yy_init) ) { (yy_init) = 1; @@ -1289,13 +1280,21 @@ YY_DECL if ( ! YY_CURRENT_BUFFER ) { yyensure_buffer_stack (); YY_CURRENT_BUFFER_LVALUE = - yy_create_buffer(yyin,YY_BUF_SIZE ); + yy_create_buffer( yyin, YY_BUF_SIZE ); } - yy_load_buffer_state( ); + yy_load_buffer_state( ); } - while ( 1 ) /* loops until end-of-file is reached */ + { +/* %% [7.0] user's declarations go here */ +#line 168 "lexer.l" + + + /*3:*/ +#line 1295 "lexer.c" + + while ( /*CONSTCOND*/1 ) /* loops until end-of-file is reached */ { /* %% [8.0] yymore()-related code goes here */ yy_cp = (yy_c_buf_p); @@ -1313,7 +1312,7 @@ YY_DECL yy_match: do { - register YY_CHAR yy_c = yy_ec[YY_SC_TO_UI(*yy_cp)]; + YY_CHAR yy_c = yy_ec[YY_SC_TO_UI(*yy_cp)] ; if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; @@ -1323,9 +1322,9 @@ yy_match: { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 371 ) - yy_c = yy_meta[(unsigned int) yy_c]; + yy_c = yy_meta[yy_c]; } - yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; + yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c]; ++yy_cp; } while ( yy_current_state != 370 ); @@ -1345,7 +1344,7 @@ yy_find_action: int yyl; for ( yyl = 0; yyl < yyleng; ++yyl ) if ( yytext[yyl] == '\n' ) - + yylineno++; ; } @@ -1381,686 +1380,686 @@ do_action: /* This label is used only to access EOF actions. */ case 1: YY_RULE_SETUP -#line 170 "shrink.l" +#line 171 "lexer.l" SCAN_START;return START; YY_BREAK case 2: YY_RULE_SETUP -#line 171 "shrink.l" +#line 172 "lexer.l" SCAN_END;return END; YY_BREAK case 3: YY_RULE_SETUP -#line 172 "shrink.l" +#line 173 "lexer.l" return GLYPH; YY_BREAK case 4: YY_RULE_SETUP -#line 173 "shrink.l" +#line 174 "lexer.l" SCAN_UDEC(yytext);return UNSIGNED; YY_BREAK case 5: YY_RULE_SETUP -#line 174 "shrink.l" +#line 175 "lexer.l" SCAN_UDEC(yytext+1);return REFERENCE; YY_BREAK case 6: /* rule 6 can match eol */ YY_RULE_SETUP -#line 175 "shrink.l" +#line 176 "lexer.l" ; YY_BREAK case 7: /* rule 7 can match eol */ YY_RULE_SETUP -#line 176 "shrink.l" +#line 177 "lexer.l" ; YY_BREAK /*:3*/ /*24:*/ case 8: YY_RULE_SETUP -#line 178 "shrink.l" +#line 179 "lexer.l" SCAN_HEX(yytext+2);return UNSIGNED; YY_BREAK /*:24*/ /*27:*/ case 9: YY_RULE_SETUP -#line 180 "shrink.l" +#line 181 "lexer.l" SCAN_DEC(yytext);return SIGNED; YY_BREAK /*:27*/ /*34:*/ case 10: YY_RULE_SETUP -#line 182 "shrink.l" +#line 183 "lexer.l" STR_START;BEGIN(STR); YY_BREAK case 11: YY_RULE_SETUP -#line 184 "shrink.l" +#line 185 "lexer.l" STR_END;SCAN_STR;BEGIN(INITIAL);return STRING; YY_BREAK case 12: YY_RULE_SETUP -#line 185 "shrink.l" +#line 186 "lexer.l" STR_ADD('\''); YY_BREAK case 13: YY_RULE_SETUP -#line 186 "shrink.l" +#line 187 "lexer.l" STR_ADD(yytext[0]); YY_BREAK case 14: YY_RULE_SETUP -#line 187 "shrink.l" +#line 188 "lexer.l" RNG("String character",yytext[0],0x20,0x7E); YY_BREAK case 15: /* rule 15 can match eol */ YY_RULE_SETUP -#line 188 "shrink.l" +#line 189 "lexer.l" QUIT("Unterminated String in line %d",yylineno); YY_BREAK /*:34*/ /*48:*/ case 16: YY_RULE_SETUP -#line 193 "shrink.l" +#line 194 "lexer.l" STR_START;STR_PUT('\'');BEGIN(STR); YY_BREAK case 17: YY_RULE_SETUP -#line 194 "shrink.l" +#line 195 "lexer.l" SCAN_UTF8_1(yytext+1);return CHARCODE; YY_BREAK case 18: YY_RULE_SETUP -#line 195 "shrink.l" +#line 196 "lexer.l" STR_START;STR_PUT(yytext[1]);STR_PUT('\'');BEGIN(STR); YY_BREAK case 19: YY_RULE_SETUP -#line 196 "shrink.l" +#line 197 "lexer.l" STR_START;STR_PUT('\'');STR_PUT('\'');BEGIN(STR); YY_BREAK case 20: /* rule 20 can match eol */ YY_RULE_SETUP -#line 197 "shrink.l" +#line 198 "lexer.l" SCAN_UTF8_1(yytext+1);return CHARCODE; YY_BREAK case 21: YY_RULE_SETUP -#line 198 "shrink.l" +#line 199 "lexer.l" SCAN_UTF8_2(yytext+1);return CHARCODE; YY_BREAK case 22: YY_RULE_SETUP -#line 199 "shrink.l" +#line 200 "lexer.l" SCAN_UTF8_3(yytext+1);return CHARCODE; YY_BREAK case 23: YY_RULE_SETUP -#line 200 "shrink.l" +#line 201 "lexer.l" SCAN_UTF8_4(yytext+1);return CHARCODE; YY_BREAK /*:48*/ /*55:*/ case 24: YY_RULE_SETUP -#line 202 "shrink.l" +#line 203 "lexer.l" SCAN_DECFLOAT;return FPNUM; YY_BREAK /*:55*/ /*59:*/ case 25: YY_RULE_SETUP -#line 204 "shrink.l" +#line 205 "lexer.l" SCAN_HEXFLOAT;return FPNUM; YY_BREAK /*:59*/ /*80:*/ case 26: YY_RULE_SETUP -#line 206 "shrink.l" +#line 207 "lexer.l" return DIMEN; YY_BREAK case 27: YY_RULE_SETUP -#line 207 "shrink.l" +#line 208 "lexer.l" return PT; YY_BREAK case 28: YY_RULE_SETUP -#line 208 "shrink.l" +#line 209 "lexer.l" return MM; YY_BREAK case 29: YY_RULE_SETUP -#line 209 "shrink.l" +#line 210 "lexer.l" return INCH; YY_BREAK /*:80*/ /*88:*/ case 30: YY_RULE_SETUP -#line 211 "shrink.l" +#line 212 "lexer.l" return XDIMEN; YY_BREAK case 31: YY_RULE_SETUP -#line 212 "shrink.l" +#line 213 "lexer.l" return H; YY_BREAK case 32: YY_RULE_SETUP -#line 213 "shrink.l" +#line 214 "lexer.l" return V; YY_BREAK /*:88*/ /*99:*/ case 33: YY_RULE_SETUP -#line 215 "shrink.l" +#line 216 "lexer.l" return FIL; YY_BREAK case 34: YY_RULE_SETUP -#line 216 "shrink.l" +#line 217 "lexer.l" return FILL; YY_BREAK case 35: YY_RULE_SETUP -#line 217 "shrink.l" +#line 218 "lexer.l" return FILLL; YY_BREAK /*:99*/ /*103:*/ case 36: YY_RULE_SETUP -#line 219 "shrink.l" +#line 220 "lexer.l" return PENALTY; YY_BREAK case 37: YY_RULE_SETUP -#line 220 "shrink.l" +#line 221 "lexer.l" return INTEGER; YY_BREAK /*:103*/ /*109:*/ case 38: YY_RULE_SETUP -#line 222 "shrink.l" +#line 223 "lexer.l" return LANGUAGE; YY_BREAK /*:109*/ /*115:*/ case 39: YY_RULE_SETUP -#line 224 "shrink.l" +#line 225 "lexer.l" return RULE; YY_BREAK case 40: YY_RULE_SETUP -#line 225 "shrink.l" +#line 226 "lexer.l" return RUNNING; YY_BREAK case 41: YY_RULE_SETUP -#line 226 "shrink.l" +#line 227 "lexer.l" return RUNNING; YY_BREAK /*:115*/ /*124:*/ case 42: YY_RULE_SETUP -#line 228 "shrink.l" +#line 229 "lexer.l" return KERN; YY_BREAK case 43: YY_RULE_SETUP -#line 229 "shrink.l" +#line 230 "lexer.l" return EXPLICIT; YY_BREAK /*:124*/ /*133:*/ case 44: YY_RULE_SETUP -#line 231 "shrink.l" +#line 232 "lexer.l" return GLUE; YY_BREAK case 45: YY_RULE_SETUP -#line 232 "shrink.l" +#line 233 "lexer.l" return PLUS; YY_BREAK case 46: YY_RULE_SETUP -#line 233 "shrink.l" +#line 234 "lexer.l" return MINUS; YY_BREAK /*:133*/ /*151:*/ case 47: YY_RULE_SETUP -#line 235 "shrink.l" +#line 236 "lexer.l" SCAN_TXT_START;return TXT_START; YY_BREAK case 48: YY_RULE_SETUP -#line 238 "shrink.l" +#line 239 "lexer.l" SCAN_TXT_END;return TXT_END; YY_BREAK case 49: YY_RULE_SETUP -#line 240 "shrink.l" +#line 241 "lexer.l" SCAN_START;return START; YY_BREAK case 50: YY_RULE_SETUP -#line 241 "shrink.l" +#line 242 "lexer.l" QUIT("> not allowed in text mode"); YY_BREAK case 51: YY_RULE_SETUP -#line 243 "shrink.l" +#line 244 "lexer.l" yylval.u= '\\';return TXT_CC; YY_BREAK case 52: YY_RULE_SETUP -#line 244 "shrink.l" +#line 245 "lexer.l" yylval.u= '"';return TXT_CC; YY_BREAK case 53: YY_RULE_SETUP -#line 245 "shrink.l" +#line 246 "lexer.l" yylval.u= '<';return TXT_CC; YY_BREAK case 54: YY_RULE_SETUP -#line 246 "shrink.l" +#line 247 "lexer.l" yylval.u= '>';return TXT_CC; YY_BREAK case 55: YY_RULE_SETUP -#line 247 "shrink.l" +#line 248 "lexer.l" yylval.u= ' ';return TXT_CC; YY_BREAK case 56: YY_RULE_SETUP -#line 248 "shrink.l" +#line 249 "lexer.l" yylval.u= '-';return TXT_CC; YY_BREAK case 57: YY_RULE_SETUP -#line 249 "shrink.l" +#line 250 "lexer.l" return TXT_IGNORE; YY_BREAK case 58: /* rule 58 can match eol */ YY_RULE_SETUP -#line 251 "shrink.l" +#line 252 "lexer.l" return TXT_FONT_GLUE; YY_BREAK case 59: /* rule 59 can match eol */ YY_RULE_SETUP -#line 252 "shrink.l" +#line 253 "lexer.l" ; YY_BREAK case 60: YY_RULE_SETUP -#line 254 "shrink.l" +#line 255 "lexer.l" yylval.u= yytext[1]-'0';return TXT_FONT; YY_BREAK case 61: YY_RULE_SETUP -#line 256 "shrink.l" +#line 257 "lexer.l" SCAN_REF(font_kind);return TXT_GLOBAL; YY_BREAK case 62: YY_RULE_SETUP -#line 257 "shrink.l" +#line 258 "lexer.l" SCAN_REF(penalty_kind);return TXT_GLOBAL; YY_BREAK case 63: YY_RULE_SETUP -#line 258 "shrink.l" +#line 259 "lexer.l" SCAN_REF(kern_kind);return TXT_GLOBAL; YY_BREAK case 64: YY_RULE_SETUP -#line 259 "shrink.l" +#line 260 "lexer.l" SCAN_REF(ligature_kind);return TXT_GLOBAL; YY_BREAK case 65: YY_RULE_SETUP -#line 260 "shrink.l" +#line 261 "lexer.l" SCAN_REF(disc_kind);return TXT_GLOBAL; YY_BREAK case 66: YY_RULE_SETUP -#line 261 "shrink.l" +#line 262 "lexer.l" SCAN_REF(glue_kind);return TXT_GLOBAL; YY_BREAK case 67: YY_RULE_SETUP -#line 262 "shrink.l" +#line 263 "lexer.l" SCAN_REF(language_kind);return TXT_GLOBAL; YY_BREAK case 68: YY_RULE_SETUP -#line 263 "shrink.l" +#line 264 "lexer.l" SCAN_REF(rule_kind);return TXT_GLOBAL; YY_BREAK case 69: YY_RULE_SETUP -#line 264 "shrink.l" +#line 265 "lexer.l" SCAN_REF(image_kind);return TXT_GLOBAL; YY_BREAK case 70: YY_RULE_SETUP -#line 267 "shrink.l" +#line 268 "lexer.l" SCAN_UDEC(yytext+2);return TXT_CC; YY_BREAK case 71: YY_RULE_SETUP -#line 269 "shrink.l" +#line 270 "lexer.l" yylval.u= yytext[1]-'a';return TXT_LOCAL; YY_BREAK case 72: YY_RULE_SETUP -#line 270 "shrink.l" +#line 271 "lexer.l" return TXT_FONT_GLUE; YY_BREAK case 73: YY_RULE_SETUP -#line 271 "shrink.l" +#line 272 "lexer.l" return TXT_FONT_HYPHEN; YY_BREAK case 74: /* rule 74 can match eol */ YY_RULE_SETUP -#line 273 "shrink.l" +#line 274 "lexer.l" SCAN_UTF8_1(yytext);return TXT_CC; YY_BREAK case 75: YY_RULE_SETUP -#line 274 "shrink.l" +#line 275 "lexer.l" SCAN_UTF8_2(yytext);return TXT_CC; YY_BREAK case 76: YY_RULE_SETUP -#line 275 "shrink.l" +#line 276 "lexer.l" SCAN_UTF8_3(yytext);return TXT_CC; YY_BREAK case 77: YY_RULE_SETUP -#line 276 "shrink.l" +#line 277 "lexer.l" SCAN_UTF8_4(yytext);return TXT_CC; YY_BREAK /*:151*/ /*162:*/ case 78: YY_RULE_SETUP -#line 279 "shrink.l" +#line 280 "lexer.l" return HBOX; YY_BREAK case 79: YY_RULE_SETUP -#line 280 "shrink.l" +#line 281 "lexer.l" return VBOX; YY_BREAK case 80: YY_RULE_SETUP -#line 281 "shrink.l" +#line 282 "lexer.l" return SHIFTED; YY_BREAK /*:162*/ /*170:*/ case 81: YY_RULE_SETUP -#line 283 "shrink.l" +#line 284 "lexer.l" return HPACK; YY_BREAK case 82: YY_RULE_SETUP -#line 284 "shrink.l" +#line 285 "lexer.l" return HSET; YY_BREAK case 83: YY_RULE_SETUP -#line 285 "shrink.l" +#line 286 "lexer.l" return VPACK; YY_BREAK case 84: YY_RULE_SETUP -#line 286 "shrink.l" +#line 287 "lexer.l" return VSET; YY_BREAK case 85: YY_RULE_SETUP -#line 287 "shrink.l" +#line 288 "lexer.l" return ADD; YY_BREAK case 86: YY_RULE_SETUP -#line 288 "shrink.l" +#line 289 "lexer.l" return TO; YY_BREAK case 87: YY_RULE_SETUP -#line 289 "shrink.l" +#line 290 "lexer.l" return DEPTH; YY_BREAK /*:170*/ /*175:*/ case 88: YY_RULE_SETUP -#line 291 "shrink.l" +#line 292 "lexer.l" return LEADERS; YY_BREAK case 89: YY_RULE_SETUP -#line 292 "shrink.l" +#line 293 "lexer.l" return ALIGN; YY_BREAK case 90: YY_RULE_SETUP -#line 293 "shrink.l" +#line 294 "lexer.l" return CENTER; YY_BREAK case 91: YY_RULE_SETUP -#line 294 "shrink.l" +#line 295 "lexer.l" return EXPAND; YY_BREAK /*:175*/ /*182:*/ case 92: YY_RULE_SETUP -#line 296 "shrink.l" +#line 297 "lexer.l" return BASELINE; YY_BREAK /*:182*/ /*189:*/ case 93: YY_RULE_SETUP -#line 298 "shrink.l" +#line 299 "lexer.l" return LIGATURE; YY_BREAK /*:189*/ /*197:*/ case 94: YY_RULE_SETUP -#line 300 "shrink.l" +#line 301 "lexer.l" return DISC; YY_BREAK /*:197*/ /*205:*/ case 95: YY_RULE_SETUP -#line 302 "shrink.l" +#line 303 "lexer.l" return PAR; YY_BREAK /*:205*/ /*210:*/ case 96: YY_RULE_SETUP -#line 304 "shrink.l" +#line 305 "lexer.l" return MATH; YY_BREAK /*:210*/ /*215:*/ case 97: YY_RULE_SETUP -#line 306 "shrink.l" +#line 307 "lexer.l" return ON; YY_BREAK case 98: YY_RULE_SETUP -#line 307 "shrink.l" +#line 308 "lexer.l" return OFF; YY_BREAK /*:215*/ /*219:*/ case 99: YY_RULE_SETUP -#line 309 "shrink.l" +#line 310 "lexer.l" return ADJUST; YY_BREAK /*:219*/ /*223:*/ case 100: YY_RULE_SETUP -#line 311 "shrink.l" +#line 312 "lexer.l" return TABLE; YY_BREAK case 101: YY_RULE_SETUP -#line 312 "shrink.l" +#line 313 "lexer.l" return ITEM; YY_BREAK case 102: YY_RULE_SETUP -#line 313 "shrink.l" +#line 314 "lexer.l" return ITEM; YY_BREAK case 103: YY_RULE_SETUP -#line 314 "shrink.l" +#line 315 "lexer.l" return ITEM; YY_BREAK /*:223*/ /*230:*/ case 104: YY_RULE_SETUP -#line 316 "shrink.l" +#line 317 "lexer.l" return IMAGE; YY_BREAK /*:230*/ /*247:*/ case 105: YY_RULE_SETUP -#line 318 "shrink.l" +#line 319 "lexer.l" return LABEL; YY_BREAK case 106: YY_RULE_SETUP -#line 319 "shrink.l" +#line 320 "lexer.l" return BOT; YY_BREAK case 107: YY_RULE_SETUP -#line 320 "shrink.l" +#line 321 "lexer.l" return MID; YY_BREAK /*:247*/ /*261:*/ case 108: YY_RULE_SETUP -#line 322 "shrink.l" +#line 323 "lexer.l" return LINK; YY_BREAK /*:261*/ /*271:*/ case 109: YY_RULE_SETUP -#line 324 "shrink.l" +#line 325 "lexer.l" return OUTLINE; YY_BREAK /*:271*/ /*278:*/ case 110: YY_RULE_SETUP -#line 326 "shrink.l" +#line 327 "lexer.l" if(section_no==1)return STREAMDEF;else return STREAM; YY_BREAK case 111: YY_RULE_SETUP -#line 327 "shrink.l" +#line 328 "lexer.l" return FIRST; YY_BREAK case 112: YY_RULE_SETUP -#line 328 "shrink.l" +#line 329 "lexer.l" return LAST; YY_BREAK case 113: YY_RULE_SETUP -#line 329 "shrink.l" +#line 330 "lexer.l" return TOP; YY_BREAK case 114: YY_RULE_SETUP -#line 330 "shrink.l" +#line 331 "lexer.l" return NOREFERENCE; YY_BREAK /*:278*/ /*288:*/ case 115: YY_RULE_SETUP -#line 332 "shrink.l" +#line 333 "lexer.l" return PAGE; YY_BREAK /*:288*/ /*296:*/ case 116: YY_RULE_SETUP -#line 334 "shrink.l" +#line 335 "lexer.l" return RANGE; YY_BREAK /*:296*/ /*323:*/ case 117: YY_RULE_SETUP -#line 336 "shrink.l" +#line 337 "lexer.l" return DIRECTORY; YY_BREAK case 118: YY_RULE_SETUP -#line 337 "shrink.l" +#line 338 "lexer.l" return SECTION; YY_BREAK /*:323*/ /*342:*/ case 119: YY_RULE_SETUP -#line 339 "shrink.l" +#line 340 "lexer.l" return DEFINITIONS; YY_BREAK /*:342*/ /*350:*/ case 120: YY_RULE_SETUP -#line 341 "shrink.l" +#line 342 "lexer.l" return MAX; YY_BREAK /*:350*/ /*365:*/ case 121: YY_RULE_SETUP -#line 343 "shrink.l" +#line 344 "lexer.l" return PARAM; YY_BREAK /*:365*/ /*374:*/ case 122: YY_RULE_SETUP -#line 345 "shrink.l" +#line 346 "lexer.l" return FONT; YY_BREAK /*:374*/ /*402:*/ case 123: YY_RULE_SETUP -#line 347 "shrink.l" +#line 348 "lexer.l" return CONTENT; YY_BREAK /*:402*/ case 124: YY_RULE_SETUP -#line 349 "shrink.l" +#line 350 "lexer.l" QUIT("Unexpected keyword '%s' in line %d",yytext,yylineno); YY_BREAK case 125: YY_RULE_SETUP -#line 350 "shrink.l" +#line 351 "lexer.l" QUIT("Unexpected character '%c' (0x%02X) in line %d",yytext[0]>' '?yytext[0]:' ',yytext[0],yylineno); YY_BREAK case 126: YY_RULE_SETUP -#line 352 "shrink.l" +#line 353 "lexer.l" ECHO; YY_BREAK -#line 2064 "shrink.lex.c" +#line 2062 "lexer.c" case YY_STATE_EOF(INITIAL): case YY_STATE_EOF(STR): case YY_STATE_EOF(TXT): @@ -2087,7 +2086,11 @@ case YY_STATE_EOF(TXT): * back-up) that will match for the new input source. */ (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars; +/* %if-c-only */ YY_CURRENT_BUFFER_LVALUE->yy_input_file = yyin; +/* %endif */ +/* %if-c++-only */ +/* %endif */ YY_CURRENT_BUFFER_LVALUE->yy_buffer_status = YY_BUFFER_NORMAL; } @@ -2142,7 +2145,7 @@ case YY_STATE_EOF(TXT): { (yy_did_buffer_switch_on_eof) = 0; - if ( yywrap( ) ) + if ( yywrap( ) ) { /* Note: because we've taken care in * yy_get_next_buffer() to have set up @@ -2195,12 +2198,12 @@ case YY_STATE_EOF(TXT): "fatal flex scanner internal error--no action found" ); } /* end of action switch */ } /* end of scanning one token */ + } /* end of user's declarations */ } /* end of yylex */ /* %ok-for-header */ /* %if-c++-only */ /* %not-for-header */ - /* %ok-for-header */ /* %endif */ @@ -2218,9 +2221,9 @@ static int yy_get_next_buffer (void) /* %if-c++-only */ /* %endif */ { - register char *dest = YY_CURRENT_BUFFER_LVALUE->yy_ch_buf; - register char *source = (yytext_ptr); - register int number_to_move, i; + char *dest = YY_CURRENT_BUFFER_LVALUE->yy_ch_buf; + char *source = (yytext_ptr); + int number_to_move, i; int ret_val; if ( (yy_c_buf_p) > &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars) + 1] ) @@ -2249,7 +2252,7 @@ static int yy_get_next_buffer (void) /* Try to read more data. */ /* First move last chars to start of buffer. */ - number_to_move = (int) ((yy_c_buf_p) - (yytext_ptr)) - 1; + number_to_move = (int) ((yy_c_buf_p) - (yytext_ptr) - 1); for ( i = 0; i < number_to_move; ++i ) *(dest++) = *(source++); @@ -2262,7 +2265,7 @@ static int yy_get_next_buffer (void) else { - yy_size_t num_to_read = + int num_to_read = YY_CURRENT_BUFFER_LVALUE->yy_buf_size - number_to_move - 1; while ( num_to_read <= 0 ) @@ -2276,7 +2279,7 @@ static int yy_get_next_buffer (void) if ( b->yy_is_our_buffer ) { - yy_size_t new_size = b->yy_buf_size * 2; + int new_size = b->yy_buf_size * 2; if ( new_size <= 0 ) b->yy_buf_size += b->yy_buf_size / 8; @@ -2285,11 +2288,12 @@ static int yy_get_next_buffer (void) b->yy_ch_buf = (char *) /* Include room in for 2 EOB chars. */ - yyrealloc((void *) b->yy_ch_buf,b->yy_buf_size + 2 ); + yyrealloc( (void *) b->yy_ch_buf, + (yy_size_t) (b->yy_buf_size + 2) ); } else /* Can't grow it, we don't own it. */ - b->yy_ch_buf = 0; + b->yy_ch_buf = NULL; if ( ! b->yy_ch_buf ) YY_FATAL_ERROR( @@ -2317,7 +2321,7 @@ static int yy_get_next_buffer (void) if ( number_to_move == YY_MORE_ADJ ) { ret_val = EOB_ACT_END_OF_FILE; - yyrestart(yyin ); + yyrestart( yyin ); } else @@ -2331,12 +2335,15 @@ static int yy_get_next_buffer (void) else ret_val = EOB_ACT_CONTINUE_SCAN; - if ((yy_size_t) ((yy_n_chars) + number_to_move) > YY_CURRENT_BUFFER_LVALUE->yy_buf_size) { + if (((yy_n_chars) + number_to_move) > YY_CURRENT_BUFFER_LVALUE->yy_buf_size) { /* Extend the array by 50%, plus the number we really need. */ - yy_size_t new_size = (yy_n_chars) + number_to_move + ((yy_n_chars) >> 1); - YY_CURRENT_BUFFER_LVALUE->yy_ch_buf = (char *) yyrealloc((void *) YY_CURRENT_BUFFER_LVALUE->yy_ch_buf,new_size ); + int new_size = (yy_n_chars) + number_to_move + ((yy_n_chars) >> 1); + YY_CURRENT_BUFFER_LVALUE->yy_ch_buf = (char *) yyrealloc( + (void *) YY_CURRENT_BUFFER_LVALUE->yy_ch_buf, (yy_size_t) new_size ); if ( ! YY_CURRENT_BUFFER_LVALUE->yy_ch_buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_get_next_buffer()" ); + /* "- 2" to take care of EOB's */ + YY_CURRENT_BUFFER_LVALUE->yy_buf_size = (int) (new_size - 2); } (yy_n_chars) += number_to_move; @@ -2352,14 +2359,13 @@ static int yy_get_next_buffer (void) /* %if-c-only */ /* %not-for-header */ - static yy_state_type yy_get_previous_state (void) /* %endif */ /* %if-c++-only */ /* %endif */ { - register yy_state_type yy_current_state; - register char *yy_cp; + yy_state_type yy_current_state; + char *yy_cp; /* %% [15.0] code to get the start state into yy_current_state goes here */ yy_current_state = (yy_start); @@ -2367,7 +2373,7 @@ static int yy_get_next_buffer (void) for ( yy_cp = (yytext_ptr) + YY_MORE_ADJ; yy_cp < (yy_c_buf_p); ++yy_cp ) { /* %% [16.0] code to find the next state goes here */ - register YY_CHAR yy_c = (*yy_cp ? yy_ec[YY_SC_TO_UI(*yy_cp)] : 1); + YY_CHAR yy_c = (*yy_cp ? yy_ec[YY_SC_TO_UI(*yy_cp)] : 1); if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; @@ -2377,9 +2383,9 @@ static int yy_get_next_buffer (void) { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 371 ) - yy_c = yy_meta[(unsigned int) yy_c]; + yy_c = yy_meta[yy_c]; } - yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; + yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c]; } return yy_current_state; @@ -2396,11 +2402,11 @@ static int yy_get_next_buffer (void) /* %if-c++-only */ /* %endif */ { - register int yy_is_jam; + int yy_is_jam; /* %% [17.0] code to find the next state, and perhaps do backing up, goes here */ - register char *yy_cp = (yy_c_buf_p); + char *yy_cp = (yy_c_buf_p); - register YY_CHAR yy_c = 1; + YY_CHAR yy_c = 1; if ( yy_accept[yy_current_state] ) { (yy_last_accepting_state) = yy_current_state; @@ -2410,17 +2416,19 @@ static int yy_get_next_buffer (void) { yy_current_state = (int) yy_def[yy_current_state]; if ( yy_current_state >= 371 ) - yy_c = yy_meta[(unsigned int) yy_c]; + yy_c = yy_meta[yy_c]; } - yy_current_state = yy_nxt[yy_base[yy_current_state] + (unsigned int) yy_c]; + yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c]; yy_is_jam = (yy_current_state == 370); return yy_is_jam ? 0 : yy_current_state; } +#ifndef YY_NO_UNPUT /* %if-c-only */ /* %endif */ +#endif /* %if-c-only */ #ifndef YY_NO_INPUT @@ -2450,7 +2458,7 @@ static int yy_get_next_buffer (void) else { /* need more input */ - yy_size_t offset = (yy_c_buf_p) - (yytext_ptr); + int offset = (int) ((yy_c_buf_p) - (yytext_ptr)); ++(yy_c_buf_p); switch ( yy_get_next_buffer( ) ) @@ -2467,14 +2475,14 @@ static int yy_get_next_buffer (void) */ /* Reset buffer status. */ - yyrestart(yyin ); + yyrestart( yyin ); /*FALLTHROUGH*/ case EOB_ACT_END_OF_FILE: { - if ( yywrap( ) ) - return EOF; + if ( yywrap( ) ) + return 0; if ( ! (yy_did_buffer_switch_on_eof) ) YY_NEW_FILE; @@ -2498,7 +2506,7 @@ static int yy_get_next_buffer (void) /* %% [19.0] update BOL and yylineno */ if ( c == '\n' ) - + yylineno++; ; @@ -2523,13 +2531,16 @@ static int yy_get_next_buffer (void) if ( ! YY_CURRENT_BUFFER ){ yyensure_buffer_stack (); YY_CURRENT_BUFFER_LVALUE = - yy_create_buffer(yyin,YY_BUF_SIZE ); + yy_create_buffer( yyin, YY_BUF_SIZE ); } - yy_init_buffer(YY_CURRENT_BUFFER,input_file ); - yy_load_buffer_state( ); + yy_init_buffer( YY_CURRENT_BUFFER, input_file ); + yy_load_buffer_state( ); } +/* %if-c++-only */ +/* %endif */ + /** Switch to a different input buffer. * @param new_buffer The new input buffer. * @@ -2559,7 +2570,7 @@ static int yy_get_next_buffer (void) } YY_CURRENT_BUFFER_LVALUE = new_buffer; - yy_load_buffer_state( ); + yy_load_buffer_state( ); /* We don't actually know whether we did this switch during * EOF (yywrap()) processing, but the only time this flag @@ -2577,7 +2588,11 @@ static void yy_load_buffer_state (void) { (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars; (yytext_ptr) = (yy_c_buf_p) = YY_CURRENT_BUFFER_LVALUE->yy_buf_pos; +/* %if-c-only */ yyin = YY_CURRENT_BUFFER_LVALUE->yy_input_file; +/* %endif */ +/* %if-c++-only */ +/* %endif */ (yy_hold_char) = *(yy_c_buf_p); } @@ -2595,7 +2610,7 @@ static void yy_load_buffer_state (void) { YY_BUFFER_STATE b; - b = (YY_BUFFER_STATE) yyalloc(sizeof( struct yy_buffer_state ) ); + b = (YY_BUFFER_STATE) yyalloc( sizeof( struct yy_buffer_state ) ); if ( ! b ) YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" ); @@ -2604,17 +2619,20 @@ static void yy_load_buffer_state (void) /* yy_ch_buf has to be 2 characters longer than the size given because * we need to put in 2 end-of-buffer characters. */ - b->yy_ch_buf = (char *) yyalloc(b->yy_buf_size + 2 ); + b->yy_ch_buf = (char *) yyalloc( (yy_size_t) (b->yy_buf_size + 2) ); if ( ! b->yy_ch_buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" ); b->yy_is_our_buffer = 1; - yy_init_buffer(b,file ); + yy_init_buffer( b, file ); return b; } +/* %if-c++-only */ +/* %endif */ + /** Destroy the buffer. * @param b a buffer created with yy_create_buffer() * @@ -2633,9 +2651,9 @@ static void yy_load_buffer_state (void) YY_CURRENT_BUFFER_LVALUE = (YY_BUFFER_STATE) 0; if ( b->yy_is_our_buffer ) - yyfree((void *) b->yy_ch_buf ); + yyfree( (void *) b->yy_ch_buf ); - yyfree((void *) b ); + yyfree( (void *) b ); } /* Initializes or reinitializes a buffer. @@ -2651,9 +2669,13 @@ static void yy_load_buffer_state (void) { int oerrno = errno; - yy_flush_buffer(b ); + yy_flush_buffer( b ); +/* %if-c-only */ b->yy_input_file = file; +/* %endif */ +/* %if-c++-only */ +/* %endif */ b->yy_fill_buffer = 1; /* If b is the current buffer, then yy_init_buffer was _probably_ @@ -2703,7 +2725,7 @@ static void yy_load_buffer_state (void) b->yy_buffer_status = YY_BUFFER_NEW; if ( b == YY_CURRENT_BUFFER ) - yy_load_buffer_state( ); + yy_load_buffer_state( ); } /* %if-c-or-c++ */ @@ -2739,7 +2761,7 @@ void yypush_buffer_state (YY_BUFFER_STATE new_buffer ) YY_CURRENT_BUFFER_LVALUE = new_buffer; /* copied from yy_switch_to_buffer. */ - yy_load_buffer_state( ); + yy_load_buffer_state( ); (yy_did_buffer_switch_on_eof) = 1; } /* %endif */ @@ -2764,7 +2786,7 @@ void yypop_buffer_state (void) --(yy_buffer_stack_top); if (YY_CURRENT_BUFFER) { - yy_load_buffer_state( ); + yy_load_buffer_state( ); (yy_did_buffer_switch_on_eof) = 1; } } @@ -2788,15 +2810,15 @@ static void yyensure_buffer_stack (void) * scanner will even need a stack. We use 2 instead of 1 to avoid an * immediate realloc on the next call. */ - num_to_alloc = 1; + num_to_alloc = 1; /* After all that talk, this was set to 1 anyways... */ (yy_buffer_stack) = (struct yy_buffer_state**)yyalloc (num_to_alloc * sizeof(struct yy_buffer_state*) ); if ( ! (yy_buffer_stack) ) YY_FATAL_ERROR( "out of dynamic memory in yyensure_buffer_stack()" ); - + memset((yy_buffer_stack), 0, num_to_alloc * sizeof(struct yy_buffer_state*)); - + (yy_buffer_stack_max) = num_to_alloc; (yy_buffer_stack_top) = 0; return; @@ -2805,7 +2827,7 @@ static void yyensure_buffer_stack (void) if ((yy_buffer_stack_top) >= ((yy_buffer_stack_max)) - 1){ /* Increase the buffer to prepare for a possible push. */ - int grow_size = 8 /* arbitrary grow size */; + yy_size_t grow_size = 8 /* arbitrary grow size */; num_to_alloc = (yy_buffer_stack_max) + grow_size; (yy_buffer_stack) = (struct yy_buffer_state**)yyrealloc @@ -2827,7 +2849,7 @@ static void yyensure_buffer_stack (void) * @param base the character buffer * @param size the size in bytes of the character buffer * - * @return the newly allocated buffer state object. + * @return the newly allocated buffer state object. */ YY_BUFFER_STATE yy_scan_buffer (char * base, yy_size_t size ) { @@ -2837,23 +2859,23 @@ YY_BUFFER_STATE yy_scan_buffer (char * base, yy_size_t size ) base[size-2] != YY_END_OF_BUFFER_CHAR || base[size-1] != YY_END_OF_BUFFER_CHAR ) /* They forgot to leave room for the EOB's. */ - return 0; + return NULL; - b = (YY_BUFFER_STATE) yyalloc(sizeof( struct yy_buffer_state ) ); + b = (YY_BUFFER_STATE) yyalloc( sizeof( struct yy_buffer_state ) ); if ( ! b ) YY_FATAL_ERROR( "out of dynamic memory in yy_scan_buffer()" ); - b->yy_buf_size = size - 2; /* "- 2" to take care of EOB's */ + b->yy_buf_size = (int) (size - 2); /* "- 2" to take care of EOB's */ b->yy_buf_pos = b->yy_ch_buf = base; b->yy_is_our_buffer = 0; - b->yy_input_file = 0; + b->yy_input_file = NULL; b->yy_n_chars = b->yy_buf_size; b->yy_is_interactive = 0; b->yy_at_bol = 1; b->yy_fill_buffer = 0; b->yy_buffer_status = YY_BUFFER_NEW; - yy_switch_to_buffer(b ); + yy_switch_to_buffer( b ); return b; } @@ -2868,10 +2890,10 @@ YY_BUFFER_STATE yy_scan_buffer (char * base, yy_size_t size ) * @note If you want to scan bytes that may contain NUL values, then use * yy_scan_bytes() instead. */ -YY_BUFFER_STATE yy_scan_string (yyconst char * yystr ) +YY_BUFFER_STATE yy_scan_string (const char * yystr ) { - return yy_scan_bytes(yystr,strlen(yystr) ); + return yy_scan_bytes( yystr, (int) strlen(yystr) ); } /* %endif */ @@ -2883,7 +2905,7 @@ YY_BUFFER_STATE yy_scan_string (yyconst char * yystr ) * * @return the newly allocated buffer state object. */ -YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len ) +YY_BUFFER_STATE yy_scan_bytes (const char * yybytes, int _yybytes_len ) { YY_BUFFER_STATE b; char *buf; @@ -2891,8 +2913,8 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len int i; /* Get memory for full buffer, including space for trailing EOB's. */ - n = _yybytes_len + 2; - buf = (char *) yyalloc(n ); + n = (yy_size_t) (_yybytes_len + 2); + buf = (char *) yyalloc( n ); if ( ! buf ) YY_FATAL_ERROR( "out of dynamic memory in yy_scan_bytes()" ); @@ -2901,7 +2923,7 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len buf[_yybytes_len] = buf[_yybytes_len+1] = YY_END_OF_BUFFER_CHAR; - b = yy_scan_buffer(buf,n ); + b = yy_scan_buffer( buf, n ); if ( ! b ) YY_FATAL_ERROR( "bad buffer in yy_scan_bytes()" ); @@ -2915,7 +2937,7 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len /* %endif */ /* %if-c-only */ - static void yy_push_state (int new_state ) + static void yy_push_state (int _new_state ) /* %endif */ /* %if-c++-only */ /* %endif */ @@ -2925,13 +2947,14 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len yy_size_t new_size; (yy_start_stack_depth) += YY_START_STACK_INCR; - new_size = (yy_start_stack_depth) * sizeof( int ); + new_size = (yy_size_t) (yy_start_stack_depth) * sizeof( int ); if ( ! (yy_start_stack) ) - (yy_start_stack) = (int *) yyalloc(new_size ); + (yy_start_stack) = (int *) yyalloc( new_size ); else - (yy_start_stack) = (int *) yyrealloc((void *) (yy_start_stack),new_size ); + (yy_start_stack) = (int *) yyrealloc( + (void *) (yy_start_stack), new_size ); if ( ! (yy_start_stack) ) YY_FATAL_ERROR( "out of memory expanding start-condition stack" ); @@ -2939,7 +2962,7 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len (yy_start_stack)[(yy_start_stack_ptr)++] = YY_START; - BEGIN(new_state); + BEGIN(_new_state); } /* %if-c-only */ @@ -2959,9 +2982,9 @@ YY_BUFFER_STATE yy_scan_bytes (yyconst char * yybytes, yy_size_t _yybytes_len #endif /* %if-c-only */ -static void yy_fatal_error (yyconst char* msg ) +static void yynoreturn yy_fatal_error (const char* msg ) { - (void) fprintf( stderr, "%s\n", msg ); + fprintf( stderr, "%s\n", msg ); exit( YY_EXIT_FAILURE ); } /* %endif */ @@ -2996,7 +3019,7 @@ static void yy_fatal_error (yyconst char* msg ) */ int yyget_lineno (void) { - + return yylineno; } @@ -3019,7 +3042,7 @@ FILE *yyget_out (void) /** Get the length of the current token. * */ -yy_size_t yyget_leng (void) +int yyget_leng (void) { return yyleng; } @@ -3037,29 +3060,29 @@ char *yyget_text (void) /* %endif */ /** Set the current line number. - * @param line_number + * @param _line_number line number * */ -void yyset_lineno (int line_number ) +void yyset_lineno (int _line_number ) { - yylineno = line_number; + yylineno = _line_number; } /** Set the input stream. This does not discard the current * input buffer. - * @param in_str A readable stream. + * @param _in_str A readable stream. * * @see yy_switch_to_buffer */ -void yyset_in (FILE * in_str ) +void yyset_in (FILE * _in_str ) { - yyin = in_str ; + yyin = _in_str ; } -void yyset_out (FILE * out_str ) +void yyset_out (FILE * _out_str ) { - yyout = out_str ; + yyout = _out_str ; } int yyget_debug (void) @@ -3067,9 +3090,9 @@ int yyget_debug (void) return yy_flex_debug; } -void yyset_debug (int bdebug ) +void yyset_debug (int _bdebug ) { - yy_flex_debug = bdebug ; + yy_flex_debug = _bdebug ; } /* %endif */ @@ -3089,10 +3112,10 @@ static int yy_init_globals (void) /* We do not touch yylineno unless the option is enabled. */ yylineno = 1; - (yy_buffer_stack) = 0; + (yy_buffer_stack) = NULL; (yy_buffer_stack_top) = 0; (yy_buffer_stack_max) = 0; - (yy_c_buf_p) = (char *) 0; + (yy_c_buf_p) = NULL; (yy_init) = 0; (yy_start) = 0; @@ -3105,8 +3128,8 @@ static int yy_init_globals (void) yyin = stdin; yyout = stdout; #else - yyin = (FILE *) 0; - yyout = (FILE *) 0; + yyin = NULL; + yyout = NULL; #endif /* For future reference: Set errno on error, since we are called by @@ -3123,7 +3146,7 @@ int yylex_destroy (void) /* Pop the buffer stack, destroying each element. */ while(YY_CURRENT_BUFFER){ - yy_delete_buffer(YY_CURRENT_BUFFER ); + yy_delete_buffer( YY_CURRENT_BUFFER ); YY_CURRENT_BUFFER_LVALUE = NULL; yypop_buffer_state(); } @@ -3133,7 +3156,7 @@ int yylex_destroy (void) (yy_buffer_stack) = NULL; /* Destroy the start condition stack. */ - yyfree((yy_start_stack) ); + yyfree( (yy_start_stack) ); (yy_start_stack) = NULL; /* Reset the globals. This is important in a non-reentrant scanner so the next time @@ -3151,18 +3174,19 @@ int yylex_destroy (void) */ #ifndef yytext_ptr -static void yy_flex_strncpy (char* s1, yyconst char * s2, int n ) +static void yy_flex_strncpy (char* s1, const char * s2, int n ) { - register int i; + + int i; for ( i = 0; i < n; ++i ) s1[i] = s2[i]; } #endif #ifdef YY_NEED_STRLEN -static int yy_flex_strlen (yyconst char * s ) +static int yy_flex_strlen (const char * s ) { - register int n; + int n; for ( n = 0; s[n]; ++n ) ; @@ -3172,11 +3196,12 @@ static int yy_flex_strlen (yyconst char * s ) void *yyalloc (yy_size_t size ) { - return (void *) malloc( size ); + return malloc(size); } void *yyrealloc (void * ptr, yy_size_t size ) { + /* The cast to (char *) in the following accommodates both * implementations that use char* generic pointers, and those * that use void* generic pointers. It works with the latter @@ -3184,12 +3209,12 @@ void *yyrealloc (void * ptr, yy_size_t size ) * any pointer type to void*, and deal with argument conversions * as though doing an assignment. */ - return (void *) realloc( (char *) ptr, size ); + return realloc(ptr, size); } void yyfree (void * ptr ) { - free( (char *) ptr ); /* see yyrealloc() for (char *) cast */ + free( (char *) ptr ); /* see yyrealloc() for (char *) cast */ } /* %if-tables-serialization definitions */ @@ -3199,8 +3224,7 @@ void yyfree (void * ptr ) /* %ok-for-header */ -#line 352 "shrink.l" - +#line 353 "lexer.l" /*:509*/ diff --git a/Build/source/texk/web2c/hitexdir/hilexer.l b/Build/source/texk/web2c/hitexdir/hilexer.l new file mode 100644 index 00000000000..1f7280727c9 --- /dev/null +++ b/Build/source/texk/web2c/hitexdir/hilexer.l @@ -0,0 +1,353 @@ + /*509:*/ +%{ + #line 10171 "format.w" + +#include "hibasetypes.h" +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" + + /*423:*/ +#ifdef DEBUG +#define YYDEBUG 1 +extern int yydebug; +#else +#define YYDEBUG 0 +#endif + /*:423*/ +#include "hiparser.h" + + /*22:*/ +#define SCAN_UDEC(S) yylval.u= strtoul(S,NULL,10) + /*:22*/ /*25:*/ +#define SCAN_HEX(S) yylval.u= strtoul(S,NULL,16) + /*:25*/ /*28:*/ +#define SCAN_DEC(S) yylval.i= strtol(S,NULL,10) + /*:28*/ /*31:*/ +#define MAX_STR (1<<10) +static char str_buffer[MAX_STR]; +static int str_length; +#define STR_START (str_length= 0) +#define STR_PUT(C) (str_buffer[str_length++]= (C)) +#define STR_ADD(C) STR_PUT(C);RNG("String length",str_length,0,MAX_STR-1) +#define STR_END str_buffer[str_length]= 0 +#define SCAN_STR yylval.s= str_buffer + /*:31*/ /*40:*/ +#define SCAN_UTF8_1(S) yylval.u= ((S)[0]&0x7F) + /*:40*/ /*42:*/ +#define SCAN_UTF8_2(S) yylval.u= (((S)[0]&0x1F)<<6)+((S)[1]&0x3F) + /*:42*/ /*44:*/ +#define SCAN_UTF8_3(S) yylval.u= (((S)[0]&0x0F)<<12)+(((S)[1]&0x3F)<<6)+((S)[2]&0x3F) + /*:44*/ /*46:*/ +#define SCAN_UTF8_4(S) yylval.u= (((S)[0]&0x03)<<18)+(((S)[1]&0x3F)<<12)+(((S)[2]&0x3F)<<6)+((S)[3]&0x3F) + /*:46*/ /*57:*/ +#define SCAN_DECFLOAT yylval.f= atof(yytext) + /*:57*/ /*60:*/ +#define SCAN_HEXFLOAT yylval.f= xtof(yytext) + /*:60*/ /*152:*/ +#define SCAN_REF(K) yylval.rf.k= K; yylval.rf.n= atoi(yytext+2) +static int scan_level= 0; +#define SCAN_START yy_push_state(INITIAL);if (1==scan_level++) hpos0= hpos; +#define SCAN_END if (scan_level--) yy_pop_state(); else QUIT("Too many '>' in line %d",yylineno) +#define SCAN_TXT_START BEGIN(TXT) +#define SCAN_TXT_END BEGIN(INITIAL) + /*:152*/ + /*61:*/ + +float64_t xtof(char*x) +{ + #line 1369 "format.w" + int sign,digits,exp; + uint64_t mantissa= 0; + DBG(DBGFLOAT,"converting %s:\n",x); + /*62:*/ + if(*x=='-'){sign= -1;x++;} + else if(*x=='+'){sign= +1;x++;} + else sign= +1; + DBG(DBGFLOAT,"\tsign=%d\n",sign); + /*:62*/ + x= x+2; + /*63:*/ + digits= 0; + while(*x=='0')x++; + while(*x!='.') + {mantissa= mantissa<<4; + if(*x<'A')mantissa= mantissa+*x-'0'; + else mantissa= mantissa+*x-'A'+10; + x++; + digits++; + } + x++; + exp= 0; + while(*x!=0&&*x!='x') + {mantissa= mantissa<<4; + exp= exp-4; + if(*x<'A')mantissa= mantissa+*x-'0'; + else mantissa= mantissa+*x-'A'+10; + x++; + digits++; + } + DBG(DBGFLOAT,"\tdigits=%d mantissa=0x%"PRIx64", exp=%d\n",digits,mantissa,exp); + /*:63*/ + /*64:*/ + if(mantissa==0)return 0.0; + {int s; + s= digits-DBL_M_BITS/4; + if(s>1) + mantissa= mantissa>>(4*(s-1)); + else if(s<1) + mantissa= mantissa<<(4*(1-s)); + exp= exp+4*(digits-1); + DBG(DBGFLOAT,"\tdigits=%d mantissa=0x%"PRIx64", exp=%d\n",digits,mantissa,exp); + while((mantissa>>DBL_M_BITS)>1){mantissa= mantissa>>1;exp++;} + DBG(DBGFLOAT,"\tdigits=%d mantissa=0x%"PRIx64", exp=%d\n",digits,mantissa,exp); + mantissa= mantissa&~((uint64_t)1<<DBL_M_BITS); + DBG(DBGFLOAT,"\tdigits=%d mantissa=0x%"PRIx64", exp=%d\n",digits,mantissa,exp); + } + /*:64*/ + /*65:*/ + if(*x=='x') + {int s; + x++; + if(*x=='-'){s= -1;x++;} + else if(*x=='+'){s= +1;x++;} + else s= +1; + DBG(DBGFLOAT,"\texpsign=%d\n",s); + DBG(DBGFLOAT,"\texp=%d\n",exp); + while(*x!=0) + {if(*x<'A')exp= exp+4*s*(*x-'0'); + else exp= exp+4*s*(*x-'A'+10); + x++; + DBG(DBGFLOAT,"\texp=%d\n",exp); + } + } + RNG("Floating point exponent",exp,-DBL_EXCESS,DBL_EXCESS); + /*:65*/ + /*66:*/ + {union{float64_t d;uint64_t bits;}u; + if(sign<0)sign= 1;else sign= 0; + exp= exp+DBL_EXCESS; + u.bits= ((uint64_t)sign<<63) + |((uint64_t)exp<<DBL_M_BITS) |mantissa; + DBG(DBGFLOAT," return %f\n",u.d); + return u.d; + } + /*:66*/ + } + /*:61*/ +int yywrap(void){ + #line 10182 "format.w" + return 1;} +#ifdef _MSC_VER +#pragma warning( disable : 4267) +#endif + +%} + +%option yylineno batch stack +%option debug +%option nounistd nounput noinput noyy_top_state + + /*23:*/ +HEX [0-9A-F] + /*:23*/ /*32:*/ +%x STR + /*:32*/ /*39:*/ +UTF8_1 [\x00-\x7F] + /*:39*/ /*41:*/ +UTF8_2 [\xC0-\xDF][\x80-\xBF] + /*:41*/ /*43:*/ +UTF8_3 [\xE0-\xEF][\x80-\xBF][\x80-\xBF] + /*:43*/ /*45:*/ +UTF8_4 [\xF0-\xF7][\x80-\xBF][\x80-\xBF][\x80-\xBF] + /*:45*/ /*149:*/ +%x TXT + /*:149*/ + +%% + + /*3:*/ +"<" SCAN_START;return START; +">" SCAN_END;return END; +glyph return GLYPH; +0|[1-9][0-9]* SCAN_UDEC(yytext);return UNSIGNED; +\*(0|[1-9][0-9]*) SCAN_UDEC(yytext+1);return REFERENCE; +[[:space:]] ; +\([^()\n]*[)\n] ; + /*:3*/ /*24:*/ +0x{HEX}+ SCAN_HEX(yytext+2);return UNSIGNED; + /*:24*/ /*27:*/ +[+-](0|[1-9][0-9]*) SCAN_DEC(yytext);return SIGNED; + /*:27*/ /*34:*/ +' STR_START;BEGIN(STR); +<STR>{ +' STR_END;SCAN_STR;BEGIN(INITIAL);return STRING; +'' STR_ADD('\''); +[\x20-\x7E] STR_ADD(yytext[0]); +. RNG("String character",yytext[0],0x20,0x7E); +\n QUIT("Unterminated String in line %d",yylineno); +} + + + /*:34*/ /*48:*/ +''' STR_START;STR_PUT('\'');BEGIN(STR); +'''' SCAN_UTF8_1(yytext+1);return CHARCODE; +'[\x20-\x7E]'' STR_START;STR_PUT(yytext[1]);STR_PUT('\'');BEGIN(STR); +''''' STR_START;STR_PUT('\'');STR_PUT('\'');BEGIN(STR); +'{UTF8_1}' SCAN_UTF8_1(yytext+1);return CHARCODE; +'{UTF8_2}' SCAN_UTF8_2(yytext+1);return CHARCODE; +'{UTF8_3}' SCAN_UTF8_3(yytext+1);return CHARCODE; +'{UTF8_4}' SCAN_UTF8_4(yytext+1);return CHARCODE; + /*:48*/ /*55:*/ +[+-]?[0-9]+\.[0-9]+(e[+-]?[0-9])? SCAN_DECFLOAT;return FPNUM; + /*:55*/ /*59:*/ +[+-]?0x{HEX}+\.{HEX}+(x[+-]?{HEX}+)? SCAN_HEXFLOAT;return FPNUM; + /*:59*/ /*80:*/ +dimen return DIMEN; +pt return PT; +mm return MM; +in return INCH; + /*:80*/ /*88:*/ +xdimen return XDIMEN; +h return H; +v return V; + /*:88*/ /*99:*/ +fil return FIL; +fill return FILL; +filll return FILLL; + /*:99*/ /*103:*/ +penalty return PENALTY; +int return INTEGER; + /*:103*/ /*109:*/ +language return LANGUAGE; + /*:109*/ /*115:*/ +rule return RULE; +"|" return RUNNING; +"_" return RUNNING; + /*:115*/ /*124:*/ +kern return KERN; +! return EXPLICIT; + /*:124*/ /*133:*/ +glue return GLUE; +plus return PLUS; +minus return MINUS; + /*:133*/ /*151:*/ +\" SCAN_TXT_START;return TXT_START; + +<TXT>{ +\" SCAN_TXT_END;return TXT_END; + +"<" SCAN_START;return START; +">" QUIT("> not allowed in text mode"); + +\\\\ yylval.u= '\\';return TXT_CC; +\\\" yylval.u= '"';return TXT_CC; +\\"<" yylval.u= '<';return TXT_CC; +\\">" yylval.u= '>';return TXT_CC; +\\" " yylval.u= ' ';return TXT_CC; +\\"-" yylval.u= '-';return TXT_CC; +\\"@" return TXT_IGNORE; + +[ \t\r]*(\n[ \t\r]*)+ return TXT_FONT_GLUE; +\\[ \t\r]*\n[ \t\r]* ; + +\\[0-7] yylval.u= yytext[1]-'0';return TXT_FONT; + +\\F[0-9]+\\ SCAN_REF(font_kind);return TXT_GLOBAL; +\\P[0-9]+\\ SCAN_REF(penalty_kind);return TXT_GLOBAL; +\\K[0-9]+\\ SCAN_REF(kern_kind);return TXT_GLOBAL; +\\L[0-9]+\\ SCAN_REF(ligature_kind);return TXT_GLOBAL; +\\D[0-9]+\\ SCAN_REF(disc_kind);return TXT_GLOBAL; +\\G[0-9]+\\ SCAN_REF(glue_kind);return TXT_GLOBAL; +\\S[0-9]+\\ SCAN_REF(language_kind);return TXT_GLOBAL; +\\R[0-9]+\\ SCAN_REF(rule_kind);return TXT_GLOBAL; +\\I[0-9]+\\ SCAN_REF(image_kind);return TXT_GLOBAL; + + +\\C[0-9]+\\ SCAN_UDEC(yytext+2);return TXT_CC; + +\\[a-l] yylval.u= yytext[1]-'a';return TXT_LOCAL; +" " return TXT_FONT_GLUE; +"-" return TXT_FONT_HYPHEN; + +{UTF8_1} SCAN_UTF8_1(yytext);return TXT_CC; +{UTF8_2} SCAN_UTF8_2(yytext);return TXT_CC; +{UTF8_3} SCAN_UTF8_3(yytext);return TXT_CC; +{UTF8_4} SCAN_UTF8_4(yytext);return TXT_CC; +} + /*:151*/ /*162:*/ +hbox return HBOX; +vbox return VBOX; +shifted return SHIFTED; + /*:162*/ /*170:*/ +hpack return HPACK; +hset return HSET; +vpack return VPACK; +vset return VSET; +add return ADD; +to return TO; +depth return DEPTH; + /*:170*/ /*175:*/ +leaders return LEADERS; +align return ALIGN; +center return CENTER; +expand return EXPAND; + /*:175*/ /*182:*/ +baseline return BASELINE; + /*:182*/ /*189:*/ +ligature return LIGATURE; + /*:189*/ /*197:*/ +disc return DISC; + /*:197*/ /*205:*/ +par return PAR; + /*:205*/ /*210:*/ +math return MATH; + /*:210*/ /*215:*/ +on return ON; +off return OFF; + /*:215*/ /*219:*/ +adjust return ADJUST; + /*:219*/ /*223:*/ +table return TABLE; +item return ITEM; +row return ITEM; +column return ITEM; + /*:223*/ /*230:*/ +image return IMAGE; + /*:230*/ /*247:*/ +label return LABEL; +bot return BOT; +mid return MID; + /*:247*/ /*261:*/ +link return LINK; + /*:261*/ /*271:*/ +outline return OUTLINE; + /*:271*/ /*278:*/ +stream if(section_no==1)return STREAMDEF;else return STREAM; +first return FIRST; +last return LAST; +top return TOP; +\* return NOREFERENCE; + /*:278*/ /*288:*/ +page return PAGE; + /*:288*/ /*296:*/ +range return RANGE; + /*:296*/ /*323:*/ +directory return DIRECTORY; +section return SECTION; + /*:323*/ /*342:*/ +definitions return DEFINITIONS; + /*:342*/ /*350:*/ +max return MAX; + /*:350*/ /*365:*/ +param return PARAM; + /*:365*/ /*374:*/ +font return FONT; + /*:374*/ /*402:*/ +content return CONTENT; + /*:402*/ +[a-z]+ QUIT("Unexpected keyword '%s' in line %d",yytext,yylineno); +. QUIT("Unexpected character '%c' (0x%02X) in line %d",yytext[0]>' '?yytext[0]:' ',yytext[0],yylineno); + +%% + /*:509*/ diff --git a/Build/source/texk/web2c/hitexdir/hishrink-parser.c b/Build/source/texk/web2c/hitexdir/hiparser.c index 913a5ab5684..947f2141169 100644 --- a/Build/source/texk/web2c/hitexdir/hishrink-parser.c +++ b/Build/source/texk/web2c/hitexdir/hiparser.c @@ -67,78 +67,80 @@ /* First part of user prologue. */ -#line 3 "../../../texk/web2c/hitexdir/hishrink-parser.y" - -#include "basetypes.h" -#include <string.h> -#include <math.h> -#include "error.h" -#include "hformat.h" -#include "hput.h" +#line 2 "parser.y" + + #line 10212 "format.w" + +#include "hibasetypes.h" +#include <string.h> +#include <math.h> +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" extern char**hfont_name; -/*356:*/ + /*356:*/ +uint32_t definition_bits[0x100/32][32]= { + #line 7578 "format.w" + {0}}; -uint32_t definition_bits[0x100/32][32]= {{0}}; - -#define SET_DBIT(N,K) ((N)> 0xFF?1:(definition_bits[N/32][K]|= (1<<((N)&(32-1))))) -#define GET_DBIT(N,K) ((N)> 0xFF?1:((definition_bits[N/32][K]>>((N)&(32-1)))&1)) +#define SET_DBIT(N,K) ((N)>0xFF?1:(definition_bits[N/32][K] |= (1<<((N)&(32-1))))) +#define GET_DBIT(N,K) ((N)>0xFF?1:((definition_bits[N/32][K]>>((N)&(32-1)))&1)) #define DEF(D,K,N) (D).k= K; (D).n= (N);SET_DBIT((D).n,(D).k);\ DBG(DBGDEF,"Defining %s %d\n",definition_name[(D).k],(D).n);\ RNG("Definition",(D).n,max_fixed[(D).k]+1,max_ref[(D).k]); #define REF(K,N) REF_RNG(K,N);if(!GET_DBIT(N,K)) \ QUIT("Reference %d to %s before definition",(N),definition_name[K]) -/*:356*//*360:*/ - + /*:356*/ /*360:*/ #define DEF_REF(D,K,M,N) DEF(D,K,M);\ -if ((M)> max_default[K]) QUIT("Defining non default reference %d for %s",M,definition_name[K]); \ -if ((N)> max_fixed[K]) QUIT("Defining reference %d for %s by non fixed reference %d",M,definition_name[K],N); -/*:360*/ - +if ((M)>max_default[K]) QUIT("Defining non default reference %d for %s",M,definition_name[K]); \ +if ((N)>max_fixed[K]) QUIT("Defining reference %d for %s by non fixed reference %d",M,definition_name[K],N); + /*:360*/ extern void hset_entry(entry_t*e,uint16_t i,uint32_t size, uint32_t xsize,char*file_name); -/*423:*/ - + /*423:*/ #ifdef DEBUG #define YYDEBUG 1 extern int yydebug; #else #define YYDEBUG 0 #endif -/*:423*/ - + /*:423*/ extern int yylex(void); -/*352:*/ - + /*352:*/ void hset_max(kind_t k,int n) -{DBG(DBGDEF,"Setting max %s to %d\n",definition_name[k],n); -RNG("Maximum",n,max_fixed[k]+1,MAX_REF(k)); -if(n> max_ref[k]) -max_ref[k]= n; -} -/*:352*//*363:*/ - +{ + #line 7421 "format.w" + DBG(DBGDEF,"Setting max %s to %d\n",definition_name[k],n); + RNG("Maximum",n,max_fixed[k]+1,MAX_REF(k)); + if(n>max_ref[k]) + max_ref[k]= n; + } + /*:352*/ /*363:*/ void check_param_def(ref_t*df) -{if(df->k!=int_kind&&df->k!=dimen_kind&&df->k!=glue_kind) -QUIT("Kind %s not allowed in parameter list",definition_name[df->k]); -if(df->n<=max_fixed[df->k]||max_default[df->k]<df->n) -QUIT("Parameter %d for %s not allowed in parameter list",df->n,definition_name[df->k]); -} -/*:363*//*422:*/ - +{ + #line 7727 "format.w" + if(df->k!=int_kind&&df->k!=dimen_kind&&df->k!=glue_kind) + QUIT("Kind %s not allowed in parameter list",definition_name[df->k]); + if(df->n<=max_fixed[df->k]||max_default[df->k]<df->n) + QUIT("Parameter %d for %s not allowed in parameter list",df->n,definition_name[df->k]); + } + /*:363*/ /*422:*/ extern int yylineno; int yyerror(const char*msg) -{QUIT(" in line %d %s",yylineno,msg); -return 0; -} -/*:422*/ +{ + #line 8799 "format.w" + QUIT(" in line %d %s",yylineno,msg); + return 0; + } + /*:422*/ -#line 142 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 144 "parser.c" # ifndef YY_CAST # ifdef __cplusplus @@ -161,229 +163,7 @@ return 0; # endif # endif -/* Use api.header.include to #include this header - instead of duplicating it here. */ -#ifndef YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED -# define YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED -/* Debug traces. */ -#ifndef YYDEBUG -# define YYDEBUG 0 -#endif -#if YYDEBUG -extern int yydebug; -#endif - -/* Token kinds. */ -#ifndef YYTOKENTYPE -# define YYTOKENTYPE - enum yytokentype - { - YYEMPTY = -2, - YYEOF = 0, /* "end of file" */ - YYerror = 256, /* error */ - YYUNDEF = 257, /* "invalid token" */ - START = 258, /* "<" */ - END = 259, /* ">" */ - GLYPH = 260, /* "glyph" */ - UNSIGNED = 261, /* UNSIGNED */ - REFERENCE = 262, /* REFERENCE */ - SIGNED = 263, /* SIGNED */ - STRING = 264, /* STRING */ - CHARCODE = 265, /* CHARCODE */ - FPNUM = 266, /* FPNUM */ - DIMEN = 267, /* "dimen" */ - PT = 268, /* "pt" */ - MM = 269, /* "mm" */ - INCH = 270, /* "in" */ - XDIMEN = 271, /* "xdimen" */ - H = 272, /* "h" */ - V = 273, /* "v" */ - FIL = 274, /* "fil" */ - FILL = 275, /* "fill" */ - FILLL = 276, /* "filll" */ - PENALTY = 277, /* "penalty" */ - INTEGER = 278, /* "int" */ - LANGUAGE = 279, /* "language" */ - RULE = 280, /* "rule" */ - RUNNING = 281, /* "|" */ - KERN = 282, /* "kern" */ - EXPLICIT = 283, /* "!" */ - GLUE = 284, /* "glue" */ - PLUS = 285, /* "plus" */ - MINUS = 286, /* "minus" */ - TXT_START = 287, /* TXT_START */ - TXT_END = 288, /* TXT_END */ - TXT_IGNORE = 289, /* TXT_IGNORE */ - TXT_FONT_GLUE = 290, /* TXT_FONT_GLUE */ - TXT_FONT_HYPHEN = 291, /* TXT_FONT_HYPHEN */ - TXT_FONT = 292, /* TXT_FONT */ - TXT_LOCAL = 293, /* TXT_LOCAL */ - TXT_GLOBAL = 294, /* TXT_GLOBAL */ - TXT_CC = 295, /* TXT_CC */ - HBOX = 296, /* "hbox" */ - VBOX = 297, /* "vbox" */ - SHIFTED = 298, /* "shifted" */ - HPACK = 299, /* "hpack" */ - HSET = 300, /* "hset" */ - VPACK = 301, /* "vpack" */ - VSET = 302, /* "vset" */ - DEPTH = 303, /* "depth" */ - ADD = 304, /* "add" */ - TO = 305, /* "to" */ - LEADERS = 306, /* "leaders" */ - ALIGN = 307, /* "align" */ - CENTER = 308, /* "center" */ - EXPAND = 309, /* "expand" */ - BASELINE = 310, /* "baseline" */ - LIGATURE = 311, /* "ligature" */ - DISC = 312, /* "disc" */ - PAR = 313, /* "par" */ - MATH = 314, /* "math" */ - ON = 315, /* "on" */ - OFF = 316, /* "off" */ - ADJUST = 317, /* "adjust" */ - TABLE = 318, /* "table" */ - ITEM = 319, /* "item" */ - IMAGE = 320, /* "image" */ - LABEL = 321, /* "label" */ - BOT = 322, /* "bot" */ - MID = 323, /* "mid" */ - LINK = 324, /* "link" */ - OUTLINE = 325, /* "outline" */ - STREAM = 326, /* "stream" */ - STREAMDEF = 327, /* "stream (definition)" */ - FIRST = 328, /* "first" */ - LAST = 329, /* "last" */ - TOP = 330, /* "top" */ - NOREFERENCE = 331, /* "*" */ - PAGE = 332, /* "page" */ - RANGE = 333, /* "range" */ - DIRECTORY = 334, /* "directory" */ - SECTION = 335, /* "entry" */ - DEFINITIONS = 336, /* "definitions" */ - MAX = 337, /* "max" */ - PARAM = 338, /* "param" */ - FONT = 339, /* "font" */ - CONTENT = 340 /* "content" */ - }; - typedef enum yytokentype yytoken_kind_t; -#endif -/* Token kinds. */ -#define YYEMPTY -2 -#define YYEOF 0 -#define YYerror 256 -#define YYUNDEF 257 -#define START 258 -#define END 259 -#define GLYPH 260 -#define UNSIGNED 261 -#define REFERENCE 262 -#define SIGNED 263 -#define STRING 264 -#define CHARCODE 265 -#define FPNUM 266 -#define DIMEN 267 -#define PT 268 -#define MM 269 -#define INCH 270 -#define XDIMEN 271 -#define H 272 -#define V 273 -#define FIL 274 -#define FILL 275 -#define FILLL 276 -#define PENALTY 277 -#define INTEGER 278 -#define LANGUAGE 279 -#define RULE 280 -#define RUNNING 281 -#define KERN 282 -#define EXPLICIT 283 -#define GLUE 284 -#define PLUS 285 -#define MINUS 286 -#define TXT_START 287 -#define TXT_END 288 -#define TXT_IGNORE 289 -#define TXT_FONT_GLUE 290 -#define TXT_FONT_HYPHEN 291 -#define TXT_FONT 292 -#define TXT_LOCAL 293 -#define TXT_GLOBAL 294 -#define TXT_CC 295 -#define HBOX 296 -#define VBOX 297 -#define SHIFTED 298 -#define HPACK 299 -#define HSET 300 -#define VPACK 301 -#define VSET 302 -#define DEPTH 303 -#define ADD 304 -#define TO 305 -#define LEADERS 306 -#define ALIGN 307 -#define CENTER 308 -#define EXPAND 309 -#define BASELINE 310 -#define LIGATURE 311 -#define DISC 312 -#define PAR 313 -#define MATH 314 -#define ON 315 -#define OFF 316 -#define ADJUST 317 -#define TABLE 318 -#define ITEM 319 -#define IMAGE 320 -#define LABEL 321 -#define BOT 322 -#define MID 323 -#define LINK 324 -#define OUTLINE 325 -#define STREAM 326 -#define STREAMDEF 327 -#define FIRST 328 -#define LAST 329 -#define TOP 330 -#define NOREFERENCE 331 -#define PAGE 332 -#define RANGE 333 -#define DIRECTORY 334 -#define SECTION 335 -#define DEFINITIONS 336 -#define MAX 337 -#define PARAM 338 -#define FONT 339 -#define CONTENT 340 - -/* Value type. */ -#if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED -union YYSTYPE -{ -#line 78 "../../../texk/web2c/hitexdir/hishrink-parser.y" -uint32_t u;int32_t i;char*s;float64_t f;glyph_t c; -dimen_t d;stretch_t st;xdimen_t xd;kern_t kt; -rule_t r;glue_t g;image_t x; -list_t l;box_t h;disc_t dc;lig_t lg; -ref_t rf;info_t info;order_t o;bool b; - -#line 372 "../../../texk/web2c/hitexdir/hishrink-parser.c" - -}; -typedef union YYSTYPE YYSTYPE; -# define YYSTYPE_IS_TRIVIAL 1 -# define YYSTYPE_IS_DECLARED 1 -#endif - - -extern YYSTYPE yylval; - - -int yyparse (void); - - -#endif /* !YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED */ +#include "hiparser.h" /* Symbol kind. */ enum yysymbol_kind_t { @@ -974,33 +754,33 @@ static const yytype_int8 yytranslate[] = /* YYRLINE[YYN] -- Source line where rule number YYN was defined. */ static const yytype_int16 yyrline[] = { - 0, 306, 306, 307, 308, 311, 311, 314, 317, 317, - 322, 322, 322, 325, 326, 327, 330, 331, 332, 333, - 337, 341, 341, 341, 341, 343, 346, 347, 350, 350, - 351, 355, 356, 359, 359, 360, 361, 364, 364, 365, - 365, 366, 367, 369, 374, 375, 376, 377, 378, 379, - 385, 384, 389, 389, 391, 392, 393, 394, 395, 396, - 397, 398, 398, 402, 404, 405, 407, 408, 409, 412, - 414, 415, 416, 416, 419, 420, 421, 423, 424, 425, - 426, 428, 429, 429, 431, 432, 435, 436, 438, 438, - 441, 441, 441, 441, 442, 443, 444, 445, 448, 448, - 453, 457, 457, 458, 459, 460, 461, 461, 464, 467, - 468, 470, 472, 473, 476, 479, 482, 483, 484, 485, - 486, 486, 487, 488, 490, 493, 494, 495, 496, 497, - 498, 499, 500, 501, 503, 506, 506, 507, 510, 513, - 514, 515, 516, 518, 519, 521, 524, 524, 525, 526, - 529, 535, 535, 535, 535, 536, 540, 544, 553, 553, - 554, 555, 555, 557, 557, 557, 557, 559, 563, 566, - 566, 569, 570, 571, 572, 576, 577, 579, 579, 581, - 581, 581, 587, 588, 591, 594, 594, 595, 595, 596, - 600, 600, 603, 603, 606, 635, 635, 637, 638, 639, - 640, 641, 642, 643, 644, 645, 646, 647, 648, 649, - 650, 651, 652, 653, 658, 659, 660, 661, 662, 663, - 664, 665, 666, 667, 668, 669, 670, 671, 675, 676, - 677, 680, 681, 682, 685, 686, 686, 691, 693, 696, - 696, 699, 700, 701, 702, 703, 704, 705, 706, 708, - 711, 712, 713, 717, 718, 720, 722, 723, 724, 725, - 726, 727, 728, 729, 731, 737, 737 + 0, 264, 264, 267, 270, 274, 274, 278, 282, 282, + 288, 290, 292, 294, 297, 300, 304, 307, 310, 313, + 319, 324, 326, 328, 330, 334, 338, 341, 345, 345, + 348, 354, 357, 359, 361, 364, 367, 371, 373, 376, + 378, 381, 384, 388, 394, 397, 398, 399, 402, 405, + 412, 411, 420, 420, 422, 425, 428, 431, 434, 437, + 440, 443, 443, 448, 452, 455, 459, 462, 465, 470, + 474, 477, 480, 480, 482, 485, 488, 492, 495, 498, + 501, 505, 508, 508, 514, 517, 522, 525, 529, 529, + 531, 533, 535, 537, 540, 543, 546, 549, 553, 553, + 562, 567, 567, 570, 573, 576, 579, 579, 586, 590, + 593, 597, 601, 604, 609, 614, 616, 619, 622, 625, + 628, 628, 633, 636, 640, 644, 647, 650, 653, 656, + 659, 662, 665, 668, 672, 676, 678, 681, 685, 689, + 692, 695, 698, 702, 705, 709, 713, 715, 718, 721, + 725, 732, 734, 736, 738, 741, 746, 751, 761, 763, + 766, 769, 769, 773, 775, 777, 779, 783, 789, 794, + 794, 796, 799, 802, 805, 810, 813, 817, 817, 819, + 821, 819, 828, 831, 835, 837, 837, 840, 840, 841, + 846, 846, 853, 853, 855, 880, 880, 882, 885, 888, + 891, 894, 897, 900, 903, 906, 909, 912, 915, 918, + 921, 924, 927, 930, 936, 939, 942, 945, 948, 951, + 954, 957, 960, 963, 966, 969, 972, 975, 980, 983, + 986, 990, 991, 994, 998, 1001, 1001, 1009, 1011, 1016, + 1016, 1019, 1022, 1025, 1028, 1031, 1034, 1037, 1040, 1044, + 1048, 1051, 1054, 1060, 1063, 1067, 1071, 1074, 1077, 1080, + 1083, 1086, 1089, 1092, 1096, 1103, 1103 }; #endif @@ -2230,1444 +2010,1900 @@ yyreduce: switch (yyn) { case 2: /* glyph: UNSIGNED REFERENCE */ -#line 306 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.c).c= (yyvsp[-1].u);REF(font_kind,(yyvsp[0].u));(yyval.c).f= (yyvsp[0].u);} -#line 2236 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 264 "parser.y" + { + #line 418 "format.w" + (yyval.c).c= (yyvsp[-1].u);REF(font_kind,(yyvsp[0].u));(yyval.c).f= (yyvsp[0].u);} +#line 2018 "parser.c" break; case 3: /* content_node: start "glyph" glyph ">" */ -#line 307 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_glyph(&((yyvsp[-1].c))));} -#line 2242 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 267 "parser.y" + { + #line 419 "format.w" + hput_tags((yyvsp[-3].u),hput_glyph(&((yyvsp[-1].c))));} +#line 2026 "parser.c" break; case 4: /* start: "<" */ -#line 308 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTNODE;(yyval.u)= (uint32_t)(hpos++-hstart);} -#line 2248 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 270 "parser.y" + { + #line 420 "format.w" + HPUTNODE;(yyval.u)= (uint32_t)(hpos++-hstart);} +#line 2034 "parser.c" break; case 6: /* integer: UNSIGNED */ -#line 311 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("number",(yyvsp[0].u),0,INT32_MAX);} -#line 2254 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 274 "parser.y" + { + #line 941 "format.w" + RNG("number",(yyvsp[0].u),0,0x7FFFFFFF);} +#line 2042 "parser.c" break; case 7: /* glyph: CHARCODE REFERENCE */ -#line 314 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.c).c= (yyvsp[-1].u);REF(font_kind,(yyvsp[0].u));(yyval.c).f= (yyvsp[0].u);} -#line 2260 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 278 "parser.y" + { + #line 1082 "format.w" + (yyval.c).c= (yyvsp[-1].u);REF(font_kind,(yyvsp[0].u));(yyval.c).f= (yyvsp[0].u);} +#line 2050 "parser.c" break; case 9: /* string: CHARCODE */ -#line 317 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {static char s[2]; -RNG("String element",(yyvsp[0].u),0x20,0x7E); -s[0]= (yyvsp[0].u);s[1]= 0;(yyval.s)= s;} -#line 2268 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 282 "parser.y" + { + #line 1187 "format.w" + static char s[2]; + RNG("String element",(yyvsp[0].u),0x20,0x7E); + s[0]= (yyvsp[0].u);s[1]= 0;(yyval.s)= s;} +#line 2060 "parser.c" break; case 10: /* number: UNSIGNED */ -#line 322 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.f)= (float64_t)(yyvsp[0].u);} -#line 2274 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 288 "parser.y" + { + #line 1339 "format.w" + (yyval.f)= (float64_t)(yyvsp[0].u);} +#line 2068 "parser.c" break; case 11: /* number: SIGNED */ -#line 322 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.f)= (float64_t)(yyvsp[0].i);} -#line 2280 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 290 "parser.y" + { + #line 1339 "format.w" + (yyval.f)= (float64_t)(yyvsp[0].i);} +#line 2076 "parser.c" break; case 13: /* dimension: number "pt" */ -#line 325 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.d)= ROUND((yyvsp[-1].f)*ONE);RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} -#line 2286 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 294 "parser.y" + { + #line 1682 "format.w" + (yyval.d)= ROUND((yyvsp[-1].f)*ONE);RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} +#line 2084 "parser.c" break; case 14: /* dimension: number "in" */ -#line 326 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.d)= ROUND((yyvsp[-1].f)*ONE*72.27);RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} -#line 2292 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 297 "parser.y" + { + #line 1683 "format.w" + (yyval.d)= ROUND((yyvsp[-1].f)*ONE*72.27);RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} +#line 2092 "parser.c" break; case 15: /* dimension: number "mm" */ -#line 327 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.d)= ROUND((yyvsp[-1].f)*ONE*(72.27/25.4));RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} -#line 2298 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 300 "parser.y" + { + #line 1684 "format.w" + (yyval.d)= ROUND((yyvsp[-1].f)*ONE*(72.27/25.4));RNG("Dimension",(yyval.d),-MAX_DIMEN,MAX_DIMEN);} +#line 2100 "parser.c" break; case 16: /* xdimen: dimension number "h" number "v" */ -#line 330 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.xd).w= (yyvsp[-4].d);(yyval.xd).h= (yyvsp[-3].f);(yyval.xd).v= (yyvsp[-1].f);} -#line 2304 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 304 "parser.y" + { + #line 1762 "format.w" + (yyval.xd).w= (yyvsp[-4].d);(yyval.xd).h= (yyvsp[-3].f);(yyval.xd).v= (yyvsp[-1].f);} +#line 2108 "parser.c" break; case 17: /* xdimen: dimension number "h" */ -#line 331 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.xd).w= (yyvsp[-2].d);(yyval.xd).h= (yyvsp[-1].f);(yyval.xd).v= 0.0;} -#line 2310 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 307 "parser.y" + { + #line 1763 "format.w" + (yyval.xd).w= (yyvsp[-2].d);(yyval.xd).h= (yyvsp[-1].f);(yyval.xd).v= 0.0;} +#line 2116 "parser.c" break; case 18: /* xdimen: dimension number "v" */ -#line 332 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.xd).w= (yyvsp[-2].d);(yyval.xd).h= 0.0;(yyval.xd).v= (yyvsp[-1].f);} -#line 2316 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 310 "parser.y" + { + #line 1764 "format.w" + (yyval.xd).w= (yyvsp[-2].d);(yyval.xd).h= 0.0;(yyval.xd).v= (yyvsp[-1].f);} +#line 2124 "parser.c" break; case 19: /* xdimen: dimension */ -#line 333 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.xd).w= (yyvsp[0].d);(yyval.xd).h= 0.0;(yyval.xd).v= 0.0;} -#line 2322 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 313 "parser.y" + { + #line 1765 "format.w" + (yyval.xd).w= (yyvsp[0].d);(yyval.xd).h= 0.0;(yyval.xd).v= 0.0;} +#line 2132 "parser.c" break; case 20: /* xdimen_node: start "xdimen" xdimen ">" */ -#line 337 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_xdimen(&((yyvsp[-1].xd))));} -#line 2328 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 319 "parser.y" + { + #line 1769 "format.w" + hput_tags((yyvsp[-3].u),hput_xdimen(&((yyvsp[-1].xd))));} +#line 2140 "parser.c" break; case 21: /* order: "pt" */ -#line 341 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.o)= normal_o;} -#line 2334 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 324 "parser.y" + { + #line 1947 "format.w" + (yyval.o)= normal_o;} +#line 2148 "parser.c" break; case 22: /* order: "fil" */ -#line 341 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.o)= fil_o;} -#line 2340 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 326 "parser.y" + { + #line 1947 "format.w" + (yyval.o)= fil_o;} +#line 2156 "parser.c" break; case 23: /* order: "fill" */ -#line 341 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.o)= fill_o;} -#line 2346 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 328 "parser.y" + { + #line 1947 "format.w" + (yyval.o)= fill_o;} +#line 2164 "parser.c" break; case 24: /* order: "filll" */ -#line 341 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.o)= filll_o;} -#line 2352 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 330 "parser.y" + { + #line 1947 "format.w" + (yyval.o)= filll_o;} +#line 2172 "parser.c" break; case 25: /* stretch: number order */ -#line 343 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.st).f= (yyvsp[-1].f);(yyval.st).o= (yyvsp[0].o);} -#line 2358 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 334 "parser.y" + { + #line 1949 "format.w" + (yyval.st).f= (yyvsp[-1].f);(yyval.st).o= (yyvsp[0].o);} +#line 2180 "parser.c" break; case 26: /* penalty: integer */ -#line 346 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("Penalty",(yyvsp[0].i),-20000,+20000);(yyval.i)= (yyvsp[0].i);} -#line 2364 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 338 "parser.y" + { + #line 2003 "format.w" + RNG("Penalty",(yyvsp[0].i),-20000,+20000);(yyval.i)= (yyvsp[0].i);} +#line 2188 "parser.c" break; case 27: /* content_node: start "penalty" penalty ">" */ -#line 347 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_int((yyvsp[-1].i)));} -#line 2370 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 341 "parser.y" + { + #line 2004 "format.w" + hput_tags((yyvsp[-3].u),hput_int((yyvsp[-1].i)));} +#line 2196 "parser.c" break; case 29: /* rule_dimension: "|" */ -#line 350 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.d)= RUNNING_DIMEN;} -#line 2376 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 345 "parser.y" + { + #line 2179 "format.w" + (yyval.d)= RUNNING_DIMEN;} +#line 2204 "parser.c" break; case 30: /* rule: rule_dimension rule_dimension rule_dimension */ -#line 352 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{(yyval.r).h= (yyvsp[-2].d);(yyval.r).d= (yyvsp[-1].d);(yyval.r).w= (yyvsp[0].d); -if((yyvsp[0].d)==RUNNING_DIMEN&&((yyvsp[-2].d)==RUNNING_DIMEN||(yyvsp[-1].d)==RUNNING_DIMEN)) -QUIT("Incompatible running dimensions 0x%x 0x%x 0x%x",(yyvsp[-2].d),(yyvsp[-1].d),(yyvsp[0].d));} -#line 2384 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 349 "parser.y" +{ + #line 2181 "format.w" + (yyval.r).h= (yyvsp[-2].d);(yyval.r).d= (yyvsp[-1].d);(yyval.r).w= (yyvsp[0].d); + if((yyvsp[0].d)==RUNNING_DIMEN&&((yyvsp[-2].d)==RUNNING_DIMEN||(yyvsp[-1].d)==RUNNING_DIMEN)) + QUIT("Incompatible running dimensions 0x%x 0x%x 0x%x",(yyvsp[-2].d),(yyvsp[-1].d),(yyvsp[0].d));} +#line 2214 "parser.c" break; case 31: /* rule_node: start "rule" rule ">" */ -#line 355 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_rule(&((yyvsp[-1].r))));} -#line 2390 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 354 "parser.y" + { + #line 2184 "format.w" + hput_tags((yyvsp[-3].u),hput_rule(&((yyvsp[-1].r))));} +#line 2222 "parser.c" break; case 33: /* explicit: %empty */ -#line 359 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.b)= false;} -#line 2396 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 359 "parser.y" + { + #line 2292 "format.w" + (yyval.b)= false;} +#line 2230 "parser.c" break; case 34: /* explicit: "!" */ -#line 359 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.b)= true;} -#line 2402 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 361 "parser.y" + { + #line 2292 "format.w" + (yyval.b)= true;} +#line 2238 "parser.c" break; case 35: /* kern: explicit xdimen */ -#line 360 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.kt).x= (yyvsp[-1].b);(yyval.kt).d= (yyvsp[0].xd);} -#line 2408 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 364 "parser.y" + { + #line 2293 "format.w" + (yyval.kt).x= (yyvsp[-1].b);(yyval.kt).d= (yyvsp[0].xd);} +#line 2246 "parser.c" break; case 36: /* content_node: start "kern" kern ">" */ -#line 361 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_kern(&((yyvsp[-1].kt))));} -#line 2414 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 367 "parser.y" + { + #line 2294 "format.w" + hput_tags((yyvsp[-3].u),hput_kern(&((yyvsp[-1].kt))));} +#line 2254 "parser.c" break; case 37: /* plus: %empty */ -#line 364 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.st).f= 0.0;(yyval.st).o= 0;} -#line 2420 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 371 "parser.y" + { + #line 2504 "format.w" + (yyval.st).f= 0.0;(yyval.st).o= 0;} +#line 2262 "parser.c" break; case 38: /* plus: "plus" stretch */ -#line 364 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.st)= (yyvsp[0].st);} -#line 2426 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 373 "parser.y" + { + #line 2504 "format.w" + (yyval.st)= (yyvsp[0].st);} +#line 2270 "parser.c" break; case 39: /* minus: %empty */ -#line 365 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.st).f= 0.0;(yyval.st).o= 0;} -#line 2432 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 376 "parser.y" + { + #line 2505 "format.w" + (yyval.st).f= 0.0;(yyval.st).o= 0;} +#line 2278 "parser.c" break; case 40: /* minus: "minus" stretch */ -#line 365 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.st)= (yyvsp[0].st);} -#line 2438 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 378 "parser.y" + { + #line 2505 "format.w" + (yyval.st)= (yyvsp[0].st);} +#line 2286 "parser.c" break; case 41: /* glue: xdimen plus minus */ -#line 366 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.g).w= (yyvsp[-2].xd);(yyval.g).p= (yyvsp[-1].st);(yyval.g).m= (yyvsp[0].st);} -#line 2444 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 381 "parser.y" + { + #line 2506 "format.w" + (yyval.g).w= (yyvsp[-2].xd);(yyval.g).p= (yyvsp[-1].st);(yyval.g).m= (yyvsp[0].st);} +#line 2294 "parser.c" break; case 42: /* content_node: start "glue" glue ">" */ -#line 367 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if(ZERO_GLUE((yyvsp[-1].g))){HPUT8(zero_skip_no); -hput_tags((yyvsp[-3].u),TAG(glue_kind,0));}else hput_tags((yyvsp[-3].u),hput_glue(&((yyvsp[-1].g))));} -#line 2451 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 384 "parser.y" + { + #line 2507 "format.w" + if(ZERO_GLUE((yyvsp[-1].g))){HPUT8(zero_skip_no); + hput_tags((yyvsp[-3].u),TAG(glue_kind,0));}else hput_tags((yyvsp[-3].u),hput_glue(&((yyvsp[-1].g))));} +#line 2303 "parser.c" break; case 43: /* glue_node: start "glue" glue ">" */ -#line 370 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{if(ZERO_GLUE((yyvsp[-1].g))){hpos--;(yyval.b)= false;} -else{hput_tags((yyvsp[-3].u),hput_glue(&((yyvsp[-1].g))));(yyval.b)= true;}} -#line 2458 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 389 "parser.y" +{ + #line 2510 "format.w" + if(ZERO_GLUE((yyvsp[-1].g))){hpos--;(yyval.b)= false;} + else{hput_tags((yyvsp[-3].u),hput_glue(&((yyvsp[-1].g))));(yyval.b)= true;}} +#line 2312 "parser.c" break; case 44: /* position: %empty */ -#line 374 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.u)= hpos-hstart;} -#line 2464 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 394 "parser.y" + { + #line 2786 "format.w" + (yyval.u)= hpos-hstart;} +#line 2320 "parser.c" break; case 47: /* estimate: %empty */ -#line 377 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hpos+= 2;} -#line 2470 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 399 "parser.y" + { + #line 2789 "format.w" + hpos+= 2;} +#line 2328 "parser.c" break; case 48: /* estimate: UNSIGNED */ -#line 378 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hpos+= hsize_bytes((yyvsp[0].u))+1;} -#line 2476 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 402 "parser.y" + { + #line 2790 "format.w" + hpos+= hsize_bytes((yyvsp[0].u))+1;} +#line 2336 "parser.c" break; case 49: /* list: start estimate content_list ">" */ -#line 380 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{(yyval.l).k= list_kind;(yyval.l).p= (yyvsp[-1].u);(yyval.l).s= (hpos-hstart)-(yyvsp[-1].u); -hput_tags((yyvsp[-3].u),hput_list((yyvsp[-3].u)+1,&((yyval.l))));} -#line 2483 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 406 "parser.y" +{ + #line 2792 "format.w" + (yyval.l).k= list_kind;(yyval.l).p= (yyvsp[-1].u);(yyval.l).s= (hpos-hstart)-(yyvsp[-1].u); + hput_tags((yyvsp[-3].u),hput_list((yyvsp[-3].u)+1,&((yyval.l))));} +#line 2345 "parser.c" break; case 50: /* $@1: %empty */ -#line 385 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hpos+= 4;} -#line 2489 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 412 "parser.y" +{ + #line 3199 "format.w" + hpos+= 4;} +#line 2353 "parser.c" break; case 51: /* list: TXT_START position $@1 text TXT_END */ -#line 387 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{(yyval.l).k= text_kind;(yyval.l).p= (yyvsp[-1].u);(yyval.l).s= (hpos-hstart)-(yyvsp[-1].u); -hput_tags((yyvsp[-3].u),hput_list((yyvsp[-3].u)+1,&((yyval.l))));} -#line 2496 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 416 "parser.y" +{ + #line 3201 "format.w" + (yyval.l).k= text_kind;(yyval.l).p= (yyvsp[-1].u);(yyval.l).s= (hpos-hstart)-(yyvsp[-1].u); + hput_tags((yyvsp[-3].u),hput_list((yyvsp[-3].u)+1,&((yyval.l))));} +#line 2362 "parser.c" break; case 54: /* txt: TXT_CC */ -#line 391 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_txt_cc((yyvsp[0].u));} -#line 2502 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 422 "parser.y" + { + #line 3205 "format.w" + hput_txt_cc((yyvsp[0].u));} +#line 2370 "parser.c" break; case 55: /* txt: TXT_FONT */ -#line 392 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(font_kind,(yyvsp[0].u));hput_txt_font((yyvsp[0].u));} -#line 2508 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 425 "parser.y" + { + #line 3206 "format.w" + REF(font_kind,(yyvsp[0].u));hput_txt_font((yyvsp[0].u));} +#line 2378 "parser.c" break; case 56: /* txt: TXT_GLOBAL */ -#line 393 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF((yyvsp[0].rf).k,(yyvsp[0].rf).n);hput_txt_global(&((yyvsp[0].rf)));} -#line 2514 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 428 "parser.y" + { + #line 3207 "format.w" + REF((yyvsp[0].rf).k,(yyvsp[0].rf).n);hput_txt_global(&((yyvsp[0].rf)));} +#line 2386 "parser.c" break; case 57: /* txt: TXT_LOCAL */ -#line 394 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("Font parameter",(yyvsp[0].u),0,11);hput_txt_local((yyvsp[0].u));} -#line 2520 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 431 "parser.y" + { + #line 3208 "format.w" + RNG("Font parameter",(yyvsp[0].u),0,11);hput_txt_local((yyvsp[0].u));} +#line 2394 "parser.c" break; case 58: /* txt: TXT_FONT_GLUE */ -#line 395 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTX(1);HPUT8(txt_glue);} -#line 2526 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 434 "parser.y" + { + #line 3209 "format.w" + HPUTX(1);HPUT8(txt_glue);} +#line 2402 "parser.c" break; case 59: /* txt: TXT_FONT_HYPHEN */ -#line 396 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTX(1);HPUT8(txt_hyphen);} -#line 2532 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 437 "parser.y" + { + #line 3210 "format.w" + HPUTX(1);HPUT8(txt_hyphen);} +#line 2410 "parser.c" break; case 60: /* txt: TXT_IGNORE */ -#line 397 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTX(1);HPUT8(txt_ignore);} -#line 2538 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 440 "parser.y" + { + #line 3211 "format.w" + HPUTX(1);HPUT8(txt_ignore);} +#line 2418 "parser.c" break; case 61: /* $@2: %empty */ -#line 398 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTX(1);HPUT8(txt_node);} -#line 2544 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 443 "parser.y" + { + #line 3212 "format.w" + HPUTX(1);HPUT8(txt_node);} +#line 2426 "parser.c" break; case 63: /* box_dimen: dimension dimension dimension */ -#line 403 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{(yyval.info)= hput_box_dimen((yyvsp[-2].d),(yyvsp[-1].d),(yyvsp[0].d));} -#line 2550 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 449 "parser.y" +{ + #line 3470 "format.w" + (yyval.info)= hput_box_dimen((yyvsp[-2].d),(yyvsp[-1].d),(yyvsp[0].d));} +#line 2434 "parser.c" break; case 64: /* box_shift: %empty */ -#line 404 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 2556 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 452 "parser.y" + { + #line 3471 "format.w" + (yyval.info)= b000;} +#line 2442 "parser.c" break; case 65: /* box_shift: "shifted" dimension */ -#line 405 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= hput_box_shift((yyvsp[0].d));} -#line 2562 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 455 "parser.y" + { + #line 3472 "format.w" + (yyval.info)= hput_box_shift((yyvsp[0].d));} +#line 2450 "parser.c" break; case 66: /* box_glue_set: %empty */ -#line 407 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 2568 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 459 "parser.y" + { + #line 3474 "format.w" + (yyval.info)= b000;} +#line 2458 "parser.c" break; case 67: /* box_glue_set: "plus" stretch */ -#line 408 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= hput_box_glue_set(+1,(yyvsp[0].st).f,(yyvsp[0].st).o);} -#line 2574 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 462 "parser.y" + { + #line 3475 "format.w" + (yyval.info)= hput_box_glue_set(+1,(yyvsp[0].st).f,(yyvsp[0].st).o);} +#line 2466 "parser.c" break; case 68: /* box_glue_set: "minus" stretch */ -#line 409 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= hput_box_glue_set(-1,(yyvsp[0].st).f,(yyvsp[0].st).o);} -#line 2580 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 465 "parser.y" + { + #line 3476 "format.w" + (yyval.info)= hput_box_glue_set(-1,(yyvsp[0].st).f,(yyvsp[0].st).o);} +#line 2474 "parser.c" break; case 69: /* box: box_dimen box_shift box_glue_set list */ -#line 412 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-3].info)|(yyvsp[-2].info)|(yyvsp[-1].info);} -#line 2586 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 470 "parser.y" + { + #line 3479 "format.w" + (yyval.info)= (yyvsp[-3].info) |(yyvsp[-2].info) |(yyvsp[-1].info);} +#line 2482 "parser.c" break; case 70: /* hbox_node: start "hbox" box ">" */ -#line 414 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(hbox_kind,(yyvsp[-1].info)));} -#line 2592 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 474 "parser.y" + { + #line 3481 "format.w" + hput_tags((yyvsp[-3].u),TAG(hbox_kind,(yyvsp[-1].info)));} +#line 2490 "parser.c" break; case 71: /* vbox_node: start "vbox" box ">" */ -#line 415 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(vbox_kind,(yyvsp[-1].info)));} -#line 2598 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 477 "parser.y" + { + #line 3482 "format.w" + hput_tags((yyvsp[-3].u),TAG(vbox_kind,(yyvsp[-1].info)));} +#line 2498 "parser.c" break; case 74: /* box_flex: plus minus */ -#line 419 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_stretch(&((yyvsp[-1].st)));hput_stretch(&((yyvsp[0].st)));} -#line 2604 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 482 "parser.y" + { + #line 3663 "format.w" + hput_stretch(&((yyvsp[-1].st)));hput_stretch(&((yyvsp[0].st)));} +#line 2506 "parser.c" break; case 75: /* xbox: box_dimen box_shift box_flex xdimen_ref list */ -#line 420 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-4].info)|(yyvsp[-3].info);} -#line 2610 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 485 "parser.y" + { + #line 3664 "format.w" + (yyval.info)= (yyvsp[-4].info) |(yyvsp[-3].info);} +#line 2514 "parser.c" break; case 76: /* xbox: box_dimen box_shift box_flex xdimen_node list */ -#line 421 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-4].info)|(yyvsp[-3].info)|b100;} -#line 2616 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 488 "parser.y" + { + #line 3665 "format.w" + (yyval.info)= (yyvsp[-4].info) |(yyvsp[-3].info) |b100;} +#line 2522 "parser.c" break; case 77: /* box_goal: "to" xdimen_ref */ -#line 423 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 2622 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 492 "parser.y" + { + #line 3667 "format.w" + (yyval.info)= b000;} +#line 2530 "parser.c" break; case 78: /* box_goal: "add" xdimen_ref */ -#line 424 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b001;} -#line 2628 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 495 "parser.y" + { + #line 3668 "format.w" + (yyval.info)= b001;} +#line 2538 "parser.c" break; case 79: /* box_goal: "to" xdimen_node */ -#line 425 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b100;} -#line 2634 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 498 "parser.y" + { + #line 3669 "format.w" + (yyval.info)= b100;} +#line 2546 "parser.c" break; case 80: /* box_goal: "add" xdimen_node */ -#line 426 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b101;} -#line 2640 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 501 "parser.y" + { + #line 3670 "format.w" + (yyval.info)= b101;} +#line 2554 "parser.c" break; case 81: /* hpack: box_shift box_goal list */ -#line 428 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-1].info);} -#line 2646 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 505 "parser.y" + { + #line 3672 "format.w" + (yyval.info)= (yyvsp[-1].info);} +#line 2562 "parser.c" break; case 82: /* $@3: %empty */ -#line 429 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUT32((yyvsp[0].d));} -#line 2652 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 508 "parser.y" + { + #line 3673 "format.w" + HPUT32((yyvsp[0].d));} +#line 2570 "parser.c" break; case 83: /* vpack: box_shift "max" "depth" dimension $@3 box_goal list */ -#line 429 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-6].info)|(yyvsp[-1].info);} -#line 2658 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 510 "parser.y" + { + #line 3673 "format.w" + (yyval.info)= (yyvsp[-6].info) |(yyvsp[-1].info);} +#line 2578 "parser.c" break; case 84: /* vxbox_node: start "vset" xbox ">" */ -#line 431 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(vset_kind,(yyvsp[-1].info)));} -#line 2664 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 514 "parser.y" + { + #line 3675 "format.w" + hput_tags((yyvsp[-3].u),TAG(vset_kind,(yyvsp[-1].info)));} +#line 2586 "parser.c" break; case 85: /* vxbox_node: start "vpack" vpack ">" */ -#line 432 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(vpack_kind,(yyvsp[-1].info)));} -#line 2670 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 517 "parser.y" + { + #line 3676 "format.w" + hput_tags((yyvsp[-3].u),TAG(vpack_kind,(yyvsp[-1].info)));} +#line 2594 "parser.c" break; case 86: /* hxbox_node: start "hset" xbox ">" */ -#line 435 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(hset_kind,(yyvsp[-1].info)));} -#line 2676 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 522 "parser.y" + { + #line 3679 "format.w" + hput_tags((yyvsp[-3].u),TAG(hset_kind,(yyvsp[-1].info)));} +#line 2602 "parser.c" break; case 87: /* hxbox_node: start "hpack" hpack ">" */ -#line 436 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(hpack_kind,(yyvsp[-1].info)));} -#line 2682 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 525 "parser.y" + { + #line 3680 "format.w" + hput_tags((yyvsp[-3].u),TAG(hpack_kind,(yyvsp[-1].info)));} +#line 2610 "parser.c" break; case 90: /* ltype: %empty */ -#line 441 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 1;} -#line 2688 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 531 "parser.y" + { + #line 3790 "format.w" + (yyval.info)= 1;} +#line 2618 "parser.c" break; case 91: /* ltype: "align" */ -#line 441 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 1;} -#line 2694 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 533 "parser.y" + { + #line 3790 "format.w" + (yyval.info)= 1;} +#line 2626 "parser.c" break; case 92: /* ltype: "center" */ -#line 441 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 2;} -#line 2700 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 535 "parser.y" + { + #line 3790 "format.w" + (yyval.info)= 2;} +#line 2634 "parser.c" break; case 93: /* ltype: "expand" */ -#line 441 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 3;} -#line 2706 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 537 "parser.y" + { + #line 3790 "format.w" + (yyval.info)= 3;} +#line 2642 "parser.c" break; case 94: /* leaders: glue_node ltype rule_node */ -#line 442 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info)|b100;else (yyval.info)= (yyvsp[-1].info);} -#line 2712 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 540 "parser.y" + { + #line 3791 "format.w" + if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info) |b100;else (yyval.info)= (yyvsp[-1].info);} +#line 2650 "parser.c" break; case 95: /* leaders: glue_node ltype hbox_node */ -#line 443 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info)|b100;else (yyval.info)= (yyvsp[-1].info);} -#line 2718 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 543 "parser.y" + { + #line 3792 "format.w" + if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info) |b100;else (yyval.info)= (yyvsp[-1].info);} +#line 2658 "parser.c" break; case 96: /* leaders: glue_node ltype vbox_node */ -#line 444 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info)|b100;else (yyval.info)= (yyvsp[-1].info);} -#line 2724 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 546 "parser.y" + { + #line 3793 "format.w" + if((yyvsp[-2].b))(yyval.info)= (yyvsp[-1].info) |b100;else (yyval.info)= (yyvsp[-1].info);} +#line 2666 "parser.c" break; case 97: /* content_node: start "leaders" leaders ">" */ -#line 445 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(leaders_kind,(yyvsp[-1].info)));} -#line 2730 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 549 "parser.y" + { + #line 3794 "format.w" + hput_tags((yyvsp[-3].u),TAG(leaders_kind,(yyvsp[-1].info)));} +#line 2674 "parser.c" break; case 98: /* $@4: %empty */ -#line 448 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if((yyvsp[0].d)!=0)HPUT32((yyvsp[0].d));} -#line 2736 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 553 "parser.y" + { + #line 3900 "format.w" + if((yyvsp[0].d)!=0)HPUT32((yyvsp[0].d));} +#line 2682 "parser.c" break; case 99: /* baseline: dimension $@4 glue_node glue_node */ -#line 449 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;if((yyvsp[-3].d)!=0)(yyval.info)|= b001; -if((yyvsp[-1].b))(yyval.info)|= b100; -if((yyvsp[0].b))(yyval.info)|= b010; -} -#line 2745 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 556 "parser.y" + { + #line 3901 "format.w" + (yyval.info)= b000;if((yyvsp[-3].d)!=0)(yyval.info) |= b001; + if((yyvsp[-1].b))(yyval.info) |= b100; + if((yyvsp[0].b))(yyval.info) |= b010; + } +#line 2693 "parser.c" break; case 100: /* content_node: start "baseline" baseline ">" */ -#line 454 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{if((yyvsp[-1].info)==b000)HPUT8(0);hput_tags((yyvsp[-3].u),TAG(baseline_kind,(yyvsp[-1].info)));} -#line 2751 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 563 "parser.y" +{ + #line 3906 "format.w" + if((yyvsp[-1].info)==b000)HPUT8(0);hput_tags((yyvsp[-3].u),TAG(baseline_kind,(yyvsp[-1].info)));} +#line 2701 "parser.c" break; case 102: /* cc_list: cc_list TXT_CC */ -#line 457 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_utf8((yyvsp[0].u));} -#line 2757 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 567 "parser.y" + { + #line 3989 "format.w" + hput_utf8((yyvsp[0].u));} +#line 2709 "parser.c" break; case 103: /* lig_cc: UNSIGNED */ -#line 458 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("UTF-8 code",(yyvsp[0].u),0,0x1FFFFF);(yyval.u)= hpos-hstart;hput_utf8((yyvsp[0].u));} -#line 2763 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 570 "parser.y" + { + #line 3990 "format.w" + RNG("UTF-8 code",(yyvsp[0].u),0,0x1FFFFF);(yyval.u)= hpos-hstart;hput_utf8((yyvsp[0].u));} +#line 2717 "parser.c" break; case 104: /* lig_cc: CHARCODE */ -#line 459 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.u)= hpos-hstart;hput_utf8((yyvsp[0].u));} -#line 2769 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 573 "parser.y" + { + #line 3991 "format.w" + (yyval.u)= hpos-hstart;hput_utf8((yyvsp[0].u));} +#line 2725 "parser.c" break; case 105: /* ref: REFERENCE */ -#line 460 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUT8((yyvsp[0].u));(yyval.u)= (yyvsp[0].u);} -#line 2775 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 576 "parser.y" + { + #line 3992 "format.w" + HPUT8((yyvsp[0].u));(yyval.u)= (yyvsp[0].u);} +#line 2733 "parser.c" break; case 106: /* $@5: %empty */ -#line 461 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(font_kind,(yyvsp[0].u));} -#line 2781 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 579 "parser.y" + { + #line 3993 "format.w" + REF(font_kind,(yyvsp[0].u));} +#line 2741 "parser.c" break; case 107: /* ligature: ref $@5 lig_cc TXT_START cc_list TXT_END */ -#line 462 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{(yyval.lg).f= (yyvsp[-5].u);(yyval.lg).l.p= (yyvsp[-3].u);(yyval.lg).l.s= (hpos-hstart)-(yyvsp[-3].u); -RNG("Ligature size",(yyval.lg).l.s,0,255);} -#line 2788 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 582 "parser.y" +{ + #line 3994 "format.w" + (yyval.lg).f= (yyvsp[-5].u);(yyval.lg).l.p= (yyvsp[-3].u);(yyval.lg).l.s= (hpos-hstart)-(yyvsp[-3].u); + RNG("Ligature size",(yyval.lg).l.s,0,255);} +#line 2750 "parser.c" break; case 108: /* content_node: start "ligature" ligature ">" */ -#line 464 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_ligature(&((yyvsp[-1].lg))));} -#line 2794 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 586 "parser.y" + { + #line 3996 "format.w" + hput_tags((yyvsp[-3].u),hput_ligature(&((yyvsp[-1].lg))));} +#line 2758 "parser.c" break; case 109: /* replace_count: explicit */ -#line 467 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {if((yyvsp[0].b)){(yyval.u)= 0x80;HPUT8(0x80);}else (yyval.u)= 0x00;} -#line 2800 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 590 "parser.y" + { + #line 4106 "format.w" + if((yyvsp[0].b)){(yyval.u)= 0x80;HPUT8(0x80);}else (yyval.u)= 0x00;} +#line 2766 "parser.c" break; case 110: /* replace_count: explicit UNSIGNED */ -#line 468 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("Replace count",(yyvsp[0].u),0,31); -(yyval.u)= ((yyvsp[0].u))|(((yyvsp[-1].b))?0x80:0x00);if((yyval.u)!=0)HPUT8((yyval.u));} -#line 2807 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 593 "parser.y" + { + #line 4107 "format.w" + RNG("Replace count",(yyvsp[0].u),0,31); + (yyval.u)= ((yyvsp[0].u)) |(((yyvsp[-1].b))?0x80:0x00);if((yyval.u)!=0)HPUT8((yyval.u));} +#line 2775 "parser.c" break; case 111: /* disc: replace_count list list */ -#line 470 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.dc).r= (yyvsp[-2].u);(yyval.dc).p= (yyvsp[-1].l);(yyval.dc).q= (yyvsp[0].l); -if((yyvsp[0].l).s==0){hpos= hpos-2;if((yyvsp[-1].l).s==0)hpos= hpos-2;}} -#line 2814 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 597 "parser.y" + { + #line 4109 "format.w" + (yyval.dc).r= (yyvsp[-2].u);(yyval.dc).p= (yyvsp[-1].l);(yyval.dc).q= (yyvsp[0].l); + if((yyvsp[0].l).s==0){hpos= hpos-2;if((yyvsp[-1].l).s==0)hpos= hpos-2;}} +#line 2784 "parser.c" break; case 112: /* disc: replace_count list */ -#line 472 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.dc).r= (yyvsp[-1].u);(yyval.dc).p= (yyvsp[0].l);if((yyvsp[0].l).s==0)hpos= hpos-2;(yyval.dc).q.s= 0;} -#line 2820 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 601 "parser.y" + { + #line 4111 "format.w" + (yyval.dc).r= (yyvsp[-1].u);(yyval.dc).p= (yyvsp[0].l);if((yyvsp[0].l).s==0)hpos= hpos-2;(yyval.dc).q.s= 0;} +#line 2792 "parser.c" break; case 113: /* disc: replace_count */ -#line 473 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.dc).r= (yyvsp[0].u);(yyval.dc).p.s= 0;(yyval.dc).q.s= 0;} -#line 2826 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 604 "parser.y" + { + #line 4112 "format.w" + (yyval.dc).r= (yyvsp[0].u);(yyval.dc).p.s= 0;(yyval.dc).q.s= 0;} +#line 2800 "parser.c" break; case 114: /* disc_node: start "disc" disc ">" */ -#line 477 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hput_tags((yyvsp[-3].u),hput_disc(&((yyvsp[-1].dc))));} -#line 2832 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 610 "parser.y" +{ + #line 4116 "format.w" + hput_tags((yyvsp[-3].u),hput_disc(&((yyvsp[-1].dc))));} +#line 2808 "parser.c" break; case 116: /* par_dimen: xdimen */ -#line 482 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_xdimen_node(&((yyvsp[0].xd)));} -#line 2838 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 616 "parser.y" + { + #line 4268 "format.w" + hput_xdimen_node(&((yyvsp[0].xd)));} +#line 2816 "parser.c" break; case 117: /* par: xdimen_ref param_ref list */ -#line 483 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 2844 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 619 "parser.y" + { + #line 4269 "format.w" + (yyval.info)= b000;} +#line 2824 "parser.c" break; case 118: /* par: xdimen_ref empty_param_list non_empty_param_list list */ -#line 484 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b010;} -#line 2850 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 622 "parser.y" + { + #line 4270 "format.w" + (yyval.info)= b010;} +#line 2832 "parser.c" break; case 119: /* par: xdimen_ref empty_param_list list */ -#line 485 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b010;} -#line 2856 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 625 "parser.y" + { + #line 4271 "format.w" + (yyval.info)= b010;} +#line 2840 "parser.c" break; case 120: /* $@6: %empty */ -#line 486 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_xdimen_node(&((yyvsp[-1].xd)));} -#line 2862 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 628 "parser.y" + { + #line 4272 "format.w" + hput_xdimen_node(&((yyvsp[-1].xd)));} +#line 2848 "parser.c" break; case 121: /* par: xdimen param_ref $@6 list */ -#line 486 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b100;} -#line 2868 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 630 "parser.y" + { + #line 4272 "format.w" + (yyval.info)= b100;} +#line 2856 "parser.c" break; case 122: /* par: par_dimen empty_param_list non_empty_param_list list */ -#line 487 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b110;} -#line 2874 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 633 "parser.y" + { + #line 4273 "format.w" + (yyval.info)= b110;} +#line 2864 "parser.c" break; case 123: /* par: par_dimen empty_param_list list */ -#line 488 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b110;} -#line 2880 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 636 "parser.y" + { + #line 4274 "format.w" + (yyval.info)= b110;} +#line 2872 "parser.c" break; case 124: /* content_node: start "par" par ">" */ -#line 490 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(par_kind,(yyvsp[-1].info)));} -#line 2886 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 640 "parser.y" + { + #line 4276 "format.w" + hput_tags((yyvsp[-3].u),TAG(par_kind,(yyvsp[-1].info)));} +#line 2880 "parser.c" break; case 125: /* math: param_ref list */ -#line 493 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 2892 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 644 "parser.y" + { + #line 4342 "format.w" + (yyval.info)= b000;} +#line 2888 "parser.c" break; case 126: /* math: param_ref list hbox_node */ -#line 494 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b001;} -#line 2898 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 647 "parser.y" + { + #line 4343 "format.w" + (yyval.info)= b001;} +#line 2896 "parser.c" break; case 127: /* math: param_ref hbox_node list */ -#line 495 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b010;} -#line 2904 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 650 "parser.y" + { + #line 4344 "format.w" + (yyval.info)= b010;} +#line 2904 "parser.c" break; case 128: /* math: empty_param_list list */ -#line 496 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b100;} -#line 2910 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 653 "parser.y" + { + #line 4345 "format.w" + (yyval.info)= b100;} +#line 2912 "parser.c" break; case 129: /* math: empty_param_list list hbox_node */ -#line 497 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b101;} -#line 2916 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 656 "parser.y" + { + #line 4346 "format.w" + (yyval.info)= b101;} +#line 2920 "parser.c" break; case 130: /* math: empty_param_list hbox_node list */ -#line 498 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b110;} -#line 2922 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 659 "parser.y" + { + #line 4347 "format.w" + (yyval.info)= b110;} +#line 2928 "parser.c" break; case 131: /* math: empty_param_list non_empty_param_list list */ -#line 499 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b100;} -#line 2928 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 662 "parser.y" + { + #line 4348 "format.w" + (yyval.info)= b100;} +#line 2936 "parser.c" break; case 132: /* math: empty_param_list non_empty_param_list list hbox_node */ -#line 500 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b101;} -#line 2934 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 665 "parser.y" + { + #line 4349 "format.w" + (yyval.info)= b101;} +#line 2944 "parser.c" break; case 133: /* math: empty_param_list non_empty_param_list hbox_node list */ -#line 501 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b110;} -#line 2940 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 668 "parser.y" + { + #line 4350 "format.w" + (yyval.info)= b110;} +#line 2952 "parser.c" break; case 134: /* content_node: start "math" math ">" */ -#line 503 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(math_kind,(yyvsp[-1].info)));} -#line 2946 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 672 "parser.y" + { + #line 4352 "format.w" + hput_tags((yyvsp[-3].u),TAG(math_kind,(yyvsp[-1].info)));} +#line 2960 "parser.c" break; case 135: /* on_off: "on" */ -#line 506 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= 1;} -#line 2952 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 676 "parser.y" + { + #line 4402 "format.w" + (yyval.i)= 1;} +#line 2968 "parser.c" break; case 136: /* on_off: "off" */ -#line 506 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= 0;} -#line 2958 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 678 "parser.y" + { + #line 4402 "format.w" + (yyval.i)= 0;} +#line 2976 "parser.c" break; case 137: /* math: on_off */ -#line 507 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b011|((yyvsp[0].i)<<2);} -#line 2964 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 681 "parser.y" + { + #line 4403 "format.w" + (yyval.info)= b011 |((yyvsp[0].i)<<2);} +#line 2984 "parser.c" break; case 138: /* content_node: start "adjust" list ">" */ -#line 510 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(adjust_kind,1));} -#line 2970 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 685 "parser.y" + { + #line 4434 "format.w" + hput_tags((yyvsp[-3].u),TAG(adjust_kind,1));} +#line 2992 "parser.c" break; case 139: /* span_count: UNSIGNED */ -#line 513 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= hput_span_count((yyvsp[0].u));} -#line 2976 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 689 "parser.y" + { + #line 4533 "format.w" + (yyval.info)= hput_span_count((yyvsp[0].u));} +#line 3000 "parser.c" break; case 140: /* content_node: start "item" content_node ">" */ -#line 514 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(item_kind,1));} -#line 2982 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 692 "parser.y" + { + #line 4534 "format.w" + hput_tags((yyvsp[-3].u),TAG(item_kind,1));} +#line 3008 "parser.c" break; case 141: /* content_node: start "item" span_count content_node ">" */ -#line 515 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),TAG(item_kind,(yyvsp[-2].info)));} -#line 2988 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 695 "parser.y" + { + #line 4535 "format.w" + hput_tags((yyvsp[-4].u),TAG(item_kind,(yyvsp[-2].info)));} +#line 3016 "parser.c" break; case 142: /* content_node: start "item" list ">" */ -#line 516 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(item_kind,b000));} -#line 2994 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 698 "parser.y" + { + #line 4536 "format.w" + hput_tags((yyvsp[-3].u),TAG(item_kind,b000));} +#line 3024 "parser.c" break; case 143: /* table: "h" box_goal list list */ -#line 518 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-2].info);} -#line 3000 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 702 "parser.y" + { + #line 4538 "format.w" + (yyval.info)= (yyvsp[-2].info);} +#line 3032 "parser.c" break; case 144: /* table: "v" box_goal list list */ -#line 519 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= (yyvsp[-2].info)|b010;} -#line 3006 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 705 "parser.y" + { + #line 4539 "format.w" + (yyval.info)= (yyvsp[-2].info) |b010;} +#line 3040 "parser.c" break; case 145: /* content_node: start "table" table ">" */ -#line 521 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),TAG(table_kind,(yyvsp[-1].info)));} -#line 3012 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 709 "parser.y" + { + #line 4541 "format.w" + hput_tags((yyvsp[-3].u),TAG(table_kind,(yyvsp[-1].info)));} +#line 3048 "parser.c" break; case 146: /* image_dimen: dimension dimension */ -#line 524 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.x).w= (yyvsp[-1].d);(yyval.x).h= (yyvsp[0].d);} -#line 3018 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 713 "parser.y" + { + #line 4629 "format.w" + (yyval.x).w= (yyvsp[-1].d);(yyval.x).h= (yyvsp[0].d);} +#line 3056 "parser.c" break; case 147: /* image_dimen: %empty */ -#line 524 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.x).w= (yyval.x).h= 0;} -#line 3024 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 715 "parser.y" + { + #line 4629 "format.w" + (yyval.x).w= (yyval.x).h= 0;} +#line 3064 "parser.c" break; case 148: /* image: UNSIGNED image_dimen plus minus */ -#line 525 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.x).w= (yyvsp[-2].x).w;(yyval.x).h= (yyvsp[-2].x).h;(yyval.x).p= (yyvsp[-1].st);(yyval.x).m= (yyvsp[0].st);RNG("Section number",(yyvsp[-3].u),3,max_section_no);(yyval.x).n= (yyvsp[-3].u);} -#line 3030 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 718 "parser.y" + { + #line 4630 "format.w" + (yyval.x).w= (yyvsp[-2].x).w;(yyval.x).h= (yyvsp[-2].x).h;(yyval.x).p= (yyvsp[-1].st);(yyval.x).m= (yyvsp[0].st);RNG("Section number",(yyvsp[-3].u),3,max_section_no);(yyval.x).n= (yyvsp[-3].u);} +#line 3072 "parser.c" break; case 149: /* content_node: start "image" image ">" */ -#line 526 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-3].u),hput_image(&((yyvsp[-1].x))));} -#line 3036 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 721 "parser.y" + { + #line 4631 "format.w" + hput_tags((yyvsp[-3].u),hput_image(&((yyvsp[-1].x))));} +#line 3080 "parser.c" break; case 150: /* max_value: "outline" UNSIGNED */ -#line 529 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {max_outline= (yyvsp[0].u); -RNG("max outline",max_outline,0,0xFFFF); -DBG(DBGDEF|DBGLABEL,"Setting max outline to %d\n",max_outline); -} -#line 3045 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 725 "parser.y" + { + #line 4868 "format.w" + max_outline= (yyvsp[0].u); + RNG("max outline",max_outline,0,0xFFFF); + DBG(DBGDEF |DBGLABEL,"Setting max outline to %d\n",max_outline); + } +#line 3091 "parser.c" break; case 151: /* placement: "top" */ -#line 535 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= LABEL_TOP;} -#line 3051 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 732 "parser.y" + { + #line 4960 "format.w" + (yyval.i)= LABEL_TOP;} +#line 3099 "parser.c" break; case 152: /* placement: "bot" */ -#line 535 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= LABEL_BOT;} -#line 3057 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 734 "parser.y" + { + #line 4960 "format.w" + (yyval.i)= LABEL_BOT;} +#line 3107 "parser.c" break; case 153: /* placement: "mid" */ -#line 535 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= LABEL_MID;} -#line 3063 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 736 "parser.y" + { + #line 4960 "format.w" + (yyval.i)= LABEL_MID;} +#line 3115 "parser.c" break; case 154: /* placement: %empty */ -#line 535 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.i)= LABEL_MID;} -#line 3069 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 738 "parser.y" + { + #line 4960 "format.w" + (yyval.i)= LABEL_MID;} +#line 3123 "parser.c" break; case 155: /* content_node: "<" "label" REFERENCE placement ">" */ -#line 537 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hset_label((yyvsp[-2].u),(yyvsp[-1].i));} -#line 3075 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 742 "parser.y" +{ + #line 4962 "format.w" + hset_label((yyvsp[-2].u),(yyvsp[-1].i));} +#line 3131 "parser.c" break; case 156: /* content_node: start "link" REFERENCE on_off ">" */ -#line 541 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hput_tags((yyvsp[-4].u),hput_link((yyvsp[-2].u),(yyvsp[-1].i)));} -#line 3081 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 747 "parser.y" +{ + #line 5220 "format.w" + hput_tags((yyvsp[-4].u),hput_link((yyvsp[-2].u),(yyvsp[-1].i)));} +#line 3139 "parser.c" break; case 157: /* def_node: "<" "outline" REFERENCE integer position list ">" */ -#line 544 "../../../texk/web2c/hitexdir/hishrink-parser.y" +#line 751 "parser.y" { -static int outline_no= -1; -(yyval.rf).k= outline_kind;(yyval.rf).n= (yyvsp[-4].u); -if((yyvsp[-1].l).s==0)QUIT("Outline with empty title in line %d",yylineno); -outline_no++; -hset_outline(outline_no,(yyvsp[-4].u),(yyvsp[-3].i),(yyvsp[-2].u)); -} -#line 3093 "../../../texk/web2c/hitexdir/hishrink-parser.c" + #line 5350 "format.w" + + static int outline_no= -1; + (yyval.rf).k= outline_kind;(yyval.rf).n= (yyvsp[-4].u); + if((yyvsp[-1].l).s==0)QUIT("Outline with empty title in line %d",yylineno); + outline_no++; + hset_outline(outline_no,(yyvsp[-4].u),(yyvsp[-3].i),(yyvsp[-2].u)); + } +#line 3153 "parser.c" break; case 158: /* stream_link: ref */ -#line 553 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF_RNG(stream_kind,(yyvsp[0].u));} -#line 3099 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 761 "parser.y" + { + #line 5765 "format.w" + REF_RNG(stream_kind,(yyvsp[0].u));} +#line 3161 "parser.c" break; case 159: /* stream_link: "*" */ -#line 553 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUT8(255);} -#line 3105 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 763 "parser.y" + { + #line 5765 "format.w" + HPUT8(255);} +#line 3169 "parser.c" break; case 160: /* stream_split: stream_link stream_link UNSIGNED */ -#line 554 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("split ratio",(yyvsp[0].u),0,1000);HPUT16((yyvsp[0].u));} -#line 3111 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 766 "parser.y" + { + #line 5766 "format.w" + RNG("split ratio",(yyvsp[0].u),0,1000);HPUT16((yyvsp[0].u));} +#line 3177 "parser.c" break; case 161: /* $@7: %empty */ -#line 555 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("magnification factor",(yyvsp[0].u),0,1000);HPUT16((yyvsp[0].u));} -#line 3117 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 769 "parser.y" + { + #line 5767 "format.w" + RNG("magnification factor",(yyvsp[0].u),0,1000);HPUT16((yyvsp[0].u));} +#line 3185 "parser.c" break; case 163: /* stream_type: stream_info */ -#line 557 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 0;} -#line 3123 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 773 "parser.y" + { + #line 5769 "format.w" + (yyval.info)= 0;} +#line 3193 "parser.c" break; case 164: /* stream_type: "first" */ -#line 557 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 1;} -#line 3129 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 775 "parser.y" + { + #line 5769 "format.w" + (yyval.info)= 1;} +#line 3201 "parser.c" break; case 165: /* stream_type: "last" */ -#line 557 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 2;} -#line 3135 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 777 "parser.y" + { + #line 5769 "format.w" + (yyval.info)= 2;} +#line 3209 "parser.c" break; case 166: /* stream_type: "top" */ -#line 557 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= 3;} -#line 3141 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 779 "parser.y" + { + #line 5769 "format.w" + (yyval.info)= 3;} +#line 3217 "parser.c" break; case 167: /* stream_def_node: start "stream (definition)" ref stream_type list xdimen_node glue_node list glue_node ">" */ -#line 561 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{DEF((yyval.rf),stream_kind,(yyvsp[-7].u));hput_tags((yyvsp[-9].u),TAG(stream_kind,(yyvsp[-6].info)|b100));} -#line 3147 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 785 "parser.y" +{ + #line 5773 "format.w" + DEF((yyval.rf),stream_kind,(yyvsp[-7].u));hput_tags((yyvsp[-9].u),TAG(stream_kind,(yyvsp[-6].info) |b100));} +#line 3225 "parser.c" break; case 168: /* stream_ins_node: start "stream (definition)" ref ">" */ -#line 564 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{RNG("Stream insertion",(yyvsp[-1].u),0,max_ref[stream_kind]);hput_tags((yyvsp[-3].u),TAG(stream_kind,b100));} -#line 3153 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 790 "parser.y" +{ + #line 5776 "format.w" + RNG("Stream insertion",(yyvsp[-1].u),0,max_ref[stream_kind]);hput_tags((yyvsp[-3].u),TAG(stream_kind,b100));} +#line 3233 "parser.c" break; case 171: /* stream: empty_param_list list */ -#line 569 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b010;} -#line 3159 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 796 "parser.y" + { + #line 5871 "format.w" + (yyval.info)= b010;} +#line 3241 "parser.c" break; case 172: /* stream: empty_param_list non_empty_param_list list */ -#line 570 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b010;} -#line 3165 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 799 "parser.y" + { + #line 5872 "format.w" + (yyval.info)= b010;} +#line 3249 "parser.c" break; case 173: /* stream: param_ref list */ -#line 571 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.info)= b000;} -#line 3171 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 802 "parser.y" + { + #line 5873 "format.w" + (yyval.info)= b000;} +#line 3257 "parser.c" break; case 174: /* content_node: start "stream" stream_ref stream ">" */ -#line 573 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hput_tags((yyvsp[-4].u),TAG(stream_kind,(yyvsp[-1].info)));} -#line 3177 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 806 "parser.y" +{ + #line 5875 "format.w" + hput_tags((yyvsp[-4].u),TAG(stream_kind,(yyvsp[-1].info)));} +#line 3265 "parser.c" break; case 175: /* page_priority: %empty */ -#line 576 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUT8(1);} -#line 3183 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 810 "parser.y" + { + #line 5978 "format.w" + HPUT8(1);} +#line 3273 "parser.c" break; case 176: /* page_priority: UNSIGNED */ -#line 577 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("page priority",(yyvsp[0].u),0,255);HPUT8((yyvsp[0].u));} -#line 3189 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 813 "parser.y" + { + #line 5979 "format.w" + RNG("page priority",(yyvsp[0].u),0,255);HPUT8((yyvsp[0].u));} +#line 3281 "parser.c" break; case 179: /* $@8: %empty */ -#line 581 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_string((yyvsp[0].s));} -#line 3195 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 819 "parser.y" + { + #line 5983 "format.w" + hput_string((yyvsp[0].s));} +#line 3289 "parser.c" break; case 180: /* $@9: %empty */ -#line 581 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUT32((yyvsp[0].d));} -#line 3201 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 821 "parser.y" + { + #line 5983 "format.w" + HPUT32((yyvsp[0].d));} +#line 3297 "parser.c" break; case 182: /* content_node: "<" "range" REFERENCE "on" ">" */ -#line 587 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(page_kind,(yyvsp[-2].u));hput_range((yyvsp[-2].u),true);} -#line 3207 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 828 "parser.y" + { + #line 6095 "format.w" + REF(page_kind,(yyvsp[-2].u));hput_range((yyvsp[-2].u),true);} +#line 3305 "parser.c" break; case 183: /* content_node: "<" "range" REFERENCE "off" ">" */ -#line 588 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(page_kind,(yyvsp[-2].u));hput_range((yyvsp[-2].u),false);} -#line 3213 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 831 "parser.y" + { + #line 6096 "format.w" + REF(page_kind,(yyvsp[-2].u));hput_range((yyvsp[-2].u),false);} +#line 3313 "parser.c" break; case 185: /* $@10: %empty */ -#line 594 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {new_directory((yyvsp[0].u)+1);new_output_buffers();} -#line 3219 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 837 "parser.y" + { + #line 6786 "format.w" + new_directory((yyvsp[0].u)+1);new_output_buffers();} +#line 3321 "parser.c" break; case 189: /* entry: "<" "entry" UNSIGNED string ">" */ -#line 597 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{RNG("Section number",(yyvsp[-2].u),3,max_section_no);hset_entry(&(dir[(yyvsp[-2].u)]),(yyvsp[-2].u),0,0,(yyvsp[-1].s));} -#line 3225 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 842 "parser.y" +{ + #line 6789 "format.w" + RNG("Section number",(yyvsp[-2].u),3,max_section_no);hset_entry(&(dir[(yyvsp[-2].u)]),(yyvsp[-2].u),0,0,(yyvsp[-1].s));} +#line 3329 "parser.c" break; case 190: /* $@11: %empty */ -#line 600 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_definitions_start();} -#line 3231 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 846 "parser.y" + { + #line 7277 "format.w" + hput_definitions_start();} +#line 3337 "parser.c" break; case 191: /* definition_section: "<" "definitions" $@11 max_definitions definition_list ">" */ -#line 602 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_definitions_end();} -#line 3237 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 850 "parser.y" + { + #line 7279 "format.w" + hput_definitions_end();} +#line 3345 "parser.c" break; case 194: /* max_definitions: "<" "max" max_list ">" */ -#line 607 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{/*245:*/ - -if(max_ref[label_kind]>=0) -ALLOCATE(labels,max_ref[label_kind]+1,label_t); -/*:245*//*266:*/ - -if(max_outline>=0) -ALLOCATE(outlines,max_outline+1,outline_t); -/*:266*//*293:*/ - -ALLOCATE(page_on,max_ref[page_kind]+1,int); -ALLOCATE(range_pos,2*(max_ref[range_kind]+1),range_pos_t); -/*:293*//*357:*/ - -definition_bits[0][int_kind]= (1<<(MAX_INT_DEFAULT+1))-1; -definition_bits[0][dimen_kind]= (1<<(MAX_DIMEN_DEFAULT+1))-1; -definition_bits[0][xdimen_kind]= (1<<(MAX_XDIMEN_DEFAULT+1))-1; -definition_bits[0][glue_kind]= (1<<(MAX_GLUE_DEFAULT+1))-1; -definition_bits[0][baseline_kind]= (1<<(MAX_BASELINE_DEFAULT+1))-1; -definition_bits[0][page_kind]= (1<<(MAX_PAGE_DEFAULT+1))-1; -definition_bits[0][stream_kind]= (1<<(MAX_STREAM_DEFAULT+1))-1; -definition_bits[0][range_kind]= (1<<(MAX_RANGE_DEFAULT+1))-1; -/*:357*//*372:*/ - -ALLOCATE(hfont_name,max_ref[font_kind]+1,char*); -/*:372*/ -hput_max_definitions();} -#line 3269 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 856 "parser.y" +{ + #line 7395 "format.w" + /*245:*/ + if(max_ref[label_kind]>=0) + ALLOCATE(labels,max_ref[label_kind]+1,label_t); + /*:245*/ /*266:*/ + if(max_outline>=0) + ALLOCATE(outlines,max_outline+1,outline_t); + /*:266*/ /*293:*/ + ALLOCATE(page_on,max_ref[page_kind]+1,int); + ALLOCATE(range_pos,2*(max_ref[range_kind]+1),range_pos_t); + /*:293*/ /*357:*/ + definition_bits[0][int_kind]= (1<<(MAX_INT_DEFAULT+1))-1; + definition_bits[0][dimen_kind]= (1<<(MAX_DIMEN_DEFAULT+1))-1; + definition_bits[0][xdimen_kind]= (1<<(MAX_XDIMEN_DEFAULT+1))-1; + definition_bits[0][glue_kind]= (1<<(MAX_GLUE_DEFAULT+1))-1; + definition_bits[0][baseline_kind]= (1<<(MAX_BASELINE_DEFAULT+1))-1; + definition_bits[0][page_kind]= (1<<(MAX_PAGE_DEFAULT+1))-1; + definition_bits[0][stream_kind]= (1<<(MAX_STREAM_DEFAULT+1))-1; + definition_bits[0][range_kind]= (1<<(MAX_RANGE_DEFAULT+1))-1; + /*:357*/ /*372:*/ + ALLOCATE(hfont_name,max_ref[font_kind]+1,char*); + /*:372*/hput_max_definitions();} +#line 3373 "parser.c" break; case 197: /* max_value: "font" UNSIGNED */ -#line 637 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(font_kind,(yyvsp[0].u));} -#line 3275 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 882 "parser.y" + { + #line 7399 "format.w" + hset_max(font_kind,(yyvsp[0].u));} +#line 3381 "parser.c" break; case 198: /* max_value: "int" UNSIGNED */ -#line 638 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(int_kind,(yyvsp[0].u));} -#line 3281 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 885 "parser.y" + { + #line 7400 "format.w" + hset_max(int_kind,(yyvsp[0].u));} +#line 3389 "parser.c" break; case 199: /* max_value: "dimen" UNSIGNED */ -#line 639 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(dimen_kind,(yyvsp[0].u));} -#line 3287 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 888 "parser.y" + { + #line 7401 "format.w" + hset_max(dimen_kind,(yyvsp[0].u));} +#line 3397 "parser.c" break; case 200: /* max_value: "ligature" UNSIGNED */ -#line 640 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(ligature_kind,(yyvsp[0].u));} -#line 3293 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 891 "parser.y" + { + #line 7402 "format.w" + hset_max(ligature_kind,(yyvsp[0].u));} +#line 3405 "parser.c" break; case 201: /* max_value: "disc" UNSIGNED */ -#line 641 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(disc_kind,(yyvsp[0].u));} -#line 3299 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 894 "parser.y" + { + #line 7403 "format.w" + hset_max(disc_kind,(yyvsp[0].u));} +#line 3413 "parser.c" break; case 202: /* max_value: "glue" UNSIGNED */ -#line 642 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(glue_kind,(yyvsp[0].u));} -#line 3305 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 897 "parser.y" + { + #line 7404 "format.w" + hset_max(glue_kind,(yyvsp[0].u));} +#line 3421 "parser.c" break; case 203: /* max_value: "language" UNSIGNED */ -#line 643 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(language_kind,(yyvsp[0].u));} -#line 3311 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 900 "parser.y" + { + #line 7405 "format.w" + hset_max(language_kind,(yyvsp[0].u));} +#line 3429 "parser.c" break; case 204: /* max_value: "rule" UNSIGNED */ -#line 644 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(rule_kind,(yyvsp[0].u));} -#line 3317 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 903 "parser.y" + { + #line 7406 "format.w" + hset_max(rule_kind,(yyvsp[0].u));} +#line 3437 "parser.c" break; case 205: /* max_value: "image" UNSIGNED */ -#line 645 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(image_kind,(yyvsp[0].u));} -#line 3323 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 906 "parser.y" + { + #line 7407 "format.w" + hset_max(image_kind,(yyvsp[0].u));} +#line 3445 "parser.c" break; case 206: /* max_value: "leaders" UNSIGNED */ -#line 646 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(leaders_kind,(yyvsp[0].u));} -#line 3329 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 909 "parser.y" + { + #line 7408 "format.w" + hset_max(leaders_kind,(yyvsp[0].u));} +#line 3453 "parser.c" break; case 207: /* max_value: "baseline" UNSIGNED */ -#line 647 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(baseline_kind,(yyvsp[0].u));} -#line 3335 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 912 "parser.y" + { + #line 7409 "format.w" + hset_max(baseline_kind,(yyvsp[0].u));} +#line 3461 "parser.c" break; case 208: /* max_value: "xdimen" UNSIGNED */ -#line 648 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(xdimen_kind,(yyvsp[0].u));} -#line 3341 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 915 "parser.y" + { + #line 7410 "format.w" + hset_max(xdimen_kind,(yyvsp[0].u));} +#line 3469 "parser.c" break; case 209: /* max_value: "param" UNSIGNED */ -#line 649 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(param_kind,(yyvsp[0].u));} -#line 3347 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 918 "parser.y" + { + #line 7411 "format.w" + hset_max(param_kind,(yyvsp[0].u));} +#line 3477 "parser.c" break; case 210: /* max_value: "stream (definition)" UNSIGNED */ -#line 650 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(stream_kind,(yyvsp[0].u));} -#line 3353 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 921 "parser.y" + { + #line 7412 "format.w" + hset_max(stream_kind,(yyvsp[0].u));} +#line 3485 "parser.c" break; case 211: /* max_value: "page" UNSIGNED */ -#line 651 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(page_kind,(yyvsp[0].u));} -#line 3359 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 924 "parser.y" + { + #line 7413 "format.w" + hset_max(page_kind,(yyvsp[0].u));} +#line 3493 "parser.c" break; case 212: /* max_value: "range" UNSIGNED */ -#line 652 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(range_kind,(yyvsp[0].u));} -#line 3365 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 927 "parser.y" + { + #line 7414 "format.w" + hset_max(range_kind,(yyvsp[0].u));} +#line 3501 "parser.c" break; case 213: /* max_value: "label" UNSIGNED */ -#line 653 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hset_max(label_kind,(yyvsp[0].u));} -#line 3371 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 930 "parser.y" + { + #line 7415 "format.w" + hset_max(label_kind,(yyvsp[0].u));} +#line 3509 "parser.c" break; case 214: /* def_node: start "font" ref font ">" */ -#line 658 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),font_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),(yyvsp[-1].info));} -#line 3377 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 936 "parser.y" + { + #line 7612 "format.w" + DEF((yyval.rf),font_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),(yyvsp[-1].info));} +#line 3517 "parser.c" break; case 215: /* def_node: start "int" ref integer ">" */ -#line 659 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),int_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_int((yyvsp[-1].i)));} -#line 3383 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 939 "parser.y" + { + #line 7613 "format.w" + DEF((yyval.rf),int_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_int((yyvsp[-1].i)));} +#line 3525 "parser.c" break; case 216: /* def_node: start "dimen" ref dimension ">" */ -#line 660 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),dimen_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_dimen((yyvsp[-1].d)));} -#line 3389 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 942 "parser.y" + { + #line 7614 "format.w" + DEF((yyval.rf),dimen_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_dimen((yyvsp[-1].d)));} +#line 3533 "parser.c" break; case 217: /* def_node: start "language" ref string ">" */ -#line 661 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),language_kind,(yyvsp[-2].u));hput_string((yyvsp[-1].s));hput_tags((yyvsp[-4].u),TAG(language_kind,0));} -#line 3395 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 945 "parser.y" + { + #line 7615 "format.w" + DEF((yyval.rf),language_kind,(yyvsp[-2].u));hput_string((yyvsp[-1].s));hput_tags((yyvsp[-4].u),TAG(language_kind,0));} +#line 3541 "parser.c" break; case 218: /* def_node: start "glue" ref glue ">" */ -#line 662 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),glue_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_glue(&((yyvsp[-1].g))));} -#line 3401 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 948 "parser.y" + { + #line 7616 "format.w" + DEF((yyval.rf),glue_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_glue(&((yyvsp[-1].g))));} +#line 3549 "parser.c" break; case 219: /* def_node: start "xdimen" ref xdimen ">" */ -#line 663 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),xdimen_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_xdimen(&((yyvsp[-1].xd))));} -#line 3407 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 951 "parser.y" + { + #line 7617 "format.w" + DEF((yyval.rf),xdimen_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_xdimen(&((yyvsp[-1].xd))));} +#line 3557 "parser.c" break; case 220: /* def_node: start "rule" ref rule ">" */ -#line 664 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),rule_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_rule(&((yyvsp[-1].r))));} -#line 3413 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 954 "parser.y" + { + #line 7618 "format.w" + DEF((yyval.rf),rule_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_rule(&((yyvsp[-1].r))));} +#line 3565 "parser.c" break; case 221: /* def_node: start "leaders" ref leaders ">" */ -#line 665 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),leaders_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(leaders_kind,(yyvsp[-1].info)));} -#line 3419 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 957 "parser.y" + { + #line 7619 "format.w" + DEF((yyval.rf),leaders_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(leaders_kind,(yyvsp[-1].info)));} +#line 3573 "parser.c" break; case 222: /* def_node: start "baseline" ref baseline ">" */ -#line 666 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),baseline_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(baseline_kind,(yyvsp[-1].info)));} -#line 3425 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 960 "parser.y" + { + #line 7620 "format.w" + DEF((yyval.rf),baseline_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(baseline_kind,(yyvsp[-1].info)));} +#line 3581 "parser.c" break; case 223: /* def_node: start "ligature" ref ligature ">" */ -#line 667 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),ligature_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_ligature(&((yyvsp[-1].lg))));} -#line 3431 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 963 "parser.y" + { + #line 7621 "format.w" + DEF((yyval.rf),ligature_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_ligature(&((yyvsp[-1].lg))));} +#line 3589 "parser.c" break; case 224: /* def_node: start "disc" ref disc ">" */ -#line 668 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),disc_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_disc(&((yyvsp[-1].dc))));} -#line 3437 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 966 "parser.y" + { + #line 7622 "format.w" + DEF((yyval.rf),disc_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_disc(&((yyvsp[-1].dc))));} +#line 3597 "parser.c" break; case 225: /* def_node: start "image" ref image ">" */ -#line 669 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),image_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_image(&((yyvsp[-1].x))));} -#line 3443 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 969 "parser.y" + { + #line 7623 "format.w" + DEF((yyval.rf),image_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_image(&((yyvsp[-1].x))));} +#line 3605 "parser.c" break; case 226: /* def_node: start "param" ref parameters ">" */ -#line 670 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),param_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_list((yyvsp[-4].u)+2,&((yyvsp[-1].l))));} -#line 3449 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 972 "parser.y" + { + #line 7624 "format.w" + DEF((yyval.rf),param_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),hput_list((yyvsp[-4].u)+2,&((yyvsp[-1].l))));} +#line 3613 "parser.c" break; case 227: /* def_node: start "page" ref page ">" */ -#line 671 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF((yyval.rf),page_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(page_kind,0));} -#line 3455 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 975 "parser.y" + { + #line 7625 "format.w" + DEF((yyval.rf),page_kind,(yyvsp[-2].u));hput_tags((yyvsp[-4].u),TAG(page_kind,0));} +#line 3621 "parser.c" break; case 228: /* def_node: start "int" ref ref ">" */ -#line 675 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF_REF((yyval.rf),int_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(int_kind,0));} -#line 3461 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 980 "parser.y" + { + #line 7644 "format.w" + DEF_REF((yyval.rf),int_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(int_kind,0));} +#line 3629 "parser.c" break; case 229: /* def_node: start "dimen" ref ref ">" */ -#line 676 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF_REF((yyval.rf),dimen_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(dimen_kind,0));} -#line 3467 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 983 "parser.y" + { + #line 7645 "format.w" + DEF_REF((yyval.rf),dimen_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(dimen_kind,0));} +#line 3637 "parser.c" break; case 230: /* def_node: start "glue" ref ref ">" */ -#line 677 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {DEF_REF((yyval.rf),glue_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(glue_kind,0));} -#line 3473 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 986 "parser.y" + { + #line 7646 "format.w" + DEF_REF((yyval.rf),glue_kind,(yyvsp[-2].u),(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(glue_kind,0));} +#line 3645 "parser.c" break; case 232: /* def_list: def_list def_node */ -#line 681 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {check_param_def(&((yyvsp[0].rf)));} -#line 3479 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 991 "parser.y" + { + #line 7760 "format.w" + check_param_def(&((yyvsp[0].rf)));} +#line 3653 "parser.c" break; case 233: /* parameters: estimate def_list */ -#line 682 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {(yyval.l).p= (yyvsp[0].u);(yyval.l).k= param_kind;(yyval.l).s= (hpos-hstart)-(yyvsp[0].u);} -#line 3485 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 994 "parser.y" + { + #line 7761 "format.w" + (yyval.l).p= (yyvsp[0].u);(yyval.l).k= param_kind;(yyval.l).s= (hpos-hstart)-(yyvsp[0].u);} +#line 3661 "parser.c" break; case 234: /* empty_param_list: position */ -#line 685 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {HPUTX(2);hpos++;hput_tags((yyvsp[0].u),TAG(param_kind,1));} -#line 3491 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 998 "parser.y" + { + #line 7782 "format.w" + HPUTX(2);hpos++;hput_tags((yyvsp[0].u),TAG(param_kind,1));} +#line 3669 "parser.c" break; case 235: /* $@12: %empty */ -#line 686 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hpos= hpos-2;} -#line 3497 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1001 "parser.y" + { + #line 7783 "format.w" + hpos= hpos-2;} +#line 3677 "parser.c" break; case 236: /* non_empty_param_list: start "param" $@12 parameters ">" */ -#line 687 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hput_tags((yyvsp[-4].u)-2,hput_list((yyvsp[-4].u)-1,&((yyvsp[-1].l))));} -#line 3503 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1004 "parser.y" +{ + #line 7784 "format.w" + hput_tags((yyvsp[-4].u)-2,hput_list((yyvsp[-4].u)-1,&((yyvsp[-1].l))));} +#line 3685 "parser.c" break; case 238: /* font_head: string dimension UNSIGNED UNSIGNED */ -#line 694 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{uint8_t f= (yyvsp[-4].u);SET_DBIT(f,font_kind);hfont_name[f]= strdup((yyvsp[-3].s));(yyval.info)= hput_font_head(f,hfont_name[f],(yyvsp[-2].d),(yyvsp[-1].u),(yyvsp[0].u));} -#line 3509 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1012 "parser.y" +{ + #line 7926 "format.w" + uint8_t f= (yyvsp[-4].u);SET_DBIT(f,font_kind);hfont_name[f]= strdup((yyvsp[-3].s));(yyval.info)= hput_font_head(f,hfont_name[f],(yyvsp[-2].d),(yyvsp[-1].u),(yyvsp[0].u));} +#line 3693 "parser.c" break; case 241: /* font_param: start "penalty" fref penalty ">" */ -#line 699 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_int((yyvsp[-1].i)));} -#line 3515 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1019 "parser.y" + { + #line 7931 "format.w" + hput_tags((yyvsp[-4].u),hput_int((yyvsp[-1].i)));} +#line 3701 "parser.c" break; case 242: /* font_param: start "kern" fref kern ">" */ -#line 700 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_kern(&((yyvsp[-1].kt))));} -#line 3521 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1022 "parser.y" + { + #line 7932 "format.w" + hput_tags((yyvsp[-4].u),hput_kern(&((yyvsp[-1].kt))));} +#line 3709 "parser.c" break; case 243: /* font_param: start "ligature" fref ligature ">" */ -#line 701 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_ligature(&((yyvsp[-1].lg))));} -#line 3527 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1025 "parser.y" + { + #line 7933 "format.w" + hput_tags((yyvsp[-4].u),hput_ligature(&((yyvsp[-1].lg))));} +#line 3717 "parser.c" break; case 244: /* font_param: start "disc" fref disc ">" */ -#line 702 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_disc(&((yyvsp[-1].dc))));} -#line 3533 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1028 "parser.y" + { + #line 7934 "format.w" + hput_tags((yyvsp[-4].u),hput_disc(&((yyvsp[-1].dc))));} +#line 3725 "parser.c" break; case 245: /* font_param: start "glue" fref glue ">" */ -#line 703 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_glue(&((yyvsp[-1].g))));} -#line 3539 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1031 "parser.y" + { + #line 7935 "format.w" + hput_tags((yyvsp[-4].u),hput_glue(&((yyvsp[-1].g))));} +#line 3733 "parser.c" break; case 246: /* font_param: start "language" fref string ">" */ -#line 704 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_string((yyvsp[-1].s));hput_tags((yyvsp[-4].u),TAG(language_kind,0));} -#line 3545 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1034 "parser.y" + { + #line 7936 "format.w" + hput_string((yyvsp[-1].s));hput_tags((yyvsp[-4].u),TAG(language_kind,0));} +#line 3741 "parser.c" break; case 247: /* font_param: start "rule" fref rule ">" */ -#line 705 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_rule(&((yyvsp[-1].r))));} -#line 3551 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1037 "parser.y" + { + #line 7937 "format.w" + hput_tags((yyvsp[-4].u),hput_rule(&((yyvsp[-1].r))));} +#line 3749 "parser.c" break; case 248: /* font_param: start "image" fref image ">" */ -#line 706 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_tags((yyvsp[-4].u),hput_image(&((yyvsp[-1].x))));} -#line 3557 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1040 "parser.y" + { + #line 7938 "format.w" + hput_tags((yyvsp[-4].u),hput_image(&((yyvsp[-1].x))));} +#line 3757 "parser.c" break; case 249: /* fref: ref */ -#line 708 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {RNG("Font parameter",(yyvsp[0].u),0,MAX_FONT_PARAMS);} -#line 3563 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1044 "parser.y" + { + #line 7940 "format.w" + RNG("Font parameter",(yyvsp[0].u),0,MAX_FONT_PARAMS);} +#line 3765 "parser.c" break; case 250: /* xdimen_ref: ref */ -#line 711 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(xdimen_kind,(yyvsp[0].u));} -#line 3569 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1048 "parser.y" + { + #line 8013 "format.w" + REF(xdimen_kind,(yyvsp[0].u));} +#line 3773 "parser.c" break; case 251: /* param_ref: ref */ -#line 712 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(param_kind,(yyvsp[0].u));} -#line 3575 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1051 "parser.y" + { + #line 8014 "format.w" + REF(param_kind,(yyvsp[0].u));} +#line 3781 "parser.c" break; case 252: /* stream_ref: ref */ -#line 713 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF_RNG(stream_kind,(yyvsp[0].u));} -#line 3581 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1054 "parser.y" + { + #line 8015 "format.w" + REF_RNG(stream_kind,(yyvsp[0].u));} +#line 3789 "parser.c" break; case 253: /* content_node: start "penalty" ref ">" */ -#line 717 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(penalty_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(penalty_kind,0));} -#line 3587 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1060 "parser.y" + { + #line 8019 "format.w" + REF(penalty_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(penalty_kind,0));} +#line 3797 "parser.c" break; case 254: /* content_node: start "kern" explicit ref ">" */ -#line 719 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{REF(dimen_kind,(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(kern_kind,((yyvsp[-2].b))?b100:b000));} -#line 3593 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1064 "parser.y" +{ + #line 8021 "format.w" + REF(dimen_kind,(yyvsp[-1].u));hput_tags((yyvsp[-4].u),TAG(kern_kind,((yyvsp[-2].b))?b100:b000));} +#line 3805 "parser.c" break; case 255: /* content_node: start "kern" explicit "xdimen" ref ">" */ -#line 721 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{REF(xdimen_kind,(yyvsp[-1].u));hput_tags((yyvsp[-5].u),TAG(kern_kind,((yyvsp[-3].b))?b101:b001));} -#line 3599 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1068 "parser.y" +{ + #line 8023 "format.w" + REF(xdimen_kind,(yyvsp[-1].u));hput_tags((yyvsp[-5].u),TAG(kern_kind,((yyvsp[-3].b))?b101:b001));} +#line 3813 "parser.c" break; case 256: /* content_node: start "glue" ref ">" */ -#line 722 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(glue_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(glue_kind,0));} -#line 3605 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1071 "parser.y" + { + #line 8024 "format.w" + REF(glue_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(glue_kind,0));} +#line 3821 "parser.c" break; case 257: /* content_node: start "ligature" ref ">" */ -#line 723 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(ligature_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(ligature_kind,0));} -#line 3611 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1074 "parser.y" + { + #line 8025 "format.w" + REF(ligature_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(ligature_kind,0));} +#line 3829 "parser.c" break; case 258: /* content_node: start "disc" ref ">" */ -#line 724 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(disc_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(disc_kind,0));} -#line 3617 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1077 "parser.y" + { + #line 8026 "format.w" + REF(disc_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(disc_kind,0));} +#line 3837 "parser.c" break; case 259: /* content_node: start "rule" ref ">" */ -#line 725 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(rule_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(rule_kind,0));} -#line 3623 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1080 "parser.y" + { + #line 8027 "format.w" + REF(rule_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(rule_kind,0));} +#line 3845 "parser.c" break; case 260: /* content_node: start "image" ref ">" */ -#line 726 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(image_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(image_kind,0));} -#line 3629 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1083 "parser.y" + { + #line 8028 "format.w" + REF(image_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(image_kind,0));} +#line 3853 "parser.c" break; case 261: /* content_node: start "leaders" ref ">" */ -#line 727 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(leaders_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(leaders_kind,0));} -#line 3635 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1086 "parser.y" + { + #line 8029 "format.w" + REF(leaders_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(leaders_kind,0));} +#line 3861 "parser.c" break; case 262: /* content_node: start "baseline" ref ">" */ -#line 728 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(baseline_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(baseline_kind,0));} -#line 3641 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1089 "parser.y" + { + #line 8030 "format.w" + REF(baseline_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),TAG(baseline_kind,0));} +#line 3869 "parser.c" break; case 263: /* content_node: start "language" REFERENCE ">" */ -#line 729 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(language_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),hput_language((yyvsp[-1].u)));} -#line 3647 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1092 "parser.y" + { + #line 8031 "format.w" + REF(language_kind,(yyvsp[-1].u));hput_tags((yyvsp[-3].u),hput_language((yyvsp[-1].u)));} +#line 3877 "parser.c" break; case 264: /* glue_node: start "glue" ref ">" */ -#line 731 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {REF(glue_kind,(yyvsp[-1].u)); -if((yyvsp[-1].u)==zero_skip_no){hpos= hpos-2;(yyval.b)= false;} -else{hput_tags((yyvsp[-3].u),TAG(glue_kind,0));(yyval.b)= true;}} -#line 3655 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1096 "parser.y" + { + #line 8033 "format.w" + REF(glue_kind,(yyvsp[-1].u)); + if((yyvsp[-1].u)==zero_skip_no){hpos= hpos-2;(yyval.b)= false;} + else{hput_tags((yyvsp[-3].u),TAG(glue_kind,0));(yyval.b)= true;}} +#line 3887 "parser.c" break; case 265: /* $@13: %empty */ -#line 737 "../../../texk/web2c/hitexdir/hishrink-parser.y" - {hput_content_start();} -#line 3661 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1103 "parser.y" + { + #line 8464 "format.w" + hput_content_start();} +#line 3895 "parser.c" break; case 266: /* content_section: "<" "content" $@13 content_list ">" */ -#line 738 "../../../texk/web2c/hitexdir/hishrink-parser.y" -{hput_content_end();hput_range_defs();hput_label_defs();} -#line 3667 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 1106 "parser.y" +{ + #line 8465 "format.w" + hput_content_end();hput_range_defs();hput_label_defs();} +#line 3903 "parser.c" break; -#line 3671 "../../../texk/web2c/hitexdir/hishrink-parser.c" +#line 3907 "parser.c" default: break; } @@ -3891,6 +4127,6 @@ yyreturnlab: return yyresult; } -#line 741 "../../../texk/web2c/hitexdir/hishrink-parser.y" +#line 1110 "parser.y" -/*:510*/ + /*:510*/ diff --git a/Build/source/texk/web2c/hitexdir/hishrink-parser.h b/Build/source/texk/web2c/hitexdir/hiparser.h index c6b0ea3d8e2..511228663eb 100644 --- a/Build/source/texk/web2c/hitexdir/hishrink-parser.h +++ b/Build/source/texk/web2c/hitexdir/hiparser.h @@ -35,8 +35,8 @@ especially those whose name start with YY_ or yy_. They are private implementation details that can be changed or removed. */ -#ifndef YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED -# define YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED +#ifndef YY_YY_PARSER_H_INCLUDED +# define YY_YY_PARSER_H_INCLUDED /* Debug traces. */ #ifndef YYDEBUG # define YYDEBUG 0 @@ -140,107 +140,22 @@ extern int yydebug; }; typedef enum yytokentype yytoken_kind_t; #endif -/* Token kinds. */ -#define YYEMPTY -2 -#define YYEOF 0 -#define YYerror 256 -#define YYUNDEF 257 -#define START 258 -#define END 259 -#define GLYPH 260 -#define UNSIGNED 261 -#define REFERENCE 262 -#define SIGNED 263 -#define STRING 264 -#define CHARCODE 265 -#define FPNUM 266 -#define DIMEN 267 -#define PT 268 -#define MM 269 -#define INCH 270 -#define XDIMEN 271 -#define H 272 -#define V 273 -#define FIL 274 -#define FILL 275 -#define FILLL 276 -#define PENALTY 277 -#define INTEGER 278 -#define LANGUAGE 279 -#define RULE 280 -#define RUNNING 281 -#define KERN 282 -#define EXPLICIT 283 -#define GLUE 284 -#define PLUS 285 -#define MINUS 286 -#define TXT_START 287 -#define TXT_END 288 -#define TXT_IGNORE 289 -#define TXT_FONT_GLUE 290 -#define TXT_FONT_HYPHEN 291 -#define TXT_FONT 292 -#define TXT_LOCAL 293 -#define TXT_GLOBAL 294 -#define TXT_CC 295 -#define HBOX 296 -#define VBOX 297 -#define SHIFTED 298 -#define HPACK 299 -#define HSET 300 -#define VPACK 301 -#define VSET 302 -#define DEPTH 303 -#define ADD 304 -#define TO 305 -#define LEADERS 306 -#define ALIGN 307 -#define CENTER 308 -#define EXPAND 309 -#define BASELINE 310 -#define LIGATURE 311 -#define DISC 312 -#define PAR 313 -#define MATH 314 -#define ON 315 -#define OFF 316 -#define ADJUST 317 -#define TABLE 318 -#define ITEM 319 -#define IMAGE 320 -#define LABEL 321 -#define BOT 322 -#define MID 323 -#define LINK 324 -#define OUTLINE 325 -#define STREAM 326 -#define STREAMDEF 327 -#define FIRST 328 -#define LAST 329 -#define TOP 330 -#define NOREFERENCE 331 -#define PAGE 332 -#define RANGE 333 -#define DIRECTORY 334 -#define SECTION 335 -#define DEFINITIONS 336 -#define MAX 337 -#define PARAM 338 -#define FONT 339 -#define CONTENT 340 /* Value type. */ #if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED union YYSTYPE { -#line 78 "../../../texk/web2c/hitexdir/hishrink-parser.y" -uint32_t u;int32_t i;char*s;float64_t f;glyph_t c; -dimen_t d;stretch_t st;xdimen_t xd;kern_t kt; -rule_t r;glue_t g;image_t x; -list_t l;box_t h;disc_t dc;lig_t lg; -ref_t rf;info_t info;order_t o;bool b; +#line 79 "parser.y" + + #line 10237 "format.w" + uint32_t u; int32_t i; char *s; float64_t f; glyph_t c; + dimen_t d;stretch_t st;xdimen_t xd;kern_t kt; + rule_t r;glue_t g;image_t x; + list_t l;box_t h;disc_t dc;lig_t lg; + ref_t rf;info_t info;order_t o;bool b; + -#line 244 "../../../texk/web2c/hitexdir/hishrink-parser.h" +#line 159 "hiparser.h" }; typedef union YYSTYPE YYSTYPE; @@ -255,4 +170,4 @@ extern YYSTYPE yylval; int yyparse (void); -#endif /* !YY_YY__TEXK_WEB_C_HITEXDIR_HISHRINK_PARSER_H_INCLUDED */ +#endif /* !YY_YY_PARSER_H_INCLUDED */ diff --git a/Build/source/texk/web2c/hitexdir/hiparser.y b/Build/source/texk/web2c/hitexdir/hiparser.y new file mode 100644 index 00000000000..dc1ab177ccb --- /dev/null +++ b/Build/source/texk/web2c/hitexdir/hiparser.y @@ -0,0 +1,1111 @@ + /*510:*/ +%{ + #line 10212 "format.w" + +#include "hibasetypes.h" +#include <string.h> +#include <math.h> +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" +extern char**hfont_name; + + /*356:*/ +uint32_t definition_bits[0x100/32][32]= { + #line 7578 "format.w" + {0}}; + +#define SET_DBIT(N,K) ((N)>0xFF?1:(definition_bits[N/32][K] |= (1<<((N)&(32-1))))) +#define GET_DBIT(N,K) ((N)>0xFF?1:((definition_bits[N/32][K]>>((N)&(32-1)))&1)) +#define DEF(D,K,N) (D).k= K; (D).n= (N);SET_DBIT((D).n,(D).k);\ + DBG(DBGDEF,"Defining %s %d\n",definition_name[(D).k],(D).n);\ + RNG("Definition",(D).n,max_fixed[(D).k]+1,max_ref[(D).k]); +#define REF(K,N) REF_RNG(K,N);if(!GET_DBIT(N,K)) \ + QUIT("Reference %d to %s before definition",(N),definition_name[K]) + /*:356*/ /*360:*/ +#define DEF_REF(D,K,M,N) DEF(D,K,M);\ +if ((M)>max_default[K]) QUIT("Defining non default reference %d for %s",M,definition_name[K]); \ +if ((N)>max_fixed[K]) QUIT("Defining reference %d for %s by non fixed reference %d",M,definition_name[K],N); + /*:360*/ + +extern void hset_entry(entry_t*e,uint16_t i,uint32_t size, +uint32_t xsize,char*file_name); + + /*423:*/ +#ifdef DEBUG +#define YYDEBUG 1 +extern int yydebug; +#else +#define YYDEBUG 0 +#endif + /*:423*/ +extern int yylex(void); + + /*352:*/ +void hset_max(kind_t k,int n) +{ + #line 7421 "format.w" + DBG(DBGDEF,"Setting max %s to %d\n",definition_name[k],n); + RNG("Maximum",n,max_fixed[k]+1,MAX_REF(k)); + if(n>max_ref[k]) + max_ref[k]= n; + } + /*:352*/ /*363:*/ +void check_param_def(ref_t*df) +{ + #line 7727 "format.w" + if(df->k!=int_kind&&df->k!=dimen_kind&&df->k!=glue_kind) + QUIT("Kind %s not allowed in parameter list",definition_name[df->k]); + if(df->n<=max_fixed[df->k]||max_default[df->k]<df->n) + QUIT("Parameter %d for %s not allowed in parameter list",df->n,definition_name[df->k]); + } + /*:363*/ /*422:*/ +extern int yylineno; +int yyerror(const char*msg) +{ + #line 8799 "format.w" + QUIT(" in line %d %s",yylineno,msg); + return 0; + } + /*:422*/ + + +%} + + + + + +%union { + #line 10237 "format.w" + uint32_t u; int32_t i; char *s; float64_t f; glyph_t c; + dimen_t d;stretch_t st;xdimen_t xd;kern_t kt; + rule_t r;glue_t g;image_t x; + list_t l;box_t h;disc_t dc;lig_t lg; + ref_t rf;info_t info;order_t o;bool b; + } + + + +%error_verbose +%start hint + + /*2:*/ +%token START "<" +%token END ">" +%token GLYPH "glyph" +%token <u> UNSIGNED +%token <u> REFERENCE + /*:2*/ /*4:*/ +%type <u> start +%type <c> glyph + /*:4*/ /*26:*/ +%token <i> SIGNED +%type <i> integer + /*:26*/ /*33:*/ +%token <s> STRING + /*:33*/ /*47:*/ +%token <u> CHARCODE + /*:47*/ /*49:*/ +%type <s> string + /*:49*/ /*54:*/ +%token <f> FPNUM +%type <f> number + /*:54*/ /*79:*/ +%token DIMEN "dimen" +%token PT "pt" +%token MM "mm" +%token INCH "in" +%type <d> dimension + /*:79*/ /*87:*/ +%token XDIMEN "xdimen" +%token H "h" +%token V "v" +%type <xd> xdimen + /*:87*/ /*98:*/ +%token FIL "fil" +%token FILL "fill" +%token FILLL "filll" +%type <st> stretch +%type <o> order + /*:98*/ /*102:*/ +%token PENALTY "penalty" +%token INTEGER "int" +%type <i> penalty + /*:102*/ /*108:*/ +%token LANGUAGE "language" + /*:108*/ /*114:*/ +%token RULE "rule" +%token RUNNING "|" +%type <d> rule_dimension +%type <r> rule + /*:114*/ /*123:*/ +%token KERN "kern" +%token EXPLICIT "!" +%type <b> explicit +%type <kt> kern + /*:123*/ /*132:*/ +%token GLUE "glue" +%token PLUS "plus" +%token MINUS "minus" +%type <g> glue +%type <b> glue_node +%type <st> plus minus + /*:132*/ /*141:*/ +%type <l> list +%type <u> position content_list + /*:141*/ /*150:*/ +%token TXT_START TXT_END TXT_IGNORE +%token TXT_FONT_GLUE TXT_FONT_HYPHEN +%token <u> TXT_FONT TXT_LOCAL +%token <rf> TXT_GLOBAL +%token <u> TXT_CC +%type <u> text + /*:150*/ /*161:*/ +%token HBOX "hbox" +%token VBOX "vbox" +%token SHIFTED "shifted" +%type <info> box box_dimen box_shift box_glue_set + + /*:161*/ /*169:*/ +%token HPACK "hpack" +%token HSET "hset" +%token VPACK "vpack" +%token VSET "vset" +%token DEPTH "depth" +%token ADD "add" +%token TO "to" +%type <info> xbox box_goal hpack vpack + /*:169*/ /*174:*/ +%token LEADERS "leaders" +%token ALIGN "align" +%token CENTER "center" +%token EXPAND "expand" +%type <info> leaders +%type <info> ltype + /*:174*/ /*181:*/ +%token BASELINE "baseline" +%type <info> baseline + /*:181*/ /*188:*/ +%token LIGATURE "ligature" +%type <u> lig_cc +%type <lg> ligature +%type <u> ref + /*:188*/ /*196:*/ +%token DISC "disc" +%type <dc> disc +%type <u> replace_count + /*:196*/ /*204:*/ +%token PAR "par" +%type <info> par + /*:204*/ /*209:*/ +%token MATH "math" +%type <info> math + /*:209*/ /*214:*/ +%token ON "on" +%token OFF "off" +%type <i> on_off + /*:214*/ /*218:*/ +%token ADJUST "adjust" + /*:218*/ /*222:*/ +%token TABLE "table" +%token ITEM "item" +%type <info> table span_count + /*:222*/ /*229:*/ +%token IMAGE "image" +%type <x> image image_dimen + /*:229*/ /*246:*/ +%token LABEL "label" +%token BOT "bot" +%token MID "mid" +%type <i> placement + /*:246*/ /*260:*/ +%token LINK "link" + /*:260*/ /*270:*/ +%token OUTLINE "outline" + /*:270*/ /*277:*/ +%token STREAM "stream" +%token STREAMDEF "stream (definition)" +%token FIRST "first" +%token LAST "last" +%token TOP "top" +%token NOREFERENCE "*" +%type <info> stream_type +%type <u> stream_ref +%type <rf> stream_def_node + /*:277*/ /*283:*/ +%type <info> stream + /*:283*/ /*287:*/ +%token PAGE "page" + /*:287*/ /*295:*/ +%token RANGE "range" + /*:295*/ /*322:*/ +%token DIRECTORY "directory" +%token SECTION "entry" + /*:322*/ /*341:*/ +%token DEFINITIONS "definitions" + /*:341*/ /*349:*/ +%token MAX "max" + /*:349*/ /*358:*/ + +%type <rf> def_node + /*:358*/ /*364:*/ +%token PARAM "param" +%type <u> def_list +%type <l> parameters + /*:364*/ /*373:*/ +%token FONT "font" +%type <info> font font_head + /*:373*/ /*401:*/ +%token CONTENT "content" + /*:401*/ +%% + /*5:*/ +glyph:UNSIGNED REFERENCE{ + #line 418 "format.w" + $$.c= $1;REF(font_kind,$2);$$.f= $2;}; +content_node:start GLYPH glyph END{ + #line 419 "format.w" + hput_tags($1,hput_glyph(&($3)));}; +start:START{ + #line 420 "format.w" + HPUTNODE;$$= (uint32_t)(hpos++-hstart);} + /*:5*/ /*29:*/ +integer:SIGNED |UNSIGNED{ + #line 941 "format.w" + RNG("number",$1,0,0x7FFFFFFF);}; + /*:29*/ /*38:*/ +glyph:CHARCODE REFERENCE{ + #line 1082 "format.w" + $$.c= $1;REF(font_kind,$2);$$.f= $2;}; + /*:38*/ /*50:*/ +string:STRING |CHARCODE{ + #line 1187 "format.w" + static char s[2]; + RNG("String element",$1,0x20,0x7E); + s[0]= $1;s[1]= 0;$$= s;}; + /*:50*/ /*58:*/ +number:UNSIGNED{ + #line 1339 "format.w" + $$= (float64_t)$1;} |SIGNED{ + #line 1339 "format.w" + $$= (float64_t)$1;} |FPNUM; + /*:58*/ /*82:*/ +dimension:number PT{ + #line 1682 "format.w" + $$= ROUND($1*ONE);RNG("Dimension",$$,-MAX_DIMEN,MAX_DIMEN);} + |number INCH{ + #line 1683 "format.w" + $$= ROUND($1*ONE*72.27);RNG("Dimension",$$,-MAX_DIMEN,MAX_DIMEN);} + |number MM{ + #line 1684 "format.w" + $$= ROUND($1*ONE*(72.27/25.4));RNG("Dimension",$$,-MAX_DIMEN,MAX_DIMEN);}; + /*:82*/ /*89:*/ +xdimen:dimension number H number V{ + #line 1762 "format.w" + $$.w= $1;$$.h= $2;$$.v= $4;} + |dimension number H{ + #line 1763 "format.w" + $$.w= $1;$$.h= $2;$$.v= 0.0;} + |dimension number V{ + #line 1764 "format.w" + $$.w= $1;$$.h= 0.0;$$.v= $2;} + |dimension{ + #line 1765 "format.w" + $$.w= $1;$$.h= 0.0;$$.v= 0.0;}; + + + +xdimen_node:start XDIMEN xdimen END{ + #line 1769 "format.w" + hput_tags($1,hput_xdimen(&($3)));}; + /*:89*/ /*100:*/ + +order:PT{ + #line 1947 "format.w" + $$= normal_o;} |FIL{ + #line 1947 "format.w" + $$= fil_o;} |FILL{ + #line 1947 "format.w" + $$= fill_o;} |FILLL{ + #line 1947 "format.w" + $$= filll_o;}; + +stretch:number order{ + #line 1949 "format.w" + $$.f= $1;$$.o= $2;}; + /*:100*/ /*104:*/ +penalty:integer{ + #line 2003 "format.w" + RNG("Penalty",$1,-20000,+20000);$$= $1;}; +content_node:start PENALTY penalty END{ + #line 2004 "format.w" + hput_tags($1,hput_int($3));}; + /*:104*/ /*116:*/ +rule_dimension:dimension |RUNNING{ + #line 2179 "format.w" + $$= RUNNING_DIMEN;}; +rule:rule_dimension rule_dimension rule_dimension +{ + #line 2181 "format.w" + $$.h= $1;$$.d= $2;$$.w= $3; + if($3==RUNNING_DIMEN&&($1==RUNNING_DIMEN||$2==RUNNING_DIMEN)) + QUIT("Incompatible running dimensions 0x%x 0x%x 0x%x",$1,$2,$3);}; +rule_node:start RULE rule END{ + #line 2184 "format.w" + hput_tags($1,hput_rule(&($3)));}; +content_node:rule_node; + /*:116*/ /*125:*/ +explicit:{ + #line 2292 "format.w" + $$= false;} |EXPLICIT{ + #line 2292 "format.w" + $$= true;}; +kern:explicit xdimen{ + #line 2293 "format.w" + $$.x= $1;$$.d= $2;}; +content_node:start KERN kern END{ + #line 2294 "format.w" + hput_tags($1,hput_kern(&($3)));} + /*:125*/ /*134:*/ +plus:{ + #line 2504 "format.w" + $$.f= 0.0;$$.o= 0;} |PLUS stretch{ + #line 2504 "format.w" + $$= $2;}; +minus:{ + #line 2505 "format.w" + $$.f= 0.0;$$.o= 0;} |MINUS stretch{ + #line 2505 "format.w" + $$= $2;}; +glue:xdimen plus minus{ + #line 2506 "format.w" + $$.w= $1;$$.p= $2;$$.m= $3;}; +content_node:start GLUE glue END{ + #line 2507 "format.w" + if(ZERO_GLUE($3)){HPUT8(zero_skip_no); + hput_tags($1,TAG(glue_kind,0));}else hput_tags($1,hput_glue(&($3)));}; +glue_node:start GLUE glue END +{ + #line 2510 "format.w" + if(ZERO_GLUE($3)){hpos--;$$= false;} + else{hput_tags($1,hput_glue(&($3)));$$= true;}}; + /*:134*/ /*142:*/ +position:{ + #line 2786 "format.w" + $$= hpos-hstart;}; +content_list:position + |content_list content_node; +estimate:{ + #line 2789 "format.w" + hpos+= 2;} + |UNSIGNED{ + #line 2790 "format.w" + hpos+= hsize_bytes($1)+1;}; +list:start estimate content_list END +{ + #line 2792 "format.w" + $$.k= list_kind;$$.p= $3;$$.s= (hpos-hstart)-$3; + hput_tags($1,hput_list($1+1,&($$)));}; + /*:142*/ /*153:*/ +list:TXT_START position +{ + #line 3199 "format.w" + hpos+= 4;} +text TXT_END +{ + #line 3201 "format.w" + $$.k= text_kind;$$.p= $4;$$.s= (hpos-hstart)-$4; + hput_tags($2,hput_list($2+1,&($$)));}; +text:position |text txt; + +txt:TXT_CC{ + #line 3205 "format.w" + hput_txt_cc($1);} + |TXT_FONT{ + #line 3206 "format.w" + REF(font_kind,$1);hput_txt_font($1);} + |TXT_GLOBAL{ + #line 3207 "format.w" + REF($1.k,$1.n);hput_txt_global(&($1));} + |TXT_LOCAL{ + #line 3208 "format.w" + RNG("Font parameter",$1,0,11);hput_txt_local($1);} + |TXT_FONT_GLUE{ + #line 3209 "format.w" + HPUTX(1);HPUT8(txt_glue);} + |TXT_FONT_HYPHEN{ + #line 3210 "format.w" + HPUTX(1);HPUT8(txt_hyphen);} + |TXT_IGNORE{ + #line 3211 "format.w" + HPUTX(1);HPUT8(txt_ignore);} + |{ + #line 3212 "format.w" + HPUTX(1);HPUT8(txt_node);}content_node; + /*:153*/ /*163:*/ + +box_dimen:dimension dimension dimension +{ + #line 3470 "format.w" + $$= hput_box_dimen($1,$2,$3);}; +box_shift:{ + #line 3471 "format.w" + $$= b000;} + |SHIFTED dimension{ + #line 3472 "format.w" + $$= hput_box_shift($2);}; + +box_glue_set:{ + #line 3474 "format.w" + $$= b000;} + |PLUS stretch{ + #line 3475 "format.w" + $$= hput_box_glue_set(+1,$2.f,$2.o);} + |MINUS stretch{ + #line 3476 "format.w" + $$= hput_box_glue_set(-1,$2.f,$2.o);}; + + +box:box_dimen box_shift box_glue_set list{ + #line 3479 "format.w" + $$= $1 |$2 |$3;}; + +hbox_node:start HBOX box END{ + #line 3481 "format.w" + hput_tags($1,TAG(hbox_kind,$3));}; +vbox_node:start VBOX box END{ + #line 3482 "format.w" + hput_tags($1,TAG(vbox_kind,$3));}; +content_node:hbox_node |vbox_node; + /*:163*/ /*171:*/ +box_flex:plus minus{ + #line 3663 "format.w" + hput_stretch(&($1));hput_stretch(&($2));}; +xbox:box_dimen box_shift box_flex xdimen_ref list{ + #line 3664 "format.w" + $$= $1 |$2;} + |box_dimen box_shift box_flex xdimen_node list{ + #line 3665 "format.w" + $$= $1 |$2 |b100;}; + +box_goal:TO xdimen_ref{ + #line 3667 "format.w" + $$= b000;} + |ADD xdimen_ref{ + #line 3668 "format.w" + $$= b001;} + |TO xdimen_node{ + #line 3669 "format.w" + $$= b100;} + |ADD xdimen_node{ + #line 3670 "format.w" + $$= b101;}; + +hpack:box_shift box_goal list{ + #line 3672 "format.w" + $$= $2;}; +vpack:box_shift MAX DEPTH dimension{ + #line 3673 "format.w" + HPUT32($4);}box_goal list{ + #line 3673 "format.w" + $$= $1 |$6;}; + +vxbox_node:start VSET xbox END{ + #line 3675 "format.w" + hput_tags($1,TAG(vset_kind,$3));} + |start VPACK vpack END{ + #line 3676 "format.w" + hput_tags($1,TAG(vpack_kind,$3));}; + + +hxbox_node:start HSET xbox END{ + #line 3679 "format.w" + hput_tags($1,TAG(hset_kind,$3));} + |start HPACK hpack END{ + #line 3680 "format.w" + hput_tags($1,TAG(hpack_kind,$3));}; + +content_node:vxbox_node |hxbox_node; + /*:171*/ /*176:*/ +ltype:{ + #line 3790 "format.w" + $$= 1;} |ALIGN{ + #line 3790 "format.w" + $$= 1;} |CENTER{ + #line 3790 "format.w" + $$= 2;} |EXPAND{ + #line 3790 "format.w" + $$= 3;}; +leaders:glue_node ltype rule_node{ + #line 3791 "format.w" + if($1)$$= $2 |b100;else $$= $2;} + |glue_node ltype hbox_node{ + #line 3792 "format.w" + if($1)$$= $2 |b100;else $$= $2;} + |glue_node ltype vbox_node{ + #line 3793 "format.w" + if($1)$$= $2 |b100;else $$= $2;}; +content_node:start LEADERS leaders END{ + #line 3794 "format.w" + hput_tags($1,TAG(leaders_kind,$3));} + /*:176*/ /*183:*/ +baseline:dimension{ + #line 3900 "format.w" + if($1!=0)HPUT32($1);} +glue_node glue_node{ + #line 3901 "format.w" + $$= b000;if($1!=0)$$ |= b001; + if($3)$$ |= b100; + if($4)$$ |= b010; + }; +content_node:start BASELINE baseline END +{ + #line 3906 "format.w" + if($3==b000)HPUT8(0);hput_tags($1,TAG(baseline_kind,$3));}; + /*:183*/ /*190:*/ +cc_list: |cc_list TXT_CC{ + #line 3989 "format.w" + hput_utf8($2);}; +lig_cc:UNSIGNED{ + #line 3990 "format.w" + RNG("UTF-8 code",$1,0,0x1FFFFF);$$= hpos-hstart;hput_utf8($1);}; +lig_cc:CHARCODE{ + #line 3991 "format.w" + $$= hpos-hstart;hput_utf8($1);}; +ref:REFERENCE{ + #line 3992 "format.w" + HPUT8($1);$$= $1;}; +ligature:ref{ + #line 3993 "format.w" + REF(font_kind,$1);}lig_cc TXT_START cc_list TXT_END +{ + #line 3994 "format.w" + $$.f= $1;$$.l.p= $3;$$.l.s= (hpos-hstart)-$3; + RNG("Ligature size",$$.l.s,0,255);}; +content_node:start LIGATURE ligature END{ + #line 3996 "format.w" + hput_tags($1,hput_ligature(&($3)));}; + /*:190*/ /*198:*/ +replace_count:explicit{ + #line 4106 "format.w" + if($1){$$= 0x80;HPUT8(0x80);}else $$= 0x00;} + |explicit UNSIGNED{ + #line 4107 "format.w" + RNG("Replace count",$2,0,31); + $$= ($2) |(($1)?0x80:0x00);if($$!=0)HPUT8($$);}; +disc:replace_count list list{ + #line 4109 "format.w" + $$.r= $1;$$.p= $2;$$.q= $3; + if($3.s==0){hpos= hpos-2;if($2.s==0)hpos= hpos-2;}} + |replace_count list{ + #line 4111 "format.w" + $$.r= $1;$$.p= $2;if($2.s==0)hpos= hpos-2;$$.q.s= 0;} + |replace_count{ + #line 4112 "format.w" + $$.r= $1;$$.p.s= 0;$$.q.s= 0;}; + + +disc_node:start DISC disc END +{ + #line 4116 "format.w" + hput_tags($1,hput_disc(&($3)));}; + +content_node:disc_node; + /*:198*/ /*206:*/ +par_dimen:xdimen{ + #line 4268 "format.w" + hput_xdimen_node(&($1));}; +par:xdimen_ref param_ref list{ + #line 4269 "format.w" + $$= b000;} + |xdimen_ref empty_param_list non_empty_param_list list{ + #line 4270 "format.w" + $$= b010;} + |xdimen_ref empty_param_list list{ + #line 4271 "format.w" + $$= b010;} + |xdimen param_ref{ + #line 4272 "format.w" + hput_xdimen_node(&($1));}list{ + #line 4272 "format.w" + $$= b100;} + |par_dimen empty_param_list non_empty_param_list list{ + #line 4273 "format.w" + $$= b110;} + |par_dimen empty_param_list list{ + #line 4274 "format.w" + $$= b110;}; + +content_node:start PAR par END{ + #line 4276 "format.w" + hput_tags($1,TAG(par_kind,$3));}; + /*:206*/ /*211:*/ +math:param_ref list{ + #line 4342 "format.w" + $$= b000;} + |param_ref list hbox_node{ + #line 4343 "format.w" + $$= b001;} + |param_ref hbox_node list{ + #line 4344 "format.w" + $$= b010;} + |empty_param_list list{ + #line 4345 "format.w" + $$= b100;} + |empty_param_list list hbox_node{ + #line 4346 "format.w" + $$= b101;} + |empty_param_list hbox_node list{ + #line 4347 "format.w" + $$= b110;} + |empty_param_list non_empty_param_list list{ + #line 4348 "format.w" + $$= b100;} + |empty_param_list non_empty_param_list list hbox_node{ + #line 4349 "format.w" + $$= b101;} + |empty_param_list non_empty_param_list hbox_node list{ + #line 4350 "format.w" + $$= b110;}; + +content_node:start MATH math END{ + #line 4352 "format.w" + hput_tags($1,TAG(math_kind,$3));}; + /*:211*/ /*216:*/ +on_off:ON{ + #line 4402 "format.w" + $$= 1;} |OFF{ + #line 4402 "format.w" + $$= 0;}; +math:on_off{ + #line 4403 "format.w" + $$= b011 |($1<<2);}; + /*:216*/ /*220:*/ +content_node:start ADJUST list END{ + #line 4434 "format.w" + hput_tags($1,TAG(adjust_kind,1));}; + /*:220*/ /*224:*/ +span_count:UNSIGNED{ + #line 4533 "format.w" + $$= hput_span_count($1);}; +content_node:start ITEM content_node END{ + #line 4534 "format.w" + hput_tags($1,TAG(item_kind,1));}; +content_node:start ITEM span_count content_node END{ + #line 4535 "format.w" + hput_tags($1,TAG(item_kind,$3));}; +content_node:start ITEM list END{ + #line 4536 "format.w" + hput_tags($1,TAG(item_kind,b000));}; + +table:H box_goal list list{ + #line 4538 "format.w" + $$= $2;}; +table:V box_goal list list{ + #line 4539 "format.w" + $$= $2 |b010;}; + +content_node:start TABLE table END{ + #line 4541 "format.w" + hput_tags($1,TAG(table_kind,$3));}; + /*:224*/ /*231:*/ +image_dimen:dimension dimension{ + #line 4629 "format.w" + $$.w= $1;$$.h= $2;} |{ + #line 4629 "format.w" + $$.w= $$.h= 0;}; +image:UNSIGNED image_dimen plus minus{ + #line 4630 "format.w" + $$.w= $2.w;$$.h= $2.h;$$.p= $3;$$.m= $4;RNG("Section number",$1,3,max_section_no);$$.n= $1;}; +content_node:start IMAGE image END{ + #line 4631 "format.w" + hput_tags($1,hput_image(&($3)));} + /*:231*/ /*241:*/ +max_value:OUTLINE UNSIGNED{ + #line 4868 "format.w" + max_outline= $2; + RNG("max outline",max_outline,0,0xFFFF); + DBG(DBGDEF |DBGLABEL,"Setting max outline to %d\n",max_outline); + }; + /*:241*/ /*248:*/ +placement:TOP{ + #line 4960 "format.w" + $$= LABEL_TOP;} |BOT{ + #line 4960 "format.w" + $$= LABEL_BOT;} |MID{ + #line 4960 "format.w" + $$= LABEL_MID;} |{ + #line 4960 "format.w" + $$= LABEL_MID;}; +content_node:START LABEL REFERENCE placement END +{ + #line 4962 "format.w" + hset_label($3,$4);} + /*:248*/ /*262:*/ +content_node:start LINK REFERENCE on_off END +{ + #line 5220 "format.w" + hput_tags($1,hput_link($3,$4));}; + /*:262*/ /*272:*/ +def_node:START OUTLINE REFERENCE integer position list END{ + #line 5350 "format.w" + + static int outline_no= -1; + $$.k= outline_kind;$$.n= $3; + if($6.s==0)QUIT("Outline with empty title in line %d",yylineno); + outline_no++; + hset_outline(outline_no,$3,$4,$5); + }; + /*:272*/ /*279:*/ +stream_link:ref{ + #line 5765 "format.w" + REF_RNG(stream_kind,$1);} |NOREFERENCE{ + #line 5765 "format.w" + HPUT8(255);}; +stream_split:stream_link stream_link UNSIGNED{ + #line 5766 "format.w" + RNG("split ratio",$3,0,1000);HPUT16($3);}; +stream_info:xdimen_node UNSIGNED{ + #line 5767 "format.w" + RNG("magnification factor",$2,0,1000);HPUT16($2);}stream_split; + +stream_type:stream_info{ + #line 5769 "format.w" + $$= 0;} |FIRST{ + #line 5769 "format.w" + $$= 1;} |LAST{ + #line 5769 "format.w" + $$= 2;} |TOP{ + #line 5769 "format.w" + $$= 3;}; + +stream_def_node:start STREAMDEF ref stream_type +list xdimen_node glue_node list glue_node END +{ + #line 5773 "format.w" + DEF($$,stream_kind,$3);hput_tags($1,TAG(stream_kind,$4 |b100));}; + +stream_ins_node:start STREAMDEF ref END +{ + #line 5776 "format.w" + RNG("Stream insertion",$3,0,max_ref[stream_kind]);hput_tags($1,TAG(stream_kind,b100));}; + +content_node:stream_def_node |stream_ins_node; + /*:279*/ /*284:*/ +stream:empty_param_list list{ + #line 5871 "format.w" + $$= b010;} + |empty_param_list non_empty_param_list list{ + #line 5872 "format.w" + $$= b010;} + |param_ref list{ + #line 5873 "format.w" + $$= b000;}; +content_node:start STREAM stream_ref stream END +{ + #line 5875 "format.w" + hput_tags($1,TAG(stream_kind,$4));}; + /*:284*/ /*289:*/ +page_priority:{ + #line 5978 "format.w" + HPUT8(1);} + |UNSIGNED{ + #line 5979 "format.w" + RNG("page priority",$1,0,255);HPUT8($1);}; + +stream_def_list: |stream_def_list stream_def_node; + +page:string{ + #line 5983 "format.w" + hput_string($1);}page_priority glue_node dimension{ + #line 5983 "format.w" + HPUT32($5);} +xdimen_node xdimen_node +list stream_def_list; + /*:289*/ /*297:*/ + +content_node:START RANGE REFERENCE ON END{ + #line 6095 "format.w" + REF(page_kind,$3);hput_range($3,true);} + |START RANGE REFERENCE OFF END{ + #line 6096 "format.w" + REF(page_kind,$3);hput_range($3,false);}; + /*:297*/ /*308:*/ +hint:directory_section definition_section content_section; + /*:308*/ /*324:*/ +directory_section:START DIRECTORY UNSIGNED{ + #line 6786 "format.w" + new_directory($3+1);new_output_buffers();}entry_list END; +entry_list: |entry_list entry; +entry:START SECTION UNSIGNED string END +{ + #line 6789 "format.w" + RNG("Section number",$3,3,max_section_no);hset_entry(&(dir[$3]),$3,0,0,$4);}; + /*:324*/ /*343:*/ +definition_section:START DEFINITIONS{ + #line 7277 "format.w" + hput_definitions_start();} +max_definitions definition_list +END{ + #line 7279 "format.w" + hput_definitions_end();}; +definition_list: |definition_list def_node; + /*:343*/ /*351:*/ +max_definitions:START MAX max_list END +{ + #line 7395 "format.w" + /*245:*/ + if(max_ref[label_kind]>=0) + ALLOCATE(labels,max_ref[label_kind]+1,label_t); + /*:245*/ /*266:*/ + if(max_outline>=0) + ALLOCATE(outlines,max_outline+1,outline_t); + /*:266*/ /*293:*/ + ALLOCATE(page_on,max_ref[page_kind]+1,int); + ALLOCATE(range_pos,2*(max_ref[range_kind]+1),range_pos_t); + /*:293*/ /*357:*/ + definition_bits[0][int_kind]= (1<<(MAX_INT_DEFAULT+1))-1; + definition_bits[0][dimen_kind]= (1<<(MAX_DIMEN_DEFAULT+1))-1; + definition_bits[0][xdimen_kind]= (1<<(MAX_XDIMEN_DEFAULT+1))-1; + definition_bits[0][glue_kind]= (1<<(MAX_GLUE_DEFAULT+1))-1; + definition_bits[0][baseline_kind]= (1<<(MAX_BASELINE_DEFAULT+1))-1; + definition_bits[0][page_kind]= (1<<(MAX_PAGE_DEFAULT+1))-1; + definition_bits[0][stream_kind]= (1<<(MAX_STREAM_DEFAULT+1))-1; + definition_bits[0][range_kind]= (1<<(MAX_RANGE_DEFAULT+1))-1; + /*:357*/ /*372:*/ + ALLOCATE(hfont_name,max_ref[font_kind]+1,char*); + /*:372*/hput_max_definitions();}; + +max_list: |max_list START max_value END; + +max_value:FONT UNSIGNED{ + #line 7399 "format.w" + hset_max(font_kind,$2);} + |INTEGER UNSIGNED{ + #line 7400 "format.w" + hset_max(int_kind,$2);} + |DIMEN UNSIGNED{ + #line 7401 "format.w" + hset_max(dimen_kind,$2);} + |LIGATURE UNSIGNED{ + #line 7402 "format.w" + hset_max(ligature_kind,$2);} + |DISC UNSIGNED{ + #line 7403 "format.w" + hset_max(disc_kind,$2);} + |GLUE UNSIGNED{ + #line 7404 "format.w" + hset_max(glue_kind,$2);} + |LANGUAGE UNSIGNED{ + #line 7405 "format.w" + hset_max(language_kind,$2);} + |RULE UNSIGNED{ + #line 7406 "format.w" + hset_max(rule_kind,$2);} + |IMAGE UNSIGNED{ + #line 7407 "format.w" + hset_max(image_kind,$2);} + |LEADERS UNSIGNED{ + #line 7408 "format.w" + hset_max(leaders_kind,$2);} + |BASELINE UNSIGNED{ + #line 7409 "format.w" + hset_max(baseline_kind,$2);} + |XDIMEN UNSIGNED{ + #line 7410 "format.w" + hset_max(xdimen_kind,$2);} + |PARAM UNSIGNED{ + #line 7411 "format.w" + hset_max(param_kind,$2);} + |STREAMDEF UNSIGNED{ + #line 7412 "format.w" + hset_max(stream_kind,$2);} + |PAGE UNSIGNED{ + #line 7413 "format.w" + hset_max(page_kind,$2);} + |RANGE UNSIGNED{ + #line 7414 "format.w" + hset_max(range_kind,$2);} + |LABEL UNSIGNED{ + #line 7415 "format.w" + hset_max(label_kind,$2);}; + + /*:351*/ /*359:*/ +def_node: +start FONT ref font END{ + #line 7612 "format.w" + DEF($$,font_kind,$3);hput_tags($1,$4);} + |start INTEGER ref integer END{ + #line 7613 "format.w" + DEF($$,int_kind,$3);hput_tags($1,hput_int($4));} + |start DIMEN ref dimension END{ + #line 7614 "format.w" + DEF($$,dimen_kind,$3);hput_tags($1,hput_dimen($4));} + |start LANGUAGE ref string END{ + #line 7615 "format.w" + DEF($$,language_kind,$3);hput_string($4);hput_tags($1,TAG(language_kind,0));} + |start GLUE ref glue END{ + #line 7616 "format.w" + DEF($$,glue_kind,$3);hput_tags($1,hput_glue(&($4)));} + |start XDIMEN ref xdimen END{ + #line 7617 "format.w" + DEF($$,xdimen_kind,$3);hput_tags($1,hput_xdimen(&($4)));} + |start RULE ref rule END{ + #line 7618 "format.w" + DEF($$,rule_kind,$3);hput_tags($1,hput_rule(&($4)));} + |start LEADERS ref leaders END{ + #line 7619 "format.w" + DEF($$,leaders_kind,$3);hput_tags($1,TAG(leaders_kind,$4));} + |start BASELINE ref baseline END{ + #line 7620 "format.w" + DEF($$,baseline_kind,$3);hput_tags($1,TAG(baseline_kind,$4));} + |start LIGATURE ref ligature END{ + #line 7621 "format.w" + DEF($$,ligature_kind,$3);hput_tags($1,hput_ligature(&($4)));} + |start DISC ref disc END{ + #line 7622 "format.w" + DEF($$,disc_kind,$3);hput_tags($1,hput_disc(&($4)));} + |start IMAGE ref image END{ + #line 7623 "format.w" + DEF($$,image_kind,$3);hput_tags($1,hput_image(&($4)));} + |start PARAM ref parameters END{ + #line 7624 "format.w" + DEF($$,param_kind,$3);hput_tags($1,hput_list($1+2,&($4)));} + |start PAGE ref page END{ + #line 7625 "format.w" + DEF($$,page_kind,$3);hput_tags($1,TAG(page_kind,0));}; + /*:359*/ /*361:*/ +def_node: +start INTEGER ref ref END{ + #line 7644 "format.w" + DEF_REF($$,int_kind,$3,$4);hput_tags($1,TAG(int_kind,0));} + |start DIMEN ref ref END{ + #line 7645 "format.w" + DEF_REF($$,dimen_kind,$3,$4);hput_tags($1,TAG(dimen_kind,0));} + |start GLUE ref ref END{ + #line 7646 "format.w" + DEF_REF($$,glue_kind,$3,$4);hput_tags($1,TAG(glue_kind,0));}; + /*:361*/ /*366:*/ +def_list:position + |def_list def_node{ + #line 7760 "format.w" + check_param_def(&($2));}; +parameters:estimate def_list{ + #line 7761 "format.w" + $$.p= $2;$$.k= param_kind;$$.s= (hpos-hstart)-$2;}; + /*:366*/ /*367:*/ +empty_param_list:position{ + #line 7782 "format.w" + HPUTX(2);hpos++;hput_tags($1,TAG(param_kind,1));}; +non_empty_param_list:start PARAM{ + #line 7783 "format.w" + hpos= hpos-2;}parameters END +{ + #line 7784 "format.w" + hput_tags($1-2,hput_list($1-1,&($4)));}; + /*:367*/ /*375:*/ + +font:font_head font_param_list; + +font_head:string dimension UNSIGNED UNSIGNED +{ + #line 7926 "format.w" + uint8_t f= $<u>0;SET_DBIT(f,font_kind);hfont_name[f]= strdup($1);$$= hput_font_head(f,hfont_name[f],$2,$3,$4);}; + +font_param_list:glue_node disc_node |font_param_list font_param; + +font_param: +start PENALTY fref penalty END{ + #line 7931 "format.w" + hput_tags($1,hput_int($4));} + |start KERN fref kern END{ + #line 7932 "format.w" + hput_tags($1,hput_kern(&($4)));} + |start LIGATURE fref ligature END{ + #line 7933 "format.w" + hput_tags($1,hput_ligature(&($4)));} + |start DISC fref disc END{ + #line 7934 "format.w" + hput_tags($1,hput_disc(&($4)));} + |start GLUE fref glue END{ + #line 7935 "format.w" + hput_tags($1,hput_glue(&($4)));} + |start LANGUAGE fref string END{ + #line 7936 "format.w" + hput_string($4);hput_tags($1,TAG(language_kind,0));} + |start RULE fref rule END{ + #line 7937 "format.w" + hput_tags($1,hput_rule(&($4)));} + |start IMAGE fref image END{ + #line 7938 "format.w" + hput_tags($1,hput_image(&($4)));}; + +fref:ref{ + #line 7940 "format.w" + RNG("Font parameter",$1,0,MAX_FONT_PARAMS);}; + /*:375*/ /*378:*/ +xdimen_ref:ref{ + #line 8013 "format.w" + REF(xdimen_kind,$1);}; +param_ref:ref{ + #line 8014 "format.w" + REF(param_kind,$1);}; +stream_ref:ref{ + #line 8015 "format.w" + REF_RNG(stream_kind,$1);}; + + +content_node: +start PENALTY ref END{ + #line 8019 "format.w" + REF(penalty_kind,$3);hput_tags($1,TAG(penalty_kind,0));} + |start KERN explicit ref END +{ + #line 8021 "format.w" + REF(dimen_kind,$4);hput_tags($1,TAG(kern_kind,($3)?b100:b000));} + |start KERN explicit XDIMEN ref END +{ + #line 8023 "format.w" + REF(xdimen_kind,$5);hput_tags($1,TAG(kern_kind,($3)?b101:b001));} + |start GLUE ref END{ + #line 8024 "format.w" + REF(glue_kind,$3);hput_tags($1,TAG(glue_kind,0));} + |start LIGATURE ref END{ + #line 8025 "format.w" + REF(ligature_kind,$3);hput_tags($1,TAG(ligature_kind,0));} + |start DISC ref END{ + #line 8026 "format.w" + REF(disc_kind,$3);hput_tags($1,TAG(disc_kind,0));} + |start RULE ref END{ + #line 8027 "format.w" + REF(rule_kind,$3);hput_tags($1,TAG(rule_kind,0));} + |start IMAGE ref END{ + #line 8028 "format.w" + REF(image_kind,$3);hput_tags($1,TAG(image_kind,0));} + |start LEADERS ref END{ + #line 8029 "format.w" + REF(leaders_kind,$3);hput_tags($1,TAG(leaders_kind,0));} + |start BASELINE ref END{ + #line 8030 "format.w" + REF(baseline_kind,$3);hput_tags($1,TAG(baseline_kind,0));} + |start LANGUAGE REFERENCE END{ + #line 8031 "format.w" + REF(language_kind,$3);hput_tags($1,hput_language($3));}; + +glue_node:start GLUE ref END{ + #line 8033 "format.w" + REF(glue_kind,$3); + if($3==zero_skip_no){hpos= hpos-2;$$= false;} + else{hput_tags($1,TAG(glue_kind,0));$$= true;}}; + + /*:378*/ /*403:*/ +content_section:START CONTENT{ + #line 8464 "format.w" + hput_content_start();}content_list END +{ + #line 8465 "format.w" + hput_content_end();hput_range_defs();hput_label_defs();}; + /*:403*/ +%% + /*:510*/ diff --git a/Build/source/texk/web2c/hitexdir/hitex.w b/Build/source/texk/web2c/hitexdir/hitex.w index 5e5e6cccb0f..f99e40077a4 100644 --- a/Build/source/texk/web2c/hitexdir/hitex.w +++ b/Build/source/texk/web2c/hitexdir/hitex.w @@ -24,303 +24,29972 @@ % dealings in this Software without prior written authorization from the % copyright holders. -\input ../hint.sty -\input ../changefile.sty +% The HINT program is derived from Donald E. Knuth's TeX and the +% subsequent e-TeX extension of TeX. + +% Prote is copyright (C) 2021 by Thierry Laronde and put under +% the kerTeX Public License version 1.0 (a BSD type license with a +% simplified advertising clause). +% +% As TeX and e-TeX are reserved names for the unchanged (except for the +% necessary implementation of system dependencies) instances of, resp., +% Donald E. Knuth's program and the NTS team's e-TeX implementation, the +% name Prote is reserved for this kerTeX implementation. +% +% Hence, this is neither TeX (even if it is compatible at start) nor +% e-TeX (even if is compatible when entering the first set of +% extensions). + +% Version 0 was released in September 1982 after it passed a variety of tests. +% Version 1 was released in November 1983 after thorough testing. +% Version 1.1 fixed ``disappearing font identifiers'' et alia (July 1984). +% Version 1.2 allowed `0' in response to an error, et alia (October 1984). +% Version 1.3 made memory allocation more flexible and local (November 1984). +% Version 1.4 fixed accents right after line breaks, et alia (April 1985). +% Version 1.5 fixed \the\toks after other expansion in \edefs (August 1985). +% Version 2.0 (almost identical to 1.5) corresponds to "Volume B" (April 1986). +% Version 2.1 corrected anomalies in discretionary breaks (January 1987). +% Version 2.2 corrected "(Please type...)" with null \endlinechar (April 1987). +% Version 2.3 avoided incomplete page in premature termination (August 1987). +% Version 2.4 fixed \noaligned rules in indented displays (August 1987). +% Version 2.5 saved cur_order when expanding tokens (September 1987). +% Version 2.6 added 10sp slop when shipping leaders (November 1987). +% Version 2.7 improved rounding of negative-width characters (November 1987). +% Version 2.8 fixed weird bug if no \patterns are used (December 1987). +% Version 2.9 made \csname\endcsname's "relax" local (December 1987). +% Version 2.91 fixed \outer\def\a0{}\a\a bug (April 1988). +% Version 2.92 fixed \patterns, also file names with complex macros (May 1988). +% Version 2.93 fixed negative halving in allocator when mem_min<0 (June 1988). +% Version 2.94 kept open_log_file from calling fatal_error (November 1988). +% Version 2.95 solved that problem a better way (December 1988). +% Version 2.96 corrected bug in "Infinite shrinkage" recovery (January 1989). +% Version 2.97 corrected blunder in creating 2.95 (February 1989). +% Version 2.98 omitted save_for_after at outer level (March 1989). +% Version 2.99 caught $$\begingroup\halign..$$ (June 1989). +% Version 2.991 caught .5\ifdim.6... (June 1989). +% Version 2.992 introduced major changes for 8-bit extensions (September 1989). +% Version 2.993 fixed a save_stack synchronization bug et alia (December 1989). +% Version 3.0 fixed unusual displays; was more \output robust (March 1990). +% Version 3.1 fixed nullfont, disabled \write{\the\prevgraf} (September 1990). +% Version 3.14 fixed unprintable font names and corrected typos (March 1991). +% Version 3.141 more of same; reconstituted ligatures better (March 1992). +% Version 3.1415 preserved nonexplicit kerns, tidied up (February 1993). +% Version 3.14159 allowed fontmemsize to change; bulletproofing (March 1995). +% Version 3.141592 fixed \xleaders, glueset, weird alignments (December 2002). +% Version 3.1415926 was a general cleanup with minor fixes (February 2008). +% Version 3.14159265 was similar (January 2014). +% Version 3.141592653 was similar but more extensive (January 2021). + +% A reward of $327.68 will be paid to the first finder of any remaining bug. + +% This is a beta version of 1.0 of Prote, developed during August 2021, +% and corrected during september/october 2021. +% +% 1.0: adds primitives needed by LaTeX as listed in ltnews31. +% History towards 1.0 release: +% 0.99.4: +% - typos and style corrections provided by Martin Ruckert for +% clean translation in Pascal (forward declarations and underscores +% omitted); +% - adjustements against e-TeX 2.6 instead of 2.1 (T. Laronde). +% 0.99.7: +% - \expanded was using an e-TeX procedure not doing def handling +% => using scan_toks() now. Reported by Martin Ruckert and +% test code narrowed down by Phelype Oleinik. +% 0.99.8: +% - \expanded again: scan_toks() sets def_ref. But back_list() +% has to take not the refernce count, but the first token. +% Passing def_ref, a next invocation of scan_toks() was inserting +% a missing left brace and then reading pass the end of the token +% list to find a matching right one. def_ref => link(def_ref). +% Test code narrowed down by Phelype Oleinik (a great help!). +% - The API for file related primitives has been changed: no error +% is reported on failure to find/open and nothing is returned +% (matches current other implementations). +% +% This work was done by Thierry Laronde and is under the kerTeX +% Public License version 1.0. There is absolutely no warranty of any +% kind! Use it at your own risks! +% +% + +% Here is TeX material that gets inserted after \input webmac +\def\hang{\hangindent 3em\noindent\ignorespaces} +\def\hangg#1 {\hang\hbox{#1 }} +\def\textindent#1{\hangindent2.5em\noindent\hbox to2.5em{\hss#1 }\ignorespaces} +\font\ninerm=cmr9 +\let\mc=\ninerm % medium caps for names like SAIL +\def\Prote{{\tenrm P\kern-0.1em R\kern-0.15em\raise.11ex\hbox{o}% + \kern-0.22em T\kern-0.05em E}} +\ifacro +\sanitizecommand{\eTeX}{eTeX} +\sanitizecommand{\Prote}{PRoTE} +\fi +\font\tenlogo=logo10 +\def\MP{{\tenlogo META}\-{\tenlogo POST}} +\def\eTeX{$\varepsilon$-\TeX} +\font\sf=cmss10 % used for the HINT name +\def\HINT{\leavevmode\hbox{\sf HINT\spacefactor1000}} +\ifacro\sanitizecommand{\HINT}{HINT}\fi +\font\revrm=xbmc10 % for right-to-left text +% to generate xbmc10 (i.e., reflected cmbx10) use a file +% xbmc10.mf containing: +%+++++++++++++++++++++++++++++++++++++++++++++++++ +% if unknown cmbase: input cmbase fi +% extra_endchar := extra_endchar & +% "currentpicture:=currentpicture " & +% "reflectedabout((.5[l,r],0),(.5[l,r],1));"; +% input cmbx10 +%+++++++++++++++++++++++++++++++++++++++++++++++++ +\ifx\beginL\undefined % this is TeX + \def\XeT{X\kern-.125em\lower.5ex\hbox{E}\kern-.1667emT} + \def\TeXeT{\TeX-\hbox{\revrm \XeT}} % for TeX-XeT + \def\TeXXeT{\TeX-\hbox{\revrm -\XeT}} % for TeX--XeT +\else + \ifx\eTeXversion\undefined % this is \TeXeT + \def\TeXeT{\TeX-{\revrm\beginR\TeX\endR}} % for TeX-XeT + \def\TeXXeT{\TeX-{\revrm\beginR\TeX-\endR}} % for TeX--XeT + \else % this is \eTeX + \def\TeXeT{\TeX-{\TeXXeTstate=1\revrm\beginR\TeX\endR}} % for TeX-XeT + \def\TeXXeT{\TeX-{\TeXXeTstate=1\revrm\beginR\TeX-\endR}} % for TeX--XeT + \fi +\fi +\def\PASCAL{Pascal} +\def\ph{\hbox{Pascal-H}} +\def\pct!{{\char`\%}} % percent sign in ordinary text +\def\grp{\.{\char'173...\char'175}} +\font\logo=logo10 % font used for the METAFONT logo +\def\MF{{\logo META}\-{\logo FONT}} +\def\<#1>{$\langle#1\rangle$} +\def\section{\mathhexbox278} + +\def\(#1){} % this is used to make section names sort themselves better +\def\9#1{} % this is used for sort keys in the index via @@:sort key}{entry@@> + +\let\@@=\relax % we want to be able to \write a \? + +\def\title{Hi\TeX} +\def\LaTeX{L\kern-.36em\raise.3ex\hbox{\sc A}\kern-.15em\TeX}% +% system dependent redefinitions of \title should come later +% and should use: +% \toks0=\expandafter{\title} +% \edef\title{...\the\toks0...} +%\let\maybe=\iffalse % print only changed modules +\def\topofcontents{\hsize 5.5in + \vglue 0pt plus 1fil minus 1.5in + \def\@@##1]{\hbox to 1in{\hfil##1.\ }} + } +\def\botofcontents{\vskip 0pt plus 1fil minus 1.5in} +\pageno=3 +\def\glob{13} % this should be the section number of "<Global...>" +\def\gglob{20, 26} % this should be the next two sections of "<Global...>" + +\def\.#1{\leavevmode\hbox{\tentex % typewriter type for strings + \let\\=\BS % backslash in a string + \let\'=\RQ % right quote in a string + \let\`=\LQ % left quote in a string + \let\{=\LB % left brace in a string + \let\}=\RB % right brace in a string + \let\~=\TL % tilde in a string + \let\ =\SP % space in a string + \let\_=\UL % underline in a string + \let\&=\AM % ampersand in a string + #1\kern.05em}} +\def\^{\ifmmode\mathchar"222 \else\char`^ \fi} % pointer or hat +\def\LQ{{\tt\char'22}} % left quote in a string +\def\RQ{{\tt\char'23}} % right quote in a string +\def\dotdot{\mathrel{.\,.}} % double dot, used only in math mode +@s dotdot TeX +@* Introduction. +This is Hi\TeX, a program derived from and extending the capabilities +of \TeX\ plus \eTeX\ plus \Prote\ plus k\TeX, +a document compiler intended to produce typesetting of high +quality. +The \PASCAL\ program that follows is the definition of \TeX82, a standard +@:PASCAL}{\PASCAL@> +@!@:TeX82}{\TeX82@> +version of \TeX\ that is designed to be highly portable so that identical output +will be obtainable on a great variety of computers. + +The main purpose of the following program is to explain the algorithms of \TeX\ +as clearly as possible. As a result, the program will not necessarily be very +efficient when a particular \PASCAL\ compiler has translated it into a +particular machine language. However, the program has been written so that it +can be tuned to run efficiently in a wide variety of operating environments +by making comparatively few changes. Such flexibility is possible because +the documentation that follows is written in the \.{WEB} language, which is +at a higher level than \PASCAL; the preprocessing step that converts \.{WEB} +to \PASCAL\ is able to introduce most of the necessary refinements. +Semi-automatic translation to other languages is also feasible, because the +program below does not make extensive use of features that are peculiar to +\PASCAL. + +A large piece of software like \TeX\ has inherent complexity that cannot +be reduced below a certain level of difficulty, although each individual +part is fairly simple by itself. The \.{WEB} language is intended to make +the algorithms as readable as possible, by reflecting the way the +individual program pieces fit together and by providing the +cross-references that connect different parts. Detailed comments about +what is going on, and about why things were done in certain ways, have +been liberally sprinkled throughout the program. These comments explain +features of the implementation, but they rarely attempt to explain the +\TeX\ language itself, since the reader is supposed to be familiar with +{\sl The \TeX book}. +@.WEB@> +@:TeXbook}{\sl The \TeX book@> + +@ The present implementation has a long ancestry, beginning in the summer +of~1977, when Michael~F. Plass and Frank~M. Liang designed and coded +a prototype +@^Plass, Michael Frederick@> +@^Liang, Franklin Mark@> +@^Knuth, Donald Ervin@> +based on some specifications that the author (in the following, unless +specified, ``the author'' refers to D.E.~Knuth) had made in May of that year. +This original proto\TeX\ included macro definitions and elementary +manipulations on boxes and glue, but it did not have line-breaking, +page-breaking, mathematical formulas, alignment routines, error recovery, +or the present semantic nest; furthermore, +it used character lists instead of token lists, so that a control sequence +like \.{\\halign} was represented by a list of seven characters. A +complete version of \TeX\ was designed and coded by the author in late +1977 and early 1978; that program, like its prototype, was written in the +{\mc SAIL} language, for which an excellent debugging system was +available. Preliminary plans to convert the {\mc SAIL} code into a form +somewhat like the present ``web'' were developed by Luis Trabb~Pardo and +@^Trabb Pardo, Luis Isidoro@> +the author at the beginning of 1979, and a complete implementation was +created by Ignacio~A. Zabala in 1979 and 1980. The \TeX82 program, which +@^Zabala Salelles, Ignacio Andr\'es@> +was written by the author during the latter part of 1981 and the early +part of 1982, also incorporates ideas from the 1979 implementation of +@^Guibas, Leonidas Ioannis@> +@^Sedgewick, Robert@> +@^Wyatt, Douglas Kirk@> +\TeX\ in {\mc MESA} that was written by Leonidas Guibas, Robert Sedgewick, +and Douglas Wyatt at the Xerox Palo Alto Research Center. Several hundred +refinements were introduced into \TeX82 based on the experiences gained with +the original implementations, so that essentially every part of the system +has been substantially improved. After the appearance of ``Version 0'' in +September 1982, this program benefited greatly from the comments of +many other people, notably David~R. Fuchs and Howard~W. Trickey. +A final revision in September 1989 extended the input character set to +eight-bit codes and introduced the ability to hyphenate words from +different languages, based on some ideas of Michael~J. Ferguson. +@^Fuchs, David Raymond@> +@^Trickey, Howard Wellington@> +@^Ferguson, Michael John@> + +No doubt there still is plenty of room for improvement, but the author +is firmly committed to keeping \TeX82 ``frozen'' from now on; stability +and reliability are to be its main virtues. + +On the other hand, the \.{WEB} description can be extended without changing +the core of \TeX82 itself, and the program has been designed so that such +extensions are not extremely difficult to make. +The |banner| string defined here should be changed whenever \TeX\ +undergoes any modifications, so that it will be clear which version of +\TeX\ might be the guilty party when a problem arises. +@^extensions to \TeX@> +@^system dependencies@> + +This program contains code for various features extending \TeX, +therefore this program is called `\Prote' and not +`\TeX'; the official name `\TeX' by itself is reserved +for software systems that are fully compatible with each other. +A special test suite called the ``\.{TRIP} test'' is available for +helping to determine whether a particular implementation deserves to be +known as `\TeX' [cf.~Stanford Computer Science report CS1027, +November 1984]. + +A similar test suite called the ``\.{SELLETTE} test'' is available for +helping to determine whether a particular implementation deserves to be +known as `\Prote'. + +@d eTeX_version 2 /* \.{\\eTeXversion} */ +@d eTeX_revision ".6" /* \.{\\eTeXrevision} */ +@d eTeX_version_string "-2.6" /*current \eTeX\ version*/ +@# +@d TeX_banner "This is TeX, Version 3.141592653" /*printed when \TeX\ starts*/ +@# +@# +@d TEX ETEX /*change program name into |ETEX|*/ +@# +@d eTeX_states 1 /*number of \eTeX\ state variables in |eqtb|*/ +@# +@d Prote_version_string "3.141592653-2.6-0.99.8" /*current \Prote\ version*/ +@d Prote_version 0 /* \.{\\Proteversion} */ +@d Prote_revision ".99.8" /* \.{\\Proterevision} */ +@# +@d Prote_banner "This is Prote, Version " Prote_version_string + /*printed when \Prote\ starts*/ +@# +@d HiTeX_version_string Prote_version_string "-1.0" +@# +@d banner "This is HiTeX, Version 3.141592653" HiTeX_version_string /*printed when \TeX\ starts*/ + +@ Different \PASCAL s have slightly different conventions, and the present +@!@:PASCAL H}{\ph@> +program expresses \TeX\ in terms of the \PASCAL\ that was +available to the author in 1982. Constructions that apply to +this particular compiler, which we shall call \ph, should help the +reader see how to make an appropriate interface for other systems +if necessary. (\ph\ is Charles Hedrick's modification of a compiler +@^Hedrick, Charles Locke@> +for the DECsystem-10 that was originally developed at the University of +Hamburg; cf.\ {\sl Software---Practice and Experience \bf6} (1976), +29--42. The \TeX\ program below is intended to be adaptable, without +extensive changes, to most other versions of \PASCAL, so it does not fully +use the admirable features of \ph. Indeed, a conscious effort has been +made here to avoid using several idiosyncratic features of standard +\PASCAL\ itself, so that most of the code can be translated mechanically +into other high-level languages. For example, the `\&{with}' and `\\{new}' +features are not used, nor are pointer types, set types, or enumerated +scalar types; there are no `\&{var}' parameters, except in the case of files +--- \eTeX, however, does use `\&{var}' parameters for the |reverse| function; +there are no tag fields on variant records; there are no assignments +|double=int|; no procedures are declared local to other procedures.) + +The portions of this program that involve system-dependent code, where +changes might be necessary because of differences between \PASCAL\ compilers +and/or differences between +operating systems, can be identified by looking at the sections whose +numbers are listed under `system dependencies' in the index. Furthermore, +the index entries for `dirty \PASCAL' list all places where the restrictions +of \PASCAL\ have not been followed perfectly, for one reason or another. +@!@^system dependencies@> +@!@^dirty \PASCAL@> + +Incidentally, \PASCAL's standard |round| function can be problematical, +because it disagrees with the IEEE floating-point standard. +Many implementors have +therefore chosen to substitute their own home-grown rounding procedure. + +@ The following is an outline of the program, whose +components will be filled in later, using the conventions of \.{WEB}. +@.WEB@> +For example, the portion of the program called `\X\glob:Global +variables\X' below will be replaced by a sequence of variable declarations +that starts in $\section\glob$ of this documentation. In this way, we are able +to define each individual global variable when we are prepared to +understand what it means; we do not have to define all of the globals at +once. Cross references in $\section\glob$, where it says ``See also +sections \gglob, \dots,'' also make it possible to look at the set of +all global variables, if desired. Similar remarks apply to the other +portions of the program. + +@p @<Header files and function declarations@>@; +@h +enum {@+@<Constants in the outer block@>@+}; +@<Types in the outer block@>@; +@<Forward declarations@>@; +@<Global variables@>@; +@# +static void initialize(void) /*this procedure gets things started properly*/ + {@+@<Local variables for initialization@>@; + @<Initialize whatever \TeX\ might access@>; + } @# +@<Basic printing procedures@>@; +@<Error handling procedures@>@; + +@ The overall \TeX\ program begins with the heading just shown, after which +comes a bunch of procedure declarations and function declarations. +Finally we will get to the main program, which begins with the +comment `|start_here|'. If you want to skip down to the +main program now, you can look up `|start_here|' in the index. +But the author suggests that the best way to understand this program +is to follow pretty much the order of \TeX's components as they appear in the +\.{WEB} description you are now reading, since the present ordering is +intended to combine the advantages of the ``bottom up'' and ``top down'' +approaches to the problem of understanding a somewhat complicated system. + +@ There is no need to declare labels in \CEE/, but occasionally +it is necessary to insert header files and declare functions +very early in the program. For example, the function |s_no| +which uses |make_string| to convert a \CEE/ string into +a string number is used in |initialize| and needs a forward +declaration. + +@<Header files and function declarations@>= +static int s_no(const char *str); + +@ Some of the code below is intended to be used only when diagnosing the +strange behavior that sometimes occurs when \TeX\ is being installed or +when system wizards are fooling around with \TeX\ without quite knowing +what they are doing. Such code will not normally be compiled; it is +delimited by the codewords `$|debug|\ldots|debug|$', with apologies +to people who wish to preserve the purity of English. + +Similarly, there is some conditional code delimited by +`$|stat|\ldots|tats|$' that is intended for use when statistics are to be +kept about \TeX's memory usage. The |stat| $\ldots$ |tats| code also +implements diagnostic information for \.{\\tracingparagraphs}, +\.{\\tracingpages}, and \.{\\tracingrestores}. +@^debugging@> + +@ This program has two important variations: (1) There is a long and slow +version called \.{INITEX}, which does the extra calculations needed to +@.INITEX@> +initialize \TeX's internal tables; and (2)~there is a shorter and faster +production version, which cuts the initialization to a bare minimum. +Parts of the program that are needed in (1) but not in (2) are delimited by +|#ifdef| |INIT|\dots\ |#endif|. + +\TeX\ Live has established the common practice +to select the initialization code at runtime +using the |iniversion| variable. + +@<Initialize whatever...@>= +@<Set initial values of key variables@>@/ +#ifdef @!INIT +if (iniversion) {@+@<Initialize table entries (done by \.{INITEX} only)@>@;@+} +#endif + +@ The declaration of all basic type definitions needed by Hi\TeX\ are +contained in a system dependent header file. -%% defining how to display certain C identifiers @s uint8_t int -@s uint16_t int -@s uint32_t int -@s uint64_t int -@s int8_t int @s int16_t int +@s uint16_t int @s int32_t int -@s float64_t int -@s float32_t int -@s scaled int +@s uint32_t int +@s halfword int +@s in TeX +@s line normal +@s to do + +@<Header files and function declarations@>= +#include "hibasetypes.h" +#include <string.h> +#include <math.h> + +@ Further it is necessary to define some build in primitives of +\PASCAL\ that are otherwise not available in \CEE/. +@:PASCAL H}{\ph@> + +@d odd(X) ((X)&1) +@d chr(X) ((unsigned char)(X)) +@d ord(X) ((unsigned int)(X)) +@d abs(X) ((X)>-(X)?(X):-(X)) +@d round(X) ((int)((X)>=0.0?floor((X)+0.5):ceil((X)-0.5))) + +@ The following parameters can be changed at compile time to extend or +reduce \TeX's capacity. They may have different values in \.{INITEX} and +in production versions of \TeX. +@.INITEX@> +@^system dependencies@> + +@<Constants...@>= +@!mem_max=5000000, /*greatest index in \TeX's internal |mem| array; + must be strictly less than |max_halfword|; + must be equal to |mem_top| in \.{INITEX}, otherwise | >= mem_top|*/ +@!mem_min=0, /*smallest index in \TeX's internal |mem| array; + must be |min_halfword| or more; + must be equal to |mem_bot| in \.{INITEX}, otherwise | <= mem_bot|*/ +@!buf_size=2000000, /*maximum number of characters simultaneously present in + current lines of open files and in control sequences between + \.{\\csname} and \.{\\endcsname}; must not exceed |max_halfword|*/ +@!error_line=79, /*width of context lines on terminal error messages*/ +@!half_error_line=50, /*width of first lines of contexts in terminal + error messages; should be between 30 and |error_line-15|*/ +@!max_print_line=79, /*width of longest text lines output; should be at least 60*/ +@!stack_size=5000, /*maximum number of simultaneous input sources*/ +@!max_in_open=15, /*maximum number of input files and error insertions that + can be going on simultaneously*/ +@!font_max=255, /*maximum internal font number; must not exceed |max_quarterword| + and must be at most |font_base+256|*/ +@!font_mem_size=8000000, /*number of words of |font_info| for all fonts*/ +@!param_size=10000, /*maximum number of simultaneous macro parameters*/ +@!nest_size=500, /*maximum number of semantic levels simultaneously active*/ +@!max_strings=500000, /*maximum number of strings; must not exceed |max_halfword|*/ +@!string_vacancies=90000, /*the minimum number of characters that should be + available for the user's control sequences and font names, + after \TeX's own error messages are stored*/ +@!pool_size=6250000, /*maximum number of characters in strings, including all + error messages and help texts, and the names of all fonts and + control sequences; must exceed |string_vacancies| by the total + length of \TeX's own strings, which is currently about 23000*/ +@!save_size=100000, /*space for saving values outside of current group; must be + at most |max_halfword|*/ +@!trie_size=1000000, /*space for hyphenation patterns; should be larger for + \.{INITEX} than it is in production versions of \TeX*/ +@!trie_op_size=35111, /*space for ``opcodes'' in the hyphenation patterns*/ +@!dvi_buf_size=16384, /*size of the output buffer; must be a multiple of 8*/ +@!file_name_size=1024, /*file names shouldn't be longer than this*/ +@!xchg_buffer_size=64, /*must be at least 64*/ + /*size of |eight_bits| buffer for exchange with system routines*/ +@!empty_string=256 /*the empty string follows after 256 characters*/ + +@ Like the preceding parameters, the following quantities can be changed +at compile time to extend or reduce \TeX's capacity. But if they are changed, +it is necessary to rerun the initialization program \.{INITEX} +@.INITEX@> +to generate new tables for the production \TeX\ program. +One can't simply make helter-skelter changes to the following constants, +since certain rather complex initialization +numbers are computed from them. They are defined here using +\.{WEB} macros, instead of being put into \PASCAL's |const| list, in order to +emphasize this distinction. + +@d mem_bot 0 /*smallest index in the |mem| array dumped by \.{INITEX}; + must not be less than |mem_min|*/ +@d mem_top 5000000 /*largest index in the |mem| array dumped by \.{INITEX}; + must be substantially larger than |mem_bot| + and not greater than |mem_max|*/ +@d font_base 0 /*smallest internal font number; must not be less + than |min_quarterword|*/ +@d hash_size 45000 /*maximum number of control sequences; it should be at most + about |(mem_max-mem_min)/(double)10|*/ +@d hash_prime 35999 /*a prime number equal to about 85\pct! of |hash_size|*/ +@d hyph_size 8191 /*another prime; the number of \.{\\hyphenation} exceptions*/ +@^system dependencies@> + +@ In case somebody has inadvertently made bad settings of the ``constants,'' +\TeX\ checks them using a global variable called |bad|. + +This is the first of many sections of \TeX\ where global variables are +defined. + +@<Glob...@>= +static int @!bad; /*is some ``constant'' wrong?*/ + +@ Later on we will say `\ignorespaces|if (mem_max >= max_halfword) bad=14|', +or something similar. (We can't do that until |max_halfword| has been defined.) + +@<Check the ``constant'' values for consistency@>= +bad=0; +if ((half_error_line < 30)||(half_error_line > error_line-15)) bad=1; +if (max_print_line < 60) bad=2; +if (dvi_buf_size%8!=0) bad=3; +if (mem_bot+1100 > mem_top) bad=4; +if (hash_prime > hash_size) bad=5; +if (max_in_open >= 128) bad=6; +if (mem_top < 256+11) bad=7; /*we will want |null_list > 255|*/ + +@ Labels are given symbolic names by the following definitions, so that +occasional |goto| statements will be meaningful. We insert the label +`|end|' just before the `\ignorespaces|} |\unskip' of a procedure in +which we have used the `|goto end|' statement defined below; the label +`|restart|' is occasionally used at the very beginning of a procedure; and +the label `|reswitch|' is occasionally used just prior to a |case| +statement in which some cases change the conditions and we wish to branch +to the newly applicable case. Loops that are set up with the |loop| +construction defined below are commonly exited by going to `|done|' or to +`|found|' or to `|not_found|', and they are sometimes repeated by going to +`|resume|'. If two or more parts of a subroutine start differently but +end up the same, the shared code may be gathered together at +`|common_ending|'. + +Incidentally, this program never declares a label that isn't actually used, +because some fussy \PASCAL\ compilers will complain about redundant labels. + +@ Here are some macros for common programming idioms. + +@d incr(A) A=A+1 /*increase a variable by unity*/ +@d decr(A) A=A-1 /*decrease a variable by unity*/ +@d negate(A) A=-A /*change the sign of a variable*/ +@d loop @+while (true) @+ /*repeat over and over until a |goto| happens*/ +@f loop else + /*\.{WEB}'s |else| acts like `\ignorespaces|while true do|\unskip'*/ +@d do_nothing /*empty statement*/ +@d empty 0 /*symbolic name for a null constant*/ + +@* The character set. +In order to make \TeX\ readily portable to a wide variety of +computers, all of its input text is converted to an internal eight-bit +code that includes standard ASCII, the ``American Standard Code for +Information Interchange.'' This conversion is done immediately when each +character is read in. Conversely, characters are converted from ASCII to +the user's external representation just before they are output to a +text file. + +Such an internal code is relevant to users of \TeX\ primarily because it +governs the positions of characters in the fonts. For example, the +character `\.A' has ASCII code $65=0101$, and when \TeX\ typesets +this letter it specifies character number 65 in the current font. +If that font actually has `\.A' in a different position, \TeX\ doesn't +know what the real position is; the program that does the actual printing from +\TeX's device-independent files is responsible for converting from ASCII to +a particular font encoding. +@^ASCII code@> + +\TeX's internal code also defines the value of constants +that begin with a reverse apostrophe; and it provides an index to the +\.{\\catcode}, \.{\\mathcode}, \.{\\uccode}, \.{\\lccode}, and \.{\\delcode} +tables. + +@ Characters of text that have been converted to \TeX's internal form +are said to be of type |ASCII_code|, which is a subrange of the integers. + +@<Types...@>= +typedef uint8_t ASCII_code; /*eight-bit numbers*/ + +@ The original \PASCAL\ compiler was designed in the late 60s, when six-bit +character sets were common, so it did not make provision for lowercase +letters. Nowadays, of course, we need to deal with both capital and small +letters in a convenient way, especially in a program for typesetting; +so the present specification of \TeX\ has been written under the assumption +that the \PASCAL\ compiler and run-time system permit the use of text files +with more than 64 distinguishable characters. More precisely, we assume that +the character set contains at least the letters and symbols associated +with ASCII codes 040 through 0176; all of these characters are now +available on most computer terminals. + +Since we are dealing with more characters than were present in the first +\PASCAL\ compilers, we have to decide what to call the associated data +type. Some \PASCAL s use the original name |unsigned char| for the +characters in text files, even though there now are more than 64 such +characters, while other \PASCAL s consider |unsigned char| to be a 64-element +subrange of a larger data type that has some other name. + +In order to accommodate this difference, we shall use the name |text_char| +to stand for the data type of the characters that are converted to and +from |ASCII_code| when they are input and output. We shall also assume +that |text_char| consists of the elements |chr(first_text_char)| through +|chr(last_text_char)|, inclusive. The following definitions should be +adjusted if necessary. +@^system dependencies@> + +@s text_char char +@d text_char unsigned char /*the data type of characters in text files*/ +@d first_text_char 0 /*ordinal number of the smallest element of |text_char|*/ +@d last_text_char 255 /*ordinal number of the largest element of |text_char|*/ + +@<Local variables for init...@>= +int @!i; + +@ The \TeX\ processor converts between ASCII code and +the user's external character set by means of arrays |xord| and |xchr| +that are analogous to \PASCAL's |ord| and |chr| functions. + +@<Glob...@>= +static ASCII_code @!xord[256]; + /*specifies conversion of input characters*/ +static text_char @!xchr[256]; + /*specifies conversion of output characters*/ + +@ Since we are assuming that our \PASCAL\ system is able to read and +write the visible characters of standard ASCII (although not +necessarily using the ASCII codes to represent them), the following +assignment statements initialize the standard part of the |xchr| array +properly, without needing any system-dependent changes. On the other +hand, it is possible to implement \TeX\ with less complete character +sets, and in such cases it will be necessary to change something here. +@^system dependencies@> + +@<Set init...@>= +xchr[040]=' '; +xchr[041]='!'; +xchr[042]='"'; +xchr[043]='#'; +xchr[044]='$'; +xchr[045]='%'; +xchr[046]='&'; +xchr[047]='\'';@/ +xchr[050]='('; +xchr[051]=')'; +xchr[052]='*'; +xchr[053]='+'; +xchr[054]=','; +xchr[055]='-'; +xchr[056]='.'; +xchr[057]='/';@/ +xchr[060]='0'; +xchr[061]='1'; +xchr[062]='2'; +xchr[063]='3'; +xchr[064]='4'; +xchr[065]='5'; +xchr[066]='6'; +xchr[067]='7';@/ +xchr[070]='8'; +xchr[071]='9'; +xchr[072]=':'; +xchr[073]=';'; +xchr[074]='<'; +xchr[075]='='; +xchr[076]='>'; +xchr[077]='?';@/ +xchr[0100]='@@'; +xchr[0101]='A'; +xchr[0102]='B'; +xchr[0103]='C'; +xchr[0104]='D'; +xchr[0105]='E'; +xchr[0106]='F'; +xchr[0107]='G';@/ +xchr[0110]='H'; +xchr[0111]='I'; +xchr[0112]='J'; +xchr[0113]='K'; +xchr[0114]='L'; +xchr[0115]='M'; +xchr[0116]='N'; +xchr[0117]='O';@/ +xchr[0120]='P'; +xchr[0121]='Q'; +xchr[0122]='R'; +xchr[0123]='S'; +xchr[0124]='T'; +xchr[0125]='U'; +xchr[0126]='V'; +xchr[0127]='W';@/ +xchr[0130]='X'; +xchr[0131]='Y'; +xchr[0132]='Z'; +xchr[0133]='['; +xchr[0134]='\\'; +xchr[0135]=']'; +xchr[0136]='^'; +xchr[0137]='_';@/ +xchr[0140]='`'; +xchr[0141]='a'; +xchr[0142]='b'; +xchr[0143]='c'; +xchr[0144]='d'; +xchr[0145]='e'; +xchr[0146]='f'; +xchr[0147]='g';@/ +xchr[0150]='h'; +xchr[0151]='i'; +xchr[0152]='j'; +xchr[0153]='k'; +xchr[0154]='l'; +xchr[0155]='m'; +xchr[0156]='n'; +xchr[0157]='o';@/ +xchr[0160]='p'; +xchr[0161]='q'; +xchr[0162]='r'; +xchr[0163]='s'; +xchr[0164]='t'; +xchr[0165]='u'; +xchr[0166]='v'; +xchr[0167]='w';@/ +xchr[0170]='x'; +xchr[0171]='y'; +xchr[0172]='z'; +xchr[0173]='{'; +xchr[0174]='|'; +xchr[0175]='}'; +xchr[0176]='~';@/ + +@ Some of the ASCII codes without visible characters have been given symbolic +names in this program because they are used with a special meaning. + +@d null_code 00 /*ASCII code that might disappear*/ +@d carriage_return 015 /*ASCII code used at end of line*/ +@d invalid_code 0177 /*ASCII code that many systems prohibit in text files*/ + +@ The ASCII code is ``standard'' only to a certain extent, since many +computer installations have found it advantageous to have ready access +to more than 94 printing characters. Appendix~C of {\sl The \TeX book\/} +gives a complete specification of the intended correspondence between +characters and \TeX's internal representation. +@:TeXbook}{\sl The \TeX book@> + +If \TeX\ is being used +on a garden-variety \PASCAL\ for which only standard ASCII +codes will appear in the input and output files, it doesn't really matter +what codes are specified in |xchr[0 dotdot 037]|, but the safest policy is to +blank everything out by using the code shown below. + +However, other settings of |xchr| will make \TeX\ more friendly on +computers that have an extended character set, so that users can type things +like `\.^^Z' instead of `\.{\\ne}'. People with extended character sets can +assign codes arbitrarily, giving an |xchr| equivalent to whatever +characters the users of \TeX\ are allowed to have in their input files. +It is best to make the codes correspond to the intended interpretations as +shown in Appendix~C whenever possible; but this is not necessary. For +example, in countries with an alphabet of more than 26 letters, it is +usually best to map the additional letters into codes less than~040. +To get the most ``permissive'' character set, change |' '| on the +right of these assignment statements to |chr(i)|. +@^character set dependencies@> +@^system dependencies@> + +@<Set init...@>= +for (i=0; i<=037; i++) xchr[i]=chr(i); /* k\TeX\ */ +for (i=0177; i<=0377; i++) xchr[i]=chr(i); /* k\TeX\ */ + +@ The following system-independent code makes the |xord| array contain a +suitable inverse to the information in |xchr|. Note that if |xchr[i]==xchr[j]| +where |i < j < 0177|, the value of |xord[xchr[i]]| will turn out to be +|j| or more; hence, standard ASCII code numbers will be used instead of +codes below 040 in case there is a coincidence. + +@<Set init...@>= +for (i=first_text_char; i<=last_text_char; i++) xord[chr(i)]=invalid_code; +for (i=0200; i<=0377; i++) xord[xchr[i]]=i; +for (i=0; i<=0176; i++) xord[xchr[i]]=i; + +@* Input and output. +The bane of portability is the fact that different operating systems treat +input and output quite differently, perhaps because computer scientists +have not given sufficient attention to this problem. People have felt somehow +that input and output are not part of ``real'' programming. Well, it is true +that some kinds of programming are more fun than others. With existing +input/output conventions being so diverse and so messy, the only sources of +joy in such parts of the code are the rare occasions when one can find a +way to make the program a little less bad than it might have been. We have +two choices, either to attack I/O now and get it over with, or to postpone +I/O until near the end. Neither prospect is very attractive, so let's +get it over with. + +The basic operations we need to do are (1)~inputting and outputting of +text, to or from a file or the user's terminal; (2)~inputting and +outputting of eight-bit bytes, to or from a file; (3)~instructing the +operating system to initiate (``open'') or to terminate (``close'') input or +output from a specified file; (4)~testing whether the end of an input +file has been reached. + +\TeX\ needs to deal with two kinds of files. +We shall use the term |alpha_file| for a file that contains textual data, +and the term |byte_file| for a file that contains eight-bit binary information. +These two types turn out to be the same on many computers, but +sometimes there is a significant distinction, so we shall be careful to +distinguish between them. Standard protocols for transferring +such files from computer to computer, via high-speed networks, are +now becoming available to more and more communities of users. + +The program actually makes use also of a third kind of file, called a +|word_file|, when dumping and reloading base information for its own +initialization. We shall define a word file later; but it will be possible +for us to specify simple operations on word files before they are defined. + +@<Types...@>= +typedef uint8_t eight_bits; /*unsigned one-byte quantity*/ +typedef struct {@+FILE *f;@+text_char@,d;@+} alpha_file; /*files that contain textual data*/ +typedef struct {@+FILE *f;@+eight_bits@,d;@+} byte_file; /*files that contain binary data*/ + +@ Most of what we need to do with respect to input and output can be handled +by the I/O facilities that are standard in \PASCAL, i.e., the routines +called |get|, |put|, |eof|, and so on. But +standard \PASCAL\ does not allow file variables to be associated with file +names that are determined at run time, so it cannot be used to implement +\TeX; some sort of extension to \PASCAL's ordinary |reset| and |rewrite| +is crucial for our purposes. We shall assume that |name_of_file| is a variable +of an appropriate type such that the \PASCAL\ run-time system being used to +implement \TeX\ can open a file whose external name is specified by +|name_of_file|. +@^system dependencies@> + +@<Glob...@>= +static unsigned char @!name_of_file0[file_name_size+1]={0}, *const @!name_of_file = @!name_of_file0-1;@;@/ + /*on some systems this may be a \&{record} variable*/ +static int @!name_length;@/ /*this many characters are actually + relevant in |name_of_file| (the rest are blank)*/ + +@ k\TeX\ uses the {\tt kpathsearch} library to implement access to files. +So most of the code to find and open files is contained in two functions, +|open_in| and |open_out| defined later. +\TeX's file-opening functions do not to issue their own +error messages if something goes wrong. If a file identified by +|name_of_file| cannot be found, +or if such a file cannot be opened for some other reason +(e.g., someone may already be trying to write the same file) +\TeX's file-opening functions return |false|. +This allows \TeX\ to undertake appropriate corrective action. +@^system dependencies@> + +@p +static FILE*open_in(char*filename,kpse_file_format_type t,const char*rwb); +static bool a_open_in(alpha_file *f) /*open a text file for input*/ +{@+f->f= open_in((char *)name_of_file+1,kpse_tex_format,"r"); + if (f->f!=NULL) get(*f); + return f->f!=NULL && ferror(f->f)==0; +} + +static bool b_open_in(byte_file *f) /*open a binary file for input*/ +{@+f->f= kpse_open_file((char *)name_of_file+1,kpse_tfm_format); + if (f->f!=NULL) get(*f); + return f->f!=NULL && ferror(f->f)==0; +} + +static bool w_open_in(word_file *f) /*open a word file for input*/ +{@+ + f->f=NULL; + if (name_of_file[1]!=0) + f->f= open_in((char*)name_of_file+1,kpse_fmt_format,"rb"); + if (f->f!=NULL) get(*f); + return f->f!=NULL && ferror(f->f)==0; +} + +static FILE *open_out(const char *file_name, const char *file_mode); +static bool a_open_out(alpha_file *f) /*open a text file for output*/ +{@+f->f=open_out((char*)name_of_file+1,"w"); + return f->f!=NULL && ferror(f->f)==0;@+ +} + +static bool b_open_out(byte_file *f) /*open a binary file for output*/ +{@+f->f=open_out((char *)name_of_file+1,"wb"); +return f->f!=NULL && ferror(f->f)==0;@+ +} + +#ifdef @!INIT +static bool w_open_out(word_file *f) /*open a word file for output*/ +{@+f->f=open_out((char *)name_of_file+1,"wb"); + return f->f!=NULL && ferror(f->f)==0;@+ +} +#endif + +@ Files can be closed with the \ph\ routine `|pascal_close(f)|', which +@:PASCAL H}{\ph@> +@^system dependencies@> +should be used when all input or output with respect to |f| has been completed. +This makes |f| available to be opened again, if desired; and if |f| was used for +output, the |pascal_close| operation makes the corresponding external file appear +on the user's area, ready to be read. + +These procedures should not generate error messages if a file is +being closed before it has been successfully opened. + +@p static void a_close(alpha_file *f) /*close a text file*/ +{@+pascal_close((*f)); +} +@# +static void b_close(byte_file *f) /*close a binary file*/ +{@+pascal_close((*f)); +} +@# +static void w_close(word_file *f) /*close a word file*/ +{@+pascal_close((*f)); +} + +@ Binary input and output are done with \PASCAL's ordinary |get| and |put| +procedures, so we don't have to make any other special arrangements for +binary~I/O. Text output is also easy to do with standard \PASCAL\ routines. +The treatment of text input is more difficult, however, because +of the necessary translation to |ASCII_code| values. +\TeX's conventions should be efficient, and they should +blend nicely with the user's operating environment. + +@ Input from text files is read one line at a time, using a routine called +|input_ln|. This function is defined in terms of global variables called +|buffer|, |first|, and |last| that will be described in detail later; for +now, it suffices for us to know that |buffer| is an array of |ASCII_code| +values, and that |first| and |last| are indices into this array +representing the beginning and ending of a line of text. + +@<Glob...@>= +static ASCII_code @!buffer[buf_size+1]; /*lines of characters being read*/ +static int @!first; /*the first unused position in |buffer|*/ +static int @!last; /*end of the line just input to |buffer|*/ +static int @!max_buf_stack; /*largest index used in |buffer|*/ + +@ The |input_ln| function brings the next line of input from the specified +file into available positions of the buffer array and returns the value +|true|, unless the file has already been entirely read, in which case it +returns |false| and sets |last=first|. In general, the |ASCII_code| +numbers that represent the next line of the file are input into +|buffer[first]|, |buffer[first+1]|, \dots, |buffer[last-1]|; and the +global variable |last| is set equal to |first| plus the length of the +line. Trailing blanks are removed from the line; thus, either |last==first| +(in which case the line was entirely blank) or |buffer[last-1]!=' '|. + +An overflow error is given, however, if the normal actions of |input_ln| +would make |last >= buf_size|; this is done so that other parts of \TeX\ +can safely look at the contents of |buffer[last+1]| without overstepping +the bounds of the |buffer| array. Upon entry to |input_ln|, the condition +|first < buf_size| will always hold, so that there is always room for an +``empty'' line. + +The variable |max_buf_stack|, which is used to keep track of how large +the |buf_size| parameter must be to accommodate the present job, is +also kept up to date by |input_ln|. + +If the |bypass_eoln| parameter is |true|, |input_ln| will do a |get| +before looking at the first character of the line; this skips over +an |eoln| that was in |f.d|. The procedure does not do a |get| when it +reaches the end of the line; therefore it can be used to acquire input +from the user's terminal as well as from ordinary text files. + +Standard \PASCAL\ says that a file should have |eoln| immediately +before |eof|, but \TeX\ needs only a weaker restriction: If |eof| +occurs in the middle of a line, the system function |eoln| should return +a |true| result (even though |f.d| will be undefined). + +Since the inner loop of |input_ln| is part of \TeX's ``inner loop''---each +character of input comes in at this place---it is wise to reduce system +overhead by making use of special routines that read in an entire array +of characters at once, if such routines are available. The following +code uses standard \PASCAL\ to illustrate what needs to be done, but +finer tuning is often possible at well-developed \PASCAL\ sites. +@^inner loop@> + +@p static bool input_ln(alpha_file *f, bool @!bypass_eoln) + /*inputs the next line or returns |false|*/ +{@+int last_nonblank; /*|last| with trailing blanks removed*/ +if (bypass_eoln) if (!eof((*f))) get((*f)); + /*input the first character of the line into |f.d|*/ +last=first; /*cf.\ Matthew 19\thinspace:\thinspace30*/ +if (eof((*f))) return false; +else{@+last_nonblank=first; + while (!eoln((*f))) + {@+if (last >= max_buf_stack) + {@+max_buf_stack=last+1; + if (max_buf_stack==buf_size) + @<Report overflow of the input buffer, and abort@>; + } + buffer[last]=xord[(*f).d];get((*f));incr(last); + if (buffer[last-1]!=' ') last_nonblank=last; + } + last=last_nonblank;return true; + } +} + +@ The user's terminal acts essentially like other files of text, except +that it is used both for input and for output. When the terminal is +considered an input file, the file variable is called |term_in|, and when it +is considered an output file the file variable is |term_out|. +@^system dependencies@> + +@<Glob...@>= +static alpha_file @!term_in; /*the terminal as an input file*/ +static alpha_file @!term_out; /*the terminal as an output file*/ + +@ Here is how to open the terminal files +in \ph. The `\.{/I}' switch suppresses the first |get|. +@:PASCAL H}{\ph@> +@^system dependencies@> + +@d t_open_in term_in.f=stdin /*open the terminal for text input*/ +@d t_open_out term_out.f=stdout /*open the terminal for text output*/ + +@ Sometimes it is necessary to synchronize the input/output mixture that +happens on the user's terminal, and three system-dependent +procedures are used for this +purpose. The first of these, |update_terminal|, is called when we want +to make sure that everything we have output to the terminal so far has +actually left the computer's internal buffers and been sent. +The second, |clear_terminal|, is called when we wish to cancel any +input that the user may have typed ahead (since we are about to +issue an unexpected error message). The third, |wake_up_terminal|, +is supposed to revive the terminal if the user has disabled it by +some instruction to the operating system. The following macros show how +these operations can be specified in \ph: +@:PASCAL H}{\ph@> +@^system dependencies@> + +@d update_terminal fflush(term_out.f) /*empty the terminal output buffer*/ +@d clear_terminal fflush(term_in.f) /*clear the terminal input buffer*/ +@d wake_up_terminal do_nothing /*cancel the user's cancellation of output*/ + +@ We need a special routine to read the first line of \TeX\ input from +the user's terminal. This line is different because it is read before we +have opened the transcript file; there is sort of a ``chicken and +egg'' problem here. If the user types `\.{\\input paper}' on the first +line, or if some macro invoked by that line does such an \.{\\input}, +the transcript file will be named `\.{paper.log}'; but if no \.{\\input} +commands are performed during the first line of terminal input, the transcript +file will acquire its default name `\.{texput.log}'. (The transcript file +will not contain error messages generated by the first line before the +first \.{\\input} command.) +@.texput@> + +The first line is even more special if we are lucky enough to have an operating +system that treats \TeX\ differently from a run-of-the-mill \PASCAL\ object +program. It's nice to let the user start running a \TeX\ job by typing +a command line like `\.{tex paper}'; in such a case, \TeX\ will operate +as if the first line of input were `\.{paper}', i.e., the first line will +consist of the remainder of the command line, after the part that invoked +\TeX. + +The first line is special also because it may be read before \TeX\ has +input a format file. In such cases, normal error messages cannot yet +be given. The following code uses concepts that will be explained later. +(If the \PASCAL\ compiler does not support non-local |@!goto|\unskip, the +@^system dependencies@> +statement `|goto exit(0)|' should be replaced by something that +quietly terminates the program.) + +@<Report overflow of the input buffer, and abort@>= +if (format_ident==0) + {@+write_ln(term_out,"Buffer size exceeded!");exit(0); +@.Buffer size exceeded@> + } +else{@+cur_input.loc_field=first;cur_input.limit_field=last-1; + overflow("buffer size", buf_size); +@:TeX capacity exceeded buffer size}{\quad buffer size@> + } + +@ Different systems have different ways to get started. But regardless of +what conventions are adopted, the routine that initializes the terminal +should satisfy the following specifications: + +\yskip\textindent{1)}It should open file |term_in| for input from the + terminal. (The file |term_out| will already be open for output to the + terminal.) + +\textindent{2)}If the user has given a command line, this line should be + considered the first line of terminal input. Otherwise the + user should be prompted with `\.{**}', and the first line of input + should be whatever is typed in response. + +\textindent{3)}The first line of input, which might or might not be a + command line, should appear in locations |first| to |last-1| of the + |buffer| array. + +\textindent{4)}The global variable |loc| should be set so that the + character to be read next by \TeX\ is in |buffer[loc]|. This + character should not be blank, and we should have |loc < last|. + +\yskip\noindent(It may be necessary to prompt the user several times +before a non-blank line comes in. The prompt is `\.{**}' instead of the +later `\.*' because the meaning is slightly different: `\.{\\input}' need +not be typed immediately after~`\.{**}'.) + +@d loc cur_input.loc_field /*location of first unread character in |buffer|*/ + +@ The following program calls |input_command_line| +to retrieve a possible command line. +@^system dependencies@> + +@p static bool init_terminal(void) /*gets the terminal input started*/ +{@+ +t_open_in; +if (input_command_line()) return true; /* k\TeX\ */ +loop@+{@+wake_up_terminal;pascal_write(term_out,"**");update_terminal; +@.**@> + if (!input_ln(&term_in, true)) /*this shouldn't happen*/ + {@+write_ln(term_out); + pascal_write(term_out,"! End of file on the terminal... why?"); +@.End of file on the terminal@> + return false; + } + loc=first; + while ((loc < last)&&(buffer[loc]==' ')) incr(loc); + if (loc < last) + {@+return true; + /*return unless the line was all blank*/ + } + write_ln(term_out,"Please type the name of your input file."); + } +} + +@* String handling. +Control sequence names and diagnostic messages are variable-length strings +of eight-bit characters. Since \PASCAL\ does not have a well-developed string +mechanism, \TeX\ does all of its string processing by homegrown methods. + +Elaborate facilities for dynamic strings are not needed, so all of the +necessary operations can be handled with a simple data structure. +The array |str_pool| contains all of the (eight-bit) ASCII codes in all +of the strings, and the array |str_start| contains indices of the starting +points of each string. Strings are referred to by integer numbers, so that +string number |s| comprises the characters |str_pool[j]| for +|str_start[s] <= j < str_start[s+1]|. Additional integer variables +|pool_ptr| and |str_ptr| indicate the number of entries used so far +in |str_pool| and |str_start|, respectively; locations +|str_pool[pool_ptr]| and |str_start[str_ptr]| are +ready for the next string to be allocated. + +String numbers 0 to 255 are reserved for strings that correspond to single +ASCII characters. This is in accordance with the conventions of \.{WEB}, +@.WEB@> +which converts single-character strings into the ASCII code number of the +single character involved, while it converts other strings into integers +and builds a string pool file. Thus, when the string constant \.{"."} appears +in the program below, \.{WEB} converts it into the integer 46, which is the +ASCII code for a period, while \.{WEB} will convert a string like \.{"hello"} +into some integer greater than~255. String number 46 will presumably be the +single character `\..'; but some ASCII codes have no standard visible +representation, and \TeX\ sometimes needs to be able to print an arbitrary +ASCII character, so the first 256 strings are used to specify exactly what +should be printed for each of the 256 possibilities. + +Elements of the |str_pool| array must be ASCII codes that can actually +be printed; i.e., they must have an |xchr| equivalent in the local +character set. (This restriction applies only to preloaded strings, +not to those generated dynamically by the user.) + +Some \PASCAL\ compilers won't pack integers into a single byte unless the +integers lie in the range |-128 dotdot 127|. To accommodate such systems +we access the string pool only via macros that can easily be redefined. +@^system dependencies@> + +@d si(A) A /*convert from |ASCII_code| to |packed_ASCII_code|*/ +@d so(A) A /*convert from |packed_ASCII_code| to |ASCII_code|*/ + +@<Types...@>= +typedef int32_t pool_pointer; /*for variables that point into |str_pool|*/ +typedef int32_t str_number; /*for variables that point into |str_start|*/ +typedef uint8_t packed_ASCII_code; /*elements of |str_pool| array*/ + +@ @<Glob...@>= +static packed_ASCII_code @!str_pool[pool_size+1]; /*the characters*/ +static pool_pointer @!str_start[max_strings+1]; /*the starting pointers*/ +static pool_pointer @!pool_ptr; /*first unused position in |str_pool|*/ +static str_number @!str_ptr; /*number of the current string being created*/ +static pool_pointer @!init_pool_ptr; /*the starting value of |pool_ptr|*/ +static str_number @!init_str_ptr; /*the starting value of |str_ptr|*/ + +@ Several of the elementary string operations are performed using \.{WEB} +macros instead of \PASCAL\ procedures, because many of the +operations are done quite frequently and we want to avoid the +overhead of procedure calls. For example, here is +a simple macro that computes the length of a string. +@.WEB@> + +@d length(A) (str_start[A+1]-str_start[A]) /*the number of characters + in string number \#*/ + +@ The length of the current string is called |cur_length|: + +@d cur_length (pool_ptr-str_start[str_ptr]) + +@ Strings are created by appending character codes to |str_pool|. +The |append_char| macro, defined here, does not check to see if the +value of |pool_ptr| has gotten too high; this test is supposed to be +made before |append_char| is used. There is also a |flush_char| +macro, which erases the last character appended. + +To test if there is room to append |l| more characters to |str_pool|, +we shall write |str_room(l)|, which aborts \TeX\ and gives an +apologetic error message if there isn't enough room. + +@d append_char(A) /*put |ASCII_code| \# at the end of |str_pool|*/ +{@+str_pool[pool_ptr]=si(A);incr(pool_ptr); +} +@d flush_char decr(pool_ptr) /*forget the last character in the pool*/ +@d str_room(A) /*make sure that the pool hasn't overflowed*/ + {@+if (pool_ptr+A > pool_size) + overflow("pool size", pool_size-init_pool_ptr); +@:TeX capacity exceeded pool size}{\quad pool size@> + } + +@ Once a sequence of characters has been appended to |str_pool|, it +officially becomes a string when the function |make_string| is called. +This function returns the identification number of the new string as its +value. + +@p static str_number make_string(void) /*current string enters the pool*/ +{@+if (str_ptr==max_strings) + overflow("number of strings", max_strings-init_str_ptr); +@:TeX capacity exceeded number of strings}{\quad number of strings@> +incr(str_ptr);str_start[str_ptr]=pool_ptr; +return str_ptr-1; +} + +@ To destroy the most recently made string, we say |flush_string|. + +@d flush_string {@+decr(str_ptr);pool_ptr=str_start[str_ptr]; + } + +@ The following subroutine compares string |s| with another string of the +same length that appears in |buffer| starting at position |k|; +the result is |true| if and only if the strings are equal. +Empirical tests indicate that |str_eq_buf| is used in such a way that +it tends to return |true| about 80 percent of the time. + +@p static bool str_eq_buf(str_number @!s, int @!k) + /*test equality of strings*/ +{@+ /*loop exit*/ +pool_pointer j; /*running index*/ +bool @!result; /*result of comparison*/ +j=str_start[s]; +while (j < str_start[s+1]) + {@+if (so(str_pool[j])!=buffer[k]) + {@+result=false;goto not_found; + } + incr(j);incr(k); + } +result=true; +not_found: return result; +} + +@ Here is a similar routine, but it compares two strings in the string pool, +and it does not assume that they have the same length. + +@p static bool strn_eq_str(str_number @!s, str_number @!t) + /*test equality of strings*/ +{@+ /*loop exit*/ +pool_pointer j, @!k; /*running indices*/ +bool @!result; /*result of comparison*/ +result=false; +if (length(s)!=length(t)) goto not_found; +j=str_start[s];k=str_start[t]; +while (j < str_start[s+1]) + {@+if (str_pool[j]!=str_pool[k]) goto not_found; + incr(j);incr(k); + } +result=true; +not_found: return result; +} +@t\4@>@<Declare \Prote\ procedures for strings@>@; + +static bool str_eq_str(str_number @!s, char *@!t) + /*test equality of strings*/ +{@+int j, @!k; /*running indices*/ +if (length(s)!=(int)strlen(t)) return false; +j=str_start[s];k=0; +while (j < str_start[s+1]) + if (str_pool[j++]!=t[k++]) return false; +return true; +} + +@ The initial values of |str_pool|, |str_start|, |pool_ptr|, +and |str_ptr| are computed by the \.{INITEX} program, based in part +on the information that \.{WEB} has output while processing \TeX. +@.INITEX@> +@^string pool@> + +@p +static void get_strings_started(void) /*initializes the string pool*/ +{@+ +int k, @!l; /*small indices or counters*/ +pool_ptr=0;str_ptr=0;str_start[0]=0; +@<Make the first 256 strings@>; +@<Add the empty string to the string pool@>; +} + +@ @d app_lc_hex(A) l=A; + if (l < 10) append_char(l+'0')@;@+else append_char(l-10+'a') + +@<Make the first 256...@>= +for (k=0; k<=255; k++) + {@+if ((@<Character |k| cannot be printed@>)) + {@+append_char('^');append_char('^'); + if (k < 0100) append_char(k+0100)@; + else if (k < 0200) append_char(k-0100)@; + else{@+app_lc_hex(k/16);app_lc_hex(k%16); + } + } + else append_char(k); + make_string(); + } + +@ The first 128 strings will contain 95 standard ASCII characters, and the +other 33 characters will be printed in three-symbol form like `\.{\^\^A}' +unless a system-dependent change is made here. Installations that have +an extended character set, where for example |xchr[032]==@t\.{\'^^Z\'}@>|, +would like string 032 to be the single character 032 instead of the +three characters 0136, 0136, 0132 (\.{\^\^Z}). On the other hand, +even people with an extended character set will want to represent string +015 by \.{\^\^M}, since 015 is |carriage_return|; the idea is to +produce visible strings instead of tabs or line-feeds or carriage-returns +or bell-rings or characters that are treated anomalously in text files. + +Unprintable characters of codes 128--255 are, similarly, rendered +\.{\^\^80}--\.{\^\^ff}. + +The boolean expression defined here should be |true| unless \TeX\ +internal code number~|k| corresponds to a non-troublesome visible +symbol in the local character set. An appropriate formula for the +extended character set recommended in {\sl The \TeX book\/} would, for +example, be `|k in[0, 010 dotdot 012, 014, 015, 033, 0177 dotdot 0377]|'. +If character |k| cannot be printed, and |k < 0200|, then character |k+0100| or +|k-0100| must be printable; moreover, ASCII codes |[041 dotdot 046, +060 dotdot 071, 0136, 0141 dotdot 0146, 0160 dotdot 0171]| must be printable. +Thus, at least 80 printable characters are needed. +@:TeXbook}{\sl The \TeX book@> +@^character set dependencies@> +@^system dependencies@> + +@<Character |k| cannot be printed@>= + (k < ' ')||(k > '~') + +@ The |pool_file| variable is no longer needed and has been removed. + +@ Instead of reading the other strings from the \.{TEX.POOL} file, +it is sufficient here to add the empty string. +@<Add the empty string to the string pool@>= +make_string(); + +@ Without a string pool file there is no need for a pool check sum either. +But this is a convenient place to define the function |s_no| that will +add literal strings to the string pool at runtime, thereby obtaining their +string number. + +@p static int s_no(const char *str) +{@+ + if (str[0]==0) return empty_string; + if (str[1]==0) return str[0]; + str_room(strlen(str)); + while (*str!=0) append_char(*str++); + return make_string(); +} + +@* On-line and off-line printing. +Messages that are sent to a user's terminal and to the transcript-log file +are produced by several `|print|' procedures. These procedures will +direct their output to a variety of places, based on the setting of +the global variable |selector|, which has the following possible +values: + +\yskip +\hang |term_and_log|, the normal setting, prints on the terminal and on the + transcript file. + +\hang |log_only|, prints only on the transcript file. + +\hang |term_only|, prints only on the terminal. + +\hang |no_print|, doesn't print at all. This is used only in rare cases + before the transcript file is open. + +\hang |pseudo|, puts output into a cyclic buffer that is used + by the |show_context| routine; when we get to that routine we shall discuss + the reasoning behind this curious mode. + +\hang |new_string|, appends the output to the current string in the + string pool. + +\hang 0 to 15, prints on one of the sixteen files for \.{\\write} output. + +\yskip +\noindent The symbolic names `|term_and_log|', etc., have been assigned +numeric codes that satisfy the convenient relations |no_print+1==term_only|, +|no_print+2==log_only|, |term_only+2==log_only+1==term_and_log|. + +Three additional global variables, |tally| and |term_offset| and +|file_offset|, record the number of characters that have been printed +since they were most recently cleared to zero. We use |tally| to record +the length of (possibly very long) stretches of printing; |term_offset| +and |file_offset|, on the other hand, keep track of how many characters +have appeared so far on the current line that has been output to the +terminal or to the transcript file, respectively. + +@d no_print 16 /*|selector| setting that makes data disappear*/ +@d term_only 17 /*printing is destined for the terminal only*/ +@d log_only 18 /*printing is destined for the transcript file only*/ +@d term_and_log 19 /*normal |selector| setting*/ +@d pseudo 20 /*special |selector| setting for |show_context|*/ +@d new_string 21 /*printing is deflected to the string pool*/ +@d max_selector 21 /*highest selector setting*/ + +@<Glob...@>= +static alpha_file @!log_file; /*transcript of \TeX\ session*/ +static int @!selector; /*where to print a message*/ +static int8_t @!dig[23]; /*digits in a number being output*/ +static int @!tally; /*the number of characters recently printed*/ +static int @!term_offset; + /*the number of characters on the current terminal line*/ +static int @!file_offset; + /*the number of characters on the current file line*/ +static ASCII_code @!trick_buf[error_line+1]; /*circular buffer for + pseudoprinting*/ +static int @!trick_count; /*threshold for pseudoprinting, explained later*/ +static int @!first_count; /*another variable for pseudoprinting*/ + +@ @<Initialize the output routines@>= +selector=term_only;tally=0;term_offset=0;file_offset=0; + +@ Macro abbreviations for output to the terminal and to the log file are +defined here for convenience. Some systems need special conventions +for terminal output, and it is possible to adhere to those conventions +by changing |wterm|, |wterm_ln|, and |wterm_cr| in this section. +@^system dependencies@> + +@<Basic printing procedures@>= +#define put(F) @[fwrite(&((F).d),sizeof((F).d),1,(F).f)@] +#define get(F) @[fread(&((F).d),sizeof((F).d),1,(F).f)@] + +#define pascal_close(F) @[fclose((F).f)@] +#define eof(F) @[feof((F).f)@] +#define eoln(F) @[((F).d=='\n'||eof(F))@] +#define erstat(F) @[((F).f==NULL?-1:ferror((F).f))@] + +#define pascal_read(F,X) @[((X)=(F).d,get(F))@] +#define read_ln(F) @[do get(F); while (!eoln(F))@] + +#define pascal_write(F, FMT,...) @[fprintf(F.f,FMT,## __VA_ARGS__)@] +#define write_ln(F,...) @[pascal_write(F,__VA_ARGS__"\n")@] + +#define wterm(FMT,...) @[pascal_write(term_out,FMT, ## __VA_ARGS__)@] +#define wterm_ln(FMT,...) @[wterm(FMT "\n", ## __VA_ARGS__)@] +#define wterm_cr @[pascal_write(term_out,"\n")@] +#define wlog(FMT, ...) @[pascal_write(log_file,FMT, ## __VA_ARGS__)@] +#define wlog_ln(FMT, ...) @[wlog(FMT "\n", ## __VA_ARGS__)@] +#define wlog_cr @[pascal_write(log_file,"\n")@] + +@ To end a line of text output, we call |print_ln|. + +@<Basic print...@>= +static void print_ln(void) /*prints an end-of-line*/ +{@+switch (selector) { +case term_and_log: {@+wterm_cr;wlog_cr; + term_offset=0;file_offset=0; + } @+break; +case log_only: {@+wlog_cr;file_offset=0; + } @+break; +case term_only: {@+wterm_cr;term_offset=0; + } @+break; +case no_print: case pseudo: case new_string: do_nothing;@+break; +default:write_ln(write_file[selector]); +} @/ +} /*|tally| is not affected*/ + +@ The |print_char| procedure sends one character to the desired destination, +using the |xchr| array to map it into an external character compatible with +|input_ln|. All printing comes through |print_ln| or |print_char|. + +@<Basic printing...@>= +static void print_char(ASCII_code @!s) /*prints a single character*/ +{@+ +if (@<Character |s| is the current new-line character@>) + if (selector < pseudo) + {@+print_ln();return; + } +switch (selector) { +case term_and_log: {@+wterm("%c",xchr[s]);wlog("%c",xchr[s]); + incr(term_offset);incr(file_offset); + if (term_offset==max_print_line) + {@+wterm_cr;term_offset=0; + } + if (file_offset==max_print_line) + {@+wlog_cr;file_offset=0; + } + } @+break; +case log_only: {@+wlog("%c",xchr[s]);incr(file_offset); + if (file_offset==max_print_line) print_ln(); + } @+break; +case term_only: {@+wterm("%c",xchr[s]);incr(term_offset); + if (term_offset==max_print_line) print_ln(); + } @+break; +case no_print: do_nothing;@+break; +case pseudo: if (tally < trick_count) trick_buf[tally%error_line]=s;@+break; +case new_string: {@+if (pool_ptr < pool_size) append_char(s); + } @+break; /*we drop characters if the string space is full*/ +default:pascal_write(write_file[selector],"%c", xchr[s]); +} @/ +incr(tally); +} + +@ An entire string is output by calling |print|. Note that if we are outputting +the single standard ASCII character \.c, we could call |print('c')|, since +|'c'==99| is the number of a single-character string, as explained above. But +|print_char('c')| is quicker, so \TeX\ goes directly to the |print_char| +routine when it knows that this is safe. (The present implementation +assumes that it is always safe to print a visible ASCII character.) +@^system dependencies@> + +@<Basic print...@>= +static void print(char *s) /* the simple version */ +{ while (*s!=0) print_char(*s++);@+ +} + +static void printn(int @!s) /*prints string |s|*/ +{@+ +pool_pointer j; /*current character code position*/ +int @!nl; /*new-line character to restore*/ +if (s >= str_ptr) {print("???"); return;}/*this can't happen*/ +@.???@> +else if (s < 256) + if (s < 0) { print("???");return; } /*can't happen*/ + else{@+if (selector > pseudo) + {@+print_char(s);return; /*internal strings are not expanded*/ + } + if ((@<Character |s| is the current new-line character@>)) + if (selector < pseudo) + {@+print_ln();return; + } + nl=new_line_char;new_line_char=-1; + /*temporarily disable new-line character*/ + j=str_start[s]; + while (j < str_start[s+1]) + {@+print_char(so(str_pool[j]));incr(j); + } + new_line_char=nl;return; + } +j=str_start[s]; +while (j < str_start[s+1]) + {@+print_char(so(str_pool[j]));incr(j); + } +} + +@ Control sequence names, file names, and strings constructed with +\.{\\string} might contain |ASCII_code| values that can't +be printed using |print_char|. Therefore we use |slow_print| for them: + +@<Basic print...@>= +static void slow_print(int @!s) /*prints string |s|*/ +{@+pool_pointer j; /*current character code position*/ +if ((s >= str_ptr)||(s < 256)) printn(s); +else{@+j=str_start[s]; + while (j < str_start[s+1]) + {@+printn(so(str_pool[j]));incr(j); + } + } +} + +@ Here is the very first thing that \TeX\ prints: a headline that identifies +the version number and format package. The |term_offset| variable is temporarily +incorrect, but the discrepancy is not serious since we assume that this +part of the program is system dependent. +@^system dependencies@> + +k\TeX, according to the conventions of \TeX\ Live, + prints the |dump_name| if no format identifier is known. +@<Initialize the output...@>= +wterm("%s",banner); +if (format_ident==0) wterm_ln(" (preloaded format=%s)", dump_name); +else{@+slow_print(format_ident);print_ln(); + } +update_terminal; + +@ The procedure |print_nl| is like |print|, but it makes sure that the +string appears at the beginning of a new line. + +@<Basic print...@>= +static void print_nl(char *@!s) /*prints string |s| at beginning of line*/ +{@+if (((term_offset > 0)&&(odd(selector)))||@| + ((file_offset > 0)&&(selector >= log_only))) print_ln(); +print(s); +} + +@ The procedure |print_esc| prints a string that is preceded by +the user's escape character (which is usually a backslash). + +@<Basic print...@>= +static void printn_esc(str_number @!s) /*prints escape character, then |s|*/ +{@+int c; /*the escape character code*/ +@<Set variable |c| to the current escape character@>; +if (c >= 0) if (c < 256) printn(c); +slow_print(s); +} + +static void print_esc(char *@!s) /*the fast way*/ +{@+int c; /*the escape character code*/ +@<Set variable |c| to the current escape character@>; +if (c >= 0) if (c < 256) printn(c); +print(s); +} + +@ An array of digits in the range |0 dotdot 15| is printed by |print_the_digs|. + +@<Basic print...@>= +static void print_the_digs(eight_bits @!k) + /*prints |dig[k-1]|$\,\ldots\,$|dig[0]|*/ +{@+while (k > 0) + {@+decr(k); + if (dig[k] < 10) print_char('0'+dig[k]); + else print_char('A'-10+dig[k]); + } +} + +@ The following procedure, which prints out the decimal representation of a +given integer |n|, has been written carefully so that it works properly +if |n==0| or if |(-n)| would cause overflow. It does not apply |%| or |/| +to negative arguments, since such operations are not implemented consistently +by all \PASCAL\ compilers. + +@<Basic print...@>= +static void print_int(int @!n) /*prints an integer in decimal form*/ +{@+int k; /*index to current digit; we assume that $\vert n\vert<10^{23}$*/ +int @!m; /*used to negate |n| in possibly dangerous cases*/ +k=0; +if (n < 0) + {@+print_char('-'); + if (n > -100000000) negate(n); + else{@+m=-1-n;n=m/10;m=(m%10)+1;k=1; + if (m < 10) dig[0]=m; + else{@+dig[0]=0;incr(n); + } + } + } +@/do@+{dig[k]=n%10;n=n/10;incr(k); +}@+ while (!(n==0)); +print_the_digs(k); +} + +@ Here is a trivial procedure to print two digits; it is usually called with +a parameter in the range |0 <= n <= 99|. + +@p static void print_two(int @!n) /*prints two least significant digits*/ +{@+n=abs(n)%100;print_char('0'+(n/10)); +print_char('0'+(n%10)); +} + +@ Hexadecimal printing of nonnegative integers is accomplished by |print_hex|. + +@p static void print_hex(int @!n) + /*prints a positive integer in hexadecimal form*/ +{@+int k; /*index to current digit; we assume that $0\le n<16^{22}$*/ +k=0;print_char('"'); +@/do@+{dig[k]=n%16;n=n/16;incr(k); +}@+ while (!(n==0)); +print_the_digs(k); +} + +@ Old versions of \TeX\ needed a procedure called |print_ASCII| whose function +is now subsumed by |print|. We retain the old name here as a possible aid to +future software arch\ae ologists. + +@d print_ASCII printn + +@ Roman numerals are produced by the |print_roman_int| routine. Readers +who like puzzles might enjoy trying to figure out how this tricky code +works; therefore no explanation will be given. Notice that 1990 yields +\.{mcmxc}, not \.{mxm}. + +@p static void print_roman_int(int @!n) +{@+ +pool_pointer j, @!k; /*mysterious indices into |mystery|*/ +nonnegative_integer @!u, @!v; /*mysterious numbers*/ +const char mystery[] ="m2d5c2l5x2v5i"; +j=0;v=1000; +loop@+{@+while (n >= v) + {@+print_char(so(mystery[j]));n=n-v; + } + if (n <= 0) return; /*nonpositive input produces no output*/ + k=j+2;u=v/(so(mystery[k-1])-'0'); + if (mystery[k-1]==si('2')) + {@+k=k+2;u=u/(so(mystery[k-1])-'0'); + } + if (n+u >= v) + {@+print_char(so(mystery[k]));n=n+u; + } + else{@+j=j+2;v=v/(so(mystery[j-1])-'0'); + } + } +} + +@ The |print| subroutine will not print a string that is still being +created. The following procedure will. + +@p static void print_current_string(void) /*prints a yet-unmade string*/ +{@+pool_pointer j; /*points to current character code*/ +j=str_start[str_ptr]; +while (j < pool_ptr) + {@+print_char(so(str_pool[j]));incr(j); + } +} + +@ Here is a procedure that asks the user to type a line of input, +assuming that the |selector| setting is either |term_only| or |term_and_log|. +The input is placed into locations |first| through |last-1| of the +|buffer| array, and echoed on the transcript file if appropriate. + +This procedure is never called when |interaction < scroll_mode|. + +@d prompt_input(A) {@+wake_up_terminal;print(A);term_input(); + } /*prints a string and gets a line of input*/ + +@p static void term_input(void) /*gets a line from the terminal*/ +{@+int k; /*index into |buffer|*/ +update_terminal; /*now the user sees the prompt for sure*/ +if (!input_ln(&term_in, true)) fatal_error("End of file on the terminal!"); +@.End of file on the terminal@> +term_offset=0; /*the user's line ended with \<\rm return>*/ +decr(selector); /*prepare to echo the input*/ +if (last!=first) for (k=first; k<=last-1; k++) printn(buffer[k]); +print_ln();incr(selector); /*restore previous status*/ +} + +@* Reporting errors. +When something anomalous is detected, \TeX\ typically does something like this: +$$\vbox{\halign{#\hfil\cr +|print_err("Something anomalous has been detected");|\cr +|help3("This is the first line of my offer to help.")|\cr +|("This is the second line. I'm trying to")|\cr +|("explain the best way for you to proceed.");|\cr +|error;|\cr}}$$ +A two-line help message would be given using |help2|, etc.; these informal +helps should use simple vocabulary that complements the words used in the +official error message that was printed. (Outside the U.S.A., the help +messages should preferably be translated into the local vernacular. Each +line of help is at most 60 characters long, in the present implementation, +so that |max_print_line| will not be exceeded.) + +The |print_err| procedure supplies a `\.!' before the official message, +and makes sure that the terminal is awake if a stop is going to occur. +The |error| procedure supplies a `\..' after the official message, then it +shows the location of the error; and if |interaction==error_stop_mode|, +it also enters into a dialog with the user, during which time the help +message may be printed. +@^system dependencies@> + +@<Error handling...@>= +void print_err(char *s) +{@+if (interaction==error_stop_mode) wake_up_terminal; + if (filelineerrorstylep) print_file_line(); /* k\TeX\ */ + else print_nl("! "); + print(s); +} + +@ The global variable |interaction| has four settings, representing increasing +amounts of user interaction: + +@d batch_mode 0 /*omits all stops and omits terminal output*/ +@d nonstop_mode 1 /*omits all stops*/ +@d scroll_mode 2 /*omits error stops*/ +@d error_stop_mode 3 /*stops at every opportunity to interact*/ + +@<Glob...@>= +static int @!interaction; /*current level of interaction*/ + +@ @<Set init...@>=interaction=error_stop_mode; + +@ \TeX\ is careful not to call |error| when the print |selector| setting +might be unusual. The only possible values of |selector| at the time of +error messages are + +\yskip\hang|no_print| (when |interaction==batch_mode| + and |log_file| not yet open); + +\hang|term_only| (when |interaction > batch_mode| and |log_file| not yet open); + +\hang|log_only| (when |interaction==batch_mode| and |log_file| is open); + +\hang|term_and_log| (when |interaction > batch_mode| and |log_file| is open). + +@<Initialize the print |selector| based on |interaction|@>= +if (interaction==batch_mode) selector=no_print;@+else selector=term_only + +@ A global variable |deletions_allowed| is set |false| if the |get_next| +routine is active when |error| is called; this ensures that |get_next| +and related routines like |get_token| will never be called recursively. +A similar interlock is provided by |set_box_allowed|. +@^recursion@> + +The global variable |history| records the worst level of error that +has been detected. It has four possible values: |spotless|, |warning_issued|, +|error_message_issued|, and |fatal_error_stop|. + +Another global variable, |error_count|, is increased by one when an +|error| occurs without an interactive dialog, and it is reset to zero at +the end of every paragraph. If |error_count| reaches 100, \TeX\ decides +that there is no point in continuing further. + +@d spotless 0 /*|history| value when nothing has been amiss yet*/ +@d warning_issued 1 /*|history| value when |begin_diagnostic| has been called*/ +@d error_message_issued 2 /*|history| value when |error| has been called*/ +@d fatal_error_stop 3 /*|history| value when termination was premature*/ + +@<Glob...@>= +static bool @!deletions_allowed; /*is it safe for |error| to call |get_token|?*/ +static bool @!set_box_allowed; /*is it safe to do a \.{\\setbox} assignment?*/ +static int @!history; /*has the source input been clean so far?*/ +static int @!error_count; /*the number of scrolled errors since the + last paragraph ended*/ + +@ The value of |history| is initially |fatal_error_stop|, but it will +be changed to |spotless| if \TeX\ survives the initialization process. + +@<Set init...@>= +deletions_allowed=true;set_box_allowed=true; +error_count=0; /*|history| is initialized elsewhere*/ + +@ Since errors can be detected almost anywhere in \TeX, we want to declare the +error procedures near the beginning of the program. But the error procedures +in turn use some other procedures, which need to be declared |forward| +before we get to |error| itself. + +It is possible for |error| to be called recursively if some error arises +when |get_token| is being used to delete a token, and/or if some fatal error +occurs while \TeX\ is trying to fix a non-fatal one. But such recursion +@^recursion@> +is never more than two levels deep. + +@<Error handling...@>= +static void normalize_selector(void);@/ +static void get_token(void);@/ +static void term_input(void);@/ +static void show_context(void);@/ +static void begin_file_reading(void);@/ +static void open_log_file(void);@/ +static void close_files_and_terminate(void);@/ +static void clear_for_error_prompt(void);@/ +static void give_err_help(void);@/ +#ifdef @!DEBUG +static void debug_help(void); +#else +#define debug_help() do_nothing +#endif + +@ Individual lines of help are recorded in the array |help_line|, which +contains entries in positions |0 dotdot(help_ptr-1)|. They should be printed +in reverse order, i.e., with |help_line[0]| appearing last. + +@d hlp1(A) help_line[0]=A;@+} +@d hlp2(A, B) help_line[1]=A;help_line[0]=B;@+} +@d hlp3(A, B, C) help_line[2]=A;help_line[1]=B;help_line[0]=C;@+} +@d hlp4(A, B, C, D) help_line[3]=A;help_line[2]=B;help_line[1]=C;help_line[0]=D;@+} +@d hlp5(A, B, C, D, E) help_line[4]=A;help_line[3]=B;help_line[2]=C;help_line[1]=D;help_line[0]=E;@+} +@d hlp6(A, B, C, D, E, F) help_line[5]=A;help_line[4]=B;help_line[3]=C;help_line[2]=D;help_line[1]=E;help_line[0]=F;@+} +@d help0 help_ptr=0 /*sometimes there might be no help*/ +@d help1(A) @+{@+help_ptr=1;hlp1(A) /*use this with one help line*/ +@d help2(A, B) @+{@+help_ptr=2;hlp2(A, B) /*use this with two help lines*/ +@d help3(A, B, C) @+{@+help_ptr=3;hlp3(A, B, C) /*use this with three help lines*/ +@d help4(A, B, C, D) @+{@+help_ptr=4;hlp4(A, B, C, D) /*use this with four help lines*/ +@d help5(A, B, C, D, E) @+{@+help_ptr=5;hlp5(A, B, C, D, E) /*use this with five help lines*/ +@d help6(A, B, C, D, E, F) @+{@+help_ptr=6;hlp6(A, B, C, D, E, F) /*use this with six help lines*/ + +@<Glob...@>= +static char *@!help_line[6]; /*helps for the next |error|*/ +static int @!help_ptr; /*the number of help lines present*/ +static bool @!use_err_help; /*should the |err_help| list be shown?*/ + +@ @<Set init...@>= +help_ptr=0;use_err_help=false; + +@ The |jump_out| procedure just cuts across all active procedure levels and +goes to |end_of_TEX|. This is the only nontrivial |@!goto| statement in the +whole program. It is used when there is no recovery from a particular error. + +Some \PASCAL\ compilers do not implement non-local |goto| statements. +@^system dependencies@> +In such cases the body of |jump_out| should simply be +`|close_files_and_terminate|;\thinspace' followed by a call on some system +procedure that quietly terminates the program. + +@<Error hand...@>= +static void jump_out(void) +{@+ close_files_and_terminate(); exit(0); +} + +@ Here now is the general |error| routine. + +@<Error hand...@>= +static void error(void) /*completes the job of error reporting*/ +{@+ +ASCII_code c; /*what the user types*/ +int @!s1, @!s2, @!s3, @!s4; + /*used to save global variables when deleting tokens*/ +if (history < error_message_issued) history=error_message_issued; +print_char('.');show_context(); +if (interaction==error_stop_mode) + @<Get user's advice and |return|@>; +incr(error_count); +if (error_count==100) + {@+print_nl("(That makes 100 errors; please try again.)"); +@.That makes 100 errors...@> + history=fatal_error_stop;jump_out(); + } +@<Put help message on the transcript file@>; +} + +@ @<Get user's advice...@>= +loop@+{@+resume: if (interaction!=error_stop_mode) return; + clear_for_error_prompt();prompt_input("? "); +@.?\relax@> + if (last==first) return; + c=buffer[first]; + if (c >= 'a') c=c+'A'-'a'; /*convert to uppercase*/ + @<Interpret code |c| and |return| if done@>; + } + +@ It is desirable to provide an `\.E' option here that gives the user +an easy way to return from \TeX\ to the system editor, with the offending +line ready to be edited. But such an extension requires some system +wizardry, so the present implementation simply types out the name of the +file that should be +edited and the relevant line number. +@^system dependencies@> + +There is a secret `\.D' option available when the debugging routines haven't +been commented~out. +@^debugging@> + +@<Interpret code |c| and |return| if done@>= +switch (c) { +case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (deletions_allowed) + @<Delete \(c)|c-"0"| tokens and |goto continue|@>@;@+break; +@t\4\4@>@; +#ifdef @!DEBUG +case 'D': {@+debug_help();goto resume;@+} +#endif +case 'E': if (base_ptr > 0) if (input_stack[base_ptr].name_field >= 256) + {@+print_nl("You want to edit file "); +@.You want to edit file x@> + slow_print(input_stack[base_ptr].name_field); + print(" at line ");print_int(line); + interaction=scroll_mode;jump_out(); + } @+break; +case 'H': @<Print the help information and |goto continue|@>@; +case 'I': @<Introduce new material from the terminal and |return|@>@; +case 'Q': case 'R': case 'S': @<Change the interaction level and |return|@>@; +case 'X': {@+interaction=scroll_mode;jump_out(); + } @+break; +default:do_nothing; +} @/ +@<Print the menu of available options@>@; + +@ @<Print the menu...@>= +{@+print("Type <return> to proceed, S to scroll future error messages,");@/ +@.Type <return> to proceed...@> +print_nl("R to run without stopping, Q to run quietly,");@/ +print_nl("I to insert something, "); +if (base_ptr > 0) if (input_stack[base_ptr].name_field >= 256) + print("E to edit your file,"); +if (deletions_allowed) + print_nl("1 or ... or 9 to ignore the next 1 to 9 tokens of input,"); +print_nl("H for help, X to quit."); +} + +@ Here the author of \TeX\ apologizes for making use of the numerical +relation between |'Q'|, |'R'|, |'S'|, and the desired interaction settings +|batch_mode|, |nonstop_mode|, |scroll_mode|. +@^Knuth, Donald Ervin@> + +@<Change the interaction...@>= +{@+error_count=0;interaction=batch_mode+c-'Q'; +print("OK, entering "); +switch (c) { +case 'Q': {@+print_esc("batchmode");decr(selector); + } @+break; +case 'R': print_esc("nonstopmode");@+break; +case 'S': print_esc("scrollmode"); +} /*there are no other cases*/ +print("...");print_ln();update_terminal;return; +} + +@ When the following code is executed, |buffer[(first+1)dotdot(last-1)]| may +contain the material inserted by the user; otherwise another prompt will +be given. In order to understand this part of the program fully, you need +to be familiar with \TeX's input stacks. + +@<Introduce new material...@>= +{@+begin_file_reading(); /*enter a new syntactic level for terminal input*/ + /*now |state==mid_line|, so an initial blank space will count as a blank*/ +if (last > first+1) + {@+loc=first+1;buffer[first]=' '; + } +else{@+prompt_input("insert>");loc=first; +@.insert>@> + } +first=last; +cur_input.limit_field=last-1; /*no |end_line_char| ends this line*/ +return; +} + +@ We allow deletion of up to 99 tokens at a time. + +@<Delete \(c)|c-"0"| tokens...@>= +{@+s1=cur_tok;s2=cur_cmd;s3=cur_chr;s4=align_state; +align_state=1000000;OK_to_interrupt=false; +if ((last > first+1)&&(buffer[first+1] >= '0')&&(buffer[first+1] <= '9')) + c=c*10+buffer[first+1]-'0'*11; +else c=c-'0'; +while (c > 0) + {@+get_token(); /*one-level recursive call of |error| is possible*/ + decr(c); + } +cur_tok=s1;cur_cmd=s2;cur_chr=s3;align_state=s4;OK_to_interrupt=true; +help2("I have just deleted some text, as you asked.",@/ +"You can now delete more, or insert, or whatever."); +show_context();goto resume; +} + +@ @<Print the help info...@>= +{@+if (use_err_help) + {@+give_err_help();use_err_help=false; + } +else{@+if (help_ptr==0) + help2("Sorry, I don't know how to help in this situation.",@/ + @t\kern1em@>"Maybe you should try asking a human?"); + @/do@+{decr(help_ptr);print(help_line[help_ptr]);print_ln(); + }@+ while (!(help_ptr==0)); + } +help4("Sorry, I already gave what help I could...",@/ + "Maybe you should try asking a human?",@/ + "An error might have occurred before I noticed any problems.",@/ + "``If all else fails, read the instructions.'");@/ +goto resume; +} + +@ @<Put help message on the transcript file@>= +if (interaction > batch_mode) decr(selector); /*avoid terminal output*/ +if (use_err_help) + {@+print_ln();give_err_help(); + } +else while (help_ptr > 0) + {@+decr(help_ptr);print_nl(help_line[help_ptr]); + } +print_ln(); +if (interaction > batch_mode) incr(selector); /*re-enable terminal output*/ +print_ln() + +@ A dozen or so error messages end with a parenthesized integer, so we +save a teeny bit of program space by declaring the following procedure: + +@p static void int_error(int @!n) +{@+print(" (");print_int(n);print_char(')');error(); +} + +@ In anomalous cases, the print selector might be in an unknown state; +the following subroutine is called to fix things just enough to keep +running a bit longer. + +@p static void normalize_selector(void) +{@+if (log_opened) selector=term_and_log; +else selector=term_only; +if (job_name==0) open_log_file(); +if (interaction==batch_mode) decr(selector); +} + +@ The following procedure prints \TeX's last words before dying. + +@d succumb {@+if (interaction==error_stop_mode) + interaction=scroll_mode; /*no more interaction*/ + if (log_opened) error(); + if (interaction > batch_mode) debug_help(); + history=fatal_error_stop;jump_out(); /*irrecoverable error*/ + } + +@<Error hand...@>= +static void fatal_error(char *@!s) /*prints |s|, and that's it*/ +{@+normalize_selector();@/ +print_err("Emergency stop");help1(s);succumb; +@.Emergency stop@> +} + +@ Here is the most dreaded error message. + +@<Error hand...@>= +static void overflow(char *@!s, int @!n) /*stop due to finiteness*/ +{@+normalize_selector(); +print_err("TeX capacity exceeded, sorry ["); +@.TeX capacity exceeded ...@> +print(s);print_char('=');print_int(n);print_char(']'); +help2("If you really absolutely need more capacity,",@/ + "you can ask a wizard to enlarge me."); +succumb; +} + +@ The program might sometime run completely amok, at which point there is +no choice but to stop. If no previous error has been detected, that's bad +news; a message is printed that is really intended for the \TeX\ +maintenance person instead of the user (unless the user has been +particularly diabolical). The index entries for `this can't happen' may +help to pinpoint the problem. +@^dry rot@> + +@<Error hand...@>= +static void confusion(char *@!s) + /*consistency check violated; |s| tells where*/ +{@+normalize_selector(); +if (history < error_message_issued) + {@+print_err("This can't happen (");print(s);print_char(')'); +@.This can't happen@> + help1("I'm broken. Please show this to someone who can fix can fix"); + } +else{@+print_err("I can't go on meeting you like this"); +@.I can't go on...@> + help2("One of your faux pas seems to have wounded me deeply...",@/ + "in fact, I'm barely conscious. Please fix it and try again."); + } +succumb; +} + +@ Users occasionally want to interrupt \TeX\ while it's running. +If the \PASCAL\ runtime system allows this, one can implement +a routine that sets the global variable |interrupt| to some nonzero value +when such an interrupt is signalled. Otherwise there is probably at least +a way to make |interrupt| nonzero using the \PASCAL\ debugger. +@^system dependencies@> +@^debugging@> + +@d check_interrupt {@+if (interrupt!=0) pause_for_instructions(); + } + +@<Global...@>= +static int @!interrupt; /*should \TeX\ pause for instructions?*/ +static bool @!OK_to_interrupt; /*should interrupts be observed?*/ + +@ @<Set init...@>= +interrupt=0;OK_to_interrupt=true; + +@ When an interrupt has been detected, the program goes into its +highest interaction level and lets the user have nearly the full flexibility of +the |error| routine. \TeX\ checks for interrupts only at times when it is +safe to do this. + +@p static void pause_for_instructions(void) +{@+if (OK_to_interrupt) + {@+interaction=error_stop_mode; + if ((selector==log_only)||(selector==no_print)) + incr(selector); + print_err("Interruption"); +@.Interruption@> + help3("You rang?",@/ + "Try to insert an instruction for me (e.g., `I\\showlists'),",@/ + "unless you just want to quit by typing `X'."); + deletions_allowed=false;error();deletions_allowed=true; + interrupt=0; + } +} + +@* Arithmetic with scaled dimensions. +The principal computations performed by \TeX\ are done entirely in terms of +integers less than $2^{31}$ in magnitude; and divisions are done only when both +dividend and divisor are nonnegative. Thus, the arithmetic specified in this +program can be carried out in exactly the same way on a wide variety of +computers, including some small ones. Why? Because the arithmetic +calculations need to be spelled out precisely in order to guarantee that +\TeX\ will produce identical output on different machines. If some +quantities were rounded differently in different implementations, we would +find that line breaks and even page breaks might occur in different places. +Hence the arithmetic of \TeX\ has been designed with care, and systems that +claim to be implementations of \TeX82 should follow precisely the +@:TeX82}{\TeX82@> +calculations as they appear in the present program. + +(Actually there are three places where \TeX\ uses |/| with a possibly negative +numerator. These are harmless; see |/| in the index. Also if the user +sets the \.{\\time} or the \.{\\year} to a negative value, some diagnostic +information will involve negative-numerator division. The same remarks +apply for |%| as well as for |/|.) + +@ Here is a routine that calculates half of an integer, using an +unambiguous convention with respect to signed odd numbers. + +@p static int half(int @!x) +{@+if (odd(x)) return(x+1)/2; +else return x/2; +} + +@ Fixed-point arithmetic is done on {\sl scaled integers\/} that are multiples +of $2^{-16}$. In other words, a binary point is assumed to be sixteen bit +positions from the right end of a binary computer word. + +@d unity 0200000 /*$2^{16}$, represents 1.00000*/ +@d two 0400000 /*$2^{17}$, represents 2.00000*/ + +@<Types...@>= +typedef int scaled; /*this type is used for scaled integers*/ +typedef int32_t nonnegative_integer; /*$0\le x<2^{31}$*/ +typedef int8_t small_number; /*this type is self-explanatory*/ + +@ The following function is used to create a scaled integer from a given decimal +fraction $(.d_0d_1\ldots d_{k-1})$, where |0 <= k <= 17|. The digit $d_i$ is +given in |dig[i]|, and the calculation produces a correctly rounded result. + +@p static scaled round_decimals(small_number @!k) + /*converts a decimal fraction*/ +{@+int a; /*the accumulator*/ +a=0; +while (k > 0) + {@+decr(k);a=(a+dig[k]*two)/10; + } +return(a+1)/2; +} + +@ Conversely, here is a procedure analogous to |print_int|. If the output +of this procedure is subsequently read by \TeX\ and converted by the +|round_decimals| routine above, it turns out that the original value will +be reproduced exactly; the ``simplest'' such decimal number is output, +but there is always at least one digit following the decimal point. + +The invariant relation in the \&{repeat} loop is that a sequence of +decimal digits yet to be printed will yield the original number if and only if +they form a fraction~$f$ in the range $s-\delta\le 10\cdot2^{16}f<s$. +We can stop if and only if $f=0$ satisfies this condition; the loop will +terminate before $s$ can possibly become zero. + +@p static void print_scaled(scaled @!s) /*prints scaled real, rounded to five + digits*/ +{@+scaled delta; /*amount of allowable inaccuracy*/ +if (s < 0) + {@+print_char('-');negate(s); /*print the sign, if negative*/ + } +print_int(s/unity); /*print the integer part*/ +print_char('.'); +s=10*(s%unity)+5;delta=10; +@/do@+{if (delta > unity) s=s+0100000-50000; /*round the last digit*/ +print_char('0'+(s/unity));s=10*(s%unity);delta=delta*10; +}@+ while (!(s <= delta)); +} + +@ Physical sizes that a \TeX\ user specifies for portions of documents are +represented internally as scaled points. Thus, if we define an `sp' (scaled +@^sp@> +point) as a unit equal to $2^{-16}$ printer's points, every dimension +inside of \TeX\ is an integer number of sp. There are exactly +4,736,286.72 sp per inch. Users are not allowed to specify dimensions +larger than $2^{30}-1$ sp, which is a distance of about 18.892 feet (5.7583 +meters); two such quantities can be added without overflow on a 32-bit +computer. + +The present implementation of \TeX\ does not check for overflow when +@^overflow in arithmetic@> +dimensions are added or subtracted. This could be done by inserting a +few dozen tests of the form `\ignorespaces|if (x >= 010000000000)| +\\{report\_overflow}', but the chance of overflow is so remote that +such tests do not seem worthwhile. + +\TeX\ needs to do only a few arithmetic operations on scaled quantities, +other than addition and subtraction, and the following subroutines do most of +the work. A single computation might use several subroutine calls, and it is +desirable to avoid producing multiple error messages in case of arithmetic +overflow; so the routines set the global variable |arith_error| to |true| +instead of reporting errors directly to the user. Another global variable, +|rem|, holds the remainder after a division. + +@<Glob...@>= +static bool @!arith_error; /*has arithmetic overflow occurred recently?*/ +static scaled @!rem; /*amount subtracted to get an exact division*/ + +@ The first arithmetical subroutine we need computes $nx+y$, where |x| +and~|y| are |scaled| and |n| is an integer. We will also use it to +multiply integers. + +@d nx_plus_y(A, B, C) mult_and_add(A, B, C, 07777777777) +@d mult_integers(A, B) mult_and_add(A, B, 0, 017777777777) + +@p static scaled mult_and_add(int @!n, scaled @!x, scaled @!y, scaled @!max_answer) +{@+if (n < 0) + {@+negate(x);negate(n); + } +if (n==0) return y; +else if (((x <= (max_answer-y)/n)&&(-x <= (max_answer+y)/n))) + return n*x+y; +else{@+arith_error=true;return 0; + } +} + +@ We also need to divide scaled dimensions by integers. + +@p static scaled x_over_n(scaled @!x, int @!n) +{@+bool negative; /*should |rem| be negated?*/ +scaled x_over_n; +negative=false; +if (n==0) + {@+arith_error=true;x_over_n=0;rem=x; + } +else{@+if (n < 0) + {@+negate(x);negate(n);negative=true; + } + if (x >= 0) + {@+x_over_n=x/n;rem=x%n; + } + else{@+x_over_n=-((-x)/n);rem=-((-x)%n); + } + } +if (negative) negate(rem); +return x_over_n;} + +@ Then comes the multiplication of a scaled number by a fraction |n/(double)d|, +where |n| and |d| are nonnegative integers | <= @t$2^{16}$@>| and |d| is +positive. It would be too dangerous to multiply by~|n| and then divide +by~|d|, in separate operations, since overflow might well occur; and it +would be too inaccurate to divide by |d| and then multiply by |n|. Hence +this subroutine simulates 1.5-precision arithmetic. + +@p static scaled xn_over_d(scaled @!x, int @!n, int @!d) +{@+bool positive; /*was |x >= 0|?*/ +nonnegative_integer @!t, @!u, @!v; /*intermediate quantities*/ +scaled xn_over_d; +if (x >= 0) positive=true; +else{@+negate(x);positive=false; + } +t=(x%0100000)*n; +u=(x/0100000)*n+(t/0100000); +v=(u%d)*0100000+(t%0100000); +if (u/d >= 0100000) arith_error=true; +else u=0100000*(u/d)+(v/d); +if (positive) + {@+xn_over_d=u;rem=v%d; + } +else{@+xn_over_d=-u;rem=-(v%d); + } +return xn_over_d;} + +@ The next subroutine is used to compute the ``badness'' of glue, when a +total~|t| is supposed to be made from amounts that sum to~|s|. According +to {\sl The \TeX book}, the badness of this situation is $100(t/s)^3$; +however, badness is simply a heuristic, so we need not squeeze out the +last drop of accuracy when computing it. All we really want is an +approximation that has similar properties. +@:TeXbook}{\sl The \TeX book@> + +The actual method used to compute the badness is easier to read from the +program than to describe in words. It produces an integer value that is a +reasonably close approximation to $100(t/s)^3$, and all implementations +of \TeX\ should use precisely this method. Any badness of $2^{13}$ or more is +treated as infinitely bad, and represented by 10000. + +It is not difficult to prove that $$\hbox{|badness(t+1, s) >= badness(t, s) + >= badness(t, s+1)|}.$$ The badness function defined here is capable of +computing at most 1095 distinct values, but that is plenty. + +@d inf_bad 10000 /*infinitely bad value*/ + +@p @<Declare \Prote\ arithmetic routines@>@/ +static halfword badness(scaled @!t, scaled @!s) /*compute badness, given |t >= 0|*/ +{@+int r; /*approximation to $\alpha t/s$, where $\alpha^3\approx + 100\cdot2^{18}$*/ +if (t==0) return 0; +else if (s <= 0) return inf_bad; +else{@+if (t <= 7230584) r=(t*297)/s; /*$297^3=99.94\times2^{18}$*/ + else if (s >= 1663497) r=t/(s/297); + else r=t; + if (r > 1290) return inf_bad; /*$1290^3<2^{31}<1291^3$*/ + else return(r*r*r+0400000)/01000000; + } /*that was $r^3/2^{18}$, rounded to the nearest integer*/ +} + +@ When \TeX\ ``packages'' a list into a box, it needs to calculate the +proportionality ratio by which the glue inside the box should stretch +or shrink. This calculation does not affect \TeX's decision making, +so the precise details of rounding, etc., in the glue calculation are not +of critical importance for the consistency of results on different computers. + +We shall use the type |glue_ratio| for such proportionality ratios. +A glue ratio should take the same amount of memory as an +|int| (usually 32 bits) if it is to blend smoothly with \TeX's +other data structures. Thus |glue_ratio| should be equivalent to +|short_real| in some implementations of \PASCAL. Alternatively, +it is possible to deal with glue ratios using nothing but fixed-point +arithmetic; see {\sl TUGboat \bf3},1 (March 1982), 10--27. (But the +routines cited there must be modified to allow negative glue ratios.) +@^system dependencies@> + +@d set_glue_ratio_zero(A) A=0.0 /*store the representation of zero ratio*/ +@d set_glue_ratio_one(A) A=1.0 /*store the representation of unit ratio*/ +@d float(A) ((double)(A)) /*convert from |glue_ratio| to type |double|*/ +@d unfloat(A) ((glue_ratio)(A)) /*convert from |double| to type |glue_ratio|*/ +@d float_constant(A) ((double)(A)) /*convert |int| constant to |double|*/ + +@<Types...@>= +#if __SIZEOF_FLOAT__==4 +typedef float float32_t; +#else +#error float type must have size 4 +#endif +typedef float @!glue_ratio; /*one-word representation of a glue expansion factor*/ + +@* Packed data. +In order to make efficient use of storage space, \TeX\ bases its major data +structures on a |memory_word|, which contains either a (signed) integer, +possibly scaled, or a (signed) |glue_ratio|, or a small number of +fields that are one half or one quarter of the size used for storing +integers. + +If |x| is a variable of type |memory_word|, it contains up to four +fields that can be referred to as follows: +$$\vbox{\halign{\hfil#&#\hfil&#\hfil\cr +|x|&.|i|&(an |int|)\cr +|x|&.|sc|\qquad&(a |scaled| integer)\cr +|x|&.|gr|&(a |glue_ratio|)\cr +|x.hh.lh|, |x.hh|&.|rh|&(two halfword fields)\cr +|x.hh.b0|, |x.hh.b1|, |x.hh|&.|rh|&(two quarterword fields, one halfword + field)\cr +|x.qqqq.b0|, |x.qqqq.b1|, |x.qqqq|&.|b2|, |x.qqqq.b3|\hskip-100pt + &\qquad\qquad\qquad(four quarterword fields)\cr}}$$ +This is somewhat cumbersome to write, and not very readable either, but +macros will be used to make the notation shorter and more transparent. +The \PASCAL\ code below gives a formal definition of |memory_word| and +its subsidiary types, using packed variant records. \TeX\ makes no +assumptions about the relative positions of the fields within a word. + +Since we are assuming 32-bit integers, a halfword must contain at least +16 bits, and a quarterword must contain at least 8 bits. +@^system dependencies@> +But it doesn't hurt to have more bits; for example, with enough 36-bit +words you might be able to have |mem_max| as large as 262142, which is +eight times as much memory as anybody had during the first four years of +\TeX's existence. + +N.B.: Valuable memory space will be dreadfully wasted unless \TeX\ is compiled +by a \PASCAL\ that packs all of the |memory_word| variants into +the space of a single integer. This means, for example, that |glue_ratio| +words should be |short_real| instead of |double| on some computers. Some +\PASCAL\ compilers will pack an integer whose subrange is `|0 dotdot 255|' into +an eight-bit field, but others insist on allocating space for an additional +sign bit; on such systems you can get 256 values into a quarterword only +if the subrange is `|-128 dotdot 127|'. + +The present implementation tries to accommodate as many variations as possible, +so it makes few assumptions. If integers having the subrange +`|min_quarterword dotdot max_quarterword|' can be packed into a quarterword, +and if integers having the subrange `|min_halfword dotdot max_halfword|' +can be packed into a halfword, everything should work satisfactorily. + +It is usually most efficient to have |min_quarterword==min_halfword==0|, +so one should try to achieve this unless it causes a severe problem. +The values defined here are recommended for most 32-bit computers. + +@d min_quarterword 0 /*smallest allowable value in a |quarterword|*/ +@d max_quarterword 65535 /*largest allowable value in a |quarterword|*/ +@d min_halfword 0 /*smallest allowable value in a |halfword|*/ +@d max_halfword 0x3FFFFFFF /*largest allowable value in a |halfword|*/ + +@ Here are the inequalities that the quarterword and halfword values +must satisfy (or rather, the inequalities that they mustn't satisfy): + +@<Check the ``constant''...@>= +#ifdef @!INIT +if ((mem_min!=mem_bot)||(mem_max!=mem_top)) bad=10; +#endif +@;@/ +if ((mem_min > mem_bot)||(mem_max < mem_top)) bad=10; +if ((min_quarterword > 0)||(max_quarterword < 127)) bad=11; +if ((min_halfword > 0)||(max_halfword < 32767)) bad=12; +if ((min_quarterword < min_halfword)||@| + (max_quarterword > max_halfword)) bad=13; +if ((mem_min < min_halfword)||(mem_max >= max_halfword)||@| + (mem_bot-mem_min > max_halfword+1)) bad=14; +if ((font_base < min_quarterword)||(font_max > max_quarterword)) bad=15; +if (font_max > font_base+256) bad=16; +if ((save_size > max_halfword)||(max_strings > max_halfword)) bad=17; +if (buf_size > max_halfword) bad=18; +if (max_quarterword-min_quarterword < 255) bad=19; + +@ The operation of adding or subtracting |min_quarterword| occurs quite +frequently in \TeX, so it is convenient to abbreviate this operation +by using the macros |qi| and |qo| for input and output to and from +quarterword format. + +The inner loop of \TeX\ will run faster with respect to compilers +that don't optimize expressions like `|x+0|' and `|x-0|', if these +macros are simplified in the obvious way when |min_quarterword==0|. +@^inner loop@>@^system dependencies@> + +@d qi(A) A+min_quarterword + /*to put an |eight_bits| item into a quarterword*/ +@d qo(A) A-min_quarterword + /*to take an |eight_bits| item out of a quarterword*/ +@d hi(A) A+min_halfword + /*to put a sixteen-bit item into a halfword*/ +@d ho(A) A-min_halfword + /*to take a sixteen-bit item from a halfword*/ + +@ The reader should study the following definitions closely: +@^system dependencies@> + +@d sc i /*|scaled| data is equivalent to |int|*/ + +@<Types...@>= +typedef uint16_t quarterword; /*1/4 of a word*/ +typedef int32_t halfword; /*1/2 of a word*/ +typedef int8_t two_choices; /*used when there are two variants in a record*/ +typedef int8_t four_choices; /*used when there are four variants in a record*/ +typedef struct { @;@/ + halfword @!rh; + union { + halfword @!lh; + struct { quarterword @!b0;quarterword @!b1;} ; + };} two_halves; +typedef struct { @;@/ + quarterword @!b0; + quarterword @!b1; + quarterword @!b2; + quarterword @!b3; + } four_quarters; +typedef struct { @;@/ + union { + int @!i; + glue_ratio @!gr; + two_halves @!hh; + four_quarters @!qqqq; + };} memory_word; +typedef struct {@+FILE *f;@+memory_word@,d;@+} word_file; + +@ When debugging, we may want to print a |memory_word| without knowing +what type it is; so we print it in all modes. +@^dirty \PASCAL@>@^debugging@> + +@p +#ifdef @!DEBUG +static void print_word(memory_word @!w) + /*prints |w| in all ways*/ +{@+print_int(w.i);print_char(' ');@/ +print_scaled(w.sc);print_char(' ');@/ +print_scaled(round(unity*float(w.gr)));print_ln();@/ +@^real multiplication@> +print_int(w.hh.lh);print_char('=');print_int(w.hh.b0);print_char(':'); +print_int(w.hh.b1);print_char(';');print_int(w.hh.rh);print_char(' ');@/ +print_int(w.qqqq.b0);print_char(':');print_int(w.qqqq.b1);print_char(':'); +print_int(w.qqqq.b2);print_char(':');print_int(w.qqqq.b3); +} +#endif + +@* Dynamic memory allocation. +The \TeX\ system does nearly all of its own memory allocation, so that it +can readily be transported into environments that do not have automatic +facilities for strings, garbage collection, etc., and so that it can be in +control of what error messages the user receives. The dynamic storage +requirements of \TeX\ are handled by providing a large array |mem| in +which consecutive blocks of words are used as nodes by the \TeX\ routines. + +Pointer variables are indices into this array, or into another array +called |eqtb| that will be explained later. A pointer variable might +also be a special flag that lies outside the bounds of |mem|, so we +allow pointers to assume any |halfword| value. The minimum halfword +value represents a null pointer. \TeX\ does not assume that |mem[null]| exists. + @s pointer int -@s memory_word int -@s ASCII_code int -@s small_number int -@s info_t int -@s lig_t int -@s disc_t int -@s math_t int -@s glyph_t int -@s glue_t int -@s rule_t int -@s list_t int -@s kind_t int -@s image_t int -@s glue_ord int -@s four_quarters int -@s eight_bits int -@s internal_font_number int -@s explicit normal -@s str_number int -@s dimen_t int -@s loop else -@s kpse_file_format_type int -@s font_t int - - -\makeindex -\maketoc - -%\makefigindex -\titletrue - -\def\lastrevision{${}$Revision: 2515 ${}$} -\def\lastdate{${}$Date: 2021-09-23 17:59:58 +0200 (Thu, 23 Sep 2021) ${}$} -\eject -\input titlepage.tex - - -\frontmatter +@d pointer halfword /*a flag or a location in |mem| or |eqtb|*/ +@d null min_halfword /*the null pointer*/ + +@<Glob...@>= +static pointer @!temp_ptr; /*a pointer variable for occasional emergency use*/ + +@ The |mem| array is divided into two regions that are allocated separately, +but the dividing line between these two regions is not fixed; they grow +together until finding their ``natural'' size in a particular job. +Locations less than or equal to |lo_mem_max| are used for storing +variable-length records consisting of two or more words each. This region +is maintained using an algorithm similar to the one described in exercise +2.5--19 of {\sl The Art of Computer Programming}. However, no size field +appears in the allocated nodes; the program is responsible for knowing the +relevant size when a node is freed. Locations greater than or equal to +|hi_mem_min| are used for storing one-word records; a conventional +\.{AVAIL} stack is used for allocation in this region. + +Locations of |mem| between |mem_bot| and |mem_top| may be dumped as part +of preloaded format files, by the \.{INITEX} preprocessor. +@.INITEX@> +Production versions of \TeX\ may extend the memory at both ends in order to +provide more space; locations between |mem_min| and |mem_bot| are always +used for variable-size nodes, and locations between |mem_top| and |mem_max| +are always used for single-word nodes. + +The key pointers that govern |mem| allocation have a prescribed order: +$$\advance\thickmuskip-2mu +\hbox{|null <= mem_min <= mem_bot < lo_mem_max < + hi_mem_min < mem_top <= mem_end <= mem_max|.}$$ + +Empirical tests show that the present implementation of \TeX\ tends to +spend about 9\pct! of its running time allocating nodes, and about 6\pct! +deallocating them after their use. + +@<Glob...@>= +static memory_word @!mem0[mem_max-mem_min+1], *const @!mem = @!mem0-mem_min; /*the big dynamic storage area*/ +static pointer @!lo_mem_max; /*the largest location of variable-size memory in use*/ +static pointer @!hi_mem_min; /*the smallest location of one-word memory in use*/ + +@ In order to study the memory requirements of particular applications, it +is possible to prepare a version of \TeX\ that keeps track of current and +maximum memory usage. When code between the delimiters | +#ifdef @!STAT +| $\ldots$ +|tats| is not ``commented out,'' \TeX\ will run a bit slower but it will +report these statistics when |tracing_stats| is sufficiently large. + +@<Glob...@>= +static int @!var_used, @!dyn_used; /*how much memory is in use*/ +#ifdef @!STAT +#define incr_dyn_used @[incr(dyn_used)@] +#define decr_dyn_used @[decr(dyn_used)@] +#else +#define incr_dyn_used +#define decr_dyn_used +#endif -@ +@ Let's consider the one-word memory region first, since it's the +simplest. The pointer variable |mem_end| holds the highest-numbered location +of |mem| that has ever been used. The free locations of |mem| that +occur between |hi_mem_min| and |mem_end|, inclusive, are of type +|two_halves|, and we write |info(p)| and |link(p)| for the |lh| +and |rh| fields of |mem[p]| when it is of this type. The single-word +free locations form a linked list +$$|avail|,\;\hbox{|link(avail)|},\;\hbox{|link(link(avail))|},\;\ldots$$ +terminated by |null|. + +@d link(A) mem[A].hh.rh /*the |link| field of a memory word*/ +@d info(A) mem[A].hh.lh /*the |info| field of a memory word*/ + +@<Glob...@>= +static pointer @!avail; /*head of the list of available one-word nodes*/ +static pointer @!mem_end; /*the last one-word node used in |mem|*/ + +@ If memory is exhausted, it might mean that the user has forgotten +a right brace. We will define some procedures later that try to help +pinpoint the trouble. + +@p @<Declare the procedure called |show_token_list|@>@/ +@<Declare the procedure called |runaway|@>@; + +@ The function |get_avail| returns a pointer to a new one-word node whose +|link| field is null. However, \TeX\ will halt if there is no more room left. +@^inner loop@> + +If the available-space list is empty, i.e., if |avail==null|, +we try first to increase |mem_end|. If that cannot be done, i.e., if +|mem_end==mem_max|, we try to decrease |hi_mem_min|. If that cannot be +done, i.e., if |hi_mem_min==lo_mem_max+1|, we have to quit. + +@p static pointer get_avail(void) /*single-word node allocation*/ +{@+pointer p; /*the new node being got*/ +p=avail; /*get top location in the |avail| stack*/ +if (p!=null) avail=link(avail); /*and pop it off*/ +else if (mem_end < mem_max) /*or go into virgin territory*/ + {@+incr(mem_end);p=mem_end; + } +else{@+decr(hi_mem_min);p=hi_mem_min; + if (hi_mem_min <= lo_mem_max) + {@+runaway(); /*if memory is exhausted, display possible runaway text*/ + overflow("main memory size", mem_max+1-mem_min); + /*quit; all one-word nodes are busy*/ +@:TeX capacity exceeded main memory size}{\quad main memory size@> + } + } +link(p)=null; /*provide an oft-desired initialization of the new node*/ +#ifdef @!STAT +incr(dyn_used); +#endif +@; /*maintain statistics*/ +return p; +} + +@ Conversely, a one-word node is recycled by calling |free_avail|. +This routine is part of \TeX's ``inner loop,'' so we want it to be fast. +@^inner loop@> +@d free_avail(A) /*single-word node liberation*/ + {@+link(A)=avail;avail=A; + decr_dyn_used; + } -\plainsection{Preface} -To be written - -\vskip 1cm -\noindent {\it M\"unchen\hfil\break -August 20, 2018 \hfill Martin Ruckert} - - -\tableofcontent -%\thefigindex - - -\mainmatter - -\section{Introduction}\label{intro} -Hi\TeX\ is a modified version of \TeX\ that replaces the \.{DVI} -(device independent) output format by the \HINT\ format. The \HINT\ -format, described in \cite{MR:format}, was designed with two -objectives: being able to support reflowing pages using the \TeX\ -typesetting engine and making it simple to use it as output format of -the \TeX\ programm. The present book tries to convince its readers -that the latter claim is true. To this end, this book implements a -version of \TeX\ that produces \HINT\ output---to be precise: a short -format \HINT\ file. - -The book is written as a literate program\cite{Knuth:lp} using ``The -\.{CWEB} System of Structured Documentation''\cite{Knuth:cweb}. The -largest part of this program is, of course, \TeX\cite{Knuth:tex} -itself. Therefore a significant part of Hi\TeX\ consists of -modifications of the \TeX\ source code, which itself is written as a -literate program using ``The \.{WEB} System of Structured -Documentation''\cite{Knuth:WEB}. The tiny, but significant, -difference between \.{WEB}\index{WEB+{\tt WEB}} -and \.{CWEB}\index{CWEB+{\tt CWEB}} is the transition from -\Pascal\ to \CEE/ as target language. To bridge the gap between -\.{WEB} and \.{CWEB}, Hi\TeX\ is not based on the original \.{WEB} -implementation of \TeX\ but on the \.{CWEB} implementation of \TeX\ -as described in~\cite{MR:webtocweb} and~\cite{MR:web2w}. -Further, it does not use the plain {\tt ctex.w} translation of {\tt tex.web} -but the {\tt ktex.w} file which extends \TeX\ with - the features of $\epsilon$-\TeX, the file searching -mechanisms of the {\tt kpathsearch} library, and the command line -conventions of \TeX\ Live. - -To accomplish modifications of a \.{CWEB} file, the \.{CWEB} tools -support the use of ``change files''. These change files are lists of -code changes optionally embellished with explanatory text. Each code -change consists of two parts: a literal copy of the original source -code followed by the replacement text. When a \.{CWEB} tool applies -such a change file to a cweb file, it will read both files -sequentially and applies the code changes in the order given: Whenever -it finds a section in the \.{CWEB} file that matches the first part of -the current code change, it will replace it by the second part of the -code change, and advance to the next code change. - -The present book makes an attempt to present these code changes in -``literate programming style'' and had to overcome two obstacles: -First, in a literate program, the exposition determines the order of -appearance of the code sections; and second, the tools that generate -the documentation from a \.{CWEB} file are not able to generate -documentation for a change file. - -The first problem can be solved by using the program {\tt -tie}\cite{kg:tie}\cite{jg:ctie}. It allows splitting a single change -file into multiple change files, and while within each change file, -the order of changes is still determined by the original cweb file, -changes that belong together can be grouped into separate files. - -The second problem is solved by a simple preprocessor, that converts -change files into cweb files which then can be converted into -\TeX. With the help of some modifications of the macros in {\tt -cwebmac.tex} these \TeX\ files are used to present change files in -this book. - -Let's look at an examples to explain and illustrate the presentation -of code changes in this book: the {\tt display\_node.ch} change file. - -\subsection{The Function |display_node|} -It is the purpose of the {\tt display\_node.ch} change file to make -the \TeX\ code contained in the section ``\<Display node |p|>'' -available to other parts of Hi\TeX\ as a function. -The function is then used to display debugging output. - -This requires the following changes: - -\changestyle{displaynode.tex} - -As you can see, the two parts of a code change are enclosed in square brackets -where the opening top bracket is labeled {\it old\/} or {\it new\/}. -While a full understanding of these code changes requires a look at the original \TeX\ code, -at least they document what was done and why. - -There is still one thing missing before we can use the |display_node| -function in the {\tt hitex.c} file we are about to generate: -we need an |extern| declaration of |display_node|. -In fact, the Hi\TeX\ program contains a whole bunch of functions -that will need access to \TeX's internals and the most readable -and convenient way to gain this access is a header file. - -Generating such a header file can be accomplished by using the {\tt -h} -and {\tt -e} options of the {\tt web2w} program when converting the {\tt WEB} -source of \TeX\ to its {\tt cweb} source. We just need to modify the -process slightly for our purposes. +@ There's also a |fast_get_avail| routine, which saves the procedure-call +overhead at the expense of extra programming. This routine is used in +the places that would otherwise account for the most calls of |get_avail|. +@^inner loop@> -{ -\changestyle{types.tex} +@d fast_get_avail(A) @t@>@;@/ + {@+A=avail; /*avoid |get_avail| if possible, to save time*/ + if (A==null) A=get_avail(); + else{@+avail=link(A);link(A)=null; + incr_dyn_used; + } + } + +@ The procedure |flush_list(p)| frees an entire linked list of +one-word nodes that starts at position |p|. +@^inner loop@> + +@p static void flush_list(pointer @!p) /*makes list of single-word nodes + available*/ +{@+pointer @!q, @!r; /*list traversers*/ +if (p!=null) + {@+r=p; + @/do@+{q=r;r=link(r); +#ifdef @!STAT +decr(dyn_used); +#endif + }@+ while (!(r==null)); /*now |q| is the last node on the list*/ + link(q)=avail;avail=p; + } } +@ The available-space list that keeps track of the variable-size portion +of |mem| is a nonempty, doubly-linked circular list of empty nodes, +pointed to by the roving pointer |rover|. + +Each empty node has size 2 or more; the first word contains the special +value |max_halfword| in its |link| field and the size in its |info| field; +the second word contains the two pointers for double linking. + +Each nonempty node also has size 2 or more. Its first word is of type +|two_halves|\kern-1pt, and its |link| field is never equal to |max_halfword|. +Otherwise there is complete flexibility with respect to the contents +of its other fields and its other words. + +(We require |mem_max < max_halfword| because terrible things can happen +when |max_halfword| appears in the |link| field of a nonempty node.) + +@d empty_flag max_halfword /*the |link| of an empty variable-size node*/ +@d is_empty(A) (link(A)==empty_flag) /*tests for empty node*/ +@d node_size(A) info(A) /*the size field in empty variable-size nodes*/ +@d llink(A) info(A+1) /*left link in doubly-linked list of empty nodes*/ +@d rlink(A) link(A+1) /*right link in doubly-linked list of empty nodes*/ + +@<Glob...@>= +static pointer @!rover; /*points to some node in the list of empties*/ + +@ A call to |get_node| with argument |s| returns a pointer to a new node +of size~|s|, which must be 2~or more. The |link| field of the first word +of this new node is set to null. An overflow stop occurs if no suitable +space exists. + +If |get_node| is called with $s=2^{30}$, it simply merges adjacent free +areas and returns the value |max_halfword|. + +@p static pointer get_node(int @!s) /*variable-size node allocation*/ +{@+ +pointer p; /*the node currently under inspection*/ +pointer @!q; /*the node physically after node |p|*/ +int @!r; /*the newly allocated node, or a candidate for this honor*/ +int @!t; /*temporary register*/ +restart: p=rover; /*start at some free node in the ring*/ +@/do@+{@<Try to allocate within node |p| and its physical successors, and |goto found| +if allocation was possible@>; +@^inner loop@> +p=rlink(p); /*move to the next node in the ring*/ +}@+ while (!(p==rover)); /*repeat until the whole list has been traversed*/ +if (s==010000000000) + {@+return max_halfword; + } +if (lo_mem_max+2 < hi_mem_min) if (lo_mem_max+2 <= mem_bot+max_halfword) + @<Grow more variable-size memory and |goto restart|@>; +overflow("main memory size", mem_max+1-mem_min); + /*sorry, nothing satisfactory is left*/ +@:TeX capacity exceeded main memory size}{\quad main memory size@> +found: link(r)=null; /*this node is now nonempty*/ +#ifdef @!STAT +var_used=var_used+s; /*maintain usage statistics*/ +#endif +@;@/ +return r; +} -\section{Modifying \TeX}\label{modifyingTeX} -In this section, we explain the different change files that modify \TeX. -Larger changes are accomplished by replacing entire functions. +@ The lower part of |mem| grows by 1000 words at a time, unless +we are very close to going under. When it grows, we simply link +a new node into the available-space list. This method of controlled +growth helps to keep the |mem| usage consecutive when \TeX\ is +implemented on ``virtual memory'' systems. +@^virtual memory@> + +@<Grow more variable-size memory and |goto restart|@>= +{@+if (hi_mem_min-lo_mem_max >= 1998) t=lo_mem_max+1000; +else t=lo_mem_max+1+(hi_mem_min-lo_mem_max)/2; + /*|lo_mem_max+2 <= t < hi_mem_min|*/ +p=llink(rover);q=lo_mem_max;rlink(p)=q;llink(rover)=q;@/ +if (t > mem_bot+max_halfword) t=mem_bot+max_halfword; +rlink(q)=rover;llink(q)=p;link(q)=empty_flag;node_size(q)=t-lo_mem_max;@/ +lo_mem_max=t;link(lo_mem_max)=null;info(lo_mem_max)=null; +rover=q;goto restart; +} -\subsection{The |banner|} -Now that we are about to change the behaviour of \TeX\ significantly, -we have to give the program a new banner. +@ Empirical tests show that the routine in this section performs a +node-merging operation about 0.75 times per allocation, on the average, +after which it finds that |r > p+1| about 95\pct! of the time. + +@<Try to allocate...@>= +q=p+node_size(p); /*find the physical successor*/ +@^inner loop@> +while (is_empty(q)) /*merge node |p| with node |q|*/ + {@+t=rlink(q); + if (q==rover) rover=t; + llink(t)=llink(q);rlink(llink(q))=t;@/ + q=q+node_size(q); + } +r=q-s; +if (r > p+1) @<Allocate from the top of node |p| and |goto found|@>; +if (r==p) if (rlink(p)!=p) + @<Allocate entire node |p| and |goto found|@>; +node_size(p)=q-p /*reset the size in case it grew*/ + +@ @<Allocate from the top...@>= +{@+node_size(p)=r-p; /*store the remaining size*/ +@^inner loop@> +rover=p; /*start searching here next time*/ +goto found; +} -{ -\changestyle{banner.tex} +@ Here we delete node |p| from the ring, and let |rover| rove around. + +@<Allocate entire...@>= +{@+rover=rlink(p);t=llink(p); +llink(rover)=t;rlink(t)=rover; +goto found; } -\subsection{The |main| Program} -We add two function calls to \TeX's |main| program: -|hint_open|, and |hint_close|. +@ Conversely, when some variable-size node |p| of size |s| is no longer needed, +the operation |free_node(p, s)| will make its words available, by inserting +|p| as a new empty node just before where |rover| now points. +@^inner loop@> + +@p static void free_node(pointer @!p, halfword @!s) /*variable-size node + liberation*/ +{@+pointer q; /*|llink(rover)|*/ +node_size(p)=s;link(p)=empty_flag; +q=llink(rover);llink(p)=q;rlink(p)=rover; /*set both links*/ +llink(rover)=p;rlink(q)=p; /*insert |p| into the ring*/ +#ifdef @!STAT +var_used=var_used-s; +#endif +@; /*maintain statistics*/ +} -{ -\changestyle{main.tex} +@ Just before \.{INITEX} writes out the memory, it sorts the doubly linked +available space list. The list is probably very short at such times, so a +simple insertion sort is used. The smallest available location will be +pointed to by |rover|, the next-smallest by |rlink(rover)|, etc. + +@p +#ifdef @!INIT +static void sort_avail(void) /*sorts the available variable-size nodes + by location*/ +{@+pointer p, @!q, @!r; /*indices into |mem|*/ +pointer @!old_rover; /*initial |rover| setting*/ +p=get_node(010000000000); /*merge adjacent free areas*/ +p=rlink(rover);rlink(rover)=max_halfword;old_rover=rover; +while (p!=old_rover) @<Sort \(p)|p| into the list starting at |rover| and advance +|p| to |rlink(p)|@>; +p=rover; +while (rlink(p)!=max_halfword) + {@+llink(rlink(p))=p;p=rlink(p); + } +rlink(p)=rover;llink(rover)=p; } -The functions to open and close the \HINT\ file follow in -section~\secref{output}. +#endif +@ The following |while | loop is guaranteed to +terminate, since the list that starts at +|rover| ends with |max_halfword| during the sorting procedure. -\subsection{The Command Line} -Hi\TeX\ has a few additional command line options that we define next. +@<Sort \(p)|p|...@>= +if (p < rover) + {@+q=p;p=rlink(q);rlink(q)=rover;rover=q; + } +else{@+q=rover; + while (rlink(q) < p) q=rlink(q); + r=rlink(p);rlink(p)=rlink(q);rlink(q)=p;p=r; + } -{ -\changestyle{command_line.tex} +@* Data structures for boxes and their friends. +From the computer's standpoint, \TeX's chief mission is to create +horizontal and vertical lists. We shall now investigate how the elements +of these lists are represented internally as nodes in the dynamic memory. + +A horizontal or vertical list is linked together by |link| fields in +the first word of each node. Individual nodes represent boxes, glue, +penalties, or special things like discretionary hyphens; because of this +variety, some nodes are longer than others, and we must distinguish different +kinds of nodes. We do this by putting a `|type|' field in the first word, +together with the link and an optional `|subtype|'. + +@d type(A) mem[A].hh.b0 /*identifies what kind of node this is*/ +@d subtype(A) mem[A].hh.b1 /*secondary identification in some cases*/ + +@ A |@!char_node|, which represents a single character, is the most important +kind of node because it accounts for the vast majority of all boxes. +Special precautions are therefore taken to ensure that a |char_node| does +not take up much memory space. Every such node is one word long, and in fact +it is identifiable by this property, since other kinds of nodes have at least +two words, and they appear in |mem| locations less than |hi_mem_min|. +This makes it possible to omit the |type| field in a |char_node|, leaving +us room for two bytes that identify a |font| and a |character| within +that font. + +Note that the format of a |char_node| allows for up to 256 different +fonts and up to 256 characters per font; but most implementations will +probably limit the total number of fonts to fewer than 75 per job, +and most fonts will stick to characters whose codes are +less than 128 (since higher codes +are more difficult to access on most keyboards). + +Extensions of \TeX\ intended for oriental languages will need even more +than $256\times256$ possible characters, when we consider different sizes +@^oriental characters@>@^Chinese characters@>@^Japanese characters@> +and styles of type. It is suggested that Chinese and Japanese fonts be +handled by representing such characters in two consecutive |char_node| +entries: The first of these has |font==font_base|, and its |link| points +to the second; +the second identifies the font and the character dimensions. +The saving feature about oriental characters is that most of them have +the same box dimensions. The |character| field of the first |char_node| +is a ``\\{charext}'' that distinguishes between graphic symbols whose +dimensions are identical for typesetting purposes. (See the \MF\ manual.) +Such an extension of \TeX\ would not be difficult; further details are +left to the reader. + +In order to make sure that the |character| code fits in a quarterword, +\TeX\ adds the quantity |min_quarterword| to the actual code. + +Character nodes appear only in horizontal lists, never in vertical lists. + +@d is_char_node(A) (A >= hi_mem_min) + /*does the argument point to a |char_node|?*/ +@d font(A) type(A) /*the font code in a |char_node|*/ +@d character(A) subtype(A) /*the character code in a |char_node|*/ + +@ An |hlist_node| stands for a box that was made from a horizontal list. +Each |hlist_node| is seven words long, and contains the following fields +(in addition to the mandatory |type| and |link|, which we shall not +mention explicitly when discussing the other node types): The |height| and +|width| and |depth| are scaled integers denoting the dimensions of the +box. There is also a |shift_amount| field, a scaled integer indicating +how much this box should be lowered (if it appears in a horizontal list), +or how much it should be moved to the right (if it appears in a vertical +list). There is a |list_ptr| field, which points to the beginning of the +list from which this box was fabricated; if |list_ptr| is |null|, the box +is empty. Finally, there are three fields that represent the setting of +the glue: |glue_set(p)| is a word of type |glue_ratio| that represents +the proportionality constant for glue setting; |glue_sign(p)| is +|stretching| or |shrinking| or |normal| depending on whether or not the +glue should stretch or shrink or remain rigid; and |glue_order(p)| +specifies the order of infinity to which glue setting applies (|normal|, +|fil|, |fill|, or |filll|). The |subtype| field is not used. + +@d hlist_node 0 /*|type| of hlist nodes*/ +@d box_node_size 9 /*number of words to allocate for a box, set, or pack node*/ +@d width_offset 1 /*position of |width| field in a box node*/ +@d depth_offset 2 /*position of |depth| field in a box node*/ +@d height_offset 3 /*position of |height| field in a box node*/ +@d width(A) mem[A+width_offset].sc /*width of the box, in sp*/ +@d depth(A) mem[A+depth_offset].sc /*depth of the box, in sp*/ +@d height(A) mem[A+height_offset].sc /*height of the box, in sp*/ +@d shift_amount(A) mem[A+4].sc /*repositioning distance, in sp*/ +@d list_offset 5 /*position of |list_ptr| field in a box node*/ +@d list_ptr(A) link(A+list_offset) /*beginning of the list inside the box*/ +@d glue_order(A) subtype(A+list_offset) /*applicable order of infinity*/ +@d glue_sign(A) type(A+list_offset) /*stretching or shrinking*/ +@d normal 0 /*the most common case when several cases are named*/ +@d stretching 1 /*glue setting applies to the stretch components*/ +@d shrinking 2 /*glue setting applies to the shrink components*/ +@d glue_offset 6 /*position of |glue_set| in a box node*/ +@d glue_set(A) mem[A+glue_offset].gr + /*a word of type |glue_ratio| for glue setting*/ + +@ The |new_null_box| function returns a pointer to an |hlist_node| in +which all subfields have the values corresponding to `\.{\\hbox\{\}}'. +(The |subtype| field is set to |min_quarterword|, for historic reasons +that are no longer relevant.) + +@p static pointer new_null_box(void) /*creates a new box node*/ +{@+pointer p; /*the new node*/ +p=get_node(box_node_size);type(p)=hlist_node; +subtype(p)=min_quarterword; +width(p)=0;depth(p)=0;height(p)=0;shift_amount(p)=0;list_ptr(p)=null; +glue_sign(p)=normal;glue_order(p)=normal;set_glue_ratio_zero(glue_set(p)); +return p; } -Above we used the function |hint_debug_help|. It is defined as: +@ A |vlist_node| is like an |hlist_node| in all respects except that it +contains a vertical list. + +@d vlist_node 1 /*|type| of vlist nodes*/ + +@ A |rule_node| stands for a solid black rectangle; it has |width|, +|depth|, and |height| fields just as in an |hlist_node|. However, if +any of these dimensions is $-2^{30}$, the actual value will be determined +by running the rule up to the boundary of the innermost enclosing box. +This is called a ``running dimension.'' The |width| is never running in +an hlist; the |height| and |depth| are never running in a~vlist. + +@d rule_node 2 /*|type| of rule nodes*/ +@d rule_node_size 4 /*number of words to allocate for a rule node*/ +@d null_flag -010000000000 /*$-2^{30}$, signifies a missing item*/ +@d is_running(A) (A==null_flag) /*tests for a running dimension*/ + +@ A new rule node is delivered by the |new_rule| function. It +makes all the dimensions ``running,'' so you have to change the +ones that are not allowed to run. + +@p static pointer new_rule(void) +{@+pointer p; /*the new node*/ +p=get_node(rule_node_size);type(p)=rule_node; +subtype(p)=0; /*the |subtype| is not used*/ +width(p)=null_flag;depth(p)=null_flag;height(p)=null_flag; +return p; +} -@<Hi\TeX\ routines@>= -#ifdef DEBUG -void hint_debug_help(void) -{ -fprintf(stderr,@/ - "To generate HINT format debug output use the option\n" - " -debug=XX "@/ -@t\qquad@>"\t XX is a hexadecimal value. OR together these values:\n");@/ -fprintf(stderr,"\t\t\t XX=%04X \t basic debugging\n", DBGBASIC);@/ -fprintf(stderr,"\t\t\t XX=%04X \t tag debugging\n", DBGTAGS);@/ -fprintf(stderr,"\t\t\t XX=%04X \t node debugging\n",DBGNODE);@/ -fprintf(stderr,"\t\t\t XX=%04X \t definition debugging\n", DBGDEF);@/ -fprintf(stderr,"\t\t\t XX=%04X \t directory debugging\n", DBGDIR);@/ -fprintf(stderr,"\t\t\t XX=%04X \t range debugging\n",DBGRANGE);@/ -fprintf(stderr,"\t\t\t XX=%04X \t float debugging\n", DBGFLOAT);@/ -fprintf(stderr,"\t\t\t XX=%04X \t compression debugging\n", DBGCOMPRESS);@/ -fprintf(stderr,"\t\t\t XX=%04X \t buffer debugging\n", DBGBUFFER);@/ -fprintf(stderr,"\t\t\t XX=%04X \t TeX debugging\n", DBGTEX);@/ -fprintf(stderr,"\t\t\t XX=%04X \t page debugging\n", DBGPAGE);@/ -fprintf(stderr,"\t\t\t XX=%04X \t font debugging\n", DBGFONT);@/ -exit(0); +@ Insertions are represented by |ins_node| records, where the |subtype| +indicates the corresponding box number. For example, `\.{\\insert 250}' +leads to an |ins_node| whose |subtype| is |250+min_quarterword|. +The |height| field of an |ins_node| is slightly misnamed; it actually holds +the natural height plus depth of the vertical list being inserted. +The |depth| field holds the |split_max_depth| to be used in case this +insertion is split, and the |split_top_ptr| points to the corresponding +|split_top_skip|. The |float_cost| field holds the |floating_penalty| that +will be used if this insertion floats to a subsequent page after a +split insertion of the same class. There is one more field, the +|ins_ptr|, which points to the beginning of the vlist for the insertion. + +@d ins_node 3 /*|type| of insertion nodes*/ +@d ins_node_size 5 /*number of words to allocate for an insertion*/ +@d float_cost(A) mem[A+1].i /*the |floating_penalty| to be used*/ +@d ins_ptr(A) info(A+4) /*the vertical list to be inserted*/ +@d split_top_ptr(A) link(A+4) /*the |split_top_skip| to be used*/ + +@ A |mark_node| has a |mark_ptr| field that points to the reference count +of a token list that contains the user's \.{\\mark} text. +This field occupies a full word instead of a halfword, because +there's nothing to put in the other halfword; it is easier in \PASCAL\ to +use the full word than to risk leaving garbage in the unused half. + +@d mark_node 4 /*|type| of a mark node*/ +@d small_node_size 2 /*number of words to allocate for most node types*/ +@d mark_ptr(A) mem[A+1].i /*head of the token list for a mark*/ + +@ An |adjust_node|, which occurs only in horizontal lists, +specifies material that will be moved out into the surrounding +vertical list; i.e., it is used to implement \TeX's `\.{\\vadjust}' +operation. The |adjust_ptr| field points to the vlist containing this +material. + +@d adjust_node 5 /*|type| of an adjust node*/ +@d adjust_ptr(A) mark_ptr(A) /*vertical list to be moved out of horizontal list*/ + +@ A |ligature_node|, which occurs only in horizontal lists, specifies +a character that was fabricated from the interaction of two or more +actual characters. The second word of the node, which is called the +|lig_char| word, contains |font| and |character| fields just as in a +|char_node|. The characters that generated the ligature have not been +forgotten, since they are needed for diagnostic messages and for +hyphenation; the |lig_ptr| field points to a linked list of character +nodes for all original characters that have been deleted. (This list +might be empty if the characters that generated the ligature were +retained in other nodes.) + +The |subtype| field is 0, plus 2 and/or 1 if the original source of the +ligature included implicit left and/or right boundaries. + +@d ligature_node 6 /*|type| of a ligature node*/ +@d lig_char(A) A+1 /*the word where the ligature is to be found*/ +@d lig_ptr(A) link(lig_char(A)) /*the list of characters*/ + +@ The |new_ligature| function creates a ligature node having given +contents of the |font|, |character|, and |lig_ptr| fields. We also have +a |new_lig_item| function, which returns a two-word node having a given +|character| field. Such nodes are used for temporary processing as ligatures +are being created. + +@p static pointer new_ligature(quarterword @!f, quarterword @!c, pointer @!q) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=ligature_node; +font(lig_char(p))=f;character(lig_char(p))=c;lig_ptr(p)=q; +subtype(p)=0;return p; +} +@# +static pointer new_lig_item(quarterword @!c) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);character(p)=c;lig_ptr(p)=null; +return p; } + +@ A |disc_node|, which occurs only in horizontal lists, specifies a +``dis\-cretion\-ary'' line break. If such a break occurs at node |p|, the text +that starts at |pre_break(p)| will precede the break, the text that starts at +|post_break(p)| will follow the break, and text that appears in the next +|replace_count(p)| nodes will be ignored. For example, an ordinary +discretionary hyphen, indicated by `\.{\\-}', yields a |disc_node| with +|pre_break| pointing to a |char_node| containing a hyphen, |post_break==null|, +and |replace_count==0|. All three of the discretionary texts must be +lists that consist entirely of character, kern, box, rule, and ligature nodes. + +If |pre_break(p)==null|, the |ex_hyphen_penalty| will be charged for this +break. Otherwise the |hyphen_penalty| will be charged. The texts will +actually be substituted into the list by the line-breaking algorithm if it +decides to make the break, and the discretionary node will disappear at +that time; thus, the output routine sees only discretionaries that were +not chosen. + +@d disc_node 7 /*|type| of a discretionary node*/ +@d replace_count(A) (subtype(A)&0x7F) /*how many subsequent nodes to replace*/ +@d set_replace_count(A,B) (subtype(A)=(B)&0x7F) +@d set_auto_disc(A) (subtype(A)|=0x80) +@d is_auto_disc(A) (subtype(A)&0x80) +@d pre_break(A) llink(A) /*text that precedes a discretionary break*/ +@d post_break(A) rlink(A) /*text that follows a discretionary break*/ + +@p static pointer new_disc(void) /*creates an empty |disc_node|*/ +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=disc_node; +set_replace_count(p,0);pre_break(p)=null;post_break(p)=null; +return p; +} + +@ A |whatsit_node| is a wild card reserved for extensions to \TeX. The +|subtype| field in its first word says what `\\{whatsit}' it is, and +implicitly determines the node size (which must be 2 or more) and the +format of the remaining words. When a |whatsit_node| is encountered +in a list, special actions are invoked; knowledgeable people who are +careful not to mess up the rest of \TeX\ are able to make \TeX\ do new +things by adding code at the end of the program. For example, there +might be a `\TeX nicolor' extension to specify different colors of ink, +@^extensions to \TeX@> +and the whatsit node might contain the desired parameters. + +The present implementation of \TeX\ treats the features associated with +`\.{\\write}' and `\.{\\special}' as if they were extensions, in order to +illustrate how such routines might be coded. We shall defer further +discussion of extensions until the end of this program. + +@d whatsit_node 8 /*|type| of special extension nodes*/ + +@ A |math_node|, which occurs only in horizontal lists, appears before and +after mathematical formulas. The |subtype| field is |before| before the +formula and |after| after it. There is a |width| field, which represents +the amount of surrounding space inserted by \.{\\mathsurround}. + +@d math_node 9 /*|type| of a math node*/ +@d before 0 /*|subtype| for math node that introduces a formula*/ +@d after 1 /*|subtype| for math node that winds up a formula*/ + +@p static pointer new_math(scaled @!w, small_number @!s) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=math_node; +subtype(p)=s;width(p)=w;return p; +} + +@ \TeX\ makes use of the fact that |hlist_node|, |vlist_node|, +|rule_node|, |ins_node|, |mark_node|, |adjust_node|, |ligature_node|, +|disc_node|, |whatsit_node|, and |math_node| are at the low end of the +type codes, by permitting a break at glue in a list if and only if the +|type| of the previous node is less than |math_node|. Furthermore, a +node is discarded after a break if its type is |math_node| or~more. + +@d precedes_break(A) (type(A) < math_node) +@d non_discardable(A) (type(A) < math_node) + +@ A |glue_node| represents glue in a list. However, it is really only +a pointer to a separate glue specification, since \TeX\ makes use of the +fact that many essentially identical nodes of glue are usually present. +If |p| points to a |glue_node|, |glue_ptr(p)| points to +another packet of words that specify the stretch and shrink components, etc. + +Glue nodes also serve to represent leaders; the |subtype| is used to +distinguish between ordinary glue (which is called |normal|) and the three +kinds of leaders (which are called |a_leaders|, |c_leaders|, and |x_leaders|). +The |leader_ptr| field points to a rule node or to a box node containing the +leaders; it is set to |null| in ordinary glue nodes. + +Many kinds of glue are computed from \TeX's ``skip'' parameters, and +it is helpful to know which parameter has led to a particular glue node. +Therefore the |subtype| is set to indicate the source of glue, whenever +it originated as a parameter. We will be defining symbolic names for the +parameter numbers later (e.g., |line_skip_code==0|, |baseline_skip_code==1|, +etc.); it suffices for now to say that the |subtype| of parametric glue +will be the same as the parameter number, plus~one. + +In math formulas there are two more possibilities for the |subtype| in a +glue node: |mu_glue| denotes an \.{\\mskip} (where the units are scaled \.{mu} +instead of scaled \.{pt}); and |cond_math_glue| denotes the `\.{\\nonscript}' +feature that cancels the glue node immediately following if it appears +in a subscript. + +@d glue_node 10 /*|type| of node that points to a glue specification*/ +@d cond_math_glue 98 /*special |subtype| to suppress glue in the next node*/ +@d mu_glue 99 /*|subtype| for math glue*/ +@d a_leaders 100 /*|subtype| for aligned leaders*/ +@d c_leaders 101 /*|subtype| for centered leaders*/ +@d x_leaders 102 /*|subtype| for expanded leaders*/ +@d glue_ptr(A) llink(A) /*pointer to a glue specification*/ +@d leader_ptr(A) rlink(A) /*pointer to box or rule node for leaders*/ + +@ A glue specification has a halfword reference count in its first word, +@^reference counts@> +representing |null| plus the number of glue nodes that point to it (less one). +Note that the reference count appears in the same position as +the |link| field in list nodes; this is the field that is initialized +to |null| when a node is allocated, and it is also the field that is flagged +by |empty_flag| in empty nodes. + +Glue specifications also contain three |scaled| fields, for the |width|, +|stretch|, and |shrink| dimensions. Finally, there are two one-byte +fields called |stretch_order| and |shrink_order|; these contain the +orders of infinity (|normal|, |fil|, |fill|, or |filll|) +corresponding to the stretch and shrink values. + +@d glue_spec_size 4 /*number of words to allocate for a glue specification*/ +@d glue_ref_count(A) link(A) /*reference count of a glue specification*/ +@d stretch(A) mem[A+2].sc /*the stretchability of this glob of glue*/ +@d shrink(A) mem[A+3].sc /*the shrinkability of this glob of glue*/ +@d stretch_order(A) type(A) /*order of infinity for stretching*/ +@d shrink_order(A) subtype(A) /*order of infinity for shrinking*/ +@d fil 1 /*first-order infinity*/ +@d fill 2 /*second-order infinity*/ +@d filll 3 /*third-order infinity*/ + +@<Types...@>= +typedef int8_t glue_ord; /*infinity to the 0, 1, 2, or 3 power*/ + +@ Here is a function that returns a pointer to a copy of a glue spec. +The reference count in the copy is |null|, because there is assumed +to be exactly one reference to the new specification. + +@p static pointer new_spec(pointer @!p) /*duplicates a glue specification*/ +{@+pointer q; /*the new spec*/ +q=get_node(glue_spec_size);@/ +mem[q]=mem[p];glue_ref_count(q)=null;@/ +width(q)=width(p);stretch(q)=stretch(p);shrink(q)=shrink(p); +return q; +} + +@ And here's a function that creates a glue node for a given parameter +identified by its code number; for example, +|new_param_glue(line_skip_code)| returns a pointer to a glue node for the +current \.{\\lineskip}. + +@p static pointer new_param_glue(small_number @!n) +{@+pointer p; /*the new node*/ +pointer @!q; /*the glue specification*/ +p=get_node(small_node_size);type(p)=glue_node;subtype(p)=n+1; +leader_ptr(p)=null;@/ +q=@<Current |mem| equivalent of glue parameter number |n|@>@t@>; +glue_ptr(p)=q;incr(glue_ref_count(q)); +return p; +} + +@ Glue nodes that are more or less anonymous are created by |new_glue|, +whose argument points to a glue specification. + +@p static pointer new_glue(pointer @!q) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=glue_node;subtype(p)=normal; +leader_ptr(p)=null;glue_ptr(p)=q;incr(glue_ref_count(q)); +return p; +} + +@ Still another subroutine is needed: This one is sort of a combination +of |new_param_glue| and |new_glue|. It creates a glue node for one of +the current glue parameters, but it makes a fresh copy of the glue +specification, since that specification will probably be subject to change, +while the parameter will stay put. The global variable |temp_ptr| is +set to the address of the new spec. + +@p static pointer new_skip_param(small_number @!n) +{@+pointer p; /*the new node*/ +temp_ptr=new_spec(@<Current |mem| equivalent of glue parameter...@>); +p=new_glue(temp_ptr);glue_ref_count(temp_ptr)=null;subtype(p)=n+1; +return p; +} + +@ A |kern_node| has a |width| field to specify a (normally negative) +amount of spacing. This spacing correction appears in horizontal lists +between letters like A and V when the font designer said that it looks +better to move them closer together or further apart. A kern node can +also appear in a vertical list, when its `|width|' denotes additional +spacing in the vertical direction. The |subtype| is either |normal| (for +kerns inserted from font information or math mode calculations) or |explicit| +(for kerns inserted from \.{\\kern} and \.{\\/} commands) or |acc_kern| +(for kerns inserted from non-math accents) or |mu_glue| (for kerns +inserted from \.{\\mkern} specifications in math formulas). + +@d kern_node 11 /*|type| of a kern node*/ +@d explicit 1 /*|subtype| of kern nodes from \.{\\kern} and \.{\\/}*/ +@d acc_kern 2 /*|subtype| of kern nodes from accents*/ + +@ The |new_kern| function creates a kern node having a given width. + +@p static pointer new_kern(scaled @!w) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=kern_node; +subtype(p)=normal; +width(p)=w; +return p; +} + +@ A |penalty_node| specifies the penalty associated with line or page +breaking, in its |penalty| field. This field is a fullword integer, but +the full range of integer values is not used: Any penalty | >= 10000| is +treated as infinity, and no break will be allowed for such high values. +Similarly, any penalty | <= -10000| is treated as negative infinity, and a +break will be forced. + +@d penalty_node 12 /*|type| of a penalty node*/ +@d inf_penalty inf_bad /*``infinite'' penalty value*/ +@d eject_penalty (-inf_penalty) /*``negatively infinite'' penalty value*/ +@d penalty(A) mem[A+1].i /*the added cost of breaking a list here*/ + +@ Anyone who has been reading the last few sections of the program will +be able to guess what comes next. + +@p static pointer new_penalty(int @!m) +{@+pointer p; /*the new node*/ +p=get_node(small_node_size);type(p)=penalty_node; +subtype(p)=0; /*the |subtype| is not used*/ +penalty(p)=m;return p; +} + +@ You might think that we have introduced enough node types by now. Well, +almost, but there is one more: An |unset_node| has nearly the same format +as an |hlist_node| or |vlist_node|; it is used for entries in \.{\\halign} +or \.{\\valign} that are not yet in their final form, since the box +dimensions are their ``natural'' sizes before any glue adjustment has been +made. The |glue_set| word is not present; instead, we have a |glue_stretch| +field, which contains the total stretch of order |glue_order| that is +present in the hlist or vlist being boxed. +Similarly, the |shift_amount| field is replaced by a |glue_shrink| field, +containing the total shrink of order |glue_sign| that is present. +The |subtype| field is called |span_count|; an unset box typically +contains the data for |qo(span_count)+1| columns. +Unset nodes will be changed to box nodes when alignment is completed. + +@d unset_node 13 /*|type| for an unset node*/ +@d unset_set_node 32 /*|type| for an unset |set_node|*/ +@d unset_pack_node 33 /*|type| for an unset |pack_node|*/ +@d glue_stretch(A) mem[A+glue_offset].sc /*total stretch in an unset node*/ +@d glue_shrink(A) shift_amount(A) /*total shrink in an unset node*/ +@d span_count(A) subtype(A) /*indicates the number of spanned columns*/ + +@ In fact, there are still more types coming. When we get to math formula +processing we will see that a |style_node| has |type==14|; and a number +of larger type codes will also be defined, for use in math mode only. + +@ Warning: If any changes are made to these data structure layouts, such as +changing any of the node sizes or even reordering the words of nodes, +the |copy_node_list| procedure and the memory initialization code +below may have to be changed. Such potentially dangerous parts of the +program are listed in the index under `data structure assumptions'. +@!@^data structure assumptions@> +However, other references to the nodes are made symbolically in terms of +the \.{WEB} macro definitions above, so that format changes will leave +\TeX's other algorithms intact. +@^system dependencies@> + +@* Memory layout. +Some areas of |mem| are dedicated to fixed usage, since static allocation is +more efficient than dynamic allocation when we can get away with it. For +example, locations |mem_bot| to |mem_bot+3| are always used to store the +specification for glue that is `\.{0pt plus 0pt minus 0pt}'. The +following macro definitions accomplish the static allocation by giving +symbolic names to the fixed positions. Static variable-size nodes appear +in locations |mem_bot| through |lo_mem_stat_max|, and static single-word nodes +appear in locations |hi_mem_stat_min| through |mem_top|, inclusive. It is +harmless to let |lig_trick| and |garbage| share the same location of |mem|. + +@d zero_glue mem_bot /*specification for \.{0pt plus 0pt minus 0pt}*/ +@d fil_glue zero_glue+glue_spec_size /*\.{0pt plus 1fil minus 0pt}*/ +@d fill_glue fil_glue+glue_spec_size /*\.{0pt plus 1fill minus 0pt}*/ +@d ss_glue fill_glue+glue_spec_size /*\.{0pt plus 1fil minus 1fil}*/ +@d fil_neg_glue ss_glue+glue_spec_size /*\.{0pt plus -1fil minus 0pt}*/ +@d lo_mem_stat_max fil_neg_glue+glue_spec_size-1 /*largest statically + allocated word in the variable-size |mem|*/ +@# +@d page_ins_head mem_top /*list of insertion data for current page*/ +@d contrib_head mem_top-1 /*vlist of items not yet on current page*/ +@d page_head mem_top-2 /*vlist for current page*/ +@d temp_head mem_top-3 /*head of a temporary list of some kind*/ +@d hold_head mem_top-4 /*head of a temporary list of another kind*/ +@d adjust_head mem_top-5 /*head of adjustment list returned by |hpack|*/ +@d active mem_top-7 /*head of active list in |line_break|, needs two words*/ +@d align_head mem_top-8 /*head of preamble list for alignments*/ +@d end_span mem_top-9 /*tail of spanned-width lists*/ +@d omit_template mem_top-10 /*a constant token list*/ +@d null_list mem_top-11 /*permanently empty list*/ +@d lig_trick mem_top-12 /*a ligature masquerading as a |char_node|*/ +@d garbage mem_top-12 /*used for scrap information*/ +@d backup_head mem_top-13 /*head of token list built by |scan_keyword|*/ +@d setpage_head mem_top-14 /*head of page template list build by |new_setpage_node|*/ +@d max_page type(setpage_head) /* maximum page template number */ +@d max_stream subtype(setpage_head) /* maximum stream number */ +@d hi_mem_stat_min mem_top-14 /*smallest statically allocated word in + the one-word |mem|*/ +@d hi_mem_stat_usage 15 /*the number of one-word nodes always present*/ + +@ The following code gets |mem| off to a good start, when \TeX\ is +initializing itself the slow~way. + +@<Local variables for init...@>= +int @!k; /*index into |mem|, |eqtb|, etc.*/ + +@ @<Initialize table entries...@>= +for (k=mem_bot+1; k<=lo_mem_stat_max; k++) mem[k].sc=0; + /*all glue dimensions are zeroed*/ +@^data structure assumptions@> +k=mem_bot;@+while (k <= lo_mem_stat_max) + /*set first words of glue specifications*/ + {@+glue_ref_count(k)=null+1; + stretch_order(k)=normal;shrink_order(k)=normal; + k=k+glue_spec_size; + } +stretch(fil_glue)=unity;stretch_order(fil_glue)=fil;@/ +stretch(fill_glue)=unity;stretch_order(fill_glue)=fill;@/ +stretch(ss_glue)=unity;stretch_order(ss_glue)=fil;@/ +shrink(ss_glue)=unity;shrink_order(ss_glue)=fil;@/ +stretch(fil_neg_glue)=-unity;stretch_order(fil_neg_glue)=fil;@/ +rover=lo_mem_stat_max+1; +link(rover)=empty_flag; /*now initialize the dynamic memory*/ +node_size(rover)=1000; /*which is a 1000-word available node*/ +llink(rover)=rover;rlink(rover)=rover;@/ +lo_mem_max=rover+1000;link(lo_mem_max)=null;info(lo_mem_max)=null;@/ +for (k=hi_mem_stat_min; k<=mem_top; k++) + mem[k]=mem[lo_mem_max]; /*clear list heads*/ +@<Initialize the special list heads and constant nodes@>; +avail=null;mem_end=mem_top; +hi_mem_min=hi_mem_stat_min; /*initialize the one-word memory*/ +var_used=lo_mem_stat_max+1-mem_bot;dyn_used=hi_mem_stat_usage; + /*initialize statistics*/ + +@ If \TeX\ is extended improperly, the |mem| array might get screwed up. +For example, some pointers might be wrong, or some ``dead'' nodes might not +have been freed when the last reference to them disappeared. Procedures +|check_mem| and |search_mem| are available to help diagnose such +problems. These procedures make use of two arrays called |is_free| and +|was_free| that are present only if \TeX's debugging routines have +been included. (You may want to decrease the size of |mem| while you +@^debugging@> +are debugging.) + +@<Glob...@>= +#ifdef @!DEBUG +static bool @!is_free0[mem_max-mem_min+1], *const @!is_free = @!is_free0-mem_min; /*free cells*/ +@t\hskip10pt@>static bool @!was_free0[mem_max-mem_min+1], *const @!was_free = @!was_free0-mem_min; + /*previously free cells*/ +@t\hskip10pt@>static pointer @!was_mem_end, @!was_lo_max, @!was_hi_min; + /*previous |mem_end|, |lo_mem_max|, and |hi_mem_min|*/ +@t\hskip10pt@>static bool @!panicking; /*do we want to check memory constantly?*/ #endif -@ +@ @<Set initial...@>= +#ifdef @!DEBUG +was_mem_end=mem_min; /*indicate that everything was previously free*/ +was_lo_max=mem_min;was_hi_min=mem_max; +panicking=false; +#endif +@ Procedure |check_mem| makes sure that the available space lists of +|mem| are well formed, and it optionally prints out all locations +that are reserved now but were free the last time this procedure was called. -\subsection{The Page Builder}\label{pagebuilder} -The point where Hi\TeX\ goes an entirely different path than \TeX\ is the page builder: -Instead of building a page, Hi\TeX\ writes a \HINT\ file. +@p +#ifdef @!DEBUG +static void check_mem(bool @!print_locs) +{@+ /*loop exits*/ +int p, @!q; /*current locations of interest in |mem|*/ +bool @!clobbered; /*is something amiss?*/ +for (p=mem_min; p<=lo_mem_max; p++) is_free[p]=false; /*you can probably + do this faster*/ +for (p=hi_mem_min; p<=mem_end; p++) is_free[p]=false; /*ditto*/ +@<Check single-word |avail| list@>; +@<Check variable-size |avail| list@>; +@<Check flags of unavailable nodes@>; +if (print_locs) @<Print newly busy locations@>; +for (p=mem_min; p<=lo_mem_max; p++) was_free[p]=is_free[p]; +for (p=hi_mem_min; p<=mem_end; p++) was_free[p]=is_free[p]; + /*|was_free=is_free| might be faster*/ +was_mem_end=mem_end;was_lo_max=lo_mem_max;was_hi_min=hi_mem_min; +} +#endif -{ -\changestyle{build.tex} +@ @<Check single-word...@>= +p=avail;q=null;clobbered=false; +while (p!=null) + {@+if ((p > mem_end)||(p < hi_mem_min)) clobbered=true; + else if (is_free[p]) clobbered=true; + if (clobbered) + {@+print_nl("AVAIL list clobbered at "); +@.AVAIL list clobbered...@> + print_int(q);goto done1; + } + is_free[p]=true;q=p;p=link(q); + } +done1: + +@ @<Check variable-size...@>= +p=rover;q=null;clobbered=false; +@/do@+{if ((p >= lo_mem_max)||(p < mem_min)) clobbered=true; + else if ((rlink(p) >= lo_mem_max)||(rlink(p) < mem_min)) clobbered=true; + else if (!(is_empty(p))||(node_size(p) < 2)||@| + (p+node_size(p) > lo_mem_max)||@|(llink(rlink(p))!=p)) clobbered=true; + if (clobbered) + {@+print_nl("Double-AVAIL list clobbered at "); + print_int(q);goto done2; + } +for (q=p; q<=p+node_size(p)-1; q++) /*mark all locations free*/ + {@+if (is_free[q]) + {@+print_nl("Doubly free location at "); +@.Doubly free location...@> + print_int(q);goto done2; + } + is_free[q]=true; + } +q=p;p=rlink(p); +}@+ while (!(p==rover)); +done2: + +@ @<Check flags...@>= +p=mem_min; +while (p <= lo_mem_max) /*node |p| should not be empty*/ + {@+if (is_empty(p)) + {@+print_nl("Bad flag at ");print_int(p); +@.Bad flag...@> + } + while ((p <= lo_mem_max)&&!is_free[p]) incr(p); + while ((p <= lo_mem_max)&&is_free[p]) incr(p); + } + +@ @<Print newly busy...@>= +{@+print_nl("New busy locs:"); +for (p=mem_min; p<=lo_mem_max; p++) + if (!is_free[p]&&((p > was_lo_max)||was_free[p])) + {@+print_char(' ');print_int(p); + } +for (p=hi_mem_min; p<=mem_end; p++) + if (!is_free[p]&& + ((p < was_hi_min)||(p > was_mem_end)||was_free[p])) + {@+print_char(' ');print_int(p); + } +} + +@ The |search_mem| procedure attempts to answer the question ``Who points +to node~|p|?'' In doing so, it fetches |link| and |info| fields of |mem| +that might not be of type |two_halves|. Strictly speaking, this is +@^dirty \PASCAL@> +undefined in \PASCAL, and it can lead to ``false drops'' (words that seem to +point to |p| purely by coincidence). But for debugging purposes, we want +to rule out the places that do {\sl not\/} point to |p|, so a few false +drops are tolerable. + +@p +#ifdef @!DEBUG +static void search_mem(pointer @!p) /*look for pointers to |p|*/ +{@+int q; /*current position being searched*/ +for (q=mem_min; q<=lo_mem_max; q++) + {@+if (link(q)==p) + {@+print_nl("LINK(");print_int(q);print_char(')'); + } + if (info(q)==p) + {@+print_nl("INFO(");print_int(q);print_char(')'); + } + } +for (q=hi_mem_min; q<=mem_end; q++) + {@+if (link(q)==p) + {@+print_nl("LINK(");print_int(q);print_char(')'); + } + if (info(q)==p) + {@+print_nl("INFO(");print_int(q);print_char(')'); + } + } +@<Search |eqtb| for equivalents equal to |p|@>; +@<Search |save_stack| for equivalents that point to |p|@>; +@<Search |hyph_list| for pointers to |p|@>; +} +#endif + +@* Displaying boxes. +We can reinforce our knowledge of the data structures just introduced +by considering two procedures that display a list in symbolic form. +The first of these, called |short_display|, is used in ``overfull box'' +messages to give the top-level description of a list. The other one, +called |show_node_list|, prints a detailed description of exactly what +is in the data structure. + +The philosophy of |short_display| is to ignore the fine points about exactly +what is inside boxes, except that ligatures and discretionary breaks are +expanded. As a result, |short_display| is a recursive procedure, but the +recursion is never more than one level deep. +@^recursion@> + +A global variable |font_in_short_display| keeps track of the font code that +is assumed to be present when |short_display| begins; deviations from this +font will be printed. + +@<Glob...@>= +static int @!font_in_short_display; /*an internal font number*/ + +@ Boxes, rules, inserts, whatsits, marks, and things in general that are +sort of ``complicated'' are indicated only by printing `\.{[]}'. + +@p static void short_display(int @!p) /*prints highlights of list |p|*/ +{@+int n; /*for replacement counts*/ +while (p > mem_min) + {@+if (is_char_node(p)) + {@+if (p <= mem_end) + {@+if (font(p)!=font_in_short_display) + {@+if ((font(p) < font_base)||(font(p) > font_max)) + print_char('*'); +@.*\relax@> + else@<Print the font identifier for |font(p)|@>; + print_char(' ');font_in_short_display=font(p); + } + print_ASCII(qo(character(p))); + } + } + else@<Print a short indication of the contents of node |p|@>; + p=link(p); + } } +@ @<Print a short indication of the contents of node |p|@>= +switch (type(p)) { +case hlist_node: case vlist_node: case ins_node: case whatsit_node: case mark_node: case adjust_node: + case unset_node: case unset_set_node: case unset_pack_node: print("[]");@+break; +case rule_node: print_char('|');@+break; +case glue_node: if (glue_ptr(p)!=zero_glue) print_char(' ');@+break; +case math_node: print_char('$');@+break; +case ligature_node: short_display(lig_ptr(p));@+break; +case disc_node: {@+short_display(pre_break(p)); + short_display(post_break(p));@/ + n=replace_count(p); + while (n > 0) + {@+if (link(p)!=null) p=link(p); + decr(n); + } + } @+break; +default:do_nothing; +} +@ The |show_node_list| routine requires some auxiliary subroutines: one to +print a font-and-character combination, one to print a token list without +its reference count, and one to print a rule dimension. -\subsection{Adding new {\tt whatsit} Nodes} -\TeX\ has a mechanism to extend it: the {\tt whatsit} nodes. -For new concepts like baseline specifications, paragraphs, and boxes with unknown dimensions, -we define now special {\tt whatsit} nodes. The new node definitions are supplemented by -procedures to print them, copy them, delete them, and handle them in various contexts. +@p static void print_font_and_char(int @!p) /*prints |char_node| data*/ +{@+if (p > mem_end) print_esc("CLOBBERED."); +else{@+if ((font(p) < font_base)||(font(p) > font_max)) print_char('*'); +@.*\relax@> + else@<Print the font identifier for |font(p)|@>; + print_char(' ');print_ASCII(qo(character(p))); + } +} +@# +static void print_mark(int @!p) /*prints token list data in braces*/ +{@+print_char('{'); +if ((p < hi_mem_min)||(p > mem_end)) print_esc("CLOBBERED."); +else show_token_list(link(p), null, max_print_line-10); +print_char('}'); +} +@# +static void print_rule_dimen(scaled @!d) /*prints dimension in rule node*/ +{@+if (is_running(d)) print_char('*');else print_scaled(d); +@.*\relax@> +} -{ -\changestyle{whatsit.tex} +@ Then there is a subroutine that prints glue stretch and shrink, possibly +followed by the name of finite units: + +@p static void print_glue(scaled @!d, int @!order, char *@!s) + /*prints a glue component*/ +{@+print_scaled(d); +if ((order < normal)||(order > filll)) print("foul"); +else if (order > normal) + {@+print("fil"); + while (order > fil) + {@+print_char('l');decr(order); + } + } +else if (s!=0) print(s); } -\subsubsection{Freeing} -Because some of the new nodes occur at places where \TeX\ originaly only -handles box nodes, -there are many places in \TeX\ where we can no longer just say |free_node(b, box_node_size)| -to free a (box) node. -Instead, we have to use the more general routine |flush_node_list|. -This leads to a long series of simple replacements: +@ The next subroutine prints a whole glue specification. -{ -\changestyle{free.tex} +@p static void print_spec(int @!p, char *@!s) + /*prints a glue specification*/ +{@+if ((p < mem_min)||(p >= lo_mem_max)) print_char('*'); +@.*\relax@> +else{@+print_scaled(width(p)); + if (s!=0) print(s); + if (stretch(p)!=0) + {@+print(" plus ");print_glue(stretch(p), stretch_order(p), s); + } + if (shrink(p)!=0) + {@+print(" minus ");print_glue(shrink(p), shrink_order(p), s); + } + } +} + +@ We also need to declare some procedures that appear later in this +documentation. + +@p @<Declare procedures needed for displaying the elements of mlists@>@; +@<Declare the procedure called |print_skip_param|@>@; +static void print_xdimen(pointer p) +{ print_scaled(xdimen_width(p)); + if (xdimen_hfactor(p)!=0) + { print_char('+');print_scaled(xdimen_hfactor(p));print("*hsize");} + if (xdimen_vfactor(p)!=0) + { print_char('+');print_scaled(xdimen_vfactor(p));print("*vsize");} +} + +@ Since boxes can be inside of boxes, |show_node_list| is inherently recursive, +@^recursion@> +up to a given maximum number of levels. The history of nesting is indicated +by the current string, which will be printed at the beginning of each line; +the length of this string, namely |cur_length|, is the depth of nesting. + +Recursive calls on |show_node_list| therefore use the following pattern: + +@d node_list_display(A) + {@+append_char('.');show_node_list(A);flush_char; + } /*|str_room| need not be checked; see |show_box| below*/ + +@ A global variable called |depth_threshold| is used to record the maximum +depth of nesting for which |show_node_list| will show information. If we +have |depth_threshold==0|, for example, only the top level information will +be given and no sublists will be traversed. Another global variable, called +|breadth_max|, tells the maximum number of items to show at each level; +|breadth_max| had better be positive, or you won't see anything. + +@<Glob...@>= +static int @!depth_threshold; /*maximum nesting depth in box displays*/ +static int @!breadth_max; /*maximum number of items shown at the same list level*/ + +@ Now we are ready for |show_node_list| itself. This procedure has been +written to be ``extra robust'' in the sense that it should not crash or get +into a loop even if the data structures have been messed up by bugs in +the rest of the program. You can safely call its parent routine +|show_box(p)| for arbitrary values of |p| when you are debugging \TeX. +However, in the presence of bad data, the procedure may +@^dirty \PASCAL@>@^debugging@> +fetch a |memory_word| whose variant is different from the way it was stored; +for example, it might try to read |mem[p].hh| when |mem[p]| +contains a scaled integer, if |p| is a pointer that has been +clobbered or chosen at random. + +@p static void show_node_list(int @!p) /*prints a node list symbolically*/ +{@+ +int n; /*the number of items already printed at this level*/ +double @!g; /*a glue ratio, as a floating point number*/ +if (cur_length > depth_threshold) + {@+if (p > null) print(" []"); + /*indicate that there's been some truncation*/ + return; + } +n=0; +while (p > mem_min) + {@+print_ln();print_current_string(); /*display the nesting history*/ + if (p > mem_end) /*pointer out of range*/ + {@+print("Bad link, display aborted.");return; +@.Bad link...@> + } + incr(n);if (n > breadth_max) /*time to stop*/ + {@+print("etc.");return; +@.etc@> + } + @<Display node |p|@>; + p=link(p); + } + +} + +@ @<Display node |p|@>= +if (is_char_node(p)) print_font_and_char(p); +else switch (type(p)) { + case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: @<Display box |p|@>@;@+break; + case rule_node: @<Display rule |p|@>@;@+break; + case ins_node: @<Display insertion |p|@>@;@+break; + case whatsit_node: @<Display the whatsit node |p|@>@;@+break; + case glue_node: @<Display glue |p|@>@;@+break; + case kern_node: @<Display kern |p|@>@;@+break; + case math_node: @<Display math node |p|@>@;@+break; + case ligature_node: @<Display ligature |p|@>@;@+break; + case penalty_node: @<Display penalty |p|@>@;@+break; + case disc_node: @<Display discretionary |p|@>@;@+break; + case mark_node: @<Display mark |p|@>@;@+break; + case adjust_node: @<Display adjustment |p|@>@;@+break; + @t\4@>@<Cases of |show_node_list| that arise in mlists only@>@; + default:print("Unknown node type!"); + } + +@ @<Display box |p|@>= +{@+if (type(p)==hlist_node) print_esc("h"); +else if (type(p)==vlist_node) print_esc("v"); +else print_esc("unset"); +print("box(");print_scaled(height(p));print_char('+'); +print_scaled(depth(p));print(")x");print_scaled(width(p)); +if (type(p)==unset_set_node) print("set"); +else if (type(p)==unset_pack_node) print("pack"); +else if (type(p)==unset_node) + @<Display special fields of the unset node |p|@>@; +else{@+@<Display the value of |glue_set(p)|@>; + if (shift_amount(p)!=0) + {@+print(", shifted ");print_scaled(shift_amount(p)); + } + } +node_list_display(list_ptr(p)); /*recursive call*/ +} + +@ @<Display special fields of the unset node |p|@>= +{@+if (span_count(p)!=min_quarterword) + {@+print(" (");print_int(qo(span_count(p))+1); + print(" columns)"); + } +if (glue_stretch(p)!=0) + {@+print(", stretch ");print_glue(glue_stretch(p), glue_order(p), 0); + } +if (glue_shrink(p)!=0) + {@+print(", shrink ");print_glue(glue_shrink(p), glue_sign(p), 0); + } +} + +@ The code will have to change in this place if |glue_ratio| is +a structured type instead of an ordinary |double|. Note that this routine +should avoid arithmetic errors even if the |glue_set| field holds an +arbitrary random value. The following code assumes that a properly +formed nonzero |double| number has absolute value $2^{20}$ or more when +it is regarded as an integer; this precaution was adequate to prevent +floating point underflow on the author's computer. +@^system dependencies@> +@^dirty \PASCAL@> + +@<Display the value of |glue_set(p)|@>= +g=float(glue_set(p)); +if ((g!=float_constant(0))&&(glue_sign(p)!=normal)) + {@+print(", glue set "); + if (glue_sign(p)==shrinking) print("- "); + if (abs(mem[p+glue_offset].i) < 04000000) print("?.?"); + else if (abs(g) > float_constant(20000)) + {@+if (g > float_constant(0)) print_char('>'); + else print("< -"); + print_glue(20000*unity, glue_order(p), 0); + } + else print_glue(round(unity*g), glue_order(p), 0); +@^real multiplication@> + } + +@ @<Display rule |p|@>= +{@+print_esc("rule(");print_rule_dimen(height(p));print_char('+'); +print_rule_dimen(depth(p));print(")x");print_rule_dimen(width(p)); +} + +@ @<Display insertion |p|@>= +{@+print_esc("insert");print_int(qo(subtype(p))); +print("; split(");print_spec(split_top_ptr(p), 0); +print_char(',');print_scaled(depth(p)); +print("); float cost ");print_int(float_cost(p)); +node_list_display(ins_ptr(p)); /*recursive call*/ +} + +@ @<Display glue |p|@>= +if (subtype(p) >= a_leaders) @<Display leaders |p|@>@; +else{@+print_esc("glue"); + if (subtype(p)!=normal) + {@+print_char('('); + if (subtype(p) < cond_math_glue) + print_skip_param(subtype(p)-1); + else if (subtype(p)==cond_math_glue) print_esc("nonscript"); + else print_esc("mskip"); + print_char(')'); + } + if (subtype(p)!=cond_math_glue) + {@+print_char(' '); + if (subtype(p) < cond_math_glue) print_spec(glue_ptr(p), 0); + else print_spec(glue_ptr(p),"mu"); + } + } + +@ @<Display leaders |p|@>= +{@+print_esc(""); +if (subtype(p)==c_leaders) print_char('c'); +else if (subtype(p)==x_leaders) print_char('x'); +print("leaders ");print_spec(glue_ptr(p), 0); +node_list_display(leader_ptr(p)); /*recursive call*/ +} + +@ An ``explicit'' kern value is indicated implicitly by an explicit space. + +@<Display kern |p|@>= +if (subtype(p)!=mu_glue) + {@+print_esc("kern"); + if (subtype(p)!=normal) print_char(' '); + print_scaled(width(p)); + if (subtype(p)==acc_kern) print(" (for accent)"); +@.for accent@> + } +else{@+print_esc("mkern");print_scaled(width(p));print("mu"); + } + +@ @<Display math node |p|@>= +{@+print_esc("math"); +if (subtype(p)==before) print("on"); +else print("off"); +if (width(p)!=0) + {@+print(", surrounded ");print_scaled(width(p)); + } +} + +@ @<Display ligature |p|@>= +{@+print_font_and_char(lig_char(p));print(" (ligature "); +if (subtype(p) > 1) print_char('|'); +font_in_short_display=font(lig_char(p));short_display(lig_ptr(p)); +if (odd(subtype(p))) print_char('|'); +print_char(')'); +} + +@ @<Display penalty |p|@>= +{@+print_esc("penalty ");print_int(penalty(p)); +} + +@ The |post_break| list of a discretionary node is indicated by a prefixed +`\.{\char'174}' instead of the `\..' before the |pre_break| list. + +@<Display discretionary |p|@>= +{@+print_esc("discretionary"); +if (replace_count(p) > 0) + {@+print(" replacing ");print_int(replace_count(p)); + } +node_list_display(pre_break(p)); /*recursive call*/ +append_char('|');show_node_list(post_break(p));flush_char; /*recursive call*/ +} + +@ @<Display mark |p|@>= +{@+print_esc("mark");print_mark(mark_ptr(p)); +} + +@ @<Display adjustment |p|@>= +{@+print_esc("vadjust");node_list_display(adjust_ptr(p)); /*recursive call*/ +} + +@ The recursive machinery is started by calling |show_box|. +@^recursion@> + +@p static void show_box(pointer @!p) +{@+@<Assign the values |depth_threshold:=show_box_depth| and |breadth_max:=show_box_breadth|@>; +if (breadth_max <= 0) breadth_max=5; +if (pool_ptr+depth_threshold >= pool_size) + depth_threshold=pool_size-pool_ptr-1; + /*now there's enough room for prefix string*/ +show_node_list(p); /*the show starts at |p|*/ +print_ln(); +} + +@* Destroying boxes. +When we are done with a node list, we are obliged to return it to free +storage, including all of its sublists. The recursive procedure +|flush_node_list| does this for us. + +@ First, however, we shall consider two non-recursive procedures that do +simpler tasks. The first of these, |delete_token_ref|, is called when +a pointer to a token list's reference count is being removed. This means +that the token list should disappear if the reference count was |null|, +otherwise the count should be decreased by one. +@^reference counts@> + +@d token_ref_count(A) info(A) /*reference count preceding a token list*/ + +@p static void delete_token_ref(pointer @!p) /*|p| points to the reference count + of a token list that is losing one reference*/ +{@+if (token_ref_count(p)==null) flush_list(p); +else decr(token_ref_count(p)); +} + +@ Similarly, |delete_glue_ref| is called when a pointer to a glue +specification is being withdrawn. +@^reference counts@> +@d fast_delete_glue_ref(A) @t@>@;@/ + {@+if (glue_ref_count(A)==null) free_node(A, glue_spec_size); + else decr(glue_ref_count(A)); + } + +@p static void delete_glue_ref(pointer @!p) /*|p| points to a glue specification*/ +fast_delete_glue_ref(p) +static void delete_xdimen_ref(pointer @!p) /*|p| points to a xdimen specification*/ +{@+if (xdimen_ref_count(p)==null) free_node(p, xdimen_node_size); + else decr(xdimen_ref_count(p)); +} + +@ Now we are ready to delete any node list, recursively. +In practice, the nodes deleted are usually charnodes (about 2/3 of the time), +and they are glue nodes in about half of the remaining cases. +@^recursion@> + +@p static void flush_node_list(pointer @!p) /*erase list of nodes starting at |p|*/ +{@+ /*go here when node |p| has been freed*/ +pointer q; /*successor to node |p|*/ +while (p!=null) +@^inner loop@> + {@+q=link(p); + if (is_char_node(p)) free_avail(p)@; + else{@+switch (type(p)) { + case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: {@+flush_node_list(list_ptr(p)); + free_node(p, box_node_size);goto done; + } + case rule_node: {@+free_node(p, rule_node_size);goto done; + } + case ins_node: {@+flush_node_list(ins_ptr(p)); + delete_glue_ref(split_top_ptr(p)); + free_node(p, ins_node_size);goto done; + } + case whatsit_node: @<Wipe out the whatsit node |p| and |goto done|@>@; + case glue_node: {@+fast_delete_glue_ref(glue_ptr(p)); + if (leader_ptr(p)!=null) flush_node_list(leader_ptr(p)); + } @+break; + case kern_node: case math_node: case penalty_node: do_nothing;@+break; + case ligature_node: flush_node_list(lig_ptr(p));@+break; + case mark_node: delete_token_ref(mark_ptr(p));@+break; + case disc_node: {@+flush_node_list(pre_break(p)); + flush_node_list(post_break(p)); + } @+break; + case adjust_node: flush_node_list(adjust_ptr(p));@+break; + @t\4@>@<Cases of |flush_node_list| that arise in mlists only@>@; + default:confusion("flushing"); +@:this can't happen flushing}{\quad flushing@> + } @/ + free_node(p, small_node_size); + done: ;} + p=q; + } +} + +@* Copying boxes. +Another recursive operation that acts on boxes is sometimes needed: The +procedure |copy_node_list| returns a pointer to another node list that has +the same structure and meaning as the original. Note that since glue +specifications and token lists have reference counts, we need not make +copies of them. Reference counts can never get too large to fit in a +halfword, since each pointer to a node is in a different memory address, +and the total number of memory addresses fits in a halfword. +@^recursion@> +@^reference counts@> + +(Well, there actually are also references from outside |mem|; if the +|save_stack| is made arbitrarily large, it would theoretically be possible +to break \TeX\ by overflowing a reference count. But who would want to do that?) + +@d add_token_ref(A) incr(token_ref_count(A)) /*new reference to a token list*/ +@d add_glue_ref(A) incr(glue_ref_count(A)) /*new reference to a glue spec*/ +@d add_xdimen_ref(A) incr(xdimen_ref_count(A)) /*new reference to an xdimen*/ + +@ The copying procedure copies words en masse without bothering +to look at their individual fields. If the node format changes---for +example, if the size is altered, or if some link field is moved to another +relative position---then this code may need to be changed too. +@^data structure assumptions@> + +@p static pointer copy_node_list(pointer @!p) /*makes a duplicate of the + node list that starts at |p| and returns a pointer to the new list*/ +{@+pointer h; /*temporary head of copied list*/ +pointer @!q; /*previous position in new list*/ +pointer @!r; /*current node being fabricated for new list*/ +int @!words; /*number of words remaining to be copied*/ +h=get_avail();q=h; +while (p!=null) + {@+@<Make a copy of node |p| in node |r|@>; + link(q)=r;q=r;p=link(p); + } +link(q)=null;q=link(h);free_avail(h); +return q; +} + +@ @<Make a copy of node |p|...@>= +words=1; /*this setting occurs in more branches than any other*/ +if (is_char_node(p)) r=get_avail(); +else@<Case statement to copy different types and set |words| to the number of initial +words not yet copied@>; +while (words > 0) + {@+decr(words);mem[r+words]=mem[p+words]; + } + +@ @<Case statement to copy...@>= +switch (type(p)) { +case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: {@+r=get_node(box_node_size); + mem[r+6]=mem[p+6];mem[r+5]=mem[p+5]; /*copy the last two words*/ + list_ptr(r)=copy_node_list(list_ptr(p)); /*this affects |mem[r+5]|*/ + words=5; + } @+break; +case rule_node: {@+r=get_node(rule_node_size);words=rule_node_size; + } @+break; +case ins_node: {@+r=get_node(ins_node_size);mem[r+4]=mem[p+4]; + add_glue_ref(split_top_ptr(p)); + ins_ptr(r)=copy_node_list(ins_ptr(p)); /*this affects |mem[r+4]|*/ + words=ins_node_size-1; + } @+break; +case whatsit_node: @<Make a partial copy of the whatsit node |p| and make |r| point +to it; set |words| to the number of initial words not yet copied@>@;@+break; +case glue_node: {@+r=get_node(small_node_size);add_glue_ref(glue_ptr(p)); + glue_ptr(r)=glue_ptr(p);leader_ptr(r)=copy_node_list(leader_ptr(p)); + } @+break; +case kern_node: case math_node: case penalty_node: {@+r=get_node(small_node_size); + words=small_node_size; + } @+break; +case ligature_node: {@+r=get_node(small_node_size); + mem[lig_char(r)]=mem[lig_char(p)]; /*copy |font| and |character|*/ + lig_ptr(r)=copy_node_list(lig_ptr(p)); + } @+break; +case disc_node: {@+r=get_node(small_node_size); + pre_break(r)=copy_node_list(pre_break(p)); + post_break(r)=copy_node_list(post_break(p)); + } @+break; +case mark_node: {@+r=get_node(small_node_size);add_token_ref(mark_ptr(p)); + words=small_node_size; + } @+break; +case adjust_node: {@+r=get_node(small_node_size); + adjust_ptr(r)=copy_node_list(adjust_ptr(p)); + } @+break; /*|words==1==small_node_size-1|*/ +default:confusion("copying"); +@:this can't happen copying}{\quad copying@> +} + +@* The command codes. +Before we can go any further, we need to define symbolic names for the internal +code numbers that represent the various commands obeyed by \TeX. These codes +are somewhat arbitrary, but not completely so. For example, the command +codes for character types are fixed by the language, since a user says, +e.g., `\.{\\catcode \`\\\${} = 3}' to make \.{\char'44} a math delimiter, +and the command code |math_shift| is equal to~3. Some other codes have +been made adjacent so that |case| statements in the program need not consider +cases that are widely spaced, or so that |case| statements can be replaced +by |if (| statements. + +At any rate, here is the list, for future reference. First come the +``catcode'' commands, several of which share their numeric codes with +ordinary commands when the catcode cannot emerge from \TeX's scanning routine. + +@d escape 0 /*escape delimiter (called \.\\ in {\sl The \TeX book\/})*/ +@:TeXbook}{\sl The \TeX book@> +@d relax 0 /*do nothing ( \.{\\relax} )*/ +@d left_brace 1 /*beginning of a group ( \.\{ )*/ +@d right_brace 2 /*ending of a group ( \.\} )*/ +@d math_shift 3 /*mathematics shift character ( \.\$ )*/ +@d tab_mark 4 /*alignment delimiter ( \.\&, \.{\\span} )*/ +@d car_ret 5 /*end of line ( |carriage_return|, \.{\\cr}, \.{\\crcr} )*/ +@d out_param 5 /*output a macro parameter*/ +@d mac_param 6 /*macro parameter symbol ( \.\# )*/ +@d sup_mark 7 /*superscript ( \.{\char'136} )*/ +@d sub_mark 8 /*subscript ( \.{\char'137} )*/ +@d ignore 9 /*characters to ignore ( \.{\^\^@@} )*/ +@d endv 9 /*end of \<v_j> list in alignment template*/ +@d spacer 10 /*characters equivalent to blank space ( \.{\ } )*/ +@d letter 11 /*characters regarded as letters ( \.{A..Z}, \.{a..z} )*/ +@d other_char 12 /*none of the special character types*/ +@d active_char 13 /*characters that invoke macros ( \.{\char`\~} )*/ +@d par_end 13 /*end of paragraph ( \.{\\par} )*/ +@d match 13 /*match a macro parameter*/ +@d comment 14 /*characters that introduce comments ( \.\% )*/ +@d end_match 14 /*end of parameters to macro*/ +@d stop 14 /*end of job ( \.{\\end}, \.{\\dump} )*/ +@d invalid_char 15 /*characters that shouldn't appear ( \.{\^\^?} )*/ +@d delim_num 15 /*specify delimiter numerically ( \.{\\delimiter} )*/ +@d max_char_code 15 /*largest catcode for individual characters*/ + +@ Next are the ordinary run-of-the-mill command codes. Codes that are +|min_internal| or more represent internal quantities that might be +expanded by `\.{\\the}'. + +@d char_num 16 /*character specified numerically ( \.{\\char} )*/ +@d math_char_num 17 /*explicit math code ( \.{\\mathchar} )*/ +@d mark 18 /*mark definition ( \.{\\mark} )*/ +@d xray 19 /*peek inside of \TeX\ ( \.{\\show}, \.{\\showbox}, etc.~)*/ +@d make_box 20 /*make a box ( \.{\\box}, \.{\\copy}, \.{\\hbox}, etc.~)*/ +@d hmove 21 /*horizontal motion ( \.{\\moveleft}, \.{\\moveright} )*/ +@d vmove 22 /*vertical motion ( \.{\\raise}, \.{\\lower} )*/ +@d un_hbox 23 /*unglue a box ( \.{\\unhbox}, \.{\\unhcopy} )*/ +@d un_vbox 24 /*unglue a box ( \.{\\unvbox}, \.{\\unvcopy} )*/ +@d remove_item 25 /*nullify last item ( \.{\\unpenalty}, + \.{\\unkern}, \.{\\unskip} )*/ +@d hskip 26 /*horizontal glue ( \.{\\hskip}, \.{\\hfil}, etc.~)*/ +@d vskip 27 /*vertical glue ( \.{\\vskip}, \.{\\vfil}, etc.~)*/ +@d mskip 28 /*math glue ( \.{\\mskip} )*/ +@d kern 29 /*fixed space ( \.{\\kern} )*/ +@d mkern 30 /*math kern ( \.{\\mkern} )*/ +@d leader_ship 31 /*use a box ( \.{\\shipout}, \.{\\leaders}, etc.~)*/ +@d halign 32 /*horizontal table alignment ( \.{\\halign} )*/ +@d valign 33 /*vertical table alignment ( \.{\\valign} )*/ +@d no_align 34 /*temporary escape from alignment ( \.{\\noalign} )*/ +@d vrule 35 /*vertical rule ( \.{\\vrule} )*/ +@d hrule 36 /*horizontal rule ( \.{\\hrule} )*/ +@d insert 37 /*vlist inserted in box ( \.{\\insert} )*/ +@d vadjust 38 /*vlist inserted in enclosing paragraph ( \.{\\vadjust} )*/ +@d ignore_spaces 39 /*gobble |spacer| tokens ( \.{\\ignorespaces} )*/ +@d after_assignment 40 /*save till assignment is done ( \.{\\afterassignment} )*/ +@d after_group 41 /*save till group is done ( \.{\\aftergroup} )*/ +@d break_penalty 42 /*additional badness ( \.{\\penalty} )*/ +@d start_par 43 /*begin paragraph ( \.{\\indent}, \.{\\noindent} )*/ +@d ital_corr 44 /*italic correction ( \.{\\/} )*/ +@d accent 45 /*attach accent in text ( \.{\\accent} )*/ +@d math_accent 46 /*attach accent in math ( \.{\\mathaccent} )*/ +@d discretionary 47 /*discretionary texts ( \.{\\-}, \.{\\discretionary} )*/ +@d eq_no 48 /*equation number ( \.{\\eqno}, \.{\\leqno} )*/ +@d left_right 49 /*variable delimiter ( \.{\\left}, \.{\\right} )*/ + /*( or \.{\\middle} )*/ +@d math_comp 50 /*component of formula ( \.{\\mathbin}, etc.~)*/ +@d limit_switch 51 /*diddle limit conventions ( \.{\\displaylimits}, etc.~)*/ +@d above 52 /*generalized fraction ( \.{\\above}, \.{\\atop}, etc.~)*/ +@d math_style 53 /*style specification ( \.{\\displaystyle}, etc.~)*/ +@d math_choice 54 /*choice specification ( \.{\\mathchoice} )*/ +@d non_script 55 /*conditional math glue ( \.{\\nonscript} )*/ +@d vcenter 56 /*vertically center a vbox ( \.{\\vcenter} )*/ +@d case_shift 57 /*force specific case ( \.{\\lowercase}, \.{\\uppercase}~)*/ +@d message 58 /*send to user ( \.{\\message}, \.{\\errmessage} )*/ +@d extension 59 /*extensions to \TeX\ ( \.{\\write}, \.{\\special}, etc.~)*/ +@d in_stream 60 /*files for reading ( \.{\\openin}, \.{\\closein} )*/ +@d begin_group 61 /*begin local grouping ( \.{\\begingroup} )*/ +@d end_group 62 /*end local grouping ( \.{\\endgroup} )*/ +@d omit 63 /*omit alignment template ( \.{\\omit} )*/ +@d ex_space 64 /*explicit space ( \.{\\\ } )*/ +@d no_boundary 65 /*suppress boundary ligatures ( \.{\\noboundary} )*/ +@d radical 66 /*square root and similar signs ( \.{\\radical} )*/ +@d end_cs_name 67 /*end control sequence ( \.{\\endcsname} )*/ +@d min_internal 68 /*the smallest code that can follow \.{\\the}*/ +@d char_given 68 /*character code defined by \.{\\chardef}*/ +@d math_given 69 /*math code defined by \.{\\mathchardef}*/ +@d last_item 70 /*most recent item ( \.{\\lastpenalty}, + \.{\\lastkern}, \.{\\lastskip} )*/ +@d max_non_prefixed_command 70 /*largest command code that can't be \.{\\global}*/ + +@ The next codes are special; they all relate to mode-independent +assignment of values to \TeX's internal registers or tables. +Codes that are |max_internal| or less represent internal quantities +that might be expanded by `\.{\\the}'. + +@d toks_register 71 /*token list register ( \.{\\toks} )*/ +@d assign_toks 72 /*special token list ( \.{\\output}, \.{\\everypar}, etc.~)*/ +@d assign_int 73 /*user-defined integer ( \.{\\tolerance}, \.{\\day}, etc.~)*/ +@d assign_dimen 74 /*user-defined length ( \.{\\hsize}, etc.~)*/ +@d assign_glue 75 /*user-defined glue ( \.{\\baselineskip}, etc.~)*/ +@d assign_mu_glue 76 /*user-defined muglue ( \.{\\thinmuskip}, etc.~)*/ +@d assign_font_dimen 77 /*user-defined font dimension ( \.{\\fontdimen} )*/ +@d assign_font_int 78 /*user-defined font integer ( \.{\\hyphenchar}, + \.{\\skewchar} )*/ +@d set_aux 79 /*specify state info ( \.{\\spacefactor}, \.{\\prevdepth} )*/ +@d set_prev_graf 80 /*specify state info ( \.{\\prevgraf} )*/ +@d set_page_dimen 81 /*specify state info ( \.{\\pagegoal}, etc.~)*/ +@d set_page_int 82 /*specify state info ( \.{\\deadcycles}, + \.{\\insertpenalties} )*/ + /*( or \.{\\interactionmode} )*/ +@d set_box_dimen 83 /*change dimension of box ( \.{\\wd}, \.{\\ht}, \.{\\dp} )*/ +@d set_shape 84 /*specify fancy paragraph shape ( \.{\\parshape} )*/ + /*(or \.{\\interlinepenalties}, etc.~)*/ +@d def_code 85 /*define a character code ( \.{\\catcode}, etc.~)*/ +@d def_family 86 /*declare math fonts ( \.{\\textfont}, etc.~)*/ +@d set_font 87 /*set current font ( font identifiers )*/ +@d def_font 88 /*define a font file ( \.{\\font} )*/ +@d internal_register 89 /*internal register ( \.{\\count}, \.{\\dimen}, etc.~)*/ +@d max_internal 89 /*the largest code that can follow \.{\\the}*/ +@d advance 90 /*advance a register or parameter ( \.{\\advance} )*/ +@d multiply 91 /*multiply a register or parameter ( \.{\\multiply} )*/ +@d divide 92 /*divide a register or parameter ( \.{\\divide} )*/ +@d prefix 93 /*qualify a definition ( \.{\\global}, \.{\\long}, \.{\\outer} )*/ + /*( or \.{\\protected} )*/ +@d let 94 /*assign a command code ( \.{\\let}, \.{\\futurelet} )*/ +@d shorthand_def 95 /*code definition ( \.{\\chardef}, \.{\\countdef}, etc.~)*/ +@d read_to_cs 96 /*read into a control sequence ( \.{\\read} )*/ + /*( or \.{\\readline} )*/ +@d def 97 /*macro definition ( \.{\\def}, \.{\\gdef}, \.{\\xdef}, \.{\\edef} )*/ +@d set_box 98 /*set a box ( \.{\\setbox} )*/ +@d hyph_data 99 /*hyphenation data ( \.{\\hyphenation}, \.{\\patterns} )*/ +@d set_interaction 100 /*define level of interaction ( \.{\\batchmode}, etc.~)*/ +@d max_command 100 /*the largest command code seen at |big_switch|*/ + +@ The remaining command codes are extra special, since they cannot get through +\TeX's scanner to the main control routine. They have been given values higher +than |max_command| so that their special nature is easily discernible. +The ``expandable'' commands come first. + +@d undefined_cs (max_command+1) /*initial state of most |eq_type| fields*/ +@d expand_after (max_command+2) /*special expansion ( \.{\\expandafter} )*/ +@d no_expand (max_command+3) /*special nonexpansion ( \.{\\noexpand} )*/ +@d input (max_command+4) /*input a source file ( \.{\\input}, \.{\\endinput} )*/ + /*( or \.{\\scantokens} )*/ +@d if_test (max_command+5) /*conditional text ( \.{\\if}, \.{\\ifcase}, etc.~)*/ +@d fi_or_else (max_command+6) /*delimiters for conditionals ( \.{\\else}, etc.~)*/ +@d cs_name (max_command+7) /*make a control sequence from tokens ( \.{\\csname} )*/ +@d convert (max_command+8) /*convert to text ( \.{\\number}, \.{\\string}, etc.~)*/ +@d the (max_command+9) /*expand an internal quantity ( \.{\\the} )*/ + /*( or \.{\\unexpanded}, \.{\\detokenize} )*/ +@d top_bot_mark (max_command+10) /*inserted mark ( \.{\\topmark}, etc.~)*/ +@d call (max_command+11) /*non-long, non-outer control sequence*/ +@d long_call (max_command+12) /*long, non-outer control sequence*/ +@d outer_call (max_command+13) /*non-long, outer control sequence*/ +@d long_outer_call (max_command+14) /*long, outer control sequence*/ +@d end_template (max_command+15) /*end of an alignment template*/ +@d dont_expand (max_command+16) /*the following token was marked by \.{\\noexpand}*/ +@d glue_ref (max_command+17) /*the equivalent points to a glue specification*/ +@d shape_ref (max_command+18) /*the equivalent points to a parshape specification*/ +@d box_ref (max_command+19) /*the equivalent points to a box node, or is |null|*/ +@d data (max_command+20) /*the equivalent is simply a halfword number*/ + +@* The semantic nest. +\TeX\ is typically in the midst of building many lists at once. For example, +when a math formula is being processed, \TeX\ is in math mode and +working on an mlist; this formula has temporarily interrupted \TeX\ from +being in horizontal mode and building the hlist of a paragraph; and this +paragraph has temporarily interrupted \TeX\ from being in vertical mode +and building the vlist for the next page of a document. Similarly, when a +\.{\\vbox} occurs inside of an \.{\\hbox}, \TeX\ is temporarily +interrupted from working in restricted horizontal mode, and it enters +internal vertical mode. The ``semantic nest'' is a stack that +keeps track of what lists and modes are currently suspended. + +At each level of processing we are in one of six modes: + +\yskip\hang|vmode| stands for vertical mode (the page builder); + +\hang|hmode| stands for horizontal mode (the paragraph builder); + +\hang|mmode| stands for displayed formula mode; + +\hang|-vmode| stands for internal vertical mode (e.g., in a \.{\\vbox}); + +\hang|-hmode| stands for restricted horizontal mode (e.g., in an \.{\\hbox}); + +\hang|-mmode| stands for math formula mode (not displayed). + +\yskip\noindent The mode is temporarily set to zero while processing \.{\\write} +texts. + +Numeric values are assigned to |vmode|, |hmode|, and |mmode| so that +\TeX's ``big semantic switch'' can select the appropriate thing to +do by computing the value |abs(mode)+cur_cmd|, where |mode| is the current +mode and |cur_cmd| is the current command code. + +@d vmode 1 /*vertical mode*/ +@d hmode (vmode+max_command+1) /*horizontal mode*/ +@d mmode (hmode+max_command+1) /*math mode*/ + +@p static void print_mode(int @!m) /*prints the mode represented by |m|*/ +{@+if (m > 0) + switch (m/(max_command+1)) { + case 0: print("vertical");@+break; + case 1: print("horizontal");@+break; + case 2: print("display math"); + } +else if (m==0) print("no"); +else switch ((-m)/(max_command+1)) { + case 0: print("internal vertical");@+break; + case 1: print("restricted horizontal");@+break; + case 2: print("math"); + } +print(" mode"); +} + +@ The state of affairs at any semantic level can be represented by +five values: + +\yskip\hang|mode| is the number representing the semantic mode, as +just explained. + +\yskip\hang|head| is a |pointer| to a list head for the list being built; +|link(head)| therefore points to the first element of the list, or +to |null| if the list is empty. + +\yskip\hang|tail| is a |pointer| to the final node of the list being +built; thus, |tail==head| if and only if the list is empty. + +\yskip\hang|prev_graf| is the number of lines of the current paragraph that +have already been put into the present vertical list. + +\yskip\hang|aux| is an auxiliary |memory_word| that gives further information +that is needed to characterize the situation. + +\yskip\noindent +In vertical mode, |aux| is also known as |prev_depth|; it is the scaled +value representing the depth of the previous box, for use in baseline +calculations, or it is | <= -1000|pt if the next box on the vertical list is to +be exempt from baseline calculations. In horizontal mode, |aux| is also +known as |space_factor| and |clang|; it holds the current space factor used in +spacing calculations, and the current language used for hyphenation. +(The value of |clang| is undefined in restricted horizontal mode.) +In math mode, |aux| is also known as |incompleat_noad|; if +not |null|, it points to a record that represents the numerator of a +generalized fraction for which the denominator is currently being formed +in the current list. + +There is also a sixth quantity, |mode_line|, which correlates +the semantic nest with the user's input; |mode_line| contains the source +line number at which the current level of nesting was entered. The negative +of this line number is the |mode_line| at the level of the +user's output routine. + +A seventh quantity, |eTeX_aux|, is used by the extended features \eTeX. +In vertical modes it is known as |LR_save| and holds the LR stack when a +paragraph is interrupted by a displayed formula. In display math mode +it is known as |LR_box| and holds a pointer to a prototype box for the +display. In math mode it is known as |delim_ptr| and points to the most +recent |left_noad| or |middle_noad| of a |math_left_group|. + +In horizontal mode, the |prev_graf| field is used for initial language data. + +The semantic nest is an array called |nest| that holds the |mode|, |head|, +|tail|, |prev_graf|, |aux|, and |mode_line| values for all semantic levels +below the currently active one. Information about the currently active +level is kept in the global quantities |mode|, |head|, |tail|, |prev_graf|, +|aux|, and |mode_line|, which live in a \PASCAL\ record that is ready to +be pushed onto |nest| if necessary. + +@d ignore_depth (-1000*unity) /*|prev_depth| value that is ignored*/ +@d unknown_depth (-2000*unity) /*|prev_depth| value that is unknown*/ + +@<Types...@>= +typedef struct { int16_t @!mode_field;@+ + pointer @!head_field, @!tail_field; + pointer @!eTeX_aux_field; + int @!pg_field, @!ml_field;@+ + memory_word @!aux_field; + } list_state_record; + +@ @d mode cur_list.mode_field /*current mode*/ +@d head cur_list.head_field /*header node of current list*/ +@d tail cur_list.tail_field /*final node on current list*/ +@d eTeX_aux cur_list.eTeX_aux_field /*auxiliary data for \eTeX*/ +@d LR_save eTeX_aux /*LR stack when a paragraph is interrupted*/ +@d LR_box eTeX_aux /*prototype box for display*/ +@d delim_ptr eTeX_aux /*most recent left or right noad of a math left group*/ +@d prev_graf cur_list.pg_field /*number of paragraph lines accumulated*/ +@d aux cur_list.aux_field /*auxiliary data about the current list*/ +@d prev_depth aux.sc /*the name of |aux| in vertical mode*/ +@d space_factor aux.hh.lh /*part of |aux| in horizontal mode*/ +@d clang aux.hh.rh /*the other part of |aux| in horizontal mode*/ +@d incompleat_noad aux.i /*the name of |aux| in math mode*/ +@d mode_line cur_list.ml_field /*source file line number at beginning of list*/ + +@<Glob...@>= +static list_state_record @!nest[nest_size+1]; +static int @!nest_ptr; /*first unused location of |nest|*/ +static int @!max_nest_stack; /*maximum of |nest_ptr| when pushing*/ +static list_state_record @!cur_list; /*the ``top'' semantic state*/ +static int @!shown_mode; /*most recent mode shown by \.{\\tracingcommands}*/ + +@ Here is a common way to make the current list grow: + +@d tail_append(A) {@+link(tail)=A;tail=link(tail); + } + +@ We will see later that the vertical list at the bottom semantic level is split +into two parts; the ``current page'' runs from |page_head| to |page_tail|, +and the ``contribution list'' runs from |contrib_head| to |tail| of +semantic level zero. The idea is that contributions are first formed in +vertical mode, then ``contributed'' to the current page (during which time +the page-breaking decisions are made). For now, we don't need to know +any more details about the page-building process. + +@<Set init...@>= +nest_ptr=0;max_nest_stack=0; +mode=vmode;head=contrib_head;tail=contrib_head; +eTeX_aux=null; +prev_depth=ignore_depth;mode_line=0; +prev_graf=0;shown_mode=0; +@<Start a new current page@>; + +@ When \TeX's work on one level is interrupted, the state is saved by +calling |push_nest|. This routine changes |head| and |tail| so that +a new (empty) list is begun; it does not change |mode| or |aux|. + +@p static void push_nest(void) /*enter a new semantic level, save the old*/ +{@+if (nest_ptr > max_nest_stack) + {@+max_nest_stack=nest_ptr; + if (nest_ptr==nest_size) overflow("semantic nest size", nest_size); +@:TeX capacity exceeded semantic nest size}{\quad semantic nest size@> + } +nest[nest_ptr]=cur_list; /*stack the record*/ +incr(nest_ptr);head=get_avail();tail=head;prev_graf=0;mode_line=line; +eTeX_aux=null; +} + +@ Conversely, when \TeX\ is finished on the current level, the former +state is restored by calling |pop_nest|. This routine will never be +called at the lowest semantic level, nor will it be called unless |head| +is a node that should be returned to free memory. + +@p static void pop_nest(void) /*leave a semantic level, re-enter the old*/ +{@+free_avail(head);decr(nest_ptr);cur_list=nest[nest_ptr]; +} + +@ Here is a procedure that displays what \TeX\ is working on, at all levels. + +@p static void print_totals(void); +static void show_activities(void) +{@+int p; /*index into |nest|*/ +int @!m; /*mode*/ +memory_word @!a; /*auxiliary*/ +pointer @!q, @!r; /*for showing the current page*/ +int @!t; /*ditto*/ +nest[nest_ptr]=cur_list; /*put the top level into the array*/ +print_nl("");print_ln(); +for (p=nest_ptr; p>=0; p--) + {@+m=nest[p].mode_field;a=nest[p].aux_field; + print_nl("### ");print_mode(m); + print(" entered at line ");print_int(abs(nest[p].ml_field)); + if (m==hmode) if (nest[p].pg_field!=040600000) + {@+print(" (language");print_int(nest[p].pg_field%0200000); + print(":hyphenmin");print_int(nest[p].pg_field/020000000); + print_char(',');print_int((nest[p].pg_field/0200000)%0100); + print_char(')'); + } + if (nest[p].ml_field < 0) print(" (\\output routine)"); + if (p==0) + {@+@<Show the status of the current page@>; + if (link(contrib_head)!=null) + print_nl("### recent contributions:"); + } + show_box(link(nest[p].head_field)); + @<Show the auxiliary field, |a|@>; + } +} + +@ @<Show the auxiliary...@>= +switch (abs(m)/(max_command+1)) { +case 0: {@+print_nl("prevdepth "); + if (a.sc <= ignore_depth) + { if (a.sc <= unknown_depth) print("unknown"); else print("ignored"); } + else print_scaled(a.sc); + if (nest[p].pg_field!=0) + {@+print(", prevgraf "); + print_int(nest[p].pg_field);print(" line"); + if (nest[p].pg_field!=1) print_char('s'); + } + } @+break; +case 1: {@+print_nl("spacefactor ");print_int(a.hh.lh); + if (m > 0) @+if (a.hh.rh > 0) + {@+print(", current language ");print_int(a.hh.rh);@+ + } + } @+break; +case 2: if (a.i!=null) + {@+print("this will begin denominator of:");show_box(a.i);@+ + } +} /*there are no other cases*/ + +@* The table of equivalents. +Now that we have studied the data structures for \TeX's semantic routines, +we ought to consider the data structures used by its syntactic routines. In +other words, our next concern will be +the tables that \TeX\ looks at when it is scanning +what the user has written. + +The biggest and most important such table is called |eqtb|. It holds the +current ``equivalents'' of things; i.e., it explains what things mean +or what their current values are, for all quantities that are subject to +the nesting structure provided by \TeX's grouping mechanism. There are six +parts to |eqtb|: + +\yskip\hangg 1) |eqtb[active_base dotdot(hash_base-1)]| holds the current +equivalents of single-character control sequences. + +\yskip\hangg 2) |eqtb[hash_base dotdot(glue_base-1)]| holds the current +equivalents of multiletter control sequences. + +\yskip\hangg 3) |eqtb[glue_base dotdot(local_base-1)]| holds the current +equivalents of glue parameters like the current baselineskip. + +\yskip\hangg 4) |eqtb[local_base dotdot(int_base-1)]| holds the current +equivalents of local halfword quantities like the current box registers, +the current ``catcodes,'' the current font, and a pointer to the current +paragraph shape. + +\yskip\hangg 5) |eqtb[int_base dotdot(dimen_base-1)]| holds the current +equivalents of fullword integer parameters like the current hyphenation +penalty. + +\yskip\hangg 6) |eqtb[dimen_base dotdot eqtb_size]| holds the current equivalents +of fullword dimension parameters like the current hsize or amount of +hanging indentation. + +\yskip\noindent Note that, for example, the current amount of +baselineskip glue is determined by the setting of a particular location +in region~3 of |eqtb|, while the current meaning of the control sequence +`\.{\\baselineskip}' (which might have been changed by \.{\\def} or +\.{\\let}) appears in region~2. + +@ Each entry in |eqtb| is a |memory_word|. Most of these words are of type +|two_halves|, and subdivided into three fields: + +\yskip\hangg 1) The |eq_level| (a quarterword) is the level of grouping at +which this equivalent was defined. If the level is |level_zero|, the +equivalent has never been defined; |level_one| refers to the outer level +(outside of all groups), and this level is also used for global +definitions that never go away. Higher levels are for equivalents that +will disappear at the end of their group. @^global definitions@> + +\yskip\hangg 2) The |eq_type| (another quarterword) specifies what kind of +entry this is. There are many types, since each \TeX\ primitive like +\.{\\hbox}, \.{\\def}, etc., has its own special code. The list of +command codes above includes all possible settings of the |eq_type| field. + +\yskip\hangg 3) The |equiv| (a halfword) is the current equivalent value. +This may be a font number, a pointer into |mem|, or a variety of other +things. + +@d eq_level_field(A) A.hh.b1 +@d eq_type_field(A) A.hh.b0 +@d equiv_field(A) A.hh.rh +@d eq_level(A) eq_level_field(eqtb[A]) /*level of definition*/ +@d eq_type(A) eq_type_field(eqtb[A]) /*command code for equivalent*/ +@d equiv(A) equiv_field(eqtb[A]) /*equivalent value*/ +@d level_zero min_quarterword /*level for undefined quantities*/ +@d level_one (level_zero+1) /*outermost level for defined quantities*/ + +@ Many locations in |eqtb| have symbolic names. The purpose of the next +paragraphs is to define these names, and to set up the initial values of the +equivalents. + +In the first region we have 256 equivalents for ``active characters'' that +act as control sequences, followed by 256 equivalents for single-character +control sequences. + +Then comes region~2, which corresponds to the hash table that we will +define later. The maximum address in this region is used for a dummy +control sequence that is perpetually undefined. There also are several +locations for control sequences that are perpetually defined +(since they are used in error recovery). + +@d active_base 1 /*beginning of region 1, for active character equivalents*/ +@d single_base (active_base+256) /*equivalents of one-character control sequences*/ +@d null_cs (single_base+256) /*equivalent of \.{\\csname\\endcsname}*/ +@d hash_base (null_cs+1) /*beginning of region 2, for the hash table*/ +@d frozen_control_sequence (hash_base+hash_size) /*for error recovery*/ +@d frozen_protection frozen_control_sequence /*inaccessible but definable*/ +@d frozen_cr (frozen_control_sequence+1) /*permanent `\.{\\cr}'*/ +@d frozen_end_group (frozen_control_sequence+2) /*permanent `\.{\\endgroup}'*/ +@d frozen_right (frozen_control_sequence+3) /*permanent `\.{\\right}'*/ +@d frozen_fi (frozen_control_sequence+4) /*permanent `\.{\\fi}'*/ +@d frozen_end_template (frozen_control_sequence+5) /*permanent `\.{\\endtemplate}'*/ +@d frozen_endv (frozen_control_sequence+6) /*second permanent `\.{\\endtemplate}'*/ +@d frozen_relax (frozen_control_sequence+7) /*permanent `\.{\\relax}'*/ +@d end_write (frozen_control_sequence+8) /*permanent `\.{\\endwrite}'*/ +@d frozen_dont_expand (frozen_control_sequence+9) + /*permanent `\.{\\notexpanded:}'*/ +@d frozen_primitive (frozen_control_sequence+10) + /*permanent `\.{\\primitive:}'*/ +@d frozen_null_font (frozen_control_sequence+11) + /*permanent `\.{\\nullfont}'*/ +@d font_id_base (frozen_null_font-font_base) + /*begins table of 257 permanent font identifiers*/ +@d undefined_control_sequence (frozen_null_font+257) /*dummy location*/ +@d glue_base (undefined_control_sequence+1) /*beginning of region 3*/ + +@<Initialize table entries...@>= +eq_type(undefined_control_sequence)=undefined_cs; +equiv(undefined_control_sequence)=null; +eq_level(undefined_control_sequence)=level_zero; +for (k=active_base; k<=undefined_control_sequence-1; k++) + eqtb[k]=eqtb[undefined_control_sequence]; + +@ Here is a routine that displays the current meaning of an |eqtb| entry +in region 1 or~2. (Similar routines for the other regions will appear +below.) + +@<Show equivalent |n|, in region 1 or 2@>= +{@+sprint_cs(n);print_char('=');print_cmd_chr(eq_type(n), equiv(n)); +if (eq_type(n) >= call) + {@+print_char(':');show_token_list(link(equiv(n)), null, 32); + } +} + +@ Region 3 of |eqtb| contains the 256 \.{\\skip} registers, as well as the +glue parameters defined here. It is important that the ``muskip'' +parameters have larger numbers than the others. + +@d line_skip_code 0 /*interline glue if |baseline_skip| is infeasible*/ +@d baseline_skip_code 1 /*desired glue between baselines*/ +@d par_skip_code 2 /*extra glue just above a paragraph*/ +@d above_display_skip_code 3 /*extra glue just above displayed math*/ +@d below_display_skip_code 4 /*extra glue just below displayed math*/ +@d above_display_short_skip_code 5 + /*glue above displayed math following short lines*/ +@d below_display_short_skip_code 6 + /*glue below displayed math following short lines*/ +@d left_skip_code 7 /*glue at left of justified lines*/ +@d right_skip_code 8 /*glue at right of justified lines*/ +@d top_skip_code 9 /*glue at top of main pages*/ +@d split_top_skip_code 10 /*glue at top of split pages*/ +@d tab_skip_code 11 /*glue between aligned entries*/ +@d space_skip_code 12 /*glue between words (if not |zero_glue|)*/ +@d xspace_skip_code 13 /*glue after sentences (if not |zero_glue|)*/ +@d par_fill_skip_code 14 /*glue on last line of paragraph*/ +@d thin_mu_skip_code 15 /*thin space in math formula*/ +@d med_mu_skip_code 16 /*medium space in math formula*/ +@d thick_mu_skip_code 17 /*thick space in math formula*/ +@d glue_pars 18 /*total number of glue parameters*/ +@d skip_base (glue_base+glue_pars) /*table of 256 ``skip'' registers*/ +@d mu_skip_base (skip_base+256) /*table of 256 ``muskip'' registers*/ +@d local_base (mu_skip_base+256) /*beginning of region 4*/ +@# +@d skip(A) equiv(skip_base+A) /*|mem| location of glue specification*/ +@d mu_skip(A) equiv(mu_skip_base+A) /*|mem| location of math glue spec*/ +@d glue_par(A) equiv(glue_base+A) /*|mem| location of glue specification*/ +@d line_skip glue_par(line_skip_code) +@d baseline_skip glue_par(baseline_skip_code) +@d par_skip glue_par(par_skip_code) +@d above_display_skip glue_par(above_display_skip_code) +@d below_display_skip glue_par(below_display_skip_code) +@d above_display_short_skip glue_par(above_display_short_skip_code) +@d below_display_short_skip glue_par(below_display_short_skip_code) +@d left_skip glue_par(left_skip_code) +@d right_skip glue_par(right_skip_code) +@d top_skip glue_par(top_skip_code) +@d split_top_skip glue_par(split_top_skip_code) +@d tab_skip glue_par(tab_skip_code) +@d space_skip glue_par(space_skip_code) +@d xspace_skip glue_par(xspace_skip_code) +@d par_fill_skip glue_par(par_fill_skip_code) +@d thin_mu_skip glue_par(thin_mu_skip_code) +@d med_mu_skip glue_par(med_mu_skip_code) +@d thick_mu_skip glue_par(thick_mu_skip_code) + +@<Current |mem| equivalent of glue parameter number |n|@>=glue_par(n) + +@ Sometimes we need to convert \TeX's internal code numbers into symbolic +form. The |print_skip_param| routine gives the symbolic name of a glue +parameter. + +@<Declare the procedure called |print_skip_param|@>= +static void print_skip_param(int @!n) +{@+switch (n) { +case line_skip_code: print_esc("lineskip");@+break; +case baseline_skip_code: print_esc("baselineskip");@+break; +case par_skip_code: print_esc("parskip");@+break; +case above_display_skip_code: print_esc("abovedisplayskip");@+break; +case below_display_skip_code: print_esc("belowdisplayskip");@+break; +case above_display_short_skip_code: print_esc("abovedisplayshortskip");@+break; +case below_display_short_skip_code: print_esc("belowdisplayshortskip");@+break; +case left_skip_code: print_esc("leftskip");@+break; +case right_skip_code: print_esc("rightskip");@+break; +case top_skip_code: print_esc("topskip");@+break; +case split_top_skip_code: print_esc("splittopskip");@+break; +case tab_skip_code: print_esc("tabskip");@+break; +case space_skip_code: print_esc("spaceskip");@+break; +case xspace_skip_code: print_esc("xspaceskip");@+break; +case par_fill_skip_code: print_esc("parfillskip");@+break; +case thin_mu_skip_code: print_esc("thinmuskip");@+break; +case med_mu_skip_code: print_esc("medmuskip");@+break; +case thick_mu_skip_code: print_esc("thickmuskip");@+break; +default:print("[unknown glue parameter!]"); +} +} + +@ The symbolic names for glue parameters are put into \TeX's hash table +by using the routine called |primitive|, defined below. Let us enter them +now, so that we don't have to list all those parameter names anywhere else. + +@<Put each of \TeX's primitives into the hash table@>= +primitive("lineskip", assign_glue, glue_base+line_skip_code);@/ +@!@:line\_skip\_}{\.{\\lineskip} primitive@> +primitive("baselineskip", assign_glue, glue_base+baseline_skip_code);@/ +@!@:baseline\_skip\_}{\.{\\baselineskip} primitive@> +primitive("parskip", assign_glue, glue_base+par_skip_code);@/ +@!@:par\_skip\_}{\.{\\parskip} primitive@> +primitive("abovedisplayskip", assign_glue, glue_base+above_display_skip_code);@/ +@!@:above\_display\_skip\_}{\.{\\abovedisplayskip} primitive@> +primitive("belowdisplayskip", assign_glue, glue_base+below_display_skip_code);@/ +@!@:below\_display\_skip\_}{\.{\\belowdisplayskip} primitive@> +primitive("abovedisplayshortskip", + assign_glue, glue_base+above_display_short_skip_code);@/ +@!@:above\_display\_short\_skip\_}{\.{\\abovedisplayshortskip} primitive@> +primitive("belowdisplayshortskip", + assign_glue, glue_base+below_display_short_skip_code);@/ +@!@:below\_display\_short\_skip\_}{\.{\\belowdisplayshortskip} primitive@> +primitive("leftskip", assign_glue, glue_base+left_skip_code);@/ +@!@:left\_skip\_}{\.{\\leftskip} primitive@> +primitive("rightskip", assign_glue, glue_base+right_skip_code);@/ +@!@:right\_skip\_}{\.{\\rightskip} primitive@> +primitive("topskip", assign_glue, glue_base+top_skip_code);@/ +@!@:top\_skip\_}{\.{\\topskip} primitive@> +primitive("splittopskip", assign_glue, glue_base+split_top_skip_code);@/ +@!@:split\_top\_skip\_}{\.{\\splittopskip} primitive@> +primitive("tabskip", assign_glue, glue_base+tab_skip_code);@/ +@!@:tab\_skip\_}{\.{\\tabskip} primitive@> +primitive("spaceskip", assign_glue, glue_base+space_skip_code);@/ +@!@:space\_skip\_}{\.{\\spaceskip} primitive@> +primitive("xspaceskip", assign_glue, glue_base+xspace_skip_code);@/ +@!@:xspace\_skip\_}{\.{\\xspaceskip} primitive@> +primitive("parfillskip", assign_glue, glue_base+par_fill_skip_code);@/ +@!@:par\_fill\_skip\_}{\.{\\parfillskip} primitive@> +primitive("thinmuskip", assign_mu_glue, glue_base+thin_mu_skip_code);@/ +@!@:thin\_mu\_skip\_}{\.{\\thinmuskip} primitive@> +primitive("medmuskip", assign_mu_glue, glue_base+med_mu_skip_code);@/ +@!@:med\_mu\_skip\_}{\.{\\medmuskip} primitive@> +primitive("thickmuskip", assign_mu_glue, glue_base+thick_mu_skip_code);@/ +@!@:thick\_mu\_skip\_}{\.{\\thickmuskip} primitive@> + +@ @<Cases of |print_cmd_chr| for symbolic printing of primitives@>= +case assign_glue: case assign_mu_glue: if (chr_code < skip_base) + print_skip_param(chr_code-glue_base); + else if (chr_code < mu_skip_base) + {@+print_esc("skip");print_int(chr_code-skip_base); + } + else{@+print_esc("muskip");print_int(chr_code-mu_skip_base); + } @+break; + +@ All glue parameters and registers are initially `\.{0pt plus0pt minus0pt}'. + +@<Initialize table entries...@>= +equiv(glue_base)=zero_glue;eq_level(glue_base)=level_one; +eq_type(glue_base)=glue_ref; +for (k=glue_base+1; k<=local_base-1; k++) eqtb[k]=eqtb[glue_base]; +glue_ref_count(zero_glue)=glue_ref_count(zero_glue)+local_base-glue_base; + +@ @<Show equivalent |n|, in region 3@>= +if (n < skip_base) + {@+print_skip_param(n-glue_base);print_char('='); + if (n < glue_base+thin_mu_skip_code) print_spec(equiv(n),"pt"); + else print_spec(equiv(n),"mu"); + } +else if (n < mu_skip_base) + {@+print_esc("skip");print_int(n-skip_base);print_char('='); + print_spec(equiv(n),"pt"); + } +else{@+print_esc("muskip");print_int(n-mu_skip_base);print_char('='); + print_spec(equiv(n),"mu"); + } + +@ Region 4 of |eqtb| contains the local quantities defined here. The +bulk of this region is taken up by five tables that are indexed by eight-bit +characters; these tables are important to both the syntactic and semantic +portions of \TeX. There are also a bunch of special things like font and +token parameters, as well as the tables of \.{\\toks} and \.{\\box} +registers. + +@d par_shape_loc local_base /*specifies paragraph shape*/ +@d output_routine_loc (local_base+1) /*points to token list for \.{\\output}*/ +@d every_par_loc (local_base+2) /*points to token list for \.{\\everypar}*/ +@d every_math_loc (local_base+3) /*points to token list for \.{\\everymath}*/ +@d every_display_loc (local_base+4) /*points to token list for \.{\\everydisplay}*/ +@d every_hbox_loc (local_base+5) /*points to token list for \.{\\everyhbox}*/ +@d every_vbox_loc (local_base+6) /*points to token list for \.{\\everyvbox}*/ +@d every_job_loc (local_base+7) /*points to token list for \.{\\everyjob}*/ +@d every_cr_loc (local_base+8) /*points to token list for \.{\\everycr}*/ +@d err_help_loc (local_base+9) /*points to token list for \.{\\errhelp}*/ +@d tex_toks (local_base+10) /*end of \TeX's token list parameters*/ +@# +@d etex_toks_base tex_toks /*base for \eTeX's token list parameters*/ +@d every_eof_loc etex_toks_base /*points to token list for \.{\\everyeof}*/ +@d etex_toks (etex_toks_base+1) /*end of \eTeX's token list parameters*/ +@# +@d toks_base etex_toks /*table of 256 token list registers*/ +@# +@d etex_pen_base (toks_base+256) /*start of table of \eTeX's penalties*/ +@d inter_line_penalties_loc etex_pen_base /*additional penalties between lines*/ +@d club_penalties_loc (etex_pen_base+1) /*penalties for creating club lines*/ +@d widow_penalties_loc (etex_pen_base+2) /*penalties for creating widow lines*/ +@d display_widow_penalties_loc (etex_pen_base+3) /*ditto, just before a display*/ +@d etex_pens (etex_pen_base+4) /*end of table of \eTeX's penalties*/ +@# +@d box_base etex_pens /*table of 256 box registers*/ +@d cur_font_loc (box_base+256) /*internal font number outside math mode*/ +@d math_font_base (cur_font_loc+1) /*table of 48 math font numbers*/ +@d cat_code_base (math_font_base+48) + /*table of 256 command codes (the ``catcodes'')*/ +@d lc_code_base (cat_code_base+256) /*table of 256 lowercase mappings*/ +@d uc_code_base (lc_code_base+256) /*table of 256 uppercase mappings*/ +@d sf_code_base (uc_code_base+256) /*table of 256 spacefactor mappings*/ +@d math_code_base (sf_code_base+256) /*table of 256 math mode mappings*/ +@d int_base (math_code_base+256) /*beginning of region 5*/ +@# +@d par_shape_ptr equiv(par_shape_loc) +@d output_routine equiv(output_routine_loc) +@d every_par equiv(every_par_loc) +@d every_math equiv(every_math_loc) +@d every_display equiv(every_display_loc) +@d every_hbox equiv(every_hbox_loc) +@d every_vbox equiv(every_vbox_loc) +@d every_job equiv(every_job_loc) +@d every_cr equiv(every_cr_loc) +@d err_help equiv(err_help_loc) +@d toks(X) equiv(toks_base+X) +@d box(A) equiv(box_base+A) +@d cur_font equiv(cur_font_loc) +@d fam_fnt(A) equiv(math_font_base+A) +@d cat_code(A) equiv(cat_code_base+A) +@d lc_code(A) equiv(lc_code_base+A) +@d uc_code(A) equiv(uc_code_base+A) +@d sf_code(A) equiv(sf_code_base+A) +@d math_code(A) equiv(math_code_base+A) + /*Note: |math_code(c)| is the true math code plus |min_halfword|*/ + +@<Put each...@>= +primitive("output", assign_toks, output_routine_loc); +@!@:output\_}{\.{\\output} primitive@> +primitive("everypar", assign_toks, every_par_loc); +@!@:every\_par\_}{\.{\\everypar} primitive@> +primitive("everymath", assign_toks, every_math_loc); +@!@:every\_math\_}{\.{\\everymath} primitive@> +primitive("everydisplay", assign_toks, every_display_loc); +@!@:every\_display\_}{\.{\\everydisplay} primitive@> +primitive("everyhbox", assign_toks, every_hbox_loc); +@!@:every\_hbox\_}{\.{\\everyhbox} primitive@> +primitive("everyvbox", assign_toks, every_vbox_loc); +@!@:every\_vbox\_}{\.{\\everyvbox} primitive@> +primitive("everyjob", assign_toks, every_job_loc); +@!@:every\_job\_}{\.{\\everyjob} primitive@> +primitive("everycr", assign_toks, every_cr_loc); +@!@:every\_cr\_}{\.{\\everycr} primitive@> +primitive("errhelp", assign_toks, err_help_loc); +@!@:err\_help\_}{\.{\\errhelp} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case assign_toks: if (chr_code >= toks_base) + {@+print_esc("toks");print_int(chr_code-toks_base); + } +else switch (chr_code) { + case output_routine_loc: print_esc("output");@+break; + case every_par_loc: print_esc("everypar");@+break; + case every_math_loc: print_esc("everymath");@+break; + case every_display_loc: print_esc("everydisplay");@+break; + case every_hbox_loc: print_esc("everyhbox");@+break; + case every_vbox_loc: print_esc("everyvbox");@+break; + case every_job_loc: print_esc("everyjob");@+break; + case every_cr_loc: print_esc("everycr");@+break; + @/@<Cases of |assign_toks| for |print_cmd_chr|@>@/ + default:print_esc("errhelp"); + } @+break; + +@ We initialize most things to null or undefined values. An undefined font +is represented by the internal code |font_base|. + +However, the character code tables are given initial values based on the +conventional interpretation of ASCII code. These initial values should +not be changed when \TeX\ is adapted for use with non-English languages; +all changes to the initialization conventions should be made in format +packages, not in \TeX\ itself, so that global interchange of formats is +possible. + +@d null_font font_base +@d var_code 070000 /*math code meaning ``use the current family''*/ + +@<Initialize table entries...@>= +par_shape_ptr=null;eq_type(par_shape_loc)=shape_ref; +eq_level(par_shape_loc)=level_one;@/ +for (k=etex_pen_base; k<=etex_pens-1; k++) + eqtb[k]=eqtb[par_shape_loc]; +for (k=output_routine_loc; k<=toks_base+255; k++) + eqtb[k]=eqtb[undefined_control_sequence]; +box(0)=null;eq_type(box_base)=box_ref;eq_level(box_base)=level_one; +for (k=box_base+1; k<=box_base+255; k++) eqtb[k]=eqtb[box_base]; +cur_font=null_font;eq_type(cur_font_loc)=data; +eq_level(cur_font_loc)=level_one;@/ +for (k=math_font_base; k<=math_font_base+47; k++) eqtb[k]=eqtb[cur_font_loc]; +equiv(cat_code_base)=0;eq_type(cat_code_base)=data; +eq_level(cat_code_base)=level_one;@/ +for (k=cat_code_base+1; k<=int_base-1; k++) eqtb[k]=eqtb[cat_code_base]; +for (k=0; k<=255; k++) + {@+cat_code(k)=other_char;math_code(k)=hi(k);sf_code(k)=1000; + } +cat_code(carriage_return)=car_ret;cat_code(' ')=spacer; +cat_code('\\')=escape;cat_code('%')=comment; +cat_code(invalid_code)=invalid_char;cat_code(null_code)=ignore; +for (k='0'; k<='9'; k++) math_code(k)=hi(k+var_code); +for (k='A'; k<='Z'; k++) + {@+cat_code(k)=letter;cat_code(k+'a'-'A')=letter;@/ + math_code(k)=hi(k+var_code+0x100); + math_code(k+'a'-'A')=hi(k+'a'-'A'+var_code+0x100);@/ + lc_code(k)=k+'a'-'A';lc_code(k+'a'-'A')=k+'a'-'A';@/ + uc_code(k)=k;uc_code(k+'a'-'A')=k;@/ + sf_code(k)=999; + } + +@ @<Show equivalent |n|, in region 4@>= +if ((n==par_shape_loc)||((n >= etex_pen_base)&&(n < etex_pens))) + {@+print_cmd_chr(set_shape, n);print_char('='); + if (equiv(n)==null) print_char('0'); + else if (n > par_shape_loc) + {@+print_int(penalty(equiv(n)));print_char(' '); + print_int(penalty(equiv(n)+1)); + if (penalty(equiv(n)) > 1) print_esc("ETC."); + } + else print_int(info(par_shape_ptr)); + } +else if (n < toks_base) + {@+print_cmd_chr(assign_toks, n);print_char('='); + if (equiv(n)!=null) show_token_list(link(equiv(n)), null, 32); + } +else if (n < box_base) + {@+print_esc("toks");print_int(n-toks_base);print_char('='); + if (equiv(n)!=null) show_token_list(link(equiv(n)), null, 32); + } +else if (n < cur_font_loc) + {@+print_esc("box");print_int(n-box_base);print_char('='); + if (equiv(n)==null) print("void"); + else{@+depth_threshold=0;breadth_max=1;show_node_list(equiv(n)); + } + } +else if (n < cat_code_base) @<Show the font identifier in |eqtb[n]|@>@; +else@<Show the halfword code in |eqtb[n]|@>@; + +@ @<Show the font identifier in |eqtb[n]|@>= +{@+if (n==cur_font_loc) print("current font"); +else if (n < math_font_base+16) + {@+print_esc("textfont");print_int(n-math_font_base); + } +else if (n < math_font_base+32) + {@+print_esc("scriptfont");print_int(n-math_font_base-16); + } +else{@+print_esc("scriptscriptfont");print_int(n-math_font_base-32); + } +print_char('=');@/ +printn_esc(hash[font_id_base+equiv(n)].rh); + /*that's |font_id_text(equiv(n))|*/ +} + +@ @<Show the halfword code in |eqtb[n]|@>= +if (n < math_code_base) + {@+if (n < lc_code_base) + {@+print_esc("catcode");print_int(n-cat_code_base); + } + else if (n < uc_code_base) + {@+print_esc("lccode");print_int(n-lc_code_base); + } + else if (n < sf_code_base) + {@+print_esc("uccode");print_int(n-uc_code_base); + } + else{@+print_esc("sfcode");print_int(n-sf_code_base); + } + print_char('=');print_int(equiv(n)); + } +else{@+print_esc("mathcode");print_int(n-math_code_base); + print_char('=');print_int(ho(equiv(n))); + } + +@ Region 5 of |eqtb| contains the integer parameters and registers defined +here, as well as the |del_code| table. The latter table differs from the +|cat_code dotdot math_code| tables that precede it, since delimiter codes are +fullword integers while the other kinds of codes occupy at most a +halfword. This is what makes region~5 different from region~4. We will +store the |eq_level| information in an auxiliary array of quarterwords +that will be defined later. + +@d pretolerance_code 0 /*badness tolerance before hyphenation*/ +@d tolerance_code 1 /*badness tolerance after hyphenation*/ +@d line_penalty_code 2 /*added to the badness of every line*/ +@d hyphen_penalty_code 3 /*penalty for break after discretionary hyphen*/ +@d ex_hyphen_penalty_code 4 /*penalty for break after explicit hyphen*/ +@d club_penalty_code 5 /*penalty for creating a club line*/ +@d widow_penalty_code 6 /*penalty for creating a widow line*/ +@d display_widow_penalty_code 7 /*ditto, just before a display*/ +@d broken_penalty_code 8 /*penalty for breaking a page at a broken line*/ +@d bin_op_penalty_code 9 /*penalty for breaking after a binary operation*/ +@d rel_penalty_code 10 /*penalty for breaking after a relation*/ +@d pre_display_penalty_code 11 + /*penalty for breaking just before a displayed formula*/ +@d post_display_penalty_code 12 + /*penalty for breaking just after a displayed formula*/ +@d inter_line_penalty_code 13 /*additional penalty between lines*/ +@d double_hyphen_demerits_code 14 /*demerits for double hyphen break*/ +@d final_hyphen_demerits_code 15 /*demerits for final hyphen break*/ +@d adj_demerits_code 16 /*demerits for adjacent incompatible lines*/ +@d mag_code 17 /*magnification ratio*/ +@d delimiter_factor_code 18 /*ratio for variable-size delimiters*/ +@d looseness_code 19 /*change in number of lines for a paragraph*/ +@d time_code 20 /*current time of day*/ +@d day_code 21 /*current day of the month*/ +@d month_code 22 /*current month of the year*/ +@d year_code 23 /*current year of our Lord*/ +@d show_box_breadth_code 24 /*nodes per level in |show_box|*/ +@d show_box_depth_code 25 /*maximum level in |show_box|*/ +@d hbadness_code 26 /*hboxes exceeding this badness will be shown by |hpack|*/ +@d vbadness_code 27 /*vboxes exceeding this badness will be shown by |vpack|*/ +@d pausing_code 28 /*pause after each line is read from a file*/ +@d tracing_online_code 29 /*show diagnostic output on terminal*/ +@d tracing_macros_code 30 /*show macros as they are being expanded*/ +@d tracing_stats_code 31 /*show memory usage if \TeX\ knows it*/ +@d tracing_paragraphs_code 32 /*show line-break calculations*/ +@d tracing_pages_code 33 /*show page-break calculations*/ +@d tracing_output_code 34 /*show boxes when they are shipped out*/ +@d tracing_lost_chars_code 35 /*show characters that aren't in the font*/ +@d tracing_commands_code 36 /*show command codes at |big_switch|*/ +@d tracing_restores_code 37 /*show equivalents when they are restored*/ +@d uc_hyph_code 38 /*hyphenate words beginning with a capital letter*/ +@d output_penalty_code 39 /*penalty found at current page break*/ +@d max_dead_cycles_code 40 /*bound on consecutive dead cycles of output*/ +@d hang_after_code 41 /*hanging indentation changes after this many lines*/ +@d floating_penalty_code 42 /*penalty for insertions held over after a split*/ +@d global_defs_code 43 /*override \.{\\global} specifications*/ +@d cur_fam_code 44 /*current family*/ +@d escape_char_code 45 /*escape character for token output*/ +@d default_hyphen_char_code 46 /*value of \.{\\hyphenchar} when a font is loaded*/ +@d default_skew_char_code 47 /*value of \.{\\skewchar} when a font is loaded*/ +@d end_line_char_code 48 /*character placed at the right end of the buffer*/ +@d new_line_char_code 49 /*character that prints as |print_ln|*/ +@d language_code 50 /*current hyphenation table*/ +@d left_hyphen_min_code 51 /*minimum left hyphenation fragment size*/ +@d right_hyphen_min_code 52 /*minimum right hyphenation fragment size*/ +@d holding_inserts_code 53 /*do not remove insertion nodes from \.{\\box255}*/ +@d error_context_lines_code 54 /*maximum intermediate line pairs shown*/ +@d tex_int_pars 55 /*total number of \TeX's integer parameters*/ +@# +@d etex_int_base tex_int_pars /*base for \eTeX's integer parameters*/ +@d tracing_assigns_code etex_int_base /*show assignments*/ +@d tracing_groups_code (etex_int_base+1) /*show save/restore groups*/ +@d tracing_ifs_code (etex_int_base+2) /*show conditionals*/ +@d tracing_scan_tokens_code (etex_int_base+3) /*show pseudo file open and close*/ +@d tracing_nesting_code (etex_int_base+4) /*show incomplete groups and ifs within files*/ +@d saving_vdiscards_code (etex_int_base+5) /*save items discarded from vlists*/ +@d expand_depth_code (etex_int_base+6) /*maximum depth for expansion---\eTeX*/ +@d eTeX_state_code (etex_int_base+7) /*\eTeX\ state variables*/ +@d etex_int_pars (eTeX_state_code+eTeX_states) /*total number of \eTeX's integer parameters*/ +@# +@d int_pars etex_int_pars /*total number of integer parameters*/ +@d count_base (int_base+int_pars) /*256 user \.{\\count} registers*/ +@d del_code_base (count_base+256) /*256 delimiter code mappings*/ +@d dimen_base (del_code_base+256) /*beginning of region 6*/ +@# +@d del_code(A) eqtb[del_code_base+A].i +@d count(A) eqtb[count_base+A].i +@d int_par(A) eqtb[int_base+A].i /*an integer parameter*/ +@d pretolerance int_par(pretolerance_code) +@d tolerance int_par(tolerance_code) +@d line_penalty int_par(line_penalty_code) +@d hyphen_penalty int_par(hyphen_penalty_code) +@d ex_hyphen_penalty int_par(ex_hyphen_penalty_code) +@d club_penalty int_par(club_penalty_code) +@d widow_penalty int_par(widow_penalty_code) +@d display_widow_penalty int_par(display_widow_penalty_code) +@d broken_penalty int_par(broken_penalty_code) +@d bin_op_penalty int_par(bin_op_penalty_code) +@d rel_penalty int_par(rel_penalty_code) +@d pre_display_penalty int_par(pre_display_penalty_code) +@d post_display_penalty int_par(post_display_penalty_code) +@d inter_line_penalty int_par(inter_line_penalty_code) +@d double_hyphen_demerits int_par(double_hyphen_demerits_code) +@d final_hyphen_demerits int_par(final_hyphen_demerits_code) +@d adj_demerits int_par(adj_demerits_code) +@d mag int_par(mag_code) +@d delimiter_factor int_par(delimiter_factor_code) +@d looseness int_par(looseness_code) +@d time int_par(time_code) +@d day int_par(day_code) +@d month int_par(month_code) +@d year int_par(year_code) +@d show_box_breadth int_par(show_box_breadth_code) +@d show_box_depth int_par(show_box_depth_code) +@d hbadness int_par(hbadness_code) +@d vbadness int_par(vbadness_code) +@d pausing int_par(pausing_code) +@d tracing_online int_par(tracing_online_code) +@d tracing_macros int_par(tracing_macros_code) +@d tracing_stats int_par(tracing_stats_code) +@d tracing_paragraphs int_par(tracing_paragraphs_code) +@d tracing_pages int_par(tracing_pages_code) +@d tracing_output int_par(tracing_output_code) +@d tracing_lost_chars int_par(tracing_lost_chars_code) +@d tracing_commands int_par(tracing_commands_code) +@d tracing_restores int_par(tracing_restores_code) +@d uc_hyph int_par(uc_hyph_code) +@d output_penalty int_par(output_penalty_code) +@d max_dead_cycles int_par(max_dead_cycles_code) +@d hang_after int_par(hang_after_code) +@d floating_penalty int_par(floating_penalty_code) +@d global_defs int_par(global_defs_code) +@d cur_fam int_par(cur_fam_code) +@d escape_char int_par(escape_char_code) +@d default_hyphen_char int_par(default_hyphen_char_code) +@d default_skew_char int_par(default_skew_char_code) +@d end_line_char int_par(end_line_char_code) +@d new_line_char int_par(new_line_char_code) +@d language int_par(language_code) +@d left_hyphen_min int_par(left_hyphen_min_code) +@d right_hyphen_min int_par(right_hyphen_min_code) +@d holding_inserts int_par(holding_inserts_code) +@d error_context_lines int_par(error_context_lines_code) +@# +@d tracing_assigns int_par(tracing_assigns_code) +@d tracing_groups int_par(tracing_groups_code) +@d tracing_ifs int_par(tracing_ifs_code) +@d tracing_scan_tokens int_par(tracing_scan_tokens_code) +@d tracing_nesting int_par(tracing_nesting_code) +@d expand_depth int_par(expand_depth_code) +@d saving_vdiscards int_par(saving_vdiscards_code) + +@<Assign the values |depth_threshold:=show_box_depth|...@>= +depth_threshold=show_box_depth; +breadth_max=show_box_breadth + +@ We can print the symbolic name of an integer parameter as follows. + +@p static void print_param(int @!n) +{@+switch (n) { +case pretolerance_code: print_esc("pretolerance");@+break; +case tolerance_code: print_esc("tolerance");@+break; +case line_penalty_code: print_esc("linepenalty");@+break; +case hyphen_penalty_code: print_esc("hyphenpenalty");@+break; +case ex_hyphen_penalty_code: print_esc("exhyphenpenalty");@+break; +case club_penalty_code: print_esc("clubpenalty");@+break; +case widow_penalty_code: print_esc("widowpenalty");@+break; +case display_widow_penalty_code: print_esc("displaywidowpenalty");@+break; +case broken_penalty_code: print_esc("brokenpenalty");@+break; +case bin_op_penalty_code: print_esc("binoppenalty");@+break; +case rel_penalty_code: print_esc("relpenalty");@+break; +case pre_display_penalty_code: print_esc("predisplaypenalty");@+break; +case post_display_penalty_code: print_esc("postdisplaypenalty");@+break; +case inter_line_penalty_code: print_esc("interlinepenalty");@+break; +case double_hyphen_demerits_code: print_esc("doublehyphendemerits");@+break; +case final_hyphen_demerits_code: print_esc("finalhyphendemerits");@+break; +case adj_demerits_code: print_esc("adjdemerits");@+break; +case mag_code: print_esc("mag");@+break; +case delimiter_factor_code: print_esc("delimiterfactor");@+break; +case looseness_code: print_esc("looseness");@+break; +case time_code: print_esc("time");@+break; +case day_code: print_esc("day");@+break; +case month_code: print_esc("month");@+break; +case year_code: print_esc("year");@+break; +case show_box_breadth_code: print_esc("showboxbreadth");@+break; +case show_box_depth_code: print_esc("showboxdepth");@+break; +case hbadness_code: print_esc("hbadness");@+break; +case vbadness_code: print_esc("vbadness");@+break; +case pausing_code: print_esc("pausing");@+break; +case tracing_online_code: print_esc("tracingonline");@+break; +case tracing_macros_code: print_esc("tracingmacros");@+break; +case tracing_stats_code: print_esc("tracingstats");@+break; +case tracing_paragraphs_code: print_esc("tracingparagraphs");@+break; +case tracing_pages_code: print_esc("tracingpages");@+break; +case tracing_output_code: print_esc("tracingoutput");@+break; +case tracing_lost_chars_code: print_esc("tracinglostchars");@+break; +case tracing_commands_code: print_esc("tracingcommands");@+break; +case tracing_restores_code: print_esc("tracingrestores");@+break; +case uc_hyph_code: print_esc("uchyph");@+break; +case output_penalty_code: print_esc("outputpenalty");@+break; +case max_dead_cycles_code: print_esc("maxdeadcycles");@+break; +case hang_after_code: print_esc("hangafter");@+break; +case floating_penalty_code: print_esc("floatingpenalty");@+break; +case global_defs_code: print_esc("globaldefs");@+break; +case cur_fam_code: print_esc("fam");@+break; +case escape_char_code: print_esc("escapechar");@+break; +case default_hyphen_char_code: print_esc("defaulthyphenchar");@+break; +case default_skew_char_code: print_esc("defaultskewchar");@+break; +case end_line_char_code: print_esc("endlinechar");@+break; +case new_line_char_code: print_esc("newlinechar");@+break; +case language_code: print_esc("language");@+break; +case left_hyphen_min_code: print_esc("lefthyphenmin");@+break; +case right_hyphen_min_code: print_esc("righthyphenmin");@+break; +case holding_inserts_code: print_esc("holdinginserts");@+break; +case error_context_lines_code: print_esc("errorcontextlines");@+break; +@/@<Cases for |print_param|@>@/ +default:print("[unknown integer parameter!]"); +} +} + +@ The integer parameter names must be entered into the hash table. + +@<Put each...@>= +primitive("pretolerance", assign_int, int_base+pretolerance_code);@/ +@!@:pretolerance\_}{\.{\\pretolerance} primitive@> +primitive("tolerance", assign_int, int_base+tolerance_code);@/ +@!@:tolerance\_}{\.{\\tolerance} primitive@> +primitive("linepenalty", assign_int, int_base+line_penalty_code);@/ +@!@:line\_penalty\_}{\.{\\linepenalty} primitive@> +primitive("hyphenpenalty", assign_int, int_base+hyphen_penalty_code);@/ +@!@:hyphen\_penalty\_}{\.{\\hyphenpenalty} primitive@> +primitive("exhyphenpenalty", assign_int, int_base+ex_hyphen_penalty_code);@/ +@!@:ex\_hyphen\_penalty\_}{\.{\\exhyphenpenalty} primitive@> +primitive("clubpenalty", assign_int, int_base+club_penalty_code);@/ +@!@:club\_penalty\_}{\.{\\clubpenalty} primitive@> +primitive("widowpenalty", assign_int, int_base+widow_penalty_code);@/ +@!@:widow\_penalty\_}{\.{\\widowpenalty} primitive@> +primitive("displaywidowpenalty", + assign_int, int_base+display_widow_penalty_code);@/ +@!@:display\_widow\_penalty\_}{\.{\\displaywidowpenalty} primitive@> +primitive("brokenpenalty", assign_int, int_base+broken_penalty_code);@/ +@!@:broken\_penalty\_}{\.{\\brokenpenalty} primitive@> +primitive("binoppenalty", assign_int, int_base+bin_op_penalty_code);@/ +@!@:bin\_op\_penalty\_}{\.{\\binoppenalty} primitive@> +primitive("relpenalty", assign_int, int_base+rel_penalty_code);@/ +@!@:rel\_penalty\_}{\.{\\relpenalty} primitive@> +primitive("predisplaypenalty", assign_int, int_base+pre_display_penalty_code);@/ +@!@:pre\_display\_penalty\_}{\.{\\predisplaypenalty} primitive@> +primitive("postdisplaypenalty", assign_int, int_base+post_display_penalty_code);@/ +@!@:post\_display\_penalty\_}{\.{\\postdisplaypenalty} primitive@> +primitive("interlinepenalty", assign_int, int_base+inter_line_penalty_code);@/ +@!@:inter\_line\_penalty\_}{\.{\\interlinepenalty} primitive@> +primitive("doublehyphendemerits", + assign_int, int_base+double_hyphen_demerits_code);@/ +@!@:double\_hyphen\_demerits\_}{\.{\\doublehyphendemerits} primitive@> +primitive("finalhyphendemerits", + assign_int, int_base+final_hyphen_demerits_code);@/ +@!@:final\_hyphen\_demerits\_}{\.{\\finalhyphendemerits} primitive@> +primitive("adjdemerits", assign_int, int_base+adj_demerits_code);@/ +@!@:adj\_demerits\_}{\.{\\adjdemerits} primitive@> +primitive("mag", assign_int, int_base+mag_code);@/ +@!@:mag\_}{\.{\\mag} primitive@> +primitive("delimiterfactor", assign_int, int_base+delimiter_factor_code);@/ +@!@:delimiter\_factor\_}{\.{\\delimiterfactor} primitive@> +primitive("looseness", assign_int, int_base+looseness_code);@/ +@!@:looseness\_}{\.{\\looseness} primitive@> +primitive("time", assign_int, int_base+time_code);@/ +@!@:time\_}{\.{\\time} primitive@> +primitive("day", assign_int, int_base+day_code);@/ +@!@:day\_}{\.{\\day} primitive@> +primitive("month", assign_int, int_base+month_code);@/ +@!@:month\_}{\.{\\month} primitive@> +primitive("year", assign_int, int_base+year_code);@/ +@!@:year\_}{\.{\\year} primitive@> +primitive("showboxbreadth", assign_int, int_base+show_box_breadth_code);@/ +@!@:show\_box\_breadth\_}{\.{\\showboxbreadth} primitive@> +primitive("showboxdepth", assign_int, int_base+show_box_depth_code);@/ +@!@:show\_box\_depth\_}{\.{\\showboxdepth} primitive@> +primitive("hbadness", assign_int, int_base+hbadness_code);@/ +@!@:hbadness\_}{\.{\\hbadness} primitive@> +primitive("vbadness", assign_int, int_base+vbadness_code);@/ +@!@:vbadness\_}{\.{\\vbadness} primitive@> +primitive("pausing", assign_int, int_base+pausing_code);@/ +@!@:pausing\_}{\.{\\pausing} primitive@> +primitive("tracingonline", assign_int, int_base+tracing_online_code);@/ +@!@:tracing\_online\_}{\.{\\tracingonline} primitive@> +primitive("tracingmacros", assign_int, int_base+tracing_macros_code);@/ +@!@:tracing\_macros\_}{\.{\\tracingmacros} primitive@> +primitive("tracingstats", assign_int, int_base+tracing_stats_code);@/ +@!@:tracing\_stats\_}{\.{\\tracingstats} primitive@> +primitive("tracingparagraphs", assign_int, int_base+tracing_paragraphs_code);@/ +@!@:tracing\_paragraphs\_}{\.{\\tracingparagraphs} primitive@> +primitive("tracingpages", assign_int, int_base+tracing_pages_code);@/ +@!@:tracing\_pages\_}{\.{\\tracingpages} primitive@> +primitive("tracingoutput", assign_int, int_base+tracing_output_code);@/ +@!@:tracing\_output\_}{\.{\\tracingoutput} primitive@> +primitive("tracinglostchars", assign_int, int_base+tracing_lost_chars_code);@/ +@!@:tracing\_lost\_chars\_}{\.{\\tracinglostchars} primitive@> +primitive("tracingcommands", assign_int, int_base+tracing_commands_code);@/ +@!@:tracing\_commands\_}{\.{\\tracingcommands} primitive@> +primitive("tracingrestores", assign_int, int_base+tracing_restores_code);@/ +@!@:tracing\_restores\_}{\.{\\tracingrestores} primitive@> +primitive("uchyph", assign_int, int_base+uc_hyph_code);@/ +@!@:uc\_hyph\_}{\.{\\uchyph} primitive@> +primitive("outputpenalty", assign_int, int_base+output_penalty_code);@/ +@!@:output\_penalty\_}{\.{\\outputpenalty} primitive@> +primitive("maxdeadcycles", assign_int, int_base+max_dead_cycles_code);@/ +@!@:max\_dead\_cycles\_}{\.{\\maxdeadcycles} primitive@> +primitive("hangafter", assign_int, int_base+hang_after_code);@/ +@!@:hang\_after\_}{\.{\\hangafter} primitive@> +primitive("floatingpenalty", assign_int, int_base+floating_penalty_code);@/ +@!@:floating\_penalty\_}{\.{\\floatingpenalty} primitive@> +primitive("globaldefs", assign_int, int_base+global_defs_code);@/ +@!@:global\_defs\_}{\.{\\globaldefs} primitive@> +primitive("fam", assign_int, int_base+cur_fam_code);@/ +@!@:fam\_}{\.{\\fam} primitive@> +primitive("escapechar", assign_int, int_base+escape_char_code);@/ +@!@:escape\_char\_}{\.{\\escapechar} primitive@> +primitive("defaulthyphenchar", assign_int, int_base+default_hyphen_char_code);@/ +@!@:default\_hyphen\_char\_}{\.{\\defaulthyphenchar} primitive@> +primitive("defaultskewchar", assign_int, int_base+default_skew_char_code);@/ +@!@:default\_skew\_char\_}{\.{\\defaultskewchar} primitive@> +primitive("endlinechar", assign_int, int_base+end_line_char_code);@/ +@!@:end\_line\_char\_}{\.{\\endlinechar} primitive@> +primitive("newlinechar", assign_int, int_base+new_line_char_code);@/ +@!@:new\_line\_char\_}{\.{\\newlinechar} primitive@> +primitive("language", assign_int, int_base+language_code);@/ +@!@:language\_}{\.{\\language} primitive@> +primitive("lefthyphenmin", assign_int, int_base+left_hyphen_min_code);@/ +@!@:left\_hyphen\_min\_}{\.{\\lefthyphenmin} primitive@> +primitive("righthyphenmin", assign_int, int_base+right_hyphen_min_code);@/ +@!@:right\_hyphen\_min\_}{\.{\\righthyphenmin} primitive@> +primitive("holdinginserts", assign_int, int_base+holding_inserts_code);@/ +@!@:holding\_inserts\_}{\.{\\holdinginserts} primitive@> +primitive("errorcontextlines", assign_int, int_base+error_context_lines_code);@/ +@!@:error\_context\_lines\_}{\.{\\errorcontextlines} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case assign_int: if (chr_code < count_base) print_param(chr_code-int_base); + else{@+print_esc("count");print_int(chr_code-count_base); + } @+break; + +@ The integer parameters should really be initialized by a macro package; +the following initialization does the minimum to keep \TeX\ from +complete failure. +@^null delimiter@> + +@<Initialize table entries...@>= +for (k=int_base; k<=del_code_base-1; k++) eqtb[k].i=0; +mag=1000;tolerance=10000;hang_after=1;max_dead_cycles=25; +escape_char='\\';end_line_char=carriage_return; +for (k=0; k<=255; k++) del_code(k)=-1; +del_code('.')=0; /*this null delimiter is used in error recovery*/ + +@ The following procedure, which is called just before \TeX\ initializes its +input and output, establishes the initial values of the date and time. +This does include too, for system integrators, the creation date and +the reference moment for the timer---\Prote\ extensions. If the system +supports environment variables, if |FORCE_SOURCE_DATE| is set to $1$ and +|SOURCE_DATE_EPOCH| is set, the date related values: year, month, day +and time, including creation date, will be taken relative from the value +defined by |SOURCE_DATE_EPOCH|. +@^creation date@> +@^reference time@> +@^system dependencies@> +k\TeX\ calls |tl_now| to obtain the current time (UTC) as a |tm| structure. +@p static void fix_date_and_time(void) +{@+ struct tm *gmt=tl_now(); + time=sys_time= gmt->tm_hour*60+gmt->tm_min;/*minutes since midnight*/ + day=sys_day= gmt->tm_mday;/*day of the month*/ + month=sys_month=gmt->tm_mon+1;/*month of the year*/ + year=sys_year=gmt->tm_year+1900;/*Anno Domini*/ +} + +@ @<Show equivalent |n|, in region 5@>= +{@+if (n < count_base) print_param(n-int_base); +else if (n < del_code_base) + {@+print_esc("count");print_int(n-count_base); + } +else{@+print_esc("delcode");print_int(n-del_code_base); + } +print_char('=');print_int(eqtb[n].i); +} + +@ @<Set variable |c| to the current escape character@>=c=escape_char + +@ @<Character |s| is the current new-line character@>=s==new_line_char + +@ \TeX\ is occasionally supposed to print diagnostic information that +goes only into the transcript file, unless |tracing_online| is positive. +Here are two routines that adjust the destination of print commands: + +@p static void begin_diagnostic(void) /*prepare to do some tracing*/ +{@+old_setting=selector; +if ((tracing_online <= 0)&&(selector==term_and_log)) + {@+decr(selector); + if (history==spotless) history=warning_issued; + } +} +@# +static void end_diagnostic(bool @!blank_line) + /*restore proper conditions after tracing*/ +{@+print_nl(""); +if (blank_line) print_ln(); +selector=old_setting; +} + +@ Of course we had better declare a few more global variables, if the previous +routines are going to work. + +@<Glob...@>= +static int @!old_setting; +static int @!sys_time, @!sys_day, @!sys_month, @!sys_year; + /*date and time supplied by external system*/ + +@ The final region of |eqtb| contains the dimension parameters defined +here, and the 256 \.{\\dimen} registers. + +@d par_indent_code 0 /*indentation of paragraphs*/ +@d math_surround_code 1 /*space around math in text*/ +@d line_skip_limit_code 2 /*threshold for |line_skip| instead of |baseline_skip|*/ +@d hsize_code 3 /*line width in horizontal mode*/ +@d vsize_code 4 /*page height in vertical mode*/ +@d max_depth_code 5 /*maximum depth of boxes on main pages*/ +@d split_max_depth_code 6 /*maximum depth of boxes on split pages*/ +@d box_max_depth_code 7 /*maximum depth of explicit vboxes*/ +@d hfuzz_code 8 /*tolerance for overfull hbox messages*/ +@d vfuzz_code 9 /*tolerance for overfull vbox messages*/ +@d delimiter_shortfall_code 10 /*maximum amount uncovered by variable delimiters*/ +@d null_delimiter_space_code 11 /*blank space in null delimiters*/ +@d script_space_code 12 /*extra space after subscript or superscript*/ +@d pre_display_size_code 13 /*length of text preceding a display*/ +@d display_width_code 14 /*length of line for displayed equation*/ +@d display_indent_code 15 /*indentation of line for displayed equation*/ +@d overfull_rule_code 16 /*width of rule that identifies overfull hboxes*/ +@d hang_indent_code 17 /*amount of hanging indentation*/ +@d h_offset_code 18 /*amount of horizontal offset when shipping pages out*/ +@d v_offset_code 19 /*amount of vertical offset when shipping pages out*/ +@d emergency_stretch_code 20 /*reduces badnesses on final pass of line-breaking*/ +@d page_width_code 21 /*current paper page width*/ +@d page_height_code 22 /*current paper page height*/ +@d dimen_pars 23 /*total number of dimension parameters*/ +@d scaled_base (dimen_base+dimen_pars) + /*table of 256 user-defined \.{\\dimen} registers*/ +@d eqtb_size (scaled_base+255) /*largest subscript of |eqtb|*/ +@# +@d dimen(A) eqtb[scaled_base+A].sc +@d dimen_par(A) eqtb[dimen_base+A].sc /*a scaled quantity*/ +@d dimen_hfactor(A) hfactor_eqtb[scaled_base+A].sc +@d dimen_vfactor(A) vfactor_eqtb[scaled_base+A].sc +@d dimen_par_hfactor(A) hfactor_eqtb[dimen_base+A].sc +@d dimen_par_vfactor(A) vfactor_eqtb[dimen_base+A].sc +@d par_indent dimen_par(par_indent_code) +@d math_surround dimen_par(math_surround_code) +@d line_skip_limit dimen_par(line_skip_limit_code) +@d hsize dimen_par(hsize_code) +@d vsize dimen_par(vsize_code) +@d max_depth dimen_par(max_depth_code) +@d split_max_depth dimen_par(split_max_depth_code) +@d box_max_depth dimen_par(box_max_depth_code) +@d hfuzz dimen_par(hfuzz_code) +@d vfuzz dimen_par(vfuzz_code) +@d delimiter_shortfall dimen_par(delimiter_shortfall_code) +@d null_delimiter_space dimen_par(null_delimiter_space_code) +@d script_space dimen_par(script_space_code) +@d pre_display_size dimen_par(pre_display_size_code) +@d display_width dimen_par(display_width_code) +@d display_indent dimen_par(display_indent_code) +@d overfull_rule dimen_par(overfull_rule_code) +@d hang_indent dimen_par(hang_indent_code) +@d h_offset dimen_par(h_offset_code) +@d v_offset dimen_par(v_offset_code) +@d emergency_stretch dimen_par(emergency_stretch_code) +@d page_height dimen_par(page_height_code) + +@p static void print_length_param(int @!n) +{@+switch (n) { +case par_indent_code: print_esc("parindent");@+break; +case math_surround_code: print_esc("mathsurround");@+break; +case line_skip_limit_code: print_esc("lineskiplimit");@+break; +case hsize_code: print_esc("hsize");@+break; +case vsize_code: print_esc("vsize");@+break; +case max_depth_code: print_esc("maxdepth");@+break; +case split_max_depth_code: print_esc("splitmaxdepth");@+break; +case box_max_depth_code: print_esc("boxmaxdepth");@+break; +case hfuzz_code: print_esc("hfuzz");@+break; +case vfuzz_code: print_esc("vfuzz");@+break; +case delimiter_shortfall_code: print_esc("delimitershortfall");@+break; +case null_delimiter_space_code: print_esc("nulldelimiterspace");@+break; +case script_space_code: print_esc("scriptspace");@+break; +case pre_display_size_code: print_esc("predisplaysize");@+break; +case display_width_code: print_esc("displaywidth");@+break; +case display_indent_code: print_esc("displayindent");@+break; +case overfull_rule_code: print_esc("overfullrule");@+break; +case hang_indent_code: print_esc("hangindent");@+break; +case h_offset_code: print_esc("hoffset");@+break; +case v_offset_code: print_esc("voffset");@+break; +case emergency_stretch_code: print_esc("emergencystretch");@+break; +case page_width_code: print_esc("pagewidth");@+break; +case page_height_code: print_esc("pageheight");@+break; +default:print("[unknown dimen parameter!]"); +} +} + +@ @<Put each...@>= +primitive("parindent", assign_dimen, dimen_base+par_indent_code);@/ +@!@:par\_indent\_}{\.{\\parindent} primitive@> +primitive("mathsurround", assign_dimen, dimen_base+math_surround_code);@/ +@!@:math\_surround\_}{\.{\\mathsurround} primitive@> +primitive("lineskiplimit", assign_dimen, dimen_base+line_skip_limit_code);@/ +@!@:line\_skip\_limit\_}{\.{\\lineskiplimit} primitive@> +primitive("hsize", assign_dimen, dimen_base+hsize_code);@/ +@!@:hsize\_}{\.{\\hsize} primitive@> +primitive("vsize", assign_dimen, dimen_base+vsize_code);@/ +@!@:vsize\_}{\.{\\vsize} primitive@> +primitive("maxdepth", assign_dimen, dimen_base+max_depth_code);@/ +@!@:max\_depth\_}{\.{\\maxdepth} primitive@> +primitive("splitmaxdepth", assign_dimen, dimen_base+split_max_depth_code);@/ +@!@:split\_max\_depth\_}{\.{\\splitmaxdepth} primitive@> +primitive("boxmaxdepth", assign_dimen, dimen_base+box_max_depth_code);@/ +@!@:box\_max\_depth\_}{\.{\\boxmaxdepth} primitive@> +primitive("hfuzz", assign_dimen, dimen_base+hfuzz_code);@/ +@!@:hfuzz\_}{\.{\\hfuzz} primitive@> +primitive("vfuzz", assign_dimen, dimen_base+vfuzz_code);@/ +@!@:vfuzz\_}{\.{\\vfuzz} primitive@> +primitive("delimitershortfall", + assign_dimen, dimen_base+delimiter_shortfall_code);@/ +@!@:delimiter\_shortfall\_}{\.{\\delimitershortfall} primitive@> +primitive("nulldelimiterspace", + assign_dimen, dimen_base+null_delimiter_space_code);@/ +@!@:null\_delimiter\_space\_}{\.{\\nulldelimiterspace} primitive@> +primitive("scriptspace", assign_dimen, dimen_base+script_space_code);@/ +@!@:script\_space\_}{\.{\\scriptspace} primitive@> +primitive("predisplaysize", assign_dimen, dimen_base+pre_display_size_code);@/ +@!@:pre\_display\_size\_}{\.{\\predisplaysize} primitive@> +primitive("displaywidth", assign_dimen, dimen_base+display_width_code);@/ +@!@:display\_width\_}{\.{\\displaywidth} primitive@> +primitive("displayindent", assign_dimen, dimen_base+display_indent_code);@/ +@!@:display\_indent\_}{\.{\\displayindent} primitive@> +primitive("overfullrule", assign_dimen, dimen_base+overfull_rule_code);@/ +@!@:overfull\_rule\_}{\.{\\overfullrule} primitive@> +primitive("hangindent", assign_dimen, dimen_base+hang_indent_code);@/ +@!@:hang\_indent\_}{\.{\\hangindent} primitive@> +primitive("hoffset", assign_dimen, dimen_base+h_offset_code);@/ +@!@:h\_offset\_}{\.{\\hoffset} primitive@> +primitive("voffset", assign_dimen, dimen_base+v_offset_code);@/ +@!@:v\_offset\_}{\.{\\voffset} primitive@> +primitive("emergencystretch", assign_dimen, dimen_base+emergency_stretch_code);@/ +@!@:emergency\_stretch\_}{\.{\\emergencystretch} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case assign_dimen: if (chr_code < scaled_base) + print_length_param(chr_code-dimen_base); + else{@+print_esc("dimen");print_int(chr_code-scaled_base); + } @+break; + +@ @<Initialize table entries...@>= +for (k=dimen_base; k<=eqtb_size; k++) hfactor_eqtb[k].sc=vfactor_eqtb[k].sc=eqtb[k].sc=0; + +@ @<Show equivalent |n|, in region 6@>= +{@+if (n < scaled_base) print_length_param(n-dimen_base); +else{@+print_esc("dimen");print_int(n-scaled_base); + } +print_char('=');print_scaled(eqtb[n].sc);print("pt"); +} + +@ Here is a procedure that displays the contents of |eqtb[n]| +symbolically. + +@p @t\4@>@<Declare the procedure called |print_cmd_chr|@>@;@/ +#ifdef @!STAT +static void show_eqtb(pointer @!n) +{@+if (n < active_base) print_char('?'); /*this can't happen*/ +else if (n < glue_base) @<Show equivalent |n|, in region 1 or 2@>@; +else if (n < local_base) @<Show equivalent |n|, in region 3@>@; +else if (n < int_base) @<Show equivalent |n|, in region 4@>@; +else if (n < dimen_base) @<Show equivalent |n|, in region 5@>@; +else if (n <= eqtb_size) @<Show equivalent |n|, in region 6@>@; +else print_char('?'); /*this can't happen either*/ +} +#endif + +@ The last two regions of |eqtb| have fullword values instead of the +three fields |eq_level|, |eq_type|, and |equiv|. An |eq_type| is unnecessary, +but \TeX\ needs to store the |eq_level| information in another array +called |xeq_level|. + +@<Glob...@>= +static memory_word @!eqtb0[eqtb_size-active_base+1], *const @!eqtb = @!eqtb0-active_base; +static memory_word hfactor_eqtb0[dimen_pars+256]={{{0}}}, *const @!hfactor_eqtb = @!hfactor_eqtb0-dimen_base; +static memory_word vfactor_eqtb0[dimen_pars+256]={{{0}}}, *const @!vfactor_eqtb = @!vfactor_eqtb0-dimen_base; +static scaled par_shape_hfactor=0, par_shape_vfactor=0; +static scaled hhsize=0,hvsize=0; +static quarterword @!xeq_level0[eqtb_size-int_base+1], *const @!xeq_level = @!xeq_level0-int_base; + +@ @<Set init...@>= +for (k=int_base; k<=eqtb_size; k++) xeq_level[k]=level_one; + +@ When the debugging routine |search_mem| is looking for pointers having a +given value, it is interested only in regions 1 to~3 of~|eqtb|, and in the +first part of region~4. + +@<Search |eqtb| for equivalents equal to |p|@>= +for (q=active_base; q<=box_base+255; q++) + {@+if (equiv(q)==p) + {@+print_nl("EQUIV(");print_int(q);print_char(')'); + } + } + +@* The hash table. +Control sequences are stored and retrieved by means of a fairly standard hash +table algorithm called the method of ``coalescing lists'' (cf.\ Algorithm 6.4C +in {\sl The Art of Computer Programming\/}). Once a control sequence enters the +table, it is never removed, because there are complicated situations +involving \.{\\gdef} where the removal of a control sequence at the end of +a group would be a mistake preventable only by the introduction of a +complicated reference-count mechanism. + +The actual sequence of letters forming a control sequence identifier is +stored in the |str_pool| array together with all the other strings. An +auxiliary array |hash| consists of items with two halfword fields per +word. The first of these, called |next(p)|, points to the next identifier +belonging to the same coalesced list as the identifier corresponding to~|p|; +and the other, called |text(p)|, points to the |str_start| entry for +|p|'s identifier. If position~|p| of the hash table is empty, we have +|text(p)==0|; if position |p| is either empty or the end of a coalesced +hash list, we have |next(p)==0|. An auxiliary pointer variable called +|hash_used| is maintained in such a way that all locations |p >= hash_used| +are nonempty. The global variable |cs_count| tells how many multiletter +control sequences have been defined, if statistics are being kept. + +A global boolean variable called |no_new_control_sequence| is set to +|true| during the time that new hash table entries are forbidden. + +@d next(A) hash[A].lh /*link for coalesced lists*/ +@d text(A) hash[A].rh /*string number for control sequence name*/ +@d hash_is_full (hash_used==hash_base) /*test if all positions are occupied*/ +@d font_id_text(A) text(font_id_base+A) /*a frozen font identifier's name*/ + +@<Glob...@>= +static two_halves @!hash0[undefined_control_sequence-hash_base], *const @!hash = @!hash0-hash_base; + /*the hash table*/ +static pointer @!hash_used; /*allocation pointer for |hash|*/ +static bool @!no_new_control_sequence; /*are new identifiers legal?*/ +static int @!cs_count; /*total number of known identifiers*/ + +@ @<Set init...@>= +no_new_control_sequence=true; /*new identifiers are usually forbidden*/ +next(hash_base)=0;text(hash_base)=0; +for (k=hash_base+1; k<=undefined_control_sequence-1; k++) hash[k]=hash[hash_base]; + +@ @<Initialize table entries...@>= +hash_used=frozen_control_sequence; /*nothing is used*/ +cs_count=0; +eq_type(frozen_dont_expand)=dont_expand; +text(frozen_dont_expand)=s_no("notexpanded:"); +@.notexpanded:@> + +@ Here is the subroutine that searches the hash table for an identifier +that matches a given string of length |l > 1| appearing in |buffer[j dotdot +(j+l-1)]|. If the identifier is found, the corresponding hash table address +is returned. Otherwise, if the global variable |no_new_control_sequence| +is |true|, the dummy address |undefined_control_sequence| is returned. +Otherwise the identifier is inserted into the hash table and its location +is returned. + +@p static pointer id_lookup(int @!j, int @!l) /*search the hash table*/ +{@+ /*go here if you found it*/ +int h; /*hash code*/ +int @!d; /*number of characters in incomplete current string*/ +pointer @!p; /*index in |hash| array*/ +int @!k; /*index in |buffer| array*/ +@<Compute the hash code |h|@>; +p=h+hash_base; /*we start searching here; note that |0 <= h < hash_prime|*/ +loop@+{@+if (text(p) > 0) if (length(text(p))==l) + if (str_eq_buf(text(p), j)) goto found; + if (next(p)==0) + {@+if (no_new_control_sequence) + p=undefined_control_sequence; + else@<Insert a new control sequence after |p|, then make |p| point to it@>; + goto found; + } + p=next(p); + } +found: return p; +} + +@ @<Insert a new control...@>= +{@+if (text(p) > 0) + {@+@/do@+{if (hash_is_full) overflow("hash size", hash_size); +@:TeX capacity exceeded hash size}{\quad hash size@> + decr(hash_used); + }@+ while (!(text(hash_used)==0)); /*search for an empty location in |hash|*/ + next(p)=hash_used;p=hash_used; + } +str_room(l);d=cur_length; +while (pool_ptr > str_start[str_ptr]) + {@+decr(pool_ptr);str_pool[pool_ptr+l]=str_pool[pool_ptr]; + } /*move current string up to make room for another*/ +for (k=j; k<=j+l-1; k++) append_char(buffer[k]); +text(p)=make_string();pool_ptr=pool_ptr+d; +#ifdef @!STAT +incr(cs_count); +#endif +@;@/ +} + +@ The value of |hash_prime| should be roughly 85\pct! of |hash_size|, and it +should be a prime number. The theory of hashing tells us to expect fewer +than two table probes, on the average, when the search is successful. +[See J.~S. Vitter, {\sl Journal of the ACM\/ \bf30} (1983), 231--258.] +@^Vitter, Jeffrey Scott@> + +@<Compute the hash code |h|@>= +h=buffer[j]; +for (k=j+1; k<=j+l-1; k++) + {@+h=h+h+buffer[k]; + while (h >= hash_prime) h=h-hash_prime; + } + +@ Single-character control sequences do not need to be looked up in a hash +table, since we can use the character code itself as a direct address. +The procedure |print_cs| prints the name of a control sequence, given +a pointer to its address in |eqtb|. A space is printed after the name +unless it is a single nonletter or an active character. This procedure +might be invoked with invalid data, so it is ``extra robust.'' The +individual characters must be printed one at a time using |print|, since +they may be unprintable. + +@<Basic printing...@>= +static void print_cs(int @!p) /*prints a purported control sequence*/ +{@+if (p < hash_base) /*single character*/ + if (p >= single_base) + if (p==null_cs) + {@+print_esc("csname");print_esc("endcsname");print_char(' '); + } + else{@+printn_esc(p-single_base); + if (cat_code(p-single_base)==letter) print_char(' '); + } + else if (p < active_base) print_esc("IMPOSSIBLE."); +@.IMPOSSIBLE@> + else printn(p-active_base); +else if (p >= undefined_control_sequence) print_esc("IMPOSSIBLE."); +else if ((text(p) < 0)||(text(p) >= str_ptr)) print_esc("NONEXISTENT."); +@.NONEXISTENT@> +else{@+if (p==frozen_primitive) print_esc("primitive"); + printn_esc(text(p));print_char(' '); + } +} + +@ Here is a similar procedure; it avoids the error checks, and it never +prints a space after the control sequence. + +@<Basic printing procedures@>= +static void sprint_cs(pointer @!p) /*prints a control sequence*/ +{@+if (p < hash_base) + if (p < single_base) printn(p-active_base); + else if (p < null_cs) printn_esc(p-single_base); + else{@+print_esc("csname");print_esc("endcsname"); + } +else printn_esc(text(p)); } -\subsubsection{Unpacking} -In the function |unpackage| the pointer |p| might now point to an -hset, vset, hpack or vpack node instead of a vbox or hbox node. -We have to adapte the following test to this new situation. +@ We need to put \TeX's ``primitive'' control sequences into the hash +table, together with their command code (which will be the |eq_type|) +and an operand (which will be the |equiv|). The |primitive| procedure +does this, in a way that no \TeX\ user can. The global value |cur_val| +contains the new |eqtb| pointer after |primitive| has acted. +@p +#ifdef @!INIT +static void primitive(char *@!str, quarterword @!c, halfword @!o) +{@+str_number s=s_no(str); +int k; /*index into |str_pool|*/ +int @!j; /*index into |buffer|*/ +small_number @!l; /*length of the string*/ +pointer @!p; /*pointer in |ROM|*/ +if (s < 256) cur_val=s+single_base; +else{@+k=str_start[s];l=str_start[s+1]-k; + /*we will move |s| into the (possibly non-empty) |buffer|*/ + if (first+l > buf_size+1) + overflow("buffer size", buf_size); +@:TeX capacity exceeded buffer size}{\quad buffer size@> + for (j=0; j<=l-1; j++) buffer[first+j]=so(str_pool[k+j]); + cur_val=id_lookup(first, l); /*|no_new_control_sequence| is |false|*/ + flush_string;text(cur_val)=s; /*we don't want to have the string twice*/ + } +eq_level(cur_val)=level_one;eq_type(cur_val)=c;equiv(cur_val)=o; +@<Add primitive definition to the |ROM| array@>; +} +#endif + +@ Many of \TeX's primitives need no |equiv|, since they are identifiable +by their |eq_type| alone. These primitives are loaded into the hash table +as follows: + +@<Put each of \TeX's primitives into the hash table@>= +primitive(" ", ex_space, 0);@/ +@!@:Single-character primitives /}{\quad\.{\\\ }@> +primitive("/", ital_corr, 0);@/ +@!@:Single-character primitives /}{\quad\.{\\/}@> +primitive("accent", accent, 0);@/ +@!@:accent\_}{\.{\\accent} primitive@> +primitive("advance", advance, 0);@/ +@!@:advance\_}{\.{\\advance} primitive@> +primitive("afterassignment", after_assignment, 0);@/ +@!@:after\_assignment\_}{\.{\\afterassignment} primitive@> +primitive("aftergroup", after_group, 0);@/ +@!@:after\_group\_}{\.{\\aftergroup} primitive@> +primitive("begingroup", begin_group, 0);@/ +@!@:begin\_group\_}{\.{\\begingroup} primitive@> +primitive("char", char_num, 0);@/ +@!@:char\_}{\.{\\char} primitive@> +primitive("csname", cs_name, 0);@/ +@!@:cs\_name\_}{\.{\\csname} primitive@> +primitive("delimiter", delim_num, 0);@/ +@!@:delimiter\_}{\.{\\delimiter} primitive@> +primitive("divide", divide, 0);@/ +@!@:divide\_}{\.{\\divide} primitive@> +primitive("endcsname", end_cs_name, 0);@/ +@!@:end\_cs\_name\_}{\.{\\endcsname} primitive@> +primitive("endgroup", end_group, 0); +@!@:end\_group\_}{\.{\\endgroup} primitive@> +text(frozen_end_group)=text(cur_val);eqtb[frozen_end_group]=eqtb[cur_val];@/ +primitive("expandafter", expand_after, 0);@/ +@!@:expand\_after\_}{\.{\\expandafter} primitive@> +primitive("font", def_font, 0);@/ +@!@:font\_}{\.{\\font} primitive@> +primitive("fontdimen", assign_font_dimen, 0);@/ +@!@:font\_dimen\_}{\.{\\fontdimen} primitive@> +primitive("halign", halign, 0);@/ +@!@:halign\_}{\.{\\halign} primitive@> +primitive("hrule", hrule, 0);@/ +@!@:hrule\_}{\.{\\hrule} primitive@> +primitive("ignorespaces", ignore_spaces, 0);@/ +@!@:ignore\_spaces\_}{\.{\\ignorespaces} primitive@> +primitive("insert", insert, 0);@/ +@!@:insert\_}{\.{\\insert} primitive@> +primitive("mark", mark, 0);@/ +@!@:mark\_}{\.{\\mark} primitive@> +primitive("mathaccent", math_accent, 0);@/ +@!@:math\_accent\_}{\.{\\mathaccent} primitive@> +primitive("mathchar", math_char_num, 0);@/ +@!@:math\_char\_}{\.{\\mathchar} primitive@> +primitive("mathchoice", math_choice, 0);@/ +@!@:math\_choice\_}{\.{\\mathchoice} primitive@> +primitive("multiply", multiply, 0);@/ +@!@:multiply\_}{\.{\\multiply} primitive@> +primitive("noalign", no_align, 0);@/ +@!@:no\_align\_}{\.{\\noalign} primitive@> +primitive("noboundary", no_boundary, 0);@/ +@!@:no\_boundary\_}{\.{\\noboundary} primitive@> +primitive("noexpand", no_expand, 0);@/ +@!@:no\_expand\_}{\.{\\noexpand} primitive@> +primitive("nonscript", non_script, 0);@/ +@!@:non\_script\_}{\.{\\nonscript} primitive@> +primitive("omit", omit, 0);@/ +@!@:omit\_}{\.{\\omit} primitive@> +primitive("parshape", set_shape, par_shape_loc);@/ +@!@:par\_shape\_}{\.{\\parshape} primitive@> +primitive("penalty", break_penalty, 0);@/ +@!@:penalty\_}{\.{\\penalty} primitive@> +primitive("prevgraf", set_prev_graf, 0);@/ +@!@:prev\_graf\_}{\.{\\prevgraf} primitive@> +primitive("radical", radical, 0);@/ +@!@:radical\_}{\.{\\radical} primitive@> +primitive("read", read_to_cs, 0);@/ +@!@:read\_}{\.{\\read} primitive@> +primitive("relax", relax, 256); /*cf.\ |scan_file_name|*/ +@!@:relax\_}{\.{\\relax} primitive@> +text(frozen_relax)=text(cur_val);eqtb[frozen_relax]=eqtb[cur_val];@/ +primitive("setbox", set_box, 0);@/ +@!@:set\_box\_}{\.{\\setbox} primitive@> +primitive("the", the, 0);@/ +@!@:the\_}{\.{\\the} primitive@> +primitive("toks", toks_register, mem_bot);@/ +@!@:toks\_}{\.{\\toks} primitive@> +primitive("vadjust", vadjust, 0);@/ +@!@:vadjust\_}{\.{\\vadjust} primitive@> +primitive("valign", valign, 0);@/ +@!@:valign\_}{\.{\\valign} primitive@> +primitive("vcenter", vcenter, 0);@/ +@!@:vcenter\_}{\.{\\vcenter} primitive@> +primitive("vrule", vrule, 0);@/ +@!@:vrule\_}{\.{\\vrule} primitive@> + +@ Each primitive has a corresponding inverse, so that it is possible to +display the cryptic numeric contents of |eqtb| in symbolic form. +Every call of |primitive| in this program is therefore accompanied by some +straightforward code that forms part of the |print_cmd_chr| routine +below. + +@<Cases of |print_cmd_chr|...@>= +case accent: print_esc("accent");@+break; +case advance: print_esc("advance");@+break; +case after_assignment: print_esc("afterassignment");@+break; +case after_group: print_esc("aftergroup");@+break; +case assign_font_dimen: print_esc("fontdimen");@+break; +case begin_group: print_esc("begingroup");@+break; +case break_penalty: print_esc("penalty");@+break; +case char_num: print_esc("char");@+break; +case cs_name: print_esc("csname");@+break; +case def_font: print_esc("font");@+break; +case delim_num: print_esc("delimiter");@+break; +case divide: print_esc("divide");@+break; +case end_cs_name: print_esc("endcsname");@+break; +case end_group: print_esc("endgroup");@+break; +case ex_space: print_esc(" ");@+break; +case expand_after: switch (chr_code) { +case 0: print_esc("expandafter");@+break; +@/@<Cases of |expandafter| for |print_cmd_chr|@>@/ +} @+break; /*there are no other cases*/ +case halign: print_esc("halign");@+break; +case hrule: print_esc("hrule");@+break; +case ignore_spaces: print_esc("ignorespaces");@+break; +case insert: print_esc("insert");@+break; +case ital_corr: print_esc("/");@+break; +case mark: print_esc("mark");@+break; +case math_accent: print_esc("mathaccent");@+break; +case math_char_num: print_esc("mathchar");@+break; +case math_choice: print_esc("mathchoice");@+break; +case multiply: print_esc("multiply");@+break; +case no_align: print_esc("noalign");@+break; +case no_boundary: print_esc("noboundary");@+break; +case no_expand: print_esc("noexpand");@+break; +case non_script: print_esc("nonscript");@+break; +case omit: print_esc("omit");@+break; +case radical: print_esc("radical");@+break; +case read_to_cs: if (chr_code==0) print_esc("read") + @<Cases of |read| for |print_cmd_chr|@>;@+break; +case relax: print_esc("relax");@+break; +case set_box: print_esc("setbox");@+break; +case set_prev_graf: print_esc("prevgraf");@+break; +case set_shape: switch (chr_code) { + case par_shape_loc: print_esc("parshape");@+break; + @<Cases of |set_shape| for |print_cmd_chr|@>@;@/ + } @+break; /*there are no other cases*/ +case the: if (chr_code==0) print_esc("the") + @<Cases of |the| for |print_cmd_chr|@>;@+break; +case toks_register: @<Cases of |toks_register| for |print_cmd_chr|@>@;@+break; +case vadjust: print_esc("vadjust");@+break; +case valign: print_esc("valign");@+break; +case vcenter: print_esc("vcenter");@+break; +case vrule: print_esc("vrule");@+break; + +@ We will deal with the other primitives later, at some point in the program +where their |eq_type| and |equiv| values are more meaningful. For example, +the primitives for math mode will be loaded when we consider the routines +that deal with formulas. It is easy to find where each particular +primitive was treated by looking in the index at the end; for example, the +section where |"radical"| entered |eqtb| is listed under `\.{\\radical} +primitive'. (Primitives consisting of a single nonalphabetic character, +@!like `\.{\\/}', are listed under `Single-character primitives'.) +@!@^Single-character primitives@> + +Meanwhile, this is a convenient place to catch up on something we were unable +to do before the hash table was defined: + +@<Print the font identifier for |font(p)|@>= +printn_esc(font_id_text(font(p))) + +@* Saving and restoring equivalents. +The nested structure provided by `$\.{\char'173}\ldots\.{\char'175}$' groups +in \TeX\ means that |eqtb| entries valid in outer groups should be saved +and restored later if they are overridden inside the braces. When a new |eqtb| +value is being assigned, the program therefore checks to see if the previous +entry belongs to an outer level. In such a case, the old value is placed +on the |save_stack| just before the new value enters |eqtb|. At the +end of a grouping level, i.e., when the right brace is sensed, the +|save_stack| is used to restore the outer values, and the inner ones are +destroyed. + +Entries on the |save_stack| are of type |memory_word|. The top item on +this stack is |save_stack[p]|, where |p==save_ptr-1|; it contains three +fields called |save_type|, |save_level|, and |save_index|, and it is +interpreted in one of five ways: + +\yskip\hangg 1) If |save_type(p)==restore_old_value|, then +|save_index(p)| is a location in |eqtb| whose current value should +be destroyed at the end of the current group and replaced by |save_stack[p-1]|. +Furthermore if |save_index(p) >= int_base|, then |save_level(p)| +should replace the corresponding entry in |xeq_level|. + +\yskip\hangg 2) If |save_type(p)==restore_zero|, then |save_index(p)| +is a location in |eqtb| whose current value should be destroyed at the end +of the current group, when it should be +replaced by the value of |eqtb[undefined_control_sequence]|. + +\yskip\hangg 3) If |save_type(p)==insert_token|, then |save_index(p)| +is a token that should be inserted into \TeX's input when the current +group ends. + +\yskip\hangg 4) If |save_type(p)==level_boundary|, then |save_level(p)| +is a code explaining what kind of group we were previously in, and +|save_index(p)| points to the level boundary word at the bottom of +the entries for that group. +Furthermore, in extended \eTeX\ mode, |save_stack[p-1]| contains the +source line number at which the current level of grouping was entered. + +\yskip\hang 5) If |save_type(p)==restore_sa|, then |sa_chain| points to a +chain of sparse array entries to be restored at the end of the current +group. Furthermore |save_index(p)| and |save_level(p)| should replace +the values of |sa_chain| and |sa_level| respectively. + +@d save_type(A) save_stack[A].hh.b0 /*classifies a |save_stack| entry*/ +@d save_level(A) save_stack[A].hh.b1 + /*saved level for regions 5 and 6, or group code*/ +@d save_index(A) save_stack[A].hh.rh + /*|eqtb| location or token or |save_stack| location*/ +@d restore_old_value 0 /*|save_type| when a value should be restored later*/ +@d restore_zero 1 /*|save_type| when an undefined entry should be restored*/ +@d insert_token 2 /*|save_type| when a token is being saved for later use*/ +@d level_boundary 3 /*|save_type| corresponding to beginning of group*/ +@d restore_sa 4 /*|save_type| when sparse array entries should be restored*/ + +@p @t\4@>@<Declare \eTeX\ procedures for tracing and input@>@; + +@ Here are the group codes that are used to discriminate between different +kinds of groups. They allow \TeX\ to decide what special actions, if any, +should be performed when a group ends. +\def\grp{\.{\char'173...\char'175}} + +Some groups are not supposed to be ended by right braces. For example, +the `\.\$' that begins a math formula causes a |math_shift_group| to +be started, and this should be terminated by a matching `\.\$'. Similarly, +a group that starts with \.{\\left} should end with \.{\\right}, and +one that starts with \.{\\begingroup} should end with \.{\\endgroup}. + +@d bottom_level 0 /*group code for the outside world*/ +@d simple_group 1 /*group code for local structure only*/ +@d hbox_group 2 /*code for `\.{\\hbox}\grp'*/ +@d adjusted_hbox_group 3 /*code for `\.{\\hbox}\grp' in vertical mode*/ +@d vbox_group 4 /*code for `\.{\\vbox}\grp'*/ +@d vtop_group 5 /*code for `\.{\\vtop}\grp'*/ +@d align_group 6 /*code for `\.{\\halign}\grp', `\.{\\valign}\grp'*/ +@d no_align_group 7 /*code for `\.{\\noalign}\grp'*/ +@d output_group 8 /*code for output routine*/ +@d math_group 9 /*code for, e.g., `\.{\char'136}\grp'*/ +@d disc_group 10 /*code for `\.{\\discretionary}\grp\grp\grp'*/ +@d insert_group 11 /*code for `\.{\\insert}\grp', `\.{\\vadjust}\grp'*/ +@d vcenter_group 12 /*code for `\.{\\vcenter}\grp'*/ +@d math_choice_group 13 /*code for `\.{\\mathchoice}\grp\grp\grp\grp'*/ +@d semi_simple_group 14 /*code for `\.{\\begingroup...\\endgroup}'*/ +@d math_shift_group 15 /*code for `\.{\$...\$}'*/ +@d math_left_group 16 /*code for `\.{\\left...\\right}'*/ +@d page_group 17 +@d stream_group 18 +@d stream_before_group 19 +@d stream_after_group 20 +@d outline_group 21 +@d max_group_code 21 + +@<Types...@>= +typedef int8_t group_code; /*|save_level| for a level boundary*/ + +@ The global variable |cur_group| keeps track of what sort of group we are +currently in. Another global variable, |cur_boundary|, points to the +topmost |level_boundary| word. And |cur_level| is the current depth of +nesting. The routines are designed to preserve the condition that no entry +in the |save_stack| or in |eqtb| ever has a level greater than |cur_level|. + +@ @<Glob...@>= +static memory_word @!save_stack[save_size+1]; +static memory_word @!save_hfactor[save_size+1]; +static memory_word @!save_vfactor[save_size+1]; +static int @!save_ptr; /*first unused entry on |save_stack|*/ +static int @!max_save_stack; /*maximum usage of save stack*/ +static quarterword @!cur_level; /*current nesting level for groups*/ +static group_code @!cur_group; /*current group type*/ +static int @!cur_boundary; /*where the current level begins*/ + +@ At this time it might be a good idea for the reader to review the introduction +to |eqtb| that was given above just before the long lists of parameter names. +Recall that the ``outer level'' of the program is |level_one|, since +undefined control sequences are assumed to be ``defined'' at |level_zero|. + +@<Set init...@>= +save_ptr=0;cur_level=level_one;cur_group=bottom_level;cur_boundary=0; +max_save_stack=0; + +@ The following macro is used to test if there is room for up to seven more +entries on |save_stack|. By making a conservative test like this, we can +get by with testing for overflow in only a few places. + +@d check_full_save_stack if (save_ptr > max_save_stack) + {@+max_save_stack=save_ptr; + if (max_save_stack > save_size-7) overflow("save size", save_size); +@:TeX capacity exceeded save size}{\quad save size@> + } + +@ Procedure |new_save_level| is called when a group begins. The +argument is a group identification code like `|hbox_group|'. After +calling this routine, it is safe to put five more entries on |save_stack|. + +In some cases integer-valued items are placed onto the +|save_stack| just below a |level_boundary| word, because this is a +convenient place to keep information that is supposed to ``pop up'' just +when the group has finished. +For example, when `\.{\\hbox to 100pt}\grp' is being treated, the 100pt +dimension is stored on |save_stack| just before |new_save_level| is +called. + +We use the notation |saved(k)| to stand for an integer item that +appears in location |save_ptr+k| of the save stack. + +@d saved(A) save_stack[save_ptr+A].i +@d saved_hfactor(A) save_hfactor[save_ptr+A].i +@d saved_vfactor(A) save_vfactor[save_ptr+A].i + +@p static void new_save_level(group_code @!c) /*begin a new level of grouping*/ +{@+check_full_save_stack; +if (eTeX_ex) + {@+saved(0)=line;incr(save_ptr); + } +save_type(save_ptr)=level_boundary;save_level(save_ptr)=cur_group; +save_index(save_ptr)=cur_boundary; +if (cur_level==max_quarterword) overflow("grouping levels", +@:TeX capacity exceeded grouping levels}{\quad grouping levels@> + max_quarterword-min_quarterword); + /*quit if |(cur_level+1)| is too big to be stored in |eqtb|*/ +cur_boundary=save_ptr;cur_group=c; +#ifdef @!STAT +if (tracing_groups > 0) group_trace(false); +#endif +@;@/ +incr(cur_level);incr(save_ptr); +} + +@ Just before an entry of |eqtb| is changed, the following procedure should +be called to update the other data structures properly. It is important +to keep in mind that reference counts in |mem| include references from +within |save_stack|, so these counts must be handled carefully. +@^reference counts@> + +@p static void eq_destroy(memory_word @!w) /*gets ready to forget |w|*/ +{@+pointer q; /*|equiv| field of |w|*/ +switch (eq_type_field(w)) { +case call: case long_call: case outer_call: case long_outer_call: delete_token_ref(equiv_field(w));@+break; +case glue_ref: delete_glue_ref(equiv_field(w));@+break; +case shape_ref: {@+q=equiv_field(w); /*we need to free a \.{\\parshape} block*/ + if (q!=null) free_node(q, info(q)+info(q)+1); + } @+break; /*such a block is |2 n+1| words long, where |n==info(q)|*/ +case box_ref: flush_node_list(equiv_field(w));@+break; +@/@<Cases for |eq_destroy|@>@/ +default:do_nothing; +} +} + +@ To save a value of |eqtb[p]| that was established at level |l|, we +can use the following subroutine. + +@p static void eq_save(pointer @!p, quarterword @!l) /*saves |eqtb[p]|*/ +{@+check_full_save_stack; +if (l==level_zero) save_type(save_ptr)=restore_zero; +else{@+save_stack[save_ptr]=eqtb[p]; + if (p>=dimen_base) + { save_hfactor[save_ptr]=hfactor_eqtb[p]; + save_vfactor[save_ptr]=vfactor_eqtb[p]; + } + else if (p==par_shape_loc) + { save_hfactor[save_ptr].i=par_shape_hfactor; + save_vfactor[save_ptr].i=par_shape_vfactor; + } + incr(save_ptr); + save_type(save_ptr)=restore_old_value; + } +save_level(save_ptr)=l;save_index(save_ptr)=p;incr(save_ptr); +} + +@ The procedure |eq_define| defines an |eqtb| entry having specified +|eq_type| and |equiv| fields, and saves the former value if appropriate. +This procedure is used only for entries in the first four regions of |eqtb|, +i.e., only for entries that have |eq_type| and |equiv| fields. +After calling this routine, it is safe to put four more entries on +|save_stack|, provided that there was room for four more entries before +the call, since |eq_save| makes the necessary test. + +@p +#ifdef @!STAT +#define assign_trace(A, B) if (tracing_assigns > 0) restore_trace(A, B); +#else +#define assign_trace(A, B) +#endif + +static void eq_define(pointer @!p, quarterword @!t, halfword @!e) + /*new data for |eqtb|*/ +{@+ +if (eTeX_ex&&(eq_type(p)==t)&&(equiv(p)==e)) + {@+assign_trace(p,"reassigning")@;@/ + eq_destroy(eqtb[p]);return; + } +assign_trace(p,"changing")@;@/ +if (eq_level(p)==cur_level) eq_destroy(eqtb[p]); +else if (cur_level > level_one) eq_save(p, eq_level(p)); +eq_level(p)=cur_level;eq_type(p)=t;equiv(p)=e; +if (p==par_shape_loc) +{ par_shape_hfactor=cur_hfactor; + par_shape_vfactor=cur_vfactor; +} +assign_trace(p,"into")@;@/ +} + +@ The counterpart of |eq_define| for the remaining (fullword) positions in +|eqtb| is called |eq_word_define|. Since |xeq_level[p] >= level_one| for all +|p|, a `|restore_zero|' will never be used in this case. + +@p static void eq_word_define(pointer @!p, int @!w) +{@+ +if (eTeX_ex&&(eqtb[p].i==w)) + {@+assign_trace(p,"reassigning")@;@/ + return; + } +assign_trace(p,"changing")@;@/ +if (cur_level==level_one)@t\1@> + { if (p==dimen_base+hsize_code) + { hhsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); return; @+} + if (p==dimen_base+vsize_code) + { hvsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); return; @+} + } +if (xeq_level[p]!=cur_level) + {@+eq_save(p, xeq_level[p]);xeq_level[p]=cur_level; + } +eqtb[p].i=w; +if (p>=dimen_base) +{ hfactor_eqtb[p].i=cur_hfactor; + vfactor_eqtb[p].i=cur_vfactor; +} +assign_trace(p,"into")@;@/ +} + +@ The |eq_define| and |eq_word_define| routines take care of local definitions. +@^global definitions@> +Global definitions are done in almost the same way, but there is no need +to save old values, and the new value is associated with |level_one|. + +@p static void geq_define(pointer @!p, quarterword @!t, halfword @!e) + /*global |eq_define|*/ +{@+assign_trace(p,"globally changing")@;@/ +{@+eq_destroy(eqtb[p]); +eq_level(p)=level_one;eq_type(p)=t;equiv(p)=e; +} +assign_trace(p,"into");@/ +} +@# +static void geq_word_define(pointer @!p, int @!w) /*global |eq_word_define|*/ +{@+assign_trace(p,"globally changing")@;@/ +{@t\1@>xeq_level[p]=level_one; + if (p==dimen_base+hsize_code) + hhsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); + else if (p==dimen_base+vsize_code) + hvsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); + else + { eqtb[p].i=w; + if (p>=dimen_base) + { hfactor_eqtb[p].i=cur_hfactor; + vfactor_eqtb[p].i=cur_vfactor; + } +} +} +assign_trace(p,"into");@/ +} + +@ Subroutine |save_for_after| puts a token on the stack for save-keeping. + +@p static void save_for_after(halfword @!t) +{@+if (cur_level > level_one) + {@+check_full_save_stack; + save_type(save_ptr)=insert_token;save_level(save_ptr)=level_zero; + save_index(save_ptr)=t;incr(save_ptr); + } +} + +@ The |unsave| routine goes the other way, taking items off of |save_stack|. +This routine takes care of restoration when a level ends; everything +belonging to the topmost group is cleared off of the save stack. + +@p +static void back_input(void); +static void unsave(void) /*pops the top level off the save stack*/ +{@+ +pointer p; /*position to be restored*/ +quarterword @!l; /*saved level, if in fullword regions of |eqtb|*/ +halfword @!t; /*saved value of |cur_tok|*/ +bool @!a; /*have we already processed an \.{\\aftergroup} ?*/ +a=false; +if (cur_level > level_one) + {@+decr(cur_level); + @<Clear off top level from |save_stack|@>; + } +else confusion("curlevel"); /*|unsave| is not used when |cur_group==bottom_level|*/ +@:this can't happen curlevel}{\quad curlevel@> +} + +@ @<Clear off...@>= +loop@+{@+decr(save_ptr); + if (save_type(save_ptr)==level_boundary) goto done; + p=save_index(save_ptr); + if (save_type(save_ptr)==insert_token) + @<Insert token |p| into \TeX's input@>@; + else if (save_type(save_ptr)==restore_sa) + {@+sa_restore();sa_chain=p;sa_level=save_level(save_ptr); + } + else{@+if (save_type(save_ptr)==restore_old_value) + {@+l=save_level(save_ptr);decr(save_ptr); + } + else save_stack[save_ptr]=eqtb[undefined_control_sequence]; + @<Store \(s)|save_stack[save_ptr]| in |eqtb[p]|, unless |eqtb[p]| holds a global +value@>; + } + } +done: +#ifdef @!STAT +if (tracing_groups > 0) group_trace(true); +#endif +@;@/ +if (grp_stack[in_open]==cur_boundary) group_warning(); + /*groups possibly not properly nested with files*/ +cur_group=save_level(save_ptr);cur_boundary=save_index(save_ptr); +if (eTeX_ex) decr(save_ptr) + +@ A global definition, which sets the level to |level_one|, +@^global definitions@> +will not be undone by |unsave|. If at least one global definition of +|eqtb[p]| has been carried out within the group that just ended, the +last such definition will therefore survive. + +@<Store \(s)|save...@>= +if (p < int_base) + if (eq_level(p)==level_one) + {@+eq_destroy(save_stack[save_ptr]); /*destroy the saved value*/ +#ifdef @!STAT + if (tracing_restores > 0) restore_trace(p,"retaining"); +#endif +@;@/ + } + else{@+eq_destroy(eqtb[p]); /*destroy the current value*/ + eqtb[p]=save_stack[save_ptr]; /*restore the saved value*/ + if (p==par_shape_loc) + { par_shape_hfactor=save_hfactor[save_ptr].i; + par_shape_vfactor=save_vfactor[save_ptr].i; + } +#ifdef @!STAT + if (tracing_restores > 0) restore_trace(p,"restoring"); +#endif +@;@/ + } +else if (xeq_level[p]!=level_one) + {@t\1@>@+eqtb[p]=save_stack[save_ptr]; + if (p>=dimen_base) + { hfactor_eqtb[p]=save_hfactor[save_ptr]; + vfactor_eqtb[p]=save_vfactor[save_ptr]; + } + xeq_level[p]=l; +#ifdef @!STAT + if (tracing_restores > 0) restore_trace(p,"restoring"); +#endif +@;@/ + } +else{ +#ifdef @!STAT + if (tracing_restores > 0) restore_trace(p,"retaining"); +#endif +@;@/ + } + +@ @<Declare \eTeX\ procedures for tr...@>= +#ifdef @!STAT +static void restore_trace(pointer @!p, char *@!s) + /*|eqtb[p]| has just been restored or retained*/ +{@+begin_diagnostic();print_char('{');print(s);print_char(' '); +show_eqtb(p);print_char('}'); +end_diagnostic(false); +} +#endif + +@ When looking for possible pointers to a memory location, it is helpful +to look for references from |eqtb| that might be waiting on the +save stack. Of course, we might find spurious pointers too; but this +routine is merely an aid when debugging, and at such times we are +grateful for any scraps of information, even if they prove to be irrelevant. +@^dirty \PASCAL@> + +@<Search |save_stack| for equivalents that point to |p|@>= +if (save_ptr > 0) for (q=0; q<=save_ptr-1; q++) + {@+if (equiv_field(save_stack[q])==p) + {@+print_nl("SAVE(");print_int(q);print_char(')'); + } + } + +@ Most of the parameters kept in |eqtb| can be changed freely, but there's +an exception: The magnification should not be used with two different +values during any \TeX\ job, since a single magnification is applied to an +entire run. The global variable |mag_set| is set to the current magnification +whenever it becomes necessary to ``freeze'' it at a particular value. + +@<Glob...@>= +static int @!mag_set; /*if nonzero, this magnification should be used henceforth*/ + +@ @<Set init...@>= +mag_set=0; + +@ The |prepare_mag| subroutine is called whenever \TeX\ wants to use |mag| +for magnification. + +@p static void prepare_mag(void) +{@+if ((mag_set > 0)&&(mag!=mag_set)) + {@+print_err("Incompatible magnification (");print_int(mag); +@.Incompatible magnification@> + print(");");print_nl(" the previous value will be retained"); + help2("I can handle only one magnification ratio per job. So I've",@/ + "reverted to the magnification you used earlier on this run.");@/ + int_error(mag_set); + geq_word_define(int_base+mag_code, mag_set); /*|mag=mag_set|*/ + } +if ((mag <= 0)||(mag > 32768)) + {@+print_err("Illegal magnification has been changed to 1000");@/ +@.Illegal magnification...@> + help1("The magnification ratio must be between 1 and 32768."); + int_error(mag);geq_word_define(int_base+mag_code, 1000); + } +mag_set=mag; +} + +@* Token lists. +A \TeX\ token is either a character or a control sequence, and it is +@^token@> +represented internally in one of two ways: (1)~A character whose ASCII +code number is |c| and whose command code is |m| is represented as the +number $2^8m+c$; the command code is in the range |1 <= m <= 14|. (2)~A control +sequence whose |eqtb| address is |p| is represented as the number +|cs_token_flag+p|. Here |cs_token_flag==@t$2^{12}-1$@>| is larger than +$2^8m+c$, yet it is small enough that |cs_token_flag+p < max_halfword|; +thus, a token fits comfortably in a halfword. + +A token |t| represents a |left_brace| command if and only if +|t < left_brace_limit|; it represents a |right_brace| command if and only if +we have |left_brace_limit <= t < right_brace_limit|; and it represents a |match| or +|end_match| command if and only if |match_token <= t <= end_match_token|. +The following definitions take care of these token-oriented constants +and a few others. + +@d cs_token_flag 07777 /*amount added to the |eqtb| location in a + token that stands for a control sequence; is a multiple of~256, less~1*/ +@d left_brace_token 00400 /*$2^8\cdot|left_brace|$*/ +@d left_brace_limit 01000 /*$2^8\cdot(|left_brace|+1)$*/ +@d right_brace_token 01000 /*$2^8\cdot|right_brace|$*/ +@d right_brace_limit 01400 /*$2^8\cdot(|right_brace|+1)$*/ +@d math_shift_token 01400 /*$2^8\cdot|math_shift|$*/ +@d tab_token 02000 /*$2^8\cdot|tab_mark|$*/ +@d out_param_token 02400 /*$2^8\cdot|out_param|$*/ +@d space_token 05040 /*$2^8\cdot|spacer|+|' '|$*/ +@d letter_token 05400 /*$2^8\cdot|letter|$*/ +@d other_token 06000 /*$2^8\cdot|other_char|$*/ +@d match_token 06400 /*$2^8\cdot|match|$*/ +@d end_match_token 07000 /*$2^8\cdot|end_match|$*/ +@d protected_token 07001 /*$2^8\cdot|end_match|+1$*/ + +@ @<Check the ``constant''...@>= +if (cs_token_flag+undefined_control_sequence > max_halfword) bad=21; + +@ A token list is a singly linked list of one-word nodes in |mem|, where +each word contains a token and a link. Macro definitions, output-routine +definitions, marks, \.{\\write} texts, and a few other things +are remembered by \TeX\ in the form +of token lists, usually preceded by a node with a reference count in its +|token_ref_count| field. The token stored in location |p| is called +|info(p)|. + +Three special commands appear in the token lists of macro definitions. +When |m==match|, it means that \TeX\ should scan a parameter +for the current macro; when |m==end_match|, it means that parameter +matching should end and \TeX\ should start reading the macro text; and +when |m==out_param|, it means that \TeX\ should insert parameter +number |c| into the text at this point. + +The enclosing \.{\char'173} and \.{\char'175} characters of a macro +definition are omitted, but an output routine +will be enclosed in braces. + +Here is an example macro definition that illustrates these conventions. +After \TeX\ processes the text +$$\.{\\def\\mac a\#1\#2 \\b \{\#1\\-a \#\#1\#2 \#2\}}$$ +the definition of \.{\\mac} is represented as a token list containing +$$\def\,{\hskip2pt} +\vbox{\halign{\hfil#\hfil\cr +(reference count), |letter|\,\.a, |match|\,\#, |match|\,\#, |spacer|\,\.\ , +\.{\\b}, |end_match|,\cr +|out_param|\,1, \.{\\-}, |letter|\,\.a, |spacer|\,\.\ , |mac_param|\,\#, +|other_char|\,\.1,\cr +|out_param|\,2, |spacer|\,\.\ , |out_param|\,2.\cr}}$$ +The procedure |scan_toks| builds such token lists, and |macro_call| +does the parameter matching. +@^reference counts@> + +Examples such as +$$\.{\\def\\m\{\\def\\m\{a\}\ b\}}$$ +explain why reference counts would be needed even if \TeX\ had no \.{\\let} +operation: When the token list for \.{\\m} is being read, the redefinition of +\.{\\m} changes the |eqtb| entry before the token list has been fully +consumed, so we dare not simply destroy a token list when its +control sequence is being redefined. + +If the parameter-matching part of a definition ends with `\.{\#\{}', +the corresponding token list will have `\.\{' just before the `|end_match|' +and also at the very end. The first `\.\{' is used to delimit the parameter; the +second one keeps the first from disappearing. + +@ The procedure |show_token_list|, which prints a symbolic form of +the token list that starts at a given node |p|, illustrates these +conventions. The token list being displayed should not begin with a reference +count. However, the procedure is intended to be robust, so that if the +memory links are awry or if |p| is not really a pointer to a token list, +nothing catastrophic will happen. + +An additional parameter |q| is also given; this parameter is either null +or it points to a node in the token list where a certain magic computation +takes place that will be explained later. (Basically, |q| is non-null when +we are printing the two-line context information at the time of an error +message; |q| marks the place corresponding to where the second line +should begin.) + +For example, if |p| points to the node containing the first \.a in the +token list above, then |show_token_list| will print the string +$$\hbox{`\.{a\#1\#2\ \\b\ ->\#1\\-a\ \#\#1\#2\ \#2}';}$$ +and if |q| points to the node containing the second \.a, +the magic computation will be performed just before the second \.a is printed. + +The generation will stop, and `\.{\\ETC.}' will be printed, if the length +of printing exceeds a given limit~|l|. Anomalous entries are printed in the +form of control sequences that are not followed by a blank space, e.g., +`\.{\\BAD.}'; this cannot be confused with actual control sequences because +a real control sequence named \.{BAD} would come out `\.{\\BAD\ }'. + +@<Declare the procedure called |show_token_list|@>= +static void show_token_list(int @!p, int @!q, int @!l) +{@+ +int m, @!c; /*pieces of a token*/ +ASCII_code @!match_chr; /*character used in a `|match|'*/ +ASCII_code @!n; /*the highest parameter number, as an ASCII digit*/ +match_chr='#';n='0';tally=0; +while ((p!=null)&&(tally < l)) + {@+if (p==q) @<Do magic computation@>; + @<Display token |p|, and |return| if there are problems@>; + p=link(p); + } +if (p!=null) print_esc("ETC."); +@.ETC@> + +} + +@ @<Display token |p|...@>= +if ((p < hi_mem_min)||(p > mem_end)) + {@+print_esc("CLOBBERED.");return; +@.CLOBBERED@> + } +if (info(p) >= cs_token_flag) print_cs(info(p)-cs_token_flag); +else{@+m=info(p)/0400;c=info(p)%0400; + if (info(p) < 0) print_esc("BAD."); +@.BAD@> + else@<Display the token $(|m|,|c|)$@>; + } + +@ The procedure usually ``learns'' the character code used for macro +parameters by seeing one in a |match| command before it runs into any +|out_param| commands. + +@<Display the token...@>= +switch (m) { +case left_brace: case right_brace: case math_shift: case tab_mark: case sup_mark: case sub_mark: case spacer: + case letter: case other_char: printn(c);@+break; +case mac_param: {@+printn(c);printn(c); + } @+break; +case out_param: {@+printn(match_chr); + if (c <= 9) print_char(c+'0'); + else{@+print_char('!');return; + } + } @+break; +case match: {@+match_chr=c;printn(c);incr(n);print_char(n); + if (n > '9') return; + } @+break; +case end_match: if (c==0) print("->");@+break; +@.->@> +default:print_esc("BAD."); +@.BAD@> +} + +@ Here's the way we sometimes want to display a token list, given a pointer +to its reference count; the pointer may be null. + +@p static void token_show(pointer @!p) +{@+if (p!=null) show_token_list(link(p), null, 10000000); +} + +@ The |print_meaning| subroutine displays |cur_cmd| and |cur_chr| in +symbolic form, including the expansion of a macro or mark. + +@p static void print_meaning(void) +{@+print_cmd_chr(cur_cmd, cur_chr); +if (cur_cmd >= call) + {@+print_char(':');print_ln();token_show(cur_chr); + } +else if (cur_cmd==top_bot_mark) + {@+print_char(':');print_ln(); + token_show(cur_mark[cur_chr]); + } +} + +@* Introduction to the syntactic routines. +Let's pause a moment now and try to look at the Big Picture. +The \TeX\ program consists of three main parts: syntactic routines, +semantic routines, and output routines. The chief purpose of the +syntactic routines is to deliver the user's input to the semantic routines, +one token at a time. The semantic routines act as an interpreter +responding to these tokens, which may be regarded as commands. And the +output routines are periodically called on to convert box-and-glue +lists into a compact set of instructions that will be sent +to a typesetter. We have discussed the basic data structures and utility +routines of \TeX, so we are good and ready to plunge into the real activity by +considering the syntactic routines. + +Our current goal is to come to grips with the |get_next| procedure, +which is the keystone of \TeX's input mechanism. Each call of |get_next| +sets the value of three variables |cur_cmd|, |cur_chr|, and |cur_cs|, +representing the next input token. +$$\vbox{\halign{#\hfil\cr + \hbox{|cur_cmd| denotes a command code from the long list of codes + given above;}\cr + \hbox{|cur_chr| denotes a character code or other modifier of the command + code;}\cr + \hbox{|cur_cs| is the |eqtb| location of the current control sequence,}\cr + \hbox{\qquad if the current token was a control sequence, + otherwise it's zero.}\cr}}$$ +Underlying this external behavior of |get_next| is all the machinery +necessary to convert from character files to tokens. At a given time we +may be only partially finished with the reading of several files (for +which \.{\\input} was specified), and partially finished with the expansion +of some user-defined macros and/or some macro parameters, and partially +finished with the generation of some text in a template for \.{\\halign}, +and so on. When reading a character file, special characters must be +classified as math delimiters, etc.; comments and extra blank spaces must +be removed, paragraphs must be recognized, and control sequences must be +found in the hash table. Furthermore there are occasions in which the +scanning routines have looked ahead for a word like `\.{plus}' but only +part of that word was found, hence a few characters must be put back +into the input and scanned again. + +To handle these situations, which might all be present simultaneously, +\TeX\ uses various stacks that hold information about the incomplete +activities, and there is a finite state control for each level of the +input mechanism. These stacks record the current state of an implicitly +recursive process, but the |get_next| procedure is not recursive. +Therefore it will not be difficult to translate these algorithms into +low-level languages that do not support recursion. + +@<Glob...@>= +static eight_bits @!cur_cmd; /*current command set by |get_next|*/ +static halfword @!cur_chr; /*operand of current command*/ +static pointer @!cur_cs; /*control sequence found here, zero if none found*/ +static halfword @!cur_tok; /*packed representative of |cur_cmd| and |cur_chr|*/ + +@ The |print_cmd_chr| routine prints a symbolic interpretation of a +command code and its modifier. This is used in certain `\.{You can\'t}' +error messages, and in the implementation of diagnostic routines like +\.{\\show}. + +The body of |print_cmd_chr| is a rather tedious listing of print +commands, and most of it is essentially an inverse to the |primitive| +routine that enters a \TeX\ primitive into |eqtb|. Therefore much of +this procedure appears elsewhere in the program, +together with the corresponding |primitive| calls. + +@d chr_cmd(A) {@+print(A);print_ASCII(chr_code); + } + +@<Declare the procedure called |print_cmd_chr|@>= +static void print_cmd_chr(quarterword @!cmd, halfword @!chr_code) +{@+int n; /*temp variable*/ +switch (cmd) { +case left_brace: chr_cmd("begin-group character ")@;@+break; +case right_brace: chr_cmd("end-group character ")@;@+break; +case math_shift: chr_cmd("math shift character ")@;@+break; +case mac_param: chr_cmd("macro parameter character ")@;@+break; +case sup_mark: chr_cmd("superscript character ")@;@+break; +case sub_mark: chr_cmd("subscript character ")@;@+break; +case endv: print("end of alignment template");@+break; +case spacer: chr_cmd("blank space ")@;@+break; +case letter: chr_cmd("the letter ")@;@+break; +case other_char: chr_cmd("the character ")@;@+break; +@t\4@>@<Cases of |print_cmd_chr| for symbolic printing of primitives@>@/ +default:print("[unknown command code!]"); +} +} + +@ Here is a procedure that displays the current command. + +@p static void show_cur_cmd_chr(void) +{@+int n; /*level of \.{\\if...\\fi} nesting*/ +int @!l; /*line where \.{\\if} started*/ +pointer @!p; +begin_diagnostic();print_nl("{"); +if (mode!=shown_mode) + {@+print_mode(mode);print(": ");shown_mode=mode; + } +print_cmd_chr(cur_cmd, cur_chr); +if (tracing_ifs > 0) + if (cur_cmd >= if_test) if (cur_cmd <= fi_or_else) + {@+print(": "); + if (cur_cmd==fi_or_else) + {@+print_cmd_chr(if_test, cur_if);print_char(' '); + n=0;l=if_line; + } + else{@+n=1;l=line; + } + p=cond_ptr; + while (p!=null) + {@+incr(n);p=link(p); + } + print("(level ");print_int(n);print_char(')');print_if_line(l); + } +print_char('}'); +end_diagnostic(false); +} + +@* Input stacks and states. +This implementation of +\TeX\ uses two different conventions for representing sequential stacks. +@^stack conventions@>@^conventions for representing stacks@> + +\yskip\hangg 1) If there is frequent access to the top entry, and if the +stack is essentially never empty, then the top entry is kept in a global +variable (even better would be a machine register), and the other entries +appear in the array $\\{stack}[0\to(\\{ptr}-1)]$. For example, the +semantic stack described above is handled this way, and so is the input +stack that we are about to study. + +\yskip\hangg 2) If there is infrequent top access, the entire stack contents +are in the array $\\{stack}[0\to(\\{ptr}-1)]$. For example, the |save_stack| +is treated this way, as we have seen. + +\yskip\noindent +The state of \TeX's input mechanism appears in the input stack, whose +entries are records with six fields, called |state|, |index|, |start|, |loc|, +|limit|, and |name|. This stack is maintained with +convention~(1), so it is declared in the following way: + +@<Types...@>= +typedef struct { + quarterword @!state_field, @!index_field; + halfword @!start_field, @!loc_field, @!limit_field, @!name_field; + } in_state_record; + +@ @<Glob...@>= +static in_state_record @!input_stack[stack_size+1]; +static int @!input_ptr; /*first unused location of |input_stack|*/ +static int @!max_in_stack; /*largest value of |input_ptr| when pushing*/ +static in_state_record @!cur_input; + /*the ``top'' input state, according to convention (1)*/ + +@ We've already defined the special variable |loc====cur_input.loc_field| +in our discussion of basic input-output routines. The other components of +|cur_input| are defined in the same way: + +@d state cur_input.state_field /*current scanner state*/ +@d index cur_input.index_field /*reference for buffer information*/ +@d start cur_input.start_field /*starting position in |buffer|*/ +@d limit cur_input.limit_field /*end of current line in |buffer|*/ +@d name cur_input.name_field /*name of the current file*/ + +@ Let's look more closely now at the control variables +(|state|,~|index|,~|start|,~|loc|,~|limit|,~|name|), +assuming that \TeX\ is reading a line of characters that have been input +from some file or from the user's terminal. There is an array called +|buffer| that acts as a stack of all lines of characters that are +currently being read from files, including all lines on subsidiary +levels of the input stack that are not yet completed. \TeX\ will return to +the other lines when it is finished with the present input file. + +(Incidentally, on a machine with byte-oriented addressing, it might be +appropriate to combine |buffer| with the |str_pool| array, +letting the buffer entries grow downward from the top of the string pool +and checking that these two tables don't bump into each other.) + +The line we are currently working on begins in position |start| of the +buffer; the next character we are about to read is |buffer[loc]|; and +|limit| is the location of the last character present. If |loc > limit|, +the line has been completely read. Usually |buffer[limit]| is the +|end_line_char|, denoting the end of a line, but this is not +true if the current line is an insertion that was entered on the user's +terminal in response to an error message. + +The |name| variable is a string number that designates the name of +the current file, if we are reading a text file. It is zero if we +are reading from the terminal; it is |n+1| if we are reading from +input stream |n|, where |0 <= n <= 16|. (Input stream 16 stands for +an invalid stream number; in such cases the input is actually from +the terminal, under control of the procedure |read_toks|.) +Finally |18 <= name <= 19| indicates that we are reading a pseudo file +created by the \.{\\scantokens} command. + +The |state| variable has one of three values, when we are scanning such +files: +$$\baselineskip 15pt\vbox{\halign{#\hfil\cr +1) |state==mid_line| is the normal state.\cr +2) |state==skip_blanks| is like |mid_line|, but blanks are ignored.\cr +3) |state==new_line| is the state at the beginning of a line.\cr}}$$ +These state values are assigned numeric codes so that if we add the state +code to the next character's command code, we get distinct values. For +example, `|mid_line+spacer|' stands for the case that a blank +space character occurs in the middle of a line when it is not being +ignored; after this case is processed, the next value of |state| will +be |skip_blanks|. + +@d mid_line 1 /*|state| code when scanning a line of characters*/ +@d skip_blanks (2+max_char_code) /*|state| code when ignoring blanks*/ +@d new_line (3+max_char_code+max_char_code) /*|state| code at start of line*/ + +@ Additional information about the current line is available via the +|index| variable, which counts how many lines of characters are present +in the buffer below the current level. We have |index==0| when reading +from the terminal and prompting the user for each line; then if the user types, +e.g., `\.{\\input paper}', we will have |index==1| while reading +the file \.{paper.tex}. However, it does not follow that |index| is the +same as the input stack pointer, since many of the levels on the input +stack may come from token lists. For example, the instruction `\.{\\input +paper}' might occur in a token list. + +The global variable |in_open| is equal to the |index| +value of the highest non-token-list level. Thus, the number of partially read +lines in the buffer is |in_open+1|, and we have |in_open==index| +when we are not reading a token list. + +If we are not currently reading from the terminal, or from an input +stream, we are reading from the file variable |input_file[index]|. We use +the notation |terminal_input| as a convenient abbreviation for |name==0|, +and |cur_file| as an abbreviation for |input_file[index]|. + +The global variable |line| contains the line number in the topmost +open file, for use in error messages. If we are not reading from +the terminal, |line_stack[index]| holds the line number for the +enclosing level, so that |line| can be restored when the current +file has been read. Line numbers should never be negative, since the +negative of the current line number is used to identify the user's output +routine in the |mode_line| field of the semantic nest entries. + +If more information about the input state is needed, it can be +included in small arrays like those shown here. For example, +the current page or segment number in the input file might be +put into a variable |@!page|, maintained for enclosing levels in +`\ignorespaces|@!page_stack: array[1 dotdot max_in_open]int|\unskip' +by analogy with |line_stack|. +@^system dependencies@> + +@d terminal_input (name==0) /*are we reading from the terminal?*/ +@d cur_file input_file[index] /*the current |alpha_file| variable*/ + +@<Glob...@>= +static int @!in_open; /*the number of lines in the buffer, less one*/ +static int @!open_parens; /*the number of open text files*/ +static alpha_file @!input_file0[max_in_open], *const @!input_file = @!input_file0-1; +static int @!line; /*current line number in the current source file*/ +static int @!line_stack0[max_in_open], *const @!line_stack = @!line_stack0-1; + +@ Users of \TeX\ sometimes forget to balance left and right braces properly, +and one of the ways \TeX\ tries to spot such errors is by considering an +input file as broken into subfiles by control sequences that +are declared to be \.{\\outer}. + +A variable called |scanner_status| tells \TeX\ whether or not to complain +when a subfile ends. This variable has six possible values: + +\yskip\hang|normal|, means that a subfile can safely end here without incident. + +\yskip\hang|skipping|, means that a subfile can safely end here, but not a file, +because we're reading past some conditional text that was not selected. + +\yskip\hang|defining|, means that a subfile shouldn't end now because a +macro is being defined. + +\yskip\hang|matching|, means that a subfile shouldn't end now because a +macro is being used and we are searching for the end of its arguments. + +\yskip\hang|aligning|, means that a subfile shouldn't end now because we are +not finished with the preamble of an \.{\\halign} or \.{\\valign}. + +\yskip\hang|absorbing|, means that a subfile shouldn't end now because we are +reading a balanced token list for \.{\\message}, \.{\\write}, etc. + +\yskip\noindent +If the |scanner_status| is not |normal|, the variable |warning_index| points +to the |eqtb| location for the relevant control sequence name to print +in an error message. + +@d skipping 1 /*|scanner_status| when passing conditional text*/ +@d defining 2 /*|scanner_status| when reading a macro definition*/ +@d matching 3 /*|scanner_status| when reading macro arguments*/ +@d aligning 4 /*|scanner_status| when reading an alignment preamble*/ +@d absorbing 5 /*|scanner_status| when reading a balanced text*/ + +@<Glob...@>= +static int @!scanner_status; /*can a subfile end now?*/ +static pointer @!warning_index; /*identifier relevant to non-|normal| scanner status*/ +static pointer @!def_ref; /*reference count of token list being defined*/ + +@ Here is a procedure that uses |scanner_status| to print a warning message +when a subfile has ended, and at certain other crucial times: + +@<Declare the procedure called |runaway|@>= +static void runaway(void) +{@+pointer p; /*head of runaway list*/ +if (scanner_status > skipping) + {@+print_nl("Runaway "); +@.Runaway...@> + switch (scanner_status) { + case defining: {@+print("definition");p=def_ref; + } @+break; + case matching: {@+print("argument");p=temp_head; + } @+break; + case aligning: {@+print("preamble");p=hold_head; + } @+break; + case absorbing: {@+print("text");p=def_ref; + } + } /*there are no other cases*/ + print_char('?');print_ln();show_token_list(link(p), null, error_line-10); + } +} + +@ However, all this discussion about input state really applies only to the +case that we are inputting from a file. There is another important case, +namely when we are currently getting input from a token list. In this case +|state==token_list|, and the conventions about the other state variables +are different: + +\yskip\hang|loc| is a pointer to the current node in the token list, i.e., +the node that will be read next. If |loc==null|, the token list has been +fully read. + +\yskip\hang|start| points to the first node of the token list; this node +may or may not contain a reference count, depending on the type of token +list involved. + +\yskip\hang|token_type|, which takes the place of |index| in the +discussion above, is a code number that explains what kind of token list +is being scanned. + +\yskip\hang|name| points to the |eqtb| address of the control sequence +being expanded, if the current token list is a macro. + +\yskip\hang|param_start|, which takes the place of |limit|, tells where +the parameters of the current macro begin in the |param_stack|, if the +current token list is a macro. + +\yskip\noindent The |token_type| can take several values, depending on +where the current token list came from: + +\yskip\hang|parameter|, if a parameter is being scanned; + +\hang|u_template|, if the \<u_j> part of an alignment +template is being scanned; + +\hang|v_template|, if the \<v_j> part of an alignment +template is being scanned; + +\hang|backed_up|, if the token list being scanned has been inserted as +`to be read again'; + +\hang|inserted|, if the token list being scanned has been inserted as +the text expansion of a \.{\\count} or similar variable; + +\hang|macro|, if a user-defined control sequence is being scanned; + +\hang|output_text|, if an \.{\\output} routine is being scanned; + +\hang|every_par_text|, if the text of \.{\\everypar} is being scanned; + +\hang|every_math_text|, if the text of \.{\\everymath} is being scanned; + +\hang|every_display_text|, if the text of \.{\\everydisplay} is being scanned; + +\hang|every_hbox_text|, if the text of \.{\\everyhbox} is being scanned; + +\hang|every_vbox_text|, if the text of \.{\\everyvbox} is being scanned; + +\hang|every_job_text|, if the text of \.{\\everyjob} is being scanned; + +\hang|every_cr_text|, if the text of \.{\\everycr} is being scanned; + +\hang|mark_text|, if the text of a \.{\\mark} is being scanned; + +\hang|write_text|, if the text of a \.{\\write} is being scanned. + +\yskip\noindent +The codes for |output_text|, |every_par_text|, etc., are equal to a constant +plus the corresponding codes for token list parameters |output_routine_loc|, +|every_par_loc|, etc. The token list begins with a reference count if and +only if |token_type >= macro|. +@^reference counts@> + +Since \eTeX's additional token list parameters precede |toks_base|, the +corresponding token types must precede |write_text|. + +@d token_list 0 /*|state| code when scanning a token list*/ +@d token_type index /*type of current token list*/ +@d param_start limit /*base of macro parameters in |param_stack|*/ +@d parameter 0 /*|token_type| code for parameter*/ +@d u_template 1 /*|token_type| code for \<u_j> template*/ +@d v_template 2 /*|token_type| code for \<v_j> template*/ +@d backed_up 3 /*|token_type| code for text to be reread*/ +@d inserted 4 /*|token_type| code for inserted texts*/ +@d macro 5 /*|token_type| code for defined control sequences*/ +@d output_text 6 /*|token_type| code for output routines*/ +@d every_par_text 7 /*|token_type| code for \.{\\everypar}*/ +@d every_math_text 8 /*|token_type| code for \.{\\everymath}*/ +@d every_display_text 9 /*|token_type| code for \.{\\everydisplay}*/ +@d every_hbox_text 10 /*|token_type| code for \.{\\everyhbox}*/ +@d every_vbox_text 11 /*|token_type| code for \.{\\everyvbox}*/ +@d every_job_text 12 /*|token_type| code for \.{\\everyjob}*/ +@d every_cr_text 13 /*|token_type| code for \.{\\everycr}*/ +@d mark_text 14 /*|token_type| code for \.{\\topmark}, etc.*/ +@# +@d eTeX_text_offset (output_routine_loc-output_text) +@d every_eof_text (every_eof_loc-eTeX_text_offset) + /*|token_type| code for \.{\\everyeof}*/ +@# +@d write_text (toks_base-eTeX_text_offset) /*|token_type| code for \.{\\write}*/ + +@ The |param_stack| is an auxiliary array used to hold pointers to the token +lists for parameters at the current level and subsidiary levels of input. +This stack is maintained with convention (2), and it grows at a different +rate from the others. + +@<Glob...@>= +static pointer @!param_stack[param_size+1]; + /*token list pointers for parameters*/ +static int @!param_ptr; /*first unused entry in |param_stack|*/ +static int @!max_param_stack; + /*largest value of |param_ptr|, will be | <= param_size+9|*/ + +@ The input routines must also interact with the processing of +\.{\\halign} and \.{\\valign}, since the appearance of tab marks and +\.{\\cr} in certain places is supposed to trigger the beginning of special +\<v_j> template text in the scanner. This magic is accomplished by an +|align_state| variable that is increased by~1 when a `\.{\char'173}' is +scanned and decreased by~1 when a `\.{\char'175}' is scanned. The |align_state| +is nonzero during the \<u_j> template, after which it is set to zero; the +\<v_j> template begins when a tab mark or \.{\\cr} occurs at a time that +|align_state==0|. + +The same principle applies when entering the definition of a +control sequence between \.{\\csname} and \.{\\endcsname}. + +@<Glob...@>= +static int @!align_state; /*group level with respect to current alignment*/ +static int @!incsname_state; /*group level with respect to in csname state*/ + +@ Thus, the ``current input state'' can be very complicated indeed; there +can be many levels and each level can arise in a variety of ways. The +|show_context| procedure, which is used by \TeX's error-reporting routine to +print out the current input state on all levels down to the most recent +line of characters from an input file, illustrates most of these conventions. +The global variable |base_ptr| contains the lowest level that was +displayed by this procedure. + +@<Glob...@>= +static int @!base_ptr; /*shallowest level shown by |show_context|*/ + +@ The status at each level is indicated by printing two lines, where the first +line indicates what was read so far and the second line shows what remains +to be read. The context is cropped, if necessary, so that the first line +contains at most |half_error_line| characters, and the second contains +at most |error_line|. Non-current input levels whose |token_type| is +`|backed_up|' are shown only if they have not been fully read. + +@p static void show_context(void) /*prints where the scanner is*/ +{@+ +int old_setting; /*saved |selector| setting*/ +int @!nn; /*number of contexts shown so far, less one*/ +bool @!bottom_line; /*have we reached the final context to be shown?*/ +@<Local variables for formatting calculations@>@/ +base_ptr=input_ptr;input_stack[base_ptr]=cur_input; + /*store current state*/ +nn=-1;bottom_line=false; +loop@+{@+cur_input=input_stack[base_ptr]; /*enter into the context*/ + if ((state!=token_list)) + if ((name > 19)||(base_ptr==0)) bottom_line=true; + if ((base_ptr==input_ptr)||bottom_line||(nn < error_context_lines)) + @<Display the current context@>@; + else if (nn==error_context_lines) + {@+print_nl("...");incr(nn); /*omitted if |error_context_lines < 0|*/ + } + if (bottom_line) goto done; + decr(base_ptr); + } +done: cur_input=input_stack[input_ptr]; /*restore original state*/ +} + +@ @<Display the current context@>= +{@+if ((base_ptr==input_ptr)||(state!=token_list)|| + (token_type!=backed_up)||(loc!=null)) + /*we omit backed-up token lists that have already been read*/ + {@+tally=0; /*get ready to count characters*/ + old_setting=selector; + if (state!=token_list) + {@+@<Print location of current line@>; + @<Pseudoprint the line@>; + } + else{@+@<Print type of token list@>; + @<Pseudoprint the token list@>; + } + selector=old_setting; /*stop pseudoprinting*/ + @<Print two lines using the tricky pseudoprinted information@>; + incr(nn); + } +} + +@ This routine should be changed, if necessary, to give the best possible +indication of where the current line resides in the input file. +For example, on some systems it is best to print both a page and line number. +@^system dependencies@> + +@<Print location of current line@>= +if (name <= 17) + if (terminal_input) + if (base_ptr==0) print_nl("<*>");else print_nl("<insert> "); + else{@+print_nl("<read "); + if (name==17) print_char('*');@+else print_int(name-1); +@.*\relax@> + print_char('>'); + } +else{@+print_nl("l."); + if (index==in_open) print_int(line); + else print_int(line_stack[index+1]); /*input from a pseudo file*/ + } +print_char(' ') + +@ @<Print type of token list@>= +switch (token_type) { +case parameter: print_nl("<argument> ");@+break; +case u_template: case v_template: print_nl("<template> ");@+break; +case backed_up: if (loc==null) print_nl("<recently read> "); + else print_nl("<to be read again> ");@+break; +case inserted: print_nl("<inserted text> ");@+break; +case macro: {@+print_ln();print_cs(name); + } @+break; +case output_text: print_nl("<output> ");@+break; +case every_par_text: print_nl("<everypar> ");@+break; +case every_math_text: print_nl("<everymath> ");@+break; +case every_display_text: print_nl("<everydisplay> ");@+break; +case every_hbox_text: print_nl("<everyhbox> ");@+break; +case every_vbox_text: print_nl("<everyvbox> ");@+break; +case every_job_text: print_nl("<everyjob> ");@+break; +case every_cr_text: print_nl("<everycr> ");@+break; +case mark_text: print_nl("<mark> ");@+break; +case every_eof_text: print_nl("<everyeof> ");@+break; +case write_text: print_nl("<write> ");@+break; +default:print_nl("?"); /*this should never happen*/ +} + +@ Here it is necessary to explain a little trick. We don't want to store a long +string that corresponds to a token list, because that string might take up +lots of memory; and we are printing during a time when an error message is +being given, so we dare not do anything that might overflow one of \TeX's +tables. So `pseudoprinting' is the answer: We enter a mode of printing +that stores characters into a buffer of length |error_line|, where character +$k+1$ is placed into \hbox{|trick_buf[k%error_line]|} if +|k < trick_count|, otherwise character |k| is dropped. Initially we set +|tally=0| and |trick_count=1000000|; then when we reach the +point where transition from line 1 to line 2 should occur, we +set |first_count=tally| and |trick_count=@tmax@>(error_line, +tally+1+error_line-half_error_line)|. At the end of the +pseudoprinting, the values of |first_count|, |tally|, and +|trick_count| give us all the information we need to print the two lines, +and all of the necessary text is in |trick_buf|. + +Namely, let |l| be the length of the descriptive information that appears +on the first line. The length of the context information gathered for that +line is |k==first_count|, and the length of the context information +gathered for line~2 is $m=\min(|tally|, |trick_count|)-k$. If |l+k <= h|, +where |h==half_error_line|, we print |trick_buf[0 dotdot k-1]| after the +descriptive information on line~1, and set |n=l+k|; here |n| is the +length of line~1. If $l+k>h$, some cropping is necessary, so we set |n=h| +and print `\.{...}' followed by +$$\hbox{|trick_buf[(l+k-h+3)dotdot k-1]|,}$$ +where subscripts of |trick_buf| are circular modulo |error_line|. The +second line consists of |n|~spaces followed by |trick_buf[k dotdot(k+m-1)]|, +unless |n+m > error_line|; in the latter case, further cropping is done. +This is easier to program than to explain. + +@<Local variables for formatting...@>= +int @!i; /*index into |buffer|*/ +int @!j; /*end of current line in |buffer|*/ +int @!l; /*length of descriptive information on line 1*/ +int @!m; /*context information gathered for line 2*/ +int @!n; /*length of line 1*/ +int @!p; /*starting or ending place in |trick_buf|*/ +int @!q; /*temporary index*/ + +@ The following code sets up the print routines so that they will gather +the desired information. + +@d begin_pseudoprint + {@+l=tally;tally=0;selector=pseudo; + trick_count=1000000; + } +@d set_trick_count + {@+first_count=tally; + trick_count=tally+1+error_line-half_error_line; + if (trick_count < error_line) trick_count=error_line; + } + +@ And the following code uses the information after it has been gathered. + +@<Print two lines using the tricky pseudoprinted information@>= +if (trick_count==1000000) set_trick_count; + /*|set_trick_count| must be performed*/ +if (tally < trick_count) m=tally-first_count; +else m=trick_count-first_count; /*context on line 2*/ +if (l+first_count <= half_error_line) + {@+p=0;n=l+first_count; + } +else{@+print("...");p=l+first_count-half_error_line+3; + n=half_error_line; + } +for (q=p; q<=first_count-1; q++) print_char(trick_buf[q%error_line]); +print_ln(); +for (q=1; q<=n; q++) print_char(' '); /*print |n| spaces to begin line~2*/ +if (m+n <= error_line) p=first_count+m;else p=first_count+(error_line-n-3); +for (q=first_count; q<=p-1; q++) print_char(trick_buf[q%error_line]); +if (m+n > error_line) print("...") + +@ But the trick is distracting us from our current goal, which is to +understand the input state. So let's concentrate on the data structures that +are being pseudoprinted as we finish up the |show_context| procedure. + +@<Pseudoprint the line@>= +begin_pseudoprint; +if (buffer[limit]==end_line_char) j=limit; +else j=limit+1; /*determine the effective end of the line*/ +if (j > 0) for (i=start; i<=j-1; i++) + {@+if (i==loc) set_trick_count; + printn(buffer[i]); + } + +@ @<Pseudoprint the token list@>= +begin_pseudoprint; +if (token_type < macro) show_token_list(start, loc, 100000); +else show_token_list(link(start), loc, 100000) /*avoid reference count*/ + +@ Here is the missing piece of |show_token_list| that is activated when the +token beginning line~2 is about to be shown: + +@<Do magic computation@>=set_trick_count + +@* Maintaining the input stacks. +The following subroutines change the input status in commonly needed ways. + +First comes |push_input|, which stores the current state and creates a +new level (having, initially, the same properties as the old). + +@d push_input @t@> /*enter a new input level, save the old*/ + {@+if (input_ptr > max_in_stack) + {@+max_in_stack=input_ptr; + if (input_ptr==stack_size) overflow("input stack size", stack_size); +@:TeX capacity exceeded input stack size}{\quad input stack size@> + } + input_stack[input_ptr]=cur_input; /*stack the record*/ + incr(input_ptr); + } + +@ And of course what goes up must come down. + +@d pop_input @t@> /*leave an input level, re-enter the old*/ + {@+decr(input_ptr);cur_input=input_stack[input_ptr]; + } + +@ Here is a procedure that starts a new level of token-list input, given +a token list |p| and its type |t|. If |t==macro|, the calling routine should +set |name| and |loc|. + +@d back_list(A) begin_token_list(A, backed_up) /*backs up a simple token list*/ +@d ins_list(A) begin_token_list(A, inserted) /*inserts a simple token list*/ + +@p static void begin_token_list(pointer @!p, quarterword @!t) +{@+push_input;state=token_list;start=p;token_type=t; +if (t >= macro) /*the token list starts with a reference count*/ + {@+add_token_ref(p); + if (t==macro) param_start=param_ptr; + else{@+loc=link(p); + if (tracing_macros > 1) + {@+begin_diagnostic();print_nl(""); + switch (t) { + case mark_text: print_esc("mark");@+break; + case write_text: print_esc("write");@+break; + default:print_cmd_chr(assign_toks, t-output_text+output_routine_loc); + } @/ + print("->");token_show(p);end_diagnostic(false); + } + } + } +else loc=p; +} + +@ When a token list has been fully scanned, the following computations +should be done as we leave that level of input. The |token_type| tends +to be equal to either |backed_up| or |inserted| about 2/3 of the time. +@^inner loop@> + +@p static void end_token_list(void) /*leave a token-list input level*/ +{@+if (token_type >= backed_up) /*token list to be deleted*/ + {@+if (token_type <= inserted) flush_list(start); + else{@+delete_token_ref(start); /*update reference count*/ + if (token_type==macro) /*parameters must be flushed*/ + while (param_ptr > param_start) + {@+decr(param_ptr); + flush_list(param_stack[param_ptr]); + } + } + } +else if (token_type==u_template) + if (align_state > 500000) align_state=0; + else fatal_error("(interwoven alignment preambles are not allowed)"); +@.interwoven alignment preambles...@> +pop_input; +check_interrupt; +} + +@ Sometimes \TeX\ has read too far and wants to ``unscan'' what it has +seen. The |back_input| procedure takes care of this by putting the token +just scanned back into the input stream, ready to be read again. This +procedure can be used only if |cur_tok| represents the token to be +replaced. Some applications of \TeX\ use this procedure a lot, +so it has been slightly optimized for speed. +@^inner loop@> + +@p static void back_input(void) /*undoes one token of input*/ +{@+pointer p; /*a token list of length one*/ +while ((state==token_list)&&(loc==null)&&(token_type!=v_template)) + end_token_list(); /*conserve stack space*/ +p=get_avail();info(p)=cur_tok; +if (cur_tok < right_brace_limit) + if (cur_tok < left_brace_limit) decr(align_state); + else incr(align_state); +push_input;state=token_list;start=p;token_type=backed_up; +loc=p; /*that was |back_list(p)|, without procedure overhead*/ +} + +@ @<Insert token |p| into \TeX's input@>= +{@+t=cur_tok;cur_tok=p; +if (a) + {@+p=get_avail();info(p)=cur_tok;link(p)=loc;loc=p;start=p; + if (cur_tok < right_brace_limit) + if (cur_tok < left_brace_limit) decr(align_state); + else incr(align_state); + } +else{@+back_input();a=eTeX_ex; + } +cur_tok=t; +} + +@ The |back_error| routine is used when we want to replace an offending token +just before issuing an error message. This routine, like |back_input|, +requires that |cur_tok| has been set. We disable interrupts during the +call of |back_input| so that the help message won't be lost. + +@p static void back_error(void) /*back up one token and call |error|*/ +{@+OK_to_interrupt=false;back_input();OK_to_interrupt=true;error(); +} +@# +static void ins_error(void) /*back up one inserted token and call |error|*/ +{@+OK_to_interrupt=false;back_input();token_type=inserted; +OK_to_interrupt=true;error(); +} + +@ The |begin_file_reading| procedure starts a new level of input for lines +of characters to be read from a file, or as an insertion from the +terminal. It does not take care of opening the file, nor does it set |loc| +or |limit| or |line|. +@^system dependencies@> + +@p static void begin_file_reading(void) +{@+if (in_open==max_in_open) overflow("text input levels", max_in_open); +@:TeX capacity exceeded text input levels}{\quad text input levels@> +if (first==buf_size) overflow("buffer size", buf_size); +@:TeX capacity exceeded buffer size}{\quad buffer size@> +incr(in_open);push_input;index=in_open;@/ +source_filename_stack[index]=0; /* k\TeX\ */ +eof_seen[index]=false; +grp_stack[index]=cur_boundary;if_stack[index]=cond_ptr; +line_stack[index]=line;start=first;state=mid_line; +name=0; /*|terminal_input| is now |true|*/ +} + +@ Conversely, the variables must be downdated when such a level of input +is finished: + +@p static void end_file_reading(void) +{@+first=start;line=line_stack[index]; +if ((name==18)||(name==19)) pseudo_close();else +if (name > 17) a_close(&cur_file); /*forget it*/ +pop_input;decr(in_open); +} + +@ In order to keep the stack from overflowing during a long sequence of +inserted `\.{\\show}' commands, the following routine removes completed +error-inserted lines from memory. + +@p static void clear_for_error_prompt(void) +{@+while ((state!=token_list)&&terminal_input&&@| + (input_ptr > 0)&&(loc > limit)) end_file_reading(); +print_ln();clear_terminal; +} + +@ To get \TeX's whole input mechanism going, we perform the following +actions. + +@<Initialize the input routines@>= +{@+input_ptr=0;max_in_stack=0; +in_open=0;open_parens=0;max_buf_stack=0; +grp_stack[0]=0;if_stack[0]=null; +param_ptr=0;max_param_stack=0; +first=buf_size;@/do@+{buffer[first]=0;decr(first);}@+ while (!(first==0)); +scanner_status=normal;warning_index=null;first=1; +state=new_line;start=1;index=0;line=0;name=0; +force_eof=false; +align_state=1000000;@/ +if (!init_terminal()) exit(0); +limit=last;first=last+1; /*|init_terminal| has set |loc| and |last|*/ +} + +@* Getting the next token. +The heart of \TeX's input mechanism is the |get_next| procedure, which +we shall develop in the next few sections of the program. Perhaps we +shouldn't actually call it the ``heart,'' however, because it really acts +as \TeX's eyes and mouth, reading the source files and gobbling them up. +And it also helps \TeX\ to regurgitate stored token lists that are to be +processed again. +@^eyes and mouth@> + +The main duty of |get_next| is to input one token and to set |cur_cmd| +and |cur_chr| to that token's command code and modifier. Furthermore, if +the input token is a control sequence, the |eqtb| location of that control +sequence is stored in |cur_cs|; otherwise |cur_cs| is set to zero. + +Underlying this simple description is a certain amount of complexity +because of all the cases that need to be handled. +However, the inner loop of |get_next| is reasonably short and fast. + +When |get_next| is asked to get the next token of a \.{\\read} line, +it sets |cur_cmd==cur_chr==cur_cs==0| in the case that no more tokens +appear on that line. (There might not be any tokens at all, if the +|end_line_char| has |ignore| as its catcode.) + +@ The value of |par_loc| is the |eqtb| address of `\.{\\par}'. This quantity +is needed because a blank line of input is supposed to be exactly equivalent +to the appearance of \.{\\par}; we must set |cur_cs=par_loc| +when detecting a blank line. + +@<Glob...@>= +static pointer @!par_loc; /*location of `\.{\\par}' in |eqtb|*/ +static halfword @!par_token; /*token representing `\.{\\par}'*/ + +@ @<Put each...@>= +primitive("par", par_end, 256); /*cf.\ |scan_file_name|*/ +@!@:par\_}{\.{\\par} primitive@> +par_loc=cur_val;par_token=cs_token_flag+par_loc; + +@ @<Cases of |print_cmd_chr|...@>= +case par_end: print_esc("par");@+break; + +@ Before getting into |get_next|, let's consider the subroutine that +is called when an `\.{\\outer}' control sequence has been scanned or +when the end of a file has been reached. These two cases are distinguished +by |cur_cs|, which is zero at the end of a file. + +@p static void check_outer_validity(void) +{@+pointer p; /*points to inserted token list*/ +pointer @!q; /*auxiliary pointer*/ +if (scanner_status!=normal) + {@+deletions_allowed=false; + @<Back up an outer control sequence so that it can be reread@>; + if (scanner_status > skipping) + @<Tell the user what has run away and try to recover@>@; + else{@+print_err("Incomplete ");print_cmd_chr(if_test, cur_if); +@.Incomplete \\if...@> + print("; all text was ignored after line ");print_int(skip_line); + help3("A forbidden control sequence occurred in skipped text.",@/ + "This kind of error happens when you say `\\if...' and forget",@/ + "the matching `\\fi'. I've inserted a `\\fi'; this might work."); + if (cur_cs!=0) cur_cs=0; + else help_line[2]=@| + "The file ended while I was skipping conditional text."; + cur_tok=cs_token_flag+frozen_fi;ins_error(); + } + deletions_allowed=true; + } +} + +@ An outer control sequence that occurs in a \.{\\read} will not be reread, +since the error recovery for \.{\\read} is not very powerful. + +@<Back up an outer control sequence so that it can be reread@>= +if (cur_cs!=0) + {@+if ((state==token_list)||(name < 1)||(name > 17)) + {@+p=get_avail();info(p)=cs_token_flag+cur_cs; + back_list(p); /*prepare to read the control sequence again*/ + } + cur_cmd=spacer;cur_chr=' '; /*replace it by a space*/ + } + +@ @<Tell the user what has run away...@>= +{@+runaway(); /*print a definition, argument, or preamble*/ +if (cur_cs==0) print_err("File ended"); +@.File ended while scanning...@> +else{@+cur_cs=0;print_err("Forbidden control sequence found"); +@.Forbidden control sequence...@> + } +print(" while scanning "); +@<Print either `\.{definition}' or `\.{use}' or `\.{preamble}' or `\.{text}', and +insert tokens that should lead to recovery@>; +print(" of ");sprint_cs(warning_index); +help4("I suspect you have forgotten a `}', causing me",@/ +"to read past where you wanted me to stop.",@/ +"I'll try to recover; but if the error is serious,",@/ +"you'd better type `E' or `X' now and fix your file.");@/ +error(); +} + +@ The recovery procedure can't be fully understood without knowing more +about the \TeX\ routines that should be aborted, but we can sketch the +ideas here: For a runaway definition or a runaway balanced text +we will insert a right brace; for a +runaway preamble, we will insert a special \.{\\cr} token and a right +brace; and for a runaway argument, we will set |long_state| to +|outer_call| and insert \.{\\par}. + +@<Print either `\.{definition}' or...@>= +p=get_avail(); +switch (scanner_status) { +case defining: {@+print("definition");info(p)=right_brace_token+'}'; + } @+break; +case matching: {@+print("use");info(p)=par_token;long_state=outer_call; + } @+break; +case aligning: {@+print("preamble");info(p)=right_brace_token+'}';q=p; + p=get_avail();link(p)=q;info(p)=cs_token_flag+frozen_cr; + align_state=-1000000; + } @+break; +case absorbing: {@+print("text");info(p)=right_brace_token+'}'; + } +} /*there are no other cases*/ +ins_list(p) + +@ We need to mention a procedure here that may be called by |get_next|. + +@p static void firm_up_the_line(void); + +@ Now we're ready to take the plunge into |get_next| itself. Parts of +this routine are executed more often than any other instructions of \TeX. +@^mastication@>@^inner loop@> + +@p static void get_next(void) /*sets |cur_cmd|, |cur_chr|, |cur_cs| to next token*/ +{@+ /*go here to get the next input token*/ + /*go here to eat the next character from a file*/ + /*go here to digest it again*/ + /*go here to start looking for a control sequence*/ + /*go here when a control sequence has been found*/ + /*go here when the next input token has been got*/ +int k; /*an index into |buffer|*/ +halfword @!t; /*a token*/ +int @!cat; /*|cat_code(cur_chr)|, usually*/ +ASCII_code @!c, @!cc; /*constituents of a possible expanded code*/ +int @!d; /*number of excess characters in an expanded code*/ +restart: cur_cs=0; +if (state!=token_list) +@<Input from external file, |goto restart| if no input found@>@; +else@<Input from token list, |goto restart| if end of list or if a parameter needs +to be expanded@>; +@<If an alignment entry has just ended, take appropriate action@>; +} + +@ An alignment entry ends when a tab or \.{\\cr} occurs, provided that the +current level of braces is the same as the level that was present at the +beginning of that alignment entry; i.e., provided that |align_state| has +returned to the value it had after the \<u_j> template for that entry. +@^inner loop@> + +@<If an alignment entry has just ended, take appropriate action@>= +if (cur_cmd <= car_ret) if (cur_cmd >= tab_mark) if (align_state==0) + @<Insert the \(v)\<v_j> template and |goto restart|@>@; + +@ @<Input from external file, |goto restart| if no input found@>= +@^inner loop@> +{@+get_cur_chr: if (loc <= limit) /*current line not yet finished*/ + {@+cur_chr=buffer[loc];incr(loc); + reswitch: cur_cmd=cat_code(cur_chr); + @<Change state if necessary, and |goto switch| if the current character should be +ignored, or |goto reswitch| if the current character changes to another@>; + } +else{@+state=new_line;@/ + @<Move to next line of file, or |goto restart| if there is no next line, or |return| +if a \.{\\read} line has finished@>; + check_interrupt; + goto get_cur_chr; + } +} + +@ The following 48-way switch accomplishes the scanning quickly, assuming +that a decent \PASCAL\ compiler has translated the code. Note that the numeric +values for |mid_line|, |skip_blanks|, and |new_line| are spaced +apart from each other by |max_char_code+1|, so we can add a character's +command code to the state to get a single number that characterizes both. + +@d any_state_plus(A) case mid_line+A: case skip_blanks+A: case new_line+A + +@<Change state if necessary...@>= +switch (state+cur_cmd) { +@<Cases where character is ignored@>: goto get_cur_chr; +any_state_plus(escape): @<Scan a control sequence and set |state:=skip_blanks| or +|mid_line|@>@;@+break; +any_state_plus(active_char): @<Process an active-character control sequence and set +|state:=mid_line|@>@;@+break; +any_state_plus(sup_mark): @<If this |sup_mark| starts an expanded character like~\.{\^\^A} +or~\.{\^\^df}, then |goto reswitch|, otherwise set |state:=mid_line|@>@;@+break; +any_state_plus(invalid_char): @<Decry the invalid character and |goto restart|@>@; +@t\4@>@<Handle situations involving spaces, braces, changes of state@>@; +default:do_nothing; +} + +@ @<Cases where character is ignored@>= +any_state_plus(ignore): case skip_blanks+spacer: case new_line+spacer + +@ We go to |restart| instead of to |get_cur_chr|, because |state| might equal +|token_list| after the error has been dealt with +(cf.\ |clear_for_error_prompt|). + +@<Decry the invalid...@>= +{@+print_err("Text line contains an invalid character"); +@.Text line contains...@> +help2("A funny symbol that I can't read has just been input.",@/ +"Continue, and I'll forget that it ever happened.");@/ +deletions_allowed=false;error();deletions_allowed=true; +goto restart; +} + +@ @d add_delims_to(A) A+math_shift: A+tab_mark: A+mac_param: + A+sub_mark: A+letter: A+other_char + +@<Handle situations involving spaces, braces, changes of state@>= +case mid_line+spacer: @<Enter |skip_blanks| state, emit a space@>@;@+break; +case mid_line+car_ret: @<Finish line, emit a space@>@;@+break; +case skip_blanks+car_ret: any_state_plus(comment): + @<Finish line, |goto switch|@>@; +case new_line+car_ret: @<Finish line, emit a \.{\\par}@>@;@+break; +case mid_line+left_brace: incr(align_state);@+break; +case skip_blanks+left_brace: case new_line+left_brace: {@+ + state=mid_line;incr(align_state); + } @+break; +case mid_line+right_brace: decr(align_state);@+break; +case skip_blanks+right_brace: case new_line+right_brace: {@+ + state=mid_line;decr(align_state); + } @+break; +add_delims_to(case skip_blanks): add_delims_to(case new_line): state=mid_line;@+break; + +@ When a character of type |spacer| gets through, its character code is +changed to $\.{"\ "}=040$. This means that the ASCII codes for tab and space, +and for the space inserted at the end of a line, will +be treated alike when macro parameters are being matched. We do this +since such characters are indistinguishable on most computer terminal displays. + +@<Finish line, emit a space@>= +{@+loc=limit+1;cur_cmd=spacer;cur_chr=' '; +} + +@ The following code is performed only when |cur_cmd==spacer|. + +@<Enter |skip_blanks| state, emit a space@>= +{@+state=skip_blanks;cur_chr=' '; +} + +@ @<Finish line, |goto switch|@>= +{@+loc=limit+1;goto get_cur_chr; +} + +@ @<Finish line, emit a \.{\\par}@>= +{@+loc=limit+1;cur_cs=par_loc;cur_cmd=eq_type(cur_cs); +cur_chr=equiv(cur_cs); +if (cur_cmd >= outer_call) check_outer_validity(); +} + +@ Notice that a code like \.{\^\^8} becomes \.x if not followed by a hex digit. + +@d is_hex(A) (((A >= '0')&&(A <= '9'))||((A >= 'a')&&(A <= 'f'))) +@d hex_to_cur_chr + if (c <= '9') cur_chr=c-'0';@+else cur_chr=c-'a'+10; + if (cc <= '9') cur_chr=16*cur_chr+cc-'0'; + else cur_chr=16*cur_chr+cc-'a'+10 + +@<If this |sup_mark| starts an expanded character...@>= +{@+if (cur_chr==buffer[loc]) if (loc < limit) + {@+c=buffer[loc+1];@+if (c < 0200) /*yes we have an expanded char*/ + {@+loc=loc+2; + if (is_hex(c)) if (loc <= limit) + {@+cc=buffer[loc];@+if (is_hex(cc)) + {@+incr(loc);hex_to_cur_chr;goto reswitch; + } + } + if (c < 0100) cur_chr=c+0100;@+else cur_chr=c-0100; + goto reswitch; + } + } +state=mid_line; +} + +@ @<Process an active-character...@>= +{@+cur_cs=cur_chr+active_base; +cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs);state=mid_line; +if (cur_cmd >= outer_call) check_outer_validity(); +} + +@ Control sequence names are scanned only when they appear in some line of +a file; once they have been scanned the first time, their |eqtb| location +serves as a unique identification, so \TeX\ doesn't need to refer to the +original name any more except when it prints the equivalent in symbolic form. + +The program that scans a control sequence has been written carefully +in order to avoid the blowups that might otherwise occur if a malicious +user tried something like `\.{\\catcode\'15=0}'. The algorithm might +look at |buffer[limit+1]|, but it never looks at |buffer[limit+2]|. + +If expanded characters like `\.{\^\^A}' or `\.{\^\^df}' +appear in or just following +a control sequence name, they are converted to single characters in the +buffer and the process is repeated, slowly but surely. + +@<Scan a control...@>= +{@+if (loc > limit) cur_cs=null_cs; /*|state| is irrelevant in this case*/ +else{@+start_cs: k=loc;cur_chr=buffer[k];cat=cat_code(cur_chr); + incr(k); + if (cat==letter) state=skip_blanks; + else if (cat==spacer) state=skip_blanks; + else state=mid_line; + if ((cat==letter)&&(k <= limit)) + @<Scan ahead in the buffer until finding a nonletter; if an expanded code is encountered, +reduce it and |goto start_cs|; otherwise if a multiletter control sequence is found, +adjust |cur_cs| and |loc|, and |goto found|@>@; + else@<If an expanded code is present, reduce it and |goto start_cs|@>; + cur_cs=single_base+buffer[loc];incr(loc); + } +found: cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); +if (cur_cmd >= outer_call) check_outer_validity(); +} + +@ Whenever we reach the following piece of code, we will have +|cur_chr==buffer[k-1]| and |k <= limit+1| and |cat==cat_code(cur_chr)|. If an +expanded code like \.{\^\^A} or \.{\^\^df} appears in |buffer[(k-1)dotdot(k+1)]| +or |buffer[(k-1)dotdot(k+2)]|, we +will store the corresponding code in |buffer[k-1]| and shift the rest of +the buffer left two or three places. + +@<If an expanded...@>= +{@+if (buffer[k]==cur_chr) @+if (cat==sup_mark) @+if (k < limit) + {@+c=buffer[k+1];@+if (c < 0200) /*yes, one is indeed present*/ + {@+d=2; + if (is_hex(c)) @+if (k+2 <= limit) + {@+cc=buffer[k+2];@+if (is_hex(cc)) incr(d); + } + if (d > 2) + {@+hex_to_cur_chr;buffer[k-1]=cur_chr; + } + else if (c < 0100) buffer[k-1]=c+0100; + else buffer[k-1]=c-0100; + limit=limit-d;first=first-d; + while (k <= limit) + {@+buffer[k]=buffer[k+d];incr(k); + } + goto start_cs; + } + } +} + +@ @<Scan ahead in the buffer...@>= +{@+@/do@+{cur_chr=buffer[k];cat=cat_code(cur_chr);incr(k); +}@+ while (!((cat!=letter)||(k > limit))); +@<If an expanded...@>; +if (cat!=letter) decr(k); + /*now |k| points to first nonletter*/ +if (k > loc+1) /*multiletter control sequence has been scanned*/ + {@+cur_cs=id_lookup(loc, k-loc);loc=k;goto found; + } +} + +@ Let's consider now what happens when |get_next| is looking at a token list. + +@<Input from token list, |goto restart| if end of list or if a parameter needs to +be expanded@>= +if (loc!=null) /*list not exhausted*/ +@^inner loop@> + {@+t=info(loc);loc=link(loc); /*move to next*/ + if (t >= cs_token_flag) /*a control sequence token*/ + {@+cur_cs=t-cs_token_flag; + cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); + if (cur_cmd >= outer_call) + if (cur_cmd==dont_expand) + @<Get the next token, suppressing expansion@>@; + else check_outer_validity(); + } + else{@+cur_cmd=t/0400;cur_chr=t%0400; + switch (cur_cmd) { + case left_brace: incr(align_state);@+break; + case right_brace: decr(align_state);@+break; + case out_param: @<Insert macro parameter and |goto restart|@>@; + default:do_nothing; + } + } + } +else{@+ /*we are done with this token list*/ + end_token_list();goto restart; /*resume previous level*/ + } + +@ The present point in the program is reached only when the |expand| +routine has inserted a special marker into the input. In this special +case, |info(loc)| is known to be a control sequence token, and |link(loc)==null|. + +@d no_expand_flag 257 /*this characterizes a special variant of |relax|*/ + +@<Get the next token, suppressing expansion@>= +{@+cur_cs=info(loc)-cs_token_flag;loc=null;@/ +cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); +if (cur_cmd > max_command) + {@+cur_cmd=relax;cur_chr=no_expand_flag; + } +} + +@ @<Insert macro parameter...@>= +{@+begin_token_list(param_stack[param_start+cur_chr-1], parameter); +goto restart; +} + +@ All of the easy branches of |get_next| have now been taken care of. +There is one more branch. + +@d end_line_char_inactive (end_line_char < 0)||(end_line_char > 255) + +@<Move to next line of file, or |goto restart|...@>= +if (name > 17) @<Read next line of file into |buffer|, or |goto restart| if the file +has ended@>@; +else{@+if (!terminal_input) /*\.{\\read} line has ended*/ + {@+cur_cmd=0;cur_chr=0;return; + } + if (input_ptr > 0) /*text was inserted during error recovery*/ + {@+end_file_reading();goto restart; /*resume previous level*/ + } + if (selector < log_only) open_log_file(); + if (interaction > nonstop_mode) + {@+if (end_line_char_inactive) incr(limit); + if (limit==start) /*previous line was empty*/ + print_nl("(Please type a command or say `\\end')"); +@.Please type...@> + print_ln();first=start; + prompt_input("*"); /*input on-line into |buffer|*/ +@.*\relax@> + limit=last; + if (end_line_char_inactive) decr(limit); + else buffer[limit]=end_line_char; + first=limit+1; + loc=start; + } + else fatal_error("*** (job aborted, no legal \\end found)"); +@.job aborted@> + /*nonstop mode, which is intended for overnight batch processing, + never waits for on-line input*/ + } + +@ The global variable |force_eof| is normally |false|; it is set |true| +by an \.{\\endinput} command. + +@<Glob...@>= +static bool @!force_eof; /*should the next \.{\\input} be aborted early?*/ + +@ @<Read next line of file into |buffer|, or |goto restart| if the file has ended@>= +{@+incr(line);first=start; +if (!force_eof) + if (name <= 19) + {@+if (pseudo_input()) /*not end of file*/ + firm_up_the_line(); /*this sets |limit|*/ + else if ((every_eof!=null)&&!eof_seen[index]) + {@+limit=first-1;eof_seen[index]=true; /*fake one empty line*/ + begin_token_list(every_eof, every_eof_text);goto restart; + } + else force_eof=true; + } + else + {@+if (input_ln(&cur_file, true)) /*not end of file*/ + firm_up_the_line(); /*this sets |limit|*/ + else if ((every_eof!=null)&&!eof_seen[index]) + {@+limit=first-1;eof_seen[index]=true; /*fake one empty line*/ + begin_token_list(every_eof, every_eof_text);goto restart; + } + else force_eof=true; + } +if (force_eof) + {@+if (tracing_nesting > 0) + if ((grp_stack[in_open]!=cur_boundary)||@| + (if_stack[in_open]!=cond_ptr)) file_warning(); + /*give warning for some unfinished groups and/or conditionals*/ + if (name >= 19) + {@+print_char(')');decr(open_parens); + update_terminal; /*show user that file has been read*/ + } + force_eof=false; + end_file_reading(); /*resume previous level*/ + check_outer_validity();goto restart; + } +if (end_line_char_inactive) decr(limit); +else buffer[limit]=end_line_char; +first=limit+1;loc=start; /*ready to read*/ +} + +@ If the user has set the |pausing| parameter to some positive value, +and if nonstop mode has not been selected, each line of input is displayed +on the terminal and the transcript file, followed by `\.{=>}'. +\TeX\ waits for a response. If the response is simply |carriage_return|, the +line is accepted as it stands, otherwise the line typed is +used instead of the line in the file. + +@p static void firm_up_the_line(void) +{@+int k; /*an index into |buffer|*/ +limit=last; +if (pausing > 0) if (interaction > nonstop_mode) + {@+wake_up_terminal;print_ln(); + if (start < limit) for (k=start; k<=limit-1; k++) printn(buffer[k]); + first=limit;prompt_input("=>"); /*wait for user response*/ +@.=>@> + if (last > first) + {@+for (k=first; k<=last-1; k++) /*move line down in buffer*/ + buffer[k+start-first]=buffer[k]; + limit=start+last-first; + } + } +} + +@ Since |get_next| is used so frequently in \TeX, it is convenient +to define three related procedures that do a little more: + +\yskip\hang|get_token| not only sets |cur_cmd| and |cur_chr|, it +also sets |cur_tok|, a packed halfword version of the current token. + +\yskip\hang|get_x_token|, meaning ``get an expanded token,'' is like +|get_token|, but if the current token turns out to be a user-defined +control sequence (i.e., a macro call), or a conditional, +or something like \.{\\topmark} or \.{\\expandafter} or \.{\\csname}, +it is eliminated from the input by beginning the expansion of the macro +or the evaluation of the conditional. + +\yskip\hang|x_token| is like |get_x_token| except that it assumes that +|get_next| has already been called. + +\yskip\noindent +In fact, these three procedures account for almost every use of |get_next|. + +@ No new control sequences will be defined except during a call of +|get_token|, or when \.{\\csname} compresses a token list, because +|no_new_control_sequence| is always |true| at other times. + +@p static void get_token(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|*/ +{@+no_new_control_sequence=false;get_next();no_new_control_sequence=true; +@^inner loop@> +if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; +else cur_tok=cs_token_flag+cur_cs; +} + +@* Expanding the next token. +Only a dozen or so command codes | > max_command| can possibly be returned by +|get_next|; in increasing order, they are |undefined_cs|, |expand_after|, +|no_expand|, |input|, |if_test|, |fi_or_else|, |cs_name|, |convert|, |the|, +|top_bot_mark|, |call|, |long_call|, |outer_call|, |long_outer_call|, and +|end_template|.{\emergencystretch=40pt\par} + +The |expand| subroutine is used when |cur_cmd > max_command|. It removes a +``call'' or a conditional or one of the other special operations just +listed. It follows that |expand| might invoke itself recursively. In all +cases, |expand| destroys the current token, but it sets things up so that +the next |get_next| will deliver the appropriate next token. The value of +|cur_tok| need not be known when |expand| is called. + +Since several of the basic scanning routines communicate via global variables, +their values are saved as local variables of |expand| so that +recursive calls don't invalidate them. +@^recursion@> + +@p @t\4@>@<Declare the procedure called |macro_call|@>@;@/ +@t\4@>@<Declare the procedure called |insert_relax|@>@;@/ +@t\4@>@<Declare \eTeX\ procedures for expanding@>@;@/ +@t\4@>@<Declare \Prote\ procedures for expanding@>@;@/ +static void pass_text(void); +static void start_input(void); +static void conditional(void); +static void get_x_token(void); +static void conv_toks(void); +static void ins_the_toks(void); +static void expand(void) +{@+ +halfword t; /*token that is being ``expanded after''*/ +pointer @!p, @!q, @!r; /*for list manipulation*/ +int @!j; /*index into |buffer|*/ +int @!cv_backup; /*to save the global quantity |cur_val|*/ +small_number @!cvl_backup, @!radix_backup, @!co_backup; + /*to save |cur_val_level|, etc.*/ +pointer @!backup_backup; /*to save |link(backup_head)|*/ +small_number @!save_scanner_status; /*temporary storage of |scanner_status|*/ +cv_backup=cur_val;cvl_backup=cur_val_level;radix_backup=radix; +co_backup=cur_order;backup_backup=link(backup_head); +reswitch: +if (cur_cmd < call) @<Expand a nonmacro@>@; +else if (cur_cmd < end_template) macro_call(); +else@<Insert a token containing |frozen_endv|@>; +cur_val=cv_backup;cur_val_level=cvl_backup;radix=radix_backup; +cur_order=co_backup;link(backup_head)=backup_backup; +} + +@ @<Expand a nonmacro@>= +{@+if (tracing_commands > 1) show_cur_cmd_chr(); +switch (cur_cmd) { +case top_bot_mark: @<Insert the \(a)appropriate mark text into the scanner@>@;@+break; +case expand_after: switch (cur_chr) { +case 0: @<Expand the token after the next token@>@;@+break; +case 1: @<Negate a boolean conditional and |goto reswitch|@>@;@+break; +@/@<Cases for |expandafter|@>@/ +} @+break; /*there are no other cases*/ +case no_expand: @<Suppress expansion of the next token@>@;@+break; +case cs_name: @<Manufacture a control sequence name@>@;@+break; +case convert: conv_toks();@+break; /*this procedure is discussed in Part 27 below*/ +case the: ins_the_toks();@+break; /*this procedure is discussed in Part 27 below*/ +case if_test: conditional();@+break; /*this procedure is discussed in Part 28 below*/ +case fi_or_else: @<Terminate the current conditional and skip to \.{\\fi}@>@;@+break; +case input: @<Initiate or terminate input from a file@>;@+break; +default:@<Complain about an undefined macro@>@; +} +} + +@ It takes only a little shuffling to do what \TeX\ calls \.{\\expandafter}. + +@<Expand the token after...@>= +{@+get_token();t=cur_tok;get_token(); +if (cur_cmd > max_command) expand();@+else back_input(); +cur_tok=t;back_input(); +} + +@ The implementation of \.{\\noexpand} is a bit trickier, because it is +necessary to insert a special `|dont_expand|' marker into \TeX's reading +mechanism. This special marker is processed by |get_next|, but it does +not slow down the inner loop. + +Since \.{\\outer} macros might arise here, we must also +clear the |scanner_status| temporarily. + +@<Suppress expansion...@>= +{@+save_scanner_status=scanner_status;scanner_status=normal; +get_token();scanner_status=save_scanner_status;t=cur_tok; +back_input(); /*now |start| and |loc| point to the backed-up token |t|*/ +if (t >= cs_token_flag) + {@+p=get_avail();info(p)=cs_token_flag+frozen_dont_expand; + link(p)=loc;start=p;loc=p; + } +} + +@ @<Complain about an undefined macro@>= +{@+print_err("Undefined control sequence"); +@.Undefined control sequence@> +help5("The control sequence at the end of the top line",@/ +"of your error message was never \\def'ed. If you have",@/ +"misspelled it (e.g., `\\hobx'), type `I' and the correct",@/ +"spelling (e.g., `I\\hbox'). Otherwise just continue,",@/ +"and I'll forget about whatever was undefined."); +error(); +} + +@ The |expand| procedure and some other routines that construct token +lists find it convenient to use the following macros, which are valid only if +the variables |p| and |q| are reserved for token-list building. + +@d store_new_token(A) {@+q=get_avail();link(p)=q;info(q)=A; + p=q; /*|link(p)| is |null|*/ + } +@d fast_store_new_token(A) {@+fast_get_avail(q);link(p)=q;info(q)=A; + p=q; /*|link(p)| is |null|*/ + } + +@ @<Manufacture a control...@>= +{@+r=get_avail();p=r; /*head of the list of characters*/ +incr(incsname_state); +@/do@+{get_x_token(); +if (cur_cs==0) store_new_token(cur_tok); +}@+ while (!(cur_cs!=0)); +if (cur_cmd!=end_cs_name) @<Complain about missing \.{\\endcsname}@>; +decr(incsname_state); +@<Look up the characters of list |r| in the hash table, and set |cur_cs|@>; +flush_list(r); +if (eq_type(cur_cs)==undefined_cs) + {@+eq_define(cur_cs, relax, 256); /*N.B.: The |save_stack| might change*/ + } /*the control sequence will now match `\.{\\relax}'*/ +cur_tok=cur_cs+cs_token_flag;back_input(); +} + +@ @<Complain about missing \.{\\endcsname}@>= +{@+print_err("Missing ");print_esc("endcsname");print(" inserted"); +@.Missing \\endcsname...@> +help2("The control sequence marked <to be read again> should",@/ + "not appear between \\csname and \\endcsname."); +back_error(); +} + +@ @<Look up the characters of list |r| in the hash table...@>= +j=first;p=link(r); +while (p!=null) + {@+if (j >= max_buf_stack) + {@+max_buf_stack=j+1; + if (max_buf_stack==buf_size) + overflow("buffer size", buf_size); +@:TeX capacity exceeded buffer size}{\quad buffer size@> + } + buffer[j]=info(p)%0400;incr(j);p=link(p); + } +if (j==first) cur_cs=null_cs; /*the list is empty*/ +else if (j > first+1) + {@+no_new_control_sequence=false;cur_cs=id_lookup(first, j-first); + no_new_control_sequence=true; + } +else cur_cs=single_base+buffer[first] /*the list has length one*/ + +@ An |end_template| command is effectively changed to an |endv| command +by the following code. (The reason for this is discussed below; the +|frozen_end_template| at the end of the template has passed the +|check_outer_validity| test, so its mission of error detection has been +accomplished.) + +@<Insert a token containing |frozen_endv|@>= +{@+cur_tok=cs_token_flag+frozen_endv;back_input(); +} + +@ The processing of \.{\\input} involves the |start_input| subroutine, +which will be declared later; the processing of \.{\\endinput} is trivial. + +@<Put each...@>= +primitive("input", input, 0);@/ +@!@:input\_}{\.{\\input} primitive@> +primitive("endinput", input, 1);@/ +@!@:end\_input\_}{\.{\\endinput} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case input: if (chr_code==0) print_esc("input") + @/@<Cases of |input| for |print_cmd_chr|@>;@/ + else print_esc("endinput");@+break; + +@ @<Initiate or terminate input...@>= +if (cur_chr==1) force_eof=true +@/@<Cases for |input|@>;@/ +else if (name_in_progress) insert_relax(); +else start_input() + +@ Sometimes the expansion looks too far ahead, so we want to insert +a harmless \.{\\relax} into the user's input. + +@<Declare the procedure called |insert_relax|@>= +static void insert_relax(void) +{@+cur_tok=cs_token_flag+cur_cs;back_input(); +cur_tok=cs_token_flag+frozen_relax;back_input();token_type=inserted; +} + +@ Here is a recursive procedure that is \TeX's usual way to get the +next token of input. It has been slightly optimized to take account of +common cases. + +@p static void get_x_token(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|, + and expands macros*/ +{@+ +restart: get_next(); +@^inner loop@> +if (cur_cmd <= max_command) goto done; +if (cur_cmd >= call) + if (cur_cmd < end_template) macro_call(); + else{@+cur_cs=frozen_endv;cur_cmd=endv; + goto done; /*|cur_chr==null_list|*/ + } +else expand(); +goto restart; +done: if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; +else cur_tok=cs_token_flag+cur_cs; +} + +@ The |get_x_token| procedure is essentially equivalent to two consecutive +procedure calls: |get_next;x_token|. + +@p static void x_token(void) /*|get_x_token| without the initial |get_next|*/ +{@+while (cur_cmd > max_command) + {@+expand(); + get_next(); + } +if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; +else cur_tok=cs_token_flag+cur_cs; +} + +@ A control sequence that has been \.{\\def}'ed by the user is expanded by +\TeX's |macro_call| procedure. + +Before we get into the details of |macro_call|, however, let's consider the +treatment of primitives like \.{\\topmark}, since they are essentially +macros without parameters. The token lists for such marks are kept in a +global array of five pointers; we refer to the individual entries of this +array by symbolic names |top_mark|, etc. The value of |top_mark| is either +|null| or a pointer to the reference count of a token list. + +@d top_mark_code 0 /*the mark in effect at the previous page break*/ +@d first_mark_code 1 /*the first mark between |top_mark| and |bot_mark|*/ +@d bot_mark_code 2 /*the mark in effect at the current page break*/ +@d split_first_mark_code 3 /*the first mark found by \.{\\vsplit}*/ +@d split_bot_mark_code 4 /*the last mark found by \.{\\vsplit}*/ +@d top_mark cur_mark[top_mark_code] +@d first_mark cur_mark[first_mark_code] +@d bot_mark cur_mark[bot_mark_code] +@d split_first_mark cur_mark[split_first_mark_code] +@d split_bot_mark cur_mark[split_bot_mark_code] + +@<Glob...@>= +static pointer @!cur_mark0[split_bot_mark_code-top_mark_code+1], *const @!cur_mark = @!cur_mark0-top_mark_code; + /*token lists for marks*/ + +@ @<Set init...@>= +top_mark=null;first_mark=null;bot_mark=null; +split_first_mark=null;split_bot_mark=null; + +@ @<Put each...@>= +primitive("topmark", top_bot_mark, top_mark_code); +@!@:top\_mark\_}{\.{\\topmark} primitive@> +primitive("firstmark", top_bot_mark, first_mark_code); +@!@:first\_mark\_}{\.{\\firstmark} primitive@> +primitive("botmark", top_bot_mark, bot_mark_code); +@!@:bot\_mark\_}{\.{\\botmark} primitive@> +primitive("splitfirstmark", top_bot_mark, split_first_mark_code); +@!@:split\_first\_mark\_}{\.{\\splitfirstmark} primitive@> +primitive("splitbotmark", top_bot_mark, split_bot_mark_code); +@!@:split\_bot\_mark\_}{\.{\\splitbotmark} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case top_bot_mark: switch (chr_code) { + case first_mark_code: print_esc("firstmark");@+break; + case bot_mark_code: print_esc("botmark");@+break; + case split_first_mark_code: print_esc("splitfirstmark");@+break; + case split_bot_mark_code: print_esc("splitbotmark");@+break; + default:print_esc("topmark"); + } @+break; + +@ The following code is activated when |cur_cmd==top_bot_mark| and +when |cur_chr| is a code like |top_mark_code|. + +@<Insert the \(a)appropriate mark text into the scanner@>= +{@+if (cur_mark[cur_chr]!=null) + begin_token_list(cur_mark[cur_chr], mark_text); +} + +@ Now let's consider |macro_call| itself, which is invoked when \TeX\ is +scanning a control sequence whose |cur_cmd| is either |call|, |long_call|, +|outer_call|, or |long_outer_call|. The control sequence definition +appears in the token list whose reference count is in location |cur_chr| +of |mem|. + +The global variable |long_state| will be set to |call| or to |long_call|, +depending on whether or not the control sequence disallows \.{\\par} +in its parameters. The |get_next| routine will set |long_state| to +|outer_call| and emit \.{\\par}, if a file ends or if an \.{\\outer} +control sequence occurs in the midst of an argument. + +@<Glob...@>= +static int @!long_state; /*governs the acceptance of \.{\\par}*/ + +@ The parameters, if any, must be scanned before the macro is expanded. +Parameters are token lists without reference counts. They are placed on +an auxiliary stack called |pstack| while they are being scanned, since +the |param_stack| may be losing entries during the matching process. +(Note that |param_stack| can't be gaining entries, since |macro_call| is +the only routine that puts anything onto |param_stack|, and it +is not recursive.) + +@<Glob...@>= +static pointer @!pstack[9]; /*arguments supplied to a macro*/ + +@ After parameter scanning is complete, the parameters are moved to the +|param_stack|. Then the macro body is fed to the scanner; in other words, +|macro_call| places the defined text of the control sequence at the +top of\/ \TeX's input stack, so that |get_next| will proceed to read it +next. + +The global variable |cur_cs| contains the |eqtb| address of the control sequence +being expanded, when |macro_call| begins. If this control sequence has not been +declared \.{\\long}, i.e., if its command code in the |eq_type| field is +not |long_call| or |long_outer_call|, its parameters are not allowed to contain +the control sequence \.{\\par}. If an illegal \.{\\par} appears, the macro +call is aborted, and the \.{\\par} will be rescanned. + +@<Declare the procedure called |macro_call|@>= +static void macro_call(void) /*invokes a user-defined control sequence*/ +{@+ +pointer r; /*current node in the macro's token list*/ +pointer @!p; /*current node in parameter token list being built*/ +pointer @!q; /*new node being put into the token list*/ +pointer @!s; /*backup pointer for parameter matching*/ +pointer @!t; /*cycle pointer for backup recovery*/ +pointer @!u, @!v; /*auxiliary pointers for backup recovery*/ +pointer @!rbrace_ptr; /*one step before the last |right_brace| token*/ +small_number @!n; /*the number of parameters scanned*/ +halfword @!unbalance; /*unmatched left braces in current parameter*/ +int @!m; /*the number of tokens or groups (usually)*/ +pointer @!ref_count; /*start of the token list*/ +small_number @!save_scanner_status; /*|scanner_status| upon entry*/ +pointer @!save_warning_index; /*|warning_index| upon entry*/ +ASCII_code @!match_chr; /*character used in parameter*/ +save_scanner_status=scanner_status;save_warning_index=warning_index; +warning_index=cur_cs;ref_count=cur_chr;r=link(ref_count);n=0; +if (tracing_macros > 0) @<Show the text of the macro being expanded@>; +if (info(r)==protected_token) r=link(r); +if (info(r)!=end_match_token) + @<Scan the parameters and make |link(r)| point to the macro body; but |return| if +an illegal \.{\\par} is detected@>; +@<Feed the macro body and its parameters to the scanner@>; +end: scanner_status=save_scanner_status;warning_index=save_warning_index; +} + +@ Before we put a new token list on the input stack, it is wise to clean off +all token lists that have recently been depleted. Then a user macro that ends +with a call to itself will not require unbounded stack space. + +@<Feed the macro body and its parameters to the scanner@>= +while ((state==token_list)&&(loc==null)&&(token_type!=v_template)) + end_token_list(); /*conserve stack space*/ +begin_token_list(ref_count, macro);name=warning_index;loc=link(r); +if (n > 0) + {@+if (param_ptr+n > max_param_stack) + {@+max_param_stack=param_ptr+n; + if (max_param_stack > param_size) + overflow("parameter stack size", param_size); +@:TeX capacity exceeded parameter stack size}{\quad parameter stack size@> + } + for (m=0; m<=n-1; m++) param_stack[param_ptr+m]=pstack[m]; + param_ptr=param_ptr+n; + } + +@ At this point, the reader will find it advisable to review the explanation +of token list format that was presented earlier, since many aspects of that +format are of importance chiefly in the |macro_call| routine. + +The token list might begin with a string of compulsory tokens before the +first |match| or |end_match|. In that case the macro name is supposed to be +followed by those tokens; the following program will set |s==null| to +represent this restriction. Otherwise |s| will be set to the first token of +a string that will delimit the next parameter. + +@<Scan the parameters and make |link(r)| point to the macro body...@>= +{@+scanner_status=matching;unbalance=0; +long_state=eq_type(cur_cs); +if (long_state >= outer_call) long_state=long_state-2; +@/do@+{link(temp_head)=null; +if ((info(r) > match_token+255)||(info(r) < match_token)) s=null; +else{@+match_chr=info(r)-match_token;s=link(r);r=s; + p=temp_head;m=0; + } +@<Scan a parameter until its delimiter string has been found; or, if |s=null|, simply +scan the delimiter string@>;@/ + /*now |info(r)| is a token whose command code is either |match| or |end_match|*/ +}@+ while (!(info(r)==end_match_token)); +} + +@ If |info(r)| is a |match| or |end_match| command, it cannot be equal to +any token found by |get_token|. Therefore an undelimited parameter---i.e., +a |match| that is immediately followed by |match| or |end_match|---will +always fail the test `|cur_tok==info(r)|' in the following algorithm. + +@<Scan a parameter until its delimiter string has been found; or,...@>= +resume: get_token(); /*set |cur_tok| to the next token of input*/ +if (cur_tok==info(r)) + @<Advance \(r)|r|; |goto found| if the parameter delimiter has been fully matched, +otherwise |goto continue|@>; +@<Contribute the recently matched tokens to the current parameter, and |goto continue| +if a partial match is still in effect; but abort if |s=null|@>; +if (cur_tok==par_token) if (long_state!=long_call) + @<Report a runaway argument and abort@>; +if (cur_tok < right_brace_limit) + if (cur_tok < left_brace_limit) + @<Contribute an entire group to the current parameter@>@; + else@<Report an extra right brace and |goto continue|@>@; +else@<Store the current token, but |goto continue| if it is a blank space that would +become an undelimited parameter@>; +incr(m); +if (info(r) > end_match_token) goto resume; +if (info(r) < match_token) goto resume; +found: if (s!=null) @<Tidy up the parameter just scanned, and tuck it away@>@; + +@ @<Store the current token, but |goto continue| if it is...@>= +{@+if (cur_tok==space_token) + if (info(r) <= end_match_token) + if (info(r) >= match_token) goto resume; +store_new_token(cur_tok); +} + +@ A slightly subtle point arises here: When the parameter delimiter ends +with `\.{\#\{}', the token list will have a left brace both before and +after the |end_match|\kern-.4pt. Only one of these should affect the +|align_state|, but both will be scanned, so we must make a correction. + +@<Advance \(r)|r|; |goto found| if the parameter delimiter has been fully...@>= +{@+r=link(r); +if ((info(r) >= match_token)&&(info(r) <= end_match_token)) + {@+if (cur_tok < left_brace_limit) decr(align_state); + goto found; + } +else goto resume; +} + +@ @<Report an extra right brace and |goto continue|@>= +{@+back_input();print_err("Argument of ");sprint_cs(warning_index); +@.Argument of \\x has...@> +print(" has an extra }"); +help6("I've run across a `}' that doesn't seem to match anything.",@/ + "For example, `\\def\\a#1{...}' and `\\a}' would produce",@/ + "this error. If you simply proceed now, the `\\par' that",@/ + "I've just inserted will cause me to report a runaway",@/ + "argument that might be the root of the problem. But if",@/ + "your `}' was spurious, just type `2' and it will go away."); +incr(align_state);long_state=call;cur_tok=par_token;ins_error(); +goto resume; +} /*a white lie; the \.{\\par} won't always trigger a runaway*/ + +@ If |long_state==outer_call|, a runaway argument has already been reported. + +@<Report a runaway argument and abort@>= +{@+if (long_state==call) + {@+runaway();print_err("Paragraph ended before "); +@.Paragraph ended before...@> + sprint_cs(warning_index);print(" was complete"); + help3("I suspect you've forgotten a `}', causing me to apply this",@/ + "control sequence to too much text. How can we recover?",@/ + "My plan is to forget the whole thing and hope for the best."); + back_error(); + } +pstack[n]=link(temp_head);align_state=align_state-unbalance; +for (m=0; m<=n; m++) flush_list(pstack[m]); +goto end; +} + +@ When the following code becomes active, we have matched tokens from |s| to +the predecessor of |r|, and we have found that |cur_tok!=info(r)|. An +interesting situation now presents itself: If the parameter is to be +delimited by a string such as `\.{ab}', and if we have scanned `\.{aa}', +we want to contribute one `\.a' to the current parameter and resume +looking for a `\.b'. The program must account for such partial matches and +for others that can be quite complex. But most of the time we have |s==r| +and nothing needs to be done. + +Incidentally, it is possible for \.{\\par} tokens to sneak in to certain +parameters of non-\.{\\long} macros. For example, consider a case like +`\.{\\def\\a\#1\\par!\{...\}}' where the first \.{\\par} is not followed +by an exclamation point. In such situations it does not seem appropriate +to prohibit the \.{\\par}, so \TeX\ keeps quiet about this bending of +the rules. + +@<Contribute the recently matched tokens to the current parameter...@>= +if (s!=r) + if (s==null) @<Report an improper use of the macro and abort@>@; + else{@+t=s; + @/do@+{store_new_token(info(t));incr(m);u=link(t);v=s; + loop@+{@+if (u==r) + if (cur_tok!=info(v)) goto done; + else{@+r=link(v);goto resume; + } + if (info(u)!=info(v)) goto done; + u=link(u);v=link(v); + } + done: t=link(t); + }@+ while (!(t==r)); + r=s; /*at this point, no tokens are recently matched*/ + } + +@ @<Report an improper use...@>= +{@+print_err("Use of ");sprint_cs(warning_index); +@.Use of x doesn't match...@> +print(" doesn't match its definition"); +help4("If you say, e.g., `\\def\\a1{...}', then you must always",@/ + "put `1' after `\\a', since control sequence names are",@/ + "made up of letters only. The macro here has not been",@/ + "followed by the required stuff, so I'm ignoring it."); +error();goto end; +} + +@ @<Contribute an entire group to the current parameter@>= +{@+unbalance=1; +@^inner loop@> +loop@+{@+fast_store_new_token(cur_tok);get_token(); + if (cur_tok==par_token) if (long_state!=long_call) + @<Report a runaway argument and abort@>; + if (cur_tok < right_brace_limit) + if (cur_tok < left_brace_limit) incr(unbalance); + else{@+decr(unbalance); + if (unbalance==0) goto done1; + } + } +done1: rbrace_ptr=p;store_new_token(cur_tok); +} + +@ If the parameter consists of a single group enclosed in braces, we must +strip off the enclosing braces. That's why |rbrace_ptr| was introduced. + +@<Tidy up the parameter just scanned, and tuck it away@>= +{@+if ((m==1)&&(info(p) < right_brace_limit)) + {@+link(rbrace_ptr)=null;free_avail(p); + p=link(temp_head);pstack[n]=link(p);free_avail(p); + } +else pstack[n]=link(temp_head); +incr(n); +if (tracing_macros > 0) + {@+begin_diagnostic();print_nl("");printn(match_chr);print_int(n); + print("<-");show_token_list(pstack[n-1], null, 1000); + end_diagnostic(false); + } +} + +@ @<Show the text of the macro being expanded@>= +{@+begin_diagnostic();print_ln();print_cs(warning_index); +token_show(ref_count);end_diagnostic(false); +} + +@* Basic scanning subroutines. +Let's turn now to some procedures that \TeX\ calls upon frequently to digest +certain kinds of patterns in the input. Most of these are quite simple; +some are quite elaborate. Almost all of the routines call |get_x_token|, +which can cause them to be invoked recursively. +@^stomach@> +@^recursion@> + +@ The |scan_left_brace| routine is called when a left brace is supposed to be +the next non-blank token. (The term ``left brace'' means, more precisely, +a character whose catcode is |left_brace|.) \TeX\ allows \.{\\relax} to +appear before the |left_brace|. + +@p static void scan_left_brace(void) /*reads a mandatory |left_brace|*/ +{@+@<Get the next non-blank non-relax non-call token@>; +if (cur_cmd!=left_brace) + {@+print_err("Missing { inserted"); +@.Missing \{ inserted@> + help4("A left brace was mandatory here, so I've put one in.",@/ + "You might want to delete and/or insert some corrections",@/ + "so that I will find a matching right brace soon.",@/ + "(If you're confused by all this, try typing `I}' now.)"); + back_error();cur_tok=left_brace_token+'{';cur_cmd=left_brace; + cur_chr='{';incr(align_state); + } +} + +@ @<Get the next non-blank non-relax non-call token@>= +@/do@+{get_x_token(); +}@+ while (!((cur_cmd!=spacer)&&(cur_cmd!=relax))) + +@ The |scan_optional_equals| routine looks for an optional `\.=' sign preceded +by optional spaces; `\.{\\relax}' is not ignored here. + +@p static void scan_optional_equals(void) +{@+@<Get the next non-blank non-call token@>; +if (cur_tok!=other_token+'=') back_input(); +} + +@ @<Get the next non-blank non-call token@>= +@/do@+{get_x_token(); +}@+ while (!(cur_cmd!=spacer)) + +@ In case you are getting bored, here is a slightly less trivial routine: +Given a string of lowercase letters, like `\.{pt}' or `\.{plus}' or +`\.{width}', the |scan_keyword| routine checks to see whether the next +tokens of input match this string. The match must be exact, except that +uppercase letters will match their lowercase counterparts; uppercase +equivalents are determined by subtracting |'a'-'A'|, rather than using the +|uc_code| table, since \TeX\ uses this routine only for its own limited +set of keywords. + +If a match is found, the characters are effectively removed from the input +and |true| is returned. Otherwise |false| is returned, and the input +is left essentially unchanged (except for the fact that some macros +may have been expanded, etc.). +@^inner loop@> + +@p static bool scan_keyword(char *@!s) /*look for a given string*/ +{@+ +pointer p; /*tail of the backup list*/ +pointer @!q; /*new node being added to the token list via |store_new_token|*/ +p=backup_head;link(p)=null; +while (*s!=0) + {@+get_x_token(); /*recursion is possible here*/ +@^recursion@> + if ((cur_cs==0)&&@| + ((cur_chr==so(*s))||(cur_chr==so(*s)-'a'+'A'))) + {@+store_new_token(cur_tok);incr(s); + } + else if ((cur_cmd!=spacer)||(p!=backup_head)) + {@+back_input(); + if (p!=backup_head) back_list(link(backup_head)); + return false; + } + } +flush_list(link(backup_head));return true; +} + +@ Here is a procedure that sounds an alarm when mu and non-mu units +are being switched. + +@p static void mu_error(void) +{@+print_err("Incompatible glue units"); +@.Incompatible glue units@> +help1("I'm going to assume that 1mu=1pt when they're mixed."); +error(); +} + +@ The next routine `|scan_something_internal|' is used to fetch internal +numeric quantities like `\.{\\hsize}', and also to handle the `\.{\\the}' +when expanding constructions like `\.{\\the\\toks0}' and +`\.{\\the\\baselineskip}'. Soon we will be considering the |scan_int| +procedure, which calls |scan_something_internal|; on the other hand, +|scan_something_internal| also calls |scan_int|, for constructions like +`\.{\\catcode\`\\\$}' or `\.{\\fontdimen} \.3 \.{\\ff}'. So we +have to declare |scan_int| as a |forward| procedure. A few other +procedures are also declared at this point. + +@p static void scan_int(void); /*scans an integer value*/ +@t\4\4@>@<Declare procedures that scan restricted classes of integers@>@; +@t\4\4@>@<Declare \eTeX\ procedures for scanning@>@; +@t\4\4@>@<Declare \Prote\ procedures for scanning@>@; +@t\4\4@>@<Declare procedures that scan font-related stuff@>@; + +@ \TeX\ doesn't know exactly what to expect when |scan_something_internal| +begins. For example, an integer or dimension or glue value could occur +immediately after `\.{\\hskip}'; and one can even say \.{\\the} with +respect to token lists in constructions like +`\.{\\xdef\\o\{\\the\\output\}}'. On the other hand, only integers are +allowed after a construction like `\.{\\count}'. To handle the various +possibilities, |scan_something_internal| has a |level| parameter, which +tells the ``highest'' kind of quantity that |scan_something_internal| is +allowed to produce. Six levels are distinguished, namely |int_val|, +|dimen_val|, |glue_val|, |mu_val|, |ident_val|, and |tok_val|. + +The output of |scan_something_internal| (and of the other routines +|scan_int|, |scan_dimen|, and |scan_glue| below) is put into the global +variable |cur_val|, and its level is put into |cur_val_level|. The highest +values of |cur_val_level| are special: |mu_val| is used only when +|cur_val| points to something in a ``muskip'' register, or to one of the +three parameters \.{\\thinmuskip}, \.{\\medmuskip}, \.{\\thickmuskip}; +|ident_val| is used only when |cur_val| points to a font identifier; +|tok_val| is used only when |cur_val| points to |null| or to the reference +count of a token list. The last two cases are allowed only when +|scan_something_internal| is called with |level==tok_val|. + +If the output is glue, |cur_val| will point to a glue specification, and +the reference count of that glue will have been updated to reflect this +reference; if the output is a nonempty token list, |cur_val| will point to +its reference count, but in this case the count will not have been updated. +Otherwise |cur_val| will contain the integer or scaled value in question. + +@d int_val 0 /*integer values*/ +@d dimen_val 1 /*dimension values*/ +@d glue_val 2 /*glue specifications*/ +@d mu_val 3 /*math glue specifications*/ +@d ident_val 4 /*font identifier*/ +@d tok_val 5 /*token lists*/ +@d has_factor (cur_hfactor!=0 || cur_vfactor!=0) + +@<Glob...@>= +static int @!cur_val, @!cur_hfactor, @!cur_vfactor; /*value returned by numeric scanners*/ +static int @!cur_val_level; /*the ``level'' of this value*/ + +@ The hash table is initialized with `\.{\\count}', `\.{\\dimen}', `\.{\\skip}', +and `\.{\\muskip}' all having |internal_register| as their command code; they are +distinguished by the |chr_code|, which is either |int_val|, |dimen_val|, +|glue_val|, or |mu_val| more than |mem_bot| (dynamic variable-size nodes +cannot have these values) + +@<Put each...@>= +primitive("count", internal_register, mem_bot+int_val); +@!@:count\_}{\.{\\count} primitive@> +primitive("dimen", internal_register, mem_bot+dimen_val); +@!@:dimen\_}{\.{\\dimen} primitive@> +primitive("skip", internal_register, mem_bot+glue_val); +@!@:skip\_}{\.{\\skip} primitive@> +primitive("muskip", internal_register, mem_bot+mu_val); +@!@:mu\_skip\_}{\.{\\muskip} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case internal_register: @<Cases of |register| for |print_cmd_chr|@>@;@+break; + +@ OK, we're ready for |scan_something_internal| itself. A second parameter, +|negative|, is set |true| if the value that is found should be negated. +It is assumed that |cur_cmd| and |cur_chr| represent the first token of +the internal quantity to be scanned; an error will be signalled if +|cur_cmd < min_internal| or |cur_cmd > max_internal|. + +@d scanned_result(A, B) @+{@+cur_val=A;cur_val_level=B;@+} + +@p static void scan_something_internal(small_number @!level, bool @!negative) + /*fetch an internal parameter*/ +{@+ +halfword m; /*|chr_code| part of the operand token*/ +pointer @!q, @!r; /*general purpose indices*/ +pointer @!tx; /*effective tail node*/ +four_quarters @!i; /*character info*/ +int @!p; /*index into |nest|*/ +m=cur_chr; +switch (cur_cmd) { +case def_code: @<Fetch a character code from some table@>@;@+break; +case toks_register: case assign_toks: case def_family: case set_font: case def_font: @<Fetch +a token list or font identifier, provided that |level=tok_val|@>@;@+break; +case assign_int: scanned_result(eqtb[m].i, int_val)@;@+break; +case assign_dimen: + scanned_result(eqtb[m].sc, dimen_val); + if (m>=dimen_base)@/ + { cur_hfactor=hfactor_eqtb[m].sc;@+ + cur_vfactor=vfactor_eqtb[m].sc;@+ + } + else + cur_hfactor=cur_vfactor=0;@/ + @+break; +case assign_glue: scanned_result(equiv(m), glue_val)@;@+break; +case assign_mu_glue: scanned_result(equiv(m), mu_val)@;@+break; +case set_aux: @<Fetch the |space_factor| or the |prev_depth|@>@;@+break; +case set_prev_graf: @<Fetch the |prev_graf|@>@;@+break; +case set_page_int: @<Fetch the |dead_cycles| or the |insert_penalties|@>@;@+break; +case set_page_dimen: @<Fetch something on the |page_so_far|@>@;@+break; +case set_shape: @<Fetch the |par_shape| size@>@;@+break; +case set_box_dimen: @<Fetch a box dimension@>@;@+break; +case char_given: case math_given: scanned_result(cur_chr, int_val)@;@+break; +case assign_font_dimen: @<Fetch a font dimension@>@;@+break; +case assign_font_int: @<Fetch a font integer@>@;@+break; +case internal_register: @<Fetch a register@>@;@+break; +case last_item: @<Fetch an item in the current node, if appropriate@>@;@+break; +default:@<Complain that \.{\\the} can't do this; give zero result@>@; +} @/ +while (cur_val_level > level) @<Convert \(c)|cur_val| to a lower level@>; +@<Fix the reference count, if any, and negate |cur_val| if |negative|@>; +} + +@ @<Fetch a character code from some table@>= +{@+scan_char_num(); +if (m==math_code_base) scanned_result(ho(math_code(cur_val)), int_val)@; +else if (m < math_code_base) scanned_result(equiv(m+cur_val), int_val)@; +else scanned_result(eqtb[m+cur_val].i, int_val); +} + +@ @<Fetch a token list...@>= +if (level!=tok_val) + {@+print_err("Missing number, treated as zero"); +@.Missing number...@> + help3("A number should have been here; I inserted `0'.",@/ + "(If you can't figure out why I needed to see a number,",@/ + "look up `weird error' in the index to The TeXbook.)"); +@:TeXbook}{\sl The \TeX book@> + back_error();scanned_result(0, dimen_val); + } +else if (cur_cmd <= assign_toks) + {@+if (cur_cmd < assign_toks) /*|cur_cmd==toks_register|*/ + if (m==mem_bot) + {@+scan_register_num(); + if (cur_val < 256) cur_val=equiv(toks_base+cur_val); + else{@+find_sa_element(tok_val, cur_val, false); + if (cur_ptr==null) cur_val=null; + else cur_val=sa_ptr(cur_ptr); + } + } + else cur_val=sa_ptr(m); + else cur_val=equiv(m); + cur_val_level=tok_val; + } +else{@+back_input();scan_font_ident(); + scanned_result(font_id_base+cur_val, ident_val); + } + +@ Users refer to `\.{\\the\\spacefactor}' only in horizontal +mode, and to `\.{\\the\\prevdepth}' only in vertical mode; so we put the +associated mode in the modifier part of the |set_aux| command. +The |set_page_int| command has modifier 0 or 1, for `\.{\\deadcycles}' and +`\.{\\insertpenalties}', respectively. The |set_box_dimen| command is +modified by either |width_offset|, |height_offset|, or |depth_offset|. +And the |last_item| command is modified by either |int_val|, |dimen_val|, +|glue_val|, |input_line_no_code|, or |badness_code|. +\eTeX\ inserts |last_node_type_code| after |glue_val| and adds +the codes for its extensions: |eTeX_version_code|, \dots\ . + +@d last_node_type_code (glue_val+1) /*code for \.{\\lastnodetype}*/ +@d input_line_no_code (glue_val+2) /*code for \.{\\inputlineno}*/ +@d badness_code (input_line_no_code+1) /*code for \.{\\badness}*/ +@# +@d eTeX_int (badness_code+1) /*first of \eTeX\ codes for integers*/ +@d eTeX_dim (eTeX_int+8) /*first of \eTeX\ codes for dimensions*/ +@d eTeX_glue (eTeX_dim+9) /*first of \eTeX\ codes for glue*/ +@d eTeX_mu (eTeX_glue+1) /*first of \eTeX\ codes for muglue*/ +@d eTeX_expr (eTeX_mu+1) /*first of \eTeX\ codes for expressions*/ +@d eTeX_last_last_item_cmd_mod (eTeX_expr-int_val+mu_val) /*\.{\\muexpr}*/ + +@<Put each...@>= +primitive("spacefactor", set_aux, hmode); +@!@:space\_factor\_}{\.{\\spacefactor} primitive@> +primitive("prevdepth", set_aux, vmode);@/ +@!@:prev\_depth\_}{\.{\\prevdepth} primitive@> +primitive("deadcycles", set_page_int, 0); +@!@:dead\_cycles\_}{\.{\\deadcycles} primitive@> +primitive("insertpenalties", set_page_int, 1); +@!@:insert\_penalties\_}{\.{\\insertpenalties} primitive@> +primitive("wd", set_box_dimen, width_offset); +@!@:wd\_}{\.{\\wd} primitive@> +primitive("ht", set_box_dimen, height_offset); +@!@:ht\_}{\.{\\ht} primitive@> +primitive("dp", set_box_dimen, depth_offset); +@!@:dp\_}{\.{\\dp} primitive@> +primitive("lastpenalty", last_item, int_val); +@!@:last\_penalty\_}{\.{\\lastpenalty} primitive@> +primitive("lastkern", last_item, dimen_val); +@!@:last\_kern\_}{\.{\\lastkern} primitive@> +primitive("lastskip", last_item, glue_val); +@!@:last\_skip\_}{\.{\\lastskip} primitive@> +primitive("inputlineno", last_item, input_line_no_code); +@!@:input\_line\_no\_}{\.{\\inputlineno} primitive@> +primitive("badness", last_item, badness_code); +@!@:badness\_}{\.{\\badness} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case set_aux: if (chr_code==vmode) print_esc("prevdepth"); +@+else print_esc("spacefactor");@+break; +case set_page_int: if (chr_code==0) print_esc("deadcycles") +@/@<Cases of |set_page_int| for |print_cmd_chr|@>;@/ +@+else print_esc("insertpenalties");@+break; +case set_box_dimen: if (chr_code==width_offset) print_esc("wd"); +else if (chr_code==height_offset) print_esc("ht"); +else print_esc("dp");@+break; +case last_item: switch (chr_code) { + case int_val: print_esc("lastpenalty");@+break; + case dimen_val: print_esc("lastkern");@+break; + case glue_val: print_esc("lastskip");@+break; + case input_line_no_code: print_esc("inputlineno");@+break; + @/@<Cases of |last_item| for |print_cmd_chr|@>@/ + default:print_esc("badness"); + } @+break; + +@ @<Fetch the |space_factor| or the |prev_depth|@>= +if (abs(mode)!=m) + {@+print_err("Improper ");print_cmd_chr(set_aux, m); +@.Improper \\spacefactor@> +@.Improper \\prevdepth@> + help4("You can refer to \\spacefactor only in horizontal mode;",@/ + "you can refer to \\prevdepth only in vertical mode; and",@/ + "neither of these is meaningful inside \\write. So",@/ + "I'm forgetting what you said and using zero instead."); + error(); + if (level!=tok_val) scanned_result(0, dimen_val)@; + else scanned_result(0, int_val); + } +else if (m==vmode) scanned_result(prev_depth, dimen_val)@; +else scanned_result(space_factor, int_val) + +@ @<Fetch the |dead_cycles| or the |insert_penalties|@>= +{@+if (m==0) cur_val=dead_cycles +@/@<Cases for `Fetch the |dead_cycles| or the |insert_penalties|'@>;@/ +else cur_val=insert_penalties; +cur_val_level=int_val; +} + +@ @<Fetch a box dimension@>= +{@+scan_register_num();fetch_box(q); +if (q==null) cur_val=0;@+else cur_val=mem[q+m].sc; +cur_val_level=dimen_val; +} + +@ Inside an \.{\\output} routine, a user may wish to look at the page totals +that were present at the moment when output was triggered. + +@d max_dimen 07777777777 /*$2^{30}-1$*/ + +@<Fetch something on the |page_so_far|@>= +{@+if ((page_contents==empty)&&(!output_active)) + if (m==0) cur_val=max_dimen;@+else cur_val=0; +else cur_val=page_so_far[m]; +cur_val_level=dimen_val; +} + +@ @<Fetch the |prev_graf|@>= +if (mode==0) scanned_result(0, int_val)@; /*|prev_graf==0| within \.{\\write}*/ +else{@+nest[nest_ptr]=cur_list;p=nest_ptr; + while (abs(nest[p].mode_field)!=vmode) decr(p); + scanned_result(nest[p].pg_field, int_val); + } + +@ @<Fetch the |par_shape| size@>= +{@+if (m > par_shape_loc) @<Fetch a penalties array element@>@; +else if (par_shape_ptr==null) cur_val=0; +else cur_val=info(par_shape_ptr); +cur_val_level=int_val; +} + +@ Here is where \.{\\lastpenalty}, \.{\\lastkern}, \.{\\lastskip}, and +\.{\\lastnodetype} are +implemented. The reference count for \.{\\lastskip} will be updated later. + +We also handle \.{\\inputlineno} and \.{\\badness} here, because they are +legal in similar contexts. + +@<Fetch an item in the current node...@>= +if (m > eTeX_last_last_item_cmd_mod) + @/@<Fetch a \Prote\ item@>@;@/ +else if (m >= input_line_no_code) + if (m >= eTeX_glue) @<Process an expression and |return|@>@; + else if (m >= eTeX_dim) + {@+switch (m) { + @/@<Cases for fetching a dimension value@>@/ + } /*there are no other cases*/ + cur_val_level=dimen_val; + } + else{@+switch (m) { + case input_line_no_code: cur_val=line;@+break; + case badness_code: cur_val=last_badness;@+break; + @/@<Cases for fetching an integer value@>@/ + } /*there are no other cases*/ + cur_val_level=int_val; + } +else{@+if (cur_chr==glue_val) cur_val=zero_glue;@+else cur_val=0; + tx=tail; + if (cur_chr==last_node_type_code) + {@+cur_val_level=int_val; + if ((tx==head)||(mode==0)) cur_val=-1; + } + else cur_val_level=cur_chr; + if (!is_char_node(tx)&&(mode!=0)) + switch (cur_chr) { + case int_val: if (type(tx)==penalty_node) cur_val=penalty(tx);@+break; + case dimen_val: if (type(tx)==kern_node) cur_val=width(tx);@+break; + case glue_val: if (type(tx)==glue_node) + {@+cur_val=glue_ptr(tx); + if (subtype(tx)==mu_glue) cur_val_level=mu_val; + } @+break; + case last_node_type_code: if (type(tx) <= unset_node) cur_val=type(tx)+1; + else cur_val=unset_node+2; + } /*there are no other cases*/ + else if ((mode==vmode)&&(tx==head)) + switch (cur_chr) { + case int_val: cur_val=last_penalty;@+break; + case dimen_val: cur_val=last_kern;@+break; + case glue_val: if (last_glue!=max_halfword) cur_val=last_glue;@+break; + case last_node_type_code: cur_val=last_node_type; + } /*there are no other cases*/ + } + +@ @<Fetch a font dimension@>= +{@+find_font_dimen(false);font_info[fmem_ptr].sc=0; +scanned_result(font_info[cur_val].sc, dimen_val); +} + +@ @<Fetch a font integer@>= +{@+scan_font_ident(); +if (m==0) scanned_result(hyphen_char[cur_val], int_val)@; +else scanned_result(skew_char[cur_val], int_val); +} + +@ @<Fetch a register@>= +{@+if ((m < mem_bot)||(m > lo_mem_stat_max)) + {@+cur_val_level=sa_type(m); + if (cur_val_level < glue_val) cur_val=sa_int(m); + else cur_val=sa_ptr(m); + } +else{@+scan_register_num();cur_val_level=m-mem_bot; + if (cur_val > 255) + {@+find_sa_element(cur_val_level, cur_val, false); + if (cur_ptr==null) + if (cur_val_level < glue_val) cur_val=0; + else cur_val=zero_glue; + else if (cur_val_level < glue_val) cur_val=sa_int(cur_ptr); + else cur_val=sa_ptr(cur_ptr); + } + else + switch (cur_val_level) { +case int_val: cur_val=count(cur_val);@+break; +case dimen_val: + cur_hfactor=dimen_hfactor(cur_val); + cur_vfactor=dimen_vfactor(cur_val); + cur_val=dimen(cur_val);@+break; +case glue_val: cur_val=skip(cur_val);@+break; +case mu_val: cur_val=mu_skip(cur_val); +} /*there are no other cases*/ + } +} + +@ @<Complain that \.{\\the} can't do this; give zero result@>= +{@+print_err("You can't use `");print_cmd_chr(cur_cmd, cur_chr); +@.You can't use x after ...@> +print("' after ");print_esc("the"); +help1("I'm forgetting what you said and using zero instead."); +error(); +if (level!=tok_val) scanned_result(0, dimen_val)@; +else scanned_result(0, int_val); +} + +@ When a |glue_val| changes to a |dimen_val|, we use the width component +of the glue; there is no need to decrease the reference count, since it +has not yet been increased. When a |dimen_val| changes to an |int_val|, +we use scaled points so that the value doesn't actually change. And when a +|mu_val| changes to a |glue_val|, the value doesn't change either. + +@<Convert \(c)|cur_val| to a lower level@>= +{@+if (cur_val_level==glue_val) cur_val=width(cur_val); +else if (cur_val_level==mu_val) mu_error(); +decr(cur_val_level); +} + +@ If |cur_val| points to a glue specification at this point, the reference +count for the glue does not yet include the reference by |cur_val|. +If |negative| is |true|, |cur_val_level| is known to be | <= mu_val|. + +@<Fix the reference count, if any,...@>= +if (negative) + if (cur_val_level >= glue_val) + {@+cur_val=new_spec(cur_val); + @<Negate all three glue components of |cur_val|@>; + } + else {@+ negate(cur_val);@+ negate(cur_hfactor); @+negate(cur_vfactor); @+} +else if ((cur_val_level >= glue_val)&&(cur_val_level <= mu_val)) + add_glue_ref(cur_val) + +@ @<Negate all three...@>= +{@+negate(width(cur_val)); +negate(stretch(cur_val)); +negate(shrink(cur_val)); +} + +@ Our next goal is to write the |scan_int| procedure, which scans anything that +\TeX\ treats as an integer. But first we might as well look at some simple +applications of |scan_int| that have already been made inside of +|scan_something_internal|. + +@ @<Declare procedures that scan restricted classes of integers@>= +static void scan_eight_bit_int(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > 255)) + {@+print_err("Bad register code"); +@.Bad register code@> + help2("A register number must be between 0 and 255.",@/ + "I changed this one to zero.");int_error(cur_val);cur_val=0; + } +} + +@ @<Declare procedures that scan restricted classes of integers@>= +static void scan_char_num(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > 255)) + {@+print_err("Bad character code"); +@.Bad character code@> + help2("A character number must be between 0 and 255.",@/ + "I changed this one to zero.");int_error(cur_val);cur_val=0; + } +} + +@ While we're at it, we might as well deal with similar routines that +will be needed later. + +@<Declare procedures that scan restricted classes of integers@>= +static void scan_four_bit_int(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > 15)) + {@+print_err("Bad number"); +@.Bad number@> + help2("Since I expected to read a number between 0 and 15,",@/ + "I changed this one to zero.");int_error(cur_val);cur_val=0; + } +} + +@ @<Declare procedures that scan restricted classes of integers@>= +static void scan_fifteen_bit_int(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > 077777)) + {@+print_err("Bad mathchar"); +@.Bad mathchar@> + help2("A mathchar number must be between 0 and 32767.",@/ + "I changed this one to zero.");int_error(cur_val);cur_val=0; + } +} + +@ @<Declare procedures that scan restricted classes of integers@>= +static void scan_twenty_seven_bit_int(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > 0777777777)) + {@+print_err("Bad delimiter code"); +@.Bad delimiter code@> + help2("A numeric delimiter code must be between 0 and 2^{27}-1.",@/ + "I changed this one to zero.");int_error(cur_val);cur_val=0; + } +} + +@ An integer number can be preceded by any number of spaces and `\.+' or +`\.-' signs. Then comes either a decimal constant (i.e., radix 10), an +octal constant (i.e., radix 8, preceded by~\.\'), a hexadecimal constant +(radix 16, preceded by~\."), an alphabetic constant (preceded by~\.\`), or +an internal variable. After scanning is complete, +|cur_val| will contain the answer, which must be at most +$2^{31}-1=2147483647$ in absolute value. The value of |radix| is set to +10, 8, or 16 in the cases of decimal, octal, or hexadecimal constants, +otherwise |radix| is set to zero. An optional space follows a constant. + +@d octal_token (other_token+'\'') /*apostrophe, indicates an octal constant*/ +@d hex_token (other_token+'"') /*double quote, indicates a hex constant*/ +@d alpha_token (other_token+'`') /*reverse apostrophe, precedes alpha constants*/ +@d point_token (other_token+'.') /*decimal point*/ +@d continental_point_token (other_token+',') /*decimal point, Eurostyle*/ + +@<Glob...@>= +static small_number @!radix; /*|scan_int| sets this to 8, 10, 16, or zero*/ + +@ We initialize the following global variables just in case |expand| +comes into action before any of the basic scanning routines has assigned +them a value. + +@<Set init...@>= +cur_val=0;cur_val_level=int_val;radix=0;cur_order=normal; + +@ The |scan_int| routine is used also to scan the integer part of a +fraction; for example, the `\.3' in `\.{3.14159}' will be found by +|scan_int|. The |scan_dimen| routine assumes that |cur_tok==point_token| +after the integer part of such a fraction has been scanned by |scan_int|, +and that the decimal point has been backed up to be scanned again. + +@p static void scan_int(void) /*sets |cur_val| to an integer*/ +{@+ +bool negative; /*should the answer be negated?*/ +int @!m; /*|@t$2^{31}$@>/radix|, the threshold of danger*/ +small_number @!d; /*the digit just scanned*/ +bool @!vacuous; /*have no digits appeared?*/ +bool @!OK_so_far; /*has an error message been issued?*/ +radix=0;OK_so_far=true;@/ +@<Get the next non-blank non-sign token; set |negative| appropriately@>; +if (cur_tok==alpha_token) @<Scan an alphabetic character code into |cur_val|@>@; +else if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) + scan_something_internal(int_val, false); +else@<Scan a numeric constant@>; +if (negative) negate(cur_val); +} + +@ @<Get the next non-blank non-sign token...@>= +negative=false; +@/do@+{@<Get the next non-blank non-call token@>; +if (cur_tok==other_token+'-') + {@+negative=!negative;cur_tok=other_token+'+'; + } +}@+ while (!(cur_tok!=other_token+'+')) + +@ A space is ignored after an alphabetic character constant, so that +such constants behave like numeric ones. + +@<Scan an alphabetic character code into |cur_val|@>= +{@+get_token(); /*suppress macro expansion*/ +if (cur_tok < cs_token_flag) + {@+cur_val=cur_chr; + if (cur_cmd <= right_brace) + if (cur_cmd==right_brace) incr(align_state); + else decr(align_state); + } +else if (cur_tok < cs_token_flag+single_base) + cur_val=cur_tok-cs_token_flag-active_base; +else cur_val=cur_tok-cs_token_flag-single_base; +if (cur_val > 255) + {@+print_err("Improper alphabetic constant"); +@.Improper alphabetic constant@> + help2("A one-character control sequence belongs after a ` mark.",@/ + "So I'm essentially inserting \\0 here."); + cur_val='0';back_error(); + } +else@<Scan an optional space@>; +} + +@ @<Scan an optional space@>= +{@+get_x_token();if (cur_cmd!=spacer) back_input(); +} + +@ @<Scan a numeric constant@>= +{@+radix=10;m=214748364; +if (cur_tok==octal_token) + {@+radix=8;m=02000000000;get_x_token(); + } +else if (cur_tok==hex_token) + {@+radix=16;m=01000000000;get_x_token(); + } +vacuous=true;cur_val=0;@/ +@<Accumulate the constant until |cur_tok| is not a suitable digit@>; +if (vacuous) @<Express astonishment that no number was here@>@; +else if (cur_cmd!=spacer) back_input(); +} + +@ @d infinity 017777777777 /*the largest positive value that \TeX\ knows*/ +@d zero_token (other_token+'0') /*zero, the smallest digit*/ +@d A_token (letter_token+'A') /*the smallest special hex digit*/ +@d other_A_token (other_token+'A') /*special hex digit of type |other_char|*/ + +@<Accumulate the constant...@>= +loop@+{@+if ((cur_tok < zero_token+radix)&&(cur_tok >= zero_token)&& + (cur_tok <= zero_token+9)) d=cur_tok-zero_token; + else if (radix==16) + if ((cur_tok <= A_token+5)&&(cur_tok >= A_token)) d=cur_tok-A_token+10; + else if ((cur_tok <= other_A_token+5)&&(cur_tok >= other_A_token)) + d=cur_tok-other_A_token+10; + else goto done; + else goto done; + vacuous=false; + if ((cur_val >= m)&&((cur_val > m)||(d > 7)||(radix!=10))) + {@+if (OK_so_far) + {@+print_err("Number too big"); +@.Number too big@> + help2("I can only go up to 2147483647='17777777777=\"7FFFFFFF,",@/ + "so I'm using that number instead of yours."); + error();cur_val=infinity;OK_so_far=false; + } + } + else cur_val=cur_val*radix+d; + get_x_token(); + } +done: + +@ @<Express astonishment...@>= +{@+print_err("Missing number, treated as zero"); +@.Missing number...@> +help3("A number should have been here; I inserted `0'.",@/ + "(If you can't figure out why I needed to see a number,",@/ + "look up `weird error' in the index to The TeXbook.)"); +@:TeXbook}{\sl The \TeX book@> +back_error(); +} + +@ The |scan_dimen| routine is similar to |scan_int|, but it sets |cur_val| to +a |scaled| value, i.e., an integral number of sp. One of its main tasks +is therefore to interpret the abbreviations for various kinds of units and +to convert measurements to scaled points. + +There are three parameters: |mu| is |true| if the finite units must be +`\.{mu}', while |mu| is |false| if `\.{mu}' units are disallowed; +|inf| is |true| if the infinite units `\.{fil}', `\.{fill}', `\.{filll}' +are permitted; and |shortcut| is |true| if |cur_val| already contains +an integer and only the units need to be considered. + +The order of infinity that was found in the case of infinite glue is returned +in the global variable |cur_order|. + +@<Glob...@>= +static glue_ord @!cur_order; /*order of infinity found by |scan_dimen|*/ + +@ Constructions like `\.{-\'77 pt}' are legal dimensions, so |scan_dimen| +may begin with |scan_int|. This explains why it is convenient to use +|scan_int| also for the integer part of a decimal fraction. + +Several branches of |scan_dimen| work with |cur_val| as an integer and +with an auxiliary fraction |f|, so that the actual quantity of interest is +$|cur_val|+|f|/2^{16}$. At the end of the routine, this ``unpacked'' +representation is put into the single word |cur_val|, which suddenly +switches significance from |int| to |scaled|. + +@d scan_normal_dimen scan_dimen(false, false, false) + +@p static void scan_dimen(bool @!mu, bool @!inf, bool @!shortcut) + /*sets |cur_val| to a dimension*/ +{@+ +bool negative; /*should the answer be negated?*/ +int @!f; /*numerator of a fraction whose denominator is $2^{16}$*/ +@<Local variables for dimension calculations@>@; +f=0;arith_error=false;cur_order=normal;negative=false; +cur_hfactor=cur_vfactor=0; +if (!shortcut) + {@+@<Get the next non-blank non-sign...@>; + if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) + @<Fetch an internal dimension and |goto attach_sign|, or fetch an internal integer@>@; + else{@+back_input(); + if (cur_tok==continental_point_token) cur_tok=point_token; + if (cur_tok!=point_token) scan_int(); + else{@+radix=10;cur_val=0; + } + if (cur_tok==continental_point_token) cur_tok=point_token; + if ((radix==10)&&(cur_tok==point_token)) @<Scan decimal fraction@>; + } + } +if (cur_val < 0) /*in this case |f==0|*/ + {@+negative=!negative;negate(cur_val); + } +@<Scan units and set |cur_val| to $x\cdot(|cur_val|+f/2^{16})$, where there are |x| +sp per unit; |goto attach_sign| if the units are internal@>; +@<Scan an optional space@>; +attach_sign: +if (arith_error||(abs(cur_val) >= 010000000000)|| +(abs(cur_hfactor) >= 010000000000) || (abs(cur_vfactor) >= 010000000000)) + @<Report that this dimension is out of range@>; +if (negative) @/{@+ negate(cur_val);@+ negate(cur_hfactor); @+negate(cur_vfactor);@+ } +} + +@ @<Fetch an internal dimension and |goto attach_sign|...@>= +if (mu) + {@+scan_something_internal(mu_val, false); + @<Coerce glue to a dimension@>; + if (cur_val_level==mu_val) goto attach_sign; + if (cur_val_level!=int_val) mu_error(); + } +else{@+scan_something_internal(dimen_val, false); + if (cur_val_level==dimen_val) goto attach_sign; + } + +@ @<Local variables for dimension calculations@>= +int @!num, @!denom; /*conversion ratio for the scanned units*/ +int @!k, @!kk; /*number of digits in a decimal fraction*/ +pointer @!p, @!q; /*top of decimal digit stack*/ +scaled @!v; /*an internal dimension*/ +int @!save_cur_val; /*temporary storage of |cur_val|*/ + +@ The following code is executed when |scan_something_internal| was +called asking for |mu_val|, when we really wanted a ``mudimen'' instead +of ``muglue.'' + +@<Coerce glue to a dimension@>= +if (cur_val_level >= glue_val) + {@+v=width(cur_val);delete_glue_ref(cur_val);cur_val=v; + } + +@ When the following code is executed, we have |cur_tok==point_token|, but this +token has been backed up using |back_input|; we must first discard it. + +It turns out that a decimal point all by itself is equivalent to `\.{0.0}'. +Let's hope people don't use that fact. + +@<Scan decimal fraction@>= +{@+k=0;p=null;get_token(); /*|point_token| is being re-scanned*/ +loop@+{@+get_x_token(); + if ((cur_tok > zero_token+9)||(cur_tok < zero_token)) goto done1; + if (k < 17) /*digits for |k >= 17| cannot affect the result*/ + {@+q=get_avail();link(q)=p;info(q)=cur_tok-zero_token; + p=q;incr(k); + } + } +done1: for (kk=k; kk>=1; kk--) + {@+dig[kk-1]=info(p);q=p;p=link(p);free_avail(q); + } +f=round_decimals(k); +if (cur_cmd!=spacer) back_input(); +} + +@ Now comes the harder part: At this point in the program, |cur_val| is a +nonnegative integer and $f/2^{16}$ is a nonnegative fraction less than 1; +we want to multiply the sum of these two quantities by the appropriate +factor, based on the specified units, in order to produce a |scaled| +result, and we want to do the calculation with fixed point arithmetic that +does not overflow. + +@<Scan units and set |cur_val| to $x\cdot(|cur_val|+f/2^{16})$...@>= +if (inf) @<Scan for \(f)\.{fil} units; |goto attach_fraction| if found@>; +@<Scan for \(u)units that are internal dimensions; |goto attach_sign| with |cur_val| +set if found@>; +if (mu) @<Scan for \(m)\.{mu} units and |goto attach_fraction|@>; +if (scan_keyword("true")) @<Adjust \(f)for the magnification ratio@>; +@.true@> +if (scan_keyword("pt")) goto attach_fraction; /*the easy case*/ +@.pt@> +@<Scan for \(a)all other units and adjust |cur_val| and |f| accordingly; |goto done| +in the case of scaled points@>; +attach_fraction: if (cur_val >= 040000) arith_error=true; +else cur_val=cur_val*unity+f; +done: + +@ A specification like `\.{filllll}' or `\.{fill L L L}' will lead to two +error messages (one for each additional keyword \.{"l"}). + +@<Scan for \(f)\.{fil} units...@>= +if (scan_keyword("fil")) +@.fil@> + {@+cur_order=fil; + while (scan_keyword("l")) + {@+if (cur_order==filll) + {@+print_err("Illegal unit of measure ("); +@.Illegal unit of measure@> + print("replaced by filll)"); + help1("I dddon't go any higher than filll.");error(); + } + else incr(cur_order); + } + goto attach_fraction; + } + +@ @<Scan for \(u)units that are internal dimensions...@>= +save_cur_val=cur_val; +if (has_factor) +{ print_err("Factor is not constant. Linear component ignored"); + cur_hfactor=cur_vfactor=0; +} +@<Get the next non-blank non-call...@>; +if ((cur_cmd < min_internal)||(cur_cmd > max_internal)) back_input(); +else{@+if (mu) + {@+scan_something_internal(mu_val, false);@<Coerce glue...@>; + if (cur_val_level!=mu_val) mu_error(); + } + else scan_something_internal(dimen_val, false); + v=cur_val;goto found; + } +if (mu) goto not_found; +if (scan_keyword("em")) v=(@<The em width for |cur_font|@>); +@.em@> +else if (scan_keyword("ex")) v=(@<The x-height for |cur_font|@>); +@.ex@> +else goto not_found; +@<Scan an optional space@>; +found: +if (has_factor) +{ cur_hfactor=nx_plus_y(save_cur_val, cur_hfactor, xn_over_d(cur_hfactor, f, unity)); + cur_vfactor=nx_plus_y(save_cur_val, cur_vfactor, xn_over_d(cur_vfactor, f, unity)); +} + cur_val=nx_plus_y(save_cur_val, v, xn_over_d(v, f, unity)); +goto attach_sign; +not_found: + +@ @<Scan for \(m)\.{mu} units and |goto attach_fraction|@>= +if (scan_keyword("mu")) goto attach_fraction; +@.mu@> +else{@+print_err("Illegal unit of measure (");print("mu inserted)"); +@.Illegal unit of measure@> + help4("The unit of measurement in math glue must be mu.",@/ + "To recover gracefully from this error, it's best to",@/ + "delete the erroneous units; e.g., type `2' to delete",@/ + "two letters. (See Chapter 27 of The TeXbook.)"); +@:TeXbook}{\sl The \TeX book@> + error();goto attach_fraction; + } + +@ @<Adjust \(f)for the magnification ratio@>= +{@+prepare_mag(); +if (mag!=1000) + {@+cur_val=xn_over_d(cur_val, 1000, mag); + f=(1000*f+0200000*rem)/mag; + cur_val=cur_val+(f/0200000);f=f%0200000; + } +} + +@ The necessary conversion factors can all be specified exactly as +fractions whose numerator and denominator sum to 32768 or less. +According to the definitions here, $\rm2660\,dd\approx1000.33297\,mm$; +this agrees well with the value $\rm1000.333\,mm$ cited by Bosshard +@^Bosshard, Hans Rudolf@> +in {\sl Technische Grundlagen zur Satzherstellung\/} (Bern, 1980). + +@d set_conversion(A, B) @+{@+num=A;denom=B;} + +@<Scan for \(a)all other units and adjust |cur_val| and |f|...@>= +if (scan_keyword("in")) set_conversion(7227, 100)@; +@.in@> +else if (scan_keyword("pc")) set_conversion(12, 1)@; +@.pc@> +else if (scan_keyword("cm")) set_conversion(7227, 254)@; +@.cm@> +else if (scan_keyword("mm")) set_conversion(7227, 2540)@; +@.mm@> +else if (scan_keyword("bp")) set_conversion(7227, 7200)@; +@.bp@> +else if (scan_keyword("dd")) set_conversion(1238, 1157)@; +@.dd@> +else if (scan_keyword("cc")) set_conversion(14856, 1157)@; +@.cc@> +else if (scan_keyword("sp")) goto done; +@.sp@> +else@<Complain about unknown unit and |goto done2|@>; +cur_val=xn_over_d(cur_val, num, denom); +f=(num*f+0200000*rem)/denom;@/ +cur_val=cur_val+(f/0200000);f=f%0200000; +done2: + +@ @<Complain about unknown unit...@>= +{@+print_err("Illegal unit of measure (");print("pt inserted)"); +@.Illegal unit of measure@> +help6("Dimensions can be in units of em, ex, in, pt, pc,",@/ + "cm, mm, dd, cc, bp, or sp; but yours is a new one!",@/ + "I'll assume that you meant to say pt, for printer's points.",@/ + "To recover gracefully from this error, it's best to",@/ + "delete the erroneous units; e.g., type `2' to delete",@/ + "two letters. (See Chapter 27 of The TeXbook.)"); +@:TeXbook}{\sl The \TeX book@> +error();goto done2; +} + + +@ @<Report that this dimension is out of range@>= +{@+print_err("Dimension too large"); +@.Dimension too large@> +help2("I can't work with sizes bigger than about 19 feet.",@/ + "Continue and I'll use the largest value I can.");@/ +error();cur_val=max_dimen;arith_error=false; +} + +@ The final member of \TeX's value-scanning trio is |scan_glue|, which +makes |cur_val| point to a glue specification. The reference count of that +glue spec will take account of the fact that |cur_val| is pointing to~it. + +The |level| parameter should be either |glue_val| or |mu_val|. + +Since |scan_dimen| was so much more complex than |scan_int|, we might expect +|scan_glue| to be even worse. But fortunately, it is very simple, since +most of the work has already been done. + +@p static void scan_glue(small_number @!level) + /*sets |cur_val| to a glue spec pointer*/ +{@+ +bool negative; /*should the answer be negated?*/ +pointer @!q; /*new glue specification*/ +bool @!mu; /*does |level==mu_val|?*/ +mu=(level==mu_val);@<Get the next non-blank non-sign...@>; +if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) + {@+scan_something_internal(level, negative); + if (cur_val_level >= glue_val) + {@+if (cur_val_level!=level) mu_error(); + return; + } + if (cur_val_level==int_val) scan_dimen(mu, false, true); + else if (level==mu_val) mu_error(); + } +else{@+back_input();scan_dimen(mu, false, false); + if (negative) { negate(cur_val); negate(cur_hfactor); negate(cur_vfactor);} + } +@<Create a new glue specification whose width is |cur_val|; scan for its stretch and +shrink components@>; +} +@# +@<Declare procedures needed for expressions@>@; + +@ @<Create a new glue specification whose width is |cur_val|...@>= +q=new_spec(zero_glue);width(q)=cur_val; +if (scan_keyword("plus")) +@.plus@> + {@+scan_dimen(mu, true, false); + stretch(q)=cur_val;stretch_order(q)=cur_order; + } +if (scan_keyword("minus")) +@.minus@> + {@+scan_dimen(mu, true, false); + shrink(q)=cur_val;shrink_order(q)=cur_order; + } +cur_val=q + +@ Here's a similar procedure that returns a pointer to a rule node. This +routine is called just after \TeX\ has seen \.{\\hrule} or \.{\\vrule}; +therefore |cur_cmd| will be either |hrule| or |vrule|. The idea is to store +the default rule dimensions in the node, then to override them if +`\.{height}' or `\.{width}' or `\.{depth}' specifications are +found (in any order). + +@d default_rule 26214 /*0.4\thinspace pt*/ + +@p static pointer scan_rule_spec(void) +{@+ +pointer q; /*the rule node being created*/ +q=new_rule(); /*|width|, |depth|, and |height| all equal |null_flag| now*/ +if (cur_cmd==vrule) width(q)=default_rule; +else{@+height(q)=default_rule;depth(q)=0; + } +reswitch: if (scan_keyword("width")) +@.width@> + {@+scan_normal_dimen;width(q)=cur_val;goto reswitch; + } +if (scan_keyword("height")) +@.height@> + {@+scan_normal_dimen;height(q)=cur_val;goto reswitch; + } +if (scan_keyword("depth")) +@.depth@> + {@+scan_normal_dimen;depth(q)=cur_val;goto reswitch; + } +return q; +} + +@* Building token lists. +The token lists for macros and for other things like \.{\\mark} and \.{\\output} +and \.{\\write} are produced by a procedure called |scan_toks|. + +Before we get into the details of |scan_toks|, let's consider a much +simpler task, that of converting the current string into a token list. +The |str_toks| function does this; it classifies spaces as type |spacer| +and everything else as type |other_char|. + +The token list created by |str_toks| begins at |link(temp_head)| and ends +at the value |p| that is returned. (If |p==temp_head|, the list is empty.) + +@p @t\4@>@<Declare \eTeX\ procedures for token lists@>@;@/ +static pointer str_toks(pool_pointer @!b) + /*converts |str_pool[b dotdot pool_ptr-1]| to a token list*/ +{@+pointer p; /*tail of the token list*/ +pointer @!q; /*new node being added to the token list via |store_new_token|*/ +halfword @!t; /*token being appended*/ +pool_pointer @!k; /*index into |str_pool|*/ +str_room(1); +p=temp_head;link(p)=null;k=b; +while (k < pool_ptr) + {@+t=so(str_pool[k]); + if (t==' ') t=space_token; + else t=other_token+t; + fast_store_new_token(t); + incr(k); + } +pool_ptr=b;return p; +} + +@ The main reason for wanting |str_toks| is the next function, +|the_toks|, which has similar input/output characteristics. + +This procedure is supposed to scan something like `\.{\\skip\\count12}', +i.e., whatever can follow `\.{\\the}', and it constructs a token list +containing something like `\.{-3.0pt minus 0.5fill}'. + +@p static pointer the_toks(void) +{@+ +int old_setting; /*holds |selector| setting*/ +pointer @!p, @!q, @!r; /*used for copying a token list*/ +pool_pointer @!b; /*base of temporary string*/ +small_number @!c; /*value of |cur_chr|*/ +@<Handle \.{\\unexpanded} or \.{\\detokenize} and |return|@>;@/ +get_x_token();scan_something_internal(tok_val, false); +if (cur_val_level >= ident_val) @<Copy the token list@>@; +else{@+old_setting=selector;selector=new_string;b=pool_ptr; + switch (cur_val_level) { + case int_val: print_int(cur_val);@+break; + case dimen_val: {@+print_scaled(cur_val);print("pt"); + } @+break; + case glue_val: {@+print_spec(cur_val,"pt");delete_glue_ref(cur_val); + } @+break; + case mu_val: {@+print_spec(cur_val,"mu");delete_glue_ref(cur_val); + } + } /*there are no other cases*/ + selector=old_setting;return str_toks(b); + } +} + +@ @<Copy the token list@>= +{@+p=temp_head;link(p)=null; +if (cur_val_level==ident_val) store_new_token(cs_token_flag+cur_val)@; +else if (cur_val!=null) + {@+r=link(cur_val); /*do not copy the reference count*/ + while (r!=null) + {@+fast_store_new_token(info(r));r=link(r); + } + } +return p; +} + +@ Here's part of the |expand| subroutine that we are now ready to complete: + +@p static void ins_the_toks(void) +{@+link(garbage)=the_toks();ins_list(link(temp_head)); +} + +@ The primitives \.{\\number}, \.{\\romannumeral}, \.{\\string}, \.{\\meaning}, +\.{\\fontname}, and \.{\\jobname} are defined as follows. + +@d number_code 0 /*command code for \.{\\number}*/ +@d roman_numeral_code 1 /*command code for \.{\\romannumeral}*/ +@d string_code 2 /*command code for \.{\\string}*/ +@d meaning_code 3 /*command code for \.{\\meaning}*/ +@d font_name_code 4 /*command code for \.{\\fontname}*/ +@d job_name_code 5 /*command code for \.{\\jobname}*/ +@d etex_convert_base (job_name_code+1) /*base for \eTeX's command codes*/ +@d eTeX_revision_code etex_convert_base /*command code for \.{\\eTeXrevision}*/ +@d etex_convert_codes (etex_convert_base+1) /*end of \eTeX's command codes*/ +@d eTeX_last_convert_cmd_mod etex_convert_codes + +@<Put each...@>= +primitive("number", convert, number_code);@/ +@!@:number\_}{\.{\\number} primitive@> +primitive("romannumeral", convert, roman_numeral_code);@/ +@!@:roman\_numeral\_}{\.{\\romannumeral} primitive@> +primitive("string", convert, string_code);@/ +@!@:string\_}{\.{\\string} primitive@> +primitive("meaning", convert, meaning_code);@/ +@!@:meaning\_}{\.{\\meaning} primitive@> +primitive("fontname", convert, font_name_code);@/ +@!@:font\_name\_}{\.{\\fontname} primitive@> +primitive("jobname", convert, job_name_code);@/ +@!@:job\_name\_}{\.{\\jobname} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case convert: switch (chr_code) { + case number_code: print_esc("number");@+break; + case roman_numeral_code: print_esc("romannumeral");@+break; + case string_code: print_esc("string");@+break; + case meaning_code: print_esc("meaning");@+break; + case font_name_code: print_esc("fontname");@+break; + case job_name_code: print_esc("jobname");@+break; + case eTeX_revision_code: print_esc("eTeXrevision");@+break; + @/@<Cases of |convert| for |print_cmd_chr|@>@/ + } @+break; + +@ The procedure |conv_toks| uses |str_toks| to insert the token list +for |convert| functions into the scanner; `\.{\\outer}' control sequences +are allowed to follow `\.{\\string}' and `\.{\\meaning}'. + +@p static void conv_toks(void) +{@+int old_setting; /*holds |selector| setting*/ +int @!c; /*desired type of conversion*/ +small_number @!save_scanner_status; /*|scanner_status| upon entry*/ +pool_pointer @!b; /*base of temporary string*/ +int @!i, @!k, @!l; /*general purpose index*/ +pool_pointer @!m, @!n; /*general purpose pool pointer*/ +bool @!r; /*general purpose refraction i.e. changing the way*/ +str_number @!s, @!t; /*general purpose; de dicto*/ +c=cur_chr;@<Scan the argument for command |c|@>; +old_setting=selector;selector=new_string;b=pool_ptr; +@<Print the result of command |c|@>; +selector=old_setting;link(garbage)=str_toks(b);ins_list(link(temp_head)); +} + +@ @<Scan the argument for command |c|@>= +switch (c) { +case number_code: case roman_numeral_code: scan_int();@+break; +case string_code: case meaning_code: {@+save_scanner_status=scanner_status; + scanner_status=normal;get_token();scanner_status=save_scanner_status; + } @+break; +case font_name_code: scan_font_ident();@+break; +case job_name_code: if (job_name==0) open_log_file();@+break; +case eTeX_revision_code: do_nothing;@+break; +@/@<Cases of `Scan the argument for command |c|'@>@/ +} /*there are no other cases*/ + +@ @<Print the result of command |c|@>= +switch (c) { +case number_code: print_int(cur_val);@+break; +case roman_numeral_code: print_roman_int(cur_val);@+break; +case string_code: if (cur_cs!=0) sprint_cs(cur_cs); + else print_char(cur_chr);@+break; +case meaning_code: print_meaning();@+break; +case font_name_code: {@+printn(font_name[cur_val]); + if (font_size[cur_val]!=font_dsize[cur_val]) + {@+print(" at ");print_scaled(font_size[cur_val]); + print("pt"); + } + } @+break; +case eTeX_revision_code: print(eTeX_revision);@+break; +case job_name_code: printn(job_name);@+break; +@/@<Cases of `Print the result of command |c|'@>@/ +} /*there are no other cases*/ + +@ Now we can't postpone the difficulties any longer; we must bravely tackle +|scan_toks|. This function returns a pointer to the tail of a new token +list, and it also makes |def_ref| point to the reference count at the +head of that list. + +There are two boolean parameters, |macro_def| and |xpand|. If |macro_def| +is true, the goal is to create the token list for a macro definition; +otherwise the goal is to create the token list for some other \TeX\ +primitive: \.{\\mark}, \.{\\output}, \.{\\everypar}, \.{\\lowercase}, +\.{\\uppercase}, \.{\\message}, \.{\\errmessage}, \.{\\write}, or +\.{\\special}. In the latter cases a left brace must be scanned next; this +left brace will not be part of the token list, nor will the matching right +brace that comes at the end. If |xpand| is false, the token list will +simply be copied from the input using |get_token|. Otherwise all expandable +tokens will be expanded until unexpandable tokens are left, except that +the results of expanding `\.{\\the}' are not expanded further. +If both |macro_def| and |xpand| are true, the expansion applies +only to the macro body (i.e., to the material following the first +|left_brace| character). + +The value of |cur_cs| when |scan_toks| begins should be the |eqtb| +address of the control sequence to display in ``runaway'' error +messages. + +@p static pointer scan_toks(bool @!macro_def, bool @!xpand) +{@+ +halfword t; /*token representing the highest parameter number*/ +halfword @!s; /*saved token*/ +pointer @!p; /*tail of the token list being built*/ +pointer @!q; /*new node being added to the token list via |store_new_token|*/ +halfword @!unbalance; /*number of unmatched left braces*/ +halfword @!hash_brace; /*possible `\.{\#\{}' token*/ +if (macro_def) scanner_status=defining; +@+else scanner_status=absorbing; +warning_index=cur_cs;def_ref=get_avail();token_ref_count(def_ref)=null; +p=def_ref;hash_brace=0;t=zero_token; +if (macro_def) @<Scan and build the parameter part of the macro definition@>@; +else scan_left_brace(); /*remove the compulsory left brace*/ +@<Scan and build the body of the token list; |goto found| when finished@>; +found: scanner_status=normal; +if (hash_brace!=0) store_new_token(hash_brace); +return p; +} +@t\4@>@<Declare \Prote\ procedures for token lists@>@;@/ + +@ @<Scan and build the parameter part...@>= +{@+loop{@+resume: get_token(); /*set |cur_cmd|, |cur_chr|, |cur_tok|*/ + if (cur_tok < right_brace_limit) goto done1; + if (cur_cmd==mac_param) + @<If the next character is a parameter number, make |cur_tok| a |match| token; +but if it is a left brace, store `|left_brace|, |end_match|', set |hash_brace|, and +|goto done|@>; + store_new_token(cur_tok); + } +done1: store_new_token(end_match_token); +if (cur_cmd==right_brace) + @<Express shock at the missing left brace; |goto found|@>; +done: ;} + +@ @<Express shock...@>= +{@+print_err("Missing { inserted");incr(align_state); +@.Missing \{ inserted@> +help2("Where was the left brace? You said something like `\\def\\a}',",@/ + "which I'm going to interpret as `\\def\\a{}'.");error();goto found; +} + +@ @<If the next character is a parameter number...@>= +{@+s=match_token+cur_chr;get_token(); +if (cur_tok < left_brace_limit) + {@+hash_brace=cur_tok; + store_new_token(cur_tok);store_new_token(end_match_token); + goto done; + } +if (t==zero_token+9) + {@+print_err("You already have nine parameters"); +@.You already have nine...@> + help2("I'm going to ignore the # sign you just used,",@/ + "as well as the token that followed it.");error();goto resume; + } +else{@+incr(t); + if (cur_tok!=t) + {@+print_err("Parameters must be numbered consecutively"); +@.Parameters...consecutively@> + help2("I've inserted the digit you should have used after the #.",@/ + "Type `1' to delete what you did use.");back_error(); + } + cur_tok=s; + } +} + +@ @<Scan and build the body of the token list; |goto found| when finished@>= +unbalance=1; +loop@+{@+if (xpand) @<Expand the next part of the input@>@; + else get_token(); + if (cur_tok < right_brace_limit) + if (cur_cmd < right_brace) incr(unbalance); + else{@+decr(unbalance); + if (unbalance==0) goto found; + } + else if (cur_cmd==mac_param) + if (macro_def) @<Look for parameter number or \.{\#\#}@>; + store_new_token(cur_tok); + } + +@ Here we insert an entire token list created by |the_toks| without +expanding it further. + +@<Expand the next part of the input@>= +{@+loop{@+get_next(); + if (cur_cmd >= call) + if (info(link(cur_chr))==protected_token) + {@+cur_cmd=relax;cur_chr=no_expand_flag; + } + if (cur_cmd <= max_command) goto done2; + if (cur_cmd!=the) expand(); + else{@+q=the_toks(); + if (link(temp_head)!=null) + {@+link(p)=link(temp_head);p=q; + } + } + } +done2: x_token(); +} + +@ @<Look for parameter number...@>= +{@+s=cur_tok; +if (xpand) get_x_token();else get_token(); +if (cur_cmd!=mac_param) + if ((cur_tok <= zero_token)||(cur_tok > t)) + {@+print_err("Illegal parameter number in definition of "); +@.Illegal parameter number...@> + sprint_cs(warning_index); + help3("You meant to type ## instead of #, right?",@/ + "Or maybe a } was forgotten somewhere earlier, and things",@/ + "are all screwed up? I'm going to assume that you meant ##."); + back_error();cur_tok=s; + } + else cur_tok=out_param_token-'0'+cur_chr; +} + +@ Another way to create a token list is via the \.{\\read} command. The +sixteen files potentially usable for reading appear in the following +global variables. The value of |read_open[n]| will be |closed| if +stream number |n| has not been opened or if it has been fully read; +|just_open| if an \.{\\openin} but not a \.{\\read} has been done; +and |normal| if it is open and ready to read the next line. + +@d closed 2 /*not open, or at end of file*/ +@d just_open 1 /*newly opened, first line not yet read*/ + +@<Glob...@>= +static alpha_file @!read_file[16]; /*used for \.{\\read}*/ +static int8_t @!read_open[17]; /*state of |read_file[n]|*/ + +@ @<Set init...@>= +for (k=0; k<=16; k++) read_open[k]=closed; + +@ The |read_toks| procedure constructs a token list like that for any +macro definition, and makes |cur_val| point to it. Parameter |r| points +to the control sequence that will receive this token list. + +@p static void read_toks(int @!n, pointer @!r, halfword @!j) +{@+ +pointer p; /*tail of the token list*/ +pointer @!q; /*new node being added to the token list via |store_new_token|*/ +int @!s; /*saved value of |align_state|*/ +small_number @!m; /*stream number*/ +scanner_status=defining;warning_index=r; +def_ref=get_avail();token_ref_count(def_ref)=null; +p=def_ref; /*the reference count*/ +store_new_token(end_match_token); +if ((n < 0)||(n > 15)) m=16;@+else m=n; +s=align_state;align_state=1000000; /*disable tab marks, etc.*/ +@/do@+{@<Input and store tokens from the next line of the file@>; +}@+ while (!(align_state==1000000)); +cur_val=def_ref;scanner_status=normal;align_state=s; +} + +@ @<Input and store tokens from the next line of the file@>= +begin_file_reading();name=m+1; +if (read_open[m]==closed) @<Input for \.{\\read} from the terminal@>; +else if (read_open[m]==just_open) @<Input the first line of |read_file[m]|@>@; +else@<Input the next line of |read_file[m]|@>; +limit=last; +if (end_line_char_inactive) decr(limit); +else buffer[limit]=end_line_char; +first=limit+1;loc=start;state=new_line;@/ +@<Handle \.{\\readline} and |goto done|@>;@/ +loop@+{@+get_token(); + if (cur_tok==0) goto done; + /*|cur_cmd==cur_chr==0| will occur at the end of the line*/ + if (align_state < 1000000) /*unmatched `\.\}' aborts the line*/ + {@+@/do@+{get_token();}@+ while (!(cur_tok==0)); + align_state=1000000;goto done; + } + store_new_token(cur_tok); + } +done: end_file_reading() + +@ Here we input on-line into the |buffer| array, prompting the user explicitly +if |n >= 0|. The value of |n| is set negative so that additional prompts +will not be given in the case of multi-line input. + +@<Input for \.{\\read} from the terminal@>= +if (interaction > nonstop_mode) + if (n < 0) prompt_input("")@; + else{@+wake_up_terminal; + print_ln();sprint_cs(r);prompt_input("=");n=-1; + } +else fatal_error("*** (cannot \\read from terminal in nonstop modes)") +@.cannot \\read@> + +@ The first line of a file must be treated specially, since |input_ln| +must be told not to start with |get|. +@^system dependencies@> + +@<Input the first line of |read_file[m]|@>= +if (input_ln(&read_file[m], false)) read_open[m]=normal; +else{@+a_close(&read_file[m]);read_open[m]=closed; + } + +@ An empty line is appended at the end of a |read_file|. +@^empty line at end of file@> + +@<Input the next line of |read_file[m]|@>= +{@+if (!input_ln(&read_file[m], true)) + {@+a_close(&read_file[m]);read_open[m]=closed; + if (align_state!=1000000) + {@+runaway(); + print_err("File ended within ");print_esc("read"); +@.File ended within \\read@> + help1("This \\read has unbalanced braces."); + align_state=1000000;limit=0;error(); + } + } +} + +@* Conditional processing. +We consider now the way \TeX\ handles various kinds of \.{\\if} commands. + +@d unless_code 32 /*amount added for `\.{\\unless}' prefix*/ +@# +@d if_char_code 0 /* `\.{\\if}' */ +@d if_cat_code 1 /* `\.{\\ifcat}' */ +@d if_int_code 2 /* `\.{\\ifnum}' */ +@d if_dim_code 3 /* `\.{\\ifdim}' */ +@d if_odd_code 4 /* `\.{\\ifodd}' */ +@d if_vmode_code 5 /* `\.{\\ifvmode}' */ +@d if_hmode_code 6 /* `\.{\\ifhmode}' */ +@d if_mmode_code 7 /* `\.{\\ifmmode}' */ +@d if_inner_code 8 /* `\.{\\ifinner}' */ +@d if_void_code 9 /* `\.{\\ifvoid}' */ +@d if_hbox_code 10 /* `\.{\\ifhbox}' */ +@d if_vbox_code 11 /* `\.{\\ifvbox}' */ +@d ifx_code 12 /* `\.{\\ifx}' */ +@d if_eof_code 13 /* `\.{\\ifeof}' */ +@d if_true_code 14 /* `\.{\\iftrue}' */ +@d if_false_code 15 /* `\.{\\iffalse}' */ +@d if_case_code 16 /* `\.{\\ifcase}' */ + +@<Put each...@>= +primitive("if", if_test, if_char_code); +@!@:if\_char\_}{\.{\\if} primitive@> +primitive("ifcat", if_test, if_cat_code); +@!@:if\_cat\_code\_}{\.{\\ifcat} primitive@> +primitive("ifnum", if_test, if_int_code); +@!@:if\_int\_}{\.{\\ifnum} primitive@> +primitive("ifdim", if_test, if_dim_code); +@!@:if\_dim\_}{\.{\\ifdim} primitive@> +primitive("ifodd", if_test, if_odd_code); +@!@:if\_odd\_}{\.{\\ifodd} primitive@> +primitive("ifvmode", if_test, if_vmode_code); +@!@:if\_vmode\_}{\.{\\ifvmode} primitive@> +primitive("ifhmode", if_test, if_hmode_code); +@!@:if\_hmode\_}{\.{\\ifhmode} primitive@> +primitive("ifmmode", if_test, if_mmode_code); +@!@:if\_mmode\_}{\.{\\ifmmode} primitive@> +primitive("ifinner", if_test, if_inner_code); +@!@:if\_inner\_}{\.{\\ifinner} primitive@> +primitive("ifvoid", if_test, if_void_code); +@!@:if\_void\_}{\.{\\ifvoid} primitive@> +primitive("ifhbox", if_test, if_hbox_code); +@!@:if\_hbox\_}{\.{\\ifhbox} primitive@> +primitive("ifvbox", if_test, if_vbox_code); +@!@:if\_vbox\_}{\.{\\ifvbox} primitive@> +primitive("ifx", if_test, ifx_code); +@!@:ifx\_}{\.{\\ifx} primitive@> +primitive("ifeof", if_test, if_eof_code); +@!@:if\_eof\_}{\.{\\ifeof} primitive@> +primitive("iftrue", if_test, if_true_code); +@!@:if\_true\_}{\.{\\iftrue} primitive@> +primitive("iffalse", if_test, if_false_code); +@!@:if\_false\_}{\.{\\iffalse} primitive@> +primitive("ifcase", if_test, if_case_code); +@!@:if\_case\_}{\.{\\ifcase} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case if_test: {@+if (chr_code >= unless_code) print_esc("unless"); +switch (chr_code%unless_code) { + case if_cat_code: print_esc("ifcat");@+break; + case if_int_code: print_esc("ifnum");@+break; + case if_dim_code: print_esc("ifdim");@+break; + case if_odd_code: print_esc("ifodd");@+break; + case if_vmode_code: print_esc("ifvmode");@+break; + case if_hmode_code: print_esc("ifhmode");@+break; + case if_mmode_code: print_esc("ifmmode");@+break; + case if_inner_code: print_esc("ifinner");@+break; + case if_void_code: print_esc("ifvoid");@+break; + case if_hbox_code: print_esc("ifhbox");@+break; + case if_vbox_code: print_esc("ifvbox");@+break; + case ifx_code: print_esc("ifx");@+break; + case if_eof_code: print_esc("ifeof");@+break; + case if_true_code: print_esc("iftrue");@+break; + case if_false_code: print_esc("iffalse");@+break; + case if_case_code: print_esc("ifcase");@+break; + @/@<Cases of |if_test| for |print_cmd_chr|@>@/ + default:print_esc("if"); + } +} @+break; + +@ Conditions can be inside conditions, and this nesting has a stack +that is independent of the |save_stack|. + +Four global variables represent the top of the condition stack: +|cond_ptr| points to pushed-down entries, if any; |if_limit| specifies +the largest code of a |fi_or_else| command that is syntactically legal; +|cur_if| is the name of the current type of conditional; and |if_line| +is the line number at which it began. + +If no conditions are currently in progress, the condition stack has the +special state |cond_ptr==null|, |if_limit==normal|, |cur_if==0|, |if_line==0|. +Otherwise |cond_ptr| points to a two-word node; the |type|, |subtype|, and +|link| fields of the first word contain |if_limit|, |cur_if|, and +|cond_ptr| at the next level, and the second word contains the +corresponding |if_line|. + +@d if_node_size 2 /*number of words in stack entry for conditionals*/ +@d if_line_field(A) mem[A+1].i +@d if_code 1 /*code for \.{\\if...} being evaluated*/ +@d fi_code 2 /*code for \.{\\fi}*/ +@d else_code 3 /*code for \.{\\else}*/ +@d or_code 4 /*code for \.{\\or}*/ + +@<Glob...@>= +static pointer @!cond_ptr; /*top of the condition stack*/ +static int @!if_limit; /*upper bound on |fi_or_else| codes*/ +static small_number @!cur_if; /*type of conditional being worked on*/ +static int @!if_line; /*line where that conditional began*/ + +@ @<Set init...@>= +cond_ptr=null;if_limit=normal;cur_if=0;if_line=0; + +@ @<Put each...@>= +primitive("fi", fi_or_else, fi_code); +@!@:fi\_}{\.{\\fi} primitive@> +text(frozen_fi)=text(cur_val);eqtb[frozen_fi]=eqtb[cur_val]; +primitive("or", fi_or_else, or_code); +@!@:or\_}{\.{\\or} primitive@> +primitive("else", fi_or_else, else_code); +@!@:else\_}{\.{\\else} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case fi_or_else: if (chr_code==fi_code) print_esc("fi"); + else if (chr_code==or_code) print_esc("or"); + else print_esc("else");@+break; + +@ When we skip conditional text, we keep track of the line number +where skipping began, for use in error messages. + +@<Glob...@>= +static int @!skip_line; /*skipping began here*/ + +@ Here is a procedure that ignores text until coming to an \.{\\or}, +\.{\\else}, or \.{\\fi} at the current level of $\.{\\if}\ldots\.{\\fi}$ +nesting. After it has acted, |cur_chr| will indicate the token that +was found, but |cur_tok| will not be set (because this makes the +procedure run faster). + +@p static void pass_text(void) +{@+ +int l; /*level of $\.{\\if}\ldots\.{\\fi}$ nesting*/ +small_number @!save_scanner_status; /*|scanner_status| upon entry*/ +save_scanner_status=scanner_status;scanner_status=skipping;l=0; +skip_line=line; +loop@+{@+get_next(); + if (cur_cmd==fi_or_else) + {@+if (l==0) goto done; + if (cur_chr==fi_code) decr(l); + } + else if (cur_cmd==if_test) incr(l); + } +done: scanner_status=save_scanner_status; +if (tracing_ifs > 0) show_cur_cmd_chr(); +} + +@ When we begin to process a new \.{\\if}, we set |if_limit=if_code|; then +if\/ \.{\\or} or \.{\\else} or \.{\\fi} occurs before the current \.{\\if} +condition has been evaluated, \.{\\relax} will be inserted. +For example, a sequence of commands like `\.{\\ifvoid1\\else...\\fi}' +would otherwise require something after the `\.1'. + +@<Push the condition stack@>= +{@+p=get_node(if_node_size);link(p)=cond_ptr;type(p)=if_limit; +subtype(p)=cur_if;if_line_field(p)=if_line; +cond_ptr=p;cur_if=cur_chr;if_limit=if_code;if_line=line; +} + +@ @<Pop the condition stack@>= +{@+if (if_stack[in_open]==cond_ptr) if_warning(); + /*conditionals possibly not properly nested with files*/ +p=cond_ptr;if_line=if_line_field(p); +cur_if=subtype(p);if_limit=type(p);cond_ptr=link(p); +free_node(p, if_node_size); +} + +@ Here's a procedure that changes the |if_limit| code corresponding to +a given value of |cond_ptr|. + +@p static void change_if_limit(small_number @!l, pointer @!p) +{@+ +pointer q; +if (p==cond_ptr) if_limit=l; /*that's the easy case*/ +else{@+q=cond_ptr; + loop@+{@+if (q==null) confusion("if"); +@:this can't happen if}{\quad if@> + if (link(q)==p) + {@+type(q)=l;return; + } + q=link(q); + } + } +} + +@ A condition is started when the |expand| procedure encounters +an |if_test| command; in that case |expand| reduces to |conditional|, +which is a recursive procedure. +@^recursion@> + +@p static void conditional(void) +{@+ +bool b; /*is the condition true?*/ +int @!r; /*relation to be evaluated*/ +int @!m, @!n; /*to be tested against the second operand*/ +pointer @!p, @!q; /*for traversing token lists in \.{\\ifx} tests*/ +small_number @!save_scanner_status; /*|scanner_status| upon entry*/ +pointer @!save_cond_ptr; /*|cond_ptr| corresponding to this conditional*/ +small_number @!this_if; /*type of this conditional*/ +bool @!is_unless; /*was this if preceded by `\.{\\unless}' ?*/ +if (tracing_ifs > 0) if (tracing_commands <= 1) show_cur_cmd_chr(); +@<Push the condition stack@>;@+save_cond_ptr=cond_ptr; +is_unless=(cur_chr >= unless_code);this_if=cur_chr%unless_code;@/ +@<Either process \.{\\ifcase} or set |b| to the value of a boolean condition@>; +if (is_unless) b=!b; +if (tracing_commands > 1) @<Display the value of |b|@>; +if (b) + {@+change_if_limit(else_code, save_cond_ptr); + return; /*wait for \.{\\else} or \.{\\fi}*/ + } +@<Skip to \.{\\else} or \.{\\fi}, then |goto common_ending|@>; +common_ending: if (cur_chr==fi_code) @<Pop the condition stack@>@; +else if_limit=fi_code; /*wait for \.{\\fi}*/ +} + +@ In a construction like `\.{\\if\\iftrue abc\\else d\\fi}', the first +\.{\\else} that we come to after learning that the \.{\\if} is false is +not the \.{\\else} we're looking for. Hence the following curious +logic is needed. + +@ @<Skip to \.{\\else} or \.{\\fi}...@>= +loop@+{@+pass_text(); + if (cond_ptr==save_cond_ptr) + {@+if (cur_chr!=or_code) goto common_ending; + print_err("Extra ");print_esc("or"); +@.Extra \\or@> + help1("I'm ignoring this; it doesn't match any \\if."); + error(); + } + else if (cur_chr==fi_code) @<Pop the condition stack@>; + } + +@ @<Either process \.{\\ifcase} or set |b|...@>= +switch (this_if) { +case if_char_code: case if_cat_code: @<Test if two characters match@>@;@+break; +case if_int_code: case if_dim_code: @<Test relation between integers or dimensions@>@;@+break; +case if_odd_code: @<Test if an integer is odd@>@;@+break; +case if_vmode_code: b=(abs(mode)==vmode);@+break; +case if_hmode_code: b=(abs(mode)==hmode);@+break; +case if_mmode_code: b=(abs(mode)==mmode);@+break; +case if_inner_code: b=(mode < 0);@+break; +case if_void_code: case if_hbox_code: case if_vbox_code: @<Test box register status@>@;@+break; +case ifx_code: @<Test if two tokens match@>@;@+break; +case if_eof_code: {@+scan_four_bit_int();b=(read_open[cur_val]==closed); + } @+break; +case if_true_code: b=true;@+break; +case if_false_code: b=false;@+break; +@/@<Cases for |conditional|@>@/ +case if_case_code: @<Select the appropriate case and |return| or |goto common_ending|@>; +} /*there are no other cases*/ + +@ @<Display the value of |b|@>= +{@+begin_diagnostic(); +if (b) print("{true}");@+else print("{false}"); +end_diagnostic(false); +} + +@ Here we use the fact that |'<'|, |'='|, and |'>'| are consecutive ASCII +codes. +@^ASCII code@> + +@<Test relation between integers or dimensions@>= +{@+if (this_if==if_int_code) scan_int();@+else scan_normal_dimen; +n=cur_val;@<Get the next non-blank non-call...@>; +if ((cur_tok >= other_token+'<')&&(cur_tok <= other_token+'>')) + r=cur_tok-other_token; +else{@+print_err("Missing = inserted for "); +@.Missing = inserted@> + print_cmd_chr(if_test, this_if); + help1("I was expecting to see `<', `=', or `>'. Didn't."); + back_error();r='='; + } +if (this_if==if_int_code) scan_int();@+else scan_normal_dimen; +switch (r) { +case '<': b=(n < cur_val);@+break; +case '=': b=(n==cur_val);@+break; +case '>': b=(n > cur_val); +} +} + +@ @<Test if an integer is odd@>= +{@+scan_int();b=odd(cur_val); +} + +@ @<Test box register status@>= +{@+scan_register_num();fetch_box(p); +if (this_if==if_void_code) b=(p==null); +else if (p==null) b=false; +else if (this_if==if_hbox_code) b=(type(p)==hlist_node); +else b=(type(p)==vlist_node); +} + +@ An active character will be treated as category 13 following +\.{\\if\\noexpand} or following \.{\\ifcat\\noexpand}. We use the fact that +active characters have the smallest tokens, among all control sequences. + +@d get_x_token_or_active_char @t@>@; + {@+get_x_token(); + if (cur_cmd==relax) if (cur_chr==no_expand_flag) + {@+cur_cmd=active_char; + cur_chr=cur_tok-cs_token_flag-active_base; + } + } + +@<Test if two characters match@>= +{@+get_x_token_or_active_char; +if ((cur_cmd > active_char)||(cur_chr > 255)) /*not a character*/ + {@+m=relax;n=256; + } +else{@+m=cur_cmd;n=cur_chr; + } +get_x_token_or_active_char; +if ((cur_cmd > active_char)||(cur_chr > 255)) + {@+cur_cmd=relax;cur_chr=256; + } +if (this_if==if_char_code) b=(n==cur_chr);@+else b=(m==cur_cmd); +} + +@ Note that `\.{\\ifx}' will declare two macros different if one is \\{long} +or \\{outer} and the other isn't, even though the texts of the macros are +the same. + +We need to reset |scanner_status|, since \.{\\outer} control sequences +are allowed, but we might be scanning a macro definition or preamble. + +@<Test if two tokens match@>= +{@+save_scanner_status=scanner_status;scanner_status=normal; +get_next();n=cur_cs;p=cur_cmd;q=cur_chr; +get_next();if (cur_cmd!=p) b=false; +else if (cur_cmd < call) b=(cur_chr==q); +else@<Test if two macro texts match@>; +scanner_status=save_scanner_status; +} + +@ Note also that `\.{\\ifx}' decides that macros \.{\\a} and \.{\\b} are +different in examples like this: +$$\vbox{\halign{\.{#}\hfil&\qquad\.{#}\hfil\cr + {}\\def\\a\{\\c\}& + {}\\def\\c\{\}\cr + {}\\def\\b\{\\d\}& + {}\\def\\d\{\}\cr}}$$ + +@<Test if two macro texts match@>= +{@+p=link(cur_chr);q=link(equiv(n)); /*omit reference counts*/ +if (p==q) b=true; +else{@+while ((p!=null)&&(q!=null)) + if (info(p)!=info(q)) p=null; + else{@+p=link(p);q=link(q); + } + b=((p==null)&&(q==null)); + } +} + +@ @<Select the appropriate case and |return| or |goto common_ending|@>= +{@+scan_int();n=cur_val; /*|n| is the number of cases to pass*/ +if (tracing_commands > 1) + {@+begin_diagnostic();print("{case ");print_int(n);print_char('}'); + end_diagnostic(false); + } +while (n!=0) + {@+pass_text(); + if (cond_ptr==save_cond_ptr) + if (cur_chr==or_code) decr(n); + else goto common_ending; + else if (cur_chr==fi_code) @<Pop the condition stack@>; + } +change_if_limit(or_code, save_cond_ptr); +return; /*wait for \.{\\or}, \.{\\else}, or \.{\\fi}*/ +} + +@ The processing of conditionals is complete except for the following +code, which is actually part of |expand|. It comes into play when +\.{\\or}, \.{\\else}, or \.{\\fi} is scanned. + +@<Terminate the current conditional and skip to \.{\\fi}@>= +{@+if (tracing_ifs > 0) if (tracing_commands <= 1) show_cur_cmd_chr(); +if (cur_chr > if_limit) + if (if_limit==if_code) insert_relax(); /*condition not yet evaluated*/ + else{@+print_err("Extra ");print_cmd_chr(fi_or_else, cur_chr); +@.Extra \\or@> +@.Extra \\else@> +@.Extra \\fi@> + help1("I'm ignoring this; it doesn't match any \\if."); + error(); + } +else{@+while (cur_chr!=fi_code) pass_text(); /*skip to \.{\\fi}*/ + @<Pop the condition stack@>; + } +} + +@* File names. +It's time now to fret about file names. Besides the fact that different +operating systems treat files in different ways, we must cope with the +fact that completely different naming conventions are used by different +groups of people. The following programs show what is required for one +particular operating system; similar routines for other systems are not +difficult to devise. +@^fingers@> +@^system dependencies@> + +\TeX\ assumes that a file name has three parts: the name proper; its +``extension''; and a ``file area'' where it is found in an external file +system. The extension of an input file or a write file is assumed to be +`\.{.tex}' unless otherwise specified; it is `\.{.log}' on the +transcript file that records each run of \TeX; it is `\.{.tfm}' on the font +metric files that describe characters in the fonts \TeX\ uses; it is +`\.{.dvi}' on the output files that specify typesetting information; and it +is `\.{.fmt}' on the format files written by \.{INITEX} to initialize \TeX. +The file area can be arbitrary on input files, but files are usually +output to the user's current area. If an input file cannot be +found on the specified area, \TeX\ will look for it on a special system +area; this special area is intended for commonly used input files like +\.{webmac.tex}. + +Simple uses of \TeX\ refer only to file names that have no explicit +extension or area. For example, a person usually says `\.{\\input} \.{paper}' +or `\.{\\font\\tenrm} \.= \.{helvetica}' instead of `\.{\\input} +\.{paper.new}' or `\.{\\font\\tenrm} \.= \.{<csd.knuth>test}'. Simple file +names are best, because they make the \TeX\ source files portable; +whenever a file name consists entirely of letters and digits, it should be +treated in the same way by all implementations of \TeX. However, users +need the ability to refer to other files in their environment, especially +when responding to error messages concerning unopenable files; therefore +we want to let them use the syntax that appears in their favorite +operating system. + +The following procedures don't allow spaces to be part of +file names; but some users seem to like names that are spaced-out. +System-dependent changes to allow such things should probably +be made with reluctance, and only when an entire file name that +includes spaces is ``quoted'' somehow. + +@ In order to isolate the system-dependent aspects of file names, the +@^system dependencies@> +system-independent parts of \TeX\ are expressed in terms +of three system-dependent +procedures called |begin_name|, |more_name|, and |end_name|. In +essence, if the user-specified characters of the file name are $c_1\ldots c_n$, +the system-independent driver program does the operations +$$|begin_name|;\,|more_name|(c_1);\,\ldots\,;\,|more_name|(c_n); +\,|end_name|.$$ +These three procedures communicate with each other via global variables. +Afterwards the file name will appear in the string pool as three strings +called |cur_name|\penalty10000\hskip-.05em, +|cur_area|, and |cur_ext|; the latter two are null (i.e., +|""|), unless they were explicitly specified by the user. + +Actually the situation is slightly more complicated, because \TeX\ needs +to know when the file name ends. The |more_name| routine is a function +(with side effects) that returns |true| on the calls |more_name|$(c_1)$, +\dots, |more_name|$(c_{n-1})$. The final call |more_name|$(c_n)$ +returns |false|; or, it returns |true| and the token following $c_n$ is +something like `\.{\\hbox}' (i.e., not a character). In other words, +|more_name| is supposed to return |true| unless it is sure that the +file name has been completely scanned; and |end_name| is supposed to be able +to finish the assembly of |cur_name|, |cur_area|, and |cur_ext| regardless of +whether $|more_name|(c_n)$ returned |true| or |false|. + +@<Glob...@>= +static str_number @!cur_name; /*name of file just scanned*/ +static char *@!cur_area; /*file area just scanned, or \.{""}*/ +static char *@!cur_ext; /*file extension just scanned, or \.{""}*/ + +@ The file names we shall deal with for illustrative purposes have the +following structure: If the name contains `\.>' or `\.:', the file area +consists of all characters up to and including the final such character; +otherwise the file area is null. If the remaining file name contains +`\..', the file extension consists of all such characters from the first +remaining `\..' to the end, otherwise the file extension is null. +@^system dependencies@> + +We can scan such file names easily by using two global variables that keep track +of the occurrences of area and extension delimiters: + +@<Glob...@>= +static pool_pointer @!area_delimiter; /*the most recent `\.>' or `\.:', if any*/ +static pool_pointer @!ext_delimiter; /*the relevant `\..', if any*/ +static int @!cur_file_name_length; + +@ Input files that can't be found in the user's area may appear in a standard +system area called |TEX_area|. Font metric files whose areas are not given +explicitly are assumed to appear in a standard system area called +|TEX_font_area|. These system area names will, of course, vary from place +to place. +@^system dependencies@> + +@d TEX_area "TeXinputs/" +@.TeXinputs@> +@d TEX_font_area "TeXfonts/" +@.TeXfonts@> + +@ Here now is the first of the system-dependent routines for file name scanning. +@^system dependencies@> + +The filename is scanned into |cur_file_name|; |cur_ext| and |cur_aire| +will point into this buffer. + +@d MAX_CUR_FILE_NAME 1024 + +@p static char cur_file_name[MAX_CUR_FILE_NAME+1]; +static void begin_name(void) +{@+area_delimiter=ext_delimiter=cur_file_name_length=0; +} + +@ And here's the second. The string pool might change as the file name is +being scanned, since a new \.{\\csname} might be entered; therefore we keep +|area_delimiter| and |ext_delimiter| relative to the beginning of the current +string, instead of assigning an absolute address like |pool_ptr| to them. +@^system dependencies@> + +@p static bool more_name(ASCII_code @!c) +{@+if (c==' ') return false; + if (cur_file_name_length>= MAX_CUR_FILE_NAME ) + { overflow("file name length", MAX_CUR_FILE_NAME); + return false; + } + else + { /*contribute |c| to the current string*/ + cur_file_name[cur_file_name_length]=c; + if (c=='/') + {@+area_delimiter=cur_file_name_length;ext_delimiter=0; + } + else if (c=='.') ext_delimiter=cur_file_name_length; + cur_file_name_length++; + return true; + } +} + +@ The third. +@^system dependencies@> + +@p static void end_name(void) +{@+int i=0; + if (str_ptr+1 > max_strings) + overflow("number of strings", max_strings-init_str_ptr); +@:TeX capacity exceeded number of strings}{\quad number of strings@> +cur_file_name[cur_file_name_length]=0; +if (area_delimiter==0) cur_area=cur_file_name+cur_file_name_length; +else @+cur_area=cur_file_name,i=area_delimiter+1; +if (ext_delimiter==0) ext_delimiter=cur_file_name_length; +cur_ext=cur_file_name+ext_delimiter; +for (;i<ext_delimiter;i++) append_char(cur_file_name[i]); +if (area_delimiter!=0) cur_file_name[area_delimiter+1]=0; +cur_name=make_string(); +} + +static void set_cur_area_ext(str_number a, str_number e) +{ int i; + if (length(a)+length(e)+2>=MAX_CUR_FILE_NAME) + { overflow("file name length", MAX_CUR_FILE_NAME); + return; + } + cur_file_name_length=0; + area_delimiter=0; + for(i=str_start[a]; i<str_start[a+1];i++) cur_file_name[cur_file_name_length++]=str_pool[i]; + cur_file_name[cur_file_name_length++]=0; + cur_area=cur_file_name; + cur_ext=cur_file_name+cur_file_name_length; + for(i=str_start[e]; i<str_start[e+1];i++) cur_file_name[cur_file_name_length++]=str_pool[i]; + cur_file_name[cur_file_name_length++]=0; +} + +@ Conversely, here is a routine that takes three strings and prints a file +name that might have produced them. (The routine is system dependent, because +some operating systems put the file area last instead of first.) +@^system dependencies@> + +@<Basic printing...@>= +static void print_file_name(int @!n, char *@!a, char *@!e) +{@+print(a);slow_print(n);print(e); +} + +static void printn_file_name(int @!n, int @!a, int @!e) +{@+slow_print(a);slow_print(n);slow_print(e); +} + +@ Another system-dependent routine is needed to convert three internal +\TeX\ strings +into the |name_of_file| value that is used to open files. The present code +allows both lowercase and uppercase letters in the file name. +@^system dependencies@> + +@d append_to_name(A) {@+c=A;incr(k); + if (k <= file_name_size) name_of_file[k]=xchr[c]; + } + +@p static void pack_file_name(str_number @!n, char *@!a, char *@!e) +{@+int k; /*number of positions filled in |name_of_file|*/ +ASCII_code @!c; /*character being packed*/ +int @!j; /*index into |str_pool|*/ +k=0; +while(*a!=0) append_to_name(so(*a++)); +for (j=str_start[n]; j<=str_start[n+1]-1; j++) append_to_name(so(str_pool[j])); +while(*e!=0) append_to_name(so(*e++)); +if (k <= file_name_size) name_length=k;@+else name_length=file_name_size; +name_of_file[name_length+1]=0; +} + + +@ The global variable |TEX_format_default| is no longer needed +to supply the text for default system areas +and extensions related to format files. + +@ Consequently there is no initialization of |TEX_format_default| either. + +@ And there is no need to check the length of |TEX_format_default|. + +@ The |format_extension|, however, is needed later on +to create the format name from the job name. + +@d format_extension ".fmt" + +@ This part of the program +becomes active when a ``virgin'' \TeX\ is trying to get going, just after +the preliminary initialization, or when the user is substituting another +format file by typing `\.\&' after the initial `\.{**}' prompt. The buffer +contains the first line of input in |buffer[loc dotdot(last-1)]|, where +|loc < last| and |buffer[loc]!=' '|. + +k\TeX\ uses the {\tt kpathsearch} library to implement access to files. +To do so we declare |open_fmt_file| here and postpone the +actual implementation. + +@<Declare the function called |open_fmt_file|@>= +static bool open_fmt_file(void); + +@ Operating systems often make it possible to determine the exact name (and +possible version number) of a file that has been opened. The following routine, +which simply makes a \TeX\ string from the value of |name_of_file|, should +ideally be changed to deduce the full name of file~|f|, which is the file +most recently opened, if it is possible to do this in a \PASCAL\ program. +@^system dependencies@> + +This routine might be called after string memory has overflowed, hence +we dare not use `|str_room|'. + +@p static str_number make_name_string(void) +{@+int k; /*index into |name_of_file|*/ +if ((pool_ptr+name_length > pool_size)||(str_ptr==max_strings)|| + (cur_length > 0)) + return'?'; +else{@+for (k=1; k<=name_length; k++) append_char(xord[name_of_file[k]]); + return make_string(); + } +} +static str_number a_make_name_string(alpha_file *f) +{@+return make_name_string(); +} +static str_number b_make_name_string(byte_file *f) +{@+return make_name_string(); +} +#ifdef @!INIT +static str_number w_make_name_string(word_file *f) +{@+return make_name_string(); +} +#endif + +@ Now let's consider the ``driver'' +routines by which \TeX\ deals with file names +in a system-independent manner. First comes a procedure that looks for a +file name in the input by calling |get_x_token| for the information. + +@p static void scan_file_name(void) +{@+ +name_in_progress=true;begin_name(); +@<Get the next non-blank non-call...@>; +loop@+{@+if ((cur_cmd > other_char)||(cur_chr > 255)) /*not a character*/ + {@+back_input();goto done; + } + if (!more_name(cur_chr)) goto done; + get_x_token(); + } +done: end_name();name_in_progress=false; +} + +@ The global variable |name_in_progress| is used to prevent recursive +use of |scan_file_name|, since the |begin_name| and other procedures +communicate via global variables. Recursion would arise only by +devious tricks like `\.{\\input\\input f}'; such attempts at sabotage +must be thwarted. Furthermore, |name_in_progress| prevents \.{\\input} +@^recursion@> +from being initiated when a font size specification is being scanned. + +Another global variable, |job_name|, contains the file name that was first +\.{\\input} by the user. This name is extended by `\.{.log}' and `\.{.dvi}' +and `\.{.fmt}' in the names of \TeX's output files. + +@<Glob...@>= +static bool @!name_in_progress; /*is a file name being scanned?*/ +static str_number @!job_name; /*principal file name*/ +static bool @!log_opened; /*has the transcript file been opened?*/ + +@ Initially |job_name==0|; it becomes nonzero as soon as the true name is known. +We have |job_name==0| if and only if the `\.{log}' file has not been opened, +except of course for a short time just after |job_name| has become nonzero. + +@<Initialize the output...@>= +job_name=0;name_in_progress=false;log_opened=false; + +@ Here is a routine that manufactures the output file names, assuming that +|job_name!=0|. It ignores and changes the current settings of |cur_area| +and |cur_ext|. + +@d pack_cur_name pack_file_name(cur_name, cur_area, cur_ext) + +@p static void pack_job_name(char *@!s) /*|s==".log"|, |".dvi"|, or + |format_extension|*/ +{@+cur_area="";cur_ext=s; +cur_name=job_name;pack_cur_name; +} + +@ If some trouble arises when \TeX\ tries to open a file, the following +routine calls upon the user to supply another file name. Parameter~|s| +is used in the error message to identify the type of file; parameter~|e| +is the default extension if none is given. Upon exit from the routine, +variables |cur_name|, |cur_area|, |cur_ext|, and |name_of_file| are +ready for another attempt at file opening. + +@p static void prompt_file_name(char *@!s, char *@!e) +{@+ +int k; /*index into |buffer|*/ +if (interaction==scroll_mode) wake_up_terminal; +if (strcmp(s,"input file name")==0) print_err("I can't find file `"); +@.I can't find file x@> +else print_err("I can't write on file `"); +@.I can't write on file x@> +print_file_name(cur_name, cur_area, cur_ext);print("'."); +if (strcmp(e,".tex")==0) show_context(); +print_nl("Please type another ");print(s); +@.Please type...@> +if (interaction < scroll_mode) + fatal_error("*** (job aborted, file error in nonstop mode)"); +@.job aborted, file error...@> +clear_terminal;prompt_input(": ");@<Scan file name in the buffer@>; +if (cur_ext[0]==0) cur_ext=e; +pack_cur_name; +} + +@ @<Scan file name in the buffer@>= +{@+begin_name();k=first; +while ((buffer[k]==' ')&&(k < last)) incr(k); +loop@+{@+if (k==last) goto done; + if (!more_name(buffer[k])) goto done; + incr(k); + } +done: end_name(); +} + +@ Here's an example of how these conventions are used. Whenever it is time to +ship out a box of stuff, we shall use the macro |ensure_dvi_open|. + +@d ensure_dvi_open if (output_file_name==0) + {@+if (job_name==0) open_log_file(); + pack_job_name(".dvi"); + while (!b_open_out(&dvi_file)) + prompt_file_name("file name for output",".dvi"); + output_file_name=b_make_name_string(&dvi_file); + } + +@<Glob...@>= +static byte_file @!dvi_file; /*the device-independent output goes here*/ +static str_number @!output_file_name; /*full name of the output file*/ +static str_number @!log_name; /*full name of the log file*/ + +@ @<Initialize the output...@>=output_file_name=0; + +@ The |open_log_file| routine is used to open the transcript file and to help +it catch up to what has previously been printed on the terminal. + +@p static void open_log_file(void) +{@+int old_setting; /*previous |selector| setting*/ +int @!k; /*index into |months| and |buffer|*/ +int @!l; /*end of first input line*/ +char @!months[]=" JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC"; /*abbreviations of month names*/ +old_setting=selector; +if (job_name==0) job_name=s_no(c_job_name?c_job_name:"texput"); /* k\TeX\ */ +@.texput@> +pack_job_name(".log"); +while (!a_open_out(&log_file)) @<Try to get a different log file name@>; +log_name=a_make_name_string(&log_file); +selector=log_only;log_opened=true; +@<Print the banner line, including the date and time@>; +input_stack[input_ptr]=cur_input; /*make sure bottom level is in memory*/ +print_nl("**"); +@.**@> +l=input_stack[0].limit_field; /*last position of first line*/ +if (buffer[l]==end_line_char) decr(l); +for (k=1; k<=l; k++) printn(buffer[k]); +print_ln(); /*now the transcript file contains the first line of input*/ +selector=old_setting+2; /*|log_only| or |term_and_log|*/ +} + +@ Sometimes |open_log_file| is called at awkward moments when \TeX\ is +unable to print error messages or even to |show_context|. +The |prompt_file_name| routine can result in a |fatal_error|, but the |error| +routine will not be invoked because |log_opened| will be false. + +The normal idea of |batch_mode| is that nothing at all should be written +on the terminal. However, in the unusual case that +no log file could be opened, we make an exception and allow +an explanatory message to be seen. + +Incidentally, the program always refers to the log file as a `\.{transcript +file}', because some systems cannot use the extension `\.{.log}' for +this file. + +@<Try to get a different log file name@>= +{@+selector=term_only; +prompt_file_name("transcript file name",".log"); +} + +@ @<Print the banner...@>= +{@+wlog("%s",banner); +slow_print(format_ident);print(" "); +print_int(sys_day);print_char(' '); +for (k=3*sys_month-2; k<=3*sys_month; k++) wlog("%c",months[k]); +print_char(' ');print_int(sys_year);print_char(' '); +print_two(sys_time/60);print_char(':');print_two(sys_time%60); +if (eTeX_ex) + {@+;wlog_cr;wlog("entering extended mode"); + } +if (Prote_ex) + {@+;wlog_cr;wlog("entering Prote mode"); + } +} + +@ Let's turn now to the procedure that is used to initiate file reading +when an `\.{\\input}' command is being processed. +Beware: For historic reasons, this code foolishly conserves a tiny bit +of string pool space; but that can confuse the interactive `\.E' option. +@^system dependencies@> + +@p static void start_input(void) /*\TeX\ will \.{\\input} something*/ +{@+ +scan_file_name(); /*set |cur_name| to desired file name*/ +if (cur_ext[0]==0) cur_ext=".tex"; +pack_cur_name; +loop@+{@+begin_file_reading(); /*set up |cur_file| and new level of input*/ + if (a_open_in(&cur_file)) goto done; + end_file_reading(); /*remove the level that didn't work*/ + prompt_file_name("input file name",".tex"); + } +done: name=a_make_name_string(&cur_file);@/ +source_filename_stack[in_open]=name; /* k\TeX\ */ +if (job_name==0) + {@+if (c_job_name==NULL) job_name=cur_name; + else job_name=s_no(c_job_name); open_log_file(); /* k\TeX\ */ + } /*|open_log_file| doesn't |show_context|, so |limit| + and |loc| needn't be set to meaningful values yet*/ +if (term_offset+length(name) > max_print_line-2) print_ln(); +else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); +print_char('(');incr(open_parens);slow_print(name);update_terminal; +state=new_line; +if (name==str_ptr-1) /*conserve string pool space (but see note above)*/ + {@+flush_string;name=cur_name; + } +@<Read the first line of the new file@>; +} + +@ Here we have to remember to tell the |input_ln| routine not to +start with a |get|. If the file is empty, it is considered to +contain a single blank line. +@^system dependencies@> +@^empty line at end of file@> + +@<Read the first line...@>= +{@+line=1; +if (input_ln(&cur_file, false)) do_nothing; +firm_up_the_line(); +if (end_line_char_inactive) decr(limit); +else buffer[limit]=end_line_char; +first=limit+1;loc=start; +} + +@* Font metric data. +\TeX\ gets its knowledge about fonts from font metric files, also called +\.{TFM} files; the `\.T' in `\.{TFM}' stands for \TeX, +but other programs know about them too. +@:TFM files}{\.{TFM} files@> +@^font metric files@> + +The information in a \.{TFM} file appears in a sequence of 8-bit bytes. +Since the number of bytes is always a multiple of 4, we could +also regard the file as a sequence of 32-bit words, but \TeX\ uses the +byte interpretation. The format of \.{TFM} files was designed by +Lyle Ramshaw in 1980. The intent is to convey a lot of different kinds +@^Ramshaw, Lyle Harold@> +of information in a compact but useful form. + +@<Glob...@>= +static byte_file @!tfm_file; + +@ The first 24 bytes (6 words) of a \.{TFM} file contain twelve 16-bit +integers that give the lengths of the various subsequent portions +of the file. These twelve integers are, in order: +$$\vbox{\halign{\hfil#&$\null=\null$#\hfil\cr +|lf|&length of the entire file, in words;\cr +|lh|&length of the header data, in words;\cr +|bc|&smallest character code in the font;\cr +|ec|&largest character code in the font;\cr +|nw|&number of words in the width table;\cr +|nh|&number of words in the height table;\cr +|nd|&number of words in the depth table;\cr +|ni|&number of words in the italic correction table;\cr +|nl|&number of words in the lig/kern table;\cr +|nk|&number of words in the kern table;\cr +|ne|&number of words in the extensible character table;\cr +|np|&number of font parameter words.\cr}}$$ +They are all nonnegative and less than $2^{15}$. We must have |bc-1 <= ec <= 255|, +and +$$\hbox{|lf==6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np|.}$$ +Note that a font may contain as many as 256 characters (if |bc==0| and |ec==255|), +and as few as 0 characters (if |bc==ec+1|). + +Incidentally, when two or more 8-bit bytes are combined to form an integer of +16 or more bits, the most significant bytes appear first in the file. +This is called BigEndian order. +@!@^BigEndian order@> + +@ The rest of the \.{TFM} file may be regarded as a sequence of ten data +arrays having the informal specification +$$\def\arr$[#1]#2${\&{array} $[#1]$ \&{of} #2} +\def\PB#1{\arr#1} +\vbox{\halign{\hfil\\{#}&$\,:\,$#\hfil\cr +header&|[0 dotdot lh-1]@t\\{stuff}@>|\cr +char\_info&|[bc dotdot ec]char_info_word|\cr +width&|[0 dotdot nw-1]fix_word|\cr +height&|[0 dotdot nh-1]fix_word|\cr +depth&|[0 dotdot nd-1]fix_word|\cr +italic&|[0 dotdot ni-1]fix_word|\cr +lig\_kern&|[0 dotdot nl-1]lig_kern_command|\cr +kern&|[0 dotdot nk-1]fix_word|\cr +exten&|[0 dotdot ne-1]extensible_recipe|\cr +param&|[1 dotdot np]fix_word|\cr}}$$ +The most important data type used here is a |@!fix_word|, which is +a 32-bit representation of a binary fraction. A |fix_word| is a signed +quantity, with the two's complement of the entire word used to represent +negation. Of the 32 bits in a |fix_word|, exactly 12 are to the left of the +binary point; thus, the largest |fix_word| value is $2048-2^{-20}$, and +the smallest is $-2048$. We will see below, however, that all but two of +the |fix_word| values must lie between $-16$ and $+16$. + +@ The first data array is a block of header information, which contains +general facts about the font. The header must contain at least two words, +|header[0]| and |header[1]|, whose meaning is explained below. +Additional header information of use to other software routines might +also be included, but \TeX82 does not need to know about such details. +For example, 16 more words of header information are in use at the Xerox +Palo Alto Research Center; the first ten specify the character coding +scheme used (e.g., `\.{XEROX text}' or `\.{TeX math symbols}'), the next five +give the font identifier (e.g., `\.{HELVETICA}' or `\.{CMSY}'), and the +last gives the ``face byte.'' The program that converts \.{DVI} files +to Xerox printing format gets this information by looking at the \.{TFM} +file, which it needs to read anyway because of other information that +is not explicitly repeated in \.{DVI}~format. + +\yskip\hang|header[0]| is a 32-bit check sum that \TeX\ will copy into +the \.{DVI} output file. Later on when the \.{DVI} file is printed, +possibly on another computer, the actual font that gets used is supposed +to have a check sum that agrees with the one in the \.{TFM} file used by +\TeX. In this way, users will be warned about potential incompatibilities. +(However, if the check sum is zero in either the font file or the \.{TFM} +file, no check is made.) The actual relation between this check sum and +the rest of the \.{TFM} file is not important; the check sum is simply an +identification number with the property that incompatible fonts almost +always have distinct check sums. +@^check sum@> + +\yskip\hang|header[1]| is a |fix_word| containing the design size of +the font, in units of \TeX\ points. This number must be at least 1.0; it is +fairly arbitrary, but usually the design size is 10.0 for a ``10 point'' +font, i.e., a font that was designed to look best at a 10-point size, +whatever that really means. When a \TeX\ user asks for a font +`\.{at} $\delta$ \.{pt}', the effect is to override the design size +and replace it by $\delta$, and to multiply the $x$ and~$y$ coordinates +of the points in the font image by a factor of $\delta$ divided by the +design size. {\sl All other dimensions in the\/ \.{TFM} file are +|fix_word|\kern-1pt\ numbers in design-size units}, with the exception of +|param[1]| (which denotes the slant ratio). Thus, for example, the value +of |param[6]|, which defines the \.{em} unit, is often the |fix_word| value +$2^{20}=1.0$, since many fonts have a design size equal to one em. +The other dimensions must be less than 16 design-size units in absolute +value; thus, |header[1]| and |param[1]| are the only |fix_word| +entries in the whole \.{TFM} file whose first byte might be something +besides 0 or 255. + +@ Next comes the |char_info| array, which contains one |@!char_info_word| +per character. Each word in this part of the file contains six fields +packed into four bytes as follows. + +\yskip\hang first byte: |@!width_index| (8 bits)\par +\hang second byte: |@!height_index| (4 bits) times 16, plus |@!depth_index| + (4~bits)\par +\hang third byte: |@!italic_index| (6 bits) times 4, plus |@!tag| + (2~bits)\par +\hang fourth byte: |@!rem| (8 bits)\par +\yskip\noindent +The actual width of a character is \\{width}|[width_index]|, in design-size +units; this is a device for compressing information, since many characters +have the same width. Since it is quite common for many characters +to have the same height, depth, or italic correction, the \.{TFM} format +imposes a limit of 16 different heights, 16 different depths, and +64 different italic corrections. + +@!@^italic correction@> +The italic correction of a character has two different uses. +(a)~In ordinary text, the italic correction is added to the width only if +the \TeX\ user specifies `\.{\\/}' after the character. +(b)~In math formulas, the italic correction is always added to the width, +except with respect to the positioning of subscripts. + +Incidentally, the relation $\\{width}[0]=\\{height}[0]=\\{depth}[0]= +\\{italic}[0]=0$ should always hold, so that an index of zero implies a +value of zero. The |width_index| should never be zero unless the +character does not exist in the font, since a character is valid if and +only if it lies between |bc| and |ec| and has a nonzero |width_index|. + +@ The |tag| field in a |char_info_word| has four values that explain how to +interpret the |rem| field. + +\yskip\hangg|tag==0| (|no_tag|) means that |rem| is unused.\par +\hangg|tag==1| (|lig_tag|) means that this character has a ligature/kerning +program starting at position |rem| in the |lig_kern| array.\par +\hangg|tag==2| (|list_tag|) means that this character is part of a chain of +characters of ascending sizes, and not the largest in the chain. The +|rem| field gives the character code of the next larger character.\par +\hangg|tag==3| (|ext_tag|) means that this character code represents an +extensible character, i.e., a character that is built up of smaller pieces +so that it can be made arbitrarily large. The pieces are specified in +|@!exten[rem]|.\par +\yskip\noindent +Characters with |tag==2| and |tag==3| are treated as characters with |tag==0| +unless they are used in special circumstances in math formulas. For example, +the \.{\\sum} operation looks for a |list_tag|, and the \.{\\left} +operation looks for both |list_tag| and |ext_tag|. + +@d no_tag 0 /*vanilla character*/ +@d lig_tag 1 /*character has a ligature/kerning program*/ +@d list_tag 2 /*character has a successor in a charlist*/ +@d ext_tag 3 /*character is extensible*/ + +@ The |lig_kern| array contains instructions in a simple programming language +that explains what to do for special letter pairs. Each word in this array is a +|@!lig_kern_command| of four bytes. + +\yskip\hang first byte: |skip_byte|, indicates that this is the final program + step if the byte is 128 or more, otherwise the next step is obtained by + skipping this number of intervening steps.\par +\hang second byte: |next_char|, ``if |next_char| follows the current character, + then perform the operation and stop, otherwise continue.''\par +\hang third byte: |op_byte|, indicates a ligature step if less than~128, + a kern step otherwise.\par +\hang fourth byte: |rem|.\par +\yskip\noindent +In a kern step, an +additional space equal to |kern[256*(op_byte-128)+rem]| is inserted +between the current character and |next_char|. This amount is +often negative, so that the characters are brought closer together +by kerning; but it might be positive. + +There are eight kinds of ligature steps, having |op_byte| codes $4a+2b+c$ where +$0\le a\le b+c$ and $0\le b,c\le1$. The character whose code is +|rem| is inserted between the current character and |next_char|; +then the current character is deleted if $b=0$, and |next_char| is +deleted if $c=0$; then we pass over $a$~characters to reach the next +current character (which may have a ligature/kerning program of its own). + +If the very first instruction of the |lig_kern| array has |skip_byte==255|, +the |next_char| byte is the so-called boundary character of this font; +the value of |next_char| need not lie between |bc| and~|ec|. +If the very last instruction of the |lig_kern| array has |skip_byte==255|, +there is a special ligature/kerning program for a boundary character at the +left, beginning at location |256*op_byte+rem|. +The interpretation is that \TeX\ puts implicit boundary characters +before and after each consecutive string of characters from the same font. +These implicit characters do not appear in the output, but they can affect +ligatures and kerning. + +If the very first instruction of a character's |lig_kern| program has +|skip_byte > 128|, the program actually begins in location +|256*op_byte+rem|. This feature allows access to large |lig_kern| +arrays, because the first instruction must otherwise +appear in a location | <= 255|. + +Any instruction with |skip_byte > 128| in the |lig_kern| array must satisfy +the condition +$$\hbox{|256*op_byte+rem < nl|.}$$ +If such an instruction is encountered during +normal program execution, it denotes an unconditional halt; no ligature +or kerning command is performed. + +@d stop_flag qi(128) /*value indicating `\.{STOP}' in a lig/kern program*/ +@d kern_flag qi(128) /*op code for a kern step*/ +@d skip_byte(A) A.b0 +@d next_char(A) A.b1 +@d op_byte(A) A.b2 +@d rem_byte(A) A.b3 + +@ Extensible characters are specified by an |@!extensible_recipe|, which +consists of four bytes called |@!top|, |@!mid|, |@!bot|, and |@!rep| (in this +order). These bytes are the character codes of individual pieces used to +build up a large symbol. If |top|, |mid|, or |bot| are zero, they are not +present in the built-up result. For example, an extensible vertical line is +like an extensible bracket, except that the top and bottom pieces are missing. + +Let $T$, $M$, $B$, and $R$ denote the respective pieces, or an empty box +if the piece isn't present. Then the extensible characters have the form +$TR^kMR^kB$ from top to bottom, for some |k >= 0|, unless $M$ is absent; +in the latter case we can have $TR^kB$ for both even and odd values of~|k|. +The width of the extensible character is the width of $R$; and the +height-plus-depth is the sum of the individual height-plus-depths of the +components used, since the pieces are butted together in a vertical list. + +@d ext_top(A) A.b0 /*|top| piece in a recipe*/ +@d ext_mid(A) A.b1 /*|mid| piece in a recipe*/ +@d ext_bot(A) A.b2 /*|bot| piece in a recipe*/ +@d ext_rep(A) A.b3 /*|rep| piece in a recipe*/ + +@ The final portion of a \.{TFM} file is the |param| array, which is another +sequence of |fix_word| values. + +\yskip\hang|param[1]==slant| is the amount of italic slant, which is used +to help position accents. For example, |slant==.25| means that when you go +up one unit, you also go .25 units to the right. The |slant| is a pure +number; it's the only |fix_word| other than the design size itself that is +not scaled by the design size. + +\hang|param[2]==space| is the normal spacing between words in text. +Note that character |' '| in the font need not have anything to do with +blank spaces. + +\hang|param[3]==space_stretch| is the amount of glue stretching between words. + +\hang|param[4]==space_shrink| is the amount of glue shrinking between words. + +\hang|param[5]==x_height| is the size of one ex in the font; it is also +the height of letters for which accents don't have to be raised or lowered. + +\hang|param[6]==quad| is the size of one em in the font. + +\hang|param[7]==extra_space| is the amount added to |param[2]| at the +ends of sentences. + +\yskip\noindent +If fewer than seven parameters are present, \TeX\ sets the missing parameters +to zero. Fonts used for math symbols are required to have +additional parameter information, which is explained later. + +@d slant_code 1 +@d space_code 2 +@d space_stretch_code 3 +@d space_shrink_code 4 +@d x_height_code 5 +@d quad_code 6 +@d extra_space_code 7 + +@ So that is what \.{TFM} files hold. Since \TeX\ has to absorb such information +about lots of fonts, it stores most of the data in a large array called +|font_info|. Each item of |font_info| is a |memory_word|; the |fix_word| +data gets converted into |scaled| entries, while everything else goes into +words of type |four_quarters|. + +When the user defines \.{\\font\\f}, say, \TeX\ assigns an internal number +to the user's font~\.{\\f}. Adding this number to |font_id_base| gives the +|eqtb| location of a ``frozen'' control sequence that will always select +the font. + +@<Types...@>= +typedef uint8_t internal_font_number; /*|font| in a |char_node|*/ +typedef int32_t font_index; /*index into |font_info|*/ + +@ Here now is the (rather formidable) array of font arrays. + +@d non_char qi(256) /*a |halfword| code that can't match a real character*/ +@d non_address 0 /*a spurious |bchar_label|*/ + +@<Glob...@>= +static memory_word @!font_info[font_mem_size+1]; + /*the big collection of font data*/ +static font_index @!fmem_ptr; /*first unused word of |font_info|*/ +static internal_font_number @!font_ptr; /*largest internal font number in use*/ +static four_quarters @!font_check0[font_max-font_base+1], *const @!font_check = @!font_check0-font_base; /*check sum*/ +static scaled @!font_size0[font_max-font_base+1], *const @!font_size = @!font_size0-font_base; /*``at'' size*/ +static scaled @!font_dsize0[font_max-font_base+1], *const @!font_dsize = @!font_dsize0-font_base; /*``design'' size*/ +static font_index @!font_params0[font_max-font_base+1], *const @!font_params = @!font_params0-font_base; /*how many font + parameters are present*/ +static str_number @!font_name0[font_max-font_base+1], *const @!font_name = @!font_name0-font_base; /*name of the font*/ +static str_number @!font_area0[font_max-font_base+1], *const @!font_area = @!font_area0-font_base; /*area of the font*/ +static eight_bits @!font_bc0[font_max-font_base+1], *const @!font_bc = @!font_bc0-font_base; + /*beginning (smallest) character code*/ +static eight_bits @!font_ec0[font_max-font_base+1], *const @!font_ec = @!font_ec0-font_base; + /*ending (largest) character code*/ +static pointer @!font_glue0[font_max-font_base+1], *const @!font_glue = @!font_glue0-font_base; + /*glue specification for interword space, |null| if not allocated*/ +static bool @!font_used0[font_max-font_base+1], *const @!font_used = @!font_used0-font_base; + /*has a character from this font actually appeared in the output?*/ +static int @!hyphen_char0[font_max-font_base+1], *const @!hyphen_char = @!hyphen_char0-font_base; + /*current \.{\\hyphenchar} values*/ +static int @!skew_char0[font_max-font_base+1], *const @!skew_char = @!skew_char0-font_base; + /*current \.{\\skewchar} values*/ +static font_index @!bchar_label0[font_max-font_base+1], *const @!bchar_label = @!bchar_label0-font_base; + /*start of |lig_kern| program for left boundary character, + |non_address| if there is none*/ +static int16_t @!font_bchar0[font_max-font_base+1], *const @!font_bchar = @!font_bchar0-font_base; + /*boundary character, |non_char| if there is none*/ +static int16_t @!font_false_bchar0[font_max-font_base+1], *const @!font_false_bchar = @!font_false_bchar0-font_base; + /*|font_bchar| if it doesn't exist in the font, otherwise |non_char|*/ + +@ Besides the arrays just enumerated, we have directory arrays that make it +easy to get at the individual entries in |font_info|. For example, the +|char_info| data for character |c| in font |f| will be in +|font_info[char_base[f]+c].qqqq|; and if |w| is the |width_index| +part of this word (the |b0| field), the width of the character is +|font_info[width_base[f]+w].sc|. (These formulas assume that +|min_quarterword| has already been added to |c| and to |w|, since \TeX\ +stores its quarterwords that way.) + +@<Glob...@>= +static int @!char_base0[font_max-font_base+1], *const @!char_base = @!char_base0-font_base; + /*base addresses for |char_info|*/ +static int @!width_base0[font_max-font_base+1], *const @!width_base = @!width_base0-font_base; + /*base addresses for widths*/ +static int @!height_base0[font_max-font_base+1], *const @!height_base = @!height_base0-font_base; + /*base addresses for heights*/ +static int @!depth_base0[font_max-font_base+1], *const @!depth_base = @!depth_base0-font_base; + /*base addresses for depths*/ +static int @!italic_base0[font_max-font_base+1], *const @!italic_base = @!italic_base0-font_base; + /*base addresses for italic corrections*/ +static int @!lig_kern_base0[font_max-font_base+1], *const @!lig_kern_base = @!lig_kern_base0-font_base; + /*base addresses for ligature/kerning programs*/ +static int @!kern_base0[font_max-font_base+1], *const @!kern_base = @!kern_base0-font_base; + /*base addresses for kerns*/ +static int @!exten_base0[font_max-font_base+1], *const @!exten_base = @!exten_base0-font_base; + /*base addresses for extensible recipes*/ +static int @!param_base0[font_max-font_base+1], *const @!param_base = @!param_base0-font_base; + /*base addresses for font parameters*/ + +@ @<Set init...@>= +for (k=font_base; k<=font_max; k++) font_used[k]=false; + +@ \TeX\ always knows at least one font, namely the null font. It has no +characters, and its seven parameters are all equal to zero. + +@<Initialize table...@>= +font_ptr=null_font;fmem_ptr=7; +font_name[null_font]=s_no("nullfont");font_area[null_font]=empty_string; +hyphen_char[null_font]='-';skew_char[null_font]=-1; +bchar_label[null_font]=non_address; +font_bchar[null_font]=non_char;font_false_bchar[null_font]=non_char; +font_bc[null_font]=1;font_ec[null_font]=0; +font_size[null_font]=0;font_dsize[null_font]=0; +char_base[null_font]=0;width_base[null_font]=0; +height_base[null_font]=0;depth_base[null_font]=0; +italic_base[null_font]=0;lig_kern_base[null_font]=0; +kern_base[null_font]=0;exten_base[null_font]=0; +font_glue[null_font]=null;font_params[null_font]=7; +param_base[null_font]=-1; +for (k=0; k<=6; k++) font_info[k].sc=0; + +@ @<Put each...@>= +primitive("nullfont", set_font, null_font); +@!@:null\_font\_}{\.{\\nullfont} primitive@> +text(frozen_null_font)=text(cur_val);eqtb[frozen_null_font]=eqtb[cur_val]; + +@ Of course we want to define macros that suppress the detail of how font +information is actually packed, so that we don't have to write things like +$$\hbox{|font_info[width_base[f]+font_info[char_base[f]+c].qqqq.b0].sc|}$$ +too often. The \.{WEB} definitions here make |char_info(f)(c)| the +|four_quarters| word of font information corresponding to character +|c| of font |f|. If |q| is such a word, |char_width(f)(q)| will be +the character's width; hence the long formula above is at least +abbreviated to +$$\hbox{|char_width(f)(char_info(f)(c))|.}$$ +Usually, of course, we will fetch |q| first and look at several of its +fields at the same time. + +The italic correction of a character will be denoted by +|char_italic(f)(q)|, so it is analogous to |char_width|. But we will get +at the height and depth in a slightly different way, since we usually want +to compute both height and depth if we want either one. The value of +|height_depth(q)| will be the 8-bit quantity +$$b=|height_index|\times16+|depth_index|,$$ and if |b| is such a byte we +will write |char_height(f)(b)| and |char_depth(f)(b)| for the height and +depth of the character |c| for which |q==char_info(f)(c)|. Got that? + +The tag field will be called |char_tag(q)|; the remainder byte will be +called |rem_byte(q)|, using a macro that we have already defined above. + +Access to a character's |width|, |height|, |depth|, and |tag| fields is +part of \TeX's inner loop, so we want these macros to produce code that is +as fast as possible under the circumstances. +@^inner loop@> + +@d char_info(A, B) font_info[char_base[A]+B].qqqq +@d char_width(A, B) font_info[width_base[A]+B.b0].sc +@d char_exists(A) (A.b0 > min_quarterword) +@d char_italic(A, B) font_info[italic_base[A]+(qo(B.b2))/4].sc +@d height_depth(A) qo(A.b1) +@d char_height(A, B) font_info[height_base[A]+(B)/16].sc +@d char_depth(A, B) font_info[depth_base[A]+(B)%16].sc +@d char_tag(A) ((qo(A.b2))%4) + +@ The global variable |null_character| is set up to be a word of +|char_info| for a character that doesn't exist. Such a word provides a +convenient way to deal with erroneous situations. + +@<Glob...@>= +static four_quarters @!null_character; /*nonexistent character information*/ + +@ @<Set init...@>= +null_character.b0=min_quarterword;null_character.b1=min_quarterword; +null_character.b2=min_quarterword;null_character.b3=min_quarterword; + +@ Here are some macros that help process ligatures and kerns. +We write |char_kern(f)(j)| to find the amount of kerning specified by +kerning command~|j| in font~|f|. If |j| is the |char_info| for a character +with a ligature/kern program, the first instruction of that program is either +|i==font_info[lig_kern_start(f)(j)]| or |font_info[lig_kern_restart(f)(i)]|, +depending on whether or not |skip_byte(i) <= stop_flag|. + +The constant |kern_base_offset| should be simplified, for \PASCAL\ compilers +that do not do local optimization. +@^system dependencies@> + +@d char_kern(A, B) font_info[kern_base[A]+256*op_byte(B)+rem_byte(B)].sc +@d kern_base_offset 256*(128+min_quarterword) +@d lig_kern_start(A, B) lig_kern_base[A]+B.b3 /*beginning of lig/kern program*/ +@d lig_kern_restart(A, B) lig_kern_base[A]+256*op_byte(B)+rem_byte(B)+32768-kern_base_offset + +@ Font parameters are referred to as |slant(f)|, |space(f)|, etc. + +@d param_end(A) param_base[A]].sc +@d param(A) font_info[A+param_end +@d slant param(slant_code) /*slant to the right, per unit distance upward*/ +@d space param(space_code) /*normal space between words*/ +@d space_stretch param(space_stretch_code) /*stretch between words*/ +@d space_shrink param(space_shrink_code) /*shrink between words*/ +@d x_height param(x_height_code) /*one ex*/ +@d quad param(quad_code) /*one em*/ +@d extra_space param(extra_space_code) /*additional space at end of sentence*/ + +@<The em width for |cur_font|@>=quad(cur_font) + +@ @<The x-height for |cur_font|@>=x_height(cur_font) + +@ \TeX\ checks the information of a \.{TFM} file for validity as the +file is being read in, so that no further checks will be needed when +typesetting is going on. The somewhat tedious subroutine that does this +is called |read_font_info|. It has four parameters: the user font +identifier~|u|, the file name and area strings |nom| and |aire|, and the +``at'' size~|s|. If |s|~is negative, it's the negative of a scale factor +to be applied to the design size; |s==-1000| is the normal case. +Otherwise |s| will be substituted for the design size; in this +case, |s| must be positive and less than $2048\rm\,pt$ +(i.e., it must be less than $2^{27}$ when considered as an integer). + +The subroutine opens and closes a global file variable called |tfm_file|. +It returns the value of the internal font number that was just loaded. +If an error is detected, an error message is issued and no font +information is stored; |null_font| is returned in this case. + +@d abort goto bad_tfm /*do this when the \.{TFM} data is wrong*/ + +@p static internal_font_number read_font_info(pointer @!u, str_number @!nom, char *@!aire, + scaled @!s) /*input a \.{TFM} file*/ +{@+ +int k; /*index into |font_info|*/ +bool @!file_opened; /*was |tfm_file| successfully opened?*/ +halfword @!lf, @!lh, @!bc, @!ec, @!nw, @!nh, @!nd, @!ni, @!nl, @!nk, @!ne, @!np; + /*sizes of subfiles*/ +internal_font_number @!f; /*the new font's number*/ +internal_font_number @!g; /*the number to return*/ +eight_bits @!a, @!b, @!c, @!d; /*byte variables*/ +four_quarters @!qw;scaled @!sw; /*accumulators*/ +int @!bch_label; /*left boundary start location, or infinity*/ +int @!bchar; /*boundary character, or 256*/ +scaled @!z; /*the design size or the ``at'' size*/ +int @!alpha;int @!beta; + /*auxiliary quantities used in fixed-point multiplication*/ +g=null_font;@/ +@<Read and check the font data; |abort| if the \.{TFM} file is malformed; if there's +no room for this font, say so and |goto done|; otherwise |incr(font_ptr)| and |goto +done|@>; +bad_tfm: @<Report that the font won't be loaded@>; +done: if (file_opened) b_close(&tfm_file); +return g; +} + +@ There are programs called \.{TFtoPL} and \.{PLtoTF} that convert +between the \.{TFM} format and a symbolic property-list format +that can be easily edited. These programs contain extensive +diagnostic information, so \TeX\ does not have to bother giving +precise details about why it rejects a particular \.{TFM} file. +@.TFtoPL@> @.PLtoTF@> + +@d start_font_error_message print_err("Font ");sprint_cs(u); + print_char('=');print_file_name(nom, aire,""); + if (s >= 0) + {@+print(" at ");print_scaled(s);print("pt"); + } + else if (s!=-1000) + {@+print(" scaled ");print_int(-s); + } + +@<Report that the font won't be loaded@>= +start_font_error_message; +@.Font x=xx not loadable...@> +if (file_opened) print(" not loadable: Bad metric (TFM) file"); +else print(" not loadable: Metric (TFM) file not found"); +help5("I wasn't able to read the size data for this font,",@/ +"so I will ignore the font specification.",@/ +"[Wizards can fix TFM files using TFtoPL/PLtoTF.]",@/ +"You might try inserting a different font spec;",@/ +"e.g., type `I\\font<same font id>=<substitute font name>'."); +error() + +@ @<Read and check...@>= +@<Open |tfm_file| for input@>; +@<Read the {\.{TFM}} size fields@>; +@<Use size fields to allocate font information@>; +@<Read the {\.{TFM}} header@>; +@<Read character data@>; +@<Read box dimensions@>; +@<Read ligature/kern program@>; +@<Read extensible character recipes@>; +@<Read font parameters@>; +@<Make final adjustments and |goto done|@>@; + +@ @<Open |tfm_file| for input@>= +file_opened=false; +pack_file_name(nom, "",".tfm"); /* k\TeX\ */ +if (!b_open_in(&tfm_file)) abort; +file_opened=true + +@ Note: A malformed \.{TFM} file might be shorter than it claims to be; +thus |eof(tfm_file)| might be true when |read_font_info| refers to +|tfm_file.d| or when it says |get(tfm_file)|. If such circumstances +cause system error messages, you will have to defeat them somehow, +for example by defining |fget| to be `\ignorespaces|{@+get(tfm_file);| +|if (eof(tfm_file)) abort;} |\unskip'. +@^system dependencies@> + +@d fget get(tfm_file) +@d fbyte tfm_file.d +@d read_sixteen(A) {@+A=fbyte; + if (A > 127) abort; + fget;A=A*0400+fbyte; + } +@d store_four_quarters(A) {@+fget;a=fbyte;qw.b0=qi(a); + fget;b=fbyte;qw.b1=qi(b); + fget;c=fbyte;qw.b2=qi(c); + fget;d=fbyte;qw.b3=qi(d); + A=qw; + } + +@ @<Read the {\.{TFM}} size fields@>= +{@+read_sixteen(lf); +fget;read_sixteen(lh); +fget;read_sixteen(bc); +fget;read_sixteen(ec); +if ((bc > ec+1)||(ec > 255)) abort; +if (bc > 255) /*|bc==256| and |ec==255|*/ + {@+bc=1;ec=0; + } +fget;read_sixteen(nw); +fget;read_sixteen(nh); +fget;read_sixteen(nd); +fget;read_sixteen(ni); +fget;read_sixteen(nl); +fget;read_sixteen(nk); +fget;read_sixteen(ne); +fget;read_sixteen(np); +if (lf!=6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np) abort; +if ((nw==0)||(nh==0)||(nd==0)||(ni==0)) abort; +} + +@ The preliminary settings of the index-offset variables |char_base|, +|width_base|, |lig_kern_base|, |kern_base|, and |exten_base| will be +corrected later by subtracting |min_quarterword| from them; and we will +subtract 1 from |param_base| too. It's best to forget about such anomalies +until later. + +@<Use size fields to allocate font information@>= +lf=lf-6-lh; /*|lf| words should be loaded into |font_info|*/ +if (np < 7) lf=lf+7-np; /*at least seven parameters will appear*/ +if ((font_ptr==font_max)||(fmem_ptr+lf > font_mem_size)) + @<Apologize for not loading the font, |goto done|@>; +f=font_ptr+1; +char_base[f]=fmem_ptr-bc; +width_base[f]=char_base[f]+ec+1; +height_base[f]=width_base[f]+nw; +depth_base[f]=height_base[f]+nh; +italic_base[f]=depth_base[f]+nd; +lig_kern_base[f]=italic_base[f]+ni; +kern_base[f]=lig_kern_base[f]+nl-kern_base_offset; +exten_base[f]=kern_base[f]+kern_base_offset+nk; +param_base[f]=exten_base[f]+ne + +@ @<Apologize for not loading...@>= +{@+start_font_error_message; +print(" not loaded: Not enough room left"); +@.Font x=xx not loaded...@> +help4("I'm afraid I won't be able to make use of this font,",@/ +"because my memory for character-size data is too small.",@/ +"If you're really stuck, ask a wizard to enlarge me.",@/ +"Or maybe try `I\\font<same font id>=<name of loaded font>'."); +error();goto done; +} + +@ Only the first two words of the header are needed by \TeX82. + +@<Read the {\.{TFM}} header@>= +{@+if (lh < 2) abort; +store_four_quarters(font_check[f]); +fget;read_sixteen(z); /*this rejects a negative design size*/ +fget;z=z*0400+fbyte;fget;z=(z*020)+(fbyte/020); +if (z < unity) abort; +while (lh > 2) + {@+fget;fget;fget;fget;decr(lh); /*ignore the rest of the header*/ + } +font_dsize[f]=z; +if (s!=-1000) + if (s >= 0) z=s; + else z=xn_over_d(z,-s, 1000); +font_size[f]=z; +} + +@ @<Read character data@>= +for (k=fmem_ptr; k<=width_base[f]-1; k++) + {@+store_four_quarters(font_info[k].qqqq); + if ((a >= nw)||(b/020 >= nh)||(b%020 >= nd)|| + (c/4 >= ni)) abort; + switch (c%4) { + case lig_tag: if (d >= nl) abort;@+break; + case ext_tag: if (d >= ne) abort;@+break; + case list_tag: @<Check for charlist cycle@>@;@+break; + default:do_nothing; /*|no_tag|*/ + } + } + +@ We want to make sure that there is no cycle of characters linked together +by |list_tag| entries, since such a cycle would get \TeX\ into an endless +loop. If such a cycle exists, the routine here detects it when processing +the largest character code in the cycle. + +@d check_byte_range(A) {@+if ((A < bc)||(A > ec)) abort;@+} +@d current_character_being_worked_on k+bc-fmem_ptr + +@<Check for charlist cycle@>= +{@+check_byte_range(d); +while (d < current_character_being_worked_on) + {@+qw=char_info(f, d); + /*N.B.: not |qi(d)|, since |char_base[f]| hasn't been adjusted yet*/ + if (char_tag(qw)!=list_tag) goto not_found; + d=qo(rem_byte(qw)); /*next character on the list*/ + } +if (d==current_character_being_worked_on) abort; /*yes, there's a cycle*/ +not_found: ;} + +@ A |fix_word| whose four bytes are $(a,b,c,d)$ from left to right represents +the number +$$x=\left\{\vcenter{\halign{$#$,\hfil\qquad&if $#$\hfil\cr +b\cdot2^{-4}+c\cdot2^{-12}+d\cdot2^{-20}&a=0;\cr +-16+b\cdot2^{-4}+c\cdot2^{-12}+d\cdot2^{-20}&a=255.\cr}}\right.$$ +(No other choices of |a| are allowed, since the magnitude of a number in +design-size units must be less than 16.) We want to multiply this +quantity by the integer~|z|, which is known to be less than $2^{27}$. +If $|z|<2^{23}$, the individual multiplications $b\cdot z$, +$c\cdot z$, $d\cdot z$ cannot overflow; otherwise we will divide |z| by 2, +4, 8, or 16, to obtain a multiplier less than $2^{23}$, and we can +compensate for this later. If |z| has thereby been replaced by +$|z|^\prime=|z|/2^e$, let $\beta=2^{4-e}$; we shall compute +$$\lfloor(b+c\cdot2^{-8}+d\cdot2^{-16})\,z^\prime/\beta\rfloor$$ +if $a=0$, or the same quantity minus $\alpha=2^{4+e}z^\prime$ if $a=255$. +This calculation must be done exactly, in order to guarantee portability +of \TeX\ between computers. + +@d store_scaled(A) {@+fget;a=fbyte;fget;b=fbyte; + fget;c=fbyte;fget;d=fbyte;@/ + sw=(((((d*z)/0400)+(c*z))/0400)+(b*z))/beta; + if (a==0) A=sw;@+else if (a==255) A=sw-alpha;@+else abort; + } + +@<Read box dimensions@>= +{@+@<Replace |z| by $|z|^\prime$ and compute $\alpha,\beta$@>; +for (k=width_base[f]; k<=lig_kern_base[f]-1; k++) + store_scaled(font_info[k].sc); +if (font_info[width_base[f]].sc!=0) abort; /*\\{width}[0] must be zero*/ +if (font_info[height_base[f]].sc!=0) abort; /*\\{height}[0] must be zero*/ +if (font_info[depth_base[f]].sc!=0) abort; /*\\{depth}[0] must be zero*/ +if (font_info[italic_base[f]].sc!=0) abort; /*\\{italic}[0] must be zero*/ +} + +@ @<Replace |z|...@>= +{@+alpha=16; +while (z >= 040000000) + {@+z=z/2;alpha=alpha+alpha; + } +beta=256/alpha;alpha=alpha*z; +} + +@ @d check_existence(A) @t@>@;@/ + {@+check_byte_range(A); + qw=char_info(f, A); /*N.B.: not |qi(A)|*/ + if (!char_exists(qw)) abort; + } + +@<Read ligature/kern program@>= +bch_label=077777;bchar=256; +if (nl > 0) + {@+for (k=lig_kern_base[f]; k<=kern_base[f]+kern_base_offset-1; k++) + {@+store_four_quarters(font_info[k].qqqq); + if (a > 128) + {@+if (256*c+d >= nl) abort; + if (a==255) if (k==lig_kern_base[f]) bchar=b; + } + else{@+if (b!=bchar) check_existence(b); + if (c < 128) check_existence(d)@; /*check ligature*/ + else if (256*(c-128)+d >= nk) abort; /*check kern*/ + if (a < 128) if (k-lig_kern_base[f]+a+1 >= nl) abort; + } + } + if (a==255) bch_label=256*c+d; + } +for (k=kern_base[f]+kern_base_offset; k<=exten_base[f]-1; k++) + store_scaled(font_info[k].sc); + +@ @<Read extensible character recipes@>= +for (k=exten_base[f]; k<=param_base[f]-1; k++) + {@+store_four_quarters(font_info[k].qqqq); + if (a!=0) check_existence(a); + if (b!=0) check_existence(b); + if (c!=0) check_existence(c); + check_existence(d); + } + +@ We check to see that the \.{TFM} file doesn't end prematurely; but +no error message is given for files having more than |lf| words. + +@<Read font parameters@>= +{@+for (k=1; k<=np; k++) + if (k==1) /*the |slant| parameter is a pure number*/ + {@+fget;sw=fbyte;if (sw > 127) sw=sw-256; + fget;sw=sw*0400+fbyte;fget;sw=sw*0400+fbyte; + fget;font_info[param_base[f]].sc= + (sw*020)+(fbyte/020); + } + else store_scaled(font_info[param_base[f]+k-1].sc); +if (eof(tfm_file)) abort; +for (k=np+1; k<=7; k++) font_info[param_base[f]+k-1].sc=0; +} + +@ Now to wrap it up, we have checked all the necessary things about the \.{TFM} +file, and all we need to do is put the finishing touches on the data for +the new font. + +@d adjust(A) A[f]=qo(A[f]) + /*correct for the excess |min_quarterword| that was added*/ + +@<Make final adjustments...@>= +if (np >= 7) font_params[f]=np;@+else font_params[f]=7; +hyphen_char[f]=default_hyphen_char;skew_char[f]=default_skew_char; +if (bch_label < nl) bchar_label[f]=bch_label+lig_kern_base[f]; +else bchar_label[f]=non_address; +font_bchar[f]=qi(bchar); +font_false_bchar[f]=qi(bchar); +if (bchar <= ec) if (bchar >= bc) + {@+qw=char_info(f, bchar); /*N.B.: not |qi(bchar)|*/ + if (char_exists(qw)) font_false_bchar[f]=non_char; + } +font_name[f]=nom; +font_area[f]=s_no(aire); +font_bc[f]=bc;font_ec[f]=ec;font_glue[f]=null; +adjust(char_base);adjust(width_base);adjust(lig_kern_base); +adjust(kern_base);adjust(exten_base); +decr(param_base[f]); +fmem_ptr=fmem_ptr+lf;font_ptr=f;g=f;goto done + +@ Before we forget about the format of these tables, let's deal with two +of \TeX's basic scanning routines related to font information. + +@<Declare procedures that scan font-related stuff@>= +static void scan_font_ident(void) +{@+internal_font_number f; +halfword @!m; +@<Get the next non-blank non-call...@>; +if (cur_cmd==def_font) f=cur_font; +else if (cur_cmd==set_font) f=cur_chr; +else if (cur_cmd==def_family) + {@+m=cur_chr;scan_four_bit_int();f=equiv(m+cur_val); + } +else{@+print_err("Missing font identifier"); +@.Missing font identifier@> + help2("I was looking for a control sequence whose",@/ + "current meaning has been defined by \\font."); + back_error();f=null_font; + } +cur_val=f; +} + +@ The following routine is used to implement `\.{\\fontdimen} |n| |f|'. +The boolean parameter |writing| is set |true| if the calling program +intends to change the parameter value. + +@<Declare procedures that scan font-related stuff@>= +static void find_font_dimen(bool @!writing) + /*sets |cur_val| to |font_info| location*/ +{@+internal_font_number f; +int @!n; /*the parameter number*/ +scan_int();n=cur_val;scan_font_ident();f=cur_val; +if (n <= 0) cur_val=fmem_ptr; +else{@+if (writing&&(n <= space_shrink_code)&&@| + (n >= space_code)&&(font_glue[f]!=null)) + {@+delete_glue_ref(font_glue[f]); + font_glue[f]=null; + } + if (n > font_params[f]) + if (f < font_ptr) cur_val=fmem_ptr; + else@<Increase the number of parameters in the last font@>@; + else cur_val=n+param_base[f]; + } +@<Issue an error message if |cur_val=fmem_ptr|@>; +} + +@ @<Issue an error message if |cur_val=fmem_ptr|@>= +if (cur_val==fmem_ptr) + {@+print_err("Font ");printn_esc(font_id_text(f)); + print(" has only ");print_int(font_params[f]); + print(" fontdimen parameters"); +@.Font x has only...@> + help2("To increase the number of font parameters, you must",@/ + "use \\fontdimen immediately after the \\font is loaded."); + error(); + } + +@ @<Increase the number of parameters...@>= +{@+@/do@+{if (fmem_ptr==font_mem_size) + overflow("font memory", font_mem_size); +@:TeX capacity exceeded font memory}{\quad font memory@> +font_info[fmem_ptr].sc=0;incr(fmem_ptr);incr(font_params[f]); +}@+ while (!(n==font_params[f])); +cur_val=fmem_ptr-1; /*this equals |param_base[f]+font_params[f]|*/ +} + +@ When \TeX\ wants to typeset a character that doesn't exist, the +character node is not created; thus the output routine can assume +that characters exist when it sees them. The following procedure +prints a warning message unless the user has suppressed it. + +@p static void char_warning(internal_font_number @!f, eight_bits @!c) +{@+int old_setting; /*saved value of |tracing_online|*/ +if (tracing_lost_chars > 0) + {@+old_setting=tracing_online; + if (eTeX_ex&&(tracing_lost_chars > 1)) tracing_online=1; + {@+begin_diagnostic(); + print_nl("Missing character: There is no "); +@.Missing character@> + print_ASCII(c);print(" in font "); + slow_print(font_name[f]);print_char('!');end_diagnostic(false); + } + tracing_online=old_setting; + } +} + +@ Here is a function that returns a pointer to a character node for a +given character in a given font. If that character doesn't exist, +|null| is returned instead. + +@p static pointer new_character(internal_font_number @!f, eight_bits @!c) +{@+ +pointer p; /*newly allocated node*/ +if (font_bc[f] <= c) if (font_ec[f] >= c) + if (char_exists(char_info(f, qi(c)))) + {@+p=get_avail();font(p)=f;character(p)=qi(c); + return p; + } +char_warning(f, c); +return null; +} + +@* Device-independent file format. +The most important output produced by a run of \TeX\ is the ``device +independent'' (\.{DVI}) file that specifies where characters and rules +are to appear on printed pages. The form of these files was designed by +David R. Fuchs in 1979. Almost any reasonable typesetting device can be +@^Fuchs, David Raymond@> +@:DVI\_files}{\.{DVI} files@> +driven by a program that takes \.{DVI} files as input, and dozens of such +\.{DVI}-to-whatever programs have been written. Thus, it is possible to +print the output of \TeX\ on many different kinds of equipment, using \TeX\ +as a device-independent ``front end.'' + +A \.{DVI} file is a stream of 8-bit bytes, which may be regarded as a +series of commands in a machine-like language. The first byte of each command +is the operation code, and this code is followed by zero or more bytes +that provide parameters to the command. The parameters themselves may consist +of several consecutive bytes; for example, the `|set_rule|' command has two +parameters, each of which is four bytes long. Parameters are usually +regarded as nonnegative integers; but four-byte-long parameters, +and shorter parameters that denote distances, can be +either positive or negative. Such parameters are given in two's complement +notation. For example, a two-byte-long distance parameter has a value between +$-2^{15}$ and $2^{15}-1$. As in \.{TFM} files, numbers that occupy +more than one byte position appear in BigEndian order. + +A \.{DVI} file consists of a ``preamble,'' followed by a sequence of one +or more ``pages,'' followed by a ``postamble.'' The preamble is simply a +|pre| command, with its parameters that define the dimensions used in the +file; this must come first. Each ``page'' consists of a |bop| command, +followed by any number of other commands that tell where characters are to +be placed on a physical page, followed by an |eop| command. The pages +appear in the order that \TeX\ generated them. If we ignore |nop| commands +and \\{fnt\_def} commands (which are allowed between any two commands in +the file), each |eop| command is immediately followed by a |bop| command, +or by a |post| command; in the latter case, there are no more pages in the +file, and the remaining bytes form the postamble. Further details about +the postamble will be explained later. + +Some parameters in \.{DVI} commands are ``pointers.'' These are four-byte +quantities that give the location number of some other byte in the file; +the first byte is number~0, then comes number~1, and so on. For example, +one of the parameters of a |bop| command points to the previous |bop|; +this makes it feasible to read the pages in backwards order, in case the +results are being directed to a device that stacks its output face up. +Suppose the preamble of a \.{DVI} file occupies bytes 0 to 99. Now if the +first page occupies bytes 100 to 999, say, and if the second +page occupies bytes 1000 to 1999, then the |bop| that starts in byte 1000 +points to 100 and the |bop| that starts in byte 2000 points to 1000. (The +very first |bop|, i.e., the one starting in byte 100, has a pointer of~$-1$.) + +@ The \.{DVI} format is intended to be both compact and easily interpreted +by a machine. Compactness is achieved by making most of the information +implicit instead of explicit. When a \.{DVI}-reading program reads the +commands for a page, it keeps track of several quantities: (a)~The current +font |f| is an integer; this value is changed only +by \\{fnt} and \\{fnt\_num} commands. (b)~The current position on the page +is given by two numbers called the horizontal and vertical coordinates, +|h| and |v|. Both coordinates are zero at the upper left corner of the page; +moving to the right corresponds to increasing the horizontal coordinate, and +moving down corresponds to increasing the vertical coordinate. Thus, the +coordinates are essentially Cartesian, except that vertical directions are +flipped; the Cartesian version of |(h, v)| would be |(h,-v)|. (c)~The +current spacing amounts are given by four numbers |w|, |x|, |y|, and |z|, +where |w| and~|x| are used for horizontal spacing and where |y| and~|z| +are used for vertical spacing. (d)~There is a stack containing +|(h, v, w, x, y, z)| values; the \.{DVI} commands |push| and |pop| are used to +change the current level of operation. Note that the current font~|f| is +not pushed and popped; the stack contains only information about +positioning. + +The values of |h|, |v|, |w|, |x|, |y|, and |z| are signed integers having up +to 32 bits, including the sign. Since they represent physical distances, +there is a small unit of measurement such that increasing |h| by~1 means +moving a certain tiny distance to the right. The actual unit of +measurement is variable, as explained below; \TeX\ sets things up so that +its \.{DVI} output is in sp units, i.e., scaled points, in agreement with +all the |scaled| dimensions in \TeX's data structures. + +@ Here is a list of all the commands that may appear in a \.{DVI} file. Each +command is specified by its symbolic name (e.g., |bop|), its opcode byte +(e.g., 139), and its parameters (if any). The parameters are followed +by a bracketed number telling how many bytes they occupy; for example, +`|p[4]|' means that parameter |p| is four bytes long. + +\yskip\hang|set_char_0| 0. Typeset character number~0 from font~|f| +such that the reference point of the character is at |(h, v)|. Then +increase |h| by the width of that character. Note that a character may +have zero or negative width, so one cannot be sure that |h| will advance +after this command; but |h| usually does increase. + +\yskip\hang\\{set\_char\_1} through \\{set\_char\_127} (opcodes 1 to 127). +Do the operations of |set_char_0|; but use the character whose number +matches the opcode, instead of character~0. + +\yskip\hang|set1| 128 |c[1]|. Same as |set_char_0|, except that character +number~|c| is typeset. \TeX82 uses this command for characters in the +range |128 <= c < 256|. + +\yskip\hang|@!set2| 129 |c[2]|. Same as |set1|, except that |c|~is two +bytes long, so it is in the range |0 <= c < 65536|. \TeX82 never uses this +command, but it should come in handy for extensions of \TeX\ that deal +with oriental languages. +@^oriental characters@>@^Chinese characters@>@^Japanese characters@> + +\yskip\hang|@!set3| 130 |c[3]|. Same as |set1|, except that |c|~is three +bytes long, so it can be as large as $2^{24}-1$. Not even the Chinese +language has this many characters, but this command might prove useful +in some yet unforeseen extension. + +\yskip\hang|@!set4| 131 |c[4]|. Same as |set1|, except that |c|~is four +bytes long. Imagine that. + +\yskip\hang|set_rule| 132 |a[4]| |b[4]|. Typeset a solid black rectangle +of height~|a| and width~|b|, with its bottom left corner at |(h, v)|. Then +set |h=h+b|. If either |a <= 0| or |b <= 0|, nothing should be typeset. Note +that if |b < 0|, the value of |h| will decrease even though nothing else happens. +See below for details about how to typeset rules so that consistency with +\MF\ is guaranteed. + +\yskip\hang|@!put1| 133 |c[1]|. Typeset character number~|c| from font~|f| +such that the reference point of the character is at |(h, v)|. (The `put' +commands are exactly like the `set' commands, except that they simply put out a +character or a rule without moving the reference point afterwards.) + +\yskip\hang|@!put2| 134 |c[2]|. Same as |set2|, except that |h| is not changed. + +\yskip\hang|@!put3| 135 |c[3]|. Same as |set3|, except that |h| is not changed. + +\yskip\hang|@!put4| 136 |c[4]|. Same as |set4|, except that |h| is not changed. + +\yskip\hang|put_rule| 137 |a[4]| |b[4]|. Same as |set_rule|, except that +|h| is not changed. + +\yskip\hang|nop| 138. No operation, do nothing. Any number of |nop|'s +may occur between \.{DVI} commands, but a |nop| cannot be inserted between +a command and its parameters or between two parameters. + +\yskip\hang|bop| 139 $c_0[4]$ $c_1[4]$ $\ldots$ $c_9[4]$ $p[4]$. Beginning +of a page: Set |(h, v, w, x, y, z)=(0, 0, 0, 0, 0, 0)| and set the stack empty. Set +the current font |f| to an undefined value. The ten $c_i$ parameters hold +the values of \.{\\count0} $\ldots$ \.{\\count9} in \TeX\ at the time +\.{\\shipout} was invoked for this page; they can be used to identify +pages, if a user wants to print only part of a \.{DVI} file. The parameter +|p| points to the previous |bop| in the file; the first +|bop| has $p=-1$. + +\yskip\hang|eop| 140. End of page: Print what you have read since the +previous |bop|. At this point the stack should be empty. (The \.{DVI}-reading +programs that drive most output devices will have kept a buffer of the +material that appears on the page that has just ended. This material is +largely, but not entirely, in order by |v| coordinate and (for fixed |v|) by +|h|~coordinate; so it usually needs to be sorted into some order that is +appropriate for the device in question.) + +\yskip\hang|push| 141. Push the current values of |(h, v, w, x, y, z)| onto the +top of the stack; do not change any of these values. Note that |f| is +not pushed. + +\yskip\hang|pop| 142. Pop the top six values off of the stack and assign +them respectively to |(h, v, w, x, y, z)|. The number of pops should never +exceed the number of pushes, since it would be highly embarrassing if the +stack were empty at the time of a |pop| command. + +\yskip\hang|right1| 143 |b[1]|. Set |h=h+b|, i.e., move right |b| units. +The parameter is a signed number in two's complement notation, |-128 <= b < 128|; +if |b < 0|, the reference point moves left. + +\yskip\hang|@!right2| 144 |b[2]|. Same as |right1|, except that |b| is a +two-byte quantity in the range |-32768 <= b < 32768|. + +\yskip\hang|@!right3| 145 |b[3]|. Same as |right1|, except that |b| is a +three-byte quantity in the range |@t$-2^{23}$@> <= b < @t$2^{23}$@>|. + +\yskip\hang|@!right4| 146 |b[4]|. Same as |right1|, except that |b| is a +four-byte quantity in the range |@t$-2^{31}$@> <= b < @t$2^{31}$@>|. + +\yskip\hang|w0| 147. Set |h=h+w|; i.e., move right |w| units. With luck, +this parameterless command will usually suffice, because the same kind of motion +will occur several times in succession; the following commands explain how +|w| gets particular values. + +\yskip\hang|w1| 148 |b[1]|. Set |w=b| and |h=h+b|. The value of |b| is a +signed quantity in two's complement notation, |-128 <= b < 128|. This command +changes the current |w|~spacing and moves right by |b|. + +\yskip\hang|@!w2| 149 |b[2]|. Same as |w1|, but |b| is two bytes long, +|-32768 <= b < 32768|. + +\yskip\hang|@!w3| 150 |b[3]|. Same as |w1|, but |b| is three bytes long, +|@t$-2^{23}$@> <= b < @t$2^{23}$@>|. + +\yskip\hang|@!w4| 151 |b[4]|. Same as |w1|, but |b| is four bytes long, +|@t$-2^{31}$@> <= b < @t$2^{31}$@>|. + +\yskip\hang|x0| 152. Set |h=h+x|; i.e., move right |x| units. The `|x|' +commands are like the `|w|' commands except that they involve |x| instead +of |w|. + +\yskip\hang|x1| 153 |b[1]|. Set |x=b| and |h=h+b|. The value of |b| is a +signed quantity in two's complement notation, |-128 <= b < 128|. This command +changes the current |x|~spacing and moves right by |b|. + +\yskip\hang|@!x2| 154 |b[2]|. Same as |x1|, but |b| is two bytes long, +|-32768 <= b < 32768|. + +\yskip\hang|@!x3| 155 |b[3]|. Same as |x1|, but |b| is three bytes long, +|@t$-2^{23}$@> <= b < @t$2^{23}$@>|. + +\yskip\hang|@!x4| 156 |b[4]|. Same as |x1|, but |b| is four bytes long, +|@t$-2^{31}$@> <= b < @t$2^{31}$@>|. + +\yskip\hang|down1| 157 |a[1]|. Set |v=v+a|, i.e., move down |a| units. +The parameter is a signed number in two's complement notation, |-128 <= a < 128|; +if |a < 0|, the reference point moves up. + +\yskip\hang|@!down2| 158 |a[2]|. Same as |down1|, except that |a| is a +two-byte quantity in the range |-32768 <= a < 32768|. + +\yskip\hang|@!down3| 159 |a[3]|. Same as |down1|, except that |a| is a +three-byte quantity in the range |@t$-2^{23}$@> <= a < @t$2^{23}$@>|. + +\yskip\hang|@!down4| 160 |a[4]|. Same as |down1|, except that |a| is a +four-byte quantity in the range |@t$-2^{31}$@> <= a < @t$2^{31}$@>|. + +\yskip\hang|y0| 161. Set |v=v+y|; i.e., move down |y| units. With luck, +this parameterless command will usually suffice, because the same kind of motion +will occur several times in succession; the following commands explain how +|y| gets particular values. + +\yskip\hang|y1| 162 |a[1]|. Set |y=a| and |v=v+a|. The value of |a| is a +signed quantity in two's complement notation, |-128 <= a < 128|. This command +changes the current |y|~spacing and moves down by |a|. + +\yskip\hang|@!y2| 163 |a[2]|. Same as |y1|, but |a| is two bytes long, +|-32768 <= a < 32768|. + +\yskip\hang|@!y3| 164 |a[3]|. Same as |y1|, but |a| is three bytes long, +|@t$-2^{23}$@> <= a < @t$2^{23}$@>|. + +\yskip\hang|@!y4| 165 |a[4]|. Same as |y1|, but |a| is four bytes long, +|@t$-2^{31}$@> <= a < @t$2^{31}$@>|. + +\yskip\hang|z0| 166. Set |v=v+z|; i.e., move down |z| units. The `|z|' commands +are like the `|y|' commands except that they involve |z| instead of |y|. + +\yskip\hang|z1| 167 |a[1]|. Set |z=a| and |v=v+a|. The value of |a| is a +signed quantity in two's complement notation, |-128 <= a < 128|. This command +changes the current |z|~spacing and moves down by |a|. + +\yskip\hang|@!z2| 168 |a[2]|. Same as |z1|, but |a| is two bytes long, +|-32768 <= a < 32768|. + +\yskip\hang|@!z3| 169 |a[3]|. Same as |z1|, but |a| is three bytes long, +|@t$-2^{23}$@> <= a < @t$2^{23}$@>|. + +\yskip\hang|@!z4| 170 |a[4]|. Same as |z1|, but |a| is four bytes long, +|@t$-2^{31}$@> <= a < @t$2^{31}$@>|. + +\yskip\hang|fnt_num_0| 171. Set |f=0|. Font 0 must previously have been +defined by a \\{fnt\_def} instruction, as explained below. + +\yskip\hang\\{fnt\_num\_1} through \\{fnt\_num\_63} (opcodes 172 to 234). Set +|f=1|, \dots, \hbox{|f=63|}, respectively. + +\yskip\hang|fnt1| 235 |k[1]|. Set |f=k|. \TeX82 uses this command for font +numbers in the range |64 <= k < 256|. + +\yskip\hang|@!fnt2| 236 |k[2]|. Same as |fnt1|, except that |k|~is two +bytes long, so it is in the range |0 <= k < 65536|. \TeX82 never generates this +command, but large font numbers may prove useful for specifications of +color or texture, or they may be used for special fonts that have fixed +numbers in some external coding scheme. + +\yskip\hang|@!fnt3| 237 |k[3]|. Same as |fnt1|, except that |k|~is three +bytes long, so it can be as large as $2^{24}-1$. + +\yskip\hang|@!fnt4| 238 |k[4]|. Same as |fnt1|, except that |k|~is four +bytes long; this is for the really big font numbers (and for the negative ones). + +\yskip\hang|xxx1| 239 |k[1]| |x[k]|. This command is undefined in +general; it functions as a $(k+2)$-byte |nop| unless special \.{DVI}-reading +programs are being used. \TeX82 generates |xxx1| when a short enough +\.{\\special} appears, setting |k| to the number of bytes being sent. It +is recommended that |x| be a string having the form of a keyword followed +by possible parameters relevant to that keyword. + +\yskip\hang|@!xxx2| 240 |k[2]| |x[k]|. Like |xxx1|, but |0 <= k < 65536|. + +\yskip\hang|@!xxx3| 241 |k[3]| |x[k]|. Like |xxx1|, but |0 <= k < @t$2^{24}$@>|. + +\yskip\hang|xxx4| 242 |k[4]| |x[k]|. Like |xxx1|, but |k| can be ridiculously +large. \TeX82 uses |xxx4| when sending a string of length 256 or more. + +\yskip\hang|fnt_def1| 243 |k[1]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. +Define font |k|, where |0 <= k < 256|; font definitions will be explained shortly. + +\yskip\hang|@!fnt_def2| 244 |k[2]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. +Define font |k|, where |0 <= k < 65536|. + +\yskip\hang|@!fnt_def3| 245 |k[3]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. +Define font |k|, where |0 <= k < @t$2^{24}$@>|. + +\yskip\hang|@!fnt_def4| 246 |k[4]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. +Define font |k|, where |@t$-2^{31}$@> <= k < @t$2^{31}$@>|. + +\yskip\hang|pre| 247 |i[1]| |num[4]| |den[4]| |mag[4]| |k[1]| |x[k]|. +Beginning of the preamble; this must come at the very beginning of the +file. Parameters |i|, |num|, |den|, |mag|, |k|, and |x| are explained below. + +\yskip\hang|post| 248. Beginning of the postamble, see below. + +\yskip\hang|post_post| 249. Ending of the postamble, see below. + +\yskip\noindent Commands 250--255 are undefined at the present time. + +@ @d set_char_0 0 /*typeset character 0 and move right*/ +@d set1 128 /*typeset a character and move right*/ +@d set_rule 132 /*typeset a rule and move right*/ +@d put_rule 137 /*typeset a rule*/ +@d nop 138 /*no operation*/ +@d bop 139 /*beginning of page*/ +@d eop 140 /*ending of page*/ +@d push 141 /*save the current positions*/ +@d pop 142 /*restore previous positions*/ +@d right1 143 /*move right*/ +@d w0 147 /*move right by |w|*/ +@d w1 148 /*move right and set |w|*/ +@d x0 152 /*move right by |x|*/ +@d x1 153 /*move right and set |x|*/ +@d down1 157 /*move down*/ +@d y0 161 /*move down by |y|*/ +@d y1 162 /*move down and set |y|*/ +@d z0 166 /*move down by |z|*/ +@d z1 167 /*move down and set |z|*/ +@d fnt_num_0 171 /*set current font to 0*/ +@d fnt1 235 /*set current font*/ +@d xxx1 239 /*extension to \.{DVI} primitives*/ +@d xxx4 242 /*potentially long extension to \.{DVI} primitives*/ +@d fnt_def1 243 /*define the meaning of a font number*/ +@d pre 247 /*preamble*/ +@d post 248 /*postamble beginning*/ +@d post_post 249 /*postamble ending*/ + +@ The preamble contains basic information about the file as a whole. As +stated above, there are six parameters: +$$\hbox{|@!i[1]| |@!num[4]| |@!den[4]| |@!mag[4]| |@!k[1]| |@!x[k]|.}$$ +The |i| byte identifies \.{DVI} format; currently this byte is always set +to~2. (The value |i==3| is currently used for an extended format that +allows a mixture of right-to-left and left-to-right typesetting. +Some day we will set |i==4|, when \.{DVI} format makes another +incompatible change---perhaps in the year 2048.) + +The next two parameters, |num| and |den|, are positive integers that define +the units of measurement; they are the numerator and denominator of a +fraction by which all dimensions in the \.{DVI} file could be multiplied +in order to get lengths in units of $10^{-7}$ meters. Since $\rm 7227{pt} = +254{cm}$, and since \TeX\ works with scaled points where there are $2^{16}$ +sp in a point, \TeX\ sets +$|num|/|den|=(254\cdot10^5)/(7227\cdot2^{16})=25400000/473628672$. +@^sp@> + +The |mag| parameter is what \TeX\ calls \.{\\mag}, i.e., 1000 times the +desired magnification. The actual fraction by which dimensions are +multiplied is therefore $|mag|\cdot|num|/1000|den|$. Note that if a \TeX\ +source document does not call for any `\.{true}' dimensions, and if you +change it only by specifying a different \.{\\mag} setting, the \.{DVI} +file that \TeX\ creates will be completely unchanged except for the value +of |mag| in the preamble and postamble. (Fancy \.{DVI}-reading programs allow +users to override the |mag|~setting when a \.{DVI} file is being printed.) + +Finally, |k| and |x| allow the \.{DVI} writer to include a comment, which is not +interpreted further. The length of comment |x| is |k|, where |0 <= k < 256|. + +@d id_byte 2 /*identifies the kind of \.{DVI} files described here*/ + +@ Font definitions for a given font number |k| contain further parameters +$$\hbox{|c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.}$$ +The four-byte value |c| is the check sum that \TeX\ found in the \.{TFM} +file for this font; |c| should match the check sum of the font found by +programs that read this \.{DVI} file. +@^check sum@> + +Parameter |s| contains a fixed-point scale factor that is applied to +the character widths in font |k|; font dimensions in \.{TFM} files and +other font files are relative to this quantity, which is called the +``at size'' elsewhere in this documentation. The value of |s| is +always positive and less than $2^{27}$. It is given in the same units +as the other \.{DVI} dimensions, i.e., in sp when \TeX82 has made the +file. Parameter |d| is similar to |s|; it is the ``design size,'' and +(like~|s|) it is given in \.{DVI} units. Thus, font |k| is to be used +at $|mag|\cdot s/1000d$ times its normal size. + +The remaining part of a font definition gives the external name of the font, +which is an ASCII string of length |a+l|. The number |a| is the length +of the ``area'' or directory, and |l| is the length of the font name itself; +the standard local system font area is supposed to be used when |a==0|. +The |n| field contains the area in its first |a| bytes. + +Font definitions must appear before the first use of a particular font number. +Once font |k| is defined, it must not be defined again; however, we +shall see below that font definitions appear in the postamble as well as +in the pages, so in this sense each font number is defined exactly twice, +if at all. Like |nop| commands, font definitions can +appear before the first |bop|, or between an |eop| and a |bop|. + +@ Sometimes it is desirable to make horizontal or vertical rules line up +precisely with certain features in characters of a font. It is possible to +guarantee the correct matching between \.{DVI} output and the characters +generated by \MF\ by adhering to the following principles: (1)~The \MF\ +characters should be positioned so that a bottom edge or left edge that is +supposed to line up with the bottom or left edge of a rule appears at the +reference point, i.e., in row~0 and column~0 of the \MF\ raster. This +ensures that the position of the rule will not be rounded differently when +the pixel size is not a perfect multiple of the units of measurement in +the \.{DVI} file. (2)~A typeset rule of height $a>0$ and width $b>0$ +should be equivalent to a \MF-generated character having black pixels in +precisely those raster positions whose \MF\ coordinates satisfy +|0 <= x < @t$\alpha$@>b| and |0 <= y < @t$\alpha$@>a|, where $\alpha$ is the number +of pixels per \.{DVI} unit. +@:METAFONT}{\MF@> +@^alignment of rules with characters@> +@^rules aligning with characters@> + +@ The last page in a \.{DVI} file is followed by `|post|'; this command +introduces the postamble, which summarizes important facts that \TeX\ has +accumulated about the file, making it possible to print subsets of the data +with reasonable efficiency. The postamble has the form +$$\vbox{\halign{\hbox{#\hfil}\cr + |post| |p[4]| |num[4]| |den[4]| |mag[4]| |l[4]| |u[4]| |s[2]| |t[2]|\cr + $\langle\,$font definitions$\,\rangle$\cr + |post_post| |q[4]| |i[1]| 223's$[{\G}4]$\cr}}$$ +Here |p| is a pointer to the final |bop| in the file. The next three +parameters, |num|, |den|, and |mag|, are duplicates of the quantities that +appeared in the preamble. + +Parameters |l| and |u| give respectively the height-plus-depth of the tallest +page and the width of the widest page, in the same units as other dimensions +of the file. These numbers might be used by a \.{DVI}-reading program to +position individual ``pages'' on large sheets of film or paper; however, +the standard convention for output on normal size paper is to position each +page so that the upper left-hand corner is exactly one inch from the left +and the top. Experience has shown that it is unwise to design \.{DVI}-to-printer +software that attempts cleverly to center the output; a fixed position of +the upper left corner is easiest for users to understand and to work with. +Therefore |l| and~|u| are often ignored. + +Parameter |s| is the maximum stack depth (i.e., the largest excess of +|push| commands over |pop| commands) needed to process this file. Then +comes |t|, the total number of pages (|bop| commands) present. + +The postamble continues with font definitions, which are any number of +\\{fnt\_def} commands as described above, possibly interspersed with |nop| +commands. Each font number that is used in the \.{DVI} file must be defined +exactly twice: Once before it is first selected by a \\{fnt} command, and once +in the postamble. + +@ The last part of the postamble, following the |post_post| byte that +signifies the end of the font definitions, contains |q|, a pointer to the +|post| command that started the postamble. An identification byte, |i|, +comes next; this currently equals~2, as in the preamble. + +The |i| byte is followed by four or more bytes that are all equal to +the decimal number 223 (i.e., 0337 in octal). \TeX\ puts out four to seven of +these trailing bytes, until the total length of the file is a multiple of +four bytes, since this works out best on machines that pack four bytes per +word; but any number of 223's is allowed, as long as there are at least four +of them. In effect, 223 is a sort of signature that is added at the very end. +@^Fuchs, David Raymond@> + +This curious way to finish off a \.{DVI} file makes it feasible for +\.{DVI}-reading programs to find the postamble first, on most computers, +even though \TeX\ wants to write the postamble last. Most operating +systems permit random access to individual words or bytes of a file, so +the \.{DVI} reader can start at the end and skip backwards over the 223's +until finding the identification byte. Then it can back up four bytes, read +|q|, and move to byte |q| of the file. This byte should, of course, +contain the value 248 (|post|); now the postamble can be read, so the +\.{DVI} reader can discover all the information needed for typesetting the +pages. Note that it is also possible to skip through the \.{DVI} file at +reasonably high speed to locate a particular page, if that proves +desirable. This saves a lot of time, since \.{DVI} files used in production +jobs tend to be large. + +Unfortunately, however, standard \PASCAL\ does not include the ability to +@^system dependencies@> +access a random position in a file, or even to determine the length of a file. +Almost all systems nowadays provide the necessary capabilities, so \.{DVI} +format has been designed to work most efficiently with modern operating systems. +But if \.{DVI} files have to be processed under the restrictions of standard +\PASCAL, one can simply read them from front to back, since the necessary +header information is present in the preamble and in the font definitions. +(The |l| and |u| and |s| and |t| parameters, which appear only in the +postamble, are ``frills'' that are handy but not absolutely necessary.) + +@* Shipping pages out. +After considering \TeX's eyes and stomach, we come now to the bowels. +@^bowels@> + +The |ship_out| procedure is given a pointer to a box; its mission is +to describe that box in \.{DVI} form, outputting a ``page'' to |dvi_file|. +The \.{DVI} coordinates $(h,v)=(0,0)$ should correspond to the upper left +corner of the box being shipped. + +Since boxes can be inside of boxes inside of boxes, the main work of +|ship_out| is done by two mutually recursive routines, |hlist_out| +and |vlist_out|, which traverse the hlists and vlists inside of horizontal +and vertical boxes. + +As individual pages are being processed, we need to accumulate +information about the entire set of pages, since such statistics must be +reported in the postamble. The global variables |total_pages|, |max_v|, +|max_h|, |max_push|, and |last_bop| are used to record this information. + +The variable |doing_leaders| is |true| while leaders are being output. +The variable |dead_cycles| contains the number of times an output routine +has been initiated since the last |ship_out|. + +A few additional global variables are also defined here for use in +|vlist_out| and |hlist_out|. They could have been local variables, but +that would waste stack space when boxes are deeply nested, since the +values of these variables are not needed during recursive calls. +@^recursion@> + +@<Glob...@>= +static int @!total_pages; /*the number of pages that have been shipped out*/ +static scaled @!max_v; /*maximum height-plus-depth of pages shipped so far*/ +static scaled @!max_h; /*maximum width of pages shipped so far*/ +static int @!max_push; /*deepest nesting of |push| commands encountered so far*/ +static int @!last_bop; /*location of previous |bop| in the \.{DVI} output*/ +static int @!dead_cycles; /*recent outputs that didn't ship anything out*/ +static bool @!doing_leaders; /*are we inside a leader box?*/ +@# +static quarterword @!c, @!f; /*character and font in current |char_node|*/ +static scaled @!rule_ht, @!rule_dp, @!rule_wd; /*size of current rule being output*/ +static pointer @!g; /*current glue specification*/ +static int @!lq, @!lr; /*quantities used in calculations for leaders*/ + +@ @<Set init...@>= +total_pages=0;max_v=0;max_h=0;max_push=0;last_bop=-1; +doing_leaders=false;dead_cycles=0;cur_s=-1; + +@ The \.{DVI} bytes are output to a buffer instead of being written directly +to the output file. This makes it possible to reduce the overhead of +subroutine calls, thereby measurably speeding up the computation, since +output of \.{DVI} bytes is part of \TeX's inner loop. And it has another +advantage as well, since we can change instructions in the buffer in order to +make the output more compact. For example, a `|down2|' command can be +changed to a `|y2|', thereby making a subsequent `|y0|' command possible, +saving two bytes. + +The output buffer is divided into two parts of equal size; the bytes found +in |dvi_buf[0 dotdot half_buf-1]| constitute the first half, and those in +|dvi_buf[half_buf dotdot dvi_buf_size-1]| constitute the second. The global +variable |dvi_ptr| points to the position that will receive the next +output byte. When |dvi_ptr| reaches |dvi_limit|, which is always equal +to one of the two values |half_buf| or |dvi_buf_size|, the half buffer that +is about to be invaded next is sent to the output and |dvi_limit| is +changed to its other value. Thus, there is always at least a half buffer's +worth of information present, except at the very beginning of the job. + +Bytes of the \.{DVI} file are numbered sequentially starting with 0; +the next byte to be generated will be number |dvi_offset+dvi_ptr|. +A byte is present in the buffer only if its number is | >= dvi_gone|. + +@<Types...@>= +typedef int16_t dvi_index; /*an index into the output buffer*/ + +@ Some systems may find it more efficient to make |dvi_buf| a || +array, since output of four bytes at once may be facilitated. +@^system dependencies@> + +@<Glob...@>= +static eight_bits @!dvi_buf[dvi_buf_size+1]; /*buffer for \.{DVI} output*/ +static dvi_index @!half_buf; /*half of |dvi_buf_size|*/ +static dvi_index @!dvi_limit; /*end of the current half buffer*/ +static dvi_index @!dvi_ptr; /*the next available buffer address*/ +static int @!dvi_offset; /*|dvi_buf_size| times the number of times the + output buffer has been fully emptied*/ +static int @!dvi_gone; /*the number of bytes already output to |dvi_file|*/ + +@ Initially the buffer is all in one piece; we will output half of it only +after it first fills up. + +@<Set init...@>= +half_buf=dvi_buf_size/2;dvi_limit=dvi_buf_size;dvi_ptr=0; +dvi_offset=0;dvi_gone=0; + +@ The actual output of |dvi_buf[a dotdot b]| to |dvi_file| is performed by calling +|write_dvi(a, b)|. For best results, this procedure should be optimized to +run as fast as possible on each particular system, since it is part of +\TeX's inner loop. It is safe to assume that |a| and |b+1| will both be +multiples of 4 when |write_dvi(a, b)| is called; therefore it is possible on +many machines to use efficient methods to pack four bytes per word and to +output an array of words with one system call. +@^system dependencies@> +@^inner loop@> +@^defecation@> + +@p static void write_dvi(dvi_index @!a, dvi_index @!b) +{@+int k; +for (k=a; k<=b; k++) pascal_write(dvi_file, "%c", dvi_buf[k]); +} + +@ To put a byte in the buffer without paying the cost of invoking a procedure +each time, we use the macro |dvi_out|. + +@d dvi_out(A) @+{@+dvi_buf[dvi_ptr]=A;incr(dvi_ptr); + if (dvi_ptr==dvi_limit) dvi_swap(); + } + +@p static void dvi_swap(void) /*outputs half of the buffer*/ +{@+if (dvi_limit==dvi_buf_size) + {@+write_dvi(0, half_buf-1);dvi_limit=half_buf; + dvi_offset=dvi_offset+dvi_buf_size;dvi_ptr=0; + } +else{@+write_dvi(half_buf, dvi_buf_size-1);dvi_limit=dvi_buf_size; + } +dvi_gone=dvi_gone+half_buf; +} + +@ Here is how we clean out the buffer when \TeX\ is all through; |dvi_ptr| +will be a multiple of~4. + +@<Empty the last bytes out of |dvi_buf|@>= +if (dvi_limit==half_buf) write_dvi(half_buf, dvi_buf_size-1); +if (dvi_ptr > 0) write_dvi(0, dvi_ptr-1) + +@ The |dvi_four| procedure outputs four bytes in two's complement notation, +without risking arithmetic overflow. + +@p static void dvi_four(int @!x) +{@+if (x >= 0) dvi_out(x/0100000000)@; +else{@+x=x+010000000000; + x=x+010000000000; + dvi_out((x/0100000000)+128); + } +x=x%0100000000;dvi_out(x/0200000); +x=x%0200000;dvi_out(x/0400); +dvi_out(x%0400); +} + +@ A mild optimization of the output is performed by the |dvi_pop| +routine, which issues a |pop| unless it is possible to cancel a +`|push| |pop|' pair. The parameter to |dvi_pop| is the byte address +following the old |push| that matches the new |pop|. + +@p static void dvi_pop(int @!l) +{@+if ((l==dvi_offset+dvi_ptr)&&(dvi_ptr > 0)) decr(dvi_ptr); +else dvi_out(pop); +} + +@ Here's a procedure that outputs a font definition. Since \TeX82 uses at +most 256 different fonts per job, |fnt_def1| is always used as the command code. + +@p static void dvi_font_def(internal_font_number @!f) +{@+int k; /*index into |str_pool|*/ +dvi_out(fnt_def1); +dvi_out(f-font_base-1);@/ +dvi_out(qo(font_check[f].b0)); +dvi_out(qo(font_check[f].b1)); +dvi_out(qo(font_check[f].b2)); +dvi_out(qo(font_check[f].b3));@/ +dvi_four(font_size[f]); +dvi_four(font_dsize[f]);@/ +dvi_out(length(font_area[f])); +dvi_out(length(font_name[f])); +@<Output the font name whose internal number is |f|@>; +} + +@ @<Output the font name whose internal number is |f|@>= +for (k=str_start[font_area[f]]; k<=str_start[font_area[f]+1]-1; k++) + dvi_out(so(str_pool[k])); +for (k=str_start[font_name[f]]; k<=str_start[font_name[f]+1]-1; k++) + dvi_out(so(str_pool[k])) + +@ Versions of \TeX\ intended for small computers might well choose to omit +the ideas in the next few parts of this program, since it is not really +necessary to optimize the \.{DVI} code by making use of the |w0|, |x0|, +|y0|, and |z0| commands. Furthermore, the algorithm that we are about to +describe does not pretend to give an optimum reduction in the length +of the \.{DVI} code; after all, speed is more important than compactness. +But the method is surprisingly effective, and it takes comparatively little +time. + +We can best understand the basic idea by first considering a simpler problem +that has the same essential characteristics. Given a sequence of digits, +say $3\,1\,4\,1\,5\,9\,2\,6\,5\,3\,5\,8\,9$, we want to assign subscripts +$d$, $y$, or $z$ to each digit so as to maximize the number of ``$y$-hits'' +and ``$z$-hits''; a $y$-hit is an instance of two appearances of the same +digit with the subscript $y$, where no $y$'s intervene between the two +appearances, and a $z$-hit is defined similarly. For example, the sequence +above could be decorated with subscripts as follows: +$$3_z\,1_y\,4_d\,1_y\,5_y\,9_d\,2_d\,6_d\,5_y\,3_z\,5_y\,8_d\,9_d.$$ +There are three $y$-hits ($1_y\ldots1_y$ and $5_y\ldots5_y\ldots5_y$) and +one $z$-hit ($3_z\ldots3_z$); there are no $d$-hits, since the two appearances +of $9_d$ have $d$'s between them, but we don't count $d$-hits so it doesn't +matter how many there are. These subscripts are analogous to the \.{DVI} +commands called \\{down}, $y$, and $z$, and the digits are analogous to +different amounts of vertical motion; a $y$-hit or $z$-hit corresponds to +the opportunity to use the one-byte commands |y0| or |z0| in a \.{DVI} file. + +\TeX's method of assigning subscripts works like this: Append a new digit, +say $\delta$, to the right of the sequence. Now look back through the +sequence until one of the following things happens: (a)~You see +$\delta_y$ or $\delta_z$, and this was the first time you encountered a +$y$ or $z$ subscript, respectively. Then assign $y$ or $z$ to the new +$\delta$; you have scored a hit. (b)~You see $\delta_d$, and no $y$ +subscripts have been encountered so far during this search. Then change +the previous $\delta_d$ to $\delta_y$ (this corresponds to changing a +command in the output buffer), and assign $y$ to the new $\delta$; it's +another hit. (c)~You see $\delta_d$, and a $y$ subscript has been seen +but not a $z$. Change the previous $\delta_d$ to $\delta_z$ and assign +$z$ to the new $\delta$. (d)~You encounter both $y$ and $z$ subscripts +before encountering a suitable $\delta$, or you scan all the way to the +front of the sequence. Assign $d$ to the new $\delta$; this assignment may +be changed later. + +The subscripts $3_z\,1_y\,4_d\ldots\,$ in the example above were, in fact, +produced by this procedure, as the reader can verify. (Go ahead and try it.) + +@ In order to implement such an idea, \TeX\ maintains a stack of pointers +to the \\{down}, $y$, and $z$ commands that have been generated for the +current page. And there is a similar stack for \\{right}, |w|, and |x| +commands. These stacks are called the down stack and right stack, and their +top elements are maintained in the variables |down_ptr| and |right_ptr|. + +Each entry in these stacks contains four fields: The |width| field is +the amount of motion down or to the right; the |location| field is the +byte number of the \.{DVI} command in question (including the appropriate +|dvi_offset|); the |link| field points to the next item below this one +on the stack; and the |info| field encodes the options for possible change +in the \.{DVI} command. + +@d movement_node_size 3 /*number of words per entry in the down and right stacks*/ +@d location(A) mem[A+2].i /*\.{DVI} byte number for a movement command*/ + +@<Glob...@>= +static pointer @!down_ptr, @!right_ptr; /*heads of the down and right stacks*/ + +@ @<Set init...@>= +down_ptr=null;right_ptr=null; + +@ Here is a subroutine that produces a \.{DVI} command for some specified +downward or rightward motion. It has two parameters: |w| is the amount +of motion, and |o| is either |down1| or |right1|. We use the fact that +the command codes have convenient arithmetic properties: |y1-down1==w1-right1| +and |z1-down1==x1-right1|. + +@p static void movement(scaled @!w, eight_bits @!o) +{@+ +small_number mstate; /*have we seen a |y| or |z|?*/ +pointer @!p, @!q; /*current and top nodes on the stack*/ +int @!k; /*index into |dvi_buf|, modulo |dvi_buf_size|*/ +q=get_node(movement_node_size); /*new node for the top of the stack*/ +width(q)=w;location(q)=dvi_offset+dvi_ptr; +if (o==down1) + {@+link(q)=down_ptr;down_ptr=q; + } +else{@+link(q)=right_ptr;right_ptr=q; + } +@<Look at the other stack entries until deciding what sort of \.{DVI} command to generate; +|goto found| if node |p| is a ``hit''@>; +@<Generate a |down| or |right| command for |w| and |return|@>; +found: @<Generate a |y0| or |z0| command in order to reuse a previous appearance of~|w|@>; +} + +@ The |info| fields in the entries of the down stack or the right stack +have six possible settings: |y_here| or |z_here| mean that the \.{DVI} +command refers to |y| or |z|, respectively (or to |w| or |x|, in the +case of horizontal motion); |yz_OK| means that the \.{DVI} command is +\\{down} (or \\{right}) but can be changed to either |y| or |z| (or +to either |w| or |x|); |y_OK| means that it is \\{down} and can be changed +to |y| but not |z|; |z_OK| is similar; and |d_fixed| means it must stay +\\{down}. + +The four settings |yz_OK|, |y_OK|, |z_OK|, |d_fixed| would not need to +be distinguished from each other if we were simply solving the +digit-subscripting problem mentioned above. But in \TeX's case there is +a complication because of the nested structure of |push| and |pop| +commands. Suppose we add parentheses to the digit-subscripting problem, +redefining hits so that $\delta_y\ldots \delta_y$ is a hit if all $y$'s between +the $\delta$'s are enclosed in properly nested parentheses, and if the +parenthesis level of the right-hand $\delta_y$ is deeper than or equal to +that of the left-hand one. Thus, `(' and `)' correspond to `|push|' +and `|pop|'. Now if we want to assign a subscript to the final 1 in the +sequence +$$2_y\,7_d\,1_d\,(\,8_z\,2_y\,8_z\,)\,1$$ +we cannot change the previous $1_d$ to $1_y$, since that would invalidate +the $2_y\ldots2_y$ hit. But we can change it to $1_z$, scoring a hit +since the intervening $8_z$'s are enclosed in parentheses. + +The program below removes movement nodes that are introduced after a |push|, +before it outputs the corresponding |pop|. + +@d y_here 1 /*|info| when the movement entry points to a |y| command*/ +@d z_here 2 /*|info| when the movement entry points to a |z| command*/ +@d yz_OK 3 /*|info| corresponding to an unconstrained \\{down} command*/ +@d y_OK 4 /*|info| corresponding to a \\{down} that can't become a |z|*/ +@d z_OK 5 /*|info| corresponding to a \\{down} that can't become a |y|*/ +@d d_fixed 6 /*|info| corresponding to a \\{down} that can't change*/ + +@ When the |movement| procedure gets to the label |found|, the value of +|info(p)| will be either |y_here| or |z_here|. If it is, say, |y_here|, +the procedure generates a |y0| command (or a |w0| command), and marks +all |info| fields between |q| and |p| so that |y| is not OK in that range. + +@<Generate a |y0| or |z0| command...@>= +info(q)=info(p); +if (info(q)==y_here) + {@+dvi_out(o+y0-down1); /*|y0| or |w0|*/ + while (link(q)!=p) + {@+q=link(q); + switch (info(q)) { + case yz_OK: info(q)=z_OK;@+break; + case y_OK: info(q)=d_fixed;@+break; + default:do_nothing; + } + } + } +else{@+dvi_out(o+z0-down1); /*|z0| or |x0|*/ + while (link(q)!=p) + {@+q=link(q); + switch (info(q)) { + case yz_OK: info(q)=y_OK;@+break; + case z_OK: info(q)=d_fixed;@+break; + default:do_nothing; + } + } + } + +@ @<Generate a |down| or |right|...@>= +info(q)=yz_OK; +if (abs(w) >= 040000000) + {@+dvi_out(o+3); /*|down4| or |right4|*/ + dvi_four(w);return; + } +if (abs(w) >= 0100000) + {@+dvi_out(o+2); /*|down3| or |right3|*/ + if (w < 0) w=w+0100000000; + dvi_out(w/0200000);w=w%0200000;goto label2; + } +if (abs(w) >= 0200) + {@+dvi_out(o+1); /*|down2| or |right2|*/ + if (w < 0) w=w+0200000; + goto label2; + } +dvi_out(o); /*|down1| or |right1|*/ +if (w < 0) w=w+0400; +goto label1; +label2: dvi_out(w/0400); +label1: dvi_out(w%0400);return + +@ As we search through the stack, we are in one of three states, +|y_seen|, |z_seen|, or |none_seen|, depending on whether we have +encountered |y_here| or |z_here| nodes. These states are encoded as +multiples of 6, so that they can be added to the |info| fields for quick +decision-making. +@^inner loop@> + +@d none_seen 0 /*no |y_here| or |z_here| nodes have been encountered yet*/ +@d y_seen 6 /*we have seen |y_here| but not |z_here|*/ +@d z_seen 12 /*we have seen |z_here| but not |y_here|*/ + +@<Look at the other stack entries until deciding...@>= +p=link(q);mstate=none_seen; +while (p!=null) + {@+if (width(p)==w) @<Consider a node with matching width; |goto found| if it's +a hit@>@; + else switch (mstate+info(p)) { + case none_seen+y_here: mstate=y_seen;@+break; + case none_seen+z_here: mstate=z_seen;@+break; + case y_seen+z_here: case z_seen+y_here: goto not_found; + default:do_nothing; + } + p=link(p); + } +not_found: + +@ We might find a valid hit in a |y| or |z| byte that is already gone +from the buffer. But we can't change bytes that are gone forever; ``the +moving finger writes, $\ldots\,\,$.'' + +@<Consider a node with matching width...@>= +switch (mstate+info(p)) { +case none_seen+yz_OK: case none_seen+y_OK: case z_seen+yz_OK: case z_seen+y_OK: @t@>@;@/ + if (location(p) < dvi_gone) goto not_found; + else@<Change buffered instruction to |y| or |w| and |goto found|@>@;@+break; +case none_seen+z_OK: case y_seen+yz_OK: case y_seen+z_OK: @t@>@;@/ + if (location(p) < dvi_gone) goto not_found; + else@<Change buffered instruction to |z| or |x| and |goto found|@>@;@+break; +case none_seen+y_here: case none_seen+z_here: case y_seen+z_here: case z_seen+y_here: goto found; +default:do_nothing; +} + +@ @<Change buffered instruction to |y| or |w| and |goto found|@>= +{@+k=location(p)-dvi_offset; +if (k < 0) k=k+dvi_buf_size; +dvi_buf[k]=dvi_buf[k]+y1-down1; +info(p)=y_here;goto found; +} + +@ @<Change buffered instruction to |z| or |x| and |goto found|@>= +{@+k=location(p)-dvi_offset; +if (k < 0) k=k+dvi_buf_size; +dvi_buf[k]=dvi_buf[k]+z1-down1; +info(p)=z_here;goto found; +} + +@ In case you are wondering when all the movement nodes are removed from +\TeX's memory, the answer is that they are recycled just before +|hlist_out| and |vlist_out| finish outputting a box. This restores the +down and right stacks to the state they were in before the box was output, +except that some |info|'s may have become more restrictive. + +@p static void prune_movements(int @!l) + /*delete movement nodes with |location >= l|*/ +{@+ +pointer p; /*node being deleted*/ +while (down_ptr!=null) + {@+if (location(down_ptr) < l) goto done; + p=down_ptr;down_ptr=link(p);free_node(p, movement_node_size); + } +done: while (right_ptr!=null) + {@+if (location(right_ptr) < l) return; + p=right_ptr;right_ptr=link(p);free_node(p, movement_node_size); + } +} + +@ The actual distances by which we want to move might be computed as the +sum of several separate movements. For example, there might be several +glue nodes in succession, or we might want to move right by the width of +some box plus some amount of glue. More importantly, the baselineskip +distances are computed in terms of glue together with the depth and +height of adjacent boxes, and we want the \.{DVI} file to lump these +three quantities together into a single motion. + +Therefore, \TeX\ maintains two pairs of global variables: |dvi_h| and |dvi_v| +are the |h| and |v| coordinates corresponding to the commands actually +output to the \.{DVI} file, while |cur_h| and |cur_v| are the coordinates +corresponding to the current state of the output routines. Coordinate +changes will accumulate in |cur_h| and |cur_v| without being reflected +in the output, until such a change becomes necessary or desirable; we +can call the |movement| procedure whenever we want to make |dvi_h==cur_h| +or |dvi_v==cur_v|. + +The current font reflected in the \.{DVI} output is called |dvi_f|; +there is no need for a `\\{cur\_f}' variable. + +The depth of nesting of |hlist_out| and |vlist_out| is called |cur_s|; +this is essentially the depth of |push| commands in the \.{DVI} output. + +@d synch_h if (cur_h!=dvi_h) + {@+movement(cur_h-dvi_h, right1);dvi_h=cur_h; + } +@d synch_v if (cur_v!=dvi_v) + {@+movement(cur_v-dvi_v, down1);dvi_v=cur_v; + } + +@<Glob...@>= +static scaled @!dvi_h, @!dvi_v; /*a \.{DVI} reader program thinks we are here*/ +static scaled @!cur_h, @!cur_v; /*\TeX\ thinks we are here*/ +static internal_font_number @!dvi_f; /*the current font*/ +static int @!cur_s; /*current depth of output box nesting, initially $-1$*/ + +@ @<Initialize variables as |ship_out| begins@>= +dvi_h=0;dvi_v=0;cur_h=h_offset;dvi_f=null_font; +ensure_dvi_open; +if (total_pages==0) + {@+dvi_out(pre);dvi_out(id_byte); /*output the preamble*/ +@^preamble of \.{DVI} file@> + dvi_four(25400000);dvi_four(473628672); /*conversion ratio for sp*/ + prepare_mag();dvi_four(mag); /*magnification factor is frozen*/ + old_setting=selector;selector=new_string; + print(" TeX output ");print_int(year);print_char('.'); + print_two(month);print_char('.');print_two(day); + print_char(':');print_two(time/60); + print_two(time%60); + selector=old_setting;dvi_out(cur_length); + for (s=str_start[str_ptr]; s<=pool_ptr-1; s++) dvi_out(so(str_pool[s])); + pool_ptr=str_start[str_ptr]; /*flush the current string*/ + } + +@ When |hlist_out| is called, its duty is to output the box represented +by the |hlist_node| pointed to by |temp_ptr|. The reference point of that +box has coordinates |(cur_h, cur_v)|. + +Similarly, when |vlist_out| is called, its duty is to output the box represented +by the |vlist_node| pointed to by |temp_ptr|. The reference point of that +box has coordinates |(cur_h, cur_v)|. +@^recursion@> + +@p static void vlist_out(void); /*|hlist_out| and |vlist_out| are mutually + recursive*/ + +@ The recursive procedures |hlist_out| and |vlist_out| each have local variables +|save_h| and |save_v| to hold the values of |dvi_h| and |dvi_v| just before +entering a new level of recursion. In effect, the values of |save_h| and +|save_v| on \TeX's run-time stack correspond to the values of |h| and |v| +that a \.{DVI}-reading program will push onto its coordinate stack. + +@p @t\4@>@<Declare procedures needed in |hlist_out|, |vlist_out|@>@t@>@/ +static void hlist_out(void) /*output an |hlist_node| box*/ +{@+ +scaled base_line; /*the baseline coordinate for this box*/ +scaled @!left_edge; /*the left coordinate for this box*/ +scaled @!save_h, @!save_v; /*what |dvi_h| and |dvi_v| should pop to*/ +pointer @!this_box; /*pointer to containing box*/ +glue_ord @!g_order; /*applicable order of infinity for glue*/ +int @!g_sign; /*selects type of glue*/ +pointer @!p; /*current position in the hlist*/ +int @!save_loc; /*\.{DVI} byte location upon entry*/ +pointer @!leader_box; /*the leader box being replicated*/ +scaled @!leader_wd; /*width of leader box being replicated*/ +scaled @!lx; /*extra space between leader boxes*/ +bool @!outer_doing_leaders; /*were we doing leaders?*/ +scaled @!edge; /*left edge of sub-box, or right edge of leader space*/ +double @!glue_temp; /*glue value before rounding*/ +double @!cur_glue; /*glue seen so far*/ +scaled @!cur_g; /*rounded equivalent of |cur_glue| times the glue ratio*/ +cur_g=0;cur_glue=float_constant(0); +this_box=temp_ptr;g_order=glue_order(this_box); +g_sign=glue_sign(this_box);p=list_ptr(this_box); +incr(cur_s); +if (cur_s > 0) dvi_out(push); +if (cur_s > max_push) max_push=cur_s; +save_loc=dvi_offset+dvi_ptr;base_line=cur_v;left_edge=cur_h; +while (p!=null) @<Output node |p| for |hlist_out| and move to the next node, maintaining +the condition |cur_v=base_line|@>; +prune_movements(save_loc); +if (cur_s > 0) dvi_pop(save_loc); +decr(cur_s); +} + +@ We ought to give special care to the efficiency of one part of |hlist_out|, +since it belongs to \TeX's inner loop. When a |char_node| is encountered, +we save a little time by processing several nodes in succession until +reaching a non-|char_node|. The program uses the fact that |set_char_0==0|. +@^inner loop@> + +@<Output node |p| for |hlist_out|...@>= +reswitch: if (is_char_node(p)) + {@+synch_h;synch_v; + @/do@+{f=font(p);c=character(p); + if (f!=dvi_f) @<Change font |dvi_f| to |f|@>; + if (c >= qi(128)) dvi_out(set1); + dvi_out(qo(c));@/ + cur_h=cur_h+char_width(f, char_info(f, c)); + p=link(p); + }@+ while (!(!is_char_node(p))); + dvi_h=cur_h; + } +else@<Output the non-|char_node| |p| for |hlist_out| and move to the next node@>@; + +@ @<Change font |dvi_f| to |f|@>= +{@+if (!font_used[f]) + {@+dvi_font_def(f);font_used[f]=true; + } +if (f <= 64+font_base) dvi_out(f-font_base-1+fnt_num_0)@; +else{@+dvi_out(fnt1);dvi_out(f-font_base-1); + } +dvi_f=f; +} + +@ @<Output the non-|char_node| |p| for |hlist_out|...@>= +{@+switch (type(p)) { +case hlist_node: case vlist_node: @<Output a box in an hlist@>@;@+break; +case rule_node: {@+rule_ht=height(p);rule_dp=depth(p);rule_wd=width(p); + goto fin_rule; + } +case whatsit_node: @<Output the whatsit node |p| in an hlist@>;@+break; +case glue_node: @<Move right or output leaders@>@; +case kern_node: case math_node: cur_h=cur_h+width(p);@+break; +case ligature_node: @<Make node |p| look like a |char_node| and |goto reswitch|@>@; +default:do_nothing; +} @/ +goto next_p; +fin_rule: @<Output a rule in an hlist@>; +move_past: cur_h=cur_h+rule_wd; +next_p: p=link(p); +} + +@ @<Output a box in an hlist@>= +if (list_ptr(p)==null) cur_h=cur_h+width(p); +else{@+save_h=dvi_h;save_v=dvi_v; + cur_v=base_line+shift_amount(p); /*shift the box down*/ + temp_ptr=p;edge=cur_h; + if (type(p)==vlist_node) vlist_out();@+else hlist_out(); + dvi_h=save_h;dvi_v=save_v; + cur_h=edge+width(p);cur_v=base_line; + } + +@ @<Output a rule in an hlist@>= +if (is_running(rule_ht)) rule_ht=height(this_box); +if (is_running(rule_dp)) rule_dp=depth(this_box); +rule_ht=rule_ht+rule_dp; /*this is the rule thickness*/ +if ((rule_ht > 0)&&(rule_wd > 0)) /*we don't output empty rules*/ + {@+synch_h;cur_v=base_line+rule_dp;synch_v; + dvi_out(set_rule);dvi_four(rule_ht);dvi_four(rule_wd); + cur_v=base_line;dvi_h=dvi_h+rule_wd; + } + +@ @d billion float_constant(1000000000) +@d vet_glue(A) glue_temp=A; + if (glue_temp > billion) + glue_temp=billion; + else if (glue_temp < -billion) + glue_temp=-billion + +@<Move right or output leaders@>= +{@+g=glue_ptr(p);rule_wd=width(g)-cur_g; +if (g_sign!=normal) + {@+if (g_sign==stretching) + {@+if (stretch_order(g)==g_order) + {@+cur_glue=cur_glue+stretch(g); + vet_glue(float(glue_set(this_box))*cur_glue); +@^real multiplication@> + cur_g=round(glue_temp); + } + } + else if (shrink_order(g)==g_order) + {@+cur_glue=cur_glue-shrink(g); + vet_glue(float(glue_set(this_box))*cur_glue); + cur_g=round(glue_temp); + } + } +rule_wd=rule_wd+cur_g; +if (subtype(p) >= a_leaders) + @<Output leaders in an hlist, |goto fin_rule| if a rule or to |next_p| if done@>; +goto move_past; +} + +@ @<Output leaders in an hlist...@>= +{@+leader_box=leader_ptr(p); +if (type(leader_box)==rule_node) + {@+rule_ht=height(leader_box);rule_dp=depth(leader_box); + goto fin_rule; + } +leader_wd=width(leader_box); +if ((leader_wd > 0)&&(rule_wd > 0)) + {@+rule_wd=rule_wd+10; /*compensate for floating-point rounding*/ + edge=cur_h+rule_wd;lx=0; + @<Let |cur_h| be the position of the first box, and set |leader_wd+lx| to the spacing +between corresponding parts of boxes@>; + while (cur_h+leader_wd <= edge) + @<Output a leader box at |cur_h|, then advance |cur_h| by |leader_wd+lx|@>; + cur_h=edge-10;goto next_p; + } +} + +@ The calculations related to leaders require a bit of care. First, in the +case of |a_leaders| (aligned leaders), we want to move |cur_h| to +|left_edge| plus the smallest multiple of |leader_wd| for which the result +is not less than the current value of |cur_h|; i.e., |cur_h| should become +$|left_edge|+|leader_wd|\times\lceil +(|cur_h|-|left_edge|)/|leader_wd|\rceil$. The program here should work in +all cases even though some implementations of \PASCAL\ give nonstandard +results for the |/| operation when |cur_h| is less than |left_edge|. + +In the case of |c_leaders| (centered leaders), we want to increase |cur_h| +by half of the excess space not occupied by the leaders; and in the +case of |x_leaders| (expanded leaders) we increase |cur_h| +by $1/(q+1)$ of this excess space, where $q$ is the number of times the +leader box will be replicated. Slight inaccuracies in the division might +accumulate; half of this rounding error is placed at each end of the leaders. + +@<Let |cur_h| be the position of the first box,...@>= +if (subtype(p)==a_leaders) + {@+save_h=cur_h; + cur_h=left_edge+leader_wd*((cur_h-left_edge)/leader_wd); + if (cur_h < save_h) cur_h=cur_h+leader_wd; + } +else{@+lq=rule_wd/leader_wd; /*the number of box copies*/ + lr=rule_wd%leader_wd; /*the remaining space*/ + if (subtype(p)==c_leaders) cur_h=cur_h+(lr/2); + else{@+lx=lr/(lq+1); + cur_h=cur_h+((lr-(lq-1)*lx)/2); + } + } + +@ The `\\{synch}' operations here are intended to decrease the number of +bytes needed to specify horizontal and vertical motion in the \.{DVI} output. + +@<Output a leader box at |cur_h|,...@>= +{@+cur_v=base_line+shift_amount(leader_box);synch_v;save_v=dvi_v;@/ +synch_h;save_h=dvi_h;temp_ptr=leader_box; +outer_doing_leaders=doing_leaders;doing_leaders=true; +if (type(leader_box)==vlist_node) vlist_out();@+else hlist_out(); +doing_leaders=outer_doing_leaders; +dvi_v=save_v;dvi_h=save_h;cur_v=base_line; +cur_h=save_h+leader_wd+lx; +} + +@ The |vlist_out| routine is similar to |hlist_out|, but a bit simpler. + +@p static void vlist_out(void) /*output a |vlist_node| box*/ +{@+ +scaled left_edge; /*the left coordinate for this box*/ +scaled @!top_edge; /*the top coordinate for this box*/ +scaled @!save_h, @!save_v; /*what |dvi_h| and |dvi_v| should pop to*/ +pointer @!this_box; /*pointer to containing box*/ +glue_ord @!g_order; /*applicable order of infinity for glue*/ +int @!g_sign; /*selects type of glue*/ +pointer @!p; /*current position in the vlist*/ +int @!save_loc; /*\.{DVI} byte location upon entry*/ +pointer @!leader_box; /*the leader box being replicated*/ +scaled @!leader_ht; /*height of leader box being replicated*/ +scaled @!lx; /*extra space between leader boxes*/ +bool @!outer_doing_leaders; /*were we doing leaders?*/ +scaled @!edge; /*bottom boundary of leader space*/ +double @!glue_temp; /*glue value before rounding*/ +double @!cur_glue; /*glue seen so far*/ +scaled @!cur_g; /*rounded equivalent of |cur_glue| times the glue ratio*/ +cur_g=0;cur_glue=float_constant(0); +this_box=temp_ptr;g_order=glue_order(this_box); +g_sign=glue_sign(this_box);p=list_ptr(this_box); +incr(cur_s); +if (cur_s > 0) dvi_out(push); +if (cur_s > max_push) max_push=cur_s; +save_loc=dvi_offset+dvi_ptr;left_edge=cur_h;cur_v=cur_v-height(this_box); +top_edge=cur_v; +while (p!=null) @<Output node |p| for |vlist_out| and move to the next node, maintaining +the condition |cur_h=left_edge|@>; +prune_movements(save_loc); +if (cur_s > 0) dvi_pop(save_loc); +decr(cur_s); +} + +@ @<Output node |p| for |vlist_out|...@>= +{@+if (is_char_node(p)) confusion("vlistout"); +@:this can't happen vlistout}{\quad vlistout@> +else@<Output the non-|char_node| |p| for |vlist_out|@>; +next_p: p=link(p); +} + +@ @<Output the non-|char_node| |p| for |vlist_out|@>= +{@+switch (type(p)) { +case hlist_node: case vlist_node: @<Output a box in a vlist@>@;@+break; +case rule_node: {@+rule_ht=height(p);rule_dp=depth(p);rule_wd=width(p); + goto fin_rule; + } +case whatsit_node: @<Output the whatsit node |p| in a vlist@>;@+break; +case glue_node: @<Move down or output leaders@>@; +case kern_node: cur_v=cur_v+width(p);@+break; +default:do_nothing; +} @/ +goto next_p; +fin_rule: @<Output a rule in a vlist, |goto next_p|@>; +move_past: cur_v=cur_v+rule_ht; +} + +@ The |synch_v| here allows the \.{DVI} output to use one-byte commands +for adjusting |v| in most cases, since the baselineskip distance will +usually be constant. + +@<Output a box in a vlist@>= +if (list_ptr(p)==null) cur_v=cur_v+height(p)+depth(p); +else{@+cur_v=cur_v+height(p);synch_v; + save_h=dvi_h;save_v=dvi_v; + cur_h=left_edge+shift_amount(p); /*shift the box right*/ + temp_ptr=p; + if (type(p)==vlist_node) vlist_out();@+else hlist_out(); + dvi_h=save_h;dvi_v=save_v; + cur_v=save_v+depth(p);cur_h=left_edge; + } + +@ @<Output a rule in a vlist...@>= +if (is_running(rule_wd)) rule_wd=width(this_box); +rule_ht=rule_ht+rule_dp; /*this is the rule thickness*/ +cur_v=cur_v+rule_ht; +if ((rule_ht > 0)&&(rule_wd > 0)) /*we don't output empty rules*/ + {@+synch_h;synch_v; + dvi_out(put_rule);dvi_four(rule_ht);dvi_four(rule_wd); + } +goto next_p + +@ @<Move down or output leaders@>= +{@+g=glue_ptr(p);rule_ht=width(g)-cur_g; +if (g_sign!=normal) + {@+if (g_sign==stretching) + {@+if (stretch_order(g)==g_order) + {@+cur_glue=cur_glue+stretch(g); + vet_glue(float(glue_set(this_box))*cur_glue); +@^real multiplication@> + cur_g=round(glue_temp); + } + } + else if (shrink_order(g)==g_order) + {@+cur_glue=cur_glue-shrink(g); + vet_glue(float(glue_set(this_box))*cur_glue); + cur_g=round(glue_temp); + } + } +rule_ht=rule_ht+cur_g; +if (subtype(p) >= a_leaders) + @<Output leaders in a vlist, |goto fin_rule| if a rule or to |next_p| if done@>; +goto move_past; +} + +@ @<Output leaders in a vlist...@>= +{@+leader_box=leader_ptr(p); +if (type(leader_box)==rule_node) + {@+rule_wd=width(leader_box);rule_dp=0; + goto fin_rule; + } +leader_ht=height(leader_box)+depth(leader_box); +if ((leader_ht > 0)&&(rule_ht > 0)) + {@+rule_ht=rule_ht+10; /*compensate for floating-point rounding*/ + edge=cur_v+rule_ht;lx=0; + @<Let |cur_v| be the position of the first box, and set |leader_ht+lx| to the spacing +between corresponding parts of boxes@>; + while (cur_v+leader_ht <= edge) + @<Output a leader box at |cur_v|, then advance |cur_v| by |leader_ht+lx|@>; + cur_v=edge-10;goto next_p; + } +} + +@ @<Let |cur_v| be the position of the first box,...@>= +if (subtype(p)==a_leaders) + {@+save_v=cur_v; + cur_v=top_edge+leader_ht*((cur_v-top_edge)/leader_ht); + if (cur_v < save_v) cur_v=cur_v+leader_ht; + } +else{@+lq=rule_ht/leader_ht; /*the number of box copies*/ + lr=rule_ht%leader_ht; /*the remaining space*/ + if (subtype(p)==c_leaders) cur_v=cur_v+(lr/2); + else{@+lx=lr/(lq+1); + cur_v=cur_v+((lr-(lq-1)*lx)/2); + } + } + +@ When we reach this part of the program, |cur_v| indicates the top of a +leader box, not its baseline. + +@<Output a leader box at |cur_v|,...@>= +{@+cur_h=left_edge+shift_amount(leader_box);synch_h;save_h=dvi_h;@/ +cur_v=cur_v+height(leader_box);synch_v;save_v=dvi_v; +temp_ptr=leader_box; +outer_doing_leaders=doing_leaders;doing_leaders=true; +if (type(leader_box)==vlist_node) vlist_out();@+else hlist_out(); +doing_leaders=outer_doing_leaders; +dvi_v=save_v;dvi_h=save_h;cur_h=left_edge; +cur_v=save_v-height(leader_box)+leader_ht+lx; +} + +@ The |hlist_out| and |vlist_out| procedures are now complete, so we are +ready for the |ship_out| routine that gets them started in the first place. + +@p static void ship_out(pointer @!p) /*output the box |p|*/ +{@+ +execute_output(p); +flush_node_list(p); +} + +@ @<Flush the box from memory, showing statistics if requested@>= +#ifdef @!STAT +if (tracing_stats > 1) + {@+print_nl("Memory usage before: "); +@.Memory usage...@> + print_int(var_used);print_char('&'); + print_int(dyn_used);print_char(';'); + } +#endif +flush_node_list(p); +#ifdef @!STAT +if (tracing_stats > 1) + {@+print(" after: "); + print_int(var_used);print_char('&'); + print_int(dyn_used);print("; still untouched: "); + print_int(hi_mem_min-lo_mem_max-1);print_ln(); + } +#endif + +@ @<Ship box |p| out@>= +@<Update the values of |max_h| and |max_v|; but if the page is too large, |goto done|@>; +@<Initialize variables as |ship_out| begins@>; +page_loc=dvi_offset+dvi_ptr; +dvi_out(bop); +for (k=0; k<=9; k++) dvi_four(count(k)); +dvi_four(last_bop);last_bop=page_loc; +cur_v=height(p)+v_offset;temp_ptr=p; +if (type(p)==vlist_node) vlist_out();@+else hlist_out(); +dvi_out(eop);incr(total_pages);cur_s=-1; +done: + +@ Sometimes the user will generate a huge page because other error messages +are being ignored. Such pages are not output to the \.{dvi} file, since they +may confuse the printing software. + +@<Update the values of |max_h| and |max_v|; but if the page is too large...@>= +if ((height(p) > max_dimen)||@|(depth(p) > max_dimen)||@| + (height(p)+depth(p)+v_offset > max_dimen)||@| + (width(p)+h_offset > max_dimen)) + {@+print_err("Huge page cannot be shipped out"); +@.Huge page...@> + help2("The page just created is more than 18 feet tall or",@/ + "more than 18 feet wide, so I suspect something went wrong."); + error(); + if (tracing_output <= 0) + {@+begin_diagnostic(); + print_nl("The following box has been deleted:"); +@.The following...deleted@> + show_box(p); + end_diagnostic(true); + } + goto done; + } +if (height(p)+depth(p)+v_offset > max_v) max_v=height(p)+depth(p)+v_offset; +if (width(p)+h_offset > max_h) max_h=width(p)+h_offset + +@ At the end of the program, we must finish things off by writing the +post\-amble. If |total_pages==0|, the \.{DVI} file was never opened. +If |total_pages >= 65536|, the \.{DVI} file will lie. And if +|max_push >= 65536|, the user deserves whatever chaos might ensue. + +An integer variable |k| will be declared for use by this routine. + +@<Finish the \.{DVI} file@>= +while (cur_s > -1) + {@+if (cur_s > 0) dvi_out(pop)@; + else{@+dvi_out(eop);incr(total_pages); + } + decr(cur_s); + } +if (total_pages==0) print_nl("No pages of output."); +@.No pages of output@> +else{@+dvi_out(post); /*beginning of the postamble*/ + dvi_four(last_bop);last_bop=dvi_offset+dvi_ptr-5; /*|post| location*/ + dvi_four(25400000);dvi_four(473628672); /*conversion ratio for sp*/ + prepare_mag();dvi_four(mag); /*magnification factor*/ + dvi_four(max_v);dvi_four(max_h);@/ + dvi_out(max_push/256);dvi_out(max_push%256);@/ + dvi_out((total_pages/256)%256);dvi_out(total_pages%256);@/ + @<Output the font definitions for all fonts that were used@>; + dvi_out(post_post);dvi_four(last_bop);dvi_out(id_byte);@/ + k=4+((dvi_buf_size-dvi_ptr)%4); /*the number of 223's*/ + while (k > 0) + {@+dvi_out(223);decr(k); + } + @<Empty the last bytes out of |dvi_buf|@>; + print_nl("Output written on ");slow_print(output_file_name); +@.Output written on x@> + print(" (");print_int(total_pages);print(" page"); + if (total_pages!=1) print_char('s'); + print(", ");print_int(dvi_offset+dvi_ptr);print(" bytes)."); + b_close(&dvi_file); + } + +@ @<Output the font definitions...@>= +while (font_ptr > font_base) + {@+if (font_used[font_ptr]) dvi_font_def(font_ptr); + decr(font_ptr); + } + +@* Packaging. +We're essentially done with the parts of \TeX\ that are concerned with +the input (|get_next|) and the output (|ship_out|). So it's time to +get heavily into the remaining part, which does the real work of typesetting. + +After lists are constructed, \TeX\ wraps them up and puts them into boxes. +Two major subroutines are given the responsibility for this task: |hpack| +applies to horizontal lists (hlists) and |vpack| applies to vertical lists +(vlists). The main duty of |hpack| and |vpack| is to compute the dimensions +of the resulting boxes, and to adjust the glue if one of those dimensions +is pre-specified. The computed sizes normally enclose all of the material +inside the new box; but some items may stick out if negative glue is used, +if the box is overfull, or if a \.{\\vbox} includes other boxes that have +been shifted left. + +The subroutine call |hpack(p, w, m)| returns a pointer to an |hlist_node| +for a box containing the hlist that starts at |p|. Parameter |w| specifies +a width; and parameter |m| is either `|exactly|' or `|additional|'. Thus, +|hpack(p, w, exactly)| produces a box whose width is exactly |w|, while +|hpack(p, w, additional)| yields a box whose width is the natural width plus +|w|. It is convenient to define a macro called `|natural|' to cover the +most common case, so that we can say |hpack(p, natural)| to get a box that +has the natural width of list |p|. + +Similarly, |vpack(p, w, m)| returns a pointer to a |vlist_node| for a +box containing the vlist that starts at |p|. In this case |w| represents +a height instead of a width; the parameter |m| is interpreted as in |hpack|. + +@d exactly 0 /*a box dimension is pre-specified*/ +@d additional 1 /*a box dimension is increased from the natural one*/ +@d natural 0, 0, 0, additional /*shorthand for parameters to |hpack| and |vpack|*/ + +@ The parameters to |hpack| and |vpack| correspond to \TeX's primitives +like `\.{\\hbox} \.{to} \.{300pt}', `\.{\\hbox} \.{spread} \.{10pt}'; note +that `\.{\\hbox}' with no dimension following it is equivalent to +`\.{\\hbox} \.{spread} \.{0pt}'. The |scan_spec| subroutine scans such +constructions in the user's input, including the mandatory left brace that +follows them, and it puts the specification onto |save_stack| so that the +desired box can later be obtained by executing the following code: +$$\vbox{\halign{#\hfil\cr +|save_ptr=save_ptr-2;|\cr +|hpack(p, saved(1), saved(0)).|\cr}}$$ +Special care is necessary to ensure that the special |save_stack| codes +are placed just below the new group code, because scanning can change +|save_stack| when \.{\\csname} appears. + +@p static void scan_spec(group_code @!c, bool @!three_codes) + /*scans a box specification and left brace*/ +{@+ +int @!s; /*temporarily saved value*/ +int @!spec_code; +if (three_codes) s=saved(0); +if (scan_keyword("to")) spec_code=exactly; +@.to@> +else if (scan_keyword("spread")) spec_code=additional; +@.spread@> +else{@+spec_code=additional;cur_val=cur_hfactor=cur_vfactor=0; + goto found; + } +scan_normal_dimen; +found: if (three_codes) + {@+saved(0)=s;incr(save_ptr); + } +saved(0)=spec_code;saved(1)=cur_val; +saved_hfactor(1)=cur_hfactor; +saved_vfactor(1)=cur_vfactor; +save_ptr=save_ptr+2; +new_save_level(c);scan_left_brace(); +} + +@ To figure out the glue setting, |hpack| and |vpack| determine how much +stretchability and shrinkability are present, considering all four orders +of infinity. The highest order of infinity that has a nonzero coefficient +is then used as if no other orders were present. + +For example, suppose that the given list contains six glue nodes with +the respective stretchabilities 3pt, 8fill, 5fil, 6pt, $-3$fil, $-8$fill. +Then the total is essentially 2fil; and if a total additional space of 6pt +is to be achieved by stretching, the actual amounts of stretch will be +0pt, 0pt, 15pt, 0pt, $-9$pt, and 0pt, since only `fil' glue will be +considered. (The `fill' glue is therefore not really stretching infinitely +with respect to `fil'; nobody would actually want that to happen.) + +The arrays |total_stretch| and |total_shrink| are used to determine how much +glue of each kind is present. A global variable |last_badness| is used +to implement \.{\\badness}. + +@<Glob...@>= +static scaled @!total_stretch0[filll-normal+1], *const @!total_stretch = @!total_stretch0-normal, @!total_shrink0[filll-normal+1], *const @!total_shrink = @!total_shrink0-normal; + /*glue found by |hpack| or |vpack|*/ +static int @!last_badness; /*badness of the most recently packaged box*/ + +@ If the global variable |adjust_tail| is non-null, the |hpack| routine +also removes all occurrences of |ins_node|, |mark_node|, and |adjust_node| +items and appends the resulting material onto the list that ends at +location |adjust_tail|. + +@<Glob...@>= +static pointer @!adjust_tail; /*tail of adjustment list*/ + +@ @<Set init...@>=adjust_tail=null;last_badness=0; + +@ Here now is |hpack|, which contains few if any surprises. + +@p static pointer hpack(pointer p, scaled w, scaled hf, scaled vf, small_number m); + +@ @<Clear dimensions to zero@>= +d=0;x=0; +total_stretch[normal]=0;total_shrink[normal]=0; +total_stretch[fil]=0;total_shrink[fil]=0; +total_stretch[fill]=0;total_shrink[fill]=0; +total_stretch[filll]=0;total_shrink[filll]=0 + +@ @<Examine node |p| in the hlist, taking account of its effect...@>= +@^inner loop@> +{@+reswitch: while (is_char_node(p)) + @<Incorporate character dimensions into the dimensions of the hbox that will contain~it, +then move to the next node@>; +if (p!=null) + {@+switch (type(p)) { + case hlist_node: case vlist_node: case rule_node: case unset_node: case unset_set_node: case unset_pack_node: + @<Incorporate box dimensions into the dimensions of the hbox that will contain~it@>@;@+break; + case ins_node: case mark_node: case adjust_node: if (adjust_tail!=null) + @<Transfer node |p| to the adjustment list@>@;@+break; + case whatsit_node: @<Incorporate a whatsit node into an hbox@>;@+break; + case glue_node: @<Incorporate glue into the horizontal totals@>@;@+break; + case kern_node: case math_node: x=x+width(p);@+break; + case ligature_node: @<Make node |p| look like a |char_node| and |goto reswitch|@>@; + default:do_nothing; + } @/ + p=link(p); + } +} + + +@ @<Make node |p| look like a |char_node| and |goto reswitch|@>= +{@+mem[lig_trick]=mem[lig_char(p)];link(lig_trick)=link(p); +p=lig_trick;goto reswitch; +} + +@ The code here implicitly uses the fact that running dimensions are +indicated by |null_flag|, which will be ignored in the calculations +because it is a highly negative number. + +@<Incorporate box dimensions into the dimensions of the hbox...@>= +{@+x=x+width(p); +if (type(p) >= rule_node) s=0;@+else s=shift_amount(p); +if (height(p)-s > h) h=height(p)-s; +if (depth(p)+s > d) d=depth(p)+s; +} + +@ The following code is part of \TeX's inner loop; i.e., adding another +character of text to the user's input will cause each of these instructions +to be exercised one more time. +@^inner loop@> + +@<Incorporate character dimensions into the dimensions of the hbox...@>= +{@+f=font(p);i=char_info(f, character(p));hd=height_depth(i); +x=x+char_width(f, i);@/ +s=char_height(f, hd);@+if (s > h) h=s; +s=char_depth(f, hd);@+if (s > d) d=s; +p=link(p); +} + +@ Although node |q| is not necessarily the immediate predecessor of node |p|, +it always points to some node in the list preceding |p|. Thus, we can delete +nodes by moving |q| when necessary. The algorithm takes linear time, and the +extra computation does not intrude on the inner loop unless it is necessary +to make a deletion. +@^inner loop@> + +@<Transfer node |p| to the adjustment list@>= +{@+while (link(q)!=p) q=link(q); +if (type(p)==adjust_node) + {@+link(adjust_tail)=adjust_ptr(p); + while (link(adjust_tail)!=null) adjust_tail=link(adjust_tail); + p=link(p);free_node(link(q), small_node_size); + } +else{@+link(adjust_tail)=p;adjust_tail=p;p=link(p); + } +link(q)=p;p=q; +} + +@ @<Incorporate glue into the horizontal totals@>= +{@+g=glue_ptr(p);x=x+width(g);@/ +o=stretch_order(g);total_stretch[o]=total_stretch[o]+stretch(g); +o=shrink_order(g);total_shrink[o]=total_shrink[o]+shrink(g); +if (subtype(p) >= a_leaders) + {@+g=leader_ptr(p); + if (height(g) > h) h=height(g); + if (depth(g) > d) d=depth(g); + } +} + +@ When we get to the present part of the program, |x| is the natural width +of the box being packaged. + +@<Determine the value of |width(r)| and the appropriate glue setting...@>= +if (m==additional) w=x+w; +width(r)=w;x=w-x; /*now |x| is the excess to be made up*/ +if (x==0) + {@+glue_sign(r)=normal;glue_order(r)=normal; + set_glue_ratio_zero(glue_set(r)); + goto end; + } +else if (x > 0) @<Determine horizontal glue stretch setting, then |return| or \hbox{|goto +common_ending|}@>@; +else@<Determine horizontal glue shrink setting, then |return| or \hbox{|goto common_ending|}@>@; + +@ @<Determine horizontal glue stretch setting...@>= +{@+@<Determine the stretch order@>; +glue_order(r)=o;glue_sign(r)=stretching; +if (total_stretch[o]!=0) glue_set(r)=unfloat(x/(double)total_stretch[o]); +@^real division@> +else{@+glue_sign(r)=normal; + set_glue_ratio_zero(glue_set(r)); /*there's nothing to stretch*/ + } +if (o==normal) if (list_ptr(r)!=null) + @<Report an underfull hbox and |goto common_ending|, if this box is sufficiently +bad@>; +goto end; +} + +@ @<Determine the stretch order@>= +if (total_stretch[filll]!=0) o=filll; +else if (total_stretch[fill]!=0) o=fill; +else if (total_stretch[fil]!=0) o=fil; +else o=normal + +@ @<Report an underfull hbox and |goto common_ending|, if...@>= +{@+last_badness=badness(x, total_stretch[normal]); +if (last_badness > hbadness) + {@+print_ln(); + if (last_badness > 100) print_nl("Underfull");@+else print_nl("Loose"); + print(" \\hbox (badness ");print_int(last_badness); +@.Underfull \\hbox...@> +@.Loose \\hbox...@> + goto common_ending; + } +} + +@ In order to provide a decent indication of where an overfull or underfull +box originated, we use a global variable |pack_begin_line| that is +set nonzero only when |hpack| is being called by the paragraph builder +or the alignment finishing routine. + +@<Glob...@>= +static int @!pack_begin_line; /*source file line where the current paragraph + or alignment began; a negative value denotes alignment*/ + +@ @<Set init...@>= +pack_begin_line=0; + +@ @<Finish issuing a diagnostic message for an overfull or underfull hbox@>= +if (output_active) print(") has occurred while \\output is active"); +else{@+if (pack_begin_line!=0) + {@+if (pack_begin_line > 0) print(") in paragraph at lines "); + else print(") in alignment at lines "); + print_int(abs(pack_begin_line)); + print("--"); + } + else print(") detected at line "); + print_int(line); + } +print_ln();@/ +font_in_short_display=null_font;short_display(list_ptr(r));print_ln();@/ +begin_diagnostic();show_box(r);end_diagnostic(true) + +@ @<Determine horizontal glue shrink setting...@>= +{@+@<Determine the shrink order@>; +glue_order(r)=o;glue_sign(r)=shrinking; +if (total_shrink[o]!=0) glue_set(r)=unfloat((-x)/(double)total_shrink[o]); +@^real division@> +else{@+glue_sign(r)=normal; + set_glue_ratio_zero(glue_set(r)); /*there's nothing to shrink*/ + } +if ((total_shrink[o] < -x)&&(o==normal)&&(list_ptr(r)!=null)) + {@+last_badness=1000000; + set_glue_ratio_one(glue_set(r)); /*use the maximum shrinkage*/ + @<Report an overfull hbox and |goto common_ending|, if this box is sufficiently +bad@>; + } +else if (o==normal) if (list_ptr(r)!=null) + @<Report a tight hbox and |goto common_ending|, if this box is sufficiently bad@>; +goto end; +} + +@ @<Determine the shrink order@>= +if (total_shrink[filll]!=0) o=filll; +else if (total_shrink[fill]!=0) o=fill; +else if (total_shrink[fil]!=0) o=fil; +else o=normal + +@ @<Report an overfull hbox and |goto common_ending|, if...@>= +if ((-x-total_shrink[normal] > hfuzz)||(hbadness < 100)) + {@+if ((overfull_rule > 0)&&(-x-total_shrink[normal] > hfuzz)) + {@+while (link(q)!=null) q=link(q); + link(q)=new_rule(); + width(link(q))=overfull_rule; + } + print_ln();print_nl("Overfull \\hbox ("); +@.Overfull \\hbox...@> + print_scaled(-x-total_shrink[normal]);print("pt too wide"); + goto common_ending; + } + +@ @<Report a tight hbox and |goto common_ending|, if...@>= +{@+last_badness=badness(-x, total_shrink[normal]); +if (last_badness > hbadness) + {@+print_ln();print_nl("Tight \\hbox (badness ");print_int(last_badness); +@.Tight \\hbox...@> + goto common_ending; + } +} + +@ The |vpack| subroutine is actually a special case of a slightly more +general routine called |vpackage|, which has four parameters. The fourth +parameter, which is |max_dimen| in the case of |vpack|, specifies the +maximum depth of the page box that is constructed. The depth is first +computed by the normal rules; if it exceeds this limit, the reference +point is simply moved down until the limiting depth is attained. + + +@p +#define vpack(...) @[vpackage(__VA_ARGS__, max_dimen)@] /*special case of unconstrained depth*/ +static pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scaled l); + +@ @<Examine node |p| in the vlist, taking account of its effect...@>= +{@+if (is_char_node(p)) confusion("vpack"); +@:this can't happen vpack}{\quad vpack@> +else switch (type(p)) { + case hlist_node: case vlist_node: case rule_node: case unset_node: case unset_set_node: case unset_pack_node: + @<Incorporate box dimensions into the dimensions of the vbox that will contain~it@>@;@+break; + case whatsit_node: @<Incorporate a whatsit node into a vbox@>;@+break; + case glue_node: @<Incorporate glue into the vertical totals@>@;@+break; + case kern_node: {@+x=x+d+width(p);d=0; + } @+break; + default:do_nothing; + } +p=link(p); +} + +@ @<Incorporate box dimensions into the dimensions of the vbox...@>= +{@+x=x+d+height(p);d=depth(p); +if (type(p) >= rule_node) s=0;@+else s=shift_amount(p); +if (width(p)+s > w) w=width(p)+s; +} + +@ @<Incorporate glue into the vertical totals@>= +{@+x=x+d;d=0;@/ +g=glue_ptr(p);x=x+width(g);@/ +o=stretch_order(g);total_stretch[o]=total_stretch[o]+stretch(g); +o=shrink_order(g);total_shrink[o]=total_shrink[o]+shrink(g); +if (subtype(p) >= a_leaders) + {@+g=leader_ptr(p); + if (width(g) > w) w=width(g); + } +} + +@ When we get to the present part of the program, |x| is the natural height +of the box being packaged. + +@<Determine the value of |height(r)| and the appropriate glue setting...@>= +if (m==additional) h=x+h; +height(r)=h;x=h-x; /*now |x| is the excess to be made up*/ +if (x==0) + {@+glue_sign(r)=normal;glue_order(r)=normal; + set_glue_ratio_zero(glue_set(r)); + goto end; + } +else if (x > 0) @<Determine vertical glue stretch setting, then |return| or \hbox{|goto +common_ending|}@>@; +else@<Determine vertical glue shrink setting, then |return| or \hbox{|goto common_ending|}@>@; + +@ @<Determine vertical glue stretch setting...@>= +{@+@<Determine the stretch order@>; +glue_order(r)=o;glue_sign(r)=stretching; +if (total_stretch[o]!=0) glue_set(r)=unfloat(x/(double)total_stretch[o]); +@^real division@> +else{@+glue_sign(r)=normal; + set_glue_ratio_zero(glue_set(r)); /*there's nothing to stretch*/ + } +if (o==normal) if (list_ptr(r)!=null) + @<Report an underfull vbox and |goto common_ending|, if this box is sufficiently +bad@>; +goto end; +} + +@ @<Report an underfull vbox and |goto common_ending|, if...@>= +{@+last_badness=badness(x, total_stretch[normal]); +if (last_badness > vbadness) + {@+print_ln(); + if (last_badness > 100) print_nl("Underfull");@+else print_nl("Loose"); + print(" \\vbox (badness ");print_int(last_badness); +@.Underfull \\vbox...@> +@.Loose \\vbox...@> + goto common_ending; + } +} + +@ @<Finish issuing a diagnostic message for an overfull or underfull vbox@>= +if (output_active) print(") has occurred while \\output is active"); +else{@+if (pack_begin_line!=0) /*it's actually negative*/ + {@+print(") in alignment at lines "); + print_int(abs(pack_begin_line)); + print("--"); + } + else print(") detected at line "); + print_int(line); + print_ln();@/ + } +begin_diagnostic();show_box(r);end_diagnostic(true) + +@ @<Determine vertical glue shrink setting...@>= +{@+@<Determine the shrink order@>; +glue_order(r)=o;glue_sign(r)=shrinking; +if (total_shrink[o]!=0) glue_set(r)=unfloat((-x)/(double)total_shrink[o]); +@^real division@> +else{@+glue_sign(r)=normal; + set_glue_ratio_zero(glue_set(r)); /*there's nothing to shrink*/ + } +if ((total_shrink[o] < -x)&&(o==normal)&&(list_ptr(r)!=null)) + {@+last_badness=1000000; + set_glue_ratio_one(glue_set(r)); /*use the maximum shrinkage*/ + @<Report an overfull vbox and |goto common_ending|, if this box is sufficiently +bad@>; + } +else if (o==normal) if (list_ptr(r)!=null) + @<Report a tight vbox and |goto common_ending|, if this box is sufficiently bad@>; +goto end; +} + +@ @<Report an overfull vbox and |goto common_ending|, if...@>= +if ((-x-total_shrink[normal] > vfuzz)||(vbadness < 100)) + {@+print_ln();print_nl("Overfull \\vbox ("); +@.Overfull \\vbox...@> + print_scaled(-x-total_shrink[normal]);print("pt too high"); + goto common_ending; + } + +@ @<Report a tight vbox and |goto common_ending|, if...@>= +{@+last_badness=badness(-x, total_shrink[normal]); +if (last_badness > vbadness) + {@+print_ln();print_nl("Tight \\vbox (badness ");print_int(last_badness); +@.Tight \\vbox...@> + goto common_ending; + } +} + +@ When a box is being appended to the current vertical list, the +baselineskip calculation is handled by the |append_to_vlist| routine. + +@p static void append_to_vlist(pointer @!b)@t\2\2@>@/ +{ bool height_known;@t\1@>@/ + height_known=(type(b)==hlist_node || type(b)==vlist_node ||@| + (type(b)==whatsit_node && subtype(b)==hset_node) ||@| + (type(b)==whatsit_node && subtype(b)==image_node));@/ + if (prev_depth > ignore_depth && height_known)@/ + {@+scaled d;@t\1@> /*deficiency of space between baselines*/ + pointer @!p; /*a new glue node*/ + {@+d=width(baseline_skip)-prev_depth-height(b); + if (d < line_skip_limit) p=new_param_glue(line_skip_code); + else{@+p=new_skip_param(baseline_skip_code); + width(temp_ptr)=d; /*|temp_ptr==glue_ptr(p)|*/ + } + link(tail)=p;tail=p; + }@+ +} @+ else @+if (prev_depth<=unknown_depth || prev_depth>ignore_depth )@t\2@>@/ + {@+pointer p; + p=new_baseline_node(baseline_skip, line_skip, line_skip_limit); + link(tail)= p;tail= p; + } + link(tail)=b;tail=b; + if (height_known) + prev_depth=depth(b); /* then also depth is known */ + else + prev_depth=unknown_depth; +} + +@* Data structures for math mode. +When \TeX\ reads a formula that is enclosed between \.\$'s, it constructs an +{\sl mlist}, which is essentially a tree structure representing that +formula. An mlist is a linear sequence of items, but we can regard it as +a tree structure because mlists can appear within mlists. For example, many +of the entries can be subscripted or superscripted, and such ``scripts'' +are mlists in their own right. + +An entire formula is parsed into such a tree before any of the actual +typesetting is done, because the current style of type is usually not +known until the formula has been fully scanned. For example, when the +formula `\.{\$a+b \\over c+d\$}' is being read, there is no way to tell +that `\.{a+b}' will be in script size until `\.{\\over}' has appeared. + +During the scanning process, each element of the mlist being built is +classified as a relation, a binary operator, an open parenthesis, etc., +or as a construct like `\.{\\sqrt}' that must be built up. This classification +appears in the mlist data structure. + +After a formula has been fully scanned, the mlist is converted to an hlist +so that it can be incorporated into the surrounding text. This conversion is +controlled by a recursive procedure that decides all of the appropriate +styles by a ``top-down'' process starting at the outermost level and working +in towards the subformulas. The formula is ultimately pasted together using +combinations of horizontal and vertical boxes, with glue and penalty nodes +inserted as necessary. + +An mlist is represented internally as a linked list consisting chiefly +of ``noads'' (pronounced ``no-adds''), to distinguish them from the somewhat +similar ``nodes'' in hlists and vlists. Certain kinds of ordinary nodes are +allowed to appear in mlists together with the noads; \TeX\ tells the difference +by means of the |type| field, since a noad's |type| is always greater than +that of a node. An mlist does not contain character nodes, hlist nodes, vlist +nodes, math nodes, ligature nodes, +or unset nodes; in particular, each mlist item appears in the +variable-size part of |mem|, so the |type| field is always present. + +@ Each noad is four or more words long. The first word contains the |type| +and |subtype| and |link| fields that are already so familiar to us; the +second, third, and fourth words are called the noad's |nucleus|, |subscr|, +and |supscr| fields. + +Consider, for example, the simple formula `\.{\$x\^2\$}', which would be +parsed into an mlist containing a single element called an |ord_noad|. +The |nucleus| of this noad is a representation of `\.x', the |subscr| is +empty, and the |supscr| is a representation of `\.2'. + +The |nucleus|, |subscr|, and |supscr| fields are further broken into +subfields. If |p| points to a noad, and if |q| is one of its principal +fields (e.g., |q==subscr(p)|), there are several possibilities for the +subfields, depending on the |math_type| of |q|. + +\yskip\hang|math_type(q)==math_char| means that |fam(q)| refers to one of +the sixteen font families, and |character(q)| is the number of a character +within a font of that family, as in a character node. + +\yskip\hang|math_type(q)==math_text_char| is similar, but the character is +unsubscripted and unsuperscripted and it is followed immediately by another +character from the same font. (This |math_type| setting appears only +briefly during the processing; it is used to suppress unwanted italic +corrections.) + +\yskip\hang|math_type(q)==empty| indicates a field with no value (the +corresponding attribute of noad |p| is not present). + +\yskip\hang|math_type(q)==sub_box| means that |info(q)| points to a box +node (either an |hlist_node| or a |vlist_node|) that should be used as the +value of the field. The |shift_amount| in the subsidiary box node is the +amount by which that box will be shifted downward. + +\yskip\hang|math_type(q)==sub_mlist| means that |info(q)| points to +an mlist; the mlist must be converted to an hlist in order to obtain +the value of this field. + +\yskip\noindent In the latter case, we might have |info(q)==null|. This +is not the same as |math_type(q)==empty|; for example, `\.{\$P\_\{\}\$}' +and `\.{\$P\$}' produce different results (the former will not have the +``italic correction'' added to the width of |P|, but the ``script skip'' +will be added). + +The definitions of subfields given here are evidently wasteful of space, +since a halfword is being used for the |math_type| although only three +bits would be needed. However, there are hardly ever many noads present at +once, since they are soon converted to nodes that take up even more space, +so we can afford to represent them in whatever way simplifies the +programming. + +@d noad_size 4 /*number of words in a normal noad*/ +@d nucleus(A) A+1 /*the |nucleus| field of a noad*/ +@d supscr(A) A+2 /*the |supscr| field of a noad*/ +@d subscr(A) A+3 /*the |subscr| field of a noad*/ +@d math_type(A) link(A) /*a |halfword| in |mem|*/ +@d fam font /*a |quarterword| in |mem|*/ +@d math_char 1 /*|math_type| when the attribute is simple*/ +@d sub_box 2 /*|math_type| when the attribute is a box*/ +@d sub_mlist 3 /*|math_type| when the attribute is a formula*/ +@d math_text_char 4 /*|math_type| when italic correction is dubious*/ + +@ Each portion of a formula is classified as Ord, Op, Bin, Rel, Open, +Close, Punct, or Inner, for purposes of spacing and line breaking. An +|ord_noad|, |op_noad|, |bin_noad|, |rel_noad|, |open_noad|, |close_noad|, +|punct_noad|, or |inner_noad| is used to represent portions of the various +types. For example, an `\.=' sign in a formula leads to the creation of a +|rel_noad| whose |nucleus| field is a representation of an equals sign +(usually |fam==0|, |character==075|). A formula preceded by \.{\\mathrel} +also results in a |rel_noad|. When a |rel_noad| is followed by an +|op_noad|, say, and possibly separated by one or more ordinary nodes (not +noads), \TeX\ will insert a penalty node (with the current |rel_penalty|) +just after the formula that corresponds to the |rel_noad|, unless there +already was a penalty immediately following; and a ``thick space'' will be +inserted just before the formula that corresponds to the |op_noad|. + +A noad of type |ord_noad|, |op_noad|, \dots, |inner_noad| usually +has a |subtype==normal|. The only exception is that an |op_noad| might +have |subtype==limits| or |no_limits|, if the normal positioning of +limits has been overridden for this operator. + +@d ord_noad (unset_node+3) /*|type| of a noad classified Ord*/ +@d op_noad (ord_noad+1) /*|type| of a noad classified Op*/ +@d bin_noad (ord_noad+2) /*|type| of a noad classified Bin*/ +@d rel_noad (ord_noad+3) /*|type| of a noad classified Rel*/ +@d open_noad (ord_noad+4) /*|type| of a noad classified Open*/ +@d close_noad (ord_noad+5) /*|type| of a noad classified Close*/ +@d punct_noad (ord_noad+6) /*|type| of a noad classified Punct*/ +@d inner_noad (ord_noad+7) /*|type| of a noad classified Inner*/ +@d limits 1 /*|subtype| of |op_noad| whose scripts are to be above, below*/ +@d no_limits 2 /*|subtype| of |op_noad| whose scripts are to be normal*/ + +@ A |radical_noad| is five words long; the fifth word is the |left_delimiter| +field, which usually represents a square root sign. + +A |fraction_noad| is six words long; it has a |right_delimiter| field +as well as a |left_delimiter|. + +Delimiter fields are of type |four_quarters|, and they have four subfields +called |small_fam|, |small_char|, |large_fam|, |large_char|. These subfields +represent variable-size delimiters by giving the ``small'' and ``large'' +starting characters, as explained in Chapter~17 of {\sl The \TeX book}. +@:TeXbook}{\sl The \TeX book@> + +A |fraction_noad| is actually quite different from all other noads. Not +only does it have six words, it has |thickness|, |denominator|, and +|numerator| fields instead of |nucleus|, |subscr|, and |supscr|. The +|thickness| is a scaled value that tells how thick to make a fraction +rule; however, the special value |default_code| is used to stand for the +|default_rule_thickness| of the current size. The |numerator| and +|denominator| point to mlists that define a fraction; we always have +$$\hbox{|math_type(numerator)==math_type(denominator)==sub_mlist|}.$$ The +|left_delimiter| and |right_delimiter| fields specify delimiters that will +be placed at the left and right of the fraction. In this way, a +|fraction_noad| is able to represent all of \TeX's operators \.{\\over}, +\.{\\atop}, \.{\\above}, \.{\\overwithdelims}, \.{\\atopwithdelims}, and + \.{\\abovewithdelims}. + +@d left_delimiter(A) A+4 /*first delimiter field of a noad*/ +@d right_delimiter(A) A+5 /*second delimiter field of a fraction noad*/ +@d radical_noad (inner_noad+1) /*|type| of a noad for square roots*/ +@d radical_noad_size 5 /*number of |mem| words in a radical noad*/ +@d fraction_noad (radical_noad+1) /*|type| of a noad for generalized fractions*/ +@d fraction_noad_size 6 /*number of |mem| words in a fraction noad*/ +@d small_fam(A) mem[A].qqqq.b0 /*|fam| for ``small'' delimiter*/ +@d small_char(A) mem[A].qqqq.b1 /*|character| for ``small'' delimiter*/ +@d large_fam(A) mem[A].qqqq.b2 /*|fam| for ``large'' delimiter*/ +@d large_char(A) mem[A].qqqq.b3 /*|character| for ``large'' delimiter*/ +@d thickness(A) width(A) /*|thickness| field in a fraction noad*/ +@d default_code 010000000000 /*denotes |default_rule_thickness|*/ +@d numerator(A) supscr(A) /*|numerator| field in a fraction noad*/ +@d denominator(A) subscr(A) /*|denominator| field in a fraction noad*/ + +@ The global variable |empty_field| is set up for initialization of empty +fields in new noads. Similarly, |null_delimiter| is for the initialization +of delimiter fields. + +@<Glob...@>= +static two_halves @!empty_field; +static four_quarters @!null_delimiter; + +@ @<Set init...@>= +empty_field.rh=empty;empty_field.lh=null;@/ +null_delimiter.b0=0;null_delimiter.b1=min_quarterword;@/ +null_delimiter.b2=0;null_delimiter.b3=min_quarterword; + +@ The |new_noad| function creates an |ord_noad| that is completely null. + +@p static pointer new_noad(void) +{@+pointer p; +p=get_node(noad_size); +type(p)=ord_noad;subtype(p)=normal; +mem[nucleus(p)].hh=empty_field; +mem[subscr(p)].hh=empty_field; +mem[supscr(p)].hh=empty_field; +return p; +} + +@ A few more kinds of noads will complete the set: An |under_noad| has its +nucleus underlined; an |over_noad| has it overlined. An |accent_noad| places +an accent over its nucleus; the accent character appears as +|fam(accent_chr(p))| and |character(accent_chr(p))|. A |vcenter_noad| +centers its nucleus vertically with respect to the axis of the formula; +in such noads we always have |math_type(nucleus(p))==sub_box|. + +And finally, we have |left_noad| and |right_noad| types, to implement +\TeX's \.{\\left} and \.{\\right} as well as \eTeX's \.{\\middle}. +The |nucleus| of such noads is +replaced by a |delimiter| field; thus, for example, `\.{\\left(}' produces +a |left_noad| such that |delimiter(p)| holds the family and character +codes for all left parentheses. A |left_noad| never appears in an mlist +except as the first element, and a |right_noad| never appears in an mlist +except as the last element; furthermore, we either have both a |left_noad| +and a |right_noad|, or neither one is present. The |subscr| and |supscr| +fields are always |empty| in a |left_noad| and a |right_noad|. + +@d under_noad (fraction_noad+1) /*|type| of a noad for underlining*/ +@d over_noad (under_noad+1) /*|type| of a noad for overlining*/ +@d accent_noad (over_noad+1) /*|type| of a noad for accented subformulas*/ +@d accent_noad_size 5 /*number of |mem| words in an accent noad*/ +@d accent_chr(A) A+4 /*the |accent_chr| field of an accent noad*/ +@d vcenter_noad (accent_noad+1) /*|type| of a noad for \.{\\vcenter}*/ +@d left_noad (vcenter_noad+1) /*|type| of a noad for \.{\\left}*/ +@d right_noad (left_noad+1) /*|type| of a noad for \.{\\right}*/ +@d delimiter(A) nucleus(A) /*|delimiter| field in left and right noads*/ +@d middle_noad 1 /*|subtype| of right noad representing \.{\\middle}*/ +@d scripts_allowed(A) (type(A) >= ord_noad)&&(type(A) < left_noad) + +@ Math formulas can also contain instructions like \.{\\textstyle} that +override \TeX's normal style rules. A |style_node| is inserted into the +data structure to record such instructions; it is three words long, so it +is considered a node instead of a noad. The |subtype| is either |display_style| +or |text_style| or |script_style| or |script_script_style|. The +second and third words of a |style_node| are not used, but they are +present because a |choice_node| is converted to a |style_node|. + +\TeX\ uses even numbers 0, 2, 4, 6 to encode the basic styles +|display_style|, \dots, |script_script_style|, and adds~1 to get the +``cramped'' versions of these styles. This gives a numerical order that +is backwards from the convention of Appendix~G in {\sl The \TeX book\/}; +i.e., a smaller style has a larger numerical value. +@:TeXbook}{\sl The \TeX book@> + +@d style_node (unset_node+1) /*|type| of a style node*/ +@d style_node_size 3 /*number of words in a style node*/ +@d display_style 0 /*|subtype| for \.{\\displaystyle}*/ +@d text_style 2 /*|subtype| for \.{\\textstyle}*/ +@d script_style 4 /*|subtype| for \.{\\scriptstyle}*/ +@d script_script_style 6 /*|subtype| for \.{\\scriptscriptstyle}*/ +@d cramped 1 /*add this to an uncramped style if you want to cramp it*/ + +@p static pointer new_style(small_number @!s) /*create a style node*/ +{@+pointer p; /*the new node*/ +p=get_node(style_node_size);type(p)=style_node; +subtype(p)=s;width(p)=0;depth(p)=0; /*the |width| and |depth| are not used*/ +return p; +} + +@ Finally, the \.{\\mathchoice} primitive creates a |choice_node|, which +has special subfields |display_mlist|, |text_mlist|, |script_mlist|, +and |script_script_mlist| pointing to the mlists for each style. + +@d choice_node (unset_node+2) /*|type| of a choice node*/ +@d display_mlist(A) info(A+1) /*mlist to be used in display style*/ +@d text_mlist(A) link(A+1) /*mlist to be used in text style*/ +@d script_mlist(A) info(A+2) /*mlist to be used in script style*/ +@d script_script_mlist(A) link(A+2) /*mlist to be used in scriptscript style*/ + +@p static pointer new_choice(void) /*create a choice node*/ +{@+pointer p; /*the new node*/ +p=get_node(style_node_size);type(p)=choice_node; +subtype(p)=0; /*the |subtype| is not used*/ +display_mlist(p)=null;text_mlist(p)=null;script_mlist(p)=null; +script_script_mlist(p)=null; +return p; +} + +@ Let's consider now the previously unwritten part of |show_node_list| +that displays the things that can only be present in mlists; this +program illustrates how to access the data structures just defined. + +In the context of the following program, |p| points to a node or noad that +should be displayed, and the current string contains the ``recursion history'' +that leads to this point. The recursion history consists of a dot for each +outer level in which |p| is subsidiary to some node, or in which |p| is +subsidiary to the |nucleus| field of some noad; the dot is replaced by +`\.\_' or `\.\^' or `\./' or `\.\\' if |p| is descended from the |subscr| +or |supscr| or |denominator| or |numerator| fields of noads. For example, +the current string would be `\.{.\^.\_/}' if |p| points to the |ord_noad| for +|x| in the (ridiculous) formula +`\.{\$\\sqrt\{a\^\{\\mathinner\{b\_\{c\\over x+y\}\}\}\}\$}'. + +@<Cases of |show_node_list| that arise...@>= +case style_node: print_style(subtype(p));@+break; +case choice_node: @<Display choice node |p|@>@;@+break; +case ord_noad: case op_noad: case bin_noad: case rel_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: + case radical_noad: case over_noad: case under_noad: case vcenter_noad: case accent_noad: + case left_noad: case right_noad: @<Display normal noad |p|@>@;@+break; +case fraction_noad: @<Display fraction noad |p|@>@;@+break; + +@ Here are some simple routines used in the display of noads. + +@<Declare procedures needed for displaying the elements of mlists@>= +static void print_fam_and_char(pointer @!p) /*prints family and character*/ +{@+print_esc("fam");print_int(fam(p));print_char(' '); +print_ASCII(qo(character(p))); +} +@# +static void print_delimiter(pointer @!p) /*prints a delimiter as 24-bit hex value*/ +{@+int a; /*accumulator*/ +a=small_fam(p)*256+qo(small_char(p)); +a=a*0x1000+large_fam(p)*256+qo(large_char(p)); +if (a < 0) print_int(a); /*this should never happen*/ +else print_hex(a); +} + +@ The next subroutine will descend to another level of recursion when a +subsidiary mlist needs to be displayed. The parameter |c| indicates what +character is to become part of the recursion history. An empty mlist is +distinguished from a field with |math_type(p)==empty|, because these are +not equivalent (as explained above). +@^recursion@> + +@<Declare procedures needed for displaying...@>= +static void show_info(void); /*|show_node_list(info(temp_ptr))|*/ +static void print_subsidiary_data(pointer @!p, ASCII_code @!c) + /*display a noad field*/ +{@+if (cur_length >= depth_threshold) + {@+if (math_type(p)!=empty) print(" []"); + } +else{@+append_char(c); /*include |c| in the recursion history*/ + temp_ptr=p; /*prepare for |show_info| if recursion is needed*/ + switch (math_type(p)) { + case math_char: {@+print_ln();print_current_string();print_fam_and_char(p); + } @+break; + case sub_box: show_info();@+break; /*recursive call*/ + case sub_mlist: if (info(p)==null) + {@+print_ln();print_current_string();print("{}"); + } + else show_info();@+break; /*recursive call*/ + default:do_nothing; /*|empty|*/ + } @/ + flush_char; /*remove |c| from the recursion history*/ + } +} + +@ The inelegant introduction of |show_info| in the code above seems better +than the alternative of using \PASCAL's strange |forward| declaration for a +procedure with parameters. The \PASCAL\ convention about dropping parameters +from a post-|forward| procedure is, frankly, so intolerable to the author +of \TeX\ that he would rather stoop to communication via a global temporary +variable. (A similar stoopidity occurred with respect to |hlist_out| and +|vlist_out| above, and it will occur with respect to |mlist_to_hlist| below.) +@^Knuth, Donald Ervin@> +@:PASCAL}{\PASCAL@> + +@p static void show_info(void) /*the reader will kindly forgive this*/ +{@+show_node_list(info(temp_ptr)); +} + +@ @<Declare procedures needed for displaying...@>= +static void print_style(int @!c) +{@+switch (c/2) { +case 0: print_esc("displaystyle");@+break; /*|display_style==0|*/ +case 1: print_esc("textstyle");@+break; /*|text_style==2|*/ +case 2: print_esc("scriptstyle");@+break; /*|script_style==4|*/ +case 3: print_esc("scriptscriptstyle");@+break; /*|script_script_style==6|*/ +default:print("Unknown style!"); +} +} + +@ @<Display choice node |p|@>= +{@+print_esc("mathchoice"); +append_char('D');show_node_list(display_mlist(p));flush_char; +append_char('T');show_node_list(text_mlist(p));flush_char; +append_char('S');show_node_list(script_mlist(p));flush_char; +append_char('s');show_node_list(script_script_mlist(p));flush_char; +} + +@ @<Display normal noad |p|@>= +{@+switch (type(p)) { +case ord_noad: print_esc("mathord");@+break; +case op_noad: print_esc("mathop");@+break; +case bin_noad: print_esc("mathbin");@+break; +case rel_noad: print_esc("mathrel");@+break; +case open_noad: print_esc("mathopen");@+break; +case close_noad: print_esc("mathclose");@+break; +case punct_noad: print_esc("mathpunct");@+break; +case inner_noad: print_esc("mathinner");@+break; +case over_noad: print_esc("overline");@+break; +case under_noad: print_esc("underline");@+break; +case vcenter_noad: print_esc("vcenter");@+break; +case radical_noad: {@+print_esc("radical");print_delimiter(left_delimiter(p)); + } @+break; +case accent_noad: {@+print_esc("accent");print_fam_and_char(accent_chr(p)); + } @+break; +case left_noad: {@+print_esc("left");print_delimiter(delimiter(p)); + } @+break; +case right_noad: {@+if (subtype(p)==normal) print_esc("right"); + else print_esc("middle"); + print_delimiter(delimiter(p)); + } +} +if (type(p) < left_noad) + {@+if (subtype(p)!=normal) + if (subtype(p)==limits) print_esc("limits"); + else print_esc("nolimits"); + print_subsidiary_data(nucleus(p),'.'); + } +print_subsidiary_data(supscr(p),'^'); +print_subsidiary_data(subscr(p),'_'); +} + +@ @<Display fraction noad |p|@>= +{@+print_esc("fraction, thickness "); +if (thickness(p)==default_code) print("= default"); +else print_scaled(thickness(p)); +if ((small_fam(left_delimiter(p))!=0)||@+ + (small_char(left_delimiter(p))!=min_quarterword)||@| + (large_fam(left_delimiter(p))!=0)||@| + (large_char(left_delimiter(p))!=min_quarterword)) + {@+print(", left-delimiter ");print_delimiter(left_delimiter(p)); + } +if ((small_fam(right_delimiter(p))!=0)||@| + (small_char(right_delimiter(p))!=min_quarterword)||@| + (large_fam(right_delimiter(p))!=0)||@| + (large_char(right_delimiter(p))!=min_quarterword)) + {@+print(", right-delimiter ");print_delimiter(right_delimiter(p)); + } +print_subsidiary_data(numerator(p),'\\'); +print_subsidiary_data(denominator(p),'/'); +} + +@ That which can be displayed can also be destroyed. + +@<Cases of |flush_node_list| that arise...@>= +case style_node: {@+free_node(p, style_node_size);goto done; + } +case choice_node: {@+flush_node_list(display_mlist(p)); + flush_node_list(text_mlist(p)); + flush_node_list(script_mlist(p)); + flush_node_list(script_script_mlist(p)); + free_node(p, style_node_size);goto done; + } +case ord_noad: case op_noad: case bin_noad: case rel_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: + case radical_noad: case over_noad: case under_noad: case vcenter_noad: case accent_noad: @t@>@;@/ + {@+if (math_type(nucleus(p)) >= sub_box) + flush_node_list(info(nucleus(p))); + if (math_type(supscr(p)) >= sub_box) + flush_node_list(info(supscr(p))); + if (math_type(subscr(p)) >= sub_box) + flush_node_list(info(subscr(p))); + if (type(p)==radical_noad) free_node(p, radical_noad_size); + else if (type(p)==accent_noad) free_node(p, accent_noad_size); + else free_node(p, noad_size); + goto done; + } +case left_noad: case right_noad: {@+free_node(p, noad_size);goto done; + } +case fraction_noad: {@+flush_node_list(info(numerator(p))); + flush_node_list(info(denominator(p))); + free_node(p, fraction_noad_size);goto done; + } + +@* Subroutines for math mode. +In order to convert mlists to hlists, i.e., noads to nodes, we need several +subroutines that are conveniently dealt with now. + +Let us first introduce the macros that make it easy to get at the parameters and +other font information. A size code, which is a multiple of 16, is added to a +family number to get an index into the table of internal font numbers +for each combination of family and size. (Be alert: Size codes get +larger as the type gets smaller.) + +@d text_size 0 /*size code for the largest size in a family*/ +@d script_size 16 /*size code for the medium size in a family*/ +@d script_script_size 32 /*size code for the smallest size in a family*/ + +@<Basic printing procedures@>= +static void print_size(int @!s) +{@+if (s==text_size) print_esc("textfont"); +else if (s==script_size) print_esc("scriptfont"); +else print_esc("scriptscriptfont"); +} + +@ Before an mlist is converted to an hlist, \TeX\ makes sure that +the fonts in family~2 have enough parameters to be math-symbol +fonts, and that the fonts in family~3 have enough parameters to be +math-extension fonts. The math-symbol parameters are referred to by using the +following macros, which take a size code as their parameter; for example, +|num1(cur_size)| gives the value of the |num1| parameter for the current size. +@^parameters for symbols@> +@^font parameters@> + +@d mathsy_end(A) fam_fnt(2+A)]].sc +@d mathsy(A) font_info[A+param_base[mathsy_end +@d math_x_height mathsy(5) /*height of `\.x'*/ +@d math_quad mathsy(6) /*\.{18mu}*/ +@d num1 mathsy(8) /*numerator shift-up in display styles*/ +@d num2 mathsy(9) /*numerator shift-up in non-display, non-\.{\\atop}*/ +@d num3 mathsy(10) /*numerator shift-up in non-display \.{\\atop}*/ +@d denom1 mathsy(11) /*denominator shift-down in display styles*/ +@d denom2 mathsy(12) /*denominator shift-down in non-display styles*/ +@d sup1 mathsy(13) /*superscript shift-up in uncramped display style*/ +@d sup2 mathsy(14) /*superscript shift-up in uncramped non-display*/ +@d sup3 mathsy(15) /*superscript shift-up in cramped styles*/ +@d sub1 mathsy(16) /*subscript shift-down if superscript is absent*/ +@d sub2 mathsy(17) /*subscript shift-down if superscript is present*/ +@d sup_drop mathsy(18) /*superscript baseline below top of large box*/ +@d sub_drop mathsy(19) /*subscript baseline below bottom of large box*/ +@d delim1 mathsy(20) /*size of \.{\\atopwithdelims} delimiters + in display styles*/ +@d delim2 mathsy(21) /*size of \.{\\atopwithdelims} delimiters in non-displays*/ +@d axis_height mathsy(22) /*height of fraction lines above the baseline*/ +@d total_mathsy_params 22 + +@ The math-extension parameters have similar macros, but the size code is +omitted (since it is always |cur_size| when we refer to such parameters). +@^parameters for symbols@> +@^font parameters@> + +@d mathex(A) font_info[A+param_base[fam_fnt(3+cur_size)]].sc +@d default_rule_thickness mathex(8) /*thickness of \.{\\over} bars*/ +@d big_op_spacing1 mathex(9) /*minimum clearance above a displayed op*/ +@d big_op_spacing2 mathex(10) /*minimum clearance below a displayed op*/ +@d big_op_spacing3 mathex(11) /*minimum baselineskip above displayed op*/ +@d big_op_spacing4 mathex(12) /*minimum baselineskip below displayed op*/ +@d big_op_spacing5 mathex(13) /*padding above and below displayed limits*/ +@d total_mathex_params 13 + +@ We also need to compute the change in style between mlists and their +subsidiaries. The following macros define the subsidiary style for +an overlined nucleus (|cramped_style|), for a subscript or a superscript +(|sub_style| or |sup_style|), or for a numerator or denominator (|num_style| +or |denom_style|). + +@d cramped_style(A) 2*(A/2)+cramped /*cramp the style*/ +@d sub_style(A) 2*(A/4)+script_style+cramped /*smaller and cramped*/ +@d sup_style(A) 2*(A/4)+script_style+(A%2) /*smaller*/ +@d num_style(A) A+2-2*(A/6) /*smaller unless already script-script*/ +@d denom_style(A) 2*(A/2)+cramped+2-2*(A/6) /*smaller, cramped*/ + +@ When the style changes, the following piece of program computes associated +information: + +@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>= +{@+if (cur_style < script_style) cur_size=text_size; +else cur_size=16*((cur_style-text_style)/2); +cur_mu=x_over_n(math_quad(cur_size), 18); +} + +@ Here is a function that returns a pointer to a rule node having a given +thickness |t|. The rule will extend horizontally to the boundary of the vlist +that eventually contains it. + +@p static pointer fraction_rule(scaled @!t) + /*construct the bar for a fraction*/ +{@+pointer p; /*the new node*/ +p=new_rule();height(p)=t;depth(p)=0;return p; +} + +@ The |overbar| function returns a pointer to a vlist box that consists of +a given box |b|, above which has been placed a kern of height |k| under a +fraction rule of thickness |t| under additional space of height |t|. + +@p static pointer overbar(pointer @!b, scaled @!k, scaled @!t) +{@+pointer p, @!q; /*nodes being constructed*/ +p=new_kern(k);link(p)=b;q=fraction_rule(t);link(q)=p; +p=new_kern(t);link(p)=q;return vpack(p, natural); +} + +@ The |var_delimiter| function, which finds or constructs a sufficiently +large delimiter, is the most interesting of the auxiliary functions that +currently concern us. Given a pointer |d| to a delimiter field in some noad, +together with a size code |s| and a vertical distance |v|, this function +returns a pointer to a box that contains the smallest variant of |d| whose +height plus depth is |v| or more. (And if no variant is large enough, it +returns the largest available variant.) In particular, this routine will +construct arbitrarily large delimiters from extensible components, if +|d| leads to such characters. + +The value returned is a box whose |shift_amount| has been set so that +the box is vertically centered with respect to the axis in the given size. +If a built-up symbol is returned, the height of the box before shifting +will be the height of its topmost component. + +@p @t\4@>@<Declare subprocedures for |var_delimiter|@>@; +static pointer var_delimiter(pointer @!d, small_number @!s, scaled @!v) +{@+ +pointer b; /*the box that will be constructed*/ +internal_font_number @!f, @!g; /*best-so-far and tentative font codes*/ +quarterword @!c, @!x, @!y; /*best-so-far and tentative character codes*/ +int @!m, @!n; /*the number of extensible pieces*/ +scaled @!u; /*height-plus-depth of a tentative character*/ +scaled @!w; /*largest height-plus-depth so far*/ +four_quarters @!q; /*character info*/ +eight_bits @!hd; /*height-depth byte*/ +four_quarters @!r; /*extensible pieces*/ +small_number @!z; /*runs through font family members*/ +bool @!large_attempt; /*are we trying the ``large'' variant?*/ +f=null_font;w=0;large_attempt=false; +z=small_fam(d);x=small_char(d); +loop@+{@+@<Look at the variants of |(z,x)|; set |f| and |c| whenever a better character +is found; |goto found| as soon as a large enough variant is encountered@>; + if (large_attempt) goto found; /*there were none large enough*/ + large_attempt=true;z=large_fam(d);x=large_char(d); + } +found: if (f!=null_font) + @<Make variable |b| point to a box for |(f,c)|@>; +else{@+b=new_null_box(); + width(b)=null_delimiter_space; /*use this width if no delimiter was found*/ + } +shift_amount(b)=half(height(b)-depth(b))-axis_height(s); +return b; +} + +@ The search process is complicated slightly by the facts that some of the +characters might not be present in some of the fonts, and they might not +be probed in increasing order of height. + +@<Look at the variants of |(z,x)|; set |f| and |c|...@>= +if ((z!=0)||(x!=min_quarterword)) + {@+z=z+s+16; + @/do@+{z=z-16;g=fam_fnt(z); + if (g!=null_font) + @<Look at the list of characters starting with |x| in font |g|; set |f| and |c| +whenever a better character is found; |goto found| as soon as a large enough variant +is encountered@>; + }@+ while (!(z < 16)); + } + +@ @<Look at the list of characters starting with |x|...@>= +{@+y=x; +if ((qo(y) >= font_bc[g])&&(qo(y) <= font_ec[g])) + {@+resume: q=char_info(g, y); + if (char_exists(q)) + {@+if (char_tag(q)==ext_tag) + {@+f=g;c=y;goto found; + } + hd=height_depth(q); + u=char_height(g, hd)+char_depth(g, hd); + if (u > w) + {@+f=g;c=y;w=u; + if (u >= v) goto found; + } + if (char_tag(q)==list_tag) + {@+y=rem_byte(q);goto resume; + } + } + } +} + +@ Here is a subroutine that creates a new box, whose list contains a +single character, and whose width includes the italic correction for +that character. The height or depth of the box will be negative, if +the height or depth of the character is negative; thus, this routine +may deliver a slightly different result than |hpack| would produce. + +@<Declare subprocedures for |var_delimiter|@>= +static pointer char_box(internal_font_number @!f, quarterword @!c) +{@+four_quarters q; +eight_bits @!hd; /*|height_depth| byte*/ +pointer @!b, @!p; /*the new box and its character node*/ +q=char_info(f, c);hd=height_depth(q); +b=new_null_box();width(b)=char_width(f, q)+char_italic(f, q); +height(b)=char_height(f, hd);depth(b)=char_depth(f, hd); +p=get_avail();character(p)=c;font(p)=f;list_ptr(b)=p;return b; +} + +@ When the following code is executed, |char_tag(q)| will be equal to +|ext_tag| if and only if a built-up symbol is supposed to be returned. + +@<Make variable |b| point to a box for |(f,c)|@>= +if (char_tag(q)==ext_tag) + @<Construct an extensible character in a new box |b|, using recipe |rem_byte(q)| +and font |f|@>@; +else b=char_box(f, c) + +@ When we build an extensible character, it's handy to have the +following subroutine, which puts a given character on top +of the characters already in box |b|: + +@<Declare subprocedures for |var_delimiter|@>= +static void stack_into_box(pointer @!b, internal_font_number @!f, + quarterword @!c) +{@+pointer p; /*new node placed into |b|*/ +p=char_box(f, c);link(p)=list_ptr(b);list_ptr(b)=p; +height(b)=height(p); +} + +@ Another handy subroutine computes the height plus depth of +a given character: + +@<Declare subprocedures for |var_delimiter|@>= +static scaled height_plus_depth(internal_font_number @!f, quarterword @!c) +{@+four_quarters q; +eight_bits @!hd; /*|height_depth| byte*/ +q=char_info(f, c);hd=height_depth(q); +return char_height(f, hd)+char_depth(f, hd); +} + +@ @<Construct an extensible...@>= +{@+b=new_null_box(); +type(b)=vlist_node; +r=font_info[exten_base[f]+rem_byte(q)].qqqq;@/ +@<Compute the minimum suitable height, |w|, and the corresponding number of extension +steps, |n|; also set |width(b)|@>; +c=ext_bot(r); +if (c!=min_quarterword) stack_into_box(b, f, c); +c=ext_rep(r); +for (m=1; m<=n; m++) stack_into_box(b, f, c); +c=ext_mid(r); +if (c!=min_quarterword) + {@+stack_into_box(b, f, c);c=ext_rep(r); + for (m=1; m<=n; m++) stack_into_box(b, f, c); + } +c=ext_top(r); +if (c!=min_quarterword) stack_into_box(b, f, c); +depth(b)=w-height(b); +} + +@ The width of an extensible character is the width of the repeatable +module. If this module does not have positive height plus depth, +we don't use any copies of it, otherwise we use as few as possible +(in groups of two if there is a middle part). + +@<Compute the minimum suitable height, |w|, and...@>= +c=ext_rep(r);u=height_plus_depth(f, c); +w=0;q=char_info(f, c);width(b)=char_width(f, q)+char_italic(f, q);@/ +c=ext_bot(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); +c=ext_mid(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); +c=ext_top(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); +n=0; +if (u > 0) while (w < v) + {@+w=w+u;incr(n); + if (ext_mid(r)!=min_quarterword) w=w+u; + } + +@ The next subroutine is much simpler; it is used for numerators and +denominators of fractions as well as for displayed operators and +their limits above and below. It takes a given box~|b| and +changes it so that the new box is centered in a box of width~|w|. +The centering is done by putting \.{\\hss} glue at the left and right +of the list inside |b|, then packaging the new box; thus, the +actual box might not really be centered, if it already contains +infinite glue. + +The given box might contain a single character whose italic correction +has been added to the width of the box; in this case a compensating +kern is inserted. + +@p static pointer rebox(pointer @!b, scaled @!w) +{@+pointer p; /*temporary register for list manipulation*/ +internal_font_number @!f; /*font in a one-character box*/ +scaled @!v; /*width of a character without italic correction*/ +if ((width(b)!=w)&&(list_ptr(b)!=null)) + {@+if (type(b)==vlist_node) b=hpack(b, natural); + p=list_ptr(b); + if ((is_char_node(p))&&(link(p)==null)) + {@+f=font(p);v=char_width(f, char_info(f, character(p))); + if (v!=width(b)) link(p)=new_kern(width(b)-v); + } + list_ptr(b)=null; flush_node_list(b); + b=new_glue(ss_glue);link(b)=p; + while (link(p)!=null) p=link(p); + link(p)=new_glue(ss_glue); + return hpack(b, w, 0, 0, exactly); + } +else{@+width(b)=w;return b; + } +} + +@ Here is a subroutine that creates a new glue specification from another +one that is expressed in `\.{mu}', given the value of the math unit. + +@d mu_mult(A) nx_plus_y(n, A, xn_over_d(A, f, 0200000)) + +@p static pointer math_glue(pointer @!g, scaled @!m) +{@+pointer p; /*the new glue specification*/ +int @!n; /*integer part of |m|*/ +scaled @!f; /*fraction part of |m|*/ +n=x_over_n(m, 0200000);f=rem;@/ +if (f < 0) + {@+decr(n);f=f+0200000; + } +p=get_node(glue_spec_size); +width(p)=mu_mult(width(g)); /*convert \.{mu} to \.{pt}*/ +stretch_order(p)=stretch_order(g); +if (stretch_order(p)==normal) stretch(p)=mu_mult(stretch(g)); +else stretch(p)=stretch(g); +shrink_order(p)=shrink_order(g); +if (shrink_order(p)==normal) shrink(p)=mu_mult(shrink(g)); +else shrink(p)=shrink(g); +return p; +} + +@ The |math_kern| subroutine removes |mu_glue| from a kern node, given +the value of the math unit. + +@p static void math_kern(pointer @!p, scaled @!m) +{@+int @!n; /*integer part of |m|*/ +scaled @!f; /*fraction part of |m|*/ +if (subtype(p)==mu_glue) + {@+n=x_over_n(m, 0200000);f=rem;@/ + if (f < 0) + {@+decr(n);f=f+0200000; + } + width(p)=mu_mult(width(p));subtype(p)=explicit; + } +} + +@ Sometimes it is necessary to destroy an mlist. The following +subroutine empties the current list, assuming that |abs(mode)==mmode|. + +@p static void flush_math(void) +{@+flush_node_list(link(head));flush_node_list(incompleat_noad); +link(head)=null;tail=head;incompleat_noad=null; +} + +@* Typesetting math formulas. +\TeX's most important routine for dealing with formulas is called +|mlist_to_hlist|. After a formula has been scanned and represented as an +mlist, this routine converts it to an hlist that can be placed into a box +or incorporated into the text of a paragraph. There are three implicit +parameters, passed in global variables: |cur_mlist| points to the first +node or noad in the given mlist (and it might be |null|); |cur_style| is a +style code; and |mlist_penalties| is |true| if penalty nodes for potential +line breaks are to be inserted into the resulting hlist. After +|mlist_to_hlist| has acted, |link(temp_head)| points to the translated hlist. + +Since mlists can be inside mlists, the procedure is recursive. And since this +is not part of \TeX's inner loop, the program has been written in a manner +that stresses compactness over efficiency. +@^recursion@> + +@<Glob...@>= +static pointer @!cur_mlist; /*beginning of mlist to be translated*/ +static small_number @!cur_style; /*style code at current place in the list*/ +static small_number @!cur_size; /*size code corresponding to |cur_style|*/ +static scaled @!cur_mu; /*the math unit width corresponding to |cur_size|*/ +static bool @!mlist_penalties; /*should |mlist_to_hlist| insert penalties?*/ + +@ The recursion in |mlist_to_hlist| is due primarily to a subroutine +called |clean_box| that puts a given noad field into a box using a given +math style; |mlist_to_hlist| can call |clean_box|, which can call +|mlist_to_hlist|. +@^recursion@> + +The box returned by |clean_box| is ``clean'' in the +sense that its |shift_amount| is zero. + +@p static void mlist_to_hlist(void);@/ +static pointer clean_box(pointer @!p, small_number @!s) +{@+ +pointer q; /*beginning of a list to be boxed*/ +small_number @!save_style; /*|cur_style| to be restored*/ +pointer @!x; /*box to be returned*/ +pointer @!r; /*temporary pointer*/ +switch (math_type(p)) { +case math_char: {@+cur_mlist=new_noad();mem[nucleus(cur_mlist)]=mem[p]; + } @+break; +case sub_box: {@+q=info(p);goto found; + } +case sub_mlist: cur_mlist=info(p);@+break; +default:{@+q=new_null_box();goto found; + } +} @/ +save_style=cur_style;cur_style=s;mlist_penalties=false;@/ +mlist_to_hlist();q=link(temp_head); /*recursive call*/ +cur_style=save_style; /*restore the style*/ +@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; +found: if (is_char_node(q)||(q==null)) x=hpack(q, natural); + else if ((link(q)==null)&&(type(q) <= vlist_node)&&(shift_amount(q)==0)) + x=q; /*it's already clean*/ + else x=hpack(q, natural); +@<Simplify a trivial box@>; +return x; +} + +@ Here we save memory space in a common case. + +@<Simplify a trivial box@>= +q=list_ptr(x); +if (is_char_node(q)) + {@+r=link(q); + if (r!=null) if (link(r)==null) if (!is_char_node(r)) + if (type(r)==kern_node) /*unneeded italic correction*/ + {@+free_node(r, small_node_size);link(q)=null; + } + } + +@ It is convenient to have a procedure that converts a |math_char| +field to an ``unpacked'' form. The |fetch| routine sets |cur_f|, |cur_c|, +and |cur_i| to the font code, character code, and character information bytes of +a given noad field. It also takes care of issuing error messages for +nonexistent characters; in such cases, |char_exists(cur_i)| will be |false| +after |fetch| has acted, and the field will also have been reset to |empty|. + +@p static void fetch(pointer @!a) /*unpack the |math_char| field |a|*/ +{@+cur_c=character(a);cur_f=fam_fnt(fam(a)+cur_size); +if (cur_f==null_font) + @<Complain about an undefined family and set |cur_i| null@>@; +else{@+if ((qo(cur_c) >= font_bc[cur_f])&&(qo(cur_c) <= font_ec[cur_f])) + cur_i=char_info(cur_f, cur_c); + else cur_i=null_character; + if (!(char_exists(cur_i))) + {@+char_warning(cur_f, qo(cur_c)); + math_type(a)=empty;cur_i=null_character; + } + } +} + +@ @<Complain about an undefined family...@>= +{@+print_err("");print_size(cur_size);print_char(' '); +print_int(fam(a));print(" is undefined (character "); +print_ASCII(qo(cur_c));print_char(')'); +help4("Somewhere in the math formula just ended, you used the",@/ +"stated character from an undefined font family. For example,",@/ +"plain TeX doesn't allow \\it or \\sl in subscripts. Proceed,",@/ +"and I'll try to forget that I needed that character."); +error();cur_i=null_character;math_type(a)=empty; +} + +@ The outputs of |fetch| are placed in global variables. + +@<Glob...@>= +static internal_font_number @!cur_f; /*the |font| field of a |math_char|*/ +static quarterword @!cur_c; /*the |character| field of a |math_char|*/ +static four_quarters @!cur_i; /*the |char_info| of a |math_char|, + or a lig/kern instruction*/ + +@ We need to do a lot of different things, so |mlist_to_hlist| makes two +passes over the given mlist. + +The first pass does most of the processing: It removes ``mu'' spacing from +glue, it recursively evaluates all subsidiary mlists so that only the +top-level mlist remains to be handled, it puts fractions and square roots +and such things into boxes, it attaches subscripts and superscripts, and +it computes the overall height and depth of the top-level mlist so that +the size of delimiters for a |left_noad| and a |right_noad| will be known. +The hlist resulting from each noad is recorded in that noad's |new_hlist| +field, an integer field that replaces the |nucleus| or |thickness|. +@^recursion@> + +The second pass eliminates all noads and inserts the correct glue and +penalties between nodes. + +@d new_hlist(A) mem[nucleus(A)].i /*the translation of an mlist*/ + +@ Here is the overall plan of |mlist_to_hlist|, and the list of its +local variables. + +@p @t\4@>@<Declare math construction procedures@>@; +static void mlist_to_hlist(void) +{@+ + +pointer mlist; /*beginning of the given list*/ +bool @!penalties; /*should penalty nodes be inserted?*/ +small_number @!style; /*the given style*/ +small_number @!save_style; /*holds |cur_style| during recursion*/ +pointer @!q; /*runs through the mlist*/ +pointer @!r; /*the most recent noad preceding |q|*/ +small_number @!r_type; /*the |type| of noad |r|, or |op_noad| if |r==null|*/ +small_number @!t; /*the effective |type| of noad |q| during the second pass*/ +pointer @!p, @!x, @!y, @!z; /*temporary registers for list construction*/ +int @!pen; /*a penalty to be inserted*/ +small_number @!s; /*the size of a noad to be deleted*/ +scaled @!max_h, @!max_d; /*maximum height and depth of the list translated so far*/ +scaled @!delta; /*offset between subscript and superscript*/ +mlist=cur_mlist;penalties=mlist_penalties; +style=cur_style; /*tuck global parameters away as local variables*/ +q=mlist;r=null;r_type=op_noad;max_h=0;max_d=0; +@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; +while (q!=null) @<Process node-or-noad |q| as much as possible in preparation for +the second pass of |mlist_to_hlist|, then move to the next item in the mlist@>; +@<Convert \(a)a final |bin_noad| to an |ord_noad|@>; +@<Make a second pass over the mlist, removing all noads and inserting the proper spacing +and penalties@>; +} + +@ We use the fact that no character nodes appear in an mlist, hence +the field |type(q)| is always present. + +@<Process node-or-noad...@>= +{@+@<Do first-pass processing based on |type(q)|; |goto done_with_noad| if a noad +has been fully processed, |goto check_dimensions| if it has been translated into |new_hlist(q)|, +or |goto done_with_node| if a node has been fully processed@>; +check_dimensions: z=hpack(new_hlist(q), natural); +if (height(z) > max_h) max_h=height(z); +if (depth(z) > max_d) max_d=depth(z); +list_ptr(z)=null; flush_node_list(z); +done_with_noad: r=q;r_type=type(r); +if (r_type==right_noad) + {@+r_type=left_noad;cur_style=style;@<Set up the values...@>; + } +done_with_node: q=link(q); +} + +@ One of the things we must do on the first pass is change a |bin_noad| to +an |ord_noad| if the |bin_noad| is not in the context of a binary operator. +The values of |r| and |r_type| make this fairly easy. + +@<Do first-pass processing...@>= +reswitch: delta=0; +switch (type(q)) { +case bin_noad: switch (r_type) { + case bin_noad: case op_noad: case rel_noad: case open_noad: case punct_noad: case left_noad: + {@+type(q)=ord_noad;goto reswitch; + } + default:do_nothing; + } @+break; +case rel_noad: case close_noad: case punct_noad: case right_noad: {@+@t@>@;@/ + @<Convert \(a)a final |bin_noad| to an |ord_noad|@>; + if (type(q)==right_noad) goto done_with_noad; + } @+break; +@t\4@>@<Cases for noads that can follow a |bin_noad|@>@; +@t\4@>@<Cases for nodes that can appear in an mlist, after which we |goto done_with_node|@>@; +default:confusion("mlist1"); +@:this can't happen mlist1}{\quad mlist1@> +} @/ +@<Convert \(n)|nucleus(q)| to an hlist and attach the sub/superscripts@>@; + +@ @<Convert \(a)a final |bin_noad| to an |ord_noad|@>= +if (r_type==bin_noad) type(r)=ord_noad + +@ @<Cases for nodes that can appear in an mlist...@>= +case style_node: {@+cur_style=subtype(q); + @<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; + goto done_with_node; + } +case choice_node: @<Change this node to a style node followed by the correct choice, +then |goto done_with_node|@>@; +case ins_node: case mark_node: case adjust_node: + case whatsit_node: case penalty_node: case disc_node: goto done_with_node; +case rule_node: {@+if (height(q) > max_h) max_h=height(q); + if (depth(q) > max_d) max_d=depth(q);goto done_with_node; + } +case glue_node: {@+@<Convert \(m)math glue to ordinary glue@>; + goto done_with_node; + } +case kern_node: {@+math_kern(q, cur_mu);goto done_with_node; + } + +@ @d choose_mlist(A) {@+p=A(q);A(q)=null;@+} + +@<Change this node to a style node...@>= +{@+switch (cur_style/2) { +case 0: choose_mlist(display_mlist)@;@+break; /*|display_style==0|*/ +case 1: choose_mlist(text_mlist)@;@+break; /*|text_style==2|*/ +case 2: choose_mlist(script_mlist)@;@+break; /*|script_style==4|*/ +case 3: choose_mlist(script_script_mlist); /*|script_script_style==6|*/ +} /*there are no other cases*/ +flush_node_list(display_mlist(q)); +flush_node_list(text_mlist(q)); +flush_node_list(script_mlist(q)); +flush_node_list(script_script_mlist(q));@/ +type(q)=style_node;subtype(q)=cur_style;width(q)=0;depth(q)=0; +if (p!=null) + {@+z=link(q);link(q)=p; + while (link(p)!=null) p=link(p); + link(p)=z; + } +goto done_with_node; +} + +@ Conditional math glue (`\.{\\nonscript}') results in a |glue_node| +pointing to |zero_glue|, with |subtype(q)==cond_math_glue|; in such a case +the node following will be eliminated if it is a glue or kern node and if the +current size is different from |text_size|. Unconditional math glue +(`\.{\\muskip}') is converted to normal glue by multiplying the dimensions +by |cur_mu|. +@!@:non\_script\_}{\.{\\nonscript} primitive@> + +@<Convert \(m)math glue to ordinary glue@>= +if (subtype(q)==mu_glue) + {@+x=glue_ptr(q); + y=math_glue(x, cur_mu);delete_glue_ref(x);glue_ptr(q)=y; + subtype(q)=normal; + } +else if ((cur_size!=text_size)&&(subtype(q)==cond_math_glue)) + {@+p=link(q); + if (p!=null) if ((type(p)==glue_node)||(type(p)==kern_node)) + {@+link(q)=link(p);link(p)=null;flush_node_list(p); + } + } + +@ @<Cases for noads that can follow a |bin_noad|@>= +case left_noad: goto done_with_noad; +case fraction_noad: {@+make_fraction(q);goto check_dimensions; + } +case op_noad: {@+delta=make_op(q); + if (subtype(q)==limits) goto check_dimensions; + } @+break; +case ord_noad: make_ord(q);@+break; +case open_noad: case inner_noad: do_nothing;@+break; +case radical_noad: make_radical(q);@+break; +case over_noad: make_over(q);@+break; +case under_noad: make_under(q);@+break; +case accent_noad: make_math_accent(q);@+break; +case vcenter_noad: make_vcenter(q);@+break; + +@ Most of the actual construction work of |mlist_to_hlist| is done +by procedures with names +like |make_fraction|, |make_radical|, etc. To illustrate +the general setup of such procedures, let's begin with a couple of +simple ones. + +@<Declare math...@>= +static void make_over(pointer @!q) +{@+info(nucleus(q))=@| + overbar(clean_box(nucleus(q), cramped_style(cur_style)),@| + 3*default_rule_thickness, default_rule_thickness); +math_type(nucleus(q))=sub_box; +} + +@ @<Declare math...@>= +static void make_under(pointer @!q) +{@+pointer p, @!x, @!y; /*temporary registers for box construction*/ +scaled @!delta; /*overall height plus depth*/ +x=clean_box(nucleus(q), cur_style); +p=new_kern(3*default_rule_thickness);link(x)=p; +link(p)=fraction_rule(default_rule_thickness); +y=vpack(x, natural); +delta=height(y)+depth(y)+default_rule_thickness; +height(y)=height(x);depth(y)=delta-height(y); +info(nucleus(q))=y;math_type(nucleus(q))=sub_box; +} + +@ @<Declare math...@>= +static void make_vcenter(pointer @!q) +{@+pointer v; /*the box that should be centered vertically*/ +scaled @!delta; /*its height plus depth*/ +v=info(nucleus(q)); +if (type(v)!=vlist_node) confusion("vcenter"); +@:this can't happen vcenter}{\quad vcenter@> +delta=height(v)+depth(v); +height(v)=axis_height(cur_size)+half(delta); +depth(v)=delta-height(v); +} + +@ According to the rules in the \.{DVI} file specifications, we ensure alignment +@^square roots@> +between a square root sign and the rule above its nucleus by assuming that the +baseline of the square-root symbol is the same as the bottom of the rule. The +height of the square-root symbol will be the thickness of the rule, and the +depth of the square-root symbol should exceed or equal the height-plus-depth +of the nucleus plus a certain minimum clearance~|clr|. The symbol will be +placed so that the actual clearance is |clr| plus half the excess. + +@<Declare math...@>= +static void make_radical(pointer @!q) +{@+pointer x, @!y; /*temporary registers for box construction*/ +scaled @!delta, @!clr; /*dimensions involved in the calculation*/ +x=clean_box(nucleus(q), cramped_style(cur_style)); +if (cur_style < text_style) /*display style*/ + clr=default_rule_thickness+(abs(math_x_height(cur_size))/4); +else{@+clr=default_rule_thickness;clr=clr+(abs(clr)/4); + } +y=var_delimiter(left_delimiter(q), cur_size, height(x)+depth(x)+clr+ + default_rule_thickness); +delta=depth(y)-(height(x)+depth(x)+clr); +if (delta > 0) clr=clr+half(delta); /*increase the actual clearance*/ +shift_amount(y)=-(height(x)+clr); +link(y)=overbar(x, clr, height(y)); +info(nucleus(q))=hpack(y, natural);math_type(nucleus(q))=sub_box; +} + +@ Slants are not considered when placing accents in math mode. The accenter is +centered over the accentee, and the accent width is treated as zero with +respect to the size of the final box. + +@<Declare math...@>= +static void make_math_accent(pointer @!q) +{@+ +pointer p, @!x, @!y; /*temporary registers for box construction*/ +int @!a; /*address of lig/kern instruction*/ +quarterword @!c; /*accent character*/ +internal_font_number @!f; /*its font*/ +four_quarters @!i; /*its |char_info|*/ +scaled @!s; /*amount to skew the accent to the right*/ +scaled @!h; /*height of character being accented*/ +scaled @!delta; /*space to remove between accent and accentee*/ +scaled @!w; /*width of the accentee, not including sub/superscripts*/ +fetch(accent_chr(q)); +if (char_exists(cur_i)) + {@+i=cur_i;c=cur_c;f=cur_f;@/ + @<Compute the amount of skew@>; + x=clean_box(nucleus(q), cramped_style(cur_style));w=width(x);h=height(x); + @<Switch to a larger accent if available and appropriate@>; + if (h < x_height(f)) delta=h;@+else delta=x_height(f); + if ((math_type(supscr(q))!=empty)||(math_type(subscr(q))!=empty)) + if (math_type(nucleus(q))==math_char) + @<Swap the subscript and superscript into box |x|@>; + y=char_box(f, c); + shift_amount(y)=s+half(w-width(y)); + width(y)=0;p=new_kern(-delta);link(p)=x;link(y)=p; + y=vpack(y, natural);width(y)=width(x); + if (height(y) < h) @<Make the height of box |y| equal to |h|@>; + info(nucleus(q))=y; + math_type(nucleus(q))=sub_box; + } +} + +@ @<Make the height of box |y|...@>= +{@+p=new_kern(h-height(y));link(p)=list_ptr(y);list_ptr(y)=p; +height(y)=h; +} + +@ @<Switch to a larger accent if available and appropriate@>= +loop@+{@+if (char_tag(i)!=list_tag) goto done; + y=rem_byte(i); + i=char_info(f, y); + if (!char_exists(i)) goto done; + if (char_width(f, i) > w) goto done; + c=y; + } +done: + +@ @<Compute the amount of skew@>= +s=0; +if (math_type(nucleus(q))==math_char) + {@+fetch(nucleus(q)); + if (char_tag(cur_i)==lig_tag) + {@+a=lig_kern_start(cur_f, cur_i); + cur_i=font_info[a].qqqq; + if (skip_byte(cur_i) > stop_flag) + {@+a=lig_kern_restart(cur_f, cur_i); + cur_i=font_info[a].qqqq; + } + loop@+{@+if (qo(next_char(cur_i))==skew_char[cur_f]) + {@+if (op_byte(cur_i) >= kern_flag) + if (skip_byte(cur_i) <= stop_flag) s=char_kern(cur_f, cur_i); + goto done1; + } + if (skip_byte(cur_i) >= stop_flag) goto done1; + a=a+qo(skip_byte(cur_i))+1; + cur_i=font_info[a].qqqq; + } + } + } +done1: + +@ @<Swap the subscript and superscript into box |x|@>= +{@+flush_node_list(x);x=new_noad(); +mem[nucleus(x)]=mem[nucleus(q)]; +mem[supscr(x)]=mem[supscr(q)]; +mem[subscr(x)]=mem[subscr(q)];@/ +mem[supscr(q)].hh=empty_field; +mem[subscr(q)].hh=empty_field;@/ +math_type(nucleus(q))=sub_mlist;info(nucleus(q))=x; +x=clean_box(nucleus(q), cur_style);delta=delta+height(x)-h;h=height(x); +} + +@ The |make_fraction| procedure is a bit different because it sets +|new_hlist(q)| directly rather than making a sub-box. + +@<Declare math...@>= +static void make_fraction(pointer @!q) +{@+pointer p, @!v, @!x, @!y, @!z; /*temporary registers for box construction*/ +scaled @!delta, @!delta1, @!delta2, @!shift_up, @!shift_down, @!clr; + /*dimensions for box calculations*/ +if (thickness(q)==default_code) thickness(q)=default_rule_thickness; +@<Create equal-width boxes |x| and |z| for the numerator and denominator, and compute +the default amounts |shift_up| and |shift_down| by which they are displaced from the +baseline@>; +if (thickness(q)==0) @<Adjust \(s)|shift_up| and |shift_down| for the case of no fraction +line@>@; +else@<Adjust \(s)|shift_up| and |shift_down| for the case of a fraction line@>; +@<Construct a vlist box for the fraction, according to |shift_up| and |shift_down|@>; +@<Put the \(f)fraction into a box with its delimiters, and make |new_hlist(q)| point +to it@>; +} + +@ @<Create equal-width boxes |x| and |z| for the numerator and denom...@>= +x=clean_box(numerator(q), num_style(cur_style)); +z=clean_box(denominator(q), denom_style(cur_style)); +if (width(x) < width(z)) x=rebox(x, width(z)); +else z=rebox(z, width(x)); +if (cur_style < text_style) /*display style*/ + {@+shift_up=num1(cur_size);shift_down=denom1(cur_size); + } +else{@+shift_down=denom2(cur_size); + if (thickness(q)!=0) shift_up=num2(cur_size); + else shift_up=num3(cur_size); + } + +@ The numerator and denominator must be separated by a certain minimum +clearance, called |clr| in the following program. The difference between +|clr| and the actual clearance is twice |delta|. + +@<Adjust \(s)|shift_up| and |shift_down| for the case of no fraction line@>= +{@+if (cur_style < text_style) clr=7*default_rule_thickness; +else clr=3*default_rule_thickness; +delta=half(clr-((shift_up-depth(x))-(height(z)-shift_down))); +if (delta > 0) + {@+shift_up=shift_up+delta; + shift_down=shift_down+delta; + } +} + +@ In the case of a fraction line, the minimum clearance depends on the actual +thickness of the line. + +@<Adjust \(s)|shift_up| and |shift_down| for the case of a fraction line@>= +{@+if (cur_style < text_style) clr=3*thickness(q); +else clr=thickness(q); +delta=half(thickness(q)); +delta1=clr-((shift_up-depth(x))-(axis_height(cur_size)+delta)); +delta2=clr-((axis_height(cur_size)-delta)-(height(z)-shift_down)); +if (delta1 > 0) shift_up=shift_up+delta1; +if (delta2 > 0) shift_down=shift_down+delta2; +} + +@ @<Construct a vlist box for the fraction...@>= +v=new_null_box();type(v)=vlist_node; +height(v)=shift_up+height(x);depth(v)=depth(z)+shift_down; +width(v)=width(x); /*this also equals |width(z)|*/ +if (thickness(q)==0) + {@+p=new_kern((shift_up-depth(x))-(height(z)-shift_down)); + link(p)=z; + } +else{@+y=fraction_rule(thickness(q));@/ + p=new_kern((axis_height(cur_size)-delta)-@|(height(z)-shift_down));@/ + link(y)=p;link(p)=z;@/ + p=new_kern((shift_up-depth(x))-(axis_height(cur_size)+delta)); + link(p)=y; + } +link(x)=p;list_ptr(v)=x + +@ @<Put the \(f)fraction into a box with its delimiters...@>= +if (cur_style < text_style) delta=delim1(cur_size); +else delta=delim2(cur_size); +x=var_delimiter(left_delimiter(q), cur_size, delta);link(x)=v;@/ +z=var_delimiter(right_delimiter(q), cur_size, delta);link(v)=z;@/ +new_hlist(q)=hpack(x, natural) + +@ If the nucleus of an |op_noad| is a single character, it is to be +centered vertically with respect to the axis, after first being enlarged +(via a character list in the font) if we are in display style. The normal +convention for placing displayed limits is to put them above and below the +operator in display style. + +The italic correction is removed from the character if there is a subscript +and the limits are not being displayed. The |make_op| +routine returns the value that should be used as an offset between +subscript and superscript. + +After |make_op| has acted, |subtype(q)| will be |limits| if and only if +the limits have been set above and below the operator. In that case, +|new_hlist(q)| will already contain the desired final box. + +@<Declare math...@>= +static scaled make_op(pointer @!q) +{@+scaled delta; /*offset between subscript and superscript*/ +pointer @!p, @!v, @!x, @!y, @!z; /*temporary registers for box construction*/ +quarterword @!c;@+four_quarters @!i; /*registers for character examination*/ +scaled @!shift_up, @!shift_down; /*dimensions for box calculation*/ +if ((subtype(q)==normal)&&(cur_style < text_style)) + subtype(q)=limits; +if (math_type(nucleus(q))==math_char) + {@+fetch(nucleus(q)); + if ((cur_style < text_style)&&(char_tag(cur_i)==list_tag)) /*make it larger*/ + {@+c=rem_byte(cur_i);i=char_info(cur_f, c); + if (char_exists(i)) + {@+cur_c=c;cur_i=i;character(nucleus(q))=c; + } + } + delta=char_italic(cur_f, cur_i);x=clean_box(nucleus(q), cur_style); + if ((math_type(subscr(q))!=empty)&&(subtype(q)!=limits)) + width(x)=width(x)-delta; /*remove italic correction*/ + shift_amount(x)=half(height(x)-depth(x))-axis_height(cur_size); + /*center vertically*/ + math_type(nucleus(q))=sub_box;info(nucleus(q))=x; + } +else delta=0; +if (subtype(q)==limits) + @<Construct a box with limits above and below it, skewed by |delta|@>; +return delta; +} + +@ The following program builds a vlist box |v| for displayed limits. The +width of the box is not affected by the fact that the limits may be skewed. + +@<Construct a box with limits above and below it...@>= +{@+x=clean_box(supscr(q), sup_style(cur_style)); +y=clean_box(nucleus(q), cur_style); +z=clean_box(subscr(q), sub_style(cur_style)); +v=new_null_box();type(v)=vlist_node;width(v)=width(y); +if (width(x) > width(v)) width(v)=width(x); +if (width(z) > width(v)) width(v)=width(z); +x=rebox(x, width(v));y=rebox(y, width(v));z=rebox(z, width(v));@/ +shift_amount(x)=half(delta);shift_amount(z)=-shift_amount(x); +height(v)=height(y);depth(v)=depth(y); +@<Attach the limits to |y| and adjust |height(v)|, |depth(v)| to account for their +presence@>; +new_hlist(q)=v; +} + +@ We use |shift_up| and |shift_down| in the following program for the +amount of glue between the displayed operator |y| and its limits |x| and +|z|. The vlist inside box |v| will consist of |x| followed by |y| followed +by |z|, with kern nodes for the spaces between and around them. + +@<Attach the limits to |y| and adjust |height(v)|, |depth(v)|...@>= +if (math_type(supscr(q))==empty) + {@+list_ptr(x)=null; flush_node_list(x);list_ptr(v)=y; + } +else{@+shift_up=big_op_spacing3-depth(x); + if (shift_up < big_op_spacing1) shift_up=big_op_spacing1; + p=new_kern(shift_up);link(p)=y;link(x)=p;@/ + p=new_kern(big_op_spacing5);link(p)=x;list_ptr(v)=p; + height(v)=height(v)+big_op_spacing5+height(x)+depth(x)+shift_up; + } +if (math_type(subscr(q))==empty)@/ + {@+list_ptr(z)=null;@+flush_node_list(z);@+} +else{@+shift_down=big_op_spacing4-height(z); + if (shift_down < big_op_spacing2) shift_down=big_op_spacing2; + p=new_kern(shift_down);link(y)=p;link(p)=z;@/ + p=new_kern(big_op_spacing5);link(z)=p; + depth(v)=depth(v)+big_op_spacing5+height(z)+depth(z)+shift_down; + } + +@ A ligature found in a math formula does not create a |ligature_node|, because +there is no question of hyphenation afterwards; the ligature will simply be +stored in an ordinary |char_node|, after residing in an |ord_noad|. + +The |math_type| is converted to |math_text_char| here if we would not want to +apply an italic correction to the current character unless it belongs +to a math font (i.e., a font with |space==0|). + +No boundary characters enter into these ligatures. + +@<Declare math...@>= +static void make_ord(pointer @!q) +{@+ +int a; /*address of lig/kern instruction*/ +pointer @!p, @!r; /*temporary registers for list manipulation*/ +restart: @t@>@;@/ +if (math_type(subscr(q))==empty) if (math_type(supscr(q))==empty) + if (math_type(nucleus(q))==math_char) + {@+p=link(q); + if (p!=null) if ((type(p) >= ord_noad)&&(type(p) <= punct_noad)) + if (math_type(nucleus(p))==math_char) + if (fam(nucleus(p))==fam(nucleus(q))) + {@+math_type(nucleus(q))=math_text_char; + fetch(nucleus(q)); + if (char_tag(cur_i)==lig_tag) + {@+a=lig_kern_start(cur_f, cur_i); + cur_c=character(nucleus(p)); + cur_i=font_info[a].qqqq; + if (skip_byte(cur_i) > stop_flag) + {@+a=lig_kern_restart(cur_f, cur_i); + cur_i=font_info[a].qqqq; + } + loop@+{@+@<If instruction |cur_i| is a kern with |cur_c|, attach the kern +after~|q|; or if it is a ligature with |cur_c|, combine noads |q| and~|p| appropriately; +then |return| if the cursor has moved past a noad, or |goto restart|@>; + if (skip_byte(cur_i) >= stop_flag) return; + a=a+qo(skip_byte(cur_i))+1; + cur_i=font_info[a].qqqq; + } + } + } + } +} + +@ Note that a ligature between an |ord_noad| and another kind of noad +is replaced by an |ord_noad|, when the two noads collapse into one. +But we could make a parenthesis (say) change shape when it follows +certain letters. Presumably a font designer will define such +ligatures only when this convention makes sense. + +\chardef\@@='174 % vertical line to indicate character retention + +@<If instruction |cur_i| is a kern with |cur_c|,...@>= +if (next_char(cur_i)==cur_c) if (skip_byte(cur_i) <= stop_flag) + if (op_byte(cur_i) >= kern_flag) + {@+p=new_kern(char_kern(cur_f, cur_i)); + link(p)=link(q);link(q)=p;return; + } + else{@+check_interrupt; /*allow a way out of infinite ligature loop*/ + switch (op_byte(cur_i)) { + case qi(1): case qi(5): character(nucleus(q))=rem_byte(cur_i);@+break; /*\.{=:\@@}, \.{=:\@@>}*/ + case qi(2): case qi(6): character(nucleus(p))=rem_byte(cur_i);@+break; /*\.{\@@=:}, \.{\@@=:>}*/ + case qi(3): case qi(7): case qi(11): {@+r=new_noad(); /*\.{\@@=:\@@}, \.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ + character(nucleus(r))=rem_byte(cur_i); + fam(nucleus(r))=fam(nucleus(q));@/ + link(q)=r;link(r)=p; + if (op_byte(cur_i) < qi(11)) math_type(nucleus(r))=math_char; + else math_type(nucleus(r))=math_text_char; /*prevent combination*/ + } @+break; + default:{@+link(q)=link(p); + character(nucleus(q))=rem_byte(cur_i); /*\.{=:}*/ + mem[subscr(q)]=mem[subscr(p)];mem[supscr(q)]=mem[supscr(p)];@/ + free_node(p, noad_size); + } + } + if (op_byte(cur_i) > qi(3)) return; + math_type(nucleus(q))=math_char;goto restart; + } + +@ When we get to the following part of the program, we have ``fallen through'' +from cases that did not lead to |check_dimensions| or |done_with_noad| or +|done_with_node|. Thus, |q|~points to a noad whose nucleus may need to be +converted to an hlist, and whose subscripts and superscripts need to be +appended if they are present. + +If |nucleus(q)| is not a |math_char|, the variable |delta| is the amount +by which a superscript should be moved right with respect to a subscript +when both are present. +@^subscripts@> +@^superscripts@> + +@<Convert \(n)|nucleus(q)| to an hlist and attach the sub/superscripts@>= +switch (math_type(nucleus(q))) { +case math_char: case math_text_char: + @<Create a character node |p| for |nucleus(q)|, possibly followed by a kern node +for the italic correction, and set |delta| to the italic correction if a subscript +is present@>@;@+break; +case empty: p=null;@+break; +case sub_box: p=info(nucleus(q));@+break; +case sub_mlist: {@+cur_mlist=info(nucleus(q));save_style=cur_style; + mlist_penalties=false;mlist_to_hlist(); /*recursive call*/ +@^recursion@> + cur_style=save_style;@<Set up the values...@>; + p=hpack(link(temp_head), natural); + } @+break; +default:confusion("mlist2"); +@:this can't happen mlist2}{\quad mlist2@> +} @/ +new_hlist(q)=p; +if ((math_type(subscr(q))==empty)&&(math_type(supscr(q))==empty)) + goto check_dimensions; +make_scripts(q, delta) + +@ @<Create a character node |p| for |nucleus(q)|...@>= +{@+fetch(nucleus(q)); +if (char_exists(cur_i)) + {@+delta=char_italic(cur_f, cur_i);p=new_character(cur_f, qo(cur_c)); + if ((math_type(nucleus(q))==math_text_char)&&(space(cur_f)!=0)) + delta=0; /*no italic correction in mid-word of text font*/ + if ((math_type(subscr(q))==empty)&&(delta!=0)) + {@+link(p)=new_kern(delta);delta=0; + } + } +else p=null; +} + +@ The purpose of |make_scripts(q, delta)| is to attach the subscript and/or +superscript of noad |q| to the list that starts at |new_hlist(q)|, +given that the subscript and superscript aren't both empty. The superscript +will appear to the right of the subscript by a given distance |delta|. + +We set |shift_down| and |shift_up| to the minimum amounts to shift the +baseline of subscripts and superscripts based on the given nucleus. + +@<Declare math...@>= +static void make_scripts(pointer @!q, scaled @!delta) +{@+pointer p, @!x, @!y, @!z; /*temporary registers for box construction*/ +scaled @!shift_up, @!shift_down, @!clr; /*dimensions in the calculation*/ +small_number @!t; /*subsidiary size code*/ +p=new_hlist(q); +if (is_char_node(p)) + {@+shift_up=0;shift_down=0; + } +else{@+z=hpack(p, natural); + if (cur_style < script_style) t=script_size;@+else t=script_script_size; + shift_up=height(z)-sup_drop(t); + shift_down=depth(z)+sub_drop(t); + list_ptr(z)=null;flush_node_list(z); + } +if (math_type(supscr(q))==empty) + @<Construct a subscript box |x| when there is no superscript@>@; +else{@+@<Construct a superscript box |x|@>; + if (math_type(subscr(q))==empty) shift_amount(x)=-shift_up; + else@<Construct a sub/superscript combination box |x|, with the superscript offset +by |delta|@>; + } +if (new_hlist(q)==null) new_hlist(q)=x; +else{@+p=new_hlist(q); + while (link(p)!=null) p=link(p); + link(p)=x; + } +} + +@ When there is a subscript without a superscript, the top of the subscript +should not exceed the baseline plus four-fifths of the x-height. + +@<Construct a subscript box |x| when there is no superscript@>= +{@+x=clean_box(subscr(q), sub_style(cur_style)); +width(x)=width(x)+script_space; +if (shift_down < sub1(cur_size)) shift_down=sub1(cur_size); +clr=height(x)-(abs(math_x_height(cur_size)*4)/5); +if (shift_down < clr) shift_down=clr; +shift_amount(x)=shift_down; +} + +@ The bottom of a superscript should never descend below the baseline plus +one-fourth of the x-height. + +@<Construct a superscript box |x|@>= +{@+x=clean_box(supscr(q), sup_style(cur_style)); +width(x)=width(x)+script_space; +if (odd(cur_style)) clr=sup3(cur_size); +else if (cur_style < text_style) clr=sup1(cur_size); +else clr=sup2(cur_size); +if (shift_up < clr) shift_up=clr; +clr=depth(x)+(abs(math_x_height(cur_size))/4); +if (shift_up < clr) shift_up=clr; +} + +@ When both subscript and superscript are present, the subscript must be +separated from the superscript by at least four times |default_rule_thickness|. +If this condition would be violated, the subscript moves down, after which +both subscript and superscript move up so that the bottom of the superscript +is at least as high as the baseline plus four-fifths of the x-height. + +@<Construct a sub/superscript combination box |x|...@>= +{@+y=clean_box(subscr(q), sub_style(cur_style)); +width(y)=width(y)+script_space; +if (shift_down < sub2(cur_size)) shift_down=sub2(cur_size); +clr=4*default_rule_thickness- + ((shift_up-depth(x))-(height(y)-shift_down)); +if (clr > 0) + {@+shift_down=shift_down+clr; + clr=(abs(math_x_height(cur_size)*4)/5)-(shift_up-depth(x)); + if (clr > 0) + {@+shift_up=shift_up+clr; + shift_down=shift_down-clr; + } + } +shift_amount(x)=delta; /*superscript is |delta| to the right of the subscript*/ +p=new_kern((shift_up-depth(x))-(height(y)-shift_down));link(x)=p;link(p)=y; +x=vpack(x, natural);shift_amount(x)=shift_down; +} + +@ We have now tied up all the loose ends of the first pass of |mlist_to_hlist|. +The second pass simply goes through and hooks everything together with the +proper glue and penalties. It also handles the |left_noad| and |right_noad| that +might be present, since |max_h| and |max_d| are now known. Variable |p| points +to a node at the current end of the final hlist. + +@<Make a second pass over the mlist,...@>= +p=temp_head;link(p)=null;q=mlist;r_type=0;cur_style=style; +@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; +while (q!=null) + {@+@<If node |q| is a style node, change the style and |goto delete_q|; otherwise +if it is not a noad, put it into the hlist, advance |q|, and |goto done|; otherwise +set |s| to the size of noad |q|, set |t| to the associated type (|ord_noad.. inner_noad|), +and set |pen| to the associated penalty@>; + @<Append inter-element spacing based on |r_type| and |t|@>; + @<Append any |new_hlist| entries for |q|, and any appropriate penalties@>; + if (type(q)==right_noad) t=open_noad; + r_type=t; + delete_q: r=q;q=link(q);free_node(r, s); + done: ;} + +@ Just before doing the big |case| switch in the second pass, the program +sets up default values so that most of the branches are short. + +@<If node |q| is a style node, change the style...@>= +t=ord_noad;s=noad_size;pen=inf_penalty; +switch (type(q)) { +case op_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: t=type(q);@+break; +case bin_noad: {@+t=bin_noad;pen=bin_op_penalty; + } @+break; +case rel_noad: {@+t=rel_noad;pen=rel_penalty; + } @+break; +case ord_noad: case vcenter_noad: case over_noad: case under_noad: do_nothing;@+break; +case radical_noad: s=radical_noad_size;@+break; +case accent_noad: s=accent_noad_size;@+break; +case fraction_noad: s=fraction_noad_size;@+break; +case left_noad: case right_noad: t=make_left_right(q, style, max_d, max_h);@+break; +case style_node: @<Change the current style and |goto delete_q|@>@; +case whatsit_node: case penalty_node: case rule_node: case disc_node: case adjust_node: case ins_node: case mark_node: + case glue_node: case kern_node: @t@>@;@/ + {@+link(p)=q;p=q;q=link(q);link(p)=null;goto done; + } +default:confusion("mlist3"); +@:this can't happen mlist3}{\quad mlist3@> +} + +@ The |make_left_right| function constructs a left or right delimiter of +the required size and returns the value |open_noad| or |close_noad|. The +|right_noad| and |left_noad| will both be based on the original |style|, +so they will have consistent sizes. + +We use the fact that |right_noad-left_noad==close_noad-open_noad|. + +@<Declare math...@>= +static small_number make_left_right(pointer @!q, small_number @!style, + scaled @!max_d, scaled @!max_h) +{@+scaled delta, @!delta1, @!delta2; /*dimensions used in the calculation*/ +cur_style=style;@<Set up the values...@>; +delta2=max_d+axis_height(cur_size); +delta1=max_h+max_d-delta2; +if (delta2 > delta1) delta1=delta2; /*|delta1| is max distance from axis*/ +delta=(delta1/500)*delimiter_factor; +delta2=delta1+delta1-delimiter_shortfall; +if (delta < delta2) delta=delta2; +new_hlist(q)=var_delimiter(delimiter(q), cur_size, delta); +return type(q)-(left_noad-open_noad); /*|open_noad| or |close_noad|*/ +} + +@ @<Change the current style and |goto delete_q|@>= +{@+cur_style=subtype(q);s=style_node_size; +@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; +goto delete_q; +} + +@ The inter-element spacing in math formulas depends on an $8\times8$ table that +\TeX\ preloads as a 64-digit string. The elements of this string have the +following significance: +$$\vbox{\halign{#\hfil\cr +\.0 means no space;\cr +\.1 means a conditional thin space (\.{\\nonscript\\mskip\\thinmuskip});\cr +\.2 means a thin space (\.{\\mskip\\thinmuskip});\cr +\.3 means a conditional medium space + (\.{\\nonscript\\mskip\\medmuskip});\cr +\.4 means a conditional thick space + (\.{\\nonscript\\mskip\\thickmuskip});\cr +\.* means an impossible case.\cr}}$$ +This is all pretty cryptic, but {\sl The \TeX book\/} explains what is +supposed to happen, and the string makes it happen. +@:TeXbook}{\sl The \TeX book@> + +A global variable |magic_offset| is computed so that if |a| and |b| are +in the range |ord_noad dotdot inner_noad|, then |str_pool[a*8+b+magic_offset]| +is the digit for spacing between noad types |a| and |b|. + +If \PASCAL\ had provided a good way to preload constant arrays, this part of +the program would not have been so strange. +@:PASCAL}{\PASCAL@> + +@d math_spacing @;@/ +@t\hskip-35pt@> +"0234000122*4000133**3**344*0400400*000000234000111*1111112341011" +@t$ \hskip-35pt$@> + +@ @<Glob...@>= +static const int @!magic_offset=-9*ord_noad; /*used to find inter-element spacing*/ + +@ @<Append inter-element spacing based on |r_type| and |t|@>= +if (r_type > 0) /*not the first noad*/ + {@+switch (so(math_spacing[r_type*8+t+magic_offset])) { + case '0': x=0;@+break; + case '1': if (cur_style < script_style) x=thin_mu_skip_code;@+else x=0;@+break; + case '2': x=thin_mu_skip_code;@+break; + case '3': if (cur_style < script_style) x=med_mu_skip_code;@+else x=0;@+break; + case '4': if (cur_style < script_style) x=thick_mu_skip_code;@+else x=0;@+break; + default:confusion("mlist4"); +@:this can't happen mlist4}{\quad mlist4@> + } + if (x!=0) + {@+y=math_glue(glue_par(x), cur_mu); + z=new_glue(y);glue_ref_count(y)=null;link(p)=z;p=z;@/ + subtype(z)=x+1; /*store a symbolic subtype*/ + } + } + +@ We insert a penalty node after the hlist entries of noad |q| if |pen| +is not an ``infinite'' penalty, and if the node immediately following |q| +is not a penalty node or a |rel_noad| or absent entirely. + +@<Append any |new_hlist| entries for |q|, and any appropriate penalties@>= +if (new_hlist(q)!=null) + {@+link(p)=new_hlist(q); + @/do@+{p=link(p); + }@+ while (!(link(p)==null)); + } +if (penalties) if (link(q)!=null) if (pen < inf_penalty) + {@+r_type=type(link(q)); + if (r_type!=penalty_node) if (r_type!=rel_noad) + {@+z=new_penalty(pen);link(p)=z;p=z; + } + } + +@* Alignment. +It's sort of a miracle whenever \.{\\halign} and \.{\\valign} work, because +they cut across so many of the control structures of \TeX. + +Therefore the +present page is probably not the best place for a beginner to start reading +this program; it is better to master everything else first. + +Let us focus our thoughts on an example of what the input might be, in order +to get some idea about how the alignment miracle happens. The example doesn't +do anything useful, but it is sufficiently general to indicate all of the +special cases that must be dealt with; please do not be disturbed by its +apparent complexity and meaninglessness. +$$\vbox{\halign{\.{#}\hfil\cr +{}\\tabskip 2pt plus 3pt\cr +{}\\halign to 300pt\{u1\#v1\&\cr +\hskip 50pt\\tabskip 1pt plus 1fil u2\#v2\&\cr +\hskip 50pt u3\#v3\\cr\cr +\hskip 25pt a1\&\\omit a2\&\\vrule\\cr\cr +\hskip 25pt \\noalign\{\\vskip 3pt\}\cr +\hskip 25pt b1\\span b2\\cr\cr +\hskip 25pt \\omit\&c2\\span\\omit\\cr\}\cr}}$$ +Here's what happens: + +\yskip +(0) When `\.{\\halign to 300pt\{}' is scanned, the |scan_spec| routine +places the 300pt dimension onto the |save_stack|, and an |align_group| +code is placed above it. This will make it possible to complete the alignment +when the matching `\.\}' is found. + +(1) The preamble is scanned next. Macros in the preamble are not expanded, +@^preamble@> +except as part of a tabskip specification. For example, if \.{u2} had been +a macro in the preamble above, it would have been expanded, since \TeX\ +must look for `\.{minus...}' as part of the tabskip glue. A ``preamble list'' +is constructed based on the user's preamble; in our case it contains the +following seven items: +$$\vbox{\halign{\.{#}\hfil\qquad&(#)\hfil\cr +{}\\glue 2pt plus 3pt&the tabskip preceding column 1\cr +{}\\alignrecord, width $-\infty$&preamble info for column 1\cr +{}\\glue 2pt plus 3pt&the tabskip between columns 1 and 2\cr +{}\\alignrecord, width $-\infty$&preamble info for column 2\cr +{}\\glue 1pt plus 1fil&the tabskip between columns 2 and 3\cr +{}\\alignrecord, width $-\infty$&preamble info for column 3\cr +{}\\glue 1pt plus 1fil&the tabskip following column 3\cr}}$$ +These ``alignrecord'' entries have the same size as an |unset_node|, +since they will later be converted into such nodes. However, at the +moment they have no |type| or |subtype| fields; they have |info| fields +instead, and these |info| fields are initially set to the value |end_span|, +for reasons explained below. Furthermore, the alignrecord nodes have no +|height| or |depth| fields; these are renamed |u_part| and |v_part|, +and they point to token lists for the templates of the alignment. +For example, the |u_part| field in the first alignrecord points to the +token list `\.{u1}', i.e., the template preceding the `\.\#' for column~1. + +(2) \TeX\ now looks at what follows the \.{\\cr} that ended the preamble. +It is not `\.{\\noalign}' or `\.{\\omit}', so this input is put back to +be read again, and the template `\.{u1}' is fed to the scanner. Just +before reading `\.{u1}', \TeX\ goes into restricted horizontal mode. +Just after reading `\.{u1}', \TeX\ will see `\.{a1}', and then (when the +{\.\&} is sensed) \TeX\ will see `\.{v1}'. Then \TeX\ scans an |endv| +token, indicating the end of a column. At this point an |unset_node| is +created, containing the contents of the current hlist (i.e., `\.{u1a1v1}'). +The natural width of this unset node replaces the |width| field of the +alignrecord for column~1; in general, the alignrecords will record the +maximum natural width that has occurred so far in a given column. + +(3) Since `\.{\\omit}' follows the `\.\&', the templates for column~2 +are now bypassed. Again \TeX\ goes into restricted horizontal mode and +makes an |unset_node| from the resulting hlist; but this time the +hlist contains simply `\.{a2}'. The natural width of the new unset box +is remembered in the |width| field of the alignrecord for column~2. + +(4) A third |unset_node| is created for column 3, using essentially the +mechanism that worked for column~1; this unset box contains `\.{u3\\vrule +v3}'. The vertical rule in this case has running dimensions that will later +extend to the height and depth of the whole first row, since each |unset_node| +in a row will eventually inherit the height and depth of its enclosing box. + +(5) The first row has now ended; it is made into a single unset box +comprising the following seven items: +$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr +{}\\glue 2pt plus 3pt\cr +{}\\unsetbox for 1 column: u1a1v1\cr +{}\\glue 2pt plus 3pt\cr +{}\\unsetbox for 1 column: a2\cr +{}\\glue 1pt plus 1fil\cr +{}\\unsetbox for 1 column: u3\\vrule v3\cr +{}\\glue 1pt plus 1fil\cr}}$$ +The width of this unset row is unimportant, but it has the correct height +and depth, so the correct baselineskip glue will be computed as the row +is inserted into a vertical list. + +(6) Since `\.{\\noalign}' follows the current \.{\\cr}, \TeX\ appends +additional material (in this case \.{\\vskip 3pt}) to the vertical list. +While processing this material, \TeX\ will be in internal vertical +mode, and |no_align_group| will be on |save_stack|. + +(7) The next row produces an unset box that looks like this: +$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr +{}\\glue 2pt plus 3pt\cr +{}\\unsetbox for 2 columns: u1b1v1u2b2v2\cr +{}\\glue 1pt plus 1fil\cr +{}\\unsetbox for 1 column: {\rm(empty)}\cr +{}\\glue 1pt plus 1fil\cr}}$$ +The natural width of the unset box that spans columns 1~and~2 is stored +in a ``span node,'' which we will explain later; the |info| field of the +alignrecord for column~1 now points to the new span node, and the |info| +of the span node points to |end_span|. + +(8) The final row produces the unset box +$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr +{}\\glue 2pt plus 3pt\cr +{}\\unsetbox for 1 column: {\rm(empty)}\cr +{}\\glue 2pt plus 3pt\cr +{}\\unsetbox for 2 columns: u2c2v2\cr +{}\\glue 1pt plus 1fil\cr}}$$ +A new span node is attached to the alignrecord for column 2. + +(9) The last step is to compute the true column widths and to change all the +unset boxes to hboxes, appending the whole works to the vertical list that +encloses the \.{\\halign}. The rules for deciding on the final widths of +each unset column box will be explained below. + +\yskip\noindent +Note that as \.{\\halign} is being processed, we fearlessly give up control +to the rest of \TeX. At critical junctures, an alignment routine is +called upon to step in and do some little action, but most of the time +these routines just lurk in the background. It's something like +post-hypnotic suggestion. + +@ We have mentioned that alignrecords contain no |height| or |depth| fields. +Their |glue_sign| and |glue_order| are pre-empted as well, since it +is necessary to store information about what to do when a template ends. +This information is called the |extra_info| field. + +@d u_part(A) mem[A+height_offset].i /*pointer to \<u_j> token list*/ +@d v_part(A) mem[A+depth_offset].i /*pointer to \<v_j> token list*/ +@d extra_info(A) info(A+list_offset) /*info to remember during template*/ + +@ Alignments can occur within alignments, so a small stack is used to access +the alignrecord information. At each level we have a |preamble| pointer, +indicating the beginning of the preamble list; a |cur_align| pointer, +indicating the current position in the preamble list; a |cur_span| pointer, +indicating the value of |cur_align| at the beginning of a sequence of +spanned columns; a |cur_loop| pointer, indicating the tabskip glue before +an alignrecord that should be copied next if the current list is extended; +and the |align_state| variable, which indicates the nesting of braces so +that \.{\\cr} and \.{\\span} and tab marks are properly intercepted. +There also are pointers |cur_head| and |cur_tail| to the head and tail +of a list of adjustments being moved out from horizontal mode to +vertical~mode. + +The current values of these seven quantities appear in global variables; +when they have to be pushed down, they are stored in 5-word nodes, and +|align_ptr| points to the topmost such node. + +@d preamble link(align_head) /*the current preamble list*/ +@d align_stack_node_size 5 /*number of |mem| words to save alignment states*/ + +@<Glob...@>= +static pointer @!cur_align; /*current position in preamble list*/ +static pointer @!cur_span; /*start of currently spanned columns in preamble list*/ +static pointer @!cur_loop; /*place to copy when extending a periodic preamble*/ +static pointer @!align_ptr; /*most recently pushed-down alignment stack node*/ +static pointer @!cur_head, @!cur_tail; /*adjustment list pointers*/ + +@ The |align_state| and |preamble| variables are initialized elsewhere. + +@<Set init...@>= +align_ptr=null;cur_align=null;cur_span=null;cur_loop=null; +cur_head=null;cur_tail=null; + +@ Alignment stack maintenance is handled by a pair of trivial routines +called |push_alignment| and |pop_alignment|. + +@p static void push_alignment(void) +{@+pointer p; /*the new alignment stack node*/ +p=get_node(align_stack_node_size); +link(p)=align_ptr;info(p)=cur_align; +llink(p)=preamble;rlink(p)=cur_span; +mem[p+2].i=cur_loop;mem[p+3].i=align_state; +info(p+4)=cur_head;link(p+4)=cur_tail; +align_ptr=p; +cur_head=get_avail(); +} +@# +static void pop_alignment(void) +{@+pointer p; /*the top alignment stack node*/ +free_avail(cur_head); +p=align_ptr; +cur_tail=link(p+4);cur_head=info(p+4); +align_state=mem[p+3].i;cur_loop=mem[p+2].i; +cur_span=rlink(p);preamble=llink(p); +cur_align=info(p);align_ptr=link(p); +free_node(p, align_stack_node_size); +} + +@ \TeX\ has eight procedures that govern alignments: |init_align| and +|fin_align| are used at the very beginning and the very end; |init_row| and +|fin_row| are used at the beginning and end of individual rows; |init_span| +is used at the beginning of a sequence of spanned columns (possibly involving +only one column); |init_col| and |fin_col| are used at the beginning and +end of individual columns; and |align_peek| is used after \.{\\cr} to see +whether the next item is \.{\\noalign}. + +We shall consider these routines in the order they are first used during +the course of a complete \.{\\halign}, namely |init_align|, |align_peek|, +|init_row|, |init_span|, |init_col|, |fin_col|, |fin_row|, |fin_align|. + +@ When \.{\\halign} or \.{\\valign} has been scanned in an appropriate +mode, \TeX\ calls |init_align|, whose task is to get everything off to a +good start. This mostly involves scanning the preamble and putting its +information into the preamble list. +@^preamble@> + +@p @t\4@>@<Declare the procedure called |get_preamble_token|@>@t@>@/ +static void align_peek(void);@/ +static void normal_paragraph(void);@/ +static void init_align(void) +{@+ +pointer save_cs_ptr; /*|warning_index| value for error messages*/ +pointer @!p; /*for short-term temporary use*/ +save_cs_ptr=cur_cs; /*\.{\\halign} or \.{\\valign}, usually*/ +push_alignment();align_state=-1000000; /*enter a new alignment level*/ +@<Check for improper alignment in displayed math@>; +push_nest(); /*enter a new semantic level*/ +@<Change current mode to |-vmode| for \.{\\halign}, |-hmode| for \.{\\valign}@>; +scan_spec(align_group, false);@/ +@<Scan the preamble and record it in the |preamble| list@>; +new_save_level(align_group); +if (every_cr!=null) begin_token_list(every_cr, every_cr_text); +align_peek(); /*look for \.{\\noalign} or \.{\\omit}*/ +} + +@ In vertical modes, |prev_depth| already has the correct value. But +if we are in |mmode| (displayed formula mode), we reach out to the +enclosing vertical mode for the |prev_depth| value that produces the +correct baseline calculations. + +@<Change current mode...@>= +if (mode==mmode) + {@+mode=-vmode;prev_depth=nest[nest_ptr-2].aux_field.sc; + } +else if (mode > 0) negate(mode) + +@ When \.{\\halign} is used as a displayed formula, there should be +no other pieces of mlists present. + +@<Check for improper alignment in displayed math@>= +if ((mode==mmode)&&((tail!=head)||(incompleat_noad!=null))) + {@+print_err("Improper ");print_esc("halign");print(" inside $$'s"); +@.Improper \\halign...@> + help3("Displays can use special alignments (like \\eqalignno)",@/ + "only if nothing but the alignment itself is between $$'s.",@/ + "So I've deleted the formulas that preceded this alignment."); + error();flush_math(); + } + +@ @<Scan the preamble and record it in the |preamble| list@>= +preamble=null;cur_align=align_head;cur_loop=null;scanner_status=aligning; +warning_index=save_cs_ptr;align_state=-1000000; + /*at this point, |cur_cmd==left_brace|*/ +loop@+{@+@<Append the current tabskip glue to the preamble list@>; + if (cur_cmd==car_ret) goto done; /*\.{\\cr} ends the preamble*/ + @<Scan preamble text until |cur_cmd| is |tab_mark| or |car_ret|, looking for changes +in the tabskip glue; append an alignrecord to the preamble list@>; + } +done: scanner_status=normal + +@ @<Append the current tabskip glue to the preamble list@>= +link(cur_align)=new_param_glue(tab_skip_code); +cur_align=link(cur_align) + +@ @<Scan preamble text until |cur_cmd| is |tab_mark| or |car_ret|...@>= +@<Scan the template \<u_j>, putting the resulting token list in |hold_head|@>; +link(cur_align)=new_null_box();cur_align=link(cur_align); /*a new alignrecord*/ +info(cur_align)=end_span;width(cur_align)=null_flag; +u_part(cur_align)=link(hold_head); +@<Scan the template \<v_j>, putting the resulting token list in |hold_head|@>; +v_part(cur_align)=link(hold_head) + +@ We enter `\.{\\span}' into |eqtb| with |tab_mark| as its command code, +and with |span_code| as the command modifier. This makes \TeX\ interpret it +essentially the same as an alignment delimiter like `\.\&', yet it is +recognizably different when we need to distinguish it from a normal delimiter. +It also turns out to be useful to give a special |cr_code| to `\.{\\cr}', +and an even larger |cr_cr_code| to `\.{\\crcr}'. + +The end of a template is represented by two ``frozen'' control sequences +called \.{\\endtemplate}. The first has the command code |end_template|, which +is | > outer_call|, so it will not easily disappear in the presence of errors. +The |get_x_token| routine converts the first into the second, which has |endv| +as its command code. + +@d span_code 256 /*distinct from any character*/ +@d cr_code 257 /*distinct from |span_code| and from any character*/ +@d cr_cr_code (cr_code+1) /*this distinguishes \.{\\crcr} from \.{\\cr}*/ +@d end_template_token cs_token_flag+frozen_end_template + +@<Put each of \TeX's primitives into the hash table@>= +primitive("span", tab_mark, span_code);@/ +@!@:span\_}{\.{\\span} primitive@> +primitive("cr", car_ret, cr_code); +@!@:cr\_}{\.{\\cr} primitive@> +text(frozen_cr)=text(cur_val);eqtb[frozen_cr]=eqtb[cur_val];@/ +primitive("crcr", car_ret, cr_cr_code); +@!@:cr\_cr\_}{\.{\\crcr} primitive@> +text(frozen_end_template)=text(frozen_endv)=s_no("endtemplate"); +@.endtemplate@> +eq_type(frozen_endv)=endv;equiv(frozen_endv)=null_list; +eq_level(frozen_endv)=level_one;@/ +eqtb[frozen_end_template]=eqtb[frozen_endv]; +eq_type(frozen_end_template)=end_template; + +@ @<Cases of |print_cmd_chr|...@>= +case tab_mark: if (chr_code==span_code) print_esc("span"); + else chr_cmd("alignment tab character ")@;@+break; +case car_ret: if (chr_code==cr_code) print_esc("cr"); + else print_esc("crcr");@+break; + +@ The preamble is copied directly, except that \.{\\tabskip} causes a change +to the tabskip glue, thereby possibly expanding macros that immediately +follow it. An appearance of \.{\\span} also causes such an expansion. + +Note that if the preamble contains `\.{\\global\\tabskip}', the `\.{\\global}' +token survives in the preamble and the `\.{\\tabskip}' defines new +tabskip glue (locally). + +@<Declare the procedure called |get_preamble_token|@>= +static void get_preamble_token(void) +{@+ +restart: get_token(); +while ((cur_chr==span_code)&&(cur_cmd==tab_mark)) + {@+get_token(); /*this token will be expanded once*/ + if (cur_cmd > max_command) + {@+expand();get_token(); + } + } +if (cur_cmd==endv) + fatal_error("(interwoven alignment preambles are not allowed)"); +@.interwoven alignment preambles...@> +if ((cur_cmd==assign_glue)&&(cur_chr==glue_base+tab_skip_code)) + {@+scan_optional_equals();scan_glue(glue_val); + if (global_defs > 0) geq_define(glue_base+tab_skip_code, glue_ref, cur_val); + else eq_define(glue_base+tab_skip_code, glue_ref, cur_val); + goto restart; + } +} + +@ Spaces are eliminated from the beginning of a template. + +@<Scan the template \<u_j>...@>= +p=hold_head;link(p)=null; +loop@+{@+get_preamble_token(); + if (cur_cmd==mac_param) goto done1; + if ((cur_cmd <= car_ret)&&(cur_cmd >= tab_mark)&&(align_state==-1000000)) + if ((p==hold_head)&&(cur_loop==null)&&(cur_cmd==tab_mark) + ) cur_loop=cur_align; + else{@+print_err("Missing # inserted in alignment preamble"); +@.Missing \# inserted...@> + help3("There should be exactly one # between &'s, when an",@/ + "\\halign or \\valign is being set up. In this case you had",@/ + "none, so I've put one in; maybe that will work."); + back_error();goto done1; + } + else if ((cur_cmd!=spacer)||(p!=hold_head)) + {@+link(p)=get_avail();p=link(p);info(p)=cur_tok; + } + } +done1: + +@ @<Scan the template \<v_j>...@>= +p=hold_head;link(p)=null; +loop@+{@+resume: get_preamble_token(); + if ((cur_cmd <= car_ret)&&(cur_cmd >= tab_mark)&&(align_state==-1000000)) + goto done2; + if (cur_cmd==mac_param) + {@+print_err("Only one # is allowed per tab"); +@.Only one \# is allowed...@> + help3("There should be exactly one # between &'s, when an",@/ + "\\halign or \\valign is being set up. In this case you had",@/ + "more than one, so I'm ignoring all but the first."); + error();goto resume; + } + link(p)=get_avail();p=link(p);info(p)=cur_tok; + } +done2: link(p)=get_avail();p=link(p); +info(p)=end_template_token /*put \.{\\endtemplate} at the end*/ + +@ The tricky part about alignments is getting the templates into the +scanner at the right time, and recovering control when a row or column +is finished. + +We usually begin a row after each \.{\\cr} has been sensed, unless that +\.{\\cr} is followed by \.{\\noalign} or by the right brace that terminates +the alignment. The |align_peek| routine is used to look ahead and do +the right thing; it either gets a new row started, or gets a \.{\\noalign} +started, or finishes off the alignment. + +@<Declare the procedure called |align_peek|@>= +static void align_peek(void) +{@+ +restart: align_state=1000000; +@/do@+{get_x_or_protected(); +}@+ while (!(cur_cmd!=spacer)); +if (cur_cmd==no_align) + {@+scan_left_brace();new_save_level(no_align_group); + if (mode==-vmode) normal_paragraph(); + } +else if (cur_cmd==right_brace) fin_align(); +else if ((cur_cmd==car_ret)&&(cur_chr==cr_cr_code)) + goto restart; /*ignore \.{\\crcr}*/ +else{@+init_row(); /*start a new row*/ + init_col(); /*start a new column and replace what we peeked at*/ + } +} + +@ To start a row (i.e., a `row' that rhymes with `dough' but not with `bough'), +we enter a new semantic level, copy the first tabskip glue, and change +from internal vertical mode to restricted horizontal mode or vice versa. +The |space_factor| and |prev_depth| are not used on this semantic level, +but we clear them to zero just to be tidy. + +@p @t\4@>@<Declare the procedure called |init_span|@>@t@>@/ +static void init_row(void) +{@+push_nest();mode=(-hmode-vmode)-mode; +if (mode==-hmode) space_factor=0;@+else prev_depth=0; +tail_append(new_glue(glue_ptr(preamble))); +subtype(tail)=tab_skip_code+1;@/ +cur_align=link(preamble);cur_tail=cur_head;init_span(cur_align); +} + +@ The parameter to |init_span| is a pointer to the alignrecord where the +next column or group of columns will begin. A new semantic level is +entered, so that the columns will generate a list for subsequent packaging. + +@<Declare the procedure called |init_span|@>= +static void init_span(pointer @!p) +{@+push_nest(); +if (mode==-hmode) space_factor=1000; +else{@+prev_depth=ignore_depth;normal_paragraph(); + } +cur_span=p; +} + +@ When a column begins, we assume that |cur_cmd| is either |omit| or else +the current token should be put back into the input until the \<u_j> +template has been scanned. (Note that |cur_cmd| might be |tab_mark| or +|car_ret|.) We also assume that |align_state| is approximately 1000000 at +this time. We remain in the same mode, and start the template if it is +called for. + +@p static void init_col(void) +{@+extra_info(cur_align)=cur_cmd; +if (cur_cmd==omit) align_state=0; +else{@+back_input();begin_token_list(u_part(cur_align), u_template); + } /*now |align_state==1000000|*/ +} + +@ The scanner sets |align_state| to zero when the \<u_j> template ends. When +a subsequent \.{\\cr} or \.{\\span} or tab mark occurs with |align_state==0|, +the scanner activates the following code, which fires up the \<v_j> template. +We need to remember the |cur_chr|, which is either |cr_cr_code|, |cr_code|, +|span_code|, or a character code, depending on how the column text has ended. + +This part of the program had better not be activated when the preamble +to another alignment is being scanned, or when no alignment preamble is active. + +@<Insert the \(v)\<v_j>...@>= +{@+if ((scanner_status==aligning)||(cur_align==null)) + fatal_error("(interwoven alignment preambles are not allowed)"); +@.interwoven alignment preambles...@> +cur_cmd=extra_info(cur_align);extra_info(cur_align)=cur_chr; +if (cur_cmd==omit) begin_token_list(omit_template, v_template); +else begin_token_list(v_part(cur_align), v_template); +align_state=1000000;goto restart; +} + +@ The token list |omit_template| just referred to is a constant token +list that contains the special control sequence \.{\\endtemplate} only. + +@<Initialize the special...@>= +info(omit_template)=end_template_token; /*|link(omit_template)==null|*/ + +@ When the |endv| command at the end of a \<v_j> template comes through the +scanner, things really start to happen; and it is the |fin_col| routine +that makes them happen. This routine returns |true| if a row as well as a +column has been finished. + +@p static bool fin_col(void) +{@+ +pointer p; /*the alignrecord after the current one*/ +pointer @!q, @!r; /*temporary pointers for list manipulation*/ +pointer @!s; /*a new span node*/ +pointer @!u; /*a new unset box*/ +scaled @!w; /*natural width*/ +glue_ord @!o; /*order of infinity*/ +halfword @!n; /*span counter*/ +if (cur_align==null) confusion("endv"); +q=link(cur_align);@+if (q==null) confusion("endv"); +@:this can't happen endv}{\quad endv@> +if (align_state < 500000) + fatal_error("(interwoven alignment preambles are not allowed)"); +@.interwoven alignment preambles...@> +p=link(q); +@<If the preamble list has been traversed, check that the row has ended@>; +if (extra_info(cur_align)!=span_code) + {@+unsave();new_save_level(align_group);@/ + @<Package an unset box for the current column and record its width@>; + @<Copy the tabskip glue between columns@>; + if (extra_info(cur_align) >= cr_code) + {@+return true; + } + init_span(p); + } +align_state=1000000; +@/do@+{get_x_or_protected(); +}@+ while (!(cur_cmd!=spacer)); +cur_align=p; +init_col();return false; +} + +@ @<If the preamble list has been traversed, check that the row has ended@>= +if ((p==null)&&(extra_info(cur_align) < cr_code)) + if (cur_loop!=null) @<Lengthen the preamble periodically@>@; + else{@+print_err("Extra alignment tab has been changed to "); +@.Extra alignment tab...@> + print_esc("cr"); + help3("You have given more \\span or & marks than there were",@/ + "in the preamble to the \\halign or \\valign now in progress.",@/ + "So I'll assume that you meant to type \\cr instead."); + extra_info(cur_align)=cr_code;error(); + } + +@ @<Lengthen the preamble...@>= +{@+link(q)=new_null_box();p=link(q); /*a new alignrecord*/ +info(p)=end_span;width(p)=null_flag;cur_loop=link(cur_loop); +@<Copy the templates from node |cur_loop| into node |p|@>; +cur_loop=link(cur_loop); +link(p)=new_glue(glue_ptr(cur_loop)); +subtype(link(p))=tab_skip_code+1; +} + +@ @<Copy the templates from node |cur_loop| into node |p|@>= +q=hold_head;r=u_part(cur_loop); +while (r!=null) + {@+link(q)=get_avail();q=link(q);info(q)=info(r);r=link(r); + } +link(q)=null;u_part(p)=link(hold_head); +q=hold_head;r=v_part(cur_loop); +while (r!=null) + {@+link(q)=get_avail();q=link(q);info(q)=info(r);r=link(r); + } +link(q)=null;v_part(p)=link(hold_head) + +@ @<Copy the tabskip glue...@>= +tail_append(new_glue(glue_ptr(link(cur_align)))); +subtype(tail)=tab_skip_code+1 + +@ @<Package an unset...@>= +{@+if (mode==-hmode) + {@+adjust_tail=cur_tail;u=hpack(link(head), natural); + if (type(u)==hlist_node) w=width(u); + else w=max_dimen+1; + cur_tail=adjust_tail;adjust_tail=null; + } +else{@+u=vpackage(link(head), natural, 0); + if (type(u)==vlist_node) w=height(u); + else w=max_dimen+1; + } +n=min_quarterword; /*this represents a span count of 1*/ +if (cur_span!=cur_align) @<Update width entry for spanned columns@>@; +else if (w > width(cur_align)) width(cur_align)=w; +if (type(u)==whatsit_node) +{ if (subtype(u)==hset_node ||subtype(u)==vset_node) type(u)=unset_set_node; + else type(u)=unset_pack_node; + span_count(u)=n; +} +else if (type(u)==hlist_node ||type(u)==vlist_node) +{ type(u)=unset_node;span_count(u)=n; +@<Determine the stretch order@>; +glue_order(u)=o;glue_stretch(u)=total_stretch[o];@/ +@<Determine the shrink order@>; +glue_sign(u)=o;glue_shrink(u)=total_shrink[o];@/ +} +pop_nest();link(tail)=u;tail=u; +} + +@ A span node is a 2-word record containing |width|, |info|, and |link| +fields. The |link| field is not really a link, it indicates the number of +spanned columns; the |info| field points to a span node for the same +starting column, having a greater extent of spanning, or to |end_span|, +which has the largest possible |link| field; the |width| field holds the +largest natural width corresponding to a particular set of spanned columns. + +A list of the maximum widths so far, for spanned columns starting at a +given column, begins with the |info| field of the alignrecord for that +column. + +@d span_node_size 2 /*number of |mem| words for a span node*/ + +@<Initialize the special list heads...@>= +link(end_span)=max_quarterword+1;info(end_span)=null; + +@ @<Update width entry for spanned columns@>= +{@+q=cur_span; +@/do@+{incr(n);q=link(link(q)); +}@+ while (!(q==cur_align)); +if (n > max_quarterword) confusion("256 spans"); /*this can happen, but won't*/ +@^system dependencies@> +@:this can't happen 256 spans}{\quad 256 spans@> +q=cur_span;while (link(info(q)) < n) q=info(q); +if (link(info(q)) > n) + {@+s=get_node(span_node_size);info(s)=info(q);link(s)=n; + info(q)=s;width(s)=w; + } +else if (width(info(q)) < w) width(info(q))=w; +} + +@ At the end of a row, we append an unset box to the current vlist (for +\.{\\halign}) or the current hlist (for \.{\\valign}). This unset box +contains the unset boxes for the columns, separated by the tabskip glue. +Everything will be set later. + +@p static void fin_row(void) +{@+pointer p; /*the new unset box*/ +if (mode==-hmode) + {@+p=hpack(link(head), natural); + pop_nest();append_to_vlist(p); + if (cur_head!=cur_tail) + {@+link(tail)=link(cur_head);tail=cur_tail; + } + } +else{@+p=vpack(link(head), natural);pop_nest(); + link(tail)=p;tail=p;space_factor=1000; + } +type(p)=unset_node;glue_stretch(p)=0; +if (every_cr!=null) begin_token_list(every_cr, every_cr_text); +align_peek(); +} /*note that |glue_shrink(p)==0| since |glue_shrink====shift_amount|*/ + +@ Finally, we will reach the end of the alignment, and we can breathe a +sigh of relief that memory hasn't overflowed. All the unset boxes will now be +set so that the columns line up, taking due account of spanned columns. + +@p static void do_assignments(void);@/ +static void resume_after_display(void);@/ +static void build_page(void);@/ +static void fin_align(void) +{@+pointer @!p, @!q, @!r, @!s, @!u, @!v; /*registers for the list operations*/ +scaled @!t, @!w; /*width of column*/ +bool x=false; /* indicates an extende alignment */ +scaled @!o; /*shift offset for unset boxes*/ +halfword @!n; /*matching span amount*/ +scaled @!rule_save; /*temporary storage for |overfull_rule|*/ +memory_word @!aux_save; /*temporary storage for |aux|*/ +if (cur_group!=align_group) confusion("align1"); +@:this can't happen align}{\quad align@> +unsave(); /*that |align_group| was for individual entries*/ +if (cur_group!=align_group) confusion("align0"); +unsave(); /*that |align_group| was for the whole alignment*/ +if (nest[nest_ptr-1].mode_field==mmode) o=display_indent; + else o=0; +@<Go through the preamble list, determining the column widths and changing the alignrecords +to dummy unset boxes@>; +if (x) +{ @<Handle an alignment that depends on |hsize| or |vsize|@>@; + pop_alignment(); +} +else +{ @<Package the preamble list, to determine the actual tabskip glue amounts, and let + |p| point to this prototype box@>; + @<Set the glue in all the unset boxes of the current list@>; + flush_node_list(p);pop_alignment(); +} +@<Insert the \(c)current list into its environment@>; +} @/ +@t\4@>@<Declare the procedure called |align_peek|@>@; +@ @<Handle an alignment that depends on |hsize| or |vsize|@>= + pointer r=get_node(align_node_size); + save_ptr=save_ptr-2;pack_begin_line=-mode_line; + + type(r)=whatsit_node; subtype(r)=align_node; + align_preamble(r)=preamble; + align_list(r)=link(head); + align_extent(r)=new_xdimen(saved(1),saved_hfactor(1),saved_vfactor(1)); + align_m(r)= saved(0); + align_v(r)= (mode!=-vmode); + link(head)=r; tail=r; + pack_begin_line=0; + +@ It's time now to dismantle the preamble list and to compute the column +widths. Let $w_{ij}$ be the maximum of the natural widths of all entries +that span columns $i$ through $j$, inclusive. The alignrecord for column~$i$ +contains $w_{ii}$ in its |width| field, and there is also a linked list of +the nonzero $w_{ij}$ for increasing $j$, accessible via the |info| field; +these span nodes contain the value $j-i+|min_quarterword|$ in their +|link| fields. The values of $w_{ii}$ were initialized to |null_flag|, which +we regard as $-\infty$. + +The final column widths are defined by the formula +$$w_j=\max_{1\le i\le j}\biggl( w_{ij}-\sum_{i\le k<j}(t_k+w_k)\biggr),$$ +where $t_k$ is the natural width of the tabskip glue between columns +$k$ and~$k+1$. However, if $w_{ij}=-\infty$ for all |i| in the range +|1 <= i <= j| (i.e., if every entry that involved column~|j| also involved +column~|j+1|), we let $w_j=0$, and we zero out the tabskip glue after +column~|j|. + +\TeX\ computes these values by using the following scheme: First $w_1=w_{11}$. +Then replace $w_{2j}$ by $\max(w_{2j},w_{1j}-t_1-w_1)$, for all $j>1$. +Then $w_2=w_{22}$. Then replace $w_{3j}$ by $\max(w_{3j},w_{2j}-t_2-w_2)$ +for all $j>2$; and so on. If any $w_j$ turns out to be $-\infty$, its +value is changed to zero and so is the next tabskip. + +@<Go through the preamble list,...@>= +q=link(preamble); +@/do@+{flush_list(u_part(q));flush_list(v_part(q)); +p=link(link(q)); +if (width(q)==null_flag) + @<Nullify |width(q)| and the tabskip glue following this column@>; +if (info(q)!=end_span) + @<Merge the widths in the span nodes of |q| with those of |p|, destroying the span +nodes of |q|@>; +type(q)=unset_node;span_count(q)=min_quarterword;height(q)=0; +depth(q)=0;glue_order(q)=normal;glue_sign(q)=normal; +glue_stretch(q)=0;glue_shrink(q)=0;q=p; + if (width(q)>max_dimen) x=true; +}@+ while (!(q==null)) + +@ @<Nullify |width(q)| and the tabskip glue following this column@>= +{@+width(q)=0;r=link(q);s=glue_ptr(r); +if (s!=zero_glue) + {@+add_glue_ref(zero_glue);delete_glue_ref(s); + glue_ptr(r)=zero_glue; + } +} + +@ Merging of two span-node lists is a typical exercise in the manipulation of +linearly linked data structures. The essential invariant in the following +|@/do@+{| loop is that we want to dispense with node |r|, in |q|'s list, +and |u| is its successor; all nodes of |p|'s list up to and including |s| +have been processed, and the successor of |s| matches |r| or precedes |r| +or follows |r|, according as |link(r)==n| or |link(r) > n| or |link(r) < n|. + +@<Merge the widths...@>= +{@+t=width(q)+width(glue_ptr(link(q))); +r=info(q);s=end_span;info(s)=p;n=min_quarterword+1; +@/do@+{width(r)=width(r)-t;u=info(r); +while (link(r) > n) + {@+s=info(s);n=link(info(s))+1; + } +if (link(r) < n) + {@+info(r)=info(s);info(s)=r;decr(link(r));s=r; + } +else{@+if (width(r) > width(info(s))) width(info(s))=width(r); + free_node(r, span_node_size); + } +r=u; +}@+ while (!(r==end_span)); +} + +@ Now the preamble list has been converted to a list of alternating unset +boxes and tabskip glue, where the box widths are equal to the final +column sizes. In case of \.{\\valign}, we change the widths to heights, +so that a correct error message will be produced if the alignment is +overfull or underfull. + +@<Package the preamble list...@>= +save_ptr=save_ptr-2;pack_begin_line=-mode_line; +if (mode==-vmode) + {@+rule_save=overfull_rule; + overfull_rule=0; /*prevent rule from being packaged*/ + p=hpack(preamble, saved(1), saved_hfactor(1), saved_vfactor(1), saved(0));overfull_rule=rule_save; + } +else{@+q=link(preamble); + @/do@+{height(q)=width(q);width(q)=0;q=link(link(q)); + }@+ while (!(q==null)); + p=vpack(preamble, saved(1), saved_hfactor(1), saved_vfactor(1), saved(0)); + q=link(preamble); + @/do@+{width(q)=height(q);height(q)=0;q=link(link(q)); + }@+ while (!(q==null)); + } +pack_begin_line=0 + +@ @<Set the glue in all the unset...@>= +q=link(head);s=head; +while (q!=null) + {@+if (!is_char_node(q)) + if (type(q)==unset_node) + @<Set the unset box |q| and the unset boxes in it@>@; + else if (type(q)==rule_node) + @<Make the running dimensions in rule |q| extend to the boundaries of the alignment@>; + s=q;q=link(q); + } + +@ @<Make the running dimensions in rule |q| extend...@>= +{@+if (is_running(width(q))) width(q)=width(p); +if (is_running(height(q))) height(q)=height(p); +if (is_running(depth(q))) depth(q)=depth(p); +if (o!=0) + {@+r=link(q);link(q)=null;q=hpack(q, natural); + shift_amount(q)=o;link(q)=r;link(s)=q; + } +} + +@ The unset box |q| represents a row that contains one or more unset boxes, +depending on how soon \.{\\cr} occurred in that row. + +@<Set the unset box |q| and the unset boxes in it@>= +{@+if (mode==-vmode) + {@+type(q)=hlist_node;width(q)=width(p); + } +else{@+type(q)=vlist_node;height(q)=height(p); + } +glue_order(q)=glue_order(p);glue_sign(q)=glue_sign(p); +glue_set(q)=glue_set(p);shift_amount(q)=o; +r=link(list_ptr(q));s=link(list_ptr(p)); +@/do@+{@<Set the glue in node |r| and change it from an unset node@>; +r=link(link(r));s=link(link(s)); +}@+ while (!(r==null)); +} + +@ A box made from spanned columns will be followed by tabskip glue nodes and +by empty boxes as if there were no spanning. This permits perfect alignment +of subsequent entries, and it prevents values that depend on floating point +arithmetic from entering into the dimensions of any boxes. + +@<Set the glue in node |r|...@>= +n=span_count(r);t=width(s);w=t;u=hold_head; +while (n > min_quarterword) + {@+decr(n); + @<Append tabskip glue and an empty box to list |u|, and update |s| and |t| as the +prototype nodes are passed@>; + } +if (mode==-vmode) + @<Make the unset node |r| into an |hlist_node| of width |w|, setting the glue as +if the width were |t|@>@; +else@<Make the unset node |r| into a |vlist_node| of height |w|, setting the glue +as if the height were |t|@>; +shift_amount(r)=0; +if (u!=hold_head) /*append blank boxes to account for spanned nodes*/ + {@+link(u)=link(r);link(r)=link(hold_head);r=u; + } + +@ @<Append tabskip glue and an empty box to list |u|...@>= +s=link(s);v=glue_ptr(s);link(u)=new_glue(v);u=link(u); +subtype(u)=tab_skip_code+1;t=t+width(v); +if (glue_sign(p)==stretching) + {@+if (stretch_order(v)==glue_order(p)) + t=t+round(float(glue_set(p))*stretch(v)); +@^real multiplication@> + } +else if (glue_sign(p)==shrinking) + {@+if (shrink_order(v)==glue_order(p)) + t=t-round(float(glue_set(p))*shrink(v)); + } +s=link(s);link(u)=new_null_box();u=link(u);t=t+width(s); +if (mode==-vmode) width(u)=width(s);@+else + {@+type(u)=vlist_node;height(u)=width(s); + } + +@ @<Make the unset node |r| into an |hlist_node| of width |w|...@>= +{@+height(r)=height(q);depth(r)=depth(q); +if (t==width(r)) + {@+glue_sign(r)=normal;glue_order(r)=normal; + set_glue_ratio_zero(glue_set(r)); + } +else if (t > width(r)) + {@+glue_sign(r)=stretching; + if (glue_stretch(r)==0) set_glue_ratio_zero(glue_set(r)); + else glue_set(r)=unfloat((t-width(r))/(double)glue_stretch(r)); +@^real division@> + } +else{@+glue_order(r)=glue_sign(r);glue_sign(r)=shrinking; + if (glue_shrink(r)==0) set_glue_ratio_zero(glue_set(r)); + else if ((glue_order(r)==normal)&&(width(r)-t > glue_shrink(r))) + set_glue_ratio_one(glue_set(r)); + else glue_set(r)=unfloat((width(r)-t)/(double)glue_shrink(r)); + } +width(r)=w;type(r)=hlist_node; +} + +@ @<Make the unset node |r| into a |vlist_node| of height |w|...@>= +{@+width(r)=width(q); +if (t==height(r)) + {@+glue_sign(r)=normal;glue_order(r)=normal; + set_glue_ratio_zero(glue_set(r)); + } +else if (t > height(r)) + {@+glue_sign(r)=stretching; + if (glue_stretch(r)==0) set_glue_ratio_zero(glue_set(r)); + else glue_set(r)=unfloat((t-height(r))/(double)glue_stretch(r)); +@^real division@> + } +else{@+glue_order(r)=glue_sign(r);glue_sign(r)=shrinking; + if (glue_shrink(r)==0) set_glue_ratio_zero(glue_set(r)); + else if ((glue_order(r)==normal)&&(height(r)-t > glue_shrink(r))) + set_glue_ratio_one(glue_set(r)); + else glue_set(r)=unfloat((height(r)-t)/(double)glue_shrink(r)); + } +height(r)=w;type(r)=vlist_node; +} + +@ We now have a completed alignment, in the list that starts at |head| +and ends at |tail|. This list will be merged with the one that encloses +it. (In case the enclosing mode is |mmode|, for displayed formulas, +we will need to insert glue before and after the display; that part of the +program will be deferred until we're more familiar with such operations.) + +In restricted horizontal mode, the |clang| part of |aux| is undefined; +an over-cautious \PASCAL\ runtime system may complain about this. +@^dirty \PASCAL@> + +@<Insert the \(c)current list into its environment@>= +aux_save=aux;p=link(head);q=tail;pop_nest(); +if (mode==mmode) @<Finish an alignment in a display@>@; +else{@+aux=aux_save;link(tail)=p; + if (p!=null) tail=q; + if (mode==vmode) build_page(); + } + +@* Breaking paragraphs into lines. +We come now to what is probably the most interesting algorithm of \TeX: +the mechanism for choosing the ``best possible'' breakpoints that yield +the individual lines of a paragraph. \TeX's line-breaking algorithm takes +a given horizontal list and converts it to a sequence of boxes that are +appended to the current vertical list. In the course of doing this, it +creates a special data structure containing three kinds of records that are +not used elsewhere in \TeX. Such nodes are created while a paragraph is +being processed, and they are destroyed afterwards; thus, the other parts +of \TeX\ do not need to know anything about how line-breaking is done. + +The method used here is based on an approach devised by Michael F. Plass and +@^Plass, Michael Frederick@> +@^Knuth, Donald Ervin@> +the author in 1977, subsequently generalized and improved by the same two +people in 1980. A detailed discussion appears in {\sl Software---Practice +and Experience \bf11} (1981), 1119--1184, where it is shown that the +line-breaking problem can be regarded as a special case of the problem of +computing the shortest path in an acyclic network. The cited paper includes +numerous examples and describes the history of line breaking as it has been +practiced by printers through the ages. The present implementation adds two +new ideas to the algorithm of 1980: Memory space requirements are considerably +reduced by using smaller records for inactive nodes than for active ones, +and arithmetic overflow is avoided by using ``delta distances'' instead of +keeping track of the total distance from the beginning of the paragraph to the +current point. + +@ The |line_break| procedure should be invoked only in horizontal mode; it +leaves that mode and places its output into the current vlist of the +enclosing vertical mode (or internal vertical mode). +There is one explicit parameter: |final_widow_penalty| is the amount of +additional penalty to be inserted before the final line of the paragraph. + +There are also a number of implicit parameters: The hlist to be broken +starts at |link(head)|, and it is nonempty. The value of |prev_graf| in the +enclosing semantic level tells where the paragraph should begin in the +sequence of line numbers, in case hanging indentation or \.{\\parshape} +is in use; |prev_graf| is zero unless this paragraph is being continued +after a displayed formula. Other implicit parameters, such as the +|par_shape_ptr| and various penalties to use for hyphenation, etc., appear +in |eqtb|. + +After |line_break| has acted, it will have updated the current vlist and the +value of |prev_graf|. Furthermore, the global variable |just_box| will +point to the final box created by |line_break|, so that the width of this +line can be ascertained when it is necessary to decide whether to use +|above_display_skip| or |above_display_short_skip| before a displayed formula. + +@<Glob...@>= +static pointer @!just_box; /*the |hlist_node| for the last line of the new paragraph*/ + +@ Since |line_break| is a rather lengthy procedure---sort of a small world unto +itself---we must build it up little by little, somewhat more cautiously +than we have done with the simpler procedures of \TeX. Here is the +general outline. + +@p @t\4@>@<Declare subprocedures for |line_break|@>@; +static void line_break(int @!final_widow_penalty) +{@+ +@<Local variables for line breaking@>@; +pack_begin_line=mode_line; /*this is for over/underfull box messages*/ +@<Get ready to start line breaking@>; +@<Find optimal breakpoints@>; +@<Break the paragraph at the chosen breakpoints, justify the resulting lines to the +correct widths, and append them to the current vertical list@>; +@<Clean up the memory by removing the break nodes@>; +pack_begin_line=0; +} +@# +@t\4@>@<Declare \eTeX\ procedures for use by |main_control|@>@; + +@ The first task is to move the list from |head| to |temp_head| and go +into the enclosing semantic level. We also append the \.{\\parfillskip} +glue to the end of the paragraph, removing a space (or other glue node) if +it was there, since spaces usually precede blank lines and instances of +`\.{\$\$}'. The |par_fill_skip| is preceded by an infinite penalty, so +it will never be considered as a potential breakpoint. + +This code assumes that a |glue_node| and a |penalty_node| occupy the +same number of |mem|~words. +@^data structure assumptions@> + +@<Get ready to start...@>= +link(temp_head)=link(head); +if (is_char_node(tail)) tail_append(new_penalty(inf_penalty))@; +else if (type(tail)!=glue_node) tail_append(new_penalty(inf_penalty))@; +else{@+type(tail)=penalty_node;delete_glue_ref(glue_ptr(tail)); + flush_node_list(leader_ptr(tail));penalty(tail)=inf_penalty; + } +link(tail)=new_param_glue(par_fill_skip_code); +init_cur_lang=prev_graf%0200000; +init_l_hyf=prev_graf/020000000; +init_r_hyf=(prev_graf/0200000)%0100; +pop_nest(); + +@ When looking for optimal line breaks, \TeX\ creates a ``break node'' for +each break that is {\sl feasible}, in the sense that there is a way to end +a line at the given place without requiring any line to stretch more than +a given tolerance. A break node is characterized by three things: the position +of the break (which is a pointer to a |glue_node|, |math_node|, |penalty_node|, +or |disc_node|); the ordinal number of the line that will follow this +breakpoint; and the fitness classification of the line that has just +ended, i.e., |tight_fit|, |decent_fit|, |loose_fit|, or |very_loose_fit|. + +@d tight_fit 3 /*fitness classification for lines shrinking 0.5 to 1.0 of their + shrinkability*/ +@d loose_fit 1 /*fitness classification for lines stretching 0.5 to 1.0 of their + stretchability*/ +@d very_loose_fit 0 /*fitness classification for lines stretching more than + their stretchability*/ +@d decent_fit 2 /*fitness classification for all other lines*/ + +@ The algorithm essentially determines the best possible way to achieve +each feasible combination of position, line, and fitness. Thus, it answers +questions like, ``What is the best way to break the opening part of the +paragraph so that the fourth line is a tight line ending at such-and-such +a place?'' However, the fact that all lines are to be the same length +after a certain point makes it possible to regard all sufficiently large +line numbers as equivalent, when the looseness parameter is zero, and this +makes it possible for the algorithm to save space and time. + +An ``active node'' and a ``passive node'' are created in |mem| for each +feasible breakpoint that needs to be considered. Active nodes are three +words long and passive nodes are two words long. We need active nodes only +for breakpoints near the place in the paragraph that is currently being +examined, so they are recycled within a comparatively short time after +they are created. + +@ An active node for a given breakpoint contains six fields: + +\yskip\hang|link| points to the next node in the list of active nodes; the +last active node has |link==last_active|. + +\yskip\hang|break_node| points to the passive node associated with this +breakpoint. + +\yskip\hang|line_number| is the number of the line that follows this +breakpoint. + +\yskip\hang|fitness| is the fitness classification of the line ending at this +breakpoint. + +\yskip\hang|type| is either |hyphenated| or |unhyphenated|, depending on +whether this breakpoint is a |disc_node|. + +\yskip\hang|total_demerits| is the minimum possible sum of demerits over all +lines leading from the beginning of the paragraph to this breakpoint. + +\yskip\noindent +The value of |link(active)| points to the first active node on a linked list +of all currently active nodes. This list is in order by |line_number|, +except that nodes with |line_number > easy_line| may be in any order relative +to each other. + +@d active_node_size 3 /*number of words in active nodes*/ +@d fitness(A) subtype(A) /*|very_loose_fit dotdot tight_fit| on final line for this break*/ +@d break_node(A) rlink(A) /*pointer to the corresponding passive node*/ +@d line_number(A) llink(A) /*line that begins at this breakpoint*/ +@d total_demerits(A) mem[A+2].i /*the quantity that \TeX\ minimizes*/ +@d unhyphenated 0 /*the |type| of a normal active break node*/ +@d hyphenated 1 /*the |type| of an active node that breaks at a |disc_node|*/ +@d last_active active /*the active list ends where it begins*/ + +@ @<Initialize the special list heads...@>= +type(last_active)=hyphenated;line_number(last_active)=max_halfword; +subtype(last_active)=0; /*the |subtype| is never examined by the algorithm*/ + +@ The passive node for a given breakpoint contains only four fields: + +\yskip\hang|link| points to the passive node created just before this one, +if any, otherwise it is |null|. + +\yskip\hang|cur_break| points to the position of this breakpoint in the +horizontal list for the paragraph being broken. + +\yskip\hang|prev_break| points to the passive node that should precede this +one in an optimal path to this breakpoint. + +\yskip\hang|serial| is equal to |n| if this passive node is the |n|th +one created during the current pass. (This field is used only when +printing out detailed statistics about the line-breaking calculations.) + +\yskip\noindent +There is a global variable called |passive| that points to the most +recently created passive node. Another global variable, |printed_node|, +is used to help print out the paragraph when detailed information about +the line-breaking computation is being displayed. + +@d passive_node_size 2 /*number of words in passive nodes*/ +@d cur_break(A) rlink(A) /*in passive node, points to position of this breakpoint*/ +@d prev_break(A) llink(A) /*points to passive node that should precede this one*/ +@d serial(A) info(A) /*serial number for symbolic identification*/ + +@<Glob...@>= +static pointer @!passive; /*most recent node on passive list*/ +static pointer @!printed_node; /*most recent node that has been printed*/ +static halfword @!pass_number; /*the number of passive nodes allocated on this pass*/ + +@ The active list also contains ``delta'' nodes that help the algorithm +compute the badness of individual lines. Such nodes appear only between two +active nodes, and they have |type==delta_node|. If |p| and |r| are active nodes +and if |q| is a delta node between them, so that |link(p)==q| and |link(q)==r|, +then |q| tells the space difference between lines in the horizontal list that +start after breakpoint |p| and lines that start after breakpoint |r|. In +other words, if we know the length of the line that starts after |p| and +ends at our current position, then the corresponding length of the line that +starts after |r| is obtained by adding the amounts in node~|q|. A delta node +contains six scaled numbers, since it must record the net change in glue +stretchability with respect to all orders of infinity. The natural width +difference appears in |mem[q+1].sc|; the stretch differences in units of +pt, fil, fill, and filll appear in |mem[q+2 dotdot q+5].sc|; and the shrink difference +appears in |mem[q+6].sc|. The |subtype| field of a delta node is not used. + +@d delta_node_size 7 /*number of words in a delta node*/ +@d delta_node 2 /*|type| field in a delta node*/ + +@ As the algorithm runs, it maintains a set of six delta-like registers +for the length of the line following the first active breakpoint to the +current position in the given hlist. When it makes a pass through the +active list, it also maintains a similar set of six registers for the +length following the active breakpoint of current interest. A third set +holds the length of an empty line (namely, the sum of \.{\\leftskip} and +\.{\\rightskip}); and a fourth set is used to create new delta nodes. + +When we pass a delta node we want to do operations like +$$\hbox{\ignorespaces|for +k=1 to 6 do cur_active_width[k]=cur_active_width[k]+mem[q+k].sc|};$$ and we +want to do this without the overhead of |for| loops. The |do_all_six| +macro makes such six-tuples convenient. + +@d do_all_six(A) A(1);A(2);A(3);A(4);A(5);A(6) + +@<Glob...@>= +static scaled @!active_width0[6], *const @!active_width = @!active_width0-1; + /*distance from first active node to~|cur_p|*/ +static scaled @!cur_active_width0[6], *const @!cur_active_width = @!cur_active_width0-1; /*distance from current active node*/ +static scaled @!background0[6], *const @!background = @!background0-1; /*length of an ``empty'' line*/ +static scaled @!break_width0[6], *const @!break_width = @!break_width0-1; /*length being computed after current break*/ + +@ Let's state the principles of the delta nodes more precisely and concisely, +so that the following programs will be less obscure. For each legal +breakpoint~|p| in the paragraph, we define two quantities $\alpha(p)$ and +$\beta(p)$ such that the length of material in a line from breakpoint~|p| +to breakpoint~|q| is $\gamma+\beta(q)-\alpha(p)$, for some fixed $\gamma$. +Intuitively, $\alpha(p)$ and $\beta(q)$ are the total length of material from +the beginning of the paragraph to a point ``after'' a break at |p| and to a +point ``before'' a break at |q|; and $\gamma$ is the width of an empty line, +namely the length contributed by \.{\\leftskip} and \.{\\rightskip}. + +Suppose, for example, that the paragraph consists entirely of alternating +boxes and glue skips; let the boxes have widths $x_1\ldots x_n$ and +let the skips have widths $y_1\ldots y_n$, so that the paragraph can be +represented by $x_1y_1\ldots x_ny_n$. Let $p_i$ be the legal breakpoint +at $y_i$; then $\alpha(p_i)=x_1+y_1+\cdots+x_i+y_i$, and $\beta(p_i)= +x_1+y_1+\cdots+x_i$. To check this, note that the length of material from +$p_2$ to $p_5$, say, is $\gamma+x_3+y_3+x_4+y_4+x_5=\gamma+\beta(p_5) +-\alpha(p_2)$. + +The quantities $\alpha$, $\beta$, $\gamma$ involve glue stretchability and +shrinkability as well as a natural width. If we were to compute $\alpha(p)$ +and $\beta(p)$ for each |p|, we would need multiple precision arithmetic, and +the multiprecise numbers would have to be kept in the active nodes. +\TeX\ avoids this problem by working entirely with relative differences +or ``deltas.'' Suppose, for example, that the active list contains +$a_1\,\delta_1\,a_2\,\delta_2\,a_3$, where the |a|'s are active breakpoints +and the $\delta$'s are delta nodes. Then $\delta_1=\alpha(a_1)-\alpha(a_2)$ +and $\delta_2=\alpha(a_2)-\alpha(a_3)$. If the line breaking algorithm is +currently positioned at some other breakpoint |p|, the |active_width| array +contains the value $\gamma+\beta(p)-\alpha(a_1)$. If we are scanning through +the list of active nodes and considering a tentative line that runs from +$a_2$ to~|p|, say, the |cur_active_width| array will contain the value +$\gamma+\beta(p)-\alpha(a_2)$. Thus, when we move from $a_2$ to $a_3$, +we want to add $\alpha(a_2)-\alpha(a_3)$ to |cur_active_width|; and this +is just $\delta_2$, which appears in the active list between $a_2$ and +$a_3$. The |background| array contains $\gamma$. The |break_width| array +will be used to calculate values of new delta nodes when the active +list is being updated. + +@ Glue nodes in a horizontal list that is being paragraphed are not supposed to +include ``infinite'' shrinkability; that is why the algorithm maintains +four registers for stretching but only one for shrinking. If the user tries to +introduce infinite shrinkability, the shrinkability will be reset to finite +and an error message will be issued. A boolean variable |no_shrink_error_yet| +prevents this error message from appearing more than once per paragraph. + +@d check_shrinkage(A) if ((shrink_order(A)!=normal)&&(shrink(A)!=0)) + {@+A=finite_shrink(A); + } + +@<Glob...@>= +static bool @!no_shrink_error_yet; /*have we complained about infinite shrinkage?*/ + +@ @<Declare subprocedures for |line_break|@>= +static pointer finite_shrink(pointer @!p) /*recovers from infinite shrinkage*/ +{@+pointer q; /*new glue specification*/ +if (no_shrink_error_yet) + {@+no_shrink_error_yet=false; +#ifdef @!STAT + if (tracing_paragraphs > 0) end_diagnostic(true); +#endif +@; + print_err("Infinite glue shrinkage found in a paragraph"); +@.Infinite glue shrinkage...@> + help5("The paragraph just ended includes some glue that has",@/ + "infinite shrinkability, e.g., `\\hskip 0pt minus 1fil'.",@/ + "Such glue doesn't belong there---it allows a paragraph",@/ + "of any length to fit on one line. But it's safe to proceed,",@/ + "since the offensive shrinkability has been made finite."); + error(); +#ifdef @!STAT + if (tracing_paragraphs > 0) begin_diagnostic(); +#endif +@; + } +q=new_spec(p);shrink_order(q)=normal; +delete_glue_ref(p);return q; +} + +@ @<Get ready to start...@>= +no_shrink_error_yet=true;@/ +check_shrinkage(left_skip);check_shrinkage(right_skip);@/ +q=left_skip;r=right_skip;background[1]=width(q)+width(r);@/ +background[2]=0;background[3]=0;background[4]=0;background[5]=0;@/ +background[2+stretch_order(q)]=stretch(q);@/ +background[2+stretch_order(r)]=@|background[2+stretch_order(r)]+stretch(r);@/ +background[6]=shrink(q)+shrink(r); + +@ A pointer variable |cur_p| runs through the given horizontal list as we look +for breakpoints. This variable is global, since it is used both by |line_break| +and by its subprocedure |try_break|. + +Another global variable called |threshold| is used to determine the feasibility +of individual lines: Breakpoints are feasible if there is a way to reach +them without creating lines whose badness exceeds |threshold|. (The +badness is compared to |threshold| before penalties are added, so that +penalty values do not affect the feasibility of breakpoints, except that +no break is allowed when the penalty is 10000 or more.) If |threshold| +is 10000 or more, all legal breaks are considered feasible, since the +|badness| function specified above never returns a value greater than~10000. + +Up to three passes might be made through the paragraph in an attempt to find at +least one set of feasible breakpoints. On the first pass, we have +|threshold==pretolerance| and |second_pass==final_pass==false|. +If this pass fails to find a +feasible solution, |threshold| is set to |tolerance|, |second_pass| is set +|true|, and an attempt is made to hyphenate as many words as possible. +If that fails too, we add |emergency_stretch| to the background +stretchability and set |final_pass==true|. + +@<Glob...@>= +static pointer @!cur_p; /*the current breakpoint under consideration*/ +static bool @!second_pass; /*is this our second attempt to break this paragraph?*/ +static bool @!final_pass; /*is this our final attempt to break this paragraph?*/ +static int @!threshold; /*maximum badness on feasible lines*/ + +@ The heart of the line-breaking procedure is `|try_break|', a subroutine +that tests if the current breakpoint |cur_p| is feasible, by running +through the active list to see what lines of text can be made from active +nodes to~|cur_p|. If feasible breaks are possible, new break nodes are +created. If |cur_p| is too far from an active node, that node is +deactivated. + +The parameter |pi| to |try_break| is the penalty associated +with a break at |cur_p|; we have |pi==eject_penalty| if the break is forced, +and |pi==inf_penalty| if the break is illegal. + +The other parameter, |break_type|, is set to |hyphenated| or |unhyphenated|, +depending on whether or not the current break is at a |disc_node|. The +end of a paragraph is also regarded as `|hyphenated|'; this case is +distinguishable by the condition |cur_p==null|. + +@d copy_to_cur_active(A) cur_active_width[A]=active_width[A] +@<Declare subprocedures for |line_break|@>= +static void try_break(int @!pi, small_number @!break_type) +{@+ +pointer r; /*runs through the active list*/ +pointer @!prev_r; /*stays a step behind |r|*/ +halfword @!old_l; /*maximum line number in current equivalence class of lines*/ +bool @!no_break_yet; /*have we found a feasible break at |cur_p|?*/ +@<Other local variables for |try_break|@>@; +@<Make sure that |pi| is in the proper range@>; +no_break_yet=true;prev_r=active;old_l=0; +do_all_six(copy_to_cur_active); +loop@+{@+resume: r=link(prev_r); + @<If node |r| is of type |delta_node|, update |cur_active_width|, set |prev_r| and +|prev_prev_r|, then |goto continue|@>; + @<If a line number class has ended, create new active nodes for the best feasible +breaks in that class; then |return| if |r=last_active|, otherwise compute the new +|line_width|@>; + @<Consider the demerits for a line from |r| to |cur_p|; deactivate node |r| if it +should no longer be active; then |goto continue| if a line from |r| to |cur_p| is +infeasible, otherwise record a new feasible break@>; + } +end: ; +#ifdef @!STAT +@<Update the value of |printed_node| for symbolic displays@>; +#endif +@; +} + +@ @<Other local variables for |try_break|@>= +pointer @!prev_prev_r; /*a step behind |prev_r|, if |type(prev_r)==delta_node|*/ +pointer @!s; /*runs through nodes ahead of |cur_p|*/ +pointer @!q; /*points to a new node being created*/ +pointer @!v; /*points to a glue specification or a node ahead of |cur_p|*/ +int @!t; /*node count, if |cur_p| is a discretionary node*/ +internal_font_number @!f; /*used in character width calculation*/ +halfword @!l; /*line number of current active node*/ +bool @!node_r_stays_active; /*should node |r| remain in the active list?*/ +scaled @!line_width; /*the current line will be justified to this width*/ +int @!fit_class; /*possible fitness class of test line*/ +halfword @!b; /*badness of test line*/ +int @!d; /*demerits of test line*/ +bool @!artificial_demerits; /*has |d| been forced to zero?*/ +#ifdef @!STAT +pointer @!save_link; /*temporarily holds value of |link(cur_p)|*/ +#endif +scaled @!shortfall; /*used in badness calculations*/ + +@ @<Make sure that |pi| is in the proper range@>= +if (abs(pi) >= inf_penalty) + if (pi > 0) goto end; /*this breakpoint is inhibited by infinite penalty*/ + else pi=eject_penalty /*this breakpoint will be forced*/ + +@ The following code uses the fact that |type(last_active)!=delta_node|. + +@d update_width(A) @| + cur_active_width[A]=cur_active_width[A]+mem[r+A].sc + +@<If node |r|...@>= +@^inner loop@> +if (type(r)==delta_node) + {@+do_all_six(update_width); + prev_prev_r=prev_r;prev_r=r;goto resume; + } + +@ As we consider various ways to end a line at |cur_p|, in a given line number +class, we keep track of the best total demerits known, in an array with +one entry for each of the fitness classifications. For example, +|minimal_demerits[tight_fit]| contains the fewest total demerits of feasible +line breaks ending at |cur_p| with a |tight_fit| line; |best_place[tight_fit]| +points to the passive node for the break before~|cur_p| that achieves such +an optimum; and |best_pl_line[tight_fit]| is the |line_number| field in the +active node corresponding to |best_place[tight_fit]|. When no feasible break +sequence is known, the |minimal_demerits| entries will be equal to +|awful_bad|, which is $2^{30}-1$. Another variable, |minimum_demerits|, +keeps track of the smallest value in the |minimal_demerits| array. + +@d awful_bad 07777777777 /*more than a billion demerits*/ + +@<Global...@>= +static int @!minimal_demerits0[tight_fit-very_loose_fit+1], *const @!minimal_demerits = @!minimal_demerits0-very_loose_fit; /*best total + demerits known for current line class and position, given the fitness*/ +static int @!minimum_demerits; /*best total demerits known for current line class + and position*/ +static pointer @!best_place0[tight_fit-very_loose_fit+1], *const @!best_place = @!best_place0-very_loose_fit; /*how to achieve + |minimal_demerits|*/ +static halfword @!best_pl_line0[tight_fit-very_loose_fit+1], *const @!best_pl_line = @!best_pl_line0-very_loose_fit; /*corresponding + line number*/ + +@ @<Get ready to start...@>= +minimum_demerits=awful_bad; +minimal_demerits[tight_fit]=awful_bad; +minimal_demerits[decent_fit]=awful_bad; +minimal_demerits[loose_fit]=awful_bad; +minimal_demerits[very_loose_fit]=awful_bad; + +@ The first part of the following code is part of \TeX's inner loop, so +we don't want to waste any time. The current active node, namely node |r|, +contains the line number that will be considered next. At the end of the +list we have arranged the data structure so that |r==last_active| and +|line_number(last_active) > old_l|. +@^inner loop@> + +@<If a line number class...@>= +{@+l=line_number(r); +if (l > old_l) + {@+ /*now we are no longer in the inner loop*/ + if ((minimum_demerits < awful_bad)&&@| + ((old_l!=easy_line)||(r==last_active))) + @<Create new active nodes for the best feasible breaks just found@>; + if (r==last_active) goto end; + @<Compute the new line width@>; + } +} + +@ It is not necessary to create new active nodes having |minimal_demerits| +greater than +|minimum_demerits+abs(adj_demerits)|, since such active nodes will never +be chosen in the final paragraph breaks. This observation allows us to +omit a substantial number of feasible breakpoints from further consideration. + +@<Create new active nodes...@>= +{@+if (no_break_yet) @<Compute the values of |break_width|@>; +@<Insert a delta node to prepare for breaks at |cur_p|@>; +if (abs(adj_demerits) >= awful_bad-minimum_demerits) + minimum_demerits=awful_bad-1; +else minimum_demerits=minimum_demerits+abs(adj_demerits); +for (fit_class=very_loose_fit; fit_class<=tight_fit; fit_class++) + {@+if (minimal_demerits[fit_class] <= minimum_demerits) + @<Insert a new active node from |best_place[fit_class]| to |cur_p|@>; + minimal_demerits[fit_class]=awful_bad; + } +minimum_demerits=awful_bad; +@<Insert a delta node to prepare for the next active node@>; +} + +@ When we insert a new active node for a break at |cur_p|, suppose this +new node is to be placed just before active node |a|; then we essentially +want to insert `$\delta\,|cur_p|\,\delta^\prime$' before |a|, where +$\delta=\alpha(a)-\alpha(|cur_p|)$ and $\delta^\prime=\alpha(|cur_p|)-\alpha(a)$ +in the notation explained above. The |cur_active_width| array now holds +$\gamma+\beta(|cur_p|)-\alpha(a)$; so $\delta$ can be obtained by +subtracting |cur_active_width| from the quantity $\gamma+\beta(|cur_p|)- +\alpha(|cur_p|)$. The latter quantity can be regarded as the length of a +line ``from |cur_p| to |cur_p|''; we call it the |break_width| at |cur_p|. + +The |break_width| is usually negative, since it consists of the background +(which is normally zero) minus the width of nodes following~|cur_p| that are +eliminated after a break. If, for example, node |cur_p| is a glue node, the +width of this glue is subtracted from the background; and we also look +ahead to eliminate all subsequent glue and penalty and kern and math +nodes, subtracting their widths as well. + +Kern nodes do not disappear at a line break unless they are |explicit|. + +@d set_break_width_to_background(A) break_width[A]=background[A] + +@<Compute the values of |break...@>= +{@+no_break_yet=false;do_all_six(set_break_width_to_background); +s=cur_p; +if (break_type > unhyphenated) if (cur_p!=null) + @<Compute the discretionary |break_width| values@>; +while (s!=null) + {@+if (is_char_node(s)) goto done; + switch (type(s)) { + case glue_node: @<Subtract glue from |break_width|@>@;@+break; + case penalty_node: do_nothing;@+break; + case math_node: break_width[1]=break_width[1]-width(s);@+break; + case kern_node: if (subtype(s)!=explicit) goto done; + else break_width[1]=break_width[1]-width(s);@+break; + default:goto done; + } @/ + s=link(s); + } +done: ;} + +@ @<Subtract glue from |break...@>= +{@+v=glue_ptr(s);break_width[1]=break_width[1]-width(v); +break_width[2+stretch_order(v)]=break_width[2+stretch_order(v)]-stretch(v); +break_width[6]=break_width[6]-shrink(v); +} + +@ When |cur_p| is a discretionary break, the length of a line ``from |cur_p| to +|cur_p|'' has to be defined properly so that the other calculations work out. +Suppose that the pre-break text at |cur_p| has length $l_0$, the post-break +text has length $l_1$, and the replacement text has length |l|. Suppose +also that |q| is the node following the replacement text. Then length of a +line from |cur_p| to |q| will be computed as $\gamma+\beta(q)-\alpha(|cur_p|)$, +where $\beta(q)=\beta(|cur_p|)-l_0+l$. The actual length will be the background +plus $l_1$, so the length from |cur_p| to |cur_p| should be $\gamma+l_0+l_1-l$. +If the post-break text of the discretionary is empty, a break may also +discard~|q|; in that unusual case we subtract the length of~|q| and any +other nodes that will be discarded after the discretionary break. + +The value of $l_0$ need not be computed, since |line_break| will put +it into the global variable |disc_width| before calling |try_break|. + +@<Glob...@>= +static scaled @!disc_width; /*the length of discretionary material preceding a break*/ + +@ @<Compute the discretionary |break...@>= +{@+t=replace_count(cur_p);v=cur_p;s=post_break(cur_p); +while (t > 0) + {@+decr(t);v=link(v); + @<Subtract the width of node |v| from |break_width|@>; + } +while (s!=null) + {@+@<Add the width of node |s| to |break_width|@>; + s=link(s); + } +break_width[1]=break_width[1]+disc_width; +if (post_break(cur_p)==null) s=link(v); + /*nodes may be discardable after the break*/ +} + +@ Replacement texts and discretionary texts are supposed to contain +only character nodes, kern nodes, ligature nodes, and box or rule nodes. + +@<Subtract the width of node |v|...@>= +if (is_char_node(v)) + {@+f=font(v); + break_width[1]=break_width[1]-char_width(f, char_info(f, character(v))); + } +else switch (type(v)) { + case ligature_node: {@+f=font(lig_char(v));@/ + break_width[1]=@|break_width[1]- + char_width(f, char_info(f, character(lig_char(v)))); + } @+break; + case hlist_node: case vlist_node: case rule_node: case kern_node: + break_width[1]=break_width[1]-width(v);@+break; + default:confusion("disc1"); +@:this can't happen disc1}{\quad disc1@> + } + +@ @<Add the width of node |s| to |b...@>= +if (is_char_node(s)) + {@+f=font(s); + break_width[1]=@|break_width[1]+char_width(f, char_info(f, character(s))); + } +else switch (type(s)) { + case ligature_node: {@+f=font(lig_char(s)); + break_width[1]=break_width[1]+ + char_width(f, char_info(f, character(lig_char(s)))); + } @+break; + case hlist_node: case vlist_node: case rule_node: case kern_node: + break_width[1]=break_width[1]+width(s);@+break; + default:confusion("disc2"); +@:this can't happen disc2}{\quad disc2@> + } + +@ We use the fact that |type(active)!=delta_node|. + +@d convert_to_break_width(A) @| + mem[prev_r+A].sc=@|@t\hskip10pt@>mem[prev_r+A].sc + -cur_active_width[A]+break_width[A] +@d store_break_width(A) active_width[A]=break_width[A] +@d new_delta_to_break_width(A) @| + mem[q+A].sc=break_width[A]-cur_active_width[A] + +@<Insert a delta node to prepare for breaks at |cur_p|@>= +if (type(prev_r)==delta_node) /*modify an existing delta node*/ + {@+do_all_six(convert_to_break_width); + } +else if (prev_r==active) /*no delta node needed at the beginning*/ + {@+do_all_six(store_break_width); + } +else{@+q=get_node(delta_node_size);link(q)=r;type(q)=delta_node;@/ + subtype(q)=0; /*the |subtype| is not used*/ + do_all_six(new_delta_to_break_width); + link(prev_r)=q;prev_prev_r=prev_r;prev_r=q; + } + +@ When the following code is performed, we will have just inserted at +least one active node before |r|, so |type(prev_r)!=delta_node|. + +@d new_delta_from_break_width(A) @|mem[q+A].sc= + cur_active_width[A]-break_width[A] + +@<Insert a delta node to prepare for the next active node@>= +if (r!=last_active) + {@+q=get_node(delta_node_size);link(q)=r;type(q)=delta_node;@/ + subtype(q)=0; /*the |subtype| is not used*/ + do_all_six(new_delta_from_break_width); + link(prev_r)=q;prev_prev_r=prev_r;prev_r=q; + } + +@ When we create an active node, we also create the corresponding +passive node. + +@<Insert a new active node from |best_place[fit_class]| to |cur_p|@>= +{@+q=get_node(passive_node_size); +link(q)=passive;passive=q;cur_break(q)=cur_p; +#ifdef @!STAT +incr(pass_number);serial(q)=pass_number; +#endif +@;@/ +prev_break(q)=best_place[fit_class];@/ +q=get_node(active_node_size);break_node(q)=passive; +line_number(q)=best_pl_line[fit_class]+1; +fitness(q)=fit_class;type(q)=break_type; +total_demerits(q)=minimal_demerits[fit_class]; +link(q)=r;link(prev_r)=q;prev_r=q; +#ifdef @!STAT +if (tracing_paragraphs > 0) + @<Print a symbolic description of the new break node@>; +#endif +@;@/ +} + +@ @<Print a symbolic description of the new break node@>= +{@+print_nl("@@@@");print_int(serial(passive)); +@.\AT\AT@> +print(": line ");print_int(line_number(q)-1); +print_char('.');print_int(fit_class); +if (break_type==hyphenated) print_char('-'); +print(" t=");print_int(total_demerits(q)); +print(" -> @@@@"); +if (prev_break(passive)==null) print_char('0'); +else print_int(serial(prev_break(passive))); +} + +@ The length of lines depends on whether the user has specified +\.{\\parshape} or \.{\\hangindent}. If |par_shape_ptr| is not null, it +points to a $(2n+1)$-word record in |mem|, where the |info| in the first +word contains the value of |n|, and the other $2n$ words contain the left +margins and line lengths for the first |n| lines of the paragraph; the +specifications for line |n| apply to all subsequent lines. If +|par_shape_ptr==null|, the shape of the paragraph depends on the value of +|n==hang_after|; if |n >= 0|, hanging indentation takes place on lines |n+1|, +|n+2|, \dots, otherwise it takes place on lines 1, \dots, $\vert +n\vert$. When hanging indentation is active, the left margin is +|hang_indent|, if |hang_indent >= 0|, else it is 0; the line length is +$|hsize|-\vert|hang_indent|\vert$. The normal setting is +|par_shape_ptr==null|, |hang_after==1|, and |hang_indent==0|. +Note that if |hang_indent==0|, the value of |hang_after| is irrelevant. +@^length of lines@> @^hanging indentation@> + +@<Glob...@>= +static halfword @!easy_line; /*line numbers | > easy_line| are equivalent in break nodes*/ +static halfword @!last_special_line; /*line numbers | > last_special_line| all have + the same width*/ +static scaled @!first_width; /*the width of all lines | <= last_special_line|, if + no \.{\\parshape} has been specified*/ +static scaled @!second_width; /*the width of all lines | > last_special_line|*/ +static scaled @!first_indent; /*left margin to go with |first_width|*/ +static scaled @!second_indent; /*left margin to go with |second_width|*/ + +@ We compute the values of |easy_line| and the other local variables relating +to line length when the |line_break| procedure is initializing itself. + +@<Get ready to start...@>= +if (par_shape_ptr==null) + if (hang_indent==0) + {@+last_special_line=0;second_width=hsize; + second_indent=0; + } + else@<Set line length parameters in preparation for hanging indentation@>@; +else{@+last_special_line=info(par_shape_ptr)-1; + second_width=mem[par_shape_ptr+2*(last_special_line+1)].sc; + second_indent=mem[par_shape_ptr+2*last_special_line+1].sc; + } +if (looseness==0) easy_line=last_special_line; +else easy_line=max_halfword + +@ @<Set line length parameters in preparation for hanging indentation@>= +{@+last_special_line=abs(hang_after); +if (hang_after < 0) + {@+first_width=hsize-abs(hang_indent); + if (hang_indent >= 0) first_indent=hang_indent; + else first_indent=0; + second_width=hsize;second_indent=0; + } +else{@+first_width=hsize;first_indent=0; + second_width=hsize-abs(hang_indent); + if (hang_indent >= 0) second_indent=hang_indent; + else second_indent=0; + } +} + +@ When we come to the following code, we have just encountered the first +active node~|r| whose |line_number| field contains |l|. Thus we want to +compute the length of the $l\mskip1mu$th line of the current paragraph. Furthermore, +we want to set |old_l| to the last number in the class of line numbers +equivalent to~|l|. + +@<Compute the new line width@>= +if (l > easy_line) + {@+line_width=second_width;old_l=max_halfword-1; + } +else{@+old_l=l; + if (l > last_special_line) line_width=second_width; + else if (par_shape_ptr==null) line_width=first_width; + else line_width=mem[par_shape_ptr+2*l@,].sc; + } + +@ The remaining part of |try_break| deals with the calculation of +demerits for a break from |r| to |cur_p|. + +The first thing to do is calculate the badness, |b|. This value will always +be between zero and |inf_bad+1|; the latter value occurs only in the +case of lines from |r| to |cur_p| that cannot shrink enough to fit the necessary +width. In such cases, node |r| will be deactivated. +We also deactivate node~|r| when a break at~|cur_p| is forced, since future +breaks must go through a forced break. + +@<Consider the demerits for a line from |r| to |cur_p|...@>= +{@+artificial_demerits=false;@/ +@^inner loop@> +shortfall=line_width-cur_active_width[1]; /*we're this much too short*/ +if (shortfall > 0) + @<Set the value of |b| to the badness for stretching the line, and compute the corresponding +|fit_class|@>@; +else@<Set the value of |b| to the badness for shrinking the line, and compute the +corresponding |fit_class|@>; +if ((b > inf_bad)||(pi==eject_penalty)) + @<Prepare to deactivate node~|r|, and |goto deactivate| unless there is a reason +to consider lines of text from |r| to |cur_p|@>@; +else{@+prev_r=r; + if (b > threshold) goto resume; + node_r_stays_active=true; + } +@<Record a new feasible break@>; +if (node_r_stays_active) goto resume; /*|prev_r| has been set to |r|*/ +deactivate: @<Deactivate node |r|@>; +} + +@ When a line must stretch, the available stretchability can be found in the +subarray |cur_active_width[2 dotdot 5]|, in units of points, fil, fill, and filll. + +The present section is part of \TeX's inner loop, and it is most often performed +when the badness is infinite; therefore it is worth while to make a quick +test for large width excess and small stretchability, before calling the +|badness| subroutine. +@^inner loop@> + +@<Set the value of |b| to the badness for stretching...@>= +if ((cur_active_width[3]!=0)||(cur_active_width[4]!=0)||@| + (cur_active_width[5]!=0)) + {@+b=0;fit_class=decent_fit; /*infinite stretch*/ + } +else{@+if (shortfall > 7230584) if (cur_active_width[2] < 1663497) + {@+b=inf_bad;fit_class=very_loose_fit;goto done1; + } + b=badness(shortfall, cur_active_width[2]); + if (b > 12) + if (b > 99) fit_class=very_loose_fit; + else fit_class=loose_fit; + else fit_class=decent_fit; + done1: ; + } + +@ Shrinkability is never infinite in a paragraph; +we can shrink the line from |r| to |cur_p| by at most |cur_active_width[6]|. + +@<Set the value of |b| to the badness for shrinking...@>= +{@+if (-shortfall > cur_active_width[6]) b=inf_bad+1; +else b=badness(-shortfall, cur_active_width[6]); +if (b > 12) fit_class=tight_fit;@+else fit_class=decent_fit; +} + +@ During the final pass, we dare not lose all active nodes, lest we lose +touch with the line breaks already found. The code shown here makes sure +that such a catastrophe does not happen, by permitting overfull boxes as +a last resort. This particular part of \TeX\ was a source of several subtle +bugs before the correct program logic was finally discovered; readers +who seek to ``improve'' \TeX\ should therefore think thrice before daring +to make any changes here. +@^overfull boxes@> + +@<Prepare to deactivate node~|r|, and |goto deactivate| unless...@>= +{@+if (final_pass&&(minimum_demerits==awful_bad)&&@| + (link(r)==last_active)&& + (prev_r==active)) + artificial_demerits=true; /*set demerits zero, this break is forced*/ +else if (b > threshold) goto deactivate; +node_r_stays_active=false; +} + +@ When we get to this part of the code, the line from |r| to |cur_p| is +feasible, its badness is~|b|, and its fitness classification is |fit_class|. +We don't want to make an active node for this break yet, but we will +compute the total demerits and record them in the |minimal_demerits| array, +if such a break is the current champion among all ways to get to |cur_p| +in a given line-number class and fitness class. + +@<Record a new feasible break@>= +if (artificial_demerits) d=0; +else@<Compute the demerits, |d|, from |r| to |cur_p|@>; +#ifdef @!STAT +if (tracing_paragraphs > 0) + @<Print a symbolic description of this feasible break@>; +#endif +@;@/ +d=d+total_demerits(r); /*this is the minimum total demerits + from the beginning to |cur_p| via |r|*/ +if (d <= minimal_demerits[fit_class]) + {@+minimal_demerits[fit_class]=d; + best_place[fit_class]=break_node(r);best_pl_line[fit_class]=l; + if (d < minimum_demerits) minimum_demerits=d; + } + +@ @<Print a symbolic description of this feasible break@>= +{@+if (printed_node!=cur_p) + @<Print the list between |printed_node| and |cur_p|, then set |printed_node:=cur_p|@>; +print_nl("@@"); +@.\AT@> +if (cur_p==null) print_esc("par"); +else if (type(cur_p)!=glue_node) + {@+if (type(cur_p)==penalty_node) print_esc("penalty"); + else if (type(cur_p)==disc_node) print_esc("discretionary"); + else if (type(cur_p)==kern_node) print_esc("kern"); + else print_esc("math"); + } +print(" via @@@@"); +if (break_node(r)==null) print_char('0'); +else print_int(serial(break_node(r))); +print(" b="); +if (b > inf_bad) print_char('*');@+else print_int(b); +@.*\relax@> +print(" p=");print_int(pi);print(" d="); +if (artificial_demerits) print_char('*');@+else print_int(d); +} + +@ @<Print the list between |printed_node| and |cur_p|...@>= +{@+print_nl(""); +if (cur_p==null) short_display(link(printed_node)); +else{@+save_link=link(cur_p); + link(cur_p)=null;print_nl("");short_display(link(printed_node)); + link(cur_p)=save_link; + } +printed_node=cur_p; +} + +@ When the data for a discretionary break is being displayed, we will have +printed the |pre_break| and |post_break| lists; we want to skip over the +third list, so that the discretionary data will not appear twice. The +following code is performed at the very end of |try_break|. + +@<Update the value of |printed_node|...@>= +if (cur_p==printed_node) if (cur_p!=null) if (type(cur_p)==disc_node) + {@+t=replace_count(cur_p); + while (t > 0) + {@+decr(t);printed_node=link(printed_node); + } + } + +@ @<Compute the demerits, |d|, from |r| to |cur_p|@>= +{@+d=line_penalty+b; +if (abs(d) >= 10000) d=100000000;@+else d=d*d; +if (pi!=0) + if (pi > 0) d=d+pi*pi; + else if (pi > eject_penalty) d=d-pi*pi; +if ((break_type==hyphenated)&&(type(r)==hyphenated)) + if (cur_p!=null) d=d+double_hyphen_demerits; + else d=d+final_hyphen_demerits; +if (abs(fit_class-fitness(r)) > 1) d=d+adj_demerits; +} + +@ When an active node disappears, we must delete an adjacent delta node if the +active node was at the beginning or the end of the active list, or if it +was surrounded by delta nodes. We also must preserve the property that +|cur_active_width| represents the length of material from |link(prev_r)| +to~|cur_p|. + +@d combine_two_deltas(A) @|mem[prev_r+A].sc=mem[prev_r+A].sc+mem[r+A].sc +@d downdate_width(A) @|cur_active_width[A]=cur_active_width[A]- + mem[prev_r+A].sc + +@<Deactivate node |r|@>= +link(prev_r)=link(r);free_node(r, active_node_size); +if (prev_r==active) @<Update the active widths, since the first active node has been +deleted@>@; +else if (type(prev_r)==delta_node) + {@+r=link(prev_r); + if (r==last_active) + {@+do_all_six(downdate_width); + link(prev_prev_r)=last_active; + free_node(prev_r, delta_node_size);prev_r=prev_prev_r; + } + else if (type(r)==delta_node) + {@+do_all_six(update_width); + do_all_six(combine_two_deltas); + link(prev_r)=link(r);free_node(r, delta_node_size); + } + } + +@ The following code uses the fact that |type(last_active)!=delta_node|. If the +active list has just become empty, we do not need to update the +|active_width| array, since it will be initialized when an active +node is next inserted. + +@d update_active(A) active_width[A]=active_width[A]+mem[r+A].sc + +@<Update the active widths,...@>= +{@+r=link(active); +if (type(r)==delta_node) + {@+do_all_six(update_active); + do_all_six(copy_to_cur_active); + link(active)=link(r);free_node(r, delta_node_size); + } +} + +@* Breaking paragraphs into lines, continued. +So far we have gotten a little way into the |line_break| routine, having +covered its important |try_break| subroutine. Now let's consider the +rest of the process. + +The main loop of |line_break| traverses the given hlist, +starting at |link(temp_head)|, and calls |try_break| at each legal +breakpoint. A variable called |auto_breaking| is set to true except +within math formulas, since glue nodes are not legal breakpoints when +they appear in formulas. + +The current node of interest in the hlist is pointed to by |cur_p|. Another +variable, |prev_p|, is usually one step behind |cur_p|, but the real +meaning of |prev_p| is this: If |type(cur_p)==glue_node| then |cur_p| is a legal +breakpoint if and only if |auto_breaking| is true and |prev_p| does not +point to a glue node, penalty node, explicit kern node, or math node. + +The following declarations provide for a few other local variables that are +used in special calculations. + +@<Local variables for line breaking@>= +bool @!auto_breaking; /*is node |cur_p| outside a formula?*/ +pointer @!prev_p; /*helps to determine when glue nodes are breakpoints*/ +pointer @!q, @!r, @!s, @!prev_s; /*miscellaneous nodes of temporary interest*/ +internal_font_number @!f; /*used when calculating character widths*/ + +@ The `\ignorespaces|loop|\unskip' in the following code is performed at most +thrice per call of |line_break|, since it is actually a pass over the +entire paragraph. + +@<Find optimal breakpoints@>= +threshold=pretolerance; +if (threshold >= 0) + { +#ifdef @!STAT +if (tracing_paragraphs > 0) + {@+begin_diagnostic();print_nl("@@firstpass");@+} @; +#endif +@;@/ + second_pass=false;final_pass=false; + } +else{@+threshold=tolerance;second_pass=true; + final_pass=(emergency_stretch <= 0); +#ifdef @!STAT + if (tracing_paragraphs > 0) begin_diagnostic(); +#endif +@; + } +loop@+{@+if (threshold > inf_bad) threshold=inf_bad; + if (second_pass) @<Initialize for hyphenating a paragraph@>; + @<Create an active breakpoint representing the beginning of the paragraph@>; + cur_p=link(temp_head);auto_breaking=true;@/ + prev_p=cur_p; /*glue at beginning is not a legal breakpoint*/ + while ((cur_p!=null)&&(link(active)!=last_active)) + @<Call |try_break| if |cur_p| is a legal breakpoint; on the second pass, also +try to hyphenate the next word, if |cur_p| is a glue node; then advance |cur_p| to +the next node of the paragraph that could possibly be a legal breakpoint@>; + if (cur_p==null) + @<Try the final line break at the end of the paragraph, and |goto done| if the +desired breakpoints have been found@>; + @<Clean up the memory by removing the break nodes@>; + if (!second_pass) + { +#ifdef @!STAT +if (tracing_paragraphs > 0) print_nl("@@secondpass");@; +#endif + threshold=tolerance;second_pass=true;final_pass=(emergency_stretch <= 0); + } /*if at first you don't succeed, \dots*/ + else{ +#ifdef @!STAT +if (tracing_paragraphs > 0) + print_nl("@@emergencypass");@; +#endif + background[2]=background[2]+emergency_stretch;final_pass=true; + } + } +done: +#ifdef @!STAT +if (tracing_paragraphs > 0) + {@+end_diagnostic(true);normalize_selector(); + } +#endif + +@ The active node that represents the starting point does not need a +corresponding passive node. + +@d store_background(A) active_width[A]=background[A] + +@<Create an active breakpoint representing the beginning of the paragraph@>= +q=get_node(active_node_size); +type(q)=unhyphenated;fitness(q)=decent_fit; +link(q)=last_active;break_node(q)=null; +line_number(q)=prev_graf+1;total_demerits(q)=0;link(active)=q; +do_all_six(store_background);@/ +passive=null;printed_node=temp_head;pass_number=0; +font_in_short_display=null_font + +@ @<Clean...@>= +q=link(active); +while (q!=last_active) + {@+cur_p=link(q); + if (type(q)==delta_node) free_node(q, delta_node_size); + else free_node(q, active_node_size); + q=cur_p; + } +q=passive; +while (q!=null) + {@+cur_p=link(q); + free_node(q, passive_node_size); + q=cur_p; + } + +@ Here is the main switch in the |line_break| routine, where legal breaks +are determined. As we move through the hlist, we need to keep the |active_width| +array up to date, so that the badness of individual lines is readily calculated +by |try_break|. It is convenient to use the short name |act_width| for +the component of active width that represents real width as opposed to glue. + +@d act_width active_width[1] /*length from first active node to current node*/ +@d kern_break {@+if (!is_char_node(link(cur_p))&&auto_breaking) + if (type(link(cur_p))==glue_node) try_break(0, unhyphenated); + act_width=act_width+width(cur_p); + } + +@<Call |try_break| if |cur_p| is a legal breakpoint...@>= +{@+if (is_char_node(cur_p)) + @<Advance \(c)|cur_p| to the node following the present string of characters@>; +switch (type(cur_p)) { +case hlist_node: case vlist_node: case rule_node: act_width=act_width+width(cur_p);@+break; +case whatsit_node: @<Advance \(p)past a whatsit node in the \(l)|line_break| loop@>@;@+break; +case glue_node: {@+@<If node |cur_p| is a legal breakpoint, call |try_break|; then +update the active widths by including the glue in |glue_ptr(cur_p)|@>; + if (second_pass&&auto_breaking) + hyphenate_word(); + } @+break; +case kern_node: if (subtype(cur_p)==explicit) kern_break@; + else act_width=act_width+width(cur_p);@+break; +case ligature_node: {@+f=font(lig_char(cur_p)); + act_width=act_width+char_width(f, char_info(f, character(lig_char(cur_p)))); + } @+break; +case disc_node: @<Try to break after a discretionary fragment, then |goto done5|@>@; +case math_node: {@+auto_breaking=(subtype(cur_p)==after);kern_break; + } @+break; +case penalty_node: try_break(penalty(cur_p), unhyphenated);@+break; +case mark_node: case ins_node: case adjust_node: do_nothing;@+break; +default:confusion("paragraph"); +@:this can't happen paragraph}{\quad paragraph@> +} @/ +prev_p=cur_p;cur_p=link(cur_p); +done5: ;} + +@ The code that passes over the characters of words in a paragraph is +part of \TeX's inner loop, so it has been streamlined for speed. We use +the fact that `\.{\\parfillskip}' glue appears at the end of each paragraph; +it is therefore unnecessary to check if |link(cur_p)==null| when |cur_p| is a +character node. +@^inner loop@> + +@<Advance \(c)|cur_p| to the node following the present string...@>= +{@+prev_p=cur_p; +@/do@+{f=font(cur_p); +act_width=act_width+char_width(f, char_info(f, character(cur_p))); +cur_p=link(cur_p); +}@+ while (!(!is_char_node(cur_p))); +} + +@ When node |cur_p| is a glue node, we look at |prev_p| to see whether or not +a breakpoint is legal at |cur_p|, as explained above. + +@<If node |cur_p| is a legal breakpoint, call...@>= +if (auto_breaking) + {@+if (is_char_node(prev_p)) try_break(0, unhyphenated); + else if (precedes_break(prev_p)) try_break(0, unhyphenated); + else if ((type(prev_p)==kern_node)&&(subtype(prev_p)!=explicit)) + try_break(0, unhyphenated); + } +check_shrinkage(glue_ptr(cur_p));q=glue_ptr(cur_p); +act_width=act_width+width(q);@| +active_width[2+stretch_order(q)]=@| + active_width[2+stretch_order(q)]+stretch(q);@/ +active_width[6]=active_width[6]+shrink(q) + +@ The following code knows that discretionary texts contain +only character nodes, kern nodes, box nodes, rule nodes, and ligature nodes. + +@<Try to break after a discretionary fragment...@>= +{@+s=pre_break(cur_p);disc_width=0; +if (s==null) try_break(ex_hyphen_penalty, hyphenated); +else{@+@/do@+{@<Add the width of node |s| to |disc_width|@>; + s=link(s); + }@+ while (!(s==null)); + act_width=act_width+disc_width; + try_break(hyphen_penalty, hyphenated); + act_width=act_width-disc_width; + } +r=replace_count(cur_p);s=link(cur_p); +while (r > 0) + {@+@<Add the width of node |s| to |act_width|@>; + decr(r);s=link(s); + } +prev_p=cur_p;cur_p=s;goto done5; +} + +@ @<Add the width of node |s| to |disc_width|@>= +if (is_char_node(s)) + {@+f=font(s); + disc_width=disc_width+char_width(f, char_info(f, character(s))); + } +else switch (type(s)) { + case ligature_node: {@+f=font(lig_char(s)); + disc_width=disc_width+ + char_width(f, char_info(f, character(lig_char(s)))); + } @+break; + case hlist_node: case vlist_node: case rule_node: case kern_node: + disc_width=disc_width+width(s);@+break; + default:confusion("disc3"); +@:this can't happen disc3}{\quad disc3@> + } + +@ @<Add the width of node |s| to |act_width|@>= +if (is_char_node(s)) + {@+f=font(s); + act_width=act_width+char_width(f, char_info(f, character(s))); + } +else switch (type(s)) { + case ligature_node: {@+f=font(lig_char(s)); + act_width=act_width+ + char_width(f, char_info(f, character(lig_char(s)))); + } @+break; + case hlist_node: case vlist_node: case rule_node: case kern_node: + act_width=act_width+width(s);@+break; + default:confusion("disc4"); +@:this can't happen disc4}{\quad disc4@> + } + +@ The forced line break at the paragraph's end will reduce the list of +breakpoints so that all active nodes represent breaks at |cur_p==null|. +On the first pass, we insist on finding an active node that has the +correct ``looseness.'' On the final pass, there will be at least one active +node, and we will match the desired looseness as well as we can. + +The global variable |best_bet| will be set to the active node for the best +way to break the paragraph, and a few other variables are used to +help determine what is best. + +@<Glob...@>= +static pointer @!best_bet; /*use this passive node and its predecessors*/ +static int @!fewest_demerits; /*the demerits associated with |best_bet|*/ +static halfword @!best_line; /*line number following the last line of the new paragraph*/ +static int @!actual_looseness; /*the difference between |line_number(best_bet)| + and the optimum |best_line|*/ +static int @!line_diff; /*the difference between the current line number and + the optimum |best_line|*/ + +@ @<Try the final line break at the end of the paragraph...@>= +{@+try_break(eject_penalty, hyphenated); +if (link(active)!=last_active) + {@+@<Find an active node with fewest demerits@>; + if (looseness==0) goto done; + @<Find the best active node for the desired looseness@>; + if ((actual_looseness==looseness)||final_pass) goto done; + } +} + +@ @<Find an active node...@>= +r=link(active);fewest_demerits=awful_bad; +@/do@+{if (type(r)!=delta_node) if (total_demerits(r) < fewest_demerits) + {@+fewest_demerits=total_demerits(r);best_bet=r; + } +r=link(r); +}@+ while (!(r==last_active)); +best_line=line_number(best_bet) + +@ The adjustment for a desired looseness is a slightly more complicated +version of the loop just considered. Note that if a paragraph is broken +into segments by displayed equations, each segment will be subject to the +looseness calculation, independently of the other segments. + +@<Find the best active node...@>= +{@+r=link(active);actual_looseness=0; +@/do@+{if (type(r)!=delta_node) + {@+line_diff=line_number(r)-best_line; + if (((line_diff < actual_looseness)&&(looseness <= line_diff))||@| + ((line_diff > actual_looseness)&&(looseness >= line_diff))) + {@+best_bet=r;actual_looseness=line_diff; + fewest_demerits=total_demerits(r); + } + else if ((line_diff==actual_looseness)&&@| + (total_demerits(r) < fewest_demerits)) + {@+best_bet=r;fewest_demerits=total_demerits(r); + } + } +r=link(r); +}@+ while (!(r==last_active)); +best_line=line_number(best_bet); +} + +@ Once the best sequence of breakpoints has been found (hurray), we call on the +procedure |post_line_break| to finish the remainder of the work. +(By introducing this subprocedure, we are able to keep |line_break| +from getting extremely long.) + +@<Break the paragraph at the chosen...@>= +post_line_break(final_widow_penalty) + +@ The total number of lines that will be set by |post_line_break| +is |best_line-prev_graf-1|. The last breakpoint is specified by +|break_node(best_bet)|, and this passive node points to the other breakpoints +via the |prev_break| links. The finishing-up phase starts by linking the +relevant passive nodes in forward order, changing |prev_break| to +|next_break|. (The |next_break| fields actually reside in the same memory +space as the |prev_break| fields did, but we give them a new name because +of their new significance.) Then the lines are justified, one by one. + +@d next_break prev_break /*new name for |prev_break| after links are reversed*/ + +@<Declare subprocedures for |line_break|@>= +static void post_line_break(int @!final_widow_penalty) +{@+ +pointer q, @!r, @!s; /*temporary registers for list manipulation*/ +bool @!disc_break; /*was the current break at a discretionary node?*/ +bool @!post_disc_break; /*and did it have a nonempty post-break part?*/ +scaled @!cur_width; /*width of line number |cur_line|*/ +scaled @!cur_indent; /*left margin of line number |cur_line|*/ +quarterword @!t; /*used for replacement counts in discretionary nodes*/ +int @!pen; /*use when calculating penalties between lines*/ +halfword @!cur_line; /*the current line number being justified*/ +@<Reverse the links of the relevant passive nodes, setting |cur_p| to the first breakpoint@>; +cur_line=prev_graf+1; +@/do@+{@<Justify the line ending at breakpoint |cur_p|, and append it to the current +vertical list, together with associated penalties and other insertions@>; +incr(cur_line);cur_p=next_break(cur_p); +if (cur_p!=null) if (!post_disc_break) + @<Prune unwanted nodes at the beginning of the next line@>; +}@+ while (!(cur_p==null)); +if ((cur_line!=best_line)||(link(temp_head)!=null)) + confusion("line breaking"); +@:this can't happen line breaking}{\quad line breaking@> +prev_graf=best_line-1; +} + +@ The job of reversing links in a list is conveniently regarded as the job +of taking items off one stack and putting them on another. In this case we +take them off a stack pointed to by |q| and having |prev_break| fields; +we put them on a stack pointed to by |cur_p| and having |next_break| fields. +Node |r| is the passive node being moved from stack to stack. + +@<Reverse the links of the relevant passive nodes...@>= +q=break_node(best_bet);cur_p=null; +@/do@+{r=q;q=prev_break(q);next_break(r)=cur_p;cur_p=r; +}@+ while (!(q==null)) + +@ Glue and penalty and kern and math nodes are deleted at the beginning of +a line, except in the anomalous case that the node to be deleted is actually +one of the chosen breakpoints. Otherwise +the pruning done here is designed to match +the lookahead computation in |try_break|, where the |break_width| values +are computed for non-discretionary breakpoints. + +@<Prune unwanted nodes at the beginning of the next line@>= +{@+r=temp_head; +loop@+{@+q=link(r); + if (q==cur_break(cur_p)) goto done1; + /*|cur_break(cur_p)| is the next breakpoint*/ + /*now |q| cannot be |null|*/ + if (is_char_node(q)) goto done1; + if (non_discardable(q)) goto done1; + if (type(q)==kern_node) if (subtype(q)!=explicit) goto done1; + r=q; /*now |type(q)==glue_node|, |kern_node|, |math_node|, or |penalty_node|*/ + } +done1: if (r!=temp_head) + {@+link(r)=null;flush_node_list(link(temp_head)); + link(temp_head)=q; + } +} + +@ The current line to be justified appears in a horizontal list starting +at |link(temp_head)| and ending at |cur_break(cur_p)|. If |cur_break(cur_p)| is +a glue node, we reset the glue to equal the |right_skip| glue; otherwise +we append the |right_skip| glue at the right. If |cur_break(cur_p)| is a +discretionary node, we modify the list so that the discretionary break +is compulsory, and we set |disc_break| to |true|. We also append +the |left_skip| glue at the left of the line, unless it is zero. + +@<Justify the line ending at breakpoint |cur_p|, and append it...@>= +@<Modify the end of the line to reflect the nature of the break and to include \.{\\rightskip}; +also set the proper value of |disc_break|@>; +@<Put the \(l)\.{\\leftskip} glue at the left and detach this line@>; +@<Call the packaging subroutine, setting |just_box| to the justified box@>; +@<Append the new box to the current vertical list, followed by the list of special +nodes taken out of the box by the packager@>; +@<Append a penalty node, if a nonzero penalty is appropriate@>@; + +@ At the end of the following code, |q| will point to the final node on the +list about to be justified. + +@<Modify the end of the line...@>= +q=cur_break(cur_p);disc_break=false;post_disc_break=false; +if (q!=null) /*|q| cannot be a |char_node|*/ + if (type(q)==glue_node) + {@+delete_glue_ref(glue_ptr(q)); + glue_ptr(q)=right_skip; + subtype(q)=right_skip_code+1;add_glue_ref(right_skip); + goto done; + } + else{@+if (type(q)==disc_node) + @<Change discretionary to compulsory and set |disc_break:=true|@>@; + else if ((type(q)==math_node)||(type(q)==kern_node)) width(q)=0; + } +else{@+q=temp_head; + while (link(q)!=null) q=link(q); + } +@<Put the \(r)\.{\\rightskip} glue after node |q|@>; +done: + +@ @<Change discretionary to compulsory...@>= +{@+t=replace_count(q); +@<Destroy the |t| nodes following |q|, and make |r| point to the following node@>; +if (post_break(q)!=null) @<Transplant the post-break list@>; +if (pre_break(q)!=null) @<Transplant the pre-break list@>; +link(q)=r;disc_break=true; +} + +@ @<Destroy the |t| nodes following |q|...@>= +if (t==0) r=link(q); +else{@+r=q; + while (t > 1) + {@+r=link(r);decr(t); + } + s=link(r); + r=link(s);link(s)=null; + flush_node_list(link(q));set_replace_count(q,0); + } + +@ We move the post-break list from inside node |q| to the main list by +re\-attaching it just before the present node |r|, then resetting |r|. + +@<Transplant the post-break list@>= +{@+s=post_break(q); +while (link(s)!=null) s=link(s); +link(s)=r;r=post_break(q);post_break(q)=null;post_disc_break=true; +} + +@ We move the pre-break list from inside node |q| to the main list by +re\-attaching it just after the present node |q|, then resetting |q|. + +@<Transplant the pre-break list@>= +{@+s=pre_break(q);link(q)=s; +while (link(s)!=null) s=link(s); +pre_break(q)=null;q=s; +} + +@ @<Put the \(r)\.{\\rightskip} glue after node |q|@>= +r=new_param_glue(right_skip_code);link(r)=link(q);link(q)=r;q=r + +@ The following code begins with |q| at the end of the list to be +justified. It ends with |q| at the beginning of that list, and with +|link(temp_head)| pointing to the remainder of the paragraph, if any. + +@<Put the \(l)\.{\\leftskip} glue at the left...@>= +r=link(q);link(q)=null;q=link(temp_head);link(temp_head)=r; +if (left_skip!=zero_glue) + {@+r=new_param_glue(left_skip_code); + link(r)=q;q=r; + } + +@ @<Append the new box to the current vertical list...@>= +append_to_vlist(just_box); +if (adjust_head!=adjust_tail) + {@+link(tail)=link(adjust_head);tail=adjust_tail; + } +adjust_tail=null + +@ Now |q| points to the hlist that represents the current line of the +paragraph. We need to compute the appropriate line width, pack the +line into a box of this size, and shift the box by the appropriate +amount of indentation. + +@<Call the packaging subroutine...@>= +if (cur_line > last_special_line) + {@+cur_width=second_width;cur_indent=second_indent; + } +else if (par_shape_ptr==null) + {@+cur_width=first_width;cur_indent=first_indent; + } +else{@+cur_width=mem[par_shape_ptr+2*cur_line].sc; + cur_indent=mem[par_shape_ptr+2*cur_line-1].sc; + } +adjust_tail=adjust_head;just_box=hpack(q, cur_width, 0, 0, exactly); +shift_amount(just_box)=cur_indent + +@ Penalties between the lines of a paragraph come from club and widow lines, +from the |inter_line_penalty| parameter, and from lines that end at +discretionary breaks. Breaking between lines of a two-line paragraph gets +both club-line and widow-line penalties. The local variable |pen| will +be set to the sum of all relevant penalties for the current line, except +that the final line is never penalized. + +@<Append a penalty node, if a nonzero penalty is appropriate@>= +if (cur_line+1!=best_line) + {@+pen=inter_line_penalty; + if (cur_line==prev_graf+1) pen=pen+club_penalty; + if (cur_line+2==best_line) pen=pen+final_widow_penalty; + if (disc_break) pen=pen+broken_penalty; + if (pen!=0) + {@+r=new_penalty(pen); + link(tail)=r;tail=r; + } + } + +@* Pre-hyphenation. +When the line-breaking routine is unable to find a feasible sequence of +breakpoints, it makes a second pass over the paragraph, attempting to +hyphenate the hyphenatable words. The goal of hyphenation is to insert +discretionary material into the paragraph so that there are more +potential places to break. + +The general rules for hyphenation are somewhat complex and technical, +because we want to be able to hyphenate words that are preceded or +followed by punctuation marks, and because we want the rules to work +for languages other than English. We also must contend with the fact +that hyphens might radically alter the ligature and kerning structure +of a word. + +A sequence of characters will be considered for hyphenation only if it +belongs to a ``potentially hyphenatable part'' of the current paragraph. +This is a sequence of nodes $p_0p_1\ldots p_m$ where $p_0$ is a glue node, +$p_1\ldots p_{m-1}$ are either character or ligature or whatsit or +implicit kern nodes, and $p_m$ is a glue or penalty or insertion or adjust +or mark or whatsit or explicit kern node. (Therefore hyphenation is +disabled by boxes, math formulas, and discretionary nodes already inserted +by the user.) The ligature nodes among $p_1\ldots p_{m-1}$ are effectively +expanded into the original non-ligature characters; the kern nodes and +whatsits are ignored. Each character |c| is now classified as either a +nonletter (if |lc_code(c)==0|), a lowercase letter (if +|lc_code(c)==c|), or an uppercase letter (otherwise); an uppercase letter +is treated as if it were |lc_code(c)| for purposes of hyphenation. The +characters generated by $p_1\ldots p_{m-1}$ may begin with nonletters; let +$c_1$ be the first letter that is not in the middle of a ligature. Whatsit +nodes preceding $c_1$ are ignored; a whatsit found after $c_1$ will be the +terminating node $p_m$. All characters that do not have the same font as +$c_1$ will be treated as nonletters. The |hyphen_char| for that font +must be between 0 and 255, otherwise hyphenation will not be attempted. +\TeX\ looks ahead for as many consecutive letters $c_1\ldots c_n$ as +possible; however, |n| must be less than 64, so a character that would +otherwise be $c_{64}$ is effectively not a letter. Furthermore $c_n$ must +not be in the middle of a ligature. In this way we obtain a string of +letters $c_1\ldots c_n$ that are generated by nodes $p_a\ldots p_b$, where +|1 <= a <= b+1 <= m|. If |n >= l_hyf+r_hyf|, this string qualifies for hyphenation; +however, |uc_hyph| must be positive, if $c_1$ is uppercase. + +The hyphenation process takes place in three stages. First, the candidate +sequence $c_1\ldots c_n$ is found; then potential positions for hyphens +are determined by referring to hyphenation tables; and finally, the nodes +$p_a\ldots p_b$ are replaced by a new sequence of nodes that includes the +discretionary breaks found. + +Fortunately, we do not have to do all this calculation very often, because +of the way it has been taken out of \TeX's inner loop. For example, when +the second edition of the author's 700-page book {\sl Seminumerical +Algorithms} was typeset by \TeX, only about 1.2 hyphenations needed to be +@^Knuth, Donald Ervin@> +tried per paragraph, since the line breaking algorithm needed to use two +passes on only about 5 per cent of the paragraphs. + +@<Initialize for hyphenating...@>= { -\changestyle{unpackage.tex} +#ifdef @!INIT +if (trie_not_ready) init_trie(); +#endif +@;@/ +cur_lang=init_cur_lang;l_hyf=init_l_hyf;r_hyf=init_r_hyf; +} + +@ The letters $c_1\ldots c_n$ that are candidates for hyphenation are placed +into an array called |hc|; the number |n| is placed into |hn|; pointers to +nodes $p_{a-1}$ and~$p_b$ in the description above are placed into variables +|ha| and |hb|; and the font number is placed into |hf|. + +@<Glob...@>= +static int16_t @!hc[66]; /*word to be hyphenated*/ +static int @!hn; /*the number of positions occupied in |hc|; + not always a |small_number|*/ +static pointer @!ha, @!hb; /*nodes |ha dotdot hb| should be replaced by the hyphenated result*/ +static internal_font_number @!hf; /*font number of the letters in |hc|*/ +static int16_t @!hu[64]; /*like |hc|, before conversion to lowercase*/ +static int @!hyf_char; /*hyphen character of the relevant font*/ +static ASCII_code @!cur_lang, @!init_cur_lang; /*current hyphenation table of interest*/ +static int @!l_hyf, @!r_hyf, @!init_l_hyf, @!init_r_hyf; /*limits on fragment sizes*/ +static halfword @!hyf_bchar; /*boundary character after $c_n$*/ + +@ Hyphenation routines need a few more local variables. + +@<Local variables for line...@>= +small_number @!j; /*an index into |hc| or |hu|*/ +int @!c; /*character being considered for hyphenation*/ + +@ When the following code is activated, the |line_break| procedure is in its +second pass, and |cur_p| points to a glue node. + +@p +static void hyphenate_word(void)@t\2\2@>@/ +{ pointer @!q, @!s, @!prev_s;@t\1@> /*miscellaneous nodes of temporary interest*/ + small_number @!j; /*an index into |hc| or |hu|*/ + uint8_t @!c; /*character being considered for hyphenation*/ + + prev_s=cur_p;s=link(prev_s); +if (s!=null) + {@+@<Skip to node |ha|, or |goto done1| if no hyphenation should be attempted@>; + if (l_hyf+r_hyf > 63) goto done1; + @<Skip to node |hb|, putting letters into |hu| and |hc|@>; + @<Check that the nodes following |hb| permit hyphenation and that at least |l_hyf+r_hyf| +letters have been found, otherwise |goto done1|@>; + hyphenate(); + } +done1: ;} + +@ @<Declare subprocedures for |line_break|@>= +@t\4@>@<Declare the function called |reconstitute|@>@; +static void hyphenate(void) +{@+ +@<Local variables for hyphenation@>@; +@<Find hyphen locations for the word in |hc|, or |return|@>; +@<If no hyphens were found, |return|@>; +@<Replace nodes |ha..hb| by a sequence of nodes that includes the discretionary hyphens@>; +} + +@ The first thing we need to do is find the node |ha| just before the +first letter. + +@<Skip to node |ha|, or |goto done1|...@>= +loop@+{@+if (is_char_node(s)) + {@+c=qo(character(s));hf=font(s); + } + else if (type(s)==ligature_node) + if (lig_ptr(s)==null) goto resume; + else{@+q=lig_ptr(s);c=qo(character(q));hf=font(q); + } + else if ((type(s)==kern_node)&&(subtype(s)==normal)) goto resume; + else if (type(s)==whatsit_node) + {@+@<Advance \(p)past a whatsit node in the \(p)pre-hyphenation loop@>; + goto resume; + } + else goto done1; + if (lc_code(c)!=0) + if ((lc_code(c)==c)||(uc_hyph > 0)) goto done2; + else goto done1; +resume: prev_s=s;s=link(prev_s); + } +done2: hyf_char=hyphen_char[hf]; +if (hyf_char < 0) goto done1; +if (hyf_char > 255) goto done1; +ha=prev_s + +@ The word to be hyphenated is now moved to the |hu| and |hc| arrays. + +@<Skip to node |hb|, putting letters...@>= +hn=0; +loop@+{@+if (is_char_node(s)) + {@+if (font(s)!=hf) goto done3; + hyf_bchar=character(s);c=qo(hyf_bchar); + if (lc_code(c)==0) goto done3; + if (hn==63) goto done3; + hb=s;incr(hn);hu[hn]=c;hc[hn]=lc_code(c);hyf_bchar=non_char; + } + else if (type(s)==ligature_node) + @<Move the characters of a ligature node to |hu| and |hc|; but |goto done3| if +they are not all letters@>@; + else if ((type(s)==kern_node)&&(subtype(s)==normal)) + {@+hb=s; + hyf_bchar=font_bchar[hf]; + } + else goto done3; + s=link(s); + } +done3: + +@ We let |j| be the index of the character being stored when a ligature node +is being expanded, since we do not want to advance |hn| until we are sure +that the entire ligature consists of letters. Note that it is possible +to get to |done3| with |hn==0| and |hb| not set to any value. + +@<Move the characters of a ligature node to |hu| and |hc|...@>= +{@+if (font(lig_char(s))!=hf) goto done3; +j=hn;q=lig_ptr(s);@+if (q > null) hyf_bchar=character(q); +while (q > null) + {@+c=qo(character(q)); + if (lc_code(c)==0) goto done3; + if (j==63) goto done3; + incr(j);hu[j]=c;hc[j]=lc_code(c);@/ + q=link(q); + } +hb=s;hn=j; +if (odd(subtype(s))) hyf_bchar=font_bchar[hf];@+else hyf_bchar=non_char; +} + +@ @<Check that the nodes following |hb| permit hyphenation...@>= +if (hn < l_hyf+r_hyf) goto done1; /*|l_hyf| and |r_hyf| are | >= 1|*/ +loop@+{@+if (!(is_char_node(s))) + switch (type(s)) { + case ligature_node: do_nothing;@+break; + case kern_node: if (subtype(s)!=normal) goto done4;@+break; + case whatsit_node: case glue_node: case penalty_node: case ins_node: case adjust_node: case mark_node: + goto done4; + default:goto done1; + } + s=link(s); + } +done4: + +@* Post-hyphenation. +If a hyphen may be inserted between |hc[j]| and |hc[j+1]|, the hyphenation +procedure will set |hyf[j]| to some small odd number. But before we look +at \TeX's hyphenation procedure, which is independent of the rest of the +line-breaking algorithm, let us consider what we will do with the hyphens +it finds, since it is better to work on this part of the program before +forgetting what |ha| and |hb|, etc., are all about. + +@<Glob...@>= +static int8_t @!hyf[65]; /*odd values indicate discretionary hyphens*/ +static pointer @!init_list; /*list of punctuation characters preceding the word*/ +static bool @!init_lig; /*does |init_list| represent a ligature?*/ +static bool @!init_lft; /*if so, did the ligature involve a left boundary?*/ + +@ @<Local variables for hyphenation@>= +int @!i, @!j, @!l; /*indices into |hc| or |hu|*/ +pointer @!q, @!r, @!s; /*temporary registers for list manipulation*/ +halfword @!bchar; /*boundary character of hyphenated word, or |non_char|*/ + +@ \TeX\ will never insert a hyphen that has fewer than +\.{\\lefthyphenmin} letters before it or fewer than +\.{\\righthyphenmin} after it; hence, a short word has +comparatively little chance of being hyphenated. If no hyphens have +been found, we can save time by not having to make any changes to the +paragraph. + +@<If no hyphens were found, |return|@>= +for (j=l_hyf; j<=hn-r_hyf; j++) if (odd(hyf[j])) goto found1; +return; +found1: + +@ If hyphens are in fact going to be inserted, \TeX\ first deletes the +subsequence of nodes between |ha| and~|hb|. An attempt is made to +preserve the effect that implicit boundary characters and punctuation marks +had on ligatures inside the hyphenated word, by storing a left boundary or +preceding character in |hu[0]| and by storing a possible right boundary +in |bchar|. We set |j=0| if |hu[0]| is to be part of the reconstruction; +otherwise |j=1|. +The variable |s| will point to the tail of the current hlist, and +|q| will point to the node following |hb|, so that +things can be hooked up after we reconstitute the hyphenated word. + +@<Replace nodes |ha..hb| by a sequence of nodes...@>= +q=link(hb);link(hb)=null;r=link(ha);link(ha)=null;bchar=hyf_bchar; +if (is_char_node(ha)) + if (font(ha)!=hf) goto found2; + else{@+init_list=ha;init_lig=false;hu[0]=qo(character(ha)); + } +else if (type(ha)==ligature_node) + if (font(lig_char(ha))!=hf) goto found2; + else{@+init_list=lig_ptr(ha);init_lig=true;init_lft=(subtype(ha) > 1); + hu[0]=qo(character(lig_char(ha))); + if (init_list==null) if (init_lft) + {@+hu[0]=256;init_lig=false; + } /*in this case a ligature will be reconstructed from scratch*/ + free_node(ha, small_node_size); + } +else{@+ /*no punctuation found; look for left boundary*/ + if (!is_char_node(r)) if (type(r)==ligature_node) + if (subtype(r) > 1) goto found2; + j=1;s=ha;init_list=null;goto common_ending; + } +s=cur_p; /*we have |cur_p!=ha| because |type(cur_p)==glue_node|*/ +while (link(s)!=ha) s=link(s); +j=0;goto common_ending; +found2: s=ha;j=0;hu[0]=256;init_lig=false;init_list=null; +common_ending: flush_node_list(r); +@<Reconstitute nodes for the hyphenated word, inserting discretionary hyphens@>; +flush_list(init_list) + +@ We must now face the fact that the battle is not over, even though the +{\def\!{\kern-1pt}% +hyphens have been found: The process of reconstituting a word can be nontrivial +because ligatures might change when a hyphen is present. {\sl The \TeX book\/} +discusses the difficulties of the word ``difficult'', and +the discretionary material surrounding a +hyphen can be considerably more complex than that. Suppose +\.{abcdef} is a word in a font for which the only ligatures are \.{b\!c}, +\.{c\!d}, \.{d\!e}, and \.{e\!f}. If this word permits hyphenation +between \.b and \.c, the two patterns with and without hyphenation are +$\.a\,\.b\,\.-\,\.{c\!d}\,\.{e\!f}$ and $\.a\,\.{b\!c}\,\.{d\!e}\,\.f$. +Thus the insertion of a hyphen might cause effects to ripple arbitrarily +far into the rest of the word. A further complication arises if additional +hyphens appear together with such rippling, e.g., if the word in the +example just given could also be hyphenated between \.c and \.d; \TeX\ +avoids this by simply ignoring the additional hyphens in such weird cases.} + +Still further complications arise in the presence of ligatures that do not +delete the original characters. When punctuation precedes the word being +hyphenated, \TeX's method is not perfect under all possible scenarios, +because punctuation marks and letters can propagate information back and forth. +For example, suppose the original pre-hyphenation pair +\.{*a} changes to \.{*y} via a \.{\@@=:} ligature, which changes to \.{xy} +via a \.{=:\@@} ligature; if $p_{a-1}=\.x$ and $p_a=\.y$, the reconstitution +procedure isn't smart enough to obtain \.{xy} again. In such cases the +font designer should include a ligature that goes from \.{xa} to \.{xy}. + +@ The processing is facilitated by a subroutine called |reconstitute|. Given +a string of characters $x_j\ldots x_n$, there is a smallest index $m\ge j$ +such that the ``translation'' of $x_j\ldots x_n$ by ligatures and kerning +has the form $y_1\ldots y_t$ followed by the translation of $x_{m+1}\ldots x_n$, +where $y_1\ldots y_t$ is some nonempty sequence of character, ligature, and +kern nodes. We call $x_j\ldots x_m$ a ``cut prefix'' of $x_j\ldots x_n$. +For example, if $x_1x_2x_3=\.{fly}$, and if the font contains `fl' as a +ligature and a kern between `fl' and `y', then $m=2$, $t=2$, and $y_1$ will +be a ligature node for `fl' followed by an appropriate kern node~$y_2$. +In the most common case, $x_j$~forms no ligature with $x_{j+1}$ and we +simply have $m=j$, $y_1=x_j$. If $m<n$ we can repeat the procedure on +$x_{m+1}\ldots x_n$ until the entire translation has been found. + +The |reconstitute| function returns the integer $m$ and puts the nodes +$y_1\ldots y_t$ into a linked list starting at |link(hold_head)|, +getting the input $x_j\ldots x_n$ from the |hu| array. If $x_j=256$, +we consider $x_j$ to be an implicit left boundary character; in this +case |j| must be strictly less than~|n|. There is a +parameter |bchar|, which is either 256 or an implicit right boundary character +assumed to be present just following~$x_n$. (The value |hu[n+1]| is never +explicitly examined, but the algorithm imagines that |bchar| is there.) + +If there exists an index |k| in the range $j\le k\le m$ such that |hyf[k]| +is odd and such that the result of |reconstitute| would have been different +if $x_{k+1}$ had been |hchar|, then |reconstitute| sets |hyphen_passed| +to the smallest such~|k|. Otherwise it sets |hyphen_passed| to zero. + +A special convention is used in the case |j==0|: Then we assume that the +translation of |hu[0]| appears in a special list of charnodes starting at +|init_list|; moreover, if |init_lig| is |true|, then |hu[0]| will be +a ligature character, involving a left boundary if |init_lft| is |true|. +This facility is provided for cases when a hyphenated +word is preceded by punctuation (like single or double quotes) that might +affect the translation of the beginning of the word. + +@<Glob...@>= +static small_number @!hyphen_passed; /*first hyphen in a ligature, if any*/ + +@ @<Declare the function called |reconstitute|@>= +static + small_number reconstitute(small_number @!j, small_number @!n, halfword @!bchar, halfword @!hchar) +{@+ +pointer @!p; /*temporary register for list manipulation*/ +pointer @!t; /*a node being appended to*/ +four_quarters @!q; /*character information or a lig/kern instruction*/ +halfword @!cur_rh; /*hyphen character for ligature testing*/ +halfword @!test_char; /*hyphen or other character for ligature testing*/ +scaled @!w; /*amount of kerning*/ +font_index @!k; /*position of current lig/kern instruction*/ +hyphen_passed=0;t=hold_head;w=0;link(hold_head)=null; + /*at this point |ligature_present==lft_hit==rt_hit==false|*/ +@<Set up data structures with the cursor following position |j|@>; +resume: @<If there's a ligature or kern at the cursor position, update the data structures, +possibly advancing~|j|; continue until the cursor moves@>; +@<Append a ligature and/or kern to the translation; |goto continue| if the stack of +inserted ligatures is nonempty@>; +return j; +} + +@ The reconstitution procedure shares many of the global data structures +by which \TeX\ has processed the words before they were hyphenated. +There is an implied ``cursor'' between characters |cur_l| and |cur_r|; +these characters will be tested for possible ligature activity. If +|ligature_present| then |cur_l| is a ligature character formed from the +original characters following |cur_q| in the current translation list. +There is a ``ligature stack'' between the cursor and character |j+1|, +consisting of pseudo-ligature nodes linked together by their |link| fields. +This stack is normally empty unless a ligature command has created a new +character that will need to be processed later. A pseudo-ligature is +a special node having a |character| field that represents a potential +ligature and a |lig_ptr| field that points to a |char_node| or is |null|. +We have +$$|cur_r|=\cases{|character(lig_stack)|,&if |lig_stack > null|;\cr + \hbox{|qi(hu[j+1])|},&if |lig_stack==null| and |j < n|;\cr + bchar,&if |lig_stack==null| and |j==n|.\cr}$$ + +@<Glob...@>= +static halfword @!cur_l, @!cur_r; /*characters before and after the cursor*/ +static pointer @!cur_q; /*where a ligature should be detached*/ +static pointer @!lig_stack; /*unfinished business to the right of the cursor*/ +static bool @!ligature_present; /*should a ligature node be made for |cur_l|?*/ +static bool @!lft_hit, @!rt_hit; /*did we hit a ligature with a boundary character?*/ + +@ @d append_charnode_to_t(A) {@+link(t)=get_avail();t=link(t); + font(t)=hf;character(t)=A; + } +@d set_cur_r {@+if (j < n) cur_r=qi(hu[j+1]);@+else cur_r=bchar; + if (odd(hyf[j])) cur_rh=hchar;@+else cur_rh=non_char; + } + +@<Set up data structures with the cursor following position |j|@>= +cur_l=qi(hu[j]);cur_q=t; +if (j==0) + {@+ligature_present=init_lig;p=init_list; + if (ligature_present) lft_hit=init_lft; + while (p > null) + {@+append_charnode_to_t(character(p));p=link(p); + } + } +else if (cur_l < non_char) append_charnode_to_t(cur_l); +lig_stack=null;set_cur_r + +@ We may want to look at the lig/kern program twice, once for a hyphen +and once for a normal letter. (The hyphen might appear after the letter +in the program, so we'd better not try to look for both at once.) + +@<If there's a ligature or kern at the cursor position, update...@>= +if (cur_l==non_char) + {@+k=bchar_label[hf]; + if (k==non_address) goto done;@+else q=font_info[k].qqqq; + } +else{@+q=char_info(hf, cur_l); + if (char_tag(q)!=lig_tag) goto done; + k=lig_kern_start(hf, q);q=font_info[k].qqqq; + if (skip_byte(q) > stop_flag) + {@+k=lig_kern_restart(hf, q);q=font_info[k].qqqq; + } + } /*now |k| is the starting address of the lig/kern program*/ +if (cur_rh < non_char) test_char=cur_rh;@+else test_char=cur_r; +loop@+{@+if (next_char(q)==test_char) if (skip_byte(q) <= stop_flag) + if (cur_rh < non_char) + {@+hyphen_passed=j;hchar=non_char;cur_rh=non_char; + goto resume; + } + else{@+if (hchar < non_char) if (odd(hyf[j])) + {@+hyphen_passed=j;hchar=non_char; + } + if (op_byte(q) < kern_flag) + @<Carry out a ligature replacement, updating the cursor structure and possibly +advancing~|j|; |goto continue| if the cursor doesn't advance, otherwise |goto done|@>; + w=char_kern(hf, q);goto done; /*this kern will be inserted below*/ + } + if (skip_byte(q) >= stop_flag) + if (cur_rh==non_char) goto done; + else{@+cur_rh=non_char;goto resume; + } + k=k+qo(skip_byte(q))+1;q=font_info[k].qqqq; + } +done: + +@ @d wrap_lig(A) if (ligature_present) + {@+p=new_ligature(hf, cur_l, link(cur_q)); + if (lft_hit) + {@+subtype(p)=2;lft_hit=false; + } + if (A) if (lig_stack==null) + {@+incr(subtype(p));rt_hit=false; + } + link(cur_q)=p;t=p;ligature_present=false; + } +@d pop_lig_stack {@+if (lig_ptr(lig_stack) > null) + {@+link(t)=lig_ptr(lig_stack); /*this is a charnode for |hu[j+1]|*/ + t=link(t);incr(j); + } + p=lig_stack;lig_stack=link(p);free_node(p, small_node_size); + if (lig_stack==null) set_cur_r@;@+else cur_r=character(lig_stack); + } /*if |lig_stack| isn't |null| we have |cur_rh==non_char|*/ + +@<Append a ligature and/or kern to the translation...@>= +wrap_lig(rt_hit); +if (w!=0) + {@+link(t)=new_kern(w);t=link(t);w=0; + } +if (lig_stack > null) + {@+cur_q=t;cur_l=character(lig_stack);ligature_present=true; + pop_lig_stack;goto resume; + } + +@ @<Carry out a ligature replacement, updating the cursor structure...@>= +{@+if (cur_l==non_char) lft_hit=true; +if (j==n) if (lig_stack==null) rt_hit=true; +check_interrupt; /*allow a way out in case there's an infinite ligature loop*/ +switch (op_byte(q)) { +case qi(1): case qi(5): {@+cur_l=rem_byte(q); /*\.{=:\@@}, \.{=:\@@>}*/ + ligature_present=true; + } @+break; +case qi(2): case qi(6): {@+cur_r=rem_byte(q); /*\.{\@@=:}, \.{\@@=:>}*/ + if (lig_stack > null) character(lig_stack)=cur_r; + else{@+lig_stack=new_lig_item(cur_r); + if (j==n) bchar=non_char; + else{@+p=get_avail();lig_ptr(lig_stack)=p; + character(p)=qi(hu[j+1]);font(p)=hf; + } + } + } @+break; +case qi(3): {@+cur_r=rem_byte(q); /*\.{\@@=:\@@}*/ + p=lig_stack;lig_stack=new_lig_item(cur_r);link(lig_stack)=p; + } @+break; +case qi(7): case qi(11): {@+wrap_lig(false); /*\.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ + cur_q=t;cur_l=rem_byte(q);ligature_present=true; + } @+break; +default:{@+cur_l=rem_byte(q);ligature_present=true; /*\.{=:}*/ + if (lig_stack > null) pop_lig_stack@; + else if (j==n) goto done; + else{@+append_charnode_to_t(cur_r);incr(j);set_cur_r; + } + } +} +if (op_byte(q) > qi(4)) if (op_byte(q)!=qi(7)) goto done; +goto resume; +} + +@ Okay, we're ready to insert the potential hyphenations that were found. +When the following program is executed, we want to append the word +|hu[1 dotdot hn]| after node |ha|, and node |q| should be appended to the result. +During this process, the variable |i| will be a temporary +index into |hu|; the variable |j| will be an index to our current position +in |hu|; the variable |l| will be the counterpart of |j|, in a discretionary +branch; the variable |r| will point to new nodes being created; and +we need a few new local variables: + +@<Local variables for hyph...@>= +pointer @!major_tail, @!minor_tail; /*the end of lists in the main and + discretionary branches being reconstructed*/ +ASCII_code @!c; /*character temporarily replaced by a hyphen*/ +int @!c_loc; /*where that character came from*/ +int @!r_count; /*replacement count for discretionary*/ +pointer @!hyf_node; /*the hyphen, if it exists*/ + +@ When the following code is performed, |hyf[0]| and |hyf[hn]| will be zero. + +@<Reconstitute nodes for the hyphenated word...@>= +@/do@+{l=j;j=reconstitute(j, hn, bchar, qi(hyf_char))+1; +if (hyphen_passed==0) + {@+link(s)=link(hold_head); + while (link(s) > null) s=link(s); + if (odd(hyf[j-1])) + {@+l=j;hyphen_passed=j-1;link(hold_head)=null; + } + } +if (hyphen_passed > 0) + @<Create and append a discretionary node as an alternative to the unhyphenated word, +and continue to develop both branches until they become equivalent@>; +}@+ while (!(j > hn)); +link(s)=q + +@ In this repeat loop we will insert another discretionary if |hyf[j-1]| is +odd, when both branches of the previous discretionary end at position |j-1|. +Strictly speaking, we aren't justified in doing this, because we don't know +that a hyphen after |j-1| is truly independent of those branches. But in almost +all applications we would rather not lose a potentially valuable hyphenation +point. (Consider the word `difficult', where the letter `c' is in position |j|.) + +@d advance_major_tail {@+major_tail=link(major_tail);incr(r_count); + } + +@<Create and append a discretionary node as an alternative...@>= +@/do@+{r=get_node(small_node_size); +link(r)=link(hold_head);type(r)=disc_node; +major_tail=r;r_count=0; +while (link(major_tail) > null) advance_major_tail; +i=hyphen_passed;hyf[i]=0; +@<Put the \(c)characters |hu[l..i]| and a hyphen into |pre_break(r)|@>; +@<Put the \(c)characters |hu[i+1..]| into |post_break(r)|, appending to this list +and to |major_tail| until synchronization has been achieved@>; +@<Move pointer |s| to the end of the current list, and set |replace_count(r)| appropriately@>; +hyphen_passed=j-1;link(hold_head)=null; +}@+ while (!(!odd(hyf[j-1]))) + +@ The new hyphen might combine with the previous character via ligature +or kern. At this point we have |l-1 <= i < j| and |i < hn|. + +@<Put the \(c)characters |hu[l..i]| and a hyphen into |pre_break(r)|@>= +minor_tail=null;pre_break(r)=null;hyf_node=new_character(hf, hyf_char); +if (hyf_node!=null) + {@+incr(i);c=hu[i];hu[i]=hyf_char;free_avail(hyf_node); + } +while (l <= i) + {@+l=reconstitute(l, i, font_bchar[hf], non_char)+1; + if (link(hold_head) > null) + {@+if (minor_tail==null) pre_break(r)=link(hold_head); + else link(minor_tail)=link(hold_head); + minor_tail=link(hold_head); + while (link(minor_tail) > null) minor_tail=link(minor_tail); + } + } +if (hyf_node!=null) + {@+hu[i]=c; /*restore the character in the hyphen position*/ + l=i;decr(i); + } + +@ The synchronization algorithm begins with |l==i+1 <= j|. + +@<Put the \(c)characters |hu[i+1..]| into |post_break(r)|...@>= +minor_tail=null;post_break(r)=null;c_loc=0; +if (bchar_label[hf]!=non_address) /*put left boundary at beginning of new line*/ + {@+decr(l);c=hu[l];c_loc=l;hu[l]=256; + } +while (l < j) + {@+@/do@+{l=reconstitute(l, hn, bchar, non_char)+1; + if (c_loc > 0) + {@+hu[c_loc]=c;c_loc=0; + } + if (link(hold_head) > null) + {@+if (minor_tail==null) post_break(r)=link(hold_head); + else link(minor_tail)=link(hold_head); + minor_tail=link(hold_head); + while (link(minor_tail) > null) minor_tail=link(minor_tail); + } + }@+ while (!(l >= j)); + while (l > j) + @<Append characters of |hu[j..]| to |major_tail|, advancing~|j|@>; + } + +@ @<Append characters of |hu[j..]|...@>= +{@+j=reconstitute(j, hn, bchar, non_char)+1; +link(major_tail)=link(hold_head); +while (link(major_tail) > null) advance_major_tail; +} + +@ Ligature insertion can cause a word to grow exponentially in size. Therefore +we must test the size of |r_count| here, even though the hyphenated text +was at most 63 characters long. + +@<Move pointer |s| to the end of the current list...@>= +if (r_count > 127) /*we have to forget the discretionary hyphen*/ + {@+link(s)=link(r);link(r)=null;flush_node_list(r); + } +else{@+link(s)=r;set_replace_count(r,r_count);set_auto_disc(r); + } +s=major_tail + +@* Hyphenation. +When a word |hc[1 dotdot hn]| has been set up to contain a candidate for hyphenation, +\TeX\ first looks to see if it is in the user's exception dictionary. If not, +hyphens are inserted based on patterns that appear within the given word, +using an algorithm due to Frank~M. Liang. +@^Liang, Franklin Mark@> + +Let's consider Liang's method first, since it is much more interesting than the +exception-lookup routine. The algorithm begins by setting |hyf[j]| to zero +for all |j|, and invalid characters are inserted into |hc[0]| +and |hc[hn+1]| to serve as delimiters. Then a reasonably fast method is +used to see which of a given set of patterns occurs in the word +|hc[0 dotdot(hn+1)]|. Each pattern $p_1\ldots p_k$ of length |k| has an associated +sequence of |k+1| numbers $n_0\ldots n_k$; and if the pattern occurs in +|hc[(j+1)dotdot(j+k)]|, \TeX\ will set |hyf[j+i]=@tmax@>(hyf[j+i],@t$n\_i$@>)| for +|0 <= i <= k|. After this has been done for each pattern that occurs, a +discretionary hyphen will be inserted between |hc[j]| and |hc[j+1]| when +|hyf[j]| is odd, as we have already seen. + +The set of patterns $p_1\ldots p_k$ and associated numbers $n_0\ldots n_k$ +depends, of course, on the language whose words are being hyphenated, and +on the degree of hyphenation that is desired. A method for finding +appropriate |p|'s and |n|'s, from a given dictionary of words and acceptable +hyphenations, is discussed in Liang's Ph.D. thesis (Stanford University, +1983); \TeX\ simply starts with the patterns and works from there. + +@ The patterns are stored in a compact table that is also efficient for +retrieval, using a variant of ``trie memory'' [cf.\ {\sl The Art of +Computer Programming \bf3} (1973), 481--505]. We can find each pattern +$p_1\ldots p_k$ by letting $z_0$ be one greater than the relevant language +index and then, for |1 <= i <= k|, +setting |@t$z\_i$@>=trie_link@t$(z\_{i-1})+p\_i$@>|; the pattern will be +identified by the number $z_k$. Since all the pattern information is +packed together into a single |trie_link| array, it is necessary to +prevent confusion between the data from inequivalent patterns, so another +table is provided such that |trie_char@t$(z\_i)=p\_i$@>| for all |i|. There +is also a table |trie_op|$(z_k)$ to identify the numbers $n_0\ldots n_k$ +associated with $p_1\ldots p_k$. + +Comparatively few different number sequences $n_0\ldots n_k$ actually occur, +since most of the |n|'s are generally zero. Therefore the number sequences +are encoded in such a way that |trie_op|$(z_k)$ is only one byte long. +If |trie_op(@t$z\_k$@>)!=min_quarterword|, when $p_1\ldots p_k$ has matched +the letters in |hc[(l-k+1)dotdot l@,]| of language |t|, +we perform all of the required operations +for this pattern by carrying out the following little program: Set +|v=trie_op(@t$z\_k$@>)|. Then set |v=v+op_start[t]|, +|hyf[l-hyf_distance[v]]=@tmax@>(hyf[l-hyf_distance[v]], hyf_num[v])|, +and |v=hyf_next[v]|; repeat, if necessary, until |v==min_quarterword|. + +@<Types...@>= +typedef int32_t trie_pointer; /*an index into |trie|*/ + +@ @d trie_link(A) trie[A].rh /*``downward'' link in a trie*/ +@d trie_char(A) trie[A].b1 /*character matched at this trie location*/ +@d trie_op(A) trie[A].b0 /*program for hyphenation at this trie location*/ + +@<Glob...@>= +static two_halves @!trie[trie_size+1]; /*|trie_link|, |trie_char|, |trie_op|*/ +static small_number @!hyf_distance0[trie_op_size], *const @!hyf_distance = @!hyf_distance0-1; /*position |k-j| of $n_j$*/ +static small_number @!hyf_num0[trie_op_size], *const @!hyf_num = @!hyf_num0-1; /*value of $n_j$*/ +static quarterword @!hyf_next0[trie_op_size], *const @!hyf_next = @!hyf_next0-1; /*continuation code*/ +static uint16_t @!op_start[256]; /*offset for current language*/ + +@ @<Local variables for hyph...@>= +trie_pointer @!z; /*an index into |trie|*/ +int @!v; /*an index into |hyf_distance|, etc.*/ + +@ Assuming that these auxiliary tables have been set up properly, the +hyphenation algorithm is quite short. In the following code we set |hc[hn+2]| +to the impossible value 256, in order to guarantee that |hc[hn+3]| will +never be fetched. + +@<Find hyphen locations for the word in |hc|...@>= +for (j=0; j<=hn; j++) hyf[j]=0; +@<Look for the word |hc[1..hn]| in the exception table, and |goto found| (with |hyf| +containing the hyphens) if an entry is found@>; +if (trie_char(cur_lang+1)!=qi(cur_lang)) return; /*no patterns for |cur_lang|*/ +hc[0]=0;hc[hn+1]=0;hc[hn+2]=256; /*insert delimiters*/ +for (j=0; j<=hn-r_hyf+1; j++) + {@+z=trie_link(cur_lang+1)+hc[j];l=j; + while (hc[l]==qo(trie_char(z))) + {@+if (trie_op(z)!=min_quarterword) + @<Store \(m)maximum values in the |hyf| table@>; + incr(l);z=trie_link(z)+hc[l]; + } + } +found: for (j=0; j<=l_hyf-1; j++) hyf[j]=0; +for (j=0; j<=r_hyf-1; j++) hyf[hn-j]=0 + +@ @<Store \(m)maximum values in the |hyf| table@>= +{@+v=trie_op(z); +@/do@+{v=v+op_start[cur_lang];i=l-hyf_distance[v]; +if (hyf_num[v] > hyf[i]) hyf[i]=hyf_num[v]; +v=hyf_next[v]; +}@+ while (!(v==min_quarterword)); +} + +@ The exception table that is built by \TeX's \.{\\hyphenation} primitive is +organized as an ordered hash table [cf.\ Amble and Knuth, {\sl The Computer +@^Amble, Ole@> @^Knuth, Donald Ervin@> +Journal\/ \bf17} (1974), 135--142] using linear probing. If $\alpha$ and +$\beta$ are words, we will say that $\alpha<\beta$ if $\vert\alpha\vert< +\vert\beta\vert$ or if $\vert\alpha\vert=\vert\beta\vert$ and +$\alpha$ is lexicographically smaller than $\beta$. (The notation $\vert +\alpha\vert$ stands for the length of $\alpha$.) The idea of ordered hashing +is to arrange the table so that a given word $\alpha$ can be sought by computing +a hash address $h=h(\alpha)$ and then looking in table positions |h|, |h-1|, +\dots, until encountering the first word $\le\alpha$. If this word is +different from $\alpha$, we can conclude that $\alpha$ is not in the table. + +The words in the table point to lists in |mem| that specify hyphen positions +in their |info| fields. The list for $c_1\ldots c_n$ contains the number |k| if +the word $c_1\ldots c_n$ has a discretionary hyphen between $c_k$ and +$c_{k+1}$. + +@<Types...@>= +typedef int16_t hyph_pointer; /*an index into the ordered hash table*/ + +@ @<Glob...@>= +static str_number @!hyph_word[hyph_size+1]; /*exception words*/ +static pointer @!hyph_list[hyph_size+1]; /*lists of hyphen positions*/ +static hyph_pointer @!hyph_count; /*the number of words in the exception dictionary*/ + +@ @<Local variables for init...@>= +int @!z; /*runs through the exception dictionary*/ + +@ @<Set init...@>= +for (z=0; z<=hyph_size; z++) + {@+hyph_word[z]=0;hyph_list[z]=null; + } +hyph_count=0; + +@ The algorithm for exception lookup is quite simple, as soon as we have +a few more local variables to work with. + +@<Local variables for hyph...@>= +hyph_pointer @!h; /*an index into |hyph_word| and |hyph_list|*/ +str_number @!k; /*an index into |str_start|*/ +pool_pointer @!u; /*an index into |str_pool|*/ + +@ First we compute the hash code |h|, then we search until we either +find the word or we don't. Words from different languages are kept +separate by appending the language code to the string. + +@<Look for the word |hc[1...@>= +h=hc[1];incr(hn);hc[hn]=cur_lang; +for (j=2; j<=hn; j++) h=(h+h+hc[j])%hyph_size; +loop@+{@+@<If the string |hyph_word[h]| is less than \(hc)|hc[1..hn]|, |goto not_found|; +but if the two strings are equal, set |hyf| to the hyphen positions and |goto found|@>; + if (h > 0) decr(h);@+else h=hyph_size; + } +not_found: decr(hn) + +@ @<If the string |hyph_word[h]| is less than \(hc)...@>= +k=hyph_word[h];if (k==0) goto not_found; +if (length(k) < hn) goto not_found; +if (length(k)==hn) + {@+j=1;u=str_start[k]; + @/do@+{if (so(str_pool[u]) < hc[j]) goto not_found; + if (so(str_pool[u]) > hc[j]) goto done; + incr(j);incr(u); + }@+ while (!(j > hn)); + @<Insert hyphens as specified in |hyph_list[h]|@>; + decr(hn);goto found; + } +done: + +@ @<Insert hyphens as specified...@>= +s=hyph_list[h]; +while (s!=null) + {@+hyf[info(s)]=1;s=link(s); + } + +@ @<Search |hyph_list| for pointers to |p|@>= +for (q=0; q<=hyph_size; q++) + {@+if (hyph_list[q]==p) + {@+print_nl("HYPH(");print_int(q);print_char(')'); + } + } + +@ We have now completed the hyphenation routine, so the |line_break| procedure +is finished at last. Since the hyphenation exception table is fresh in our +minds, it's a good time to deal with the routine that adds new entries to it. + +When \TeX\ has scanned `\.{\\hyphenation}', it calls on a procedure named +|new_hyph_exceptions| to do the right thing. + +@d set_cur_lang if (language <= 0) cur_lang=0; + else if (language > 255) cur_lang=0; + else cur_lang=language + +@p static void new_hyph_exceptions(void) /*enters new exceptions*/ +{@+ +int n; /*length of current word; not always a |small_number|*/ +int @!j; /*an index into |hc|*/ +hyph_pointer @!h; /*an index into |hyph_word| and |hyph_list|*/ +str_number @!k; /*an index into |str_start|*/ +pointer @!p; /*head of a list of hyphen positions*/ +pointer @!q; /*used when creating a new node for list |p|*/ +str_number @!s, @!t; /*strings being compared or stored*/ +pool_pointer @!u, @!v; /*indices into |str_pool|*/ +scan_left_brace(); /*a left brace must follow \.{\\hyphenation}*/ +set_cur_lang; +@<Enter as many hyphenation exceptions as are listed, until coming to a right brace; +then |return|@>; +} + +@ @<Enter as many...@>= +n=0;p=null; +loop@+{@+get_x_token(); + reswitch: switch (cur_cmd) { + case letter: case other_char: case char_given: @<Append a new letter or hyphen@>@;@+break; + case char_num: {@+scan_char_num();cur_chr=cur_val;cur_cmd=char_given; + goto reswitch; + } + case spacer: case right_brace: {@+if (n > 1) @<Enter a hyphenation exception@>; + if (cur_cmd==right_brace) return; + n=0;p=null; + } @+break; + default:@<Give improper \.{\\hyphenation} error@>@; + } + } + +@ @<Give improper \.{\\hyph...@>= +{@+print_err("Improper ");print_esc("hyphenation"); +@.Improper \\hyphenation...@> + print(" will be flushed"); +help2("Hyphenation exceptions must contain only letters",@/ + "and hyphens. But continue; I'll forgive and forget."); +error(); +} + +@ @<Append a new letter or hyphen@>= +if (cur_chr=='-') @<Append the value |n| to list |p|@>@; +else{@+if (lc_code(cur_chr)==0) + {@+print_err("Not a letter"); +@.Not a letter@> + help2("Letters in \\hyphenation words must have \\lccode>0.",@/ + "Proceed; I'll ignore the character I just read."); + error(); + } + else if (n < 63) + {@+incr(n);hc[n]=lc_code(cur_chr); + } + } + +@ @<Append the value |n| to list |p|@>= +{@+if (n < 63) + {@+q=get_avail();link(q)=p;info(q)=n;p=q; + } +} + +@ @<Enter a hyphenation exception@>= +{@+incr(n);hc[n]=cur_lang;str_room(n);h=0; +for (j=1; j<=n; j++) + {@+h=(h+h+hc[j])%hyph_size; + append_char(hc[j]); + } +s=make_string(); +@<Insert the \(p)pair |(s,p)| into the exception table@>; +} + +@ @<Insert the \(p)pair |(s,p)|...@>= +if (hyph_count==hyph_size) overflow("exception dictionary", hyph_size); +@:TeX capacity exceeded exception dictionary}{\quad exception dictionary@> +incr(hyph_count); +while (hyph_word[h]!=0) + {@+@<If the string |hyph_word[h]| is less than \(or)or equal to |s|, interchange +|(hyph_word[h],hyph_list[h])| with |(s,p)|@>; + if (h > 0) decr(h);@+else h=hyph_size; + } +hyph_word[h]=s;hyph_list[h]=p + +@ @<If the string |hyph_word[h]| is less than \(or)...@>= +k=hyph_word[h]; +if (length(k) < length(s)) goto found; +if (length(k) > length(s)) goto not_found; +u=str_start[k];v=str_start[s]; +@/do@+{if (str_pool[u] < str_pool[v]) goto found; +if (str_pool[u] > str_pool[v]) goto not_found; +incr(u);incr(v); +}@+ while (!(u==str_start[k+1])); +found: q=hyph_list[h];hyph_list[h]=p;p=q;@/ +t=hyph_word[h];hyph_word[h]=s;s=t; +not_found: + +@* Initializing the hyphenation tables. +The trie for \TeX's hyphenation algorithm is built from a sequence of +patterns following a \.{\\patterns} specification. Such a specification +is allowed only in \.{INITEX}, since the extra memory for auxiliary tables +and for the initialization program itself would only clutter up the +production version of \TeX\ with a lot of deadwood. + +The first step is to build a trie that is linked, instead of packed +into sequential storage, so that insertions are readily made. +After all patterns have been processed, \.{INITEX} +compresses the linked trie by identifying common subtries. Finally the +trie is packed into the efficient sequential form that the hyphenation +algorithm actually uses. + +@<Declare subprocedures for |line_break|@>= +#ifdef @!INIT +@<Declare procedures for preprocessing hyphenation patterns@>@; +#endif + +@ Before we discuss trie building in detail, let's consider the simpler +problem of creating the |hyf_distance|, |hyf_num|, and |hyf_next| arrays. + +Suppose, for example, that \TeX\ reads the pattern `\.{ab2cde1}'. This is +a pattern of length 5, with $n_0\ldots n_5=0\,0\,2\,0\,0\,1$ in the +notation above. We want the corresponding |trie_op| code |v| to have +|hyf_distance[v]==3|, |hyf_num[v]==2|, and |hyf_next[v]==@t$v^\prime$@>|, +where the auxiliary |trie_op| code $v^\prime$ has +|hyf_distance[@t$v^\prime$@>]==0|, |hyf_num[@t$v^\prime$@>]==1|, and +|hyf_next[@t$v^\prime$@>]==min_quarterword|. + +\TeX\ computes an appropriate value |v| with the |new_trie_op| subroutine +below, by setting +$$\hbox{|@t$v^\prime$@>=new_trie_op(0, 1, min_quarterword)|,\qquad +|v=new_trie_op(3, 2,@t$v^\prime$@>)|.}$$ +This subroutine looks up its three +parameters in a special hash table, assigning a new value only if these +three have not appeared before for the current language. + +The hash table is called |trie_op_hash|, and the number of entries it contains +is |trie_op_ptr|. + +@<Glob...@>= +#ifdef @!INIT +static uint16_t @!trie_op_hash0[trie_op_size+trie_op_size+1], *const @!trie_op_hash = @!trie_op_hash0+trie_op_size; + /*trie op codes for quadruples*/ +static quarterword @!trie_used[256]; + /*largest opcode used so far for this language*/ +static ASCII_code @!trie_op_lang0[trie_op_size], *const @!trie_op_lang = @!trie_op_lang0-1; + /*language part of a hashed quadruple*/ +static quarterword @!trie_op_val0[trie_op_size], *const @!trie_op_val = @!trie_op_val0-1; + /*opcode corresponding to a hashed quadruple*/ +static int @!trie_op_ptr; /*number of stored ops so far*/ +#endif + +@ It's tempting to remove the |overflow| stops in the following procedure; +|new_trie_op| could return |min_quarterword| (thereby simply ignoring +part of a hyphenation pattern) instead of aborting the job. However, that would +lead to different hyphenation results on different installations of \TeX\ +using the same patterns. The |overflow| stops are necessary for portability +of patterns. + +@<Declare procedures for preprocessing hyph...@>= +static quarterword new_trie_op(small_number @!d, small_number @!n, quarterword @!v) +{@+ +int h; /*trial hash location*/ +quarterword @!u; /*trial op code*/ +int @!l; /*pointer to stored data*/ +h=abs(n+313*d+361*v+1009*cur_lang)%(trie_op_size+trie_op_size) + -trie_op_size; +loop@+{@+l=trie_op_hash[h]; + if (l==0) /*empty position found for a new op*/ + {@+if (trie_op_ptr==trie_op_size) + overflow("pattern memory ops", trie_op_size); + u=trie_used[cur_lang]; + if (u==max_quarterword) + overflow("pattern memory ops per language", + max_quarterword-min_quarterword); + incr(trie_op_ptr);incr(u);trie_used[cur_lang]=u; + hyf_distance[trie_op_ptr]=d; + hyf_num[trie_op_ptr]=n;hyf_next[trie_op_ptr]=v; + trie_op_lang[trie_op_ptr]=cur_lang;trie_op_hash[h]=trie_op_ptr; + trie_op_val[trie_op_ptr]=u;return u; + } + if ((hyf_distance[l]==d)&&(hyf_num[l]==n)&&(hyf_next[l]==v) + &&(trie_op_lang[l]==cur_lang)) + {@+return trie_op_val[l]; + } + if (h > -trie_op_size) decr(h);@+else h=trie_op_size; + } +} + +@ After |new_trie_op| has compressed the necessary opcode information, +plenty of information is available to unscramble the data into the +final form needed by our hyphenation algorithm. + +@<Sort \(t)the hyphenation op tables into proper order@>= +op_start[0]=-min_quarterword; +for (j=1; j<=255; j++) op_start[j]=op_start[j-1]+qo(trie_used[j-1]); +for (j=1; j<=trie_op_ptr; j++) + trie_op_hash[j]=op_start[trie_op_lang[j]]+trie_op_val[j]; /*destination*/ +for (j=1; j<=trie_op_ptr; j++) while (trie_op_hash[j] > j) + {@+k=trie_op_hash[j];@/ + t=hyf_distance[k];hyf_distance[k]=hyf_distance[j];hyf_distance[j]=t;@/ + t=hyf_num[k];hyf_num[k]=hyf_num[j];hyf_num[j]=t;@/ + t=hyf_next[k];hyf_next[k]=hyf_next[j];hyf_next[j]=t;@/ + trie_op_hash[j]=trie_op_hash[k];trie_op_hash[k]=k; + } + +@ Before we forget how to initialize the data structures that have been +mentioned so far, let's write down the code that gets them started. + +@<Initialize table entries...@>= +for (k=-trie_op_size; k<=trie_op_size; k++) trie_op_hash[k]=0; +for (k=0; k<=255; k++) trie_used[k]=min_quarterword; +trie_op_ptr=0; + +@ The linked trie that is used to preprocess hyphenation patterns appears +in several global arrays. Each node represents an instruction of the form +``if you see character |c|, then perform operation |o|, move to the +next character, and go to node |l|; otherwise go to node |r|.'' +The four quantities |c|, |o|, |l|, and |r| are stored in four arrays +|trie_c|, |trie_o|, |trie_l|, and |trie_r|. The root of the trie +is |trie_l[0]|, and the number of nodes is |trie_ptr|. Null trie +pointers are represented by zero. To initialize the trie, we simply +set |trie_l[0]| and |trie_ptr| to zero. We also set |trie_c[0]| to some +arbitrary value, since the algorithm may access it. + +The algorithms maintain the condition +$$\hbox{|trie_c[trie_r[z]] > trie_c[z]|\qquad +whenever |z!=0| and |trie_r[z]!=0|};$$ in other words, sibling nodes are +ordered by their |c| fields. + +@d trie_root trie_l[0] /*root of the linked trie*/ + +@<Glob...@>= +#ifdef @!INIT +static packed_ASCII_code @!trie_c[trie_size+1]; + /*characters to match*/ +@t\hskip10pt@>static quarterword @!trie_o[trie_size+1]; + /*operations to perform*/ +@t\hskip10pt@>static trie_pointer @!trie_l[trie_size+1]; + /*left subtrie links*/ +@t\hskip10pt@>static trie_pointer @!trie_r[trie_size+1]; + /*right subtrie links*/ +@t\hskip10pt@>static trie_pointer @!trie_ptr; /*the number of nodes in the trie*/ +@t\hskip10pt@>static trie_pointer @!trie_hash[trie_size+1]; + /*used to identify equivalent subtries*/ +#endif + +@ Let us suppose that a linked trie has already been constructed. +Experience shows that we can often reduce its size by recognizing common +subtries; therefore another hash table is introduced for this purpose, +somewhat similar to |trie_op_hash|. The new hash table will be +initialized to zero. + +The function |trie_node(p)| returns |p| if |p| is distinct from other nodes +that it has seen, otherwise it returns the number of the first equivalent +node that it has seen. + +Notice that we might make subtries equivalent even if they correspond to +patterns for different languages, in which the trie ops might mean quite +different things. That's perfectly all right. + +@<Declare procedures for preprocessing hyph...@>= +static trie_pointer trie_node(trie_pointer @!p) /*converts + to a canonical form*/ +{@+ +trie_pointer h; /*trial hash location*/ +trie_pointer @!q; /*trial trie node*/ +h=abs(trie_c[p]+1009*trie_o[p]+@| + 2718*trie_l[p]+3142*trie_r[p])%trie_size; +loop@+{@+q=trie_hash[h]; + if (q==0) + {@+trie_hash[h]=p;return p; + } + if ((trie_c[q]==trie_c[p])&&(trie_o[q]==trie_o[p])&&@| + (trie_l[q]==trie_l[p])&&(trie_r[q]==trie_r[p])) + {@+return q; + } + if (h > 0) decr(h);@+else h=trie_size; + } +} + +@ A neat recursive procedure is now able to compress a trie by +traversing it and applying |trie_node| to its nodes in ``bottom up'' +fashion. We will compress the entire trie by clearing |trie_hash| to +zero and then saying `|trie_root=compress_trie(trie_root)|'. +@^recursion@> + +@<Declare procedures for preprocessing hyph...@>= +static trie_pointer compress_trie(trie_pointer @!p) +{@+if (p==0) return 0; +else{@+trie_l[p]=compress_trie(trie_l[p]); + trie_r[p]=compress_trie(trie_r[p]); + return trie_node(p); + } +} + +@ The compressed trie will be packed into the |trie| array using a +``top-down first-fit'' procedure. This is a little tricky, so the reader +should pay close attention: The |trie_hash| array is cleared to zero +again and renamed |trie_ref| for this phase of the operation; later on, +|trie_ref[p]| will be nonzero only if the linked trie node |p| is the +smallest character +in a family and if the characters |c| of that family have been allocated to +locations |trie_ref[p]+c| in the |trie| array. Locations of |trie| that +are in use will have |trie_link==0|, while the unused holes in |trie| +will be doubly linked with |trie_link| pointing to the next larger vacant +location and |trie_back| pointing to the next smaller one. This double +linking will have been carried out only as far as |trie_max|, where +|trie_max| is the largest index of |trie| that will be needed. +To save time at the low end of the trie, we maintain array entries +|trie_min[c]| pointing to the smallest hole that is greater than~|c|. +Another array |trie_taken| tells whether or not a given location is +equal to |trie_ref[p]| for some |p|; this array is used to ensure that +distinct nodes in the compressed trie will have distinct |trie_ref| +entries. + +@d trie_ref trie_hash /*where linked trie families go into |trie|*/ +@d trie_back(A) trie[A].lh /*backward links in |trie| holes*/ + +@<Glob...@>= +#ifdef @!INIT +static bool @!trie_taken0[trie_size], *const @!trie_taken = @!trie_taken0-1; + /*does a family start here?*/ +@t\hskip10pt@>static trie_pointer @!trie_min[256]; + /*the first possible slot for each character*/ +@t\hskip10pt@>static trie_pointer @!trie_max; /*largest location used in |trie|*/ +@t\hskip10pt@>static bool @!trie_not_ready; /*is the trie still in linked form?*/ +#endif + +@ Each time \.{\\patterns} appears, it contributes further patterns to +the future trie, which will be built only when hyphenation is attempted or +when a format file is dumped. The boolean variable |trie_not_ready| +will change to |false| when the trie is compressed; this will disable +further patterns. + +@<Initialize table entries...@>= +trie_not_ready=true;trie_root=0;trie_c[0]=si(0);trie_ptr=0; + +@ Here is how the trie-compression data structures are initialized. +If storage is tight, it would be possible to overlap |trie_op_hash|, +|trie_op_lang|, and |trie_op_val| with |trie|, |trie_hash|, and |trie_taken|, +because we finish with the former just before we need the latter. + +@<Get ready to compress the trie@>= +@<Sort \(t)the hyphenation...@>; +for (p=0; p<=trie_size; p++) trie_hash[p]=0; +trie_root=compress_trie(trie_root); /*identify equivalent subtries*/ +for (p=0; p<=trie_ptr; p++) trie_ref[p]=0; +for (p=0; p<=255; p++) trie_min[p]=p+1; +trie_link(0)=1;trie_max=0 + +@ The |first_fit| procedure finds the smallest hole |z| in |trie| such that +a trie family starting at a given node |p| will fit into vacant positions +starting at |z|. If |c==trie_c[p]|, this means that location |z-c| must +not already be taken by some other family, and that |z-c+@t$c^\prime$@>| +must be vacant for all characters $c^\prime$ in the family. The procedure +sets |trie_ref[p]| to |z-c| when the first fit has been found. + +@<Declare procedures for preprocessing hyph...@>= +static void first_fit(trie_pointer @!p) /*packs a family into |trie|*/ +{@+ +trie_pointer h; /*candidate for |trie_ref[p]|*/ +trie_pointer @!z; /*runs through holes*/ +trie_pointer @!q; /*runs through the family starting at |p|*/ +ASCII_code @!c; /*smallest character in the family*/ +trie_pointer @!l, @!r; /*left and right neighbors*/ +int @!ll; /*upper limit of |trie_min| updating*/ +c=so(trie_c[p]); +z=trie_min[c]; /*get the first conceivably good hole*/ +loop@+{@+h=z-c;@/ + @<Ensure that |trie_max>=h+256|@>; + if (trie_taken[h]) goto not_found; + @<If all characters of the family fit relative to |h|, then |goto found|,\30\ otherwise +|goto not_found|@>; + not_found: z=trie_link(z); /*move to the next hole*/ + } +found: @<Pack the family into |trie| relative to |h|@>; +} + +@ By making sure that |trie_max| is at least |h+256|, we can be sure that +|trie_max > z|, since |h==z-c|. It follows that location |trie_max| will +never be occupied in |trie|, and we will have |trie_max >= trie_link(z)|. + +@<Ensure that |trie_max>=h+256|@>= +if (trie_max < h+256) + {@+if (trie_size <= h+256) overflow("pattern memory", trie_size); +@:TeX capacity exceeded pattern memory}{\quad pattern memory@> + @/do@+{incr(trie_max);trie_taken[trie_max]=false; + trie_link(trie_max)=trie_max+1;trie_back(trie_max)=trie_max-1; + }@+ while (!(trie_max==h+256)); + } + +@ @<If all characters of the family fit relative to |h|...@>= +q=trie_r[p]; +while (q > 0) + {@+if (trie_link(h+so(trie_c[q]))==0) goto not_found; + q=trie_r[q]; + } +goto found + +@ @<Pack the family into |trie| relative to |h|@>= +trie_taken[h]=true;trie_ref[p]=h;q=p; +@/do@+{z=h+so(trie_c[q]);l=trie_back(z);r=trie_link(z); +trie_back(r)=l;trie_link(l)=r;trie_link(z)=0; +if (l < 256) + {@+if (z < 256) ll=z;@+else ll=256; + @/do@+{trie_min[l]=r;incr(l); + }@+ while (!(l==ll)); + } +q=trie_r[q]; +}@+ while (!(q==0)) + +@ To pack the entire linked trie, we use the following recursive procedure. +@^recursion@> + +@<Declare procedures for preprocessing hyph...@>= +static void trie_pack(trie_pointer @!p) /*pack subtries of a family*/ +{@+trie_pointer q; /*a local variable that need not be saved on recursive calls*/ +@/do@+{q=trie_l[p]; +if ((q > 0)&&(trie_ref[q]==0)) + {@+first_fit(q);trie_pack(q); + } +p=trie_r[p]; +}@+ while (!(p==0)); +} + +@ When the whole trie has been allocated into the sequential table, we +must go through it once again so that |trie| contains the correct +information. Null pointers in the linked trie will be represented by the +value~0, which properly implements an ``empty'' family. + +@<Move the data into |trie|@>= +h.rh=0;h.b0=min_quarterword;h.b1=min_quarterword; /*|trie_link=0|, + |trie_op=min_quarterword|, |trie_char=qi(0)|*/ +if (trie_root==0) /*no patterns were given*/ + {@+for (r=0; r<=256; r++) trie[r]=h; + trie_max=256; + } +else{@+trie_fix(trie_root); /*this fixes the non-holes in |trie|*/ + r=0; /*now we will zero out all the holes*/ + @/do@+{s=trie_link(r);trie[r]=h;r=s; + }@+ while (!(r > trie_max)); + } +trie_char(0)=qi('?'); /*make |trie_char(c)!=c| for all |c|*/ + +@ The fixing-up procedure is, of course, recursive. Since the linked trie +usually has overlapping subtries, the same data may be moved several +times; but that causes no harm, and at most as much work is done as it +took to build the uncompressed trie. +@^recursion@> + +@<Declare procedures for preprocessing hyph...@>= +static void trie_fix(trie_pointer @!p) /*moves |p| and its siblings into |trie|*/ +{@+trie_pointer q; /*a local variable that need not be saved on recursive calls*/ +ASCII_code @!c; /*another one that need not be saved*/ +trie_pointer @!z; /*|trie| reference; this local variable must be saved*/ +z=trie_ref[p]; +@/do@+{q=trie_l[p];c=so(trie_c[p]); +trie_link(z+c)=trie_ref[q];trie_char(z+c)=qi(c);trie_op(z+c)=trie_o[p]; +if (q > 0) trie_fix(q); +p=trie_r[p]; +}@+ while (!(p==0)); +} + +@ Now let's go back to the easier problem, of building the linked +trie. When \.{INITEX} has scanned the `\.{\\patterns}' control +sequence, it calls on |new_patterns| to do the right thing. + +@<Declare procedures for preprocessing hyph...@>= +static void new_patterns(void) /*initializes the hyphenation pattern data*/ +{@+ +int k, @!l; /*indices into |hc| and |hyf|; + not always in |small_number| range*/ +bool @!digit_sensed; /*should the next digit be treated as a letter?*/ +quarterword @!v; /*trie op code*/ +trie_pointer @!p, @!q; /*nodes of trie traversed during insertion*/ +bool @!first_child; /*is |p==trie_l[q]|?*/ +ASCII_code @!c; /*character being inserted*/ +if (trie_not_ready) + {@+set_cur_lang;scan_left_brace(); /*a left brace must follow \.{\\patterns}*/ + @<Enter all of the patterns into a linked trie, until coming to a right brace@>; + } +else{@+print_err("Too late for ");print_esc("patterns"); + help1("All patterns must be given before typesetting begins."); + error();link(garbage)=scan_toks(false, false);flush_list(def_ref); + } +} + +@ Novices are not supposed to be using \.{\\patterns}, so the error +messages are terse. (Note that all error messages appear in \TeX's string +pool, even if they are used only by \.{INITEX}.) + +@<Enter all of the patterns into a linked trie...@>= +k=0;hyf[0]=0;digit_sensed=false; +loop@+{@+get_x_token(); + switch (cur_cmd) { + case letter: case other_char: @<Append a new letter or a hyphen level@>@;@+break; + case spacer: case right_brace: {@+if (k > 0) + @<Insert a new pattern into the linked trie@>; + if (cur_cmd==right_brace) goto done; + k=0;hyf[0]=0;digit_sensed=false; + } @+break; + default:{@+print_err("Bad ");print_esc("patterns"); +@.Bad \\patterns@> + help1("(See Appendix H.)");error(); + } + } + } +done: + +@ @<Append a new letter or a hyphen level@>= +if (digit_sensed||(cur_chr < '0')||(cur_chr > '9')) + {@+if (cur_chr=='.') cur_chr=0; /*edge-of-word delimiter*/ + else{@+cur_chr=lc_code(cur_chr); + if (cur_chr==0) + {@+print_err("Nonletter"); +@.Nonletter@> + help1("(See Appendix H.)");error(); + } + } + if (k < 63) + {@+incr(k);hc[k]=cur_chr;hyf[k]=0;digit_sensed=false; + } + } +else if (k < 63) + {@+hyf[k]=cur_chr-'0';digit_sensed=true; + } + +@ When the following code comes into play, the pattern $p_1\ldots p_k$ +appears in |hc[1 dotdot k]|, and the corresponding sequence of numbers $n_0\ldots +n_k$ appears in |hyf[0 dotdot k]|. + +@<Insert a new pattern into the linked trie@>= +{@+@<Compute the trie op code, |v|, and set |l:=0|@>; +q=0;hc[0]=cur_lang; +while (l <= k) + {@+c=hc[l];incr(l);p=trie_l[q];first_child=true; + while ((p > 0)&&(c > so(trie_c[p]))) + {@+q=p;p=trie_r[q];first_child=false; + } + if ((p==0)||(c < so(trie_c[p]))) + @<Insert a new trie node between |q| and |p|, and make |p| point to it@>; + q=p; /*now node |q| represents $p_1\ldots p_{l-1}$*/ + } +if (trie_o[q]!=min_quarterword) + {@+print_err("Duplicate pattern"); +@.Duplicate pattern@> + help1("(See Appendix H.)");error(); + } +trie_o[q]=v; +} + +@ @<Insert a new trie node between |q| and |p|...@>= +{@+if (trie_ptr==trie_size) overflow("pattern memory", trie_size); +@:TeX capacity exceeded pattern memory}{\quad pattern memory@> +incr(trie_ptr);trie_r[trie_ptr]=p;p=trie_ptr;trie_l[p]=0; +if (first_child) trie_l[q]=p;@+else trie_r[q]=p; +trie_c[p]=si(c);trie_o[p]=min_quarterword; +} + +@ @<Compute the trie op code, |v|...@>= +if (hc[1]==0) hyf[0]=0; +if (hc[k]==0) hyf[k]=0; +l=k;v=min_quarterword; +loop@+{@+if (hyf[l]!=0) v=new_trie_op(k-l, hyf[l], v); + if (l > 0) decr(l);@+else goto done1; + } +done1: + +@ Finally we put everything together: Here is how the trie gets to its +final, efficient form. +The following packing routine is rigged so that the root of the linked +tree gets mapped into location 1 of |trie|, as required by the hyphenation +algorithm. This happens because the first call of |first_fit| will +``take'' location~1. + +@<Declare procedures for preprocessing hyphenation patterns@>= +static void init_trie(void) +{@+int @!p; /*pointer for initialization*/ +int @!j, @!k, @!t; /*all-purpose registers for initialization*/ +int @!r, @!s; /*used to clean up the packed |trie|*/ +two_halves @!h; /*template used to zero out |trie|'s holes*/ +@<Get ready to compress the trie@>; +if (trie_root!=0) + {@+first_fit(trie_root);trie_pack(trie_root); + } +@<Move the data into |trie|@>; +trie_not_ready=false; +} + +@* Breaking vertical lists into pages. +The |vsplit| procedure, which implements \TeX's \.{\\vsplit} operation, +is considerably simpler than |line_break| because it doesn't have to +worry about hyphenation, and because its mission is to discover a single +break instead of an optimum sequence of breakpoints. But before we get +into the details of |vsplit|, we need to consider a few more basic things. + +@ A subroutine called |prune_page_top| takes a pointer to a vlist and +returns a pointer to a modified vlist in which all glue, kern, and penalty nodes +have been deleted before the first box or rule node. However, the first +box or rule is actually preceded by a newly created glue node designed so that +the topmost baseline will be at distance |split_top_skip| from the top, +whenever this is possible without backspacing. + +When the second argument |s| is |false| the deleted nodes are destroyed, +otherwise they are collected in a list starting at |split_disc|. + +In this routine and those that follow, we make use of the fact that a +vertical list contains no character nodes, hence the |type| field exists +for each node in the list. +@^data structure assumptions@> + +@p static pointer prune_page_top(pointer @!p, bool @!s) + /*adjust top after page break*/ +{@+pointer prev_p; /*lags one step behind |p|*/ +pointer @!q, @!r; /*temporary variables for list manipulation*/ +prev_p=temp_head;link(temp_head)=p; +while (p!=null) + switch (type(p)) { + case hlist_node: case vlist_node: case rule_node: @<Insert glue for |split_top_skip| +and set~|p:=null|@>@;@+break; + case whatsit_node: case mark_node: case ins_node: {@+prev_p=p;p=link(prev_p); + } @+break; + case glue_node: case kern_node: case penalty_node: {@+q=p;p=link(q);link(q)=null; + link(prev_p)=p; + if (s) + {@+if (split_disc==null) split_disc=q;@+else link(r)=q; + r=q; + } + else flush_node_list(q); + } @+break; + default:confusion("pruning"); +@:this can't happen pruning}{\quad pruning@> + } +return link(temp_head); +} + +@ @<Insert glue for |split_top_skip|...@>= +{@+q=new_skip_param(split_top_skip_code);link(prev_p)=q;link(q)=p; + /*now |temp_ptr==glue_ptr(q)|*/ +if (width(temp_ptr) > height(p)) width(temp_ptr)=width(temp_ptr)-height(p); +else width(temp_ptr)=0; +p=null; +} + +@ The next subroutine finds the best place to break a given vertical list +so as to obtain a box of height~|h|, with maximum depth~|d|. +A pointer to the beginning of the vertical list is given, +and a pointer to the optimum breakpoint is returned. The list is effectively +followed by a forced break, i.e., a penalty node with the |eject_penalty|; +if the best break occurs at this artificial node, the value |null| is returned. + +An array of six |scaled| distances is used to keep track of the height +from the beginning of the list to the current place, just as in |line_break|. +In fact, we use one of the same arrays, only changing its name to reflect +its new significance. + +@d active_height active_width /*new name for the six distance variables*/ +@d cur_height active_height[1] /*the natural height*/ +@d set_height_zero(A) active_height[A]=0 /*initialize the height to zero*/ +@# +@p static pointer vert_break(pointer @!p, scaled @!h, scaled @!d) + /*finds optimum page break*/ +{@+ +pointer prev_p; /*if |p| is a glue node, |type(prev_p)| determines + whether |p| is a legal breakpoint*/ +pointer @!q, @!r; /*glue specifications*/ +int @!pi; /*penalty value*/ +int @!b; /*badness at a trial breakpoint*/ +int @!least_cost; /*the smallest badness plus penalties found so far*/ +pointer @!best_place; /*the most recent break that leads to |least_cost|*/ +scaled @!prev_dp; /*depth of previous box in the list*/ +small_number @!t; /*|type| of the node following a kern*/ +prev_p=p; /*an initial glue node is not a legal breakpoint*/ +least_cost=awful_bad;do_all_six(set_height_zero);prev_dp=0; +loop@+{@+@<If node |p| is a legal breakpoint, check if this break is the best known, +and |goto done| if |p| is null or if the page-so-far is already too full to accept +more stuff@>; + prev_p=p;p=link(prev_p); + } +done: return best_place; +} + +@ A global variable |best_height_plus_depth| will be set to the natural size +of the box that corresponds to the optimum breakpoint found by |vert_break|. +(This value is used by the insertion-splitting algorithm of the page builder.) + +@<Glob...@>= +static scaled @!best_height_plus_depth; /*height of the best box, without stretching or + shrinking*/ + +@ A subtle point to be noted here is that the maximum depth~|d| might be +negative, so |cur_height| and |prev_dp| might need to be corrected even +after a glue or kern node. + +@<If node |p| is a legal breakpoint, check...@>= +if (p==null) pi=eject_penalty; +else@<Use node |p| to update the current height and depth measurements; if this node +is not a legal breakpoint, |goto not_found| or |update_heights|, otherwise set |pi| +to the associated penalty at the break@>; +@<Check if node |p| is a new champion breakpoint; then \(go)|goto done| if |p| is +a forced break or if the page-so-far is already too full@>; +if ((type(p) < glue_node)||(type(p) > kern_node)) goto not_found; +update_heights: @<Update the current height and depth measurements with respect to +a glue or kern node~|p|@>; +not_found: if (prev_dp > d) + {@+cur_height=cur_height+prev_dp-d; + prev_dp=d; + } + +@ @<Use node |p| to update the current height and depth measurements...@>= +switch (type(p)) { +case hlist_node: case vlist_node: case rule_node: {@+@t@>@;@/ + cur_height=cur_height+prev_dp+height(p);prev_dp=depth(p); + goto not_found; + } +case whatsit_node: @<Process whatsit |p| in |vert_break| loop, |goto not_found|@>; +case glue_node: if (precedes_break(prev_p)) pi=0; + else goto update_heights;@+break; +case kern_node: {@+if (link(p)==null) t=penalty_node; + else t=type(link(p)); + if (t==glue_node) pi=0;@+else goto update_heights; + } @+break; +case penalty_node: pi=penalty(p);@+break; +case mark_node: case ins_node: goto not_found; +default:confusion("vertbreak"); +@:this can't happen vertbreak}{\quad vertbreak@> +} + +@ @d deplorable 100000 /*more than |inf_bad|, but less than |awful_bad|*/ + +@<Check if node |p| is a new champion breakpoint; then \(go)...@>= +if (pi < inf_penalty) + {@+@<Compute the badness, |b|, using |awful_bad| if the box is too full@>; + if (b < awful_bad) + if (pi <= eject_penalty) b=pi; + else if (b < inf_bad) b=b+pi; + else b=deplorable; + if (b <= least_cost) + {@+best_place=p;least_cost=b; + best_height_plus_depth=cur_height+prev_dp; + } + if ((b==awful_bad)||(pi <= eject_penalty)) goto done; + } + +@ @<Compute the badness, |b|, using |awful_bad| if the box is too full@>= +if (cur_height < h) + if ((active_height[3]!=0)||(active_height[4]!=0)|| + (active_height[5]!=0)) b=0; + else b=badness(h-cur_height, active_height[2]); +else if (cur_height-h > active_height[6]) b=awful_bad; +else b=badness(cur_height-h, active_height[6]) + +@ Vertical lists that are subject to the |vert_break| procedure should not +contain infinite shrinkability, since that would permit any amount of +information to ``fit'' on one page. + +@<Update the current height and depth measurements with...@>= +if (type(p)==kern_node) q=p; +else{@+q=glue_ptr(p); + active_height[2+stretch_order(q)]=@| + active_height[2+stretch_order(q)]+stretch(q);@/ + active_height[6]=active_height[6]+shrink(q); + if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) + {@+@t@>@;@/ + print_err("Infinite glue shrinkage found in box being split");@/ +@.Infinite glue shrinkage...@> + help4("The box you are \\vsplitting contains some infinitely",@/ + "shrinkable glue, e.g., `\\vss' or `\\vskip 0pt minus 1fil'.",@/ + "Such glue doesn't belong there; but you can safely proceed,",@/ + "since the offensive shrinkability has been made finite."); + error();r=new_spec(q);shrink_order(r)=normal;delete_glue_ref(q); + glue_ptr(p)=r;q=r; + } + } +cur_height=cur_height+prev_dp+width(q);prev_dp=0 + +@ Now we are ready to consider |vsplit| itself. Most of +its work is accomplished by the two subroutines that we have just considered. + +Given the number of a vlist box |n|, and given a desired page height |h|, +the |vsplit| function finds the best initial segment of the vlist and +returns a box for a page of height~|h|. The remainder of the vlist, if +any, replaces the original box, after removing glue and penalties and +adjusting for |split_top_skip|. Mark nodes in the split-off box are used to +set the values of |split_first_mark| and |split_bot_mark|; we use the +fact that |split_first_mark==null| if and only if |split_bot_mark==null|. + +The original box becomes ``void'' if and only if it has been entirely +extracted. The extracted box is ``void'' if and only if the original +box was void (or if it was, erroneously, an hlist box). + +@p static pointer vsplit(halfword @!n, scaled @!h) + /*extracts a page of height |h| from box |n|*/ +{@+ +pointer v; /*the box to be split*/ +pointer p; /*runs through the vlist*/ +pointer q; /*points to where the break occurs*/ +cur_val=n;fetch_box(v); +flush_node_list(split_disc);split_disc=null; +if (split_first_mark!=null) + {@+delete_token_ref(split_first_mark);split_first_mark=null; + delete_token_ref(split_bot_mark);split_bot_mark=null; + } +@<Dispense with trivial cases of void or bad boxes@>; +q=vert_break(list_ptr(v), h, split_max_depth); +@<Look at all the marks in nodes before the break, and set the final link to |null| +at the break@>; +q=prune_page_top(q, saving_vdiscards > 0); +p=list_ptr(v);list_ptr(v)=null;flush_node_list(v); +if (q!=null) q=vpack(q, natural); +change_box(q); /*the |eq_level| of the box stays the same*/ +return vpackage(p, h, 0, 0, exactly, split_max_depth); +} + +@ @<Dispense with trivial cases of void or bad boxes@>= +if (v==null) + {@+return null; + } +if (type(v)!=vlist_node) + {@+print_err("");print_esc("vsplit");print(" needs a "); + print_esc("vbox"); +@:vsplit\_}{\.{\\vsplit needs a \\vbox}@> + help2("The box you are trying to split is an \\hbox.",@/ + "I can't split such a box, so I'll leave it alone."); + error();return null; + } + +@ It's possible that the box begins with a penalty node that is the +``best'' break, so we must be careful to handle this special case correctly. + +@<Look at all the marks...@>= +p=list_ptr(v); +if (p==q) list_ptr(v)=null; +else loop@+{@+if (type(p)==mark_node) + if (split_first_mark==null) + {@+split_first_mark=mark_ptr(p); + split_bot_mark=split_first_mark; + token_ref_count(split_first_mark)=@| + token_ref_count(split_first_mark)+2; + } + else{@+delete_token_ref(split_bot_mark); + split_bot_mark=mark_ptr(p); + add_token_ref(split_bot_mark); + } + if (link(p)==q) + {@+link(p)=null;goto done; + } + p=link(p); + } +done: + +@* The page builder. +When \TeX\ appends new material to its main vlist in vertical mode, it uses +a method something like |vsplit| to decide where a page ends, except that +the calculations are done ``on line'' as new items come in. +The main complication in this process is that insertions must be put +into their boxes and removed from the vlist, in a more-or-less optimum manner. + +We shall use the term ``current page'' for that part of the main vlist that +is being considered as a candidate for being broken off and sent to the +user's output routine. The current page starts at |link(page_head)|, and +it ends at |page_tail|. We have |page_head==page_tail| if this list is empty. +@^current page@> + +Utter chaos would reign if the user kept changing page specifications +while a page is being constructed, so the page builder keeps the pertinent +specifications frozen as soon as the page receives its first box or +insertion. The global variable |page_contents| is |empty| when the +current page contains only mark nodes and content-less whatsit nodes; it +is |inserts_only| if the page contains only insertion nodes in addition to +marks and whatsits. Glue nodes, kern nodes, and penalty nodes are +discarded until a box or rule node appears, at which time |page_contents| +changes to |box_there|. As soon as |page_contents| becomes non-|empty|, +the current |vsize| and |max_depth| are squirreled away into |page_goal| +and |page_max_depth|; the latter values will be used until the page has +been forwarded to the user's output routine. The \.{\\topskip} adjustment +is made when |page_contents| changes to |box_there|. + +Although |page_goal| starts out equal to |vsize|, it is decreased by the +scaled natural height-plus-depth of the insertions considered so far, and by +the \.{\\skip} corrections for those insertions. Therefore it represents +the size into which the non-inserted material should fit, assuming that +all insertions in the current page have been made. + +The global variables |best_page_break| and |least_page_cost| correspond +respectively to the local variables |best_place| and |least_cost| in the +|vert_break| routine that we have already studied; i.e., they record the +location and value of the best place currently known for breaking the +current page. The value of |page_goal| at the time of the best break is +stored in |best_size|. + +@d inserts_only 1 + /*|page_contents| when an insert node has been contributed, but no boxes*/ +@d box_there 2 /*|page_contents| when a box or rule has been contributed*/ + +@<Glob...@>= +static pointer @!page_tail; /*the final node on the current page*/ +static int @!page_contents; /*what is on the current page so far?*/ +static scaled @!page_max_depth; /*maximum box depth on page being built*/ +static pointer @!best_page_break; /*break here to get the best page known so far*/ +static int @!least_page_cost; /*the score for this currently best page*/ +static scaled @!best_size; /*its |page_goal|*/ + +@ The page builder has another data structure to keep track of insertions. +This is a list of four-word nodes, starting and ending at |page_ins_head|. +That is, the first element of the list is node |r@t$\_1$@>==link(page_ins_head)|; +node $r_j$ is followed by |r@t$\_{j+1}$@>==link(r@t$\_j$@>)|; and if there are +|n| items we have |r@t$\_{n+1}$@>==page_ins_head|. The |subtype| field of +each node in this list refers to an insertion number; for example, `\.{\\insert +250}' would correspond to a node whose |subtype| is |qi(250)| +(the same as the |subtype| field of the relevant |ins_node|). These |subtype| +fields are in increasing order, and |subtype(page_ins_head)== +qi(255)|, so |page_ins_head| serves as a convenient sentinel +at the end of the list. A record is present for each insertion number that +appears in the current page. + +The |type| field in these nodes distinguishes two possibilities that +might occur as we look ahead before deciding on the optimum page break. +If |type(r)==inserting|, then |height(r)| contains the total of the +height-plus-depth dimensions of the box and all its inserts seen so far. +If |type(r)==split_up|, then no more insertions will be made into this box, +because at least one previous insertion was too big to fit on the current +page; |broken_ptr(r)| points to the node where that insertion will be +split, if \TeX\ decides to split it, |broken_ins(r)| points to the +insertion node that was tentatively split, and |height(r)| includes also the +natural height plus depth of the part that would be split off. + +In both cases, |last_ins_ptr(r)| points to the last |ins_node| +encountered for box |qo(subtype(r))| that would be at least partially +inserted on the next page; and |best_ins_ptr(r)| points to the last +such |ins_node| that should actually be inserted, to get the page with +minimum badness among all page breaks considered so far. We have +|best_ins_ptr(r)==null| if and only if no insertion for this box should +be made to produce this optimum page. + +The data structure definitions here use the fact that the |@!height| field +appears in the fourth word of a box node. +@^data structure assumptions@> + +@d page_ins_node_size 4 /*number of words for a page insertion node*/ +@d inserting 0 /*an insertion class that has not yet overflowed*/ +@d split_up 1 /*an overflowed insertion class*/ +@d broken_ptr(A) link(A+1) + /*an insertion for this class will break here if anywhere*/ +@d broken_ins(A) info(A+1) /*this insertion might break at |broken_ptr|*/ +@d last_ins_ptr(A) link(A+2) /*the most recent insertion for this |subtype|*/ +@d best_ins_ptr(A) info(A+2) /*the optimum most recent insertion*/ + +@<Initialize the special list heads...@>= +subtype(page_ins_head)=qi(255); +type(page_ins_head)=split_up;link(page_ins_head)=page_ins_head; + +@ An array |page_so_far| records the heights and depths of everything +on the current page. This array contains six |scaled| numbers, like the +similar arrays already considered in |line_break| and |vert_break|; and it +also contains |page_goal| and |page_depth|, since these values are +all accessible to the user via |set_page_dimen| commands. The +value of |page_so_far[1]| is also called |page_total|. The stretch +and shrink components of the \.{\\skip} corrections for each insertion are +included in |page_so_far|, but the natural space components of these +corrections are not, since they have been subtracted from |page_goal|. + +The variable |page_depth| records the depth of the current page; it has been +adjusted so that it is at most |page_max_depth|. The variable +|last_glue| points to the glue specification of the most recent node +contributed from the contribution list, if this was a glue node; otherwise +|last_glue==max_halfword|. (If the contribution list is nonempty, +however, the value of |last_glue| is not necessarily accurate.) +The variables |last_penalty|, |last_kern|, and |last_node_type| +are similar. And +finally, |insert_penalties| holds the sum of the penalties associated with +all split and floating insertions. + +@d page_goal page_so_far[0] /*desired height of information on page being built*/ +@d page_total page_so_far[1] /*height of the current page*/ +@d page_shrink page_so_far[6] /*shrinkability of the current page*/ +@d page_depth page_so_far[7] /*depth of the current page*/ + +@<Glob...@>= +static scaled @!page_so_far[8]; /*height and glue of the current page*/ +static pointer @!last_glue; /*used to implement \.{\\lastskip}*/ +static int @!last_penalty; /*used to implement \.{\\lastpenalty}*/ +static scaled @!last_kern; /*used to implement \.{\\lastkern}*/ +static int @!last_node_type; /*used to implement \.{\\lastnodetype}*/ +static int @!insert_penalties; /*sum of the penalties for insertions + that were held over*/ + +@ @<Put each...@>= +primitive("pagegoal", set_page_dimen, 0); +@!@:page\_goal\_}{\.{\\pagegoal} primitive@> +primitive("pagetotal", set_page_dimen, 1); +@!@:page\_total\_}{\.{\\pagetotal} primitive@> +primitive("pagestretch", set_page_dimen, 2); +@!@:page\_stretch\_}{\.{\\pagestretch} primitive@> +primitive("pagefilstretch", set_page_dimen, 3); +@!@:page\_fil\_stretch\_}{\.{\\pagefilstretch} primitive@> +primitive("pagefillstretch", set_page_dimen, 4); +@!@:page\_fill\_stretch\_}{\.{\\pagefillstretch} primitive@> +primitive("pagefilllstretch", set_page_dimen, 5); +@!@:page\_filll\_stretch\_}{\.{\\pagefilllstretch} primitive@> +primitive("pageshrink", set_page_dimen, 6); +@!@:page\_shrink\_}{\.{\\pageshrink} primitive@> +primitive("pagedepth", set_page_dimen, 7); +@!@:page\_depth\_}{\.{\\pagedepth} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case set_page_dimen: switch (chr_code) { +case 0: print_esc("pagegoal");@+break; +case 1: print_esc("pagetotal");@+break; +case 2: print_esc("pagestretch");@+break; +case 3: print_esc("pagefilstretch");@+break; +case 4: print_esc("pagefillstretch");@+break; +case 5: print_esc("pagefilllstretch");@+break; +case 6: print_esc("pageshrink");@+break; +default:print_esc("pagedepth"); +} @+break; + +@ @d print_plus(A, B) if (page_so_far[A]!=0) + {@+print(" plus ");print_scaled(page_so_far[A]);print(B);@+} + +@p static void print_totals(void) +{@+print_scaled(page_total); +print_plus(2,""); +print_plus(3,"fil"); +print_plus(4,"fill"); +print_plus(5,"filll"); +if (page_shrink!=0) + {@+print(" minus ");print_scaled(page_shrink); + } +} + +@ @<Show the status of the current page@>= +if (page_head!=page_tail) + {@+print_nl("### current page:"); + if (output_active) print(" (held over for next output)"); +@.held over for next output@> + show_box(link(page_head)); + if (page_contents > empty) + {@+print_nl("total height ");print_totals(); +@:total\_height}{\.{total height}@> + print_nl(" goal height ");print_scaled(page_goal); +@.goal height@> + r=link(page_ins_head); + while (r!=page_ins_head) + {@+print_ln();print_esc("insert");t=qo(subtype(r)); + print_int(t);print(" adds "); + if (count(t)==1000) t=height(r); + else t=x_over_n(height(r), 1000)*count(t); + print_scaled(t); + if (type(r)==split_up) + {@+q=page_head;t=0; + @/do@+{q=link(q); + if ((type(q)==ins_node)&&(subtype(q)==subtype(r))) incr(t); + }@+ while (!(q==broken_ins(r))); + print(", #");print_int(t);print(" might split"); + } + r=link(r); + } + } + } + +@ Here is a procedure that is called when the |page_contents| is changing +from |empty| to |inserts_only| or |box_there|. + +@d set_page_so_far_zero(A) page_so_far[A]=0 + +@p static void freeze_page_specs(small_number @!s) +{@+page_contents=s; +page_goal=vsize;page_max_depth=max_depth; +page_depth=0;do_all_six(set_page_so_far_zero); +least_page_cost=awful_bad; +#ifdef @!STAT +if (tracing_pages > 0) + {@+begin_diagnostic(); + print_nl("%% goal height=");print_scaled(page_goal); +@.goal height@> + print(", max depth=");print_scaled(page_max_depth); + end_diagnostic(false); + } @; +#endif +@;@/ +} + +@ Pages are built by appending nodes to the current list in \TeX's +vertical mode, which is at the outermost level of the semantic nest. This +vlist is split into two parts; the ``current page'' that we have been +talking so much about already, and the ``contribution list'' that receives +new nodes as they are created. The current page contains everything that +the page builder has accounted for in its data structures, as described +above, while the contribution list contains other things that have been +generated by other parts of \TeX\ but have not yet been +seen by the page builder. +The contribution list starts at |link(contrib_head)|, and it ends at the +current node in \TeX's vertical mode. + +When \TeX\ has appended new material in vertical mode, it calls the procedure +|build_page|, which tries to catch up by moving nodes from the contribution +list to the current page. This procedure will succeed in its goal of +emptying the contribution list, unless a page break is discovered, i.e., +unless the current page has grown to the point where the optimum next +page break has been determined. In the latter case, the nodes after the +optimum break will go back onto the contribution list, and control will +effectively pass to the user's output routine. + +We make |type(page_head)==glue_node|, so that an initial glue node on +the current page will not be considered a valid breakpoint. + +@<Initialize the special list...@>= +type(page_head)=glue_node;subtype(page_head)=normal; + +@ The global variable |output_active| is true during the time the +user's output routine is driving \TeX. + +@<Glob...@>= +static bool @!output_active; /*are we in the midst of an output routine?*/ + +@ @<Set init...@>= +output_active=false;insert_penalties=0; + +@ The page builder is ready to start a fresh page if we initialize +the following state variables. (However, the page insertion list is initialized +elsewhere.) + +@<Start a new current page@>= +page_contents=empty;page_tail=page_head;link(page_head)=null;@/ +last_glue=max_halfword;last_penalty=0;last_kern=0; +last_node_type=-1; +page_depth=0;page_max_depth=0 + +@ At certain times box 255 is supposed to be void (i.e., |null|), +or an insertion box is supposed to be ready to accept a vertical list. +If not, an error message is printed, and the following subroutine +flushes the unwanted contents, reporting them to the user. + +@p static void box_error(eight_bits @!n) +{@+error();begin_diagnostic(); +print_nl("The following box has been deleted:"); +@.The following...deleted@> +show_box(box(n));end_diagnostic(true); +flush_node_list(box(n));box(n)=null; +} + +@ The following procedure guarantees that a given box register +does not contain an \.{\\hbox}. + +@p static void ensure_vbox(eight_bits @!n) +{@+pointer p; /*the box register contents*/ +p=box(n); +if (p!=null) if (type(p)==hlist_node) + {@+print_err("Insertions can only be added to a vbox"); +@.Insertions can only...@> + help3("Tut tut: You're trying to \\insert into a",@/ + "\\box register that now contains an \\hbox.",@/ + "Proceed, and I'll discard its present contents."); + box_error(n); + } +} + +@ \TeX\ is not always in vertical mode at the time |build_page| +is called; the current mode reflects what \TeX\ should return to, after +the contribution list has been emptied. A call on |build_page| should +be immediately followed by `|goto big_switch|', which is \TeX's central +control point. + +@p +void update_last_values(pointer p) +{@<Update the values of |last_glue|, |last_penalty|, and |last_kern|@>; +} + +@ @d contrib_tail nest[0].tail_field /*tail of the contribution list*/ + +@<Make the contribution list empty...@>= +if (nest_ptr==0) tail=contrib_head; /*vertical mode*/ +else contrib_tail=contrib_head /*other modes*/ + +@ @<Update the values of |last_glue|...@>= +if (last_glue!=max_halfword) delete_glue_ref(last_glue); +last_penalty=0;last_kern=0; +last_node_type=type(p)+1; +if (type(p)==glue_node) + {@+last_glue=glue_ptr(p);add_glue_ref(last_glue); + } +else{@+last_glue=max_halfword; + if (type(p)==penalty_node) last_penalty=penalty(p); + else if (type(p)==kern_node) last_kern=width(p); + } + +@ The code here is an example of a many-way switch into routines that +merge together in different places. Some people call this unstructured +programming, but the author doesn't see much wrong with it, as long as +@^Knuth, Donald Ervin@> +the various labels have a well-understood meaning. + +@<Move node |p| to the current page;...@>= +@<If the current page is empty and node |p| is to be deleted, |goto done1|; otherwise +use node |p| to update the state of the current page; if this node is an insertion, +|goto contribute|; otherwise if this node is not a legal breakpoint, |goto contribute| +or |update_heights|; otherwise set |pi| to the penalty associated with this breakpoint@>; +@<Check if node |p| is a new champion breakpoint; then \(if)if it is time for a page +break, prepare for output, and either fire up the user's output routine and |return| +or ship out the page and |goto done|@>; +if ((type(p) < glue_node)||(type(p) > kern_node)) goto contribute; +update_heights: @<Update the current page measurements with respect to the glue or +kern specified by node~|p|@>; +contribute: @<Make sure that |page_max_depth| is not exceeded@>; +@<Link node |p| into the current page and |goto done|@>; +done1: @<Recycle node |p|@>; +done: + +@ @<Link node |p| into the current page and |goto done|@>= +link(page_tail)=p;page_tail=p; +link(contrib_head)=link(p);link(p)=null;goto done + +@ @<Recycle node |p|@>= +link(contrib_head)=link(p);link(p)=null; +if (saving_vdiscards > 0) + {@+if (page_disc==null) page_disc=p;@+else link(tail_page_disc)=p; + tail_page_disc=p; + } +else flush_node_list(p) + +@ The title of this section is already so long, it seems best to avoid +making it more accurate but still longer, by mentioning the fact that a +kern node at the end of the contribution list will not be contributed until +we know its successor. + +@<If the current page is empty...@>= +switch (type(p)) { +case hlist_node: case vlist_node: case rule_node: if (page_contents < box_there) + @<Initialize the current page, insert the \.{\\topskip} glue ahead of |p|, and +|goto continue|@>@; + else@<Prepare to move a box or rule node to the current page, then |goto contribute|@>@;@+break; +case whatsit_node: @<Prepare to move whatsit |p| to the current page, then |goto contribute|@>; +case glue_node: if (page_contents < box_there) goto done1; + else if (precedes_break(page_tail)) pi=0; + else goto update_heights;@+break; +case kern_node: if (page_contents < box_there) goto done1; + else if (link(p)==null) return; + else if (type(link(p))==glue_node) pi=0; + else goto update_heights;@+break; +case penalty_node: if (page_contents < box_there) goto done1;@+else pi=penalty(p);@+break; +case mark_node: goto contribute; +case ins_node: @<Append an insertion to the current page and |goto contribute|@>@; +default:confusion("page"); +@:this can't happen page}{\quad page@> +} + +@ @<Initialize the current page, insert the \.{\\topskip} glue...@>= +{@+if (page_contents==empty) freeze_page_specs(box_there); +else page_contents=box_there; +q=new_skip_param(top_skip_code); /*now |temp_ptr==glue_ptr(q)|*/ +if (width(temp_ptr) > height(p)) width(temp_ptr)=width(temp_ptr)-height(p); +else width(temp_ptr)=0; +link(q)=p;link(contrib_head)=q;goto resume; +} + +@ @<Prepare to move a box or rule node to the current page...@>= +{@+page_total=page_total+page_depth+height(p); +page_depth=depth(p); +goto contribute; +} + +@ @<Make sure that |page_max_depth| is not exceeded@>= +if (page_depth > page_max_depth) + {@+page_total=@| + page_total+page_depth-page_max_depth;@/ + page_depth=page_max_depth; + } + +@ @<Update the current page measurements with respect to the glue...@>= +if (type(p)==kern_node) q=p; +else{@+q=glue_ptr(p); + page_so_far[2+stretch_order(q)]=@| + page_so_far[2+stretch_order(q)]+stretch(q);@/ + page_shrink=page_shrink+shrink(q); + if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) + {@+@t@>@;@/ + print_err("Infinite glue shrinkage found on current page");@/ +@.Infinite glue shrinkage...@> + help4("The page about to be output contains some infinitely",@/ + "shrinkable glue, e.g., `\\vss' or `\\vskip 0pt minus 1fil'.",@/ + "Such glue doesn't belong there; but you can safely proceed,",@/ + "since the offensive shrinkability has been made finite."); + error(); + r=new_spec(q);shrink_order(r)=normal;delete_glue_ref(q); + glue_ptr(p)=r;q=r; + } + } +page_total=page_total+page_depth+width(q);page_depth=0 + +@ @<Check if node |p| is a new champion breakpoint; then \(if)...@>= +if (pi < inf_penalty) + {@+@<Compute the badness, |b|, of the current page, using |awful_bad| if the box +is too full@>; + if (b < awful_bad) + if (pi <= eject_penalty) c=pi; + else if (b < inf_bad) c=b+pi+insert_penalties; + else c=deplorable; + else c=b; + if (insert_penalties >= 10000) c=awful_bad; +#ifdef @!STAT + if (tracing_pages > 0) @<Display the page break cost@>; +#endif +@;@/ + if (c <= least_page_cost) + {@+best_page_break=p;best_size=page_goal; + least_page_cost=c; + r=link(page_ins_head); + while (r!=page_ins_head) + {@+best_ins_ptr(r)=last_ins_ptr(r); + r=link(r); + } + } + if ((c==awful_bad)||(pi <= eject_penalty)) + {@+fire_up(p); /*output the current page at the best place*/ + if (output_active) return; /*user's output routine will act*/ + goto done; /*the page has been shipped out by default output routine*/ + } + } + +@ @<Display the page break cost@>= +{@+begin_diagnostic();print_nl("%"); +print(" t=");print_totals();@/ +print(" g=");print_scaled(page_goal);@/ +print(" b="); +if (b==awful_bad) print_char('*');@+else print_int(b); +@.*\relax@> +print(" p=");print_int(pi); +print(" c="); +if (c==awful_bad) print_char('*');@+else print_int(c); +if (c <= least_page_cost) print_char('#'); +end_diagnostic(false); +} + +@ @<Compute the badness, |b|, of the current page...@>= +if (page_total < page_goal) + if ((page_so_far[3]!=0)||(page_so_far[4]!=0)||@| + (page_so_far[5]!=0)) b=0; + else b=badness(page_goal-page_total, page_so_far[2]); +else if (page_total-page_goal > page_shrink) b=awful_bad; +else b=badness(page_total-page_goal, page_shrink) + +@ @<Append an insertion to the current page and |goto contribute|@>= +{@+if (page_contents==empty) freeze_page_specs(inserts_only); +n=subtype(p);r=page_ins_head; +while (n >= subtype(link(r))) r=link(r); +n=qo(n); +if (subtype(r)!=qi(n)) + @<Create a page insertion node with |subtype(r)=qi(n)|, and include the glue correction +for box |n| in the current page state@>; +if (type(r)==split_up) insert_penalties=insert_penalties+float_cost(p); +else{@+last_ins_ptr(r)=p; + delta=page_goal-page_total-page_depth+page_shrink; + /*this much room is left if we shrink the maximum*/ + if (count(n)==1000) h=height(p); + else h=x_over_n(height(p), 1000)*count(n); /*this much room is needed*/ + if (((h <= 0)||(h <= delta))&&(height(p)+height(r) <= dimen(n))) + {@+page_goal=page_goal-h;height(r)=height(r)+height(p); + } + else@<Find the best way to split the insertion, and change |type(r)| to |split_up|@>; + } +goto contribute; +} + +@ We take note of the value of \.{\\skip} |n| and the height plus depth +of \.{\\box}~|n| only when the first \.{\\insert}~|n| node is +encountered for a new page. A user who changes the contents of \.{\\box}~|n| +after that first \.{\\insert}~|n| had better be either extremely careful +or extremely lucky, or both. + +@<Create a page insertion node...@>= +{@+q=get_node(page_ins_node_size);link(q)=link(r);link(r)=q;r=q; +subtype(r)=qi(n);type(r)=inserting;ensure_vbox(n); +if (box(n)==null) height(r)=0; +else height(r)=height(box(n))+depth(box(n)); +best_ins_ptr(r)=null;@/ +q=skip(n); +if (count(n)==1000) h=height(r); +else h=x_over_n(height(r), 1000)*count(n); +page_goal=page_goal-h-width(q);@/ +page_so_far[2+stretch_order(q)]=@|page_so_far[2+stretch_order(q)]+stretch(q);@/ +page_shrink=page_shrink+shrink(q); +if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) + {@+print_err("Infinite glue shrinkage inserted from ");print_esc("skip"); +@.Infinite glue shrinkage...@> + print_int(n); + help3("The correction glue for page breaking with insertions",@/ + "must have finite shrinkability. But you may proceed,",@/ + "since the offensive shrinkability has been made finite."); + error(); + } +} + +@ Here is the code that will split a long footnote between pages, in an +emergency. The current situation deserves to be recapitulated: Node |p| +is an insertion into box |n|; the insertion will not fit, in its entirety, +either because it would make the total contents of box |n| greater than +\.{\\dimen} |n|, or because it would make the incremental amount of growth +|h| greater than the available space |delta|, or both. (This amount |h| has +been weighted by the insertion scaling factor, i.e., by \.{\\count} |n| +over 1000.) Now we will choose the best way to break the vlist of the +insertion, using the same criteria as in the \.{\\vsplit} operation. + +@<Find the best way to split the insertion...@>= +{@+if (count(n) <= 0) w=max_dimen; +else{@+w=page_goal-page_total-page_depth; + if (count(n)!=1000) w=x_over_n(w, count(n))*1000; + } +if (w > dimen(n)-height(r)) w=dimen(n)-height(r); +q=vert_break(ins_ptr(p), w, depth(p)); +height(r)=height(r)+best_height_plus_depth; +#ifdef @!STAT +if (tracing_pages > 0) @<Display the insertion split cost@>; +#endif +@;@/ +if (count(n)!=1000) + best_height_plus_depth=x_over_n(best_height_plus_depth, 1000)*count(n); +page_goal=page_goal-best_height_plus_depth; +type(r)=split_up;broken_ptr(r)=q;broken_ins(r)=p; +if (q==null) insert_penalties=insert_penalties+eject_penalty; +else if (type(q)==penalty_node) insert_penalties=insert_penalties+penalty(q); +} + +@ @<Display the insertion split cost@>= +{@+begin_diagnostic();print_nl("% split");print_int(n); +@.split@> +print(" to ");print_scaled(w); +print_char(',');print_scaled(best_height_plus_depth);@/ +print(" p="); +if (q==null) print_int(eject_penalty); +else if (type(q)==penalty_node) print_int(penalty(q)); +else print_char('0'); +end_diagnostic(false); +} + +@ When the page builder has looked at as much material as could appear before +the next page break, it makes its decision. The break that gave minimum +badness will be used to put a completed ``page'' into box 255, with insertions +appended to their other boxes. + +We also set the values of |top_mark|, |first_mark|, and |bot_mark|. The +program uses the fact that |bot_mark!=null| implies |first_mark!=null|; +it also knows that |bot_mark==null| implies |top_mark==first_mark==null|. + +The |fire_up| subroutine prepares to output the current page at the best +place; then it fires up the user's output routine, if there is one, +or it simply ships out the page. There is one parameter, |c|, which represents +the node that was being contributed to the page when the decision to +force an output was made. + +@<Declare the procedure called |fire_up|@>= +static void fire_up(pointer @!c) +{@+ +pointer p, @!q, @!r, @!s; /*nodes being examined and/or changed*/ +pointer @!prev_p; /*predecessor of |p|*/ +int @!n; /*insertion box number*/ +bool @!wait; /*should the present insertion be held over?*/ +int @!save_vbadness; /*saved value of |vbadness|*/ +scaled @!save_vfuzz; /*saved value of |vfuzz|*/ +pointer @!save_split_top_skip; /*saved value of |split_top_skip|*/ +@<Set the value of |output_penalty|@>; +if (bot_mark!=null) + {@+if (top_mark!=null) delete_token_ref(top_mark); + top_mark=bot_mark;add_token_ref(top_mark); + delete_token_ref(first_mark);first_mark=null; + } +@<Put the \(o)optimal current page into box 255, update |first_mark| and |bot_mark|, +append insertions to their boxes, and put the remaining nodes back on the contribution +list@>; +if ((top_mark!=null)&&(first_mark==null)) + {@+first_mark=top_mark;add_token_ref(top_mark); + } +if (output_routine!=null) + if (dead_cycles >= max_dead_cycles) + @<Explain that too many dead cycles have occurred in a row@>@; + else@<Fire up the user's output routine and |return|@>; +@<Perform the default output routine@>; +} + +@ @<Set the value of |output_penalty|@>= +if (type(best_page_break)==penalty_node) + {@+geq_word_define(int_base+output_penalty_code, penalty(best_page_break)); + penalty(best_page_break)=inf_penalty; + } +else geq_word_define(int_base+output_penalty_code, inf_penalty) + +@ As the page is finally being prepared for output, +pointer |p| runs through the vlist, with |prev_p| trailing behind; +pointer |q| is the tail of a list of insertions that +are being held over for a subsequent page. + +@<Put the \(o)optimal current page into box 255...@>= +if (c==best_page_break) best_page_break=null; /*|c| not yet linked in*/ +@<Ensure that box 255 is empty before output@>; +insert_penalties=0; /*this will count the number of insertions held over*/ +save_split_top_skip=split_top_skip; +if (holding_inserts <= 0) + @<Prepare all the boxes involved in insertions to act as queues@>; +q=hold_head;link(q)=null;prev_p=page_head;p=link(prev_p); +while (p!=best_page_break) + {@+if (type(p)==ins_node) + {@+if (holding_inserts <= 0) + @<Either insert the material specified by node |p| into the appropriate box, +or hold it for the next page; also delete node |p| from the current page@>; + } + else if (type(p)==mark_node) @<Update the values of |first_mark| and |bot_mark|@>; + prev_p=p;p=link(prev_p); + } +split_top_skip=save_split_top_skip; +@<Break the current page at node |p|, put it in box~255, and put the remaining nodes +on the contribution list@>; +@<Delete \(t)the page-insertion nodes@>@; + +@ @<Ensure that box 255 is empty before output@>= +if (box(255)!=null) + {@+print_err("");print_esc("box");print("255 is not void"); +@:box255}{\.{\\box255 is not void}@> + help2("You shouldn't use \\box255 except in \\output routines.",@/ + "Proceed, and I'll discard its present contents."); + box_error(255); + } + +@ @<Update the values of |first_mark| and |bot_mark|@>= +{@+if (first_mark==null) + {@+first_mark=mark_ptr(p); + add_token_ref(first_mark); + } +if (bot_mark!=null) delete_token_ref(bot_mark); +bot_mark=mark_ptr(p);add_token_ref(bot_mark); +} + +@ When the following code is executed, the current page runs from node +|link(page_head)| to node |prev_p|, and the nodes from |p| to |page_tail| +are to be placed back at the front of the contribution list. Furthermore +the heldover insertions appear in a list from |link(hold_head)| to |q|; we +will put them into the current page list for safekeeping while the user's +output routine is active. We might have |q==hold_head|; and |p==null| if +and only if |prev_p==page_tail|. Error messages are suppressed within +|vpackage|, since the box might appear to be overfull or underfull simply +because the stretch and shrink from the \.{\\skip} registers for inserts +are not actually present in the box. + +@<Break the current page at node |p|, put it...@>= +if (p!=null) + {@+if (link(contrib_head)==null) + if (nest_ptr==0) tail=page_tail; + else contrib_tail=page_tail; + link(page_tail)=link(contrib_head); + link(contrib_head)=p; + link(prev_p)=null; + } +save_vbadness=vbadness;vbadness=inf_bad; +save_vfuzz=vfuzz;vfuzz=max_dimen; /*inhibit error messages*/ +box(255)=vpackage(link(page_head), best_size, 0, 0, exactly, page_max_depth); +vbadness=save_vbadness;vfuzz=save_vfuzz; +if (last_glue!=max_halfword) delete_glue_ref(last_glue); +@<Start a new current page@>; /*this sets |last_glue=max_halfword|*/ +if (q!=hold_head) + {@+link(page_head)=link(hold_head);page_tail=q; + } + +@ If many insertions are supposed to go into the same box, we want to know +the position of the last node in that box, so that we don't need to waste time +when linking further information into it. The |last_ins_ptr| fields of the +page insertion nodes are therefore used for this purpose during the +packaging phase. + +@<Prepare all the boxes involved in insertions to act as queues@>= +{@+r=link(page_ins_head); +while (r!=page_ins_head) + {@+if (best_ins_ptr(r)!=null) + {@+n=qo(subtype(r));ensure_vbox(n); + if (box(n)==null) box(n)=new_null_box(); + p=box(n)+list_offset; + while (link(p)!=null) p=link(p); + last_ins_ptr(r)=p; + } + r=link(r); + } +} + +@ @<Delete \(t)the page-insertion nodes@>= +r=link(page_ins_head); +while (r!=page_ins_head) + {@+q=link(r);free_node(r, page_ins_node_size);r=q; + } +link(page_ins_head)=page_ins_head + +@ We will set |best_ins_ptr=null| and package the box corresponding to +insertion node~|r|, just after making the final insertion into that box. +If this final insertion is `|split_up|', the remainder after splitting +and pruning (if any) will be carried over to the next page. + +@<Either insert the material specified by node |p| into...@>= +{@+r=link(page_ins_head); +while (subtype(r)!=subtype(p)) r=link(r); +if (best_ins_ptr(r)==null) wait=true; +else{@+wait=false;s=last_ins_ptr(r);link(s)=ins_ptr(p); + if (best_ins_ptr(r)==p) + @<Wrap up the box specified by node |r|, splitting node |p| if called for; set +|wait:=true| if node |p| holds a remainder after splitting@>@; + else{@+while (link(s)!=null) s=link(s); + last_ins_ptr(r)=s; + } + } +@<Either append the insertion node |p| after node |q|, and remove it from the current +page, or delete |node(p)|@>; +} + +@ @<Wrap up the box specified by node |r|, splitting node |p| if...@>= +{@+if (type(r)==split_up) + if ((broken_ins(r)==p)&&(broken_ptr(r)!=null)) + {@+while (link(s)!=broken_ptr(r)) s=link(s); + link(s)=null; + split_top_skip=split_top_ptr(p); + ins_ptr(p)=prune_page_top(broken_ptr(r), false); + if (ins_ptr(p)!=null) + {@+temp_ptr=vpack(ins_ptr(p), natural); + height(p)=height(temp_ptr)+depth(temp_ptr); + list_ptr(temp_ptr)=null;flush_node_list(temp_ptr);wait=true; + } + } +best_ins_ptr(r)=null; +n=qo(subtype(r)); +temp_ptr=list_ptr(box(n)); +list_ptr(box(n))=null;flush_node_list(box(n)); +box(n)=vpack(temp_ptr, natural); +} + +@ @<Either append the insertion node |p|...@>= +link(prev_p)=link(p);link(p)=null; +if (wait) + {@+link(q)=p;q=p;incr(insert_penalties); + } +else{@+delete_glue_ref(split_top_ptr(p)); + free_node(p, ins_node_size); + } +p=prev_p + +@ The list of heldover insertions, running from |link(page_head)| to +|page_tail|, must be moved to the contribution list when the user has +specified no output routine. + +@<Perform the default output routine@>= +{@+if (link(page_head)!=null) + {@+if (link(contrib_head)==null) + if (nest_ptr==0) tail=page_tail;@+else contrib_tail=page_tail; + else link(page_tail)=link(contrib_head); + link(contrib_head)=link(page_head); + link(page_head)=null;page_tail=page_head; + } +flush_node_list(page_disc);page_disc=null; +ship_out(box(255));box(255)=null; +} + +@ @<Explain that too many dead cycles have occurred in a row@>= +{@+print_err("Output loop---");print_int(dead_cycles); +@.Output loop...@> +print(" consecutive dead cycles"); +help3("I've concluded that your \\output is awry; it never does a",@/ +"\\shipout, so I'm shipping \\box255 out myself. Next time",@/ +"increase \\maxdeadcycles if you want me to be more patient!");error(); +} + +@ @<Fire up the user's output routine and |return|@>= +{@+output_active=true; +incr(dead_cycles); +push_nest();mode=-vmode;prev_depth=ignore_depth;mode_line=-line; +begin_token_list(output_routine, output_text); +new_save_level(output_group);normal_paragraph(); +scan_left_brace(); +return; +} + +@ When the user's output routine finishes, it has constructed a vlist +in internal vertical mode, and \TeX\ will do the following: + +@<Resume the page builder after an output routine has come to an end@>= +{@+if ((loc!=null)|| + ((token_type!=output_text)&&(token_type!=backed_up))) + @<Recover from an unbalanced output routine@>; +end_token_list(); /*conserve stack space in case more outputs are triggered*/ +end_graf();unsave();output_active=false;insert_penalties=0;@/ +@<Ensure that box 255 is empty after output@>; +if (tail!=head) /*current list goes after heldover insertions*/ + {@+link(page_tail)=link(head); + page_tail=tail; + } +if (link(page_head)!=null) /*and both go before heldover contributions*/ + {@+if (link(contrib_head)==null) contrib_tail=page_tail; + link(page_tail)=link(contrib_head); + link(contrib_head)=link(page_head); + link(page_head)=null;page_tail=page_head; + } +flush_node_list(page_disc);page_disc=null; +pop_nest();build_page(); +} + +@ @<Recover from an unbalanced output routine@>= +{@+print_err("Unbalanced output routine"); +@.Unbalanced output routine@> +help2("Your sneaky output routine has problematic {'s and/or }'s.",@/ +"I can't handle that very well; good luck.");error(); +@/do@+{get_token(); +}@+ while (!(loc==null)); +} /*loops forever if reading from a file, since |null==min_halfword <= 0|*/ + +@ @<Ensure that box 255 is empty after output@>= +if (box(255)!=null) + {@+print_err("Output routine didn't use all of "); + print_esc("box");print_int(255); +@.Output routine didn't use...@> + help3("Your \\output commands should empty \\box255,",@/ + "e.g., by saying `\\shipout\\box255'.",@/ + "Proceed; I'll discard its present contents."); + box_error(255); + } + +@* The chief executive. +We come now to the |main_control| routine, which contains the master +switch that causes all the various pieces of \TeX\ to do their things, +in the right order. + +In a sense, this is the grand climax of the program: It applies all the +tools that we have worked so hard to construct. In another sense, this is +the messiest part of the program: It necessarily refers to other pieces +of code all over the place, so that a person can't fully understand what is +going on without paging back and forth to be reminded of conventions that +are defined elsewhere. We are now at the hub of the web, the central nervous +system that touches most of the other parts and ties them together. +@^brain@> + +The structure of |main_control| itself is quite simple. There's a label +called |big_switch|, at which point the next token of input is fetched +using |get_x_token|. Then the program branches at high speed into one of +about 100 possible directions, based on the value of the current +mode and the newly fetched command code; the sum |abs(mode)+cur_cmd| +indicates what to do next. For example, the case `|vmode+letter|' arises +when a letter occurs in vertical mode (or internal vertical mode); this +case leads to instructions that initialize a new paragraph and enter +horizontal mode. + +The big |case| statement that contains this multiway switch has been labeled +|reswitch|, so that the program can |goto reswitch| when the next token +has already been fetched. Most of the cases are quite short; they call +an ``action procedure'' that does the work for that case, and then they +either |goto reswitch| or they ``fall through'' to the end of the |case| +statement, which returns control back to |big_switch|. Thus, |main_control| +is not an extremely large procedure, in spite of the multiplicity of things +it must do; it is small enough to be handled by \PASCAL\ compilers that put +severe restrictions on procedure size. +@!@^action procedure@> + +One case is singled out for special treatment, because it accounts for most +of \TeX's activities in typical applications. The process of reading simple +text and converting it into |char_node| records, while looking for ligatures +and kerns, is part of \TeX's ``inner loop''; the whole program runs +efficiently when its inner loop is fast, so this part has been written +with particular care. + +@ We shall concentrate first on the inner loop of |main_control|, deferring +consideration of the other cases until later. +@^inner loop@> + +@p @t\4@>@<Declare action procedures for use by |main_control|@>@; +@t\4@>@<Declare the procedure called |handle_right_brace|@>@; +static void main_control(void) /*governs \TeX's activities*/ +{@+ + + + + +int @!t; /*general-purpose temporary variable*/ +if (every_job!=null) begin_token_list(every_job, every_job_text); +big_switch: get_x_token();@/ +reswitch: @<Give diagnostic information, if requested@>; +switch (abs(mode)+cur_cmd) { +case hmode+letter: case hmode+other_char: case hmode+char_given: goto main_loop; +case hmode+char_num: {@+scan_char_num();cur_chr=cur_val;goto main_loop;@+} +case hmode+no_boundary: {@+get_x_token(); + if ((cur_cmd==letter)||(cur_cmd==other_char)||(cur_cmd==char_given)|| + (cur_cmd==char_num)) cancel_boundary=true; + goto reswitch; + } +case hmode+spacer: if (space_factor==1000) goto append_normal_space; + else app_space();@+break; +case hmode+ex_space: case mmode+ex_space: goto append_normal_space; +@t\4@>@<Cases of |main_control| that are not part of the inner loop@>@; +} /*of the big |case| statement*/ +goto big_switch; +main_loop: @<Append character |cur_chr| and the following characters (if~any) to the +current hlist in the current font; |goto reswitch| when a non-character has been fetched@>; +append_normal_space: @<Append a normal inter-word space to the current list, then +|goto big_switch|@>; +} + +@ When a new token has just been fetched at |big_switch|, we have an +ideal place to monitor \TeX's activity. +@^debugging@> + +@<Give diagnostic information, if requested@>= +if (interrupt!=0) if (OK_to_interrupt) + {@+back_input();check_interrupt;goto big_switch; + } +#ifdef @!DEBUG +if (panicking) check_mem(false);@; +#endif +if (tracing_commands > 0) show_cur_cmd_chr() + +@ The following part of the program was first written in a structured +manner, according to the philosophy that ``premature optimization is +the root of all evil.'' Then it was rearranged into pieces of +spaghetti so that the most common actions could proceed with little or +no redundancy. + +The original unoptimized form of this algorithm resembles the +|reconstitute| procedure, which was described earlier in connection with +hyphenation. Again we have an implied ``cursor'' between characters +|cur_l| and |cur_r|. The main difference is that the |lig_stack| can now +contain a charnode as well as pseudo-ligatures; that stack is now +usually nonempty, because the next character of input (if any) has been +appended to it. In |main_control| we have +$$|cur_r|=\cases{|character(lig_stack)|,&if |lig_stack > null|;\cr + |font_bchar[cur_font]|,&otherwise;\cr}$$ +except when |character(lig_stack)==font_false_bchar[cur_font]|. +Several additional global variables are needed. + +@<Glob...@>= +static internal_font_number @!main_f; /*the current font*/ +static four_quarters @!main_i; /*character information bytes for |cur_l|*/ +static four_quarters @!main_j; /*ligature/kern command*/ +static font_index @!main_k; /*index into |font_info|*/ +static pointer @!main_p; /*temporary register for list manipulation*/ +static int @!main_s; /*space factor value*/ +static halfword @!bchar; /*boundary character of current font, or |non_char|*/ +static halfword @!false_bchar; /*nonexistent character matching |bchar|, or |non_char|*/ +static bool @!cancel_boundary; /*should the left boundary be ignored?*/ +static bool @!ins_disc; /*should we insert a discretionary node?*/ + +@ The boolean variables of the main loop are normally false, and always reset +to false before the loop is left. That saves us the extra work of initializing +each time. + +@<Set init...@>= +ligature_present=false;cancel_boundary=false;lft_hit=false;rt_hit=false; +ins_disc=false; + +@ We leave the |space_factor| unchanged if |sf_code(cur_chr)==0|; otherwise we +set it equal to |sf_code(cur_chr)|, except that it should never change +from a value less than 1000 to a value exceeding 1000. The most common +case is |sf_code(cur_chr)==1000|, so we want that case to be fast. + +The overall structure of the main loop is presented here. Some program labels +are inside the individual sections. +@^inner loop@> + +@d adjust_space_factor @t@>@;@/ + main_s=sf_code(cur_chr); + if (main_s==1000) space_factor=1000; + else if (main_s < 1000) + {@+if (main_s > 0) space_factor=main_s; + } + else if (space_factor < 1000) space_factor=1000; + else space_factor=main_s + +@<Append character |cur_chr|...@>= +adjust_space_factor;@/ +main_f=cur_font; +bchar=font_bchar[main_f];false_bchar=font_false_bchar[main_f]; +if (mode > 0) if (language!=clang) fix_language(); +fast_get_avail(lig_stack);font(lig_stack)=main_f;cur_l=qi(cur_chr); +character(lig_stack)=cur_l;@/ +cur_q=tail; +if (cancel_boundary) + {@+cancel_boundary=false;main_k=non_address; + } +else main_k=bchar_label[main_f]; +if (main_k==non_address) goto main_loop_move2; /*no left boundary processing*/ +cur_r=cur_l;cur_l=non_char; +goto main_lig_loop1; /*begin with cursor after left boundary*/ +@# +main_loop_wrapup: @<Make a ligature node, if |ligature_present|; insert a null discretionary, +if appropriate@>; +main_loop_move: @<If the cursor is immediately followed by the right boundary, |goto +reswitch|; if it's followed by an invalid character, |goto big_switch|; otherwise +move the cursor one step to the right and |goto main_lig_loop|@>; +main_loop_lookahead: @<Look ahead for another character, or leave |lig_stack| empty +if there's none there@>; +main_lig_loop: @<If there's a ligature/kern command relevant to |cur_l| and |cur_r|, +adjust the text appropriately; exit to |main_loop_wrapup|@>; +main_loop_move_lig: @<Move the cursor past a pseudo-ligature, then |goto main_loop_lookahead| +or |main_lig_loop|@>@; + +@ If |link(cur_q)| is nonnull when |wrapup| is invoked, |cur_q| points to +the list of characters that were consumed while building the ligature +character~|cur_l|. + +A discretionary break is not inserted for an explicit hyphen when we are in +restricted horizontal mode. In particular, this avoids putting discretionary +nodes inside of other discretionaries. +@^inner loop@> + +@d pack_lig(X) /*the parameter is either |rt_hit| or |false|*/ + {@+main_p=new_ligature(main_f, cur_l, link(cur_q)); + if (lft_hit) + {@+subtype(main_p)=2;lft_hit=false; + } + if (X) if (lig_stack==null) + {@+incr(subtype(main_p));rt_hit=false; + } + link(cur_q)=main_p;tail=main_p;ligature_present=false; + } + +@d wrapup(A) if (cur_l < non_char) + {@+if (link(cur_q) > null) + if (character(tail)==qi(hyphen_char[main_f])) ins_disc=true; + if (ligature_present) pack_lig(A); + if (ins_disc) + {@+ins_disc=false; + if (mode > 0) tail_append(new_disc()); + } + } + +@<Make a ligature node, if |ligature_present|;...@>= +wrapup(rt_hit) + +@ @<If the cursor is immediately followed by the right boundary...@>= +@^inner loop@> +if (lig_stack==null) goto reswitch; +cur_q=tail;cur_l=character(lig_stack); +main_loop_move1: if (!is_char_node(lig_stack)) goto main_loop_move_lig; +main_loop_move2: if ((cur_chr < font_bc[main_f])||(cur_chr > font_ec[main_f])) + {@+char_warning(main_f, cur_chr);free_avail(lig_stack);goto big_switch; + } +main_i=char_info(main_f, cur_l); +if (!char_exists(main_i)) + {@+char_warning(main_f, cur_chr);free_avail(lig_stack);goto big_switch; + } +link(tail)=lig_stack;tail=lig_stack /*|main_loop_lookahead| is next*/ + +@ Here we are at |main_loop_move_lig|. +When we begin this code we have |cur_q==tail| and |cur_l==character(lig_stack)|. + +@<Move the cursor past a pseudo-ligature...@>= +main_p=lig_ptr(lig_stack); +if (main_p > null) tail_append(main_p); /*append a single character*/ +temp_ptr=lig_stack;lig_stack=link(temp_ptr); +free_node(temp_ptr, small_node_size); +main_i=char_info(main_f, cur_l);ligature_present=true; +if (lig_stack==null) + if (main_p > null) goto main_loop_lookahead; + else cur_r=bchar; +else cur_r=character(lig_stack); +goto main_lig_loop + +@ The result of \.{\\char} can participate in a ligature or kern, so we must +look ahead for it. + +@<Look ahead for another character...@>= +get_next(); /*set only |cur_cmd| and |cur_chr|, for speed*/ +if (cur_cmd==letter) goto main_loop_lookahead1; +if (cur_cmd==other_char) goto main_loop_lookahead1; +if (cur_cmd==char_given) goto main_loop_lookahead1; +x_token(); /*now expand and set |cur_cmd|, |cur_chr|, |cur_tok|*/ +if (cur_cmd==letter) goto main_loop_lookahead1; +if (cur_cmd==other_char) goto main_loop_lookahead1; +if (cur_cmd==char_given) goto main_loop_lookahead1; +if (cur_cmd==char_num) + {@+scan_char_num();cur_chr=cur_val;goto main_loop_lookahead1; + } +if (cur_cmd==no_boundary) bchar=non_char; +cur_r=bchar;lig_stack=null;goto main_lig_loop; +main_loop_lookahead1: adjust_space_factor; +fast_get_avail(lig_stack);font(lig_stack)=main_f; +cur_r=qi(cur_chr);character(lig_stack)=cur_r; +if (cur_r==false_bchar) cur_r=non_char /*this prevents spurious ligatures*/ + +@ Even though comparatively few characters have a lig/kern program, several +of the instructions here count as part of \TeX's inner loop, since a +@^inner loop@> +potentially long sequential search must be performed. For example, tests with +Computer Modern Roman showed that about 40 per cent of all characters +actually encountered in practice had a lig/kern program, and that about four +lig/kern commands were investigated for every such character. + +At the beginning of this code we have |main_i==char_info(main_f, cur_l)|. + +@<If there's a ligature/kern command...@>= +if (char_tag(main_i)!=lig_tag) goto main_loop_wrapup; +if (cur_r==non_char) goto main_loop_wrapup; +main_k=lig_kern_start(main_f, main_i);main_j=font_info[main_k].qqqq; +if (skip_byte(main_j) <= stop_flag) goto main_lig_loop2; +main_k=lig_kern_restart(main_f, main_j); +main_lig_loop1: main_j=font_info[main_k].qqqq; +main_lig_loop2: if (next_char(main_j)==cur_r) + if (skip_byte(main_j) <= stop_flag) + @<Do ligature or kern command, returning to |main_lig_loop| or |main_loop_wrapup| +or |main_loop_move|@>; +if (skip_byte(main_j)==qi(0)) incr(main_k); +else{@+if (skip_byte(main_j) >= stop_flag) goto main_loop_wrapup; + main_k=main_k+qo(skip_byte(main_j))+1; + } +goto main_lig_loop1 + +@ When a ligature or kern instruction matches a character, we know from +|read_font_info| that the character exists in the font, even though we +haven't verified its existence in the normal way. + +This section could be made into a subroutine, if the code inside +|main_control| needs to be shortened. + +\chardef\@@='174 % vertical line to indicate character retention + +@<Do ligature or kern command...@>= +{@+if (op_byte(main_j) >= kern_flag) + {@+wrapup(rt_hit); + tail_append(new_kern(char_kern(main_f, main_j)));goto main_loop_move; + } +if (cur_l==non_char) lft_hit=true; +else if (lig_stack==null) rt_hit=true; +check_interrupt; /*allow a way out in case there's an infinite ligature loop*/ +switch (op_byte(main_j)) { +case qi(1): case qi(5): {@+cur_l=rem_byte(main_j); /*\.{=:\@@}, \.{=:\@@>}*/ + main_i=char_info(main_f, cur_l);ligature_present=true; + } @+break; +case qi(2): case qi(6): {@+cur_r=rem_byte(main_j); /*\.{\@@=:}, \.{\@@=:>}*/ + if (lig_stack==null) /*right boundary character is being consumed*/ + {@+lig_stack=new_lig_item(cur_r);bchar=non_char; + } + else if (is_char_node(lig_stack)) /*|link(lig_stack)==null|*/ + {@+main_p=lig_stack;lig_stack=new_lig_item(cur_r); + lig_ptr(lig_stack)=main_p; + } + else character(lig_stack)=cur_r; + } @+break; +case qi(3): {@+cur_r=rem_byte(main_j); /*\.{\@@=:\@@}*/ + main_p=lig_stack;lig_stack=new_lig_item(cur_r); + link(lig_stack)=main_p; + } @+break; +case qi(7): case qi(11): {@+wrapup(false); /*\.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ + cur_q=tail;cur_l=rem_byte(main_j); + main_i=char_info(main_f, cur_l);ligature_present=true; + } @+break; +default:{@+cur_l=rem_byte(main_j);ligature_present=true; /*\.{=:}*/ + if (lig_stack==null) goto main_loop_wrapup; + else goto main_loop_move1; + } +} +if (op_byte(main_j) > qi(4)) + if (op_byte(main_j)!=qi(7)) goto main_loop_wrapup; +if (cur_l < non_char) goto main_lig_loop; +main_k=bchar_label[main_f];goto main_lig_loop1; +} + +@ The occurrence of blank spaces is almost part of \TeX's inner loop, +@^inner loop@> +since we usually encounter about one space for every five non-blank characters. +Therefore |main_control| gives second-highest priority to ordinary spaces. + +When a glue parameter like \.{\\spaceskip} is set to `\.{0pt}', we will +see to it later that the corresponding glue specification is precisely +|zero_glue|, not merely a pointer to some specification that happens +to be full of zeroes. Therefore it is simple to test whether a glue parameter +is zero or~not. + +@<Append a normal inter-word space...@>= +if (space_skip==zero_glue) + {@+@<Find the glue specification, |main_p|, for text spaces in the current font@>; + temp_ptr=new_glue(main_p); + } +else temp_ptr=new_param_glue(space_skip_code); +link(tail)=temp_ptr;tail=temp_ptr; +goto big_switch + +@ Having |font_glue| allocated for each text font saves both time and memory. +If any of the three spacing parameters are subsequently changed by the +use of \.{\\fontdimen}, the |find_font_dimen| procedure deallocates the +|font_glue| specification allocated here. + +@<Find the glue specification...@>= +{@+main_p=font_glue[cur_font]; +if (main_p==null) + {@+main_p=new_spec(zero_glue);main_k=param_base[cur_font]+space_code; + width(main_p)=font_info[main_k].sc; /*that's |space(cur_font)|*/ + stretch(main_p)=font_info[main_k+1].sc; /*and |space_stretch(cur_font)|*/ + shrink(main_p)=font_info[main_k+2].sc; /*and |space_shrink(cur_font)|*/ + font_glue[cur_font]=main_p; + } +} + +@ @<Declare act...@>= +static void app_space(void) /*handle spaces when |space_factor!=1000|*/ +{@+pointer @!q; /*glue node*/ +if ((space_factor >= 2000)&&(xspace_skip!=zero_glue)) + q=new_param_glue(xspace_skip_code); +else{@+if (space_skip!=zero_glue) main_p=space_skip; + else@<Find the glue specification...@>; + main_p=new_spec(main_p); + @<Modify the glue specification in |main_p| according to the space factor@>; + q=new_glue(main_p);glue_ref_count(main_p)=null; + } +link(tail)=q;tail=q; +} + +@ @<Modify the glue specification in |main_p| according to the space factor@>= +if (space_factor >= 2000) width(main_p)=width(main_p)+extra_space(cur_font); +stretch(main_p)=xn_over_d(stretch(main_p), space_factor, 1000); +shrink(main_p)=xn_over_d(shrink(main_p), 1000, space_factor) + +@ Whew---that covers the main loop. We can now proceed at a leisurely +pace through the other combinations of possibilities. + +@d any_mode(A) case vmode+A: case hmode+A: case mmode+A /*for mode-independent commands*/ + +@<Cases of |main_control| that are not part of the inner loop@>= +any_mode(relax): case vmode+spacer: case mmode+spacer: case mmode+no_boundary: do_nothing; +any_mode(ignore_spaces): {@+@<Get the next non-blank non-call...@>; + goto reswitch; + } +case vmode+stop: if (its_all_over()) return;@+break; /*this is the only way out*/ +@t\4@>@<Forbidden cases detected in |main_control|@>@+@, any_mode(mac_param): + report_illegal_case();@+break; +@<Math-only cases in non-math modes, or vice versa@>: insert_dollar_sign();@+break; +@t\4@>@<Cases of |main_control| that build boxes and lists@>@; +@t\4@>@<Cases of |main_control| that don't depend on |mode|@>@; +@t\4@>@<Cases of |main_control| that are for extensions to \TeX@>@; + +@ Here is a list of cases where the user has probably gotten into or out of math +mode by mistake. \TeX\ will insert a dollar sign and rescan the current token. + +@d non_math(A) case vmode+A: case hmode+A + +@<Math-only cases in non-math modes...@>= +non_math(sup_mark): non_math(sub_mark): non_math(math_char_num): +non_math(math_given): non_math(math_comp): non_math(delim_num): +non_math(left_right): non_math(above): non_math(radical): +non_math(math_style): non_math(math_choice): non_math(vcenter): +non_math(non_script): non_math(mkern): non_math(limit_switch): +non_math(mskip): non_math(math_accent): +case mmode+endv: case mmode+par_end: case mmode+stop: case mmode+vskip: case mmode+un_vbox: +case mmode+valign: case mmode+hrule + +@ @<Declare action...@>= +static void insert_dollar_sign(void) +{@+back_input();cur_tok=math_shift_token+'$'; +print_err("Missing $ inserted"); +@.Missing \$ inserted@> +help2("I've inserted a begin-math/end-math symbol since I think",@/ +"you left one out. Proceed, with fingers crossed.");ins_error(); +} + +@ When erroneous situations arise, \TeX\ usually issues an error message +specific to the particular error. For example, `\.{\\noalign}' should +not appear in any mode, since it is recognized by the |align_peek| routine +in all of its legitimate appearances; a special error message is given +when `\.{\\noalign}' occurs elsewhere. But sometimes the most appropriate +error message is simply that the user is not allowed to do what he or she +has attempted. For example, `\.{\\moveleft}' is allowed only in vertical mode, +and `\.{\\lower}' only in non-vertical modes. Such cases are enumerated +here and in the other sections referred to under `See also \dots.' + +@<Forbidden cases...@>= +case vmode+vmove: case hmode+hmove: case mmode+hmove: any_mode(last_item): + +@ The `|you_cant|' procedure prints a line saying that the current command +is illegal in the current mode; it identifies these things symbolically. + +@<Declare action...@>= +static void you_cant(void) +{@+print_err("You can't use `"); +@.You can't use x in y mode@> +print_cmd_chr(cur_cmd, cur_chr); +print("' in ");print_mode(mode); +} + +@ @<Declare act...@>= +static void report_illegal_case(void) +{@+you_cant(); +help4("Sorry, but I'm not programmed to handle this case;",@/ +"I'll just pretend that you didn't ask for it.",@/ +"If you're in the wrong mode, you might be able to",@/ +"return to the right one by typing `I}' or `I$' or `I\\par'.");@/ +error(); +} + +@ Some operations are allowed only in privileged modes, i.e., in cases +that |mode > 0|. The |privileged| function is used to detect violations +of this rule; it issues an error message and returns |false| if the +current |mode| is negative. + +@<Declare act...@>= +static bool privileged(void) +{@+if (mode > 0) return true; +else{@+report_illegal_case();return false; + } +} + +@ Either \.{\\dump} or \.{\\end} will cause |main_control| to enter the +endgame, since both of them have `|stop|' as their command code. + +@<Put each...@>= +primitive("end", stop, 0);@/ +@!@:end\_}{\.{\\end} primitive@> +primitive("dump", stop, 1);@/ +@!@:dump\_}{\.{\\dump} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case stop: if (chr_code==1) print_esc("dump");@+else print_esc("end");@+break; + +@ We don't want to leave |main_control| immediately when a |stop| command +is sensed, because it may be necessary to invoke an \.{\\output} routine +several times before things really grind to a halt. (The output routine +might even say `\.{\\gdef\\end\{...\}}', to prolong the life of the job.) +Therefore |its_all_over| is |true| only when the current page +and contribution list are empty, and when the last output was not a +``dead cycle.'' + +@<Declare act...@>= +static bool its_all_over(void) /*do this when \.{\\end} or \.{\\dump} occurs*/ +{@+ +if (privileged()) + {@+if ((page_head==page_tail)&&(head==tail)&&(dead_cycles==0)) + {@+return true; + } + back_input(); /*we will try to end again after ejecting residual material*/ + tail_append(new_set_node()); + set_extent(tail)=new_xdimen(dimen_par(hsize_code), + dimen_par_hfactor(hsize_code),dimen_par_vfactor(hsize_code)); + tail_append(new_glue(fill_glue)); + tail_append(new_penalty(2*(eject_penalty)));@/ + build_page(); /*append \.{\\hbox to \\hsize\{\}\\vfill\\penalty-'10000000000}*/ + } +return false; +} + +@* Building boxes and lists. +The most important parts of |main_control| are concerned with \TeX's +chief mission of box-making. We need to control the activities that put +entries on vlists and hlists, as well as the activities that convert +those lists into boxes. All of the necessary machinery has already been +developed; it remains for us to ``push the buttons'' at the right times. + +@ As an introduction to these routines, let's consider one of the simplest +cases: What happens when `\.{\\hrule}' occurs in vertical mode, or +`\.{\\vrule}' in horizontal mode or math mode? The code in |main_control| +is short, since the |scan_rule_spec| routine already does most of what is +required; thus, there is no need for a special action procedure. + +Note that baselineskip calculations are disabled after a rule in vertical +mode, by setting |prev_depth=ignore_depth|. + +@<Cases of |main_control| that build...@>= +case vmode+hrule: case hmode+vrule: case mmode+vrule: {@+tail_append(scan_rule_spec()); + if (abs(mode)==vmode) prev_depth=ignore_depth; + else if (abs(mode)==hmode) space_factor=1000; + } @+break; + +@ The processing of things like \.{\\hskip} and \.{\\vskip} is slightly +more complicated. But the code in |main_control| is very short, since +it simply calls on the action routine |append_glue|. Similarly, \.{\\kern} +activates |append_kern|. + +@<Cases of |main_control| that build...@>= +case vmode+vskip: case hmode+hskip: case mmode+hskip: case mmode+mskip: append_glue();@+break; +any_mode(kern): case mmode+mkern: append_kern();@+break; + +@ The |hskip| and |vskip| command codes are used for control sequences +like \.{\\hss} and \.{\\vfil} as well as for \.{\\hskip} and \.{\\vskip}. +The difference is in the value of |cur_chr|. + +@d fil_code 0 /*identifies \.{\\hfil} and \.{\\vfil}*/ +@d fill_code 1 /*identifies \.{\\hfill} and \.{\\vfill}*/ +@d ss_code 2 /*identifies \.{\\hss} and \.{\\vss}*/ +@d fil_neg_code 3 /*identifies \.{\\hfilneg} and \.{\\vfilneg}*/ +@d skip_code 4 /*identifies \.{\\hskip} and \.{\\vskip}*/ +@d mskip_code 5 /*identifies \.{\\mskip}*/ + +@<Put each...@>= +primitive("hskip", hskip, skip_code);@/ +@!@:hskip\_}{\.{\\hskip} primitive@> +primitive("hfil", hskip, fil_code); +@!@:hfil\_}{\.{\\hfil} primitive@> +primitive("hfill", hskip, fill_code);@/ +@!@:hfill\_}{\.{\\hfill} primitive@> +primitive("hss", hskip, ss_code); +@!@:hss\_}{\.{\\hss} primitive@> +primitive("hfilneg", hskip, fil_neg_code);@/ +@!@:hfil\_neg\_}{\.{\\hfilneg} primitive@> +primitive("vskip", vskip, skip_code);@/ +@!@:vskip\_}{\.{\\vskip} primitive@> +primitive("vfil", vskip, fil_code); +@!@:vfil\_}{\.{\\vfil} primitive@> +primitive("vfill", vskip, fill_code);@/ +@!@:vfill\_}{\.{\\vfill} primitive@> +primitive("vss", vskip, ss_code); +@!@:vss\_}{\.{\\vss} primitive@> +primitive("vfilneg", vskip, fil_neg_code);@/ +@!@:vfil\_neg\_}{\.{\\vfilneg} primitive@> +primitive("mskip", mskip, mskip_code);@/ +@!@:mskip\_}{\.{\\mskip} primitive@> +primitive("kern", kern, explicit); +@!@:kern\_}{\.{\\kern} primitive@> +primitive("mkern", mkern, mu_glue);@/ +@!@:mkern\_}{\.{\\mkern} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case hskip: switch (chr_code) { + case skip_code: print_esc("hskip");@+break; + case fil_code: print_esc("hfil");@+break; + case fill_code: print_esc("hfill");@+break; + case ss_code: print_esc("hss");@+break; + default:print_esc("hfilneg"); + } @+break; +case vskip: switch (chr_code) { + case skip_code: print_esc("vskip");@+break; + case fil_code: print_esc("vfil");@+break; + case fill_code: print_esc("vfill");@+break; + case ss_code: print_esc("vss");@+break; + default:print_esc("vfilneg"); + } @+break; +case mskip: print_esc("mskip");@+break; +case kern: print_esc("kern");@+break; +case mkern: print_esc("mkern");@+break; + +@ All the work relating to glue creation has been relegated to the +following subroutine. It does not call |build_page|, because it is +used in at least one place where that would be a mistake. + +@<Declare action...@>= +static void append_glue(void) +{@+small_number s; /*modifier of skip command*/ +s=cur_chr; +switch (s) { +case fil_code: cur_val=fil_glue;@+break; +case fill_code: cur_val=fill_glue;@+break; +case ss_code: cur_val=ss_glue;@+break; +case fil_neg_code: cur_val=fil_neg_glue;@+break; +case skip_code: scan_glue(glue_val);@+break; +case mskip_code: scan_glue(mu_val); +} /*now |cur_val| points to the glue specification*/ +tail_append(new_glue(cur_val)); +if (s >= skip_code) + {@+decr(glue_ref_count(cur_val)); + if (s > skip_code) subtype(tail)=mu_glue; + } +} + +@ @<Declare act...@>= +static void append_kern(void) +{@+quarterword s; /*|subtype| of the kern node*/ +s=cur_chr;scan_dimen(s==mu_glue, false, false); +tail_append(new_kern(cur_val));subtype(tail)=s; +} + +@ Many of the actions related to box-making are triggered by the appearance +of braces in the input. For example, when the user says `\.{\\hbox} +\.{to} \.{100pt\{$\langle\,\hbox{\rm hlist}\,\rangle$\}}' in vertical mode, +the information about the box size (100pt, |exactly|) is put onto |save_stack| +with a level boundary word just above it, and |cur_group=adjusted_hbox_group|; +\TeX\ enters restricted horizontal mode to process the hlist. The right +brace eventually causes |save_stack| to be restored to its former state, +at which time the information about the box size (100pt, |exactly|) is +available once again; a box is packaged and we leave restricted horizontal +mode, appending the new box to the current list of the enclosing mode +(in this case to the current list of vertical mode), followed by any +vertical adjustments that were removed from the box by |hpack|. + +The next few sections of the program are therefore concerned with the +treatment of left and right curly braces. + +@ If a left brace occurs in the middle of a page or paragraph, it simply +introduces a new level of grouping, and the matching right brace will not have +such a drastic effect. Such grouping affects neither the mode nor the +current list. + +@<Cases of |main_control| that build...@>= +non_math(left_brace): new_save_level(simple_group);@+break; +any_mode(begin_group): new_save_level(semi_simple_group);@+break; +any_mode(end_group): if (cur_group==semi_simple_group) unsave(); + else off_save();@+break; + +@ We have to deal with errors in which braces and such things are not +properly nested. Sometimes the user makes an error of commission by +inserting an extra symbol, but sometimes the user makes an error of omission. +\TeX\ can't always tell one from the other, so it makes a guess and tries +to avoid getting into a loop. + +The |off_save| routine is called when the current group code is wrong. It tries +to insert something into the user's input that will help clean off +the top level. + +@<Declare act...@>= +static void off_save(void) +{@+pointer p; /*inserted token*/ +if (cur_group==bottom_level) + @<Drop current token and complain that it was unmatched@>@; +else{@+back_input();p=get_avail();link(temp_head)=p; + print_err("Missing "); + @<Prepare to insert a token that matches |cur_group|, and print what it is@>; + print(" inserted");ins_list(link(temp_head)); + help5("I've inserted something that you may have forgotten.",@/ + "(See the <inserted text> above.)",@/ + "With luck, this will get me unwedged. But if you",@/ + "really didn't forget anything, try typing `2' now; then",@/ + "my insertion and my current dilemma will both disappear."); + error(); + } +} + +@ At this point, |link(temp_head)==p|, a pointer to an empty one-word node. + +@<Prepare to insert a token that matches |cur_group|...@>= +switch (cur_group) { +case semi_simple_group: {@+info(p)=cs_token_flag+frozen_end_group; + print_esc("endgroup"); +@.Missing \\endgroup inserted@> + } @+break; +case math_shift_group: {@+info(p)=math_shift_token+'$';print_char('$'); +@.Missing \$ inserted@> + } @+break; +case math_left_group: {@+info(p)=cs_token_flag+frozen_right;link(p)=get_avail(); + p=link(p);info(p)=other_token+'.';print_esc("right."); +@.Missing \\right\hbox{.} inserted@> +@^null delimiter@> + } @+break; +default:{@+info(p)=right_brace_token+'}';print_char('}'); +@.Missing \} inserted@> + } +} + +@ @<Drop current token and complain that it was unmatched@>= +{@+print_err("Extra ");print_cmd_chr(cur_cmd, cur_chr); +@.Extra x@> +help1("Things are pretty mixed up, but I think the worst is over.");@/ +error(); +} + +@ The routine for a |right_brace| character branches into many subcases, +since a variety of things may happen, depending on |cur_group|. Some +types of groups are not supposed to be ended by a right brace; error +messages are given in hopes of pinpointing the problem. Most branches +of this routine will be filled in later, when we are ready to understand +them; meanwhile, we must prepare ourselves to deal with such errors. + +@<Cases of |main_control| that build...@>= +any_mode(right_brace): handle_right_brace();@+break; + +@ @<Declare the procedure called |handle_right_brace|@>= +static void handle_right_brace(void) +{@+pointer p, @!q; /*for short-term use*/ +scaled @!d; /*holds |split_max_depth| in |insert_group|*/ +int @!f; /*holds |floating_penalty| in |insert_group|*/ +switch (cur_group) { +case simple_group: unsave();@+break; +case bottom_level: {@+print_err("Too many }'s"); +@.Too many \}'s@> + help2("You've closed more groups than you opened.",@/ + "Such booboos are generally harmless, so keep going.");error(); + } @+break; +case semi_simple_group: case math_shift_group: case math_left_group: extra_right_brace();@+break; +@t\4@>@<Cases of |handle_right_brace| where a |right_brace| triggers a delayed action@>@; +default:confusion("rightbrace"); +@:this can't happen rightbrace}{\quad rightbrace@> +} +} + +@ @<Declare act...@>= +static void extra_right_brace(void) +{@+print_err("Extra }, or forgotten "); +@.Extra \}, or forgotten x@> +switch (cur_group) { +case semi_simple_group: print_esc("endgroup");@+break; +case math_shift_group: print_char('$');@+break; +case math_left_group: print_esc("right"); +} @/ +help5("I've deleted a group-closing symbol because it seems to be",@/ +"spurious, as in `$x}$'. But perhaps the } is legitimate and",@/ +"you forgot something else, as in `\\hbox{$x}'. In such cases",@/ +"the way to recover is to insert both the forgotten and the",@/ +"deleted material, e.g., by typing `I$}'.");error(); +incr(align_state); +} + +@ Here is where we clear the parameters that are supposed to revert to their +default values after every paragraph and when internal vertical mode is entered. + +@<Declare act...@>= +static void normal_paragraph(void) +{@+if (looseness!=0) eq_word_define(int_base+looseness_code, 0); +if (hang_indent!=0) eq_word_define(dimen_base+hang_indent_code, 0); +if (hang_after!=1) eq_word_define(int_base+hang_after_code, 1); +if (par_shape_ptr!=null) eq_define(par_shape_loc, shape_ref, null); +if (inter_line_penalties_ptr!=null) + eq_define(inter_line_penalties_loc, shape_ref, null); +} + +@ Now let's turn to the question of how \.{\\hbox} is treated. We actually +need to consider also a slightly larger context, since constructions like +`\.{\\setbox3=}\penalty0\.{\\hbox...}' and +`\.{\\leaders}\penalty0\.{\\hbox...}' and +`\.{\\lower3.8pt\\hbox...}' +are supposed to invoke quite +different actions after the box has been packaged. Conversely, +constructions like `\.{\\setbox3=}' can be followed by a variety of +different kinds of boxes, and we would like to encode such things in an +efficient way. + +In other words, there are two problems: to represent the context of a box, +and to represent its type. + +The first problem is solved by putting a ``context code'' on the |save_stack|, +just below the two entries that give the dimensions produced by |scan_spec|. +The context code is either a (signed) shift amount, or it is a large +integer | >= box_flag|, where |box_flag==@t$2^{30}$@>|. Codes |box_flag| through +|global_box_flag-1| represent `\.{\\setbox0}' through `\.{\\setbox32767}'; +codes |global_box_flag| through |ship_out_flag-1| represent +`\.{\\global\\setbox0}' through `\.{\\global\\setbox32767}'; +code |ship_out_flag| represents `\.{\\shipout}'; and codes |leader_flag| +through |leader_flag+2| represent `\.{\\leaders}', `\.{\\cleaders}', +and `\.{\\xleaders}'. + +The second problem is solved by giving the command code |make_box| to all +control sequences that produce a box, and by using the following |chr_code| +values to distinguish between them: |box_code|, |copy_code|, |last_box_code|, +|vsplit_code|, |vtop_code|, |vtop_code+vmode|, and |vtop_code+hmode|, where +the latter two are used to denote \.{\\vbox} and \.{\\hbox}, respectively. + +@d box_flag 010000000000 /*context code for `\.{\\setbox0}'*/ +@d global_box_flag 010000100000 /*context code for `\.{\\global\\setbox0}'*/ +@d ship_out_flag 010000200000 /*context code for `\.{\\shipout}'*/ +@d leader_flag 010000200001 /*context code for `\.{\\leaders}'*/ +@d box_code 0 /*|chr_code| for `\.{\\box}'*/ +@d copy_code 1 /*|chr_code| for `\.{\\copy}'*/ +@d last_box_code 2 /*|chr_code| for `\.{\\lastbox}'*/ +@d vsplit_code 3 /*|chr_code| for `\.{\\vsplit}'*/ +@d vtop_code 4 /*|chr_code| for `\.{\\vtop}'*/ + +@<Put each...@>= +primitive("moveleft", hmove, 1); +@!@:move\_left\_}{\.{\\moveleft} primitive@> +primitive("moveright", hmove, 0);@/ +@!@:move\_right\_}{\.{\\moveright} primitive@> +primitive("raise", vmove, 1); +@!@:raise\_}{\.{\\raise} primitive@> +primitive("lower", vmove, 0); +@!@:lower\_}{\.{\\lower} primitive@> +@# +primitive("box", make_box, box_code); +@!@:box\_}{\.{\\box} primitive@> +primitive("copy", make_box, copy_code); +@!@:copy\_}{\.{\\copy} primitive@> +primitive("lastbox", make_box, last_box_code); +@!@:last\_box\_}{\.{\\lastbox} primitive@> +primitive("vsplit", make_box, vsplit_code); +@!@:vsplit\_}{\.{\\vsplit} primitive@> +primitive("vtop", make_box, vtop_code);@/ +@!@:vtop\_}{\.{\\vtop} primitive@> +primitive("vbox", make_box, vtop_code+vmode); +@!@:vbox\_}{\.{\\vbox} primitive@> +primitive("hbox", make_box, vtop_code+hmode);@/ +@!@:hbox\_}{\.{\\hbox} primitive@> +primitive("shipout", leader_ship, a_leaders-1); /*|ship_out_flag==leader_flag-1|*/ +@!@:ship\_out\_}{\.{\\shipout} primitive@> +primitive("leaders", leader_ship, a_leaders); +@!@:leaders\_}{\.{\\leaders} primitive@> +primitive("cleaders", leader_ship, c_leaders); +@!@:c\_leaders\_}{\.{\\cleaders} primitive@> +primitive("xleaders", leader_ship, x_leaders); +@!@:x\_leaders\_}{\.{\\xleaders} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case hmove: if (chr_code==1) print_esc("moveleft");@+else print_esc("moveright");@+break; +case vmove: if (chr_code==1) print_esc("raise");@+else print_esc("lower");@+break; +case make_box: switch (chr_code) { + case box_code: print_esc("box");@+break; + case copy_code: print_esc("copy");@+break; + case last_box_code: print_esc("lastbox");@+break; + case vsplit_code: print_esc("vsplit");@+break; + case vtop_code: print_esc("vtop");@+break; + case vtop_code+vmode: print_esc("vbox");@+break; + default:print_esc("hbox"); + } @+break; +case leader_ship: if (chr_code==a_leaders) print_esc("leaders"); + else if (chr_code==c_leaders) print_esc("cleaders"); + else if (chr_code==x_leaders) print_esc("xleaders"); + else print_esc("shipout");@+break; + +@ Constructions that require a box are started by calling |scan_box| with +a specified context code. The |scan_box| routine verifies +that a |make_box| command comes next and then it calls |begin_box|. + +@<Cases of |main_control| that build...@>= +case vmode+hmove: case hmode+vmove: case mmode+vmove: {@+t=cur_chr; + scan_normal_dimen; + if (t==0) scan_box(cur_val);@+else scan_box(-cur_val); + } @+break; +any_mode(leader_ship): scan_box(leader_flag-a_leaders+cur_chr);@+break; +any_mode(make_box): begin_box(0);@+break; + +@ The global variable |cur_box| will point to a newly made box. If the box +is void, we will have |cur_box==null|. Otherwise we will have +|type(cur_box)==hlist_node| or |vlist_node| or |rule_node|; the |rule_node| +case can occur only with leaders. + +@<Glob...@>= +static pointer @!cur_box; /*box to be placed into its context*/ + +@ The |box_end| procedure does the right thing with |cur_box|, if +|box_context| represents the context as explained above. + +@<Declare act...@>= +static void box_end(int @!box_context) +{@+pointer p; /*|ord_noad| for new box in math mode*/ +small_number @!a; /*global prefix*/ +if (box_context < box_flag) @<Append box |cur_box| to the current list, shifted by +|box_context|@>@; +else if (box_context < ship_out_flag) @<Store \(c)|cur_box| in a box register@>@; +else if (cur_box!=null) + if (box_context > ship_out_flag) @<Append a new leader node that uses |cur_box|@>@; + else ship_out(cur_box); +} + +@ The global variable |adjust_tail| will be non-null if and only if the +current box might include adjustments that should be appended to the +current vertical list. + +@<Append box |cur_box| to the current...@>= +{@+if (cur_box!=null) + {@+shift_amount(cur_box)=box_context; + if (abs(mode)==vmode) + {@+append_to_vlist(cur_box); + if (adjust_tail!=null) + {@+if (adjust_head!=adjust_tail) + {@+link(tail)=link(adjust_head);tail=adjust_tail; + } + adjust_tail=null; + } + if (mode > 0) build_page(); + } + else{@+if (abs(mode)==hmode) space_factor=1000; + else{@+p=new_noad(); + math_type(nucleus(p))=sub_box; + info(nucleus(p))=cur_box;cur_box=p; + } + link(tail)=cur_box;tail=cur_box; + } + } +} + +@ @<Store \(c)|cur_box| in a box register@>= +{@+if (box_context < global_box_flag) + {@+cur_val=box_context-box_flag;a=0; + } +else{@+cur_val=box_context-global_box_flag;a=4; + } +if (cur_val < 256) define(box_base+cur_val, box_ref, cur_box); +else sa_def_box; +} + +@ @<Append a new leader node...@>= +{@+@<Get the next non-blank non-relax...@>; +if (((cur_cmd==hskip)&&(abs(mode)!=vmode))||@| + ((cur_cmd==vskip)&&(abs(mode)==vmode))) + {@+append_glue();subtype(tail)=box_context-(leader_flag-a_leaders); + leader_ptr(tail)=cur_box; + } +else{@+print_err("Leaders not followed by proper glue"); +@.Leaders not followed by...@> + help3("You should say `\\leaders <box or rule><hskip or vskip>'.",@/ + "I found the <box or rule>, but there's no suitable",@/ + "<hskip or vskip>, so I'm ignoring these leaders.");back_error(); + flush_node_list(cur_box); + } +} + +@ Now that we can see what eventually happens to boxes, we can consider +the first steps in their creation. The |begin_box| routine is called when +|box_context| is a context specification, |cur_chr| specifies the type of +box desired, and |cur_cmd==make_box|. + +@<Declare act...@>= +static void begin_box(int @!box_context) +{@+ +pointer @!p, @!q; /*run through the current list*/ +int @!m; /*the length of a replacement list*/ +halfword @!k; /*0 or |vmode| or |hmode|*/ +halfword @!n; /*a box number*/ +switch (cur_chr) { +case box_code: {@+scan_register_num();fetch_box(cur_box); + change_box(null); /*the box becomes void, at the same level*/ + } @+break; +case copy_code: {@+scan_register_num();fetch_box(q);cur_box=copy_node_list(q); + } @+break; +case last_box_code: @<If the current list ends with a box node, delete it from the +list and make |cur_box| point to it; otherwise set |cur_box:=null|@>@;@+break; +case vsplit_code: @<Split off part of a vertical box, make |cur_box| point to it@>@;@+break; +default:@<Initiate the construction of an hbox or vbox, then |return|@>@; +} @/ +box_end(box_context); /*in simple cases, we use the box immediately*/ +} + +@ Note that the condition |!is_char_node(tail)| implies that |head!=tail|, +since |head| is a one-word node. + +@<If the current list ends with a box node, delete it...@>= +{@+cur_box=null; +if (abs(mode)==mmode) + {@+you_cant();help1("Sorry; this \\lastbox will be void.");error(); + } +else if ((mode==vmode)&&(head==tail)) + {@+you_cant(); + help2("Sorry...I usually can't take things from the current page.",@/ + "This \\lastbox will therefore be void.");error(); + } +else{@+if (!is_char_node(tail)) + if ((type(tail)==hlist_node)||(type(tail)==vlist_node)) + @<Remove the last box, unless it's part of a discretionary@>; + } +} + +@ @<Remove the last box...@>= +{@+q=head; +@/do@+{p=q; +if (!is_char_node(q)) if (type(q)==disc_node) + {@+for (m=1; m<=replace_count(q); m++) p=link(p); + if (p==tail) goto done; + } +q=link(p); +}@+ while (!(q==tail)); +cur_box=tail;shift_amount(cur_box)=0; +tail=p;link(p)=null; +done: ;} + +@ Here we deal with things like `\.{\\vsplit 13 to 100pt}'. + +@<Split off part of a vertical box, make |cur_box| point to it@>= +{@+scan_register_num();n=cur_val; +if (!scan_keyword("to")) +@.to@> + {@+print_err("Missing `to' inserted"); +@.Missing `to' inserted@> + help2("I'm working on `\\vsplit<box number> to <dimen>';",@/ + "will look for the <dimen> next.");error(); + } +scan_normal_dimen; +cur_box=vsplit(n, cur_val); +} + +@ Here is where we enter restricted horizontal mode or internal vertical +mode, in order to make a box. + +@<Initiate the construction of an hbox or vbox, then |return|@>= +{@+k=cur_chr-vtop_code;saved(0)=box_context; +if (k==hmode) + if ((box_context < box_flag)&&(abs(mode)==vmode)) + scan_spec(adjusted_hbox_group, true); + else scan_spec(hbox_group, true); +else{@+if (k==vmode) scan_spec(vbox_group, true); + else{@+scan_spec(vtop_group, true);k=vmode; + } + normal_paragraph(); + } +push_nest();mode=-k; +if (k==vmode) + {@+prev_depth=ignore_depth; + if (every_vbox!=null) begin_token_list(every_vbox, every_vbox_text); + } +else{@+space_factor=1000; + if (every_hbox!=null) begin_token_list(every_hbox, every_hbox_text); + } +return; +} + +@ @<Declare act...@>= +static void scan_box(int @!box_context) + /*the next input should specify a box or perhaps a rule*/ +{@+@<Get the next non-blank non-relax...@>; +if (cur_cmd==make_box) begin_box(box_context); +else if ((box_context >= leader_flag)&&((cur_cmd==hrule)||(cur_cmd==vrule))) + {@+cur_box=scan_rule_spec();box_end(box_context); + } +else{@+@t@>@;@/ + print_err("A <box> was supposed to be here");@/ +@.A <box> was supposed to...@> + help3("I was expecting to see \\hbox or \\vbox or \\copy or \\box or",@/ + "something like that. So you might find something missing in",@/ + "your output. But keep trying; you can fix this later.");back_error(); + } +} + +@ When the right brace occurs at the end of an \.{\\hbox} or \.{\\vbox} or +\.{\\vtop} construction, the |package| routine comes into action. We might +also have to finish a paragraph that hasn't ended. + +@<Cases of |handle...@>= +case hbox_group: package(0);@+break; +case adjusted_hbox_group: {@+adjust_tail=adjust_head;package(0); + } @+break; +case vbox_group: {@+end_graf();package(0); + } @+break; +case vtop_group: {@+end_graf();package(vtop_code); + } @+break; + +@ @<Declare action...@>= +static void package(small_number @!c) +{@+scaled h; /*height of box*/ +pointer @!p; /*first node in a box*/ +scaled @!d; /*max depth*/ +d=box_max_depth;unsave();save_ptr=save_ptr-3; +if (mode==-hmode) cur_box=hpack(link(head), saved(2), saved_hfactor(2), saved_vfactor(2), saved(1)); +else{@+cur_box=vpackage(link(head), saved(2), saved_hfactor(2), saved_vfactor(2), saved(1), d); + if (c==vtop_code) @<Readjust the height and depth of |cur_box|, for \.{\\vtop}@>; + } +pop_nest();box_end(saved(0)); +} + +@ The height of a `\.{\\vtop}' box is inherited from the first item on its list, +if that item is an |hlist_node|, |vlist_node|, or |rule_node|; otherwise +the \.{\\vtop} height is zero. + + +@<Readjust the height...@>= +{@+h=0;p=list_ptr(cur_box); +if (p!=null) if (type(p) <= rule_node) h=height(p); +depth(cur_box)=depth(cur_box)-h+height(cur_box);height(cur_box)=h; +} + +@ A paragraph begins when horizontal-mode material occurs in vertical mode, +or when the paragraph is explicitly started by `\.{\\indent}' or +`\.{\\noindent}'. + +@<Put each...@>= +primitive("indent", start_par, 1); +@!@:indent\_}{\.{\\indent} primitive@> +primitive("noindent", start_par, 0); +@!@:no\_indent\_}{\.{\\noindent} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case start_par: if (chr_code==0) print_esc("noindent");@+else print_esc("indent");@+break; + +@ @<Cases of |main_control| that build...@>= +case vmode+start_par: new_graf(cur_chr > 0);@+break; +case vmode+letter: case vmode+other_char: case vmode+char_num: case vmode+char_given: + case vmode+math_shift: case vmode+un_hbox: case vmode+vrule: + case vmode+accent: case vmode+discretionary: case vmode+hskip: case vmode+valign: + case vmode+ex_space: case vmode+no_boundary: @t@>@;@/ + {@+back_input();new_graf(true); + } @+break; + +@ @<Declare act...@>= +static small_number norm_min(int @!h) +{@+if (h <= 0) return 1;@+else if (h >= 63) return 63;@+ +else return h; +} +@# +static void new_graf(bool @!indented) +{@+prev_graf=0; +if ((mode==vmode)||(head!=tail)) + tail_append(new_param_glue(par_skip_code)); +push_nest();mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; +prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) + *0200000+cur_lang; +if (indented) + {@+tail=new_null_box();link(head)=tail;width(tail)=par_indent;@+ + } +if (every_par!=null) begin_token_list(every_par, every_par_text); +if (nest_ptr==1) build_page(); /*put |par_skip| glue on current page*/ +} + +@ @<Cases of |main_control| that build...@>= +case hmode+start_par: case mmode+start_par: indent_in_hmode();@+break; + +@ @<Declare act...@>= +static void indent_in_hmode(void) +{@+pointer p, @!q; +if (cur_chr > 0) /*\.{\\indent}*/ + {@+p=new_null_box();width(p)=par_indent; + if (abs(mode)==hmode) space_factor=1000; + else{@+q=new_noad();math_type(nucleus(q))=sub_box; + info(nucleus(q))=p;p=q; + } + tail_append(p); + } +} + +@ A paragraph ends when a |par_end| command is sensed, or when we are in +horizontal mode when reaching the right brace of vertical-mode routines +like \.{\\vbox}, \.{\\insert}, or \.{\\output}. + +@<Cases of |main_control| that build...@>= +case vmode+par_end: {@+normal_paragraph(); + if (mode > 0) build_page(); + } @+break; +case hmode+par_end: {@+if (align_state < 0) off_save(); /*this tries to + recover from an alignment that didn't end properly*/ + end_graf(); /*this takes us to the enclosing mode, if |mode > 0|*/ + if (mode==vmode) build_page(); + } @+break; +case hmode+stop: case hmode+vskip: case hmode+hrule: case hmode+un_vbox: case hmode+halign: head_for_vmode();@+break; + +@ @<Declare act...@>= +static void head_for_vmode(void) +{@+if (mode < 0) + if (cur_cmd!=hrule) off_save(); + else{@+print_err("You can't use `"); + print_esc("hrule");print("' here except with leaders"); +@.You can't use \\hrule...@> + help2("To put a horizontal rule in an hbox or an alignment,",@/ + "you should use \\leaders or \\hrulefill (see The TeXbook)."); + error(); + } +else{@+back_input();cur_tok=par_token;back_input();token_type=inserted; + } +} + +@ @<Declare act...@>= +static void end_graf(void) +{@+if (mode==hmode) + {@+if (head==tail) pop_nest(); /*null paragraphs are ignored*/ + else hline_break(widow_penalty); + normal_paragraph(); + error_count=0; + } +} + +@ Insertion and adjustment and mark nodes are constructed by the following +pieces of the program. + +@<Cases of |main_control| that build...@>= +any_mode(insert): case hmode+vadjust: case mmode+vadjust: begin_insert_or_adjust();@+break; +any_mode(mark): make_mark();@+break; + +@ @<Forbidden...@>= +case vmode+vadjust: + +@ @<Declare act...@>= +static void begin_insert_or_adjust(void) +{@+if (cur_cmd==vadjust) cur_val=255; +else{@+scan_eight_bit_int(); + if (cur_val==255) + {@+print_err("You can't ");print_esc("insert");print_int(255); +@.You can't \\insert255@> + help1("I'm changing to \\insert0; box 255 is special."); + error();cur_val=0; + } + } +saved(0)=cur_val;incr(save_ptr); +new_save_level(insert_group);scan_left_brace();normal_paragraph(); +push_nest();mode=-vmode;prev_depth=ignore_depth; +} + +@ @<Cases of |handle...@>= +case insert_group: {@+end_graf();q=split_top_skip;add_glue_ref(q); + d=split_max_depth;f=floating_penalty;unsave();decr(save_ptr); + /*now |saved(0)| is the insertion number, or 255 for |vadjust|*/ + p=link(head);pop_nest(); + if (saved(0) < 255) + {@+tail_append(get_node(ins_node_size)); + type(tail)=ins_node;subtype(tail)=qi(saved(0)); + height(tail)=0; ins_ptr(tail)=p; hget_stream_no(subtype(tail)); + split_top_ptr(tail)=q;depth(tail)=d;float_cost(tail)=f; + } + else{@+tail_append(get_node(small_node_size)); + type(tail)=adjust_node;@/ + subtype(tail)=0; /*the |subtype| is not used*/ + adjust_ptr(tail)=p;delete_glue_ref(q); + } + if (nest_ptr==0) build_page(); + } @+break; +case output_group: @<Resume the page builder...@>@;@+break; +case page_group: hfinish_page_group();@+break; +case stream_group: hfinish_stream_group();@+break; +case stream_before_group: hfinish_stream_before_group();@+break; +case stream_after_group: hfinish_stream_after_group();@+break; +case outline_group: hfinish_outline_group();@+break; + +@ @<Declare act...@>= +static void make_mark(void) +{@+pointer p; /*new node*/ +p=scan_toks(false, true);p=get_node(small_node_size); +type(p)=mark_node;subtype(p)=0; /*the |subtype| is not used*/ +mark_ptr(p)=def_ref;link(tail)=p;tail=p; +} + +@ Penalty nodes get into a list via the |break_penalty| command. +@^penalties@> + +@<Cases of |main_control| that build...@>= +any_mode(break_penalty): append_penalty();@+break; + +@ @<Declare action...@>= +static void append_penalty(void) +{@+scan_int();tail_append(new_penalty(cur_val)); +if (mode==vmode) build_page(); +} + +@ The |remove_item| command removes a penalty, kern, or glue node if it +appears at the tail of the current list, using a brute-force linear scan. +Like \.{\\lastbox}, this command is not allowed in vertical mode (except +internal vertical mode), since the current list in vertical mode is sent +to the page builder. But if we happen to be able to implement it in +vertical mode, we do. + +@<Cases of |main_control| that build...@>= +any_mode(remove_item): delete_last();@+break; + +@ When |delete_last| is called, |cur_chr| is the |type| of node that +will be deleted, if present. + +@<Declare action...@>= +static void delete_last(void) +{@+ +pointer @!p, @!q; /*run through the current list*/ +int @!m; /*the length of a replacement list*/ +if ((mode==vmode)&&(tail==head)) + @<Apologize for inability to do the operation now, unless \.{\\unskip} follows non-glue@>@; +else{@+if (!is_char_node(tail)) if (type(tail)==cur_chr) + {@+q=head; + @/do@+{p=q; + if (!is_char_node(q)) if (type(q)==disc_node) + {@+for (m=1; m<=replace_count(q); m++) p=link(p); + if (p==tail) return; + } + q=link(p); + }@+ while (!(q==tail)); + link(p)=null;flush_node_list(tail);tail=p; + } + } +} + +@ @<Apologize for inability to do the operation...@>= +{@+if ((cur_chr!=glue_node)||(last_glue!=max_halfword)) + {@+you_cant(); + help2("Sorry...I usually can't take things from the current page.",@/ + "Try `I\\vskip-\\lastskip' instead."); + if (cur_chr==kern_node) help_line[0]= + ("Try `I\\kern-\\lastkern' instead."); + else if (cur_chr!=glue_node) help_line[0]=@| + ("Perhaps you can make the output routine do it."); + error(); + } +} + +@ @<Put each...@>= +primitive("unpenalty", remove_item, penalty_node);@/ +@!@:un\_penalty\_}{\.{\\unpenalty} primitive@> +primitive("unkern", remove_item, kern_node);@/ +@!@:un\_kern\_}{\.{\\unkern} primitive@> +primitive("unskip", remove_item, glue_node);@/ +@!@:un\_skip\_}{\.{\\unskip} primitive@> +primitive("unhbox", un_hbox, box_code);@/ +@!@:un\_hbox\_}{\.{\\unhbox} primitive@> +primitive("unhcopy", un_hbox, copy_code);@/ +@!@:un\_hcopy\_}{\.{\\unhcopy} primitive@> +primitive("unvbox", un_vbox, box_code);@/ +@!@:un\_vbox\_}{\.{\\unvbox} primitive@> +primitive("unvcopy", un_vbox, copy_code);@/ +@!@:un\_vcopy\_}{\.{\\unvcopy} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case remove_item: if (chr_code==glue_node) print_esc("unskip"); + else if (chr_code==kern_node) print_esc("unkern"); + else print_esc("unpenalty");@+break; +case un_hbox: if (chr_code==copy_code) print_esc("unhcopy"); + else print_esc("unhbox");@+break; +case un_vbox: if (chr_code==copy_code) print_esc("unvcopy") + @<Cases of |un_vbox| for |print_cmd_chr|@>;@/ + else print_esc("unvbox");@+break; + +@ The |un_hbox| and |un_vbox| commands unwrap one of the 256 current boxes. + +@<Cases of |main_control| that build...@>= +case vmode+un_vbox: case hmode+un_hbox: case mmode+un_hbox: unpackage();@+break; + +@ @<Declare act...@>= +static void unpackage(void) +{@+ +pointer p; /*the box*/ +int @!c; /*should we copy?*/ +if (cur_chr > copy_code) @<Handle saved items and |goto done|@>; +c=cur_chr;scan_register_num();fetch_box(p); +if (p==null) return; +if ((abs(mode)==mmode)||@| + ((abs(mode)==vmode)&& (type(p)!=vlist_node) + && (type(p)!=whatsit_node || (subtype(p)!=vset_node + && subtype(p)!=vpack_node))) ||@| + ((abs(mode)==hmode)&& (type(p)!=hlist_node) + && (type(p)!=whatsit_node || ( subtype(p)!=hset_node + && subtype(p)!=hpack_node)))) + {@+print_err("Incompatible list can't be unboxed"); +@.Incompatible list...@> + help3("Sorry, Pandora. (You sneaky devil.)",@/ + "I refuse to unbox an \\hbox in vertical mode or vice versa.",@/ + "And I can't open any boxes in math mode.");@/ + error();return; + } +if (c==copy_code) link(tail)=copy_node_list(list_ptr(p)); +else{@+link(tail)=list_ptr(p);change_box(null); + list_ptr(p)=null;flush_node_list(p); + } +done: +while (link(tail)!=null) tail=link(tail); +} + +@ @<Forbidden...@>=case vmode+ital_corr: + +@ Italic corrections are converted to kern nodes when the |ital_corr| command +follows a character. In math mode the same effect is achieved by appending +a kern of zero here, since italic corrections are supplied later. + +@<Cases of |main_control| that build...@>= +case hmode+ital_corr: append_italic_correction();@+break; +case mmode+ital_corr: tail_append(new_kern(0))@;@+break; + +@ @<Declare act...@>= +static void append_italic_correction(void) +{@+ +pointer p; /*|char_node| at the tail of the current list*/ +internal_font_number @!f; /*the font in the |char_node|*/ +if (tail!=head) + {@+if (is_char_node(tail)) p=tail; + else if (type(tail)==ligature_node) p=lig_char(tail); + else return; + f=font(p); + tail_append(new_kern(char_italic(f, char_info(f, character(p))))); + subtype(tail)=explicit; + } +} + +@ Discretionary nodes are easy in the common case `\.{\\-}', but in the +general case we must process three braces full of items. + +@<Put each...@>= +primitive("-", discretionary, 1); +@!@:Single-character primitives -}{\quad\.{\\-}@> +primitive("discretionary", discretionary, 0); +@!@:discretionary\_}{\.{\\discretionary} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case discretionary: if (chr_code==1) + print_esc("-");@+else print_esc("discretionary");@+break; + +@ @<Cases of |main_control| that build...@>= +case hmode+discretionary: case mmode+discretionary: append_discretionary();@+break; + +@ The space factor does not change when we append a discretionary node, +but it starts out as 1000 in the subsidiary lists. + +@<Declare act...@>= +static void append_discretionary(void) +{@+int c; /*hyphen character*/ +tail_append(new_disc()); +if (cur_chr==1) + {@+c=hyphen_char[cur_font]; + if (c >= 0) if (c < 256) pre_break(tail)=new_character(cur_font, c); + } +else{@+incr(save_ptr);saved(-1)=0;new_save_level(disc_group); + scan_left_brace();push_nest();mode=-hmode;space_factor=1000; + } +} + +@ The three discretionary lists are constructed somewhat as if they were +hboxes. A~subroutine called |build_discretionary| handles the transitions. +(This is sort of fun.) + +@<Cases of |handle...@>= +case disc_group: build_discretionary();@+break; + +@ @<Declare act...@>= +static void build_discretionary(void) +{@+ +pointer p, @!q; /*for link manipulation*/ +int @!n; /*length of discretionary list*/ +unsave(); +@<Prune the current list, if necessary, until it contains only |char_node|, |kern_node|, +|hlist_node|, |vlist_node|, |rule_node|, and |ligature_node| items; set |n| to the +length of the list, and set |q| to the list's tail@>; +p=link(head);pop_nest(); +switch (saved(-1)) { +case 0: pre_break(tail)=p;@+break; +case 1: post_break(tail)=p;@+break; +case 2: @<Attach list |p| to the current list, and record its length; then finish +up and |return|@>; +} /*there are no other cases*/ +incr(saved(-1));new_save_level(disc_group);scan_left_brace(); +push_nest();mode=-hmode;space_factor=1000; +} + +@ @<Attach list |p| to the current...@>= +{@+if ((n > 0)&&(abs(mode)==mmode)) + {@+print_err("Illegal math ");print_esc("discretionary"); +@.Illegal math \\disc...@> + help2("Sorry: The third part of a discretionary break must be",@/ + "empty, in math formulas. I had to delete your third part."); + flush_node_list(p);n=0;error(); + } +else link(tail)=p; +if (n <= 0x7F) set_replace_count(tail,n); +else{@+print_err("Discretionary list is too long"); +@.Discretionary list is too long@> + help2("Wow---I never thought anybody would tweak me here.",@/ + "You can't seriously need such a huge discretionary list?"); + error(); + } +if (n > 0) tail=q; +decr(save_ptr);return; +} + +@ During this loop, |p==link(q)| and there are |n| items preceding |p|. + +@<Prune the current list, if necessary...@>= +q=head;p=link(q);n=0; +while (p!=null) + {@+if (!is_char_node(p)) if (type(p) > rule_node) + if (type(p)!=kern_node) if (type(p)!=ligature_node) + {@+print_err("Improper discretionary list"); +@.Improper discretionary list@> + help1("Discretionary lists must contain only boxes and kerns.");@/ + error(); + begin_diagnostic(); + print_nl("The following discretionary sublist has been deleted:"); +@.The following...deleted@> + show_box(p); + end_diagnostic(true); + flush_node_list(p);link(q)=null;goto done; + } + q=p;p=link(q);incr(n); + } +done: + +@ We need only one more thing to complete the horizontal mode routines, namely +the \.{\\accent} primitive. + +@<Cases of |main_control| that build...@>= +case hmode+accent: make_accent();@+break; + +@ The positioning of accents is straightforward but tedious. Given an accent +of width |a|, designed for characters of height |x| and slant |s|; +and given a character of width |w|, height |h|, and slant |t|: We will shift +the accent down by |x-h|, and we will insert kern nodes that have the effect of +centering the accent over the character and shifting the accent to the +right by $\delta={1\over2}(w-a)+h\cdot t-x\cdot s$. If either character is +absent from the font, we will simply use the other, without shifting. + +@<Declare act...@>= +static void make_accent(void) +{@+double s, @!t; /*amount of slant*/ +pointer @!p, @!q, @!r; /*character, box, and kern nodes*/ +internal_font_number @!f; /*relevant font*/ +scaled @!a, @!h, @!x, @!w, @!delta; /*heights and widths, as explained above*/ +four_quarters @!i; /*character information*/ +scan_char_num();f=cur_font;p=new_character(f, cur_val); +if (p!=null) + {@+x=x_height(f);s=slant(f)/float_constant(65536); +@^real division@> + a=char_width(f, char_info(f, character(p)));@/ + do_assignments();@/ + @<Create a character node |q| for the next character, but set |q:=null| if problems +arise@>; + if (q!=null) @<Append the accent with appropriate kerns, then set |p:=q|@>; + link(tail)=p;tail=p;space_factor=1000; + } +} + +@ @<Create a character node |q| for the next...@>= +q=null;f=cur_font; +if ((cur_cmd==letter)||(cur_cmd==other_char)||(cur_cmd==char_given)) + q=new_character(f, cur_chr); +else if (cur_cmd==char_num) + {@+scan_char_num();q=new_character(f, cur_val); + } +else back_input() + +@ The kern nodes appended here must be distinguished from other kerns, lest +they be wiped away by the hyphenation algorithm or by a previous line break. + +The two kerns are computed with (machine-dependent) |double| arithmetic, but +their sum is machine-independent; the net effect is machine-independent, +because the user cannot remove these nodes nor access them via \.{\\lastkern}. + +@<Append the accent with appropriate kerns...@>= +{@+t=slant(f)/float_constant(65536); +@^real division@> +i=char_info(f, character(q)); +w=char_width(f, i);h=char_height(f, height_depth(i)); +if (h!=x) /*the accent must be shifted up or down*/ + {@+p=hpack(p, natural);shift_amount(p)=x-h; + } +delta=round((w-a)/float_constant(2)+h*t-x*s); +@^real multiplication@> +@^real addition@> +r=new_kern(delta);subtype(r)=acc_kern;link(tail)=r;link(r)=p; +tail=new_kern(-a-delta);subtype(tail)=acc_kern;link(p)=tail;p=q; +} + +@ When `\.{\\cr}' or `\.{\\span}' or a tab mark comes through the scanner +into |main_control|, it might be that the user has foolishly inserted +one of them into something that has nothing to do with alignment. But it is +far more likely that a left brace or right brace has been omitted, since +|get_next| takes actions appropriate to alignment only when `\.{\\cr}' +or `\.{\\span}' or tab marks occur with |align_state==0|. The following +program attempts to make an appropriate recovery. + +@<Cases of |main_control| that build...@>= +any_mode(car_ret): any_mode(tab_mark): align_error();@+break; +any_mode(no_align): no_align_error();@+break; +any_mode(omit): omit_error();@+break; + +@ @<Declare act...@>= +static void align_error(void) +{@+if (abs(align_state) > 2) + @<Express consternation over the fact that no alignment is in progress@>@; +else{@+back_input(); + if (align_state < 0) + {@+print_err("Missing { inserted"); +@.Missing \{ inserted@> + incr(align_state);cur_tok=left_brace_token+'{'; + } + else{@+print_err("Missing } inserted"); +@.Missing \} inserted@> + decr(align_state);cur_tok=right_brace_token+'}'; + } + help3("I've put in what seems to be necessary to fix",@/ + "the current column of the current alignment.",@/ + "Try to go on, since this might almost work.");ins_error(); + } +} + +@ @<Express consternation...@>= +{@+print_err("Misplaced ");print_cmd_chr(cur_cmd, cur_chr); +@.Misplaced \&@> +@.Misplaced \\span@> +@.Misplaced \\cr@> +if (cur_tok==tab_token+'&') + {@+help6("I can't figure out why you would want to use a tab mark",@/ + "here. If you just want an ampersand, the remedy is",@/ + "simple: Just type `I\\&' now. But if some right brace",@/ + "up above has ended a previous alignment prematurely,",@/ + "you're probably due for more error messages, and you",@/ + "might try typing `S' now just to see what is salvageable."); + } +else{@+help5("I can't figure out why you would want to use a tab mark",@/ + "or \\cr or \\span just now. If something like a right brace",@/ + "up above has ended a previous alignment prematurely,",@/ + "you're probably due for more error messages, and you",@/ + "might try typing `S' now just to see what is salvageable."); + } +error(); +} + +@ The help messages here contain a little white lie, since \.{\\noalign} +and \.{\\omit} are allowed also after `\.{\\noalign\{...\}}'. + +@<Declare act...@>= +static void no_align_error(void) +{@+print_err("Misplaced ");print_esc("noalign"); +@.Misplaced \\noalign@> +help2("I expect to see \\noalign only after the \\cr of",@/ + "an alignment. Proceed, and I'll ignore this case.");error(); +} +static void omit_error(void) +{@+print_err("Misplaced ");print_esc("omit"); +@.Misplaced \\omit@> +help2("I expect to see \\omit only after tab marks or the \\cr of",@/ + "an alignment. Proceed, and I'll ignore this case.");error(); +} + +@ We've now covered most of the abuses of \.{\\halign} and \.{\\valign}. +Let's take a look at what happens when they are used correctly. + +@<Cases of |main_control| that build...@>= +case vmode+halign: case hmode+valign: init_align();@+break; +case mmode+halign: if (privileged()) + if (cur_group==math_shift_group) init_align(); + else off_save();@+break; +case vmode+endv: case hmode+endv: do_endv();@+break; + +@ An |align_group| code is supposed to remain on the |save_stack| +during an entire alignment, until |fin_align| removes it. + +A devious user might force an |endv| command to occur just about anywhere; +we must defeat such hacks. + +@<Declare act...@>= +static void do_endv(void) +{@+base_ptr=input_ptr;input_stack[base_ptr]=cur_input; +while ((input_stack[base_ptr].index_field!=v_template)&& + (input_stack[base_ptr].loc_field==null)&& + (input_stack[base_ptr].state_field==token_list)) decr(base_ptr); +if ((input_stack[base_ptr].index_field!=v_template)|| + (input_stack[base_ptr].loc_field!=null)|| + (input_stack[base_ptr].state_field!=token_list)) + fatal_error("(interwoven alignment preambles are not allowed)"); +@.interwoven alignment preambles...@> + if (cur_group==align_group) + {@+end_graf(); + if (fin_col()) fin_row(); + } +else off_save(); +} + +@ @<Cases of |handle_right_brace|...@>= +case align_group: {@+back_input();cur_tok=cs_token_flag+frozen_cr; + print_err("Missing ");print_esc("cr");print(" inserted"); +@.Missing \\cr inserted@> + help1("I'm guessing that you meant to end an alignment here."); + ins_error(); + } @+break; + +@ @<Cases of |handle_right_brace|...@>= +case no_align_group: {@+end_graf();unsave();align_peek(); + } @+break; + +@ Finally, \.{\\endcsname} is not supposed to get through to |main_control|. + +@<Cases of |main_control| that build...@>= +any_mode(end_cs_name): cs_error();@+break; + +@ @<Declare act...@>= +static void cs_error(void) +{@+print_err("Extra ");print_esc("endcsname"); +@.Extra \\endcsname@> +help1("I'm ignoring this, since I wasn't doing a \\csname."); +error(); +} + +@* Building math lists. +The routines that \TeX\ uses to create mlists are similar to those we have +just seen for the generation of hlists and vlists. But it is necessary to +make ``noads'' as well as nodes, so the reader should review the +discussion of math mode data structures before trying to make sense out of +the following program. + +Here is a little routine that needs to be done whenever a subformula +is about to be processed. The parameter is a code like |math_group|. + +@<Declare act...@>= +static void push_math(group_code @!c) +{@+push_nest();mode=-mmode;incompleat_noad=null;new_save_level(c); +} + +@ We get into math mode from horizontal mode when a `\.\$' (i.e., a +|math_shift| character) is scanned. We must check to see whether this +`\.\$' is immediately followed by another, in case display math mode is +called for. + +@<Cases of |main_control| that build...@>= +case hmode+math_shift: init_math();@+break; + +@ @<Declare act...@>= +static void init_math(void) +{@+ +scaled w; /*new or partial |pre_display_size|*/ +scaled @!l; /*new |display_width|*/ +scaled @!s; /*new |display_indent|*/ +pointer @!p; /*current node when calculating |pre_display_size|*/ +pointer @!q; /*glue specification when calculating |pre_display_size|*/ +internal_font_number @!f; /*font in current |char_node|*/ +int @!n; /*scope of paragraph shape specification*/ +scaled @!v; /*|w| plus possible glue amount*/ +scaled @!d; /*increment to |v|*/ +get_token(); /*|get_x_token| would fail on \.{\\ifmmode}\thinspace!*/ +if ((cur_cmd==math_shift)&&(mode > 0)) @<Go into display math mode@>@; +else{@+back_input();@<Go into ordinary math mode@>; + } +} + +@ @<Go into ordinary math mode@>= +{@+push_math(math_shift_group);eq_word_define(int_base+cur_fam_code,-1); +if (every_math!=null) begin_token_list(every_math, every_math_text); +} + +@ We get into ordinary math mode from display math mode when `\.{\\eqno}' or +`\.{\\leqno}' appears. In such cases |cur_chr| will be 0 or~1, respectively; +the value of |cur_chr| is placed onto |save_stack| for safe keeping. + +@<Cases of |main_control| that build...@>= +case mmode+eq_no: if (privileged()) + if (cur_group==math_shift_group) start_eq_no(); + else off_save();@+break; + +@ @<Put each...@>= +primitive("eqno", eq_no, 0); +@!@:eq\_no\_}{\.{\\eqno} primitive@> +primitive("leqno", eq_no, 1); +@!@:leq\_no\_}{\.{\\leqno} primitive@> + +@ When \TeX\ is in display math mode, |cur_group==math_shift_group|, +so it is not necessary for the |start_eq_no| procedure to test for +this condition. + +@<Declare act...@>= +static void start_eq_no(void) +{@+saved(0)=cur_chr;incr(save_ptr); +@<Go into ordinary math mode@>; +} + +@ @<Cases of |print_cmd_chr|...@>= +case eq_no: if (chr_code==1) print_esc("leqno");@+else print_esc("eqno");@+break; + +@ @<Forbidden...@>=non_math(eq_no): + +@ When we enter display math mode, we need to call |line_break| to +process the partial paragraph that has just been interrupted by the +display. Then we can set the proper values of |display_width| and +|display_indent| and |pre_display_size|. + +@<Go into display math mode@>= +{ if (head!=tail && !(type(tail)==whatsit_node && subtype(tail)==disp_node)) + { if (is_char_node(tail)) tail_append(new_penalty(inf_penalty))@; + else if (type(tail)!=glue_node) tail_append(new_penalty(inf_penalty))@; + else + {@+type(tail)=penalty_node;delete_glue_ref(glue_ptr(tail)); + flush_node_list(leader_ptr(tail));penalty(tail)=inf_penalty; + } + tail_append(new_param_glue(par_fill_skip_code)); + } +push_math(math_shift_group);mode=mmode; +eq_word_define(int_base+cur_fam_code,-1);@/ +if (every_display!=null) begin_token_list(every_display, every_display_text); +} + +@ @<Calculate the natural width, |w|, by which...@>= +v=shift_amount(just_box)+2*quad(cur_font);w=-max_dimen; +p=list_ptr(just_box); +while (p!=null) + {@+@<Let |d| be the natural width of node |p|; if the node is ``visible,'' |goto +found|; if the node is glue that stretches or shrinks, set |v:=max_dimen|@>; + if (v < max_dimen) v=v+d; + goto not_found; + found: if (v < max_dimen) + {@+v=v+d;w=v; + } + else{@+w=max_dimen;goto done; + } + not_found: p=link(p); + } +done: + +@ @<Let |d| be the natural width of node |p|...@>= +reswitch: if (is_char_node(p)) + {@+f=font(p);d=char_width(f, char_info(f, character(p))); + goto found; + } +switch (type(p)) { +case hlist_node: case vlist_node: case rule_node: {@+d=width(p);goto found; + } +case ligature_node: @<Make node |p| look like a |char_node|...@>@; +case kern_node: case math_node: d=width(p);@+break; +case glue_node: @<Let |d| be the natural width of this glue; if stretching or shrinking, +set |v:=max_dimen|; |goto found| in the case of leaders@>@;@+break; +case whatsit_node: @<Let |d| be the width of the whatsit |p|@>;@+break; +default:d=0; +} + +@ We need to be careful that |w|, |v|, and |d| do not depend on any |glue_set| +values, since such values are subject to system-dependent rounding. +System-dependent numbers are not allowed to infiltrate parameters like +|pre_display_size|, since \TeX82 is supposed to make the same decisions on all +machines. + +@<Let |d| be the natural width of this glue...@>= +{@+q=glue_ptr(p);d=width(q); +if (glue_sign(just_box)==stretching) + {@+if ((glue_order(just_box)==stretch_order(q))&&@| + (stretch(q)!=0)) + v=max_dimen; + } +else if (glue_sign(just_box)==shrinking) + {@+if ((glue_order(just_box)==shrink_order(q))&&@| + (shrink(q)!=0)) + v=max_dimen; + } +if (subtype(p) >= a_leaders) goto found; +} + +@ A displayed equation is considered to be three lines long, so we +calculate the length and offset of line number |prev_graf+2|. + +@<Calculate the length, |l|,...@>= +if (par_shape_ptr==null) + if ((hang_indent!=0)&&@| + (((hang_after >= 0)&&(prev_graf+2 > hang_after))||@| + (prev_graf+1 < -hang_after))) + {@+l=hsize-abs(hang_indent); + if (hang_indent > 0) s=hang_indent;@+else s=0; + } + else{@+l=hsize;s=0; + } +else{@+n=info(par_shape_ptr); + if (prev_graf+2 >= n) p=par_shape_ptr+2*n; + else p=par_shape_ptr+2*(prev_graf+2); + s=mem[p-1].sc;l=mem[p].sc; + } + +@ Subformulas of math formulas cause a new level of math mode to be entered, +on the semantic nest as well as the save stack. These subformulas arise in +several ways: (1)~A left brace by itself indicates the beginning of a +subformula that will be put into a box, thereby freezing its glue and +preventing line breaks. (2)~A subscript or superscript is treated as a +subformula if it is not a single character; the same applies to +the nucleus of things like \.{\\underline}. (3)~The \.{\\left} primitive +initiates a subformula that will be terminated by a matching \.{\\right}. +The group codes placed on |save_stack| in these three cases are +|math_group|, |math_group|, and |math_left_group|, respectively. + +Here is the code that handles case (1); the other cases are not quite as +trivial, so we shall consider them later. + +@<Cases of |main_control| that build...@>= +case mmode+left_brace: {@+tail_append(new_noad()); + back_input();scan_math(nucleus(tail)); + } @+break; + +@ Recall that the |nucleus|, |subscr|, and |supscr| fields in a noad are +broken down into subfields called |math_type| and either |info| or +|(fam, character)|. The job of |scan_math| is to figure out what to place +in one of these principal fields; it looks at the subformula that +comes next in the input, and places an encoding of that subformula +into a given word of |mem|. + +@d fam_in_range ((cur_fam >= 0)&&(cur_fam < 16)) + +@<Declare act...@>= +static void scan_math(pointer @!p) +{@+ +int c; /*math character code*/ +restart: @<Get the next non-blank non-relax...@>; +reswitch: switch (cur_cmd) { +case letter: case other_char: case char_given: {@+c=ho(math_code(cur_chr)); + if (c==0100000) + {@+@<Treat |cur_chr| as an active character@>; + goto restart; + } + } @+break; +case char_num: {@+scan_char_num();cur_chr=cur_val;cur_cmd=char_given; + goto reswitch; + } +case math_char_num: {@+scan_fifteen_bit_int();c=cur_val; + } @+break; +case math_given: c=cur_chr;@+break; +case delim_num: {@+scan_twenty_seven_bit_int();c=cur_val/010000; + } @+break; +default:@<Scan a subformula enclosed in braces and |return|@>@; +} @/ +math_type(p)=math_char;character(p)=qi(c%256); +if ((c >= var_code)&&fam_in_range) fam(p)=cur_fam; +else fam(p)=(c/256)%16; +} + +@ An active character that is an |outer_call| is allowed here. + +@<Treat |cur_chr|...@>= +{@+cur_cs=cur_chr+active_base; +cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); +x_token();back_input(); +} + +@ The pointer |p| is placed on |save_stack| while a complex subformula +is being scanned. + +@<Scan a subformula...@>= +{@+back_input();scan_left_brace();@/ +saved(0)=p;incr(save_ptr);push_math(math_group);return; +} + +@ The simplest math formula is, of course, `\.{\${ }\$}', when no noads are +generated. The next simplest cases involve a single character, e.g., +`\.{\$x\$}'. Even though such cases may not seem to be very interesting, +the reader can perhaps understand how happy the author was when `\.{\$x\$}' +was first properly typeset by \TeX. The code in this section was used. +@^Knuth, Donald Ervin@> + +@<Cases of |main_control| that build...@>= +case mmode+letter: case mmode+other_char: case mmode+char_given: + set_math_char(ho(math_code(cur_chr)));@+break; +case mmode+char_num: {@+scan_char_num();cur_chr=cur_val; + set_math_char(ho(math_code(cur_chr))); + } @+break; +case mmode+math_char_num: {@+scan_fifteen_bit_int();set_math_char(cur_val); + } @+break; +case mmode+math_given: set_math_char(cur_chr);@+break; +case mmode+delim_num: {@+scan_twenty_seven_bit_int(); + set_math_char(cur_val/010000); + } @+break; + +@ The |set_math_char| procedure creates a new noad appropriate to a given +math code, and appends it to the current mlist. However, if the math code +is sufficiently large, the |cur_chr| is treated as an active character and +nothing is appended. + +@<Declare act...@>= +static void set_math_char(int @!c) +{@+pointer p; /*the new noad*/ +if (c >= 0100000) + @<Treat |cur_chr|...@>@; +else{@+p=new_noad();math_type(nucleus(p))=math_char; + character(nucleus(p))=qi(c%256); + fam(nucleus(p))=(c/256)%16; + if (c >= var_code) + {@+if (fam_in_range) fam(nucleus(p))=cur_fam; + type(p)=ord_noad; + } + else type(p)=ord_noad+(c/010000); + link(tail)=p;tail=p; + } +} + +@ Primitive math operators like \.{\\mathop} and \.{\\underline} are given +the command code |math_comp|, supplemented by the noad type that they +generate. + +@<Put each...@>= +primitive("mathord", math_comp, ord_noad); +@!@:math\_ord\_}{\.{\\mathord} primitive@> +primitive("mathop", math_comp, op_noad); +@!@:math\_op\_}{\.{\\mathop} primitive@> +primitive("mathbin", math_comp, bin_noad); +@!@:math\_bin\_}{\.{\\mathbin} primitive@> +primitive("mathrel", math_comp, rel_noad); +@!@:math\_rel\_}{\.{\\mathrel} primitive@> +primitive("mathopen", math_comp, open_noad); +@!@:math\_open\_}{\.{\\mathopen} primitive@> +primitive("mathclose", math_comp, close_noad); +@!@:math\_close\_}{\.{\\mathclose} primitive@> +primitive("mathpunct", math_comp, punct_noad); +@!@:math\_punct\_}{\.{\\mathpunct} primitive@> +primitive("mathinner", math_comp, inner_noad); +@!@:math\_inner\_}{\.{\\mathinner} primitive@> +primitive("underline", math_comp, under_noad); +@!@:underline\_}{\.{\\underline} primitive@> +primitive("overline", math_comp, over_noad);@/ +@!@:overline\_}{\.{\\overline} primitive@> +primitive("displaylimits", limit_switch, normal); +@!@:display\_limits\_}{\.{\\displaylimits} primitive@> +primitive("limits", limit_switch, limits); +@!@:limits\_}{\.{\\limits} primitive@> +primitive("nolimits", limit_switch, no_limits); +@!@:no\_limits\_}{\.{\\nolimits} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case math_comp: switch (chr_code) { + case ord_noad: print_esc("mathord");@+break; + case op_noad: print_esc("mathop");@+break; + case bin_noad: print_esc("mathbin");@+break; + case rel_noad: print_esc("mathrel");@+break; + case open_noad: print_esc("mathopen");@+break; + case close_noad: print_esc("mathclose");@+break; + case punct_noad: print_esc("mathpunct");@+break; + case inner_noad: print_esc("mathinner");@+break; + case under_noad: print_esc("underline");@+break; + default:print_esc("overline"); + } @+break; +case limit_switch: if (chr_code==limits) print_esc("limits"); + else if (chr_code==no_limits) print_esc("nolimits"); + else print_esc("displaylimits");@+break; + +@ @<Cases of |main_control| that build...@>= +case mmode+math_comp: {@+tail_append(new_noad()); + type(tail)=cur_chr;scan_math(nucleus(tail)); + } @+break; +case mmode+limit_switch: math_limit_switch();@+break; + +@ @<Declare act...@>= +static void math_limit_switch(void) +{@+ +if (head!=tail) if (type(tail)==op_noad) + {@+subtype(tail)=cur_chr;return; + } +print_err("Limit controls must follow a math operator"); +@.Limit controls must follow...@> +help1("I'm ignoring this misplaced \\limits or \\nolimits command.");error(); +} + +@ Delimiter fields of noads are filled in by the |scan_delimiter| routine. +The first parameter of this procedure is the |mem| address where the +delimiter is to be placed; the second tells if this delimiter follows +\.{\\radical} or not. + +@<Declare act...@>= +static void scan_delimiter(pointer @!p, bool @!r) +{@+if (r) scan_twenty_seven_bit_int(); +else{@+@<Get the next non-blank non-relax...@>; + switch (cur_cmd) { + case letter: case other_char: cur_val=del_code(cur_chr);@+break; + case delim_num: scan_twenty_seven_bit_int();@+break; + default:cur_val=-1; + } + } +if (cur_val < 0) @<Report that an invalid delimiter code is being changed to null; +set~|cur_val:=0|@>; +small_fam(p)=(cur_val/04000000)%16; +small_char(p)=qi((cur_val/010000)%256); +large_fam(p)=(cur_val/256)%16; +large_char(p)=qi(cur_val%256); +} + +@ @<Report that an invalid delimiter...@>= +{@+print_err("Missing delimiter (. inserted)"); +@.Missing delimiter...@> +help6("I was expecting to see something like `(' or `\\{' or",@/ + "`\\}' here. If you typed, e.g., `{' instead of `\\{', you",@/ + "should probably delete the `{' by typing `1' now, so that",@/ + "braces don't get unbalanced. Otherwise just proceed.",@/ + "Acceptable delimiters are characters whose \\delcode is",@/ + "nonnegative, or you can use `\\delimiter <delimiter code>'."); +back_error();cur_val=0; +} + +@ @<Cases of |main_control| that build...@>= +case mmode+radical: math_radical();@+break; + +@ @<Declare act...@>= +static void math_radical(void) +{@+tail_append(get_node(radical_noad_size)); +type(tail)=radical_noad;subtype(tail)=normal; +mem[nucleus(tail)].hh=empty_field; +mem[subscr(tail)].hh=empty_field; +mem[supscr(tail)].hh=empty_field; +scan_delimiter(left_delimiter(tail), true);scan_math(nucleus(tail)); +} + +@ @<Cases of |main_control| that build...@>= +case mmode+accent: case mmode+math_accent: math_ac();@+break; + +@ @<Declare act...@>= +static void math_ac(void) +{@+if (cur_cmd==accent) + @<Complain that the user should have said \.{\\mathaccent}@>; +tail_append(get_node(accent_noad_size)); +type(tail)=accent_noad;subtype(tail)=normal; +mem[nucleus(tail)].hh=empty_field; +mem[subscr(tail)].hh=empty_field; +mem[supscr(tail)].hh=empty_field; +math_type(accent_chr(tail))=math_char; +scan_fifteen_bit_int(); +character(accent_chr(tail))=qi(cur_val%256); +if ((cur_val >= var_code)&&fam_in_range) fam(accent_chr(tail))=cur_fam; +else fam(accent_chr(tail))=(cur_val/256)%16; +scan_math(nucleus(tail)); +} + +@ @<Complain that the user should have said \.{\\mathaccent}@>= +{@+print_err("Please use ");print_esc("mathaccent"); +print(" for accents in math mode"); +@.Please use \\mathaccent...@> +help2("I'm changing \\accent to \\mathaccent here; wish me luck.",@/ + "(Accents are not the same in formulas as they are in text.)"); +error(); +} + +@ @<Cases of |main_control| that build...@>= +case mmode+vcenter: {@+scan_spec(vcenter_group, false);normal_paragraph(); + push_nest();mode=-vmode;prev_depth=ignore_depth; + if (every_vbox!=null) begin_token_list(every_vbox, every_vbox_text); + } @+break; + +@ @<Cases of |handle...@>= +case vcenter_group: {@+end_graf();unsave();save_ptr=save_ptr-2; + p=vpack(link(head), saved(1), saved_hfactor(1), saved_vfactor(1), saved(0));pop_nest(); + tail_append(new_noad());type(tail)=vcenter_noad; + math_type(nucleus(tail))=sub_box;info(nucleus(tail))=p; + } @+break; + +@ The routine that inserts a |style_node| holds no surprises. + +@<Put each...@>= +primitive("displaystyle", math_style, display_style); +@!@:display\_style\_}{\.{\\displaystyle} primitive@> +primitive("textstyle", math_style, text_style); +@!@:text\_style\_}{\.{\\textstyle} primitive@> +primitive("scriptstyle", math_style, script_style); +@!@:script\_style\_}{\.{\\scriptstyle} primitive@> +primitive("scriptscriptstyle", math_style, script_script_style); +@!@:script\_script\_style\_}{\.{\\scriptscriptstyle} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case math_style: print_style(chr_code);@+break; + +@ @<Cases of |main_control| that build...@>= +case mmode+math_style: tail_append(new_style(cur_chr))@;@+break; +case mmode+non_script: {@+tail_append(new_glue(zero_glue)); + subtype(tail)=cond_math_glue; + } @+break; +case mmode+math_choice: append_choices();@+break; + +@ The routine that scans the four mlists of a \.{\\mathchoice} is very +much like the routine that builds discretionary nodes. + +@<Declare act...@>= +static void append_choices(void) +{@+tail_append(new_choice());incr(save_ptr);saved(-1)=0; +push_math(math_choice_group);scan_left_brace(); +} + +@ @<Cases of |handle_right_brace|...@>= +case math_choice_group: build_choices();@+break; + +@ @<Declare act...@>= +@t\4@>@<Declare the function called |fin_mlist|@>@t@>@;@/ +static void build_choices(void) +{@+ +pointer p; /*the current mlist*/ +unsave();p=fin_mlist(null); +switch (saved(-1)) { +case 0: display_mlist(tail)=p;@+break; +case 1: text_mlist(tail)=p;@+break; +case 2: script_mlist(tail)=p;@+break; +case 3: {@+script_script_mlist(tail)=p;decr(save_ptr);return; + } +} /*there are no other cases*/ +incr(saved(-1));push_math(math_choice_group);scan_left_brace(); +} + +@ Subscripts and superscripts are attached to the previous nucleus by the +@^superscripts@>@^subscripts@> +action procedure called |sub_sup|. We use the facts that |sub_mark==sup_mark+1| +and |subscr(p)==supscr(p)+1|. + +@<Cases of |main_control| that build...@>= +case mmode+sub_mark: case mmode+sup_mark: sub_sup();@+break; + +@ @<Declare act...@>= +static void sub_sup(void) +{@+small_number t; /*type of previous sub/superscript*/ +pointer @!p; /*field to be filled by |scan_math|*/ +t=empty;p=null; +if (tail!=head) if (scripts_allowed(tail)) + {@+p=supscr(tail)+cur_cmd-sup_mark; /*|supscr| or |subscr|*/ + t=math_type(p); + } +if ((p==null)||(t!=empty)) @<Insert a dummy noad to be sub/superscripted@>; +scan_math(p); +} + +@ @<Insert a dummy...@>= +{@+tail_append(new_noad()); +p=supscr(tail)+cur_cmd-sup_mark; /*|supscr| or |subscr|*/ +if (t!=empty) + {@+if (cur_cmd==sup_mark) + {@+print_err("Double superscript"); +@.Double superscript@> + help1("I treat `x^1^2' essentially like `x^1{}^2'."); + } + else{@+print_err("Double subscript"); +@.Double subscript@> + help1("I treat `x_1_2' essentially like `x_1{}_2'."); + } + error(); + } } -We continue to define auxiliar functions to create the new nodes. +@ An operation like `\.{\\over}' causes the current mlist to go into a +state of suspended animation: |incompleat_noad| points to a |fraction_noad| +that contains the mlist-so-far as its numerator, while the denominator +is yet to come. Finally when the mlist is finished, the denominator will +go into the incompleat fraction noad, and that noad will become the +whole formula, unless it is surrounded by `\.{\\left}' and `\.{\\right}' +delimiters. + +@d above_code 0 /* `\.{\\above}' */ +@d over_code 1 /* `\.{\\over}' */ +@d atop_code 2 /* `\.{\\atop}' */ +@d delimited_code 3 /* `\.{\\abovewithdelims}', etc.*/ + +@<Put each...@>= +primitive("above", above, above_code);@/ +@!@:above\_}{\.{\\above} primitive@> +primitive("over", above, over_code);@/ +@!@:over\_}{\.{\\over} primitive@> +primitive("atop", above, atop_code);@/ +@!@:atop\_}{\.{\\atop} primitive@> +primitive("abovewithdelims", above, delimited_code+above_code);@/ +@!@:above\_with\_delims\_}{\.{\\abovewithdelims} primitive@> +primitive("overwithdelims", above, delimited_code+over_code);@/ +@!@:over\_with\_delims\_}{\.{\\overwithdelims} primitive@> +primitive("atopwithdelims", above, delimited_code+atop_code); +@!@:atop\_with\_delims\_}{\.{\\atopwithdelims} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case above: switch (chr_code) { + case over_code: print_esc("over");@+break; + case atop_code: print_esc("atop");@+break; + case delimited_code+above_code: print_esc("abovewithdelims");@+break; + case delimited_code+over_code: print_esc("overwithdelims");@+break; + case delimited_code+atop_code: print_esc("atopwithdelims");@+break; + default:print_esc("above"); + } @+break; + +@ @<Cases of |main_control| that build...@>= +case mmode+above: math_fraction();@+break; + +@ @<Declare act...@>= +static void math_fraction(void) +{@+small_number c; /*the type of generalized fraction we are scanning*/ +c=cur_chr; +if (incompleat_noad!=null) + @<Ignore the fraction operation and complain about this ambiguous case@>@; +else{@+incompleat_noad=get_node(fraction_noad_size); + type(incompleat_noad)=fraction_noad; + subtype(incompleat_noad)=normal; + math_type(numerator(incompleat_noad))=sub_mlist; + info(numerator(incompleat_noad))=link(head); + mem[denominator(incompleat_noad)].hh=empty_field; + mem[left_delimiter(incompleat_noad)].qqqq=null_delimiter; + mem[right_delimiter(incompleat_noad)].qqqq=null_delimiter;@/ + link(head)=null;tail=head; + @<Use code |c| to distinguish between generalized fractions@>; + } +} + +@ @<Use code |c|...@>= +if (c >= delimited_code) + {@+scan_delimiter(left_delimiter(incompleat_noad), false); + scan_delimiter(right_delimiter(incompleat_noad), false); + } +switch (c%delimited_code) { +case above_code: {@+scan_normal_dimen; + thickness(incompleat_noad)=cur_val; + } @+break; +case over_code: thickness(incompleat_noad)=default_code;@+break; +case atop_code: thickness(incompleat_noad)=0; +} /*there are no other cases*/ + +@ @<Ignore the fraction...@>= +{@+if (c >= delimited_code) + {@+scan_delimiter(garbage, false);scan_delimiter(garbage, false); + } +if (c%delimited_code==above_code) scan_normal_dimen; +print_err("Ambiguous; you need another { and }"); +@.Ambiguous...@> +help3("I'm ignoring this fraction specification, since I don't",@/ + "know whether a construction like `x \\over y \\over z'",@/ + "means `{x \\over y} \\over z' or `x \\over {y \\over z}'."); +error(); +} + +@ At the end of a math formula or subformula, the |fin_mlist| routine is +called upon to return a pointer to the newly completed mlist, and to +pop the nest back to the enclosing semantic level. The parameter to +|fin_mlist|, if not null, points to a |right_noad| that ends the +current mlist; this |right_noad| has not yet been appended. + +@<Declare the function called |fin_mlist|@>= +static pointer fin_mlist(pointer @!p) +{@+pointer q; /*the mlist to return*/ +if (incompleat_noad!=null) @<Compleat the incompleat noad@>@; +else{@+link(tail)=p;q=link(head); + } +pop_nest();return q; +} + +@ @<Compleat...@>= +{@+math_type(denominator(incompleat_noad))=sub_mlist; +info(denominator(incompleat_noad))=link(head); +if (p==null) q=incompleat_noad; +else{@+q=info(numerator(incompleat_noad)); + if ((type(q)!=left_noad)||(delim_ptr==null)) confusion("right"); +@:this can't happen right}{\quad right@> + info(numerator(incompleat_noad))=link(delim_ptr); + link(delim_ptr)=incompleat_noad;link(incompleat_noad)=p; + } +} + +@ Now at last we're ready to see what happens when a right brace occurs +in a math formula. Two special cases are simplified here: Braces are effectively +removed when they surround a single Ord without sub/superscripts, or when they +surround an accent that is the nucleus of an Ord atom. + +@<Cases of |handle...@>= +case math_group: {@+unsave();decr(save_ptr);@/ + math_type(saved(0))=sub_mlist;p=fin_mlist(null);info(saved(0))=p; + if (p!=null) if (link(p)==null) + if (type(p)==ord_noad) + {@+if (math_type(subscr(p))==empty) + if (math_type(supscr(p))==empty) + {@+mem[saved(0)].hh=mem[nucleus(p)].hh; + free_node(p, noad_size); + } + } + else if (type(p)==accent_noad) if (saved(0)==nucleus(tail)) + if (type(tail)==ord_noad) @<Replace the tail of the list by |p|@>; + } @+break; + +@ @<Replace the tail...@>= +{@+q=head;while (link(q)!=tail) q=link(q); +link(q)=p;free_node(tail, noad_size);tail=p; +} + +@ We have dealt with all constructions of math mode except `\.{\\left}' and +`\.{\\right}', so the picture is completed by the following sections of +the program. + +@<Put each...@>= +primitive("left", left_right, left_noad); +@!@:left\_}{\.{\\left} primitive@> +primitive("right", left_right, right_noad); +@!@:right\_}{\.{\\right} primitive@> +text(frozen_right)=text(cur_val);eqtb[frozen_right]=eqtb[cur_val]; + +@ @<Cases of |print_cmd_chr|...@>= +case left_right: if (chr_code==left_noad) print_esc("left") +@/@<Cases of |left_right| for |print_cmd_chr|@>;@/ +else print_esc("right");@+break; + +@ @<Cases of |main_control| that build...@>= +case mmode+left_right: math_left_right();@+break; + +@ @<Declare act...@>= +static void math_left_right(void) +{@+small_number t; /*|left_noad| or |right_noad|*/ +pointer @!p; /*new noad*/ +pointer @!q; /*resulting mlist*/ +t=cur_chr; +if ((t!=left_noad)&&(cur_group!=math_left_group)) + @<Try to recover from mismatched \.{\\right}@>@; +else{@+p=new_noad();type(p)=t; + scan_delimiter(delimiter(p), false); + if (t==middle_noad) + {@+type(p)=right_noad;subtype(p)=middle_noad; + } + if (t==left_noad) q=p; + else{@+q=fin_mlist(p);unsave(); /*end of |math_left_group|*/ + } + if (t!=right_noad) + {@+push_math(math_left_group);link(head)=q;tail=p; + delim_ptr=p; + } + else{@+ + tail_append(new_noad());type(tail)=inner_noad; + math_type(nucleus(tail))=sub_mlist; + info(nucleus(tail))=q; + } + } +} + +@ @<Try to recover from mismatch...@>= +{@+if (cur_group==math_shift_group) + {@+scan_delimiter(garbage, false); + print_err("Extra "); + if (t==middle_noad) + {@+print_esc("middle"); +@.Extra \\middle.@> + help1("I'm ignoring a \\middle that had no matching \\left."); + } + else{@+print_esc("right"); +@.Extra \\right.@> + help1("I'm ignoring a \\right that had no matching \\left."); + } + error(); + } +else off_save(); +} + +@ Here is the only way out of math mode. + +@<Cases of |main_control| that build...@>= +case mmode+math_shift: if (cur_group==math_shift_group) after_math(); + else off_save();@+break; + +@ @<Declare act...@>= +static void after_math(void) +{@+bool l; /*`\.{\\leqno}' instead of `\.{\\eqno}'*/ +bool @!danger; /*not enough symbol fonts are present*/ +int @!m; /*|mmode| or |-mmode|*/ +pointer @!p; /*the formula*/ +pointer @!a; /*box containing equation number*/ +danger=false; +@<Check that the necessary fonts for math symbols are present; if not, flush the current +math lists and set |danger:=true|@>; +m=mode;l=false;p=fin_mlist(null); /*this pops the nest*/ +if (mode==-m) /*end of equation number*/ + {@+@<Check that another \.\$ follows@>; + cur_mlist=p;cur_style=text_style;mlist_penalties=false; + mlist_to_hlist();a=hpack(link(temp_head), natural); + unsave();decr(save_ptr); /*now |cur_group==math_shift_group|*/ + if (saved(0)==1) l=true; + danger=false; + @<Check that the necessary fonts for math symbols are present; if not, flush the +current math lists and set |danger:=true|@>; + m=mode;p=fin_mlist(null); + } +else a=null; +if (m < 0) @<Finish math in text@>@; +else{@+if (a==null) @<Check that another \.\$ follows@>; + @<Finish displayed math@>; + } +} + +@ @<Check that the necessary fonts...@>= +if ((font_params[fam_fnt(2+text_size)] < total_mathsy_params)||@| + (font_params[fam_fnt(2+script_size)] < total_mathsy_params)||@| + (font_params[fam_fnt(2+script_script_size)] < total_mathsy_params)) + {@+print_err("Math formula deleted: Insufficient symbol fonts");@/ +@.Math formula deleted...@> + help3("Sorry, but I can't typeset math unless \\textfont 2",@/ + "and \\scriptfont 2 and \\scriptscriptfont 2 have all",@/ + "the \\fontdimen values needed in math symbol fonts."); + error();flush_math();danger=true; + } +else if ((font_params[fam_fnt(3+text_size)] < total_mathex_params)||@| + (font_params[fam_fnt(3+script_size)] < total_mathex_params)||@| + (font_params[fam_fnt(3+script_script_size)] < total_mathex_params)) + {@+print_err("Math formula deleted: Insufficient extension fonts");@/ + help3("Sorry, but I can't typeset math unless \\textfont 3",@/ + "and \\scriptfont 3 and \\scriptscriptfont 3 have all",@/ + "the \\fontdimen values needed in math extension fonts."); + error();flush_math();danger=true; + } + +@ The |unsave| is done after everything else here; hence an appearance of +`\.{\\mathsurround}' inside of `\.{\$...\$}' affects the spacing at these +particular \.\$'s. This is consistent with the conventions of +`\.{\$\$...\$\$}', since `\.{\\abovedisplayskip}' inside a display affects the +space above that display. + +@<Finish math in text@>= +{@+tail_append(new_math(math_surround, before)); +cur_mlist=p;cur_style=text_style;mlist_penalties=(mode > 0);mlist_to_hlist(); +link(tail)=link(temp_head); +while (link(tail)!=null) tail=link(tail); +tail_append(new_math(math_surround, after)); +space_factor=1000;unsave(); +} + +@ \TeX\ gets to the following part of the program when the first `\.\$' ending +a display has been scanned. + +@<Check that another \.\$ follows@>= +{@+get_x_token(); +if (cur_cmd!=math_shift) + {@+print_err("Display math should end with $$"); +@.Display math...with \$\$@> + help2("The `$' that I just saw supposedly matches a previous `$$'.",@/ + "So I shall assume that you typed `$$' both times."); + back_error(); + } +} + +@ We have saved the worst for last: The fussiest part of math mode processing +occurs when a displayed formula is being centered and placed with an optional +equation number. + +@<Local variables for finishing...@>= +pointer @!b; /*box containing the equation*/ +scaled @!w; /*width of the equation*/ +scaled @!z; /*width of the line*/ +scaled @!e; /*width of equation number*/ +scaled @!q; /*width of equation number plus space to separate from equation*/ +scaled @!d; /*displacement of equation in the line*/ +scaled @!s; /*move the line right this much*/ +small_number @!g1, @!g2; /*glue parameter codes for before and after*/ +pointer @!r; /*kern node used to position the display*/ +pointer @!t; /*tail of adjustment list*/ + +@ At this time |p| points to the mlist for the formula; |a| is either +|null| or it points to a box containing the equation number; and we are in +vertical mode (or internal vertical mode). + +@<Finish displayed math@>= +cur_mlist=p;cur_style=display_style;mlist_penalties=false; +mlist_to_hlist();p=link(temp_head); link(temp_head)=null;@/ +{@+ pointer q; + q=new_disp_node(); + if (!danger) { display_formula(q)=p; display_eqno(q)=a; display_left(q)=l; } + /* adding parameter nodes */ + if (hang_indent!=0) + { new_param_node(dimen_type,hang_indent_code,hang_indent); + if (hang_after!=1) + new_param_node(int_type,hang_after_code,hang_after); + } + new_param_node(dimen_type,line_skip_limit_code,line_skip_limit); + new_param_node(glue_type,line_skip_code,line_skip); + new_param_node(glue_type,baseline_skip_code,baseline_skip); + display_params(q)=link(temp_head); link(temp_head)=null; + display_no_bs(q)= prev_depth <= ignore_depth; + tail_append(q); +} +/* this is from |resume_after_display| */ +if (cur_group!=math_shift_group) confusion("display"); +@:this can't happen display}{\quad display@> +unsave(); +mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; +prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) + *0200000+cur_lang; +@<Scan an optional space@>; + +@ @<Declare act...@>= +static void resume_after_display(void) +{@+if (cur_group!=math_shift_group) confusion("display"); +@:this can't happen display}{\quad display@> +unsave();prev_graf=prev_graf+3; +push_nest();mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; +prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) + *0200000+cur_lang; +@<Scan an optional space@>; +if (nest_ptr==1) build_page(); +} + +@ The user can force the equation number to go on a separate line +by causing its width to be zero. + +@<Squeeze the equation as much as possible...@>= +{@+if ((e!=0)&&((w-total_shrink[normal]+q <= z)||@| + (total_shrink[fil]!=0)||(total_shrink[fill]!=0)|| + (total_shrink[filll]!=0))) + {@+list_ptr(b)=null;flush_node_list(b); + b=hpack(p, z-q, 0, 0, exactly); + } +else{@+e=0; + if (w > z) + {@+list_ptr(b)=null;flush_node_list(b); + b=hpack(p, z, 0, 0, exactly); + } + } +w=width(b); +} + +@ We try first to center the display without regard to the existence of +the equation number. If that would make it too close (where ``too close'' +means that the space between display and equation number is less than the +width of the equation number), we either center it in the remaining space +or move it as far from the equation number as possible. The latter alternative +is taken only if the display begins with glue, since we assume that the +user put glue there to control the spacing precisely. + +@<Determine the displacement, |d|, of the left edge of the equation...@>= +d=half(z-w); +if ((e > 0)&&(d < 2*e)) /*too close*/ + {@+d=half(z-w-e); + if (p!=null) if (!is_char_node(p)) if (type(p)==glue_node) d=0; + } + +@ If the equation number is set on a line by itself, either before or +after the formula, we append an infinite penalty so that no page break will +separate the display from its number; and we use the same size and +displacement for all three potential lines of the display, even though +`\.{\\parshape}' may specify them differently. + +@<Append the glue or equation number preceding the display@>= +tail_append(new_penalty(pre_display_penalty));@/ +if ((d+s <= pre_display_size)||l) /*not enough clearance*/ + {@+g1=above_display_skip_code;g2=below_display_skip_code; + } +else{@+g1=above_display_short_skip_code; + g2=below_display_short_skip_code; + } +if (l&&(e==0)) /*it follows that |type(a)==hlist_node|*/ + {@+shift_amount(a)=s;append_to_vlist(a); + tail_append(new_penalty(inf_penalty)); + } +else tail_append(new_param_glue(g1)) + +@ @<Append the display and perhaps also the equation number@>= +if (e!=0) + {@+r=new_kern(z-w-e-d); + if (l) + {@+link(a)=r;link(r)=b;b=a;d=0; + } + else{@+link(b)=r;link(r)=a; + } + b=hpack(b, natural); + } +shift_amount(b)=s+d;append_to_vlist(b) + +@ @<Append the glue or equation number following the display@>= +if ((a!=null)&&(e==0)&&!l) + {@+tail_append(new_penalty(inf_penalty)); + shift_amount(a)=s+z-width(a); + append_to_vlist(a); + g2=0; + } +if (t!=adjust_head) /*migrating material comes after equation number*/ + {@+link(tail)=link(adjust_head);tail=t; + } +tail_append(new_penalty(post_display_penalty)); +if (g2 > 0) tail_append(new_param_glue(g2)) + +@ When \.{\\halign} appears in a display, the alignment routines operate +essentially as they do in vertical mode. Then the following program is +activated, with |p| and |q| pointing to the beginning and end of the +resulting list, and with |aux_save| holding the |prev_depth| value. + +@<Finish an alignment in a display@>= +{@+do_assignments(); +if (cur_cmd!=math_shift) @<Pontificate about improper alignment in display@>@; +else@<Check that another \.\$ follows@>; +pop_nest(); +tail_append(new_penalty(pre_display_penalty)); +tail_append(new_param_glue(above_display_skip_code)); +link(tail)=p; +if (p!=null) tail=q; +tail_append(new_penalty(post_display_penalty)); +tail_append(new_param_glue(below_display_skip_code)); +prev_depth=aux_save.sc;resume_after_display(); +} + +@ @<Pontificate...@>= +{@+print_err("Missing $$ inserted"); +@.Missing {\$\$} inserted@> +help2("Displays can use special alignments (like \\eqalignno)",@/ + "only if nothing but the alignment itself is between $$'s."); +back_error(); +} + +@* Mode-independent processing. +The long |main_control| procedure has now been fully specified, except for +certain activities that are independent of the current mode. These activities +do not change the current vlist or hlist or mlist; if they change anything, +it is the value of a parameter or the meaning of a control sequence. + +Assignments to values in |eqtb| can be global or local. Furthermore, a +control sequence can be defined to be `\.{\\long}', `\.{\\protected}', +or `\.{\\outer}', and it might or might not be expanded. The prefixes +`\.{\\global}', `\.{\\long}', `\.{\\protected}', +and `\.{\\outer}' can occur in any order. Therefore we assign binary numeric +codes, making it possible to accumulate the union of all specified prefixes +by adding the corresponding codes. (\PASCAL's |set| operations could also +have been used.) + +@<Put each...@>= +primitive("long", prefix, 1); +@!@:long\_}{\.{\\long} primitive@> +primitive("outer", prefix, 2); +@!@:outer\_}{\.{\\outer} primitive@> +primitive("global", prefix, 4); +@!@:global\_}{\.{\\global} primitive@> +primitive("def", def, 0); +@!@:def\_}{\.{\\def} primitive@> +primitive("gdef", def, 1); +@!@:gdef\_}{\.{\\gdef} primitive@> +primitive("edef", def, 2); +@!@:edef\_}{\.{\\edef} primitive@> +primitive("xdef", def, 3); +@!@:xdef\_}{\.{\\xdef} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case prefix: if (chr_code==1) print_esc("long"); + else if (chr_code==2) print_esc("outer") + @/@<Cases of |prefix| for |print_cmd_chr|@>;@/ + else print_esc("global");@+break; +case def: if (chr_code==0) print_esc("def"); + else if (chr_code==1) print_esc("gdef"); + else if (chr_code==2) print_esc("edef"); + else print_esc("xdef");@+break; + +@ Every prefix, and every command code that might or might not be prefixed, +calls the action procedure |prefixed_command|. This routine accumulates +a sequence of prefixes until coming to a non-prefix, then it carries out +the command. + +@<Cases of |main_control| that don't...@>= +any_mode(toks_register): +any_mode(assign_toks): +any_mode(assign_int): +any_mode(assign_dimen): +any_mode(assign_glue): +any_mode(assign_mu_glue): +any_mode(assign_font_dimen): +any_mode(assign_font_int): +any_mode(set_aux): +any_mode(set_prev_graf): +any_mode(set_page_dimen): +any_mode(set_page_int): +any_mode(set_box_dimen): +any_mode(set_shape): +any_mode(def_code): +any_mode(def_family): +any_mode(set_font): +any_mode(def_font): +any_mode(internal_register): +any_mode(advance): +any_mode(multiply): +any_mode(divide): +any_mode(prefix): +any_mode(let): +any_mode(shorthand_def): +any_mode(read_to_cs): +any_mode(def): +any_mode(set_box): +any_mode(hyph_data): +any_mode(set_interaction): prefixed_command();@+break; + +@ If the user says, e.g., `\.{\\global\\global}', the redundancy is +silently accepted. + +@<Declare act...@>= +@t\4@>@<Declare subprocedures for |prefixed_command|@>@t@>@;@/ +static void prefixed_command(void) +{@+ +small_number a; /*accumulated prefix codes so far*/ +internal_font_number @!f; /*identifies a font*/ +int @!j; /*index into a \.{\\parshape} specification*/ +font_index @!k; /*index into |font_info|*/ +pointer @!p, @!q; /*for temporary short-term use*/ +int @!n; /*ditto*/ +bool @!e; /*should a definition be expanded? or was \.{\\let} not done?*/ +a=0; +while (cur_cmd==prefix) + {@+if (!odd(a/cur_chr)) a=a+cur_chr; + @<Get the next non-blank non-relax...@>; + if (cur_cmd <= max_non_prefixed_command) + @<Discard erroneous prefixes and |return|@>; + if (tracing_commands > 2) if (eTeX_ex) show_cur_cmd_chr(); + } +@<Discard the prefixes \.{\\long} and \.{\\outer} if they are irrelevant@>; +@<Adjust \(f)for the setting of \.{\\globaldefs}@>; +switch (cur_cmd) { +@t\4@>@<Assignments@>@; +default:confusion("prefix"); +@:this can't happen prefix}{\quad prefix@> +} +done: @<Insert a token saved by \.{\\afterassignment}, if any@>; +} + +@ @<Discard erroneous...@>= +{@+print_err("You can't use a prefix with `"); +@.You can't use a prefix with x@> +print_cmd_chr(cur_cmd, cur_chr);print_char('\''); +help1("I'll pretend you didn't say \\long or \\outer or \\global."); +if (eTeX_ex) help_line[0]=@| + "I'll pretend you didn't say \\long or \\outer or \\global or \\protected."; +back_error();return; +} + +@ @<Discard the prefixes...@>= +if (a >= 8) + {@+j=protected_token;a=a-8; + } +else j=0; +if ((cur_cmd!=def)&&((a%4!=0)||(j!=0))) + {@+print_err("You can't use `");print_esc("long");print("' or `"); + print_esc("outer"); + help1("I'll pretend you didn't say \\long or \\outer here."); + if (eTeX_ex) + {@+help_line[0]=@| + "I'll pretend you didn't say \\long or \\outer or \\protected here."; + print("' or `");print_esc("protected"); + } + print("' with `"); +@.You can't use \\long...@> + print_cmd_chr(cur_cmd, cur_chr);print_char('\''); + error(); + } + +@ The previous routine does not have to adjust |a| so that |a%4==0|, +since the following routines test for the \.{\\global} prefix as follows. + +@d global (a >= 4) +@d define(A, B, C) if (global) geq_define(A, B, C);@+else eq_define(A, B, C) +@d word_define(A, B) if (global) geq_word_define(A, B);@+else eq_word_define(A, B) + +@<Adjust \(f)for the setting of \.{\\globaldefs}@>= +if (global_defs!=0) + if (global_defs < 0) + {@+if (global) a=a-4; + } + else{@+if (!global) a=a+4; + } + +@ When a control sequence is to be defined, by \.{\\def} or \.{\\let} or +something similar, the |get_r_token| routine will substitute a special +control sequence for a token that is not redefinable. + +@<Declare subprocedures for |prefixed_command|@>= +static void get_r_token(void) +{@+ +restart: @/do@+{get_token(); +}@+ while (!(cur_tok!=space_token)); +if ((cur_cs==0)||(cur_cs > frozen_control_sequence)) + {@+print_err("Missing control sequence inserted"); +@.Missing control...@> + help5("Please don't say `\\def cs{...}', say `\\def\\cs{...}'.",@/ + "I've inserted an inaccessible control sequence so that your",@/ + "definition will be completed without mixing me up too badly.",@/ + "You can recover graciously from this error, if you're",@/ + "careful; see exercise 27.2 in The TeXbook."); +@:TeXbook}{\sl The \TeX book@> + if (cur_cs==0) back_input(); + cur_tok=cs_token_flag+frozen_protection;ins_error();goto restart; + } +} + +@ @<Initialize table entries...@>= +text(frozen_protection)=s_no("inaccessible"); +@.inaccessible@> + +@ Here's an example of the way many of the following routines operate. +(Unfortunately, they aren't all as simple as this.) + +@<Assignments@>= +case set_font: define(cur_font_loc, data, cur_chr);@+break; + +@ When a |def| command has been scanned, +|cur_chr| is odd if the definition is supposed to be global, and +|cur_chr >= 2| if the definition is supposed to be expanded. + +@<Assignments@>= +case def: {@+if (odd(cur_chr)&&!global&&(global_defs >= 0)) a=a+4; + e=(cur_chr >= 2);get_r_token();p=cur_cs; + q=scan_toks(true, e); + if (j!=0) + {@+q=get_avail();info(q)=j;link(q)=link(def_ref); + link(def_ref)=q; + } + define(p, call+(a%4), def_ref); + } @+break; + +@ Both \.{\\let} and \.{\\futurelet} share the command code |let|. + +@<Put each...@>= +primitive("let", let, normal);@/ +@!@:let\_}{\.{\\let} primitive@> +primitive("futurelet", let, normal+1);@/ +@!@:future\_let\_}{\.{\\futurelet} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case let: if (chr_code!=normal) print_esc("futurelet");@+else print_esc("let");@+break; + +@ @<Assignments@>= +case let: {@+n=cur_chr; + get_r_token();p=cur_cs; + if (n==normal) + {@+@/do@+{get_token(); + }@+ while (!(cur_cmd!=spacer)); + if (cur_tok==other_token+'=') + {@+get_token(); + if (cur_cmd==spacer) get_token(); + } + } + else{@+get_token();q=cur_tok;get_token();back_input(); + cur_tok=q;back_input(); /*look ahead, then back up*/ + } /*note that |back_input| doesn't affect |cur_cmd|, |cur_chr|*/ + if (cur_cmd >= call) add_token_ref(cur_chr); + else if ((cur_cmd==internal_register)||(cur_cmd==toks_register)) + if ((cur_chr < mem_bot)||(cur_chr > lo_mem_stat_max)) + add_sa_ref(cur_chr); + define(p, cur_cmd, cur_chr); + } @+break; + +@ A \.{\\chardef} creates a control sequence whose |cmd| is |char_given|; +a \.{\\mathchardef} creates a control sequence whose |cmd| is |math_given|; +and the corresponding |chr| is the character code or math code. A \.{\\countdef} +or \.{\\dimendef} or \.{\\skipdef} or \.{\\muskipdef} creates a control +sequence whose |cmd| is |assign_int| or \dots\ or |assign_mu_glue|, and the +corresponding |chr| is the |eqtb| location of the internal register in question. + +@d char_def_code 0 /*|shorthand_def| for \.{\\chardef}*/ +@d math_char_def_code 1 /*|shorthand_def| for \.{\\mathchardef}*/ +@d count_def_code 2 /*|shorthand_def| for \.{\\countdef}*/ +@d dimen_def_code 3 /*|shorthand_def| for \.{\\dimendef}*/ +@d skip_def_code 4 /*|shorthand_def| for \.{\\skipdef}*/ +@d mu_skip_def_code 5 /*|shorthand_def| for \.{\\muskipdef}*/ +@d toks_def_code 6 /*|shorthand_def| for \.{\\toksdef}*/ + +@<Put each...@>= +primitive("chardef", shorthand_def, char_def_code);@/ +@!@:char\_def\_}{\.{\\chardef} primitive@> +primitive("mathchardef", shorthand_def, math_char_def_code);@/ +@!@:math\_char\_def\_}{\.{\\mathchardef} primitive@> +primitive("countdef", shorthand_def, count_def_code);@/ +@!@:count\_def\_}{\.{\\countdef} primitive@> +primitive("dimendef", shorthand_def, dimen_def_code);@/ +@!@:dimen\_def\_}{\.{\\dimendef} primitive@> +primitive("skipdef", shorthand_def, skip_def_code);@/ +@!@:skip\_def\_}{\.{\\skipdef} primitive@> +primitive("muskipdef", shorthand_def, mu_skip_def_code);@/ +@!@:mu\_skip\_def\_}{\.{\\muskipdef} primitive@> +primitive("toksdef", shorthand_def, toks_def_code);@/ +@!@:toks\_def\_}{\.{\\toksdef} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case shorthand_def: switch (chr_code) { + case char_def_code: print_esc("chardef");@+break; + case math_char_def_code: print_esc("mathchardef");@+break; + case count_def_code: print_esc("countdef");@+break; + case dimen_def_code: print_esc("dimendef");@+break; + case skip_def_code: print_esc("skipdef");@+break; + case mu_skip_def_code: print_esc("muskipdef");@+break; + default:print_esc("toksdef"); + } @+break; +case char_given: {@+print_esc("char");print_hex(chr_code); + } @+break; +case math_given: {@+print_esc("mathchar");print_hex(chr_code); + } @+break; + +@ We temporarily define |p| to be |relax|, so that an occurrence of |p| +while scanning the definition will simply stop the scanning instead of +producing an ``undefined control sequence'' error or expanding the +previous meaning. This allows, for instance, `\.{\\chardef\\foo=123\\foo}'. + +@<Assignments@>= +case shorthand_def: {@+n=cur_chr;get_r_token();p=cur_cs;define(p, relax, 256); + scan_optional_equals(); + switch (n) { + case char_def_code: {@+scan_char_num();define(p, char_given, cur_val); + } @+break; + case math_char_def_code: {@+scan_fifteen_bit_int();define(p, math_given, cur_val); + } @+break; + default:{@+scan_register_num(); + if (cur_val > 255) + {@+j=n-count_def_code; /*|int_val dotdot box_val|*/ + if (j > mu_val) j=tok_val; /*|int_val dotdot mu_val| or |tok_val|*/ + find_sa_element(j, cur_val, true);add_sa_ref(cur_ptr); + if (j==tok_val) j=toks_register;@+else j=internal_register; + define(p, j, cur_ptr); + } + else + switch (n) { + case count_def_code: define(p, assign_int, count_base+cur_val);@+break; + case dimen_def_code: define(p, assign_dimen, scaled_base+cur_val);@+break; + case skip_def_code: define(p, assign_glue, skip_base+cur_val);@+break; + case mu_skip_def_code: define(p, assign_mu_glue, mu_skip_base+cur_val);@+break; + case toks_def_code: define(p, assign_toks, toks_base+cur_val); + } /*there are no other cases*/ + } + } + } @+break; + +@ @<Assignments@>= +case read_to_cs: {@+j=cur_chr;scan_int();n=cur_val; + if (!scan_keyword("to")) +@.to@> + {@+print_err("Missing `to' inserted"); +@.Missing `to'...@> + help2("You should have said `\\read<number> to \\cs'.",@/ + "I'm going to look for the \\cs now.");error(); + } + get_r_token(); + p=cur_cs;read_toks(n, p, j);define(p, call, cur_val); + } @+break; + +@ The token-list parameters, \.{\\output} and \.{\\everypar}, etc., receive +their values in the following way. (For safety's sake, we place an +enclosing pair of braces around an \.{\\output} list.) + +@<Assignments@>= +case toks_register: case assign_toks: {@+q=cur_cs; + e=false; /*just in case, will be set |true| for sparse array elements*/ + if (cur_cmd==toks_register) + if (cur_chr==mem_bot) + {@+scan_register_num(); + if (cur_val > 255) + {@+find_sa_element(tok_val, cur_val, true); + cur_chr=cur_ptr;e=true; + } + else cur_chr=toks_base+cur_val; + } + else e=true; + p=cur_chr; /*|p==every_par_loc| or |output_routine_loc| or \dots*/ + scan_optional_equals(); + @<Get the next non-blank non-relax non-call token@>; + if (cur_cmd!=left_brace) @<If the right-hand side is a token parameter or token +register, finish the assignment and |goto done|@>; + back_input();cur_cs=q;q=scan_toks(false, false); + if (link(def_ref)==null) /*empty list: revert to the default*/ + {@+sa_define(p, null, p, undefined_cs, null);free_avail(def_ref); + } + else{@+if ((p==output_routine_loc)&&!e) /*enclose in curlies*/ + {@+link(q)=get_avail();q=link(q); + info(q)=right_brace_token+'}'; + q=get_avail();info(q)=left_brace_token+'{'; + link(q)=link(def_ref);link(def_ref)=q; + } + sa_define(p, def_ref, p, call, def_ref); + } + } @+break; + +@ @<If the right-hand side is a token parameter...@>= +if ((cur_cmd==toks_register)||(cur_cmd==assign_toks)) + {@+if (cur_cmd==toks_register) + if (cur_chr==mem_bot) + {@+scan_register_num(); + if (cur_val < 256) q=equiv(toks_base+cur_val); + else{@+find_sa_element(tok_val, cur_val, false); + if (cur_ptr==null) q=null; + else q=sa_ptr(cur_ptr); + } + } + else q=sa_ptr(cur_chr); + else q=equiv(cur_chr); + if (q==null) sa_define(p, null, p, undefined_cs, null); + else{@+add_token_ref(q);sa_define(p, q, p, call, q); + } + goto done; + } + +@ Similar routines are used to assign values to the numeric parameters. + +@<Assignments@>= +case assign_int: {@+p=cur_chr;scan_optional_equals();scan_int(); + word_define(p, cur_val); + } @+break; +case assign_dimen: {@+p=cur_chr;scan_optional_equals(); + scan_normal_dimen;word_define(p, cur_val); + } @+break; +case assign_glue: case assign_mu_glue: {@+p=cur_chr;n=cur_cmd;scan_optional_equals(); + if (n==assign_mu_glue) scan_glue(mu_val);@+else scan_glue(glue_val); + trap_zero_glue(); + define(p, glue_ref, cur_val); + } @+break; + +@ When a glue register or parameter becomes zero, it will always point to +|zero_glue| because of the following procedure. (Exception: The tabskip +glue isn't trapped while preambles are being scanned.) + +@<Declare subprocedures for |prefixed_command|@>= +static void trap_zero_glue(void) +{@+if ((width(cur_val)==0)&&(stretch(cur_val)==0)&&(shrink(cur_val)==0)) + {@+add_glue_ref(zero_glue); + delete_glue_ref(cur_val);cur_val=zero_glue; + } +} + +@ The various character code tables are changed by the |def_code| commands, +and the font families are declared by |def_family|. + +@<Put each...@>= +primitive("catcode", def_code, cat_code_base); +@!@:cat\_code\_}{\.{\\catcode} primitive@> +primitive("mathcode", def_code, math_code_base); +@!@:math\_code\_}{\.{\\mathcode} primitive@> +primitive("lccode", def_code, lc_code_base); +@!@:lc\_code\_}{\.{\\lccode} primitive@> +primitive("uccode", def_code, uc_code_base); +@!@:uc\_code\_}{\.{\\uccode} primitive@> +primitive("sfcode", def_code, sf_code_base); +@!@:sf\_code\_}{\.{\\sfcode} primitive@> +primitive("delcode", def_code, del_code_base); +@!@:del\_code\_}{\.{\\delcode} primitive@> +primitive("textfont", def_family, math_font_base); +@!@:text\_font\_}{\.{\\textfont} primitive@> +primitive("scriptfont", def_family, math_font_base+script_size); +@!@:script\_font\_}{\.{\\scriptfont} primitive@> +primitive("scriptscriptfont", def_family, math_font_base+script_script_size); +@!@:script\_script\_font\_}{\.{\\scriptscriptfont} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case def_code: if (chr_code==cat_code_base) print_esc("catcode"); + else if (chr_code==math_code_base) print_esc("mathcode"); + else if (chr_code==lc_code_base) print_esc("lccode"); + else if (chr_code==uc_code_base) print_esc("uccode"); + else if (chr_code==sf_code_base) print_esc("sfcode"); + else print_esc("delcode");@+break; +case def_family: print_size(chr_code-math_font_base);@+break; + +@ The different types of code values have different legal ranges; the +following program is careful to check each case properly. + +@<Assignments@>= +case def_code: {@+@<Let |n| be the largest legal code value, based on |cur_chr|@>; + p=cur_chr;scan_char_num();p=p+cur_val;scan_optional_equals(); + scan_int(); + if (((cur_val < 0)&&(p < del_code_base))||(cur_val > n)) + {@+print_err("Invalid code (");print_int(cur_val); +@.Invalid code@> + if (p < del_code_base) print("), should be in the range 0.."); + else print("), should be at most "); + print_int(n); + help1("I'm going to use 0 instead of that illegal code value.");@/ + error();cur_val=0; + } + if (p < math_code_base) define(p, data, cur_val); + else if (p < del_code_base) define(p, data, hi(cur_val)); + else word_define(p, cur_val); + } @+break; + +@ @<Let |n| be the largest...@>= +if (cur_chr==cat_code_base) n=max_char_code; +else if (cur_chr==math_code_base) n=0100000; +else if (cur_chr==sf_code_base) n=077777; +else if (cur_chr==del_code_base) n=077777777; +else n=255 + +@ @<Assignments@>= +case def_family: {@+p=cur_chr;scan_four_bit_int();p=p+cur_val; + scan_optional_equals();scan_font_ident();define(p, data, cur_val); + } @+break; + +@ Next we consider changes to \TeX's numeric registers. + +@<Assignments@>= +case internal_register: case advance: case multiply: case divide: do_register_command(a);@+break; + +@ We use the fact that |internal_register < advance < multiply < divide|. + +@<Declare subprocedures for |prefixed_command|@>= +static void do_register_command(small_number @!a) +{@+ +pointer l, @!q, @!r, @!s; /*for list manipulation*/ +int @!p; /*type of register involved*/ +bool @!e; /*does |l| refer to a sparse array element?*/ +int @!w; /*integer or dimen value of |l|*/ +q=cur_cmd; +e=false; /*just in case, will be set |true| for sparse array elements*/ +@<Compute the register location |l| and its type |p|; but |return| if invalid@>; +if (q==internal_register) scan_optional_equals(); +else if (scan_keyword("by")) do_nothing; /*optional `\.{by}'*/ +@.by@> +arith_error=false; +if (q < multiply) @<Compute result of |register| or |advance|, put it in |cur_val|@>@; +else@<Compute result of |multiply| or |divide|, put it in |cur_val|@>; +if (arith_error) + {@+print_err("Arithmetic overflow"); +@.Arithmetic overflow@> + help2("I can't carry out that multiplication or division,",@/ + "since the result is out of range."); + if (p >= glue_val) delete_glue_ref(cur_val); + error();return; + } +if (p < glue_val) sa_word_define(l, cur_val); +else{@+trap_zero_glue();sa_define(l, cur_val, l, glue_ref, cur_val); + } +} + +@ Here we use the fact that the consecutive codes |int_val dotdot mu_val| and +|assign_int dotdot assign_mu_glue| correspond to each other nicely. + +@<Compute the register location |l| and its type |p|...@>= +{@+if (q!=internal_register) + {@+get_x_token(); + if ((cur_cmd >= assign_int)&&(cur_cmd <= assign_mu_glue)) + {@+l=cur_chr;p=cur_cmd-assign_int;goto found; + } + if (cur_cmd!=internal_register) + {@+print_err("You can't use `");print_cmd_chr(cur_cmd, cur_chr); +@.You can't use x after ...@> + print("' after ");print_cmd_chr(q, 0); + help1("I'm forgetting what you said and not changing anything."); + error();return; + } + } +if ((cur_chr < mem_bot)||(cur_chr > lo_mem_stat_max)) + {@+l=cur_chr;p=sa_type(l);e=true; + } +else{@+p=cur_chr-mem_bot;scan_register_num(); + if (cur_val > 255) + {@+find_sa_element(p, cur_val, true);l=cur_ptr;e=true; + } + else +switch (p) { +case int_val: l=cur_val+count_base;@+break; +case dimen_val: l=cur_val+scaled_base;@+break; +case glue_val: l=cur_val+skip_base;@+break; +case mu_val: l=cur_val+mu_skip_base; +} /*there are no other cases*/ + } +} +found: if (p < glue_val) @+if (e) w=sa_int(l);@+else w=eqtb[l].i; +else if (e) s=sa_ptr(l);@+else s=equiv(l) + +@ @<Compute result of |register| or |advance|...@>= +if (p < glue_val) + {@+if (p==int_val) scan_int();@+else scan_normal_dimen; + if (q==advance) + { cur_val=cur_val+w; + if (!e && l>=dimen_base) + { cur_hfactor+=hfactor_eqtb[l].sc; + cur_vfactor+=vfactor_eqtb[l].sc; + } + } + } +else{@+scan_glue(p); + if (q==advance) @<Compute the sum of two glue specs@>; + } -\subsubsection{Creating} +@ @<Compute the sum of two glue specs@>= +{@+q=new_spec(cur_val);r=s; +delete_glue_ref(cur_val); +width(q)=width(q)+width(r); +if (stretch(q)==0) stretch_order(q)=normal; +if (stretch_order(q)==stretch_order(r)) stretch(q)=stretch(q)+stretch(r); +else if ((stretch_order(q) < stretch_order(r))&&(stretch(r)!=0)) + {@+stretch(q)=stretch(r);stretch_order(q)=stretch_order(r); + } +if (shrink(q)==0) shrink_order(q)=normal; +if (shrink_order(q)==shrink_order(r)) shrink(q)=shrink(q)+shrink(r); +else if ((shrink_order(q) < shrink_order(r))&&(shrink(r)!=0)) + {@+shrink(q)=shrink(r);shrink_order(q)=shrink_order(r); + } +cur_val=q; +} + +@ @<Compute result of |multiply| or |divide|...@>= +{@+scan_int(); +if (p < glue_val) + if (q==multiply) + if (p==int_val) cur_val=mult_integers(w, cur_val); + else cur_val=nx_plus_y(w, cur_val, 0); + else cur_val=x_over_n(w, cur_val); +else{@+r=new_spec(s); + if (q==multiply) + {@+width(r)=nx_plus_y(width(s), cur_val, 0); + stretch(r)=nx_plus_y(stretch(s), cur_val, 0); + shrink(r)=nx_plus_y(shrink(s), cur_val, 0); + } + else{@+width(r)=x_over_n(width(s), cur_val); + stretch(r)=x_over_n(stretch(s), cur_val); + shrink(r)=x_over_n(shrink(s), cur_val); + } + cur_val=r; + } +} + +@ The processing of boxes is somewhat different, because we may need +to scan and create an entire box before we actually change the value of the old +one. + +@<Assignments@>= +case set_box: {@+scan_register_num(); + if (global) n=global_box_flag+cur_val;@+else n=box_flag+cur_val; + scan_optional_equals(); + if (set_box_allowed) scan_box(n); + else{@+print_err("Improper ");print_esc("setbox"); +@.Improper \\setbox@> + help2("Sorry, \\setbox is not allowed after \\halign in a display,",@/ + "or between \\accent and an accented character.");error(); + } + } @+break; + +@ The |space_factor| or |prev_depth| settings are changed when a |set_aux| +command is sensed. Similarly, |prev_graf| is changed in the presence of +|set_prev_graf|, and |dead_cycles| or |insert_penalties| in the presence of +|set_page_int|. These definitions are always global. + +When some dimension of a box register is changed, the change isn't exactly +global; but \TeX\ does not look at the \.{\\global} switch. + +@<Assignments@>= +case set_aux: alter_aux();@+break; +case set_prev_graf: alter_prev_graf();@+break; +case set_page_dimen: alter_page_so_far();@+break; +case set_page_int: alter_integer();@+break; +case set_box_dimen: alter_box_dimen();@+break; + +@ @<Declare subprocedures for |prefixed_command|@>= +static void alter_aux(void) +{@+halfword c; /*|hmode| or |vmode|*/ +if (cur_chr!=abs(mode)) report_illegal_case(); +else{@+c=cur_chr;scan_optional_equals(); + if (c==vmode) + {@+scan_normal_dimen;prev_depth=cur_val; + } + else{@+scan_int(); + if ((cur_val <= 0)||(cur_val > 32767)) + {@+print_err("Bad space factor"); +@.Bad space factor@> + help1("I allow only values in the range 1..32767 here."); + int_error(cur_val); + } + else space_factor=cur_val; + } + } +} + +@ @<Declare subprocedures for |prefixed_command|@>= +static void alter_prev_graf(void) +{@+int p; /*index into |nest|*/ +nest[nest_ptr]=cur_list;p=nest_ptr; +while (abs(nest[p].mode_field)!=vmode) decr(p); +scan_optional_equals();scan_int(); +if (cur_val < 0) + {@+print_err("Bad ");print_esc("prevgraf"); +@.Bad \\prevgraf@> + help1("I allow only nonnegative values here."); + int_error(cur_val); + } +else{@+nest[p].pg_field=cur_val;cur_list=nest[nest_ptr]; + } +} + +@ @<Declare subprocedures for |prefixed_command|@>= +static void alter_page_so_far(void) +{@+int c; /*index into |page_so_far|*/ +c=cur_chr;scan_optional_equals();scan_normal_dimen; +page_so_far[c]=cur_val; +} + +@ @<Declare subprocedures for |prefixed_command|@>= +static void alter_integer(void) +{@+small_number c; + /*0 for \.{\\deadcycles}, 1 for \.{\\insertpenalties}, etc.*/ +c=cur_chr;scan_optional_equals();scan_int(); +if (c==0) dead_cycles=cur_val +@/@<Cases for |alter_integer|@>@;@/ +else insert_penalties=cur_val; +} + +@ @<Declare subprocedures for |prefixed_command|@>= +static void alter_box_dimen(void) +{@+small_number c; /*|width_offset| or |height_offset| or |depth_offset|*/ +pointer @!b; /*box register*/ +c=cur_chr;scan_register_num();fetch_box(b);scan_optional_equals(); +scan_normal_dimen; +if (b!=null) mem[b+c].sc=cur_val; +} + +@ Paragraph shapes are set up in the obvious way. + +@<Assignments@>= +case set_shape: {@+q=cur_chr;scan_optional_equals();scan_int();n=cur_val; + if (n <= 0) p=null; + else if (q > par_shape_loc) + {@+n=(cur_val/2)+1;p=get_node(2*n+1);info(p)=n; + n=cur_val;mem[p+1].i=n; /*number of penalties*/ + for (j=p+2; j<=p+n+1; j++) + {@+scan_int();mem[j].i=cur_val; /*penalty values*/ + } + if (!odd(n)) mem[p+n+2].i=0; /*unused*/ + } + else{@+ + scaled fh=0, fv=0; + p=get_node(2*n+1);info(p)=n; + for (j=1; j<=n; j++) + {@+scan_normal_dimen; + mem[p+2*j-1].sc=cur_val; /*indentation*/ + scan_normal_dimen; + if (j==1) {fh=cur_hfactor; fv=cur_vfactor;} + mem[p+2*j].sc=cur_val; /*width*/ + } + cur_hfactor=fh; cur_vfactor=fv; + } + define(q, shape_ref, p); + } @+break; + +@ Here's something that isn't quite so obvious. It guarantees that +|info(par_shape_ptr)| can hold any positive~|n| for which |get_node(2*n+1)| +doesn't overflow the memory capacity. + +@<Check the ``constant''...@>= +if (2*max_halfword < mem_top-mem_min) bad=41; + +@ New hyphenation data is loaded by the |hyph_data| command. + +@<Put each...@>= +primitive("hyphenation", hyph_data, 0); +@!@:hyphenation\_}{\.{\\hyphenation} primitive@> +primitive("patterns", hyph_data, 1); +@!@:patterns\_}{\.{\\patterns} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case hyph_data: if (chr_code==1) print_esc("patterns"); + else print_esc("hyphenation");@+break; + +@ @<Assignments@>= +case hyph_data: if (cur_chr==1) + { +#ifdef @!INIT +new_patterns();goto done;@; +#endif + print_err("Patterns can be loaded only by INITEX"); +@.Patterns can be...@> + help0;error(); + @/do@+{get_token();}@+ while (!(cur_cmd==right_brace)); /*flush the patterns*/ + return; + } + else{@+new_hyph_exceptions();goto done; + } @+break; + +@ All of \TeX's parameters are kept in |eqtb| except the font information, +the interaction mode, and the hyphenation tables; these are strictly global. + +@<Assignments@>= +case assign_font_dimen: {@+find_font_dimen(true);k=cur_val; + scan_optional_equals();scan_normal_dimen;font_info[k].sc=cur_val; + } @+break; +case assign_font_int: {@+n=cur_chr;scan_font_ident();f=cur_val; + scan_optional_equals();scan_int(); + if (n==0) hyphen_char[f]=cur_val;@+else skew_char[f]=cur_val; + } @+break; + +@ @<Put each...@>= +primitive("hyphenchar", assign_font_int, 0); +@!@:hyphen\_char\_}{\.{\\hyphenchar} primitive@> +primitive("skewchar", assign_font_int, 1); +@!@:skew\_char\_}{\.{\\skewchar} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case assign_font_int: if (chr_code==0) print_esc("hyphenchar"); + else print_esc("skewchar");@+break; + +@ Here is where the information for a new font gets loaded. + +@<Assignments@>= +case def_font: new_font(a);@+break; + +@ @<Declare subprocedures for |prefixed_command|@>= +static void new_font(small_number @!a) +{@+ +pointer u; /*user's font identifier*/ +scaled @!s; /*stated ``at'' size, or negative of scaled magnification*/ +int @!f; /*runs through existing fonts*/ +str_number @!t; /*name for the frozen font identifier*/ +int @!old_setting; /*holds |selector| setting*/ +str_number @!flushable_string; /*string not yet referenced*/ +if (job_name==0) open_log_file(); + /*avoid confusing \.{texput} with the font name*/ +@.texput@> +get_r_token();u=cur_cs; +if (u >= hash_base) t=text(u); +else if (u >= single_base) + if (u==null_cs) t=s_no("FONT");@+else t=u-single_base; +else{@+old_setting=selector;selector=new_string; + print("FONT");printn(u-active_base);selector=old_setting; +@.FONTx@> + str_room(1);t=make_string(); + } +define(u, set_font, null_font);scan_optional_equals();scan_file_name(); +@<Scan the font size specification@>; +@<If this font has already been loaded, set |f| to the internal font number and |goto +common_ending|@>; +f=read_font_info(u, cur_name, cur_area, s); +common_ending: define(u, set_font, f);eqtb[font_id_base+f]=eqtb[u];font_id_text(f)=t; +} + +@ @<Scan the font size specification@>= +name_in_progress=true; /*this keeps |cur_name| from being changed*/ +if (scan_keyword("at")) @<Put the \(p)(positive) `at' size into |s|@>@; +@.at@> +else if (scan_keyword("scaled")) +@.scaled@> + {@+scan_int();s=-cur_val; + if ((cur_val <= 0)||(cur_val > 32768)) + {@+print_err("Illegal magnification has been changed to 1000");@/ +@.Illegal magnification...@> + help1("The magnification ratio must be between 1 and 32768."); + int_error(cur_val);s=-1000; + } + } +else s=-1000; +name_in_progress=false + +@ @<Put the \(p)(positive) `at' size into |s|@>= +{@+scan_normal_dimen;s=cur_val; +if ((s <= 0)||(s >= 01000000000)) + {@+print_err("Improper `at' size ("); + print_scaled(s);print("pt), replaced by 10pt"); +@.Improper `at' size...@> + help2("I can only handle fonts at positive sizes that are",@/ + "less than 2048pt, so I've changed what you said to 10pt."); + error();s=10*unity; + } +} + +@ When the user gives a new identifier to a font that was previously loaded, +the new name becomes the font identifier of record. Font names `\.{xyz}' and +`\.{XYZ}' are considered to be different. + +@<If this font has already been loaded...@>= +flushable_string=str_ptr-1; +for (f=font_base+1; f<=font_ptr; f++) + if (strn_eq_str(font_name[f], cur_name)&&str_eq_str(font_area[f], cur_area)) + {@+if (cur_name==flushable_string) + {@+flush_string;cur_name=font_name[f]; + } + if (s > 0) + {@+if (s==font_size[f]) goto common_ending; + } + else if (font_size[f]==xn_over_d(font_dsize[f],-s, 1000)) + goto common_ending; + } + +@ @<Cases of |print_cmd_chr|...@>= +case set_font: {@+print("select font ");slow_print(font_name[chr_code]); + if (font_size[chr_code]!=font_dsize[chr_code]) + {@+print(" at ");print_scaled(font_size[chr_code]); + print("pt"); + } + } @+break; + +@ @<Put each...@>= +primitive("batchmode", set_interaction, batch_mode); +@!@:batch\_mode\_}{\.{\\batchmode} primitive@> +primitive("nonstopmode", set_interaction, nonstop_mode); +@!@:nonstop\_mode\_}{\.{\\nonstopmode} primitive@> +primitive("scrollmode", set_interaction, scroll_mode); +@!@:scroll\_mode\_}{\.{\\scrollmode} primitive@> +primitive("errorstopmode", set_interaction, error_stop_mode); +@!@:error\_stop\_mode\_}{\.{\\errorstopmode} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case set_interaction: switch (chr_code) { + case batch_mode: print_esc("batchmode");@+break; + case nonstop_mode: print_esc("nonstopmode");@+break; + case scroll_mode: print_esc("scrollmode");@+break; + default:print_esc("errorstopmode"); + } @+break; + +@ @<Assignments@>= +case set_interaction: new_interaction();@+break; + +@ @<Declare subprocedures for |prefixed_command|@>= +static void new_interaction(void) +{@+print_ln(); +interaction=cur_chr; +@<Initialize the print |selector| based on |interaction|@>; +if (log_opened) selector=selector+2; +} + +@ The \.{\\afterassignment} command puts a token into the global +variable |after_token|. This global variable is examined just after +every assignment has been performed. + +@<Glob...@>= +static halfword @!after_token; /*zero, or a saved token*/ + +@ @<Set init...@>= +after_token=0; + +@ @<Cases of |main_control| that don't...@>= +any_mode(after_assignment): {@+get_token();after_token=cur_tok; + } @+break; + +@ @<Insert a token saved by \.{\\afterassignment}, if any@>= +if (after_token!=0) + {@+cur_tok=after_token;back_input();after_token=0; + } + +@ Here is a procedure that might be called `Get the next non-blank non-relax +non-call non-assignment token'. + +@<Declare act...@>= +static void do_assignments(void) +{@+ +loop{@+@<Get the next non-blank non-relax...@>; + if (cur_cmd <= max_non_prefixed_command) return; + set_box_allowed=false;prefixed_command();set_box_allowed=true; + } +} + +@ @<Cases of |main_control| that don't...@>= +any_mode(after_group): {@+get_token();save_for_after(cur_tok); + } @+break; + +@ Files for \.{\\read} are opened and closed by the |in_stream| command. + +@<Put each...@>= +primitive("openin", in_stream, 1); +@!@:open\_in\_}{\.{\\openin} primitive@> +primitive("closein", in_stream, 0); +@!@:close\_in\_}{\.{\\closein} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case in_stream: if (chr_code==0) print_esc("closein"); + else print_esc("openin");@+break; + +@ @<Cases of |main_control| that don't...@>= +any_mode(in_stream): open_or_close_in();@+break; + +@ @<Declare act...@>= +static void open_or_close_in(void) +{@+int c; /*1 for \.{\\openin}, 0 for \.{\\closein}*/ +int @!n; /*stream number*/ +c=cur_chr;scan_four_bit_int();n=cur_val; +if (read_open[n]!=closed) + {@+a_close(&read_file[n]);read_open[n]=closed; + } +if (c!=0) + {@+scan_optional_equals();scan_file_name(); + if (cur_ext[0]==0) cur_ext=".tex"; + pack_cur_name; + if (a_open_in(&read_file[n])) read_open[n]=just_open; + } +} + +@ The user can issue messages to the terminal, regardless of the +current mode. + +@<Cases of |main_control| that don't...@>= +any_mode(message): issue_message();@+break; + +@ @<Put each...@>= +primitive("message", message, 0); +@!@:message\_}{\.{\\message} primitive@> +primitive("errmessage", message, 1); +@!@:err\_message\_}{\.{\\errmessage} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case message: if (chr_code==0) print_esc("message"); + else print_esc("errmessage");@+break; + +@ @<Declare act...@>= +static void issue_message(void) +{@+int old_setting; /*holds |selector| setting*/ +int @!c; /*identifies \.{\\message} and \.{\\errmessage}*/ +str_number @!s; /*the message*/ +c=cur_chr;link(garbage)=scan_toks(false, true); +old_setting=selector;selector=new_string; +token_show(def_ref);selector=old_setting; +flush_list(def_ref); +str_room(1);s=make_string(); +if (c==0) @<Print string |s| on the terminal@>@; +else@<Print string |s| as an error message@>; +flush_string; +} + +@ @<Print string |s| on the terminal@>= +{@+if (term_offset+length(s) > max_print_line-2) print_ln(); +else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); +slow_print(s);update_terminal; +} + +@ If \.{\\errmessage} occurs often in |scroll_mode|, without user-defined +\.{\\errhelp}, we don't want to give a long help message each time. So we +give a verbose explanation only once. + +@<Glob...@>= +static bool @!long_help_seen; /*has the long \.{\\errmessage} help been used?*/ + +@ @<Set init...@>=long_help_seen=false; + +@ @<Print string |s| as an error message@>= +{@+print_err("");slow_print(s); +if (err_help!=null) use_err_help=true; +else if (long_help_seen) help1("(That was another \\errmessage.)")@; +else{@+if (interaction < error_stop_mode) long_help_seen=true; + help4("This error message was generated by an \\errmessage",@/ + "command, so I can't give any explicit help.",@/ + "Pretend that you're Hercule Poirot: Examine all clues,",@/ +@^Poirot, Hercule@> + "and deduce the truth by order and method."); + } +error();use_err_help=false; +} + +@ The |error| routine calls on |give_err_help| if help is requested from +the |err_help| parameter. + +@p static void give_err_help(void) +{@+token_show(err_help); +} + +@ The \.{\\uppercase} and \.{\\lowercase} commands are implemented by +building a token list and then changing the cases of the letters in it. + +@<Cases of |main_control| that don't...@>= +any_mode(case_shift): shift_case();@+break; + +@ @<Put each...@>= +primitive("lowercase", case_shift, lc_code_base); +@!@:lowercase\_}{\.{\\lowercase} primitive@> +primitive("uppercase", case_shift, uc_code_base); +@!@:uppercase\_}{\.{\\uppercase} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case case_shift: if (chr_code==lc_code_base) print_esc("lowercase"); + else print_esc("uppercase");@+break; + +@ @<Declare act...@>= +static void shift_case(void) +{@+pointer b; /*|lc_code_base| or |uc_code_base|*/ +pointer @!p; /*runs through the token list*/ +halfword @!t; /*token*/ +eight_bits @!c; /*character code*/ +b=cur_chr;p=scan_toks(false, false);p=link(def_ref); +while (p!=null) + {@+@<Change the case of the token in |p|, if a change is appropriate@>; + p=link(p); + } +back_list(link(def_ref));free_avail(def_ref); /*omit reference count*/ +} + +@ When the case of a |chr_code| changes, we don't change the |cmd|. +We also change active characters, using the fact that +|cs_token_flag+active_base| is a multiple of~256. +@^data structure assumptions@> + +@<Change the case of the token in |p|, if a change is appropriate@>= +t=info(p); +if (t < cs_token_flag+single_base) + {@+c=t%256; + if (equiv(b+c)!=0) info(p)=t-c+equiv(b+c); + } + +@ We come finally to the last pieces missing from |main_control|, namely the +`\.{\\show}' commands that are useful when debugging. + +@<Cases of |main_control| that don't...@>= +any_mode(xray): show_whatever();@+break; + +@ @d show_code 0 /* \.{\\show} */ +@d show_box_code 1 /* \.{\\showbox} */ +@d show_the_code 2 /* \.{\\showthe} */ +@d show_lists_code 3 /* \.{\\showlists} */ + +@<Put each...@>= +primitive("show", xray, show_code); +@!@:show\_}{\.{\\show} primitive@> +primitive("showbox", xray, show_box_code); +@!@:show\_box\_}{\.{\\showbox} primitive@> +primitive("showthe", xray, show_the_code); +@!@:show\_the\_}{\.{\\showthe} primitive@> +primitive("showlists", xray, show_lists_code); +@!@:show\_lists\_code\_}{\.{\\showlists} primitive@> + +@ @<Cases of |print_cmd_chr|...@>= +case xray: switch (chr_code) { + case show_box_code: print_esc("showbox");@+break; + case show_the_code: print_esc("showthe");@+break; + case show_lists_code: print_esc("showlists");@+break; + @<Cases of |xray| for |print_cmd_chr|@>@;@/ + default:print_esc("show"); + } @+break; + +@ @<Declare act...@>= +static void show_whatever(void) +{@+ +pointer p; /*tail of a token list to show*/ +small_number @!t; /*type of conditional being shown*/ +int @!m; /*upper bound on |fi_or_else| codes*/ +int @!l; /*line where that conditional began*/ +int @!n; /*level of \.{\\if...\\fi} nesting*/ +switch (cur_chr) { +case show_lists_code: {@+begin_diagnostic();show_activities(); + } @+break; +case show_box_code: @<Show the current contents of a box@>@;@+break; +case show_code: @<Show the current meaning of a token, then |goto common_ending|@>@; +@<Cases for |show_whatever|@>@;@/ +default:@<Show the current value of some parameter or register, then |goto common_ending|@>@; +} @/ +@<Complete a potentially long \.{\\show} command@>; +common_ending: if (interaction < error_stop_mode) + {@+help0;decr(error_count); + } +else if (tracing_online > 0) + {@+@t@>@;@/ + help3("This isn't an error message; I'm just \\showing something.",@/ + "Type `I\\show...' to show more (e.g., \\show\\cs,",@/ + "\\showthe\\count10, \\showbox255, \\showlists)."); + } +else{@+@t@>@;@/ + help5("This isn't an error message; I'm just \\showing something.",@/ + "Type `I\\show...' to show more (e.g., \\show\\cs,",@/ + "\\showthe\\count10, \\showbox255, \\showlists).",@/ + "And type `I\\tracingonline=1\\show...' to show boxes and",@/ + "lists on your terminal as well as in the transcript file."); + } +error(); +} + +@ @<Show the current meaning of a token...@>= +{@+get_token(); +if (interaction==error_stop_mode) wake_up_terminal; +print_nl("> "); +if (cur_cs!=0) + {@+sprint_cs(cur_cs);print_char('='); + } +print_meaning();goto common_ending; +} + +@ @<Cases of |print_cmd_chr|...@>= +case undefined_cs: print("undefined");@+break; +case call: case long_call: case outer_call: case long_outer_call: {@+n=cmd-call; + if (info(link(chr_code))==protected_token) n=n+4; + if (odd(n/4)) print_esc("protected"); + if (odd(n)) print_esc("long"); + if (odd(n/2)) print_esc("outer"); + if (n > 0) print_char(' '); + print("macro"); + } @+break; +case end_template: print_esc("outer endtemplate");@+break; + +@ @<Show the current contents of a box@>= +{@+scan_register_num();fetch_box(p);begin_diagnostic(); +print_nl("> \\box");print_int(cur_val);print_char('='); +if (p==null) print("void");@+else show_box(p); +} + +@ @<Show the current value of some parameter...@>= +{@+the_toks(); +if (interaction==error_stop_mode) wake_up_terminal; +print_nl("> ");token_show(temp_head); +flush_list(link(temp_head));goto common_ending; +} + +@ @<Complete a potentially long \.{\\show} command@>= +end_diagnostic(true);print_err("OK"); +@.OK@> +if (selector==term_and_log) if (tracing_online <= 0) + {@+selector=term_only;print(" (see the transcript file)"); + selector=term_and_log; + } + +@* Dumping and undumping the tables. +After \.{INITEX} has seen a collection of fonts and macros, it +can write all the necessary information on an auxiliary file so +that production versions of \TeX\ are able to initialize their +memory at high speed. The present section of the program takes +care of such output and input. We shall consider simultaneously +the processes of storing and restoring, +so that the inverse relation between them is clear. +@.INITEX@> + +The global variable |format_ident| is a string that is printed right +after the |banner| line when \TeX\ is ready to start. For \.{INITEX} this +string says simply `\.{ (INITEX)}'; for other versions of \TeX\ it says, +for example, `\.{ (preloaded format=plain 1982.11.19)}', showing the year, +month, and day that the format file was created. We have |format_ident==0| +before \TeX's tables are loaded. + +@<Glob...@>= +static str_number @!format_ident; + +@ @<Set init...@>= +format_ident=0; + +@ @<Initialize table entries...@>= +format_ident=s_no(" (INITEX)"); + +@ @<Declare act...@>= +#ifdef @!INIT +static void store_fmt_file(void) +{@+ +int j, @!k, @!l; /*all-purpose indices*/ +int @!p, @!q; /*all-purpose pointers*/ +int @!x; /*something to dump*/ +four_quarters @!w; /*four ASCII codes*/ +@<If dumping is not allowed, abort@>; +@<Create the |format_ident|, open the format file, and inform the user that dumping +has begun@>; +eqtb[dimen_base+hsize_code].i=hhsize; +eqtb[dimen_base+vsize_code].i=hvsize; +@<Dump constants for consistency check@>; +@<Dump the string pool@>; +@<Dump the dynamic memory@>; +@<Dump the table of equivalents@>; +@<Dump the font information@>; +@<Dump the hyphenation tables@>; +@<Dump a couple more things and the closing check word@>; +@<Close the format file@>; +eqtb[dimen_base+hsize_code].i=0; +eqtb[dimen_base+vsize_code].i=0; +} +#endif + +@ Corresponding to the procedure that dumps a format file, we have a function +that reads one in. The function returns |false| if the dumped format is +incompatible with the present \TeX\ table sizes, etc. + +@d too_small(X) {@+wake_up_terminal; + wterm_ln("---! Must increase the %s", X); +@.Must increase the x@> + goto bad_fmt; + } + +@p @t\4@>@<Declare the function called |open_fmt_file|@>@; +static bool load_fmt_file(void) +{@+ +int j, @!k; /*all-purpose indices*/ +int @!p, @!q; /*all-purpose pointers*/ +int @!x; /*something undumped*/ +four_quarters @!w; /*four ASCII codes*/ +@<Undump constants for consistency check@>; +@<Undump the string pool@>; +@<Undump the dynamic memory@>; +@<Undump the table of equivalents@>; +@<Undump the font information@>; +@<Undump the hyphenation tables@>; +@<Undump a couple more things and the closing check word@>; +return true; /*it worked!*/ +bad_fmt: wake_up_terminal; + wterm_ln("(Fatal format file error; I'm stymied)"); +@.Fatal format file error@> +return false; +} + +@ The user is not allowed to dump a format file unless |save_ptr==0|. +This condition implies that |cur_level==level_one|, hence +the |xeq_level| array is constant and it need not be dumped. + +@<If dumping is not allowed, abort@>= +if (save_ptr!=0) + {@+print_err("You can't dump inside a group"); +@.You can't dump...@> + help1("`{...\\dump}' is a no-no.");succumb; + } + +@ Format files consist of |memory_word| items, and we use the following +macros to dump words of different types: + +@d dump_wd(A) {@+fmt_file.d=A;put(fmt_file);@+} +@d dump_int(A) {@+fmt_file.d.i=A;put(fmt_file);@+} +@d dump_hh(A) {@+fmt_file.d.hh=A;put(fmt_file);@+} +@d dump_qqqq(A) {@+fmt_file.d.qqqq=A;put(fmt_file);@+} + +@<Glob...@>= +static word_file @!fmt_file; /*for input or output of format information*/ + +@ The inverse macros are slightly more complicated, since we need to check +the range of the values we are reading in. We say `|undump(a)(b)(x)|' to +read an integer value |x| that is supposed to be in the range |a <= x <= b|. +System error messages should be suppressed when undumping. +@^system dependencies@> + +@d undump_wd(A) {@+get(fmt_file);A=fmt_file.d;@+} +@d undump_int(A) {@+get(fmt_file);A=fmt_file.d.i;@+} +@d undump_hh(A) {@+get(fmt_file);A=fmt_file.d.hh;@+} +@d undump_qqqq(A) {@+get(fmt_file);A=fmt_file.d.qqqq;@+} +@d undump(A, B, C) {@+undump_int(x);if ((x < A)||(x > B)) goto bad_fmt;@+else C=x;@+} +@d undump_size(A, B, C, D) {@+undump_int(x); + if (x < A) goto bad_fmt;if (x > B) too_small(C)@;@+else D=x;@+} + +@ The next few sections of the program should make it clear how we use the +dump/undump macros. + +@<Dump constants for consistency check@>= +dump_int(0);@/ +@<Dump the \eTeX\ state@>@/ +@<Dump the \Prote\ state@>@/ +@<Dump the |ROM| array@>@/ +dump_int(mem_bot);@/ +dump_int(mem_top);@/ +dump_int(eqtb_size);@/ +dump_int(hash_prime);@/ +dump_int(hyph_size) + +@ Sections of a \.{WEB} program that are ``commented out'' still contribute +strings to the string pool; therefore \.{INITEX} and \TeX\ will have +the same strings. (And it is, of course, a good thing that they do.) +@.WEB@> +@^string pool@> + +@<Undump constants for consistency check@>= +x=fmt_file.d.i; +if (x!=0) goto bad_fmt; /*check that strings are the same*/ +@/@<Undump the \eTeX\ state@>@/ +@/@<Undump the \Prote\ state@>@/ +@/@<Undump the |ROM| array@>@/ +undump_int(x); +if (x!=mem_bot) goto bad_fmt; +undump_int(x); +if (x!=mem_top) goto bad_fmt; +undump_int(x); +if (x!=eqtb_size) goto bad_fmt; +undump_int(x); +if (x!=hash_prime) goto bad_fmt; +undump_int(x); +if (x!=hyph_size) goto bad_fmt + +@ @d dump_four_ASCII + w.b0=qi(so(str_pool[k]));w.b1=qi(so(str_pool[k+1])); + w.b2=qi(so(str_pool[k+2]));w.b3=qi(so(str_pool[k+3])); + dump_qqqq(w) + +@<Dump the string pool@>= +dump_int(pool_ptr); +dump_int(str_ptr); +for (k=0; k<=str_ptr; k++) dump_int(str_start[k]); +k=0; +while (k+4 < pool_ptr) + {@+dump_four_ASCII;k=k+4; + } +k=pool_ptr-4;dump_four_ASCII; +print_ln();print_int(str_ptr);print(" strings of total length "); +print_int(pool_ptr) + +@ @d undump_four_ASCII + undump_qqqq(w); + str_pool[k]=si(qo(w.b0));str_pool[k+1]=si(qo(w.b1)); + str_pool[k+2]=si(qo(w.b2));str_pool[k+3]=si(qo(w.b3)) + +@<Undump the string pool@>= +undump_size(0, pool_size,"string pool size", pool_ptr); +undump_size(0, max_strings,"max strings", str_ptr); +for (k=0; k<=str_ptr; k++) undump(0, pool_ptr, str_start[k]); +k=0; +while (k+4 < pool_ptr) + {@+undump_four_ASCII;k=k+4; + } +k=pool_ptr-4;undump_four_ASCII; +init_str_ptr=str_ptr;init_pool_ptr=pool_ptr + +@ By sorting the list of available spaces in the variable-size portion of +|mem|, we are usually able to get by without having to dump very much +of the dynamic memory. + +We recompute |var_used| and |dyn_used|, so that \.{INITEX} dumps valid +information even when it has not been gathering statistics. + +@<Dump the dynamic memory@>= +sort_avail();var_used=0; +dump_int(lo_mem_max);dump_int(rover); +if (eTeX_ex) for (k=int_val; k<=tok_val; k++) dump_int(sa_root[k]); +p=mem_bot;q=rover;x=0; +@/do@+{for (k=p; k<=q+1; k++) dump_wd(mem[k]); +x=x+q+2-p;var_used=var_used+q-p; +p=q+node_size(q);q=rlink(q); +}@+ while (!(q==rover)); +var_used=var_used+lo_mem_max-p;dyn_used=mem_end+1-hi_mem_min;@/ +for (k=p; k<=lo_mem_max; k++) dump_wd(mem[k]); +x=x+lo_mem_max+1-p; +dump_int(hi_mem_min);dump_int(avail); +for (k=hi_mem_min; k<=mem_end; k++) dump_wd(mem[k]); +x=x+mem_end+1-hi_mem_min; +p=avail; +while (p!=null) + {@+decr(dyn_used);p=link(p); + } +dump_int(var_used);dump_int(dyn_used); +print_ln();print_int(x); +print(" memory locations dumped; current usage is "); +print_int(var_used);print_char('&');print_int(dyn_used) + +@ @<Undump the dynamic memory@>= +undump(lo_mem_stat_max+1000, hi_mem_stat_min-1, lo_mem_max); +undump(lo_mem_stat_max+1, lo_mem_max, rover); +if (eTeX_ex) for (k=int_val; k<=tok_val; k++) + undump(null, lo_mem_max, sa_root[k]); +p=mem_bot;q=rover; +@/do@+{for (k=p; k<=q+1; k++) undump_wd(mem[k]); +p=q+node_size(q); +if ((p > lo_mem_max)||((q >= rlink(q))&&(rlink(q)!=rover))) goto bad_fmt; +q=rlink(q); +}@+ while (!(q==rover)); +for (k=p; k<=lo_mem_max; k++) undump_wd(mem[k]); +if (mem_min < mem_bot-2) /*make more low memory available*/ + {@+p=llink(rover);q=mem_min+1; + link(mem_min)=null;info(mem_min)=null; /*we don't use the bottom word*/ + rlink(p)=q;llink(rover)=q;@/ + rlink(q)=rover;llink(q)=p;link(q)=empty_flag; + node_size(q)=mem_bot-q; + } +undump(lo_mem_max+1, hi_mem_stat_min, hi_mem_min); +undump(null, mem_top, avail);mem_end=mem_top; +for (k=hi_mem_min; k<=mem_end; k++) undump_wd(mem[k]); +undump_int(var_used);undump_int(dyn_used) + +@ @<Dump the table of equivalents@>= +@<Dump regions 1 to 4 of |eqtb|@>; +@<Dump regions 5 and 6 of |eqtb|@>; +dump_int(par_loc);dump_int(write_loc);@/ +@<Dump the hash table@>@; + +@ @<Undump the table of equivalents@>= +@<Undump regions 1 to 6 of |eqtb|@>; +undump(hash_base, frozen_control_sequence, par_loc); +par_token=cs_token_flag+par_loc;@/ +undump(hash_base, frozen_control_sequence, write_loc);@/ +@<Undump the hash table@>@; + +@ The table of equivalents usually contains repeated information, so we dump it +in compressed form: The sequence of $n+2$ values $(n,x_1,\ldots,x_n,m)$ in the +format file represents $n+m$ consecutive entries of |eqtb|, with |m| extra +copies of $x_n$, namely $(x_1,\ldots,x_n,x_n,\ldots,x_n)$. + +@<Dump regions 1 to 4 of |eqtb|@>= +k=active_base; +@/do@+{j=k; +while (j < int_base-1) + {@+if ((equiv(j)==equiv(j+1))&&(eq_type(j)==eq_type(j+1))&&@| + (eq_level(j)==eq_level(j+1))) goto found1; + incr(j); + } +l=int_base;goto done1; /*|j==int_base-1|*/ +found1: incr(j);l=j; +while (j < int_base-1) + {@+if ((equiv(j)!=equiv(j+1))||(eq_type(j)!=eq_type(j+1))||@| + (eq_level(j)!=eq_level(j+1))) goto done1; + incr(j); + } +done1: dump_int(l-k); +while (k < l) + {@+dump_wd(eqtb[k]);incr(k); + } +k=j+1;dump_int(k-l); +}@+ while (!(k==int_base)) + +@ @<Dump regions 5 and 6 of |eqtb|@>= +@/do@+{j=k; +while (j < eqtb_size) + {@+if (eqtb[j].i==eqtb[j+1].i) goto found2; + incr(j); + } +l=eqtb_size+1;goto done2; /*|j==eqtb_size|*/ +found2: incr(j);l=j; +while (j < eqtb_size) + {@+if (eqtb[j].i!=eqtb[j+1].i) goto done2; + incr(j); + } +done2: dump_int(l-k); +while (k < l) + {@+dump_wd(eqtb[k]);incr(k); + } +k=j+1;dump_int(k-l); +}@+ while (!(k > eqtb_size)) + +@ @<Undump regions 1 to 6 of |eqtb|@>= +k=active_base; +@/do@+{undump_int(x); +if ((x < 1)||(k+x > eqtb_size+1)) goto bad_fmt; +for (j=k; j<=k+x-1; j++) undump_wd(eqtb[j]); +k=k+x; +undump_int(x); +if ((x < 0)||(k+x > eqtb_size+1)) goto bad_fmt; +for (j=k; j<=k+x-1; j++) eqtb[j]=eqtb[k-1]; +k=k+x; +}@+ while (!(k > eqtb_size)) + +@ A different scheme is used to compress the hash table, since its lower +region is usually sparse. When |text(p)!=0| for |p <= hash_used|, we output +two words, |p| and |hash[p]|. The hash table is, of course, densely packed +for |p >= hash_used|, so the remaining entries are output in a~block. + +@<Dump the hash table@>= +dump_int(hash_used);cs_count=frozen_control_sequence-1-hash_used; +for (p=hash_base; p<=hash_used; p++) if (text(p)!=0) + {@+dump_int(p);dump_hh(hash[p]);incr(cs_count); + } +for (p=hash_used+1; p<=undefined_control_sequence-1; p++) dump_hh(hash[p]); +dump_int(cs_count);@/ +print_ln();print_int(cs_count);print(" multiletter control sequences") + +@ @<Undump the hash table@>= +undump(hash_base, frozen_control_sequence, hash_used);p=hash_base-1; +@/do@+{undump(p+1, hash_used, p);undump_hh(hash[p]); +}@+ while (!(p==hash_used)); +for (p=hash_used+1; p<=undefined_control_sequence-1; p++) undump_hh(hash[p]); +undump_int(cs_count) + +@ @<Dump the font information@>= +dump_int(fmem_ptr); +for (k=0; k<=fmem_ptr-1; k++) dump_wd(font_info[k]); +dump_int(font_ptr); +for (k=null_font; k<=font_ptr; k++) + @<Dump the array info for internal font number |k|@>; +print_ln();print_int(fmem_ptr-7);print(" words of font info for "); +print_int(font_ptr-font_base);print(" preloaded font"); +if (font_ptr!=font_base+1) print_char('s') + +@ @<Undump the font information@>= +undump_size(7, font_mem_size,"font mem size", fmem_ptr); +for (k=0; k<=fmem_ptr-1; k++) undump_wd(font_info[k]); +undump_size(font_base, font_max,"font max", font_ptr); +for (k=null_font; k<=font_ptr; k++) + @<Undump the array info for internal font number |k|@>@; + +@ @<Dump the array info for internal font number |k|@>= +{@+dump_qqqq(font_check[k]); +dump_int(font_size[k]); +dump_int(font_dsize[k]); +dump_int(font_params[k]);@/ +dump_int(hyphen_char[k]); +dump_int(skew_char[k]);@/ +dump_int(font_name[k]); +dump_int(font_area[k]);@/ +dump_int(font_bc[k]); +dump_int(font_ec[k]);@/ +dump_int(char_base[k]); +dump_int(width_base[k]); +dump_int(height_base[k]);@/ +dump_int(depth_base[k]); +dump_int(italic_base[k]); +dump_int(lig_kern_base[k]);@/ +dump_int(kern_base[k]); +dump_int(exten_base[k]); +dump_int(param_base[k]);@/ +dump_int(font_glue[k]);@/ +dump_int(bchar_label[k]); +dump_int(font_bchar[k]); +dump_int(font_false_bchar[k]);@/ +print_nl("\\font");printn_esc(font_id_text(k));print_char('='); +printn_file_name(font_name[k], font_area[k],empty_string); +if (font_size[k]!=font_dsize[k]) + {@+print(" at ");print_scaled(font_size[k]);print("pt"); + } +} +@ @<Undump the array info for internal font number |k|@>= +{@+undump_qqqq(font_check[k]);@/ +undump_int(font_size[k]); +undump_int(font_dsize[k]); +undump(min_halfword, max_halfword, font_params[k]);@/ +undump_int(hyphen_char[k]); +undump_int(skew_char[k]);@/ +undump(0, str_ptr, font_name[k]); +undump(0, str_ptr, font_area[k]);@/ +undump(0, 255, font_bc[k]); +undump(0, 255, font_ec[k]);@/ +undump_int(char_base[k]); +undump_int(width_base[k]); +undump_int(height_base[k]);@/ +undump_int(depth_base[k]); +undump_int(italic_base[k]); +undump_int(lig_kern_base[k]);@/ +undump_int(kern_base[k]); +undump_int(exten_base[k]); +undump_int(param_base[k]);@/ +undump(min_halfword, lo_mem_max, font_glue[k]);@/ +undump(0, fmem_ptr-1, bchar_label[k]); +undump(min_quarterword, non_char, font_bchar[k]); +undump(min_quarterword, non_char, font_false_bchar[k]); +} + +@ @<Dump the hyphenation tables@>= +dump_int(hyph_count); +for (k=0; k<=hyph_size; k++) if (hyph_word[k]!=0) + {@+dump_int(k);dump_int(hyph_word[k]);dump_int(hyph_list[k]); + } +print_ln();print_int(hyph_count);print(" hyphenation exception"); +if (hyph_count!=1) print_char('s'); +if (trie_not_ready) init_trie(); +dump_int(trie_max); +for (k=0; k<=trie_max; k++) dump_hh(trie[k]); +dump_int(trie_op_ptr); +for (k=1; k<=trie_op_ptr; k++) + {@+dump_int(hyf_distance[k]); + dump_int(hyf_num[k]); + dump_int(hyf_next[k]); + } +print_nl("Hyphenation trie of length ");print_int(trie_max); +@.Hyphenation trie...@> +print(" has ");print_int(trie_op_ptr);print(" op"); +if (trie_op_ptr!=1) print_char('s'); +print(" out of ");print_int(trie_op_size); +for (k=255; k>=0; k--) if (trie_used[k] > min_quarterword) + {@+print_nl(" ");print_int(qo(trie_used[k])); + print(" for language ");print_int(k); + dump_int(k);dump_int(qo(trie_used[k])); + } + +@ Only ``nonempty'' parts of |op_start| need to be restored. + +@<Undump the hyphenation tables@>= +undump(0, hyph_size, hyph_count); +for (k=1; k<=hyph_count; k++) + {@+undump(0, hyph_size, j); + undump(0, str_ptr, hyph_word[j]); + undump(min_halfword, max_halfword, hyph_list[j]); + } +undump_size(0, trie_size,"trie size", j); +#ifdef @!INIT +trie_max=j; +#endif +for (k=0; k<=j; k++) undump_hh(trie[k]); +undump_size(0, trie_op_size,"trie op size", j); +#ifdef @!INIT +trie_op_ptr=j; +#endif +for (k=1; k<=j; k++) + {@+undump(0, 63, hyf_distance[k]); /*a |small_number|*/ + undump(0, 63, hyf_num[k]); + undump(min_quarterword, max_quarterword, hyf_next[k]); + } +#ifdef @!INIT +for (k=0; k<=255; k++) trie_used[k]=min_quarterword; +#endif +@;@/ +k=256; +while (j > 0) + {@+undump(0, k-1, k);undump(1, j, x); +#ifdef @!INIT +trie_used[k]=qi(x); +#endif +@;@/ + j=j-x;op_start[k]=qo(j); + } +#ifdef @!INIT +trie_not_ready=false +#endif + +@ We have already printed a lot of statistics, so we set |tracing_stats=0| +to prevent them from appearing again. + +@<Dump a couple more things and the closing check word@>= +dump_int(interaction);dump_int(format_ident);dump_int(69069); +tracing_stats=0 + +@ @<Undump a couple more things and the closing check word@>= +undump(batch_mode, error_stop_mode, interaction); +undump(0, str_ptr, format_ident); +undump_int(x); +if ((x!=69069)||eof(fmt_file)) goto bad_fmt + +@ @<Create the |format_ident|...@>= +selector=new_string; +print(" (preloaded format=");printn(job_name);print_char(' '); +print_int(year);print_char('.'); +print_int(month);print_char('.');print_int(day);print_char(')'); +if (interaction==batch_mode) selector=log_only; +else selector=term_and_log; +str_room(1); +format_ident=make_string(); +pack_job_name(format_extension); +while (!w_open_out(&fmt_file)) + prompt_file_name("format file name", format_extension); +print_nl("Beginning to dump on file "); +@.Beginning to dump...@> +slow_print(w_make_name_string(&fmt_file));flush_string; +print_nl("");slow_print(format_ident) + +@ @<Close the format file@>= +w_close(&fmt_file) + +@* The main program. +This is it: the part of \TeX\ that executes all those procedures we have +written. + +Well---almost. Let's leave space for a few more routines that we may +have forgotten. + +@p @<Last-minute procedures@>@; + +@ We have noted that there are two versions of \TeX82. One, called \.{INITEX}, +@.INITEX@> +has to be run first; it initializes everything from scratch, without +reading a format file, and it has the capability of dumping a format file. +The other one is called `\.{VIRTEX}'; it is a ``virgin'' program that needs +@.VIRTEX@> +to input a format file in order to get started. \.{VIRTEX} typically has +more memory capacity than \.{INITEX}, because it does not need the space +consumed by the auxiliary hyphenation tables and the numerous calls on +|primitive|, etc. + +The \.{VIRTEX} program cannot read a format file instantaneously, of course; +the best implementations therefore allow for production versions of \TeX\ that +not only avoid the loading routine for \PASCAL\ object code, they also have +a format file pre-loaded. This is impossible to do if we stick to standard +\PASCAL; but there is a simple way to fool many systems into avoiding the +initialization, as follows:\quad(1)~We declare a global integer variable +called |ready_already|. The probability is negligible that this +variable holds any particular value like 314159 when \.{VIRTEX} is first +loaded.\quad(2)~After we have read in a format file and initialized +everything, we set |ready_already=314159|.\quad(3)~Soon \.{VIRTEX} +will print `\.*', waiting for more input; and at this point we +interrupt the program and save its core image in some form that the +operating system can reload speedily.\quad(4)~When that core image is +activated, the program starts again at the beginning; but now +|ready_already==314159| and all the other global variables have +their initial values too. The former chastity has vanished! + +In other words, if we allow ourselves to test the condition +|ready_already==314159|, before |ready_already| has been +assigned a value, we can avoid the lengthy initialization. Dirty tricks +rarely pay off so handsomely. +@^dirty \PASCAL@> +@^system dependencies@> + +On systems that allow such preloading, the standard program called \.{TeX} +should be the one that has \.{plain} format preloaded, since that agrees +with {\sl The \TeX book}. Other versions, e.g., \.{AmSTeX}, should also +@:TeXbook}{\sl The \TeX book@> +@.AmSTeX@> +@.plain@> +be provided for commonly used formats. + +@<Glob...@>= +static int @!ready_already; /*a sacrifice of purity for economy*/ + +@ Now this is really it: \TeX\ starts and ends here. + +The initial test involving |ready_already| should be deleted if the +\PASCAL\ runtime system is smart enough to detect such a ``mistake.'' +@^system dependencies@> + +@p +int main(int argc, char *argv[]) {@! /*|start_here|*/ + main_init(argc, argv); /* k\TeX\ */ +history=fatal_error_stop; /*in case we quit during initialization*/ +t_open_out; /*open the terminal for output*/ +if (ready_already==314159) goto start_of_TEX; +@<Check the ``constant'' values...@>@; +if (bad > 0) + {@+wterm_ln("Ouch---my internal constants have been clobbered!" + "---case %d", bad); +@.Ouch...clobbered@> + exit(0); + } +get_strings_started(); +initialize(); /*set global variables to their starting values*/ +#ifdef @!INIT +if (iniversion) +{ init_prim(); /*call |primitive| for each primitive*/ + init_str_ptr=str_ptr;init_pool_ptr=pool_ptr;fix_date_and_time(); } +#endif +ready_already=314159; +start_of_TEX: @<Initialize the output routines@>; +@<Get the first line of input and prepare to start@>; +history=spotless; /*ready to go!*/ +hhsize=hsize; hvsize=vsize;@/ +hint_open(); main_control(); hint_close(); /*come to life*/ +final_cleanup(); /*prepare for death*/ +close_files_and_terminate(); +ready_already=0; +return 0; } + +@ Here we do whatever is needed to complete \TeX's job gracefully on the +local operating system. The code here might come into play after a fatal +error; it must therefore consist entirely of ``safe'' operations that +cannot produce error messages. For example, it would be a mistake to call +|str_room| or |make_string| at this time, because a call on |overflow| +might lead to an infinite loop. +@^system dependencies@> +(Actually there's one way to get error messages, via |prepare_mag|; +but that can't cause infinite recursion.) +@^recursion@> + +If |final_cleanup| is bypassed, this program doesn't bother to close +the input files that may still be open. + +@<Last-minute...@>= +static void close_files_and_terminate(void) +{@+int k; /*all-purpose index*/ +@<Finish the extensions@>;new_line_char=-1; +#ifdef @!STAT +if (tracing_stats > 0) @<Output statistics about this job@>;@; +#endif +wake_up_terminal; +if (log_opened) + {@+wlog_cr;a_close(&log_file);selector=selector-2; + if (selector==term_only) + {@+print_nl("Transcript written on "); +@.Transcript written...@> + slow_print(log_name);print_char('.');print_nl(""); + } + } +} + +@ The present section goes directly to the log file instead of using +|print| commands, because there's no need for these strings to take +up |str_pool| memory when a non-{\bf stat} version of \TeX\ is being used. + +@<Output statistics...@>= +if (log_opened) + {@+wlog_ln(" "); + wlog_ln("Here is how much of TeX's memory you used:"); +@.Here is how much...@> + wlog(" %d string", str_ptr-init_str_ptr); + if (str_ptr!=init_str_ptr+1) wlog( "s" ); + wlog_ln( " out of %d", max_strings-init_str_ptr);@/ + wlog_ln( " %d string characters out of %d", pool_ptr-init_pool_ptr, + pool_size-init_pool_ptr);@/ + wlog_ln(" %d words of memory out of %d", lo_mem_max-mem_min+mem_end-hi_mem_min+2,@| + mem_end+1-mem_min);@/ + wlog_ln(" %d multiletter control sequences out of %d", cs_count, hash_size);@/ + wlog(" %d words of font info for %d font", fmem_ptr, font_ptr-font_base); + if (font_ptr!=font_base+1) wlog("s"); + wlog_ln( ", out of %d for %d", font_mem_size, font_max-font_base);@/ + wlog(" %d hyphenation exception", hyph_count); + if (hyph_count!=1) wlog("s"); + wlog_ln( " out of %d", hyph_size);@/ + wlog_ln(" %di,%dn,%dp,%db,%ds stack positions out of %di,%dn,%dp,%db,%ds", + max_in_stack, max_nest_stack,@| + max_param_stack,@| + max_buf_stack+1,@| + max_save_stack+6,@| + stack_size, + nest_size, + param_size, + buf_size, + save_size ); + } + +@ We get to the |final_cleanup| routine when \.{\\end} or \.{\\dump} has +been scanned and |its_all_over|\kern-2pt. + +@<Last-minute...@>= +static void final_cleanup(void) +{@+ +int c; /*0 for \.{\\end}, 1 for \.{\\dump}*/ +c=cur_chr;if (c!=1) new_line_char=-1; +if (job_name==0) open_log_file(); +while (input_ptr > 0) + if (state==token_list) end_token_list();@+else end_file_reading(); +while (open_parens > 0) + {@+print(" )");decr(open_parens); + } +if (cur_level > level_one) + {@+print_nl("(");print_esc("end occurred "); + print("inside a group at level "); +@:end\_}{\.{(\\end occurred...)}@> + print_int(cur_level-level_one);print_char(')'); + if (eTeX_ex) show_save_groups(); + } +while (cond_ptr!=null) + {@+print_nl("(");print_esc("end occurred "); + print("when ");print_cmd_chr(if_test, cur_if); + if (if_line!=0) + {@+print(" on line ");print_int(if_line); + } + print(" was incomplete)"); + if_line=if_line_field(cond_ptr); + cur_if=subtype(cond_ptr);temp_ptr=cond_ptr; + cond_ptr=link(cond_ptr);free_node(temp_ptr, if_node_size); + } +if (history!=spotless) + if (((history==warning_issued)||(interaction < error_stop_mode))) + if (selector==term_and_log) + {@+selector=term_only; + print_nl("(see the transcript file for additional information)"); +@.see the transcript file...@> + selector=term_and_log; + } +if (c==1) + { +#ifdef @!INIT +for (c=top_mark_code; c<=split_bot_mark_code; c++) + if (cur_mark[c]!=null) delete_token_ref(cur_mark[c]); + for (c=last_box_code; c<=vsplit_code; c++) flush_node_list(disc_ptr[c]); + if (last_glue!=max_halfword) delete_glue_ref(last_glue); + store_fmt_file();return; +#endif + print_nl("(\\dump is performed only by INITEX)");return; +@:dump\_}{\.{\\dump...only by INITEX}@> + } +} + +@ @<Last-minute...@>= +#ifdef @!INIT +static void init_prim(void) /*initialize all the primitives*/ +{@+no_new_control_sequence=false; +first=0; +@<Put each...@>; +no_new_control_sequence=true; +} +#endif + +@ When we begin the following code, \TeX's tables may still contain garbage; +the strings might not even be present. Thus we must proceed cautiously to get +bootstrapped in. + +But when we finish this part of the program, \TeX\ is ready to call on the +|main_control| routine to do its work. + +@<Get the first line...@>= +{@+@<Initialize the input routines@>; +@<Enable \eTeX\ and furthermore Prote, if requested@>@;@/ +if ((format_ident==0)||(buffer[loc]=='&')) + {@+if (format_ident!=0) initialize(); /*erase preloaded format*/ + if (!open_fmt_file()) exit(0); + if (!load_fmt_file()) + {@+w_close(&fmt_file);exit(0); + } + w_close(&fmt_file); + while ((loc < limit)&&(buffer[loc]==' ')) incr(loc); + } +if (eTeX_ex) wterm_ln("entering extended mode"); +if (Prote_ex) {@+Prote_initialize(); + wterm_ln("entering prote mode"); + } +if (end_line_char_inactive) decr(limit); +else buffer[limit]=end_line_char; +fix_date_and_time();@/ +@<Initialize the print |selector|...@>; +if ((loc < limit)&&(cat_code(buffer[loc])!=escape)) start_input(); + /*\.{\\input} assumed*/ +} + +@* Debugging. +Once \TeX\ is working, you should be able to diagnose most errors with +the \.{\\show} commands and other diagnostic features. But for the initial +stages of debugging, and for the revelation of really deep mysteries, you +can compile \TeX\ with a few more aids, including the \PASCAL\ runtime +checks and its debugger. An additional routine called |debug_help| +will also come into play when you type `\.D' after an error message; +|debug_help| also occurs just before a fatal error causes \TeX\ to succumb. +@^debugging@> +@^system dependencies@> + +The interface to |debug_help| is primitive, but it is good enough when used +with a \PASCAL\ debugger that allows you to set breakpoints and to read +variables and change their values. After getting the prompt `\.{debug \#}', you +type either a negative number (this exits |debug_help|), or zero (this +goes to a location where you can set a breakpoint, thereby entering into +dialog with the \PASCAL\ debugger), or a positive number |m| followed by +an argument |n|. The meaning of |m| and |n| will be clear from the +program below. (If |m==13|, there is an additional argument, |l|.) +@.debug \#@> + +@<Last-minute...@>= +#ifdef @!DEBUG +static void debug_help(void) /*routine to display various things*/ +{@+ +int k, @!l, @!m, @!n; +clear_terminal; + loop{@+wake_up_terminal; + print_nl("debug # (-1 to exit):");update_terminal; +@.debug \#@> + if (fscanf(term_in.f," %d",&m)<1 || + m < 0) return; + else if (m==0) + {@+goto breakpoint;@/ /*go to every declared label at least once*/ + breakpoint: m=0; /*'BREAKPOINT'*/@/ + } + else{@+fscanf(term_in.f," %d",&n); + switch (m) { + @t\4@>@<Numbered cases for |debug_help|@>@; + default:print("?"); + } + } + } +} +#endif + +@ @<Numbered cases...@>= +case 1: print_word(mem[n]);@+break; /*display |mem[n]| in all forms*/ +case 2: print_int(info(n));@+break; +case 3: print_int(link(n));@+break; +case 4: print_word(eqtb[n]);@+break; +case 5: print_word(font_info[n]);@+break; +case 6: print_word(save_stack[n]);@+break; +case 7: show_box(n);@+break; + /*show a box, abbreviated by |show_box_depth| and |show_box_breadth|*/ +case 8: {@+breadth_max=10000;depth_threshold=pool_size-pool_ptr-10; + show_node_list(n); /*show a box in its entirety*/ + } @+break; +case 9: show_token_list(n, null, 1000);@+break; +case 10: slow_print(n);@+break; +case 11: check_mem(n > 0);@+break; /*check wellformedness; print new busy locations if |n > 0|*/ +case 12: search_mem(n);@+break; /*look for pointers to |n|*/ +case 13: {@+fscanf(term_in.f," %d",&l);print_cmd_chr(n, l); + } @+break; +case 14: for (k=0; k<=n; k++) printn(buffer[k]);@+break; +case 15: {@+font_in_short_display=null_font;short_display(n); + } @+break; +case 16: panicking=!panicking;@+break; + +@* Extensions. +The program above includes a bunch of ``hooks'' that allow further +capabilities to be added without upsetting \TeX's basic structure. +Most of these hooks are concerned with ``whatsit'' nodes, which are +intended to be used for special purposes; whenever a new extension to +\TeX\ involves a new kind of whatsit node, a corresponding change needs +to be made to the routines below that deal with such nodes, +but it will usually be unnecessary to make many changes to the +other parts of this program. + +In order to demonstrate how extensions can be made, we shall treat +`\.{\\write}', `\.{\\openout}', `\.{\\closeout}', `\.{\\immediate}', +`\.{\\special}', and `\.{\\setlanguage}' as if they were extensions. +These commands are actually primitives of \TeX, and they should +appear in all implementations of the system; but let's try to imagine +that they aren't. Then the program below illustrates how a person +could add them. + +Sometimes, of course, an extension will require changes to \TeX\ itself; +no system of hooks could be complete enough for all conceivable extensions. +The features associated with `\.{\\write}' are almost all confined to the +following paragraphs, but there are small parts of the |print_ln| and +|print_char| procedures that were introduced specifically to \.{\\write} +characters. Furthermore one of the token lists recognized by the scanner +is a |write_text|; and there are a few other miscellaneous places where we +have already provided for some aspect of \.{\\write}. The goal of a \TeX\ +extender should be to minimize alterations to the standard parts of the +program, and to avoid them completely if possible. He or she should also +be quite sure that there's no easy way to accomplish the desired goals +with the standard features that \TeX\ already has. ``Think thrice before +extending,'' because that may save a lot of work, and it will also keep +incompatible extensions of \TeX\ from proliferating. +@^system dependencies@> +@^extensions to \TeX@> + +@ First let's consider the format of whatsit nodes that are used to represent +the data associated with \.{\\write} and its relatives. Recall that a whatsit +has |type==whatsit_node|, and the |subtype| is supposed to distinguish +different kinds of whatsits. Each node occupies two or more words; the +exact number is immaterial, as long as it is readily determined from the +|subtype| or other data. + +We shall introduce five |subtype| values here, corresponding to the +control sequences \.{\\openout}, \.{\\write}, \.{\\closeout}, \.{\\special}, and +\.{\\setlanguage}. The second word of I/O whatsits has a |write_stream| field +that identifies the write-stream number (0 to 15, or 16 for out-of-range and +positive, or 17 for out-of-range and negative). +In the case of \.{\\write} and \.{\\special}, there is also a field that +points to the reference count of a token list that should be sent. In the +case of \.{\\openout}, we need three words and three auxiliary subfields +to hold the string numbers for name, area, and extension. + +@d write_node_size 2 /*number of words in a write/whatsit node*/ +@d open_node_size 3 /*number of words in an open/whatsit node*/ +@d open_node 0 /*|subtype| in whatsits that represent files to \.{\\openout}*/ +@d write_node 1 /*|subtype| in whatsits that represent things to \.{\\write}*/ +@d close_node 2 /*|subtype| in whatsits that represent streams to \.{\\closeout}*/ +@d special_node 3 /*|subtype| in whatsits that represent \.{\\special} things*/ +@d language_node 4 /*|subtype| in whatsits that change the current language*/ +@d what_lang(A) link(A+1) /*language number, in the range |0 dotdot 255|*/ +@d what_lhm(A) type(A+1) /*minimum left fragment, in the range |1 dotdot 63|*/ +@d what_rhm(A) subtype(A+1) /*minimum right fragment, in the range |1 dotdot 63|*/ +@d write_tokens(A) link(A+1) /*reference count of token list to write*/ +@d write_stream(A) info(A+1) /*stream number (0 to 17)*/ +@d open_name(A) link(A+1) /*string number of file name to open*/ +@d open_area(A) info(A+2) /*string number of file area for |open_name|*/ +@d open_ext(A) link(A+2) /*string number of file extension for |open_name|*/ @# + +@d hitex_ext save_pos_code+1 +@d par_node hitex_ext /*|subtype| that records the change of a parameter*/ +@d par_node_size 3 /* number of memory words in a |par_node| */ +@d par_type(A) type(A+1) /* type of parameter */ +@d int_type 0 /* type of an |int_par| node */ +@d dimen_type 1 /* type of an |dimen_par| node */ +@d glue_type 2 /* type of an |glue_par| node */ +@d par_number(A) subtype(A+1) /* the parameter number */ +@d par_value(A) mem[A+2] /* the parameter value */@# + +@d graf_node hitex_ext+1 /*|subtype| that records a paragraph*/ +@d graf_node_size 5 /* number of memory words in a |graf_node| */ +@d graf_penalty(A) mem[A+1].i /* the final penalty */ +@d graf_extent(A) link(A+3) /* the extent */@# +@d graf_params(A) info(A+4) /* list of parameter nodes */ +@d graf_list(A) link(A+4) /* list of content nodes */ + +@d disp_node hitex_ext+2 /*|subtype| that records a math display*/ +@d disp_node_size 3 /* number of memory words in a |disp_node| */ +@d display_left(A) type(A+1) /* 1=left 0=right */ +@d display_no_bs(A) subtype(A+1) /* |prev_depth==ignore_depth| */ +@d display_params(A) link(A+1) /* list of parameter nodes */ +@d display_formula(A) link(A+2) /* formula list */ +@d display_eqno(A) info(A+2) /* box with equation number */@# + +@d baseline_node hitex_ext+3 /*|subtype| that records a |baseline_skip| */ +@d baseline_node_size small_node_size /* This is 2; we will convert baseline nodes to glue nodes */ +@d baseline_node_no(A) mem[A+1].i /* baseline reference */@# + +@d image_node hitex_ext+4 /*|subtype| that records an image */ +@d image_node_size 9 /* width, depth, height, |shift_amount| like a hbox */ +@d image_width(A) width(A) /*width of image */ +@d image_height(A) height(A) /*height of image */ +@d image_depth(A) depth(A) /* depth of image==zero */ +@d image_no(A) mem[A+4].i /* the section number */ +@d image_stretch(A) mem[A+5].sc /*stretchability of image */ +@d image_shrink(A) mem[A+6].sc /*shrinkability of image */ +@d image_stretch_order(A) stretch_order(A+7) +@d image_shrink_order(A) shrink_order(A+7) +@d image_name(A) link(A+7) /*string number of file name */ +@d image_area(A) info(A+8) /*string number of file area */ +@d image_ext(A) link(A+8) /*string number of file extension */@# + +@d hpack_node hitex_ext+5 /* a hlist that needs to go to hpack */ +@d vpack_node hitex_ext+6 /* a vlist that needs to go to vpackage */ +@d pack_node_size box_node_size /* a box node up to |list_ptr|*/ +@d pack_m(A) type(A+list_offset) /* either additional or exactly */ +@d pack_limit(A) mem[(A)+1+list_offset].sc /* depth limit in |vpack| */ +@d pack_extent(A) link(A+2+list_offset) /* extent */@# + +@d hset_node hitex_ext+7 /* represents a hlist that needs |glue_set| */ +@d vset_node hitex_ext+8 /* represents a vlist that needs |glue_set| */ +@d set_node_size box_node_size /* up to |list_ptr| like a box node */ +@d set_stretch_order glue_sign +@d set_shrink_order glue_order +@d set_stretch(A) mem[(A)+1+list_offset].sc /* replaces |glue_set| */ +@d set_extent(A) pack_extent(A) /* extent */ +@d set_shrink(A) mem[(A)+3+list_offset].sc @# + +@d align_node hitex_ext+9 /* represents an alignment */ +@d align_node_size 4 +@d align_extent(A) link(A+2) /* the extent of the alignment */ +@d align_m(A) type(A+2) /* either additional or exactly */ +@d align_v(A) subtype(A+2) /* true if vertical */ +@d align_preamble(A) info(A+3) /* the preamble */ +@d align_list(A) link(A+3) /* the unset rows/columns */ + +@d setpage_node hitex_ext+10 /* represents a page template */ +@d setpage_node_size 6 +@d setpage_name(A) link(A+1) +@d setpage_number(A) type(A+1) /* the \HINT/ number */ +@d setpage_id(A) subtype(A+1) /* the \TeX\ number */ +@d setpage_priority(A) info(A+2) +@d setpage_topskip(A) link(A+2) +@d setpage_depth(A) mem[A+3].sc /* maximum depth */ +@d setpage_height(A) info(A+4) /* extended dimension number */ +@d setpage_width(A) link(A+4) /* extended dimension number */ +@d setpage_list(A) info(A+5) /* the template itself */ +@d setpage_streams(A) link(A+5) /* list of stream definitions */ + +@d setstream_node hitex_ext+11 /* represents a stream definition */ +@d setstream_node_size 6 +@d setstream_number(A) type(A+1) +@d setstream_insertion(A) subtype(A+1) +@d setstream_mag(A) link(A+1) /* magnification factor */ +@d setstream_prefered(A) type(A+2) +@d setstream_next(A) subtype(A+2) +@d setstream_ratio(A) link(A+2) /* split ratio */ +@d setstream_max(A) info(A+3) /* extended dimension number */ +@d setstream_width(A) link(A+3) /* extended dimension number */ +@d setstream_topskip(A) info(A+4) +@d setstream_height(A) link(A+4) +@d setstream_before(A) info(A+5) +@d setstream_after(A) link(A+5) + +@d stream_node hitex_ext+12 /* represents a stream insertion point */ +@d stream_node_size 2 +@d stream_number(A) type(A+1) +@d stream_insertion(A) subtype(A+1) + +@d stream_after_node hitex_ext+13 /* never allocated */ +@d stream_before_node hitex_ext+14 /* never allocated */ + +@d xdimen_node hitex_ext+15 +@d xdimen_node_size 4 +@d xdimen_ref_count(A) link(A) +@d xdimen_width(A) mem[A+1].sc +@d xdimen_hfactor(A) mem[A+2].sc +@d xdimen_vfactor(A) mem[A+3].sc + +@d ignore_node hitex_ext+16 /* ignored used to attach extra information */ +@d ignore_node_size small_node_size /* same as |disc_node| */ +@d ignore_info(A) type(A+1) +@d ignore_list(A) link(A+1) + +@d label_node hitex_ext+17 /* represents a link to a another location */ +@d label_node_size 2 +@d label_has_name(A) type(A+1) /* 1 for a name , 0 for a number */ +@d label_where(A) subtype(A+1) /* 1 for top, 2 for bot, 3 for mid */ +@d label_ptr(A) link(A+1) /* for a name the token list or the number */ +@d label_ref(A) link(A+1) /*alternatively the label number */ + +@d start_link_node hitex_ext+18 /* represents a link to a another location */ +@d end_link_node hitex_ext+19 /* represents a link to a another location */ +@d link_node_size 2 /* second word like a |label_node| */ + +@d outline_node hitex_ext+20 /* represents an outline item */ +@d outline_node_size 4 /* second word like a |label_node| */ +@d outline_ptr(A) link(A+2) /* text to be displayed */ +@d outline_depth(A) mem[A+3].i /* depth of sub items */ + + +@ The sixteen possible \.{\\write} streams are represented by the |write_file| +array. The |j|th file is open if and only if |write_open[j]==true|. The last +two streams are special; |write_open[16]| represents a stream number +greater than 15, while |write_open[17]| represents a negative stream number, +and both of these variables are always |false|. + +@<Glob...@>= +static alpha_file @!write_file[16]; +static bool @!write_open[18]; + +@ @<Set init...@>= +for (k=0; k<=17; k++) write_open[k]=false; + +@ Extensions might introduce new command codes; but it's best to use +|extension| with a modifier, whenever possible, so that |main_control| +stays the same. + +@d immediate_code 4 /*command modifier for \.{\\immediate}*/ +@d set_language_code 5 /*command modifier for \.{\\setlanguage}*/ +@d TeX_last_extension_cmd_mod set_language_code + +@<Put each...@>= +primitive("openout", extension, open_node);@/ +@!@:open\_out\_}{\.{\\openout} primitive@> +primitive("write", extension, write_node);write_loc=cur_val;@/ +@!@:write\_}{\.{\\write} primitive@> +primitive("closeout", extension, close_node);@/ +@!@:close\_out\_}{\.{\\closeout} primitive@> +primitive("special", extension, special_node);@/ +@!@:special\_}{\.{\\special} primitive@> +primitive("immediate", extension, immediate_code);@/ +@!@:immediate\_}{\.{\\immediate} primitive@> +primitive("setlanguage", extension, set_language_code);@/ +@!@:set\_language\_}{\.{\\setlanguage} primitive@> + +primitive("@@HINT", relax, 256); /*cf.\ |relax|*/ +@!@:@@HINT\_}{\.{\\@@HINT} primitive@> + +primitive("HINTdest", extension, label_node);@/ +@!@:HINTdest\_}{\.{\\HINTdest} primitive@> + +primitive("HINTstartlink", extension, start_link_node);@/ +@!@:startlink\_}{\.{\\HINTstartlink} primitive@> + +primitive("HINTendlink", extension, end_link_node);@/ +@!@:HINTendlink\_}{\.{\\HINTendlink} primitive@> + +primitive("HINToutline", extension, outline_node);@/ +@!@:HINToutline\_}{\.{\\HINToutline} primitive@> + +primitive("image", extension, image_node);@/ +@!@:image\_}{\.{\\image} primitive@> + +primitive("setpage", extension, setpage_node);@/ +@!@:setpage\_}{\.{\\setpage} primitive@> + +primitive("stream", extension, stream_node);@/ +@!@:stream\_}{\.{\\stream} primitive@> + +primitive("setstream", extension, setstream_node);@/ +@!@:setstream\_}{\.{\\setstream} primitive@> + +primitive("before", extension, stream_before_node);@/ +@!@:before\_}{\.{\\before} primitive@> + +primitive("after", extension, stream_after_node);@/ +@!@:after\_}{\.{\\after} primitive@> + + +@ The variable |write_loc| just introduced is used to provide an +appropriate error message in case of ``runaway'' write texts. + +@<Glob...@>= +static pointer @!write_loc; /*|eqtb| address of \.{\\write}*/ + +@ @<Cases of |print_cmd_chr|...@>= +case extension: switch (chr_code) { + case open_node: print_esc("openout");@+break; + case write_node: print_esc("write");@+break; + case close_node: print_esc("closeout");@+break; + case special_node: print_esc("special");@+break; + case par_node: print("parameter");@+break; + case graf_node: print("paragraf");@+break; + case disp_node: print("display");@+break; + case baseline_node: print("baselineskip");@+break; + case hpack_node: print("hpack");@+break; + case vpack_node: print("vpack");@+break; + case hset_node: print("hset");@+break; + case vset_node: print("vset");@+break; + case image_node: print("image");@+break; + case start_link_node: print("startlink");@+break; + case end_link_node: print("endlink");@+break; + case label_node: print("dest");@+break; + case outline_node: print("outline");@+break; + case align_node: print("align");@+break; + case setpage_node: print("setpage");@+break; + case setstream_node: print("setstream");@+break; + case stream_node: print("stream");@+break; + case xdimen_node: print("xdimen");@+break; + case ignore_node: print("ignore");@+break; + case immediate_code: print_esc("immediate");@+break; + case set_language_code: print_esc("setlanguage");@+break; + @/@<Cases of |extension| for |print_cmd_chr|@>@/ + default:print("[unknown extension!]"); + } @+break; + +@ When an |extension| command occurs in |main_control|, in any mode, +the |do_extension| routine is called. + +@<Cases of |main_control| that are for extensions...@>= +any_mode(extension): do_extension(); + +@ @<Declare act...@>= +@t\4@>@<Declare procedures needed in |do_extension|@>@; +static void do_extension(void) +{@+int @!k; /*all-purpose integer*/ +pointer @!p; /*all-purpose pointer*/ +switch (cur_chr) { +case open_node: @<Implement \.{\\openout}@>@;@+break; +case write_node: @<Implement \.{\\write}@>@;@+break; +case close_node: @<Implement \.{\\closeout}@>@;@+break; +case special_node: @<Implement \.{\\special}@>@;@+break; +case par_node: +case graf_node: +case disp_node: +case baseline_node: +case hpack_node: +case vpack_node: +case hset_node: +case vset_node: +case align_node: @+break;@# +case image_node:@/ +{@+ pointer p; + scan_optional_equals(); + scan_file_name(); + p=new_image_node(cur_name,cur_area,cur_ext); + loop { + if (scan_keyword("width")) + {@+scan_normal_dimen;@+image_width(p)=cur_val;} + else if (scan_keyword("height")) + {@+scan_normal_dimen;image_height(p)=cur_val; } + else if (scan_keyword("plus")) + { scan_dimen(false, true, false); + image_stretch(p)=cur_val;image_stretch_order(p)=cur_order; + } + else if (scan_keyword("minus")) + { scan_dimen(false, true, false); + image_shrink(p)=cur_val;image_shrink_order(p)=cur_order; + } + else + break; + } + hget_image_information(p); + if (abs(mode)==vmode) + append_to_vlist(p); /* image nodes have height, width, and depth like boxes */ + else + tail_append(p); + break; +} +case start_link_node: + if (abs(mode) == vmode) + fatal_error("HiTeX startlink cannot be used in vertical mode"); + else + { new_whatsit(start_link_node,link_node_size); + scan_label(tail); + } + break; +case end_link_node: + if (abs(mode) == vmode) + fatal_error("HiTeX endlink cannot be used in vertical mode"); + else + new_whatsit(end_link_node,link_node_size); + break; +case label_node: + new_whatsit(label_node,label_node_size); + scan_destination(tail); + if (scan_keyword("top")) label_where(tail)=1; + else if (scan_keyword("bot")) label_where(tail)=2; + else label_where(tail)=3; + scan_spaces(); + break; +case outline_node: + new_whatsit(outline_node,outline_node_size); + scan_label(tail); + if (scan_keyword("depth")) + { scan_int(); + outline_depth(tail)= cur_val; + } + else outline_depth(tail)=0; + outline_ptr(tail)=null; + new_save_level(outline_group);scan_left_brace(); + push_nest();mode=-hmode;prev_depth=ignore_depth;space_factor=1000; + break; +case setpage_node: +{ uint8_t n;@+ + pointer t; + scan_eight_bit_int(); n=cur_val; + if (n==0) + { print_err("Illegal redefinition of page template 0"); print_int(n); error(); break;} + scan_optional_equals(); + scan_file_name(); /* this should be improved to use |scan_name|*/ + t=new_setpage_node(n,cur_name); + loop { + if (scan_keyword("priority")) + {@+scan_eight_bit_int();setpage_priority(t)=cur_val; } + else if (scan_keyword("width")) + {@+scan_normal_dimen; setpage_width(t)=new_xdimen(cur_val,cur_hfactor,cur_vfactor); } + else if (scan_keyword("height")) + {@+scan_normal_dimen; setpage_height(t)=new_xdimen(cur_val,cur_hfactor,cur_vfactor); } + else + break; + } + new_save_level(page_group);scan_left_brace();normal_paragraph(); + push_nest();mode=-vmode;prev_depth=ignore_depth; + break; +} +case stream_node: +{ uint8_t n; + scan_eight_bit_int(); n=cur_val; + new_whatsit(stream_node,stream_node_size); + stream_insertion(tail)=n; + stream_number(tail)=hget_stream_no(n); + break; +} +case setstream_node: +{ uint8_t n; + pointer t, s; + scan_eight_bit_int(); n=cur_val; + scan_optional_equals(); + t=link(setpage_head); + if (t==null) { print_err("\\setstream without \\setpage"); error(); break;} + s=new_setstream_node(n); + link(s)=setpage_streams(t); setpage_streams(t)=s; + loop { + if (scan_keyword("prefered")) + {@+scan_eight_bit_int(); + if (cur_val!=255) + setstream_prefered(s)=hget_stream_no(cur_val); } + else if (scan_keyword("next")) + {@+scan_eight_bit_int(); + if (cur_val!=255) + setstream_next(s)=hget_stream_no(cur_val); } + else if (scan_keyword("ratio")) + {@+scan_int();setstream_ratio(s)=cur_val; } + else + break; + } + new_save_level(stream_group);scan_left_brace();normal_paragraph(); + push_nest();mode=-vmode;prev_depth=ignore_depth; + break; +} +case stream_before_node: + scan_optional_equals(); + new_save_level(stream_before_group);scan_left_brace();normal_paragraph(); + push_nest();mode=-vmode;prev_depth=ignore_depth; + break; +case stream_after_node: + scan_optional_equals(); + new_save_level(stream_after_group);scan_left_brace();normal_paragraph(); + push_nest();mode=-vmode;prev_depth=ignore_depth; + break; +case xdimen_node: +case ignore_node: @+break; +case immediate_code: @<Implement \.{\\immediate}@>@;@+break; +case set_language_code: @<Implement \.{\\setlanguage}@>@;@+break; +@/@<Cases for |do_extension|@>@/ +default:confusion("ext1"); +@:this can't happen ext1}{\quad ext1@> +} +} + +@ @<Declare procedures needed in |do_extension|@>= +void scan_spaces(void) +{ @<Get the next non-blank non-call token@>; + back_input(); +} +void scan_destination(pointer p) +{@+if (scan_keyword("name")) + { label_has_name(p)=1; + scan_toks(false,true); label_ptr(p)=def_ref; + } + else if (scan_keyword("num")) + { label_has_name(p)=0; scan_int(); label_ptr(p)=cur_val; + } + else + { print_err("`name {...}' or `num 000' expected. Inserted `num 0'."); + label_has_name(p)=0; label_ptr(p)=0; + error(); + return; + } + scan_spaces(); +} +void scan_label(pointer p) +{ if (!scan_keyword("goto")) + print_err("keyword `goto' inserted"); + scan_destination(p); +} + +@ Here is a subroutine that creates a whatsit node having a given |subtype| +and a given number of words. It initializes only the first word of the whatsit, +and appends it to the current list. + +@<Declare procedures needed in |do_extension|@>= +static void new_whatsit(small_number @!s, small_number @!w) +{@+pointer p; /*the new node*/ +p=get_node(w);type(p)=whatsit_node;subtype(p)=s; +link(tail)=p;tail=p; +} + +@ The next subroutine uses |cur_chr| to decide what sort of whatsit is +involved, and also inserts a |write_stream| number. + +@<Declare procedures needed in |do_ext...@>= +static void new_write_whatsit(small_number @!w) +{@+new_whatsit(cur_chr, w); +if (w!=write_node_size) scan_four_bit_int(); +else{@+scan_int(); + if (cur_val < 0) cur_val=17; + else if (cur_val > 15) cur_val=16; + } +write_stream(tail)=cur_val; +} + +@ @<Implement \.{\\openout}@>= +{@+new_write_whatsit(open_node_size); +scan_optional_equals();scan_file_name();@/ +open_name(tail)=cur_name;open_area(tail)=s_no(cur_area);open_ext(tail)=s_no(cur_ext); +} + +@ When `\.{\\write 12\{...\}}' appears, we scan the token list `\.{\{...\}}' +without expanding its macros; the macros will be expanded later when this +token list is rescanned. + +@<Implement \.{\\write}@>= +{@+k=cur_cs;new_write_whatsit(write_node_size);@/ +cur_cs=k;p=scan_toks(false, false);write_tokens(tail)=def_ref; +} + +@ @<Implement \.{\\closeout}@>= +{@+new_write_whatsit(write_node_size);write_tokens(tail)=null; +} + +@ When `\.{\\special\{...\}}' appears, we expand the macros in the token +list as in \.{\\xdef} and \.{\\mark}. + +@<Implement \.{\\special}@>= +{@+new_whatsit(special_node, write_node_size);write_stream(tail)=null; +p=scan_toks(false, true);write_tokens(tail)=def_ref; +} + +@ Each new type of node that appears in our data structure must be capable +of being displayed, copied, destroyed, and so on. The routines that we +need for write-oriented whatsits are somewhat like those for mark nodes; +other extensions might, of course, involve more subtlety here. + +@<Basic printing...@>= +static void print_mark(int @!p); +static void print_label(pointer @!p) +{ print("goto "); + if (label_has_name(p)) { print("name "); print_mark(label_ptr(p));} + else { print("num "); print_int(label_ptr(p));} +} + +static void print_write_whatsit(char *@!s, pointer @!p) +{@+print_esc(s); +if (write_stream(p) < 16) print_int(write_stream(p)); +else if (write_stream(p)==16) print_char('*'); +@.*\relax@> +else print_char('-'); +} + +@ @<Display the whatsit...@>= +switch (subtype(p)) { +case open_node: {@+print_write_whatsit("openout", p); + print_char('=');printn_file_name(open_name(p), open_area(p), open_ext(p)); + } @+break; +case write_node: {@+print_write_whatsit("write", p); + print_mark(write_tokens(p)); + } @+break; +case close_node: print_write_whatsit("closeout", p);@+break; +case special_node: {@+print_esc("special"); + print_mark(write_tokens(p)); + } @+break; +case language_node: {@+print_esc("setlanguage"); + print_int(what_lang(p));print(" (hyphenmin "); + print_int(what_lhm(p));print_char(','); + print_int(what_rhm(p));print_char(')'); + } @+break; +@/@<Cases for displaying the |whatsit| node@>@/ +case par_node: print_esc("parameter "); + print_int(par_type(p));print_char(',');print_int(par_number(p)); + print_char(':');print_int(par_value(p).i); + break; +case graf_node: print_esc("paragraf("); + print_int(graf_penalty(p)); + print_char(')'); + node_list_display(graf_params(p)); + node_list_display(graf_list(p)); + print_xdimen(graf_extent(p)); + break; +case disp_node: print_esc("display "); + node_list_display(display_eqno(p)); + if (display_left(p)) print("left "); else print("right "); + node_list_display(display_formula(p)); + node_list_display(display_params(p)); + break; +case baseline_node: print_esc("baselineskip "); + print_baseline_skip(baseline_node_no(p)); + break; +case hset_node: case vset_node: + print_char('\\'); + print_char(subtype(p)==hset_node?'h':'v'); + print("set("); + print_scaled(height(p)); print_char('+'); + print_scaled(depth(p)); print(")x"); print_scaled(width(p)); + if (shift_amount(p)!=0) + {@+print(", shifted ");print_scaled(shift_amount(p)); + } + if (set_stretch(p)!=0) + {@+print(", stretch ");print_glue(set_stretch(p),set_stretch_order(p),"pt"); + } + if (set_shrink(p)!=0) + {@+print(", shrink ");print_glue(set_shrink(p),set_shrink_order(p),"pt"); + } + print(", extent "); print_xdimen(set_extent(p)); + node_list_display(list_ptr(p)); /*recursive call*/ + break; +case hpack_node: case vpack_node: + print_char('\\'); + print_char(subtype(p)==hpack_node?'h':'v'); + print("pack("); + print(pack_m(p)==exactly?"exactly ":"additional "); + print_xdimen(pack_extent(p)); + if (subtype(p)==vpack_node && pack_limit(p)!=max_dimen) { print(", limit "); print_scaled(pack_limit(p)); } + print_char(')'); + node_list_display(list_ptr(p)); + break; +case image_node: + print_esc("image("); + print_char('(');print_scaled(image_height(p)); + print_char('+'); print_scaled(image_depth(p)); + print(")x"); print_scaled(image_width(p)); + if (image_stretch(p)!=0) { print(" plus ");print_glue(image_stretch(p), image_stretch_order(p),"pt"); } + if (image_shrink(p)!=0) { print(" minus ");print_glue(image_shrink(p), image_shrink_order(p), "pt"); } + print(", section ");print_int(image_no(p)); + if (image_name(p)!=0) {print(", "); printn(image_name(p));} + break; +case align_node: + print_esc("align("); + print(align_m(p)==exactly?"exactly ":"additional "); + print_xdimen(align_extent(p));print_char(')'); + node_list_display(align_preamble(p)); + print_char(':'); + node_list_display(align_list(p)); + break; +case setpage_node: + print_esc("setpage");print_int(setpage_number(p));print_char(' '); printn(setpage_name(p)); + print(" priority ");print_int(setpage_priority(p)); + print(" width ");print_xdimen(setpage_width(p)); + print(" height ");print_xdimen(setpage_height(p)); + print_ln();print_current_string();print(".\\topskip=");print_spec(setpage_topskip(p),0); + print_ln();print_current_string();print(".\\maxdepth=");print_scaled(setpage_depth(p)); + node_list_display(setpage_list(p)); + node_list_display(setpage_streams(p)); + break; +case setstream_node: + print_esc("setstream");print_int(setstream_insertion(p)); + print_char('(');print_int(setstream_number(p));print_char(')'); + if (setstream_prefered(p)!=255) { print(" prefered ");print_int(setstream_prefered(p)); } + if (setstream_ratio(p)>0) { print(" ratio ");print_int(setstream_ratio(p)); } + if (setstream_next(p)!=255) { print(" next ");print_int(setstream_next(p)); } + append_char('.'); + print_ln();print_current_string();print_esc("count");print_int(setstream_insertion(p));print_char('='); + print_int(setstream_mag(p)); + print_ln();print_current_string();print_esc("dimen");print_int(setstream_insertion(p));print_char('='); + print_xdimen(setstream_max(p)); + print_ln();print_current_string();print_esc("skip");print_int(setstream_insertion(p));print_char('='); + print_spec(setstream_height(p),0); + print_ln();print_current_string();print_esc("hsize=");print_xdimen(setstream_width(p)); + print_ln();print_current_string();print_esc("topskip=");print_spec(setstream_topskip(p),0); + if (setstream_before(p)!=null) { print_ln();print_current_string();print_esc("before");node_list_display(setstream_before(p));} + if (setstream_after(p)!=null) { print_ln();print_current_string();print_esc("after");node_list_display(setstream_after(p));} + flush_char; + break; +case ignore_node: + print_esc("ignore ");print_int(ignore_info(p));print_char(':'); + node_list_display(ignore_list(p)); + break; +case start_link_node: + print_esc("startlink "); + print_label(p); + break; +case end_link_node: + print_esc("endlink "); + break; +case label_node: + print_esc("dest "); + print_label(p); + if (label_where(p)==1) print("top"); + else if (label_where(p)==2) print("bot"); + else if (label_where(p)==3) print("mid"); + else print("undefined"); + break; +case outline_node: + print_esc("outline"); + print_label(p); + print(" depth "); print_int(outline_depth(p)); + if (outline_ptr(p)==null) print("{}"); else + { print_ln();print_current_string();node_list_display(outline_ptr(p));} + break; +case stream_node: + print_esc("stream");print_int(stream_insertion(p)); + print_char('(');print_int(stream_number(p));print_char(')'); + break; +case xdimen_node: + print_esc("xdimen ");print_xdimen(p); + break; +default: print("whatsit?"); +} + +@ @<Make a partial copy of the whatsit...@>= +switch (subtype(p)) { +case open_node: {@+r=get_node(open_node_size);words=open_node_size; + } @+break; +case write_node: case special_node: {@+r=get_node(write_node_size); + add_token_ref(write_tokens(p));words=write_node_size; + } @+break; +case close_node: case language_node: {@+r=get_node(small_node_size); + words=small_node_size; + } @+break; +@/@<Cases for making a partial copy of the whatsit node@>@/ +case par_node: +{@+r=get_node(par_node_size); + if (par_type(p)==glue_type) add_glue_ref(par_value(p).i); + words=par_node_size; + } @+break; +case graf_node: +{@+r=get_node(graf_node_size); + add_xdimen_ref(graf_extent(p)); + graf_params(r)=copy_node_list(graf_params(p)); + graf_list(r)=copy_node_list(graf_list(p)); + words=graf_node_size-1; + } @+break; +case disp_node: +{@+r=get_node(disp_node_size); + display_left(r)=display_left(p); + display_no_bs(r)=display_no_bs(p); + display_eqno(r)=copy_node_list(display_eqno(p)); + display_formula(r)=copy_node_list(display_formula(p)); + display_params(r)=copy_node_list(display_params(p)); + words=disp_node_size-2; + } @+break; +case baseline_node: +{@+r=get_node(baseline_node_size); + words=baseline_node_size; + } @+break; +case hpack_node: case vpack_node: +{@+r=get_node(pack_node_size); + pack_m(r)=pack_m(p); + list_ptr(r)=copy_node_list(list_ptr(p)); + add_xdimen_ref(pack_extent(p)); + pack_limit(r)=pack_limit(p); + words=pack_node_size-3; + } @+break; +case hset_node: case vset_node: +{@+r=get_node(set_node_size); + mem[r+8]=mem[p+8];mem[r+7]=mem[p+7];mem[r+6]=mem[p+6];mem[r+5]=mem[p+5]; /*copy the last four words*/ + add_xdimen_ref(set_extent(p)); + list_ptr(r)=copy_node_list(list_ptr(p)); /*this affects |mem[r+5]|*/ + words=5; + } @+break; +case image_node: + r=get_node(image_node_size); + words=image_node_size; + break; +case align_node: + {@+r=get_node(align_node_size); + align_preamble(r)=copy_node_list(align_preamble(p)); + align_list(r)=copy_node_list(align_list(p)); + add_xdimen_ref(align_extent(p)); + words=align_node_size-1; + } @+break; +case setpage_node: + {@+r=get_node(setpage_node_size); + add_glue_ref(setpage_topskip(p)); + add_xdimen_ref(setpage_height(p)); + add_xdimen_ref(setpage_width(p)); + setpage_list(r)=copy_node_list(setpage_list(p)); + setpage_streams(r)=copy_node_list(setpage_streams(p)); + words=setpage_node_size-1; + } @+break; +case setstream_node: + {@+r=get_node(setstream_node_size); + add_xdimen_ref(setstream_max(p)); + add_xdimen_ref(setstream_width(p)); + add_glue_ref(setstream_topskip(p)); + add_glue_ref(setstream_height(p)); + setstream_before(r)=copy_node_list(setstream_before(p)); + setstream_after(r)=copy_node_list(setstream_after(p)); + words=setstream_node_size-1; + } @+break; +case ignore_node: + r=get_node(ignore_node_size); + ignore_info(r)=ignore_info(p); + ignore_list(r)=copy_node_list(ignore_list(p)); + words=ignore_node_size-1; + break; +case start_link_node: + r=get_node(link_node_size); + if (label_has_name(p)) add_token_ref(label_ptr(p)); + words=link_node_size; + break; +case end_link_node: + r=get_node(link_node_size); + words=link_node_size; + break; +case label_node: + r=get_node(label_node_size); + if (label_has_name(p)) add_token_ref(label_ptr(p)); + words=label_node_size; + break; +case outline_node: + r=get_node(outline_node_size); + if (label_has_name(p)) add_token_ref(label_ptr(p)); + outline_ptr(r)=copy_node_list(outline_ptr(p)); + words=outline_node_size-1; + break; +case stream_node: + r=get_node(stream_node_size); + words=stream_node_size; + break; +case xdimen_node: + r=get_node(xdimen_node_size); + words=xdimen_node_size; + break; +default:confusion("ext2"); +@:this can't happen ext2}{\quad ext2@> +} + +@ @<Wipe out the whatsit...@>= +{@+switch (subtype(p)) { +case open_node: free_node(p, open_node_size);@+break; +case write_node: case special_node: {@+delete_token_ref(write_tokens(p)); + free_node(p, write_node_size);goto done; + } +case close_node: case language_node: free_node(p, small_node_size);@+break; +case par_node: + if (par_type(p)==glue_type) fast_delete_glue_ref(par_value(p).i); + free_node(p, par_node_size);@+break; +case graf_node: + delete_xdimen_ref(graf_extent(p)); + flush_node_list(graf_params(p)); + flush_node_list(graf_list(p)); + free_node(p, graf_node_size);@+break; +case disp_node: + flush_node_list(display_eqno(p)); + flush_node_list(display_formula(p)); + flush_node_list(display_params(p)); + free_node(p, disp_node_size);@+break; +case baseline_node: + free_node(p, baseline_node_size);@+break; +case hpack_node: case vpack_node: + delete_xdimen_ref(pack_extent(p)); + flush_node_list(list_ptr(p)); + free_node(p, pack_node_size);@+break; +case hset_node: case vset_node: + delete_xdimen_ref(set_extent(p)); + flush_node_list(list_ptr(p)); + free_node(p, set_node_size);@+break; +case image_node: + free_node(p,image_node_size);@+break; +case align_node: + delete_xdimen_ref(align_extent(p)); + flush_node_list(align_preamble(p)); + flush_node_list(align_list(p)); + free_node(p, align_node_size);@+break; +case setpage_node: + delete_glue_ref(setpage_topskip(p)); + delete_xdimen_ref(setpage_height(p)); + delete_xdimen_ref(setpage_width(p)); + flush_node_list(setpage_list(p)); + flush_node_list(setpage_streams(p)); + free_node(p, setpage_node_size);@+break; +case setstream_node: + delete_xdimen_ref(setstream_max(p)); + delete_xdimen_ref(setstream_width(p)); + delete_glue_ref(setstream_topskip(p)); + delete_glue_ref(setstream_height(p)); + flush_node_list(setstream_before(p)); + flush_node_list(setstream_after(p)); + free_node(p,setstream_node_size); @+break; +case ignore_node: + flush_node_list(ignore_list(p)); + free_node(p,ignore_node_size); @+break; +case start_link_node: + if (label_has_name(p)) delete_token_ref(label_ptr(p)); + free_node(p,link_node_size);@+break; +case end_link_node: + free_node(p,link_node_size);@+break; +case label_node: + if (label_has_name(p)) delete_token_ref(label_ptr(p)); + free_node(p,label_node_size);@+break; +case outline_node: + if (label_has_name(p)) delete_token_ref(label_ptr(p)); + flush_node_list(outline_ptr(p)); + free_node(p,outline_node_size);@+break; +case stream_node: + free_node(p,stream_node_size); @+break; +case xdimen_node: + free_node(p,xdimen_node_size); +@/@<Cases for wiping out the whatsit node@>@/ +default:confusion("ext3"); +@:this can't happen ext3}{\quad ext3@> +} @/ +goto done; +} + +@ @<Incorporate a whatsit node into a vbox@>=do_nothing + +@ @<Incorporate a whatsit node into an hbox@>=do_nothing + +@ @<Let |d| be the width of the whatsit |p|@>=d=0 + +@ @d adv_past(A) @+if (subtype(A)==language_node) + {@+cur_lang=what_lang(A);l_hyf=what_lhm(A);r_hyf=what_rhm(A);@+} + +@<Advance \(p)past a whatsit node in the \(l)|line_break| loop@>=@+ +adv_past(cur_p) + +@ @<Advance \(p)past a whatsit node in the \(p)pre-hyphenation loop@>=@+ +adv_past(s) + +@ @<Prepare to move whatsit |p| to the current page, then |goto contribute|@>= +goto contribute + +@ @<Process whatsit |p| in |vert_break| loop, |goto not_found|@>= +goto not_found + +@ @<Output the whatsit node |p| in a vlist@>= +out_what(p) + +@ @<Output the whatsit node |p| in an hlist@>= +out_what(p) + +@ After all this preliminary shuffling, we come finally to the routines +that actually send out the requested data. Let's do \.{\\special} first +(it's easier). + +@<Declare procedures needed in |hlist_out|, |vlist_out|@>= +static void special_out(pointer @!p) +{@+int old_setting; /*holds print |selector|*/ +int @!k; /*index into |str_pool|*/ +synch_h;synch_v;@/ +old_setting=selector;selector=new_string; +show_token_list(link(write_tokens(p)), null, pool_size-pool_ptr); +selector=old_setting; +str_room(1); +if (cur_length < 256) + {@+dvi_out(xxx1);dvi_out(cur_length); + } +else{@+dvi_out(xxx4);dvi_four(cur_length); + } +for (k=str_start[str_ptr]; k<=pool_ptr-1; k++) dvi_out(so(str_pool[k])); +pool_ptr=str_start[str_ptr]; /*erase the string*/ +} + +@ To write a token list, we must run it through \TeX's scanner, expanding +macros and \.{\\the} and \.{\\number}, etc. This might cause runaways, +if a delimited macro parameter isn't matched, and runaways would be +extremely confusing since we are calling on \TeX's scanner in the middle +of a \.{\\shipout} command. Therefore we will put a dummy control sequence as +a ``stopper,'' right after the token list. This control sequence is +artificially defined to be \.{\\outer}. +@:end\_write\_}{\.{\\endwrite}@> + +@<Initialize table...@>= +text(end_write)=s_no("endwrite");eq_level(end_write)=level_one; +eq_type(end_write)=outer_call;equiv(end_write)=null; + +@ @<Declare procedures needed in |hlist_out|, |vlist_out|@>= +static void write_out(pointer @!p) +{@+int old_setting; /*holds print |selector|*/ +int @!old_mode; /*saved |mode|*/ +small_number @!j; /*write stream number*/ +pointer @!q, @!r; /*temporary variables for list manipulation*/ +@<Expand macros in the token list and make |link(def_ref)| point to the result@>; +old_setting=selector;j=write_stream(p); +if (write_open[j]) selector=j; +else{@+ /*write to the terminal if file isn't open*/ + if ((j==17)&&(selector==term_and_log)) selector=log_only; + print_nl(""); + } +token_show(def_ref);print_ln(); +flush_list(def_ref);selector=old_setting; +} + +@ The final line of this routine is slightly subtle; at least, the author +didn't think about it until getting burnt! There is a used-up token list +@^Knuth, Donald Ervin@> +on the stack, namely the one that contained |end_write_token|. (We +insert this artificial `\.{\\endwrite}' to prevent runaways, as explained +above.) If it were not removed, and if there were numerous writes on a +single page, the stack would overflow. + +@d end_write_token cs_token_flag+end_write + +@<Expand macros in the token list and...@>= +q=get_avail();info(q)=right_brace_token+'}';@/ +r=get_avail();link(q)=r;info(r)=end_write_token;ins_list(q);@/ +begin_token_list(write_tokens(p), write_text);@/ +q=get_avail();info(q)=left_brace_token+'{';ins_list(q); + /*now we're ready to scan + `\.\{$\langle\,$token list$\,\rangle$\.{\} \\endwrite}'*/ +old_mode=mode;mode=0; + /*disable \.{\\prevdepth}, \.{\\spacefactor}, \.{\\lastskip}, \.{\\prevgraf}*/ +cur_cs=write_loc;q=scan_toks(false, true); /*expand macros, etc.*/ +get_token();@+if (cur_tok!=end_write_token) + @<Recover from an unbalanced write command@>; +mode=old_mode; +end_token_list() /*conserve stack space*/ + +@ @<Recover from an unbalanced write command@>= +{@+print_err("Unbalanced write command"); +@.Unbalanced write...@> +help2("On this page there's a \\write with fewer real {'s than }'s.",@/ +"I can't handle that very well; good luck.");error(); +@/do@+{get_token(); +}@+ while (!(cur_tok==end_write_token)); +} + +@ The |out_what| procedure takes care of outputting whatsit nodes for +|vlist_out| and |hlist_out|\kern-.3pt. + +@<Declare procedures needed in |hlist_out|, |vlist_out|@>= +@t\4@>@<Declare procedures needed in |out_what|@>@; +static void out_what(pointer @!p) +{@+small_number j; /*write stream number*/ +switch (subtype(p)) { +case open_node: case write_node: case close_node: @<Do some work that has been queued +up for \.{\\write}@>@;@+break; +case special_node: +case language_node: +case save_pos_code: do_nothing;@+break; +default:confusion("ext4"); +@:this can't happen ext4}{\quad ext4@> +} +} + +@ We don't implement \.{\\write} inside of leaders. (The reason is that +the number of times a leader box appears might be different in different +implementations, due to machine-dependent rounding in the glue calculations.) +@^leaders@> + +@<Do some work that has been queued up...@>= +if (!doing_leaders) + {@+j=write_stream(p); + if (subtype(p)==write_node) write_out(p); + else{@+if (write_open[j]) a_close(&write_file[j]); + if (subtype(p)==close_node) write_open[j]=false; + else if (j < 16) + {@+cur_name=open_name(p); + set_cur_area_ext(open_area(p),open_ext(p)); + if (cur_ext[0]==0) cur_ext=".tex"; + pack_cur_name; + while (!a_open_out(&write_file[j])) + prompt_file_name("output file name",".tex"); + write_open[j]=true; + } + } + } + +@ The presence of `\.{\\immediate}' causes the |do_extension| procedure +to descend to one level of recursion. Nothing happens unless \.{\\immediate} +is followed by `\.{\\openout}', `\.{\\write}', or `\.{\\closeout}'. +@^recursion@> + +@<Implement \.{\\immediate}@>= +{@+get_x_token(); +if ((cur_cmd==extension)&&(cur_chr <= close_node)) + {@+p=tail;do_extension(); /*append a whatsit node*/ + out_what(tail); /*do the action immediately*/ + flush_node_list(tail);tail=p;link(p)=null; + } +else back_input(); +} + +@ The \.{\\language} extension is somewhat different. +We need a subroutine that comes into play when a character of +a non-|clang| language is being appended to the current paragraph. + +@<Declare action...@>= +static void fix_language(void) +{@+ASCII_code @!l; /*the new current language*/ +if (language <= 0) l=0; +else if (language > 255) l=0; +else l=language; +if (l!=clang) + {@+new_whatsit(language_node, small_node_size); + what_lang(tail)=l;clang=l;@/ + what_lhm(tail)=norm_min(left_hyphen_min); + what_rhm(tail)=norm_min(right_hyphen_min); + } +} + +@ @<Implement \.{\\setlanguage}@>= +if (abs(mode)!=hmode) report_illegal_case(); +else{@+new_whatsit(language_node, small_node_size); + scan_int(); + if (cur_val <= 0) clang=0; + else if (cur_val > 255) clang=0; + else clang=cur_val; + what_lang(tail)=clang; + what_lhm(tail)=norm_min(left_hyphen_min); + what_rhm(tail)=norm_min(right_hyphen_min); + } + +@ @<Finish the extensions@>= +for (k=0; k<=15; k++) if (write_open[k]) a_close(&write_file[k]) + +@* The extended features of \eTeX. +The program has three modes of operation: (1)~In \TeX\ compatibility mode +it fully deserves the name \TeX\ and there are neither extended features +nor additional primitive commands. There are, however, a few +modifications that would be legitimate in any implementation of \TeX\ +such as, e.g., preventing inadequate results of the glue to \.{DVI} +unit conversion during |ship_out|. (2)~In extended mode there are +additional primitive commands and the extended features of \eTeX\ are +available. (3)~In \Prote\ mode there are supplementary primitive +commands that will be discussed in the section below. + +The distinction between these three modes of operation initially takes +place when a `virgin' \.{eINITEX} starts without reading a format file. +Later on the values of all \eTeX\ state variables are inherited when +\.{eVIRTEX} (or \.{eINITEX}) reads a format file. + +The code below is designed to work for cases where `$|init|\ldots|tini|$' +is a run-time switch. + +@<Enable \eTeX\ and furthermore Prote, if requested@>= +#ifdef @!INIT +if (iniversion && (buffer[loc]=='*'||etexp)&&str_eq_str(format_ident," (INITEX)")) + {@+no_new_control_sequence=false; + @<Generate all \eTeX\ primitives@>@; + if (buffer[loc]=='*') incr(loc); + eTeX_mode=1; /*enter extended mode*/ + @<Initialize variables for \eTeX\ extended mode@>@; + if (buffer[loc]=='*'||protep) {@+ + @<Check \Prote\ ``constant'' values for consistency@>@; + @<Generate all \Prote\ primitives@>@; + if (buffer[loc]=='*')incr(loc); + Prote_mode=1; /*enter \Prote\ mode*/ + } + } +#endif +@;@/ +if (!no_new_control_sequence) /*just entered extended mode ?*/ + no_new_control_sequence=true;@+else + +@ The \eTeX\ features available in extended mode are grouped into two +categories: (1)~Some of them are permanently enabled and have no +semantic effect as long as none of the additional primitives are +executed. (2)~The remaining \eTeX\ features are optional and can be +individually enabled and disabled. For each optional feature there is +an \eTeX\ state variable named \.{\\...state}; the feature is enabled, +resp.\ disabled by assigning a positive, resp.\ non-positive value to +that integer. + +@d eTeX_state_base (int_base+eTeX_state_code) +@d eTeX_state(A) eqtb[eTeX_state_base+A].i /*an \eTeX\ state variable*/ +@# +@d eTeX_version_code eTeX_int /*code for \.{\\eTeXversion}*/ + +@<Generate all \eTeX...@>= +primitive("lastnodetype", last_item, last_node_type_code); +@!@:last\_node\_type\_}{\.{\\lastnodetype} primitive@> +primitive("eTeXversion", last_item, eTeX_version_code); +@!@:eTeX\_version\_}{\.{\\eTeXversion} primitive@> +primitive("eTeXrevision", convert, eTeX_revision_code);@/ +@!@:eTeX\_revision\_}{\.{\\eTeXrevision} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case last_node_type_code: print_esc("lastnodetype");@+break; +case eTeX_version_code: print_esc("eTeXversion");@+break; + +@ @<Cases for fetching an integer value@>= +case eTeX_version_code: cur_val=eTeX_version;@+break; + +@ @d eTeX_ex (eTeX_mode==1) /*is this extended mode?*/ + +@<Glob...@>= +static int @!eTeX_mode; /*identifies compatibility and extended mode*/ + +@ @<Initialize table entries...@>= +eTeX_mode=0; /*initially we are in compatibility mode*/ +@<Initialize variables for \eTeX\ compatibility mode@>@; + +@ @<Dump the \eTeX\ state@>= +dump_int(eTeX_mode); +for (j=0; j<=eTeX_states-1; j++) eTeX_state(j)=0; /*disable all enhancements*/ + +@ @<Undump the \eTeX\ state@>= +undump(0, 1, eTeX_mode); +if (eTeX_ex) + {@+@<Initialize variables for \eTeX\ extended mode@>; + } +else{@+@<Initialize variables for \eTeX\ compatibility mode@>; + } + +@ The |eTeX_enabled| function simply returns its first argument as +result. This argument is |true| if an optional \eTeX\ feature is +currently enabled; otherwise, if the argument is |false|, the function +gives an error message. + +@<Declare \eTeX\ procedures for use...@>= +static bool eTeX_enabled(bool @!b, quarterword @!j, halfword @!k) +{@+if (!b) + {@+print_err("Improper ");print_cmd_chr(j, k); + help1("Sorry, this optional e-TeX feature has been disabled.");error(); + } +return b; +} + +@ First we implement the additional \eTeX\ parameters in the table of +equivalents. + +@<Generate all \eTeX...@>= +primitive("everyeof", assign_toks, every_eof_loc); +@!@:every\_eof\_}{\.{\\everyeof} primitive@> +primitive("tracingassigns", assign_int, int_base+tracing_assigns_code);@/ +@!@:tracing\_assigns\_}{\.{\\tracingassigns} primitive@> +primitive("tracinggroups", assign_int, int_base+tracing_groups_code);@/ +@!@:tracing\_groups\_}{\.{\\tracinggroups} primitive@> +primitive("tracingifs", assign_int, int_base+tracing_ifs_code);@/ +@!@:tracing\_ifs\_}{\.{\\tracingifs} primitive@> +primitive("tracingscantokens", assign_int, int_base+tracing_scan_tokens_code);@/ +@!@:tracing\_scan\_tokens\_}{\.{\\tracingscantokens} primitive@> +primitive("tracingnesting", assign_int, int_base+tracing_nesting_code);@/ +@!@:tracing\_nesting\_}{\.{\\tracingnesting} primitive@> +primitive("savingvdiscards", assign_int, int_base+saving_vdiscards_code);@/ +@!@:saving\_vdiscards\_}{\.{\\savingvdiscards} primitive@> + +@ @d every_eof equiv(every_eof_loc) + +@<Cases of |assign_toks| for |print_cmd_chr|@>= +case every_eof_loc: print_esc("everyeof");@+break; + +@ @<Cases for |print_param|@>= +case tracing_assigns_code: print_esc("tracingassigns");@+break; +case tracing_groups_code: print_esc("tracinggroups");@+break; +case tracing_ifs_code: print_esc("tracingifs");@+break; +case tracing_scan_tokens_code: print_esc("tracingscantokens");@+break; +case tracing_nesting_code: print_esc("tracingnesting");@+break; +case saving_vdiscards_code: print_esc("savingvdiscards");@+break; + +@ In order to handle \.{\\everyeof} we need an array |eof_seen| of +boolean variables. + +@<Glob...@>= +static bool @!eof_seen0[max_in_open], *const @!eof_seen = @!eof_seen0-1; /*has eof been seen?*/ + +@ The |print_group| procedure prints the current level of grouping and +the name corresponding to |cur_group|. + +@<Declare \eTeX\ procedures for tr...@>= +static void print_group(bool @!e) +{@+ +switch (cur_group) { + case bottom_level: {@+print("bottom level");return; + } + case simple_group: case semi_simple_group: + {@+if (cur_group==semi_simple_group) print("semi "); + print("simple"); + } @+break; + case hbox_group: case adjusted_hbox_group: + {@+if (cur_group==adjusted_hbox_group) print("adjusted "); + print("hbox"); + } @+break; + case vbox_group: print("vbox");@+break; + case vtop_group: print("vtop");@+break; + case align_group: case no_align_group: + {@+if (cur_group==no_align_group) print("no "); + print("align"); + } @+break; + case output_group: print("output");@+break; + case disc_group: print("disc");@+break; + case insert_group: print("insert");@+break; + case vcenter_group: print("vcenter");@+break; + case math_group: case math_choice_group: case math_shift_group: case math_left_group: + {@+print("math"); + if (cur_group==math_choice_group) print(" choice"); + else if (cur_group==math_shift_group) print(" shift"); + else if (cur_group==math_left_group) print(" left"); + } + } /*there are no other cases*/ +print(" group (level ");print_int(qo(cur_level));print_char(')'); +if (saved(-1)!=0) + {@+if (e) print(" entered at line ");else print(" at line "); + print_int(saved(-1)); + } +} + +@ The |group_trace| procedure is called when a new level of grouping +begins (|e==false|) or ends (|e==true|) with |saved(-1)| containing the +line number. + +@<Declare \eTeX\ procedures for tr...@>= +#ifdef @!STAT +static void group_trace(bool @!e) +{@+begin_diagnostic();print_char('{'); +if (e) print("leaving ");else print("entering "); +print_group(e);print_char('}');end_diagnostic(false); +} +#endif + +@ The \.{\\currentgrouplevel} and \.{\\currentgrouptype} commands return +the current level of grouping and the type of the current group +respectively. + +@d current_group_level_code (eTeX_int+1) /*code for \.{\\currentgrouplevel}*/ +@d current_group_type_code (eTeX_int+2) /*code for \.{\\currentgrouptype}*/ + +@<Generate all \eTeX...@>= +primitive("currentgrouplevel", last_item, current_group_level_code); +@!@:current\_group\_level\_}{\.{\\currentgrouplevel} primitive@> +primitive("currentgrouptype", last_item, current_group_type_code); +@!@:current\_group\_type\_}{\.{\\currentgrouptype} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case current_group_level_code: print_esc("currentgrouplevel");@+break; +case current_group_type_code: print_esc("currentgrouptype");@+break; + +@ @<Cases for fetching an integer value@>= +case current_group_level_code: cur_val=cur_level-level_one;@+break; +case current_group_type_code: cur_val=cur_group;@+break; + +@ The \.{\\currentiflevel}, \.{\\currentiftype}, and +\.{\\currentifbranch} commands return the current level of conditionals +and the type and branch of the current conditional. + +@d current_if_level_code (eTeX_int+3) /*code for \.{\\currentiflevel}*/ +@d current_if_type_code (eTeX_int+4) /*code for \.{\\currentiftype}*/ +@d current_if_branch_code (eTeX_int+5) /*code for \.{\\currentifbranch}*/ + +@<Generate all \eTeX...@>= +primitive("currentiflevel", last_item, current_if_level_code); +@!@:current\_if\_level\_}{\.{\\currentiflevel} primitive@> +primitive("currentiftype", last_item, current_if_type_code); +@!@:current\_if\_type\_}{\.{\\currentiftype} primitive@> +primitive("currentifbranch", last_item, current_if_branch_code); +@!@:current\_if\_branch\_}{\.{\\currentifbranch} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case current_if_level_code: print_esc("currentiflevel");@+break; +case current_if_type_code: print_esc("currentiftype");@+break; +case current_if_branch_code: print_esc("currentifbranch");@+break; + +@ @<Cases for fetching an integer value@>= +case current_if_level_code: {@+q=cond_ptr;cur_val=0; + while (q!=null) + {@+incr(cur_val);q=link(q); + } + } @+break; +case current_if_type_code: if (cond_ptr==null) cur_val=0; + else if (cur_if < unless_code) cur_val=cur_if+1; + else cur_val=-(cur_if-unless_code+1);@+break; +case current_if_branch_code: + if ((if_limit==or_code)||(if_limit==else_code)) cur_val=1; + else if (if_limit==fi_code) cur_val=-1; + else cur_val=0;@+break; + +@ The \.{\\fontcharwd}, \.{\\fontcharht}, \.{\\fontchardp}, and +\.{\\fontcharic} commands return information about a character in a +font. + +@d font_char_wd_code eTeX_dim /*code for \.{\\fontcharwd}*/ +@d font_char_ht_code (eTeX_dim+1) /*code for \.{\\fontcharht}*/ +@d font_char_dp_code (eTeX_dim+2) /*code for \.{\\fontchardp}*/ +@d font_char_ic_code (eTeX_dim+3) /*code for \.{\\fontcharic}*/ + +@<Generate all \eTeX...@>= +primitive("fontcharwd", last_item, font_char_wd_code); +@!@:font\_char\_wd\_}{\.{\\fontcharwd} primitive@> +primitive("fontcharht", last_item, font_char_ht_code); +@!@:font\_char\_ht\_}{\.{\\fontcharht} primitive@> +primitive("fontchardp", last_item, font_char_dp_code); +@!@:font\_char\_dp\_}{\.{\\fontchardp} primitive@> +primitive("fontcharic", last_item, font_char_ic_code); +@!@:font\_char\_ic\_}{\.{\\fontcharic} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case font_char_wd_code: print_esc("fontcharwd");@+break; +case font_char_ht_code: print_esc("fontcharht");@+break; +case font_char_dp_code: print_esc("fontchardp");@+break; +case font_char_ic_code: print_esc("fontcharic");@+break; + +@ @<Cases for fetching a dimension value@>= +case font_char_wd_code: +case font_char_ht_code: +case font_char_dp_code: +case font_char_ic_code: {@+scan_font_ident();q=cur_val;scan_char_num(); + if ((font_bc[q] <= cur_val)&&(font_ec[q] >= cur_val)) + {@+i=char_info(q, qi(cur_val)); + switch (m) { + case font_char_wd_code: cur_val=char_width(q, i);@+break; + case font_char_ht_code: cur_val=char_height(q, height_depth(i));@+break; + case font_char_dp_code: cur_val=char_depth(q, height_depth(i));@+break; + case font_char_ic_code: cur_val=char_italic(q, i); + } /*there are no other cases*/ + } + else cur_val=0; + } @+break; + +@ The \.{\\parshapedimen}, \.{\\parshapeindent}, and \.{\\parshapelength} +commands return the indent and length parameters of the current +\.{\\parshape} specification. + +@d par_shape_length_code (eTeX_dim+4) /*code for \.{\\parshapelength}*/ +@d par_shape_indent_code (eTeX_dim+5) /*code for \.{\\parshapeindent}*/ +@d par_shape_dimen_code (eTeX_dim+6) /*code for \.{\\parshapedimen}*/ + +@<Generate all \eTeX...@>= +primitive("parshapelength", last_item, par_shape_length_code); +@!@:par\_shape\_length\_}{\.{\\parshapelength} primitive@> +primitive("parshapeindent", last_item, par_shape_indent_code); +@!@:par\_shape\_indent\_}{\.{\\parshapeindent} primitive@> +primitive("parshapedimen", last_item, par_shape_dimen_code); +@!@:par\_shape\_dimen\_}{\.{\\parshapedimen} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case par_shape_length_code: print_esc("parshapelength");@+break; +case par_shape_indent_code: print_esc("parshapeindent");@+break; +case par_shape_dimen_code: print_esc("parshapedimen");@+break; + +@ @<Cases for fetching a dimension value@>= +case par_shape_length_code: +case par_shape_indent_code: +case par_shape_dimen_code: {@+q=cur_chr-par_shape_length_code;scan_int(); + if ((par_shape_ptr==null)||(cur_val <= 0)) cur_val=0; + else{@+if (q==2) + {@+q=cur_val%2;cur_val=(cur_val+q)/2; + } + if (cur_val > info(par_shape_ptr)) cur_val=info(par_shape_ptr); + cur_val=mem[par_shape_ptr+2*cur_val-q].sc; + } + cur_val_level=dimen_val; + } @+break; + +@ The \.{\\showgroups} command displays all currently active grouping +levels. + +@d show_groups 4 /* \.{\\showgroups} */ + +@<Generate all \eTeX...@>= +primitive("showgroups", xray, show_groups); +@!@:show\_groups\_}{\.{\\showgroups} primitive@> + +@ @<Cases of |xray| for |print_cmd_chr|@>= +case show_groups: print_esc("showgroups");@+break; + +@ @<Cases for |show_whatever|@>= +case show_groups: {@+begin_diagnostic();show_save_groups(); + } @+break; + +@ @<Types...@>= +typedef int32_t save_pointer; /*index into |save_stack|*/ + +@ The modifications of \TeX\ required for the display produced by the +|show_save_groups| procedure were first discussed by Donald~E. Knuth in +{\sl TUGboat\/} {\bf 11}, 165--170 and 499--511, 1990. +@^Knuth, Donald Ervin@> + +In order to understand a group type we also have to know its mode. +Since unrestricted horizontal modes are not associated with grouping, +they are skipped when traversing the semantic nest. + +@<Declare \eTeX\ procedures for use...@>= +static void show_save_groups(void) +{@+ +int p; /*index into |nest|*/ +int @!m; /*mode*/ +save_pointer @!v; /*saved value of |save_ptr|*/ +quarterword @!l; /*saved value of |cur_level|*/ +group_code @!c; /*saved value of |cur_group|*/ +int @!a; /*to keep track of alignments*/ +int @!i; +quarterword @!j; +char *@!s; +p=nest_ptr;nest[p]=cur_list; /*put the top level into the array*/ +v=save_ptr;l=cur_level;c=cur_group; +save_ptr=cur_boundary;decr(cur_level);@/ +a=1; +print_nl("");print_ln(); +loop@+{@+print_nl("### ");print_group(true); + if (cur_group==bottom_level) goto done; + @/do@+{m=nest[p].mode_field; + if (p > 0) decr(p);else m=vmode; + }@+ while (!(m!=hmode)); + print(" ("); + switch (cur_group) { + case simple_group: {@+incr(p);goto found2; + } + case hbox_group: case adjusted_hbox_group: s="hbox";@+break; + case vbox_group: s="vbox";@+break; + case vtop_group: s="vtop";@+break; + case align_group: if (a==0) + {@+if (m==-vmode) s="halign";else s="valign"; + a=1;goto found1; + } + else{@+if (a==1) print("align entry");else print_esc("cr"); + if (p >= a) p=p-a; + a=0;goto found; + } @+break; + case no_align_group: + {@+incr(p);a=-1;print_esc("noalign");goto found2; + } + case output_group: + {@+print_esc("output");goto found; + } + case math_group: goto found2; + case disc_group: case math_choice_group: + {@+if (cur_group==disc_group) print_esc("discretionary"); + else print_esc("mathchoice"); + for (i=1; i<=3; i++) if (i <= saved(-2)) print("{}"); + goto found2; + } + case insert_group: + {@+if (saved(-2)==255) print_esc("vadjust"); + else{@+print_esc("insert");print_int(saved(-2)); + } + goto found2; + } + case vcenter_group: {@+s="vcenter";goto found1; + } + case semi_simple_group: {@+incr(p);print_esc("begingroup");goto found; + } + case math_shift_group: + {@+if (m==mmode) print_char('$'); + else if (nest[p].mode_field==mmode) + {@+print_cmd_chr(eq_no, saved(-2));goto found; + } + print_char('$');goto found; + } + case math_left_group: + {@+if (type(nest[p+1].eTeX_aux_field)==left_noad) print_esc("left"); + else print_esc("middle"); + goto found; + } + } /*there are no other cases*/ + @<Show the box context@>; + found1: print_esc(s);@<Show the box packaging info@>; + found2: print_char('{'); + found: print_char(')');decr(cur_level); + cur_group=save_level(save_ptr);save_ptr=save_index(save_ptr); + } +done: save_ptr=v;cur_level=l;cur_group=c; +} + +@ @<Show the box packaging info@>= +if (saved(-2)!=0) + {@+print_char(' '); + if (saved(-3)==exactly) print("to");else print("spread"); + print_scaled(saved(-2));print("pt"); + } + +@ @<Show the box context@>= +i=saved(-4); +if (i!=0) + if (i < box_flag) + {@+if (abs(nest[p].mode_field)==vmode) j=hmove;else j=vmove; + if (i > 0) print_cmd_chr(j, 0);else print_cmd_chr(j, 1); + print_scaled(abs(i));print("pt"); + } + else if (i < ship_out_flag) + {@+if (i >= global_box_flag) + {@+print_esc("global");i=i-(global_box_flag-box_flag); + } + print_esc("setbox");print_int(i-box_flag);print_char('='); + } + else print_cmd_chr(leader_ship, i-(leader_flag-a_leaders)) + +@ The |scan_general_text| procedure is much like |scan_toks(false, false)|, +but will be invoked via |expand|, i.e., recursively. +@^recursion@> + +@<Declare \eTeX\ procedures for sc...@>= +static void scan_general_text(void); + +@ The token list (balanced text) created by |scan_general_text| begins +at |link(temp_head)| and ends at |cur_val|. (If |cur_val==temp_head|, +the list is empty.) + +@<Declare \eTeX\ procedures for tok...@>= +static void scan_general_text(void) +{@+ +int s; /*to save |scanner_status|*/ +pointer @!w; /*to save |warning_index|*/ +pointer @!d; /*to save |def_ref|*/ +pointer @!p; /*tail of the token list being built*/ +pointer @!q; /*new node being added to the token list via |store_new_token|*/ +halfword @!unbalance; /*number of unmatched left braces*/ +s=scanner_status;w=warning_index;d=def_ref; +scanner_status=absorbing;warning_index=cur_cs; +def_ref=get_avail();token_ref_count(def_ref)=null;p=def_ref; +scan_left_brace(); /*remove the compulsory left brace*/ +unbalance=1; +loop@+{@+get_token(); + if (cur_tok < right_brace_limit) + if (cur_cmd < right_brace) incr(unbalance); + else{@+decr(unbalance); + if (unbalance==0) goto found; + } + store_new_token(cur_tok); + } +found: q=link(def_ref);free_avail(def_ref); /*discard reference count*/ +if (q==null) cur_val=temp_head;@+else cur_val=p; +link(temp_head)=q; +scanner_status=s;warning_index=w;def_ref=d; +} + +@ The \.{\\showtokens} command displays a token list. + +@d show_tokens 5 /* \.{\\showtokens} , must be odd! */ + +@<Generate all \eTeX...@>= +primitive("showtokens", xray, show_tokens); +@!@:show\_tokens\_}{\.{\\showtokens} primitive@> + +@ @<Cases of |xray| for |print_cmd_chr|@>= +case show_tokens: print_esc("showtokens");@+break; + +@ The \.{\\unexpanded} primitive prevents expansion of tokens much as +the result from \.{\\the} applied to a token variable. The +\.{\\detokenize} primitive converts a token list into a list of +character tokens much as if the token list were written to a file. We +use the fact that the command modifiers for \.{\\unexpanded} and +\.{\\detokenize} are odd whereas those for \.{\\the} and \.{\\showthe} +are even. + +@<Generate all \eTeX...@>= +primitive("unexpanded", the, 1);@/ +@!@:unexpanded\_}{\.{\\unexpanded} primitive@> +primitive("detokenize", the, show_tokens);@/ +@!@:detokenize\_}{\.{\\detokenize} primitive@> + +@ @<Cases of |the| for |print_cmd_chr|@>=; +else if (chr_code==1) print_esc("unexpanded"); +else print_esc("detokenize") + +@ @<Handle \.{\\unexpanded} or \.{\\detokenize} and |return|@>= +if (odd(cur_chr)) + {@+c=cur_chr;scan_general_text(); + if (c==1) return cur_val; + else{@+old_setting=selector;selector=new_string;b=pool_ptr; + p=get_avail();link(p)=link(temp_head); + token_show(p);flush_list(p); + selector=old_setting;return str_toks(b); + } + + } + +@ The \.{\\showifs} command displays all currently active conditionals. + +@d show_ifs 6 /* \.{\\showifs} */ + +@<Generate all \eTeX...@>= +primitive("showifs", xray, show_ifs); +@!@:show\_ifs\_}{\.{\\showifs} primitive@> + +@ @<Cases of |xray| for |print_cmd_chr|@>= +case show_ifs: print_esc("showifs");@+break; + +@ @d print_if_line(A) if (A!=0) + {@+print(" entered on line ");print_int(A); + } + +@<Cases for |show_whatever|@>= +case show_ifs: {@+begin_diagnostic();print_nl("");print_ln(); + if (cond_ptr==null) + {@+print_nl("### ");print("no active conditionals"); + } + else{@+p=cond_ptr;n=0; + @/do@+{incr(n);p=link(p);@+}@+ while (!(p==null)); + p=cond_ptr;t=cur_if;l=if_line;m=if_limit; + @/do@+{print_nl("### level ");print_int(n);print(": "); + print_cmd_chr(if_test, t); + if (m==fi_code) print_esc("else"); + print_if_line(l); + decr(n);t=subtype(p);l=if_line_field(p);m=type(p);p=link(p); + }@+ while (!(p==null)); + } + } @+break; + +@ The \.{\\interactionmode} primitive allows to query and set the +interaction mode. + +@<Generate all \eTeX...@>= +primitive("interactionmode", set_page_int, 2); +@!@:interaction\_mode\_}{\.{\\interactionmode} primitive@> + +@ @<Cases of |set_page_int| for |print_cmd_chr|@>=; +else if (chr_code==2) print_esc("interactionmode") + +@ @<Cases for `Fetch the |dead_cycles| or the |insert_penalties|'@>=; +else if (m==2) cur_val=interaction + +@ @<Declare \eTeX\ procedures for use...@>= +static void new_interaction(void); + +@ @<Cases for |alter_integer|@>=; +else if (c==2) + {@+if ((cur_val < batch_mode)||(cur_val > error_stop_mode)) + {@+print_err("Bad interaction mode"); +@.Bad interaction mode@> + help2("Modes are 0=batch, 1=nonstop, 2=scroll, and",@/ + "3=errorstop. Proceed, and I'll ignore this case."); + int_error(cur_val); + } + else{@+cur_chr=cur_val;new_interaction(); + } + } + +@ The |middle| feature of \eTeX\ allows one ore several \.{\\middle} +delimiters to appear between \.{\\left} and \.{\\right}. + +@<Generate all \eTeX...@>= +primitive("middle", left_right, middle_noad); +@!@:middle\_}{\.{\\middle} primitive@> + +@ @<Cases of |left_right| for |print_cmd_chr|@>=; +else if (chr_code==middle_noad) print_esc("middle") + +@ The |scan_tokens| feature of \eTeX\ defines the \.{\\scantokens} +primitive. + +@<Generate all \eTeX...@>= +primitive("scantokens", input, 2); +@!@:scan\_tokens\_}{\.{\\scantokens} primitive@> + +@ @<Cases of |input| for |print_cmd_chr|@>=; +else if (chr_code==2) print_esc("scantokens") + +@ @<Cases for |input|@>=; +else if (cur_chr==2) pseudo_start() + +@ The global variable |pseudo_files| is used to maintain a stack of +pseudo files. The |info| field of each pseudo file points to a linked +list of variable size nodes representing lines not yet processed: the +|info| field of the first word contains the size of this node, all the +following words contain ASCII codes. + +@<Glob...@>= +static pointer @!pseudo_files; /*stack of pseudo files*/ + +@ @<Set init...@>= +pseudo_files=null; + +@ The |pseudo_start| procedure initiates reading from a pseudo file. + +@<Declare \eTeX\ procedures for ex...@>= +static void pseudo_start(void); + +@ @<Declare \eTeX\ procedures for tok...@>= +static void pseudo_start(void) +{@+int old_setting; /*holds |selector| setting*/ +str_number @!s; /*string to be converted into a pseudo file*/ +pool_pointer @!l, @!m; /*indices into |str_pool|*/ +pointer @!p, @!q, @!r; /*for list construction*/ +four_quarters @!w; /*four ASCII codes*/ +int @!nl, @!sz; +scan_general_text(); +old_setting=selector;selector=new_string; +token_show(temp_head);selector=old_setting; +flush_list(link(temp_head)); +str_room(1);s=make_string(); +@<Convert string |s| into a new pseudo file@>; +flush_string; +@<Initiate input from new pseudo file@>; +} + +@ @<Convert string |s| into a new pseudo file@>= +str_pool[pool_ptr]=si(' ');l=str_start[s]; +nl=si(new_line_char); +p=get_avail();q=p; +while (l < pool_ptr) + {@+m=l; + while ((l < pool_ptr)&&(str_pool[l]!=nl)) incr(l); + sz=(l-m+7)/4; + if (sz==1) sz=2; + r=get_node(sz);link(q)=r;q=r;info(q)=hi(sz); + while (sz > 2) + {@+decr(sz);incr(r); + w.b0=qi(so(str_pool[m]));w.b1=qi(so(str_pool[m+1])); + w.b2=qi(so(str_pool[m+2]));w.b3=qi(so(str_pool[m+3])); + mem[r].qqqq=w;m=m+4; + } + w.b0=qi(' ');w.b1=qi(' ');w.b2=qi(' ');w.b3=qi(' '); + if (l > m) + {@+w.b0=qi(so(str_pool[m])); + if (l > m+1) + {@+w.b1=qi(so(str_pool[m+1])); + if (l > m+2) + {@+w.b2=qi(so(str_pool[m+2])); + if (l > m+3) w.b3=qi(so(str_pool[m+3])); + } + } + } + mem[r+1].qqqq=w; + if (str_pool[l]==nl) incr(l); + } +info(p)=link(p);link(p)=pseudo_files;pseudo_files=p + +@ @<Initiate input from new pseudo file@>= +begin_file_reading(); /*set up |cur_file| and new level of input*/ +line=0;limit=start;loc=limit+1; /*force line read*/ +if (tracing_scan_tokens > 0) + {@+if (term_offset > max_print_line-3) print_ln(); + else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); + name=19;print("( ");incr(open_parens);update_terminal; + } +else name=18 + +@ Here we read a line from the current pseudo file into |buffer|. + +@<Declare \eTeX\ procedures for tr...@>= +static bool pseudo_input(void) /*inputs the next line or returns |false|*/ +{@+pointer p; /*current line from pseudo file*/ +int @!sz; /*size of node |p|*/ +four_quarters @!w; /*four ASCII codes*/ +int @!r; /*loop index*/ +last=first; /*cf.\ Matthew 19\thinspace:\thinspace30*/ +p=info(pseudo_files); +if (p==null) return false; +else{@+info(pseudo_files)=link(p);sz=ho(info(p)); + if (4*sz-3 >= buf_size-last) + @<Report overflow of the input buffer, and abort@>; + last=first; + for (r=p+1; r<=p+sz-1; r++) + {@+w=mem[r].qqqq; + buffer[last]=w.b0;buffer[last+1]=w.b1; + buffer[last+2]=w.b2;buffer[last+3]=w.b3; + last=last+4; + } + if (last >= max_buf_stack) max_buf_stack=last+1; + while ((last > first)&&(buffer[last-1]==' ')) decr(last); + free_node(p, sz); + return true; + } +} + +@ When we are done with a pseudo file we `close' it. + +@<Declare \eTeX\ procedures for tr...@>= +static void pseudo_close(void) /*close the top level pseudo file*/ +{@+pointer p, @!q; +p=link(pseudo_files);q=info(pseudo_files); +free_avail(pseudo_files);pseudo_files=p; +while (q!=null) + {@+p=q;q=link(p);free_node(p, ho(info(p))); + } +} + +@ @<Dump the \eTeX\ state@>= +while (pseudo_files!=null) pseudo_close(); /*flush pseudo files*/ + +@ @<Generate all \eTeX...@>= +primitive("readline", read_to_cs, 1);@/ +@!@:read\_line\_}{\.{\\readline} primitive@> + +@ @<Cases of |read| for |print_cmd_chr|@>=; +else print_esc("readline") + +@ @<Handle \.{\\readline} and |goto done|@>= +if (j==1) + {@+while (loc <= limit) /*current line not yet finished*/ + {@+cur_chr=buffer[loc];incr(loc); + if (cur_chr==' ') cur_tok=space_token; + @+else cur_tok=cur_chr+other_token; + store_new_token(cur_tok); + } + goto done; + } + +@ Here we define the additional conditionals of \eTeX\ as well as the +\.{\\unless} prefix. + +@d if_def_code 17 /* `\.{\\ifdefined}' */ +@d if_cs_code 18 /* `\.{\\ifcsname}' */ +@d if_font_char_code 19 /* `\.{\\iffontchar}' */ +@d eTeX_last_if_test_cmd_mod if_font_char_code +@d eTeX_last_expand_after_cmd_mod 1 + +@<Generate all \eTeX...@>= +primitive("unless", expand_after, 1);@/ +@!@:unless\_}{\.{\\unless} primitive@> +primitive("ifdefined", if_test, if_def_code); +@!@:if\_defined\_}{\.{\\ifdefined} primitive@> +primitive("ifcsname", if_test, if_cs_code); +@!@:if\_cs\_name\_}{\.{\\ifcsname} primitive@> +primitive("iffontchar", if_test, if_font_char_code); +@!@:if\_font\_char\_}{\.{\\iffontchar} primitive@> + +@ @<Cases of |expandafter| for |print_cmd_chr|@>= +case 1: print_esc("unless");@+break; + +@ @<Cases of |if_test| for |print_cmd_chr|@>= +case if_def_code: print_esc("ifdefined");@+break; +case if_cs_code: print_esc("ifcsname");@+break; +case if_font_char_code: print_esc("iffontchar");@+break; + +@ The result of a boolean condition is reversed when the conditional is +preceded by \.{\\unless}. + +@<Negate a boolean conditional and |goto reswitch|@>= +{@+get_token(); +if ((cur_cmd==if_test)&&(cur_chr!=if_case_code)) + {@+cur_chr=cur_chr+unless_code;goto reswitch; + } +print_err("You can't use `");print_esc("unless");print("' before `"); +@.You can't use \\unless...@> +print_cmd_chr(cur_cmd, cur_chr);print_char('\''); +help1("Continue, and I'll forget that it ever happened."); +back_error(); +} + +@ The conditional \.{\\ifdefined} tests if a control sequence is +defined. + +We need to reset |scanner_status|, since \.{\\outer} control sequences +are allowed, but we might be scanning a macro definition or preamble. + +@<Cases for |conditional|@>= +case if_def_code: {@+save_scanner_status=scanner_status; + scanner_status=normal; + get_next();b=(cur_cmd!=undefined_cs); + scanner_status=save_scanner_status; + } @+break; + +@ The conditional \.{\\ifcsname} is equivalent to \.{\{\\expandafter} +\.{\}\\expandafter} \.{\\ifdefined} \.{\\csname}, except that no new +control sequence will be entered into the hash table (once all tokens +preceding the mandatory \.{\\endcsname} have been expanded). + +@<Cases for |conditional|@>= +case if_cs_code: {@+n=get_avail();p=n; /*head of the list of characters*/ + @/do@+{get_x_token(); + if (cur_cs==0) store_new_token(cur_tok); + }@+ while (!(cur_cs!=0)); + if (cur_cmd!=end_cs_name) @<Complain about missing \.{\\endcsname}@>; + @<Look up the characters of list |n| in the hash table, and set |cur_cs|@>; + flush_list(n); + b=(eq_type(cur_cs)!=undefined_cs); + } @+break; + +@ @<Look up the characters of list |n| in the hash table...@>= +m=first;p=link(n); +while (p!=null) + {@+if (m >= max_buf_stack) + {@+max_buf_stack=m+1; + if (max_buf_stack==buf_size) + overflow("buffer size", buf_size); +@:TeX capacity exceeded buffer size}{\quad buffer size@> + } + buffer[m]=info(p)%0400;incr(m);p=link(p); + } +if (m==first) cur_cs=null_cs; /*the list is empty*/ +else if (m > first+1) + cur_cs=id_lookup(first, m-first); /*|no_new_control_sequence| is |true|*/ +else cur_cs=single_base+buffer[first] /*the list has length one*/ + +@ The conditional \.{\\iffontchar} tests the existence of a character in +a font. + +@<Cases for |conditional|@>= +case if_font_char_code: {@+scan_font_ident();n=cur_val;scan_char_num(); + if ((font_bc[n] <= cur_val)&&(font_ec[n] >= cur_val)) + b=char_exists(char_info(n, qi(cur_val))); + else b=false; + } @+break; + +@ The \.{protected} feature of \eTeX\ defines the \.{\\protected} prefix +command for macro definitions. Such macros are protected against +expansions when lists of expanded tokens are built, e.g., for \.{\\edef} +or during \.{\\write}. + +@<Generate all \eTeX...@>= +primitive("protected", prefix, 8); +@!@:protected\_}{\.{\\protected} primitive@> + +@ @<Cases of |prefix| for |print_cmd_chr|@>=; +else if (chr_code==8) print_esc("protected") + +@ The |get_x_or_protected| procedure is like |get_x_token| except that +protected macros are not expanded. + +@<Declare \eTeX\ procedures for sc...@>= +static void get_x_or_protected(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|, + and expands non-protected macros*/ +{@+ +loop@+{@+get_token(); + if (cur_cmd <= max_command) return; + if ((cur_cmd >= call)&&(cur_cmd < end_template)) + if (info(link(cur_chr))==protected_token) return; + expand(); + } +} + +@ A group entered (or a conditional started) in one file may end in a +different file. Such slight anomalies, although perfectly legitimate, +may cause errors that are difficult to locate. In order to be able to +give a warning message when such anomalies occur, \eTeX\ uses the +|grp_stack| and |if_stack| arrays to record the initial |cur_boundary| +and |cond_ptr| values for each input file. + +@<Glob...@>= +static save_pointer @!grp_stack[max_in_open+1]; /*initial |cur_boundary|*/ +static pointer @!if_stack[max_in_open+1]; /*initial |cond_ptr|*/ + +@ When a group ends that was apparently entered in a different input +file, the |group_warning| procedure is invoked in order to update the +|grp_stack|. If moreover \.{\\tracingnesting} is positive we want to +give a warning message. The situation is, however, somewhat complicated +by two facts: (1)~There may be |grp_stack| elements without a +corresponding \.{\\input} file or \.{\\scantokens} pseudo file (e.g., +error insertions from the terminal); and (2)~the relevant information is +recorded in the |name_field| of the |input_stack| only loosely +synchronized with the |in_open| variable indexing |grp_stack|. + +@<Declare \eTeX\ procedures for tr...@>= +static void group_warning(void) +{@+int i; /*index into |grp_stack|*/ +bool @!w; /*do we need a warning?*/ +base_ptr=input_ptr;input_stack[base_ptr]=cur_input; + /*store current state*/ +i=in_open;w=false; +while ((grp_stack[i]==cur_boundary)&&(i > 0)) + {@+@<Set variable |w| to indicate if this case should be reported@>; + grp_stack[i]=save_index(save_ptr);decr(i); + } +if (w) + {@+print_nl("Warning: end of ");print_group(true); +@.Warning: end of...@> + print(" of a different file");print_ln(); + if (tracing_nesting > 1) show_context(); + if (history==spotless) history=warning_issued; + } +} + +@ This code scans the input stack in order to determine the type of the +current input file. + +@<Set variable |w| to...@>= +if (tracing_nesting > 0) + {@+while ((input_stack[base_ptr].state_field==token_list)||@| + (input_stack[base_ptr].index_field > i)) decr(base_ptr); + if (input_stack[base_ptr].name_field > 17) w=true; + } + +@ When a conditional ends that was apparently started in a different +input file, the |if_warning| procedure is invoked in order to update the +|if_stack|. If moreover \.{\\tracingnesting} is positive we want to +give a warning message (with the same complications as above). + +@<Declare \eTeX\ procedures for tr...@>= +static void if_warning(void) +{@+int i; /*index into |if_stack|*/ +bool @!w; /*do we need a warning?*/ +base_ptr=input_ptr;input_stack[base_ptr]=cur_input; + /*store current state*/ +i=in_open;w=false; +while (if_stack[i]==cond_ptr) + {@+@<Set variable |w| to...@>; + if_stack[i]=link(cond_ptr);decr(i); + } +if (w) + {@+print_nl("Warning: end of ");print_cmd_chr(if_test, cur_if); +@.Warning: end of...@> + print_if_line(if_line);print(" of a different file");print_ln(); + if (tracing_nesting > 1) show_context(); + if (history==spotless) history=warning_issued; + } +} + +@ Conversely, the |file_warning| procedure is invoked when a file ends +and some groups entered or conditionals started while reading from that +file are still incomplete. + +@<Declare \eTeX\ procedures for tr...@>= +static void file_warning(void) +{@+pointer p; /*saved value of |save_ptr| or |cond_ptr|*/ +quarterword @!l; /*saved value of |cur_level| or |if_limit|*/ +quarterword @!c; /*saved value of |cur_group| or |cur_if|*/ +int @!i; /*saved value of |if_line|*/ +p=save_ptr;l=cur_level;c=cur_group;save_ptr=cur_boundary; +while (grp_stack[in_open]!=save_ptr) + {@+decr(cur_level); + print_nl("Warning: end of file when "); +@.Warning: end of file when...@> + print_group(true);print(" is incomplete");@/ + cur_group=save_level(save_ptr);save_ptr=save_index(save_ptr); + } +save_ptr=p;cur_level=l;cur_group=c; /*restore old values*/ +p=cond_ptr;l=if_limit;c=cur_if;i=if_line; +while (if_stack[in_open]!=cond_ptr) + {@+print_nl("Warning: end of file when "); +@.Warning: end of file when...@> + print_cmd_chr(if_test, cur_if); + if (if_limit==fi_code) print_esc("else"); + print_if_line(if_line);print(" is incomplete");@/ + if_line=if_line_field(cond_ptr);cur_if=subtype(cond_ptr); + if_limit=type(cond_ptr);cond_ptr=link(cond_ptr); + } +cond_ptr=p;if_limit=l;cur_if=c;if_line=i; /*restore old values*/ +print_ln(); +if (tracing_nesting > 1) show_context(); +if (history==spotless) history=warning_issued; +} + +@ Here are the additional \eTeX\ primitives for expressions. + +@<Generate all \eTeX...@>= +primitive("numexpr", last_item, eTeX_expr-int_val+int_val); +@!@:num\_expr\_}{\.{\\numexpr} primitive@> +primitive("dimexpr", last_item, eTeX_expr-int_val+dimen_val); +@!@:dim\_expr\_}{\.{\\dimexpr} primitive@> +primitive("glueexpr", last_item, eTeX_expr-int_val+glue_val); +@!@:glue\_expr\_}{\.{\\glueexpr} primitive@> +primitive("muexpr", last_item, eTeX_expr-int_val+mu_val); +@!@:mu\_expr\_}{\.{\\muexpr} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case eTeX_expr-int_val+int_val: print_esc("numexpr");@+break; +case eTeX_expr-int_val+dimen_val: print_esc("dimexpr");@+break; +case eTeX_expr-int_val+glue_val: print_esc("glueexpr");@+break; +case eTeX_expr-int_val+mu_val: print_esc("muexpr");@+break; + +@ This code for reducing |cur_val_level| and\slash or negating the +result is similar to the one for all the other cases of +|scan_something_internal|, with the difference that |scan_expr| has +already increased the reference count of a glue specification. + +@<Process an expression and |return|@>= +{@+if (m < eTeX_mu) + {@+switch (m) { + @/@<Cases for fetching a glue value@>@/ + } /*there are no other cases*/ + cur_val_level=glue_val; + } +else if (m < eTeX_expr) + {@+switch (m) { + @/@<Cases for fetching a mu value@>@/ + } /*there are no other cases*/ + cur_val_level=mu_val; + } +else{@+cur_val_level=m-eTeX_expr+int_val;scan_expr(); + } +while (cur_val_level > level) + {@+if (cur_val_level==glue_val) + {@+m=cur_val;cur_val=width(m);delete_glue_ref(m); + } + else if (cur_val_level==mu_val) mu_error(); + decr(cur_val_level); + } +if (negative) + if (cur_val_level >= glue_val) + {@+m=cur_val;cur_val=new_spec(m);delete_glue_ref(m); + @<Negate all three glue components of |cur_val|@>; + } + else negate(cur_val); +return; +} + +@ @<Declare \eTeX\ procedures for sc...@>= +static void scan_expr(void); + +@ The |scan_expr| procedure scans and evaluates an expression. + +@<Declare procedures needed for expressions@>= +@t\4@>@<Declare subprocedures for |scan_expr|@>@; +static void scan_expr(void) /*scans and evaluates an expression*/ +{@+ +bool a, @!b; /*saved values of |arith_error|*/ +small_number @!l; /*type of expression*/ +small_number @!r; /*state of expression so far*/ +small_number @!s; /*state of term so far*/ +small_number @!o; /*next operation or type of next factor*/ +int @!e; /*expression so far*/ +int @!t; /*term so far*/ +int @!f; /*current factor*/ +int @!n; /*numerator of combined multiplication and division*/ +pointer @!p; /*top of expression stack*/ +pointer @!q; /*for stack manipulations*/ +l=cur_val_level;a=arith_error;b=false;p=null; +@<Scan and evaluate an expression |e| of type |l|@>; +if (b) + {@+print_err("Arithmetic overflow"); +@.Arithmetic overflow@> + help2("I can't evaluate this expression,",@/ + "since the result is out of range."); + error(); + if (l >= glue_val) + {@+delete_glue_ref(e);e=zero_glue;add_glue_ref(e); + } + else e=0; + } +arith_error=a;cur_val=e;cur_val_level=l; +} + +@ Evaluating an expression is a recursive process: When the left +parenthesis of a subexpression is scanned we descend to the next level +of recursion; the previous level is resumed with the matching right +parenthesis. + +@d expr_none 0 /*\.( seen, or \.( $\langle\it expr\rangle$ \.) seen*/ +@d expr_add 1 /*\.( $\langle\it expr\rangle$ \.+ seen*/ +@d expr_sub 2 /*\.( $\langle\it expr\rangle$ \.- seen*/ +@d expr_mult 3 /*$\langle\it term\rangle$ \.* seen*/ +@d expr_div 4 /*$\langle\it term\rangle$ \./ seen*/ +@d expr_scale 5 /*$\langle\it term\rangle$ \.* + $\langle\it factor\rangle$ \./ seen*/ + +@<Scan and eval...@>= +restart: r=expr_none;e=0;s=expr_none;t=0;n=0; +resume: if (s==expr_none) o=l;@+else o=int_val; +@<Scan a factor |f| of type |o| or start a subexpression@>; +found: @<Scan the next operator and set |o|@>; +arith_error=b; +@<Make sure that |f| is in the proper range@>; +switch (s) {@<Cases for evaluation of the current term@>@; +} /*there are no other cases*/ +if (o > expr_sub) s=o;@+else@<Evaluate the current expression@>; +b=arith_error; +if (o!=expr_none) goto resume; +if (p!=null) @<Pop the expression stack and |goto found|@>@; + +@ @<Scan the next op...@>= +@<Get the next non-blank non-call token@>; +if (cur_tok==other_token+'+') o=expr_add; +else if (cur_tok==other_token+'-') o=expr_sub; +else if (cur_tok==other_token+'*') o=expr_mult; +else if (cur_tok==other_token+'/') o=expr_div; +else{@+o=expr_none; + if (p==null) + {@+if (cur_cmd!=relax) back_input(); + } + else if (cur_tok!=other_token+')') + {@+print_err("Missing ) inserted for expression"); +@.Missing ) inserted@> + help1("I was expecting to see `+', `-', `*', `/', or `)'. Didn't."); + back_error(); + } + } + +@ @<Scan a factor...@>= +@<Get the next non-blank non-call token@>; +if (cur_tok==other_token+'(') + @<Push the expression stack and |goto restart|@>; +back_input(); +if (o==int_val) scan_int(); +else if (o==dimen_val) scan_normal_dimen; +else if (o==glue_val) scan_normal_glue(); +else scan_mu_glue(); +f=cur_val + +@ @<Declare \eTeX\ procedures for sc...@>= +static void scan_normal_glue(void);@/ +static void scan_mu_glue(void); + +@ Here we declare two trivial procedures in order to avoid mutually +recursive procedures with parameters. + +@<Declare procedures needed for expressions@>= +static void scan_normal_glue(void) +{@+scan_glue(glue_val); +} +@# +static void scan_mu_glue(void) +{@+scan_glue(mu_val); +} + +@ Parenthesized subexpressions can be inside expressions, and this +nesting has a stack. Seven local variables represent the top of the +expression stack: |p| points to pushed-down entries, if any; |l| +specifies the type of expression currently beeing evaluated; |e| is the +expression so far and |r| is the state of its evaluation; |t| is the +term so far and |s| is the state of its evaluation; finally |n| is the +numerator for a combined multiplication and division, if any. + +@d expr_node_size 4 /*number of words in stack entry for subexpressions*/ +@d expr_e_field(A) mem[A+1].i /*saved expression so far*/ +@d expr_t_field(A) mem[A+2].i /*saved term so far*/ +@d expr_n_field(A) mem[A+3].i /*saved numerator*/ + +@<Push the expression...@>= +{@+q=get_node(expr_node_size);link(q)=p;type(q)=l; +subtype(q)=4*s+r; +expr_e_field(q)=e;expr_t_field(q)=t;expr_n_field(q)=n; +p=q;l=o;goto restart; +} + +@ @<Pop the expression...@>= +{@+f=e;q=p; +e=expr_e_field(q);t=expr_t_field(q);n=expr_n_field(q); +s=subtype(q)/4;r=subtype(q)%4; +l=type(q);p=link(q);free_node(q, expr_node_size); +goto found; +} + +@ We want to make sure that each term and (intermediate) result is in +the proper range. Integer values must not exceed |infinity| +($2^{31}-1$) in absolute value, dimensions must not exceed |max_dimen| +($2^{30}-1$). We avoid the absolute value of an integer, because this +might fail for the value $-2^{31}$ using 32-bit arithmetic. + +@d num_error(A) /*clear a number or dimension and set |arith_error|*/ + {@+arith_error=true;A=0; + } +@d glue_error(A) /*clear a glue spec and set |arith_error|*/ + {@+arith_error=true;delete_glue_ref(A);A=new_spec(zero_glue); + } + +@<Make sure that |f|...@>= +if ((l==int_val)||(s > expr_sub)) + {@+if ((f > infinity)||(f < -infinity)) num_error(f); + } +else if (l==dimen_val) + {@+if (abs(f) > max_dimen) num_error(f); + } +else{@+if ((abs(width(f)) > max_dimen)||@| + (abs(stretch(f)) > max_dimen)||@| + (abs(shrink(f)) > max_dimen)) glue_error(f); + } + +@ Applying the factor |f| to the partial term |t| (with the operator +|s|) is delayed until the next operator |o| has been scanned. Here we +handle the first factor of a partial term. A glue spec has to be copied +unless the next operator is a right parenthesis; this allows us later on +to simply modify the glue components. + +@d normalize_glue(A) + if (stretch(A)==0) stretch_order(A)=normal; + if (shrink(A)==0) shrink_order(A)=normal + +@<Cases for evaluation of the current term@>= +case expr_none: if ((l >= glue_val)&&(o!=expr_none)) + {@+t=new_spec(f);delete_glue_ref(f);normalize_glue(t); + } + else t=f;@+break; + +@ When a term |t| has been completed it is copied to, added to, or +subtracted from the expression |e|. + +@d expr_add_sub(A, B, C) add_or_sub(A, B, C, r==expr_sub) +@d expr_a(A, B) expr_add_sub(A, B, max_dimen) + +@<Evaluate the current expression@>= +{@+s=expr_none; +if (r==expr_none) e=t; +else if (l==int_val) e=expr_add_sub(e, t, infinity); +else if (l==dimen_val) e=expr_a(e, t); +else@<Compute the sum or difference of two glue specs@>; +r=o; +} + +@ The function |add_or_sub(x, y, max_answer, negative)| computes the sum +(for |negative==false|) or difference (for |negative==true|) of |x| and +|y|, provided the absolute value of the result does not exceed +|max_answer|. + +@<Declare subprocedures for |scan_expr|@>= +static int add_or_sub(int @!x, int @!y, int @!max_answer, bool @!negative) +{@+int a; /*the answer*/ +if (negative) negate(y); +if (x >= 0) + if (y <= max_answer-x) a=x+y;@+else num_error(a)@; +else if (y >= -max_answer-x) a=x+y;@+else num_error(a); +return a; +} + +@ We know that |stretch_order(e) > normal| implies |stretch(e)!=0| and +|shrink_order(e) > normal| implies |shrink(e)!=0|. + +@<Compute the sum or diff...@>= +{@+width(e)=expr_a(width(e), width(t)); +if (stretch_order(e)==stretch_order(t)) + stretch(e)=expr_a(stretch(e), stretch(t)); +else if ((stretch_order(e) < stretch_order(t))&&(stretch(t)!=0)) + {@+stretch(e)=stretch(t);stretch_order(e)=stretch_order(t); + } +if (shrink_order(e)==shrink_order(t)) + shrink(e)=expr_a(shrink(e), shrink(t)); +else if ((shrink_order(e) < shrink_order(t))&&(shrink(t)!=0)) + {@+shrink(e)=shrink(t);shrink_order(e)=shrink_order(t); + } +delete_glue_ref(t);normalize_glue(e); +} + +@ If a multiplication is followed by a division, the two operations are +combined into a `scaling' operation. Otherwise the term |t| is +multiplied by the factor |f|. + +@d expr_m(A) A=nx_plus_y(A, f, 0) + +@<Cases for evaluation of the current term@>= +case expr_mult: if (o==expr_div) + {@+n=f;o=expr_scale; + } + else if (l==int_val) t=mult_integers(t, f); + else if (l==dimen_val) expr_m(t); + else{@+expr_m(width(t));expr_m(stretch(t));expr_m(shrink(t)); + } @+break; + +@ Here we divide the term |t| by the factor |f|. + +@d expr_d(A) A=quotient(A, f) + +@<Cases for evaluation of the current term@>= +case expr_div: if (l < glue_val) expr_d(t); + else{@+expr_d(width(t));expr_d(stretch(t));expr_d(shrink(t)); + } @+break; + +@ The function |quotient(n, d)| computes the rounded quotient +$q=\lfloor n/d+{1\over2}\rfloor$, when $n$ and $d$ are positive. + +@<Declare subprocedures for |scan_expr|@>= +static int quotient(int @!n, int @!d) +{@+bool negative; /*should the answer be negated?*/ +int @!a; /*the answer*/ +if (d==0) num_error(a)@; +else{@+if (d > 0) negative=false; + else{@+negate(d);negative=true; + } + if (n < 0) + {@+negate(n);negative=!negative; + } + a=n/d;n=n-a*d;d=n-d; /*avoid certain compiler optimizations!*/ + if (d+n >= 0) incr(a); + if (negative) negate(a); + } +return a; +} + +@ Here the term |t| is multiplied by the quotient $n/f$. + +@d expr_s(A) A=fract(A, n, f, max_dimen) + +@<Cases for evaluation of the current term@>= +case expr_scale: if (l==int_val) t=fract(t, n, f, infinity); + else if (l==dimen_val) expr_s(t); + else{@+expr_s(width(t));expr_s(stretch(t));expr_s(shrink(t)); + } + +@ Finally, the function |fract(x, n, d, max_answer)| computes the integer +$q=\lfloor xn/d+{1\over2}\rfloor$, when $x$, $n$, and $d$ are positive +and the result does not exceed |max_answer|. We can't use floating +point arithmetic since the routine must produce identical results in all +cases; and it would be too dangerous to multiply by~|n| and then divide +by~|d|, in separate operations, since overflow might well occur. Hence +this subroutine simulates double precision arithmetic, somewhat +analogous to \MF's |make_fraction| and |take_fraction| routines. + +@<Declare subprocedures for |scan_expr|@>= +static int fract(int @!x, int @!n, int @!d, int @!max_answer) +{@+ +bool negative; /*should the answer be negated?*/ +int @!a; /*the answer*/ +int @!f; /*a proper fraction*/ +int @!h; /*smallest integer such that |2*h >= d|*/ +int @!r; /*intermediate remainder*/ +int @!t; /*temp variable*/ +if (d==0) goto too_big; +a=0; +if (d > 0) negative=false; +else{@+negate(d);negative=true; + } +if (x < 0) + {@+negate(x);negative=!negative; + } +else if (x==0) goto done; +if (n < 0) + {@+negate(n);negative=!negative; + } +t=n/d; +if (t > max_answer/x) goto too_big; +a=t*x;n=n-t*d; +if (n==0) goto found; +t=x/d; +if (t > (max_answer-a)/n) goto too_big; +a=a+t*n;x=x-t*d; +if (x==0) goto found; +if (x < n) + {@+t=x;x=n;n=t; + } /*now |0 < n <= x < d|*/ +@<Compute \(f)$f=\lfloor xn/d+{1\over2}\rfloor$@>@; +if (f > (max_answer-a)) goto too_big; +a=a+f; +found: if (negative) negate(a); +goto done; +too_big: num_error(a); +done: return a; +} + +@ The loop here preserves the following invariant relations +between |f|, |x|, |n|, and~|r|: +(i)~$f+\lfloor(xn+(r+d))/d\rfloor=\lfloor x_0n_0/d+{1\over2}\rfloor$; +(ii)~|-d <= r < 0 < n <= x < d|, where $x_0$, $n_0$ are the original values of~$x$ +and $n$. + +Notice that the computation specifies |(x-d)+x| instead of |(x+x)-d|, +because the latter could overflow. + +@<Compute \(f)$f=\lfloor xn/d+{1\over2}\rfloor$@>= +f=0;r=(d/2)-d;h=-r; +loop@+{@+if (odd(n)) + {@+r=r+x; + if (r >= 0) + {@+r=r-d;incr(f); + } + } + n=n/2; + if (n==0) goto found1; + if (x < h) x=x+x; + else{@+t=x-d;x=t+x;f=f+n; + if (x < n) + {@+if (x==0) goto found1; + t=x;x=n;n=t; + } + } + } +found1: + +@ The \.{\\gluestretch}, \.{\\glueshrink}, \.{\\gluestretchorder}, and +\.{\\glueshrinkorder} commands return the stretch and shrink components +and their orders of ``infinity'' of a glue specification. + +@d glue_stretch_order_code (eTeX_int+6) /*code for \.{\\gluestretchorder}*/ +@d glue_shrink_order_code (eTeX_int+7) /*code for \.{\\glueshrinkorder}*/ +@d glue_stretch_code (eTeX_dim+7) /*code for \.{\\gluestretch}*/ +@d glue_shrink_code (eTeX_dim+8) /*code for \.{\\glueshrink}*/ + +@<Generate all \eTeX...@>= +primitive("gluestretchorder", last_item, glue_stretch_order_code); +@!@:glue\_stretch\_order\_}{\.{\\gluestretchorder} primitive@> +primitive("glueshrinkorder", last_item, glue_shrink_order_code); +@!@:glue\_shrink\_order\_}{\.{\\glueshrinkorder} primitive@> +primitive("gluestretch", last_item, glue_stretch_code); +@!@:glue\_stretch\_}{\.{\\gluestretch} primitive@> +primitive("glueshrink", last_item, glue_shrink_code); +@!@:glue\_shrink\_}{\.{\\glueshrink} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case glue_stretch_order_code: print_esc("gluestretchorder");@+break; +case glue_shrink_order_code: print_esc("glueshrinkorder");@+break; +case glue_stretch_code: print_esc("gluestretch");@+break; +case glue_shrink_code: print_esc("glueshrink");@+break; + +@ @<Cases for fetching an integer value@>= +case glue_stretch_order_code: case glue_shrink_order_code: + {@+scan_normal_glue();q=cur_val; + if (m==glue_stretch_order_code) cur_val=stretch_order(q); + else cur_val=shrink_order(q); + delete_glue_ref(q); + } + +@ @<Cases for fetching a dimension value@>= +case glue_stretch_code: case glue_shrink_code: + {@+scan_normal_glue();q=cur_val; + if (m==glue_stretch_code) cur_val=stretch(q); + else cur_val=shrink(q); + delete_glue_ref(q); + } + +@ The \.{\\mutoglue} and \.{\\gluetomu} commands convert ``math'' glue +into normal glue and vice versa; they allow to manipulate math glue with +\.{\\gluestretch} etc. + +@d mu_to_glue_code eTeX_glue /*code for \.{\\mutoglue}*/ +@d glue_to_mu_code eTeX_mu /*code for \.{\\gluetomu}*/ + +@<Generate all \eTeX...@>= +primitive("mutoglue", last_item, mu_to_glue_code); +@!@:mu\_to\_glue\_}{\.{\\mutoglue} primitive@> +primitive("gluetomu", last_item, glue_to_mu_code); +@!@:glue\_to\_mu\_}{\.{\\gluetomu} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case mu_to_glue_code: print_esc("mutoglue");@+break; +case glue_to_mu_code: print_esc("gluetomu");@+break; + +@ @<Cases for fetching a glue value@>= +case mu_to_glue_code: scan_mu_glue(); + +@ @<Cases for fetching a mu value@>= +case glue_to_mu_code: scan_normal_glue(); + +@ \eTeX\ (in extended mode) supports 32768 (i.e., $2^{15}$) count, +dimen, skip, muskip, box, and token registers. As in \TeX\ the first +256 registers of each kind are realized as arrays in the table of +equivalents; the additional registers are realized as tree structures +built from variable-size nodes with individual registers existing only +when needed. Default values are used for nonexistent registers: zero +for count and dimen values, |zero_glue| for glue (skip and muskip) +values, void for boxes, and |null| for token lists (and current marks +discussed below). + + +@ The |scan_register_num| procedure scans a register number that must +not exceed 255 in compatibility mode resp.\ 32767 in extended mode. + +@<Declare \eTeX\ procedures for ex...@>= +static void scan_register_num(void); + +@ @<Declare procedures that scan restricted classes of integers@>= +static void scan_register_num(void) +{@+scan_int(); +if ((cur_val < 0)||(cur_val > max_reg_num)) + {@+print_err("Bad register code"); +@.Bad register code@> + help2(max_reg_help_line,"I changed this one to zero."); + int_error(cur_val);cur_val=0; + } +} + +@ @<Initialize variables for \eTeX\ comp...@>= +max_reg_num=255; +max_reg_help_line="A register number must be between 0 and 255."; + +@ @<Initialize variables for \eTeX\ ext...@>= +max_reg_num=32767; +max_reg_help_line="A register number must be between 0 and 32767."; + +@ @<Glob...@>= +static halfword @!max_reg_num; /*largest allowed register number*/ +static char *@!max_reg_help_line; /*first line of help message*/ + +@ There are seven almost identical doubly linked trees, one for the +sparse array of the up to 32512 additional registers of each kind and +one for the sparse array of the up to 32767 additional mark classes. +The root of each such tree, if it exists, is an index node containing 16 +pointers to subtrees for 4096 consecutive array elements. Similar index +nodes are the starting points for all nonempty subtrees for 4096, 256, +and 16 consecutive array elements. These four levels of index nodes are +followed by a fifth level with nodes for the individual array elements. + +Each index node is nine words long. The pointers to the 16 possible +subtrees or are kept in the |info| and |link| fields of the last eight +words. (It would be both elegant and efficient to declare them as +array, unfortunately \PASCAL\ doesn't allow this.) + +The fields in the first word of each index node and in the nodes for the +array elements are closely related. The |link| field points to the next +lower index node and the |sa_index| field contains four bits (one +hexadecimal digit) of the register number or mark class. For the lowest +index node the |link| field is |null| and the |sa_index| field indicates +the type of quantity (|int_val|, |dimen_val|, |glue_val|, |mu_val|, +|box_val|, |tok_val|, or |mark_val|). The |sa_used| field in the index +nodes counts how many of the 16 pointers are non-null. + +The |sa_index| field in the nodes for array elements contains the four +bits plus 16 times the type. Therefore such a node represents a count +or dimen register if and only if |sa_index < dimen_val_limit|; it +represents a skip or muskip register if and only if +|dimen_val_limit <= sa_index < mu_val_limit|; it represents a box register +if and only if |mu_val_limit <= sa_index < box_val_limit|; it represents a +token list register if and only if +|box_val_limit <= sa_index < tok_val_limit|; finally it represents a mark +class if and only if |tok_val_limit <= sa_index|. + +The |new_index| procedure creates an index node (returned in |cur_ptr|) +having given contents of the |sa_index| and |link| fields. + +@d box_val 4 /*the additional box registers*/ +@d mark_val 6 /*the additional mark classes*/ +@# +@d dimen_val_limit 0x20 /*$2^4\cdot(|dimen_val|+1)$*/ +@d mu_val_limit 0x40 /*$2^4\cdot(|mu_val|+1)$*/ +@d box_val_limit 0x50 /*$2^4\cdot(|box_val|+1)$*/ +@d tok_val_limit 0x60 /*$2^4\cdot(|tok_val|+1)$*/ +@# +@d index_node_size 9 /*size of an index node*/ +@d sa_index(A) type(A) /*a four-bit address or a type or both*/ +@d sa_used(A) subtype(A) /*count of non-null pointers*/ + +@<Declare \eTeX\ procedures for ex...@>= +static void new_index(quarterword @!i, pointer @!q) +{@+int k; /*loop index*/ +cur_ptr=get_node(index_node_size);sa_index(cur_ptr)=i; +sa_used(cur_ptr)=0;link(cur_ptr)=q; +for (k=1; k<=index_node_size-1; k++) /*clear all 16 pointers*/ + mem[cur_ptr+k]=sa_null; +} + +@ The roots of the seven trees for the additional registers and mark +classes are kept in the |sa_root| array. The first six locations must +be dumped and undumped; the last one is also known as |sa_mark|. + +@d sa_mark sa_root[mark_val] /*root for mark classes*/ + +@<Glob...@>= +static pointer @!sa_root0[mark_val-int_val+1], *const @!sa_root = @!sa_root0-int_val; /*roots of sparse arrays*/ +static pointer @!cur_ptr; /*value returned by |new_index| and |find_sa_element|*/ +static memory_word @!sa_null; /*two |null| pointers*/ + +@ @<Set init...@>= +sa_mark=null;sa_null.hh.lh=null;sa_null.hh.rh=null; + +@ @<Initialize table...@>= +for (i=int_val; i<=tok_val; i++) sa_root[i]=null; + +@ Given a type |t| and a sixteen-bit number |n|, the |find_sa_element| +procedure returns (in |cur_ptr|) a pointer to the node for the +corresponding array element, or |null| when no such element exists. The +third parameter |w| is set |true| if the element must exist, e.g., +because it is about to be modified. The procedure has two main +branches: one follows the existing tree structure, the other (only used +when |w| is |true|) creates the missing nodes. + +We use macros to extract the four-bit pieces from a sixteen-bit register +number or mark class and to fetch or store one of the 16 pointers from +an index node. + +@d if_cur_ptr_is_null_then_return_or_goto(A) /*some tree element is missing*/ + {@+if (cur_ptr==null) + if (w) goto A;@+else return; + } +@# +@d hex_dig1(A) A/4096 /*the fourth lowest hexadecimal digit*/ +@d hex_dig2(A) (A/256)%16 /*the third lowest hexadecimal digit*/ +@d hex_dig3(A) (A/16)%16 /*the second lowest hexadecimal digit*/ +@d hex_dig4(A) A%16 /*the lowest hexadecimal digit*/ +@# +@d get_sa_ptr if (odd(i)) cur_ptr=link(q+(i/2)+1); + else cur_ptr=info(q+(i/2)+1) + /*set |cur_ptr| to the pointer indexed by |i| from index node |q|*/ +@d put_sa_ptr(A) if (odd(i)) link(q+(i/2)+1)=A; + else info(q+(i/2)+1)=A + /*store the pointer indexed by |i| in index node |q|*/ +@d add_sa_ptr {@+put_sa_ptr(cur_ptr);incr(sa_used(q)); + } /*add |cur_ptr| as the pointer indexed by |i| in index node |q|*/ +@d delete_sa_ptr {@+put_sa_ptr(null);decr(sa_used(q)); + } /*delete the pointer indexed by |i| in index node |q|*/ + +@<Declare \eTeX\ procedures for ex...@>= +static void find_sa_element(small_number @!t, halfword @!n, bool @!w) + /*sets |cur_val| to sparse array element location or |null|*/ +{@+ +pointer q; /*for list manipulations*/ +small_number @!i; /*a four bit index*/ +cur_ptr=sa_root[t]; +if_cur_ptr_is_null_then_return_or_goto(not_found);@/ +q=cur_ptr;i=hex_dig1(n);get_sa_ptr; +if_cur_ptr_is_null_then_return_or_goto(not_found1);@/ +q=cur_ptr;i=hex_dig2(n);get_sa_ptr; +if_cur_ptr_is_null_then_return_or_goto(not_found2);@/ +q=cur_ptr;i=hex_dig3(n);get_sa_ptr; +if_cur_ptr_is_null_then_return_or_goto(not_found3);@/ +q=cur_ptr;i=hex_dig4(n);get_sa_ptr; +if ((cur_ptr==null)&&w) goto not_found4; +return; +not_found: new_index(t, null); /*create first level index node*/ +sa_root[t]=cur_ptr;q=cur_ptr;i=hex_dig1(n); +not_found1: new_index(i, q); /*create second level index node*/ +add_sa_ptr;q=cur_ptr;i=hex_dig2(n); +not_found2: new_index(i, q); /*create third level index node*/ +add_sa_ptr;q=cur_ptr;i=hex_dig3(n); +not_found3: new_index(i, q); /*create fourth level index node*/ +add_sa_ptr;q=cur_ptr;i=hex_dig4(n); +not_found4: @<Create a new array element of type |t| with index |i|@>; +link(cur_ptr)=q;add_sa_ptr; +} + +@ The array elements for registers are subject to grouping and have an +|sa_lev| field (quite analogous to |eq_level|) instead of |sa_used|. +Since saved values as well as shorthand definitions (created by e.g., +\.{\\countdef}) refer to the location of the respective array element, +we need a reference count that is kept in the |sa_ref| field. An array +element can be deleted (together with all references to it) when its +|sa_ref| value is |null| and its value is the default value. +@^reference counts@> + +Skip, muskip, box, and token registers use two word nodes, their values +are stored in the |sa_ptr| field. +Count and dimen registers use three word nodes, their +values are stored in the |sa_int| resp.\ |sa_dim| field in the third +word; the |sa_ptr| field is used under the name |sa_num| to store +the register number. Mark classes use four word nodes. The last three +words contain the five types of current marks + +@d sa_lev sa_used /*grouping level for the current value*/ +@d pointer_node_size 2 /*size of an element with a pointer value*/ +@d sa_type(A) (sa_index(A)/16) /*type part of combined type/index*/ +@d sa_ref(A) info(A+1) /*reference count of a sparse array element*/ +@d sa_ptr(A) link(A+1) /*a pointer value*/ +@# +@d word_node_size 3 /*size of an element with a word value*/ +@d sa_num(A) sa_ptr(A) /*the register number*/ +@d sa_int(A) mem[A+2].i /*an integer*/ +@d sa_dim(A) mem[A+2].sc /*a dimension (a somewhat esotheric distinction)*/ +@# +@d mark_class_node_size 4 /*size of an element for a mark class*/ +@# +@d fetch_box(A) /*fetch |box(cur_val)|*/ + if (cur_val < 256) A=box(cur_val); + else{@+find_sa_element(box_val, cur_val, false); + if (cur_ptr==null) A=null;@+else A=sa_ptr(cur_ptr); + } + +@<Create a new array element...@>= +if (t==mark_val) /*a mark class*/ + {@+cur_ptr=get_node(mark_class_node_size); + mem[cur_ptr+1]=sa_null;mem[cur_ptr+2]=sa_null;mem[cur_ptr+3]=sa_null; + } +else{@+if (t <= dimen_val) /*a count or dimen register*/ + {@+cur_ptr=get_node(word_node_size);sa_int(cur_ptr)=0; + sa_num(cur_ptr)=n; + } + else{@+cur_ptr=get_node(pointer_node_size); + if (t <= mu_val) /*a skip or muskip register*/ + {@+sa_ptr(cur_ptr)=zero_glue;add_glue_ref(zero_glue); + } + else sa_ptr(cur_ptr)=null; /*a box or token list register*/ + } + sa_ref(cur_ptr)=null; /*all registers have a reference count*/ + } +sa_index(cur_ptr)=16*t+i;sa_lev(cur_ptr)=level_one + +@ The |delete_sa_ref| procedure is called when a pointer to an array +element representing a register is being removed; this means that the +reference count should be decreased by one. If the reduced reference +count is |null| and the register has been (globally) assigned its +default value the array element should disappear, possibly together with +some index nodes. This procedure will never be used for mark class +nodes. +@^reference counts@> + +@d add_sa_ref(A) incr(sa_ref(A)) /*increase reference count*/ +@# +@d change_box(A) /*change |box(cur_val)|, the |eq_level| stays the same*/ + if (cur_val < 256) box(cur_val)=A;@+else set_sa_box(A) +@# +@d set_sa_box(X) {@+find_sa_element(box_val, cur_val, false); + if (cur_ptr!=null) + {@+sa_ptr(cur_ptr)=X;add_sa_ref(cur_ptr);delete_sa_ref(cur_ptr); + } + } + +@<Declare \eTeX\ procedures for tr...@>= +static void delete_sa_ref(pointer @!q) /*reduce reference count*/ +{@+ +pointer p; /*for list manipulations*/ +small_number @!i; /*a four bit index*/ +small_number @!s; /*size of a node*/ +decr(sa_ref(q)); +if (sa_ref(q)!=null) return; +if (sa_index(q) < dimen_val_limit) + if (sa_int(q)==0) s=word_node_size; + else return; +else{@+if (sa_index(q) < mu_val_limit) + if (sa_ptr(q)==zero_glue) delete_glue_ref(zero_glue); + else return; + else if (sa_ptr(q)!=null) return; + s=pointer_node_size; + } +@/do@+{i=hex_dig4(sa_index(q));p=q;q=link(p);free_node(p, s); +if (q==null) /*the whole tree has been freed*/ + {@+sa_root[i]=null;return; + } +delete_sa_ptr;s=index_node_size; /*node |q| is an index node*/ +}@+ while (!(sa_used(q) > 0)); +} + +@ The |print_sa_num| procedure prints the register number corresponding +to an array element. + +@<Basic print...@>= +static void print_sa_num(pointer @!q) /*print register number*/ +{@+halfword @!n; /*the register number*/ +if (sa_index(q) < dimen_val_limit) n=sa_num(q); /*the easy case*/ +else{@+n=hex_dig4(sa_index(q));q=link(q);n=n+16*sa_index(q); + q=link(q);n=n+256*(sa_index(q)+16*sa_index(link(q))); + } +print_int(n); +} + +@ Here is a procedure that displays the contents of an array element +symbolically. It is used under similar circumstances as is +|restore_trace| (together with |show_eqtb|) for the quantities kept in +the |eqtb| array. + +@<Declare \eTeX\ procedures for tr...@>= +#ifdef @!STAT +static void show_sa(pointer @!p, char *@!s) +{@+small_number t; /*the type of element*/ +begin_diagnostic();print_char('{');print(s);print_char(' '); +if (p==null) print_char('?'); /*this can't happen*/ +else{@+t=sa_type(p); + if (t < box_val) print_cmd_chr(internal_register, p); + else if (t==box_val) + {@+print_esc("box");print_sa_num(p); + } + else if (t==tok_val) print_cmd_chr(toks_register, p); + else print_char('?'); /*this can't happen either*/ + print_char('='); + if (t==int_val) print_int(sa_int(p)); + else if (t==dimen_val) + {@+print_scaled(sa_dim(p));print("pt"); + } + else{@+p=sa_ptr(p); + if (t==glue_val) print_spec(p,"pt"); + else if (t==mu_val) print_spec(p,"mu"); + else if (t==box_val) + if (p==null) print("void"); + else{@+depth_threshold=0;breadth_max=1;show_node_list(p); + } + else if (t==tok_val) + {@+if (p!=null) show_token_list(link(p), null, 32); + } + else print_char('?'); /*this can't happen either*/ + } + } +print_char('}');end_diagnostic(false); +} +#endif + +@ The command code |internal_register| is used for `\.{\\count}', `\.{\\dimen}', +etc., as well as for references to sparse array elements defined by +`\.{\\countdef}', etc. + +@<Cases of |register| for |print_cmd_chr|@>= +{@+if ((chr_code < mem_bot)||(chr_code > lo_mem_stat_max)) + cmd=sa_type(chr_code); +else{@+cmd=chr_code-mem_bot;chr_code=null; + } +if (cmd==int_val) print_esc("count"); +else if (cmd==dimen_val) print_esc("dimen"); +else if (cmd==glue_val) print_esc("skip"); +else print_esc("muskip"); +if (chr_code!=null) print_sa_num(chr_code); +} + +@ Similarly the command code |toks_register| is used for `\.{\\toks}' as +well as for references to sparse array elements defined by +`\.{\\toksdef}'. + +@<Cases of |toks_register| for |print_cmd_chr|@>= +{@+print_esc("toks"); +if (chr_code!=mem_bot) print_sa_num(chr_code); +} + +@ When a shorthand definition for an element of one of the sparse arrays +is destroyed, we must reduce the reference count. + +@<Cases for |eq_destroy|@>= +case toks_register: case internal_register: + if ((equiv_field(w) < mem_bot)||(equiv_field(w) > lo_mem_stat_max)) + delete_sa_ref(equiv_field(w));@+break; + +@ The task to maintain (change, save, and restore) register values is +essentially the same when the register is realized as sparse array +element or entry in |eqtb|. The global variable |sa_chain| is the head +of a linked list of entries saved at the topmost level |sa_level|; the +lists for lowel levels are kept in special save stack entries. + +@<Glob...@>= +static pointer @!sa_chain; /*chain of saved sparse array entries*/ +static quarterword @!sa_level; /*group level for |sa_chain|*/ + +@ @<Set init...@>= +sa_chain=null;sa_level=level_zero; + +@ The individual saved items are kept in pointer or word nodes similar +to those used for the array elements: a word node with value zero is, +however, saved as pointer node with the otherwise impossible |sa_index| +value |tok_val_limit|. + +@d sa_loc(A) sa_ref(A) /*location of saved item*/ + +@<Declare \eTeX\ procedures for tr...@>= +static void sa_save(pointer @!p) /*saves value of |p|*/ +{@+pointer q; /*the new save node*/ +quarterword @!i; /*index field of node*/ +if (cur_level!=sa_level) + {@+check_full_save_stack;save_type(save_ptr)=restore_sa; + save_level(save_ptr)=sa_level;save_index(save_ptr)=sa_chain; + incr(save_ptr);sa_chain=null;sa_level=cur_level; + } +i=sa_index(p); +if (i < dimen_val_limit) + {@+if (sa_int(p)==0) + {@+q=get_node(pointer_node_size);i=tok_val_limit; + } + else{@+q=get_node(word_node_size);sa_int(q)=sa_int(p); + } + sa_ptr(q)=null; + } +else{@+q=get_node(pointer_node_size);sa_ptr(q)=sa_ptr(p); + } +sa_loc(q)=p;sa_index(q)=i;sa_lev(q)=sa_lev(p); +link(q)=sa_chain;sa_chain=q;add_sa_ref(p); +} + +@ @<Declare \eTeX\ procedures for tr...@>= +static void sa_destroy(pointer @!p) /*destroy value of |p|*/ +{@+if (sa_index(p) < mu_val_limit) delete_glue_ref(sa_ptr(p)); +else if (sa_ptr(p)!=null) + if (sa_index(p) < box_val_limit) flush_node_list(sa_ptr(p)); + else delete_token_ref(sa_ptr(p)); +} + +@ The procedure |sa_def| assigns a new value to sparse array elements, +and saves the former value if appropriate. This procedure is used only +for skip, muskip, box, and token list registers. The counterpart of +|sa_def| for count and dimen registers is called |sa_w_def|. + +@d sa_define(A, B, C, D, E) if (e) + if (global) gsa_def(A, B);@+else sa_def(A, B); + else if (global) geq_define(C, D, E);@+else eq_define(C, D, E) +@# +@d sa_def_box /*assign |cur_box| to |box(cur_val)|*/ + {@+find_sa_element(box_val, cur_val, true); + if (global) gsa_def(cur_ptr, cur_box);@+else sa_def(cur_ptr, cur_box); + } +@# +@d sa_word_define(A, B) if (e) + if (global) gsa_w_def(A, B);@+else sa_w_def(A, B); + else word_define(A, B) + +@<Declare \eTeX\ procedures for tr...@>= +static void sa_def(pointer @!p, halfword @!e) + /*new data for sparse array elements*/ +{@+add_sa_ref(p); +if (sa_ptr(p)==e) + { +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"reassigning"); +#endif +@;@/ + sa_destroy(p); + } +else{ +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"changing"); +#endif +@;@/ + if (sa_lev(p)==cur_level) sa_destroy(p);@+else sa_save(p); + sa_lev(p)=cur_level;sa_ptr(p)=e; +#ifdef @!STAT + if (tracing_assigns > 0) show_sa(p,"into"); +#endif +@;@/ + } +delete_sa_ref(p); +} +@# +static void sa_w_def(pointer @!p, int @!w) +{@+add_sa_ref(p); +if (sa_int(p)==w) + { +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"reassigning"); +#endif +@;@/ + } +else{ +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"changing"); +#endif +@;@/ + if (sa_lev(p)!=cur_level) sa_save(p); + sa_lev(p)=cur_level;sa_int(p)=w; +#ifdef @!STAT + if (tracing_assigns > 0) show_sa(p,"into"); +#endif +@;@/ + } +delete_sa_ref(p); +} + +@ The |sa_def| and |sa_w_def| routines take care of local definitions. +@^global definitions@> +Global definitions are done in almost the same way, but there is no need +to save old values, and the new value is associated with |level_one|. + +@<Declare \eTeX\ procedures for tr...@>= +static void gsa_def(pointer @!p, halfword @!e) /*global |sa_def|*/ +{@+add_sa_ref(p); +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"globally changing"); +#endif +@;@/ +sa_destroy(p);sa_lev(p)=level_one;sa_ptr(p)=e; +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"into"); +#endif +@;@/ +delete_sa_ref(p); +} +@# +static void gsa_w_def(pointer @!p, int @!w) /*global |sa_w_def|*/ +{@+add_sa_ref(p); +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"globally changing"); +#endif +@;@/ +sa_lev(p)=level_one;sa_int(p)=w; +#ifdef @!STAT +if (tracing_assigns > 0) show_sa(p,"into"); +#endif +@;@/ +delete_sa_ref(p); +} + +@ The |sa_restore| procedure restores the sparse array entries pointed +at by |sa_chain| + +@<Declare \eTeX\ procedures for tr...@>= +static void sa_restore(void) +{@+pointer p; /*sparse array element*/ +@/do@+{p=sa_loc(sa_chain); +if (sa_lev(p)==level_one) + {@+if (sa_index(p) >= dimen_val_limit) sa_destroy(sa_chain); +#ifdef @!STAT + if (tracing_restores > 0) show_sa(p,"retaining"); +#endif +@;@/ + } +else{@+if (sa_index(p) < dimen_val_limit) + if (sa_index(sa_chain) < dimen_val_limit) sa_int(p)=sa_int(sa_chain); + else sa_int(p)=0; + else{@+sa_destroy(p);sa_ptr(p)=sa_ptr(sa_chain); + } + sa_lev(p)=sa_lev(sa_chain); +#ifdef @!STAT + if (tracing_restores > 0) show_sa(p,"restoring"); +#endif +@;@/ + } +delete_sa_ref(p); +p=sa_chain;sa_chain=link(p); +if (sa_index(p) < dimen_val_limit) free_node(p, word_node_size); +else free_node(p, pointer_node_size); +}@+ while (!(sa_chain==null)); +} + +@ When |saving_vdiscards| is positive then the glue, kern, and penalty +nodes removed by the page builder or by \.{\\vsplit} from the top of a +vertical list are saved in special lists instead of being discarded. + +@d tail_page_disc disc_ptr[copy_code] /*last item removed by page builder*/ +@d page_disc disc_ptr[last_box_code] /*first item removed by page builder*/ +@d split_disc disc_ptr[vsplit_code] /*first item removed by \.{\\vsplit}*/ + +@<Glob...@>= +static pointer @!disc_ptr0[vsplit_code-copy_code+1], *const @!disc_ptr = @!disc_ptr0-copy_code; /*list pointers*/ + +@ @<Set init...@>= +page_disc=null;split_disc=null; + +@ The \.{\\pagediscards} and \.{\\splitdiscards} commands share the +command code |un_vbox| with \.{\\unvbox} and \.{\\unvcopy}, they are +distinguished by their |chr_code| values |last_box_code| and +|vsplit_code|. These |chr_code| values are larger than |box_code| and +|copy_code|. + +@<Generate all \eTeX...@>= +primitive("pagediscards", un_vbox, last_box_code);@/ +@!@:page\_discards\_}{\.{\\pagediscards} primitive@> +primitive("splitdiscards", un_vbox, vsplit_code);@/ +@!@:split\_discards\_}{\.{\\splitdiscards} primitive@> + +@ @<Cases of |un_vbox| for |print_cmd_chr|@>=; +else if (chr_code==last_box_code) print_esc("pagediscards"); +else if (chr_code==vsplit_code) print_esc("splitdiscards") + +@ @<Handle saved items and |goto done|@>= +{@+link(tail)=disc_ptr[cur_chr];disc_ptr[cur_chr]=null; +goto done; +} + +@ The \.{\\interlinepenalties}, \.{\\clubpenalties}, \.{\\widowpenalties}, +and \.{\\displaywidowpenalties} commands allow to define arrays of +penalty values to be used instead of the corresponding single values. + +@d inter_line_penalties_ptr equiv(inter_line_penalties_loc) +@<Generate all \eTeX...@>= +primitive("interlinepenalties", set_shape, inter_line_penalties_loc);@/ +@!@:inter\_line\_penalties\_}{\.{\\interlinepenalties} primitive@> +primitive("clubpenalties", set_shape, club_penalties_loc);@/ +@!@:club\_penalties\_}{\.{\\clubpenalties} primitive@> +primitive("widowpenalties", set_shape, widow_penalties_loc);@/ +@!@:widow\_penalties\_}{\.{\\widowpenalties} primitive@> +primitive("displaywidowpenalties", set_shape, display_widow_penalties_loc);@/ +@!@:display\_widow\_penalties\_}{\.{\\displaywidowpenalties} primitive@> + +@ @<Cases of |set_shape| for |print_cmd_chr|@>= +case inter_line_penalties_loc: print_esc("interlinepenalties");@+break; +case club_penalties_loc: print_esc("clubpenalties");@+break; +case widow_penalties_loc: print_esc("widowpenalties");@+break; +case display_widow_penalties_loc: print_esc("displaywidowpenalties"); + +@ @<Fetch a penalties array element@>= +{@+scan_int(); +if ((equiv(m)==null)||(cur_val < 0)) cur_val=0; +else{@+if (cur_val > penalty(equiv(m))) cur_val=penalty(equiv(m)); + cur_val=penalty(equiv(m)+cur_val); + } +} + +@ |expand_depth| and |expand_depth_count| are used in the \eTeX\ code +above, but not defined. So we correct this in the following modules, +|expand_depth| having been defined by us as an integer paramater (hence +there is a new primitive to create in \eTeX\ mode), and +|expand_depth_count| needing to be a global. Both have to be defined to +some sensible value. + +@<Glob...@>= +static int @!expand_depth_count; /*current expansion depth*/ + +@ @<Generate all \eTeX...@>= +primitive("expanddepth", assign_int, int_base+expand_depth_code);@/ +@!@:expand\_depth\_}{\.{\\expanddepth} primitive@> + +@ @<Cases for |print_param|@>= +case expand_depth_code: print_esc("expanddepth");@+break; + +@ @<Initialize variables for \eTeX\ extended mode@>= +expand_depth=10000; /*value taken for compatibility with Web2C*/ +expand_depth_count=0; + +@* The extended features of \Prote. +\Prote\ extends furthermore \eTeX\ i.e. \eTeX\ is thus required +before adding \Prote\ own extensions. But if \eTeX\ mode has not +be enabled, the engine is still compatible with \TeX with no added +primitive commands and with a modification of code---from +\eTeX\ exclusively for now---that is sufficiently minor so that +the engine still deserves the name \TeX. + +@d Prote_ex (Prote_mode==1) /*is this prote mode?*/ + +@<Glob...@>= +static int @!Prote_mode; /*to be or not to be; but an int to dump*/ + +@ We begin in \TeX\ compatibility mode. The state |Prote_mode| will be +set to $1$ only if activated by the supplementary `*' added to the one +activating the \eTeX\ extensions (in fact, this means for the user two +initial `*' in a row). + +@<Initialize table entries...@>= +Prote_mode=0; /*initially we are in compatibility mode*/ + +@ @<Dump the \Prote\ state@>= +dump_int(Prote_mode); + +@ @<Undump the \Prote\ state@>= +undump(0, 1, Prote_mode); + +@ In order to not clobber the global scope with variables that are +locally used, the initializations for \Prote, if the mode is +activated, are done in a dedicated procedure. These are not part of +what is dumped. + +@<Last-minute procedures@>= +static void Prote_initialize(void) +{@+int k; /*all-purpose index*/ +@<\Prote\ initializations@>; +} + +@ There are commands and command modifiers, these command modifiers +maybe encoding too a type. So we must not step on each other toes. + +@ When we are adding primitives that deal intimately with the variables +of \TeX, in the |eqtb| regions (in our case regions 5 for integers, and +6 for dimensions), the command modifier to the various +\.{assign\_*} classes is simply the address. So we have interpolated +our added variables above since this is done by the way of WEB +pre-processing. + +@ For the conditional primitives, the way is straightforward. + +@d if_incsname_code (eTeX_last_if_test_cmd_mod+1) /* `\.{\\ifincsname}' */ +@d if_primitive_code (eTeX_last_if_test_cmd_mod+2) /* `\.{\\ifprimitive}' */ +@ The |last_item| class is for secondary internal values, that can be +dereferenced by \.{\\the} but are read-only and are mainly related to +the value of a current state or are such values but their assignation +shall trigger an action, and we shall not hook in the \.{assign\_*} +processing. + +The command modifiers for the |last_item| class were, originally, +encoding too the type of the item (see m.410). But \eTeX\ has added its +extensions and we won't try to be smart: the type |cur_val_level| will +be set by switching between contiguous ranges of values of the same +type. + +And we will define here all the instances of |last_item| that we add +in order to keep our number assignations gathered. + +@d Prote_version_code (eTeX_last_last_item_cmd_mod+1) + /*code for \.{\\Proteversion}*/ +@d random_seed_code (eTeX_last_last_item_cmd_mod+2) /* \.{\\randomseed} */ +@d elapsed_time_code (eTeX_last_last_item_cmd_mod+3) /* \.{\\elapsedtime} */ +@d shell_escape_code (eTeX_last_last_item_cmd_mod+4) /* \.{\\shellescape} */ +@d last_xpos_code (eTeX_last_last_item_cmd_mod+5) /* \.{\\lastxpos} */ +@d last_ypos_code (eTeX_last_last_item_cmd_mod+6) /* \.{\\lastypos} */ +@<Fetch a \Prote\ item@>= +{@+switch (m) { + @/@<Cases for fetching a \Prote\ int value@>@/ + } /*there are no other cases*/ + cur_val_level=int_val; +} + +@ The \.{convert} class is for conversion of some external stuff to put +it, as a token list, into the scanner. It is not an internal value that +could be dereferenced by \.{\\the} and it is obviously not settable: it +expands to the token list. + +@d Prote_revision_code (eTeX_last_convert_cmd_mod+1) /* \.{\\Proterevision}*/ +@d strcmp_code (eTeX_last_convert_cmd_mod+2) /* \.{\\strcmp} */ +@d set_random_seed_code (eTeX_last_convert_cmd_mod+3) /* \.{\\setrandomseed} */ +@d normal_deviate_code (eTeX_last_convert_cmd_mod+4) /* \.{\\normaldeviate} */ +@d uniform_deviate_code (eTeX_last_convert_cmd_mod+5) /* \.{\\uniformdeviate} */ +@d creation_date_code (eTeX_last_convert_cmd_mod+6) /* \.{\\creationdate} */ +@d file_size_code (eTeX_last_convert_cmd_mod+7) /* \.{\\filesize} */ +@d file_mod_date_code (eTeX_last_convert_cmd_mod+8) /* \.{\\filemodedate} */ +@d file_dump_code (eTeX_last_convert_cmd_mod+9) /* \.{\\filedump} */ +@d mdfive_sum_code (eTeX_last_convert_cmd_mod+10) /* \.{\\mdfivesum} */ +@ When modifying the meaning of something---in this case, for now, +switching to the primitive meaning if it exists---or modifying the +way expansion is done, it seems that it can be thought as a special +case of expansion, hence a variant of |expand_after|. + +@d primitive_code (eTeX_last_expand_after_cmd_mod+1) /* `\.{\\primitive}' */ +@d expanded_code (eTeX_last_expand_after_cmd_mod+2) /* `\.{\\expanded}' */ +@ When the primitive manipulate something really external, whether +trying to insert something in the output format---\.{DVI} for +us---or dealing with the system, it doesn't fit in any cmd group and +could be called an exception. So it will be a variant of the |extension| +cmd group. + +\eTeX\ didn't add new primitives to the extension command group, so we +add a related macro, equal to |TeX_last_extension_cmd_mod|, simply so +that it is locally obvious. + +@d eTeX_last_extension_cmd_mod TeX_last_extension_cmd_mod /*none added*/ +@d reset_timer_code (eTeX_last_extension_cmd_mod+1) /* `\.{\\resettimer}' */ +@d save_pos_code (eTeX_last_extension_cmd_mod+2) /* `\.{\\savepos}' */ +@*1 Identifying \Prote. + +We will start by giving a mean to test that \Prote\ is activated and +to identify the version. + +@<Generate all \Prote\ primitives@>= +primitive("Proteversion", last_item, Prote_version_code); +@!@:Prote\_version\_}{\.{\\Proteversion} primitive@> +primitive("Proterevision", convert, Prote_revision_code);@/ +@!@:Prote\_revision\_}{\.{\\Proterevision} primitive@> + +@ We use the different hooks added to insert our cases. + +@<Cases of |last_item| for |print_cmd_chr|@>= +case Prote_version_code: print_esc("Proteversion");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case Prote_version_code: cur_val=Prote_version;@+break; + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case Prote_revision_code: print_esc("Proterevision");@+break; + +@ @<Cases of `Scan the argument for command |c|'@>= +case Prote_revision_code: do_nothing;@+break; + +@ @<Cases of `Print the result of command |c|'@>= +case Prote_revision_code: print(Prote_revision);@+break; + +@*1 \Prote\ added token lists routines. + +We will, more than once, convert a general normally expanded text +to a string. Due to the unfelicity of \PASCAL\ about forward +declarations of functions, we declare procedures that do their task +by defining global variables. In this case, |garbage| is used. + +|link(garbage)| will hold the pointer to the head of the token list, +|info(garbage)| to the tail. If the two are equals, then the list is +empty. The routine making a string will take |link(garbage)| and +put the number in |info(garbage)|. + +@ The first procedure scan a general text (normally) expanded. The +head of the reference count is returned in |link(garbage)|, the +tail in |info(garbage)| and if the two are equals, the list is empty. +User must keep in mind that this has to be flushed when done with! + +@<Declare \Prote\ procedures for expanding@>= +static void scan_general_x_text(void); + +@ @<Declare \Prote\ procedures for token lists@>= +static void scan_general_x_text(void) +{@+pointer d; /*to save |def_ref|*/ +d=def_ref;info(garbage)=scan_toks(false, true); +link(garbage)=def_ref; +def_ref=d; /*restore whatever*/ +} + +@ The second procedure takes a token list defined in |link(garbage)| +and converts it to a string number that is returned in |info(garbage)|. +Neither the token list nor the string (obviously) are flushed. + +@<Declare \Prote\ procedures for scanning@>= +static void toks_to_str(void); + +@ Here we are using |token_show| that has to take a reference count. + +@<Declare \Prote\ procedures for token lists@>= +static void toks_to_str(void) +{@+int old_setting; /*holds |selector| setting*/ +old_setting=selector;selector=new_string; + token_show(link(garbage));selector=old_setting; + str_room(1); /*flirting with the limit means probably truncation*/ + info(garbage)=make_string(); +} + +@*1 \Prote\ added strings routines. + +The next procedure sets |name_of_file| from the string given as an +argument. It silently truncates if the length of the string exceeds the +size of the name buffer and doesn't use |cur_area| and |cur_ext|: it +takes the string as is and the string is not flushed. + +@<Declare \Prote\ procedures for strings@>= +static void str_to_name(str_number @!s) +{@+int k; /*number of positions filled in |name_of_file|*/ +ASCII_code @!c; /*character being packed*/ +int @!j; /*index into |str_pool|*/ +k=0;for (j=str_start[s]; j<=str_start[s+1]-1; j++) {@+ + c=so(str_pool[j]);incr(k); + if (k <= file_name_size) name_of_file[k]=xchr[c]; + } +name_length=k; +name_of_file[name_length+1]=0; +} + +@*1 Exchanging data with external routines. + +In order to try to sever external handling from our core, we +introduce an all purpose exchange buffer |xchg_buffer|, that will +be an array of bytes (these can be interpreted as \.{text\_char} +or \.{ASCII\_char} or \.{eight\_bits}). + +The data to be used starts at index $1$ and ends at index +|xchg_buffer_length|. + +For the moment, this buffer must accommodate a numerical MD5 +hash value, i.e. $16$ bytes long; will also be used to exchange $64$ +bytes chunks to feed MD5 hash generation, and will have to accommodate +too the maximal size of the date returned by \.{\\creationdate} or +\.{\\filemoddate} that is $23$ \.{text\_char}. So at least $64$ for now. + +@<Global...@>= +static eight_bits @!xchg_buffer0[xchg_buffer_size], *const @!xchg_buffer = @!xchg_buffer0-1; + /*exchange buffer for interaction with system routines*/ +static int @!xchg_buffer_length; /*last valid index in this buf; 0 means no data*/ +@ @<Check \Prote\ ``constant'' values for consistency@>= +if (xchg_buffer_size < 64) bad=51; + +@ When there is data in the exchange buffer, the length of the data has +to be set. When an external routine has consumed the data, it shall +reset the length to $0$. + +@<\Prote\ initializations@>= +xchg_buffer_length=0; + +@ There is too the problem of what is referred as a stream of data. +Since the conversion in another language is not easy, we dedicate a +global variable that has to hold a reference to the stream: |data_in|. +It is a stream of bytes, without making assumptions about what they may +represent. + +In the code, we verify the opening and define |data_in| and this is this +variable external routine may refer to for processing. + +@<Global...@>= +static byte_file @!data_in; /*opening here, but letting external routines handle*/ + +@*1 \Prote\ states. + +\.{\\shellescape} depends on a pdf\TeX\ feature, namely the ability to +escape to shell. There is no such thing in \Prote. So it expands to $0$. +Note: this a status primitive; it does not allow to set the status but +simply expands to a read-only integer reflecting it. In \Prote, it is +always $0$. + +@<Generate all \Prote\ primitives@>= +primitive("shellescape", last_item, shell_escape_code); +@!@:shellescape\_}{\.{\\shellescape} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case shell_escape_code: print_esc("shellescape");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case shell_escape_code: cur_val=0;@+break; + +@*1 \Prote\ conditionals. + +We add the following conditionals, that are susceptible of the same +expansion rules as the other |if_test| ones. + +@<Generate all \Prote\ primitives@>= +primitive("ifincsname", if_test, if_incsname_code); +@!@:if\_incsname\_}{\.{\\if} primitive@> +primitive("ifprimitive", if_test, if_primitive_code); +@!@:if\_primitive\_}{\.{\\if} primitive@> + +@ @<Cases of |if_test| for |print_cmd_chr|@>= +case if_incsname_code: print_esc("ifincsname");@+break; +case if_primitive_code: print_esc("ifprimitive");@+break; + +@ The conditional \.{\\ifincsname} is simple since we increment a global +variable |incsname_state| when we enter the \.{\\csname} command and +decrement it when we have reached and passed the \.{\\endcsname}---a +scope depth index. + +@<\Prote\ initializations@>= +incsname_state=0; + +@ @<Cases for |conditional|@>= +case if_incsname_code: b=(incsname_state > 0);@+break; + +@ The conditional \.{\\ifprimitive} is true when the following control +sequence is a primitive; false otherwise. |id_lookup| can return +|undefined_control_sequence| (for a control sequence not entered in the +hash since |no_new_control_sequence| is |true|), but since it has the +\.{eq\_type} set to |undefined_cs|, the test of this latter works as +for a control sequence entered but never defined. + +@ @<Cases for |conditional|@>= +case if_primitive_code: {@+@/do@+{get_token();}@+ while (!(cur_tok!=space_token)); +if ((cur_cs!=0)&&(cur_cmd!=undefined_cs)&&(cur_cmd < call)) b=true;else b=false; +} @+break; + +@*1 \Prote\ primitives changing definition or expansion. + +The next primitives, here, are more involved since they are whether +changing the definition of a control sequence, or modifying how the +tokens will be treated. + +@ Since a user level control sequence can give a new definition to a +primitive, the \.{primitive}... primitive, if the argument is a control +sequence whose name is the name of a primitive, will make this primitive +meaning the meaning of the control sequence {\it hic et nunc}. If there +was no primitive meaning, no error is raised and nothing is changed. +It can be seen as a kind of \.{expand\_after} command since it is in the +external handling of the token list creation. + +Since we need to redefine the token and hence give a valid control +sequence in the |eqtb|, we have defined |frozen_primitive|. This +``frozen'' is, actually, not quite frozen by itself since we will +redefine its values according to the primitive definition we have +to restablish momentarily. But it is indeed ``permanent'' since +it only refers to the permanently defined meanings. Hence, the +initialization of the |frozen_primitive| address is just to document +the code: these values will be overwritten on each actual call. + +@<Generate all \Prote\ primitives@>= +primitive("primitive", expand_after, primitive_code); +@!@:primitive\_}{\.{\\primitive} primitive@> +text(frozen_primitive)=text(cur_val);eqtb[frozen_primitive]=eqtb[cur_val]; + +@ @<Cases of |expandafter| for |print_cmd_chr|@>= +case primitive_code: print_esc("primitive");@+break; + +@ The problem is that the primitives are added at |level_one| and that a +redefinition as a macro at this same level by a user simply overwrites +the definition. We need then to keep these definitions. + +Primitives are only added by \.{INITEX}. So we can consider what we will +call a |ROM|, since it can be only ``flashed'' by \.{INITEX} and is +read-only afterwards, a kind of BIOS table holding initial system calls +(primitives). + +Since primitives are not macros (they don't need to expand or to +evaluate parameters since their definition is directly in the code), +the definition of a primitive is a couple: the command class (|cur_cmd|) +and the modifier (|cur_chr|) to distinguish between the cases---the +instances. But since, at the user level, a primitive is identified by +its name, and that a redefinition is, mandatorily, a homonym, the +location of the macro shadowing the primitive is at the same address as +was the primitive in the |eqtb|. So in order to speed-up the check, we +should organize things so that the address in the |eqtb| of a control +sequence (one character or multiletter) can be readily +converted in an address in the |ROM| array. + +This array will be an array of memory word, of type |two_halves|, in +order to re-use the macro definitions set for the table of equivalents. + +The one character primitives are added by direct addressing relative to +|single_base|. The multiletter primitives are added starting at +|frozen_control_sequence-1|, downwards; but there are only, at the +moment, $322$ multileter primitives defined by \TeX, $78$ such +primitives defined by \eTeX, and we are adding $24$ more. It is clear +that, looking at primitives, region 2 of |eqtb| is really a sparse array +and that, when |hash_size| is increased for format needs, there will be +a fair amount of space wasted if we simply copy, in fact, second part +of region 1 and region 2 in the |ROM|. + +Yes, but it is simpler as a first approach---premature optimization is +the root of all evil. So a simple translation scheme will be enough. + +The index in |ROM| will start at $1$ and will go up to $256 + 1 + +hash\_size$, that is a simple translation from |single_base| to +|ROM_base|, but only for addresses of interest, the other pointing to +an |ROM_undefined_primitive| that will allow an easy test. + +@d ROM_base 1 +@d ROM_size (256+1+hash_size) /*256 oc, undefined and ml*/ +@d ROM_undefined_primitive 257 +@d ROM_type_field(A) A.hh.b0 +@d ROM_equiv_field(X) X.hh.rh +@d ROM_type(A) ROM_type_field(ROM[A]) /*command code for equivalent*/ +@d set_ROM_p_from_cs(A) if ((A >= single_base) + &&(A < frozen_control_sequence)) + p=A-single_base+ROM_base; + else p=ROM_undefined_primitive + +@<Global...@>= +static memory_word @!ROM0[ROM_size-ROM_base+1], *const @!ROM = @!ROM0-ROM_base; + +@ Even if it will be unused in \TeX\ or \eTeX\ modes, we will initialize +it since we add code to the |primitive| procedure and we need \TeX\ +and \eTeX\ ones to be registered as well, whether \.{INITEX} switches to +\Prote\ mode later or not. + +@<Initialize table entries...@>= +ROM[ROM_undefined_primitive]=eqtb[undefined_control_sequence]; +for (k=ROM_base; k<=256; k++) ROM[k]=ROM[ROM_undefined_primitive]; +for (k=ROM_undefined_primitive+1; k<=ROM_size; k++) + ROM[k]=ROM[ROM_undefined_primitive]; + +@ When a primitive is added---and this only happens in \.{INITEX}---we +have to define the corresponding address in the \.{ROM}. + +@ |cur_val| has the pointer in second part of region 1 or in region 2 +of |eqtb|. + +@<Add primitive definition to the |ROM| array@>= +set_ROM_p_from_cs(cur_val); +ROM[p]=eqtb[cur_val]; + +@ This array has to be dumped since it is only defined by \.{INITEX}. It +is always dumped even if it is unused unless in \Prote\ mode. + +@<Dump the |ROM| array@>= +for (k=ROM_base; k<=ROM_size; k++) dump_wd(ROM[k]); + +@ And what has been dumped shall be undumped. + +@<Undump the |ROM| array@>= +for (k=ROM_base; k<=ROM_size; k++) undump_wd(ROM[k]); + +@ Once all this is done, the processing of \.{\\primitive} is simple: +we read the next token that has to be a control sequence. If this +control sequence belongs to region 1 or 2 and is defined in |ROM|, we +redefine the token to be the |frozen_primitive| control sequence, +redefining its codes from the |ROM| and setting the text associated for +printing purposes. If not, the token is unchanged. Then we put back the +token so that it will be processed again, maybe redefined. + +@<Cases for |expandafter|@>= +case primitive_code: {@+get_token(); +set_ROM_p_from_cs(cur_cs); +if ((p!=ROM_undefined_primitive)&&(ROM_type(p)!=undefined_cs)) {@+ + eqtb[frozen_primitive]=ROM[p]; + text(frozen_primitive)=text(cur_cs); + cur_tok=cs_token_flag+frozen_primitive; + } +back_input(); +} @+break; + +@ The next primitive changes the expansion of its argument that is like +a general text expanded, except that protected macros (an \eTeX\ +extension) are not extanded. + +@ @<Generate all \Prote\ primitives@>= +primitive("expanded", expand_after, expanded_code);@/ +@!@:expanded\_}{\.{\\expanded} primitive@> + +@ @<Cases of |expandafter| for |print_cmd_chr|@>= +case expanded_code: print_esc("expanded"); + +@ This intervenes in |expand| and we must substitute a token list to our +current token, putting it back for further reprocessing. + +@<Cases for |expandafter|@>= +case expanded_code: {@+scan_general_x_text(); + back_list(link(link(garbage))); + free_avail(link(garbage)); /*drop reference count*/ + } + +@*1 \Prote\ strings related primitives. + +The primitive \.{\\strcmp} text two parameters that are general text +without expansion. The two token lists created are converted to strings +and this couple of strings is then compared, character by character. If +the first string is lexicographically sorted before the second, the +expansion is $-1$; if the two strings are equal, the expansion is $0$; +if the first string is lexicographically sorted after the second, the +expansion is $1$. + +@<Generate all \Prote\ primitives@>= +primitive("strcmp", convert, strcmp_code); +@!@:strcmp\_}{\.{\\strcmp} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case strcmp_code: print_esc("strcmp");@+break; + +@ It should be noted that the strings comparison is \TeX\ strings +comparison: the arguments are subject to the manipulation done when +scanning a general text (squeezing non escaped blanks), and the +characters are converted according to the |xord| array. Thus it is +an |ASCII_code|---in the \TeX\ sense explained at the very beginning +of the web file, part 2---comparison and the result is the same, +as long as relative characters are mapped to the same value, whatever +the system. Nul strings are valid. + +@<Cases of `Scan the argument for command |c|'@>= +case strcmp_code: {@+scan_general_x_text();toks_to_str(); + s=info(garbage);flush_list(link(garbage)); + scan_general_x_text();toks_to_str(); + t=info(garbage);flush_list(link(garbage)); + if ((length(s)==0)&&(length(t)==0)) cur_val=0; + else if (length(s)==0) cur_val=-1; + else if (length(t)==0) cur_val=1; + else{@+m=str_start[s];n=str_start[t];r=false; + while ((!r)&&(m < str_start[s+1])&&(n < str_start[t+1])) {@+ + cur_val=str_pool[m]-str_pool[n];if (cur_val!=0) r=true; + incr(m);incr(n); + } + if (cur_val==0) {@+if (length(s)!=length(t)) + if (m!=str_start[s+1]) cur_val=1;else cur_val=-1; + } + else cur_val=cur_val/(double)abs(cur_val); + } + flush_string;flush_string; + } @+break; + +@ @<Cases of `Print the result of command |c|'@>= +case strcmp_code: print_int(cur_val);@+break; + +@*1 \Prote\ date and time related primitives. + +The following primitives are related to the time elapsed since a +defined moment in time. The creation date is fixed at the moment when +|fix_date_and_time| has been called and stays fixed afterwards. This +moment is also, by default, the reference moment for computing the time +elapsed. + +@ The creation date is retrieved by the \.{\\creationdate} primitive. As +explained above, the date corresponds to the moment when +|fix_date_and_time| was called taking into account |FORCE_SOURCE_DATE| +and |SOURCE_DATE_EPOCH| (see above, m.241). If the creation date is +forced, the string will be UTC related. + +The format of the string is |D: YYYYMMDDHHmmSSOHH"mm"|, `O' being the +relationship of local time to UT, that is `-' (minus), `+' or `Z'; +HH followed by a single quote being the absolute value of the offset +from UT in hours (00--23), mm followed by a single quote being the +absolute value of the offset from UT in minutes (00--59). All fields +after the year are optional and default to zero values. + +@ @<Generate all \Prote\ primitives@>= +primitive("creationdate", convert, creation_date_code);@/ +@!@:creationdate\_}{\.{\\creationdate} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case creation_date_code: print_esc("creationdate");@+break; + +@ |get_creation_date| has to be provided by the system. +@^system dependencies@> + +@<Cases of `Scan the argument for command |c|'@>= +case creation_date_code: get_creation_date();@+break; + +@ The date is in the |time_str| so we have simply to convert the +characters. + +@<Cases of `Print the result of command |c|'@>= +case creation_date_code: for (k=0; time_str[k]!='\0'; k++) + print_char(time_str[k]);@+break; + +@ The time elapsed is a scaled integer the unit being scaled seconds, +i.e. $1/65536$ of a second. Since our scaled integers have a +defined range, the value can not reach or pass, in plain seconds, +$32767$. + +The elapsed time returned is relative to some defined moment. At +start, the reference moment is the time the date was set for +|fix_date_and_time|. This requires system support and the default +implementation here will then fix this moment at noon on 4 July 1776 +and what would be returned by the function is here simply defined by +a macro: with this reference time and this basic code, |infinity| is +the permanent answer. +@^system dependencies@> + +@d get_elapsed_time infinity /*a function should be implemented*/ + +@ @<Generate all \Prote\ primitives@>= +primitive("resettimer", extension, reset_timer_code);@/ +@!@:resettimer\_}{\.{\\resettimer} primitive@> +primitive("elapsedtime", last_item, elapsed_time_code);@/ +@!@:elapsedtime\_}{\.{\\elapsedtime} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case elapsed_time_code: print_esc("elapsedtime");@+break; + +@ @<Cases of |extension| for |print_cmd_chr|@>= +case reset_timer_code: print_esc("resettimer");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case elapsed_time_code: cur_val=get_elapsed_time;@+break; + +@ The reference moment can be reset by a call to the primitive +\.{\\resettimer}. It simply resets the reference moment to the moment +the primitive was called. The counter is not regularily incremented. +When asked about the time elapsed what is returned is the difference, in +scaled seconds, from the moment of the call to the moment of reference. +So there is no persistent variable neither a kind of clock implemented. +@^system dependencies@> + +Standard \PASCAL\ doesn't provide related routines so our +syntactically correct but semantically useless routines are implemented +here: the |reset_timer| does nothing, while the |get_elapsed_time| +simply returns, even when |reset_timer| has been called, the invalid +value |infinity|. + +@d reset_timer do_nothing + +@ Since to reset the timer a simple call to the routine is necessary, +we simply add it to \.{main\_control} by adding it to the cases handled +by \.{do\_extension}. It contributes nothing to the token list: it is a +``fire and forget'', so no need to handle the special \.{subtype} in the +other hooks. + +@<Cases for |do_extension|@>= +case reset_timer_code: reset_timer;@+break; + +@*1 \Prote\ file related primitives. + +The presence of the following primitives in the engine can be +questioned. Since they are very external, and their implementation, for +example in C, requires things that are not in the C standard (the +date of modification of the file, for example). So these should not be +multiplied. + +@ The \.{\\filesize} primitive expands to the size, in bytes, of the +file. + +@<Generate all \Prote\ primitives@>= +primitive("filesize", convert, file_size_code); +@!@:filesize\_}{\.{\\filesize} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case file_size_code: print_esc("filesize");@+break; + +@ In order to be able to treat the problem when trying to open the file, +we open here and pass the file pointer, if success, to a dedicated +function in order to get its size. In case of problem, nothing is +returned. +@^system dependencies@> + +@<Cases of `Scan the argument for command |c|'@>= +case file_size_code: {@+scan_general_x_text();toks_to_str(); + s=info(garbage);flush_list(link(garbage));str_to_name(s); + cur_val=get_file_size(); + flush_string; + } @+break; + +@ @<Cases of `Print the result of command |c|'@>= +case file_size_code: if (cur_val!=-1) print_int(cur_val);@+break; + +@ The \.{\\filemoddate} expands to a date with the same format as the +creation date (see \.{\\creationdate}). + +@<Generate all \Prote\ primitives@>= +primitive("filemoddate", convert, file_mod_date_code); +@!@:filemoddate\_}{\.{\\filemoddate} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case file_mod_date_code: print_esc("filemoddate");@+break; + +@ For getting the argument, the treatment resembles that of +\.{\\filesize} obviously, since it is only the type of information +returned that changes. The availability of this information in system +dependent. The information shall be set in |xchg_buffer|. +@^system dependencies@> + +In this basic implementation, we set the string to the empty one by +simply setting |xchg_buffer_length| to $0$. + +@d get_file_mtime xchg_buffer_length=0 + +@<Cases of `Scan the argument for command |c|'@>= +case file_mod_date_code: {@+scan_general_x_text();toks_to_str(); + s=info(garbage);flush_list(link(garbage));str_to_name(s); + get_file_mod_date(); + flush_string; + } @+break; + +@ Printing the result consists simply in printing every +|text_char| in |time_str|. +If the length is $0$, nothing is printed. + +@<Cases of `Print the result of command |c|'@>= +case file_mod_date_code: for (k=0; time_str[k]!='\0'; k++) + print_char(time_str[k]);@+break; + + +@ The primitive \.{\\filedump} expands to the dump of the first + \.{length} bytes of the file, starting from \.{offset}. Offset and +length are optional integers given, in that order, introduced resp. +by the keywords ``offset'' and ``length''. If not specified, they +default to $0$. A length of $0$ expands to nothing (it is not an error). +The file name is given as a |general text|. + +@<Generate all \Prote\ primitives@>= +primitive("filedump", convert, file_dump_code); +@!@:filedump\_}{\.{\\filedump} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case file_dump_code: print_esc("filedump");@+break; + +@ The scanning of the arguments is obvious from the syntax above. + +Since ``offset'' and ``length'' may be given in that order, we assign +the variables \.{k} and \.{l}, in alphabetical order. These have to be +positive or nul values. + +Contrary to other blocks, and for optimization purposes (in order not to +clobber the string pool with data that we can read, when necessary, one +byte at a time), \.{k}, \.{l} and \.{f} will be defined here and used +when printing. + +@<Cases of `Scan the argument for command |c|'@>= +case file_dump_code: {@+k=0;l=0; /*defaults*/ + if (scan_keyword("offset")) {@+scan_int(); + if (cur_val < 0) {@+print_err("Bad ");print_esc("filedump"); +@.Bad \\filedump@> + help2("I allow only nonnegative values here.",@/ + "I changed this one to zero.");int_error(cur_val); + } + else k=cur_val; + } + if (scan_keyword("length")) {@+scan_int(); + if (cur_val < 0) {@+print_err("Bad ");print_esc("filedump"); +@.Bad \\filedump@> + help2("I allow only nonnegative values here.",@/ + "I changed this one to zero.");int_error(cur_val); + } + else l=cur_val; + } + scan_general_x_text();toks_to_str();s=info(garbage); + flush_list(link(garbage));str_to_name(s); + flush_string; /*this one was the filename argument*/ + } @+break; + +@ The variables have been set, and the file name has been defined. We +simply print the uppercase hexadecimal transcription of every byte +requested before closing the file. Here we deal with bytes +(\.{eight\_bits} values) so there is no transcription. + +@<Cases of `Print the result of command |c|'@>= +case file_dump_code: + { FILE *f=fopen((char*)name_of_file0,"rb"); + if (f!=NULL) {@+ + fseek(f,k,SEEK_SET); + do@+{i=fgetc(f); if (i==EOF) break; + dig[0]=i%16;dig[1]=i/16; + print_the_digs(2);decr(l); + }@+ while (!(feof(f)||(l==0))); + fclose(f); + } + } @+break; + +@ The \.{\\mdfivesum} is obviously a variant of the \.{convert} class since +it takes values from external and put them as a token list in the +stream. + +@<Generate all \Prote\ primitives@>= +primitive("mdfivesum", convert, mdfive_sum_code); +@!@:mdfivesum\_}{\.{\\mdfivesum} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case mdfive_sum_code: print_esc("mdfivesum");@+break; + +@ There is an optional keyword "file" that will tell us if the | < general +text > | is to be taken as a filename or just as the string to hash. The +| < balanced text > | is expanded in both cases. + +Once this is done, we ask to init the MD5 state; then fill the exchange +buffer with chunks of data and update the MD5 hash with every chunk +until source is exhausted and ask for the final ($16$ bytes numerical +value) result that will be put in the |xchg_buffer|. + +Since we are looking for a ``general text'', that must be enclosed (at +least: ended; the opening brace can be implicit) by a |right_brace|, +an error will be caught with runaways. + +The general text is converted to a string. It is legal to have an empty +string if the argument is not a file. + +@<Cases of `Scan the argument for command |c|'@>= +case mdfive_sum_code: {@+r=scan_keyword("file");scan_general_x_text(); +toks_to_str();s=info(garbage);flush_list(link(garbage)); +l=get_md5_sum(s,r); +flush_string; /*done with the filename or string to hash*/ +} @+break; + +@ As a result, there is $16$ bytes in the |md5_digest| representing the +MD5 hash. We simply print, byte by byte, the uppercase hexadecimal +representation of this hash. + +@<Cases of `Print the result of command |c|'@>= +case mdfive_sum_code: for (k=0; k<l; k++) +{@+dig[0]=md5_digest[k]%16;@+dig[1]=md5_digest[k]/16;print_the_digs(2); +} @+break; + +@ If the string obtained is supposed to be a file name, +@ This is something that we will be doing several times. We have scanned +a general text. The result is a token list that we will interpret as a +file name. We must then put this name in |name_of_file| and try to open +it, as a binary file. + +|cur_area| and |cur_ext| are not set: we use the string as is. + +@<Generate the MD5 hash for a file@>= +{@+str_to_name(s); +xchg_buffer_length=0; /*empty if file not opened*/ +if (b_open_in(&data_in)) {@+ + mdfive_init; + r=false; /*reset it to indicate eof*/ + while (!r) + {@+if (xchg_buffer_length==64) mdfive_update; /*resets length*/ + if (!eof(data_in)) + {@+pascal_read(data_in, i);xchg_buffer[xchg_buffer_length+1]=i; + incr(xchg_buffer_length); + } + else r=true; + } + if (xchg_buffer_length!=0) mdfive_update; /*treats remaining*/ + b_close(&data_in); + mdfive_final; /*may yield the empty file/nul string hash if nothing input*/ + } +} + +@ For a string, the procedure is very similar. It is not an error for +the string to be the null one. + +@<Generate the MD5 hash for a string@>= +{@+mdfive_init;xchg_buffer_length=0; /*proceed by 64 chunks*/ +for (k=str_start[s]; k<=str_start[s+1]-1; k++) + {@+if (xchg_buffer_length==64) mdfive_update; /*resets length*/ + xchg_buffer[xchg_buffer_length+1]=xchr[so(str_pool[k])]; + incr(xchg_buffer_length); + } +if (xchg_buffer_length!=0) mdfive_update; /*treats remaining*/ +mdfive_final; +} + +@ A MD5 hash signature can be requested for a stream of bytes, this +being a string directly passed or a file. + +Since the MD5 algorithm does a lot of bitwise operations, a standard +Pascal implementation has not been attempted. But since we aim to +limitate and to segregate the calls to external routines so that they do +not tamper with the internals of \TeX, we have to find a way to +communicate with the routines. + +@ To obtain the MD5 hash signature of a file will need an external +implementation, since the algorithm requires bitwise operation that +standard \PASCAL does not provide. So we do not bother to try. The +present implementation returns nothing. +@^system dependencies@> + +@ |mdfive_init| shall reinit the state to compute the hash value. +Nothing is taken from |xchg_buffer| and |xchg_buffer_length| is +unchanged. + +@d mdfive_init do_nothing + +@ |mdfive_update| takes |xchg_buffer_length| bytes to contribute to the +hash. The bytes being consumed, |xchg_buffer_length| shall be reset to +$0$. + +@d mdfive_update xchg_buffer_length=0 + +@ |md5_final| puts the binary $16$ bytes long hash into |xchg_buffer| +and sets |xchg_buffer_length| to $16$. + +Here, by default, we do nothing except carefully set +|xchg_buffer_length| to $0$ in order to state that we have consumed +the data. + +@d mdfive_final xchg_buffer_length=0 + +@*1 Pseudo-random number generation. + +These routines come from John Hobby's \MP\ and generate pseudo-random +numbers with the additive scheme recommended in Section 3.6 of +{\sl The Art of Computer Programming}; however, the results are +random fractions between 0 and |mpfract_one-1|, inclusive. + +\MP\ uses 28~significant bits of precision and we have kept this in +order for the routines to behave the same way as in \MP. So the name +|mpfract| will be used instead of |scaled|, while the two are integers, +in the range defined by \TeX. + +@d double(A) A=A+A /*multiply a variable by two*/ +@d halfp(A) (A)/2 /*when quantity is known to be positive or zero*/ + +@ The subroutines for logarithm and exponential involve two tables. +The first is simple: |two_to_the[k]| equals $2^k$. The second involves +a bit more calculation, which the author claims to have done correctly: +|spec_log[k]| is $2^{27}$ times $\ln\bigl(1/(1-2^{-k})\bigr)= +2^{-k}+{1\over2}2^{-2k}+{1\over3}2^{-3k}+\cdots\,$, rounded to the +nearest integer. + +@<Glob...@>= +static int @!two_to_the[31]; /*powers of two*/ +static int @!spec_log0[28], *const @!spec_log = @!spec_log0-1; /*special logarithms*/ + +@ @<\Prote\ initializations@>= +two_to_the[0]=1; +for (k=1; k<=30; k++) two_to_the[k]=2*two_to_the[k-1]; +spec_log[1]=93032640; +spec_log[2]=38612034; +spec_log[3]=17922280; +spec_log[4]=8662214; +spec_log[5]=4261238; +spec_log[6]=2113709; +spec_log[7]=1052693; +spec_log[8]=525315; +spec_log[9]=262400; +spec_log[10]=131136; +spec_log[11]=65552; +spec_log[12]=32772; +spec_log[13]=16385; +for (k=14; k<=27; k++) spec_log[k]=two_to_the[27-k]; +spec_log[28]=1; + +@ Here is the routine that calculates $2^8$ times the natural logarithm +of a |scaled| quantity; it is an integer approximation to $2^{24}\ln(x/2^{16})$, +when |x| is a given positive integer. + +The method is based on exercise 1.2.2--25 in {\sl The Art of Computer +Programming\/}: During the main iteration we have $1\L 2^{-30}x<1/(1-2^{1-k})$, +and the logarithm of $2^{30}x$ remains to be added to an accumulator +register called~$y$. Three auxiliary bits of accuracy are retained in~$y$ +during the calculation, and sixteen auxiliary bits to extend |y| are +kept in~|z| during the initial argument reduction. (We add +$100\cdot2^{16}=6553600$ to~|z| and subtract 100 from~|y| so that |z| will +not become negative; also, the actual amount subtracted from~|y| is~96, +not~100, because we want to add~4 for rounding before the final division by~8.) + +@<Declare \Prote\ arithmetic routines@>= +static scaled m_log(scaled @!x) +{@+int @!y, @!z; /*auxiliary registers*/ +int @!k; /*iteration counter*/ +if (x <= 0) @<Handle non-positive logarithm@>@; +else{@+y=1302456956+4-100; /*$14\times2^{27}\ln2\approx1302456956.421063$*/ + z=27595+6553600; /*and $2^{16}\times .421063\approx 27595$*/ + while (x < mpfract_four) + {@+double(x);y=y-93032639;z=z-48782; + } /*$2^{27}\ln2\approx 93032639.74436163$ + and $2^{16}\times.74436163\approx 48782$*/ + y=y+(z/unity);k=2; + while (x > mpfract_four+4) + @<Increase |k| until |x| can be multiplied by a factor of $2^{-k}$, and adjust +$y$ accordingly@>; + return y/8; + } +} + +@ @<Increase |k| until |x| can...@>= +{@+z=((x-1)/two_to_the[k])+1; /*$z=\lceil x/2^k\rceil$*/ +while (x < mpfract_four+z) + {@+z=halfp(z+1);k=k+1; + } +y=y+spec_log[k];x=x-z; +} + +@ @<Handle non-positive logarithm@>= +{@+print_err("Logarithm of "); +@.Logarithm...replaced by 0@> +print_scaled(x);print(" has been replaced by 0"); +help2("Since I don't take logs of non-positive numbers,",@/ + "I'm zeroing this one. Proceed, with fingers crossed."); +error();return 0; +} + +@ Here is introduced the special 28bits significand |mpfract|. + +@d el_gordo 017777777777 /*$2^{31}-1$, the largest value that \TeX\ likes*/ +@d mpfract_half 01000000000 /*$2^{27}$, represents 0.50000000*/ +@d mpfract_one 02000000000 /*$2^{28}$, represents 1.00000000*/ +@d mpfract_four 010000000000 /*$2^{30}$, represents 4.00000000*/ + +@<Types...@>= +typedef int mpfract; /*this type is used for pseudo-random numbers*/ + +@ The |make_mpfract| routine produces the |mpfract| equivalent of +|p/(double)q|, given integers |p| and~|q|; it computes the integer +$f=\lfloor2^{28}p/q+{1\over2}\rfloor$, when $p$ and $q$ are +positive. If |p| and |q| are both of the same scaled type |t|, +the ``type relation'' |make_mpfract(t, t)==mpfract| is valid; +and it's also possible to use the subroutine ``backwards,'' using +the relation |make_mpfract(t, mpfract)==t| between scaled types. + +If the result would have magnitude $2^{31}$ or more, |make_mpfract| +sets |arith_error=true|. Most of \TeX's internal computations have +been designed to avoid this sort of error. + +If this subroutine were programmed in assembly language on a typical +machine, we could simply compute |(@t$2^{28}$@>*p)/q|, since a +double-precision product can often be input to a fixed-point division +instruction. But when we are restricted to \PASCAL\ arithmetic it +is necessary either to resort to multiple-precision maneuvering +or to use a simple but slow iteration. The multiple-precision technique +would be about three times faster than the code adopted here, but it +would be comparatively long and tricky, involving about sixteen +additional multiplications and divisions. + +The present implementation is highly portable, but slow; it avoids +multiplication and division except in the initial stage. But since it is +not part of \TeX\ inner loop, it doesn't matter. + +@<Declare \Prote\ arithmetic routines@>= +static mpfract make_mpfract(int @!p, int @!q) +{@+int @!f; /*the fraction bits, with a leading 1 bit*/ +int @!n; /*the integer part of $\vert p/q\vert$*/ +bool @!negative; /*should the result be negated?*/ +int @!be_careful; /*disables certain compiler optimizations*/ +if (p >= 0) negative=false; +else{@+negate(p);negative=true; + } +if (q <= 0) + { +#ifdef @!DEBUG +if (q==0) confusion("/");@; +#endif +@;@/ +@:this can't happen /}{\quad \./@> + negate(q);negative=!negative; + } +n=p/q;p=p%q; +if (n >= 8) + {@+arith_error=true; + if (negative) return-el_gordo;@+else return el_gordo; + } +else{@+n=(n-1)*mpfract_one; + @<Compute $f=\lfloor 2^{28}(1+p/q)+{1\over2}\rfloor$@>; + if (negative) return-(f+n);@+else return f+n; + } +} + +@ The |@/do@+{| loop here preserves the following invariant relations +between |f|, |p|, and~|q|: +(i)~|0 <= p < q|; (ii)~$fq+p=2^k(q+p_0)$, where $k$ is an integer and +$p_0$ is the original value of~$p$. + +Notice that the computation specifies +|(p-q)+p| instead of |(p+p)-q|, because the latter could overflow. +Let us hope that optimizing compilers do not miss this point; a +special variable |be_careful| is used to emphasize the necessary +order of computation. Optimizing compilers should keep |be_careful| +in a register, not store it in memory. +@^inner loop@> + +@<Compute $f=\lfloor 2^{28}(1+p/q)+{1\over2}\rfloor$@>= +f=1; +@/do@+{be_careful=p-q;p=be_careful+p; +if (p >= 0) f=f+f+1; +else{@+double(f);p=p+q; + } +}@+ while (!(f >= mpfract_one)); +be_careful=p-q; +if (be_careful+p >= 0) incr(f) + +@ The dual of |make_mpfract| is |take_mpfract|, which multiplies a +given integer~|q| by a fraction~|f|. When the operands are positive, it +computes $p=\lfloor qf/2^{28}+{1\over2}\rfloor$, a symmetric function +of |q| and~|f|. + +@<Declare \Prote\ arithmetic routines@>= +static int take_mpfract(int @!q, mpfract @!f) +{@+int @!p; /*the fraction so far*/ +bool @!negative; /*should the result be negated?*/ +int @!n; /*additional multiple of $q$*/ +int @!be_careful; /*disables certain compiler optimizations*/ +@<Reduce to the case that |f>=0| and |q>0|@>; +if (f < mpfract_one) n=0; +else{@+n=f/mpfract_one;f=f%mpfract_one; + if (q <= el_gordo/n) n=n*q; + else{@+arith_error=true;n=el_gordo; + } + } +f=f+mpfract_one; +@<Compute $p=\lfloor qf/2^{28}+{1\over2}\rfloor-q$@>; +be_careful=n-el_gordo; +if (be_careful+p > 0) + {@+arith_error=true;n=el_gordo-p; + } +if (negative) return-(n+p); +else return n+p; +} + +@ @<Reduce to the case that |f>=0| and |q>0|@>= +if (f >= 0) negative=false; +else{@+negate(f);negative=true; + } +if (q < 0) + {@+negate(q);negative=!negative; + } + +@ The invariant relations in this case are (i)~$\lfloor(qf+p)/2^k\rfloor +=\lfloor qf_0/2^{28}+{1\over2}\rfloor$, where $k$ is an integer and +$f_0$ is the original value of~$f$; (ii)~$2^k\L f<2^{k+1}$. +@^inner loop@> + +@<Compute $p=\lfloor qf/2^{28}+{1\over2}\rfloor-q$@>= +p=mpfract_half; /*that's $2^{27}$; the invariants hold now with $k=28$*/ +if (q < mpfract_four) + @/do@+{if (odd(f)) p=halfp(p+q);@+else p=halfp(p); + f=halfp(f); + }@+ while (!(f==1)); +else@/do@+{if (odd(f)) p=p+halfp(q-p);@+else p=halfp(p); + f=halfp(f); + }@+ while (!(f==1)) + +@ There's an auxiliary array |randoms| that contains 55 pseudo-random +fractions. Using the recurrence $x_n=(x_{n-55}-x_{n-31})\bmod 2^{28}$, +we generate batches of 55 new $x_n$'s at a time by calling |new_randoms|. +The global variable |j_random| tells which element has most recently +been consumed. + +@<Glob...@>= +static mpfract @!randoms[55]; /*the last 55 random values generated*/ +static int @!j_random; /*the number of unused |randoms|*/ + +@ This array of pseudo-random numbers is set starting from a seed value, +that is kept in the global integer |random_seed|. + +@<Global...@>= +static int @!random_seed; /*seed for pseudo-random number generation*/ + +@ @<Generate all \Prote\ primitives@>= +primitive("randomseed", last_item, random_seed_code);@/ +@!@:randomseed\_}{\.{\\randomseed} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case random_seed_code: print_esc("randomseed");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case random_seed_code: cur_val=random_seed;@+break; + +@ We set the initial value from the system time. System integrators +could provide a better source of pseudo-randomness. + +Every time a new seed value is assigned, the array has to be +regenerated for consumption by routines explained a little later. + +@<\Prote\ initializations@>= +random_seed=sys_time; +init_randoms(); + +@ Since changing the value must trigger the redefinition of the array, +a dedicated primitive is defined to take the new seed and call +|init_randoms|. + +@<Generate all \Prote\ primitives@>= +primitive("setrandomseed", convert, set_random_seed_code);@/ +@!@:setrandomseed\_}{\.{\\setrandomseed} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case set_random_seed_code: print_esc("setrandomseed");@+break; + +@ Once we have retrieved and redefined |random_seed|, we must regenerate +the |randoms| array. + +@<Cases of `Scan the argument for command |c|'@>= +case set_random_seed_code: {@+scan_int();random_seed=cur_val; + init_randoms(); + } @+break; + +@ @<Cases of `Print the result of command |c|'@>= +case set_random_seed_code: print_int(random_seed);@+break; + +@ To consume a random fraction, the program below will say `|next_random|' +and then it will fetch |randoms[j_random]|. + +@d next_random if (j_random==0) new_randoms(); + else decr(j_random) + +@<Declare \Prote\ arithmetic routines@>= +static void new_randoms(void) +{@+int @!k; /*index into |randoms|*/ +int @!x; /*accumulator*/ +for (k=0; k<=23; k++) + {@+x=randoms[k]-randoms[k+31]; + if (x < 0) x=x+mpfract_one; + randoms[k]=x; + } +for (k=24; k<=54; k++) + {@+x=randoms[k]-randoms[k-24]; + if (x < 0) x=x+mpfract_one; + randoms[k]=x; + } +j_random=54; +} + +@ To initialize the |randoms| table, we call the following routine. + +@<Declare \Prote\ arithmetic routines@>= +static void init_randoms(void) +{@+mpfract @!j, @!jj, @!k; /*more or less random integers*/ +int @!i; /*index into |randoms|*/ +j=abs(random_seed); +while (j >= mpfract_one) j=halfp(j); +k=1; +for (i=0; i<=54; i++) + {@+jj=k;k=j-k;j=jj; + if (k < 0) k=k+mpfract_one; + randoms[(i*21)%55]=j; + } +new_randoms();new_randoms();new_randoms(); /*``warm up'' the array*/ +} + +@ To produce a uniform random number in the range |0 <= u < x| or |0 >= u > x| +or |0==u==x|, given a |scaled| value~|x|, we proceed as shown here. + +Note that the call of |mult_integers| will produce the values 0 and~|x| +with about half the probability that it will produce any other particular +values between 0 and~|x|, because it rounds its answers. + +@<Declare \Prote\ arithmetic routines@>= +static scaled unif_rand(scaled @!x) +{@+scaled @!y; /*trial value*/ +next_random;y=take_mpfract(abs(x), randoms[j_random]); +if (y==abs(x)) return 0; +else if (x > 0) return y; +else return-y; +} + +@ This can be used by calling the following primitive. + +@<Generate all \Prote\ primitives@>= +primitive("uniformdeviate", convert, uniform_deviate_code);@/ +@!@:uniformdeviate\_}{\.{\\uniformdeviate} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case uniform_deviate_code: print_esc("uniformdeviate");@+break; + +@ It takes one integer argument obviously that will be the argument +to the function. + +@<Cases of `Scan the argument for command |c|'@>= +case uniform_deviate_code: {@+scan_int(); + cur_val=unif_rand(cur_val); + } @+break; + +@ @<Cases of `Print the result of command |c|'@>= +case uniform_deviate_code: print_int(cur_val);@+break; + +@ The following somewhat different subroutine tests rigorously if $ab$ is +greater than, equal to, or less than~$cd$, +given integers $(a,b,c,d)$. In most cases a quick decision is reached. +The result is $+1$, 0, or~$-1$ in the three respective cases. + +@d return_sign(A) {@+return A; + } + +@<Declare \Prote\ arithmetic routines@>= +static int ab_vs_cd(int @!a, int b, int c, int d) +{@+ +int @!q, @!r; /*temporary registers*/ +@<Reduce to the case that |a,c>=0|, |b,d>0|@>; +loop@+{@+q=a/d;r=c/b; + if (q!=r) + if (q > r) return_sign(1)@;@+else return_sign(-1); + q=a%d;r=c%b; + if (r==0) + if (q==0) return_sign(0)@;@+else return_sign(1); + if (q==0) return_sign(-1); + a=b;b=q;c=d;d=r; + } /*now |a > d > 0| and |c > b > 0|*/ +} + +@ @<Reduce to the case that |a...@>= +if (a < 0) + {@+negate(a);negate(b); + } +if (c < 0) + {@+negate(c);negate(d); + } +if (d <= 0) + {@+if (b >= 0) + if (((a==0)||(b==0))&&((c==0)||(d==0))) return_sign(0)@; + else return_sign(1); + if (d==0) + if (a==0) return_sign(0)@;@+else return_sign(-1); + q=a;a=c;c=q;q=-b;b=-d;d=q; + } +else if (b <= 0) + {@+if (b < 0) if (a > 0) return_sign(-1); + if (c==0) return_sign(0)@;else return_sign(-1); + } + +@ Finally, a normal deviate with mean zero and unit standard deviation +can readily be obtained with the ratio method (Algorithm 3.4.1R in +{\sl The Art of Computer Programming\/}). + +@<Declare \Prote\ arithmetic routines@>= +static scaled norm_rand(void) +{@+int @!x, @!u, @!l; /*what the book would call $2^{16}X$, $2^{28}U$, + and $-2^{24}\ln U$*/ +@/do@+{ + @/do@+{next_random; + x=take_mpfract(112429, randoms[j_random]-mpfract_half); + /*$2^{16}\sqrt{8/e}\approx 112428.82793$*/ + next_random;u=randoms[j_random]; + }@+ while (!(abs(x) < u)); +x=make_mpfract(x, u); +l=139548960-m_log(u); /*$2^{24}\cdot12\ln2\approx139548959.6165$*/ +}@+ while (!(ab_vs_cd(1024, l, x, x) >= 0)); +return x; +} + +@ This can be used by calling the following primitive. + +@<Generate all \Prote\ primitives@>= +primitive("normaldeviate", convert, normal_deviate_code);@/ +@!@:normaldeviate\_}{\.{\\normaldeviate} primitive@> + +@ @<Cases of |convert| for |print_cmd_chr|@>= +case normal_deviate_code: print_esc("normaldeviate"); + +@ @<Cases of `Scan the argument for command |c|'@>= +case normal_deviate_code: cur_val=norm_rand(); + +@ @<Cases of `Print the result of command |c|'@>= +case normal_deviate_code: print_int(cur_val); + +@*1 DVI related primitives. + +These primitives are related to positions in the DVI output. + +The \TeX\ and DVI system coordinates relate to an origin that is at the +upper left corner. The \TeX\ coordinates are computed relative to an +origin that has $(0,0)$ coordinates. Coordinates grow then rightward and +downward. This is the {\sl page} coordinates relative to what is +typeset (what \TeX\ is dealing with). + +But this typesetting material has to be put on what we will call {\sl +paper}. The material put into shape by \TeX\ is put on the paper. On +this paper, where will be put the \TeX\ origin? It is considered to be +$1in$ at the right and $1in$ down from the upper left corner of the +paper (see m.590, alinea 2). + +@d DVI_std_x_offset 4736286 /*1 inch in sp*/ +@d DVI_std_y_offset 4736286 /*1 inch in sp*/ + +@ But the paper size is not specified in the DVI file and is not being +dealt with by \TeX. + +In order to have a common reference point, and since the \.{\\lastxpos} +and \.{\\lastypos} primitives originated in pdf\TeX, these two +primitives give positions, in scaled points, relative to the lower left +corner of the paper. + +Hence the need, for these primitive, to define the paper size, with the +(misnamed) \.{\\pagewidth} and \.{\\pageheight}. + +\.{\\pagewidth} and \.{\\pageheight} are dimension parameters, +initialized to $0$ by the generic \TeX\ code. + +@<Generate all \Prote\ primitives@>= +primitive("pagewidth", assign_dimen, dimen_base+page_width_code);@/ +@!@:pagewidth\_}{\.{\\pagewidth} primitive@> +primitive("pageheight", assign_dimen, dimen_base+page_height_code);@/ +@!@:pageheight\_}{\.{\\pageheight} primitive@> + +@ When instructed to, the \.{h} and \.{v} last values are transformed, +in the coordinates system defined above and saved in the global +variables |last_saved_xpos| and |last_saved_ypos|. They are +initialized to $0$ and we do not make any verification that a +call to the \.{\\savepos} primitive---to come---has been made before +retrieving their values. + +@<Global...@>= +static scaled @!last_saved_xpos, last_saved_ypos; /*last (x,y) DVI pos saved*/ + +@ @<\Prote\ initializations@>= +last_saved_xpos=0;last_saved_ypos=0; + +@ @<Set |last_saved_xpos| and |last_saved_ypos| with transformed coordinates@>= +last_saved_xpos=cur_h+DVI_std_x_offset; +last_saved_ypos=page_height-(cur_v+DVI_std_y_offset); + +@ @<Generate all \Prote\ primitives@>= +primitive("lastxpos", last_item, last_xpos_code);@/ +@!@:lastxpos\_}{\.{\\lastxpos} primitive@> +primitive("lastypos", last_item, last_ypos_code);@/ +@!@:lastypos\_}{\.{\\lastypos} primitive@> + +@ @<Cases of |last_item| for |print_cmd_chr|@>= +case last_xpos_code: print_esc("lastxpos");@+break; +case last_ypos_code: print_esc("lastypos");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case last_xpos_code: cur_val=last_saved_xpos;@+break; +case last_ypos_code: cur_val=last_saved_ypos; + +@ |last_saved_xpos| and |last_saved_ypos| are only defined when +instructed to by the call the the \.{\\savepos} primitive. Since the +real work has to be done at \.{shipout} time, it is a case to be treated +like the \.{\\special} primitive, that is it belongs to the +\.{extension} class. + +We will add something more in the handling of the primitive: it will +insert a \.{whatsit} in the DVI file so that one, using the program +|dvitype|, could retrieve more than one {\it hic}. So there is a counter +incremented whenever the primitive is called. + +@<Global...@>= +static int last_save_pos_number; /*identifying the order of the call*/ + +@ @<\Prote\ initializations@>= +last_save_pos_number=0; /*i.e. none*/ + +@ @<Generate all \Prote\ primitives@>= +primitive("savepos", extension, save_pos_code);@/ +@!@:savepos\_}{\.{\\savepos} primitive@> + +@ @<Cases of |extension| for |print_cmd_chr|@>= +case save_pos_code: print_esc("savepos");@+break; + +@ @<Cases for |do_extension|@>= +case save_pos_code: @<Implement \.{\\savepos}@>@;@+break; + +@ We need the basic two words node, since we don't pass any parameter +and it is just an instruction to do something. So the \.{whatsit} node +is just the call. + +@<Implement \.{\\savepos}@>= +{@+new_whatsit(save_pos_code, small_node_size);write_stream(tail)=null; + write_tokens(tail)=null; + } + +@ @<Cases for displaying the |whatsit| node@>= +case save_pos_code: print_esc("savepos");@+break; + +@ @<Cases for making a partial copy of the whatsit node@>= +case save_pos_code: {@+r=get_node(small_node_size); + words=small_node_size; + } @+break; + +@ @<Cases for wiping out the whatsit node@>= +case save_pos_code: free_node(p, small_node_size);@+break; + +@ So, after these trivial initializations, what will we effectively do? +When the following procedure will be called, we define |last_saved_xpos|, +|last_saved_ypos|, increment |last_save_pos_number|, and a |warning| +followed by three +|key==value| space separated definitions as a \.{\\special}, the first +being prefixed by the string |__PROTE_| (shall be considered a reserved +prefix) and the string |SAVEPOS_|, equal to the index of the call, and +the |XPOS| and |YPOS| definitions. + +This is obviously, from the previous description, a variation around +|special_out|. + +@<Declare procedures needed in |out_what|@>= +static void save_pos_out(pointer @!p) +{@+int old_setting; /*holds print |selector|*/ +int @!k; /*index into |str_pool|*/ +synch_h;synch_v;incr(last_save_pos_number); +@<Set |last_saved_xpos| and |last_saved_ypos|...@>@; +old_setting=selector;selector=new_string; +print("warning __PROTE_");print("SAVEPOS");print_char('='); +print_int(last_save_pos_number);print_char(' '); +print("XPOS");print("=");print_int(last_saved_xpos);print_char(' '); +print("YPOS");print("=");print_int(last_saved_ypos); +selector=old_setting; +str_room(1); /*abort if probably overflowed and truncated*/ +dvi_out(xxx1);dvi_out(cur_length); /*it's less than 256*/ +for (k=str_start[str_ptr]; k<=pool_ptr-1; k++) dvi_out(so(str_pool[k])); +pool_ptr=str_start[str_ptr]; /*forget the not commited tentative string*/ +} + +@ @<Cases for |out_what|@>= +case save_pos_code: save_pos_out(p);@+break; + + +@* Hi\TeX. +In the following we present macros, variables, and routines that +implement the various features that have been used above to replace +\TeX's native behaviour. +The implementation reuses code that has been written as part of +the \HINT\ file format specification; therfore we start with three +include files containing the necessary declarations. +We end with a list of forward declarations for all the functions +and variables that are used above but are defined below. + +@p +#include "hierror.h" +#include "hiformat.h" +#include "hiput.h" + +@<Hi\TeX\ macros@>@; +@<Hi\TeX\ variables@>@; +@<Hi\TeX\ function declarations@>@; + +@<Hi\TeX\ auxiliar routines@>@; + +@<Hi\TeX\ routines@>@; + +@ @<Forward declarations@>= +static void hint_open(void); +static void hint_close(void); + +static void hint_debug_help(void); + +static void hyphenate_word(void); +static void hline_break(int final_widow_penalty); +static void execute_output(pointer p); +static void hout_node(pointer p); + +static int hget_stream_no(int i); +static void hfinish_stream_group(void); +static void hfinish_page_group(void); +static void hfinish_stream_before_group(void); +static void hfinish_stream_after_group(void); +static void hfinish_outline_group(void); + + +static pointer new_xdimen(scaled w, scaled h, scaled v); +static pointer new_baseline_node(pointer bs, pointer ls, scaled lsl); +static void print_baseline_skip(int i); +static pointer new_set_node(void); +static pointer new_setstream_node(eight_bits n); +static pointer new_setpage_node(eight_bits k, str_number n); +static pointer new_disp_node(void); +static pointer new_image_node(str_number n, char *a, char *e); +static void hget_image_information(pointer p); +static void new_param_node(eight_bits t, eight_bits n, int v); + + +@*1 Debugging options. +Hi\TeX\ has a few additional command line options that we define next. + +@<Hi\TeX\ routines@>= +#ifdef DEBUG +static void hint_debug_help(void) +{ +fprintf(stderr,@/ + "To generate HINT format debug output use the option\n" + " -debug=XX "@/ +@t\qquad@>"\t XX is a hexadecimal value. OR together these values:\n");@/ +fprintf(stderr,"\t\t\t XX=%04X \t basic debugging\n", DBGBASIC);@/ +fprintf(stderr,"\t\t\t XX=%04X \t tag debugging\n", DBGTAGS);@/ +fprintf(stderr,"\t\t\t XX=%04X \t node debugging\n",DBGNODE);@/ +fprintf(stderr,"\t\t\t XX=%04X \t definition debugging\n", DBGDEF);@/ +fprintf(stderr,"\t\t\t XX=%04X \t directory debugging\n", DBGDIR);@/ +fprintf(stderr,"\t\t\t XX=%04X \t range debugging\n",DBGRANGE);@/ +fprintf(stderr,"\t\t\t XX=%04X \t float debugging\n", DBGFLOAT);@/ +fprintf(stderr,"\t\t\t XX=%04X \t compression debugging\n", DBGCOMPRESS);@/ +fprintf(stderr,"\t\t\t XX=%04X \t buffer debugging\n", DBGBUFFER);@/ +fprintf(stderr,"\t\t\t XX=%04X \t TeX debugging\n", DBGTEX);@/ +fprintf(stderr,"\t\t\t XX=%04X \t page debugging\n", DBGPAGE);@/ +fprintf(stderr,"\t\t\t XX=%04X \t font debugging\n", DBGFONT);@/ +exit(0); +} +#endif +@*1 Creating new whatsit nodes. The following functions create nodes for paragraphs, displayed equations, baseline skips, hpack nodes, vpack nodes, hset nodes, vset nodes, and image nodes. @<Hi\TeX\ routines@>= -pointer new_graf_node(void) +static pointer new_graf_node(void) { @+ pointer p; p=get_node(graf_node_size); type(p)=whatsit_node; subtype(p)=graf_node; - graf_params(p)=null; - graf_list(p)=null; + graf_params(p)=null; + graf_list(p)=null; return p; } -pointer new_disp_node(void) +static pointer new_disp_node(void) { @+ pointer p; p=get_node(disp_node_size); type(p)=whatsit_node; subtype(p)=disp_node; - display_params(p)=null; + display_params(p)=null; display_formula(p)=null; - display_eqno(p)=null; + display_eqno(p)=null; return p; } -pointer new_baseline_node(pointer bs, pointer ls, scaled lsl) +static pointer new_baseline_node(pointer bs, pointer ls, scaled lsl) { @+pointer p; p=get_node(baseline_node_size); type(p)=whatsit_node; @@ -329,7 +29998,7 @@ pointer new_baseline_node(pointer bs, pointer ls, scaled lsl) return p; } -pointer new_pack_node(void) +static pointer new_pack_node(void) { @+pointer p; p=get_node(pack_node_size); type(p)=whatsit_node; @@ -339,7 +30008,8 @@ pointer new_pack_node(void) list_ptr(p)=null; return p; } -pointer new_set_node(void) + +static pointer new_set_node(void) { @+pointer p; p=get_node(set_node_size); type(p)=whatsit_node; @@ -352,7 +30022,7 @@ pointer new_set_node(void) -pointer new_image_node( str_number n, char *a, char *e) +static pointer new_image_node( str_number n, char *a, char *e) { pointer p; int i; char *fn; @@ -371,18 +30041,13 @@ pointer new_image_node( str_number n, char *a, char *e) free(fn); #endif image_no(p)=i; - image_width(p)=image_height(p)=image_stretch(p)=image_shrink(p)=0; + image_width(p)=image_height(p)=image_stretch(p)=image_shrink(p)=0; image_shrink_order(p)=image_stretch_order(p)=normal;@/ return p; } - - -@ - -\subsubsection{Parameter nodes} - -Parameter nodes are added to the current list using the |add_par_node| function. +@*1 Creating parameter nodes. +Parameter nodes are added to the current list using the |new_param_node| function. It should be possible to check the parameter values against those stored in the definition section and remove the ones that are unchanged. It would make the parameter lists shorter, saving @@ -395,54 +30060,37 @@ most of the times a reference number is found for the parameter list. subtype(p)=par_node; par_type(p)=t; par_number(p)=n; -@ -@<Initialize the parameter node@>= +@ @<Initialize the parameter node@>= if (t==int_type) par_value(p).i=v; else if (t==dimen_type) par_value(p).sc=v; - else if (t==glue_type) + else if (t==glue_type) {@+ par_value(p).i=v;add_glue_ref(par_value(p).i); @+} else { free_node(p, par_node_size); QUIT("Undefined parameter type %d",t); } -@ -@<Hi\TeX\ routines@>= -void add_par_node(uint8_t t, uint8_t n, int v) +@ @<Hi\TeX\ routines@>= +static void new_param_node(uint8_t t, uint8_t n, int v) { @+pointer p; @<Create the parameter node@>@; @<Initialize the parameter node@>@; link(p)=link(temp_head); link(temp_head)=p; } -@ - - -\subsection{Extended Dimensions} -An extended dimension is a linar function of {\tt hsize} and {\tt vsize}, and -whenever \TeX\ works with a dimension, we want it to be able to deal with -an extended dimension. This implies many changes throughout \TeX's sources. -So let's get started. - -{ -\changestyle{xdimen.tex} -} - - - -\subsection{Hyphenation} +@*1 Hyphenation. While the breaking of a paragraph into lines must be postponed because {\tt hsize} is not known, hyphenation should be done as part of Hi\TeX\ because we want to keep hyphenation out of the viewer. Therefore -Hi\TeX\ will do hyphenation for all words within a paragraph. +Hi\TeX\ will do hyphenation for all words within a paragraph. There is a fine point to observe here: \TeX\ will consider a word as a candidate for automatic hyphenation only if the world ``follows'' after a -glue. (For the exact rules, see the \TeX book\cite{DK:texbook}, Appendix H.) -As a consequence, \TeX\ usually does not submit the first word of a -paragraph to its hyphenation routine. +glue. (For the exact rules, see Appendix H.) +As a consequence, \TeX\ usually does not submit the first word of a +paragraph to its hyphenation routine. Viewing paragraphs that start with a lengthy word on a narrow display therefore often look more unsightly than necessary: the long word sticks out into the right margin as much as it can. To remedy this situation, @@ -450,36 +30098,20 @@ Hi\TeX\ has a ``{\tt -f}'' option. If set Hi\TeX\ will deviate from \TeX's rules and submit the first word of a paragraph to the hyphenation algorithm. The next problem arises from \TeX's multipass approach to line breaking -and the attempt to have Hi\TeX\ choose exactly the same line breaks as +and the attempt to have Hi\TeX\ choose exactly the same line breaks as \TeX\ does: \TeX\ distingishes between discretionary breaks inserted by the author of a text, and discretionary breaks discovered by the hyphenation routine. The latter, called here ``automatic'', are used only in pass two and three of the line breaking routine. -The change file that follows below contains mostly three types of changes: -\itemize -\item Hi\TeX\ restricts the |replace_count| to seven bit to make room for an -extra bit to mark automatic discretionary breaks. -Assignments to the replace count are therefore replaced by a macro that -protects the automatic bit. -\item The \TeX\ code for ``\<Try to hyphenate the following word>'' -is packaged into a function |hyphenate_word|, so that it can be invoked as needed. -\item And calls of the function |line_break| are replaced by calls to |hline_break| -to have a hook for inserting Hi\TeX specific changes. -\enditemize - -{ -\changestyle{disc.tex} -} - The function |hline_break| follows: @<Hi\TeX\ routines@>= -void hline_break(int final_widow_penalty) -{@+ bool auto_breaking; /*is node |cur_p| outside a formula?*/ - pointer r, s ; /*miscellaneous nodes of temporary interest*/ +static void hline_break(int final_widow_penalty) +{@+ bool auto_breaking; /*is node |cur_p| outside a formula?*/ + pointer r, s ; /*miscellaneous nodes of temporary interest*/ pointer pp; bool par_shape_fix=false; bool first_word=true; @@ -499,7 +30131,7 @@ void hline_break(int final_widow_penalty) if(par_shape_ptr==null) graf_extent(pp)=new_xdimen(dimen_par(hsize_code), dimen_par_hfactor(hsize_code),dimen_par_vfactor(hsize_code)); - else + else @<fix the use of parshape = 1 indent length@>@; link(temp_head)=link(head); if (is_char_node(tail)) @@ -511,7 +30143,7 @@ void hline_break(int final_widow_penalty) else {@+type(tail)=penalty_node;delete_glue_ref(glue_ptr(tail)); flush_node_list(leader_ptr(tail));penalty(tail)=inf_penalty; - } + } link(tail)=new_param_glue(par_fill_skip_code); } DBG(DBGTEX,"\nCalling line_break:\n" @@ -539,19 +30171,19 @@ void hline_break(int final_widow_penalty) } auto_breaking=true; cur_p=temp_head; - if (option_hyphen_first && is_char_node(link(cur_p))) + if (option_hyphen_first && is_char_node(link(cur_p))) { hyphenate_word(); first_word=false; } cur_p=link(cur_p); - while (cur_p!=null) + while (cur_p!=null) { /*Call |try_break| if |cur_p| is a legal breakpoint...*/ if (is_char_node(cur_p)) { /* Advance |cur_p| to the node following the present string...*/ - do { + do { cur_p=link(cur_p); } while (is_char_node(cur_p)); if (cur_p==null) goto done5; /* mr: no glue and penalty at the end */ } - switch (type(cur_p)) + switch (type(cur_p)) { case whatsit_node: adv_past(cur_p); break; @@ -559,23 +30191,23 @@ void hline_break(int final_widow_penalty) if (auto_breaking) /* Try to hyphenate the following word*/ hyphenate_word(); break; - case ligature_node: + case ligature_node: break; - case disc_node: + case disc_node: /* Try to break after a discretionary fragment...*/ r=replace_count(cur_p);s=link(cur_p); - while (r > 0) + while (r > 0) { decr(r);s=link(s); - } + } cur_p=s; goto done5; - case math_node: + case math_node: auto_breaking=(subtype(cur_p)==after); break; - default: + default: break; } - if (option_hyphen_first && first_word && is_char_node(link(cur_p))) + if (option_hyphen_first && first_word && is_char_node(link(cur_p))) { hyphenate_word(); first_word=false; } cur_p=link(cur_p); done5:; @@ -590,49 +30222,48 @@ done5:; /* adding parameter nodes */ link(temp_head)=null; - add_par_node(int_type,pretolerance_code,pretolerance); - add_par_node(int_type,tolerance_code,tolerance); - add_par_node(dimen_type,emergency_stretch_code,emergency_stretch); - - add_par_node(int_type,line_penalty_code,line_penalty); - add_par_node(int_type,hyphen_penalty_code,hyphen_penalty); - add_par_node(int_type,ex_hyphen_penalty_code,ex_hyphen_penalty); - add_par_node(int_type,club_penalty_code,club_penalty); - add_par_node(int_type,widow_penalty_code,widow_penalty); - add_par_node(int_type,broken_penalty_code,broken_penalty); - add_par_node(int_type,inter_line_penalty_code,inter_line_penalty); - add_par_node(int_type,double_hyphen_demerits_code,double_hyphen_demerits); - add_par_node(int_type,final_hyphen_demerits_code,final_hyphen_demerits); - add_par_node(int_type,adj_demerits_code,adj_demerits); - add_par_node(int_type,looseness_code,looseness); + new_param_node(int_type,pretolerance_code,pretolerance); + new_param_node(int_type,tolerance_code,tolerance); + new_param_node(dimen_type,emergency_stretch_code,emergency_stretch); + + new_param_node(int_type,line_penalty_code,line_penalty); + new_param_node(int_type,hyphen_penalty_code,hyphen_penalty); + new_param_node(int_type,ex_hyphen_penalty_code,ex_hyphen_penalty); + new_param_node(int_type,club_penalty_code,club_penalty); + new_param_node(int_type,widow_penalty_code,widow_penalty); + new_param_node(int_type,broken_penalty_code,broken_penalty); + new_param_node(int_type,inter_line_penalty_code,inter_line_penalty); + new_param_node(int_type,double_hyphen_demerits_code,double_hyphen_demerits); + new_param_node(int_type,final_hyphen_demerits_code,final_hyphen_demerits); + new_param_node(int_type,adj_demerits_code,adj_demerits); + new_param_node(int_type,looseness_code,looseness); if (par_shape_fix) - { add_par_node(int_type,hang_after_code,0); - add_par_node(dimen_type,hang_indent_code,second_indent); + { new_param_node(int_type,hang_after_code,0); + new_param_node(dimen_type,hang_indent_code,second_indent); } else - { add_par_node(int_type,hang_after_code,hang_after); - add_par_node(dimen_type,hang_indent_code, hang_indent); + { new_param_node(int_type,hang_after_code,hang_after); + new_param_node(dimen_type,hang_indent_code, hang_indent); } - add_par_node(dimen_type,line_skip_limit_code,line_skip_limit); - add_par_node(glue_type,line_skip_code,line_skip); - add_par_node(glue_type,baseline_skip_code,baseline_skip); + new_param_node(dimen_type,line_skip_limit_code,line_skip_limit); + new_param_node(glue_type,line_skip_code,line_skip); + new_param_node(glue_type,baseline_skip_code,baseline_skip); - add_par_node(glue_type,left_skip_code,left_skip); - add_par_node(glue_type,right_skip_code,right_skip); - add_par_node(glue_type,par_fill_skip_code,par_fill_skip); + new_param_node(glue_type,left_skip_code,left_skip); + new_param_node(glue_type,right_skip_code,right_skip); + new_param_node(glue_type,par_fill_skip_code,par_fill_skip); /* |par_shape| is not yet supported */ graf_params(pp)=link(temp_head); link(temp_head)=null; - append_to_vlist(pp); + append_to_vlist(pp); } -@ -Currently Hi\TeX\ dos not implement the parshape feature of \TeX. -The implementation of {\tt \BS list} in \LaTeX\ does however depend +@ Currently Hi\TeX\ dos not implement the parshape feature of \TeX. +The implementation of {\tt \BS list} in \LaTeX\ does however depends on a simple us of parshape where all lines have the same length and indentation. We cover this special case be using a hanging indentation and adjusting the paragraph width by the difference @@ -642,143 +30273,19 @@ of the normal {\tt \BS hsize} and the given length. { last_special_line= info(par_shape_ptr)-1; if (last_special_line!=0) DBG(DBGTEX,"Warning parshape with n=%d not yet implemented",info(par_shape_ptr)); - second_width= mem[par_shape_ptr+2*(last_special_line+1)].sc; + second_width= mem[par_shape_ptr+2*(last_special_line+1)].sc; second_indent= mem[par_shape_ptr+2*last_special_line+1].sc; - + graf_extent(pp)=new_xdimen(second_indent+second_width, par_shape_hfactor,par_shape_vfactor); second_width=second_width+ round((double)par_shape_hfactor*hhsize/unity +(double)par_shape_vfactor*hvsize/unity); par_shape_fix=true; } -@ - -\subsection{Baseline Skips} - -\TeX\ will automatically insert a baseline skip between two boxes in a -vertical list. The baseline skip is computed to make the distance -between the baselines of the two boxes exactly equal to the value of -{\tt \BS baselineskip}. And if that is not possible, because it would -make the distance between the descenders of the upper box and the -ascenders of the lower box smaller than {\tt \BS lineskiplimit}, it -will insert at least a small amount of glue of size {\tt \BS -lineskip}. As a further complication, if the depth of the upper box -has the special value |ignore_depth| the insertion of a baseline skip -is suppressed. It is also common practice that authors manipulate the -values of {\tt \BS baselineskip}, {\tt \BS lineskiplimit}, {\tt \BS -lineskip}, and {\tt \BS prevdepth} to change the baseline calculations -of \TeX. - -Of course a prerequisite of the whole computation of a baseline skip -is the knowledge of the depth of the upper box and the height of the -lower box. With the new types of boxes introduced by Hi\TeX\ neither -of them might be known. In these cases, the baseline skip computation -must be defered to the viewer by inserting a whatsit node of subtype -|baseline_node|. - - -{ -\changestyle{baseline.tex} -} - - -\subsection{Displayed Formulas} - -\TeX\ enters into math mode when it finds a math shift character ``\$''. -Then it calls |init_math| which checks for an aditional math shift -character to call either - \<Go into ordinary math mode> or \<Go into display math mode>. -We remove most of the differences from the latter because we will -treat both cases very similar here and will consider the necessary -differences in the \HINT\ viewer. - -When the shift character that terminates math more is encountered, -\TeX\ calls |after_math| which ends with -either \<Finish math in text> or \<Finish displayed math> . -We need to modify the latter, because positioning a displayed -equation usually depends on {\tt hsize}, -and must be postponed until the viewer knows its value. -So all Hi\TeX\ can do in this case is create a new whatsit node -with subtype |disp_node| and -insert it proceeding as if the formula had occured in ordinary math mode. - -{ -\changestyle{display.tex} -} - - - - -\subsection{Alignments} - - -{ -\changestyle{align.tex} -} - - -\subsection{Inserts} -\TeX\ uses |vpack| to determine the natural height of inserted -material. In Hi\TeX, the function |vpack| will not always return -a |vlist_node| with a fixed height because the computation of the -height might fail. In the latter case, |vpack| will return a |vset_node| -or |vpack_node|. Therfore Hi\TeX\ will not use the |height| field of -a an |ins_node|. - -As a result we have the following changes: - - -{ -\changestyle{insert.tex} -} - - - - -\subsection{Implementing Hi\TeX\ Specific Primitives}\label{primitive} -Now we implement new \TeX\ primitives: -one to include images, a few more to define page teamplates, -and one to test whether the current instance of \TeX\ is -the new Hi\TeX. -To implement a primitive, we call the |primitive| function. -Since it needs the name of the new primitive as a \TeX\ string, -we need to add the strings to the \TeX\ string pool. - -Note that primitives are put into \TeX's memory when a \TeX\ format file is read. -So adding or changing the code below implies regenerating the format files. -To generate a format file run a command like - -{\tt\obeylines -hinitex -**plain \BS dump -} - -\noindent -Then find out where the \kpse\ library looks for format files -(for example by running - -{\tt\obeylines - kpsewhich latex.fmt -} - -\noindent -and then place the new format file in the same directory. - - -{ -\changestyle{primitive.tex} -} - - - - -\section{Hi\TeX} - -\subsection{Images} -The handling of images is an integral part of Hi\TeX. In -section~\secref{imageext} on page~\pageref{imageext} the {\tt image} -primitive was defined. It requires a filename for the image and +@*1 Images. +The handling of images is an integral part of Hi\TeX. +The {\tt image} primitive requires a filename for the image and allows the specification, of width, height, stretch and shrink of an image. If either width or height is not given, Hi\TeX\ tries to extract this information from the image file itself calling the @@ -786,7 +30293,7 @@ function |hget_image_information| with the pointer |p| to the image node as parameter. @<Hi\TeX\ routines@>= -void hget_image_information(pointer p) +static void hget_image_information(pointer p) { char *fn; FILE *f; if (image_width(p)!=0 && image_height(p)!=0) return; @@ -797,12 +30304,11 @@ void hget_image_information(pointer p) img_buf_size=0; if (!get_BMP_info(f,fn,p)&&!get_PNG_info(f,fn,p)&&!get_JPG_info(f,fn,p)) QUIT("Unable to obtain width and height information for image %s",fn); - fclose(f); + fclose(f); MESSAGE(" width= %fpt height= %fpt)",image_width(p)/(double)ONE,image_height(p)/(double)ONE); } -@ -When we have found the width and height of the stored image, we can +@ When we have found the width and height of the stored image, we can supplement the information given in the \TeX\ file. Occasionaly, the image file will not specify the absolute dimensions of the image. In this case, we can still compute the aspect ratio and supplement either @@ -820,15 +30326,15 @@ static bool set_image_dimensions(pointer p, double w, double h, bool absolute) { double aspect=w/h; image_width(p)=round(image_height(p)*aspect); } - else + else { if (!absolute) return false; image_width(p)=round(unity*w); image_height(p)=round(unity*h); } return true; } -@ -We call the following routines with the image buffer partly filled + +@ We call the following routines with the image buffer partly filled with the start of the image file. @<Hi\TeX\ auxiliar routines@>= @@ -854,12 +30360,10 @@ if (img_buf_size<X) \ else if (i==0) QUIT("Unable to read image header %s",fn); \ else img_buf_size+=i; \ } -@ -\subsubsection{BMP} -We start with Windows Bitmaps. A Windows bitmap file usually has the extension {\tt .bmp} +@ Considering the different image formats, we start with Windows Bitmaps. A Windows bitmap file usually has the extension {\tt .bmp} but the better way to check for a Windows bitmap file ist to examine the first two byte -of the file: the ASCII codes for `B' and `M'. +of the file: the ASCII codes for `B' and `M'. Once we have verified the file type, we find the width and height of the bitmap in pixels at offsets |0x12| and |0x16| stored as little-endian 32 bit integers. At offsets |0x26| and |0x2A|, we find the horizontal and vertical resolution in pixel per meter stored in the same format. @@ -883,29 +30387,27 @@ static bool get_BMP_info(FILE *f, char *fn, pointer p) yppm=(double)LittleEndian32(0x2A); /* vertical pixel per meter*/ return set_image_dimensions(p,(72.27*1000.0/25.4)*w/xppm,(72.27*1000.0/25.4)*h/yppm,true); } -@ -\subsubsection{PNG} -Now we repeat this process for image files in using the Portable Network Graphics\cite{png2nd} file -format. This file format is well suited to simple graphics that do not use color gradients. +@ Now we repeat this process for image files using the Portable Network Graphics file format. This file format is well suited to simple graphics that do not use color gradients. These images usually have the extension {\tt .png} and start with an eight byte signature: |0x89| followed by the ASCII Codes `P', `N', `G', followd by a carriage return (|0x0D| and line feed (|0x0A|), an DOS end-of-file character (|0x1A|) and final line feed (|0x0A|). After the signature follows a list of chunks. The first chunk is the image header chunk. -Each chunk starts with the size of the chunk stored as big-endian 32 bit integer, followed by the chunk name -stored as four ASCII codes followed by the chunk data and a CRC. The size as stored in the chunk -does not include the size itself, the name or the CRC. +Each chunk starts with the size of the chunk stored as big-endian 32 bit integer, followed by the chunk name +stored as four ASCII codes followed by the chunk data and a CRC. +The size, as stored in the chunk, +does not include the size itself, nor the name, and neither the CRC. The first chunk is the IHDR chunk. The chunk data of the IHDR chunk starts with the width and the height of the image in pixels stored as 32 bit big-endian integers. Finding the image resolution takes some more effort. The image resolution is stored in an optional chunk -named ``pHYs'' for the physical pixel dimensions. +named ``pHYs'' for the physical pixel dimensions. All we know is that this chunk, if it exists, will appear after the IHDR chunk and before the (required) IDAT chunk. The pHYs chunk contains two 32 bit big-endian integers, giving the horizontal and vertical pixels per unit, and a one byte unit specifier, which is either 0 -for an undefined unit or 1 for the meter as unit. With an undefined unit only the aspect ratio -of the pixels anh hence the aspect ratio of the image can be determined. +for an undefined unit or 1 for the meter as unit. With an undefined unit, only the aspect ratio +of the pixels and hence the aspect ratio of the image can be determined. @<Hi\TeX\ auxiliar routines@>= @@ -929,7 +30431,7 @@ static bool get_PNG_info(FILE *f, char *fn, pointer p) GET_IMG_BUF(17); size=BigEndian32(0); if (Match4(4,'p', 'H', 'Y', 's')) - { xppu =(double)BigEndian32(8); + { xppu =(double)BigEndian32(8); yppu =(double)BigEndian32(12); unit=img_buf[16]; if (unit==0) @@ -946,15 +30448,13 @@ static bool get_PNG_info(FILE *f, char *fn, pointer p) } return false; } -@ -\subsubsection{JPG} -For photographs, the JPEG File Interchange Format (JFIF)\cite{Ham92}\cite{JPEG93} is more appropriate. +@ For photographs, the JPEG File Interchange Format (JFIF) is more appropriate. JPEG files come with all sorts of file extensions like {\tt .jpg}, {\tt .jpeg}, or {\tt .jfif}. We check the file siganture: it starts with the the SOI (Start of Image) marker |0xFF|, |0xD8| -followed by the JIFI-Tag. The JIFI-Tag starts with the segment marker APP0 (|0xFF|, |0xE0|) followed by the +followed by the JIFI-Tag. The JIFI-Tag starts with the segment marker APP0 (|0xFF|, |0xE0|) followed by the 2 byte segment size, followed by the ASCII codes `J', `F', `I', `F' followed by a zero byte. -Next is a two byte version number which we do not read. +Next is a two byte version number which we do not read. Before the resolution proper there is a resolution unit indicator byte (0 = no units, 1 = dots per inch, 2 = dots per cm) and then comes the horizontal and vertical resolution both as 16 Bit big-endian integers. @@ -974,7 +30474,7 @@ static bool get_JPG_info(FILE *f, char *fn, pointer p) if (!Match4(0, 0xFF,0xD8, 0xFF, 0xE0)) return false; size=BigEndian16(4); if (!Match4(6,'J', 'F', 'I', 'F')) return false; - if (img_buf[10] != 0) return false; + if (img_buf[10] != 0) return false; unit=img_buf[13]; xppu=(double)BigEndian16(14); yppu=(double)BigEndian16(16); @@ -985,7 +30485,7 @@ static bool get_JPG_info(FILE *f, char *fn, pointer p) GET_IMG_BUF(10); if (img_buf[0] != 0xFF) return false; /* Not the start of a segment */ if ( (img_buf[1]&0xF0) == 0xC0) /* Start of Frame */ - { h =(double)BigEndian16(5); + { h =(double)BigEndian16(5); w =(double)BigEndian16(7); if (unit==0) return set_image_dimensions(p,w/xppu,h/yppu,false); @@ -1003,10 +30503,7 @@ static bool get_JPG_info(FILE *f, char *fn, pointer p) } return false; } -@ - -\subsubsection{SVG} -There is still one image format missing: scalable vector graphics. +@ There is still one image format missing: scalable vector graphics. In the moment, I tend not to include a further image format into the definition of the \HINT\ file format but instead use the PostScript subset that is used for Type 1 fonts to encode @@ -1017,7 +30514,7 @@ into a Type 1 PostScript font on the generator of \HINT\ files and keep the \HINT\ viewer as small and simple as possible. -\subsection{Links, Labels, and Outlines} +@*1 Links, Labels, and Outlines. The \HINT\ format knows about labels, links, and outlines. When generating a short format \HINT\ file, links are part of the content section, where as labels and outlines are found in @@ -1038,7 +30535,7 @@ static int next_label(void) if (label_no>0xFFFF) overflow("labels",0xFFFF); if (label_no>=labels_allocated) - { if (labels_allocated==0) + { if (labels_allocated==0) { labels_allocated=32; ALLOCATE(labels,labels_allocated,label_t); } else RESIZE(labels,labels_allocated,label_t); } @@ -1053,16 +30550,14 @@ static int next_outline(void) if (outline_no>0xFFFF) overflow("outlines",0xFFFF); if (outline_no>=outlines_allocated) - { if (outlines_allocated==0) + { if (outlines_allocated==0) { outlines_allocated=32; ALLOCATE(outlines,outlines_allocated,outline_t); } else RESIZE(outlines,outlines_allocated,outline_t); } max_outline=outline_no; return outline_no; } -@ - -While processing the content nodes, access to the labels is provided either +@ While processing the content nodes, access to the labels is provided either by name or by number through a hash table. We store tabel entries in linked lists starting with a reasonably sized table of pointers. This keeps the fixed costs low and guards against overflow and rapidly increasing @@ -1070,7 +30565,7 @@ inefficiency. We start with a function to insert a new entry into the hash table. @<Hi\TeX\ auxiliar routines@>= -typedef struct hash_entry +typedef struct hash_entry {int num; char *nom; uint16_t n; struct hash_entry *next;} hash_entry_t; #define LABEL_HASH 1009 /* MIX a prime number */ static hash_entry_t *label_hash[LABEL_HASH]={NULL}; @@ -1086,12 +30581,10 @@ static int insert_hash(int h, int num, char *nom) if (e->nom!=NULL) DBG(DBGLABEL,"Creating new label *%d: name='%s'\n",e->n,e->nom); else - DBG(DBGLABEL,"Creating new label *%d: num=%d\n",e->n,e->num); + DBG(DBGLABEL,"Creating new label *%d: num=%d\n",e->n,e->num); return e->n; } -@ - -There are two cases: finding a label by name or by number. +@ There are two cases: finding a label by name or by number. We start with the simpler case where the number is given. The process is straigth forward: @@ -1104,23 +30597,21 @@ static int find_label_by_number(int p) else e=e->next; return insert_hash(h,p,NULL); } -@ - -To look up a label by its name as given by a token list, +@ To look up a label by its name as given by a token list, we prepare ourselfs by implementing two functions: one to extract the character codes from the token list forming the ``name'' and one to compute the hash value for a name. The routine to find the label by name is then equivalent to the routine we have just seen. Given a pointer |p| to -either a label, a link, or an outline node, the last function +either a label, a link, or an outline node, the function |find_label_by_name| returns the correct label reference. Currently, we limit label names to at most 255 byte not counting the zero byte. @<Hi\TeX\ auxiliar routines@>= static char *tokens_to_name(pointer p) -{ static char s[256]; +{ static char s[256]; int i=0; bool skip_space=0; while (i<255 && p!=0)@/ @@ -1128,7 +30619,7 @@ static char *tokens_to_name(pointer p) int c = info(p)%0400; if (m==spacer && ! skip_space) @/ { s[i++]=' '; skip_space=true;@+} - else if ((m==letter || m==other_char) && ' '< c && c < 0x7F)@/ + else if ((m==letter || m==other_char) && ' '< c && c < 0x7F)@/ {@+ s[i++]=c; skip_space=false;@+} p=link(p); } @@ -1139,7 +30630,7 @@ static char *tokens_to_name(pointer p) static unsigned int name_hash(char *s) { unsigned int h=0; while (*s!=0) - h=(h<<2)+*(s++); + h=(h<<2)+*(s++); return h; } @@ -1152,22 +30643,19 @@ static int find_label_by_name(pointer p) else e=e->next; return insert_hash(h,0,s); } -@ - -We combine both ways of finding a label reference in the following function: +@ We combine both ways of finding a label reference in the following function: @<Hi\TeX\ auxiliar routines@>= static int find_label(pointer p) {@+ if (label_has_name(p)) return find_label_by_name(label_ptr(p)); - else return find_label_by_number(label_ptr(p)); + else return find_label_by_number(label_ptr(p)); } @ - After these preparations, we can implement the functions needed when labels, links, and outlines are delivered to the page builder. We start with looking at the labels: -When a labels is defined, the current position is recorded. +When a labels is defined, the current position is recorded. Further labels are linked together in order of descending positions, to allow the efficient adjustment of label positions when moving lists. @@ -1189,9 +30677,7 @@ static void new_label(pointer p) DBG(DBGLABEL,"Defining label *%d: pos=0x%x\n",n,labels[n].pos); } } -@ - -When a link node is written to the output, we can check +@ When a link node is written to the output, we can check that start links and end links properly match. @<Hi\TeX\ auxiliar routines@>= @@ -1214,14 +30700,12 @@ static int new_end_link(void) last_link=-1; return n; } -@ - -For outline nodes, we use the next two functions. +@ For outline nodes, we use the next two functions. The node list representing the title can be an arbitrary list in horizontal mode. In general, the front end should be able to render such a horizontal list, but at least it should be able to extract -the UTF8 characters codes and display those. +the UTF8 character codes and display those. @<Hi\TeX\ auxiliar routines@>= static void new_outline(pointer p) @@ -1235,28 +30719,23 @@ static void new_outline(pointer p) hset_outline(m,r,outline_depth(p),pos); DBG(DBGLABEL,"New outline for label *%d\n",r); } -@ - -One last function is needed, which better schould be in the {\tt htex.w} -file. It is called when the |outline_group| ends that was started -when scanning the {\tt\BS HINToutline} primitive. +@ One last function is needed which is called when the |outline_group| ends + that was started after scanning the {\tt\BS HINToutline} primitive. @<Hi\TeX\ routines@>= -void hfinish_outline_group(void) +static void hfinish_outline_group(void) { pointer s=link(head); unsave(); pop_nest(); outline_ptr(tail)=s; -} -@ - -\subsection{The New Page Builder}\label{buildpage} +} +@*1 The New Page Builder. Here is the new |build_page| routine of Hi\TeX: @<Hi\TeX\ routines@>= -void build_page(void) +static void build_page(void) { static bool initial=true; if(link(contrib_head)==null||output_active)return; - do + do { pointer p= link(contrib_head); pointer q=null; /* for output nodes */ pointer *t; /*the tail of the output nodes*/ @@ -1270,20 +30749,18 @@ void build_page(void) update_last_values(p); @<Freeze the page specs if called for@>@; page_goal=0x3fffffff; /* maximum dimension */ - t=collect_output(&p,&q); - if (p!=null) + t=collect_output(&p,&q); + if (p!=null) { hpos0=hpos; hout_node(p); } recycle_p: flush_node_list(p); if (q!=null) - @<Fire up the output routine for |q|@>@; + @<Fire up the output routine for |q|@>@; } while(link(contrib_head)!=null); DBG(DBGBUFFER,"after build page dyn_used= %d\n", dyn_used); } -@ - -@<Freeze the page specs if called for@>= -if (page_contents<box_there) +@ @<Freeze the page specs if called for@>= +if (page_contents<box_there) { switch(type(p)) { case whatsit_node: if (subtype(p)==baseline_node) goto recycle_p; @@ -1292,17 +30769,17 @@ if (page_contents<box_there) subtype(p)!=graf_node && subtype(p)!=disp_node && subtype(p)!=image_node && subtype(p)!=align_node) break; /* else fall through */ - case hlist_node: case vlist_node: case rule_node: + case hlist_node: case vlist_node: case rule_node: if (page_contents==empty) { freeze_page_specs(box_there); - hfix_defaults(); + hfix_defaults(); } else page_contents=box_there; break; case ins_node: if (page_contents==empty) { freeze_page_specs(inserts_only); - hfix_defaults(); + hfix_defaults(); } break; case kern_node: @@ -1312,10 +30789,8 @@ if (page_contents<box_there) break; } } -@ - -Users of \TeX\ often force the generation of empty pages for example to start -a new chapter on a right hand page with an odd page number. +@ Users of \TeX\ often force the generation of empty pages for example to start +a new chapter on a right hand page with an odd page number. This makes sense for a printed book but not for a screen reader where there are no page numbers nor right or left hand pages. Using a screen reader, empty pages are just annoying. @@ -1327,23 +30802,23 @@ them if requested. To do so, we delay the output of nodes after an eject penalty until either something gets printed on the page or another eject penalty comes along. To override the delayed output, a penalty less or equal to a double |eject_penalty| can be used. -The function |its_all_over| (see section~\secref{itsallover}) +The function |its_all_over| is an example for such a use. @<Suppress empty pages if requested@>= if (option_no_empty_page && - ((type(p)==penalty_node && + ((type(p)==penalty_node && penalty(p)<=eject_penalty && penalty(p)>2*(eject_penalty)) || - (page_contents==empty && !is_visible(p)))) -{ pointer q= link(p); + (page_contents==empty && !is_visible(p)))) +{ pointer q= link(p); while (true) { if (q==null) return; else if (is_visible(q)) break; else if (type(q)==penalty_node && penalty(q)<=eject_penalty) { while (p!=q) { pointer r=p; - DBG(DBGPAGE,"Eliminating node (%d,%d)\n", + DBG(DBGPAGE,"Eliminating node (%d,%d)\n", type(p), type(p)==penalty_node?penalty(p):subtype(p)); p=link(p); link(r)=null; @@ -1351,24 +30826,23 @@ if (option_no_empty_page && } link(contrib_head)= p; DBG(DBGPAGE,"Eliminating empty page done\n"); - if (penalty(q)<=2*(eject_penalty)) break; + if (penalty(q)<=2*(eject_penalty)) break; } q=link(q); } -} -@ -It remains to test a node for visibility. This is a quick (and dirty) test -because the test will not look inside boxes; it simply tests whether +} +@ It remains to test a node for visibility. This is a quick (and dirty) test +because the test will not look inside boxes; it simply tests whether the list pointer is |null|. We consider an |open_node|, |write_node|, -|close_node|, |label_node|, or |outline_node| a as visible, +|close_node|, |label_node|, or |outline_node| as visible because deleting them could cause unwanted side effects. Possibly it would be better to regard them as invisible, but still pass them on to the rest of the output routine. - + @<Hi\TeX\ auxiliar routines@>= static bool is_visible(pointer p) { switch (type(p)) - { case penalty_node: + { case penalty_node: case kern_node: case glue_node: case mark_node: @@ -1395,11 +30869,9 @@ static bool is_visible(pointer p) default: return true; } } -@ - -An important feature of the new routine is the call to +@ An important feature of the new routine is the call to |hfix_defaults|. It occurs when the first ``visible mark'' is placed -on the page. At that point we record the current values of \TeX's +in the output. At that point we record the current values of \TeX's parameters which we will use to generate the definition section of the \HINT\ file. It is still possible to specify alternative values for these parameters by using parameter lists but only at an additional @@ -1413,7 +30885,7 @@ From then on |hsize| and |vsize| are replaced by the equivalent extended dimensions and any attempt to modify them on the global level will be ignored. |hhsize| and |hvsize| will contain the sizes that a regular \TeX\ engine would use. - + We also compute the total page size from the page template defined last. @@ -1439,30 +30911,24 @@ last. +round(((double)xdimen_hfactor(x)*hhsize+(double)xdimen_vfactor(x)*hvsize)/unity); } } -@ - -@<Hi\TeX\ variables@>= +@ @<Hi\TeX\ variables@>= static scaled page_h, page_v; -@ - -@<Switch |hsize| and |vsize| to extended dimensions@>= +@ @<Switch |hsize| and |vsize| to extended dimensions@>= hsize=0; vsize=0; dimen_par_hfactor(hsize_code)= unity; dimen_par_vfactor(vsize_code)= unity; -@ - -There is one point where we can not simpy forego the +@ There is one point where we can not simpy forego the output routine: \.{\\write} commands. Unless the \.{\\write} is decorated with an \.{\\immediate}, the whatsit node generated from it -will lay dormant in the contribution list and then the page until -the output routine passes it inside the finished page to the |ship_out| -routine where it will come to life and write its token list out. +will lay dormant in the contribution list (and later the page) until +the output routine passes it as part of the finished page to the |ship_out| +routine. There it will come to life and write its token list out. The whatsit nodes from \.{\\openout} and \.{\\closeout} commands behave similary. It is not possible to ignore the output routine because the output routine may change the environment in which the -token list of a \.{\\write} will be expanded. +token list of a \.{\\write} will be expanded. For example \LaTeX\ redefines \.{\\protect} to be \.{\\noexpand}. As a consequence we have to implement a simplified version of \TeX's usual process to fire up the output routine. @@ -1479,10 +30945,8 @@ static pointer *collect_output(pointer *p, pointer *q) } return q; } -@ - -\TeX\ does not permit output nodes in leaders, so we dont check them; -further we do not check the pre- and post-break lists of +@ \TeX\ does not permit output nodes in leaders, so we dont check them; +further we do not check the pre- and post-break lists of discretionary breaks. @<Collect output nodes from |*p|@>= @@ -1490,18 +30954,18 @@ if (!is_char_node(*p)) { pointer r=*p; switch (type(r)) { case whatsit_node: - switch (subtype(r)) + switch (subtype(r)) { case open_node: case write_node: case close_node: - { *p=link(r); link(r)=null; *q=r; q=&(link(r)); + { *p=link(r); link(r)=null; *q=r; q=&(link(r)); if (*p==null) return q; } break; - case graf_node: q=collect_output(&graf_list(r),q); + case graf_node: q=collect_output(&graf_list(r),q); break; case disp_node: - if (display_left(r)) q=collect_output(&display_eqno(r),q); + if (display_left(r)) q=collect_output(&display_eqno(r),q); q=collect_output(&display_formula(r),q); - if (!display_left(r)) q=collect_output(&display_eqno(r),q); + if (!display_left(r)) q=collect_output(&display_eqno(r),q); break; case hset_node: case vset_node: case hpack_node: case vpack_node: q=collect_output(&list_ptr(r),q); @@ -1524,11 +30988,7 @@ if (!is_char_node(*p)) default: break; } } -@ - - - -@<Fire up the output routine for |q|@>= +@ @<Fire up the output routine for |q|@>= { pointer r=new_null_box();type(r)=vlist_node; subtype(r)=0;shift_amount(r)=0;height(r)=hvsize; list_ptr(r)=q; @@ -1554,36 +31014,32 @@ if (!is_char_node(*p)) ship_out(box(255)); box(255)=null; } } -@ - -The |ship_out| routine just calls |execute_output|. +@ The |ship_out| routine just calls |execute_output|. Because the output routine might have added plenty of decorations around the list of output nodes, we have to find them again. @<Hi\TeX\ routines@>= -void execute_output(pointer p) +static void execute_output(pointer p) {@+while (p!=null) { @<Execute output nodes from |p|@>@; p=link(p); } } -@ - -@<Execute output nodes from |p|@>= +@ @<Execute output nodes from |p|@>= if (!is_char_node(p)) switch (type(p)) { case whatsit_node: - switch (subtype(p)) + switch (subtype(p)) { case open_node: case write_node: case close_node: out_what(p); break; - case graf_node: execute_output(graf_list(p)); + case graf_node: execute_output(graf_list(p)); break; case disp_node: - if (display_left(p)) execute_output(display_eqno(p)); + if (display_left(p)) execute_output(display_eqno(p)); execute_output(display_formula(p)); - if (!display_left(p)) execute_output(display_eqno(p)); + if (!display_left(p)) execute_output(display_eqno(p)); break; case hset_node: case vset_node: case hpack_node: case vpack_node: execute_output(list_ptr(p)); @@ -1605,9 +31061,7 @@ if (!is_char_node(p)) break; default: break; } -@ - -Invoking the user's output routine is a risky endeavor +@ Invoking the user's output routine is a risky endeavor if marks are not initialized properly. In our case we will have always |top_mark| equal to |first_mark| and |bot_mark|. @@ -1617,25 +31071,25 @@ if (type(p)==mark_node) { if (bot_mark!=null) delete_token_ref(bot_mark); bot_mark=mark_ptr(p);add_token_ref(bot_mark); } -@ - - -\subsection{Replacing {\tt hpack} and {\tt vpack}} +@*1 Replacing {\tt hpack} and {\tt vpack}. +The following routines extend \TeX's original routines. They check for +any dependency of the box size on {\tt hsize} or {\tt vsize} and +create an hset node or hpack node if such a dependency was found. @<Hi\TeX\ routines@>= -pointer hpack(pointer p,scaled w, scaled hf, scaled vf, small_number m) +static pointer hpack(pointer p,scaled w, scaled hf, scaled vf, small_number m) { - pointer r; /*the box node that will be returned*/ + pointer r; /*the box node that will be returned*/ pointer prev_p; /*trails behind |p|*/ - scaled h,d,x; /*height, depth, and natural width*/ - scaled s; /*shift amount*/ - pointer g; /*points to a glue specification*/ - glue_ord sto, sho; /*order of infinity*/ - internal_font_number f; /*the font in a |char_node|*/ - four_quarters i; /*font information about a |char_node|*/ - eight_bits hd; /*height and depth indices for a character*/ + scaled h,d,x; /*height, depth, and natural width*/ + scaled s; /*shift amount*/ + pointer g; /*points to a glue specification*/ + glue_ord sto, sho; /*order of infinity*/ + internal_font_number f; /*the font in a |char_node|*/ + four_quarters i; /*font information about a |char_node|*/ + eight_bits hd; /*height and depth indices for a character*/ last_badness= 0;r= get_node(box_node_size);type(r)= hlist_node; subtype(r)= min_quarterword;shift_amount(r)= 0; prev_p= r+list_offset;link(prev_p)= p; @@ -1728,7 +31182,7 @@ pointer hpack(pointer p,scaled w, scaled hf, scaled vf, small_number m) else if (total_stretch[fill]!=0)sto= fill; else if (total_stretch[fil]!=0)sto= fil; else sto= normal; - + if (total_shrink[filll]!=0)sho= filll; else if (total_shrink[fill]!=0)sho= fill; else if (total_shrink[fil]!=0)sho= fil; @@ -1760,8 +31214,8 @@ pointer hpack(pointer p,scaled w, scaled hf, scaled vf, small_number m) if (m==additional) w= x+w; - width(r)= w;x= w-x; /*now |x| is the excess to be made up*/ - + width(r)= w;x= w-x; /*now |x| is the excess to be made up*/ + if (x==0) { glue_sign(r)= normal; glue_order(r)= normal; set_glue_ratio_zero(glue_set(r)); @@ -1837,7 +31291,7 @@ pointer hpack(pointer p,scaled w, scaled hf, scaled vf, small_number m) begin_diagnostic();show_box(r);end_diagnostic(true); end:return r; - + repack: { /* convert the box to a |hpack_node| */ pointer q; @@ -1856,15 +31310,13 @@ repack: } } -@ - -@<Hi\TeX\ routines@>= -pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scaled l) -{ pointer r; /*the box node that will be returned*/ - scaled w,d,x; /*width, depth, and natural height*/ - scaled s=0; /*shift amount*/ - pointer g; /*points to a glue specification*/ - glue_ord sho, sto; /*order of infinity*/ +@ @<Hi\TeX\ routines@>= +static pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scaled l) +{ pointer r; /*the box node that will be returned*/ + scaled w,d,x; /*width, depth, and natural height*/ + scaled s=0; /*shift amount*/ + pointer g; /*points to a glue specification*/ + glue_ord sho, sto; /*order of infinity*/ last_badness= 0; r= get_node(box_node_size); type(r)= vlist_node; subtype(r)= min_quarterword; shift_amount(r)= 0; list_ptr(r)= p; @@ -1875,15 +31327,15 @@ pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scal total_stretch[fill]= 0;total_shrink[fill]= 0; total_stretch[filll]= 0;total_shrink[filll]= 0; while(p!=null) - { if (is_char_node(p)) + { if (is_char_node(p)) confusion("vpack"); - else + else switch(type(p)) { case hlist_node:case vlist_node:case rule_node:case unset_node: x= x+d+height(p);d= depth(p); if (type(p)>=rule_node) s= 0; else s= shift_amount(p); - if (width(p)+s> w) w= width(p)+s; + if (width(p)+s> w) w= width(p)+s; break; case whatsit_node: if (subtype(p)==graf_node) @@ -1927,7 +31379,7 @@ pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scal } p= link(p); } - width(r)= w; + width(r)= w; if (total_stretch[filll]!=0) sto= filll; @@ -1970,9 +31422,9 @@ pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scal { x= x+d-l;depth(r)= l; } else depth(r)= d; - if (m==additional) + if (m==additional) h= x+h; - height(r)= h; x= h-x; /*now |x| is the excess to be made up*/ + height(r)= h; x= h-x; /*now |x| is the excess to be made up*/ if (x==0) { glue_sign(r)= normal; glue_order(r)= normal; set_glue_ratio_zero(glue_set(r)); @@ -2027,20 +31479,20 @@ if (x==0) goto end; } - + common_ending: if (pack_begin_line!=0) { print(") in alignment at lines "); print_int(abs(pack_begin_line)); print("--"); } - else + else print(") detected at line "); print_int(line); print_ln(); begin_diagnostic();show_box(r);end_diagnostic(true); - end: + end: return r; @@ -2062,11 +31514,9 @@ repack: } } -@ - -\subsection{Streams} +@*1 Streams. \HINT\ stream numbers start at 0 for the main text and continue -upwards. \TeX, on the other hand, numbers insertions starting with +upwards. \TeX, on the other hand, numbers insertions starting with {\tt box255} for the main text and continues downwards. Some mapping is needed, and we use the array |insert2stream| to map \TeX's insert numbers to \HINT\ stream numbers. @@ -2074,9 +31524,7 @@ The predefined stream for the main content has stream number 0. @<Hi\TeX\ variables@>= int insert2stream[0x100]={0}; -@ - -The following function returns the stream number for a given insert number $i$ +@ The following function returns the stream number for a given insert number $i$ with $255>|i|\ge 0$. A new stream number is allocated if necessary. Note that no overflow test is necessary since \TeX\ allocates less than 233 inserts. @@ -2089,10 +31537,10 @@ in the |insert2stream| array, we scan the stream definitions once and cache the associations found there. @<Hi\TeX\ routines@>= -int hget_stream_no(int i) +static int hget_stream_no(int i) { static bool init=false; int s; - if (i==0) return 0; + if (i==0) return 0; s=insert2stream[i]; if (s!=0) return s; if (!init) @@ -2108,17 +31556,14 @@ int hget_stream_no(int i) s=insert2stream[i]=max_ref[stream_kind]=++max_stream; return s; } -@ - -\subsection{Stream Definitions} +@*1 Stream Definitions. -A stream definition is stored as a whatsit node with subtype |setstream_node| as -defined in section~\secref{whatsit}. +A stream definition is stored as a whatsit node with subtype |setstream_node|. Given a pointer |p| to such a node, here are the macros used to access the data stored there: -\itemize +\def\item{\par\noindent\hbox to 0pt{$\bullet$\hss}\quad\ignorespaces } \item |setstream_number(p)| the \HINT\ stream number $n$. \item |setstream_insertion(p)| the corresponding \TeX\ insertion number $i$. -\item |setstream_max(p)| the maximum height $x$: This extended dimension is the maximum size +\item |setstream_max(p)| the maximum height $x$: This extended dimension is the maximum size per page for this insertion. \item |setstream_mag(p)| the magnification factor $f$: Inserting a box of height $h$ will contribute $h*f/1000$ @@ -2144,13 +31589,13 @@ Given a pointer |p| to such a node, here are the macros used to access the data to break paragraphs in the stream content into lines. \item |setstream_height(p)| a glue specification $h$ reflecting the total height, strechability and shrinkability of the material in lists $a$ and $b$. -\enditemize + Currently Hi\TeX\ handles only normal streams. First or last streams will come later. The stream definition nodes are created and initialized with the following function: @<Hi\TeX\ routines@>= -pointer new_setstream_node(uint8_t n) +static pointer new_setstream_node(uint8_t n) { pointer p=get_node(setstream_node_size); type(p)=whatsit_node;subtype(p)=setstream_node; setstream_insertion(p)=n; @@ -2168,28 +31613,25 @@ pointer new_setstream_node(uint8_t n) return p; } -@ - - -The prefered stream, the next stream, and the split ratio are scanned as part of the -{\tt \BS setstream} primitive as described in section~\secref{primitive}. +@ The prefered stream, the next stream, and the split ratio are scanned as part of the +{\tt \BS setstream} primitive. When \TeX\ finds the right brace that terminates the stream definition, it calls |handle_right_brace|. Then it is time to obtain the remaining parts of the stream definition. For insertion class $i$, -we can extract the maximum height $x$ of the insertions from -the corresponding {\tt dimen$i$} register +we can extract the maximum height $x$ of the insertions from +the corresponding {\tt dimen$i$} register the magnification factor $f$ from the {\tt count$i$} register, and the total height $h$ from the {\tt skip$i$} register. The width $w$ is taken from {\tt \BS hsize} and the -topskip $t$ from {\tt \BS topskip}. +topskip $t$ from {\tt \BS topskip}. @<Hi\TeX\ routines@>= -void hfinish_stream_group(void) +static void hfinish_stream_group(void) { pointer s; end_graf(); s=hget_current_stream(); - if (s!=null) + if (s!=null) { pointer t; uint8_t i; i= setstream_insertion(s); @@ -2204,16 +31646,14 @@ void hfinish_stream_group(void) unsave(); flush_node_list(link(head)); pop_nest(); -} -@ - -The before list $b$ and the after list $a$ are defined using the +} +@ The before list $b$ and the after list $a$ are defined using the {\tt \BS before} and {\tt \BS after} primitives. When the corresponding list has ended with a right brace, \TeX\ calls |handle_right_brace| and we can store the lists. @<Hi\TeX\ routines@>= -void hfinish_stream_before_group(void) +static void hfinish_stream_before_group(void) { pointer s; end_graf(); s=hget_current_stream(); @@ -2221,9 +31661,9 @@ void hfinish_stream_before_group(void) setstream_before(s)=link(head); unsave(); pop_nest(); -} +} -void hfinish_stream_after_group(void) +static void hfinish_stream_after_group(void) { pointer s; end_graf(); s=hget_current_stream(); @@ -2232,25 +31672,23 @@ void hfinish_stream_after_group(void) unsave(); pop_nest(); } -@ - -\subsection{Page Template Definitions} +@*1 Page Template Definitions. The data describing a page template is stored in a whatsit node with subtype -|setpage_node| as defined insection~\secref{whatsit}. +|setpage_node|. Given a pointer |p| to such a node, here are the macros used to access the data stored there: -\itemize + \item |setpage_name(p)|: The name of the page template can be used in the user interface of a \HINT\ viewer. -\item |setpage_number(p)|: The number of the page template that is used in the \HINT\ +\item |setpage_number(p)|: The number of the page template that is used in the \HINT\ file to reference this page template. \item |setpage_id(p)|: The number of the page template that is used in \TeX\ to reference this page template. \item |setpage_priority(p)|: The priority helps in selecting a page template. -\item |setpage_topskip(p)|: The topskip glue is added at the top of a page and +\item |setpage_topskip(p)|: The topskip glue is added at the top of a page and adjusted by the height of the first bos on the page. -\item |setpage_height(p)|: The height of the full page including the margins. -\item |setpage_width(p)|: The width of the full page including the margins. +\item |setpage_height(p)|: The height of the full page including the margins. +\item |setpage_width(p)|: The width of the full page including the margins. \item |setpage_depth(p)|: The maximum depth of the page content. If the last box is deeper than this maximum, the difference is subtracted from the height of the page body. \item |setpage_list(p)|: The list that defines the page template. After the page builder @@ -2258,35 +31696,34 @@ has completed a page this list is scanned and page body and nonempty streams are added at the corresponding insertion points. \item |setpage_streams(p)|: The list of stream definitions that belong to this page template. -\enditemize + To allow \TeX\ to use arbitrary numbers between 1 and 255 for the page templates -while in \HINT\ the numbers of page templates are best consecutive +while in \HINT\ the numbers of page templates are best consecutive from 1 to |max_ref[page_kind]==max_page|, we let \TeX\ assign an id and generate the template number. Because templates might be in format files, the variable |max_page| will hold the true number. The function |new_setpage_node| is called with the page template id $0<|i|<256$ and a string number for the name |n|. -It allocates and initializes a node if necessary and moves it to the front of the +It allocates and initializes a node if necessary and moves it to the front of the list of templates. @<Hi\TeX\ routines@>= -pointer new_setpage_node(uint8_t i, str_number n) +static pointer new_setpage_node(uint8_t i, str_number n) { pointer p, prev_p; prev_p=setpage_head; for (p=link(prev_p); p!=null; prev_p=p,p=link(p)) if (setpage_id(p)==i) break; if (p==null) @<allocate a new |setpage_node| |p|@>@; - else + else link(prev_p)=link(p); link(p)=link(setpage_head); link(setpage_head)=p; return p; -} +} @ - @<allocate a new |setpage_node| |p|@>= { p=get_node(setpage_node_size);type(p)=whatsit_node;subtype(p)=setpage_node; setpage_number(p)=max_ref[page_kind]=++max_page; @@ -2300,15 +31737,13 @@ pointer new_setpage_node(uint8_t i, str_number n) setpage_list(p)=null; setpage_streams(p)=null; } -@ - -The default values are replaced by parameters given to the {\tt\BS setpage} -primitive (see section~\secref{pageext}) and by the current values of certain +@ The default values are replaced by parameters given to the {\tt\BS setpage} +primitive and by the current values of certain \TeX\ registers when finishing the page template. page template itself, @<Hi\TeX\ routines@>= -void hfinish_page_group(void) +static void hfinish_page_group(void) { uint8_t k; pointer p,q,r; end_graf(); @@ -2322,14 +31757,13 @@ void hfinish_page_group(void) } unsave(); pop_nest(); -} -@ -@<Hi\TeX\ auxiliar routines@>= +} +@ @<Hi\TeX\ auxiliar routines@>= static pointer hget_current_page(void) { pointer p=link(setpage_head); if (p==null) - print_err("end of output group without setpage node"); + print_err("end of output group without setpage node"); return p; } @@ -2342,19 +31776,14 @@ static pointer hget_current_stream(void) print_err("end of setstream group without setstream node"); return s; } -@ - - - -\section{\HINT\ Output} - -\subsection{Initialization} +@* \HINT\ Output. +Here are the routines to initialize and terminate the output. \noindent @<Hi\TeX\ routines@>= static void hout_init(void) { - new_directory(dir_entries); + new_directory(dir_entries); new_output_buffers(); max_section_no=2; hdef_init(); @@ -2363,7 +31792,7 @@ static void hout_init(void) } extern int option_global; -void hint_open(void) +static void hint_open(void) { if (job_name==0) open_log_file(); pack_job_name(".hnt"); while (!(hout=open_out((char *)name_of_file+1,"wb"))) @@ -2372,30 +31801,24 @@ void hint_open(void) option_global=true; hout_init(); } -@ -\subsection{Termination} - -@<Hi\TeX\ routines@>= #define HITEX_VERSION "1.1" static void hput_definitions(); static void hout_terminate(void) { hput_content_end(); hput_definitions(); - hput_directory(); + hput_directory(); hput_hint("created by HiTeX Version " HITEX_VERSION); } - -void hint_close(void) + +static void hint_close(void) { hout_terminate(); if (hout!=NULL) fclose(hout); hout=NULL; } -@ - -\subsection{\HINT\ Directory} +@* The \HINT\ Directory. There is not much to do here: some code to find a new or existing directory entry, a variable to hold the number of directory entries allocated, a function to allocate a new file section, and an auxiliar function to @@ -2405,20 +31828,16 @@ convert \TeX's file names to ordinary \CEE/ strings. for (i=3; i<= max_section_no;i++) if (dir[i].file_name!=NULL && strcmp(dir[i].file_name,file_name)==0) return i; -@ - -@<Allocate a new directory entry@>= +@ @<Allocate a new directory entry@>= i = max_section_no; i++; if (i>0xFFFF) QUIT("Too many file sections"); - if (i>=dir_entries) + if (i>=dir_entries) RESIZE(dir,dir_entries,entry_t); max_section_no=i; if (max_section_no>0xFFFF) QUIT("Too many sections"); dir[i].section_no=i; -@ - -@<Hi\TeX\ macros@>= +@ @<Hi\TeX\ macros@>= #define @[RESIZE(P,S,T)@] \ { int _n = (S)*1.4142136 +0.5; \ if (_n<32) _n=32; \ @@ -2427,13 +31846,9 @@ for (i=3; i<= max_section_no;i++) (S)=_n; \ } \ } -@ - -@<Hi\TeX\ variables@>= +@ @<Hi\TeX\ variables@>= static int dir_entries=4; -@ - -@<Hi\TeX\ auxiliar routines@>= +@ @<Hi\TeX\ auxiliar routines@>= static uint16_t hnew_file_section(char *file_name) { uint16_t i; @<Find an existing directory entry@>@; @@ -2441,15 +31856,14 @@ static uint16_t hnew_file_section(char *file_name) dir[i].file_name=strdup(file_name); return i; } -@ -The following function uses \TeX's function |pack_file_name| +@ The following function uses \TeX's function |pack_file_name| to create a new filename from a name |n|, a direcory or ``area'' |a|, and an extension |e|. \TeX\ will truncate the new filename to |file_name_size| characters without warning. The new function will take a |name_length| equal to | file_name_size| as an indication that truncation has taken place and terminates the -program. The return value converts a \Pascal\ array, starting with index 1, +program. The return value converts a {\mc Pascal} array, starting with index 1, into a \CEE/ array starting with index 0. @<Hi\TeX\ auxiliar routines@>= @@ -2460,23 +31874,20 @@ static char *hfile_name(str_number n, char *a, char *e) return (char *)name_of_file+1; } -@ - -\section{\HINT\ Definitions}\label{definitions} +@* \HINT\ Definitions. Definitions are used for two reasons: they provide default values for the parameters that drive \TeX's algorithms running in the \HINT\ viewer, and they provide a compact notation for \HINT\ content nodes. -To find the optimal coding for a \HINT\ file, a global knowledge of the \HINT\ file is necessary. +To find the optimal coding for a \HINT\ file, a global knowledge of the \HINT\ file is necessary. This would require a two pass process: in the first pass Hi\TeX\ could gather statistics on the use of parameter values and content nodes as a basis for making definitions and in the second pass it could encode the content using these definitions. I consider it, however, more reasonable to write such a two pass optimizer -as a separate program which can be used on any \HINT\ file. +as a separate program which can be used on any \HINT\ file. Hence Hi\TeX\ uses a much simpler one pass approach: -\itemize -\item Hi\TeX\ generates definitions for \TeX-parameters using the +Hi\TeX\ generates definitions for \TeX-parameters using the values they have when the first non discardable item appears in |build_page|. This is usually the case after initial style files have been processed and we can expect that they set useful default values. @@ -2495,11 +31906,9 @@ void hfix_defaults(void) @<Fix definitions of page templates@>@; } -@ - -\item Hi\TeX\ generates definitions to be used in content nodes on the fly: +@ Further, Hi\TeX\ generates definitions to be used in content nodes on the fly: Whenever a routine outputs an item for which a definition might be available, -it calls a {\it hget\_\dots\_no} function. This function returns, if possible, +it calls a {\it hget\_\,\dots\_no} function. This function returns, if possible, the reference number of a suitable definition. If no definition is available, the function will try to allocate a new one, only if all reference numbers from 0 to |0xFF| are already in use, a $-1$ is @@ -2516,12 +31925,12 @@ than the same item without a definition. We can hope that the first effect does not occur too often, especially if the \TeX\ file is short, and we know that the second effect is limited by the total number of definitions we can make plus four byte of overhead per instance. -\enditemize + Here we initialize the necessary data structures for definitions. @<Hi\TeX\ auxiliar routines@>= static void hdef_init(void) -{@+ int i; +{@+ int i; @<Switch |hsize| and |vsize| to extended dimensions@>@; @<Initialize definitions for extended dimensions@>@; @<Initialize definitions for baseline skips@>@; @@ -2531,10 +31940,8 @@ static void hdef_init(void) overfull_rule=0; /* no overfull rules please */ #endif } -@ - -After all definitions are ready, we write them using the function -|hput_definitions|. When we output the definitions, +@ After all definitions are ready, we write them using the function +|hput_definitions|. When we output the definitions, we have to make sure to define references before we use them. This is achived by using a specific ordering of the definitions in the function |hput_definitions| and by preventing @@ -2563,29 +31970,23 @@ static void hput_definitions() hput_range_defs(); /* expects the definitions section to be ended */ hput_label_defs(); } -@ - - -In the following, we present for each node type the code to generate +@ In the following, we present for each node type the code to generate the definitions, using a common schema: We define a data structure called {\it\dots\_defined}, to hold the definitions; we define, if -applicable, the \TeX-parameters; we add an {\it hget\_\dots\_no} +applicable, the \TeX-parameters; we add an {\it hget\_\,\dots\_no} function to allocate new definitions; and we finish with the code to output the collected definitions. Lets start with the most simple case: integers. -\subsection{Integers} -\subsubsection{Data} +@*1 Integers. The data structure to hold the integer definitions is a simple array with |0x100| entries. A more complex data structure, for example a hash table, could speed up searching for existing definitions but lets keep things simple for now. @<Hi\TeX\ variables@>= static int32_t int_defined[0x100]={0}; -@ -\subsubsection{Mapping} -Before we can generate definitions for \TeX-parameters, we have to map \TeX's +@ Before we can generate definitions for \TeX-parameters, we have to map \TeX's parameter numbers to \HINT\ definition numbers. While it seems more convenient here to have the reverse mapping, we need the mapping only once to record parameter definitions, but we will need it repeatedly in the function |hdef_param_node| and the overhead here does @@ -2594,65 +31995,59 @@ not warant having the mapping in both directions. @<Hi\TeX\ variables@>= static const int hmap_int[] ={@/ pretolerance_no, /* |pretolerance_code| 0 */ -tolerance_no, /* |tolerance_code| 1 */ -line_penalty_no, /* |line_penalty_code| 2 */ -hyphen_penalty_no, /* |hyphen_penalty_code| 3 */ -ex_hyphen_penalty_no, /* |ex_hyphen_penalty_code| 4 */ -club_penalty_no, /* |club_penalty_code| 5 */ -widow_penalty_no, /* |widow_penalty_code| 6 */ -display_widow_penalty_no, /* |display_widow_penalty_code| 7 */ -broken_penalty_no, /* |broken_penalty_code| 8 */ --1, /* |bin_op_penalty_code| 9 */ --1, /* |rel_penalty_code| 10 */ -pre_display_penalty_no, /* |pre_display_penalty_code| 11 */ -post_display_penalty_no, /* |post_display_penalty_code| 12 */ -inter_line_penalty_no, /* |inter_line_penalty_code| 13 */ -double_hyphen_demerits_no, /* |double_hyphen_demerits_code| 14 */ -final_hyphen_demerits_no, /* |final_hyphen_demerits_code| 15 */ -adj_demerits_no, /* |adj_demerits_code| 16 */ --1, /* |mag_code| 17 */ --1, /* |delimiter_factor_code| 18 */ -looseness_no, /* |looseness_code| 19 */ -time_no, /* |time_code| 20 */ -day_no, /* |day_code| 21 */ -month_no, /* |month_code| 22 */ -year_no, /* |year_code| 23 */ --1, /* |show_box_breadth_code| 24 */ --1, /* |show_box_depth_code| 25 */ --1, /* |hbadness_code| 26 */ --1, /* |vbadness_code| 27 */ --1, /* |pausing_code| 28 */ --1, /* |tracing_online_code| 29 */ --1, /* |tracing_macros_code| 30 */ --1, /* |tracing_stats_code| 31 */ --1, /* |tracing_paragraphs_code| 32 */ --1, /* |tracing_pages_code| 33 */ --1, /* |tracing_output_code| 34 */ --1, /* |tracing_lost_chars_code| 35 */ --1, /* |tracing_commands_code| 36 */ --1, /* |tracing_restores_code| 37 */ --1, /* |uc_hyph_code| 38 */ --1, /* |output_penalty_code| 39 */ --1, /* |max_dead_cycles_code| 40 */ +tolerance_no, /* |tolerance_code| 1 */ +line_penalty_no, /* |line_penalty_code| 2 */ +hyphen_penalty_no, /* |hyphen_penalty_code| 3 */ +ex_hyphen_penalty_no, /* |ex_hyphen_penalty_code| 4 */ +club_penalty_no, /* |club_penalty_code| 5 */ +widow_penalty_no, /* |widow_penalty_code| 6 */ +display_widow_penalty_no, /* |display_widow_penalty_code| 7 */ +broken_penalty_no, /* |broken_penalty_code| 8 */ +-1, /* |bin_op_penalty_code| 9 */ +-1, /* |rel_penalty_code| 10 */ +pre_display_penalty_no, /* |pre_display_penalty_code| 11 */ +post_display_penalty_no, /* |post_display_penalty_code| 12 */ +inter_line_penalty_no, /* |inter_line_penalty_code| 13 */ +double_hyphen_demerits_no, /* |double_hyphen_demerits_code| 14 */ +final_hyphen_demerits_no, /* |final_hyphen_demerits_code| 15 */ +adj_demerits_no, /* |adj_demerits_code| 16 */ +-1, /* |mag_code| 17 */ +-1, /* |delimiter_factor_code| 18 */ +looseness_no, /* |looseness_code| 19 */ +time_no, /* |time_code| 20 */ +day_no, /* |day_code| 21 */ +month_no, /* |month_code| 22 */ +year_no, /* |year_code| 23 */ +-1, /* |show_box_breadth_code| 24 */ +-1, /* |show_box_depth_code| 25 */ +-1, /* |hbadness_code| 26 */ +-1, /* |vbadness_code| 27 */ +-1, /* |pausing_code| 28 */ +-1, /* |tracing_online_code| 29 */ +-1, /* |tracing_macros_code| 30 */ +-1, /* |tracing_stats_code| 31 */ +-1, /* |tracing_paragraphs_code| 32 */ +-1, /* |tracing_pages_code| 33 */ +-1, /* |tracing_output_code| 34 */ +-1, /* |tracing_lost_chars_code| 35 */ +-1, /* |tracing_commands_code| 36 */ +-1, /* |tracing_restores_code| 37 */ +-1, /* |uc_hyph_code| 38 */ +-1, /* |output_penalty_code| 39 */ +-1, /* |max_dead_cycles_code| 40 */ hang_after_no, /* |hang_after_code| 41*/ floating_penalty_no /* |floating_penalty_code| 42*/ }; -@ -\subsubsection{Parameters} -Now we can generate the definitions for integer parameters: +@ Now we can generate the definitions for integer parameters: @<Fix definitions for integer parameters@>= int_defined[zero_int_no]=0; for (i=pretolerance_code; i<=hang_after_code;i++) if ( hmap_int[i]>=0) int_defined[hmap_int[i]]=int_par(i); max_ref[int_kind]=MAX_INT_DEFAULT; -@ - - -\subsubsection{Allocation} -The function |hget_int_no| tries to allocate a predefined integer number; +@ The function |hget_int_no| tries to allocate a predefined integer number; if not successful, it returns $-1$. @<Hi\TeX\ auxiliar routines@>= @@ -2666,10 +32061,7 @@ static int hget_int_no(int32_t n) else return -1; } -@ - -\subsubsection{Output} -Before we give the code to output an integer definition, we declare a macro that +@ Before we give the code to output an integer definition, we declare a macro that is usefull for all the definitions. |HPUTDEF| takes a function |F| and a reference number |R|. It is assumed that |F| writes a definition into the output and returns a tag. The macro will then add the reference number and both tags to the output. @@ -2685,9 +32077,7 @@ will then add the reference number and both tags to the output. hstart[_p]=_t; DBGTAG(_t,hstart+_p); \ DBGTAG(_t,hpos); HPUT8(_t); \ } -@ - -Definitions are written to the output only if they differ from Hi\TeX's built in defaults. +@ Definitions are written to the output only if they differ from Hi\TeX's built in defaults. @<Output integer definitions@>= DBG(DBGDEF,"Maximum int reference: %d\n",max_ref[int_kind]); for (i=max_fixed[int_kind]+1;i<=max_default[int_kind]; i++) @@ -2696,28 +32086,22 @@ Definitions are written to the output only if they differ from Hi\TeX's built in } for (;i<=max_ref[int_kind]; i++)@/ HPUTDEF(hput_int(int_defined[i]),i); -@ - - -\subsection{Dimensions} +@*1 Dimensions. We proceed as we did for integers, starting with the array that holds the defined dimensions. -\subsubsection{Data} @<Hi\TeX\ variables@>= static scaled dimen_defined[0x100]={0}; -@ -\subsubsection{Mapping} -@<Hi\TeX\ variables@>= +@ @<Hi\TeX\ variables@>= static const int hmap_dimen[] ={@/ -1, /* |par_indent_code| 0 */ - -1, /* |math_surround_code| 1 */ - line_skip_limit_no, /* |line_skip_limit_code| 2 */ + -1, /* |math_surround_code| 1 */ + line_skip_limit_no, /* |line_skip_limit_code| 2 */ hsize_dimen_no, /* |hsize_code| 3 */ vsize_dimen_no, /* |vsize_code| 4 */ max_depth_no, /* |max_depth_code| 5 */ split_max_depth_no, /* |split_max_depth_code| 6 */ -1, /* |box_max_depth_code| 7 */ -1, /* |hfuzz_code| 8 */ - -1, /* |vfuzz_code| 9 */ + -1, /* |vfuzz_code| 9 */ -1, /* |delimiter_shortfall_code| 10 */ -1, /* |null_delimiter_space_code| 11 */ -1, /* |script_space_code| 12 */ @@ -2730,10 +32114,7 @@ static const int hmap_dimen[] ={@/ -1, /* |v_offset_code| 19 */ emergency_stretch_no /* |emergency_stretch_code| 20 */ }; -@ - -\subsubsection{Parameters} -@<Fix definitions for dimension parameters@>= +@ @<Fix definitions for dimension parameters@>= dimen_defined[zero_dimen_no]=0; for (i=par_indent_code; i<=emergency_stretch_code;i++) if ( hmap_dimen[i]>=0) dimen_defined[hmap_dimen[i]]=dimen_par(i); @@ -2742,12 +32123,9 @@ static const int hmap_dimen[] ={@/ dimen_defined[quad_no]=quad(cur_font); dimen_defined[math_quad_no]=math_quad(text_size); max_ref[dimen_kind]=MAX_DIMEN_DEFAULT; -@ - -\subsubsection{Allocation} -@<Hi\TeX\ auxiliar routines@>= +@ @<Hi\TeX\ auxiliar routines@>= static int hget_dimen_no(scaled s) -/* tries to allocate a predefined dimension number in the range 0 to 0xFF +/* tries to allocate a predefined dimension number in the range 0 to 0xFF if not successful return -1 */ { int i; int m =max_ref[dimen_kind]; @@ -2758,10 +32136,7 @@ static int hget_dimen_no(scaled s) else return -1; } -@ - -\subsubsection{Output} -@<Output dimension definitions@>= +@ @<Output dimension definitions@>= DBG(DBGDEF,"Maximum dimen reference: %d\n",max_ref[dimen_kind]); for (i=max_fixed[dimen_kind]+1;i<=max_default[dimen_kind]; i++) { if (dimen_defined[i]!=dimen_defaults[i]) @@ -2769,31 +32144,21 @@ static int hget_dimen_no(scaled s) } for (;i<=max_ref[dimen_kind]; i++) HPUTDEF(hput_dimen(dimen_defined[i]),i); -@ - +@*1 Extended Dimensions. -\subsection{Extended Dimensions} - -\subsubsection{Data} @<Hi\TeX\ variables@>= static struct { scaled w,h,v; } xdimen_defined[0x100]; -@ - -\subsubsection{Initialization} -@<Initialize definitions for extended dimensions@>= +@ @<Initialize definitions for extended dimensions@>= for (i=0; i<=max_fixed[xdimen_kind]; i++) { xdimen_defined[i].w = xdimen_defaults[i].w; xdimen_defined[i].h = ONE*xdimen_defaults[i].h; xdimen_defined[i].v = ONE*xdimen_defaults[i].v; } -@ - -\subsubsection{Allocation} -To obtain a reference number for an extended dimension, we search the -array and if no match was found, we allocate a new entry, +@ To obtain a reference number for an extended dimension, we search the +array and if no match was found, we allocate a new entry, reallocating the array if needed. -We use the variable |rover| to mark the place where the +We use the variable |rover| to mark the place where the last entry was inserted, because quite often we repeatedly search for the same values. @@ -2814,10 +32179,8 @@ int hget_xdimen_no(pointer p) xdimen_defined[i].v= xdimen_vfactor(p); return i; } -@ - -@<Hi\TeX\ routines@>= -pointer new_xdimen(scaled w, scaled h, scaled v) +@ @<Hi\TeX\ routines@>= +static pointer new_xdimen(scaled w, scaled h, scaled v) { pointer p=get_node(xdimen_node_size); type(p)=whatsit_node;subtype(p)=xdimen_node; xdimen_width(p)=w; @@ -2825,10 +32188,7 @@ pointer new_xdimen(scaled w, scaled h, scaled v) xdimen_vfactor(p)=v; return p; } -@ - -\subsubsection{Output} -@<Output extended dimension definitions@>= +@ @<Output extended dimension definitions@>= DBG(DBGDEF,"Maximum xdimen reference: %d\n",max_ref[xdimen_kind]); for (i=max_fixed[xdimen_kind]+1;i<=max_default[xdimen_kind]; i++) { xdimen_t x; @@ -2848,11 +32208,8 @@ pointer new_xdimen(scaled w, scaled h, scaled v) x.v=xdimen_defined[i].v/(double)ONE; HPUTDEF(hput_xdimen(&x),i); } -@ - -@ -\subsection{Glues} +@*1 Glues. In general there are two choices on how to store a definition: We can use the data structures used by \TeX\ or we can use the data structures defined by \HINT. If we are lucky, both of them are the same as we have seen for integers and dimensions. For extended dimensions, we had to use the \HINT\ data type @@ -2860,43 +32217,34 @@ as we have seen for integers and dimensions. For extended dimensions, we had to In the case of glue, we definitely have a choice. We decide to use \TeX's pointers to glue specifications in the hope to save some work when comparing glues for equality, because \TeX\ already reuses glue specifications and often a simple comparison of pointers might suffice. -\subsubsection{Data} -@<Hi\TeX\ variables@>= -static pointer glue_defined[0x100]; -@ -\subsubsection{Mapping} @<Hi\TeX\ variables@>= +static pointer glue_defined[0x100]; +@ @<Hi\TeX\ variables@>= static int hmap_glue[] ={ -line_skip_no, /* |line_skip_code| 0 */ -baseline_skip_no, /* |baseline_skip_code| 1 */ --1, /* |par_skip_code| 2 */ -above_display_skip_no, /* |above_display_skip_code| 3 */ -below_display_skip_no, /* |below_display_skip_code| 4 */ -above_display_short_skip_no, /* |above_display_short_skip_code| 5 */ -below_display_short_skip_no, /* |below_display_short_skip_code| 6 */ -left_skip_no, /* |left_skip_code| 7 */ -right_skip_no, /* |right_skip_code| 8 */ -top_skip_no, /* |top_skip_code| 9 */ -split_top_skip_no, /* |split_top_skip_code| 10 */ -tab_skip_no, /* |tab_skip_code| 11 */ --1, /* |space_skip_code| 12 */ --1, /* |xspace_skip_code| 13 */ -par_fill_skip_no /* |par_fill_skip_code| 14 */ +line_skip_no, /* |line_skip_code| 0 */ +baseline_skip_no, /* |baseline_skip_code| 1 */ +-1, /* |par_skip_code| 2 */ +above_display_skip_no, /* |above_display_skip_code| 3 */ +below_display_skip_no, /* |below_display_skip_code| 4 */ +above_display_short_skip_no, /* |above_display_short_skip_code| 5 */ +below_display_short_skip_no, /* |below_display_short_skip_code| 6 */ +left_skip_no, /* |left_skip_code| 7 */ +right_skip_no, /* |right_skip_code| 8 */ +top_skip_no, /* |top_skip_code| 9 */ +split_top_skip_no, /* |split_top_skip_code| 10 */ +tab_skip_no, /* |tab_skip_code| 11 */ +-1, /* |space_skip_code| 12 */ +-1, /* |xspace_skip_code| 13 */ +par_fill_skip_no /* |par_fill_skip_code| 14 */ }; -@ -\subsubsection{Parameters} -@<Fix definitions for glue parameters@>= +@ @<Fix definitions for glue parameters@>= glue_defined[zero_skip_no]=zero_glue; incr(glue_ref_count(zero_glue)); for (i=line_skip_code; i<=par_fill_skip_code;i++) if ( hmap_glue[i]>=0) { glue_defined[hmap_glue[i]]=glue_par(i); incr(glue_ref_count(glue_par(i)));} max_ref[glue_kind]=MAX_GLUE_DEFAULT; -@ - - -\subsubsection{Allocation} -Next we define some auxiliar routines to compare glues for equality and to convert glues beween the different representations. +@ Next we define some auxiliar routines to compare glues for equality and to convert glues beween the different representations. @<Hi\TeX\ auxiliar routines@>= int glue_spec_equal(pointer p, pointer q) @@ -2910,18 +32258,16 @@ int glue_equal(pointer p, pointer q) } int glue_t_equal(glue_t *p, glue_t *q) -{ return(p->w.w==q->w.w && p->w.h==q->w.h && p->w.v==q->w.v && +{ return(p->w.w==q->w.w && p->w.h==q->w.h && p->w.v==q->w.v && p->p.f== q->p.f && p->m.f==q->m.f && (p->p.o==q->p.o || p->p.f==0.0) && (p->m.o==q->m.o || q->m.f==0.0)); } -@ - -To find a matching glue we make two passes over the defined glues: +@ To find a matching glue we make two passes over the defined glues: on the first pass we just compare pointers and on the second pass we also compare values. An alternative approach to speed up searching -is used in section~\secref{paramlist} below. +is used for parameter lists as described below. @<Hi\TeX\ auxiliar routines@>= static int hget_glue_no(pointer p) @@ -2930,21 +32276,21 @@ static int hget_glue_no(pointer p) if (p==zero_glue) return zero_skip_no; for(i=0; i<= max_ref[glue_kind] ; i++) { if (p==glue_defined[rover]) return rover; - else if (rover==0) + else if (rover==0) rover=max_ref[glue_kind]; - else + else rover--; } for(i=0; i<= max_ref[glue_kind] ; i++) { pointer q=glue_defined[rover]; if (glue_spec_equal(p,q)) return rover; - else if (rover==0) + else if (rover==0) rover=max_ref[glue_kind]; - else + else rover--; } - if (max_ref[glue_kind]<0xFF && section_no==2) + if (max_ref[glue_kind]<0xFF && section_no==2) { rover=++max_ref[glue_kind]; glue_defined[rover]=p; incr(glue_ref_count(p)); @@ -2954,9 +32300,7 @@ static int hget_glue_no(pointer p) else return -1; } -@ -\subsubsection{Output} -@<Output glue definitions@>= +@ @<Output glue definitions@>= DBG(DBGDEF,"Maximum glue reference: %d\n",max_ref[glue_kind]); for (i=max_fixed[glue_kind]+1;i<=max_default[glue_kind]; i++) { glue_t g; @@ -2966,16 +32310,14 @@ static int hget_glue_no(pointer p) } for (;i<=max_ref[glue_kind]; i++) HPUTDEF(hout_glue_spec(glue_defined[i]),i); -@ - -The above code uses the following conversion routine. +@ The above code uses the following conversion routine. While \HINT\ supports glue that depends on {\tt hsize} and {\tt vsize}, -this is currently not supported by Hi\TeX. +this is currently not supported by Hi\TeX. Future versions of Hi\TeX\ should extend glue spec nodes (and kern nodes) by fields for |hfactor| and |vfactor| which are zero by default. This would leave most parts of \TeX\ unchanged. -As a work-around one can combine a box with an extended dimension with -a regular glue or kern. +As a work-around one can combine a box with an extended dimension with +a regular glue or kern. % Care should be taken for the statically allocated glue specs % deallocation of glue specs is relatively simple % extended glue and kern values can be restricted to non math mode @@ -2986,13 +32328,10 @@ void to_glue_t(pointer p, glue_t *g) g->p.f=stretch(p)/(double)ONE; g->p.o= stretch_order(p); g->m.f=shrink(p)/(double)ONE; g->m.o= shrink_order(p); } -@ - -\subsection{Baseline Skips} +@*1 Baseline Skips. TeX's baseline nodes just store a baseline skip reference number. We have seen this sitation before when dealing with extended dimensions and the solution here is the same: a dynamicaly allocated array. -\subsubsection{Data} @<Hi\TeX\ variables@>= typedef struct { pointer ls, bs; /* line skip and baselineskip gluespecs */ @@ -3001,10 +32340,8 @@ typedef struct { static bl_defined_t *bl_defined=NULL; static int bl_used=0,bl_allocated=0; -@ -\subsubsection{Initialization} -The zero baseline skip is predefined which prevents an ambiguous info value of zero +@ The zero baseline skip is predefined which prevents an ambiguous info value of zero in a baseline node. @<Initialize definitions for baseline skips@>= @@ -3015,18 +32352,16 @@ in a baseline node. bl_defined[zero_baseline_no].lsl=0; bl_used= MAX_BASELINE_DEFAULT+1; max_ref[baseline_kind]= MAX_BASELINE_DEFAULT; -@ -\subsubsection{Allocation} -@<Hi\TeX\ auxiliar routines@>= +@ @<Hi\TeX\ auxiliar routines@>= int hget_baseline_no(pointer bs, pointer ls, scaled lsl) -{ +{ static int rover=0; int i; for(i=0; i< bl_used; i++) /* search for an existing spec */ { bl_defined_t *q=&(bl_defined[rover]); if (glue_equal(bs,q->bs) && glue_equal(ls,q->ls) && lsl==q->lsl) return rover; - else if (rover==0) + else if (rover==0) rover=bl_used-1; else rover--; @@ -3047,10 +32382,7 @@ int hget_baseline_no(pointer bs, pointer ls, scaled lsl) return rover; } -@ -\subsubsection{Output} - -The following routine does not allocate a new glue definition, because the +@ The following routine does not allocate a new glue definition, because the baselinedefinitions are output after the glue definitions. This is not perfect. @<Hi\TeX\ auxiliar routines@>= static uint8_t hout_glue_spec(pointer p); @@ -3061,34 +32393,32 @@ uint8_t hout_baselinespec(int n) s=bl_defined[n].lsl; if (s!=0) {HPUT32(s); i|=b001;} p=bl_defined[n].bs; - if (p!=zero_glue) + if (p!=zero_glue) { uint8_t *pos; uint8_t tag; HPUTNODE; /* allocate */ - pos=hpos; - hpos++; /* tag */ + pos=hpos; + hpos++; /* tag */ tag=hout_glue_spec(p); - *pos=tag; DBGTAG(tag,pos); + *pos=tag; DBGTAG(tag,pos); DBGTAG(tag,hpos); HPUT8(tag); i|=b100; } p=bl_defined[n].ls; - if (p!=zero_glue) + if (p!=zero_glue) { uint8_t *pos; uint8_t tag; HPUTNODE; /* allocate */ - pos=hpos; - hpos++; /* tag */ + pos=hpos; + hpos++; /* tag */ tag=hout_glue_spec(p); - *pos=tag; DBGTAG(tag,pos); + *pos=tag; DBGTAG(tag,pos); DBGTAG(tag,hpos); HPUT8(tag); i|=b010; } return TAG(baseline_kind,i); } -@ - -@<Output baseline skip definitions@>= +@ @<Output baseline skip definitions@>= DBG(DBGDEF,"Defining %d baseline skips\n",max_ref[baseline_kind]); for (i=1;i<=max_ref[baseline_kind]; i++) { uint32_t pos=hpos-hstart; @@ -3099,11 +32429,9 @@ uint8_t hout_baselinespec(int n) hstart[pos]=tag; HPUT8(tag); } -@ -\subsubsection{Printing} -The following function is needed in Hi\TeX\ to produce debugging output if needed. +@ The following function is needed in Hi\TeX\ to produce debugging output if needed. @<Hi\TeX\ routines@>= -void print_baseline_skip(int i) +static void print_baseline_skip(int i) { if (0<=i && i < bl_used) { print_spec(bl_defined[i].bs,0); print_char(','); print_spec(bl_defined[i].ls,0); print_char(','); @@ -3112,27 +32440,20 @@ void print_baseline_skip(int i) else print("unknown"); } -@ - - - -\subsection{Discretionary breaks} -\subsubsection{Data} +@*1 Discretionary breaks. For discretionary breaks, we use again the pointer representation. @<Hi\TeX\ variables@>= static pointer dc_defined[0x100]; -@ -\subsubsection{Allocation} -There are no predefined discretionary breaks and so we start with +@ There are no predefined discretionary breaks and so we start with three auxiliar functions and the function to get a ``disc'' number. The first two routines are used to compare discretionary breaks in order to reuse already defined disc numbers. -The pre and post break lists must consist entirely of character, -kern, box, rule, and ligature nodes. +The pre and post break lists must consist entirely of character, +kern, box, rule, and ligature nodes. Unfortunately a box node might contain all kinds of nodes -and its content might be huge and deeply nested. +and its content might be huge and deeply nested. The following routine will not make a complete comparison but will give up if the box content is ``too complex''. @@ -3144,14 +32465,14 @@ static bool node_equal(pointer p, pointer q) return true; if (!is_char_node(p) && !is_char_node(q)) { if (type(p)!=type(q)) return false; - if (type(p)==kern_node && + if (type(p)==kern_node && subtype(p)==subtype(q) && width(p)==width(q)) return true; if (type(p)==ligature_node && character(lig_char(p)) == character(lig_char(q)) && font(lig_char(p)) == font(lig_char(q))) return true; - if (type(p)==rule_node && + if (type(p)==rule_node && width(p)==width(q) && height(p)==height(q) && depth(p)==depth(q)) return true; if ((type(p)==hlist_node || type(p)==vlist_node) && @@ -3172,7 +32493,7 @@ static bool list_equal(pointer p, pointer q) if (p==null || q==null) return false; if (!node_equal(p,q)) return false; p=link(p);q=link(q); - } + } } static pointer copy_disc_node(pointer p) @@ -3184,20 +32505,18 @@ static pointer copy_disc_node(pointer p) subtype(q)=subtype(p); /* replace count and explicit bit */ return q; } -@ - -@<Hi\TeX\ routines@>= -int hget_disc_no(pointer p) -{ +@ @<Hi\TeX\ routines@>= +static int hget_disc_no(pointer p) +{ static int rover=0; int i; - for(i=0; i<= max_ref[disc_kind]; i++) + for(i=0; i<= max_ref[disc_kind]; i++) { pointer q=dc_defined[rover]; if ( is_auto_disc(p)==is_auto_disc(q) && replace_count(p)==replace_count(q) && list_equal(pre_break(p),pre_break(q)) && list_equal(post_break(p),post_break(q))) return rover; - else if (rover==0) + else if (rover==0) rover=max_ref[disc_kind]; else rover--; @@ -3209,9 +32528,7 @@ int hget_disc_no(pointer p) @<Allocate font numbers for glyphs in the pre- and post-break lists@>@; return rover; } -@ - -When we allocate disc numbers we might have fonts inside the pre- +@ When we allocate disc numbers we might have fonts inside the pre- or post-break list, that never show up anywhere else in the content. These fonts would then be undefined once we start the definition section. So we have to make sure, all necessary fonts get defined. @@ -3219,23 +32536,15 @@ So we have to make sure, all necessary fonts get defined. @<Allocate font numbers for glyphs in the pre- and post-break lists@>= ensure_font_no(pre_break(p)); ensure_font_no(post_break(p)); -@ - -\subsubsection{Output} -@<Output discretionary break definitions@>= +@ @<Output discretionary break definitions@>= DBG(DBGDEF,"Maximum disc reference: %d\n",max_ref[disc_kind]); for (i=0;i<=max_ref[disc_kind]; i++) HPUTDEF(hout_disc(dc_defined[i]),i); -@ - - - -\subsection{Parameter Lists}\label{paramlist} -\subsubsection{Data} +@*1 Parameter Lists. We store predefined parameter lists in a hash table in order to speed up finding existing parameter lists. The parameter list itself is stored as a byte sequence using the short \HINT\ file format. -We link the table entries in order of increasing reference numbers to be able +We link the table entries in order of increasing reference numbers to be able to output them in a more ``orderly'' fashion. @<Hi\TeX\ variables@>= @@ -3248,10 +32557,7 @@ struct {int l; /* link */ uint32_t s; /* size */ uint8_t *p; /* pointer */} pl_defined[PLH_SIZE]={{0}}; int pl_head=-1, *pl_tail=&pl_head; -@ - -\subsubsection{Allocation} -Next we define three short auxiliar routines and the |hget_param_list_no| function. +@ Next we define three short auxiliar routines and the |hget_param_list_no| function. @<Hi\TeX\ routines@>= @@ -3276,7 +32582,7 @@ static void pl_copy(list_t *l, uint8_t *p) memcpy(p,q,l->s); } -int hget_param_list_no(list_t *l) +static int hget_param_list_no(list_t *l) { uint32_t h; int i; if (l->s<=0) return -1; @@ -3298,13 +32604,10 @@ int hget_param_list_no(list_t *l) pl_copy(l,pl_defined[i].p); return pl_defined[i].n; } -@ - -\subsubsection{Output} -To output parameter lists, we need a function to output a parameter node: +@ To output parameter lists, we need a function to output a parameter node: @<Hi\TeX\ routines@>= -void hdef_param_node(int ptype, int pnumber,int pvalue) +static void hdef_param_node(int ptype, int pnumber,int pvalue) { if (ptype==int_type) { if (pvalue==int_defined[hmap_int[pnumber]]) return; @@ -3320,10 +32623,7 @@ void hdef_param_node(int ptype, int pnumber,int pvalue) } else QUIT("Unexpected parameter type %d",ptype); } -@ - - -Now we use the linked list starting with |pl_head| to output the predefined +@ Now we use the linked list starting with |pl_head| to output the predefined parameter lists sorted by their reference number. @<Output parameter list definitions@>= @@ -3343,29 +32643,7 @@ parameter lists sorted by their reference number. hput_list_size(pl_defined[i].s,j); HPUTTAG(param_kind,j+1); } -@ - -\subsection{Fonts} - -It seems I need: (see email by Karl) - - -|kpse_find_file(name,kpse_fontmap_format,false);| -with name "ps2pk.map" or "psfonts.map" or "ttfonts.map" or cmfonts.map -to get from the tfm name the postscript name. -then I get the |psfont_name| ususaly its the same font name -with .pfb appended -so I can skip it -%#ifdef HAVE_KPSE_ENC_FORMATS -% enc_file=kpse_find_file(encoding,kpse_enc_format,false); -%#else -% enc_file=kpse_find_file(encoding,kpse_tex_ps_header_format,false); -%#endif -%reading the encoding is found in dvipng/dvipnd-src/enc.c - - - -\subsubsection{Data} +@*1 Fonts. To store a font definition, we define the data type |font_t| and an array |hfonts| of pointers indexed by \HINT\ font numbers. To map \HINT\ font numbers to \TeX\ font numbers, the |font_t| contains @@ -3384,19 +32662,12 @@ typedef struct { uint16_t y; /* section number of font glyph file */ } font_t; -static font_t *hfonts[MAX_FONTS]={NULL}; -static int hmap_font[MAX_FONTS]; -@ - - - -@<Initialize definitions for fonts@>= +static font_t *hfonts[MAX_FONTS]={NULL}; +static int hmap_font[MAX_FONTS]; +@ @<Initialize definitions for fonts@>= for (i=0;i<0x100;i++) hmap_font[i]=-1; max_ref[font_kind]=-1; -@ - -\subsubsection{Allocation} -Allocation of a |font_t| record takes place when we translate a \TeX\ font +@ Allocation of a |font_t| record takes place when we translate a \TeX\ font number to a \HINT\ font number using the function |hget_font_no|, and while doing so discover that the corresponding \HINT\ font number does not yet exist. Because the |font_t| structure must be initialized after allocating it, @@ -3406,20 +32677,20 @@ we start with some auxiliar routines for that purpose. static pointer find_space_glue(internal_font_number f) {@+font_index @!main_k; pointer main_p=font_glue[f]; -if (main_p==null) +if (main_p==null) {@+main_p=new_spec(zero_glue);main_k=param_base[f]+space_code; - width(main_p)=font_info[main_k].sc; /*that's |space(f)|*/ - stretch(main_p)=font_info[main_k+1].sc; /*and |space_stretch(f)|*/ - shrink(main_p)=font_info[main_k+2].sc; /*and |space_shrink(f)|*/ + width(main_p)=font_info[main_k].sc; /*that's |space(f)|*/ + stretch(main_p)=font_info[main_k+1].sc; /*and |space_stretch(f)|*/ + shrink(main_p)=font_info[main_k+2].sc; /*and |space_shrink(f)|*/ font_glue[f]=main_p; } - return main_p; + return main_p; } static pointer hget_font_space(uint8_t f) { pointer p; - if (space_skip==zero_glue) + if (space_skip==zero_glue) p = find_space_glue(f); - else + else p=glue_par(space_skip_code); add_glue_ref(p); return p; @@ -3439,18 +32710,33 @@ static pointer hget_font_hyphen(uint8_t f) static void hdef_font_params(pointer p[MAX_FONT_PARAMS]) { /* used only for texts */ } -@ -\goodbreak -In the following code, |f| is a \TeX\ internal font number +@ In the following code, |f| is a \TeX\ internal font number and |g| is the corresponding \HINT\ font number. \TeX's null-font, a kind of undefined font containing no characters is replaced by \HINT's font number zero. Actually the nullfont should never appear in the output, but if it does so, either an error message or a more sensible replacement font might be in order. -@<Hi\TeX\ auxiliar routines@>= +Finding the right font file based on the name of the name of the {\tt .tfm} file +might require finding a {\tt .map} file using |kpse_find_file(name,kpse_fontmap_format,false)|. +This is currently not implemented. + +%It seems I need: (see email by Karl) +%|kpse_find_file(name,kpse_fontmap_format,false);| +%with name "ps2pk.map" or "psfonts.map" or "ttfonts.map" or cmfonts.map +%to get from the tfm name the postscript name. +%then I get the |psfont_name| ususaly its the same font name +%with .pfb appended +%so I can skip it +%#ifdef HAVE_KPSE_ENC_FORMATS +% enc_file=kpse_find_file(encoding,kpse_enc_format,false); +%#else +% enc_file=kpse_find_file(encoding,kpse_tex_ps_header_format,false); +%#endif +%reading the encoding is found in dvipng/dvipnd-src/enc.c +@<Hi\TeX\ auxiliar routines@>= static char *hfind_glyphs(char *filename) { char *fname=NULL; kpse_glyph_file_type file_ret; @@ -3458,9 +32744,9 @@ static char *hfind_glyphs(char *filename) if (fname==NULL) fname=kpse_find_file(filename,kpse_truetype_format,true); if (fname==NULL) fname=kpse_find_file(filename,kpse_opentype_format,true); if (fname==NULL) fname = kpse_find_glyph(filename, option_dpi,kpse_pk_format, &file_ret); - if (fname==NULL) + if (fname==NULL) fprintf(stderr,"Unable to find glyph data for font %s\n",filename),exit(1); - return fname; + return fname; } static uint8_t hget_font_no(uint8_t f) @@ -3468,7 +32754,7 @@ static uint8_t hget_font_no(uint8_t f) { int g; char *n,*fn; int l; - if (f==0) + if (f==0) { DBG(DBGFONT,"TeX nullfont -> 0\n"); return 0;@+ } @@ -3486,21 +32772,19 @@ static uint8_t hget_font_no(uint8_t f) hfonts[g]->h=hget_font_hyphen(f); pack_file_name(font_name[f], "",".tfm"); n = kpse_find_tfm((char*)name_of_file+1); - if (n==NULL) + if (n==NULL) QUIT("Unable to find .tfm file for font %s",(char*)name_of_file+1); hfonts[g]->m= hnew_file_section(n); free(n); pack_file_name(font_name[f], "",""); n= hfind_glyphs((char*)name_of_file+1); - if (n==NULL) + if (n==NULL) QUIT("Unable to find glyph file for font %s",(char*)name_of_file+1); hfonts[g]->y= hnew_file_section(n); free(n); return g; } -@ - -Surprisingly, not all characters that occur in a \HINT\ file are inside the +@ Surprisingly, not all characters that occur in a \HINT\ file are inside the content section; some characters might hide in the definition section inside the pre- or post-break list of a predefined discretionary break. To make sure that the fonts necessary for these characters are included @@ -3510,17 +32794,14 @@ numbers have a corresponting \HINT\ font number. @<Hi\TeX\ auxiliar routines@>= static void ensure_font_no(pointer p) { while (p!=null) - { if (is_char_node(p)) + { if (is_char_node(p)) hget_font_no(font(p)); else if (type(p)==hlist_node||type(p)==vlist_node) ensure_font_no(list_ptr(p)); p=link(p); } } -@ - -\subsubsection{Output} -@<Output font definitions@>= +@ @<Output font definitions@>= { int f; DBG(DBGDEF,"Defining %d fonts\n",max_ref[font_kind]+1); for (f=0;f<=max_ref[font_kind];f++) @@ -3544,9 +32825,7 @@ static void ensure_font_no(pointer p) hput_tags(pos,TAG(font_kind,i)); } } -@ - -We used the following function to write a \TeX\ string to the \HINT\ file: +@ We used the following function to write a \TeX\ string to the \HINT\ file: @<Hi\TeX\ auxiliar routines@>= void hout_string(int s) @@ -3561,17 +32840,14 @@ void hout_string(int s) HPUTX(3); HPUT8(str[0]); HPUT8(str[1]); HPUT8(str[2]); } - else + else { HPUTX(1); HPUT8(c); } } HPUT8(0); } -@ - - -We used the following macro to add tags around the font glue and the font hyphen: +@ We used the following macro to add tags around the font glue and the font hyphen: @<Hi\TeX\ macros@>= @@ -3585,31 +32861,26 @@ We used the following macro to add tags around the font glue and the font hyphen *_p=_t; DBGTAG(_t,_p); \ DBGTAG(_t,hpos); HPUT8(_t); \ } -@ - -\subsection{Labels} -The only label that must exist always is the zero label used +@*1 Labels. +The only label that must always exist is the zero label. It is used to mark the ``home'' position of a document. -\subsubsection{Initialization} We allocate the zero label with the first call to |next_label| -and initialize is with the value from |label_defaults|. +and initialize it with the value from |label_defaults|. We then make sure it can be found under the name ``HINT.home''. @<Initialize definitions for labels@>= { char nom[]="HINT.home"; unsigned int h=name_hash(nom)%LABEL_HASH; int i=insert_hash(h,0,nom); - if (i!=zero_label_no) + if (i!=zero_label_no) QUIT("Trying to allocate the zero label, got %d",i); labels[zero_label_no]=label_defaults[zero_label_no]; labels[zero_label_no].next=first_label; first_label=zero_label_no; DBG(DBGLABEL,"Defining zero label: pos=0x%x\n",labels[zero_label_no].pos); } -@ - -\subsection{Page Templates} +@*1 Page Templates. Once we start producing content nodes, we update the maximum numbers of page templates and streams from |max_page| and |max_stream|. @@ -3619,13 +32890,8 @@ format file. @<Fix definitions of page templates@>= max_ref[page_kind]=max_page; max_ref[stream_kind]=max_stream; -@ - - -\subsubsection{Output} - -As part of a page template, we will see stream insertion nodes. -When we encounter an |stream_node| inside a template definition, +@ As part of a page template, we will see stream insertion nodes. +When we encounter an |stream_node| inside a template definition, we output a stream insertion point. @<cases to output whatsit content nodes@>= @@ -3633,20 +32899,17 @@ we output a stream insertion point. HPUT8(setstream_number(p)); tag=TAG(stream_kind,b100); break; -@ - - -@<Output page template definitions@>= +@ @<Output page template definitions@>= DBG(DBGDEF,"Maximum page template reference: %d\n",max_page); { pointer t; for (t=link(setpage_head);t!=null;t=link(t)) { uint32_t pos=hpos-hstart; DBG(DBGDEF,"Defining page template %d\n",setpage_number(i));@/ hpos++; HPUTNODE; /* space for the tag and the node */ - HPUT8(setpage_number(t)); + HPUT8(setpage_number(t)); hout_string(setpage_name(t)); HPUT8(setpage_priority(t)); - hout_glue_node(setpage_topskip(t)); + hout_glue_node(setpage_topskip(t)); hput_dimen(setpage_depth(t)); hout_xdimen_node(setpage_height(t)); hout_xdimen_node(setpage_width(t)); @@ -3655,8 +32918,7 @@ we output a stream insertion point. hput_tags(pos,TAG(page_kind,0)); } } -@ -As part of the output of page template definitions, we output +@ As part of the output of page template definitions, we output stream definitions: @<output stream definitions@>= @@ -3665,7 +32927,7 @@ stream definitions: while (p!=null) { uint8_t n; n=setstream_number(p); - DBG(DBGDEF,"Defining stream %d at 0x%tx\n",n,hpos-hstart); + DBG(DBGDEF,"Defining stream %d at " SIZE_F "\n",n,hpos-hstart); HPUTTAG(stream_kind,b100); HPUT8(n); hout_xdimen_node(setstream_max(p)); /* maximum height */ @@ -3681,22 +32943,19 @@ stream definitions: q=setstream_after(p);setstream_after(p)=null; hout_list_node2(q);flush_node_list(q); q=setstream_height(p); - hout_glue_node(q); delete_glue_ref(q); - HPUTTAG(stream_kind,b100); + hout_glue_node(q); delete_glue_ref(q); + HPUTTAG(stream_kind,b100); p=link(p); } } -@ - - - -\section{\HINT\ Content}\label{output} +@* \HINT\ Content. \TeX\ puts content nodes on the contribution list and once in a while calls |build_page| to move nodes from the contribution list to the current page. Hi\TeX\ has a special version of -|build_page| that will simply remove nodes from the contribution list and passe them +|build_page| that will simply remove nodes from the contribution list and passes them to the function |hout_node|. +The actual output of \HINT\ nodes is accomplished with functions defined in {\tt put.c} +(see~Martin Ruckert, The \HINT\ file format). -\noindent @<Hi\TeX\ routines@>= static void hout_node(pointer p) { uint32_t pos=hpos-hstart; @@ -3709,28 +32968,16 @@ static void hout_node(pointer p) { @<cases to output content nodes@>@t\1@>@; default: MESSAGE("\nOutput of node type=%d subtype=%d not implemented\n", type(p),subtype(p)); - display_node(p); - MESSAGE("End of node"); hpos--; return;@t\2@>@; } hput_tags(pos,tag); } -@ -@<Hi\TeX\ function declarations@>= -static void hout_node(pointer p); -@ - -To output \HINT\ nodes, we use the functions defined in {\tt hput.c} from the {\tt shrink} program -(see~\cite{MR:format}). - -Let's start with character nodes. - -\subsection{Characters} +@*1 Characters. The processing of a character node consist of three steps: checking for definitions, converting the \TeX\ node pointed to by |p| to a \HINT\ data type, here a |glyph_t|, and using the -corresponding {\tt hput\_\dots} function to output the node and return the |tag|. +corresponding {\tt hput\_\,\dots} function to output the node and return the |tag|. In the following, we will see the same approach in many small variations for all kinds of nodes. @@ -3740,9 +32987,7 @@ small variations for all kinds of nodes. g.c = character(p); tag=hput_glyph(&g); } -@ - -\subsection{Penalties} +@*1 Penalties. Integer nodes, which as content nodes are used for penalties, come next. Except for the embedding between |case| and |break|, the processing of penalty nodes follows the same pattern we have just seen. @@ -3754,12 +32999,10 @@ processing of penalty nodes follows the same pattern we have just seen. else if (i<-10000) i=-10000; n=hget_int_no(i); if (n<0) tag=hput_int(i); - else { HPUT8(n); tag=TAG(penalty_kind,0);} + else { HPUT8(n); tag=TAG(penalty_kind,0);} } break; -@ - -\subsection{Kerns} +@*1 Kerns. The kern nodes of \TeX\ contain a single dimension and a flag to mark ``explicit'' kerns. @<cases to output content nodes@>= case kern_node: @@ -3772,15 +33015,13 @@ The kern nodes of \TeX\ contain a single dimension and a flag to mark ``explicit k.d.h=k.d.v=0.0; tag=hput_kern(&k); } - else + else { HPUT8(n); if (subtype(p)==explicit) tag=TAG(kern_kind,b100); else tag=TAG(kern_kind,b000); } } break; -@ - -\subsection{Extended Dimensions} +@*1 Extended Dimensions. Extended dimensions do not consitute content on their own, but nodes containing an extended dimension are part of other nodes. Here we define an auxiliar function that checks for a predefined extended @@ -3793,8 +33034,8 @@ void hout_xdimen_node(pointer p) { xdimen_t x; x.w=xdimen_width(p); x.h=xdimen_hfactor(p)/(double)ONE; - x.v=xdimen_vfactor(p)/(double)ONE; - hput_xdimen_node(&x); + x.v=xdimen_vfactor(p)/(double)ONE; + hput_xdimen_node(&x); } bool hout_xdimen(pointer p) {int n = hget_xdimen_no(p); @@ -3803,9 +33044,7 @@ bool hout_xdimen(pointer p) { hout_xdimen_node(p); return true;@+} } -@ - -\subsection{Languages} +@*1 Languages. We map the language numbers of \TeX\ to \HINT\ language numbers using the |hlanguage| array. @<Hi\TeX\ variables@>= @@ -3813,9 +33052,7 @@ static struct { uint8_t n; str_number s; } hlanguage[0x100]; -@ - -For any language number of \TeX, the following function returns +@ For any language number of \TeX, the following function returns the corresponding \HINT\ language number. Since \TeX\ knowns about a maximum of 255 languages, there is no need for overflow checking. The next function writes a language @@ -3835,22 +33072,18 @@ uint8_t hget_language_no(uint8_t n) uint8_t hout_language(uint8_t n) { n=hget_language_no(n); if (n<7) return TAG(language_kind,n+1); - else + else { HPUT8(n); return TAG(language_kind,0); } } -@ - -After these preparations, the output of a language node is +@ After these preparations, the output of a language node is simple: @<cases to output whatsit content nodes@>= case language_node: tag=hout_language(what_lang(p)); break; -@ - -Normaly \TeX\ does not produce an initial language node and -then the language in the \HINT\ file would not be known until +@ Normaly \TeX\ does not produce an initial language node and +then the language in the \HINT\ file would not be known until it changes for the first time. @<insert an initial language node@>= @@ -3858,9 +33091,7 @@ it changes for the first time. hpos++; hput_tags(pos,hout_language(language)); } -@ - -\TeX\ offers currently no simple way to obtain a standardized +@ \TeX\ offers currently no simple way to obtain a standardized language identifier for the current language. So if the string number of the language is zero, we output the string |"unknown"|; if somehow the language is known, we output the corresponding string @@ -3869,7 +33100,7 @@ from \TeX's string pool. @<Output language definitions@>= DBG(DBGDEF,"Maximum language reference: %d\n",max_ref[language_kind]); for (i=max_fixed[language_kind]+1;i<=max_ref[language_kind]; i++) - { HPUTNODE; + { HPUTNODE; HPUT8(TAG(language_kind,0)); HPUT8(i); if (hlanguage[i].s==0) @@ -3877,12 +33108,8 @@ from \TeX's string pool. else hout_string(hlanguage[i].s); HPUT8(TAG(language_kind,0)); - } -@ - - - -\subsection{Mathematics} + } +@*1 Mathematics. \TeX's math nodes have an optional width---a copy of the mathsurround parameter---while \HINT\ math nodes do not. Therefore we have to add an explicit kern node if the width is nonzero. We add it before a ``math on'' node or after a ``math off'' @@ -3915,9 +33142,7 @@ to get the same behavior in respect to line breaking. } } break; -@ - -\subsection{Glue and Leaders} +@*1 Glue and Leaders. Because glue specifications and glue nodes are sometimes part of other nodes, we start with three auxiliar functions: The first simply converts a Hi\TeX\ glue node into a \HINT\ |glue_t|, outputs it and @@ -3929,14 +33154,14 @@ static uint8_t hout_glue_spec(pointer p) { @+glue_t g; to_glue_t(p,&g); return hput_glue(&g);@+ -} +} static uint8_t hout_glue(pointer p) { int n; n = hget_glue_no(p); if (n<0) return hout_glue_spec(p); - else + else {@+ HPUT8(n); return TAG(glue_kind,0);@+} } @@ -3944,19 +33169,17 @@ static void hout_glue_node(pointer p) { uint8_t *pos; uint8_t tag; HPUTNODE; /* allocate */ - pos=hpos; - hpos++; /* tag */ + pos=hpos; + hpos++; /* tag */ tag=hout_glue(p); - *pos=tag; DBGTAG(tag,pos); + *pos=tag; DBGTAG(tag,pos); DBGTAG(tag,hpos); HPUT8(tag); } -@ - -Since \TeX\ implements leaders as a kind of glue, we have one case statement covering glue and leaders. +@ Since \TeX\ implements leaders as a kind of glue, we have one case statement covering glue and leaders. @<cases to output content nodes@>= case glue_node: - if (subtype(p)< cond_math_glue) /* normal glue */ + if (subtype(p)<= cond_math_glue) /* normal glue */ tag= hout_glue(glue_ptr(p)); else if (a_leaders<=subtype(p) && subtype(p)<=x_leaders) /*leaders */ { hout_glue_node(glue_ptr(p)); @@ -3967,13 +33190,11 @@ Since \TeX\ implements leaders as a kind of glue, we have one case statement cov } tag=TAG(leaders_kind,b100|(subtype(p)-a_leaders+1)); } - else + else QUIT("glue subtype %d not implemented\n", subtype(p)); break; -@ - -\subsection{Discretionary breaks} -Discretionary breaks are needed in font descriptions (see section~\secref{fontdef}). +@*1 Discretionary breaks. +Discretionary breaks are needed in font descriptions. Therefore we define a function that converts \TeX's |disc_node| pointers to \HINT's |disc_t|, outputs the discretionary break, and returns the tag. @@ -4004,21 +33225,16 @@ uint8_t hout_disc(pointer p) return hput_disc(&h); } -@ - - -@<cases to output content nodes@>= +@ @<cases to output content nodes@>= case disc_node: { int n; n=hget_disc_no(p); if (n<0) tag=hout_disc(p); - else { HPUT8(n); tag=TAG(disc_kind,0);} + else { HPUT8(n); tag=TAG(disc_kind,0);} } break; -@ - -\subsection{Ligatures} +@*1 Ligatures. The subtype giving information on left and right boundary characters is ignored since the \HINT\ viewer will not do ligature or kerning programms and neither attempt hyphenation. @@ -4036,26 +33252,23 @@ programms and neither attempt hyphenation. { hput_utf8(qo(character(q))); q=link(q); } - l.l.s=(hpos-hstart)-l.l.p; + l.l.s=(hpos-hstart)-l.l.p; tag=hput_ligature(&l); } break; -@ -\subsection{Rules} +@*1 Rules. @<cases to output content nodes@>= case rule_node: { rule_t r; if (is_running(height(p))) r.h=RUNNING_DIMEN; else r.h=height(p); if (is_running(depth(p))) r.d=RUNNING_DIMEN; else r.d=depth(p); if (is_running(width(p))) r.w=RUNNING_DIMEN; else r.w=width(p); - tag=hput_rule(&r); + tag=hput_rule(&r); } break; -@ - -\subsection{Boxes} +@*1 Boxes. @<cases to output content nodes@>= - case hlist_node: + case hlist_node: case vlist_node: if (type(p)==hlist_node) tag=TAG(hbox_kind,0); else tag=TAG(vbox_kind,0); @@ -4064,29 +33277,22 @@ programms and neither attempt hyphenation. tag |= hput_box_glue_set((glue_sign(p)==stretching)?+1:-1,glue_set(p),glue_order(p)); hout_list_node2(list_ptr(p)); break; - @ - -\subsection{Adjustments} +@*1 Adjustments. @<cases to output content nodes@>= case adjust_node: hout_list_node2(adjust_ptr(p)); tag=TAG(adjust_kind,1); - break; -@ - - -\subsection{Insertions} + break; +@*1 Insertions. \TeX's insertions are mapped to \HINT\ streams. @<cases to output content nodes@>= case ins_node: @<output stream content@>@; break; -@ - -Here we consider stream content and come back to stream -definitions in section~\secref{streamdef}. -In a \HINT\ stream content node the stream +@ Here we consider stream content and come back to stream +definitions in a later section. +In a \HINT\ stream content node the stream parameters |floating_penalty|, |split_max_depth|, and |split_top_skip| are optional. If omitted, the defaults from the stream definition are used. This is probably also for \TeX\ the most common situation. @@ -4107,9 +33313,9 @@ signal ``use the defaults''. n=hget_stream_no(k); HPUT8(n); link(temp_head)=null; - add_par_node(int_type,floating_penalty_code,float_cost(p)); - add_par_node(dimen_type,split_max_depth_code,depth(p)); - add_par_node(glue_type,split_top_skip_code,split_top_ptr(p)); + new_param_node(int_type,floating_penalty_code,float_cost(p)); + new_param_node(dimen_type,split_max_depth_code,depth(p)); + new_param_node(glue_type,split_top_skip_code,split_top_ptr(p)); pos=hpos-hstart; l.k=param_kind; n=hout_param_list(link(temp_head),pos,&l); @@ -4118,17 +33324,12 @@ signal ``use the defaults''. hout_list_node2(ins_ptr(p)); tag=TAG(stream_kind,i); } -@ - - -\subsection{Marks} +@*1 Marks. We currently ignore Marks. @<cases to output content nodes@>= case mark_node: hpos--; return; -@ - -\subsection{Whatsit Nodes}\label{whatsit} +@*1 Whatsit Nodes. We have added custom whatsit nodes and now we switch based on the subtype. @<cases to output content nodes@>= @@ -4136,17 +33337,15 @@ We have added custom whatsit nodes and now we switch based on the subtype. switch(subtype(p)) { @<cases to output whatsit content nodes@>@; default: - MESSAGE("\nOutput of whatsit nodes subtype=%d not implemented\n", subtype(p)); - display_node(p); - MESSAGE("End of node"); - hpos--; + if (subtype(p)>=hitex_ext) + { MESSAGE("\nOutput of whatsit nodes subtype=%d not implemented\n", subtype(p)); + } + hpos--; /* remove tag */ return; } break; -@ - -For \TeX's whatsit nodes that handle output files, no code is generated; -hence, we call |out_what| and simply remove the tag byte that is already +@ For \TeX's whatsit nodes that handle output files, no code is generated; +hence, we call |out_what| and simply remove the tag byte that is already in the output. When the \.{\\write} node arrives here, it is normaly handled in |hlist_out| or |vlist_out| in an environment determined by @@ -4162,9 +33361,7 @@ to mimic expanding inside an output routine. case write_node: case close_node: out_what(p); case special_node: hpos--; return; -@ - -\subsection{Paragraphs} +@*1 Paragraphs. When we output a paragraph node, we have to consider a special case: The parameter list is given by a reference number but the extended dimension needs an |xdimen| node. In this case the reference number for the parameter @@ -4181,21 +33378,21 @@ case graf_node: info_t i=b000; q=graf_extent(p); n=hget_xdimen_no(q); - if (n>=0) HPUT8(n); - else + if (n>=0) HPUT8(n); + else { xpos=hpos-hstart; hout_xdimen_node(p); xsize=(hpos-hstart)-xpos; i|=b100; } pos=hpos-hstart; l.k=param_kind; m=hout_param_list(graf_params(p),pos,&l); - if (m>=0) + if (m>=0) { if (i&b100) { HPUTX(1); memmove(hstart+xpos+1,hstart+xpos,xsize); hpos++; hstart[xpos]=m; } - else - HPUT8(m); + else + HPUT8(m); } else i|=b010; pos=hpos-hstart; @@ -4204,23 +33401,19 @@ case graf_node: tag=TAG(par_kind,i); } break; -@ - -\subsection{Baseline Skips} +@*1 Baseline Skips. @<cases to output whatsit content nodes@>= case baseline_node: { int n; n= baseline_node_no(p); if (n>0xFF) tag=hout_baselinespec(n); - else + else { HPUT8(n); tag=TAG(baseline_kind,b000); } } break; - @ - -\subsection{Displayed Equations} +@*1 Displayed Equations. @<cases to output whatsit content nodes@>= case disp_node: { uint32_t pos; @@ -4239,16 +33432,15 @@ case graf_node: if (display_eqno(p)!=null && !display_left(p)) { hout_node(display_eqno(p)); i|=b001; } tag=TAG(math_kind,i); - /* the |display_no_bs(p)| tells whether the baseline skip is ignored */ + /* the |display_no_bs(p)| tells whether the baseline skip is ignored */ } - break; -@ -\subsection{Extended Boxes} + break; +@*1 Extended Boxes. When we output an extended box, we have to consider a special case: the page templates. Page templates are boxes that contain insertion points. These insertion points look like regular insertions but with an empty content list. As a result the |hpack| and |vpackage| routines might belive that they can compute the dimensions of the box -conntent when in fact they can not. +conntent when in fact they can not. @<cases to output whatsit content nodes@>= @@ -4265,13 +33457,10 @@ conntent when in fact they can not. s.f=set_shrink(p)/(double)ONE; s.o=set_shrink_order(p); hput_stretch(&s); if (hout_xdimen(n)) i|=b001; - hout_list_node2(list_ptr(p)); + hout_list_node2(list_ptr(p)); tag=TAG(k,i); } break; -@ - -@<cases to output whatsit content nodes@>= case hpack_node: case vpack_node: { kind_t k= (subtype(p)==hpack_node?hpack_kind:vpack_kind); @@ -4285,9 +33474,8 @@ conntent when in fact they can not. tag=TAG(k,i); } break; -@ -\subsection{Extended Alignments} +@*1 Extended Alignments. @<cases to output whatsit content nodes@>= case align_node: { info_t i=b000; @@ -4295,13 +33483,11 @@ case align_node: if (align_v(p)) i|=b010; if (hout_xdimen(align_extent(p))) i|=b100; hout_preamble(align_preamble(p)); - hout_align_list(align_list(p),align_v(p)); + hout_align_list(align_list(p),align_v(p)); tag=TAG(table_kind,i); } -break; -@ - -In the preamble, we remove the unset nodes and retain only the list of tabskip glues. +break; +@ In the preamble, we remove the unset nodes and retain only the list of tabskip glues. @<Hi\TeX\ auxiliar routines@>= void hout_preamble(pointer p) { pointer q,r; @@ -4317,12 +33503,10 @@ void hout_preamble(pointer p) q=r; r=link(q); } - hout_list_node2(p); + hout_list_node2(p); DBG(DBGBASIC,"End Preamble\n"); } -@ - -In the |align_list| we have to convert the unset nodes back to box nodes or extended box nodes +@ In the |align_list| we have to convert the unset nodes back to box nodes or extended box nodes packaged inside an item node. When the viewer reads an item node, it will package the extended boxes to their natural size. This is the size that is needed to compute the maximum width of a column. @@ -4334,7 +33518,6 @@ static void hout_item(pointer p, uint8_t t, uint8_t s) uint8_t n; n=span_count(p)+1; DBG(DBGBASIC,"Writing Item %d/%d->%d/%d\n",type(p),n,t,s); - display_node(p); if (n==0) QUIT("Span count of item must be positive"); if (n<7) i=n; else i=7; HPUTTAG(item_kind,i); @@ -4350,7 +33533,7 @@ static void hout_item_list(pointer p, bool v) { list_t l; uint32_t pos; DBG(DBGBASIC,"Writing Item List\n"); - l.k=list_kind; + l.k=list_kind; HPUTTAG(item_kind,b000); pos=hpos-hstart; HPUTX(2); @@ -4372,10 +33555,10 @@ static void hout_item_list(pointer p, bool v) } void hout_align_list(pointer p, bool v) -{ list_t l; +{ list_t l; uint32_t pos; DBG(DBGBASIC,"Writing Align List\n"); - l.k=list_kind; + l.k=list_kind; pos=hpos-hstart; HPUTX(2); HPUT8(0); /* space for the tag */ @@ -4392,25 +33575,29 @@ void hout_align_list(pointer p, bool v) hput_tags(pos,hput_list(pos+1,&l)); DBG(DBGBASIC,"End Align List\n"); } -@ -Inside the alignment list we will find various types of unset nodes, we convert them back +@ Inside the alignment list we will find various types of unset nodes, we convert them back to regular nodes and put them inside an item node. @<cases to output content nodes@>= -case unset_node: -case unset_set_node: -case unset_pack_node: +case unset_node: +case unset_set_node: +case unset_pack_node: /* not yet implemented, fall through to the default case */ -@ +@*1 Lists. +Two functions are provided here: +|hout_list| will write a list given by the pointer |p| to the +output at the current position |hpos|. +After the list has finished, the call to |hput_list| will move the list, if necessary, +adding tag, size information, and boundary bytes +so that the final list will be at position |pos|. -\subsection{Lists} -Two functions are provided here: |hout_list| will write a list given by the pointer |p| to the -output at the current position |hpos|. After the list has finished, it will move the list, if necessary, -and add the size information so that the final list will be at position |pos|; -|hout_list_node| uses |hout_list| but adds the tags to form a complete node. +|hout_list_node| uses |hout_list| but reserves the space needed for the tag, size, and +boundary byte. +For convenience, there is also the function |hout_list_node2| which supplies a default +|pos| and |l| value to |hout_list_node|. @<Hi\TeX\ routines@>= @@ -4425,12 +33612,7 @@ static uint8_t hout_list(pointer p, uint32_t pos, list_t *l) } static void hout_list_node(pointer p, uint32_t pos, list_t *l) -/* p is a pointer to a node list, - output the node list at position pos (thats where the tag goes) - using l->k as list kind, - and set l->p and l->s. -*/ -{ +{ hpos=hstart+pos; HPUTX(3); HPUT8(0); /* space for the tag */ @@ -4447,31 +33629,24 @@ static void hout_list_node2(pointer p) l.k=list_kind; hout_list_node(p,pos,&l); } -@ - -@<Hi\TeX\ function declarations@>= +@ @<Hi\TeX\ function declarations@>= static void hout_list_node(pointer p, uint32_t pos, list_t *l); static void hout_list_node2(pointer p); static uint8_t hout_list(pointer p, uint32_t pos, list_t *l); -@ - -\subsection{Parameter Lists} +@*1 Parameter Lists. The next function is like |hout_list_node| but restricted to parameter nodes. +The parameter |p| is a pointer to a param node list. +The function either finds a reference number to a predefined parameter list + and returns the reference number, + or it outputs the node list at position pos (thats where the tag goes), + sets |l->k|, |l->p| and |l->s|, and returns $-1$. @<Hi\TeX\ routines@>= - static int hout_param_list(pointer p, uint32_t pos, list_t *l) -/* p is a pointer to a param node list, - either find a reference number to a predefined parameter list - and return the reference number or - output the node list at position pos (thats where the tag goes) - and set l->k, l->p and l->s, - and return -1; -*/ { int n; hpos=hstart+pos; - if (p==null) + if (p==null) {HPUTX(2); hpos++;hput_tags(pos,TAG(param_kind,1)); l->s=0; return -1;} HPUTX(3); HPUT8(0); /* space for the tag */ @@ -4485,19 +33660,20 @@ static int hout_param_list(pointer p, uint32_t pos, list_t *l) l->s=(hpos-hstart)-l->p; n=hget_param_list_no(l); if (n>=0) - hpos=hstart+pos; - else + hpos=hstart+pos; + else hput_tags(pos,hput_list(pos+1,l)); return n; } -@ - -@<Hi\TeX\ function declarations@>= +@ @<Hi\TeX\ function declarations@>= static int hout_param_list(pointer p, uint32_t pos, list_t *l); -@ -\subsection{Labels, Links, and Outlines} -\indent + +@*1 Labels, Links, and Outlines. +Here we provide only the code for content nodes. +The routines to put labels and outlines into the definition section +are defined in {\tt put.c}. + @<cases to output whatsit content nodes@>= case label_node: hpos--; new_label(p); return; case start_link_node: @@ -4517,12 +33693,8 @@ case end_link_node: } break; case outline_node: hpos--; new_outline(p); return; -@ - -The routines to put labels and outlines into the definition section -are defined in {\tt hput.c}. -\subsection{Images} +@*1 Images. \indent @<cases to output whatsit content nodes@>= case image_node: @@ -4537,23 +33709,19 @@ are defined in {\tt hput.c}. tag=hput_image(&i); } break; -@ - - - -\subsection{Text} +@*1 Text. The routines in this section are not yet ready. @<Hi\TeX\ routines@>= #if 0 static void hchange_text_font(internal_font_number f) -{ uint8_t g; - if (f!=hfont) +{ uint8_t g; + if (f!=hfont) { g=get_font_no(f); - if (g<8) + if (g<8) hputcc(FONT0_CHAR+g); - else + else { hputcc(FONTN_CHAR); hputcc(g); } @@ -4562,7 +33730,7 @@ static void hchange_text_font(internal_font_number f) } static void hprint_text_char(pointer p) -{ uint8_t f,c; +{ uint8_t f,c; f = font(p); c = character(p); hchange_text_font(f); @@ -4573,43 +33741,43 @@ static void hprint_text_char(pointer p) static void hprint_text_node(pointer p) { switch(type(p)) - { case hlist_node: + { case hlist_node: /* this used to be the |par_indent| case */ goto nodex; case glue_node: - if (subtype(p)>= cond_math_glue) goto nodex; - else + if (subtype(p)> cond_math_glue) goto nodex; + else { pointer q=glue_ptr(p); int i; - if (glue_equal(f_space_glue[hfont],q)) + if (glue_equal(f_space_glue[hfont],q)) { hputc(SPACE_CHAR); return; } - if (glue_equal(f_xspace_glue[hfont],q)) + if (glue_equal(f_xspace_glue[hfont],q)) { hputcc(XSPACE_CHAR); return; } if (f_1_glue[hfont]==0 && (subtype(p)-1==space_skip_code)) { pointer r=glue_par(subtype(p)-1); add_glue_ref(r); f_1_glue[hfont]=r; } - if (f_1_glue[hfont]!=0 && glue_equal(f_1_glue[hfont],q)) + if (f_1_glue[hfont]!=0 && glue_equal(f_1_glue[hfont],q)) { hputcc(GLUE1_CHAR); return; } - if (f_2_glue[hfont]==0 && (subtype(p)-1==space_skip_code || subtype(p)-1==xspace_skip_code)) + if (f_2_glue[hfont]==0 && (subtype(p)-1==space_skip_code || subtype(p)-1==xspace_skip_code)) { pointer r=glue_par(subtype(p)-1); add_glue_ref(r); f_2_glue[hfont]=r; } - if (f_2_glue[hfont]!=0 && glue_equal(f_2_glue[hfont],q)) + if (f_2_glue[hfont]!=0 && glue_equal(f_2_glue[hfont],q)) { hputcc(GLUE2_CHAR); return; } - if (f_3_glue[hfont]==0) + if (f_3_glue[hfont]==0) { f_3_glue[hfont]=q; add_glue_ref(q); } - if (f_3_glue[hfont]!=0 && glue_equal(f_3_glue[hfont],q)) + if (f_3_glue[hfont]!=0 && glue_equal(f_3_glue[hfont],q)) { hputcc(GLUE3_CHAR); return; } i = hget_glue_no(q); - if (i>=0) + if (i>=0) { hputcc(GLUEN_CHAR); hputcc(i); return; } } - break; + break; case ligature_node: { int n; pointer q; @@ -4627,9 +33795,9 @@ static void hprint_text_node(pointer p) { pointer q; q=pre_break(p); if (is_char_node(q) && link(q)==null && font(q)==hfont && character(q)== hyphen_char[hfont]) - { if (is_auto_disc(p)) hputcc(DISC1_CHAR); - else hputcc(DISC2_CHAR); - return; + { if (is_auto_disc(p)) hputcc(DISC1_CHAR); + else hputcc(DISC2_CHAR); + return; } } else if (post_break(p)==null && pre_break(p)==null && replace_count(p)==0 && !is_auto_disc(p)) @@ -4665,96 +33833,1070 @@ static void hprint_text(pointer p) } #endif -@ - +@* Hi\TeX\ Limitations. -\section{\HINT\ Limitations} -\itemize \item Kerns and glues using a width that depends on \.{\\hsize} or \.{\\vsize} are not yet supported. + \item Tables where the width of a column depends on \.{\\hsize} or \.{\\vsize} are not tested and probably not yet supported. + \item The encoding of horizontal lists as texts is not yet supported, but it would make the \HINT\ file shorter and much better to read when stretched into long \HINT\ format. -\enditemize -\appendix -\section{Source Files} -\subsection{Basic types} -To define basic types we use the file {\tt bastypes.h} from~\cite{MR:format}. +@* System-dependent changes. +This section should be replaced, if necessary, by any special +modifications of the program +that are necessary to make \TeX\ work at a particular installation. +It is usually best to design your change file so that all changes to +previous sections preserve the section numbering; then everybody's version +will be consistent with the published program. More extensive changes, +which introduce new sections, can be inserted here; then only the index +itself will get a new section number. +@^system dependencies@> + +@* \TeX\ Live Integration. +A \TeX\ engine that aspires +to become a member of the \TeX\ Live family of programs +must + +$-$ respect the \TeX\ Live conventions for command line parameters,\par +$-$ find its input files using the \.{kpathsearch} library, and\par +$-$ implement \TeX\ primitives to support +\LaTeX. + +\noindent Naturally, the functions that follow here are taken, with small +modifications, from the \TeX\ Live sources. What is +added here, or rather subtracted here, are the parts that are specific +to some of the \TeX\ engines included in \TeX\ Live. New is also +that the code is presented in literate programming style. + +The code that follows is organized in three parts. +Some code for k\TeX\ must come before +the definition of \TeX's macros because +it uses include files containing identifiers that are in conflict +with \TeX's macros. The remaining two parts are first auxiliar functions and then +those functions that are called from the ``classic'' \TeX\ code. + +@p @<k\TeX\ auxiliar functions@>@; + @<k\TeX\ functions@>@; + +@ Let's begin with the beginning: the command line. +To see how a command line is structured, we first look at the +help text that is displayed if the user asks for it (or if \TeX\ +decides that the user needs it). The help text is produced by the +function |usage_help|. +\def\SP{ }% disable visible spaces in strings. + +@<k\TeX\ auxiliar functions@>= +static void usage_help(void) +{@+@<explain the command line@>@; + @<explain the options@>@; + fprintf(stderr,"\nEmail bug reports to ruckert@@cs.hm.edu.\n"); + exit(0); +} -\subsection{Hi\TeX\ routines: \tt hitex.c} -\indent -@p -#include <stdio.h> +@ The command line commes in three slightly different versions: + +@<explain the command line@>= + fprintf(stderr,@/ + "Usage: %s [OPTION]... [TEXNAME[.tex]] [COMMANDS]\n"@/ + " or: %s [OPTION]... \\FIRST-LINE\n"@/ + " or: %s [OPTION]... &FMT ARGS\n\n",@/ + argv[0],argv[0],argv[0]);@/ + fprintf(stderr,@/ + " Run TeX on TEXNAME, creating TEXNAME.dvi.\n"@/ + " Any remaining COMMANDS are processed\n"@/ + " as TeX input after TEXNAME is read.\n"@/ + " If the first line of TEXNAME starts with %%&FMT, and FMT is\n"@/ + " an existing .fmt file, use it. Else use `NAME.fmt', where\n"@/ + " NAME is the program invocation name.\n"@/ + "\n"@/ + " Alternatively, if the first non-option argument begins\n"@/ + " with a backslash, interpret all non-option arguments as\n"@/ + " a line of TeX input.\n"@/ + "\n"@/ + " Alternatively, if the first non-option argument begins\n"@/ + " with a &, the next word is taken as the FMT to read,\n"@/ + " overriding all else. Any remaining arguments are\n"@/ + " processed as above.\n"@/ + "\n"@/ + " If no arguments or options are specified, prompt for input.\n"@/ + "\n"); + +@ Here is the list of possible options and their explanation: + +@<explain the options@>= + fprintf(stderr, + "Options:\n"@/ + " -help "@/ + @t\qquad@>"\t display this help and exit\n"@/ + " -version "@/ + @t\qquad@>"\t output version information and exit\n"@/ + " -etex "@/ + @t\qquad@>"\t enable e-TeX extensions\n"@/ + " -prote "@/ + @t\qquad@>"\t enable prote extensions\n"@/ + " -ini "@/ + @t\qquad@>"\t be initex for dumping formats; this is\n"@/ + @t\qquad@>"\t\t\t also true if the program name is `kinitex'\n"@/ + " -progname=STRING "@/ + @t\qquad@>"\t set program (and fmt) name to STRING\n"@/ + " -fmt=FMTNAME "@/ + @t\qquad@>"\t use FMTNAME instead of program name or a %%& line\n"@/ + " -output-directory=DIR "@/ + @t\qquad@>"\t use existing DIR as the directory to write files to\n"@/ + " -jobname=STRING "@/ + @t\qquad@>"\t set the TeX \\jobname to STRING\n"@/ + " [-no]-mktex=FMT "@/ + @t\qquad@>"\t disable/enable mktexFMT generation (FMT=tex/tfm/fmt/pk)\n"@/ + " -interaction=STRING "@/ + @t\qquad@>"\t set interaction mode (STRING=batchmode/\n"@/ + @t\qquad@>"\t\t\t nonstopmode/scrollmode/errorstopmode)\n"@/ + " -kpathsea-debug=NUMBER"@/ + @t\qquad@>"\t set path searching debugging flags according\n"@/ + @t\qquad@>"\t\t\t to the bits of NUMBER\n"@/ + " [-no]-parse-first-line"@/ + @t\qquad@>"\t disable/enable parsing of the first line of\n"@/ + @t\qquad@>"\t\t\t the input file\n"@/ + " [-no]-file-line-error"@/ + @t\qquad@>"\t Disable/Enable file:line:error style\n"@/ + " -cnf-line=STRING"@/ + @t\qquad@>"\t Process STRING like a line in texmf.cnf\n"@/ + " -compress "@/ + @t\qquad@>"\t enable compression of section 1 and 2\n"@/ + " [-no]-empty-page "@/ + @t\qquad@>"\t Disable/Enable empty pages\n"@/ + " -hyphenate-first-word "@/ + @t\qquad@>"\t hyphenate the first word of a paragraph\n"@/ + " -resolution=NUMBER "@/ + @t\qquad@>"\t set the resolution to NUMBER dpi\n"@/ + " -mfmode=MODE "@/ + @t\qquad@>"\t set the METAFONT mode to MODE\n"@/ +#ifdef DEBUG + " -debug=FLAGS "@/ + @t\qquad@>"\t set flags to controll hint debug output\n"@/ + " -hint-debug-help "@/ + @t\qquad@>"\t give help on hint debugging\n"@/ +#endif +); + + +@ The processing of command line options is controlled by the |long_options| +\def\SP{{\tt\char`\ }}% restore the visible space in a string +array. Each entry in this array contains first the name of the option, +then a flag that tells whether the option takes an argument or not, +then the (optional) address of a flag variable that gets set +by this option, and finally the value to store in the flag variable. + +Besides the flag variables that occur in the table, +a few string variables may be set using the options. +The following is a complete list of these variables---except +for the the |interaction| variable of \TeX. +Flag variables are initialized with |-1| to indicate an undefined value; +string variables are initialized with |NULL|. + +@<Global...@>= +static int iniversion=0; +static int etexp=0; +static int protep=0; +static int parsefirstlinep=-1; +static int filelineerrorstylep=-1; +static const char *user_progname=NULL, *output_directory=NULL, *c_job_name=NULL; +static char *dump_name=NULL;@# +int option_no_empty_page=true, option_hyphen_first=false; +int option_dpi=600; +const char *option_mfmode="ljfour", *option_dpi_str="600"; +extern int option_compress; +extern unsigned int debugflags; + +static struct option long_options[] = {@/ + { "help", 0, 0, 0 },@/ + { "version", 0, 0, 0 },@/ + { "interaction", 1, 0, 0 },@/ + { "mktex", 1, 0, 0 },@/ + { "no-mktex", 1, 0, 0 },@/ + { "kpathsea-debug", 1, 0, 0 },@/ + { "progname", 1, 0, 0 },@/ + { "fmt", 1, 0, 0 },@/ + { "output-directory", 1, 0, 0 },@/ + { "jobname", 1, 0, 0 },@/ + { "cnf-line", 1, 0, 0 },@/ + { "ini", 0, &iniversion, 1 },@/ + { "etex", 0, &etexp, 1 },@/ + { "prote", 0, &protep, 1 },@/ + { "parse-first-line", 0, &parsefirstlinep, 1 },@/ + { "no-parse-first-line", 0, &parsefirstlinep, 0 },@/ + { "file-line-error", 0, &filelineerrorstylep, 1 },@/ + { "no-file-line-error", 0, &filelineerrorstylep, 0 },@/ + { "compress", 0, &option_compress, 1 },@/ + { "no-empty-page", 0, &option_no_empty_page, 1 },@/ + { "empty-page", 0, &option_no_empty_page, 0 },@/ + { "hyphenate-first-word", 0, &option_hyphen_first, 1 },@/ + { "resolution", 1, 0, 0 },@/ + { "mfmode", 1, 0, 0 },@/ +#ifdef DEBUG + { "debug", 1, 0, 0 },@/ + { "hint-debug-help", 0, 0, 0 },@/ +#endif + { 0, 0, 0, 0 }@+}@+; + + +@ Parsing the command line options is accomplished with the +|parse_options| function which in turn uses the |getopt_long_only| +function from the \CEE/ library. This function returns 0 and sets the +|option_index| parameter to the option found, or it returns $-1$ if +the end of all options is reached. +@<k\TeX\ functions@>= +static void parse_options (int argc, char *argv[]) +{@+ while (true) { + int option_index; + int g = getopt_long_only (argc, argv, "+", long_options, &option_index); + if (g==0) + { @<handle the option at |option_index|@>@;@+ } + else if (g == -1) return; + } +} + +@ To handle the options, we compare the name at the given |option_index| with +the different option names. This is not a very efficient method, but the +impact is low and it's simple to write. + +Comparing the name of the argument with the |name| field in the |option| +structure is done in the auxiliar function |argument_is|. +Unfortunately the |name| field is in conflict with the |name| macro +defined by \TeX. To avoid the conflict, the |argument_is| function +goes just after the \.{kpathsea.h} header file that defines +the option structure. + + +@<Header files and function declarations@>= #include <kpathsea/kpathsea.h> -#include "basetypes.h" -#include "error.h" -#include "hformat.h" -#include "hput.h" -#include "htex.h" -#include "hitex.h" +static int argument_is(struct option *opt, char * s) +{@+ return STREQ(opt->name, s); @+} +#define ARGUMENT_IS(S) argument_is(long_options+option_index,S) + +@ Now we can handle the first two options: +@<handle the option at |option_index|@>= +if (ARGUMENT_IS("help")) usage_help(); +else if (ARGUMENT_IS("version")){@+ + printf("Version 0.0\n"); + exit(0);@+ +} -/* from ktex.ch */ -@<Hi\TeX\ macros@>@; -@<Hi\TeX\ variables@>@; -@<Hi\TeX\ function declarations@>@; +@ The ``interaction'' option sets \TeX's |interaction| variable +based on its string argument contained in the |optarg| variable. -@<Hi\TeX\ auxiliar routines@>@; +@<handle the option at |option_index|@>= +else @+if (ARGUMENT_IS ("interaction"))@t\2@> { + if (STREQ (optarg, "batchmode")) interaction = batch_mode; + else if (STREQ (optarg, "nonstopmode")) interaction = nonstop_mode; + else if (STREQ (optarg, "scrollmode")) interaction = scroll_mode; + else if (STREQ (optarg, "errorstopmode")) interaction = error_stop_mode; + else WARNING1 ("Ignoring unknown argument `%s' to --interaction", optarg); + } -@<Hi\TeX\ routines@>@; +@ The next two options pass the string argument to the +\.{kpathsearch} library. + +@<handle the option at |option_index|@>= +else @+if (ARGUMENT_IS ("mktex")) @t\2@> kpse_maketex_option (optarg, true); +else if (ARGUMENT_IS ("no-mktex")) kpse_maketex_option (optarg, false); + + +@ To debug the searching done by the \.{kpathsearch} library, +the following otion can be used. +The argument value 3 is a good choice to start with. + +@<handle the option at |option_index|@>= +else @+if (ARGUMENT_IS ("kpathsea-debug")) @t\2@> + kpathsea_debug |= atoi (optarg); + + +@ The remaining options either set a flag and are handled by +the |getopt_long_only| function or they take a string argument +and assign it to the corresponding string variable. + +@<handle the option at |option_index|@>= +else @+if (ARGUMENT_IS ("progname"))@t\2@> + user_progname = normalize_quotes(optarg,"program name"); +else if (ARGUMENT_IS ("fmt")) + dump_name = normalize_quotes(optarg,"format name"); +else if (ARGUMENT_IS ("output-directory")) + output_directory = normalize_quotes(optarg,"output directory"); +else if (ARGUMENT_IS ("jobname")) + c_job_name = normalize_quotes (optarg, "job name"); +else @+if (ARGUMENT_IS ("cnf-line")) + add_cnf_line(optarg);@t\2@> +else if (ARGUMENT_IS("resolution")) @t\2@> +{ option_dpi_str=optarg; + option_dpi=strtol(option_dpi_str,NULL,10); +} +else if (ARGUMENT_IS("mfmode")) + option_mfmode=optarg; +#ifdef DEBUG@t\1@> +else @+if (ARGUMENT_IS("debug")) + debugflags=strtol(optarg,NULL,16); +else @+if (ARGUMENT_IS("hint-debug-help")) + hint_debug_help(); +#endif -@ +@ When string arguments specify files or directories, +special care is needed if arguments are quoted and/or contain spaces. +The function |normalize_quotes| makes shure that arguments containing +spaces get quotes around them and it checks for unballanced quotes. + + +@<k\TeX\ auxiliar functions@>= +static char *normalize_quotes (const char *nom, const char *mesg) +{@+ int quoted = false; + int must_quote = (strchr(nom, ' ') != NULL); + char *ret = xmalloc(strlen(nom)+3);/*room for two quotes and NUL*/ + char *p=ret; + const char *q; + + if (must_quote) + *p++ = '"'; + for (q = nom; *q; q++) + if (*q == '"') + quoted = !quoted;@+ + else + *p++ = *q; + + if (must_quote) + *p++ = '"'; + *p = '\0'; + if (quoted) { + fprintf(stderr, "! Unbalanced quotes in %s %s\n", mesg, nom); + exit(1); + } + return ret; +} +@ With the \.{-cnf-line} option it is possible to specify +a line of text as if this line were part of \TeX's configuration +file---even taking precedence over conflicting lines in the configuration +file. For example it is possible to change \TeX's +\.{TEXINPUTS} variable by saying \.{--cnf-line=TEXINPUTS=/foo}. +The configuration lines are temporarily stored in the variable +|cnf_lines| and counted in |cnf_count| because we can send them +to the \.{kpathsearch} library only after the library has been +initialized sufficiently. + +@<Global...@>= +char **cnf_lines=NULL; +int cnf_count=0; + +@ The function |add_cnf_line| stores the +given command line argument in the variable |cnf_lines|. + +@<k\TeX\ auxiliar functions@>= +static void add_cnf_line(char *arg) +{@+ cnf_count++; + cnf_lines=xrealloc(cnf_lines,sizeof(char*)*cnf_count); + cnf_lines[cnf_count-1]=arg; +} -\subsection{Hi\TeX\ prototypes: \tt hitex.h} -@(hitex.h@>= -extern void hint_open(void); -extern void hint_close(void);@# - -extern pointer new_xdimen(scaled w, scaled h, scaled v); -extern void hget_image_information(pointer p); -extern pointer new_baseline_node(pointer bs, pointer ls, scaled lsl); -extern pointer new_set_node(void); -extern void hline_break(int final_widow_penalty); -extern pointer new_disp_node(void); -extern void add_par_node(eight_bits t, eight_bits n, int v); -extern pointer new_image_node(str_number n, char *a, char *e); -extern pointer new_setpage_node(eight_bits k, str_number n); -extern int hget_stream_no(int i); -extern pointer new_setstream_node(eight_bits n); -extern void hfinish_stream_group(void); -extern void hfinish_page_group(void); -extern void hfinish_stream_before_group(void); -extern void hfinish_stream_after_group(void); -extern void hfinish_outline_group(void); -extern void execute_output(pointer p); -extern void hint_debug_help(void); -@ +@ To activate the configuration lines they are passed to the + \.{kpathsearch} library. -\crosssections +@<activate configuration lines@>= +#if 0 /* this function does not exists allways */ +{@+ int i; + for (i=0;i<cnf_count;i++) + kpathsea_cnf_line_env_progname (kpse_def, cnf_lines[i]); + free(cnf_lines); +} +#endif -\plainsection{References} +@ After we are done with the options, +we inform the \.{kpathsearch} library about the program name. +This is an important piece of information for the library +because the library serves quite different programs +and its behaviour can be customized for each program +using configuration files. +After the program and engine name is set, +the library is ready to use. +@<set the program and engine name@>= +if (!user_progname) + user_progname = dump_name; +#if defined(WIN32) + if (user_progname) + kpse_reset_program_name (user_progname); +#else + kpse_set_program_name (argv[0], user_progname); +#endif + xputenv ("engine", "hitex");@/ + + +@ After the options, the command line usually continues with the name of the input +file. Getting a hold of the input file name can be quite complicated, +and we will have the first opportunity to use the \.{kpathsearch} library. + +We start by looking at the first argument after the options: +If it does not start with an +``\.{\AM}'' and neither with a ``\.{\BS}'', it's a simple file name. +Under Windows, however, filenames might start with a drive letter +followed by a colon and a ``\.{\BS}'' which is used to separate +directory names. Finally, if the filename is a quoted string, we need +to remove the quotes before we use the \.{kpathsearch} library to find it +and reattach the quotes afterwards. + +@<k\TeX\ auxiliar functions@>= +#ifdef WIN32 +static void clean_windows_filename(char *filename) +{@+if (strlen (filename) > 2 && isalpha (filename[0]) && + filename[1] == ':' && filename[2] == '\\') + { char *pp; + for (pp = filename; *pp; pp++) + if (*pp == '\\') + *pp = '/'; + } +} +#endif -{\baselineskip=11pt -\def\bfblrm{\small\rm}% -\def\bblem{\small\it}% -\bibliography{../hint} -\bibliographystyle{plain} +static char *find_file(char *fname, kpse_file_format_type t, int mx) +{@+char *filename; + int final_quote=(int)strlen(fname)-1; + int quoted = final_quote>1 && fname[0] == '"' && fname[final_quote]=='"'; + if (quoted) { + /* Overwrite last quote and skip first quote. */ + fname[final_quote] = '\0'; + fname++; + } + filename = kpse_find_file(fname, t, mx); + if (quoted) { + /* Undo modifications */ + fname--; + fname[final_quote] = '"'; + } + return filename; +} + +static char *get_input_file_name (void) +{@+ + char *input_file_name = NULL; + + if (argv[optind] && argv[optind][0] != '&' && argv[optind][0] != '\\') + { +#ifdef WIN32 + clean_windows_filename(argv[optind]); +#endif + argv[optind] = normalize_quotes(argv[optind], "input file"); + input_file_name=find_file(argv[optind],kpse_tex_format, false); + } + return input_file_name; +} + + +@ After we called |get_input_file_name|, we might need to look at |argv[argc-1]| +in case we run under Windows. + +@<set the input file name@>= + main_input_file = get_input_file_name (); + +#ifdef WIN32 + /* Were we given a simple filename? */ + if (main_input_file == NULL) { + char *file_name=argv[argc-1]; + if (file_name && file_name[0] != '-' && file_name[0] != '&' && file_name[0] != '\\') { + clean_windows_filename(file_name); + file_name = normalize_quotes(file_name, "argument"); + main_input_file=find_file(file_name,kpse_tex_format, false); + argv[argc-1] = file_name; + } + } +#endif + + +@ After we have an input file, we make an attempt at filling in options +from the {\tt texmf.cfg} file. + +@<set defaults from the {\tt texmf.cfg} file@>= + if (filelineerrorstylep < 0) + filelineerrorstylep = texmf_yesno ("file_line_error_style"); + if (parsefirstlinep < 0) + parsefirstlinep = texmf_yesno ("parse_first_line");@/@t~@> + +@ We needed: +@<k\TeX\ auxiliar functions@>= +static int texmf_yesno(const char *var) +{@+ + char *value = kpse_var_value (var); + return value && (*value == 't' || *value == 'y' || *value == '1'); +} + +@ We need a stack, matching the |line_stack| that +contains the source file names; +we postpone k\TeX\'s |full_source_filename_stack| to a later time. + +@<Global...@>= +int @!source_filename_stack0[max_in_open], *const @!source_filename_stack = @!source_filename_stack0-1; + +@ The function |print_file_line| +prints ``file:line:error'' style messages. It looks for a +filename in |source_filename_stack|, and if it fails to find +one falls back on the ``non-file:line:error'' style. + +@<Basic printing...@>= +static void print_file_line(void) +{@+int level=in_open; + while (level>0 && source_filename_stack[level]==0) level--; + if (level==0) print_nl("! "); + else + { print_nl(""); printn(source_filename_stack[level]); print_char(':'); + if (level==in_open) print_int(line); + else print_int(line_stack[level]); + print(": "); + } +} + +@ Most of the time \TeX\ is not running as \.{initex} or \.{virtex}, +but it runs with a format file preloaded. +To set the format name, we first check if the format name was given on the +command line with an ``\.{\AM}'' prefix, +second we might check the first line of the input file, +and last, we check if the program is an initex or virtex program. + +If we still don't have a format, +we use a plain format if running as a virtex, otherwise the program +name is our best guess. +There is no need to check for an extension, because the +\.{kpathsearch} library will take care of that. +We store the format file name in |dump_name| which is +used in the function |w_open_in| below. + +@<set the format name@>= +if (parsefirstlinep && !dump_name) + parse_first_line (main_input_file); +if (!main_input_file && argv[1] && argv[1][0] == '&') + dump_name = argv[1] + 1; +if (strcmp(kpse_program_name, "hinitex")==0) iniversion = true; +else if (strcmp(kpse_program_name, "hvirtex")==0 && !dump_name) + dump_name = "hitex"; +if (!dump_name) + dump_name = kpse_program_name; +if (!dump_name) +{ fprintf(stderr,"Unable to determine format name\n"); + exit(1); +} +if (etexp && !iniversion) +{ fprintf(stderr,"-etex requires -ini\n"); + exit(1); +} +if (protep && !etexp ) +{ fprintf(stderr,"-prote requires -etex\n"); + exit(1); +} + +@ Here is the function |parse_first_line |. It searches the first line of +the file for a \TeX\ comment of the form ``\%\AM format''\footnote{${}^1$}{The idea of using this format came from Wlodzimierz Bzyl.}. +If found, we will use the format given there. + +@<k\TeX\ functions@>= +static void parse_first_line (char*filename) +{@+ FILE *f=NULL; + if (filename==NULL) return; + f = open_in(filename,kpse_tex_format,"r"); + if (f!=NULL) + { char *r,*s,*t=read_line (f); + xfclose (f, filename); + if (t==NULL) return; + s=t; + if (s[0] == '%' && s[1] == '&') { + s = s+2; + while ( ISBLANK(*s)) ++s; + r=s; + while (*s!=0 && *s!=' ' && *s!='\r' && *s!='\n') s++; + *s=0; + if (dump_name==NULL) { + char *f_name = concat (r, ".fmt"); + char *d_name = kpse_find_file (f_name,kpse_fmt_format, false); + if (d_name && kpse_readable_file (d_name)) { + dump_name = xstrdup (r); + kpse_reset_program_name (dump_name); + } + free (f_name); + } + } + free (t); + } +} + + +@ The \TeX\ Live infrastructure is able to generate format files, +font metric files, +and even some tex files, if required. + +@<enable the generation of input files@>= + kpse_set_program_enabled (kpse_tfm_format, MAKE_TEX_TFM_BY_DEFAULT, + kpse_src_compile);@/ + kpse_set_program_enabled (kpse_tex_format, MAKE_TEX_TEX_BY_DEFAULT, + kpse_src_compile);@/ + kpse_set_program_enabled (kpse_fmt_format, MAKE_TEX_FMT_BY_DEFAULT, + kpse_src_compile);@/ + kpse_set_program_enabled (kpse_pk_format, MAKE_TEX_PK_BY_DEFAULT, + kpse_src_compile);@/ + xputenv("MAKETEX_BASE_DPI", option_dpi_str); + xputenv("MAKETEX_MODE", option_mfmode); + + +@ In the old days, \TeX\ was a \PASCAL\ program, and standard \PASCAL\ +did say nothing about a command line. So \TeX\ would open the terminal +file for input and read all the information from the terminal. +If you don't give \TeX\ command line arguments, this is still true today. +In our present time, people got so much used to control the behaviour +of a program using command line arguments---especially when writing +scripts---that k\TeX\ allows the specification of commands on +the command line which \TeX\ would normally expect on +the first line of its terminal input. + +So our next task is +writing a function to add the remainder of the +command line to \TeX's input buffer. +The main job is done by the |input_add_str| function +which duplicates part of the |input_ln| function. +Further it skips initial spaces and replaces trailing spaces +and line endings by a single space. + +@<k\TeX\ auxiliar functions@>= +static void input_add_char(unsigned int c) +{@+ if (last >= max_buf_stack) + {@+max_buf_stack=last+1; + if (max_buf_stack==buf_size) + @<Report overflow of the input buffer, and abort@>; + } + buffer[last]=xord[c];incr(last); +} + +static void input_add_str(const char *str) +{@+ int prev_last; + while (*str==' ') str++; + prev_last=last; + while (*str!=0) + +input_add_char(*str++); + for (--last; last >= first ; --last) + { char c =buffer[last]; + if ((c) != ' ' && (c) != '\r' && (c) != '\n') break; + } + last++; + if (last>prev_last) input_add_char(' '); +} + +static int input_command_line(void) +{@+ +last=first; +while (optind < argc) input_add_str(argv[optind++]); +loc=first; +return (loc < last); +@+ } + + + +@ When we open an output file, there is usually no searching necessary. +In the best case, we have an absolute path and can open it. +If the path is relative, we try in this order: +the |file_name| prefixed by the |output_directory|, +the |file_name| as is, and +the |file_name| prefixed with the environment variable |TEXMFOUTPUT|. + +If we were successful with one of the modified names, we update +|name_of_file|. + +@<k\TeX\ functions@>= +static FILE *open_out(const char *file_name, const char *file_mode) +{@+ FILE *f=NULL; + char *new_name=NULL; + int absolute = kpse_absolute_p(file_name, false); + if (absolute) + return fopen(file_name,file_mode); + if (output_directory) + { new_name = concat3(output_directory, DIR_SEP_STRING, file_name); + f = fopen(new_name,file_mode); + if (f==NULL) {@+ free(new_name); new_name=NULL;@+} + } + if (f==NULL) + f = fopen(file_name,file_mode); + if (f==NULL) + { const char *texmfoutput = kpse_var_value("TEXMFOUTPUT"); + if (texmfoutput!=NULL && texmfoutput[0]!=0) + { new_name = concat3(texmfoutput, DIR_SEP_STRING, file_name);@/ + f = fopen(new_name,file_mode); + if (f==NULL) {@+ free(new_name); new_name=NULL; @+} + } + } + if (f!=NULL && new_name!=NULL) + update_name_of_file(new_name,(int)strlen(new_name)); + if (new_name!=NULL) free(new_name); + return f; +} + +@ Format file names must be scanned +before \TeX's string mechanism has been initialized. +The function |update_name_of_file| will set |name_of_file| from +a \CEE/ string. + +We dare not give error messages here, since \TeX\ calls this routine before +the |error| routine is ready to roll. Instead, we simply drop excess characters, +since the error will be detected in another way when a strange file name +isn't found. +@^system dependencies@> + +@<k\TeX\ auxiliar functions@>= +static void update_name_of_file(char *@!s, int @!k) +{@+ int j; + if (k <= file_name_size) name_length=k;@+ + else name_length=file_name_size; + for (j=0; j<name_length;j++) name_of_file[j+1]=xchr[(int)s[j]]; + name_of_file[name_length+1]=0; +} + +@ In standard \TeX, the |reset| macro is used to open input files. +The \.{kpathsearch} library uses different search pathes for +different types of files and therefore different functions are needed to +open these files. The common code is in the function |open_in|. + + +@<k\TeX\ auxiliar functions@>= +static FILE*open_in(char*filename,kpse_file_format_type t,const char*rwb) +{@+ char *fname=NULL; + FILE*f= NULL; + fname= find_file(filename,t,true); + if(fname!=NULL) + {@+ + f= fopen(fname,rwb); + free(fname);@+ + } + return f; +} + +@ \TeX's |open_fmt_file| function will call the following function +either with the name of a format file as given with an ``\.{\AM}'' +prefix in the input or with |NULL| if no such name was specified. +The function will try |dump_name| as a last resort before returning |NULL|. + + + +@<k\TeX\ functions@>= +static bool open_fmt_file(void) +{@+int j=loc; + if (buffer[loc]=='&') + {@+incr(loc);j=loc;buffer[last]=' '; + while (buffer[j]!=' ') incr(j); + update_name_of_file((char *)buffer+loc,j-loc); + if (w_open_in(&fmt_file)) goto found; + } + update_name_of_file(dump_name,(int)strlen(dump_name)); + if (w_open_in(&fmt_file)) goto found; + name_of_file[1]=0; + wake_up_terminal; + wterm_ln("I can't find a format file!"); + return false; +found: loc=j;return true; +} + + + +@ All the code that we have seen so far commes together in the function |main_init| +which is the first function called in the main program of a \TeX\ engine +belonging to \TeX\ Live. Before doing so, we make copies of +argument count and argument vector putting them in global variables. +@<Global...@>= +static char **argv; +static int argc; + +@ @<k\TeX\ functions@>= +static void main_init(int ac, char *av[]) +{@+ + char* main_input_file; + argc = ac; + argv = av; + interaction = error_stop_mode;@/ + @<parse options@>@; + @<set the program and engine name@>@; + @<activate configuration lines@>@; + @<set the input file name@>@; + @<set defaults from the {\tt texmf.cfg} file@>@; + @<set the format name@>@; + @<enable the generation of input files@>@; } -\plainsection{Index} + +@ Before we can call the |parse_options| function, +we might need some special preparations for Windows. + +@<parse options@>= +#if defined(WIN32) +{@+ char* enc; + kpse_set_program_name (argv[0], NULL); + enc = kpse_var_value("command_line_encoding"); + get_command_line_args_utf8(enc, &argc, &argv);@/ + parse_options (argc, argv); +} +#else + parse_options (ac, av); +#endif + +@ Adding prototypes for the functions just defined allows \TeX\ +to call them. + +@<Header files and function declarations@>= + +static int input_command_line(void); +static void main_init(int ac, char *av[]); + +@ We conclude this chapter using \.{time.h} to provide a function +that is used to initialize +\TeX's date and time information. Because |time| is one of \TeX's +macros, we add the function |tl_now| that wraps the call to |time| +(and |gmtime|) for later use in |fix_date_and_time|. + +To support \LaTeX, two environment variables need to be checked: +If |SOURCE_DATE_EPOCH| is set, it is used as the current time in +seconds since January 1, 1970 (UTC). +If |FORCE_SOURCE_DATE| is set to $1$ also \TeX's primitives +\.{\\year}, \.{\\month}, \.{\\day}, and \.{\\time} use this value +as the current time. This feature is usefull to make reproducible +builds of documents. + +@<Header files and function declarations@>= +#include <time.h> +static time_t start_time = ((time_t)-1); +static char *source_date_epoch,*force_source_date; + +static struct tm *tl_now(void) +{@+struct tm *gmt; + time_t t; + source_date_epoch= getenv("SOURCE_DATE_EPOCH"); + if (source_date_epoch!=NULL) + { start_time= (time_t)strtoull(source_date_epoch, NULL, 10); + force_source_date= getenv ("FORCE_SOURCE_DATE"); + if (force_source_date!=NULL && + force_source_date[0]=='1' && force_source_date[1]==0) + t=start_time; + else + t=time(NULL); + } + else + t=start_time=time(NULL); + gmt=gmtime(&t); + return gmt; +} + +@ To support \LaTeX, a few more time related functions are needed. +@<Header files and function declarations@>= +#define TIME_STR_SIZE 30 +static char time_str[TIME_STR_SIZE]; +static void get_creation_date(void); +static void get_file_mod_date(void); +static int get_file_size(void); + +#include <md5.h> +#define DIGEST_SIZE 16 +#define FILE_BUF_SIZE 1024 +static md5_byte_t md5_digest[DIGEST_SIZE]; + +static int get_md5_sum(int s, int file); + +@ The code that follows was taken from the \.{texmfmp.c} file of +the \TeX\ Live distribution and slightly modified. + + +@<k\TeX\ auxiliar functions@>= + +static void +make_time_str(time_t t, bool utc) { -\def\_{{\tt \UL}} % underline in a string -\catcode`\_=\active \let_=\_ % underline is a letter -\input hitex.ind + struct tm lt, gmt; + size_t size; + int off, off_hours, off_mins; + + /* get the time */ + if (utc) { + lt = *gmtime(&t); + } + else { + lt = *localtime(&t); + } + size = strftime(time_str, TIME_STR_SIZE, "D:%Y%m%d%H%M%S", <); + /* expected format: |"YYYYmmddHHMMSS"| */ + if (size == 0) { + /* unexpected, contents of |time_str| is undefined */ + time_str[0] = '\0'; + return; + } + + /* correction for seconds: S can be in range 00 to 61, + the PDF reference expects 00 to59, + therefore we map |"60"| and |"61"| to |"59"| */ + if (time_str[14] == '6') { + time_str[14] = '5'; + time_str[15] = '9'; + time_str[16] = '\0'; /* for safety */ + } + + /* get the time zone offset */ + gmt = *gmtime(&t); + + /* this calculation method was found in exim's tod.c */ + off = 60 * (lt.tm_hour - gmt.tm_hour) + lt.tm_min - gmt.tm_min; + if (lt.tm_year != gmt.tm_year) { + off += (lt.tm_year > gmt.tm_year) ? 1440 : -1440; + } else if (lt.tm_yday != gmt.tm_yday) { + off += (lt.tm_yday > gmt.tm_yday) ? 1440 : -1440; + } + + if (off == 0) { + time_str[size++] = 'Z'; + time_str[size] = 0; + } else { + off_hours = off / 60; + off_mins = abs(off - off_hours * 60); + snprintf(&time_str[size], 9, "%+03d'%02d'", off_hours, off_mins); + } +} + +static void get_creation_date(void) +{ make_time_str(start_time,source_date_epoch!=NULL); +} + +/* static structure for file status set by |find_input_file| */ +#ifdef WIN32 +static struct _stat file_stat; +#define GET_FILE_STAT _stat(fname,&file_stat) +#else +static struct stat file_stat; +#define GET_FILE_STAT stat(fname,&file_stat) +#endif + + +static char* find_input_file(void) +{ char *fname; + int r; + if (output_directory&&!kpse_absolute_p((char*)name_of_file0, false)) + { int r=-1; + fname = concat3(output_directory, DIR_SEP_STRING, (char*)name_of_file0); + r=GET_FILE_STAT; + if (r==0) + return fname; + free(fname); + } + fname = kpse_find_tex((char*)name_of_file0); + if (fname!=NULL) + { r=GET_FILE_STAT; + if (r==0) + return fname; + free(fname); + } + fname=(char*)name_of_file0; + r=GET_FILE_STAT; + if (r==0) + return strdup(fname); + return NULL; +} + + +static void get_file_mod_date(void) +{ char *fname=NULL; + fname= find_input_file(); + time_str[0]=0; + if(fname!=NULL) + { make_time_str(file_stat.st_mtime,source_date_epoch!=NULL && force_source_date!=NULL); + free(fname);@+ + } +} + +static int get_file_size(void) +{ int s=-1; + char *fname=NULL; + fname= find_input_file(); + if(fname!=NULL) + {s=file_stat.st_size; + free(fname);@+ + } + return s; +} + + +static int get_md5_sum(int s, int file) +{ md5_state_t st; + memset(md5_digest,0,DIGEST_SIZE); + if (file) + { char *fname; + pack_file_name(s,"",""); + fname= find_input_file(); + if(fname!=NULL) + { FILE *f; + f = fopen(fname, "rb"); + if (f != NULL) + { int r; + char file_buf[FILE_BUF_SIZE]; + md5_init(&st); + while ((r = fread(&file_buf, 1, FILE_BUF_SIZE, f)) > 0) + md5_append(&st, (const md5_byte_t *) file_buf, r); + md5_finish(&st, md5_digest); + fclose(f); + } + free(fname); + } + else + return 0; + } + else + { md5_init(&st); + md5_append(&st,(md5_byte_t *)&str_pool[str_start[s]], + str_start[s + 1] - str_start[s]); + md5_finish(&st, md5_digest); + } + return DIGEST_SIZE; } - \write\cont{} % ensure that the contents file isn't empty -% \write\cont{\catcode `\noexpand\@=12\relax} % \makeatother - \closeout\cont% the contents information has been fully gathered + +@ Following the implemenentation of other engines, +the new engine returns a version number as an integer +extending the cases for |last_item|. + +@d HiTeX_version 1 +@d HiTeX_revision 0 +@d HiTeX_version_code (eTeX_last_last_item_cmd_mod+7) /* \.{\\HiTeXversion} */ +@d HiTeX_revision_code (eTeX_last_last_item_cmd_mod+8) /* \.{\\HiTeXrevision} */ + +@<Generate all \Prote\ primitives@>= +primitive("HiTeXversion", last_item, HiTeX_version_code); +@!@:Hi\TeX\_version\_}{\.{\\HiTeXversion} primitive@> +primitive("HiTeXrevision", last_item, HiTeX_revision_code); +@!@:HiTeX\_revision\_}{\.{\\HiTeXrevision} primitive@> + +@ Now this new primitive needs its implementation + +@<Cases of |last_item| for |print_cmd_chr|@>= +case HiTeX_version_code: print_esc("HiTeXversion");@+break; +case HiTeX_revision_code: print_esc("HiTeXrevision");@+break; + +@ @<Cases for fetching a \Prote\ int value@>= +case HiTeX_version_code: cur_val=HiTeX_version;@+break; +case HiTeX_revision_code: cur_val=HiTeX_revision;@+break; + + + +@* Index. +Here is where you can find all uses of each identifier in the program, +with underlined entries pointing to where the identifier was defined. +If the identifier is only one letter long, however, you get to see only +the underlined entries. {\sl All references are to section numbers instead of +page numbers.} + +This index also lists error messages and other aspects of the program +that you might want to look up some day. For example, the entry +for ``system dependencies'' lists all sections that should receive +special attention from people who are installing \TeX\ in a new +operating environment. A list of various things that can't happen appears +under ``this can't happen''. Approximately 40 sections are listed under +``inner loop''; these account for about 60\pct! of \TeX's running time, +exclusive of input and output. diff --git a/Build/source/texk/web2c/hitexdir/htex.w b/Build/source/texk/web2c/hitexdir/htex.w deleted file mode 100644 index 252179780ac..00000000000 --- a/Build/source/texk/web2c/hitexdir/htex.w +++ /dev/null @@ -1,29213 +0,0 @@ -% This file is part of HINT -% Copyright 2017-2021 Martin Ruckert, Hochschule Muenchen, Lothstrasse 64, 80336 Muenchen -% -% Permission is hereby granted, free of charge, to any person obtaining a copy -% of this software and associated documentation files (the "Software"), to deal -% in the Software without restriction, including without limitation the rights -% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -% copies of the Software, and to permit persons to whom the Software is -% furnished to do so, subject to the following conditions: -% -% The above copyright notice and this permission notice shall be -% included in all copies or substantial portions of the Software. -% -% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -% COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, -% WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT -% OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -% THE SOFTWARE. -% -% Except as contained in this notice, the name of the copyright holders shall -% not be used in advertising or otherwise to promote the sale, use or other -% dealings in this Software without prior written authorization from the -% copyright holders. - -% The HINT program is derived from Donald E. Knuth's TeX and the -% subsequent e-TeX extension of TeX. - -% e-TeX is copyright (C) 1999-2012 by P. Breitenlohner (1994,98 by the NTS -% team); all rights are reserved. Copying of this file is authorized only if -% (1) you are P. Breitenlohner, or if (2) you make absolutely no changes to -% your copy. (Programs such as TIE allow the application of several change -% files to tex.web; the master files tex.web and etex.ch should stay intact.) - -% See etex_gen.tex for hints on how to install this program. -% And see etripman.tex for details about how to validate it. - -% This program is directly derived from Donald E. Knuth's TeX; -% the change history which follows and the reward offered for finders of -% bugs refer specifically to TeX; they should not be taken as referring -% to e-TeX, although the change history is relevant in that it -% demonstrates the evolutionary path followed. This program is not TeX; -% that name is reserved strictly for the program which is the creation -% and sole responsibility of Professor Knuth. - -% Version 0 was released in September 1982 after it passed a variety of tests. -% Version 1 was released in November 1983 after thorough testing. -% Version 1.1 fixed ``disappearing font identifiers'' et alia (July 1984). -% Version 1.2 allowed `0' in response to an error, et alia (October 1984). -% Version 1.3 made memory allocation more flexible and local (November 1984). -% Version 1.4 fixed accents right after line breaks, et alia (April 1985). -% Version 1.5 fixed \the\toks after other expansion in \edefs (August 1985). -% Version 2.0 (almost identical to 1.5) corresponds to "Volume B" (April 1986). -% Version 2.1 corrected anomalies in discretionary breaks (January 1987). -% Version 2.2 corrected "(Please type...)" with null \endlinechar (April 1987). -% Version 2.3 avoided incomplete page in premature termination (August 1987). -% Version 2.4 fixed \noaligned rules in indented displays (August 1987). -% Version 2.5 saved cur_order when expanding tokens (September 1987). -% Version 2.6 added 10sp slop when shipping leaders (November 1987). -% Version 2.7 improved rounding of negative-width characters (November 1987). -% Version 2.8 fixed weird bug if no \patterns are used (December 1987). -% Version 2.9 made \csname\endcsname's "relax" local (December 1987). -% Version 2.91 fixed \outer\def\a0{}\a\a bug (April 1988). -% Version 2.92 fixed \patterns, also file names with complex macros (May 1988). -% Version 2.93 fixed negative halving in allocator when mem_min<0 (June 1988). -% Version 2.94 kept open_log_file from calling fatal_error (November 1988). -% Version 2.95 solved that problem a better way (December 1988). -% Version 2.96 corrected bug in "Infinite shrinkage" recovery (January 1989). -% Version 2.97 corrected blunder in creating 2.95 (February 1989). -% Version 2.98 omitted save_for_after at outer level (March 1989). -% Version 2.99 caught $$\begingroup\halign..$$ (June 1989). -% Version 2.991 caught .5\ifdim.6... (June 1989). -% Version 2.992 introduced major changes for 8-bit extensions (September 1989). -% Version 2.993 fixed a save_stack synchronization bug et alia (December 1989). -% Version 3.0 fixed unusual displays; was more \output robust (March 1990). -% Version 3.1 fixed nullfont, disabled \write{\the\prevgraf} (September 1990). -% Version 3.14 fixed unprintable font names and corrected typos (March 1991). -% Version 3.141 more of same; reconstituted ligatures better (March 1992). -% Version 3.1415 preserved nonexplicit kerns, tidied up (February 1993). -% Version 3.14159 allowed fontmemsize to change; bulletproofing (March 1995). -% Version 3.141592 fixed \xleaders, glueset, weird alignments (December 2002). -% Version 3.1415926 was a general cleanup with minor fixes (February 2008). -% Version 3.14159265 was similar (January 2014). -% Version 3.141592653 was similar but more extensive (January 2021). - -% A reward of $327.68 will be paid to the first finder of any remaining bug. - -% A preliminary version of TeX--XeT was released in April 1992. -% TeX--XeT version 1.0 was released in June 1992, -% version 1.1 prevented arith overflow in glue computation (Oct 1992). -% A preliminary e-TeX version 0.95 was operational in March 1994. -% Version 1.0beta was released in May 1995. -% Version 1.01beta fixed bugs in just_copy and every_eof (December 1995). -% Version 1.02beta allowed 256 mark classes (March 1996). -% Version 1.1 changed \group{type,level} -> \currentgroup{type,level}, -% first public release (October 1996). -% Version 2.0 development was started in March 1997; -% fixed a ligature-\beginR bug in January 1998; -% was released in March 1998. -% Version 2.1 fixed a \marks bug (when min_halfword<>0) (January 1999). -% Version 2.2 development was started in Feb 2003; released in Oct 2004. -% fixed a bug in sparse array handling (0=>null), Jun 2002; -% fixed a bug in \lastnodetype (cur_val=>cur_val_level) -% reported by Hartmut Henkel <hartmut_henkel@@gmx.de>, -% fix by Fabrice Popineau <Fabrice.Popineau@@supelec.fr>, -% Jan 2004; -% another bug in sparse array handling (cur_ptr=>cur_chr) -% reported by Taco Hoekwater <taco@@elvenkind.com>, Jul 2004; -% fixed a sparse array reference count bug (\let,\futurelet), -% fix by Bernd Raichle <berd@@dante.de>, Aug 2004; -% reorganized handling of banner, additional token list and -% integer parameters, and similar in order to reduce the -% interference between eTeX, pdfTeX, and web2c change files. -% adapted to tex.web 3.141592, revised glue rounding for mixed -% direction typesetting; -% fixed a bug in the revised glue rounding code, detected by -% Tigran Aivazian <tigran@@aivazian.fsnet.co.uk>, Oct 2004. -% Version 2.3 development was started in Feb 2008; released in Apr 2011. -% fixed a bug in hyph_code handling (\savinghyphcodes) -% reported by Vladimir Volovich <vvv@@vsu.ru>, Feb 2008. -% fixed the error messages for improper use of \protected, -% reported by Heiko Oberdiek -% <heiko.oberdiek@@googlemail.com>, May 2010. -% some rearrangements to reduce interferences between -% e-TeX and pTeX, in part suggested by Hironori Kitagawa -% <h_kitagawa2001@@yahoo.co.jp>, Mar 2011. -% Version 2.4 fixed an uninitialized line number bug, released in May 2012. -% Version 2.5 development was started in Aug 2012; released in Feb 2013. -% better tracing of font definitions, reported by -% Bruno Le Floch <blflatex@@gmail.com>, Jul 2012. -% Version 2.6 development was started in Mar 2013; released in ??? 201?. -% enable hyphenation of text between \beginL and \endL or -% between \beginR and \endR, problem reported by -% Vafa Khalighi <vafalgk@@gmail.com>, Nov 2013. -% better handling of right-to-left text -- to be done. - -% Although considerable effort has been expended to make the e-TeX program -% correct and reliable, no warranty is implied; the author disclaims any -% obligation or liability for damages, including but not limited to -% special, indirect, or consequential damages arising out of or in -% connection with the use or performance of this software. This work has -% been a ``labor of love'' and the author hopes that users enjoy it. - -% Here is TeX material that gets inserted after \input webmac -\def\hang{\hangindent 3em\noindent\ignorespaces} -\def\hangg#1 {\hang\hbox{#1 }} -\def\textindent#1{\hangindent2.5em\noindent\hbox to2.5em{\hss#1 }\ignorespaces} -\font\ninerm=cmr9 -\let\mc=\ninerm % medium caps for names like SAIL -\def\eTeX{$\varepsilon$-\TeX} -\font\revrm=xbmc10 % for right-to-left text -% to generate xbmc10 (i.e., reflected cmbx10) use a file -% xbmc10.mf containing: -%+++++++++++++++++++++++++++++++++++++++++++++++++ -% if unknown cmbase: input cmbase fi -% extra_endchar := extra_endchar & -% "currentpicture:=currentpicture " & -% "reflectedabout((.5[l,r],0),(.5[l,r],1));"; -% input cmbx10 -%+++++++++++++++++++++++++++++++++++++++++++++++++ -\ifx\beginL\undefined % this is TeX - \def\XeT{X\kern-.125em\lower.5ex\hbox{E}\kern-.1667emT} - \def\TeXeT{\TeX-\hbox{\revrm \XeT}} % for TeX-XeT - \def\TeXXeT{\TeX-\hbox{\revrm -\XeT}} % for TeX--XeT -\else - \ifx\eTeXversion\undefined % this is \TeXeT - \def\TeXeT{\TeX-{\revrm\beginR\TeX\endR}} % for TeX-XeT - \def\TeXXeT{\TeX-{\revrm\beginR\TeX-\endR}} % for TeX--XeT - \else % this is \eTeX - \def\TeXeT{\TeX-{\TeXXeTstate=1\revrm\beginR\TeX\endR}} % for TeX-XeT - \def\TeXXeT{\TeX-{\TeXXeTstate=1\revrm\beginR\TeX-\endR}} % for TeX--XeT - \fi -\fi -\def\PASCAL{Pascal} -\def\ph{\hbox{Pascal-H}} -\def\pct!{{\char`\%}} % percent sign in ordinary text -\def\grp{\.{\char'173...\char'175}} -\font\logo=logo10 % font used for the METAFONT logo -\def\MF{{\logo META}\-{\logo FONT}} -\def\<#1>{$\langle#1\rangle$} -\def\section{\mathhexbox278} - -\def\(#1){} % this is used to make section names sort themselves better -\def\9#1{} % this is used for sort keys in the index via @@:sort key}{entry@@> - -\let\@@=\relax % we want to be able to \write a \? - -\def\title{k\TeX} -% system dependent redefinitions of \title should come later -% and should use: -% \toks0=\expandafter{\title} -% \edef\title{...\the\toks0...} -\let\maybe=\iffalse % print only changed modules -\def\topofcontents{\hsize 5.5in - \vglue 0pt plus 1fil minus 1.5in - \def\@@##1]{\hbox to 1in{\hfil##1.\ }} - } -\def\botofcontents{\vskip 0pt plus 1fil minus 1.5in} -\pageno=3 -\def\glob{13} % this should be the section number of "<Global...>" -\def\gglob{20, 26} % this should be the next two sections of "<Global...>" - -\def\.#1{\leavevmode\hbox{\tentex % typewriter type for strings - \let\\=\BS % backslash in a string - \let\'=\RQ % right quote in a string - \let\`=\LQ % left quote in a string - \let\{=\LB % left brace in a string - \let\}=\RB % right brace in a string - \let\~=\TL % tilde in a string - \let\ =\SP % space in a string - \let\_=\UL % underline in a string - \let\&=\AM % ampersand in a string - #1\kern.05em}} -\def\^{\ifmmode\mathchar"222 \else\char`^ \fi} % pointer or hat -\def\LQ{{\tt\char'22}} % left quote in a string -\def\RQ{{\tt\char'23}} % right quote in a string -\def\dotdot{\mathrel{.\,.}} % double dot, used only in math mode -@s dotdot TeX -@* Introduction. -This is \eTeX, a program derived from and extending the capabilities of -\TeX, a document compiler intended to produce typesetting of high -quality. -The \PASCAL\ program that follows is the definition of \TeX82, a standard -@:PASCAL}{\PASCAL@> -@!@:TeX82}{\TeX82@> -version of \TeX\ that is designed to be highly portable so that identical output -will be obtainable on a great variety of computers. - -The main purpose of the following program is to explain the algorithms of \TeX\ -as clearly as possible. As a result, the program will not necessarily be very -efficient when a particular \PASCAL\ compiler has translated it into a -particular machine language. However, the program has been written so that it -can be tuned to run efficiently in a wide variety of operating environments -by making comparatively few changes. Such flexibility is possible because -the documentation that follows is written in the \.{WEB} language, which is -at a higher level than \PASCAL; the preprocessing step that converts \.{WEB} -to \PASCAL\ is able to introduce most of the necessary refinements. -Semi-automatic translation to other languages is also feasible, because the -program below does not make extensive use of features that are peculiar to -\PASCAL. - -A large piece of software like \TeX\ has inherent complexity that cannot -be reduced below a certain level of difficulty, although each individual -part is fairly simple by itself. The \.{WEB} language is intended to make -the algorithms as readable as possible, by reflecting the way the -individual program pieces fit together and by providing the -cross-references that connect different parts. Detailed comments about -what is going on, and about why things were done in certain ways, have -been liberally sprinkled throughout the program. These comments explain -features of the implementation, but they rarely attempt to explain the -\TeX\ language itself, since the reader is supposed to be familiar with -{\sl The \TeX book}. -@.WEB@> -@:TeXbook}{\sl The \TeX book@> - -@ The present implementation has a long ancestry, beginning in the summer -of~1977, when Michael~F. Plass and Frank~M. Liang designed and coded -a prototype -@^Plass, Michael Frederick@> -@^Liang, Franklin Mark@> -@^Knuth, Donald Ervin@> -based on some specifications that the author had made in May of that year. -This original proto\TeX\ included macro definitions and elementary -manipulations on boxes and glue, but it did not have line-breaking, -page-breaking, mathematical formulas, alignment routines, error recovery, -or the present semantic nest; furthermore, -it used character lists instead of token lists, so that a control sequence -like \.{\\halign} was represented by a list of seven characters. A -complete version of \TeX\ was designed and coded by the author in late -1977 and early 1978; that program, like its prototype, was written in the -{\mc SAIL} language, for which an excellent debugging system was -available. Preliminary plans to convert the {\mc SAIL} code into a form -somewhat like the present ``web'' were developed by Luis Trabb~Pardo and -@^Trabb Pardo, Luis Isidoro@> -the author at the beginning of 1979, and a complete implementation was -created by Ignacio~A. Zabala in 1979 and 1980. The \TeX82 program, which -@^Zabala Salelles, Ignacio Andr\'es@> -was written by the author during the latter part of 1981 and the early -part of 1982, also incorporates ideas from the 1979 implementation of -@^Guibas, Leonidas Ioannis@> -@^Sedgewick, Robert@> -@^Wyatt, Douglas Kirk@> -\TeX\ in {\mc MESA} that was written by Leonidas Guibas, Robert Sedgewick, -and Douglas Wyatt at the Xerox Palo Alto Research Center. Several hundred -refinements were introduced into \TeX82 based on the experiences gained with -the original implementations, so that essentially every part of the system -has been substantially improved. After the appearance of ``Version 0'' in -September 1982, this program benefited greatly from the comments of -many other people, notably David~R. Fuchs and Howard~W. Trickey. -A final revision in September 1989 extended the input character set to -eight-bit codes and introduced the ability to hyphenate words from -different languages, based on some ideas of Michael~J. Ferguson. -@^Fuchs, David Raymond@> -@^Trickey, Howard Wellington@> -@^Ferguson, Michael John@> - -No doubt there still is plenty of room for improvement, but the author -is firmly committed to keeping \TeX82 ``frozen'' from now on; stability -and reliability are to be its main virtues. - -On the other hand, the \.{WEB} description can be extended without changing -the core of \TeX82 itself, and the program has been designed so that such -extensions are not extremely difficult to make. -The |banner| string defined here should be changed whenever \TeX\ -undergoes any modifications, so that it will be clear which version of -\TeX\ might be the guilty party when a problem arises. -@^extensions to \TeX@> -@^system dependencies@> - -This program contains code for various features extending \TeX, -therefore this program is called `\eTeX' and not -`\TeX'; the official name `\TeX' by itself is reserved -for software systems that are fully compatible with each other. -A special test suite called the ``\.{TRIP} test'' is available for -helping to determine whether a particular implementation deserves to be -known as `\TeX' [cf.~Stanford Computer Science report CS1027, -November 1984]. - -A similar test suite called the ``\.{e-TRIP} test'' is available for -helping to determine whether a particular implementation deserves to be -known as `\eTeX'. - -@d eTeX_version 2 /* \.{\\eTeXversion} */ -@d eTeX_revision ".6" /* \.{\\eTeXrevision} */ -@d eTeX_version_string "-2.6" /*current \eTeX\ version*/ -@# -@d eTeX_banner "This is e-TeX, Version 3.141592653" eTeX_version_string " (HINT)" - /*printed when \eTeX\ starts*/ -@# -@d TeX_banner "This is TeX, Version 3.141592653 (HINT)" /*printed when \TeX\ starts*/ -@# -@d banner "This is HiTeX, Version 3.141592653" eTeX_version_string /*printed when \TeX\ starts*/ -@# -@d TEX ETEX /*change program name into |ETEX|*/ -@# -@d eTeX_states 1 /*number of \eTeX\ state variables in |eqtb|*/ - -@ Different \PASCAL s have slightly different conventions, and the present -@!@:PASCAL H}{\ph@> -program expresses \TeX\ in terms of the \PASCAL\ that was -available to the author in 1982. Constructions that apply to -this particular compiler, which we shall call \ph, should help the -reader see how to make an appropriate interface for other systems -if necessary. (\ph\ is Charles Hedrick's modification of a compiler -@^Hedrick, Charles Locke@> -for the DECsystem-10 that was originally developed at the University of -Hamburg; cf.\ {\sl Software---Practice and Experience \bf6} (1976), -29--42. The \TeX\ program below is intended to be adaptable, without -extensive changes, to most other versions of \PASCAL, so it does not fully -use the admirable features of \ph. Indeed, a conscious effort has been -made here to avoid using several idiosyncratic features of standard -\PASCAL\ itself, so that most of the code can be translated mechanically -into other high-level languages. For example, the `\&{with}' and `\\{new}' -features are not used, nor are pointer types, set types, or enumerated -scalar types; there are no `\&{var}' parameters, except in the case of files ---- \eTeX, however, does use `\&{var}' parameters for the |reverse| function; -there are no tag fields on variant records; there are no assignments -|double=int|; no procedures are declared local to other procedures.) - -The portions of this program that involve system-dependent code, where -changes might be necessary because of differences between \PASCAL\ compilers -and/or differences between -operating systems, can be identified by looking at the sections whose -numbers are listed under `system dependencies' in the index. Furthermore, -the index entries for `dirty \PASCAL' list all places where the restrictions -of \PASCAL\ have not been followed perfectly, for one reason or another. -@!@^system dependencies@> -@!@^dirty \PASCAL@> - -Incidentally, \PASCAL's standard |round| function can be problematical, -because it disagrees with the IEEE floating-point standard. -Many implementors have -therefore chosen to substitute their own home-grown rounding procedure. - -@ The following is an outline of the program, whose -components will be filled in later, using the conventions of \.{WEB}. -@.WEB@> -For example, the portion of the program called `\X\glob:Global -variables\X' below will be replaced by a sequence of variable declarations -that starts in $\section\glob$ of this documentation. In this way, we are able -to define each individual global variable when we are prepared to -understand what it means; we do not have to define all of the globals at -once. Cross references in $\section\glob$, where it says ``See also -sections \gglob, \dots,'' also make it possible to look at the set of -all global variables, if desired. Similar remarks apply to the other -portions of the program. - -@p @<Header files and function declarations@>@; -#include "htex.h" -#include "hitex.h" -@<Global variables@>@; -@# - -static void initialize(void) /*this procedure gets things started properly*/ - {@+@<Local variables for initialization@>@; - @<Initialize whatever \TeX\ might access@>; - } @# -@<Basic printing procedures@>@; -@<Error handling procedures@>@; - -@ The overall \TeX\ program begins with the heading just shown, after which -comes a bunch of procedure declarations and function declarations. -Finally we will get to the main program, which begins with the -comment `|start_here|'. If you want to skip down to the -main program now, you can look up `|start_here|' in the index. -But the author suggests that the best way to understand this program -is to follow pretty much the order of \TeX's components as they appear in the -\.{WEB} description you are now reading, since the present ordering is -intended to combine the advantages of the ``bottom up'' and ``top down'' -approaches to the problem of understanding a somewhat complicated system. - -@ There is no need to declare labels in \CEE/, but occasionally -it is necessary to insert header files and declare functions -very early in the program. For example, the function |s_no| -which uses |make_string| to convert a \CEE/ string into -a string number is used in |initialize| and needs a forward -declaration. - -@<Header files and function declarations@>= -extern int s_no(const char *str); - -@ Some of the code below is intended to be used only when diagnosing the -strange behavior that sometimes occurs when \TeX\ is being installed or -when system wizards are fooling around with \TeX\ without quite knowing -what they are doing. Such code will not normally be compiled; it is -delimited by the codewords `$|debug|\ldots|debug|$', with apologies -to people who wish to preserve the purity of English. - -Similarly, there is some conditional code delimited by -`$|stat|\ldots|tats|$' that is intended for use when statistics are to be -kept about \TeX's memory usage. The |stat| $\ldots$ |tats| code also -implements diagnostic information for \.{\\tracingparagraphs}, -\.{\\tracingpages}, and \.{\\tracingrestores}. -@^debugging@> - -@ This program has two important variations: (1) There is a long and slow -version called \.{INITEX}, which does the extra calculations needed to -@.INITEX@> -initialize \TeX's internal tables; and (2)~there is a shorter and faster -production version, which cuts the initialization to a bare minimum. -Parts of the program that are needed in (1) but not in (2) are delimited by -|#ifdef| |INIT|\dots\ |#endif|. - -\TeX\ Live has established the common practice -to select the initialization code at runtime -using the |iniversion| variable. - -@<Initialize whatever...@>= -@<Set initial values of key variables@>@/ -#ifdef @!INIT -if (iniversion) {@+@<Initialize table entries (done by \.{INITEX} only)@>@;@+} -#endif - -@ Most of the external declarations needed are included using standard -header files. - -@s uint8_t int -@s int16_t int -@s uint16_t int -@s int32_t int -@s uint32_t int -@s halfword int -@s in TeX -@s line normal -@s to do - -@<Header files and function declarations@>= -#include <stdint.h> -#include <stdbool.h> -#include <stdio.h> -#include <stdlib.h> -#include <string.h> -#include <math.h> - -@ Further it is necessary to define some build in primitives of -\PASCAL\ that are otherwise not available in \CEE/. -@:PASCAL H}{\ph@> - -@d odd(X) ((X)&1) -@d chr(X) ((unsigned char)(X)) -@d ord(X) ((unsigned int)(X)) -@d abs(X) ((X)>-(X)?(X):-(X)) -@d round(X) ((int)((X)>=0.0?floor((X)+0.5):ceil((X)-0.5))) - -@ The following parameters can be changed at compile time to extend or -reduce \TeX's capacity. They may have different values in \.{INITEX} and -in production versions of \TeX. -@.INITEX@> -@^system dependencies@> - -@<Constants...@>= -@!mem_max=5000000, /*greatest index in \TeX's internal |mem| array; - must be strictly less than |max_halfword|; - must be equal to |mem_top| in \.{INITEX}, otherwise | >= mem_top|*/ -@!mem_min=0, /*smallest index in \TeX's internal |mem| array; - must be |min_halfword| or more; - must be equal to |mem_bot| in \.{INITEX}, otherwise | <= mem_bot|*/ -@!buf_size=2000000, /*maximum number of characters simultaneously present in - current lines of open files and in control sequences between - \.{\\csname} and \.{\\endcsname}; must not exceed |max_halfword|*/ -@!error_line=79, /*width of context lines on terminal error messages*/ -@!half_error_line=50, /*width of first lines of contexts in terminal - error messages; should be between 30 and |error_line-15|*/ -@!max_print_line=79, /*width of longest text lines output; should be at least 60*/ -@!stack_size=5000, /*maximum number of simultaneous input sources*/ -@!max_in_open=15, /*maximum number of input files and error insertions that - can be going on simultaneously*/ -@!font_max=255, /*maximum internal font number; must not exceed |max_quarterword| - and must be at most |font_base+256|*/ -@!font_mem_size=8000000, /*number of words of |font_info| for all fonts*/ -@!param_size=10000, /*maximum number of simultaneous macro parameters*/ -@!nest_size=500, /*maximum number of semantic levels simultaneously active*/ -@!max_strings=500000, /*maximum number of strings; must not exceed |max_halfword|*/ -@!string_vacancies=90000, /*the minimum number of characters that should be - available for the user's control sequences and font names, - after \TeX's own error messages are stored*/ -@!pool_size=6250000, /*maximum number of characters in strings, including all - error messages and help texts, and the names of all fonts and - control sequences; must exceed |string_vacancies| by the total - length of \TeX's own strings, which is currently about 23000*/ -@!save_size=100000, /*space for saving values outside of current group; must be - at most |max_halfword|*/ -@!trie_size=1000000, /*space for hyphenation patterns; should be larger for - \.{INITEX} than it is in production versions of \TeX*/ -@!trie_op_size=35111, /*space for ``opcodes'' in the hyphenation patterns*/ -@!dvi_buf_size=16384, /*size of the output buffer; must be a multiple of 8*/ -@!file_name_size=1024, /*file names shouldn't be longer than this*/ -@!empty_string=256 /*the empty string follows after 256 characters*/ - -@ Like the preceding parameters, the following quantities can be changed -at compile time to extend or reduce \TeX's capacity. But if they are changed, -it is necessary to rerun the initialization program \.{INITEX} -@.INITEX@> -to generate new tables for the production \TeX\ program. -One can't simply make helter-skelter changes to the following constants, -since certain rather complex initialization -numbers are computed from them. They are defined here using -\.{WEB} macros, instead of being put into \PASCAL's |const| list, in order to -emphasize this distinction. - -@d mem_bot 0 /*smallest index in the |mem| array dumped by \.{INITEX}; - must not be less than |mem_min|*/ -@d mem_top 5000000 /*largest index in the |mem| array dumped by \.{INITEX}; - must be substantially larger than |mem_bot| - and not greater than |mem_max|*/ -@d font_base 0 /*smallest internal font number; must not be less - than |min_quarterword|*/ -@d hash_size 15000 /*maximum number of control sequences; it should be at most - about |(mem_max-mem_min)/(double)10|*/ -@d hash_prime 12757 /*a prime number equal to about 85\pct! of |hash_size|*/ -@d hyph_size 8191 /*another prime; the number of \.{\\hyphenation} exceptions*/ -@^system dependencies@> - -@ In case somebody has inadvertently made bad settings of the ``constants,'' -\TeX\ checks them using a global variable called |bad|. - -This is the first of many sections of \TeX\ where global variables are -defined. - -@<Glob...@>= -static int @!bad; /*is some ``constant'' wrong?*/ - -@ Later on we will say `\ignorespaces|if (mem_max >= max_halfword) bad=14|', -or something similar. (We can't do that until |max_halfword| has been defined.) - -@<Check the ``constant'' values for consistency@>= -bad=0; -if ((half_error_line < 30)||(half_error_line > error_line-15)) bad=1; -if (max_print_line < 60) bad=2; -if (dvi_buf_size%8!=0) bad=3; -if (mem_bot+1100 > mem_top) bad=4; -if (hash_prime > hash_size) bad=5; -if (max_in_open >= 128) bad=6; -if (mem_top < 256+11) bad=7; /*we will want |null_list > 255|*/ - -@ Labels are given symbolic names by the following definitions, so that -occasional |goto| statements will be meaningful. We insert the label -`|end|' just before the `\ignorespaces|} |\unskip' of a procedure in -which we have used the `|goto end|' statement defined below; the label -`|restart|' is occasionally used at the very beginning of a procedure; and -the label `|reswitch|' is occasionally used just prior to a |case| -statement in which some cases change the conditions and we wish to branch -to the newly applicable case. Loops that are set up with the |loop| -construction defined below are commonly exited by going to `|done|' or to -`|found|' or to `|not_found|', and they are sometimes repeated by going to -`|resume|'. If two or more parts of a subroutine start differently but -end up the same, the shared code may be gathered together at -`|common_ending|'. - -Incidentally, this program never declares a label that isn't actually used, -because some fussy \PASCAL\ compilers will complain about redundant labels. - -@ Here are some macros for common programming idioms. - -@d incr(A) A=A+1 /*increase a variable by unity*/ -@d decr(A) A=A-1 /*decrease a variable by unity*/ -@d negate(A) A=-A /*change the sign of a variable*/ -@d loop @+while (true) @+ /*repeat over and over until a |goto| happens*/ -@f loop else - /*\.{WEB}'s |else| acts like `\ignorespaces|while true do|\unskip'*/ -@d do_nothing /*empty statement*/ -@d empty 0 /*symbolic name for a null constant*/ - -@* The character set. -In order to make \TeX\ readily portable to a wide variety of -computers, all of its input text is converted to an internal eight-bit -code that includes standard ASCII, the ``American Standard Code for -Information Interchange.'' This conversion is done immediately when each -character is read in. Conversely, characters are converted from ASCII to -the user's external representation just before they are output to a -text file. - -Such an internal code is relevant to users of \TeX\ primarily because it -governs the positions of characters in the fonts. For example, the -character `\.A' has ASCII code $65=0101$, and when \TeX\ typesets -this letter it specifies character number 65 in the current font. -If that font actually has `\.A' in a different position, \TeX\ doesn't -know what the real position is; the program that does the actual printing from -\TeX's device-independent files is responsible for converting from ASCII to -a particular font encoding. -@^ASCII code@> - -\TeX's internal code also defines the value of constants -that begin with a reverse apostrophe; and it provides an index to the -\.{\\catcode}, \.{\\mathcode}, \.{\\uccode}, \.{\\lccode}, and \.{\\delcode} -tables. - -@ Characters of text that have been converted to \TeX's internal form -are said to be of type |ASCII_code|, which is a subrange of the integers. - -@<Types...@>= -typedef uint8_t ASCII_code; /*eight-bit numbers*/ - -@ The original \PASCAL\ compiler was designed in the late 60s, when six-bit -character sets were common, so it did not make provision for lowercase -letters. Nowadays, of course, we need to deal with both capital and small -letters in a convenient way, especially in a program for typesetting; -so the present specification of \TeX\ has been written under the assumption -that the \PASCAL\ compiler and run-time system permit the use of text files -with more than 64 distinguishable characters. More precisely, we assume that -the character set contains at least the letters and symbols associated -with ASCII codes 040 through 0176; all of these characters are now -available on most computer terminals. - -Since we are dealing with more characters than were present in the first -\PASCAL\ compilers, we have to decide what to call the associated data -type. Some \PASCAL s use the original name |unsigned char| for the -characters in text files, even though there now are more than 64 such -characters, while other \PASCAL s consider |unsigned char| to be a 64-element -subrange of a larger data type that has some other name. - -In order to accommodate this difference, we shall use the name |text_char| -to stand for the data type of the characters that are converted to and -from |ASCII_code| when they are input and output. We shall also assume -that |text_char| consists of the elements |chr(first_text_char)| through -|chr(last_text_char)|, inclusive. The following definitions should be -adjusted if necessary. -@^system dependencies@> - -@s text_char char -@d text_char unsigned char /*the data type of characters in text files*/ -@d first_text_char 0 /*ordinal number of the smallest element of |text_char|*/ -@d last_text_char 255 /*ordinal number of the largest element of |text_char|*/ - -@<Local variables for init...@>= -int @!i; - -@ The \TeX\ processor converts between ASCII code and -the user's external character set by means of arrays |xord| and |xchr| -that are analogous to \PASCAL's |ord| and |chr| functions. - -@<Glob...@>= -static ASCII_code @!xord[256]; - /*specifies conversion of input characters*/ -static text_char @!xchr[256]; - /*specifies conversion of output characters*/ - -@ Since we are assuming that our \PASCAL\ system is able to read and -write the visible characters of standard ASCII (although not -necessarily using the ASCII codes to represent them), the following -assignment statements initialize the standard part of the |xchr| array -properly, without needing any system-dependent changes. On the other -hand, it is possible to implement \TeX\ with less complete character -sets, and in such cases it will be necessary to change something here. -@^system dependencies@> - -@<Set init...@>= -xchr[040]=' '; -xchr[041]='!'; -xchr[042]='"'; -xchr[043]='#'; -xchr[044]='$'; -xchr[045]='%'; -xchr[046]='&'; -xchr[047]='\'';@/ -xchr[050]='('; -xchr[051]=')'; -xchr[052]='*'; -xchr[053]='+'; -xchr[054]=','; -xchr[055]='-'; -xchr[056]='.'; -xchr[057]='/';@/ -xchr[060]='0'; -xchr[061]='1'; -xchr[062]='2'; -xchr[063]='3'; -xchr[064]='4'; -xchr[065]='5'; -xchr[066]='6'; -xchr[067]='7';@/ -xchr[070]='8'; -xchr[071]='9'; -xchr[072]=':'; -xchr[073]=';'; -xchr[074]='<'; -xchr[075]='='; -xchr[076]='>'; -xchr[077]='?';@/ -xchr[0100]='@@'; -xchr[0101]='A'; -xchr[0102]='B'; -xchr[0103]='C'; -xchr[0104]='D'; -xchr[0105]='E'; -xchr[0106]='F'; -xchr[0107]='G';@/ -xchr[0110]='H'; -xchr[0111]='I'; -xchr[0112]='J'; -xchr[0113]='K'; -xchr[0114]='L'; -xchr[0115]='M'; -xchr[0116]='N'; -xchr[0117]='O';@/ -xchr[0120]='P'; -xchr[0121]='Q'; -xchr[0122]='R'; -xchr[0123]='S'; -xchr[0124]='T'; -xchr[0125]='U'; -xchr[0126]='V'; -xchr[0127]='W';@/ -xchr[0130]='X'; -xchr[0131]='Y'; -xchr[0132]='Z'; -xchr[0133]='['; -xchr[0134]='\\'; -xchr[0135]=']'; -xchr[0136]='^'; -xchr[0137]='_';@/ -xchr[0140]='`'; -xchr[0141]='a'; -xchr[0142]='b'; -xchr[0143]='c'; -xchr[0144]='d'; -xchr[0145]='e'; -xchr[0146]='f'; -xchr[0147]='g';@/ -xchr[0150]='h'; -xchr[0151]='i'; -xchr[0152]='j'; -xchr[0153]='k'; -xchr[0154]='l'; -xchr[0155]='m'; -xchr[0156]='n'; -xchr[0157]='o';@/ -xchr[0160]='p'; -xchr[0161]='q'; -xchr[0162]='r'; -xchr[0163]='s'; -xchr[0164]='t'; -xchr[0165]='u'; -xchr[0166]='v'; -xchr[0167]='w';@/ -xchr[0170]='x'; -xchr[0171]='y'; -xchr[0172]='z'; -xchr[0173]='{'; -xchr[0174]='|'; -xchr[0175]='}'; -xchr[0176]='~';@/ - -@ Some of the ASCII codes without visible characters have been given symbolic -names in this program because they are used with a special meaning. - -@d null_code 00 /*ASCII code that might disappear*/ -@d carriage_return 015 /*ASCII code used at end of line*/ -@d invalid_code 0177 /*ASCII code that many systems prohibit in text files*/ - -@ The ASCII code is ``standard'' only to a certain extent, since many -computer installations have found it advantageous to have ready access -to more than 94 printing characters. Appendix~C of {\sl The \TeX book\/} -gives a complete specification of the intended correspondence between -characters and \TeX's internal representation. -@:TeXbook}{\sl The \TeX book@> - -If \TeX\ is being used -on a garden-variety \PASCAL\ for which only standard ASCII -codes will appear in the input and output files, it doesn't really matter -what codes are specified in |xchr[0 dotdot 037]|, but the safest policy is to -blank everything out by using the code shown below. - -However, other settings of |xchr| will make \TeX\ more friendly on -computers that have an extended character set, so that users can type things -like `\.^^Z' instead of `\.{\\ne}'. People with extended character sets can -assign codes arbitrarily, giving an |xchr| equivalent to whatever -characters the users of \TeX\ are allowed to have in their input files. -It is best to make the codes correspond to the intended interpretations as -shown in Appendix~C whenever possible; but this is not necessary. For -example, in countries with an alphabet of more than 26 letters, it is -usually best to map the additional letters into codes less than~040. -To get the most ``permissive'' character set, change |' '| on the -right of these assignment statements to |chr(i)|. -@^character set dependencies@> -@^system dependencies@> - -@<Set init...@>= -for (i=0; i<=037; i++) xchr[i]=chr(i); /* k\TeX\ */ -for (i=0177; i<=0377; i++) xchr[i]=chr(i); /* k\TeX\ */ - -@ The following system-independent code makes the |xord| array contain a -suitable inverse to the information in |xchr|. Note that if |xchr[i]==xchr[j]| -where |i < j < 0177|, the value of |xord[xchr[i]]| will turn out to be -|j| or more; hence, standard ASCII code numbers will be used instead of -codes below 040 in case there is a coincidence. - -@<Set init...@>= -for (i=first_text_char; i<=last_text_char; i++) xord[chr(i)]=invalid_code; -for (i=0200; i<=0377; i++) xord[xchr[i]]=i; -for (i=0; i<=0176; i++) xord[xchr[i]]=i; - -@* Input and output. -The bane of portability is the fact that different operating systems treat -input and output quite differently, perhaps because computer scientists -have not given sufficient attention to this problem. People have felt somehow -that input and output are not part of ``real'' programming. Well, it is true -that some kinds of programming are more fun than others. With existing -input/output conventions being so diverse and so messy, the only sources of -joy in such parts of the code are the rare occasions when one can find a -way to make the program a little less bad than it might have been. We have -two choices, either to attack I/O now and get it over with, or to postpone -I/O until near the end. Neither prospect is very attractive, so let's -get it over with. - -The basic operations we need to do are (1)~inputting and outputting of -text, to or from a file or the user's terminal; (2)~inputting and -outputting of eight-bit bytes, to or from a file; (3)~instructing the -operating system to initiate (``open'') or to terminate (``close'') input or -output from a specified file; (4)~testing whether the end of an input -file has been reached. - -\TeX\ needs to deal with two kinds of files. -We shall use the term |alpha_file| for a file that contains textual data, -and the term |byte_file| for a file that contains eight-bit binary information. -These two types turn out to be the same on many computers, but -sometimes there is a significant distinction, so we shall be careful to -distinguish between them. Standard protocols for transferring -such files from computer to computer, via high-speed networks, are -now becoming available to more and more communities of users. - -The program actually makes use also of a third kind of file, called a -|word_file|, when dumping and reloading base information for its own -initialization. We shall define a word file later; but it will be possible -for us to specify simple operations on word files before they are defined. - -@<Types...@>= -typedef uint8_t eight_bits; /*unsigned one-byte quantity*/ -typedef struct {@+FILE *f;@+text_char@,d;@+} alpha_file; /*files that contain textual data*/ -typedef struct {@+FILE *f;@+eight_bits@,d;@+} byte_file; /*files that contain binary data*/ - -@ Most of what we need to do with respect to input and output can be handled -by the I/O facilities that are standard in \PASCAL, i.e., the routines -called |get|, |put|, |eof|, and so on. But -standard \PASCAL\ does not allow file variables to be associated with file -names that are determined at run time, so it cannot be used to implement -\TeX; some sort of extension to \PASCAL's ordinary |reset| and |rewrite| -is crucial for our purposes. We shall assume that |name_of_file| is a variable -of an appropriate type such that the \PASCAL\ run-time system being used to -implement \TeX\ can open a file whose external name is specified by -|name_of_file|. -@^system dependencies@> - -@<Glob...@>= -unsigned char @!name_of_file0[file_name_size+1]={0}, *const @!name_of_file = @!name_of_file0-1;@;@/ - /*on some systems this may be a \&{record} variable*/ -int @!name_length;@/ /*this many characters are actually - relevant in |name_of_file| (the rest are blank)*/ - -@ k\TeX\ uses the {\tt kpathsearch} library to implement access to files. -To do so we declare \TeX's functions here and postpone the -actual implementations. These functions do not to issue their own -error messages if something goes wrong. If a file identified by -|name_of_file| cannot be found, -or if such a file cannot be opened for some other reason -(e.g., someone may already be trying to write the same file) -\TeX's file-opening procedures return |false|. -This allows \TeX\ to undertake appropriate corrective action. -@^system dependencies@> - -@p static bool a_open_in(alpha_file *f); /*open a text file for input*/ -static bool a_open_out(alpha_file *f); /*open a text file for output*/ -static bool b_open_in(byte_file *f); /*open a binary file for input*/ -static bool b_open_out(byte_file *f); /*open a binary file for output*/ -static bool w_open_in(word_file *f); /*open a word file for input*/ -#ifdef @!INIT -static bool w_open_out(word_file *f); /*open a word file for output*/ -#endif - -@ Files can be closed with the \ph\ routine `|pascal_close(f)|', which -@:PASCAL H}{\ph@> -@^system dependencies@> -should be used when all input or output with respect to |f| has been completed. -This makes |f| available to be opened again, if desired; and if |f| was used for -output, the |pascal_close| operation makes the corresponding external file appear -on the user's area, ready to be read. - -These procedures should not generate error messages if a file is -being closed before it has been successfully opened. - -@p static void a_close(alpha_file *f) /*close a text file*/ -{@+pascal_close((*f)); -} -@# -static void b_close(byte_file *f) /*close a binary file*/ -{@+pascal_close((*f)); -} -@# -static void w_close(word_file *f) /*close a word file*/ -{@+pascal_close((*f)); -} - -@ Binary input and output are done with \PASCAL's ordinary |get| and |put| -procedures, so we don't have to make any other special arrangements for -binary~I/O. Text output is also easy to do with standard \PASCAL\ routines. -The treatment of text input is more difficult, however, because -of the necessary translation to |ASCII_code| values. -\TeX's conventions should be efficient, and they should -blend nicely with the user's operating environment. - -@ Input from text files is read one line at a time, using a routine called -|input_ln|. This function is defined in terms of global variables called -|buffer|, |first|, and |last| that will be described in detail later; for -now, it suffices for us to know that |buffer| is an array of |ASCII_code| -values, and that |first| and |last| are indices into this array -representing the beginning and ending of a line of text. - -@<Glob...@>= -static ASCII_code @!buffer[buf_size+1]; /*lines of characters being read*/ -static int @!first; /*the first unused position in |buffer|*/ -static int @!last; /*end of the line just input to |buffer|*/ -static int @!max_buf_stack; /*largest index used in |buffer|*/ - -@ The |input_ln| function brings the next line of input from the specified -file into available positions of the buffer array and returns the value -|true|, unless the file has already been entirely read, in which case it -returns |false| and sets |last=first|. In general, the |ASCII_code| -numbers that represent the next line of the file are input into -|buffer[first]|, |buffer[first+1]|, \dots, |buffer[last-1]|; and the -global variable |last| is set equal to |first| plus the length of the -line. Trailing blanks are removed from the line; thus, either |last==first| -(in which case the line was entirely blank) or |buffer[last-1]!=' '|. - -An overflow error is given, however, if the normal actions of |input_ln| -would make |last >= buf_size|; this is done so that other parts of \TeX\ -can safely look at the contents of |buffer[last+1]| without overstepping -the bounds of the |buffer| array. Upon entry to |input_ln|, the condition -|first < buf_size| will always hold, so that there is always room for an -``empty'' line. - -The variable |max_buf_stack|, which is used to keep track of how large -the |buf_size| parameter must be to accommodate the present job, is -also kept up to date by |input_ln|. - -If the |bypass_eoln| parameter is |true|, |input_ln| will do a |get| -before looking at the first character of the line; this skips over -an |eoln| that was in |f.d|. The procedure does not do a |get| when it -reaches the end of the line; therefore it can be used to acquire input -from the user's terminal as well as from ordinary text files. - -Standard \PASCAL\ says that a file should have |eoln| immediately -before |eof|, but \TeX\ needs only a weaker restriction: If |eof| -occurs in the middle of a line, the system function |eoln| should return -a |true| result (even though |f.d| will be undefined). - -Since the inner loop of |input_ln| is part of \TeX's ``inner loop''---each -character of input comes in at this place---it is wise to reduce system -overhead by making use of special routines that read in an entire array -of characters at once, if such routines are available. The following -code uses standard \PASCAL\ to illustrate what needs to be done, but -finer tuning is often possible at well-developed \PASCAL\ sites. -@^inner loop@> - -@p static bool input_ln(alpha_file *f, bool @!bypass_eoln) - /*inputs the next line or returns |false|*/ -{@+int last_nonblank; /*|last| with trailing blanks removed*/ -if (bypass_eoln) if (!eof((*f))) get((*f)); - /*input the first character of the line into |f.d|*/ -last=first; /*cf.\ Matthew 19\thinspace:\thinspace30*/ -if (eof((*f))) return false; -else{@+last_nonblank=first; - while (!eoln((*f))) - {@+if (last >= max_buf_stack) - {@+max_buf_stack=last+1; - if (max_buf_stack==buf_size) - @<Report overflow of the input buffer, and abort@>; - } - buffer[last]=xord[(*f).d];get((*f));incr(last); - if (buffer[last-1]!=' ') last_nonblank=last; - } - last=last_nonblank;return true; - } -} - -@ The user's terminal acts essentially like other files of text, except -that it is used both for input and for output. When the terminal is -considered an input file, the file variable is called |term_in|, and when it -is considered an output file the file variable is |term_out|. -@^system dependencies@> - -@<Glob...@>= -static alpha_file @!term_in; /*the terminal as an input file*/ -static alpha_file @!term_out; /*the terminal as an output file*/ - -@ Here is how to open the terminal files -in \ph. The `\.{/I}' switch suppresses the first |get|. -@:PASCAL H}{\ph@> -@^system dependencies@> - -@d t_open_in term_in.f=stdin /*open the terminal for text input*/ -@d t_open_out term_out.f=stdout /*open the terminal for text output*/ - -@ Sometimes it is necessary to synchronize the input/output mixture that -happens on the user's terminal, and three system-dependent -procedures are used for this -purpose. The first of these, |update_terminal|, is called when we want -to make sure that everything we have output to the terminal so far has -actually left the computer's internal buffers and been sent. -The second, |clear_terminal|, is called when we wish to cancel any -input that the user may have typed ahead (since we are about to -issue an unexpected error message). The third, |wake_up_terminal|, -is supposed to revive the terminal if the user has disabled it by -some instruction to the operating system. The following macros show how -these operations can be specified in \ph: -@:PASCAL H}{\ph@> -@^system dependencies@> - -@d update_terminal fflush(term_out.f) /*empty the terminal output buffer*/ -@d clear_terminal fflush(term_in.f) /*clear the terminal input buffer*/ -@d wake_up_terminal do_nothing /*cancel the user's cancellation of output*/ - -@ We need a special routine to read the first line of \TeX\ input from -the user's terminal. This line is different because it is read before we -have opened the transcript file; there is sort of a ``chicken and -egg'' problem here. If the user types `\.{\\input paper}' on the first -line, or if some macro invoked by that line does such an \.{\\input}, -the transcript file will be named `\.{paper.log}'; but if no \.{\\input} -commands are performed during the first line of terminal input, the transcript -file will acquire its default name `\.{texput.log}'. (The transcript file -will not contain error messages generated by the first line before the -first \.{\\input} command.) -@.texput@> - -The first line is even more special if we are lucky enough to have an operating -system that treats \TeX\ differently from a run-of-the-mill \PASCAL\ object -program. It's nice to let the user start running a \TeX\ job by typing -a command line like `\.{tex paper}'; in such a case, \TeX\ will operate -as if the first line of input were `\.{paper}', i.e., the first line will -consist of the remainder of the command line, after the part that invoked -\TeX. - -The first line is special also because it may be read before \TeX\ has -input a format file. In such cases, normal error messages cannot yet -be given. The following code uses concepts that will be explained later. -(If the \PASCAL\ compiler does not support non-local |@!goto|\unskip, the -@^system dependencies@> -statement `|goto exit(0)|' should be replaced by something that -quietly terminates the program.) - -@<Report overflow of the input buffer, and abort@>= -if (format_ident==0) - {@+write_ln(term_out,"Buffer size exceeded!");exit(0); -@.Buffer size exceeded@> - } -else{@+cur_input.loc_field=first;cur_input.limit_field=last-1; - overflow("buffer size", buf_size); -@:TeX capacity exceeded buffer size}{\quad buffer size@> - } - -@ Different systems have different ways to get started. But regardless of -what conventions are adopted, the routine that initializes the terminal -should satisfy the following specifications: - -\yskip\textindent{1)}It should open file |term_in| for input from the - terminal. (The file |term_out| will already be open for output to the - terminal.) - -\textindent{2)}If the user has given a command line, this line should be - considered the first line of terminal input. Otherwise the - user should be prompted with `\.{**}', and the first line of input - should be whatever is typed in response. - -\textindent{3)}The first line of input, which might or might not be a - command line, should appear in locations |first| to |last-1| of the - |buffer| array. - -\textindent{4)}The global variable |loc| should be set so that the - character to be read next by \TeX\ is in |buffer[loc]|. This - character should not be blank, and we should have |loc < last|. - -\yskip\noindent(It may be necessary to prompt the user several times -before a non-blank line comes in. The prompt is `\.{**}' instead of the -later `\.*' because the meaning is slightly different: `\.{\\input}' need -not be typed immediately after~`\.{**}'.) - -@d loc cur_input.loc_field /*location of first unread character in |buffer|*/ - -@ The following program calls |input_command_line| -to retrieve a possible command line. -@^system dependencies@> - -@p static bool init_terminal(void) /*gets the terminal input started*/ -{@+ -t_open_in; -if (input_command_line()) return true; /* k\TeX\ */ -loop@+{@+wake_up_terminal;pascal_write(term_out,"**");update_terminal; -@.**@> - if (!input_ln(&term_in, true)) /*this shouldn't happen*/ - {@+write_ln(term_out); - pascal_write(term_out,"! End of file on the terminal... why?"); -@.End of file on the terminal@> - return false; - } - loc=first; - while ((loc < last)&&(buffer[loc]==' ')) incr(loc); - if (loc < last) - {@+return true; - /*return unless the line was all blank*/ - } - write_ln(term_out,"Please type the name of your input file."); - } -} - -@* String handling. -Control sequence names and diagnostic messages are variable-length strings -of eight-bit characters. Since \PASCAL\ does not have a well-developed string -mechanism, \TeX\ does all of its string processing by homegrown methods. - -Elaborate facilities for dynamic strings are not needed, so all of the -necessary operations can be handled with a simple data structure. -The array |str_pool| contains all of the (eight-bit) ASCII codes in all -of the strings, and the array |str_start| contains indices of the starting -points of each string. Strings are referred to by integer numbers, so that -string number |s| comprises the characters |str_pool[j]| for -|str_start[s] <= j < str_start[s+1]|. Additional integer variables -|pool_ptr| and |str_ptr| indicate the number of entries used so far -in |str_pool| and |str_start|, respectively; locations -|str_pool[pool_ptr]| and |str_start[str_ptr]| are -ready for the next string to be allocated. - -String numbers 0 to 255 are reserved for strings that correspond to single -ASCII characters. This is in accordance with the conventions of \.{WEB}, -@.WEB@> -which converts single-character strings into the ASCII code number of the -single character involved, while it converts other strings into integers -and builds a string pool file. Thus, when the string constant \.{"."} appears -in the program below, \.{WEB} converts it into the integer 46, which is the -ASCII code for a period, while \.{WEB} will convert a string like \.{"hello"} -into some integer greater than~255. String number 46 will presumably be the -single character `\..'; but some ASCII codes have no standard visible -representation, and \TeX\ sometimes needs to be able to print an arbitrary -ASCII character, so the first 256 strings are used to specify exactly what -should be printed for each of the 256 possibilities. - -Elements of the |str_pool| array must be ASCII codes that can actually -be printed; i.e., they must have an |xchr| equivalent in the local -character set. (This restriction applies only to preloaded strings, -not to those generated dynamically by the user.) - -Some \PASCAL\ compilers won't pack integers into a single byte unless the -integers lie in the range |-128 dotdot 127|. To accommodate such systems -we access the string pool only via macros that can easily be redefined. -@^system dependencies@> - -@d si(A) A /*convert from |ASCII_code| to |packed_ASCII_code|*/ -@d so(A) A /*convert from |packed_ASCII_code| to |ASCII_code|*/ - -@<Types...@>= -typedef int32_t pool_pointer; /*for variables that point into |str_pool|*/ -typedef int32_t str_number; /*for variables that point into |str_start|*/ -typedef uint8_t packed_ASCII_code; /*elements of |str_pool| array*/ - -@ @<Glob...@>= -packed_ASCII_code @!str_pool[pool_size+1]; /*the characters*/ -pool_pointer @!str_start[max_strings+1]; /*the starting pointers*/ -static pool_pointer @!pool_ptr; /*first unused position in |str_pool|*/ -static str_number @!str_ptr; /*number of the current string being created*/ -static pool_pointer @!init_pool_ptr; /*the starting value of |pool_ptr|*/ -static str_number @!init_str_ptr; /*the starting value of |str_ptr|*/ - -@ Several of the elementary string operations are performed using \.{WEB} -macros instead of \PASCAL\ procedures, because many of the -operations are done quite frequently and we want to avoid the -overhead of procedure calls. For example, here is -a simple macro that computes the length of a string. -@.WEB@> - -@d length(A) (str_start[A+1]-str_start[A]) /*the number of characters - in string number \#*/ - -@ The length of the current string is called |cur_length|: - -@d cur_length (pool_ptr-str_start[str_ptr]) - -@ Strings are created by appending character codes to |str_pool|. -The |append_char| macro, defined here, does not check to see if the -value of |pool_ptr| has gotten too high; this test is supposed to be -made before |append_char| is used. There is also a |flush_char| -macro, which erases the last character appended. - -To test if there is room to append |l| more characters to |str_pool|, -we shall write |str_room(l)|, which aborts \TeX\ and gives an -apologetic error message if there isn't enough room. - -@d append_char(A) /*put |ASCII_code| \# at the end of |str_pool|*/ -{@+str_pool[pool_ptr]=si(A);incr(pool_ptr); -} -@d flush_char decr(pool_ptr) /*forget the last character in the pool*/ -@d str_room(A) /*make sure that the pool hasn't overflowed*/ - {@+if (pool_ptr+A > pool_size) - overflow("pool size", pool_size-init_pool_ptr); -@:TeX capacity exceeded pool size}{\quad pool size@> - } - -@ Once a sequence of characters has been appended to |str_pool|, it -officially becomes a string when the function |make_string| is called. -This function returns the identification number of the new string as its -value. - -@p static str_number make_string(void) /*current string enters the pool*/ -{@+if (str_ptr==max_strings) - overflow("number of strings", max_strings-init_str_ptr); -@:TeX capacity exceeded number of strings}{\quad number of strings@> -incr(str_ptr);str_start[str_ptr]=pool_ptr; -return str_ptr-1; -} - -@ To destroy the most recently made string, we say |flush_string|. - -@d flush_string {@+decr(str_ptr);pool_ptr=str_start[str_ptr]; - } - -@ The following subroutine compares string |s| with another string of the -same length that appears in |buffer| starting at position |k|; -the result is |true| if and only if the strings are equal. -Empirical tests indicate that |str_eq_buf| is used in such a way that -it tends to return |true| about 80 percent of the time. - -@p static bool str_eq_buf(str_number @!s, int @!k) - /*test equality of strings*/ -{@+ /*loop exit*/ -pool_pointer j; /*running index*/ -bool @!result; /*result of comparison*/ -j=str_start[s]; -while (j < str_start[s+1]) - {@+if (so(str_pool[j])!=buffer[k]) - {@+result=false;goto not_found; - } - incr(j);incr(k); - } -result=true; -not_found: return result; -} - -@ Here is a similar routine, but it compares two strings in the string pool, -and it does not assume that they have the same length. - -@p static bool strn_eq_str(str_number @!s, str_number @!t) - /*test equality of strings*/ -{@+ /*loop exit*/ -pool_pointer j, @!k; /*running indices*/ -bool @!result; /*result of comparison*/ -result=false; -if (length(s)!=length(t)) goto not_found; -j=str_start[s];k=str_start[t]; -while (j < str_start[s+1]) - {@+if (str_pool[j]!=str_pool[k]) goto not_found; - incr(j);incr(k); - } -result=true; -not_found: return result; -} - -static bool str_eq_str(str_number @!s, char *@!t) - /*test equality of strings*/ -{@+int j, @!k; /*running indices*/ -if (length(s)!=(int)strlen(t)) return false; -j=str_start[s];k=0; -while (j < str_start[s+1]) - if (str_pool[j++]!=t[k++]) return false; -return true; -} - -@ The initial values of |str_pool|, |str_start|, |pool_ptr|, -and |str_ptr| are computed by the \.{INITEX} program, based in part -on the information that \.{WEB} has output while processing \TeX. -@.INITEX@> -@^string pool@> - -@p -static void get_strings_started(void) /*initializes the string pool*/ -{@+ -int k, @!l; /*small indices or counters*/ -pool_ptr=0;str_ptr=0;str_start[0]=0; -@<Make the first 256 strings@>; -@<Add the empty string to the string pool@>; -} - -@ @d app_lc_hex(A) l=A; - if (l < 10) append_char(l+'0')@;@+else append_char(l-10+'a') - -@<Make the first 256...@>= -for (k=0; k<=255; k++) - {@+if ((@<Character |k| cannot be printed@>)) - {@+append_char('^');append_char('^'); - if (k < 0100) append_char(k+0100)@; - else if (k < 0200) append_char(k-0100)@; - else{@+app_lc_hex(k/16);app_lc_hex(k%16); - } - } - else append_char(k); - make_string(); - } - -@ The first 128 strings will contain 95 standard ASCII characters, and the -other 33 characters will be printed in three-symbol form like `\.{\^\^A}' -unless a system-dependent change is made here. Installations that have -an extended character set, where for example |xchr[032]==@t\.{\'^^Z\'}@>|, -would like string 032 to be the single character 032 instead of the -three characters 0136, 0136, 0132 (\.{\^\^Z}). On the other hand, -even people with an extended character set will want to represent string -015 by \.{\^\^M}, since 015 is |carriage_return|; the idea is to -produce visible strings instead of tabs or line-feeds or carriage-returns -or bell-rings or characters that are treated anomalously in text files. - -Unprintable characters of codes 128--255 are, similarly, rendered -\.{\^\^80}--\.{\^\^ff}. - -The boolean expression defined here should be |true| unless \TeX\ -internal code number~|k| corresponds to a non-troublesome visible -symbol in the local character set. An appropriate formula for the -extended character set recommended in {\sl The \TeX book\/} would, for -example, be `|k in[0, 010 dotdot 012, 014, 015, 033, 0177 dotdot 0377]|'. -If character |k| cannot be printed, and |k < 0200|, then character |k+0100| or -|k-0100| must be printable; moreover, ASCII codes |[041 dotdot 046, -060 dotdot 071, 0136, 0141 dotdot 0146, 0160 dotdot 0171]| must be printable. -Thus, at least 80 printable characters are needed. -@:TeXbook}{\sl The \TeX book@> -@^character set dependencies@> -@^system dependencies@> - -@<Character |k| cannot be printed@>= - (k < ' ')||(k > '~') - -@ The |pool_file| variable is no longer needed and has been removed. - -@ Instead of reading the other strings from the \.{TEX.POOL} file, -it is sufficient here to add the empty string. -@<Add the empty string to the string pool@>= -make_string(); - -@ Without a string pool file there is no need for a pool check sum either. -But this is a convenient place to define the function |s_no| that will -add literal strings to the string pool at runtime, thereby obtaining their -string number. - -@p int s_no(const char *str) -{@+ - if (str[0]==0) return empty_string; - if (str[1]==0) return str[0]; - str_room(strlen(str)); - while (*str!=0) append_char(*str++); - return make_string(); -} - -@* On-line and off-line printing. -Messages that are sent to a user's terminal and to the transcript-log file -are produced by several `|print|' procedures. These procedures will -direct their output to a variety of places, based on the setting of -the global variable |selector|, which has the following possible -values: - -\yskip -\hang |term_and_log|, the normal setting, prints on the terminal and on the - transcript file. - -\hang |log_only|, prints only on the transcript file. - -\hang |term_only|, prints only on the terminal. - -\hang |no_print|, doesn't print at all. This is used only in rare cases - before the transcript file is open. - -\hang |pseudo|, puts output into a cyclic buffer that is used - by the |show_context| routine; when we get to that routine we shall discuss - the reasoning behind this curious mode. - -\hang |new_string|, appends the output to the current string in the - string pool. - -\hang 0 to 15, prints on one of the sixteen files for \.{\\write} output. - -\yskip -\noindent The symbolic names `|term_and_log|', etc., have been assigned -numeric codes that satisfy the convenient relations |no_print+1==term_only|, -|no_print+2==log_only|, |term_only+2==log_only+1==term_and_log|. - -Three additional global variables, |tally| and |term_offset| and -|file_offset|, record the number of characters that have been printed -since they were most recently cleared to zero. We use |tally| to record -the length of (possibly very long) stretches of printing; |term_offset| -and |file_offset|, on the other hand, keep track of how many characters -have appeared so far on the current line that has been output to the -terminal or to the transcript file, respectively. - -@d no_print 16 /*|selector| setting that makes data disappear*/ -@d term_only 17 /*printing is destined for the terminal only*/ -@d log_only 18 /*printing is destined for the transcript file only*/ -@d term_and_log 19 /*normal |selector| setting*/ -@d pseudo 20 /*special |selector| setting for |show_context|*/ -@d new_string 21 /*printing is deflected to the string pool*/ -@d max_selector 21 /*highest selector setting*/ - -@<Glob...@>= -static alpha_file @!log_file; /*transcript of \TeX\ session*/ -static int @!selector; /*where to print a message*/ -static int8_t @!dig[23]; /*digits in a number being output*/ -static int @!tally; /*the number of characters recently printed*/ -static int @!term_offset; - /*the number of characters on the current terminal line*/ -static int @!file_offset; - /*the number of characters on the current file line*/ -static ASCII_code @!trick_buf[error_line+1]; /*circular buffer for - pseudoprinting*/ -static int @!trick_count; /*threshold for pseudoprinting, explained later*/ -static int @!first_count; /*another variable for pseudoprinting*/ - -@ @<Initialize the output routines@>= -selector=term_only;tally=0;term_offset=0;file_offset=0; - -@ Macro abbreviations for output to the terminal and to the log file are -defined here for convenience. Some systems need special conventions -for terminal output, and it is possible to adhere to those conventions -by changing |wterm|, |wterm_ln|, and |wterm_cr| in this section. -@^system dependencies@> - -@<Basic printing procedures@>= -#define put(F) @[fwrite(&((F).d),sizeof((F).d),1,(F).f)@] -#define get(F) @[fread(&((F).d),sizeof((F).d),1,(F).f)@] - -#define pascal_close(F) @[fclose((F).f)@] -#define eof(F) @[feof((F).f)@] -#define eoln(F) @[((F).d=='\n'||eof(F))@] -#define erstat(F) @[((F).f==NULL?-1:ferror((F).f))@] - -#define pascal_read(F,X) @[((X)=(F).d,get(F))@] -#define read_ln(F) @[do get(F); while (!eoln(F))@] - -#define pascal_write(F, FMT,...) @[fprintf(F.f,FMT,## __VA_ARGS__)@] -#define write_ln(F,...) @[pascal_write(F,__VA_ARGS__"\n")@] - -#define wterm(FMT,...) @[pascal_write(term_out,FMT, ## __VA_ARGS__)@] -#define wterm_ln(FMT,...) @[wterm(FMT "\n", ## __VA_ARGS__)@] -#define wterm_cr @[pascal_write(term_out,"\n")@] -#define wlog(FMT, ...) @[pascal_write(log_file,FMT, ## __VA_ARGS__)@] -#define wlog_ln(FMT, ...) @[wlog(FMT "\n", ## __VA_ARGS__)@] -#define wlog_cr @[pascal_write(log_file,"\n")@] - -@ To end a line of text output, we call |print_ln|. - -@<Basic print...@>= -void print_ln(void) /*prints an end-of-line*/ -{@+switch (selector) { -case term_and_log: {@+wterm_cr;wlog_cr; - term_offset=0;file_offset=0; - } @+break; -case log_only: {@+wlog_cr;file_offset=0; - } @+break; -case term_only: {@+wterm_cr;term_offset=0; - } @+break; -case no_print: case pseudo: case new_string: do_nothing;@+break; -default:write_ln(write_file[selector]); -} @/ -} /*|tally| is not affected*/ - -@ The |print_char| procedure sends one character to the desired destination, -using the |xchr| array to map it into an external character compatible with -|input_ln|. All printing comes through |print_ln| or |print_char|. - -@<Basic printing...@>= -void print_char(ASCII_code @!s) /*prints a single character*/ -{@+ -if (@<Character |s| is the current new-line character@>) - if (selector < pseudo) - {@+print_ln();return; - } -switch (selector) { -case term_and_log: {@+wterm("%c",xchr[s]);wlog("%c",xchr[s]); - incr(term_offset);incr(file_offset); - if (term_offset==max_print_line) - {@+wterm_cr;term_offset=0; - } - if (file_offset==max_print_line) - {@+wlog_cr;file_offset=0; - } - } @+break; -case log_only: {@+wlog("%c",xchr[s]);incr(file_offset); - if (file_offset==max_print_line) print_ln(); - } @+break; -case term_only: {@+wterm("%c",xchr[s]);incr(term_offset); - if (term_offset==max_print_line) print_ln(); - } @+break; -case no_print: do_nothing;@+break; -case pseudo: if (tally < trick_count) trick_buf[tally%error_line]=s;@+break; -case new_string: {@+if (pool_ptr < pool_size) append_char(s); - } @+break; /*we drop characters if the string space is full*/ -default:pascal_write(write_file[selector],"%c", xchr[s]); -} @/ -incr(tally); -} - -@ An entire string is output by calling |print|. Note that if we are outputting -the single standard ASCII character \.c, we could call |print('c')|, since -|'c'==99| is the number of a single-character string, as explained above. But -|print_char('c')| is quicker, so \TeX\ goes directly to the |print_char| -routine when it knows that this is safe. (The present implementation -assumes that it is always safe to print a visible ASCII character.) -@^system dependencies@> - -@<Basic print...@>= -void print(char *s) /* the simple version */ -{ while (*s!=0) print_char(*s++);@+ -} - -static void printn(int @!s) /*prints string |s|*/ -{@+ -pool_pointer j; /*current character code position*/ -int @!nl; /*new-line character to restore*/ -if (s >= str_ptr) {print("???"); return;}/*this can't happen*/ -@.???@> -else if (s < 256) - if (s < 0) { print("???");return; } /*can't happen*/ - else{@+if (selector > pseudo) - {@+print_char(s);return; /*internal strings are not expanded*/ - } - if ((@<Character |s| is the current new-line character@>)) - if (selector < pseudo) - {@+print_ln();return; - } - nl=new_line_char;new_line_char=-1; - /*temporarily disable new-line character*/ - j=str_start[s]; - while (j < str_start[s+1]) - {@+print_char(so(str_pool[j]));incr(j); - } - new_line_char=nl;return; - } -j=str_start[s]; -while (j < str_start[s+1]) - {@+print_char(so(str_pool[j]));incr(j); - } -} - -@ Control sequence names, file names, and strings constructed with -\.{\\string} might contain |ASCII_code| values that can't -be printed using |print_char|. Therefore we use |slow_print| for them: - -@<Basic print...@>= -static void slow_print(int @!s) /*prints string |s|*/ -{@+pool_pointer j; /*current character code position*/ -if ((s >= str_ptr)||(s < 256)) printn(s); -else{@+j=str_start[s]; - while (j < str_start[s+1]) - {@+printn(so(str_pool[j]));incr(j); - } - } -} - -@ Here is the very first thing that \TeX\ prints: a headline that identifies -the version number and format package. The |term_offset| variable is temporarily -incorrect, but the discrepancy is not serious since we assume that this -part of the program is system dependent. -@^system dependencies@> - -k\TeX, according to the conventions of \TeX\ Live, - prints the |dump_name| if no format identifier is known. -@<Initialize the output...@>= -wterm("%s",banner); -if (format_ident==0) wterm_ln(" (preloaded format=%s)", dump_name); -else{@+slow_print(format_ident);print_ln(); - } -update_terminal; - -@ The procedure |print_nl| is like |print|, but it makes sure that the -string appears at the beginning of a new line. - -@<Basic print...@>= -void print_nl(char *@!s) /*prints string |s| at beginning of line*/ -{@+if (((term_offset > 0)&&(odd(selector)))||@| - ((file_offset > 0)&&(selector >= log_only))) print_ln(); -print(s); -} - -@ The procedure |print_esc| prints a string that is preceded by -the user's escape character (which is usually a backslash). - -@<Basic print...@>= -static void printn_esc(str_number @!s) /*prints escape character, then |s|*/ -{@+int c; /*the escape character code*/ -@<Set variable |c| to the current escape character@>; -if (c >= 0) if (c < 256) printn(c); -slow_print(s); -} - -static void print_esc(char *@!s) /*the fast way*/ -{@+int c; /*the escape character code*/ -@<Set variable |c| to the current escape character@>; -if (c >= 0) if (c < 256) printn(c); -print(s); -} - -@ An array of digits in the range |0 dotdot 15| is printed by |print_the_digs|. - -@<Basic print...@>= -static void print_the_digs(eight_bits @!k) - /*prints |dig[k-1]|$\,\ldots\,$|dig[0]|*/ -{@+while (k > 0) - {@+decr(k); - if (dig[k] < 10) print_char('0'+dig[k]); - else print_char('A'-10+dig[k]); - } -} - -@ The following procedure, which prints out the decimal representation of a -given integer |n|, has been written carefully so that it works properly -if |n==0| or if |(-n)| would cause overflow. It does not apply |%| or |/| -to negative arguments, since such operations are not implemented consistently -by all \PASCAL\ compilers. - -@<Basic print...@>= -void print_int(int @!n) /*prints an integer in decimal form*/ -{@+int k; /*index to current digit; we assume that $\vert n\vert<10^{23}$*/ -int @!m; /*used to negate |n| in possibly dangerous cases*/ -k=0; -if (n < 0) - {@+print_char('-'); - if (n > -100000000) negate(n); - else{@+m=-1-n;n=m/10;m=(m%10)+1;k=1; - if (m < 10) dig[0]=m; - else{@+dig[0]=0;incr(n); - } - } - } -@/do@+{dig[k]=n%10;n=n/10;incr(k); -}@+ while (!(n==0)); -print_the_digs(k); -} - -@ Here is a trivial procedure to print two digits; it is usually called with -a parameter in the range |0 <= n <= 99|. - -@p static void print_two(int @!n) /*prints two least significant digits*/ -{@+n=abs(n)%100;print_char('0'+(n/10)); -print_char('0'+(n%10)); -} - -@ Hexadecimal printing of nonnegative integers is accomplished by |print_hex|. - -@p static void print_hex(int @!n) - /*prints a positive integer in hexadecimal form*/ -{@+int k; /*index to current digit; we assume that $0\le n<16^{22}$*/ -k=0;print_char('"'); -@/do@+{dig[k]=n%16;n=n/16;incr(k); -}@+ while (!(n==0)); -print_the_digs(k); -} - -@ Old versions of \TeX\ needed a procedure called |print_ASCII| whose function -is now subsumed by |print|. We retain the old name here as a possible aid to -future software arch\ae ologists. - -@d print_ASCII printn - -@ Roman numerals are produced by the |print_roman_int| routine. Readers -who like puzzles might enjoy trying to figure out how this tricky code -works; therefore no explanation will be given. Notice that 1990 yields -\.{mcmxc}, not \.{mxm}. - -@p static void print_roman_int(int @!n) -{@+ -pool_pointer j, @!k; /*mysterious indices into |mystery|*/ -nonnegative_integer @!u, @!v; /*mysterious numbers*/ -const char mystery[] ="m2d5c2l5x2v5i"; -j=0;v=1000; -loop@+{@+while (n >= v) - {@+print_char(so(mystery[j]));n=n-v; - } - if (n <= 0) return; /*nonpositive input produces no output*/ - k=j+2;u=v/(so(mystery[k-1])-'0'); - if (mystery[k-1]==si('2')) - {@+k=k+2;u=u/(so(mystery[k-1])-'0'); - } - if (n+u >= v) - {@+print_char(so(mystery[k]));n=n+u; - } - else{@+j=j+2;v=v/(so(mystery[j-1])-'0'); - } - } -} - -@ The |print| subroutine will not print a string that is still being -created. The following procedure will. - -@p static void print_current_string(void) /*prints a yet-unmade string*/ -{@+pool_pointer j; /*points to current character code*/ -j=str_start[str_ptr]; -while (j < pool_ptr) - {@+print_char(so(str_pool[j]));incr(j); - } -} - -@ Here is a procedure that asks the user to type a line of input, -assuming that the |selector| setting is either |term_only| or |term_and_log|. -The input is placed into locations |first| through |last-1| of the -|buffer| array, and echoed on the transcript file if appropriate. - -This procedure is never called when |interaction < scroll_mode|. - -@d prompt_input(A) {@+wake_up_terminal;print(A);term_input(); - } /*prints a string and gets a line of input*/ - -@p static void term_input(void) /*gets a line from the terminal*/ -{@+int k; /*index into |buffer|*/ -update_terminal; /*now the user sees the prompt for sure*/ -if (!input_ln(&term_in, true)) fatal_error("End of file on the terminal!"); -@.End of file on the terminal@> -term_offset=0; /*the user's line ended with \<\rm return>*/ -decr(selector); /*prepare to echo the input*/ -if (last!=first) for (k=first; k<=last-1; k++) printn(buffer[k]); -print_ln();incr(selector); /*restore previous status*/ -} - -@* Reporting errors. -When something anomalous is detected, \TeX\ typically does something like this: -$$\vbox{\halign{#\hfil\cr -|print_err("Something anomalous has been detected");|\cr -|help3("This is the first line of my offer to help.")|\cr -|("This is the second line. I'm trying to")|\cr -|("explain the best way for you to proceed.");|\cr -|error;|\cr}}$$ -A two-line help message would be given using |help2|, etc.; these informal -helps should use simple vocabulary that complements the words used in the -official error message that was printed. (Outside the U.S.A., the help -messages should preferably be translated into the local vernacular. Each -line of help is at most 60 characters long, in the present implementation, -so that |max_print_line| will not be exceeded.) - -The |print_err| procedure supplies a `\.!' before the official message, -and makes sure that the terminal is awake if a stop is going to occur. -The |error| procedure supplies a `\..' after the official message, then it -shows the location of the error; and if |interaction==error_stop_mode|, -it also enters into a dialog with the user, during which time the help -message may be printed. -@^system dependencies@> - -@<Error handling...@>= -void print_err(char *s) -{@+if (interaction==error_stop_mode) wake_up_terminal; - if (filelineerrorstylep) print_file_line(); /* k\TeX\ */ - else print_nl("! "); - print(s); -} - -@ The global variable |interaction| has four settings, representing increasing -amounts of user interaction: - -@d batch_mode 0 /*omits all stops and omits terminal output*/ -@d nonstop_mode 1 /*omits all stops*/ -@d scroll_mode 2 /*omits error stops*/ -@d error_stop_mode 3 /*stops at every opportunity to interact*/ - -@<Glob...@>= -int @!interaction; /*current level of interaction*/ - -@ @<Set init...@>=interaction=error_stop_mode; - -@ \TeX\ is careful not to call |error| when the print |selector| setting -might be unusual. The only possible values of |selector| at the time of -error messages are - -\yskip\hang|no_print| (when |interaction==batch_mode| - and |log_file| not yet open); - -\hang|term_only| (when |interaction > batch_mode| and |log_file| not yet open); - -\hang|log_only| (when |interaction==batch_mode| and |log_file| is open); - -\hang|term_and_log| (when |interaction > batch_mode| and |log_file| is open). - -@<Initialize the print |selector| based on |interaction|@>= -if (interaction==batch_mode) selector=no_print;@+else selector=term_only - -@ A global variable |deletions_allowed| is set |false| if the |get_next| -routine is active when |error| is called; this ensures that |get_next| -and related routines like |get_token| will never be called recursively. -A similar interlock is provided by |set_box_allowed|. -@^recursion@> - -The global variable |history| records the worst level of error that -has been detected. It has four possible values: |spotless|, |warning_issued|, -|error_message_issued|, and |fatal_error_stop|. - -Another global variable, |error_count|, is increased by one when an -|error| occurs without an interactive dialog, and it is reset to zero at -the end of every paragraph. If |error_count| reaches 100, \TeX\ decides -that there is no point in continuing further. - -@d spotless 0 /*|history| value when nothing has been amiss yet*/ -@d warning_issued 1 /*|history| value when |begin_diagnostic| has been called*/ -@d error_message_issued 2 /*|history| value when |error| has been called*/ -@d fatal_error_stop 3 /*|history| value when termination was premature*/ - -@<Glob...@>= -static bool @!deletions_allowed; /*is it safe for |error| to call |get_token|?*/ -static bool @!set_box_allowed; /*is it safe to do a \.{\\setbox} assignment?*/ -static int @!history; /*has the source input been clean so far?*/ -static int @!error_count; /*the number of scrolled errors since the - last paragraph ended*/ - -@ The value of |history| is initially |fatal_error_stop|, but it will -be changed to |spotless| if \TeX\ survives the initialization process. - -@<Set init...@>= -deletions_allowed=true;set_box_allowed=true; -error_count=0; /*|history| is initialized elsewhere*/ - -@ Since errors can be detected almost anywhere in \TeX, we want to declare the -error procedures near the beginning of the program. But the error procedures -in turn use some other procedures, which need to be declared |forward| -before we get to |error| itself. - -It is possible for |error| to be called recursively if some error arises -when |get_token| is being used to delete a token, and/or if some fatal error -occurs while \TeX\ is trying to fix a non-fatal one. But such recursion -@^recursion@> -is never more than two levels deep. - -@<Error handling...@>= -static void normalize_selector(void);@/ -static void get_token(void);@/ -static void term_input(void);@/ -static void show_context(void);@/ -static void begin_file_reading(void);@/ -void open_log_file(void);@/ -static void close_files_and_terminate(void);@/ -static void clear_for_error_prompt(void);@/ -static void give_err_help(void);@/ -#ifdef @!DEBUG -static void debug_help(void); -#else -#define debug_help() do_nothing -#endif - -@ Individual lines of help are recorded in the array |help_line|, which -contains entries in positions |0 dotdot(help_ptr-1)|. They should be printed -in reverse order, i.e., with |help_line[0]| appearing last. - -@d hlp1(A) help_line[0]=A;@+} -@d hlp2(A, B) help_line[1]=A;help_line[0]=B;@+} -@d hlp3(A, B, C) help_line[2]=A;help_line[1]=B;help_line[0]=C;@+} -@d hlp4(A, B, C, D) help_line[3]=A;help_line[2]=B;help_line[1]=C;help_line[0]=D;@+} -@d hlp5(A, B, C, D, E) help_line[4]=A;help_line[3]=B;help_line[2]=C;help_line[1]=D;help_line[0]=E;@+} -@d hlp6(A, B, C, D, E, F) help_line[5]=A;help_line[4]=B;help_line[3]=C;help_line[2]=D;help_line[1]=E;help_line[0]=F;@+} -@d help0 help_ptr=0 /*sometimes there might be no help*/ -@d help1(A) @+{@+help_ptr=1;hlp1(A) /*use this with one help line*/ -@d help2(A, B) @+{@+help_ptr=2;hlp2(A, B) /*use this with two help lines*/ -@d help3(A, B, C) @+{@+help_ptr=3;hlp3(A, B, C) /*use this with three help lines*/ -@d help4(A, B, C, D) @+{@+help_ptr=4;hlp4(A, B, C, D) /*use this with four help lines*/ -@d help5(A, B, C, D, E) @+{@+help_ptr=5;hlp5(A, B, C, D, E) /*use this with five help lines*/ -@d help6(A, B, C, D, E, F) @+{@+help_ptr=6;hlp6(A, B, C, D, E, F) /*use this with six help lines*/ - -@<Glob...@>= -static char *@!help_line[6]; /*helps for the next |error|*/ -static int @!help_ptr; /*the number of help lines present*/ -static bool @!use_err_help; /*should the |err_help| list be shown?*/ - -@ @<Set init...@>= -help_ptr=0;use_err_help=false; - -@ The |jump_out| procedure just cuts across all active procedure levels and -goes to |end_of_TEX|. This is the only nontrivial |@!goto| statement in the -whole program. It is used when there is no recovery from a particular error. - -Some \PASCAL\ compilers do not implement non-local |goto| statements. -@^system dependencies@> -In such cases the body of |jump_out| should simply be -`|close_files_and_terminate|;\thinspace' followed by a call on some system -procedure that quietly terminates the program. - -@<Error hand...@>= -static void jump_out(void) -{@+ close_files_and_terminate(); exit(0); -} - -@ Here now is the general |error| routine. - -@<Error hand...@>= -static void error(void) /*completes the job of error reporting*/ -{@+ -ASCII_code c; /*what the user types*/ -int @!s1, @!s2, @!s3, @!s4; - /*used to save global variables when deleting tokens*/ -if (history < error_message_issued) history=error_message_issued; -print_char('.');show_context(); -if (interaction==error_stop_mode) - @<Get user's advice and |return|@>; -incr(error_count); -if (error_count==100) - {@+print_nl("(That makes 100 errors; please try again.)"); -@.That makes 100 errors...@> - history=fatal_error_stop;jump_out(); - } -@<Put help message on the transcript file@>; -} - -@ @<Get user's advice...@>= -loop@+{@+resume: if (interaction!=error_stop_mode) return; - clear_for_error_prompt();prompt_input("? "); -@.?\relax@> - if (last==first) return; - c=buffer[first]; - if (c >= 'a') c=c+'A'-'a'; /*convert to uppercase*/ - @<Interpret code |c| and |return| if done@>; - } - -@ It is desirable to provide an `\.E' option here that gives the user -an easy way to return from \TeX\ to the system editor, with the offending -line ready to be edited. But such an extension requires some system -wizardry, so the present implementation simply types out the name of the -file that should be -edited and the relevant line number. -@^system dependencies@> - -There is a secret `\.D' option available when the debugging routines haven't -been commented~out. -@^debugging@> - -@<Interpret code |c| and |return| if done@>= -switch (c) { -case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (deletions_allowed) - @<Delete \(c)|c-"0"| tokens and |goto continue|@>@;@+break; -@t\4\4@>@; -#ifdef @!DEBUG -case 'D': {@+debug_help();goto resume;@+} -#endif -case 'E': if (base_ptr > 0) if (input_stack[base_ptr].name_field >= 256) - {@+print_nl("You want to edit file "); -@.You want to edit file x@> - slow_print(input_stack[base_ptr].name_field); - print(" at line ");print_int(line); - interaction=scroll_mode;jump_out(); - } @+break; -case 'H': @<Print the help information and |goto continue|@>@; -case 'I': @<Introduce new material from the terminal and |return|@>@; -case 'Q': case 'R': case 'S': @<Change the interaction level and |return|@>@; -case 'X': {@+interaction=scroll_mode;jump_out(); - } @+break; -default:do_nothing; -} @/ -@<Print the menu of available options@>@; - -@ @<Print the menu...@>= -{@+print("Type <return> to proceed, S to scroll future error messages,");@/ -@.Type <return> to proceed...@> -print_nl("R to run without stopping, Q to run quietly,");@/ -print_nl("I to insert something, "); -if (base_ptr > 0) if (input_stack[base_ptr].name_field >= 256) - print("E to edit your file,"); -if (deletions_allowed) - print_nl("1 or ... or 9 to ignore the next 1 to 9 tokens of input,"); -print_nl("H for help, X to quit."); -} - -@ Here the author of \TeX\ apologizes for making use of the numerical -relation between |'Q'|, |'R'|, |'S'|, and the desired interaction settings -|batch_mode|, |nonstop_mode|, |scroll_mode|. -@^Knuth, Donald Ervin@> - -@<Change the interaction...@>= -{@+error_count=0;interaction=batch_mode+c-'Q'; -print("OK, entering "); -switch (c) { -case 'Q': {@+print_esc("batchmode");decr(selector); - } @+break; -case 'R': print_esc("nonstopmode");@+break; -case 'S': print_esc("scrollmode"); -} /*there are no other cases*/ -print("...");print_ln();update_terminal;return; -} - -@ When the following code is executed, |buffer[(first+1)dotdot(last-1)]| may -contain the material inserted by the user; otherwise another prompt will -be given. In order to understand this part of the program fully, you need -to be familiar with \TeX's input stacks. - -@<Introduce new material...@>= -{@+begin_file_reading(); /*enter a new syntactic level for terminal input*/ - /*now |state==mid_line|, so an initial blank space will count as a blank*/ -if (last > first+1) - {@+loc=first+1;buffer[first]=' '; - } -else{@+prompt_input("insert>");loc=first; -@.insert>@> - } -first=last; -cur_input.limit_field=last-1; /*no |end_line_char| ends this line*/ -return; -} - -@ We allow deletion of up to 99 tokens at a time. - -@<Delete \(c)|c-"0"| tokens...@>= -{@+s1=cur_tok;s2=cur_cmd;s3=cur_chr;s4=align_state; -align_state=1000000;OK_to_interrupt=false; -if ((last > first+1)&&(buffer[first+1] >= '0')&&(buffer[first+1] <= '9')) - c=c*10+buffer[first+1]-'0'*11; -else c=c-'0'; -while (c > 0) - {@+get_token(); /*one-level recursive call of |error| is possible*/ - decr(c); - } -cur_tok=s1;cur_cmd=s2;cur_chr=s3;align_state=s4;OK_to_interrupt=true; -help2("I have just deleted some text, as you asked.",@/ -"You can now delete more, or insert, or whatever."); -show_context();goto resume; -} - -@ @<Print the help info...@>= -{@+if (use_err_help) - {@+give_err_help();use_err_help=false; - } -else{@+if (help_ptr==0) - help2("Sorry, I don't know how to help in this situation.",@/ - @t\kern1em@>"Maybe you should try asking a human?"); - @/do@+{decr(help_ptr);print(help_line[help_ptr]);print_ln(); - }@+ while (!(help_ptr==0)); - } -help4("Sorry, I already gave what help I could...",@/ - "Maybe you should try asking a human?",@/ - "An error might have occurred before I noticed any problems.",@/ - "``If all else fails, read the instructions.'");@/ -goto resume; -} - -@ @<Put help message on the transcript file@>= -if (interaction > batch_mode) decr(selector); /*avoid terminal output*/ -if (use_err_help) - {@+print_ln();give_err_help(); - } -else while (help_ptr > 0) - {@+decr(help_ptr);print_nl(help_line[help_ptr]); - } -print_ln(); -if (interaction > batch_mode) incr(selector); /*re-enable terminal output*/ -print_ln() - -@ A dozen or so error messages end with a parenthesized integer, so we -save a teeny bit of program space by declaring the following procedure: - -@p static void int_error(int @!n) -{@+print(" (");print_int(n);print_char(')');error(); -} - -@ In anomalous cases, the print selector might be in an unknown state; -the following subroutine is called to fix things just enough to keep -running a bit longer. - -@p static void normalize_selector(void) -{@+if (log_opened) selector=term_and_log; -else selector=term_only; -if (job_name==0) open_log_file(); -if (interaction==batch_mode) decr(selector); -} - -@ The following procedure prints \TeX's last words before dying. - -@d succumb {@+if (interaction==error_stop_mode) - interaction=scroll_mode; /*no more interaction*/ - if (log_opened) error(); - if (interaction > batch_mode) debug_help(); - history=fatal_error_stop;jump_out(); /*irrecoverable error*/ - } - -@<Error hand...@>= -void fatal_error(char *@!s) /*prints |s|, and that's it*/ -{@+normalize_selector();@/ -print_err("Emergency stop");help1(s);succumb; -@.Emergency stop@> -} - -@ Here is the most dreaded error message. - -@<Error hand...@>= -void overflow(char *@!s, int @!n) /*stop due to finiteness*/ -{@+normalize_selector(); -print_err("TeX capacity exceeded, sorry ["); -@.TeX capacity exceeded ...@> -print(s);print_char('=');print_int(n);print_char(']'); -help2("If you really absolutely need more capacity,",@/ - "you can ask a wizard to enlarge me."); -succumb; -} - -@ The program might sometime run completely amok, at which point there is -no choice but to stop. If no previous error has been detected, that's bad -news; a message is printed that is really intended for the \TeX\ -maintenance person instead of the user (unless the user has been -particularly diabolical). The index entries for `this can't happen' may -help to pinpoint the problem. -@^dry rot@> - -@<Error hand...@>= -void confusion(char *@!s) - /*consistency check violated; |s| tells where*/ -{@+normalize_selector(); -if (history < error_message_issued) - {@+print_err("This can't happen (");print(s);print_char(')'); -@.This can't happen@> - help1("I'm broken. Please show this to someone who can fix can fix"); - } -else{@+print_err("I can't go on meeting you like this"); -@.I can't go on...@> - help2("One of your faux pas seems to have wounded me deeply...",@/ - "in fact, I'm barely conscious. Please fix it and try again."); - } -succumb; -} - -@ Users occasionally want to interrupt \TeX\ while it's running. -If the \PASCAL\ runtime system allows this, one can implement -a routine that sets the global variable |interrupt| to some nonzero value -when such an interrupt is signalled. Otherwise there is probably at least -a way to make |interrupt| nonzero using the \PASCAL\ debugger. -@^system dependencies@> -@^debugging@> - -@d check_interrupt {@+if (interrupt!=0) pause_for_instructions(); - } - -@<Global...@>= -static int @!interrupt; /*should \TeX\ pause for instructions?*/ -static bool @!OK_to_interrupt; /*should interrupts be observed?*/ - -@ @<Set init...@>= -interrupt=0;OK_to_interrupt=true; - -@ When an interrupt has been detected, the program goes into its -highest interaction level and lets the user have nearly the full flexibility of -the |error| routine. \TeX\ checks for interrupts only at times when it is -safe to do this. - -@p static void pause_for_instructions(void) -{@+if (OK_to_interrupt) - {@+interaction=error_stop_mode; - if ((selector==log_only)||(selector==no_print)) - incr(selector); - print_err("Interruption"); -@.Interruption@> - help3("You rang?",@/ - "Try to insert an instruction for me (e.g., `I\\showlists'),",@/ - "unless you just want to quit by typing `X'."); - deletions_allowed=false;error();deletions_allowed=true; - interrupt=0; - } -} - -@* Arithmetic with scaled dimensions. -The principal computations performed by \TeX\ are done entirely in terms of -integers less than $2^{31}$ in magnitude; and divisions are done only when both -dividend and divisor are nonnegative. Thus, the arithmetic specified in this -program can be carried out in exactly the same way on a wide variety of -computers, including some small ones. Why? Because the arithmetic -calculations need to be spelled out precisely in order to guarantee that -\TeX\ will produce identical output on different machines. If some -quantities were rounded differently in different implementations, we would -find that line breaks and even page breaks might occur in different places. -Hence the arithmetic of \TeX\ has been designed with care, and systems that -claim to be implementations of \TeX82 should follow precisely the -@:TeX82}{\TeX82@> -calculations as they appear in the present program. - -(Actually there are three places where \TeX\ uses |/| with a possibly negative -numerator. These are harmless; see |/| in the index. Also if the user -sets the \.{\\time} or the \.{\\year} to a negative value, some diagnostic -information will involve negative-numerator division. The same remarks -apply for |%| as well as for |/|.) - -@ Here is a routine that calculates half of an integer, using an -unambiguous convention with respect to signed odd numbers. - -@p static int half(int @!x) -{@+if (odd(x)) return(x+1)/2; -else return x/2; -} - -@ Fixed-point arithmetic is done on {\sl scaled integers\/} that are multiples -of $2^{-16}$. In other words, a binary point is assumed to be sixteen bit -positions from the right end of a binary computer word. - -@d unity 0200000 /*$2^{16}$, represents 1.00000*/ -@d two 0400000 /*$2^{17}$, represents 2.00000*/ - -@<Types...@>= -typedef int scaled; /*this type is used for scaled integers*/ -typedef int32_t nonnegative_integer; /*$0\le x<2^{31}$*/ -typedef int8_t small_number; /*this type is self-explanatory*/ - -@ The following function is used to create a scaled integer from a given decimal -fraction $(.d_0d_1\ldots d_{k-1})$, where |0 <= k <= 17|. The digit $d_i$ is -given in |dig[i]|, and the calculation produces a correctly rounded result. - -@p static scaled round_decimals(small_number @!k) - /*converts a decimal fraction*/ -{@+int a; /*the accumulator*/ -a=0; -while (k > 0) - {@+decr(k);a=(a+dig[k]*two)/10; - } -return(a+1)/2; -} - -@ Conversely, here is a procedure analogous to |print_int|. If the output -of this procedure is subsequently read by \TeX\ and converted by the -|round_decimals| routine above, it turns out that the original value will -be reproduced exactly; the ``simplest'' such decimal number is output, -but there is always at least one digit following the decimal point. - -The invariant relation in the \&{repeat} loop is that a sequence of -decimal digits yet to be printed will yield the original number if and only if -they form a fraction~$f$ in the range $s-\delta\le 10\cdot2^{16}f<s$. -We can stop if and only if $f=0$ satisfies this condition; the loop will -terminate before $s$ can possibly become zero. - -@p void print_scaled(scaled @!s) /*prints scaled real, rounded to five - digits*/ -{@+scaled delta; /*amount of allowable inaccuracy*/ -if (s < 0) - {@+print_char('-');negate(s); /*print the sign, if negative*/ - } -print_int(s/unity); /*print the integer part*/ -print_char('.'); -s=10*(s%unity)+5;delta=10; -@/do@+{if (delta > unity) s=s+0100000-50000; /*round the last digit*/ -print_char('0'+(s/unity));s=10*(s%unity);delta=delta*10; -}@+ while (!(s <= delta)); -} - -@ Physical sizes that a \TeX\ user specifies for portions of documents are -represented internally as scaled points. Thus, if we define an `sp' (scaled -@^sp@> -point) as a unit equal to $2^{-16}$ printer's points, every dimension -inside of \TeX\ is an integer number of sp. There are exactly -4,736,286.72 sp per inch. Users are not allowed to specify dimensions -larger than $2^{30}-1$ sp, which is a distance of about 18.892 feet (5.7583 -meters); two such quantities can be added without overflow on a 32-bit -computer. - -The present implementation of \TeX\ does not check for overflow when -@^overflow in arithmetic@> -dimensions are added or subtracted. This could be done by inserting a -few dozen tests of the form `\ignorespaces|if (x >= 010000000000)| -\\{report\_overflow}', but the chance of overflow is so remote that -such tests do not seem worthwhile. - -\TeX\ needs to do only a few arithmetic operations on scaled quantities, -other than addition and subtraction, and the following subroutines do most of -the work. A single computation might use several subroutine calls, and it is -desirable to avoid producing multiple error messages in case of arithmetic -overflow; so the routines set the global variable |arith_error| to |true| -instead of reporting errors directly to the user. Another global variable, -|rem|, holds the remainder after a division. - -@<Glob...@>= -static bool @!arith_error; /*has arithmetic overflow occurred recently?*/ -static scaled @!rem; /*amount subtracted to get an exact division*/ - -@ The first arithmetical subroutine we need computes $nx+y$, where |x| -and~|y| are |scaled| and |n| is an integer. We will also use it to -multiply integers. - -@d nx_plus_y(A, B, C) mult_and_add(A, B, C, 07777777777) -@d mult_integers(A, B) mult_and_add(A, B, 0, 017777777777) - -@p static scaled mult_and_add(int @!n, scaled @!x, scaled @!y, scaled @!max_answer) -{@+if (n < 0) - {@+negate(x);negate(n); - } -if (n==0) return y; -else if (((x <= (max_answer-y)/n)&&(-x <= (max_answer+y)/n))) - return n*x+y; -else{@+arith_error=true;return 0; - } -} - -@ We also need to divide scaled dimensions by integers. - -@p static scaled x_over_n(scaled @!x, int @!n) -{@+bool negative; /*should |rem| be negated?*/ -scaled x_over_n; -negative=false; -if (n==0) - {@+arith_error=true;x_over_n=0;rem=x; - } -else{@+if (n < 0) - {@+negate(x);negate(n);negative=true; - } - if (x >= 0) - {@+x_over_n=x/n;rem=x%n; - } - else{@+x_over_n=-((-x)/n);rem=-((-x)%n); - } - } -if (negative) negate(rem); -return x_over_n;} - -@ Then comes the multiplication of a scaled number by a fraction |n/(double)d|, -where |n| and |d| are nonnegative integers | <= @t$2^{16}$@>| and |d| is -positive. It would be too dangerous to multiply by~|n| and then divide -by~|d|, in separate operations, since overflow might well occur; and it -would be too inaccurate to divide by |d| and then multiply by |n|. Hence -this subroutine simulates 1.5-precision arithmetic. - -@p static scaled xn_over_d(scaled @!x, int @!n, int @!d) -{@+bool positive; /*was |x >= 0|?*/ -nonnegative_integer @!t, @!u, @!v; /*intermediate quantities*/ -scaled xn_over_d; -if (x >= 0) positive=true; -else{@+negate(x);positive=false; - } -t=(x%0100000)*n; -u=(x/0100000)*n+(t/0100000); -v=(u%d)*0100000+(t%0100000); -if (u/d >= 0100000) arith_error=true; -else u=0100000*(u/d)+(v/d); -if (positive) - {@+xn_over_d=u;rem=v%d; - } -else{@+xn_over_d=-u;rem=-(v%d); - } -return xn_over_d;} - -@ The next subroutine is used to compute the ``badness'' of glue, when a -total~|t| is supposed to be made from amounts that sum to~|s|. According -to {\sl The \TeX book}, the badness of this situation is $100(t/s)^3$; -however, badness is simply a heuristic, so we need not squeeze out the -last drop of accuracy when computing it. All we really want is an -approximation that has similar properties. -@:TeXbook}{\sl The \TeX book@> - -The actual method used to compute the badness is easier to read from the -program than to describe in words. It produces an integer value that is a -reasonably close approximation to $100(t/s)^3$, and all implementations -of \TeX\ should use precisely this method. Any badness of $2^{13}$ or more is -treated as infinitely bad, and represented by 10000. - -It is not difficult to prove that $$\hbox{|badness(t+1, s) >= badness(t, s) - >= badness(t, s+1)|}.$$ The badness function defined here is capable of -computing at most 1095 distinct values, but that is plenty. - -@d inf_bad 10000 /*infinitely bad value*/ - -@p halfword badness(scaled @!t, scaled @!s) /*compute badness, given |t >= 0|*/ -{@+int r; /*approximation to $\alpha t/s$, where $\alpha^3\approx - 100\cdot2^{18}$*/ -if (t==0) return 0; -else if (s <= 0) return inf_bad; -else{@+if (t <= 7230584) r=(t*297)/s; /*$297^3=99.94\times2^{18}$*/ - else if (s >= 1663497) r=t/(s/297); - else r=t; - if (r > 1290) return inf_bad; /*$1290^3<2^{31}<1291^3$*/ - else return(r*r*r+0400000)/01000000; - } /*that was $r^3/2^{18}$, rounded to the nearest integer*/ -} - -@ When \TeX\ ``packages'' a list into a box, it needs to calculate the -proportionality ratio by which the glue inside the box should stretch -or shrink. This calculation does not affect \TeX's decision making, -so the precise details of rounding, etc., in the glue calculation are not -of critical importance for the consistency of results on different computers. - -We shall use the type |glue_ratio| for such proportionality ratios. -A glue ratio should take the same amount of memory as an -|int| (usually 32 bits) if it is to blend smoothly with \TeX's -other data structures. Thus |glue_ratio| should be equivalent to -|short_real| in some implementations of \PASCAL. Alternatively, -it is possible to deal with glue ratios using nothing but fixed-point -arithmetic; see {\sl TUGboat \bf3},1 (March 1982), 10--27. (But the -routines cited there must be modified to allow negative glue ratios.) -@^system dependencies@> - -@d set_glue_ratio_zero(A) A=0.0 /*store the representation of zero ratio*/ -@d set_glue_ratio_one(A) A=1.0 /*store the representation of unit ratio*/ -@d float(A) ((double)(A)) /*convert from |glue_ratio| to type |double|*/ -@d unfloat(A) ((glue_ratio)(A)) /*convert from |double| to type |glue_ratio|*/ -@d float_constant(A) ((double)(A)) /*convert |int| constant to |double|*/ - -@<Types...@>= -#if __SIZEOF_FLOAT__==4 -typedef float float32_t; -#else -#error float type must have size 4 -#endif -typedef float @!glue_ratio; /*one-word representation of a glue expansion factor*/ - -@* Packed data. -In order to make efficient use of storage space, \TeX\ bases its major data -structures on a |memory_word|, which contains either a (signed) integer, -possibly scaled, or a (signed) |glue_ratio|, or a small number of -fields that are one half or one quarter of the size used for storing -integers. - -If |x| is a variable of type |memory_word|, it contains up to four -fields that can be referred to as follows: -$$\vbox{\halign{\hfil#&#\hfil&#\hfil\cr -|x|&.|i|&(an |int|)\cr -|x|&.|sc|\qquad&(a |scaled| integer)\cr -|x|&.|gr|&(a |glue_ratio|)\cr -|x.hh.lh|, |x.hh|&.|rh|&(two halfword fields)\cr -|x.hh.b0|, |x.hh.b1|, |x.hh|&.|rh|&(two quarterword fields, one halfword - field)\cr -|x.qqqq.b0|, |x.qqqq.b1|, |x.qqqq|&.|b2|, |x.qqqq.b3|\hskip-100pt - &\qquad\qquad\qquad(four quarterword fields)\cr}}$$ -This is somewhat cumbersome to write, and not very readable either, but -macros will be used to make the notation shorter and more transparent. -The \PASCAL\ code below gives a formal definition of |memory_word| and -its subsidiary types, using packed variant records. \TeX\ makes no -assumptions about the relative positions of the fields within a word. - -Since we are assuming 32-bit integers, a halfword must contain at least -16 bits, and a quarterword must contain at least 8 bits. -@^system dependencies@> -But it doesn't hurt to have more bits; for example, with enough 36-bit -words you might be able to have |mem_max| as large as 262142, which is -eight times as much memory as anybody had during the first four years of -\TeX's existence. - -N.B.: Valuable memory space will be dreadfully wasted unless \TeX\ is compiled -by a \PASCAL\ that packs all of the |memory_word| variants into -the space of a single integer. This means, for example, that |glue_ratio| -words should be |short_real| instead of |double| on some computers. Some -\PASCAL\ compilers will pack an integer whose subrange is `|0 dotdot 255|' into -an eight-bit field, but others insist on allocating space for an additional -sign bit; on such systems you can get 256 values into a quarterword only -if the subrange is `|-128 dotdot 127|'. - -The present implementation tries to accommodate as many variations as possible, -so it makes few assumptions. If integers having the subrange -`|min_quarterword dotdot max_quarterword|' can be packed into a quarterword, -and if integers having the subrange `|min_halfword dotdot max_halfword|' -can be packed into a halfword, everything should work satisfactorily. - -It is usually most efficient to have |min_quarterword==min_halfword==0|, -so one should try to achieve this unless it causes a severe problem. -The values defined here are recommended for most 32-bit computers. - -@d min_quarterword 0 /*smallest allowable value in a |quarterword|*/ -@d max_quarterword 65535 /*largest allowable value in a |quarterword|*/ -@d min_halfword 0 /*smallest allowable value in a |halfword|*/ -@d max_halfword 0x3FFFFFFF /*largest allowable value in a |halfword|*/ - -@ Here are the inequalities that the quarterword and halfword values -must satisfy (or rather, the inequalities that they mustn't satisfy): - -@<Check the ``constant''...@>= -#ifdef @!INIT -if ((mem_min!=mem_bot)||(mem_max!=mem_top)) bad=10; -#endif -@;@/ -if ((mem_min > mem_bot)||(mem_max < mem_top)) bad=10; -if ((min_quarterword > 0)||(max_quarterword < 127)) bad=11; -if ((min_halfword > 0)||(max_halfword < 32767)) bad=12; -if ((min_quarterword < min_halfword)||@| - (max_quarterword > max_halfword)) bad=13; -if ((mem_min < min_halfword)||(mem_max >= max_halfword)||@| - (mem_bot-mem_min > max_halfword+1)) bad=14; -if ((font_base < min_quarterword)||(font_max > max_quarterword)) bad=15; -if (font_max > font_base+256) bad=16; -if ((save_size > max_halfword)||(max_strings > max_halfword)) bad=17; -if (buf_size > max_halfword) bad=18; -if (max_quarterword-min_quarterword < 255) bad=19; - -@ The operation of adding or subtracting |min_quarterword| occurs quite -frequently in \TeX, so it is convenient to abbreviate this operation -by using the macros |qi| and |qo| for input and output to and from -quarterword format. - -The inner loop of \TeX\ will run faster with respect to compilers -that don't optimize expressions like `|x+0|' and `|x-0|', if these -macros are simplified in the obvious way when |min_quarterword==0|. -@^inner loop@>@^system dependencies@> - -@d qi(A) A+min_quarterword - /*to put an |eight_bits| item into a quarterword*/ -@d qo(A) A-min_quarterword - /*to take an |eight_bits| item out of a quarterword*/ -@d hi(A) A+min_halfword - /*to put a sixteen-bit item into a halfword*/ -@d ho(A) A-min_halfword - /*to take a sixteen-bit item from a halfword*/ - -@ The reader should study the following definitions closely: -@^system dependencies@> - -@d sc i /*|scaled| data is equivalent to |int|*/ - -@<Types...@>= -typedef uint16_t quarterword; /*1/4 of a word*/ -typedef int32_t halfword; /*1/2 of a word*/ -typedef int8_t two_choices; /*used when there are two variants in a record*/ -typedef int8_t four_choices; /*used when there are four variants in a record*/ -typedef struct { @;@/ - halfword @!rh; - union { - halfword @!lh; - struct { quarterword @!b0;quarterword @!b1;} ; - };} two_halves; -typedef struct { @;@/ - quarterword @!b0; - quarterword @!b1; - quarterword @!b2; - quarterword @!b3; - } four_quarters; -typedef struct { @;@/ - union { - int @!i; - glue_ratio @!gr; - two_halves @!hh; - four_quarters @!qqqq; - };} memory_word; -typedef struct {@+FILE *f;@+memory_word@,d;@+} word_file; - -@ When debugging, we may want to print a |memory_word| without knowing -what type it is; so we print it in all modes. -@^dirty \PASCAL@>@^debugging@> - -@p -#ifdef @!DEBUG -static void print_word(memory_word @!w) - /*prints |w| in all ways*/ -{@+print_int(w.i);print_char(' ');@/ -print_scaled(w.sc);print_char(' ');@/ -print_scaled(round(unity*float(w.gr)));print_ln();@/ -@^real multiplication@> -print_int(w.hh.lh);print_char('=');print_int(w.hh.b0);print_char(':'); -print_int(w.hh.b1);print_char(';');print_int(w.hh.rh);print_char(' ');@/ -print_int(w.qqqq.b0);print_char(':');print_int(w.qqqq.b1);print_char(':'); -print_int(w.qqqq.b2);print_char(':');print_int(w.qqqq.b3); -} -#endif - -@* Dynamic memory allocation. -The \TeX\ system does nearly all of its own memory allocation, so that it -can readily be transported into environments that do not have automatic -facilities for strings, garbage collection, etc., and so that it can be in -control of what error messages the user receives. The dynamic storage -requirements of \TeX\ are handled by providing a large array |mem| in -which consecutive blocks of words are used as nodes by the \TeX\ routines. - -Pointer variables are indices into this array, or into another array -called |eqtb| that will be explained later. A pointer variable might -also be a special flag that lies outside the bounds of |mem|, so we -allow pointers to assume any |halfword| value. The minimum halfword -value represents a null pointer. \TeX\ does not assume that |mem[null]| exists. - -@s pointer int -@d pointer halfword /*a flag or a location in |mem| or |eqtb|*/ -@d null min_halfword /*the null pointer*/ - -@<Glob...@>= -static pointer @!temp_ptr; /*a pointer variable for occasional emergency use*/ - -@ The |mem| array is divided into two regions that are allocated separately, -but the dividing line between these two regions is not fixed; they grow -together until finding their ``natural'' size in a particular job. -Locations less than or equal to |lo_mem_max| are used for storing -variable-length records consisting of two or more words each. This region -is maintained using an algorithm similar to the one described in exercise -2.5--19 of {\sl The Art of Computer Programming}. However, no size field -appears in the allocated nodes; the program is responsible for knowing the -relevant size when a node is freed. Locations greater than or equal to -|hi_mem_min| are used for storing one-word records; a conventional -\.{AVAIL} stack is used for allocation in this region. - -Locations of |mem| between |mem_bot| and |mem_top| may be dumped as part -of preloaded format files, by the \.{INITEX} preprocessor. -@.INITEX@> -Production versions of \TeX\ may extend the memory at both ends in order to -provide more space; locations between |mem_min| and |mem_bot| are always -used for variable-size nodes, and locations between |mem_top| and |mem_max| -are always used for single-word nodes. - -The key pointers that govern |mem| allocation have a prescribed order: -$$\advance\thickmuskip-2mu -\hbox{|null <= mem_min <= mem_bot < lo_mem_max < - hi_mem_min < mem_top <= mem_end <= mem_max|.}$$ - -Empirical tests show that the present implementation of \TeX\ tends to -spend about 9\pct! of its running time allocating nodes, and about 6\pct! -deallocating them after their use. - -@<Glob...@>= -memory_word @!mem0[mem_max-mem_min+1], *const @!mem = @!mem0-mem_min; /*the big dynamic storage area*/ -static pointer @!lo_mem_max; /*the largest location of variable-size memory in use*/ -pointer @!hi_mem_min; /*the smallest location of one-word memory in use*/ - -@ In order to study the memory requirements of particular applications, it -is possible to prepare a version of \TeX\ that keeps track of current and -maximum memory usage. When code between the delimiters | -#ifdef @!STAT -| $\ldots$ -|tats| is not ``commented out,'' \TeX\ will run a bit slower but it will -report these statistics when |tracing_stats| is sufficiently large. - -@<Glob...@>= -int @!var_used, @!dyn_used; /*how much memory is in use*/ -#ifdef @!STAT -#define incr_dyn_used @[incr(dyn_used)@] -#define decr_dyn_used @[decr(dyn_used)@] -#else -#define incr_dyn_used -#define decr_dyn_used -#endif - -@ Let's consider the one-word memory region first, since it's the -simplest. The pointer variable |mem_end| holds the highest-numbered location -of |mem| that has ever been used. The free locations of |mem| that -occur between |hi_mem_min| and |mem_end|, inclusive, are of type -|two_halves|, and we write |info(p)| and |link(p)| for the |lh| -and |rh| fields of |mem[p]| when it is of this type. The single-word -free locations form a linked list -$$|avail|,\;\hbox{|link(avail)|},\;\hbox{|link(link(avail))|},\;\ldots$$ -terminated by |null|. - -@d link(A) mem[A].hh.rh /*the |link| field of a memory word*/ -@d info(A) mem[A].hh.lh /*the |info| field of a memory word*/ - -@<Glob...@>= -static pointer @!avail; /*head of the list of available one-word nodes*/ -static pointer @!mem_end; /*the last one-word node used in |mem|*/ - -@ If memory is exhausted, it might mean that the user has forgotten -a right brace. We will define some procedures later that try to help -pinpoint the trouble. - -@p @<Declare the procedure called |show_token_list|@>@/ -@<Declare the procedure called |runaway|@>@; - -@ The function |get_avail| returns a pointer to a new one-word node whose -|link| field is null. However, \TeX\ will halt if there is no more room left. -@^inner loop@> - -If the available-space list is empty, i.e., if |avail==null|, -we try first to increase |mem_end|. If that cannot be done, i.e., if -|mem_end==mem_max|, we try to decrease |hi_mem_min|. If that cannot be -done, i.e., if |hi_mem_min==lo_mem_max+1|, we have to quit. - -@p static pointer get_avail(void) /*single-word node allocation*/ -{@+pointer p; /*the new node being got*/ -p=avail; /*get top location in the |avail| stack*/ -if (p!=null) avail=link(avail); /*and pop it off*/ -else if (mem_end < mem_max) /*or go into virgin territory*/ - {@+incr(mem_end);p=mem_end; - } -else{@+decr(hi_mem_min);p=hi_mem_min; - if (hi_mem_min <= lo_mem_max) - {@+runaway(); /*if memory is exhausted, display possible runaway text*/ - overflow("main memory size", mem_max+1-mem_min); - /*quit; all one-word nodes are busy*/ -@:TeX capacity exceeded main memory size}{\quad main memory size@> - } - } -link(p)=null; /*provide an oft-desired initialization of the new node*/ -#ifdef @!STAT -incr(dyn_used); -#endif -@; /*maintain statistics*/ -return p; -} - -@ Conversely, a one-word node is recycled by calling |free_avail|. -This routine is part of \TeX's ``inner loop,'' so we want it to be fast. -@^inner loop@> - -@d free_avail(A) /*single-word node liberation*/ - {@+link(A)=avail;avail=A; - decr_dyn_used; - } - -@ There's also a |fast_get_avail| routine, which saves the procedure-call -overhead at the expense of extra programming. This routine is used in -the places that would otherwise account for the most calls of |get_avail|. -@^inner loop@> - -@d fast_get_avail(A) @t@>@;@/ - {@+A=avail; /*avoid |get_avail| if possible, to save time*/ - if (A==null) A=get_avail(); - else{@+avail=link(A);link(A)=null; - incr_dyn_used; - } - } - -@ The procedure |flush_list(p)| frees an entire linked list of -one-word nodes that starts at position |p|. -@^inner loop@> - -@p static void flush_list(pointer @!p) /*makes list of single-word nodes - available*/ -{@+pointer @!q, @!r; /*list traversers*/ -if (p!=null) - {@+r=p; - @/do@+{q=r;r=link(r); -#ifdef @!STAT -decr(dyn_used); -#endif - }@+ while (!(r==null)); /*now |q| is the last node on the list*/ - link(q)=avail;avail=p; - } -} - -@ The available-space list that keeps track of the variable-size portion -of |mem| is a nonempty, doubly-linked circular list of empty nodes, -pointed to by the roving pointer |rover|. - -Each empty node has size 2 or more; the first word contains the special -value |max_halfword| in its |link| field and the size in its |info| field; -the second word contains the two pointers for double linking. - -Each nonempty node also has size 2 or more. Its first word is of type -|two_halves|\kern-1pt, and its |link| field is never equal to |max_halfword|. -Otherwise there is complete flexibility with respect to the contents -of its other fields and its other words. - -(We require |mem_max < max_halfword| because terrible things can happen -when |max_halfword| appears in the |link| field of a nonempty node.) - -@d empty_flag max_halfword /*the |link| of an empty variable-size node*/ -@d is_empty(A) (link(A)==empty_flag) /*tests for empty node*/ -@d node_size(A) info(A) /*the size field in empty variable-size nodes*/ -@d llink(A) info(A+1) /*left link in doubly-linked list of empty nodes*/ -@d rlink(A) link(A+1) /*right link in doubly-linked list of empty nodes*/ - -@<Glob...@>= -static pointer @!rover; /*points to some node in the list of empties*/ - -@ A call to |get_node| with argument |s| returns a pointer to a new node -of size~|s|, which must be 2~or more. The |link| field of the first word -of this new node is set to null. An overflow stop occurs if no suitable -space exists. - -If |get_node| is called with $s=2^{30}$, it simply merges adjacent free -areas and returns the value |max_halfword|. - -@p pointer get_node(int @!s) /*variable-size node allocation*/ -{@+ -pointer p; /*the node currently under inspection*/ -pointer @!q; /*the node physically after node |p|*/ -int @!r; /*the newly allocated node, or a candidate for this honor*/ -int @!t; /*temporary register*/ -restart: p=rover; /*start at some free node in the ring*/ -@/do@+{@<Try to allocate within node |p| and its physical successors, and |goto found| -if allocation was possible@>; -@^inner loop@> -p=rlink(p); /*move to the next node in the ring*/ -}@+ while (!(p==rover)); /*repeat until the whole list has been traversed*/ -if (s==010000000000) - {@+return max_halfword; - } -if (lo_mem_max+2 < hi_mem_min) if (lo_mem_max+2 <= mem_bot+max_halfword) - @<Grow more variable-size memory and |goto restart|@>; -overflow("main memory size", mem_max+1-mem_min); - /*sorry, nothing satisfactory is left*/ -@:TeX capacity exceeded main memory size}{\quad main memory size@> -found: link(r)=null; /*this node is now nonempty*/ -#ifdef @!STAT -var_used=var_used+s; /*maintain usage statistics*/ -#endif -@;@/ -return r; -} - -@ The lower part of |mem| grows by 1000 words at a time, unless -we are very close to going under. When it grows, we simply link -a new node into the available-space list. This method of controlled -growth helps to keep the |mem| usage consecutive when \TeX\ is -implemented on ``virtual memory'' systems. -@^virtual memory@> - -@<Grow more variable-size memory and |goto restart|@>= -{@+if (hi_mem_min-lo_mem_max >= 1998) t=lo_mem_max+1000; -else t=lo_mem_max+1+(hi_mem_min-lo_mem_max)/2; - /*|lo_mem_max+2 <= t < hi_mem_min|*/ -p=llink(rover);q=lo_mem_max;rlink(p)=q;llink(rover)=q;@/ -if (t > mem_bot+max_halfword) t=mem_bot+max_halfword; -rlink(q)=rover;llink(q)=p;link(q)=empty_flag;node_size(q)=t-lo_mem_max;@/ -lo_mem_max=t;link(lo_mem_max)=null;info(lo_mem_max)=null; -rover=q;goto restart; -} - -@ Empirical tests show that the routine in this section performs a -node-merging operation about 0.75 times per allocation, on the average, -after which it finds that |r > p+1| about 95\pct! of the time. - -@<Try to allocate...@>= -q=p+node_size(p); /*find the physical successor*/ -@^inner loop@> -while (is_empty(q)) /*merge node |p| with node |q|*/ - {@+t=rlink(q); - if (q==rover) rover=t; - llink(t)=llink(q);rlink(llink(q))=t;@/ - q=q+node_size(q); - } -r=q-s; -if (r > p+1) @<Allocate from the top of node |p| and |goto found|@>; -if (r==p) if (rlink(p)!=p) - @<Allocate entire node |p| and |goto found|@>; -node_size(p)=q-p /*reset the size in case it grew*/ - -@ @<Allocate from the top...@>= -{@+node_size(p)=r-p; /*store the remaining size*/ -@^inner loop@> -rover=p; /*start searching here next time*/ -goto found; -} - -@ Here we delete node |p| from the ring, and let |rover| rove around. - -@<Allocate entire...@>= -{@+rover=rlink(p);t=llink(p); -llink(rover)=t;rlink(t)=rover; -goto found; -} - -@ Conversely, when some variable-size node |p| of size |s| is no longer needed, -the operation |free_node(p, s)| will make its words available, by inserting -|p| as a new empty node just before where |rover| now points. -@^inner loop@> - -@p void free_node(pointer @!p, halfword @!s) /*variable-size node - liberation*/ -{@+pointer q; /*|llink(rover)|*/ -node_size(p)=s;link(p)=empty_flag; -q=llink(rover);llink(p)=q;rlink(p)=rover; /*set both links*/ -llink(rover)=p;rlink(q)=p; /*insert |p| into the ring*/ -#ifdef @!STAT -var_used=var_used-s; -#endif -@; /*maintain statistics*/ -} - -@ Just before \.{INITEX} writes out the memory, it sorts the doubly linked -available space list. The list is probably very short at such times, so a -simple insertion sort is used. The smallest available location will be -pointed to by |rover|, the next-smallest by |rlink(rover)|, etc. - -@p -#ifdef @!INIT -static void sort_avail(void) /*sorts the available variable-size nodes - by location*/ -{@+pointer p, @!q, @!r; /*indices into |mem|*/ -pointer @!old_rover; /*initial |rover| setting*/ -p=get_node(010000000000); /*merge adjacent free areas*/ -p=rlink(rover);rlink(rover)=max_halfword;old_rover=rover; -while (p!=old_rover) @<Sort \(p)|p| into the list starting at |rover| and advance -|p| to |rlink(p)|@>; -p=rover; -while (rlink(p)!=max_halfword) - {@+llink(rlink(p))=p;p=rlink(p); - } -rlink(p)=rover;llink(rover)=p; -} -#endif - -@ The following |while | loop is guaranteed to -terminate, since the list that starts at -|rover| ends with |max_halfword| during the sorting procedure. - -@<Sort \(p)|p|...@>= -if (p < rover) - {@+q=p;p=rlink(q);rlink(q)=rover;rover=q; - } -else{@+q=rover; - while (rlink(q) < p) q=rlink(q); - r=rlink(p);rlink(p)=rlink(q);rlink(q)=p;p=r; - } - -@* Data structures for boxes and their friends. -From the computer's standpoint, \TeX's chief mission is to create -horizontal and vertical lists. We shall now investigate how the elements -of these lists are represented internally as nodes in the dynamic memory. - -A horizontal or vertical list is linked together by |link| fields in -the first word of each node. Individual nodes represent boxes, glue, -penalties, or special things like discretionary hyphens; because of this -variety, some nodes are longer than others, and we must distinguish different -kinds of nodes. We do this by putting a `|type|' field in the first word, -together with the link and an optional `|subtype|'. - -@d type(A) mem[A].hh.b0 /*identifies what kind of node this is*/ -@d subtype(A) mem[A].hh.b1 /*secondary identification in some cases*/ - -@ A |@!char_node|, which represents a single character, is the most important -kind of node because it accounts for the vast majority of all boxes. -Special precautions are therefore taken to ensure that a |char_node| does -not take up much memory space. Every such node is one word long, and in fact -it is identifiable by this property, since other kinds of nodes have at least -two words, and they appear in |mem| locations less than |hi_mem_min|. -This makes it possible to omit the |type| field in a |char_node|, leaving -us room for two bytes that identify a |font| and a |character| within -that font. - -Note that the format of a |char_node| allows for up to 256 different -fonts and up to 256 characters per font; but most implementations will -probably limit the total number of fonts to fewer than 75 per job, -and most fonts will stick to characters whose codes are -less than 128 (since higher codes -are more difficult to access on most keyboards). - -Extensions of \TeX\ intended for oriental languages will need even more -than $256\times256$ possible characters, when we consider different sizes -@^oriental characters@>@^Chinese characters@>@^Japanese characters@> -and styles of type. It is suggested that Chinese and Japanese fonts be -handled by representing such characters in two consecutive |char_node| -entries: The first of these has |font==font_base|, and its |link| points -to the second; -the second identifies the font and the character dimensions. -The saving feature about oriental characters is that most of them have -the same box dimensions. The |character| field of the first |char_node| -is a ``\\{charext}'' that distinguishes between graphic symbols whose -dimensions are identical for typesetting purposes. (See the \MF\ manual.) -Such an extension of \TeX\ would not be difficult; further details are -left to the reader. - -In order to make sure that the |character| code fits in a quarterword, -\TeX\ adds the quantity |min_quarterword| to the actual code. - -Character nodes appear only in horizontal lists, never in vertical lists. - -@d is_char_node(A) (A >= hi_mem_min) - /*does the argument point to a |char_node|?*/ -@d font(A) type(A) /*the font code in a |char_node|*/ -@d character(A) subtype(A) /*the character code in a |char_node|*/ - -@ An |hlist_node| stands for a box that was made from a horizontal list. -Each |hlist_node| is seven words long, and contains the following fields -(in addition to the mandatory |type| and |link|, which we shall not -mention explicitly when discussing the other node types): The |height| and -|width| and |depth| are scaled integers denoting the dimensions of the -box. There is also a |shift_amount| field, a scaled integer indicating -how much this box should be lowered (if it appears in a horizontal list), -or how much it should be moved to the right (if it appears in a vertical -list). There is a |list_ptr| field, which points to the beginning of the -list from which this box was fabricated; if |list_ptr| is |null|, the box -is empty. Finally, there are three fields that represent the setting of -the glue: |glue_set(p)| is a word of type |glue_ratio| that represents -the proportionality constant for glue setting; |glue_sign(p)| is -|stretching| or |shrinking| or |normal| depending on whether or not the -glue should stretch or shrink or remain rigid; and |glue_order(p)| -specifies the order of infinity to which glue setting applies (|normal|, -|fil|, |fill|, or |filll|). The |subtype| field is not used. - -@d hlist_node 0 /*|type| of hlist nodes*/ -@d box_node_size 9 /*number of words to allocate for a box, set, or pack node*/ -@d width_offset 1 /*position of |width| field in a box node*/ -@d depth_offset 2 /*position of |depth| field in a box node*/ -@d height_offset 3 /*position of |height| field in a box node*/ -@d width(A) mem[A+width_offset].sc /*width of the box, in sp*/ -@d depth(A) mem[A+depth_offset].sc /*depth of the box, in sp*/ -@d height(A) mem[A+height_offset].sc /*height of the box, in sp*/ -@d shift_amount(A) mem[A+4].sc /*repositioning distance, in sp*/ -@d list_offset 5 /*position of |list_ptr| field in a box node*/ -@d list_ptr(A) link(A+list_offset) /*beginning of the list inside the box*/ -@d glue_order(A) subtype(A+list_offset) /*applicable order of infinity*/ -@d glue_sign(A) type(A+list_offset) /*stretching or shrinking*/ -@d normal 0 /*the most common case when several cases are named*/ -@d stretching 1 /*glue setting applies to the stretch components*/ -@d shrinking 2 /*glue setting applies to the shrink components*/ -@d glue_offset 6 /*position of |glue_set| in a box node*/ -@d glue_set(A) mem[A+glue_offset].gr - /*a word of type |glue_ratio| for glue setting*/ - -@ The |new_null_box| function returns a pointer to an |hlist_node| in -which all subfields have the values corresponding to `\.{\\hbox\{\}}'. -(The |subtype| field is set to |min_quarterword|, for historic reasons -that are no longer relevant.) - -@p pointer new_null_box(void) /*creates a new box node*/ -{@+pointer p; /*the new node*/ -p=get_node(box_node_size);type(p)=hlist_node; -subtype(p)=min_quarterword; -width(p)=0;depth(p)=0;height(p)=0;shift_amount(p)=0;list_ptr(p)=null; -glue_sign(p)=normal;glue_order(p)=normal;set_glue_ratio_zero(glue_set(p)); -return p; -} - -@ A |vlist_node| is like an |hlist_node| in all respects except that it -contains a vertical list. - -@d vlist_node 1 /*|type| of vlist nodes*/ - -@ A |rule_node| stands for a solid black rectangle; it has |width|, -|depth|, and |height| fields just as in an |hlist_node|. However, if -any of these dimensions is $-2^{30}$, the actual value will be determined -by running the rule up to the boundary of the innermost enclosing box. -This is called a ``running dimension.'' The |width| is never running in -an hlist; the |height| and |depth| are never running in a~vlist. - -@d rule_node 2 /*|type| of rule nodes*/ -@d rule_node_size 4 /*number of words to allocate for a rule node*/ -@d null_flag -010000000000 /*$-2^{30}$, signifies a missing item*/ -@d is_running(A) (A==null_flag) /*tests for a running dimension*/ - -@ A new rule node is delivered by the |new_rule| function. It -makes all the dimensions ``running,'' so you have to change the -ones that are not allowed to run. - -@p pointer new_rule(void) -{@+pointer p; /*the new node*/ -p=get_node(rule_node_size);type(p)=rule_node; -subtype(p)=0; /*the |subtype| is not used*/ -width(p)=null_flag;depth(p)=null_flag;height(p)=null_flag; -return p; -} - -@ Insertions are represented by |ins_node| records, where the |subtype| -indicates the corresponding box number. For example, `\.{\\insert 250}' -leads to an |ins_node| whose |subtype| is |250+min_quarterword|. -The |height| field of an |ins_node| is slightly misnamed; it actually holds -the natural height plus depth of the vertical list being inserted. -The |depth| field holds the |split_max_depth| to be used in case this -insertion is split, and the |split_top_ptr| points to the corresponding -|split_top_skip|. The |float_cost| field holds the |floating_penalty| that -will be used if this insertion floats to a subsequent page after a -split insertion of the same class. There is one more field, the -|ins_ptr|, which points to the beginning of the vlist for the insertion. - -@d ins_node 3 /*|type| of insertion nodes*/ -@d ins_node_size 5 /*number of words to allocate for an insertion*/ -@d float_cost(A) mem[A+1].i /*the |floating_penalty| to be used*/ -@d ins_ptr(A) info(A+4) /*the vertical list to be inserted*/ -@d split_top_ptr(A) link(A+4) /*the |split_top_skip| to be used*/ - -@ A |mark_node| has a |mark_ptr| field that points to the reference count -of a token list that contains the user's \.{\\mark} text. -This field occupies a full word instead of a halfword, because -there's nothing to put in the other halfword; it is easier in \PASCAL\ to -use the full word than to risk leaving garbage in the unused half. - -@d mark_node 4 /*|type| of a mark node*/ -@d small_node_size 2 /*number of words to allocate for most node types*/ -@d mark_ptr(A) mem[A+1].i /*head of the token list for a mark*/ - -@ An |adjust_node|, which occurs only in horizontal lists, -specifies material that will be moved out into the surrounding -vertical list; i.e., it is used to implement \TeX's `\.{\\vadjust}' -operation. The |adjust_ptr| field points to the vlist containing this -material. - -@d adjust_node 5 /*|type| of an adjust node*/ -@d adjust_ptr(A) mark_ptr(A) /*vertical list to be moved out of horizontal list*/ - -@ A |ligature_node|, which occurs only in horizontal lists, specifies -a character that was fabricated from the interaction of two or more -actual characters. The second word of the node, which is called the -|lig_char| word, contains |font| and |character| fields just as in a -|char_node|. The characters that generated the ligature have not been -forgotten, since they are needed for diagnostic messages and for -hyphenation; the |lig_ptr| field points to a linked list of character -nodes for all original characters that have been deleted. (This list -might be empty if the characters that generated the ligature were -retained in other nodes.) - -The |subtype| field is 0, plus 2 and/or 1 if the original source of the -ligature included implicit left and/or right boundaries. - -@d ligature_node 6 /*|type| of a ligature node*/ -@d lig_char(A) A+1 /*the word where the ligature is to be found*/ -@d lig_ptr(A) link(lig_char(A)) /*the list of characters*/ - -@ The |new_ligature| function creates a ligature node having given -contents of the |font|, |character|, and |lig_ptr| fields. We also have -a |new_lig_item| function, which returns a two-word node having a given -|character| field. Such nodes are used for temporary processing as ligatures -are being created. - -@p static pointer new_ligature(quarterword @!f, quarterword @!c, pointer @!q) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=ligature_node; -font(lig_char(p))=f;character(lig_char(p))=c;lig_ptr(p)=q; -subtype(p)=0;return p; -} -@# -static pointer new_lig_item(quarterword @!c) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);character(p)=c;lig_ptr(p)=null; -return p; -} - -@ A |disc_node|, which occurs only in horizontal lists, specifies a -``dis\-cretion\-ary'' line break. If such a break occurs at node |p|, the text -that starts at |pre_break(p)| will precede the break, the text that starts at -|post_break(p)| will follow the break, and text that appears in the next -|replace_count(p)| nodes will be ignored. For example, an ordinary -discretionary hyphen, indicated by `\.{\\-}', yields a |disc_node| with -|pre_break| pointing to a |char_node| containing a hyphen, |post_break==null|, -and |replace_count==0|. All three of the discretionary texts must be -lists that consist entirely of character, kern, box, rule, and ligature nodes. - -If |pre_break(p)==null|, the |ex_hyphen_penalty| will be charged for this -break. Otherwise the |hyphen_penalty| will be charged. The texts will -actually be substituted into the list by the line-breaking algorithm if it -decides to make the break, and the discretionary node will disappear at -that time; thus, the output routine sees only discretionaries that were -not chosen. - -@d disc_node 7 /*|type| of a discretionary node*/ -@d replace_count(A) (subtype(A)&0x7F) /*how many subsequent nodes to replace*/ -@d set_replace_count(A,B) (subtype(A)=(B)&0x7F) -@d set_auto_disc(A) (subtype(A)|=0x80) -@d is_auto_disc(A) (subtype(A)&0x80) -@d pre_break(A) llink(A) /*text that precedes a discretionary break*/ -@d post_break(A) rlink(A) /*text that follows a discretionary break*/ - -@p pointer new_disc(void) /*creates an empty |disc_node|*/ -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=disc_node; -set_replace_count(p,0);pre_break(p)=null;post_break(p)=null; -return p; -} - -@ A |whatsit_node| is a wild card reserved for extensions to \TeX. The -|subtype| field in its first word says what `\\{whatsit}' it is, and -implicitly determines the node size (which must be 2 or more) and the -format of the remaining words. When a |whatsit_node| is encountered -in a list, special actions are invoked; knowledgeable people who are -careful not to mess up the rest of \TeX\ are able to make \TeX\ do new -things by adding code at the end of the program. For example, there -might be a `\TeX nicolor' extension to specify different colors of ink, -@^extensions to \TeX@> -and the whatsit node might contain the desired parameters. - -The present implementation of \TeX\ treats the features associated with -`\.{\\write}' and `\.{\\special}' as if they were extensions, in order to -illustrate how such routines might be coded. We shall defer further -discussion of extensions until the end of this program. - -@d whatsit_node 8 /*|type| of special extension nodes*/ - -@ A |math_node|, which occurs only in horizontal lists, appears before and -after mathematical formulas. The |subtype| field is |before| before the -formula and |after| after it. There is a |width| field, which represents -the amount of surrounding space inserted by \.{\\mathsurround}. - -@d math_node 9 /*|type| of a math node*/ -@d before 0 /*|subtype| for math node that introduces a formula*/ -@d after 1 /*|subtype| for math node that winds up a formula*/ - -@p static pointer new_math(scaled @!w, small_number @!s) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=math_node; -subtype(p)=s;width(p)=w;return p; -} - -@ \TeX\ makes use of the fact that |hlist_node|, |vlist_node|, -|rule_node|, |ins_node|, |mark_node|, |adjust_node|, |ligature_node|, -|disc_node|, |whatsit_node|, and |math_node| are at the low end of the -type codes, by permitting a break at glue in a list if and only if the -|type| of the previous node is less than |math_node|. Furthermore, a -node is discarded after a break if its type is |math_node| or~more. - -@d precedes_break(A) (type(A) < math_node) -@d non_discardable(A) (type(A) < math_node) - -@ A |glue_node| represents glue in a list. However, it is really only -a pointer to a separate glue specification, since \TeX\ makes use of the -fact that many essentially identical nodes of glue are usually present. -If |p| points to a |glue_node|, |glue_ptr(p)| points to -another packet of words that specify the stretch and shrink components, etc. - -Glue nodes also serve to represent leaders; the |subtype| is used to -distinguish between ordinary glue (which is called |normal|) and the three -kinds of leaders (which are called |a_leaders|, |c_leaders|, and |x_leaders|). -The |leader_ptr| field points to a rule node or to a box node containing the -leaders; it is set to |null| in ordinary glue nodes. - -Many kinds of glue are computed from \TeX's ``skip'' parameters, and -it is helpful to know which parameter has led to a particular glue node. -Therefore the |subtype| is set to indicate the source of glue, whenever -it originated as a parameter. We will be defining symbolic names for the -parameter numbers later (e.g., |line_skip_code==0|, |baseline_skip_code==1|, -etc.); it suffices for now to say that the |subtype| of parametric glue -will be the same as the parameter number, plus~one. - -In math formulas there are two more possibilities for the |subtype| in a -glue node: |mu_glue| denotes an \.{\\mskip} (where the units are scaled \.{mu} -instead of scaled \.{pt}); and |cond_math_glue| denotes the `\.{\\nonscript}' -feature that cancels the glue node immediately following if it appears -in a subscript. - -@d glue_node 10 /*|type| of node that points to a glue specification*/ -@d cond_math_glue 98 /*special |subtype| to suppress glue in the next node*/ -@d mu_glue 99 /*|subtype| for math glue*/ -@d a_leaders 100 /*|subtype| for aligned leaders*/ -@d c_leaders 101 /*|subtype| for centered leaders*/ -@d x_leaders 102 /*|subtype| for expanded leaders*/ -@d glue_ptr(A) llink(A) /*pointer to a glue specification*/ -@d leader_ptr(A) rlink(A) /*pointer to box or rule node for leaders*/ - -@ A glue specification has a halfword reference count in its first word, -@^reference counts@> -representing |null| plus the number of glue nodes that point to it (less one). -Note that the reference count appears in the same position as -the |link| field in list nodes; this is the field that is initialized -to |null| when a node is allocated, and it is also the field that is flagged -by |empty_flag| in empty nodes. - -Glue specifications also contain three |scaled| fields, for the |width|, -|stretch|, and |shrink| dimensions. Finally, there are two one-byte -fields called |stretch_order| and |shrink_order|; these contain the -orders of infinity (|normal|, |fil|, |fill|, or |filll|) -corresponding to the stretch and shrink values. - -@d glue_spec_size 4 /*number of words to allocate for a glue specification*/ -@d glue_ref_count(A) link(A) /*reference count of a glue specification*/ -@d stretch(A) mem[A+2].sc /*the stretchability of this glob of glue*/ -@d shrink(A) mem[A+3].sc /*the shrinkability of this glob of glue*/ -@d stretch_order(A) type(A) /*order of infinity for stretching*/ -@d shrink_order(A) subtype(A) /*order of infinity for shrinking*/ -@d fil 1 /*first-order infinity*/ -@d fill 2 /*second-order infinity*/ -@d filll 3 /*third-order infinity*/ - -@<Types...@>= -typedef int8_t glue_ord; /*infinity to the 0, 1, 2, or 3 power*/ - -@ Here is a function that returns a pointer to a copy of a glue spec. -The reference count in the copy is |null|, because there is assumed -to be exactly one reference to the new specification. - -@p pointer new_spec(pointer @!p) /*duplicates a glue specification*/ -{@+pointer q; /*the new spec*/ -q=get_node(glue_spec_size);@/ -mem[q]=mem[p];glue_ref_count(q)=null;@/ -width(q)=width(p);stretch(q)=stretch(p);shrink(q)=shrink(p); -return q; -} - -@ And here's a function that creates a glue node for a given parameter -identified by its code number; for example, -|new_param_glue(line_skip_code)| returns a pointer to a glue node for the -current \.{\\lineskip}. - -@p pointer new_param_glue(small_number @!n) -{@+pointer p; /*the new node*/ -pointer @!q; /*the glue specification*/ -p=get_node(small_node_size);type(p)=glue_node;subtype(p)=n+1; -leader_ptr(p)=null;@/ -q=@<Current |mem| equivalent of glue parameter number |n|@>@t@>; -glue_ptr(p)=q;incr(glue_ref_count(q)); -return p; -} - -@ Glue nodes that are more or less anonymous are created by |new_glue|, -whose argument points to a glue specification. - -@p pointer new_glue(pointer @!q) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=glue_node;subtype(p)=normal; -leader_ptr(p)=null;glue_ptr(p)=q;incr(glue_ref_count(q)); -return p; -} - -@ Still another subroutine is needed: This one is sort of a combination -of |new_param_glue| and |new_glue|. It creates a glue node for one of -the current glue parameters, but it makes a fresh copy of the glue -specification, since that specification will probably be subject to change, -while the parameter will stay put. The global variable |temp_ptr| is -set to the address of the new spec. - -@p static pointer new_skip_param(small_number @!n) -{@+pointer p; /*the new node*/ -temp_ptr=new_spec(@<Current |mem| equivalent of glue parameter...@>); -p=new_glue(temp_ptr);glue_ref_count(temp_ptr)=null;subtype(p)=n+1; -return p; -} - -@ A |kern_node| has a |width| field to specify a (normally negative) -amount of spacing. This spacing correction appears in horizontal lists -between letters like A and V when the font designer said that it looks -better to move them closer together or further apart. A kern node can -also appear in a vertical list, when its `|width|' denotes additional -spacing in the vertical direction. The |subtype| is either |normal| (for -kerns inserted from font information or math mode calculations) or |explicit| -(for kerns inserted from \.{\\kern} and \.{\\/} commands) or |acc_kern| -(for kerns inserted from non-math accents) or |mu_glue| (for kerns -inserted from \.{\\mkern} specifications in math formulas). - -@d kern_node 11 /*|type| of a kern node*/ -@d explicit 1 /*|subtype| of kern nodes from \.{\\kern} and \.{\\/}*/ -@d acc_kern 2 /*|subtype| of kern nodes from accents*/ - -@ The |new_kern| function creates a kern node having a given width. - -@p static pointer new_kern(scaled @!w) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=kern_node; -subtype(p)=normal; -width(p)=w; -return p; -} - -@ A |penalty_node| specifies the penalty associated with line or page -breaking, in its |penalty| field. This field is a fullword integer, but -the full range of integer values is not used: Any penalty | >= 10000| is -treated as infinity, and no break will be allowed for such high values. -Similarly, any penalty | <= -10000| is treated as negative infinity, and a -break will be forced. - -@d penalty_node 12 /*|type| of a penalty node*/ -@d inf_penalty inf_bad /*``infinite'' penalty value*/ -@d eject_penalty (-inf_penalty) /*``negatively infinite'' penalty value*/ -@d penalty(A) mem[A+1].i /*the added cost of breaking a list here*/ - -@ Anyone who has been reading the last few sections of the program will -be able to guess what comes next. - -@p pointer new_penalty(int @!m) -{@+pointer p; /*the new node*/ -p=get_node(small_node_size);type(p)=penalty_node; -subtype(p)=0; /*the |subtype| is not used*/ -penalty(p)=m;return p; -} - -@ You might think that we have introduced enough node types by now. Well, -almost, but there is one more: An |unset_node| has nearly the same format -as an |hlist_node| or |vlist_node|; it is used for entries in \.{\\halign} -or \.{\\valign} that are not yet in their final form, since the box -dimensions are their ``natural'' sizes before any glue adjustment has been -made. The |glue_set| word is not present; instead, we have a |glue_stretch| -field, which contains the total stretch of order |glue_order| that is -present in the hlist or vlist being boxed. -Similarly, the |shift_amount| field is replaced by a |glue_shrink| field, -containing the total shrink of order |glue_sign| that is present. -The |subtype| field is called |span_count|; an unset box typically -contains the data for |qo(span_count)+1| columns. -Unset nodes will be changed to box nodes when alignment is completed. - -@d unset_node 13 /*|type| for an unset node*/ -@d unset_set_node 32 /*|type| for an unset |set_node|*/ -@d unset_pack_node 33 /*|type| for an unset |pack_node|*/ -@d glue_stretch(A) mem[A+glue_offset].sc /*total stretch in an unset node*/ -@d glue_shrink(A) shift_amount(A) /*total shrink in an unset node*/ -@d span_count(A) subtype(A) /*indicates the number of spanned columns*/ - -@ In fact, there are still more types coming. When we get to math formula -processing we will see that a |style_node| has |type==14|; and a number -of larger type codes will also be defined, for use in math mode only. - -@ Warning: If any changes are made to these data structure layouts, such as -changing any of the node sizes or even reordering the words of nodes, -the |copy_node_list| procedure and the memory initialization code -below may have to be changed. Such potentially dangerous parts of the -program are listed in the index under `data structure assumptions'. -@!@^data structure assumptions@> -However, other references to the nodes are made symbolically in terms of -the \.{WEB} macro definitions above, so that format changes will leave -\TeX's other algorithms intact. -@^system dependencies@> - -@* Memory layout. -Some areas of |mem| are dedicated to fixed usage, since static allocation is -more efficient than dynamic allocation when we can get away with it. For -example, locations |mem_bot| to |mem_bot+3| are always used to store the -specification for glue that is `\.{0pt plus 0pt minus 0pt}'. The -following macro definitions accomplish the static allocation by giving -symbolic names to the fixed positions. Static variable-size nodes appear -in locations |mem_bot| through |lo_mem_stat_max|, and static single-word nodes -appear in locations |hi_mem_stat_min| through |mem_top|, inclusive. It is -harmless to let |lig_trick| and |garbage| share the same location of |mem|. - -@d zero_glue mem_bot /*specification for \.{0pt plus 0pt minus 0pt}*/ -@d fil_glue zero_glue+glue_spec_size /*\.{0pt plus 1fil minus 0pt}*/ -@d fill_glue fil_glue+glue_spec_size /*\.{0pt plus 1fill minus 0pt}*/ -@d ss_glue fill_glue+glue_spec_size /*\.{0pt plus 1fil minus 1fil}*/ -@d fil_neg_glue ss_glue+glue_spec_size /*\.{0pt plus -1fil minus 0pt}*/ -@d lo_mem_stat_max fil_neg_glue+glue_spec_size-1 /*largest statically - allocated word in the variable-size |mem|*/ -@# -@d page_ins_head mem_top /*list of insertion data for current page*/ -@d contrib_head mem_top-1 /*vlist of items not yet on current page*/ -@d page_head mem_top-2 /*vlist for current page*/ -@d temp_head mem_top-3 /*head of a temporary list of some kind*/ -@d hold_head mem_top-4 /*head of a temporary list of another kind*/ -@d adjust_head mem_top-5 /*head of adjustment list returned by |hpack|*/ -@d active mem_top-7 /*head of active list in |line_break|, needs two words*/ -@d align_head mem_top-8 /*head of preamble list for alignments*/ -@d end_span mem_top-9 /*tail of spanned-width lists*/ -@d omit_template mem_top-10 /*a constant token list*/ -@d null_list mem_top-11 /*permanently empty list*/ -@d lig_trick mem_top-12 /*a ligature masquerading as a |char_node|*/ -@d garbage mem_top-12 /*used for scrap information*/ -@d backup_head mem_top-13 /*head of token list built by |scan_keyword|*/ -@d setpage_head mem_top-14 /*head of page template list build by |new_setpage_node|*/ -@d max_page type(setpage_head) /* maximum page template number */ -@d max_stream subtype(setpage_head) /* maximum stream number */ -@d hi_mem_stat_min mem_top-14 /*smallest statically allocated word in - the one-word |mem|*/ -@d hi_mem_stat_usage 15 /*the number of one-word nodes always present*/ - -@ The following code gets |mem| off to a good start, when \TeX\ is -initializing itself the slow~way. - -@<Local variables for init...@>= -int @!k; /*index into |mem|, |eqtb|, etc.*/ - -@ @<Initialize table entries...@>= -for (k=mem_bot+1; k<=lo_mem_stat_max; k++) mem[k].sc=0; - /*all glue dimensions are zeroed*/ -@^data structure assumptions@> -k=mem_bot;@+while (k <= lo_mem_stat_max) - /*set first words of glue specifications*/ - {@+glue_ref_count(k)=null+1; - stretch_order(k)=normal;shrink_order(k)=normal; - k=k+glue_spec_size; - } -stretch(fil_glue)=unity;stretch_order(fil_glue)=fil;@/ -stretch(fill_glue)=unity;stretch_order(fill_glue)=fill;@/ -stretch(ss_glue)=unity;stretch_order(ss_glue)=fil;@/ -shrink(ss_glue)=unity;shrink_order(ss_glue)=fil;@/ -stretch(fil_neg_glue)=-unity;stretch_order(fil_neg_glue)=fil;@/ -rover=lo_mem_stat_max+1; -link(rover)=empty_flag; /*now initialize the dynamic memory*/ -node_size(rover)=1000; /*which is a 1000-word available node*/ -llink(rover)=rover;rlink(rover)=rover;@/ -lo_mem_max=rover+1000;link(lo_mem_max)=null;info(lo_mem_max)=null;@/ -for (k=hi_mem_stat_min; k<=mem_top; k++) - mem[k]=mem[lo_mem_max]; /*clear list heads*/ -@<Initialize the special list heads and constant nodes@>; -avail=null;mem_end=mem_top; -hi_mem_min=hi_mem_stat_min; /*initialize the one-word memory*/ -var_used=lo_mem_stat_max+1-mem_bot;dyn_used=hi_mem_stat_usage; - /*initialize statistics*/ - -@ If \TeX\ is extended improperly, the |mem| array might get screwed up. -For example, some pointers might be wrong, or some ``dead'' nodes might not -have been freed when the last reference to them disappeared. Procedures -|check_mem| and |search_mem| are available to help diagnose such -problems. These procedures make use of two arrays called |is_free| and -|was_free| that are present only if \TeX's debugging routines have -been included. (You may want to decrease the size of |mem| while you -@^debugging@> -are debugging.) - -@<Glob...@>= -#ifdef @!DEBUG -static bool @!is_free0[mem_max-mem_min+1], *const @!is_free = @!is_free0-mem_min; /*free cells*/ -@t\hskip10pt@>static bool @!was_free0[mem_max-mem_min+1], *const @!was_free = @!was_free0-mem_min; - /*previously free cells*/ -@t\hskip10pt@>static pointer @!was_mem_end, @!was_lo_max, @!was_hi_min; - /*previous |mem_end|, |lo_mem_max|, and |hi_mem_min|*/ -@t\hskip10pt@>static bool @!panicking; /*do we want to check memory constantly?*/ -#endif - -@ @<Set initial...@>= -#ifdef @!DEBUG -was_mem_end=mem_min; /*indicate that everything was previously free*/ -was_lo_max=mem_min;was_hi_min=mem_max; -panicking=false; -#endif - -@ Procedure |check_mem| makes sure that the available space lists of -|mem| are well formed, and it optionally prints out all locations -that are reserved now but were free the last time this procedure was called. - -@p -#ifdef @!DEBUG -static void check_mem(bool @!print_locs) -{@+ /*loop exits*/ -int p, @!q; /*current locations of interest in |mem|*/ -bool @!clobbered; /*is something amiss?*/ -for (p=mem_min; p<=lo_mem_max; p++) is_free[p]=false; /*you can probably - do this faster*/ -for (p=hi_mem_min; p<=mem_end; p++) is_free[p]=false; /*ditto*/ -@<Check single-word |avail| list@>; -@<Check variable-size |avail| list@>; -@<Check flags of unavailable nodes@>; -if (print_locs) @<Print newly busy locations@>; -for (p=mem_min; p<=lo_mem_max; p++) was_free[p]=is_free[p]; -for (p=hi_mem_min; p<=mem_end; p++) was_free[p]=is_free[p]; - /*|was_free=is_free| might be faster*/ -was_mem_end=mem_end;was_lo_max=lo_mem_max;was_hi_min=hi_mem_min; -} -#endif - -@ @<Check single-word...@>= -p=avail;q=null;clobbered=false; -while (p!=null) - {@+if ((p > mem_end)||(p < hi_mem_min)) clobbered=true; - else if (is_free[p]) clobbered=true; - if (clobbered) - {@+print_nl("AVAIL list clobbered at "); -@.AVAIL list clobbered...@> - print_int(q);goto done1; - } - is_free[p]=true;q=p;p=link(q); - } -done1: - -@ @<Check variable-size...@>= -p=rover;q=null;clobbered=false; -@/do@+{if ((p >= lo_mem_max)||(p < mem_min)) clobbered=true; - else if ((rlink(p) >= lo_mem_max)||(rlink(p) < mem_min)) clobbered=true; - else if (!(is_empty(p))||(node_size(p) < 2)||@| - (p+node_size(p) > lo_mem_max)||@|(llink(rlink(p))!=p)) clobbered=true; - if (clobbered) - {@+print_nl("Double-AVAIL list clobbered at "); - print_int(q);goto done2; - } -for (q=p; q<=p+node_size(p)-1; q++) /*mark all locations free*/ - {@+if (is_free[q]) - {@+print_nl("Doubly free location at "); -@.Doubly free location...@> - print_int(q);goto done2; - } - is_free[q]=true; - } -q=p;p=rlink(p); -}@+ while (!(p==rover)); -done2: - -@ @<Check flags...@>= -p=mem_min; -while (p <= lo_mem_max) /*node |p| should not be empty*/ - {@+if (is_empty(p)) - {@+print_nl("Bad flag at ");print_int(p); -@.Bad flag...@> - } - while ((p <= lo_mem_max)&&!is_free[p]) incr(p); - while ((p <= lo_mem_max)&&is_free[p]) incr(p); - } - -@ @<Print newly busy...@>= -{@+print_nl("New busy locs:"); -for (p=mem_min; p<=lo_mem_max; p++) - if (!is_free[p]&&((p > was_lo_max)||was_free[p])) - {@+print_char(' ');print_int(p); - } -for (p=hi_mem_min; p<=mem_end; p++) - if (!is_free[p]&& - ((p < was_hi_min)||(p > was_mem_end)||was_free[p])) - {@+print_char(' ');print_int(p); - } -} - -@ The |search_mem| procedure attempts to answer the question ``Who points -to node~|p|?'' In doing so, it fetches |link| and |info| fields of |mem| -that might not be of type |two_halves|. Strictly speaking, this is -@^dirty \PASCAL@> -undefined in \PASCAL, and it can lead to ``false drops'' (words that seem to -point to |p| purely by coincidence). But for debugging purposes, we want -to rule out the places that do {\sl not\/} point to |p|, so a few false -drops are tolerable. - -@p -#ifdef @!DEBUG -static void search_mem(pointer @!p) /*look for pointers to |p|*/ -{@+int q; /*current position being searched*/ -for (q=mem_min; q<=lo_mem_max; q++) - {@+if (link(q)==p) - {@+print_nl("LINK(");print_int(q);print_char(')'); - } - if (info(q)==p) - {@+print_nl("INFO(");print_int(q);print_char(')'); - } - } -for (q=hi_mem_min; q<=mem_end; q++) - {@+if (link(q)==p) - {@+print_nl("LINK(");print_int(q);print_char(')'); - } - if (info(q)==p) - {@+print_nl("INFO(");print_int(q);print_char(')'); - } - } -@<Search |eqtb| for equivalents equal to |p|@>; -@<Search |save_stack| for equivalents that point to |p|@>; -@<Search |hyph_list| for pointers to |p|@>; -} -#endif - -@* Displaying boxes. -We can reinforce our knowledge of the data structures just introduced -by considering two procedures that display a list in symbolic form. -The first of these, called |short_display|, is used in ``overfull box'' -messages to give the top-level description of a list. The other one, -called |show_node_list|, prints a detailed description of exactly what -is in the data structure. - -The philosophy of |short_display| is to ignore the fine points about exactly -what is inside boxes, except that ligatures and discretionary breaks are -expanded. As a result, |short_display| is a recursive procedure, but the -recursion is never more than one level deep. -@^recursion@> - -A global variable |font_in_short_display| keeps track of the font code that -is assumed to be present when |short_display| begins; deviations from this -font will be printed. - -@<Glob...@>= -int @!font_in_short_display; /*an internal font number*/ - -@ Boxes, rules, inserts, whatsits, marks, and things in general that are -sort of ``complicated'' are indicated only by printing `\.{[]}'. - -@p void short_display(int @!p) /*prints highlights of list |p|*/ -{@+int n; /*for replacement counts*/ -while (p > mem_min) - {@+if (is_char_node(p)) - {@+if (p <= mem_end) - {@+if (font(p)!=font_in_short_display) - {@+if ((font(p) < font_base)||(font(p) > font_max)) - print_char('*'); -@.*\relax@> - else@<Print the font identifier for |font(p)|@>; - print_char(' ');font_in_short_display=font(p); - } - print_ASCII(qo(character(p))); - } - } - else@<Print a short indication of the contents of node |p|@>; - p=link(p); - } -} - -@ @<Print a short indication of the contents of node |p|@>= -switch (type(p)) { -case hlist_node: case vlist_node: case ins_node: case whatsit_node: case mark_node: case adjust_node: - case unset_node: case unset_set_node: case unset_pack_node: print("[]");@+break; -case rule_node: print_char('|');@+break; -case glue_node: if (glue_ptr(p)!=zero_glue) print_char(' ');@+break; -case math_node: print_char('$');@+break; -case ligature_node: short_display(lig_ptr(p));@+break; -case disc_node: {@+short_display(pre_break(p)); - short_display(post_break(p));@/ - n=replace_count(p); - while (n > 0) - {@+if (link(p)!=null) p=link(p); - decr(n); - } - } @+break; -default:do_nothing; -} - -@ The |show_node_list| routine requires some auxiliary subroutines: one to -print a font-and-character combination, one to print a token list without -its reference count, and one to print a rule dimension. - -@p static void print_font_and_char(int @!p) /*prints |char_node| data*/ -{@+if (p > mem_end) print_esc("CLOBBERED."); -else{@+if ((font(p) < font_base)||(font(p) > font_max)) print_char('*'); -@.*\relax@> - else@<Print the font identifier for |font(p)|@>; - print_char(' ');print_ASCII(qo(character(p))); - } -} -@# -static void print_mark(int @!p) /*prints token list data in braces*/ -{@+print_char('{'); -if ((p < hi_mem_min)||(p > mem_end)) print_esc("CLOBBERED."); -else show_token_list(link(p), null, max_print_line-10); -print_char('}'); -} -@# -static void print_rule_dimen(scaled @!d) /*prints dimension in rule node*/ -{@+if (is_running(d)) print_char('*');else print_scaled(d); -@.*\relax@> -} - -@ Then there is a subroutine that prints glue stretch and shrink, possibly -followed by the name of finite units: - -@p static void print_glue(scaled @!d, int @!order, char *@!s) - /*prints a glue component*/ -{@+print_scaled(d); -if ((order < normal)||(order > filll)) print("foul"); -else if (order > normal) - {@+print("fil"); - while (order > fil) - {@+print_char('l');decr(order); - } - } -else if (s!=0) print(s); -} - -@ The next subroutine prints a whole glue specification. - -@p void print_spec(int @!p, char *@!s) - /*prints a glue specification*/ -{@+if ((p < mem_min)||(p >= lo_mem_max)) print_char('*'); -@.*\relax@> -else{@+print_scaled(width(p)); - if (s!=0) print(s); - if (stretch(p)!=0) - {@+print(" plus ");print_glue(stretch(p), stretch_order(p), s); - } - if (shrink(p)!=0) - {@+print(" minus ");print_glue(shrink(p), shrink_order(p), s); - } - } -} - -@ We also need to declare some procedures that appear later in this -documentation. - -@p @<Declare procedures needed for displaying the elements of mlists@>@; -@<Declare the procedure called |print_skip_param|@>@; -static void print_xdimen(pointer p) -{ print_scaled(xdimen_width(p)); - if (xdimen_hfactor(p)!=0) - { print_char('+');print_scaled(xdimen_hfactor(p));print("*hsize");} - if (xdimen_vfactor(p)!=0) - { print_char('+');print_scaled(xdimen_vfactor(p));print("*vsize");} -} -extern void print_baseline_skip(int i); - -@ Since boxes can be inside of boxes, |show_node_list| is inherently recursive, -@^recursion@> -up to a given maximum number of levels. The history of nesting is indicated -by the current string, which will be printed at the beginning of each line; -the length of this string, namely |cur_length|, is the depth of nesting. - -Recursive calls on |show_node_list| therefore use the following pattern: - -@d node_list_display(A) - {@+append_char('.');show_node_list(A);flush_char; - } /*|str_room| need not be checked; see |show_box| below*/ - -@ A global variable called |depth_threshold| is used to record the maximum -depth of nesting for which |show_node_list| will show information. If we -have |depth_threshold==0|, for example, only the top level information will -be given and no sublists will be traversed. Another global variable, called -|breadth_max|, tells the maximum number of items to show at each level; -|breadth_max| had better be positive, or you won't see anything. - -@<Glob...@>= -int @!depth_threshold; /*maximum nesting depth in box displays*/ -int @!breadth_max; /*maximum number of items shown at the same list level*/ - -@ Now we are ready for |show_node_list| itself. This procedure has been -written to be ``extra robust'' in the sense that it should not crash or get -into a loop even if the data structures have been messed up by bugs in -the rest of the program. You can safely call its parent routine -|show_box(p)| for arbitrary values of |p| when you are debugging \TeX. -However, in the presence of bad data, the procedure may -@^dirty \PASCAL@>@^debugging@> -fetch a |memory_word| whose variant is different from the way it was stored; -for example, it might try to read |mem[p].hh| when |mem[p]| -contains a scaled integer, if |p| is a pointer that has been -clobbered or chosen at random. - -@p void show_node_list(int @!p) /*prints a node list symbolically*/ -{@+ -int n; /*the number of items already printed at this level*/ -double @!g; /*a glue ratio, as a floating point number*/ -if (cur_length > depth_threshold) - {@+if (p > null) print(" []"); - /*indicate that there's been some truncation*/ - return; - } -n=0; -while (p > mem_min) - {@+print_ln();print_current_string(); /*display the nesting history*/ - if (p > mem_end) /*pointer out of range*/ - {@+print("Bad link, display aborted.");return; -@.Bad link...@> - } - incr(n);if (n > breadth_max) /*time to stop*/ - {@+print("etc.");return; -@.etc@> - } - display_node(p); - p=link(p); - } - -} - -void display_node(pointer p)@t~@> -{ -if (is_char_node(p)) print_font_and_char(p); -else switch (type(p)) { - case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: @<Display box |p|@>@;@+break; - case rule_node: @<Display rule |p|@>@;@+break; - case ins_node: @<Display insertion |p|@>@;@+break; - case whatsit_node: @<Display the whatsit node |p|@>@;@+break; - case glue_node: @<Display glue |p|@>@;@+break; - case kern_node: @<Display kern |p|@>@;@+break; - case math_node: @<Display math node |p|@>@;@+break; - case ligature_node: @<Display ligature |p|@>@;@+break; - case penalty_node: @<Display penalty |p|@>@;@+break; - case disc_node: @<Display discretionary |p|@>@;@+break; - case mark_node: @<Display mark |p|@>@;@+break; - case adjust_node: @<Display adjustment |p|@>@;@+break; - @t\4@>@<Cases of |show_node_list| that arise in mlists only@>@; - default:print("Unknown node type!"); - } -} - -@ @<Display box |p|@>= -{@+if (type(p)==hlist_node) print_esc("h"); -else if (type(p)==vlist_node) print_esc("v"); -else print_esc("unset"); -print("box(");print_scaled(height(p));print_char('+'); -print_scaled(depth(p));print(")x");print_scaled(width(p)); -if (type(p)==unset_set_node) print("set"); -else if (type(p)==unset_pack_node) print("pack"); -else if (type(p)==unset_node) - @<Display special fields of the unset node |p|@>@; -else{@+@<Display the value of |glue_set(p)|@>; - if (shift_amount(p)!=0) - {@+print(", shifted ");print_scaled(shift_amount(p)); - } - } -node_list_display(list_ptr(p)); /*recursive call*/ -} - -@ @<Display special fields of the unset node |p|@>= -{@+if (span_count(p)!=min_quarterword) - {@+print(" (");print_int(qo(span_count(p))+1); - print(" columns)"); - } -if (glue_stretch(p)!=0) - {@+print(", stretch ");print_glue(glue_stretch(p), glue_order(p), 0); - } -if (glue_shrink(p)!=0) - {@+print(", shrink ");print_glue(glue_shrink(p), glue_sign(p), 0); - } -} - -@ The code will have to change in this place if |glue_ratio| is -a structured type instead of an ordinary |double|. Note that this routine -should avoid arithmetic errors even if the |glue_set| field holds an -arbitrary random value. The following code assumes that a properly -formed nonzero |double| number has absolute value $2^{20}$ or more when -it is regarded as an integer; this precaution was adequate to prevent -floating point underflow on the author's computer. -@^system dependencies@> -@^dirty \PASCAL@> - -@<Display the value of |glue_set(p)|@>= -g=float(glue_set(p)); -if ((g!=float_constant(0))&&(glue_sign(p)!=normal)) - {@+print(", glue set "); - if (glue_sign(p)==shrinking) print("- "); - if (abs(mem[p+glue_offset].i) < 04000000) print("?.?"); - else if (abs(g) > float_constant(20000)) - {@+if (g > float_constant(0)) print_char('>'); - else print("< -"); - print_glue(20000*unity, glue_order(p), 0); - } - else print_glue(round(unity*g), glue_order(p), 0); -@^real multiplication@> - } - -@ @<Display rule |p|@>= -{@+print_esc("rule(");print_rule_dimen(height(p));print_char('+'); -print_rule_dimen(depth(p));print(")x");print_rule_dimen(width(p)); -} - -@ @<Display insertion |p|@>= -{@+print_esc("insert");print_int(qo(subtype(p))); -print("; split(");print_spec(split_top_ptr(p), 0); -print_char(',');print_scaled(depth(p)); -print("); float cost ");print_int(float_cost(p)); -node_list_display(ins_ptr(p)); /*recursive call*/ -} - -@ @<Display glue |p|@>= -if (subtype(p) >= a_leaders) @<Display leaders |p|@>@; -else{@+print_esc("glue"); - if (subtype(p)!=normal) - {@+print_char('('); - if (subtype(p) < cond_math_glue) - print_skip_param(subtype(p)-1); - else if (subtype(p)==cond_math_glue) print_esc("nonscript"); - else print_esc("mskip"); - print_char(')'); - } - if (subtype(p)!=cond_math_glue) - {@+print_char(' '); - if (subtype(p) < cond_math_glue) print_spec(glue_ptr(p), 0); - else print_spec(glue_ptr(p),"mu"); - } - } - -@ @<Display leaders |p|@>= -{@+print_esc(""); -if (subtype(p)==c_leaders) print_char('c'); -else if (subtype(p)==x_leaders) print_char('x'); -print("leaders ");print_spec(glue_ptr(p), 0); -node_list_display(leader_ptr(p)); /*recursive call*/ -} - -@ An ``explicit'' kern value is indicated implicitly by an explicit space. - -@<Display kern |p|@>= -if (subtype(p)!=mu_glue) - {@+print_esc("kern"); - if (subtype(p)!=normal) print_char(' '); - print_scaled(width(p)); - if (subtype(p)==acc_kern) print(" (for accent)"); -@.for accent@> - } -else{@+print_esc("mkern");print_scaled(width(p));print("mu"); - } - -@ @<Display math node |p|@>= -{@+print_esc("math"); -if (subtype(p)==before) print("on"); -else print("off"); -if (width(p)!=0) - {@+print(", surrounded ");print_scaled(width(p)); - } -} - -@ @<Display ligature |p|@>= -{@+print_font_and_char(lig_char(p));print(" (ligature "); -if (subtype(p) > 1) print_char('|'); -font_in_short_display=font(lig_char(p));short_display(lig_ptr(p)); -if (odd(subtype(p))) print_char('|'); -print_char(')'); -} - -@ @<Display penalty |p|@>= -{@+print_esc("penalty ");print_int(penalty(p)); -} - -@ The |post_break| list of a discretionary node is indicated by a prefixed -`\.{\char'174}' instead of the `\..' before the |pre_break| list. - -@<Display discretionary |p|@>= -{@+print_esc("discretionary"); -if (replace_count(p) > 0) - {@+print(" replacing ");print_int(replace_count(p)); - } -node_list_display(pre_break(p)); /*recursive call*/ -append_char('|');show_node_list(post_break(p));flush_char; /*recursive call*/ -} - -@ @<Display mark |p|@>= -{@+print_esc("mark");print_mark(mark_ptr(p)); -} - -@ @<Display adjustment |p|@>= -{@+print_esc("vadjust");node_list_display(adjust_ptr(p)); /*recursive call*/ -} - -@ The recursive machinery is started by calling |show_box|. -@^recursion@> - -@p void show_box(pointer @!p) -{@+@<Assign the values |depth_threshold:=show_box_depth| and |breadth_max:=show_box_breadth|@>; -if (breadth_max <= 0) breadth_max=5; -if (pool_ptr+depth_threshold >= pool_size) - depth_threshold=pool_size-pool_ptr-1; - /*now there's enough room for prefix string*/ -show_node_list(p); /*the show starts at |p|*/ -print_ln(); -} - -@* Destroying boxes. -When we are done with a node list, we are obliged to return it to free -storage, including all of its sublists. The recursive procedure -|flush_node_list| does this for us. - -@ First, however, we shall consider two non-recursive procedures that do -simpler tasks. The first of these, |delete_token_ref|, is called when -a pointer to a token list's reference count is being removed. This means -that the token list should disappear if the reference count was |null|, -otherwise the count should be decreased by one. -@^reference counts@> - -@d token_ref_count(A) info(A) /*reference count preceding a token list*/ - -@p void delete_token_ref(pointer @!p) /*|p| points to the reference count - of a token list that is losing one reference*/ -{@+if (token_ref_count(p)==null) flush_list(p); -else decr(token_ref_count(p)); -} - -@ Similarly, |delete_glue_ref| is called when a pointer to a glue -specification is being withdrawn. -@^reference counts@> -@d fast_delete_glue_ref(A) @t@>@;@/ - {@+if (glue_ref_count(A)==null) free_node(A, glue_spec_size); - else decr(glue_ref_count(A)); - } - -@p void delete_glue_ref(pointer @!p) /*|p| points to a glue specification*/ -fast_delete_glue_ref(p) -void delete_xdimen_ref(pointer @!p) /*|p| points to a xdimen specification*/ -{@+if (xdimen_ref_count(p)==null) free_node(p, xdimen_node_size); - else decr(xdimen_ref_count(p)); -} - -@ Now we are ready to delete any node list, recursively. -In practice, the nodes deleted are usually charnodes (about 2/3 of the time), -and they are glue nodes in about half of the remaining cases. -@^recursion@> - -@p void flush_node_list(pointer @!p) /*erase list of nodes starting at |p|*/ -{@+ /*go here when node |p| has been freed*/ -pointer q; /*successor to node |p|*/ -while (p!=null) -@^inner loop@> - {@+q=link(p); - if (is_char_node(p)) free_avail(p)@; - else{@+switch (type(p)) { - case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: {@+flush_node_list(list_ptr(p)); - free_node(p, box_node_size);goto done; - } - case rule_node: {@+free_node(p, rule_node_size);goto done; - } - case ins_node: {@+flush_node_list(ins_ptr(p)); - delete_glue_ref(split_top_ptr(p)); - free_node(p, ins_node_size);goto done; - } - case whatsit_node: @<Wipe out the whatsit node |p| and |goto done|@>@; - case glue_node: {@+fast_delete_glue_ref(glue_ptr(p)); - if (leader_ptr(p)!=null) flush_node_list(leader_ptr(p)); - } @+break; - case kern_node: case math_node: case penalty_node: do_nothing;@+break; - case ligature_node: flush_node_list(lig_ptr(p));@+break; - case mark_node: delete_token_ref(mark_ptr(p));@+break; - case disc_node: {@+flush_node_list(pre_break(p)); - flush_node_list(post_break(p)); - } @+break; - case adjust_node: flush_node_list(adjust_ptr(p));@+break; - @t\4@>@<Cases of |flush_node_list| that arise in mlists only@>@; - default:confusion("flushing"); -@:this can't happen flushing}{\quad flushing@> - } @/ - free_node(p, small_node_size); - done: ;} - p=q; - } -} - -@* Copying boxes. -Another recursive operation that acts on boxes is sometimes needed: The -procedure |copy_node_list| returns a pointer to another node list that has -the same structure and meaning as the original. Note that since glue -specifications and token lists have reference counts, we need not make -copies of them. Reference counts can never get too large to fit in a -halfword, since each pointer to a node is in a different memory address, -and the total number of memory addresses fits in a halfword. -@^recursion@> -@^reference counts@> - -(Well, there actually are also references from outside |mem|; if the -|save_stack| is made arbitrarily large, it would theoretically be possible -to break \TeX\ by overflowing a reference count. But who would want to do that?) - -@d add_token_ref(A) incr(token_ref_count(A)) /*new reference to a token list*/ -@d add_glue_ref(A) incr(glue_ref_count(A)) /*new reference to a glue spec*/ -@d add_xdimen_ref(A) incr(xdimen_ref_count(A)) /*new reference to an xdimen*/ - -@ The copying procedure copies words en masse without bothering -to look at their individual fields. If the node format changes---for -example, if the size is altered, or if some link field is moved to another -relative position---then this code may need to be changed too. -@^data structure assumptions@> - -@p pointer copy_node_list(pointer @!p) /*makes a duplicate of the - node list that starts at |p| and returns a pointer to the new list*/ -{@+pointer h; /*temporary head of copied list*/ -pointer @!q; /*previous position in new list*/ -pointer @!r; /*current node being fabricated for new list*/ -int @!words; /*number of words remaining to be copied*/ -h=get_avail();q=h; -while (p!=null) - {@+@<Make a copy of node |p| in node |r|@>; - link(q)=r;q=r;p=link(p); - } -link(q)=null;q=link(h);free_avail(h); -return q; -} - -@ @<Make a copy of node |p|...@>= -words=1; /*this setting occurs in more branches than any other*/ -if (is_char_node(p)) r=get_avail(); -else@<Case statement to copy different types and set |words| to the number of initial -words not yet copied@>; -while (words > 0) - {@+decr(words);mem[r+words]=mem[p+words]; - } - -@ @<Case statement to copy...@>= -switch (type(p)) { -case hlist_node: case vlist_node: case unset_node: case unset_set_node: case unset_pack_node: {@+r=get_node(box_node_size); - mem[r+6]=mem[p+6];mem[r+5]=mem[p+5]; /*copy the last two words*/ - list_ptr(r)=copy_node_list(list_ptr(p)); /*this affects |mem[r+5]|*/ - words=5; - } @+break; -case rule_node: {@+r=get_node(rule_node_size);words=rule_node_size; - } @+break; -case ins_node: {@+r=get_node(ins_node_size);mem[r+4]=mem[p+4]; - add_glue_ref(split_top_ptr(p)); - ins_ptr(r)=copy_node_list(ins_ptr(p)); /*this affects |mem[r+4]|*/ - words=ins_node_size-1; - } @+break; -case whatsit_node: @<Make a partial copy of the whatsit node |p| and make |r| point -to it; set |words| to the number of initial words not yet copied@>@;@+break; -case glue_node: {@+r=get_node(small_node_size);add_glue_ref(glue_ptr(p)); - glue_ptr(r)=glue_ptr(p);leader_ptr(r)=copy_node_list(leader_ptr(p)); - } @+break; -case kern_node: case math_node: case penalty_node: {@+r=get_node(small_node_size); - words=small_node_size; - } @+break; -case ligature_node: {@+r=get_node(small_node_size); - mem[lig_char(r)]=mem[lig_char(p)]; /*copy |font| and |character|*/ - lig_ptr(r)=copy_node_list(lig_ptr(p)); - } @+break; -case disc_node: {@+r=get_node(small_node_size); - pre_break(r)=copy_node_list(pre_break(p)); - post_break(r)=copy_node_list(post_break(p)); - } @+break; -case mark_node: {@+r=get_node(small_node_size);add_token_ref(mark_ptr(p)); - words=small_node_size; - } @+break; -case adjust_node: {@+r=get_node(small_node_size); - adjust_ptr(r)=copy_node_list(adjust_ptr(p)); - } @+break; /*|words==1==small_node_size-1|*/ -default:confusion("copying"); -@:this can't happen copying}{\quad copying@> -} - -@* The command codes. -Before we can go any further, we need to define symbolic names for the internal -code numbers that represent the various commands obeyed by \TeX. These codes -are somewhat arbitrary, but not completely so. For example, the command -codes for character types are fixed by the language, since a user says, -e.g., `\.{\\catcode \`\\\${} = 3}' to make \.{\char'44} a math delimiter, -and the command code |math_shift| is equal to~3. Some other codes have -been made adjacent so that |case| statements in the program need not consider -cases that are widely spaced, or so that |case| statements can be replaced -by |if (| statements. - -At any rate, here is the list, for future reference. First come the -``catcode'' commands, several of which share their numeric codes with -ordinary commands when the catcode cannot emerge from \TeX's scanning routine. - -@d escape 0 /*escape delimiter (called \.\\ in {\sl The \TeX book\/})*/ -@:TeXbook}{\sl The \TeX book@> -@d relax 0 /*do nothing ( \.{\\relax} )*/ -@d left_brace 1 /*beginning of a group ( \.\{ )*/ -@d right_brace 2 /*ending of a group ( \.\} )*/ -@d math_shift 3 /*mathematics shift character ( \.\$ )*/ -@d tab_mark 4 /*alignment delimiter ( \.\&, \.{\\span} )*/ -@d car_ret 5 /*end of line ( |carriage_return|, \.{\\cr}, \.{\\crcr} )*/ -@d out_param 5 /*output a macro parameter*/ -@d mac_param 6 /*macro parameter symbol ( \.\# )*/ -@d sup_mark 7 /*superscript ( \.{\char'136} )*/ -@d sub_mark 8 /*subscript ( \.{\char'137} )*/ -@d ignore 9 /*characters to ignore ( \.{\^\^@@} )*/ -@d endv 9 /*end of \<v_j> list in alignment template*/ -@d spacer 10 /*characters equivalent to blank space ( \.{\ } )*/ -@d letter 11 /*characters regarded as letters ( \.{A..Z}, \.{a..z} )*/ -@d other_char 12 /*none of the special character types*/ -@d active_char 13 /*characters that invoke macros ( \.{\char`\~} )*/ -@d par_end 13 /*end of paragraph ( \.{\\par} )*/ -@d match 13 /*match a macro parameter*/ -@d comment 14 /*characters that introduce comments ( \.\% )*/ -@d end_match 14 /*end of parameters to macro*/ -@d stop 14 /*end of job ( \.{\\end}, \.{\\dump} )*/ -@d invalid_char 15 /*characters that shouldn't appear ( \.{\^\^?} )*/ -@d delim_num 15 /*specify delimiter numerically ( \.{\\delimiter} )*/ -@d max_char_code 15 /*largest catcode for individual characters*/ - -@ Next are the ordinary run-of-the-mill command codes. Codes that are -|min_internal| or more represent internal quantities that might be -expanded by `\.{\\the}'. - -@d char_num 16 /*character specified numerically ( \.{\\char} )*/ -@d math_char_num 17 /*explicit math code ( \.{\\mathchar} )*/ -@d mark 18 /*mark definition ( \.{\\mark} )*/ -@d xray 19 /*peek inside of \TeX\ ( \.{\\show}, \.{\\showbox}, etc.~)*/ -@d make_box 20 /*make a box ( \.{\\box}, \.{\\copy}, \.{\\hbox}, etc.~)*/ -@d hmove 21 /*horizontal motion ( \.{\\moveleft}, \.{\\moveright} )*/ -@d vmove 22 /*vertical motion ( \.{\\raise}, \.{\\lower} )*/ -@d un_hbox 23 /*unglue a box ( \.{\\unhbox}, \.{\\unhcopy} )*/ -@d un_vbox 24 /*unglue a box ( \.{\\unvbox}, \.{\\unvcopy} )*/ -@d remove_item 25 /*nullify last item ( \.{\\unpenalty}, - \.{\\unkern}, \.{\\unskip} )*/ -@d hskip 26 /*horizontal glue ( \.{\\hskip}, \.{\\hfil}, etc.~)*/ -@d vskip 27 /*vertical glue ( \.{\\vskip}, \.{\\vfil}, etc.~)*/ -@d mskip 28 /*math glue ( \.{\\mskip} )*/ -@d kern 29 /*fixed space ( \.{\\kern} )*/ -@d mkern 30 /*math kern ( \.{\\mkern} )*/ -@d leader_ship 31 /*use a box ( \.{\\shipout}, \.{\\leaders}, etc.~)*/ -@d halign 32 /*horizontal table alignment ( \.{\\halign} )*/ -@d valign 33 /*vertical table alignment ( \.{\\valign} )*/ -@d no_align 34 /*temporary escape from alignment ( \.{\\noalign} )*/ -@d vrule 35 /*vertical rule ( \.{\\vrule} )*/ -@d hrule 36 /*horizontal rule ( \.{\\hrule} )*/ -@d insert 37 /*vlist inserted in box ( \.{\\insert} )*/ -@d vadjust 38 /*vlist inserted in enclosing paragraph ( \.{\\vadjust} )*/ -@d ignore_spaces 39 /*gobble |spacer| tokens ( \.{\\ignorespaces} )*/ -@d after_assignment 40 /*save till assignment is done ( \.{\\afterassignment} )*/ -@d after_group 41 /*save till group is done ( \.{\\aftergroup} )*/ -@d break_penalty 42 /*additional badness ( \.{\\penalty} )*/ -@d start_par 43 /*begin paragraph ( \.{\\indent}, \.{\\noindent} )*/ -@d ital_corr 44 /*italic correction ( \.{\\/} )*/ -@d accent 45 /*attach accent in text ( \.{\\accent} )*/ -@d math_accent 46 /*attach accent in math ( \.{\\mathaccent} )*/ -@d discretionary 47 /*discretionary texts ( \.{\\-}, \.{\\discretionary} )*/ -@d eq_no 48 /*equation number ( \.{\\eqno}, \.{\\leqno} )*/ -@d left_right 49 /*variable delimiter ( \.{\\left}, \.{\\right} )*/ - /*( or \.{\\middle} )*/ -@d math_comp 50 /*component of formula ( \.{\\mathbin}, etc.~)*/ -@d limit_switch 51 /*diddle limit conventions ( \.{\\displaylimits}, etc.~)*/ -@d above 52 /*generalized fraction ( \.{\\above}, \.{\\atop}, etc.~)*/ -@d math_style 53 /*style specification ( \.{\\displaystyle}, etc.~)*/ -@d math_choice 54 /*choice specification ( \.{\\mathchoice} )*/ -@d non_script 55 /*conditional math glue ( \.{\\nonscript} )*/ -@d vcenter 56 /*vertically center a vbox ( \.{\\vcenter} )*/ -@d case_shift 57 /*force specific case ( \.{\\lowercase}, \.{\\uppercase}~)*/ -@d message 58 /*send to user ( \.{\\message}, \.{\\errmessage} )*/ -@d extension 59 /*extensions to \TeX\ ( \.{\\write}, \.{\\special}, etc.~)*/ -@d in_stream 60 /*files for reading ( \.{\\openin}, \.{\\closein} )*/ -@d begin_group 61 /*begin local grouping ( \.{\\begingroup} )*/ -@d end_group 62 /*end local grouping ( \.{\\endgroup} )*/ -@d omit 63 /*omit alignment template ( \.{\\omit} )*/ -@d ex_space 64 /*explicit space ( \.{\\\ } )*/ -@d no_boundary 65 /*suppress boundary ligatures ( \.{\\noboundary} )*/ -@d radical 66 /*square root and similar signs ( \.{\\radical} )*/ -@d end_cs_name 67 /*end control sequence ( \.{\\endcsname} )*/ -@d min_internal 68 /*the smallest code that can follow \.{\\the}*/ -@d char_given 68 /*character code defined by \.{\\chardef}*/ -@d math_given 69 /*math code defined by \.{\\mathchardef}*/ -@d last_item 70 /*most recent item ( \.{\\lastpenalty}, - \.{\\lastkern}, \.{\\lastskip} )*/ -@d max_non_prefixed_command 70 /*largest command code that can't be \.{\\global}*/ - -@ The next codes are special; they all relate to mode-independent -assignment of values to \TeX's internal registers or tables. -Codes that are |max_internal| or less represent internal quantities -that might be expanded by `\.{\\the}'. - -@d toks_register 71 /*token list register ( \.{\\toks} )*/ -@d assign_toks 72 /*special token list ( \.{\\output}, \.{\\everypar}, etc.~)*/ -@d assign_int 73 /*user-defined integer ( \.{\\tolerance}, \.{\\day}, etc.~)*/ -@d assign_dimen 74 /*user-defined length ( \.{\\hsize}, etc.~)*/ -@d assign_glue 75 /*user-defined glue ( \.{\\baselineskip}, etc.~)*/ -@d assign_mu_glue 76 /*user-defined muglue ( \.{\\thinmuskip}, etc.~)*/ -@d assign_font_dimen 77 /*user-defined font dimension ( \.{\\fontdimen} )*/ -@d assign_font_int 78 /*user-defined font integer ( \.{\\hyphenchar}, - \.{\\skewchar} )*/ -@d set_aux 79 /*specify state info ( \.{\\spacefactor}, \.{\\prevdepth} )*/ -@d set_prev_graf 80 /*specify state info ( \.{\\prevgraf} )*/ -@d set_page_dimen 81 /*specify state info ( \.{\\pagegoal}, etc.~)*/ -@d set_page_int 82 /*specify state info ( \.{\\deadcycles}, - \.{\\insertpenalties} )*/ - /*( or \.{\\interactionmode} )*/ -@d set_box_dimen 83 /*change dimension of box ( \.{\\wd}, \.{\\ht}, \.{\\dp} )*/ -@d set_shape 84 /*specify fancy paragraph shape ( \.{\\parshape} )*/ - /*(or \.{\\interlinepenalties}, etc.~)*/ -@d def_code 85 /*define a character code ( \.{\\catcode}, etc.~)*/ -@d def_family 86 /*declare math fonts ( \.{\\textfont}, etc.~)*/ -@d set_font 87 /*set current font ( font identifiers )*/ -@d def_font 88 /*define a font file ( \.{\\font} )*/ -@d internal_register 89 /*internal register ( \.{\\count}, \.{\\dimen}, etc.~)*/ -@d max_internal 89 /*the largest code that can follow \.{\\the}*/ -@d advance 90 /*advance a register or parameter ( \.{\\advance} )*/ -@d multiply 91 /*multiply a register or parameter ( \.{\\multiply} )*/ -@d divide 92 /*divide a register or parameter ( \.{\\divide} )*/ -@d prefix 93 /*qualify a definition ( \.{\\global}, \.{\\long}, \.{\\outer} )*/ - /*( or \.{\\protected} )*/ -@d let 94 /*assign a command code ( \.{\\let}, \.{\\futurelet} )*/ -@d shorthand_def 95 /*code definition ( \.{\\chardef}, \.{\\countdef}, etc.~)*/ -@d read_to_cs 96 /*read into a control sequence ( \.{\\read} )*/ - /*( or \.{\\readline} )*/ -@d def 97 /*macro definition ( \.{\\def}, \.{\\gdef}, \.{\\xdef}, \.{\\edef} )*/ -@d set_box 98 /*set a box ( \.{\\setbox} )*/ -@d hyph_data 99 /*hyphenation data ( \.{\\hyphenation}, \.{\\patterns} )*/ -@d set_interaction 100 /*define level of interaction ( \.{\\batchmode}, etc.~)*/ -@d max_command 100 /*the largest command code seen at |big_switch|*/ - -@ The remaining command codes are extra special, since they cannot get through -\TeX's scanner to the main control routine. They have been given values higher -than |max_command| so that their special nature is easily discernible. -The ``expandable'' commands come first. - -@d undefined_cs (max_command+1) /*initial state of most |eq_type| fields*/ -@d expand_after (max_command+2) /*special expansion ( \.{\\expandafter} )*/ -@d no_expand (max_command+3) /*special nonexpansion ( \.{\\noexpand} )*/ -@d input (max_command+4) /*input a source file ( \.{\\input}, \.{\\endinput} )*/ - /*( or \.{\\scantokens} )*/ -@d if_test (max_command+5) /*conditional text ( \.{\\if}, \.{\\ifcase}, etc.~)*/ -@d fi_or_else (max_command+6) /*delimiters for conditionals ( \.{\\else}, etc.~)*/ -@d cs_name (max_command+7) /*make a control sequence from tokens ( \.{\\csname} )*/ -@d convert (max_command+8) /*convert to text ( \.{\\number}, \.{\\string}, etc.~)*/ -@d the (max_command+9) /*expand an internal quantity ( \.{\\the} )*/ - /*( or \.{\\unexpanded}, \.{\\detokenize} )*/ -@d top_bot_mark (max_command+10) /*inserted mark ( \.{\\topmark}, etc.~)*/ -@d call (max_command+11) /*non-long, non-outer control sequence*/ -@d long_call (max_command+12) /*long, non-outer control sequence*/ -@d outer_call (max_command+13) /*non-long, outer control sequence*/ -@d long_outer_call (max_command+14) /*long, outer control sequence*/ -@d end_template (max_command+15) /*end of an alignment template*/ -@d dont_expand (max_command+16) /*the following token was marked by \.{\\noexpand}*/ -@d glue_ref (max_command+17) /*the equivalent points to a glue specification*/ -@d shape_ref (max_command+18) /*the equivalent points to a parshape specification*/ -@d box_ref (max_command+19) /*the equivalent points to a box node, or is |null|*/ -@d data (max_command+20) /*the equivalent is simply a halfword number*/ - -@* The semantic nest. -\TeX\ is typically in the midst of building many lists at once. For example, -when a math formula is being processed, \TeX\ is in math mode and -working on an mlist; this formula has temporarily interrupted \TeX\ from -being in horizontal mode and building the hlist of a paragraph; and this -paragraph has temporarily interrupted \TeX\ from being in vertical mode -and building the vlist for the next page of a document. Similarly, when a -\.{\\vbox} occurs inside of an \.{\\hbox}, \TeX\ is temporarily -interrupted from working in restricted horizontal mode, and it enters -internal vertical mode. The ``semantic nest'' is a stack that -keeps track of what lists and modes are currently suspended. - -At each level of processing we are in one of six modes: - -\yskip\hang|vmode| stands for vertical mode (the page builder); - -\hang|hmode| stands for horizontal mode (the paragraph builder); - -\hang|mmode| stands for displayed formula mode; - -\hang|-vmode| stands for internal vertical mode (e.g., in a \.{\\vbox}); - -\hang|-hmode| stands for restricted horizontal mode (e.g., in an \.{\\hbox}); - -\hang|-mmode| stands for math formula mode (not displayed). - -\yskip\noindent The mode is temporarily set to zero while processing \.{\\write} -texts. - -Numeric values are assigned to |vmode|, |hmode|, and |mmode| so that -\TeX's ``big semantic switch'' can select the appropriate thing to -do by computing the value |abs(mode)+cur_cmd|, where |mode| is the current -mode and |cur_cmd| is the current command code. - -@d vmode 1 /*vertical mode*/ -@d hmode (vmode+max_command+1) /*horizontal mode*/ -@d mmode (hmode+max_command+1) /*math mode*/ - -@p static void print_mode(int @!m) /*prints the mode represented by |m|*/ -{@+if (m > 0) - switch (m/(max_command+1)) { - case 0: print("vertical");@+break; - case 1: print("horizontal");@+break; - case 2: print("display math"); - } -else if (m==0) print("no"); -else switch ((-m)/(max_command+1)) { - case 0: print("internal vertical");@+break; - case 1: print("restricted horizontal");@+break; - case 2: print("math"); - } -print(" mode"); -} - -@ The state of affairs at any semantic level can be represented by -five values: - -\yskip\hang|mode| is the number representing the semantic mode, as -just explained. - -\yskip\hang|head| is a |pointer| to a list head for the list being built; -|link(head)| therefore points to the first element of the list, or -to |null| if the list is empty. - -\yskip\hang|tail| is a |pointer| to the final node of the list being -built; thus, |tail==head| if and only if the list is empty. - -\yskip\hang|prev_graf| is the number of lines of the current paragraph that -have already been put into the present vertical list. - -\yskip\hang|aux| is an auxiliary |memory_word| that gives further information -that is needed to characterize the situation. - -\yskip\noindent -In vertical mode, |aux| is also known as |prev_depth|; it is the scaled -value representing the depth of the previous box, for use in baseline -calculations, or it is | <= -1000|pt if the next box on the vertical list is to -be exempt from baseline calculations. In horizontal mode, |aux| is also -known as |space_factor| and |clang|; it holds the current space factor used in -spacing calculations, and the current language used for hyphenation. -(The value of |clang| is undefined in restricted horizontal mode.) -In math mode, |aux| is also known as |incompleat_noad|; if -not |null|, it points to a record that represents the numerator of a -generalized fraction for which the denominator is currently being formed -in the current list. - -There is also a sixth quantity, |mode_line|, which correlates -the semantic nest with the user's input; |mode_line| contains the source -line number at which the current level of nesting was entered. The negative -of this line number is the |mode_line| at the level of the -user's output routine. - -A seventh quantity, |eTeX_aux|, is used by the extended features \eTeX. -In vertical modes it is known as |LR_save| and holds the LR stack when a -paragraph is interrupted by a displayed formula. In display math mode -it is known as |LR_box| and holds a pointer to a prototype box for the -display. In math mode it is known as |delim_ptr| and points to the most -recent |left_noad| or |middle_noad| of a |math_left_group|. - -In horizontal mode, the |prev_graf| field is used for initial language data. - -The semantic nest is an array called |nest| that holds the |mode|, |head|, -|tail|, |prev_graf|, |aux|, and |mode_line| values for all semantic levels -below the currently active one. Information about the currently active -level is kept in the global quantities |mode|, |head|, |tail|, |prev_graf|, -|aux|, and |mode_line|, which live in a \PASCAL\ record that is ready to -be pushed onto |nest| if necessary. - -@d ignore_depth (-1000*unity) /*|prev_depth| value that is ignored*/ -@d unknown_depth (-2000*unity) /*|prev_depth| value that is unknown*/ - -@<Types...@>= -typedef struct { int16_t @!mode_field;@+ - pointer @!head_field, @!tail_field; - pointer @!eTeX_aux_field; - int @!pg_field, @!ml_field;@+ - memory_word @!aux_field; - } list_state_record; - -@ @d mode cur_list.mode_field /*current mode*/ -@d head cur_list.head_field /*header node of current list*/ -@d tail cur_list.tail_field /*final node on current list*/ -@d eTeX_aux cur_list.eTeX_aux_field /*auxiliary data for \eTeX*/ -@d LR_save eTeX_aux /*LR stack when a paragraph is interrupted*/ -@d LR_box eTeX_aux /*prototype box for display*/ -@d delim_ptr eTeX_aux /*most recent left or right noad of a math left group*/ -@d prev_graf cur_list.pg_field /*number of paragraph lines accumulated*/ -@d aux cur_list.aux_field /*auxiliary data about the current list*/ -@d prev_depth aux.sc /*the name of |aux| in vertical mode*/ -@d space_factor aux.hh.lh /*part of |aux| in horizontal mode*/ -@d clang aux.hh.rh /*the other part of |aux| in horizontal mode*/ -@d incompleat_noad aux.i /*the name of |aux| in math mode*/ -@d mode_line cur_list.ml_field /*source file line number at beginning of list*/ - -@<Glob...@>= -list_state_record @!nest[nest_size+1]; -int @!nest_ptr; /*first unused location of |nest|*/ -static int @!max_nest_stack; /*maximum of |nest_ptr| when pushing*/ -list_state_record @!cur_list; /*the ``top'' semantic state*/ -static int @!shown_mode; /*most recent mode shown by \.{\\tracingcommands}*/ - -@ Here is a common way to make the current list grow: - -@d tail_append(A) {@+link(tail)=A;tail=link(tail); - } - -@ We will see later that the vertical list at the bottom semantic level is split -into two parts; the ``current page'' runs from |page_head| to |page_tail|, -and the ``contribution list'' runs from |contrib_head| to |tail| of -semantic level zero. The idea is that contributions are first formed in -vertical mode, then ``contributed'' to the current page (during which time -the page-breaking decisions are made). For now, we don't need to know -any more details about the page-building process. - -@<Set init...@>= -nest_ptr=0;max_nest_stack=0; -mode=vmode;head=contrib_head;tail=contrib_head; -eTeX_aux=null; -prev_depth=ignore_depth;mode_line=0; -prev_graf=0;shown_mode=0; -@<Start a new current page@>; - -@ When \TeX's work on one level is interrupted, the state is saved by -calling |push_nest|. This routine changes |head| and |tail| so that -a new (empty) list is begun; it does not change |mode| or |aux|. - -@p void push_nest(void) /*enter a new semantic level, save the old*/ -{@+if (nest_ptr > max_nest_stack) - {@+max_nest_stack=nest_ptr; - if (nest_ptr==nest_size) overflow("semantic nest size", nest_size); -@:TeX capacity exceeded semantic nest size}{\quad semantic nest size@> - } -nest[nest_ptr]=cur_list; /*stack the record*/ -incr(nest_ptr);head=get_avail();tail=head;prev_graf=0;mode_line=line; -eTeX_aux=null; -} - -@ Conversely, when \TeX\ is finished on the current level, the former -state is restored by calling |pop_nest|. This routine will never be -called at the lowest semantic level, nor will it be called unless |head| -is a node that should be returned to free memory. - -@p void pop_nest(void) /*leave a semantic level, re-enter the old*/ -{@+free_avail(head);decr(nest_ptr);cur_list=nest[nest_ptr]; -} - -@ Here is a procedure that displays what \TeX\ is working on, at all levels. - -@p static void print_totals(void); -static void show_activities(void) -{@+int p; /*index into |nest|*/ -int @!m; /*mode*/ -memory_word @!a; /*auxiliary*/ -pointer @!q, @!r; /*for showing the current page*/ -int @!t; /*ditto*/ -nest[nest_ptr]=cur_list; /*put the top level into the array*/ -print_nl("");print_ln(); -for (p=nest_ptr; p>=0; p--) - {@+m=nest[p].mode_field;a=nest[p].aux_field; - print_nl("### ");print_mode(m); - print(" entered at line ");print_int(abs(nest[p].ml_field)); - if (m==hmode) if (nest[p].pg_field!=040600000) - {@+print(" (language");print_int(nest[p].pg_field%0200000); - print(":hyphenmin");print_int(nest[p].pg_field/020000000); - print_char(',');print_int((nest[p].pg_field/0200000)%0100); - print_char(')'); - } - if (nest[p].ml_field < 0) print(" (\\output routine)"); - if (p==0) - {@+@<Show the status of the current page@>; - if (link(contrib_head)!=null) - print_nl("### recent contributions:"); - } - show_box(link(nest[p].head_field)); - @<Show the auxiliary field, |a|@>; - } -} - -@ @<Show the auxiliary...@>= -switch (abs(m)/(max_command+1)) { -case 0: {@+print_nl("prevdepth "); - if (a.sc <= ignore_depth) - { if (a.sc <= unknown_depth) print("unknown"); else print("ignored"); } - else print_scaled(a.sc); - if (nest[p].pg_field!=0) - {@+print(", prevgraf "); - print_int(nest[p].pg_field);print(" line"); - if (nest[p].pg_field!=1) print_char('s'); - } - } @+break; -case 1: {@+print_nl("spacefactor ");print_int(a.hh.lh); - if (m > 0) @+if (a.hh.rh > 0) - {@+print(", current language ");print_int(a.hh.rh);@+ - } - } @+break; -case 2: if (a.i!=null) - {@+print("this will begin denominator of:");show_box(a.i);@+ - } -} /*there are no other cases*/ - -@* The table of equivalents. -Now that we have studied the data structures for \TeX's semantic routines, -we ought to consider the data structures used by its syntactic routines. In -other words, our next concern will be -the tables that \TeX\ looks at when it is scanning -what the user has written. - -The biggest and most important such table is called |eqtb|. It holds the -current ``equivalents'' of things; i.e., it explains what things mean -or what their current values are, for all quantities that are subject to -the nesting structure provided by \TeX's grouping mechanism. There are six -parts to |eqtb|: - -\yskip\hangg 1) |eqtb[active_base dotdot(hash_base-1)]| holds the current -equivalents of single-character control sequences. - -\yskip\hangg 2) |eqtb[hash_base dotdot(glue_base-1)]| holds the current -equivalents of multiletter control sequences. - -\yskip\hangg 3) |eqtb[glue_base dotdot(local_base-1)]| holds the current -equivalents of glue parameters like the current baselineskip. - -\yskip\hangg 4) |eqtb[local_base dotdot(int_base-1)]| holds the current -equivalents of local halfword quantities like the current box registers, -the current ``catcodes,'' the current font, and a pointer to the current -paragraph shape. - -\yskip\hangg 5) |eqtb[int_base dotdot(dimen_base-1)]| holds the current -equivalents of fullword integer parameters like the current hyphenation -penalty. - -\yskip\hangg 6) |eqtb[dimen_base dotdot eqtb_size]| holds the current equivalents -of fullword dimension parameters like the current hsize or amount of -hanging indentation. - -\yskip\noindent Note that, for example, the current amount of -baselineskip glue is determined by the setting of a particular location -in region~3 of |eqtb|, while the current meaning of the control sequence -`\.{\\baselineskip}' (which might have been changed by \.{\\def} or -\.{\\let}) appears in region~2. - -@ Each entry in |eqtb| is a |memory_word|. Most of these words are of type -|two_halves|, and subdivided into three fields: - -\yskip\hangg 1) The |eq_level| (a quarterword) is the level of grouping at -which this equivalent was defined. If the level is |level_zero|, the -equivalent has never been defined; |level_one| refers to the outer level -(outside of all groups), and this level is also used for global -definitions that never go away. Higher levels are for equivalents that -will disappear at the end of their group. @^global definitions@> - -\yskip\hangg 2) The |eq_type| (another quarterword) specifies what kind of -entry this is. There are many types, since each \TeX\ primitive like -\.{\\hbox}, \.{\\def}, etc., has its own special code. The list of -command codes above includes all possible settings of the |eq_type| field. - -\yskip\hangg 3) The |equiv| (a halfword) is the current equivalent value. -This may be a font number, a pointer into |mem|, or a variety of other -things. - -@d eq_level_field(A) A.hh.b1 -@d eq_type_field(A) A.hh.b0 -@d equiv_field(A) A.hh.rh -@d eq_level(A) eq_level_field(eqtb[A]) /*level of definition*/ -@d eq_type(A) eq_type_field(eqtb[A]) /*command code for equivalent*/ -@d equiv(A) equiv_field(eqtb[A]) /*equivalent value*/ -@d level_zero min_quarterword /*level for undefined quantities*/ -@d level_one (level_zero+1) /*outermost level for defined quantities*/ - -@ Many locations in |eqtb| have symbolic names. The purpose of the next -paragraphs is to define these names, and to set up the initial values of the -equivalents. - -In the first region we have 256 equivalents for ``active characters'' that -act as control sequences, followed by 256 equivalents for single-character -control sequences. - -Then comes region~2, which corresponds to the hash table that we will -define later. The maximum address in this region is used for a dummy -control sequence that is perpetually undefined. There also are several -locations for control sequences that are perpetually defined -(since they are used in error recovery). - -@d active_base 1 /*beginning of region 1, for active character equivalents*/ -@d single_base (active_base+256) /*equivalents of one-character control sequences*/ -@d null_cs (single_base+256) /*equivalent of \.{\\csname\\endcsname}*/ -@d hash_base (null_cs+1) /*beginning of region 2, for the hash table*/ -@d frozen_control_sequence (hash_base+hash_size) /*for error recovery*/ -@d frozen_protection frozen_control_sequence /*inaccessible but definable*/ -@d frozen_cr (frozen_control_sequence+1) /*permanent `\.{\\cr}'*/ -@d frozen_end_group (frozen_control_sequence+2) /*permanent `\.{\\endgroup}'*/ -@d frozen_right (frozen_control_sequence+3) /*permanent `\.{\\right}'*/ -@d frozen_fi (frozen_control_sequence+4) /*permanent `\.{\\fi}'*/ -@d frozen_end_template (frozen_control_sequence+5) /*permanent `\.{\\endtemplate}'*/ -@d frozen_endv (frozen_control_sequence+6) /*second permanent `\.{\\endtemplate}'*/ -@d frozen_relax (frozen_control_sequence+7) /*permanent `\.{\\relax}'*/ -@d end_write (frozen_control_sequence+8) /*permanent `\.{\\endwrite}'*/ -@d frozen_dont_expand (frozen_control_sequence+9) - /*permanent `\.{\\notexpanded:}'*/ -@d frozen_null_font (frozen_control_sequence+10) - /*permanent `\.{\\nullfont}'*/ -@d font_id_base (frozen_null_font-font_base) - /*begins table of 257 permanent font identifiers*/ -@d undefined_control_sequence (frozen_null_font+257) /*dummy location*/ -@d glue_base (undefined_control_sequence+1) /*beginning of region 3*/ - -@<Initialize table entries...@>= -eq_type(undefined_control_sequence)=undefined_cs; -equiv(undefined_control_sequence)=null; -eq_level(undefined_control_sequence)=level_zero; -for (k=active_base; k<=undefined_control_sequence-1; k++) - eqtb[k]=eqtb[undefined_control_sequence]; - -@ Here is a routine that displays the current meaning of an |eqtb| entry -in region 1 or~2. (Similar routines for the other regions will appear -below.) - -@<Show equivalent |n|, in region 1 or 2@>= -{@+sprint_cs(n);print_char('=');print_cmd_chr(eq_type(n), equiv(n)); -if (eq_type(n) >= call) - {@+print_char(':');show_token_list(link(equiv(n)), null, 32); - } -} - -@ Region 3 of |eqtb| contains the 256 \.{\\skip} registers, as well as the -glue parameters defined here. It is important that the ``muskip'' -parameters have larger numbers than the others. - -@d line_skip_code 0 /*interline glue if |baseline_skip| is infeasible*/ -@d baseline_skip_code 1 /*desired glue between baselines*/ -@d par_skip_code 2 /*extra glue just above a paragraph*/ -@d above_display_skip_code 3 /*extra glue just above displayed math*/ -@d below_display_skip_code 4 /*extra glue just below displayed math*/ -@d above_display_short_skip_code 5 - /*glue above displayed math following short lines*/ -@d below_display_short_skip_code 6 - /*glue below displayed math following short lines*/ -@d left_skip_code 7 /*glue at left of justified lines*/ -@d right_skip_code 8 /*glue at right of justified lines*/ -@d top_skip_code 9 /*glue at top of main pages*/ -@d split_top_skip_code 10 /*glue at top of split pages*/ -@d tab_skip_code 11 /*glue between aligned entries*/ -@d space_skip_code 12 /*glue between words (if not |zero_glue|)*/ -@d xspace_skip_code 13 /*glue after sentences (if not |zero_glue|)*/ -@d par_fill_skip_code 14 /*glue on last line of paragraph*/ -@d thin_mu_skip_code 15 /*thin space in math formula*/ -@d med_mu_skip_code 16 /*medium space in math formula*/ -@d thick_mu_skip_code 17 /*thick space in math formula*/ -@d glue_pars 18 /*total number of glue parameters*/ -@d skip_base (glue_base+glue_pars) /*table of 256 ``skip'' registers*/ -@d mu_skip_base (skip_base+256) /*table of 256 ``muskip'' registers*/ -@d local_base (mu_skip_base+256) /*beginning of region 4*/ -@# -@d skip(A) equiv(skip_base+A) /*|mem| location of glue specification*/ -@d mu_skip(A) equiv(mu_skip_base+A) /*|mem| location of math glue spec*/ -@d glue_par(A) equiv(glue_base+A) /*|mem| location of glue specification*/ -@d line_skip glue_par(line_skip_code) -@d baseline_skip glue_par(baseline_skip_code) -@d par_skip glue_par(par_skip_code) -@d above_display_skip glue_par(above_display_skip_code) -@d below_display_skip glue_par(below_display_skip_code) -@d above_display_short_skip glue_par(above_display_short_skip_code) -@d below_display_short_skip glue_par(below_display_short_skip_code) -@d left_skip glue_par(left_skip_code) -@d right_skip glue_par(right_skip_code) -@d top_skip glue_par(top_skip_code) -@d split_top_skip glue_par(split_top_skip_code) -@d tab_skip glue_par(tab_skip_code) -@d space_skip glue_par(space_skip_code) -@d xspace_skip glue_par(xspace_skip_code) -@d par_fill_skip glue_par(par_fill_skip_code) -@d thin_mu_skip glue_par(thin_mu_skip_code) -@d med_mu_skip glue_par(med_mu_skip_code) -@d thick_mu_skip glue_par(thick_mu_skip_code) - -@<Current |mem| equivalent of glue parameter number |n|@>=glue_par(n) - -@ Sometimes we need to convert \TeX's internal code numbers into symbolic -form. The |print_skip_param| routine gives the symbolic name of a glue -parameter. - -@<Declare the procedure called |print_skip_param|@>= -static void print_skip_param(int @!n) -{@+switch (n) { -case line_skip_code: print_esc("lineskip");@+break; -case baseline_skip_code: print_esc("baselineskip");@+break; -case par_skip_code: print_esc("parskip");@+break; -case above_display_skip_code: print_esc("abovedisplayskip");@+break; -case below_display_skip_code: print_esc("belowdisplayskip");@+break; -case above_display_short_skip_code: print_esc("abovedisplayshortskip");@+break; -case below_display_short_skip_code: print_esc("belowdisplayshortskip");@+break; -case left_skip_code: print_esc("leftskip");@+break; -case right_skip_code: print_esc("rightskip");@+break; -case top_skip_code: print_esc("topskip");@+break; -case split_top_skip_code: print_esc("splittopskip");@+break; -case tab_skip_code: print_esc("tabskip");@+break; -case space_skip_code: print_esc("spaceskip");@+break; -case xspace_skip_code: print_esc("xspaceskip");@+break; -case par_fill_skip_code: print_esc("parfillskip");@+break; -case thin_mu_skip_code: print_esc("thinmuskip");@+break; -case med_mu_skip_code: print_esc("medmuskip");@+break; -case thick_mu_skip_code: print_esc("thickmuskip");@+break; -default:print("[unknown glue parameter!]"); -} -} - -@ The symbolic names for glue parameters are put into \TeX's hash table -by using the routine called |primitive|, defined below. Let us enter them -now, so that we don't have to list all those parameter names anywhere else. - -@<Put each of \TeX's primitives into the hash table@>= -primitive("lineskip", assign_glue, glue_base+line_skip_code);@/ -@!@:line\_skip\_}{\.{\\lineskip} primitive@> -primitive("baselineskip", assign_glue, glue_base+baseline_skip_code);@/ -@!@:baseline\_skip\_}{\.{\\baselineskip} primitive@> -primitive("parskip", assign_glue, glue_base+par_skip_code);@/ -@!@:par\_skip\_}{\.{\\parskip} primitive@> -primitive("abovedisplayskip", assign_glue, glue_base+above_display_skip_code);@/ -@!@:above\_display\_skip\_}{\.{\\abovedisplayskip} primitive@> -primitive("belowdisplayskip", assign_glue, glue_base+below_display_skip_code);@/ -@!@:below\_display\_skip\_}{\.{\\belowdisplayskip} primitive@> -primitive("abovedisplayshortskip", - assign_glue, glue_base+above_display_short_skip_code);@/ -@!@:above\_display\_short\_skip\_}{\.{\\abovedisplayshortskip} primitive@> -primitive("belowdisplayshortskip", - assign_glue, glue_base+below_display_short_skip_code);@/ -@!@:below\_display\_short\_skip\_}{\.{\\belowdisplayshortskip} primitive@> -primitive("leftskip", assign_glue, glue_base+left_skip_code);@/ -@!@:left\_skip\_}{\.{\\leftskip} primitive@> -primitive("rightskip", assign_glue, glue_base+right_skip_code);@/ -@!@:right\_skip\_}{\.{\\rightskip} primitive@> -primitive("topskip", assign_glue, glue_base+top_skip_code);@/ -@!@:top\_skip\_}{\.{\\topskip} primitive@> -primitive("splittopskip", assign_glue, glue_base+split_top_skip_code);@/ -@!@:split\_top\_skip\_}{\.{\\splittopskip} primitive@> -primitive("tabskip", assign_glue, glue_base+tab_skip_code);@/ -@!@:tab\_skip\_}{\.{\\tabskip} primitive@> -primitive("spaceskip", assign_glue, glue_base+space_skip_code);@/ -@!@:space\_skip\_}{\.{\\spaceskip} primitive@> -primitive("xspaceskip", assign_glue, glue_base+xspace_skip_code);@/ -@!@:xspace\_skip\_}{\.{\\xspaceskip} primitive@> -primitive("parfillskip", assign_glue, glue_base+par_fill_skip_code);@/ -@!@:par\_fill\_skip\_}{\.{\\parfillskip} primitive@> -primitive("thinmuskip", assign_mu_glue, glue_base+thin_mu_skip_code);@/ -@!@:thin\_mu\_skip\_}{\.{\\thinmuskip} primitive@> -primitive("medmuskip", assign_mu_glue, glue_base+med_mu_skip_code);@/ -@!@:med\_mu\_skip\_}{\.{\\medmuskip} primitive@> -primitive("thickmuskip", assign_mu_glue, glue_base+thick_mu_skip_code);@/ -@!@:thick\_mu\_skip\_}{\.{\\thickmuskip} primitive@> - -@ @<Cases of |print_cmd_chr| for symbolic printing of primitives@>= -case assign_glue: case assign_mu_glue: if (chr_code < skip_base) - print_skip_param(chr_code-glue_base); - else if (chr_code < mu_skip_base) - {@+print_esc("skip");print_int(chr_code-skip_base); - } - else{@+print_esc("muskip");print_int(chr_code-mu_skip_base); - } @+break; - -@ All glue parameters and registers are initially `\.{0pt plus0pt minus0pt}'. - -@<Initialize table entries...@>= -equiv(glue_base)=zero_glue;eq_level(glue_base)=level_one; -eq_type(glue_base)=glue_ref; -for (k=glue_base+1; k<=local_base-1; k++) eqtb[k]=eqtb[glue_base]; -glue_ref_count(zero_glue)=glue_ref_count(zero_glue)+local_base-glue_base; - -@ @<Show equivalent |n|, in region 3@>= -if (n < skip_base) - {@+print_skip_param(n-glue_base);print_char('='); - if (n < glue_base+thin_mu_skip_code) print_spec(equiv(n),"pt"); - else print_spec(equiv(n),"mu"); - } -else if (n < mu_skip_base) - {@+print_esc("skip");print_int(n-skip_base);print_char('='); - print_spec(equiv(n),"pt"); - } -else{@+print_esc("muskip");print_int(n-mu_skip_base);print_char('='); - print_spec(equiv(n),"mu"); - } - -@ Region 4 of |eqtb| contains the local quantities defined here. The -bulk of this region is taken up by five tables that are indexed by eight-bit -characters; these tables are important to both the syntactic and semantic -portions of \TeX. There are also a bunch of special things like font and -token parameters, as well as the tables of \.{\\toks} and \.{\\box} -registers. - -@d par_shape_loc local_base /*specifies paragraph shape*/ -@d output_routine_loc (local_base+1) /*points to token list for \.{\\output}*/ -@d every_par_loc (local_base+2) /*points to token list for \.{\\everypar}*/ -@d every_math_loc (local_base+3) /*points to token list for \.{\\everymath}*/ -@d every_display_loc (local_base+4) /*points to token list for \.{\\everydisplay}*/ -@d every_hbox_loc (local_base+5) /*points to token list for \.{\\everyhbox}*/ -@d every_vbox_loc (local_base+6) /*points to token list for \.{\\everyvbox}*/ -@d every_job_loc (local_base+7) /*points to token list for \.{\\everyjob}*/ -@d every_cr_loc (local_base+8) /*points to token list for \.{\\everycr}*/ -@d err_help_loc (local_base+9) /*points to token list for \.{\\errhelp}*/ -@d tex_toks (local_base+10) /*end of \TeX's token list parameters*/ -@# -@d etex_toks_base tex_toks /*base for \eTeX's token list parameters*/ -@d every_eof_loc etex_toks_base /*points to token list for \.{\\everyeof}*/ -@d etex_toks (etex_toks_base+1) /*end of \eTeX's token list parameters*/ -@# -@d toks_base etex_toks /*table of 256 token list registers*/ -@# -@d etex_pen_base (toks_base+256) /*start of table of \eTeX's penalties*/ -@d inter_line_penalties_loc etex_pen_base /*additional penalties between lines*/ -@d club_penalties_loc (etex_pen_base+1) /*penalties for creating club lines*/ -@d widow_penalties_loc (etex_pen_base+2) /*penalties for creating widow lines*/ -@d display_widow_penalties_loc (etex_pen_base+3) /*ditto, just before a display*/ -@d etex_pens (etex_pen_base+4) /*end of table of \eTeX's penalties*/ -@# -@d box_base etex_pens /*table of 256 box registers*/ -@d cur_font_loc (box_base+256) /*internal font number outside math mode*/ -@d math_font_base (cur_font_loc+1) /*table of 48 math font numbers*/ -@d cat_code_base (math_font_base+48) - /*table of 256 command codes (the ``catcodes'')*/ -@d lc_code_base (cat_code_base+256) /*table of 256 lowercase mappings*/ -@d uc_code_base (lc_code_base+256) /*table of 256 uppercase mappings*/ -@d sf_code_base (uc_code_base+256) /*table of 256 spacefactor mappings*/ -@d math_code_base (sf_code_base+256) /*table of 256 math mode mappings*/ -@d int_base (math_code_base+256) /*beginning of region 5*/ -@# -@d par_shape_ptr equiv(par_shape_loc) -@d output_routine equiv(output_routine_loc) -@d every_par equiv(every_par_loc) -@d every_math equiv(every_math_loc) -@d every_display equiv(every_display_loc) -@d every_hbox equiv(every_hbox_loc) -@d every_vbox equiv(every_vbox_loc) -@d every_job equiv(every_job_loc) -@d every_cr equiv(every_cr_loc) -@d err_help equiv(err_help_loc) -@d toks(X) equiv(toks_base+X) -@d box(A) equiv(box_base+A) -@d cur_font equiv(cur_font_loc) -@d fam_fnt(A) equiv(math_font_base+A) -@d cat_code(A) equiv(cat_code_base+A) -@d lc_code(A) equiv(lc_code_base+A) -@d uc_code(A) equiv(uc_code_base+A) -@d sf_code(A) equiv(sf_code_base+A) -@d math_code(A) equiv(math_code_base+A) - /*Note: |math_code(c)| is the true math code plus |min_halfword|*/ - -@<Put each...@>= -primitive("output", assign_toks, output_routine_loc); -@!@:output\_}{\.{\\output} primitive@> -primitive("everypar", assign_toks, every_par_loc); -@!@:every\_par\_}{\.{\\everypar} primitive@> -primitive("everymath", assign_toks, every_math_loc); -@!@:every\_math\_}{\.{\\everymath} primitive@> -primitive("everydisplay", assign_toks, every_display_loc); -@!@:every\_display\_}{\.{\\everydisplay} primitive@> -primitive("everyhbox", assign_toks, every_hbox_loc); -@!@:every\_hbox\_}{\.{\\everyhbox} primitive@> -primitive("everyvbox", assign_toks, every_vbox_loc); -@!@:every\_vbox\_}{\.{\\everyvbox} primitive@> -primitive("everyjob", assign_toks, every_job_loc); -@!@:every\_job\_}{\.{\\everyjob} primitive@> -primitive("everycr", assign_toks, every_cr_loc); -@!@:every\_cr\_}{\.{\\everycr} primitive@> -primitive("errhelp", assign_toks, err_help_loc); -@!@:err\_help\_}{\.{\\errhelp} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case assign_toks: if (chr_code >= toks_base) - {@+print_esc("toks");print_int(chr_code-toks_base); - } -else switch (chr_code) { - case output_routine_loc: print_esc("output");@+break; - case every_par_loc: print_esc("everypar");@+break; - case every_math_loc: print_esc("everymath");@+break; - case every_display_loc: print_esc("everydisplay");@+break; - case every_hbox_loc: print_esc("everyhbox");@+break; - case every_vbox_loc: print_esc("everyvbox");@+break; - case every_job_loc: print_esc("everyjob");@+break; - case every_cr_loc: print_esc("everycr");@+break; - @/@<Cases of |assign_toks| for |print_cmd_chr|@>@/ - default:print_esc("errhelp"); - } @+break; - -@ We initialize most things to null or undefined values. An undefined font -is represented by the internal code |font_base|. - -However, the character code tables are given initial values based on the -conventional interpretation of ASCII code. These initial values should -not be changed when \TeX\ is adapted for use with non-English languages; -all changes to the initialization conventions should be made in format -packages, not in \TeX\ itself, so that global interchange of formats is -possible. - -@d null_font font_base -@d var_code 070000 /*math code meaning ``use the current family''*/ - -@<Initialize table entries...@>= -par_shape_ptr=null;eq_type(par_shape_loc)=shape_ref; -eq_level(par_shape_loc)=level_one;@/ -for (k=etex_pen_base; k<=etex_pens-1; k++) - eqtb[k]=eqtb[par_shape_loc]; -for (k=output_routine_loc; k<=toks_base+255; k++) - eqtb[k]=eqtb[undefined_control_sequence]; -box(0)=null;eq_type(box_base)=box_ref;eq_level(box_base)=level_one; -for (k=box_base+1; k<=box_base+255; k++) eqtb[k]=eqtb[box_base]; -cur_font=null_font;eq_type(cur_font_loc)=data; -eq_level(cur_font_loc)=level_one;@/ -for (k=math_font_base; k<=math_font_base+47; k++) eqtb[k]=eqtb[cur_font_loc]; -equiv(cat_code_base)=0;eq_type(cat_code_base)=data; -eq_level(cat_code_base)=level_one;@/ -for (k=cat_code_base+1; k<=int_base-1; k++) eqtb[k]=eqtb[cat_code_base]; -for (k=0; k<=255; k++) - {@+cat_code(k)=other_char;math_code(k)=hi(k);sf_code(k)=1000; - } -cat_code(carriage_return)=car_ret;cat_code(' ')=spacer; -cat_code('\\')=escape;cat_code('%')=comment; -cat_code(invalid_code)=invalid_char;cat_code(null_code)=ignore; -for (k='0'; k<='9'; k++) math_code(k)=hi(k+var_code); -for (k='A'; k<='Z'; k++) - {@+cat_code(k)=letter;cat_code(k+'a'-'A')=letter;@/ - math_code(k)=hi(k+var_code+0x100); - math_code(k+'a'-'A')=hi(k+'a'-'A'+var_code+0x100);@/ - lc_code(k)=k+'a'-'A';lc_code(k+'a'-'A')=k+'a'-'A';@/ - uc_code(k)=k;uc_code(k+'a'-'A')=k;@/ - sf_code(k)=999; - } - -@ @<Show equivalent |n|, in region 4@>= -if ((n==par_shape_loc)||((n >= etex_pen_base)&&(n < etex_pens))) - {@+print_cmd_chr(set_shape, n);print_char('='); - if (equiv(n)==null) print_char('0'); - else if (n > par_shape_loc) - {@+print_int(penalty(equiv(n)));print_char(' '); - print_int(penalty(equiv(n)+1)); - if (penalty(equiv(n)) > 1) print_esc("ETC."); - } - else print_int(info(par_shape_ptr)); - } -else if (n < toks_base) - {@+print_cmd_chr(assign_toks, n);print_char('='); - if (equiv(n)!=null) show_token_list(link(equiv(n)), null, 32); - } -else if (n < box_base) - {@+print_esc("toks");print_int(n-toks_base);print_char('='); - if (equiv(n)!=null) show_token_list(link(equiv(n)), null, 32); - } -else if (n < cur_font_loc) - {@+print_esc("box");print_int(n-box_base);print_char('='); - if (equiv(n)==null) print("void"); - else{@+depth_threshold=0;breadth_max=1;show_node_list(equiv(n)); - } - } -else if (n < cat_code_base) @<Show the font identifier in |eqtb[n]|@>@; -else@<Show the halfword code in |eqtb[n]|@>@; - -@ @<Show the font identifier in |eqtb[n]|@>= -{@+if (n==cur_font_loc) print("current font"); -else if (n < math_font_base+16) - {@+print_esc("textfont");print_int(n-math_font_base); - } -else if (n < math_font_base+32) - {@+print_esc("scriptfont");print_int(n-math_font_base-16); - } -else{@+print_esc("scriptscriptfont");print_int(n-math_font_base-32); - } -print_char('=');@/ -printn_esc(hash[font_id_base+equiv(n)].rh); - /*that's |font_id_text(equiv(n))|*/ -} - -@ @<Show the halfword code in |eqtb[n]|@>= -if (n < math_code_base) - {@+if (n < lc_code_base) - {@+print_esc("catcode");print_int(n-cat_code_base); - } - else if (n < uc_code_base) - {@+print_esc("lccode");print_int(n-lc_code_base); - } - else if (n < sf_code_base) - {@+print_esc("uccode");print_int(n-uc_code_base); - } - else{@+print_esc("sfcode");print_int(n-sf_code_base); - } - print_char('=');print_int(equiv(n)); - } -else{@+print_esc("mathcode");print_int(n-math_code_base); - print_char('=');print_int(ho(equiv(n))); - } - -@ Region 5 of |eqtb| contains the integer parameters and registers defined -here, as well as the |del_code| table. The latter table differs from the -|cat_code dotdot math_code| tables that precede it, since delimiter codes are -fullword integers while the other kinds of codes occupy at most a -halfword. This is what makes region~5 different from region~4. We will -store the |eq_level| information in an auxiliary array of quarterwords -that will be defined later. - -@d pretolerance_code 0 /*badness tolerance before hyphenation*/ -@d tolerance_code 1 /*badness tolerance after hyphenation*/ -@d line_penalty_code 2 /*added to the badness of every line*/ -@d hyphen_penalty_code 3 /*penalty for break after discretionary hyphen*/ -@d ex_hyphen_penalty_code 4 /*penalty for break after explicit hyphen*/ -@d club_penalty_code 5 /*penalty for creating a club line*/ -@d widow_penalty_code 6 /*penalty for creating a widow line*/ -@d display_widow_penalty_code 7 /*ditto, just before a display*/ -@d broken_penalty_code 8 /*penalty for breaking a page at a broken line*/ -@d bin_op_penalty_code 9 /*penalty for breaking after a binary operation*/ -@d rel_penalty_code 10 /*penalty for breaking after a relation*/ -@d pre_display_penalty_code 11 - /*penalty for breaking just before a displayed formula*/ -@d post_display_penalty_code 12 - /*penalty for breaking just after a displayed formula*/ -@d inter_line_penalty_code 13 /*additional penalty between lines*/ -@d double_hyphen_demerits_code 14 /*demerits for double hyphen break*/ -@d final_hyphen_demerits_code 15 /*demerits for final hyphen break*/ -@d adj_demerits_code 16 /*demerits for adjacent incompatible lines*/ -@d mag_code 17 /*magnification ratio*/ -@d delimiter_factor_code 18 /*ratio for variable-size delimiters*/ -@d looseness_code 19 /*change in number of lines for a paragraph*/ -@d time_code 20 /*current time of day*/ -@d day_code 21 /*current day of the month*/ -@d month_code 22 /*current month of the year*/ -@d year_code 23 /*current year of our Lord*/ -@d show_box_breadth_code 24 /*nodes per level in |show_box|*/ -@d show_box_depth_code 25 /*maximum level in |show_box|*/ -@d hbadness_code 26 /*hboxes exceeding this badness will be shown by |hpack|*/ -@d vbadness_code 27 /*vboxes exceeding this badness will be shown by |vpack|*/ -@d pausing_code 28 /*pause after each line is read from a file*/ -@d tracing_online_code 29 /*show diagnostic output on terminal*/ -@d tracing_macros_code 30 /*show macros as they are being expanded*/ -@d tracing_stats_code 31 /*show memory usage if \TeX\ knows it*/ -@d tracing_paragraphs_code 32 /*show line-break calculations*/ -@d tracing_pages_code 33 /*show page-break calculations*/ -@d tracing_output_code 34 /*show boxes when they are shipped out*/ -@d tracing_lost_chars_code 35 /*show characters that aren't in the font*/ -@d tracing_commands_code 36 /*show command codes at |big_switch|*/ -@d tracing_restores_code 37 /*show equivalents when they are restored*/ -@d uc_hyph_code 38 /*hyphenate words beginning with a capital letter*/ -@d output_penalty_code 39 /*penalty found at current page break*/ -@d max_dead_cycles_code 40 /*bound on consecutive dead cycles of output*/ -@d hang_after_code 41 /*hanging indentation changes after this many lines*/ -@d floating_penalty_code 42 /*penalty for insertions held over after a split*/ -@d global_defs_code 43 /*override \.{\\global} specifications*/ -@d cur_fam_code 44 /*current family*/ -@d escape_char_code 45 /*escape character for token output*/ -@d default_hyphen_char_code 46 /*value of \.{\\hyphenchar} when a font is loaded*/ -@d default_skew_char_code 47 /*value of \.{\\skewchar} when a font is loaded*/ -@d end_line_char_code 48 /*character placed at the right end of the buffer*/ -@d new_line_char_code 49 /*character that prints as |print_ln|*/ -@d language_code 50 /*current hyphenation table*/ -@d left_hyphen_min_code 51 /*minimum left hyphenation fragment size*/ -@d right_hyphen_min_code 52 /*minimum right hyphenation fragment size*/ -@d holding_inserts_code 53 /*do not remove insertion nodes from \.{\\box255}*/ -@d error_context_lines_code 54 /*maximum intermediate line pairs shown*/ -@d tex_int_pars 55 /*total number of \TeX's integer parameters*/ -@# -@d etex_int_base tex_int_pars /*base for \eTeX's integer parameters*/ -@d tracing_assigns_code etex_int_base /*show assignments*/ -@d tracing_groups_code (etex_int_base+1) /*show save/restore groups*/ -@d tracing_ifs_code (etex_int_base+2) /*show conditionals*/ -@d tracing_scan_tokens_code (etex_int_base+3) /*show pseudo file open and close*/ -@d tracing_nesting_code (etex_int_base+4) /*show incomplete groups and ifs within files*/ -@d eTeX_state_code (etex_int_base+5) /*\eTeX\ state variables*/ -@d etex_int_pars (eTeX_state_code+eTeX_states) /*total number of \eTeX's integer parameters*/ -@# -@d int_pars etex_int_pars /*total number of integer parameters*/ -@d count_base (int_base+int_pars) /*256 user \.{\\count} registers*/ -@d del_code_base (count_base+256) /*256 delimiter code mappings*/ -@d dimen_base (del_code_base+256) /*beginning of region 6*/ -@# -@d del_code(A) eqtb[del_code_base+A].i -@d count(A) eqtb[count_base+A].i -@d int_par(A) eqtb[int_base+A].i /*an integer parameter*/ -@d pretolerance int_par(pretolerance_code) -@d tolerance int_par(tolerance_code) -@d line_penalty int_par(line_penalty_code) -@d hyphen_penalty int_par(hyphen_penalty_code) -@d ex_hyphen_penalty int_par(ex_hyphen_penalty_code) -@d club_penalty int_par(club_penalty_code) -@d widow_penalty int_par(widow_penalty_code) -@d display_widow_penalty int_par(display_widow_penalty_code) -@d broken_penalty int_par(broken_penalty_code) -@d bin_op_penalty int_par(bin_op_penalty_code) -@d rel_penalty int_par(rel_penalty_code) -@d pre_display_penalty int_par(pre_display_penalty_code) -@d post_display_penalty int_par(post_display_penalty_code) -@d inter_line_penalty int_par(inter_line_penalty_code) -@d double_hyphen_demerits int_par(double_hyphen_demerits_code) -@d final_hyphen_demerits int_par(final_hyphen_demerits_code) -@d adj_demerits int_par(adj_demerits_code) -@d mag int_par(mag_code) -@d delimiter_factor int_par(delimiter_factor_code) -@d looseness int_par(looseness_code) -@d time int_par(time_code) -@d day int_par(day_code) -@d month int_par(month_code) -@d year int_par(year_code) -@d show_box_breadth int_par(show_box_breadth_code) -@d show_box_depth int_par(show_box_depth_code) -@d hbadness int_par(hbadness_code) -@d vbadness int_par(vbadness_code) -@d pausing int_par(pausing_code) -@d tracing_online int_par(tracing_online_code) -@d tracing_macros int_par(tracing_macros_code) -@d tracing_stats int_par(tracing_stats_code) -@d tracing_paragraphs int_par(tracing_paragraphs_code) -@d tracing_pages int_par(tracing_pages_code) -@d tracing_output int_par(tracing_output_code) -@d tracing_lost_chars int_par(tracing_lost_chars_code) -@d tracing_commands int_par(tracing_commands_code) -@d tracing_restores int_par(tracing_restores_code) -@d uc_hyph int_par(uc_hyph_code) -@d output_penalty int_par(output_penalty_code) -@d max_dead_cycles int_par(max_dead_cycles_code) -@d hang_after int_par(hang_after_code) -@d floating_penalty int_par(floating_penalty_code) -@d global_defs int_par(global_defs_code) -@d cur_fam int_par(cur_fam_code) -@d escape_char int_par(escape_char_code) -@d default_hyphen_char int_par(default_hyphen_char_code) -@d default_skew_char int_par(default_skew_char_code) -@d end_line_char int_par(end_line_char_code) -@d new_line_char int_par(new_line_char_code) -@d language int_par(language_code) -@d left_hyphen_min int_par(left_hyphen_min_code) -@d right_hyphen_min int_par(right_hyphen_min_code) -@d holding_inserts int_par(holding_inserts_code) -@d error_context_lines int_par(error_context_lines_code) -@# -@d tracing_assigns int_par(tracing_assigns_code) -@d tracing_groups int_par(tracing_groups_code) -@d tracing_ifs int_par(tracing_ifs_code) -@d tracing_scan_tokens int_par(tracing_scan_tokens_code) -@d tracing_nesting int_par(tracing_nesting_code) - -@<Assign the values |depth_threshold:=show_box_depth|...@>= -depth_threshold=show_box_depth; -breadth_max=show_box_breadth - -@ We can print the symbolic name of an integer parameter as follows. - -@p static void print_param(int @!n) -{@+switch (n) { -case pretolerance_code: print_esc("pretolerance");@+break; -case tolerance_code: print_esc("tolerance");@+break; -case line_penalty_code: print_esc("linepenalty");@+break; -case hyphen_penalty_code: print_esc("hyphenpenalty");@+break; -case ex_hyphen_penalty_code: print_esc("exhyphenpenalty");@+break; -case club_penalty_code: print_esc("clubpenalty");@+break; -case widow_penalty_code: print_esc("widowpenalty");@+break; -case display_widow_penalty_code: print_esc("displaywidowpenalty");@+break; -case broken_penalty_code: print_esc("brokenpenalty");@+break; -case bin_op_penalty_code: print_esc("binoppenalty");@+break; -case rel_penalty_code: print_esc("relpenalty");@+break; -case pre_display_penalty_code: print_esc("predisplaypenalty");@+break; -case post_display_penalty_code: print_esc("postdisplaypenalty");@+break; -case inter_line_penalty_code: print_esc("interlinepenalty");@+break; -case double_hyphen_demerits_code: print_esc("doublehyphendemerits");@+break; -case final_hyphen_demerits_code: print_esc("finalhyphendemerits");@+break; -case adj_demerits_code: print_esc("adjdemerits");@+break; -case mag_code: print_esc("mag");@+break; -case delimiter_factor_code: print_esc("delimiterfactor");@+break; -case looseness_code: print_esc("looseness");@+break; -case time_code: print_esc("time");@+break; -case day_code: print_esc("day");@+break; -case month_code: print_esc("month");@+break; -case year_code: print_esc("year");@+break; -case show_box_breadth_code: print_esc("showboxbreadth");@+break; -case show_box_depth_code: print_esc("showboxdepth");@+break; -case hbadness_code: print_esc("hbadness");@+break; -case vbadness_code: print_esc("vbadness");@+break; -case pausing_code: print_esc("pausing");@+break; -case tracing_online_code: print_esc("tracingonline");@+break; -case tracing_macros_code: print_esc("tracingmacros");@+break; -case tracing_stats_code: print_esc("tracingstats");@+break; -case tracing_paragraphs_code: print_esc("tracingparagraphs");@+break; -case tracing_pages_code: print_esc("tracingpages");@+break; -case tracing_output_code: print_esc("tracingoutput");@+break; -case tracing_lost_chars_code: print_esc("tracinglostchars");@+break; -case tracing_commands_code: print_esc("tracingcommands");@+break; -case tracing_restores_code: print_esc("tracingrestores");@+break; -case uc_hyph_code: print_esc("uchyph");@+break; -case output_penalty_code: print_esc("outputpenalty");@+break; -case max_dead_cycles_code: print_esc("maxdeadcycles");@+break; -case hang_after_code: print_esc("hangafter");@+break; -case floating_penalty_code: print_esc("floatingpenalty");@+break; -case global_defs_code: print_esc("globaldefs");@+break; -case cur_fam_code: print_esc("fam");@+break; -case escape_char_code: print_esc("escapechar");@+break; -case default_hyphen_char_code: print_esc("defaulthyphenchar");@+break; -case default_skew_char_code: print_esc("defaultskewchar");@+break; -case end_line_char_code: print_esc("endlinechar");@+break; -case new_line_char_code: print_esc("newlinechar");@+break; -case language_code: print_esc("language");@+break; -case left_hyphen_min_code: print_esc("lefthyphenmin");@+break; -case right_hyphen_min_code: print_esc("righthyphenmin");@+break; -case holding_inserts_code: print_esc("holdinginserts");@+break; -case error_context_lines_code: print_esc("errorcontextlines");@+break; -@/@<Cases for |print_param|@>@/ -default:print("[unknown integer parameter!]"); -} -} - -@ The integer parameter names must be entered into the hash table. - -@<Put each...@>= -primitive("pretolerance", assign_int, int_base+pretolerance_code);@/ -@!@:pretolerance\_}{\.{\\pretolerance} primitive@> -primitive("tolerance", assign_int, int_base+tolerance_code);@/ -@!@:tolerance\_}{\.{\\tolerance} primitive@> -primitive("linepenalty", assign_int, int_base+line_penalty_code);@/ -@!@:line\_penalty\_}{\.{\\linepenalty} primitive@> -primitive("hyphenpenalty", assign_int, int_base+hyphen_penalty_code);@/ -@!@:hyphen\_penalty\_}{\.{\\hyphenpenalty} primitive@> -primitive("exhyphenpenalty", assign_int, int_base+ex_hyphen_penalty_code);@/ -@!@:ex\_hyphen\_penalty\_}{\.{\\exhyphenpenalty} primitive@> -primitive("clubpenalty", assign_int, int_base+club_penalty_code);@/ -@!@:club\_penalty\_}{\.{\\clubpenalty} primitive@> -primitive("widowpenalty", assign_int, int_base+widow_penalty_code);@/ -@!@:widow\_penalty\_}{\.{\\widowpenalty} primitive@> -primitive("displaywidowpenalty", - assign_int, int_base+display_widow_penalty_code);@/ -@!@:display\_widow\_penalty\_}{\.{\\displaywidowpenalty} primitive@> -primitive("brokenpenalty", assign_int, int_base+broken_penalty_code);@/ -@!@:broken\_penalty\_}{\.{\\brokenpenalty} primitive@> -primitive("binoppenalty", assign_int, int_base+bin_op_penalty_code);@/ -@!@:bin\_op\_penalty\_}{\.{\\binoppenalty} primitive@> -primitive("relpenalty", assign_int, int_base+rel_penalty_code);@/ -@!@:rel\_penalty\_}{\.{\\relpenalty} primitive@> -primitive("predisplaypenalty", assign_int, int_base+pre_display_penalty_code);@/ -@!@:pre\_display\_penalty\_}{\.{\\predisplaypenalty} primitive@> -primitive("postdisplaypenalty", assign_int, int_base+post_display_penalty_code);@/ -@!@:post\_display\_penalty\_}{\.{\\postdisplaypenalty} primitive@> -primitive("interlinepenalty", assign_int, int_base+inter_line_penalty_code);@/ -@!@:inter\_line\_penalty\_}{\.{\\interlinepenalty} primitive@> -primitive("doublehyphendemerits", - assign_int, int_base+double_hyphen_demerits_code);@/ -@!@:double\_hyphen\_demerits\_}{\.{\\doublehyphendemerits} primitive@> -primitive("finalhyphendemerits", - assign_int, int_base+final_hyphen_demerits_code);@/ -@!@:final\_hyphen\_demerits\_}{\.{\\finalhyphendemerits} primitive@> -primitive("adjdemerits", assign_int, int_base+adj_demerits_code);@/ -@!@:adj\_demerits\_}{\.{\\adjdemerits} primitive@> -primitive("mag", assign_int, int_base+mag_code);@/ -@!@:mag\_}{\.{\\mag} primitive@> -primitive("delimiterfactor", assign_int, int_base+delimiter_factor_code);@/ -@!@:delimiter\_factor\_}{\.{\\delimiterfactor} primitive@> -primitive("looseness", assign_int, int_base+looseness_code);@/ -@!@:looseness\_}{\.{\\looseness} primitive@> -primitive("time", assign_int, int_base+time_code);@/ -@!@:time\_}{\.{\\time} primitive@> -primitive("day", assign_int, int_base+day_code);@/ -@!@:day\_}{\.{\\day} primitive@> -primitive("month", assign_int, int_base+month_code);@/ -@!@:month\_}{\.{\\month} primitive@> -primitive("year", assign_int, int_base+year_code);@/ -@!@:year\_}{\.{\\year} primitive@> -primitive("showboxbreadth", assign_int, int_base+show_box_breadth_code);@/ -@!@:show\_box\_breadth\_}{\.{\\showboxbreadth} primitive@> -primitive("showboxdepth", assign_int, int_base+show_box_depth_code);@/ -@!@:show\_box\_depth\_}{\.{\\showboxdepth} primitive@> -primitive("hbadness", assign_int, int_base+hbadness_code);@/ -@!@:hbadness\_}{\.{\\hbadness} primitive@> -primitive("vbadness", assign_int, int_base+vbadness_code);@/ -@!@:vbadness\_}{\.{\\vbadness} primitive@> -primitive("pausing", assign_int, int_base+pausing_code);@/ -@!@:pausing\_}{\.{\\pausing} primitive@> -primitive("tracingonline", assign_int, int_base+tracing_online_code);@/ -@!@:tracing\_online\_}{\.{\\tracingonline} primitive@> -primitive("tracingmacros", assign_int, int_base+tracing_macros_code);@/ -@!@:tracing\_macros\_}{\.{\\tracingmacros} primitive@> -primitive("tracingstats", assign_int, int_base+tracing_stats_code);@/ -@!@:tracing\_stats\_}{\.{\\tracingstats} primitive@> -primitive("tracingparagraphs", assign_int, int_base+tracing_paragraphs_code);@/ -@!@:tracing\_paragraphs\_}{\.{\\tracingparagraphs} primitive@> -primitive("tracingpages", assign_int, int_base+tracing_pages_code);@/ -@!@:tracing\_pages\_}{\.{\\tracingpages} primitive@> -primitive("tracingoutput", assign_int, int_base+tracing_output_code);@/ -@!@:tracing\_output\_}{\.{\\tracingoutput} primitive@> -primitive("tracinglostchars", assign_int, int_base+tracing_lost_chars_code);@/ -@!@:tracing\_lost\_chars\_}{\.{\\tracinglostchars} primitive@> -primitive("tracingcommands", assign_int, int_base+tracing_commands_code);@/ -@!@:tracing\_commands\_}{\.{\\tracingcommands} primitive@> -primitive("tracingrestores", assign_int, int_base+tracing_restores_code);@/ -@!@:tracing\_restores\_}{\.{\\tracingrestores} primitive@> -primitive("uchyph", assign_int, int_base+uc_hyph_code);@/ -@!@:uc\_hyph\_}{\.{\\uchyph} primitive@> -primitive("outputpenalty", assign_int, int_base+output_penalty_code);@/ -@!@:output\_penalty\_}{\.{\\outputpenalty} primitive@> -primitive("maxdeadcycles", assign_int, int_base+max_dead_cycles_code);@/ -@!@:max\_dead\_cycles\_}{\.{\\maxdeadcycles} primitive@> -primitive("hangafter", assign_int, int_base+hang_after_code);@/ -@!@:hang\_after\_}{\.{\\hangafter} primitive@> -primitive("floatingpenalty", assign_int, int_base+floating_penalty_code);@/ -@!@:floating\_penalty\_}{\.{\\floatingpenalty} primitive@> -primitive("globaldefs", assign_int, int_base+global_defs_code);@/ -@!@:global\_defs\_}{\.{\\globaldefs} primitive@> -primitive("fam", assign_int, int_base+cur_fam_code);@/ -@!@:fam\_}{\.{\\fam} primitive@> -primitive("escapechar", assign_int, int_base+escape_char_code);@/ -@!@:escape\_char\_}{\.{\\escapechar} primitive@> -primitive("defaulthyphenchar", assign_int, int_base+default_hyphen_char_code);@/ -@!@:default\_hyphen\_char\_}{\.{\\defaulthyphenchar} primitive@> -primitive("defaultskewchar", assign_int, int_base+default_skew_char_code);@/ -@!@:default\_skew\_char\_}{\.{\\defaultskewchar} primitive@> -primitive("endlinechar", assign_int, int_base+end_line_char_code);@/ -@!@:end\_line\_char\_}{\.{\\endlinechar} primitive@> -primitive("newlinechar", assign_int, int_base+new_line_char_code);@/ -@!@:new\_line\_char\_}{\.{\\newlinechar} primitive@> -primitive("language", assign_int, int_base+language_code);@/ -@!@:language\_}{\.{\\language} primitive@> -primitive("lefthyphenmin", assign_int, int_base+left_hyphen_min_code);@/ -@!@:left\_hyphen\_min\_}{\.{\\lefthyphenmin} primitive@> -primitive("righthyphenmin", assign_int, int_base+right_hyphen_min_code);@/ -@!@:right\_hyphen\_min\_}{\.{\\righthyphenmin} primitive@> -primitive("holdinginserts", assign_int, int_base+holding_inserts_code);@/ -@!@:holding\_inserts\_}{\.{\\holdinginserts} primitive@> -primitive("errorcontextlines", assign_int, int_base+error_context_lines_code);@/ -@!@:error\_context\_lines\_}{\.{\\errorcontextlines} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case assign_int: if (chr_code < count_base) print_param(chr_code-int_base); - else{@+print_esc("count");print_int(chr_code-count_base); - } @+break; - -@ The integer parameters should really be initialized by a macro package; -the following initialization does the minimum to keep \TeX\ from -complete failure. -@^null delimiter@> - -@<Initialize table entries...@>= -for (k=int_base; k<=del_code_base-1; k++) eqtb[k].i=0; -mag=1000;tolerance=10000;hang_after=1;max_dead_cycles=25; -escape_char='\\';end_line_char=carriage_return; -for (k=0; k<=255; k++) del_code(k)=-1; -del_code('.')=0; /*this null delimiter is used in error recovery*/ - -@ The following procedure, which is called just before \TeX\ initializes its -input and output, establishes the initial values of the date and time. -@^system dependencies@> -k\TeX\ calls |tl_now| to obtain the current time as a |tm| structure. -@p static void fix_date_and_time(void) -{@+struct tm *gmt=tl_now(); - time=sys_time= gmt->tm_hour*60+gmt->tm_min;/*minutes since midnight*/ - day=sys_day= gmt->tm_mday;/*day of the month*/ - month=sys_month=gmt->tm_mon+1;/*month of the year*/ - year=sys_year=gmt->tm_year+1900;/*Anno Domini*/ -} - -@ @<Show equivalent |n|, in region 5@>= -{@+if (n < count_base) print_param(n-int_base); -else if (n < del_code_base) - {@+print_esc("count");print_int(n-count_base); - } -else{@+print_esc("delcode");print_int(n-del_code_base); - } -print_char('=');print_int(eqtb[n].i); -} - -@ @<Set variable |c| to the current escape character@>=c=escape_char - -@ @<Character |s| is the current new-line character@>=s==new_line_char - -@ \TeX\ is occasionally supposed to print diagnostic information that -goes only into the transcript file, unless |tracing_online| is positive. -Here are two routines that adjust the destination of print commands: - -@p void begin_diagnostic(void) /*prepare to do some tracing*/ -{@+old_setting=selector; -if ((tracing_online <= 0)&&(selector==term_and_log)) - {@+decr(selector); - if (history==spotless) history=warning_issued; - } -} -@# -void end_diagnostic(bool @!blank_line) - /*restore proper conditions after tracing*/ -{@+print_nl(""); -if (blank_line) print_ln(); -selector=old_setting; -} - -@ Of course we had better declare a few more global variables, if the previous -routines are going to work. - -@<Glob...@>= -static int @!old_setting; -static int @!sys_time, @!sys_day, @!sys_month, @!sys_year; - /*date and time supplied by external system*/ - -@ The final region of |eqtb| contains the dimension parameters defined -here, and the 256 \.{\\dimen} registers. - -@d par_indent_code 0 /*indentation of paragraphs*/ -@d math_surround_code 1 /*space around math in text*/ -@d line_skip_limit_code 2 /*threshold for |line_skip| instead of |baseline_skip|*/ -@d hsize_code 3 /*line width in horizontal mode*/ -@d vsize_code 4 /*page height in vertical mode*/ -@d max_depth_code 5 /*maximum depth of boxes on main pages*/ -@d split_max_depth_code 6 /*maximum depth of boxes on split pages*/ -@d box_max_depth_code 7 /*maximum depth of explicit vboxes*/ -@d hfuzz_code 8 /*tolerance for overfull hbox messages*/ -@d vfuzz_code 9 /*tolerance for overfull vbox messages*/ -@d delimiter_shortfall_code 10 /*maximum amount uncovered by variable delimiters*/ -@d null_delimiter_space_code 11 /*blank space in null delimiters*/ -@d script_space_code 12 /*extra space after subscript or superscript*/ -@d pre_display_size_code 13 /*length of text preceding a display*/ -@d display_width_code 14 /*length of line for displayed equation*/ -@d display_indent_code 15 /*indentation of line for displayed equation*/ -@d overfull_rule_code 16 /*width of rule that identifies overfull hboxes*/ -@d hang_indent_code 17 /*amount of hanging indentation*/ -@d h_offset_code 18 /*amount of horizontal offset when shipping pages out*/ -@d v_offset_code 19 /*amount of vertical offset when shipping pages out*/ -@d emergency_stretch_code 20 /*reduces badnesses on final pass of line-breaking*/ -@d dimen_pars 21 /*total number of dimension parameters*/ -@d scaled_base (dimen_base+dimen_pars) - /*table of 256 user-defined \.{\\dimen} registers*/ -@d eqtb_size (scaled_base+255) /*largest subscript of |eqtb|*/ -@# -@d dimen(A) eqtb[scaled_base+A].sc -@d dimen_par(A) eqtb[dimen_base+A].sc /*a scaled quantity*/ -@d dimen_hfactor(A) hfactor_eqtb[scaled_base+A].sc -@d dimen_vfactor(A) vfactor_eqtb[scaled_base+A].sc -@d dimen_par_hfactor(A) hfactor_eqtb[dimen_base+A].sc -@d dimen_par_vfactor(A) vfactor_eqtb[dimen_base+A].sc -@d par_indent dimen_par(par_indent_code) -@d math_surround dimen_par(math_surround_code) -@d line_skip_limit dimen_par(line_skip_limit_code) -@d hsize dimen_par(hsize_code) -@d vsize dimen_par(vsize_code) -@d max_depth dimen_par(max_depth_code) -@d split_max_depth dimen_par(split_max_depth_code) -@d box_max_depth dimen_par(box_max_depth_code) -@d hfuzz dimen_par(hfuzz_code) -@d vfuzz dimen_par(vfuzz_code) -@d delimiter_shortfall dimen_par(delimiter_shortfall_code) -@d null_delimiter_space dimen_par(null_delimiter_space_code) -@d script_space dimen_par(script_space_code) -@d pre_display_size dimen_par(pre_display_size_code) -@d display_width dimen_par(display_width_code) -@d display_indent dimen_par(display_indent_code) -@d overfull_rule dimen_par(overfull_rule_code) -@d hang_indent dimen_par(hang_indent_code) -@d h_offset dimen_par(h_offset_code) -@d v_offset dimen_par(v_offset_code) -@d emergency_stretch dimen_par(emergency_stretch_code) - -@p static void print_length_param(int @!n) -{@+switch (n) { -case par_indent_code: print_esc("parindent");@+break; -case math_surround_code: print_esc("mathsurround");@+break; -case line_skip_limit_code: print_esc("lineskiplimit");@+break; -case hsize_code: print_esc("hsize");@+break; -case vsize_code: print_esc("vsize");@+break; -case max_depth_code: print_esc("maxdepth");@+break; -case split_max_depth_code: print_esc("splitmaxdepth");@+break; -case box_max_depth_code: print_esc("boxmaxdepth");@+break; -case hfuzz_code: print_esc("hfuzz");@+break; -case vfuzz_code: print_esc("vfuzz");@+break; -case delimiter_shortfall_code: print_esc("delimitershortfall");@+break; -case null_delimiter_space_code: print_esc("nulldelimiterspace");@+break; -case script_space_code: print_esc("scriptspace");@+break; -case pre_display_size_code: print_esc("predisplaysize");@+break; -case display_width_code: print_esc("displaywidth");@+break; -case display_indent_code: print_esc("displayindent");@+break; -case overfull_rule_code: print_esc("overfullrule");@+break; -case hang_indent_code: print_esc("hangindent");@+break; -case h_offset_code: print_esc("hoffset");@+break; -case v_offset_code: print_esc("voffset");@+break; -case emergency_stretch_code: print_esc("emergencystretch");@+break; -default:print("[unknown dimen parameter!]"); -} -} - -@ @<Put each...@>= -primitive("parindent", assign_dimen, dimen_base+par_indent_code);@/ -@!@:par\_indent\_}{\.{\\parindent} primitive@> -primitive("mathsurround", assign_dimen, dimen_base+math_surround_code);@/ -@!@:math\_surround\_}{\.{\\mathsurround} primitive@> -primitive("lineskiplimit", assign_dimen, dimen_base+line_skip_limit_code);@/ -@!@:line\_skip\_limit\_}{\.{\\lineskiplimit} primitive@> -primitive("hsize", assign_dimen, dimen_base+hsize_code);@/ -@!@:hsize\_}{\.{\\hsize} primitive@> -primitive("vsize", assign_dimen, dimen_base+vsize_code);@/ -@!@:vsize\_}{\.{\\vsize} primitive@> -primitive("maxdepth", assign_dimen, dimen_base+max_depth_code);@/ -@!@:max\_depth\_}{\.{\\maxdepth} primitive@> -primitive("splitmaxdepth", assign_dimen, dimen_base+split_max_depth_code);@/ -@!@:split\_max\_depth\_}{\.{\\splitmaxdepth} primitive@> -primitive("boxmaxdepth", assign_dimen, dimen_base+box_max_depth_code);@/ -@!@:box\_max\_depth\_}{\.{\\boxmaxdepth} primitive@> -primitive("hfuzz", assign_dimen, dimen_base+hfuzz_code);@/ -@!@:hfuzz\_}{\.{\\hfuzz} primitive@> -primitive("vfuzz", assign_dimen, dimen_base+vfuzz_code);@/ -@!@:vfuzz\_}{\.{\\vfuzz} primitive@> -primitive("delimitershortfall", - assign_dimen, dimen_base+delimiter_shortfall_code);@/ -@!@:delimiter\_shortfall\_}{\.{\\delimitershortfall} primitive@> -primitive("nulldelimiterspace", - assign_dimen, dimen_base+null_delimiter_space_code);@/ -@!@:null\_delimiter\_space\_}{\.{\\nulldelimiterspace} primitive@> -primitive("scriptspace", assign_dimen, dimen_base+script_space_code);@/ -@!@:script\_space\_}{\.{\\scriptspace} primitive@> -primitive("predisplaysize", assign_dimen, dimen_base+pre_display_size_code);@/ -@!@:pre\_display\_size\_}{\.{\\predisplaysize} primitive@> -primitive("displaywidth", assign_dimen, dimen_base+display_width_code);@/ -@!@:display\_width\_}{\.{\\displaywidth} primitive@> -primitive("displayindent", assign_dimen, dimen_base+display_indent_code);@/ -@!@:display\_indent\_}{\.{\\displayindent} primitive@> -primitive("overfullrule", assign_dimen, dimen_base+overfull_rule_code);@/ -@!@:overfull\_rule\_}{\.{\\overfullrule} primitive@> -primitive("hangindent", assign_dimen, dimen_base+hang_indent_code);@/ -@!@:hang\_indent\_}{\.{\\hangindent} primitive@> -primitive("hoffset", assign_dimen, dimen_base+h_offset_code);@/ -@!@:h\_offset\_}{\.{\\hoffset} primitive@> -primitive("voffset", assign_dimen, dimen_base+v_offset_code);@/ -@!@:v\_offset\_}{\.{\\voffset} primitive@> -primitive("emergencystretch", assign_dimen, dimen_base+emergency_stretch_code);@/ -@!@:emergency\_stretch\_}{\.{\\emergencystretch} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case assign_dimen: if (chr_code < scaled_base) - print_length_param(chr_code-dimen_base); - else{@+print_esc("dimen");print_int(chr_code-scaled_base); - } @+break; - -@ @<Initialize table entries...@>= -for (k=dimen_base; k<=eqtb_size; k++) hfactor_eqtb[k].sc=vfactor_eqtb[k].sc=eqtb[k].sc=0; - -@ @<Show equivalent |n|, in region 6@>= -{@+if (n < scaled_base) print_length_param(n-dimen_base); -else{@+print_esc("dimen");print_int(n-scaled_base); - } -print_char('=');print_scaled(eqtb[n].sc);print("pt"); -} - -@ Here is a procedure that displays the contents of |eqtb[n]| -symbolically. - -@p @t\4@>@<Declare the procedure called |print_cmd_chr|@>@;@/ -#ifdef @!STAT -static void show_eqtb(pointer @!n) -{@+if (n < active_base) print_char('?'); /*this can't happen*/ -else if (n < glue_base) @<Show equivalent |n|, in region 1 or 2@>@; -else if (n < local_base) @<Show equivalent |n|, in region 3@>@; -else if (n < int_base) @<Show equivalent |n|, in region 4@>@; -else if (n < dimen_base) @<Show equivalent |n|, in region 5@>@; -else if (n <= eqtb_size) @<Show equivalent |n|, in region 6@>@; -else print_char('?'); /*this can't happen either*/ -} -#endif - -@ The last two regions of |eqtb| have fullword values instead of the -three fields |eq_level|, |eq_type|, and |equiv|. An |eq_type| is unnecessary, -but \TeX\ needs to store the |eq_level| information in another array -called |xeq_level|. - -@<Glob...@>= -memory_word @!eqtb0[eqtb_size-active_base+1], *const @!eqtb = @!eqtb0-active_base; -memory_word hfactor_eqtb0[dimen_pars+256]={{{0}}}, *const @!hfactor_eqtb = @!hfactor_eqtb0-dimen_base; -memory_word vfactor_eqtb0[dimen_pars+256]={{{0}}}, *const @!vfactor_eqtb = @!vfactor_eqtb0-dimen_base; -scaled par_shape_hfactor=0, par_shape_vfactor=0; -scaled hhsize=0,hvsize=0; -static quarterword @!xeq_level0[eqtb_size-int_base+1], *const @!xeq_level = @!xeq_level0-int_base; - -@ @<Set init...@>= -for (k=int_base; k<=eqtb_size; k++) xeq_level[k]=level_one; - -@ When the debugging routine |search_mem| is looking for pointers having a -given value, it is interested only in regions 1 to~3 of~|eqtb|, and in the -first part of region~4. - -@<Search |eqtb| for equivalents equal to |p|@>= -for (q=active_base; q<=box_base+255; q++) - {@+if (equiv(q)==p) - {@+print_nl("EQUIV(");print_int(q);print_char(')'); - } - } - -@* The hash table. -Control sequences are stored and retrieved by means of a fairly standard hash -table algorithm called the method of ``coalescing lists'' (cf.\ Algorithm 6.4C -in {\sl The Art of Computer Programming\/}). Once a control sequence enters the -table, it is never removed, because there are complicated situations -involving \.{\\gdef} where the removal of a control sequence at the end of -a group would be a mistake preventable only by the introduction of a -complicated reference-count mechanism. - -The actual sequence of letters forming a control sequence identifier is -stored in the |str_pool| array together with all the other strings. An -auxiliary array |hash| consists of items with two halfword fields per -word. The first of these, called |next(p)|, points to the next identifier -belonging to the same coalesced list as the identifier corresponding to~|p|; -and the other, called |text(p)|, points to the |str_start| entry for -|p|'s identifier. If position~|p| of the hash table is empty, we have -|text(p)==0|; if position |p| is either empty or the end of a coalesced -hash list, we have |next(p)==0|. An auxiliary pointer variable called -|hash_used| is maintained in such a way that all locations |p >= hash_used| -are nonempty. The global variable |cs_count| tells how many multiletter -control sequences have been defined, if statistics are being kept. - -A global boolean variable called |no_new_control_sequence| is set to -|true| during the time that new hash table entries are forbidden. - -@d next(A) hash[A].lh /*link for coalesced lists*/ -@d text(A) hash[A].rh /*string number for control sequence name*/ -@d hash_is_full (hash_used==hash_base) /*test if all positions are occupied*/ -@d font_id_text(A) text(font_id_base+A) /*a frozen font identifier's name*/ - -@<Glob...@>= -two_halves @!hash0[undefined_control_sequence-hash_base], *const @!hash = @!hash0-hash_base; - /*the hash table*/ -static pointer @!hash_used; /*allocation pointer for |hash|*/ -static bool @!no_new_control_sequence; /*are new identifiers legal?*/ -static int @!cs_count; /*total number of known identifiers*/ - -@ @<Set init...@>= -no_new_control_sequence=true; /*new identifiers are usually forbidden*/ -next(hash_base)=0;text(hash_base)=0; -for (k=hash_base+1; k<=undefined_control_sequence-1; k++) hash[k]=hash[hash_base]; - -@ @<Initialize table entries...@>= -hash_used=frozen_control_sequence; /*nothing is used*/ -cs_count=0; -eq_type(frozen_dont_expand)=dont_expand; -text(frozen_dont_expand)=s_no("notexpanded:"); -@.notexpanded:@> - -@ Here is the subroutine that searches the hash table for an identifier -that matches a given string of length |l > 1| appearing in |buffer[j dotdot -(j+l-1)]|. If the identifier is found, the corresponding hash table address -is returned. Otherwise, if the global variable |no_new_control_sequence| -is |true|, the dummy address |undefined_control_sequence| is returned. -Otherwise the identifier is inserted into the hash table and its location -is returned. - -@p static pointer id_lookup(int @!j, int @!l) /*search the hash table*/ -{@+ /*go here if you found it*/ -int h; /*hash code*/ -int @!d; /*number of characters in incomplete current string*/ -pointer @!p; /*index in |hash| array*/ -int @!k; /*index in |buffer| array*/ -@<Compute the hash code |h|@>; -p=h+hash_base; /*we start searching here; note that |0 <= h < hash_prime|*/ -loop@+{@+if (text(p) > 0) if (length(text(p))==l) - if (str_eq_buf(text(p), j)) goto found; - if (next(p)==0) - {@+if (no_new_control_sequence) - p=undefined_control_sequence; - else@<Insert a new control sequence after |p|, then make |p| point to it@>; - goto found; - } - p=next(p); - } -found: return p; -} - -@ @<Insert a new control...@>= -{@+if (text(p) > 0) - {@+@/do@+{if (hash_is_full) overflow("hash size", hash_size); -@:TeX capacity exceeded hash size}{\quad hash size@> - decr(hash_used); - }@+ while (!(text(hash_used)==0)); /*search for an empty location in |hash|*/ - next(p)=hash_used;p=hash_used; - } -str_room(l);d=cur_length; -while (pool_ptr > str_start[str_ptr]) - {@+decr(pool_ptr);str_pool[pool_ptr+l]=str_pool[pool_ptr]; - } /*move current string up to make room for another*/ -for (k=j; k<=j+l-1; k++) append_char(buffer[k]); -text(p)=make_string();pool_ptr=pool_ptr+d; -#ifdef @!STAT -incr(cs_count); -#endif -@;@/ -} - -@ The value of |hash_prime| should be roughly 85\pct! of |hash_size|, and it -should be a prime number. The theory of hashing tells us to expect fewer -than two table probes, on the average, when the search is successful. -[See J.~S. Vitter, {\sl Journal of the ACM\/ \bf30} (1983), 231--258.] -@^Vitter, Jeffrey Scott@> - -@<Compute the hash code |h|@>= -h=buffer[j]; -for (k=j+1; k<=j+l-1; k++) - {@+h=h+h+buffer[k]; - while (h >= hash_prime) h=h-hash_prime; - } - -@ Single-character control sequences do not need to be looked up in a hash -table, since we can use the character code itself as a direct address. -The procedure |print_cs| prints the name of a control sequence, given -a pointer to its address in |eqtb|. A space is printed after the name -unless it is a single nonletter or an active character. This procedure -might be invoked with invalid data, so it is ``extra robust.'' The -individual characters must be printed one at a time using |print|, since -they may be unprintable. - -@<Basic printing...@>= -static void print_cs(int @!p) /*prints a purported control sequence*/ -{@+if (p < hash_base) /*single character*/ - if (p >= single_base) - if (p==null_cs) - {@+print_esc("csname");print_esc("endcsname");print_char(' '); - } - else{@+printn_esc(p-single_base); - if (cat_code(p-single_base)==letter) print_char(' '); - } - else if (p < active_base) print_esc("IMPOSSIBLE."); -@.IMPOSSIBLE@> - else printn(p-active_base); -else if (p >= undefined_control_sequence) print_esc("IMPOSSIBLE."); -else if ((text(p) < 0)||(text(p) >= str_ptr)) print_esc("NONEXISTENT."); -@.NONEXISTENT@> -else{@+printn_esc(text(p)); - print_char(' '); - } -} - -@ Here is a similar procedure; it avoids the error checks, and it never -prints a space after the control sequence. - -@<Basic printing procedures@>= -static void sprint_cs(pointer @!p) /*prints a control sequence*/ -{@+if (p < hash_base) - if (p < single_base) printn(p-active_base); - else if (p < null_cs) printn_esc(p-single_base); - else{@+print_esc("csname");print_esc("endcsname"); - } -else printn_esc(text(p)); -} - -@ We need to put \TeX's ``primitive'' control sequences into the hash -table, together with their command code (which will be the |eq_type|) -and an operand (which will be the |equiv|). The |primitive| procedure -does this, in a way that no \TeX\ user can. The global value |cur_val| -contains the new |eqtb| pointer after |primitive| has acted. - -@p -#ifdef @!INIT -static void primitive(char *@!str, quarterword @!c, halfword @!o) -{@+str_number s=s_no(str); -int k; /*index into |str_pool|*/ -int @!j; /*index into |buffer|*/ -small_number @!l; /*length of the string*/ -if (s < 256) cur_val=s+single_base; -else{@+k=str_start[s];l=str_start[s+1]-k; - /*we will move |s| into the (possibly non-empty) |buffer|*/ - if (first+l > buf_size+1) - overflow("buffer size", buf_size); -@:TeX capacity exceeded buffer size}{\quad buffer size@> - for (j=0; j<=l-1; j++) buffer[first+j]=so(str_pool[k+j]); - cur_val=id_lookup(first, l); /*|no_new_control_sequence| is |false|*/ - flush_string;text(cur_val)=s; /*we don't want to have the string twice*/ - } -eq_level(cur_val)=level_one;eq_type(cur_val)=c;equiv(cur_val)=o; -} -#endif - -@ Many of \TeX's primitives need no |equiv|, since they are identifiable -by their |eq_type| alone. These primitives are loaded into the hash table -as follows: - -@<Put each of \TeX's primitives into the hash table@>= -primitive(" ", ex_space, 0);@/ -@!@:Single-character primitives /}{\quad\.{\\\ }@> -primitive("/", ital_corr, 0);@/ -@!@:Single-character primitives /}{\quad\.{\\/}@> -primitive("accent", accent, 0);@/ -@!@:accent\_}{\.{\\accent} primitive@> -primitive("advance", advance, 0);@/ -@!@:advance\_}{\.{\\advance} primitive@> -primitive("afterassignment", after_assignment, 0);@/ -@!@:after\_assignment\_}{\.{\\afterassignment} primitive@> -primitive("aftergroup", after_group, 0);@/ -@!@:after\_group\_}{\.{\\aftergroup} primitive@> -primitive("begingroup", begin_group, 0);@/ -@!@:begin\_group\_}{\.{\\begingroup} primitive@> -primitive("char", char_num, 0);@/ -@!@:char\_}{\.{\\char} primitive@> -primitive("csname", cs_name, 0);@/ -@!@:cs\_name\_}{\.{\\csname} primitive@> -primitive("delimiter", delim_num, 0);@/ -@!@:delimiter\_}{\.{\\delimiter} primitive@> -primitive("divide", divide, 0);@/ -@!@:divide\_}{\.{\\divide} primitive@> -primitive("endcsname", end_cs_name, 0);@/ -@!@:end\_cs\_name\_}{\.{\\endcsname} primitive@> -primitive("endgroup", end_group, 0); -@!@:end\_group\_}{\.{\\endgroup} primitive@> -text(frozen_end_group)=text(cur_val);eqtb[frozen_end_group]=eqtb[cur_val];@/ -primitive("expandafter", expand_after, 0);@/ -@!@:expand\_after\_}{\.{\\expandafter} primitive@> -primitive("font", def_font, 0);@/ -@!@:font\_}{\.{\\font} primitive@> -primitive("fontdimen", assign_font_dimen, 0);@/ -@!@:font\_dimen\_}{\.{\\fontdimen} primitive@> -primitive("halign", halign, 0);@/ -@!@:halign\_}{\.{\\halign} primitive@> -primitive("hrule", hrule, 0);@/ -@!@:hrule\_}{\.{\\hrule} primitive@> -primitive("ignorespaces", ignore_spaces, 0);@/ -@!@:ignore\_spaces\_}{\.{\\ignorespaces} primitive@> -primitive("insert", insert, 0);@/ -@!@:insert\_}{\.{\\insert} primitive@> -primitive("mark", mark, 0);@/ -@!@:mark\_}{\.{\\mark} primitive@> -primitive("mathaccent", math_accent, 0);@/ -@!@:math\_accent\_}{\.{\\mathaccent} primitive@> -primitive("mathchar", math_char_num, 0);@/ -@!@:math\_char\_}{\.{\\mathchar} primitive@> -primitive("mathchoice", math_choice, 0);@/ -@!@:math\_choice\_}{\.{\\mathchoice} primitive@> -primitive("multiply", multiply, 0);@/ -@!@:multiply\_}{\.{\\multiply} primitive@> -primitive("noalign", no_align, 0);@/ -@!@:no\_align\_}{\.{\\noalign} primitive@> -primitive("noboundary", no_boundary, 0);@/ -@!@:no\_boundary\_}{\.{\\noboundary} primitive@> -primitive("noexpand", no_expand, 0);@/ -@!@:no\_expand\_}{\.{\\noexpand} primitive@> -primitive("nonscript", non_script, 0);@/ -@!@:non\_script\_}{\.{\\nonscript} primitive@> -primitive("omit", omit, 0);@/ -@!@:omit\_}{\.{\\omit} primitive@> -primitive("parshape", set_shape, par_shape_loc);@/ -@!@:par\_shape\_}{\.{\\parshape} primitive@> -primitive("penalty", break_penalty, 0);@/ -@!@:penalty\_}{\.{\\penalty} primitive@> -primitive("prevgraf", set_prev_graf, 0);@/ -@!@:prev\_graf\_}{\.{\\prevgraf} primitive@> -primitive("radical", radical, 0);@/ -@!@:radical\_}{\.{\\radical} primitive@> -primitive("read", read_to_cs, 0);@/ -@!@:read\_}{\.{\\read} primitive@> -primitive("relax", relax, 256); /*cf.\ |scan_file_name|*/ -@!@:relax\_}{\.{\\relax} primitive@> -text(frozen_relax)=text(cur_val);eqtb[frozen_relax]=eqtb[cur_val];@/ -primitive("setbox", set_box, 0);@/ -@!@:set\_box\_}{\.{\\setbox} primitive@> -primitive("the", the, 0);@/ -@!@:the\_}{\.{\\the} primitive@> -primitive("toks", toks_register, mem_bot);@/ -@!@:toks\_}{\.{\\toks} primitive@> -primitive("vadjust", vadjust, 0);@/ -@!@:vadjust\_}{\.{\\vadjust} primitive@> -primitive("valign", valign, 0);@/ -@!@:valign\_}{\.{\\valign} primitive@> -primitive("vcenter", vcenter, 0);@/ -@!@:vcenter\_}{\.{\\vcenter} primitive@> -primitive("vrule", vrule, 0);@/ -@!@:vrule\_}{\.{\\vrule} primitive@> - -@ Each primitive has a corresponding inverse, so that it is possible to -display the cryptic numeric contents of |eqtb| in symbolic form. -Every call of |primitive| in this program is therefore accompanied by some -straightforward code that forms part of the |print_cmd_chr| routine -below. - -@<Cases of |print_cmd_chr|...@>= -case accent: print_esc("accent");@+break; -case advance: print_esc("advance");@+break; -case after_assignment: print_esc("afterassignment");@+break; -case after_group: print_esc("aftergroup");@+break; -case assign_font_dimen: print_esc("fontdimen");@+break; -case begin_group: print_esc("begingroup");@+break; -case break_penalty: print_esc("penalty");@+break; -case char_num: print_esc("char");@+break; -case cs_name: print_esc("csname");@+break; -case def_font: print_esc("font");@+break; -case delim_num: print_esc("delimiter");@+break; -case divide: print_esc("divide");@+break; -case end_cs_name: print_esc("endcsname");@+break; -case end_group: print_esc("endgroup");@+break; -case ex_space: print_esc(" ");@+break; -case expand_after: if (chr_code==0) print_esc("expandafter") - @<Cases of |expandafter| for |print_cmd_chr|@>;@+break; -case halign: print_esc("halign");@+break; -case hrule: print_esc("hrule");@+break; -case ignore_spaces: print_esc("ignorespaces");@+break; -case insert: print_esc("insert");@+break; -case ital_corr: print_esc("/");@+break; -case mark: print_esc("mark");@+break; -case math_accent: print_esc("mathaccent");@+break; -case math_char_num: print_esc("mathchar");@+break; -case math_choice: print_esc("mathchoice");@+break; -case multiply: print_esc("multiply");@+break; -case no_align: print_esc("noalign");@+break; -case no_boundary: print_esc("noboundary");@+break; -case no_expand: print_esc("noexpand");@+break; -case non_script: print_esc("nonscript");@+break; -case omit: print_esc("omit");@+break; -case radical: print_esc("radical");@+break; -case read_to_cs: if (chr_code==0) print_esc("read") - @<Cases of |read| for |print_cmd_chr|@>;@+break; -case relax: print_esc("relax");@+break; -case set_box: print_esc("setbox");@+break; -case set_prev_graf: print_esc("prevgraf");@+break; -case set_shape: switch (chr_code) { - case par_shape_loc: print_esc("parshape");@+break; - @<Cases of |set_shape| for |print_cmd_chr|@>@;@/ - } @+break; /*there are no other cases*/ -case the: if (chr_code==0) print_esc("the") - @<Cases of |the| for |print_cmd_chr|@>;@+break; -case toks_register: @<Cases of |toks_register| for |print_cmd_chr|@>@;@+break; -case vadjust: print_esc("vadjust");@+break; -case valign: print_esc("valign");@+break; -case vcenter: print_esc("vcenter");@+break; -case vrule: print_esc("vrule");@+break; - -@ We will deal with the other primitives later, at some point in the program -where their |eq_type| and |equiv| values are more meaningful. For example, -the primitives for math mode will be loaded when we consider the routines -that deal with formulas. It is easy to find where each particular -primitive was treated by looking in the index at the end; for example, the -section where |"radical"| entered |eqtb| is listed under `\.{\\radical} -primitive'. (Primitives consisting of a single nonalphabetic character, -@!like `\.{\\/}', are listed under `Single-character primitives'.) -@!@^Single-character primitives@> - -Meanwhile, this is a convenient place to catch up on something we were unable -to do before the hash table was defined: - -@<Print the font identifier for |font(p)|@>= -printn_esc(font_id_text(font(p))) - -@* Saving and restoring equivalents. -The nested structure provided by `$\.{\char'173}\ldots\.{\char'175}$' groups -in \TeX\ means that |eqtb| entries valid in outer groups should be saved -and restored later if they are overridden inside the braces. When a new |eqtb| -value is being assigned, the program therefore checks to see if the previous -entry belongs to an outer level. In such a case, the old value is placed -on the |save_stack| just before the new value enters |eqtb|. At the -end of a grouping level, i.e., when the right brace is sensed, the -|save_stack| is used to restore the outer values, and the inner ones are -destroyed. - -Entries on the |save_stack| are of type |memory_word|. The top item on -this stack is |save_stack[p]|, where |p==save_ptr-1|; it contains three -fields called |save_type|, |save_level|, and |save_index|, and it is -interpreted in one of five ways: - -\yskip\hangg 1) If |save_type(p)==restore_old_value|, then -|save_index(p)| is a location in |eqtb| whose current value should -be destroyed at the end of the current group and replaced by |save_stack[p-1]|. -Furthermore if |save_index(p) >= int_base|, then |save_level(p)| -should replace the corresponding entry in |xeq_level|. - -\yskip\hangg 2) If |save_type(p)==restore_zero|, then |save_index(p)| -is a location in |eqtb| whose current value should be destroyed at the end -of the current group, when it should be -replaced by the value of |eqtb[undefined_control_sequence]|. - -\yskip\hangg 3) If |save_type(p)==insert_token|, then |save_index(p)| -is a token that should be inserted into \TeX's input when the current -group ends. - -\yskip\hangg 4) If |save_type(p)==level_boundary|, then |save_level(p)| -is a code explaining what kind of group we were previously in, and -|save_index(p)| points to the level boundary word at the bottom of -the entries for that group. -Furthermore, in extended \eTeX\ mode, |save_stack[p-1]| contains the -source line number at which the current level of grouping was entered. - -\yskip\hang 5) If |save_type(p)==restore_sa|, then |sa_chain| points to a -chain of sparse array entries to be restored at the end of the current -group. Furthermore |save_index(p)| and |save_level(p)| should replace -the values of |sa_chain| and |sa_level| respectively. - -@d save_type(A) save_stack[A].hh.b0 /*classifies a |save_stack| entry*/ -@d save_level(A) save_stack[A].hh.b1 - /*saved level for regions 5 and 6, or group code*/ -@d save_index(A) save_stack[A].hh.rh - /*|eqtb| location or token or |save_stack| location*/ -@d restore_old_value 0 /*|save_type| when a value should be restored later*/ -@d restore_zero 1 /*|save_type| when an undefined entry should be restored*/ -@d insert_token 2 /*|save_type| when a token is being saved for later use*/ -@d level_boundary 3 /*|save_type| corresponding to beginning of group*/ -@d restore_sa 4 /*|save_type| when sparse array entries should be restored*/ - -@p @t\4@>@<Declare \eTeX\ procedures for tracing and input@>@; - -@ Here are the group codes that are used to discriminate between different -kinds of groups. They allow \TeX\ to decide what special actions, if any, -should be performed when a group ends. -\def\grp{\.{\char'173...\char'175}} - -Some groups are not supposed to be ended by right braces. For example, -the `\.\$' that begins a math formula causes a |math_shift_group| to -be started, and this should be terminated by a matching `\.\$'. Similarly, -a group that starts with \.{\\left} should end with \.{\\right}, and -one that starts with \.{\\begingroup} should end with \.{\\endgroup}. - -@d bottom_level 0 /*group code for the outside world*/ -@d simple_group 1 /*group code for local structure only*/ -@d hbox_group 2 /*code for `\.{\\hbox}\grp'*/ -@d adjusted_hbox_group 3 /*code for `\.{\\hbox}\grp' in vertical mode*/ -@d vbox_group 4 /*code for `\.{\\vbox}\grp'*/ -@d vtop_group 5 /*code for `\.{\\vtop}\grp'*/ -@d align_group 6 /*code for `\.{\\halign}\grp', `\.{\\valign}\grp'*/ -@d no_align_group 7 /*code for `\.{\\noalign}\grp'*/ -@d output_group 8 /*code for output routine*/ -@d math_group 9 /*code for, e.g., `\.{\char'136}\grp'*/ -@d disc_group 10 /*code for `\.{\\discretionary}\grp\grp\grp'*/ -@d insert_group 11 /*code for `\.{\\insert}\grp', `\.{\\vadjust}\grp'*/ -@d vcenter_group 12 /*code for `\.{\\vcenter}\grp'*/ -@d math_choice_group 13 /*code for `\.{\\mathchoice}\grp\grp\grp\grp'*/ -@d semi_simple_group 14 /*code for `\.{\\begingroup...\\endgroup}'*/ -@d math_shift_group 15 /*code for `\.{\$...\$}'*/ -@d math_left_group 16 /*code for `\.{\\left...\\right}'*/ -@d page_group 17 -@d stream_group 18 -@d stream_before_group 19 -@d stream_after_group 20 -@d outline_group 21 -@d max_group_code 21 - -@<Types...@>= -typedef int8_t group_code; /*|save_level| for a level boundary*/ - -@ The global variable |cur_group| keeps track of what sort of group we are -currently in. Another global variable, |cur_boundary|, points to the -topmost |level_boundary| word. And |cur_level| is the current depth of -nesting. The routines are designed to preserve the condition that no entry -in the |save_stack| or in |eqtb| ever has a level greater than |cur_level|. - -@ @<Glob...@>= -static memory_word @!save_stack[save_size+1]; -static memory_word @!save_hfactor[save_size+1]; -static memory_word @!save_vfactor[save_size+1]; -static int @!save_ptr; /*first unused entry on |save_stack|*/ -static int @!max_save_stack; /*maximum usage of save stack*/ -static quarterword @!cur_level; /*current nesting level for groups*/ -static group_code @!cur_group; /*current group type*/ -static int @!cur_boundary; /*where the current level begins*/ - -@ At this time it might be a good idea for the reader to review the introduction -to |eqtb| that was given above just before the long lists of parameter names. -Recall that the ``outer level'' of the program is |level_one|, since -undefined control sequences are assumed to be ``defined'' at |level_zero|. - -@<Set init...@>= -save_ptr=0;cur_level=level_one;cur_group=bottom_level;cur_boundary=0; -max_save_stack=0; - -@ The following macro is used to test if there is room for up to seven more -entries on |save_stack|. By making a conservative test like this, we can -get by with testing for overflow in only a few places. - -@d check_full_save_stack if (save_ptr > max_save_stack) - {@+max_save_stack=save_ptr; - if (max_save_stack > save_size-7) overflow("save size", save_size); -@:TeX capacity exceeded save size}{\quad save size@> - } - -@ Procedure |new_save_level| is called when a group begins. The -argument is a group identification code like `|hbox_group|'. After -calling this routine, it is safe to put five more entries on |save_stack|. - -In some cases integer-valued items are placed onto the -|save_stack| just below a |level_boundary| word, because this is a -convenient place to keep information that is supposed to ``pop up'' just -when the group has finished. -For example, when `\.{\\hbox to 100pt}\grp' is being treated, the 100pt -dimension is stored on |save_stack| just before |new_save_level| is -called. - -We use the notation |saved(k)| to stand for an integer item that -appears in location |save_ptr+k| of the save stack. - -@d saved(A) save_stack[save_ptr+A].i -@d saved_hfactor(A) save_hfactor[save_ptr+A].i -@d saved_vfactor(A) save_vfactor[save_ptr+A].i - -@p void new_save_level(group_code @!c) /*begin a new level of grouping*/ -{@+check_full_save_stack; -if (eTeX_ex) - {@+saved(0)=line;incr(save_ptr); - } -save_type(save_ptr)=level_boundary;save_level(save_ptr)=cur_group; -save_index(save_ptr)=cur_boundary; -if (cur_level==max_quarterword) overflow("grouping levels", -@:TeX capacity exceeded grouping levels}{\quad grouping levels@> - max_quarterword-min_quarterword); - /*quit if |(cur_level+1)| is too big to be stored in |eqtb|*/ -cur_boundary=save_ptr;cur_group=c; -#ifdef @!STAT -if (tracing_groups > 0) group_trace(false); -#endif -@;@/ -incr(cur_level);incr(save_ptr); -} - -@ Just before an entry of |eqtb| is changed, the following procedure should -be called to update the other data structures properly. It is important -to keep in mind that reference counts in |mem| include references from -within |save_stack|, so these counts must be handled carefully. -@^reference counts@> - -@p static void eq_destroy(memory_word @!w) /*gets ready to forget |w|*/ -{@+pointer q; /*|equiv| field of |w|*/ -switch (eq_type_field(w)) { -case call: case long_call: case outer_call: case long_outer_call: delete_token_ref(equiv_field(w));@+break; -case glue_ref: delete_glue_ref(equiv_field(w));@+break; -case shape_ref: {@+q=equiv_field(w); /*we need to free a \.{\\parshape} block*/ - if (q!=null) free_node(q, info(q)+info(q)+1); - } @+break; /*such a block is |2 n+1| words long, where |n==info(q)|*/ -case box_ref: flush_node_list(equiv_field(w));@+break; -@/@<Cases for |eq_destroy|@>@/ -default:do_nothing; -} -} - -@ To save a value of |eqtb[p]| that was established at level |l|, we -can use the following subroutine. - -@p static void eq_save(pointer @!p, quarterword @!l) /*saves |eqtb[p]|*/ -{@+check_full_save_stack; -if (l==level_zero) save_type(save_ptr)=restore_zero; -else{@+save_stack[save_ptr]=eqtb[p]; - if (p>=dimen_base) - { save_hfactor[save_ptr]=hfactor_eqtb[p]; - save_vfactor[save_ptr]=vfactor_eqtb[p]; - } - else if (p==par_shape_loc) - { save_hfactor[save_ptr].i=par_shape_hfactor; - save_vfactor[save_ptr].i=par_shape_vfactor; - } - incr(save_ptr); - save_type(save_ptr)=restore_old_value; - } -save_level(save_ptr)=l;save_index(save_ptr)=p;incr(save_ptr); -} - -@ The procedure |eq_define| defines an |eqtb| entry having specified -|eq_type| and |equiv| fields, and saves the former value if appropriate. -This procedure is used only for entries in the first four regions of |eqtb|, -i.e., only for entries that have |eq_type| and |equiv| fields. -After calling this routine, it is safe to put four more entries on -|save_stack|, provided that there was room for four more entries before -the call, since |eq_save| makes the necessary test. - -@p -#ifdef @!STAT -#define assign_trace(A, B) if (tracing_assigns > 0) restore_trace(A, B); -#else -#define assign_trace(A, B) -#endif - -static void eq_define(pointer @!p, quarterword @!t, halfword @!e) - /*new data for |eqtb|*/ -{@+ -if (eTeX_ex&&(eq_type(p)==t)&&(equiv(p)==e)) - {@+assign_trace(p,"reassigning")@;@/ - eq_destroy(eqtb[p]);return; - } -assign_trace(p,"changing")@;@/ -if (eq_level(p)==cur_level) eq_destroy(eqtb[p]); -else if (cur_level > level_one) eq_save(p, eq_level(p)); -eq_level(p)=cur_level;eq_type(p)=t;equiv(p)=e; -if (p==par_shape_loc) -{ par_shape_hfactor=cur_hfactor; - par_shape_vfactor=cur_vfactor; -} -assign_trace(p,"into")@;@/ -} - -@ The counterpart of |eq_define| for the remaining (fullword) positions in -|eqtb| is called |eq_word_define|. Since |xeq_level[p] >= level_one| for all -|p|, a `|restore_zero|' will never be used in this case. - -@p static void eq_word_define(pointer @!p, int @!w) -{@+ -if (eTeX_ex&&(eqtb[p].i==w)) - {@+assign_trace(p,"reassigning")@;@/ - return; - } -assign_trace(p,"changing")@;@/ -if (cur_level==level_one)@t\1@> - { if (p==dimen_base+hsize_code) - { hhsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); return; @+} - if (p==dimen_base+vsize_code) - { hvsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); return; @+} - } -if (xeq_level[p]!=cur_level) - {@+eq_save(p, xeq_level[p]);xeq_level[p]=cur_level; - } -eqtb[p].i=w; -if (p>=dimen_base) -{ hfactor_eqtb[p].i=cur_hfactor; - vfactor_eqtb[p].i=cur_vfactor; -} -assign_trace(p,"into")@;@/ -} - -@ The |eq_define| and |eq_word_define| routines take care of local definitions. -@^global definitions@> -Global definitions are done in almost the same way, but there is no need -to save old values, and the new value is associated with |level_one|. - -@p static void geq_define(pointer @!p, quarterword @!t, halfword @!e) - /*global |eq_define|*/ -{@+assign_trace(p,"globally changing")@;@/ -{@+eq_destroy(eqtb[p]); -eq_level(p)=level_one;eq_type(p)=t;equiv(p)=e; -} -assign_trace(p,"into");@/ -} -@# -static void geq_word_define(pointer @!p, int @!w) /*global |eq_word_define|*/ -{@+assign_trace(p,"globally changing")@;@/ -{@t\1@>xeq_level[p]=level_one; - if (p==dimen_base+hsize_code) - hhsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); - else if (p==dimen_base+vsize_code) - hvsize=w+round(((double)cur_hfactor*hhsize +(double)cur_vfactor*hvsize)/unity); - else - { eqtb[p].i=w; - if (p>=dimen_base) - { hfactor_eqtb[p].i=cur_hfactor; - vfactor_eqtb[p].i=cur_vfactor; - } -} -} -assign_trace(p,"into");@/ -} - -@ Subroutine |save_for_after| puts a token on the stack for save-keeping. - -@p static void save_for_after(halfword @!t) -{@+if (cur_level > level_one) - {@+check_full_save_stack; - save_type(save_ptr)=insert_token;save_level(save_ptr)=level_zero; - save_index(save_ptr)=t;incr(save_ptr); - } -} - -@ The |unsave| routine goes the other way, taking items off of |save_stack|. -This routine takes care of restoration when a level ends; everything -belonging to the topmost group is cleared off of the save stack. - -@p -static void back_input(void); -void unsave(void) /*pops the top level off the save stack*/ -{@+ -pointer p; /*position to be restored*/ -quarterword @!l; /*saved level, if in fullword regions of |eqtb|*/ -halfword @!t; /*saved value of |cur_tok|*/ -bool @!a; /*have we already processed an \.{\\aftergroup} ?*/ -a=false; -if (cur_level > level_one) - {@+decr(cur_level); - @<Clear off top level from |save_stack|@>; - } -else confusion("curlevel"); /*|unsave| is not used when |cur_group==bottom_level|*/ -@:this can't happen curlevel}{\quad curlevel@> -} - -@ @<Clear off...@>= -loop@+{@+decr(save_ptr); - if (save_type(save_ptr)==level_boundary) goto done; - p=save_index(save_ptr); - if (save_type(save_ptr)==insert_token) - @<Insert token |p| into \TeX's input@>@; - else if (save_type(save_ptr)==restore_sa) - {@+sa_restore();sa_chain=p;sa_level=save_level(save_ptr); - } - else{@+if (save_type(save_ptr)==restore_old_value) - {@+l=save_level(save_ptr);decr(save_ptr); - } - else save_stack[save_ptr]=eqtb[undefined_control_sequence]; - @<Store \(s)|save_stack[save_ptr]| in |eqtb[p]|, unless |eqtb[p]| holds a global -value@>; - } - } -done: -#ifdef @!STAT -if (tracing_groups > 0) group_trace(true); -#endif -@;@/ -if (grp_stack[in_open]==cur_boundary) group_warning(); - /*groups possibly not properly nested with files*/ -cur_group=save_level(save_ptr);cur_boundary=save_index(save_ptr); -if (eTeX_ex) decr(save_ptr) - -@ A global definition, which sets the level to |level_one|, -@^global definitions@> -will not be undone by |unsave|. If at least one global definition of -|eqtb[p]| has been carried out within the group that just ended, the -last such definition will therefore survive. - -@<Store \(s)|save...@>= -if (p < int_base) - if (eq_level(p)==level_one) - {@+eq_destroy(save_stack[save_ptr]); /*destroy the saved value*/ -#ifdef @!STAT - if (tracing_restores > 0) restore_trace(p,"retaining"); -#endif -@;@/ - } - else{@+eq_destroy(eqtb[p]); /*destroy the current value*/ - eqtb[p]=save_stack[save_ptr]; /*restore the saved value*/ - if (p==par_shape_loc) - { par_shape_hfactor=save_hfactor[save_ptr].i; - par_shape_vfactor=save_vfactor[save_ptr].i; - } -#ifdef @!STAT - if (tracing_restores > 0) restore_trace(p,"restoring"); -#endif -@;@/ - } -else if (xeq_level[p]!=level_one) - {@t\1@>@+eqtb[p]=save_stack[save_ptr]; - if (p>=dimen_base) - { hfactor_eqtb[p]=save_hfactor[save_ptr]; - vfactor_eqtb[p]=save_vfactor[save_ptr]; - } - xeq_level[p]=l; -#ifdef @!STAT - if (tracing_restores > 0) restore_trace(p,"restoring"); -#endif -@;@/ - } -else{ -#ifdef @!STAT - if (tracing_restores > 0) restore_trace(p,"retaining"); -#endif -@;@/ - } - -@ @<Declare \eTeX\ procedures for tr...@>= -#ifdef @!STAT -static void restore_trace(pointer @!p, char *@!s) - /*|eqtb[p]| has just been restored or retained*/ -{@+begin_diagnostic();print_char('{');print(s);print_char(' '); -show_eqtb(p);print_char('}'); -end_diagnostic(false); -} -#endif - -@ When looking for possible pointers to a memory location, it is helpful -to look for references from |eqtb| that might be waiting on the -save stack. Of course, we might find spurious pointers too; but this -routine is merely an aid when debugging, and at such times we are -grateful for any scraps of information, even if they prove to be irrelevant. -@^dirty \PASCAL@> - -@<Search |save_stack| for equivalents that point to |p|@>= -if (save_ptr > 0) for (q=0; q<=save_ptr-1; q++) - {@+if (equiv_field(save_stack[q])==p) - {@+print_nl("SAVE(");print_int(q);print_char(')'); - } - } - -@ Most of the parameters kept in |eqtb| can be changed freely, but there's -an exception: The magnification should not be used with two different -values during any \TeX\ job, since a single magnification is applied to an -entire run. The global variable |mag_set| is set to the current magnification -whenever it becomes necessary to ``freeze'' it at a particular value. - -@<Glob...@>= -static int @!mag_set; /*if nonzero, this magnification should be used henceforth*/ - -@ @<Set init...@>= -mag_set=0; - -@ The |prepare_mag| subroutine is called whenever \TeX\ wants to use |mag| -for magnification. - -@p static void prepare_mag(void) -{@+if ((mag_set > 0)&&(mag!=mag_set)) - {@+print_err("Incompatible magnification (");print_int(mag); -@.Incompatible magnification@> - print(");");print_nl(" the previous value will be retained"); - help2("I can handle only one magnification ratio per job. So I've",@/ - "reverted to the magnification you used earlier on this run.");@/ - int_error(mag_set); - geq_word_define(int_base+mag_code, mag_set); /*|mag=mag_set|*/ - } -if ((mag <= 0)||(mag > 32768)) - {@+print_err("Illegal magnification has been changed to 1000");@/ -@.Illegal magnification...@> - help1("The magnification ratio must be between 1 and 32768."); - int_error(mag);geq_word_define(int_base+mag_code, 1000); - } -mag_set=mag; -} - -@* Token lists. -A \TeX\ token is either a character or a control sequence, and it is -@^token@> -represented internally in one of two ways: (1)~A character whose ASCII -code number is |c| and whose command code is |m| is represented as the -number $2^8m+c$; the command code is in the range |1 <= m <= 14|. (2)~A control -sequence whose |eqtb| address is |p| is represented as the number -|cs_token_flag+p|. Here |cs_token_flag==@t$2^{12}-1$@>| is larger than -$2^8m+c$, yet it is small enough that |cs_token_flag+p < max_halfword|; -thus, a token fits comfortably in a halfword. - -A token |t| represents a |left_brace| command if and only if -|t < left_brace_limit|; it represents a |right_brace| command if and only if -we have |left_brace_limit <= t < right_brace_limit|; and it represents a |match| or -|end_match| command if and only if |match_token <= t <= end_match_token|. -The following definitions take care of these token-oriented constants -and a few others. - -@d cs_token_flag 07777 /*amount added to the |eqtb| location in a - token that stands for a control sequence; is a multiple of~256, less~1*/ -@d left_brace_token 00400 /*$2^8\cdot|left_brace|$*/ -@d left_brace_limit 01000 /*$2^8\cdot(|left_brace|+1)$*/ -@d right_brace_token 01000 /*$2^8\cdot|right_brace|$*/ -@d right_brace_limit 01400 /*$2^8\cdot(|right_brace|+1)$*/ -@d math_shift_token 01400 /*$2^8\cdot|math_shift|$*/ -@d tab_token 02000 /*$2^8\cdot|tab_mark|$*/ -@d out_param_token 02400 /*$2^8\cdot|out_param|$*/ -@d space_token 05040 /*$2^8\cdot|spacer|+|' '|$*/ -@d letter_token 05400 /*$2^8\cdot|letter|$*/ -@d other_token 06000 /*$2^8\cdot|other_char|$*/ -@d match_token 06400 /*$2^8\cdot|match|$*/ -@d end_match_token 07000 /*$2^8\cdot|end_match|$*/ -@d protected_token 07001 /*$2^8\cdot|end_match|+1$*/ - -@ @<Check the ``constant''...@>= -if (cs_token_flag+undefined_control_sequence > max_halfword) bad=21; - -@ A token list is a singly linked list of one-word nodes in |mem|, where -each word contains a token and a link. Macro definitions, output-routine -definitions, marks, \.{\\write} texts, and a few other things -are remembered by \TeX\ in the form -of token lists, usually preceded by a node with a reference count in its -|token_ref_count| field. The token stored in location |p| is called -|info(p)|. - -Three special commands appear in the token lists of macro definitions. -When |m==match|, it means that \TeX\ should scan a parameter -for the current macro; when |m==end_match|, it means that parameter -matching should end and \TeX\ should start reading the macro text; and -when |m==out_param|, it means that \TeX\ should insert parameter -number |c| into the text at this point. - -The enclosing \.{\char'173} and \.{\char'175} characters of a macro -definition are omitted, but an output routine -will be enclosed in braces. - -Here is an example macro definition that illustrates these conventions. -After \TeX\ processes the text -$$\.{\\def\\mac a\#1\#2 \\b \{\#1\\-a \#\#1\#2 \#2\}}$$ -the definition of \.{\\mac} is represented as a token list containing -$$\def\,{\hskip2pt} -\vbox{\halign{\hfil#\hfil\cr -(reference count), |letter|\,\.a, |match|\,\#, |match|\,\#, |spacer|\,\.\ , -\.{\\b}, |end_match|,\cr -|out_param|\,1, \.{\\-}, |letter|\,\.a, |spacer|\,\.\ , |mac_param|\,\#, -|other_char|\,\.1,\cr -|out_param|\,2, |spacer|\,\.\ , |out_param|\,2.\cr}}$$ -The procedure |scan_toks| builds such token lists, and |macro_call| -does the parameter matching. -@^reference counts@> - -Examples such as -$$\.{\\def\\m\{\\def\\m\{a\}\ b\}}$$ -explain why reference counts would be needed even if \TeX\ had no \.{\\let} -operation: When the token list for \.{\\m} is being read, the redefinition of -\.{\\m} changes the |eqtb| entry before the token list has been fully -consumed, so we dare not simply destroy a token list when its -control sequence is being redefined. - -If the parameter-matching part of a definition ends with `\.{\#\{}', -the corresponding token list will have `\.\{' just before the `|end_match|' -and also at the very end. The first `\.\{' is used to delimit the parameter; the -second one keeps the first from disappearing. - -@ The procedure |show_token_list|, which prints a symbolic form of -the token list that starts at a given node |p|, illustrates these -conventions. The token list being displayed should not begin with a reference -count. However, the procedure is intended to be robust, so that if the -memory links are awry or if |p| is not really a pointer to a token list, -nothing catastrophic will happen. - -An additional parameter |q| is also given; this parameter is either null -or it points to a node in the token list where a certain magic computation -takes place that will be explained later. (Basically, |q| is non-null when -we are printing the two-line context information at the time of an error -message; |q| marks the place corresponding to where the second line -should begin.) - -For example, if |p| points to the node containing the first \.a in the -token list above, then |show_token_list| will print the string -$$\hbox{`\.{a\#1\#2\ \\b\ ->\#1\\-a\ \#\#1\#2\ \#2}';}$$ -and if |q| points to the node containing the second \.a, -the magic computation will be performed just before the second \.a is printed. - -The generation will stop, and `\.{\\ETC.}' will be printed, if the length -of printing exceeds a given limit~|l|. Anomalous entries are printed in the -form of control sequences that are not followed by a blank space, e.g., -`\.{\\BAD.}'; this cannot be confused with actual control sequences because -a real control sequence named \.{BAD} would come out `\.{\\BAD\ }'. - -@<Declare the procedure called |show_token_list|@>= -static void show_token_list(int @!p, int @!q, int @!l) -{@+ -int m, @!c; /*pieces of a token*/ -ASCII_code @!match_chr; /*character used in a `|match|'*/ -ASCII_code @!n; /*the highest parameter number, as an ASCII digit*/ -match_chr='#';n='0';tally=0; -while ((p!=null)&&(tally < l)) - {@+if (p==q) @<Do magic computation@>; - @<Display token |p|, and |return| if there are problems@>; - p=link(p); - } -if (p!=null) print_esc("ETC."); -@.ETC@> - -} - -@ @<Display token |p|...@>= -if ((p < hi_mem_min)||(p > mem_end)) - {@+print_esc("CLOBBERED.");return; -@.CLOBBERED@> - } -if (info(p) >= cs_token_flag) print_cs(info(p)-cs_token_flag); -else{@+m=info(p)/0400;c=info(p)%0400; - if (info(p) < 0) print_esc("BAD."); -@.BAD@> - else@<Display the token $(|m|,|c|)$@>; - } - -@ The procedure usually ``learns'' the character code used for macro -parameters by seeing one in a |match| command before it runs into any -|out_param| commands. - -@<Display the token...@>= -switch (m) { -case left_brace: case right_brace: case math_shift: case tab_mark: case sup_mark: case sub_mark: case spacer: - case letter: case other_char: printn(c);@+break; -case mac_param: {@+printn(c);printn(c); - } @+break; -case out_param: {@+printn(match_chr); - if (c <= 9) print_char(c+'0'); - else{@+print_char('!');return; - } - } @+break; -case match: {@+match_chr=c;printn(c);incr(n);print_char(n); - if (n > '9') return; - } @+break; -case end_match: if (c==0) print("->");@+break; -@.->@> -default:print_esc("BAD."); -@.BAD@> -} - -@ Here's the way we sometimes want to display a token list, given a pointer -to its reference count; the pointer may be null. - -@p static void token_show(pointer @!p) -{@+if (p!=null) show_token_list(link(p), null, 10000000); -} - -@ The |print_meaning| subroutine displays |cur_cmd| and |cur_chr| in -symbolic form, including the expansion of a macro or mark. - -@p static void print_meaning(void) -{@+print_cmd_chr(cur_cmd, cur_chr); -if (cur_cmd >= call) - {@+print_char(':');print_ln();token_show(cur_chr); - } -else if (cur_cmd==top_bot_mark) - {@+print_char(':');print_ln(); - token_show(cur_mark[cur_chr]); - } -} - -@* Introduction to the syntactic routines. -Let's pause a moment now and try to look at the Big Picture. -The \TeX\ program consists of three main parts: syntactic routines, -semantic routines, and output routines. The chief purpose of the -syntactic routines is to deliver the user's input to the semantic routines, -one token at a time. The semantic routines act as an interpreter -responding to these tokens, which may be regarded as commands. And the -output routines are periodically called on to convert box-and-glue -lists into a compact set of instructions that will be sent -to a typesetter. We have discussed the basic data structures and utility -routines of \TeX, so we are good and ready to plunge into the real activity by -considering the syntactic routines. - -Our current goal is to come to grips with the |get_next| procedure, -which is the keystone of \TeX's input mechanism. Each call of |get_next| -sets the value of three variables |cur_cmd|, |cur_chr|, and |cur_cs|, -representing the next input token. -$$\vbox{\halign{#\hfil\cr - \hbox{|cur_cmd| denotes a command code from the long list of codes - given above;}\cr - \hbox{|cur_chr| denotes a character code or other modifier of the command - code;}\cr - \hbox{|cur_cs| is the |eqtb| location of the current control sequence,}\cr - \hbox{\qquad if the current token was a control sequence, - otherwise it's zero.}\cr}}$$ -Underlying this external behavior of |get_next| is all the machinery -necessary to convert from character files to tokens. At a given time we -may be only partially finished with the reading of several files (for -which \.{\\input} was specified), and partially finished with the expansion -of some user-defined macros and/or some macro parameters, and partially -finished with the generation of some text in a template for \.{\\halign}, -and so on. When reading a character file, special characters must be -classified as math delimiters, etc.; comments and extra blank spaces must -be removed, paragraphs must be recognized, and control sequences must be -found in the hash table. Furthermore there are occasions in which the -scanning routines have looked ahead for a word like `\.{plus}' but only -part of that word was found, hence a few characters must be put back -into the input and scanned again. - -To handle these situations, which might all be present simultaneously, -\TeX\ uses various stacks that hold information about the incomplete -activities, and there is a finite state control for each level of the -input mechanism. These stacks record the current state of an implicitly -recursive process, but the |get_next| procedure is not recursive. -Therefore it will not be difficult to translate these algorithms into -low-level languages that do not support recursion. - -@<Glob...@>= -static eight_bits @!cur_cmd; /*current command set by |get_next|*/ -static halfword @!cur_chr; /*operand of current command*/ -static pointer @!cur_cs; /*control sequence found here, zero if none found*/ -static halfword @!cur_tok; /*packed representative of |cur_cmd| and |cur_chr|*/ - -@ The |print_cmd_chr| routine prints a symbolic interpretation of a -command code and its modifier. This is used in certain `\.{You can\'t}' -error messages, and in the implementation of diagnostic routines like -\.{\\show}. - -The body of |print_cmd_chr| is a rather tedious listing of print -commands, and most of it is essentially an inverse to the |primitive| -routine that enters a \TeX\ primitive into |eqtb|. Therefore much of -this procedure appears elsewhere in the program, -together with the corresponding |primitive| calls. - -@d chr_cmd(A) {@+print(A);print_ASCII(chr_code); - } - -@<Declare the procedure called |print_cmd_chr|@>= -static void print_cmd_chr(quarterword @!cmd, halfword @!chr_code) -{@+int n; /*temp variable*/ -switch (cmd) { -case left_brace: chr_cmd("begin-group character ")@;@+break; -case right_brace: chr_cmd("end-group character ")@;@+break; -case math_shift: chr_cmd("math shift character ")@;@+break; -case mac_param: chr_cmd("macro parameter character ")@;@+break; -case sup_mark: chr_cmd("superscript character ")@;@+break; -case sub_mark: chr_cmd("subscript character ")@;@+break; -case endv: print("end of alignment template");@+break; -case spacer: chr_cmd("blank space ")@;@+break; -case letter: chr_cmd("the letter ")@;@+break; -case other_char: chr_cmd("the character ")@;@+break; -@t\4@>@<Cases of |print_cmd_chr| for symbolic printing of primitives@>@/ -default:print("[unknown command code!]"); -} -} - -@ Here is a procedure that displays the current command. - -@p static void show_cur_cmd_chr(void) -{@+int n; /*level of \.{\\if...\\fi} nesting*/ -int @!l; /*line where \.{\\if} started*/ -pointer @!p; -begin_diagnostic();print_nl("{"); -if (mode!=shown_mode) - {@+print_mode(mode);print(": ");shown_mode=mode; - } -print_cmd_chr(cur_cmd, cur_chr); -if (tracing_ifs > 0) - if (cur_cmd >= if_test) if (cur_cmd <= fi_or_else) - {@+print(": "); - if (cur_cmd==fi_or_else) - {@+print_cmd_chr(if_test, cur_if);print_char(' '); - n=0;l=if_line; - } - else{@+n=1;l=line; - } - p=cond_ptr; - while (p!=null) - {@+incr(n);p=link(p); - } - print("(level ");print_int(n);print_char(')');print_if_line(l); - } -print_char('}'); -end_diagnostic(false); -} - -@* Input stacks and states. -This implementation of -\TeX\ uses two different conventions for representing sequential stacks. -@^stack conventions@>@^conventions for representing stacks@> - -\yskip\hangg 1) If there is frequent access to the top entry, and if the -stack is essentially never empty, then the top entry is kept in a global -variable (even better would be a machine register), and the other entries -appear in the array $\\{stack}[0\to(\\{ptr}-1)]$. For example, the -semantic stack described above is handled this way, and so is the input -stack that we are about to study. - -\yskip\hangg 2) If there is infrequent top access, the entire stack contents -are in the array $\\{stack}[0\to(\\{ptr}-1)]$. For example, the |save_stack| -is treated this way, as we have seen. - -\yskip\noindent -The state of \TeX's input mechanism appears in the input stack, whose -entries are records with six fields, called |state|, |index|, |start|, |loc|, -|limit|, and |name|. This stack is maintained with -convention~(1), so it is declared in the following way: - -@<Types...@>= -typedef struct { - quarterword @!state_field, @!index_field; - halfword @!start_field, @!loc_field, @!limit_field, @!name_field; - } in_state_record; - -@ @<Glob...@>= -static in_state_record @!input_stack[stack_size+1]; -static int @!input_ptr; /*first unused location of |input_stack|*/ -static int @!max_in_stack; /*largest value of |input_ptr| when pushing*/ -static in_state_record @!cur_input; - /*the ``top'' input state, according to convention (1)*/ - -@ We've already defined the special variable |loc====cur_input.loc_field| -in our discussion of basic input-output routines. The other components of -|cur_input| are defined in the same way: - -@d state cur_input.state_field /*current scanner state*/ -@d index cur_input.index_field /*reference for buffer information*/ -@d start cur_input.start_field /*starting position in |buffer|*/ -@d limit cur_input.limit_field /*end of current line in |buffer|*/ -@d name cur_input.name_field /*name of the current file*/ - -@ Let's look more closely now at the control variables -(|state|,~|index|,~|start|,~|loc|,~|limit|,~|name|), -assuming that \TeX\ is reading a line of characters that have been input -from some file or from the user's terminal. There is an array called -|buffer| that acts as a stack of all lines of characters that are -currently being read from files, including all lines on subsidiary -levels of the input stack that are not yet completed. \TeX\ will return to -the other lines when it is finished with the present input file. - -(Incidentally, on a machine with byte-oriented addressing, it might be -appropriate to combine |buffer| with the |str_pool| array, -letting the buffer entries grow downward from the top of the string pool -and checking that these two tables don't bump into each other.) - -The line we are currently working on begins in position |start| of the -buffer; the next character we are about to read is |buffer[loc]|; and -|limit| is the location of the last character present. If |loc > limit|, -the line has been completely read. Usually |buffer[limit]| is the -|end_line_char|, denoting the end of a line, but this is not -true if the current line is an insertion that was entered on the user's -terminal in response to an error message. - -The |name| variable is a string number that designates the name of -the current file, if we are reading a text file. It is zero if we -are reading from the terminal; it is |n+1| if we are reading from -input stream |n|, where |0 <= n <= 16|. (Input stream 16 stands for -an invalid stream number; in such cases the input is actually from -the terminal, under control of the procedure |read_toks|.) -Finally |18 <= name <= 19| indicates that we are reading a pseudo file -created by the \.{\\scantokens} command. - -The |state| variable has one of three values, when we are scanning such -files: -$$\baselineskip 15pt\vbox{\halign{#\hfil\cr -1) |state==mid_line| is the normal state.\cr -2) |state==skip_blanks| is like |mid_line|, but blanks are ignored.\cr -3) |state==new_line| is the state at the beginning of a line.\cr}}$$ -These state values are assigned numeric codes so that if we add the state -code to the next character's command code, we get distinct values. For -example, `|mid_line+spacer|' stands for the case that a blank -space character occurs in the middle of a line when it is not being -ignored; after this case is processed, the next value of |state| will -be |skip_blanks|. - -@d mid_line 1 /*|state| code when scanning a line of characters*/ -@d skip_blanks (2+max_char_code) /*|state| code when ignoring blanks*/ -@d new_line (3+max_char_code+max_char_code) /*|state| code at start of line*/ - -@ Additional information about the current line is available via the -|index| variable, which counts how many lines of characters are present -in the buffer below the current level. We have |index==0| when reading -from the terminal and prompting the user for each line; then if the user types, -e.g., `\.{\\input paper}', we will have |index==1| while reading -the file \.{paper.tex}. However, it does not follow that |index| is the -same as the input stack pointer, since many of the levels on the input -stack may come from token lists. For example, the instruction `\.{\\input -paper}' might occur in a token list. - -The global variable |in_open| is equal to the |index| -value of the highest non-token-list level. Thus, the number of partially read -lines in the buffer is |in_open+1|, and we have |in_open==index| -when we are not reading a token list. - -If we are not currently reading from the terminal, or from an input -stream, we are reading from the file variable |input_file[index]|. We use -the notation |terminal_input| as a convenient abbreviation for |name==0|, -and |cur_file| as an abbreviation for |input_file[index]|. - -The global variable |line| contains the line number in the topmost -open file, for use in error messages. If we are not reading from -the terminal, |line_stack[index]| holds the line number for the -enclosing level, so that |line| can be restored when the current -file has been read. Line numbers should never be negative, since the -negative of the current line number is used to identify the user's output -routine in the |mode_line| field of the semantic nest entries. - -If more information about the input state is needed, it can be -included in small arrays like those shown here. For example, -the current page or segment number in the input file might be -put into a variable |@!page|, maintained for enclosing levels in -`\ignorespaces|@!page_stack: array[1 dotdot max_in_open]int|\unskip' -by analogy with |line_stack|. -@^system dependencies@> - -@d terminal_input (name==0) /*are we reading from the terminal?*/ -@d cur_file input_file[index] /*the current |alpha_file| variable*/ - -@<Glob...@>= -static int @!in_open; /*the number of lines in the buffer, less one*/ -static int @!open_parens; /*the number of open text files*/ -static alpha_file @!input_file0[max_in_open], *const @!input_file = @!input_file0-1; -int @!line; /*current line number in the current source file*/ -static int @!line_stack0[max_in_open], *const @!line_stack = @!line_stack0-1; - -@ Users of \TeX\ sometimes forget to balance left and right braces properly, -and one of the ways \TeX\ tries to spot such errors is by considering an -input file as broken into subfiles by control sequences that -are declared to be \.{\\outer}. - -A variable called |scanner_status| tells \TeX\ whether or not to complain -when a subfile ends. This variable has six possible values: - -\yskip\hang|normal|, means that a subfile can safely end here without incident. - -\yskip\hang|skipping|, means that a subfile can safely end here, but not a file, -because we're reading past some conditional text that was not selected. - -\yskip\hang|defining|, means that a subfile shouldn't end now because a -macro is being defined. - -\yskip\hang|matching|, means that a subfile shouldn't end now because a -macro is being used and we are searching for the end of its arguments. - -\yskip\hang|aligning|, means that a subfile shouldn't end now because we are -not finished with the preamble of an \.{\\halign} or \.{\\valign}. - -\yskip\hang|absorbing|, means that a subfile shouldn't end now because we are -reading a balanced token list for \.{\\message}, \.{\\write}, etc. - -\yskip\noindent -If the |scanner_status| is not |normal|, the variable |warning_index| points -to the |eqtb| location for the relevant control sequence name to print -in an error message. - -@d skipping 1 /*|scanner_status| when passing conditional text*/ -@d defining 2 /*|scanner_status| when reading a macro definition*/ -@d matching 3 /*|scanner_status| when reading macro arguments*/ -@d aligning 4 /*|scanner_status| when reading an alignment preamble*/ -@d absorbing 5 /*|scanner_status| when reading a balanced text*/ - -@<Glob...@>= -static int @!scanner_status; /*can a subfile end now?*/ -static pointer @!warning_index; /*identifier relevant to non-|normal| scanner status*/ -static pointer @!def_ref; /*reference count of token list being defined*/ - -@ Here is a procedure that uses |scanner_status| to print a warning message -when a subfile has ended, and at certain other crucial times: - -@<Declare the procedure called |runaway|@>= -static void runaway(void) -{@+pointer p; /*head of runaway list*/ -if (scanner_status > skipping) - {@+print_nl("Runaway "); -@.Runaway...@> - switch (scanner_status) { - case defining: {@+print("definition");p=def_ref; - } @+break; - case matching: {@+print("argument");p=temp_head; - } @+break; - case aligning: {@+print("preamble");p=hold_head; - } @+break; - case absorbing: {@+print("text");p=def_ref; - } - } /*there are no other cases*/ - print_char('?');print_ln();show_token_list(link(p), null, error_line-10); - } -} - -@ However, all this discussion about input state really applies only to the -case that we are inputting from a file. There is another important case, -namely when we are currently getting input from a token list. In this case -|state==token_list|, and the conventions about the other state variables -are different: - -\yskip\hang|loc| is a pointer to the current node in the token list, i.e., -the node that will be read next. If |loc==null|, the token list has been -fully read. - -\yskip\hang|start| points to the first node of the token list; this node -may or may not contain a reference count, depending on the type of token -list involved. - -\yskip\hang|token_type|, which takes the place of |index| in the -discussion above, is a code number that explains what kind of token list -is being scanned. - -\yskip\hang|name| points to the |eqtb| address of the control sequence -being expanded, if the current token list is a macro. - -\yskip\hang|param_start|, which takes the place of |limit|, tells where -the parameters of the current macro begin in the |param_stack|, if the -current token list is a macro. - -\yskip\noindent The |token_type| can take several values, depending on -where the current token list came from: - -\yskip\hang|parameter|, if a parameter is being scanned; - -\hang|u_template|, if the \<u_j> part of an alignment -template is being scanned; - -\hang|v_template|, if the \<v_j> part of an alignment -template is being scanned; - -\hang|backed_up|, if the token list being scanned has been inserted as -`to be read again'; - -\hang|inserted|, if the token list being scanned has been inserted as -the text expansion of a \.{\\count} or similar variable; - -\hang|macro|, if a user-defined control sequence is being scanned; - -\hang|output_text|, if an \.{\\output} routine is being scanned; - -\hang|every_par_text|, if the text of \.{\\everypar} is being scanned; - -\hang|every_math_text|, if the text of \.{\\everymath} is being scanned; - -\hang|every_display_text|, if the text of \.{\\everydisplay} is being scanned; - -\hang|every_hbox_text|, if the text of \.{\\everyhbox} is being scanned; - -\hang|every_vbox_text|, if the text of \.{\\everyvbox} is being scanned; - -\hang|every_job_text|, if the text of \.{\\everyjob} is being scanned; - -\hang|every_cr_text|, if the text of \.{\\everycr} is being scanned; - -\hang|mark_text|, if the text of a \.{\\mark} is being scanned; - -\hang|write_text|, if the text of a \.{\\write} is being scanned. - -\yskip\noindent -The codes for |output_text|, |every_par_text|, etc., are equal to a constant -plus the corresponding codes for token list parameters |output_routine_loc|, -|every_par_loc|, etc. The token list begins with a reference count if and -only if |token_type >= macro|. -@^reference counts@> - -Since \eTeX's additional token list parameters precede |toks_base|, the -corresponding token types must precede |write_text|. - -@d token_list 0 /*|state| code when scanning a token list*/ -@d token_type index /*type of current token list*/ -@d param_start limit /*base of macro parameters in |param_stack|*/ -@d parameter 0 /*|token_type| code for parameter*/ -@d u_template 1 /*|token_type| code for \<u_j> template*/ -@d v_template 2 /*|token_type| code for \<v_j> template*/ -@d backed_up 3 /*|token_type| code for text to be reread*/ -@d inserted 4 /*|token_type| code for inserted texts*/ -@d macro 5 /*|token_type| code for defined control sequences*/ -@d output_text 6 /*|token_type| code for output routines*/ -@d every_par_text 7 /*|token_type| code for \.{\\everypar}*/ -@d every_math_text 8 /*|token_type| code for \.{\\everymath}*/ -@d every_display_text 9 /*|token_type| code for \.{\\everydisplay}*/ -@d every_hbox_text 10 /*|token_type| code for \.{\\everyhbox}*/ -@d every_vbox_text 11 /*|token_type| code for \.{\\everyvbox}*/ -@d every_job_text 12 /*|token_type| code for \.{\\everyjob}*/ -@d every_cr_text 13 /*|token_type| code for \.{\\everycr}*/ -@d mark_text 14 /*|token_type| code for \.{\\topmark}, etc.*/ -@# -@d eTeX_text_offset (output_routine_loc-output_text) -@d every_eof_text (every_eof_loc-eTeX_text_offset) - /*|token_type| code for \.{\\everyeof}*/ -@# -@d write_text (toks_base-eTeX_text_offset) /*|token_type| code for \.{\\write}*/ - -@ The |param_stack| is an auxiliary array used to hold pointers to the token -lists for parameters at the current level and subsidiary levels of input. -This stack is maintained with convention (2), and it grows at a different -rate from the others. - -@<Glob...@>= -static pointer @!param_stack[param_size+1]; - /*token list pointers for parameters*/ -static int @!param_ptr; /*first unused entry in |param_stack|*/ -static int @!max_param_stack; - /*largest value of |param_ptr|, will be | <= param_size+9|*/ - -@ The input routines must also interact with the processing of -\.{\\halign} and \.{\\valign}, since the appearance of tab marks and -\.{\\cr} in certain places is supposed to trigger the beginning of special -\<v_j> template text in the scanner. This magic is accomplished by an -|align_state| variable that is increased by~1 when a `\.{\char'173}' is -scanned and decreased by~1 when a `\.{\char'175}' is scanned. The |align_state| -is nonzero during the \<u_j> template, after which it is set to zero; the -\<v_j> template begins when a tab mark or \.{\\cr} occurs at a time that -|align_state==0|. - -@<Glob...@>= -static int @!align_state; /*group level with respect to current alignment*/ - -@ Thus, the ``current input state'' can be very complicated indeed; there -can be many levels and each level can arise in a variety of ways. The -|show_context| procedure, which is used by \TeX's error-reporting routine to -print out the current input state on all levels down to the most recent -line of characters from an input file, illustrates most of these conventions. -The global variable |base_ptr| contains the lowest level that was -displayed by this procedure. - -@<Glob...@>= -static int @!base_ptr; /*shallowest level shown by |show_context|*/ - -@ The status at each level is indicated by printing two lines, where the first -line indicates what was read so far and the second line shows what remains -to be read. The context is cropped, if necessary, so that the first line -contains at most |half_error_line| characters, and the second contains -at most |error_line|. Non-current input levels whose |token_type| is -`|backed_up|' are shown only if they have not been fully read. - -@p static void show_context(void) /*prints where the scanner is*/ -{@+ -int old_setting; /*saved |selector| setting*/ -int @!nn; /*number of contexts shown so far, less one*/ -bool @!bottom_line; /*have we reached the final context to be shown?*/ -@<Local variables for formatting calculations@>@/ -base_ptr=input_ptr;input_stack[base_ptr]=cur_input; - /*store current state*/ -nn=-1;bottom_line=false; -loop@+{@+cur_input=input_stack[base_ptr]; /*enter into the context*/ - if ((state!=token_list)) - if ((name > 19)||(base_ptr==0)) bottom_line=true; - if ((base_ptr==input_ptr)||bottom_line||(nn < error_context_lines)) - @<Display the current context@>@; - else if (nn==error_context_lines) - {@+print_nl("...");incr(nn); /*omitted if |error_context_lines < 0|*/ - } - if (bottom_line) goto done; - decr(base_ptr); - } -done: cur_input=input_stack[input_ptr]; /*restore original state*/ -} - -@ @<Display the current context@>= -{@+if ((base_ptr==input_ptr)||(state!=token_list)|| - (token_type!=backed_up)||(loc!=null)) - /*we omit backed-up token lists that have already been read*/ - {@+tally=0; /*get ready to count characters*/ - old_setting=selector; - if (state!=token_list) - {@+@<Print location of current line@>; - @<Pseudoprint the line@>; - } - else{@+@<Print type of token list@>; - @<Pseudoprint the token list@>; - } - selector=old_setting; /*stop pseudoprinting*/ - @<Print two lines using the tricky pseudoprinted information@>; - incr(nn); - } -} - -@ This routine should be changed, if necessary, to give the best possible -indication of where the current line resides in the input file. -For example, on some systems it is best to print both a page and line number. -@^system dependencies@> - -@<Print location of current line@>= -if (name <= 17) - if (terminal_input) - if (base_ptr==0) print_nl("<*>");else print_nl("<insert> "); - else{@+print_nl("<read "); - if (name==17) print_char('*');@+else print_int(name-1); -@.*\relax@> - print_char('>'); - } -else{@+print_nl("l."); - if (index==in_open) print_int(line); - else print_int(line_stack[index+1]); /*input from a pseudo file*/ - } -print_char(' ') - -@ @<Print type of token list@>= -switch (token_type) { -case parameter: print_nl("<argument> ");@+break; -case u_template: case v_template: print_nl("<template> ");@+break; -case backed_up: if (loc==null) print_nl("<recently read> "); - else print_nl("<to be read again> ");@+break; -case inserted: print_nl("<inserted text> ");@+break; -case macro: {@+print_ln();print_cs(name); - } @+break; -case output_text: print_nl("<output> ");@+break; -case every_par_text: print_nl("<everypar> ");@+break; -case every_math_text: print_nl("<everymath> ");@+break; -case every_display_text: print_nl("<everydisplay> ");@+break; -case every_hbox_text: print_nl("<everyhbox> ");@+break; -case every_vbox_text: print_nl("<everyvbox> ");@+break; -case every_job_text: print_nl("<everyjob> ");@+break; -case every_cr_text: print_nl("<everycr> ");@+break; -case mark_text: print_nl("<mark> ");@+break; -case every_eof_text: print_nl("<everyeof> ");@+break; -case write_text: print_nl("<write> ");@+break; -default:print_nl("?"); /*this should never happen*/ -} - -@ Here it is necessary to explain a little trick. We don't want to store a long -string that corresponds to a token list, because that string might take up -lots of memory; and we are printing during a time when an error message is -being given, so we dare not do anything that might overflow one of \TeX's -tables. So `pseudoprinting' is the answer: We enter a mode of printing -that stores characters into a buffer of length |error_line|, where character -$k+1$ is placed into \hbox{|trick_buf[k%error_line]|} if -|k < trick_count|, otherwise character |k| is dropped. Initially we set -|tally=0| and |trick_count=1000000|; then when we reach the -point where transition from line 1 to line 2 should occur, we -set |first_count=tally| and |trick_count=@tmax@>(error_line, -tally+1+error_line-half_error_line)|. At the end of the -pseudoprinting, the values of |first_count|, |tally|, and -|trick_count| give us all the information we need to print the two lines, -and all of the necessary text is in |trick_buf|. - -Namely, let |l| be the length of the descriptive information that appears -on the first line. The length of the context information gathered for that -line is |k==first_count|, and the length of the context information -gathered for line~2 is $m=\min(|tally|, |trick_count|)-k$. If |l+k <= h|, -where |h==half_error_line|, we print |trick_buf[0 dotdot k-1]| after the -descriptive information on line~1, and set |n=l+k|; here |n| is the -length of line~1. If $l+k>h$, some cropping is necessary, so we set |n=h| -and print `\.{...}' followed by -$$\hbox{|trick_buf[(l+k-h+3)dotdot k-1]|,}$$ -where subscripts of |trick_buf| are circular modulo |error_line|. The -second line consists of |n|~spaces followed by |trick_buf[k dotdot(k+m-1)]|, -unless |n+m > error_line|; in the latter case, further cropping is done. -This is easier to program than to explain. - -@<Local variables for formatting...@>= -int @!i; /*index into |buffer|*/ -int @!j; /*end of current line in |buffer|*/ -int @!l; /*length of descriptive information on line 1*/ -int @!m; /*context information gathered for line 2*/ -int @!n; /*length of line 1*/ -int @!p; /*starting or ending place in |trick_buf|*/ -int @!q; /*temporary index*/ - -@ The following code sets up the print routines so that they will gather -the desired information. - -@d begin_pseudoprint - {@+l=tally;tally=0;selector=pseudo; - trick_count=1000000; - } -@d set_trick_count - {@+first_count=tally; - trick_count=tally+1+error_line-half_error_line; - if (trick_count < error_line) trick_count=error_line; - } - -@ And the following code uses the information after it has been gathered. - -@<Print two lines using the tricky pseudoprinted information@>= -if (trick_count==1000000) set_trick_count; - /*|set_trick_count| must be performed*/ -if (tally < trick_count) m=tally-first_count; -else m=trick_count-first_count; /*context on line 2*/ -if (l+first_count <= half_error_line) - {@+p=0;n=l+first_count; - } -else{@+print("...");p=l+first_count-half_error_line+3; - n=half_error_line; - } -for (q=p; q<=first_count-1; q++) print_char(trick_buf[q%error_line]); -print_ln(); -for (q=1; q<=n; q++) print_char(' '); /*print |n| spaces to begin line~2*/ -if (m+n <= error_line) p=first_count+m;else p=first_count+(error_line-n-3); -for (q=first_count; q<=p-1; q++) print_char(trick_buf[q%error_line]); -if (m+n > error_line) print("...") - -@ But the trick is distracting us from our current goal, which is to -understand the input state. So let's concentrate on the data structures that -are being pseudoprinted as we finish up the |show_context| procedure. - -@<Pseudoprint the line@>= -begin_pseudoprint; -if (buffer[limit]==end_line_char) j=limit; -else j=limit+1; /*determine the effective end of the line*/ -if (j > 0) for (i=start; i<=j-1; i++) - {@+if (i==loc) set_trick_count; - printn(buffer[i]); - } - -@ @<Pseudoprint the token list@>= -begin_pseudoprint; -if (token_type < macro) show_token_list(start, loc, 100000); -else show_token_list(link(start), loc, 100000) /*avoid reference count*/ - -@ Here is the missing piece of |show_token_list| that is activated when the -token beginning line~2 is about to be shown: - -@<Do magic computation@>=set_trick_count - -@* Maintaining the input stacks. -The following subroutines change the input status in commonly needed ways. - -First comes |push_input|, which stores the current state and creates a -new level (having, initially, the same properties as the old). - -@d push_input @t@> /*enter a new input level, save the old*/ - {@+if (input_ptr > max_in_stack) - {@+max_in_stack=input_ptr; - if (input_ptr==stack_size) overflow("input stack size", stack_size); -@:TeX capacity exceeded input stack size}{\quad input stack size@> - } - input_stack[input_ptr]=cur_input; /*stack the record*/ - incr(input_ptr); - } - -@ And of course what goes up must come down. - -@d pop_input @t@> /*leave an input level, re-enter the old*/ - {@+decr(input_ptr);cur_input=input_stack[input_ptr]; - } - -@ Here is a procedure that starts a new level of token-list input, given -a token list |p| and its type |t|. If |t==macro|, the calling routine should -set |name| and |loc|. - -@d back_list(A) begin_token_list(A, backed_up) /*backs up a simple token list*/ -@d ins_list(A) begin_token_list(A, inserted) /*inserts a simple token list*/ - -@p void begin_token_list(pointer @!p, quarterword @!t) -{@+push_input;state=token_list;start=p;token_type=t; -if (t >= macro) /*the token list starts with a reference count*/ - {@+add_token_ref(p); - if (t==macro) param_start=param_ptr; - else{@+loc=link(p); - if (tracing_macros > 1) - {@+begin_diagnostic();print_nl(""); - switch (t) { - case mark_text: print_esc("mark");@+break; - case write_text: print_esc("write");@+break; - default:print_cmd_chr(assign_toks, t-output_text+output_routine_loc); - } @/ - print("->");token_show(p);end_diagnostic(false); - } - } - } -else loc=p; -} - -@ When a token list has been fully scanned, the following computations -should be done as we leave that level of input. The |token_type| tends -to be equal to either |backed_up| or |inserted| about 2/3 of the time. -@^inner loop@> - -@p static void end_token_list(void) /*leave a token-list input level*/ -{@+if (token_type >= backed_up) /*token list to be deleted*/ - {@+if (token_type <= inserted) flush_list(start); - else{@+delete_token_ref(start); /*update reference count*/ - if (token_type==macro) /*parameters must be flushed*/ - while (param_ptr > param_start) - {@+decr(param_ptr); - flush_list(param_stack[param_ptr]); - } - } - } -else if (token_type==u_template) - if (align_state > 500000) align_state=0; - else fatal_error("(interwoven alignment preambles are not allowed)"); -@.interwoven alignment preambles...@> -pop_input; -check_interrupt; -} - -@ Sometimes \TeX\ has read too far and wants to ``unscan'' what it has -seen. The |back_input| procedure takes care of this by putting the token -just scanned back into the input stream, ready to be read again. This -procedure can be used only if |cur_tok| represents the token to be -replaced. Some applications of \TeX\ use this procedure a lot, -so it has been slightly optimized for speed. -@^inner loop@> - -@p static void back_input(void) /*undoes one token of input*/ -{@+pointer p; /*a token list of length one*/ -while ((state==token_list)&&(loc==null)&&(token_type!=v_template)) - end_token_list(); /*conserve stack space*/ -p=get_avail();info(p)=cur_tok; -if (cur_tok < right_brace_limit) - if (cur_tok < left_brace_limit) decr(align_state); - else incr(align_state); -push_input;state=token_list;start=p;token_type=backed_up; -loc=p; /*that was |back_list(p)|, without procedure overhead*/ -} - -@ @<Insert token |p| into \TeX's input@>= -{@+t=cur_tok;cur_tok=p; -if (a) - {@+p=get_avail();info(p)=cur_tok;link(p)=loc;loc=p;start=p; - if (cur_tok < right_brace_limit) - if (cur_tok < left_brace_limit) decr(align_state); - else incr(align_state); - } -else{@+back_input();a=eTeX_ex; - } -cur_tok=t; -} - -@ The |back_error| routine is used when we want to replace an offending token -just before issuing an error message. This routine, like |back_input|, -requires that |cur_tok| has been set. We disable interrupts during the -call of |back_input| so that the help message won't be lost. - -@p static void back_error(void) /*back up one token and call |error|*/ -{@+OK_to_interrupt=false;back_input();OK_to_interrupt=true;error(); -} -@# -static void ins_error(void) /*back up one inserted token and call |error|*/ -{@+OK_to_interrupt=false;back_input();token_type=inserted; -OK_to_interrupt=true;error(); -} - -@ The |begin_file_reading| procedure starts a new level of input for lines -of characters to be read from a file, or as an insertion from the -terminal. It does not take care of opening the file, nor does it set |loc| -or |limit| or |line|. -@^system dependencies@> - -@p static void begin_file_reading(void) -{@+if (in_open==max_in_open) overflow("text input levels", max_in_open); -@:TeX capacity exceeded text input levels}{\quad text input levels@> -if (first==buf_size) overflow("buffer size", buf_size); -@:TeX capacity exceeded buffer size}{\quad buffer size@> -incr(in_open);push_input;index=in_open;@/ -source_filename_stack[index]=0; /* k\TeX\ */ -eof_seen[index]=false; -grp_stack[index]=cur_boundary;if_stack[index]=cond_ptr; -line_stack[index]=line;start=first;state=mid_line; -name=0; /*|terminal_input| is now |true|*/ -} - -@ Conversely, the variables must be downdated when such a level of input -is finished: - -@p static void end_file_reading(void) -{@+first=start;line=line_stack[index]; -if ((name==18)||(name==19)) pseudo_close();else -if (name > 17) a_close(&cur_file); /*forget it*/ -pop_input;decr(in_open); -} - -@ In order to keep the stack from overflowing during a long sequence of -inserted `\.{\\show}' commands, the following routine removes completed -error-inserted lines from memory. - -@p static void clear_for_error_prompt(void) -{@+while ((state!=token_list)&&terminal_input&&@| - (input_ptr > 0)&&(loc > limit)) end_file_reading(); -print_ln();clear_terminal; -} - -@ To get \TeX's whole input mechanism going, we perform the following -actions. - -@<Initialize the input routines@>= -{@+input_ptr=0;max_in_stack=0; -in_open=0;open_parens=0;max_buf_stack=0; -grp_stack[0]=0;if_stack[0]=null; -param_ptr=0;max_param_stack=0; -first=buf_size;@/do@+{buffer[first]=0;decr(first);}@+ while (!(first==0)); -scanner_status=normal;warning_index=null;first=1; -state=new_line;start=1;index=0;line=0;name=0; -force_eof=false; -align_state=1000000;@/ -if (!init_terminal()) exit(0); -limit=last;first=last+1; /*|init_terminal| has set |loc| and |last|*/ -} - -@* Getting the next token. -The heart of \TeX's input mechanism is the |get_next| procedure, which -we shall develop in the next few sections of the program. Perhaps we -shouldn't actually call it the ``heart,'' however, because it really acts -as \TeX's eyes and mouth, reading the source files and gobbling them up. -And it also helps \TeX\ to regurgitate stored token lists that are to be -processed again. -@^eyes and mouth@> - -The main duty of |get_next| is to input one token and to set |cur_cmd| -and |cur_chr| to that token's command code and modifier. Furthermore, if -the input token is a control sequence, the |eqtb| location of that control -sequence is stored in |cur_cs|; otherwise |cur_cs| is set to zero. - -Underlying this simple description is a certain amount of complexity -because of all the cases that need to be handled. -However, the inner loop of |get_next| is reasonably short and fast. - -When |get_next| is asked to get the next token of a \.{\\read} line, -it sets |cur_cmd==cur_chr==cur_cs==0| in the case that no more tokens -appear on that line. (There might not be any tokens at all, if the -|end_line_char| has |ignore| as its catcode.) - -@ The value of |par_loc| is the |eqtb| address of `\.{\\par}'. This quantity -is needed because a blank line of input is supposed to be exactly equivalent -to the appearance of \.{\\par}; we must set |cur_cs=par_loc| -when detecting a blank line. - -@<Glob...@>= -static pointer @!par_loc; /*location of `\.{\\par}' in |eqtb|*/ -static halfword @!par_token; /*token representing `\.{\\par}'*/ - -@ @<Put each...@>= -primitive("par", par_end, 256); /*cf.\ |scan_file_name|*/ -@!@:par\_}{\.{\\par} primitive@> -par_loc=cur_val;par_token=cs_token_flag+par_loc; - -@ @<Cases of |print_cmd_chr|...@>= -case par_end: print_esc("par");@+break; - -@ Before getting into |get_next|, let's consider the subroutine that -is called when an `\.{\\outer}' control sequence has been scanned or -when the end of a file has been reached. These two cases are distinguished -by |cur_cs|, which is zero at the end of a file. - -@p static void check_outer_validity(void) -{@+pointer p; /*points to inserted token list*/ -pointer @!q; /*auxiliary pointer*/ -if (scanner_status!=normal) - {@+deletions_allowed=false; - @<Back up an outer control sequence so that it can be reread@>; - if (scanner_status > skipping) - @<Tell the user what has run away and try to recover@>@; - else{@+print_err("Incomplete ");print_cmd_chr(if_test, cur_if); -@.Incomplete \\if...@> - print("; all text was ignored after line ");print_int(skip_line); - help3("A forbidden control sequence occurred in skipped text.",@/ - "This kind of error happens when you say `\\if...' and forget",@/ - "the matching `\\fi'. I've inserted a `\\fi'; this might work."); - if (cur_cs!=0) cur_cs=0; - else help_line[2]=@| - "The file ended while I was skipping conditional text."; - cur_tok=cs_token_flag+frozen_fi;ins_error(); - } - deletions_allowed=true; - } -} - -@ An outer control sequence that occurs in a \.{\\read} will not be reread, -since the error recovery for \.{\\read} is not very powerful. - -@<Back up an outer control sequence so that it can be reread@>= -if (cur_cs!=0) - {@+if ((state==token_list)||(name < 1)||(name > 17)) - {@+p=get_avail();info(p)=cs_token_flag+cur_cs; - back_list(p); /*prepare to read the control sequence again*/ - } - cur_cmd=spacer;cur_chr=' '; /*replace it by a space*/ - } - -@ @<Tell the user what has run away...@>= -{@+runaway(); /*print a definition, argument, or preamble*/ -if (cur_cs==0) print_err("File ended"); -@.File ended while scanning...@> -else{@+cur_cs=0;print_err("Forbidden control sequence found"); -@.Forbidden control sequence...@> - } -print(" while scanning "); -@<Print either `\.{definition}' or `\.{use}' or `\.{preamble}' or `\.{text}', and -insert tokens that should lead to recovery@>; -print(" of ");sprint_cs(warning_index); -help4("I suspect you have forgotten a `}', causing me",@/ -"to read past where you wanted me to stop.",@/ -"I'll try to recover; but if the error is serious,",@/ -"you'd better type `E' or `X' now and fix your file.");@/ -error(); -} - -@ The recovery procedure can't be fully understood without knowing more -about the \TeX\ routines that should be aborted, but we can sketch the -ideas here: For a runaway definition or a runaway balanced text -we will insert a right brace; for a -runaway preamble, we will insert a special \.{\\cr} token and a right -brace; and for a runaway argument, we will set |long_state| to -|outer_call| and insert \.{\\par}. - -@<Print either `\.{definition}' or...@>= -p=get_avail(); -switch (scanner_status) { -case defining: {@+print("definition");info(p)=right_brace_token+'}'; - } @+break; -case matching: {@+print("use");info(p)=par_token;long_state=outer_call; - } @+break; -case aligning: {@+print("preamble");info(p)=right_brace_token+'}';q=p; - p=get_avail();link(p)=q;info(p)=cs_token_flag+frozen_cr; - align_state=-1000000; - } @+break; -case absorbing: {@+print("text");info(p)=right_brace_token+'}'; - } -} /*there are no other cases*/ -ins_list(p) - -@ We need to mention a procedure here that may be called by |get_next|. - -@p static void firm_up_the_line(void); - -@ Now we're ready to take the plunge into |get_next| itself. Parts of -this routine are executed more often than any other instructions of \TeX. -@^mastication@>@^inner loop@> - -@p static void get_next(void) /*sets |cur_cmd|, |cur_chr|, |cur_cs| to next token*/ -{@+ /*go here to get the next input token*/ - /*go here to eat the next character from a file*/ - /*go here to digest it again*/ - /*go here to start looking for a control sequence*/ - /*go here when a control sequence has been found*/ - /*go here when the next input token has been got*/ -int k; /*an index into |buffer|*/ -halfword @!t; /*a token*/ -int @!cat; /*|cat_code(cur_chr)|, usually*/ -ASCII_code @!c, @!cc; /*constituents of a possible expanded code*/ -int @!d; /*number of excess characters in an expanded code*/ -restart: cur_cs=0; -if (state!=token_list) -@<Input from external file, |goto restart| if no input found@>@; -else@<Input from token list, |goto restart| if end of list or if a parameter needs -to be expanded@>; -@<If an alignment entry has just ended, take appropriate action@>; -} - -@ An alignment entry ends when a tab or \.{\\cr} occurs, provided that the -current level of braces is the same as the level that was present at the -beginning of that alignment entry; i.e., provided that |align_state| has -returned to the value it had after the \<u_j> template for that entry. -@^inner loop@> - -@<If an alignment entry has just ended, take appropriate action@>= -if (cur_cmd <= car_ret) if (cur_cmd >= tab_mark) if (align_state==0) - @<Insert the \(v)\<v_j> template and |goto restart|@>@; - -@ @<Input from external file, |goto restart| if no input found@>= -@^inner loop@> -{@+get_cur_chr: if (loc <= limit) /*current line not yet finished*/ - {@+cur_chr=buffer[loc];incr(loc); - reswitch: cur_cmd=cat_code(cur_chr); - @<Change state if necessary, and |goto switch| if the current character should be -ignored, or |goto reswitch| if the current character changes to another@>; - } -else{@+state=new_line;@/ - @<Move to next line of file, or |goto restart| if there is no next line, or |return| -if a \.{\\read} line has finished@>; - check_interrupt; - goto get_cur_chr; - } -} - -@ The following 48-way switch accomplishes the scanning quickly, assuming -that a decent \PASCAL\ compiler has translated the code. Note that the numeric -values for |mid_line|, |skip_blanks|, and |new_line| are spaced -apart from each other by |max_char_code+1|, so we can add a character's -command code to the state to get a single number that characterizes both. - -@d any_state_plus(A) case mid_line+A: case skip_blanks+A: case new_line+A - -@<Change state if necessary...@>= -switch (state+cur_cmd) { -@<Cases where character is ignored@>: goto get_cur_chr; -any_state_plus(escape): @<Scan a control sequence and set |state:=skip_blanks| or -|mid_line|@>@;@+break; -any_state_plus(active_char): @<Process an active-character control sequence and set -|state:=mid_line|@>@;@+break; -any_state_plus(sup_mark): @<If this |sup_mark| starts an expanded character like~\.{\^\^A} -or~\.{\^\^df}, then |goto reswitch|, otherwise set |state:=mid_line|@>@;@+break; -any_state_plus(invalid_char): @<Decry the invalid character and |goto restart|@>@; -@t\4@>@<Handle situations involving spaces, braces, changes of state@>@; -default:do_nothing; -} - -@ @<Cases where character is ignored@>= -any_state_plus(ignore): case skip_blanks+spacer: case new_line+spacer - -@ We go to |restart| instead of to |get_cur_chr|, because |state| might equal -|token_list| after the error has been dealt with -(cf.\ |clear_for_error_prompt|). - -@<Decry the invalid...@>= -{@+print_err("Text line contains an invalid character"); -@.Text line contains...@> -help2("A funny symbol that I can't read has just been input.",@/ -"Continue, and I'll forget that it ever happened.");@/ -deletions_allowed=false;error();deletions_allowed=true; -goto restart; -} - -@ @d add_delims_to(A) A+math_shift: A+tab_mark: A+mac_param: - A+sub_mark: A+letter: A+other_char - -@<Handle situations involving spaces, braces, changes of state@>= -case mid_line+spacer: @<Enter |skip_blanks| state, emit a space@>@;@+break; -case mid_line+car_ret: @<Finish line, emit a space@>@;@+break; -case skip_blanks+car_ret: any_state_plus(comment): - @<Finish line, |goto switch|@>@; -case new_line+car_ret: @<Finish line, emit a \.{\\par}@>@;@+break; -case mid_line+left_brace: incr(align_state);@+break; -case skip_blanks+left_brace: case new_line+left_brace: {@+ - state=mid_line;incr(align_state); - } @+break; -case mid_line+right_brace: decr(align_state);@+break; -case skip_blanks+right_brace: case new_line+right_brace: {@+ - state=mid_line;decr(align_state); - } @+break; -add_delims_to(case skip_blanks): add_delims_to(case new_line): state=mid_line;@+break; - -@ When a character of type |spacer| gets through, its character code is -changed to $\.{"\ "}=040$. This means that the ASCII codes for tab and space, -and for the space inserted at the end of a line, will -be treated alike when macro parameters are being matched. We do this -since such characters are indistinguishable on most computer terminal displays. - -@<Finish line, emit a space@>= -{@+loc=limit+1;cur_cmd=spacer;cur_chr=' '; -} - -@ The following code is performed only when |cur_cmd==spacer|. - -@<Enter |skip_blanks| state, emit a space@>= -{@+state=skip_blanks;cur_chr=' '; -} - -@ @<Finish line, |goto switch|@>= -{@+loc=limit+1;goto get_cur_chr; -} - -@ @<Finish line, emit a \.{\\par}@>= -{@+loc=limit+1;cur_cs=par_loc;cur_cmd=eq_type(cur_cs); -cur_chr=equiv(cur_cs); -if (cur_cmd >= outer_call) check_outer_validity(); -} - -@ Notice that a code like \.{\^\^8} becomes \.x if not followed by a hex digit. - -@d is_hex(A) (((A >= '0')&&(A <= '9'))||((A >= 'a')&&(A <= 'f'))) -@d hex_to_cur_chr - if (c <= '9') cur_chr=c-'0';@+else cur_chr=c-'a'+10; - if (cc <= '9') cur_chr=16*cur_chr+cc-'0'; - else cur_chr=16*cur_chr+cc-'a'+10 - -@<If this |sup_mark| starts an expanded character...@>= -{@+if (cur_chr==buffer[loc]) if (loc < limit) - {@+c=buffer[loc+1];@+if (c < 0200) /*yes we have an expanded char*/ - {@+loc=loc+2; - if (is_hex(c)) if (loc <= limit) - {@+cc=buffer[loc];@+if (is_hex(cc)) - {@+incr(loc);hex_to_cur_chr;goto reswitch; - } - } - if (c < 0100) cur_chr=c+0100;@+else cur_chr=c-0100; - goto reswitch; - } - } -state=mid_line; -} - -@ @<Process an active-character...@>= -{@+cur_cs=cur_chr+active_base; -cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs);state=mid_line; -if (cur_cmd >= outer_call) check_outer_validity(); -} - -@ Control sequence names are scanned only when they appear in some line of -a file; once they have been scanned the first time, their |eqtb| location -serves as a unique identification, so \TeX\ doesn't need to refer to the -original name any more except when it prints the equivalent in symbolic form. - -The program that scans a control sequence has been written carefully -in order to avoid the blowups that might otherwise occur if a malicious -user tried something like `\.{\\catcode\'15=0}'. The algorithm might -look at |buffer[limit+1]|, but it never looks at |buffer[limit+2]|. - -If expanded characters like `\.{\^\^A}' or `\.{\^\^df}' -appear in or just following -a control sequence name, they are converted to single characters in the -buffer and the process is repeated, slowly but surely. - -@<Scan a control...@>= -{@+if (loc > limit) cur_cs=null_cs; /*|state| is irrelevant in this case*/ -else{@+start_cs: k=loc;cur_chr=buffer[k];cat=cat_code(cur_chr); - incr(k); - if (cat==letter) state=skip_blanks; - else if (cat==spacer) state=skip_blanks; - else state=mid_line; - if ((cat==letter)&&(k <= limit)) - @<Scan ahead in the buffer until finding a nonletter; if an expanded code is encountered, -reduce it and |goto start_cs|; otherwise if a multiletter control sequence is found, -adjust |cur_cs| and |loc|, and |goto found|@>@; - else@<If an expanded code is present, reduce it and |goto start_cs|@>; - cur_cs=single_base+buffer[loc];incr(loc); - } -found: cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); -if (cur_cmd >= outer_call) check_outer_validity(); -} - -@ Whenever we reach the following piece of code, we will have -|cur_chr==buffer[k-1]| and |k <= limit+1| and |cat==cat_code(cur_chr)|. If an -expanded code like \.{\^\^A} or \.{\^\^df} appears in |buffer[(k-1)dotdot(k+1)]| -or |buffer[(k-1)dotdot(k+2)]|, we -will store the corresponding code in |buffer[k-1]| and shift the rest of -the buffer left two or three places. - -@<If an expanded...@>= -{@+if (buffer[k]==cur_chr) @+if (cat==sup_mark) @+if (k < limit) - {@+c=buffer[k+1];@+if (c < 0200) /*yes, one is indeed present*/ - {@+d=2; - if (is_hex(c)) @+if (k+2 <= limit) - {@+cc=buffer[k+2];@+if (is_hex(cc)) incr(d); - } - if (d > 2) - {@+hex_to_cur_chr;buffer[k-1]=cur_chr; - } - else if (c < 0100) buffer[k-1]=c+0100; - else buffer[k-1]=c-0100; - limit=limit-d;first=first-d; - while (k <= limit) - {@+buffer[k]=buffer[k+d];incr(k); - } - goto start_cs; - } - } -} - -@ @<Scan ahead in the buffer...@>= -{@+@/do@+{cur_chr=buffer[k];cat=cat_code(cur_chr);incr(k); -}@+ while (!((cat!=letter)||(k > limit))); -@<If an expanded...@>; -if (cat!=letter) decr(k); - /*now |k| points to first nonletter*/ -if (k > loc+1) /*multiletter control sequence has been scanned*/ - {@+cur_cs=id_lookup(loc, k-loc);loc=k;goto found; - } -} - -@ Let's consider now what happens when |get_next| is looking at a token list. - -@<Input from token list, |goto restart| if end of list or if a parameter needs to -be expanded@>= -if (loc!=null) /*list not exhausted*/ -@^inner loop@> - {@+t=info(loc);loc=link(loc); /*move to next*/ - if (t >= cs_token_flag) /*a control sequence token*/ - {@+cur_cs=t-cs_token_flag; - cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); - if (cur_cmd >= outer_call) - if (cur_cmd==dont_expand) - @<Get the next token, suppressing expansion@>@; - else check_outer_validity(); - } - else{@+cur_cmd=t/0400;cur_chr=t%0400; - switch (cur_cmd) { - case left_brace: incr(align_state);@+break; - case right_brace: decr(align_state);@+break; - case out_param: @<Insert macro parameter and |goto restart|@>@; - default:do_nothing; - } - } - } -else{@+ /*we are done with this token list*/ - end_token_list();goto restart; /*resume previous level*/ - } - -@ The present point in the program is reached only when the |expand| -routine has inserted a special marker into the input. In this special -case, |info(loc)| is known to be a control sequence token, and |link(loc)==null|. - -@d no_expand_flag 257 /*this characterizes a special variant of |relax|*/ - -@<Get the next token, suppressing expansion@>= -{@+cur_cs=info(loc)-cs_token_flag;loc=null;@/ -cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); -if (cur_cmd > max_command) - {@+cur_cmd=relax;cur_chr=no_expand_flag; - } -} - -@ @<Insert macro parameter...@>= -{@+begin_token_list(param_stack[param_start+cur_chr-1], parameter); -goto restart; -} - -@ All of the easy branches of |get_next| have now been taken care of. -There is one more branch. - -@d end_line_char_inactive (end_line_char < 0)||(end_line_char > 255) - -@<Move to next line of file, or |goto restart|...@>= -if (name > 17) @<Read next line of file into |buffer|, or |goto restart| if the file -has ended@>@; -else{@+if (!terminal_input) /*\.{\\read} line has ended*/ - {@+cur_cmd=0;cur_chr=0;return; - } - if (input_ptr > 0) /*text was inserted during error recovery*/ - {@+end_file_reading();goto restart; /*resume previous level*/ - } - if (selector < log_only) open_log_file(); - if (interaction > nonstop_mode) - {@+if (end_line_char_inactive) incr(limit); - if (limit==start) /*previous line was empty*/ - print_nl("(Please type a command or say `\\end')"); -@.Please type...@> - print_ln();first=start; - prompt_input("*"); /*input on-line into |buffer|*/ -@.*\relax@> - limit=last; - if (end_line_char_inactive) decr(limit); - else buffer[limit]=end_line_char; - first=limit+1; - loc=start; - } - else fatal_error("*** (job aborted, no legal \\end found)"); -@.job aborted@> - /*nonstop mode, which is intended for overnight batch processing, - never waits for on-line input*/ - } - -@ The global variable |force_eof| is normally |false|; it is set |true| -by an \.{\\endinput} command. - -@<Glob...@>= -static bool @!force_eof; /*should the next \.{\\input} be aborted early?*/ - -@ @<Read next line of file into |buffer|, or |goto restart| if the file has ended@>= -{@+incr(line);first=start; -if (!force_eof) - if (name <= 19) - {@+if (pseudo_input()) /*not end of file*/ - firm_up_the_line(); /*this sets |limit|*/ - else if ((every_eof!=null)&&!eof_seen[index]) - {@+limit=first-1;eof_seen[index]=true; /*fake one empty line*/ - begin_token_list(every_eof, every_eof_text);goto restart; - } - else force_eof=true; - } - else - {@+if (input_ln(&cur_file, true)) /*not end of file*/ - firm_up_the_line(); /*this sets |limit|*/ - else if ((every_eof!=null)&&!eof_seen[index]) - {@+limit=first-1;eof_seen[index]=true; /*fake one empty line*/ - begin_token_list(every_eof, every_eof_text);goto restart; - } - else force_eof=true; - } -if (force_eof) - {@+if (tracing_nesting > 0) - if ((grp_stack[in_open]!=cur_boundary)||@| - (if_stack[in_open]!=cond_ptr)) file_warning(); - /*give warning for some unfinished groups and/or conditionals*/ - if (name >= 19) - {@+print_char(')');decr(open_parens); - update_terminal; /*show user that file has been read*/ - } - force_eof=false; - end_file_reading(); /*resume previous level*/ - check_outer_validity();goto restart; - } -if (end_line_char_inactive) decr(limit); -else buffer[limit]=end_line_char; -first=limit+1;loc=start; /*ready to read*/ -} - -@ If the user has set the |pausing| parameter to some positive value, -and if nonstop mode has not been selected, each line of input is displayed -on the terminal and the transcript file, followed by `\.{=>}'. -\TeX\ waits for a response. If the response is simply |carriage_return|, the -line is accepted as it stands, otherwise the line typed is -used instead of the line in the file. - -@p static void firm_up_the_line(void) -{@+int k; /*an index into |buffer|*/ -limit=last; -if (pausing > 0) if (interaction > nonstop_mode) - {@+wake_up_terminal;print_ln(); - if (start < limit) for (k=start; k<=limit-1; k++) printn(buffer[k]); - first=limit;prompt_input("=>"); /*wait for user response*/ -@.=>@> - if (last > first) - {@+for (k=first; k<=last-1; k++) /*move line down in buffer*/ - buffer[k+start-first]=buffer[k]; - limit=start+last-first; - } - } -} - -@ Since |get_next| is used so frequently in \TeX, it is convenient -to define three related procedures that do a little more: - -\yskip\hang|get_token| not only sets |cur_cmd| and |cur_chr|, it -also sets |cur_tok|, a packed halfword version of the current token. - -\yskip\hang|get_x_token|, meaning ``get an expanded token,'' is like -|get_token|, but if the current token turns out to be a user-defined -control sequence (i.e., a macro call), or a conditional, -or something like \.{\\topmark} or \.{\\expandafter} or \.{\\csname}, -it is eliminated from the input by beginning the expansion of the macro -or the evaluation of the conditional. - -\yskip\hang|x_token| is like |get_x_token| except that it assumes that -|get_next| has already been called. - -\yskip\noindent -In fact, these three procedures account for almost every use of |get_next|. - -@ No new control sequences will be defined except during a call of -|get_token|, or when \.{\\csname} compresses a token list, because -|no_new_control_sequence| is always |true| at other times. - -@p static void get_token(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|*/ -{@+no_new_control_sequence=false;get_next();no_new_control_sequence=true; -@^inner loop@> -if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; -else cur_tok=cs_token_flag+cur_cs; -} - -@* Expanding the next token. -Only a dozen or so command codes | > max_command| can possibly be returned by -|get_next|; in increasing order, they are |undefined_cs|, |expand_after|, -|no_expand|, |input|, |if_test|, |fi_or_else|, |cs_name|, |convert|, |the|, -|top_bot_mark|, |call|, |long_call|, |outer_call|, |long_outer_call|, and -|end_template|.{\emergencystretch=40pt\par} - -The |expand| subroutine is used when |cur_cmd > max_command|. It removes a -``call'' or a conditional or one of the other special operations just -listed. It follows that |expand| might invoke itself recursively. In all -cases, |expand| destroys the current token, but it sets things up so that -the next |get_next| will deliver the appropriate next token. The value of -|cur_tok| need not be known when |expand| is called. - -Since several of the basic scanning routines communicate via global variables, -their values are saved as local variables of |expand| so that -recursive calls don't invalidate them. -@^recursion@> - -@p @t\4@>@<Declare the procedure called |macro_call|@>@;@/ -@t\4@>@<Declare the procedure called |insert_relax|@>@;@/ -@t\4@>@<Declare \eTeX\ procedures for expanding@>@;@/ -static void pass_text(void); -static void start_input(void); -static void conditional(void); -static void get_x_token(void); -static void conv_toks(void); -static void ins_the_toks(void); -static void expand(void) -{@+ -halfword t; /*token that is being ``expanded after''*/ -pointer @!p, @!q, @!r; /*for list manipulation*/ -int @!j; /*index into |buffer|*/ -int @!cv_backup; /*to save the global quantity |cur_val|*/ -small_number @!cvl_backup, @!radix_backup, @!co_backup; - /*to save |cur_val_level|, etc.*/ -pointer @!backup_backup; /*to save |link(backup_head)|*/ -small_number @!save_scanner_status; /*temporary storage of |scanner_status|*/ -cv_backup=cur_val;cvl_backup=cur_val_level;radix_backup=radix; -co_backup=cur_order;backup_backup=link(backup_head); -reswitch: -if (cur_cmd < call) @<Expand a nonmacro@>@; -else if (cur_cmd < end_template) macro_call(); -else@<Insert a token containing |frozen_endv|@>; -cur_val=cv_backup;cur_val_level=cvl_backup;radix=radix_backup; -cur_order=co_backup;link(backup_head)=backup_backup; -} - -@ @<Expand a nonmacro@>= -{@+if (tracing_commands > 1) show_cur_cmd_chr(); -switch (cur_cmd) { -case top_bot_mark: @<Insert the \(a)appropriate mark text into the scanner@>@;@+break; -case expand_after: if (cur_chr==0) @<Expand the token after the next token@>@; - else@<Negate a boolean conditional and |goto reswitch|@>@;@+break; -case no_expand: @<Suppress expansion of the next token@>@;@+break; -case cs_name: @<Manufacture a control sequence name@>@;@+break; -case convert: conv_toks();@+break; /*this procedure is discussed in Part 27 below*/ -case the: ins_the_toks();@+break; /*this procedure is discussed in Part 27 below*/ -case if_test: conditional();@+break; /*this procedure is discussed in Part 28 below*/ -case fi_or_else: @<Terminate the current conditional and skip to \.{\\fi}@>@;@+break; -case input: @<Initiate or terminate input from a file@>;@+break; -default:@<Complain about an undefined macro@>@; -} -} - -@ It takes only a little shuffling to do what \TeX\ calls \.{\\expandafter}. - -@<Expand the token after...@>= -{@+get_token();t=cur_tok;get_token(); -if (cur_cmd > max_command) expand();@+else back_input(); -cur_tok=t;back_input(); -} - -@ The implementation of \.{\\noexpand} is a bit trickier, because it is -necessary to insert a special `|dont_expand|' marker into \TeX's reading -mechanism. This special marker is processed by |get_next|, but it does -not slow down the inner loop. - -Since \.{\\outer} macros might arise here, we must also -clear the |scanner_status| temporarily. - -@<Suppress expansion...@>= -{@+save_scanner_status=scanner_status;scanner_status=normal; -get_token();scanner_status=save_scanner_status;t=cur_tok; -back_input(); /*now |start| and |loc| point to the backed-up token |t|*/ -if (t >= cs_token_flag) - {@+p=get_avail();info(p)=cs_token_flag+frozen_dont_expand; - link(p)=loc;start=p;loc=p; - } -} - -@ @<Complain about an undefined macro@>= -{@+print_err("Undefined control sequence"); -@.Undefined control sequence@> -help5("The control sequence at the end of the top line",@/ -"of your error message was never \\def'ed. If you have",@/ -"misspelled it (e.g., `\\hobx'), type `I' and the correct",@/ -"spelling (e.g., `I\\hbox'). Otherwise just continue,",@/ -"and I'll forget about whatever was undefined."); -error(); -} - -@ The |expand| procedure and some other routines that construct token -lists find it convenient to use the following macros, which are valid only if -the variables |p| and |q| are reserved for token-list building. - -@d store_new_token(A) {@+q=get_avail();link(p)=q;info(q)=A; - p=q; /*|link(p)| is |null|*/ - } -@d fast_store_new_token(A) {@+fast_get_avail(q);link(p)=q;info(q)=A; - p=q; /*|link(p)| is |null|*/ - } - -@ @<Manufacture a control...@>= -{@+r=get_avail();p=r; /*head of the list of characters*/ -@/do@+{get_x_token(); -if (cur_cs==0) store_new_token(cur_tok); -}@+ while (!(cur_cs!=0)); -if (cur_cmd!=end_cs_name) @<Complain about missing \.{\\endcsname}@>; -@<Look up the characters of list |r| in the hash table, and set |cur_cs|@>; -flush_list(r); -if (eq_type(cur_cs)==undefined_cs) - {@+eq_define(cur_cs, relax, 256); /*N.B.: The |save_stack| might change*/ - } /*the control sequence will now match `\.{\\relax}'*/ -cur_tok=cur_cs+cs_token_flag;back_input(); -} - -@ @<Complain about missing \.{\\endcsname}@>= -{@+print_err("Missing ");print_esc("endcsname");print(" inserted"); -@.Missing \\endcsname...@> -help2("The control sequence marked <to be read again> should",@/ - "not appear between \\csname and \\endcsname."); -back_error(); -} - -@ @<Look up the characters of list |r| in the hash table...@>= -j=first;p=link(r); -while (p!=null) - {@+if (j >= max_buf_stack) - {@+max_buf_stack=j+1; - if (max_buf_stack==buf_size) - overflow("buffer size", buf_size); -@:TeX capacity exceeded buffer size}{\quad buffer size@> - } - buffer[j]=info(p)%0400;incr(j);p=link(p); - } -if (j==first) cur_cs=null_cs; /*the list is empty*/ -else if (j > first+1) - {@+no_new_control_sequence=false;cur_cs=id_lookup(first, j-first); - no_new_control_sequence=true; - } -else cur_cs=single_base+buffer[first] /*the list has length one*/ - -@ An |end_template| command is effectively changed to an |endv| command -by the following code. (The reason for this is discussed below; the -|frozen_end_template| at the end of the template has passed the -|check_outer_validity| test, so its mission of error detection has been -accomplished.) - -@<Insert a token containing |frozen_endv|@>= -{@+cur_tok=cs_token_flag+frozen_endv;back_input(); -} - -@ The processing of \.{\\input} involves the |start_input| subroutine, -which will be declared later; the processing of \.{\\endinput} is trivial. - -@<Put each...@>= -primitive("input", input, 0);@/ -@!@:input\_}{\.{\\input} primitive@> -primitive("endinput", input, 1);@/ -@!@:end\_input\_}{\.{\\endinput} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case input: if (chr_code==0) print_esc("input") - @/@<Cases of |input| for |print_cmd_chr|@>;@/ - else print_esc("endinput");@+break; - -@ @<Initiate or terminate input...@>= -if (cur_chr==1) force_eof=true -@/@<Cases for |input|@>;@/ -else if (name_in_progress) insert_relax(); -else start_input() - -@ Sometimes the expansion looks too far ahead, so we want to insert -a harmless \.{\\relax} into the user's input. - -@<Declare the procedure called |insert_relax|@>= -static void insert_relax(void) -{@+cur_tok=cs_token_flag+cur_cs;back_input(); -cur_tok=cs_token_flag+frozen_relax;back_input();token_type=inserted; -} - -@ Here is a recursive procedure that is \TeX's usual way to get the -next token of input. It has been slightly optimized to take account of -common cases. - -@p static void get_x_token(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|, - and expands macros*/ -{@+ -restart: get_next(); -@^inner loop@> -if (cur_cmd <= max_command) goto done; -if (cur_cmd >= call) - if (cur_cmd < end_template) macro_call(); - else{@+cur_cs=frozen_endv;cur_cmd=endv; - goto done; /*|cur_chr==null_list|*/ - } -else expand(); -goto restart; -done: if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; -else cur_tok=cs_token_flag+cur_cs; -} - -@ The |get_x_token| procedure is essentially equivalent to two consecutive -procedure calls: |get_next;x_token|. - -@p static void x_token(void) /*|get_x_token| without the initial |get_next|*/ -{@+while (cur_cmd > max_command) - {@+expand(); - get_next(); - } -if (cur_cs==0) cur_tok=(cur_cmd*0400)+cur_chr; -else cur_tok=cs_token_flag+cur_cs; -} - -@ A control sequence that has been \.{\\def}'ed by the user is expanded by -\TeX's |macro_call| procedure. - -Before we get into the details of |macro_call|, however, let's consider the -treatment of primitives like \.{\\topmark}, since they are essentially -macros without parameters. The token lists for such marks are kept in a -global array of five pointers; we refer to the individual entries of this -array by symbolic names |top_mark|, etc. The value of |top_mark| is either -|null| or a pointer to the reference count of a token list. - -@d top_mark_code 0 /*the mark in effect at the previous page break*/ -@d first_mark_code 1 /*the first mark between |top_mark| and |bot_mark|*/ -@d bot_mark_code 2 /*the mark in effect at the current page break*/ -@d split_first_mark_code 3 /*the first mark found by \.{\\vsplit}*/ -@d split_bot_mark_code 4 /*the last mark found by \.{\\vsplit}*/ -@d top_mark cur_mark[top_mark_code] -@d first_mark cur_mark[first_mark_code] -@d bot_mark cur_mark[bot_mark_code] -@d split_first_mark cur_mark[split_first_mark_code] -@d split_bot_mark cur_mark[split_bot_mark_code] - -@<Glob...@>= -pointer @!cur_mark0[split_bot_mark_code-top_mark_code+1], *const @!cur_mark = @!cur_mark0-top_mark_code; - /*token lists for marks*/ - -@ @<Set init...@>= -top_mark=null;first_mark=null;bot_mark=null; -split_first_mark=null;split_bot_mark=null; - -@ @<Put each...@>= -primitive("topmark", top_bot_mark, top_mark_code); -@!@:top\_mark\_}{\.{\\topmark} primitive@> -primitive("firstmark", top_bot_mark, first_mark_code); -@!@:first\_mark\_}{\.{\\firstmark} primitive@> -primitive("botmark", top_bot_mark, bot_mark_code); -@!@:bot\_mark\_}{\.{\\botmark} primitive@> -primitive("splitfirstmark", top_bot_mark, split_first_mark_code); -@!@:split\_first\_mark\_}{\.{\\splitfirstmark} primitive@> -primitive("splitbotmark", top_bot_mark, split_bot_mark_code); -@!@:split\_bot\_mark\_}{\.{\\splitbotmark} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case top_bot_mark: switch (chr_code) { - case first_mark_code: print_esc("firstmark");@+break; - case bot_mark_code: print_esc("botmark");@+break; - case split_first_mark_code: print_esc("splitfirstmark");@+break; - case split_bot_mark_code: print_esc("splitbotmark");@+break; - default:print_esc("topmark"); - } @+break; - -@ The following code is activated when |cur_cmd==top_bot_mark| and -when |cur_chr| is a code like |top_mark_code|. - -@<Insert the \(a)appropriate mark text into the scanner@>= -{@+if (cur_mark[cur_chr]!=null) - begin_token_list(cur_mark[cur_chr], mark_text); -} - -@ Now let's consider |macro_call| itself, which is invoked when \TeX\ is -scanning a control sequence whose |cur_cmd| is either |call|, |long_call|, -|outer_call|, or |long_outer_call|. The control sequence definition -appears in the token list whose reference count is in location |cur_chr| -of |mem|. - -The global variable |long_state| will be set to |call| or to |long_call|, -depending on whether or not the control sequence disallows \.{\\par} -in its parameters. The |get_next| routine will set |long_state| to -|outer_call| and emit \.{\\par}, if a file ends or if an \.{\\outer} -control sequence occurs in the midst of an argument. - -@<Glob...@>= -static int @!long_state; /*governs the acceptance of \.{\\par}*/ - -@ The parameters, if any, must be scanned before the macro is expanded. -Parameters are token lists without reference counts. They are placed on -an auxiliary stack called |pstack| while they are being scanned, since -the |param_stack| may be losing entries during the matching process. -(Note that |param_stack| can't be gaining entries, since |macro_call| is -the only routine that puts anything onto |param_stack|, and it -is not recursive.) - -@<Glob...@>= -static pointer @!pstack[9]; /*arguments supplied to a macro*/ - -@ After parameter scanning is complete, the parameters are moved to the -|param_stack|. Then the macro body is fed to the scanner; in other words, -|macro_call| places the defined text of the control sequence at the -top of\/ \TeX's input stack, so that |get_next| will proceed to read it -next. - -The global variable |cur_cs| contains the |eqtb| address of the control sequence -being expanded, when |macro_call| begins. If this control sequence has not been -declared \.{\\long}, i.e., if its command code in the |eq_type| field is -not |long_call| or |long_outer_call|, its parameters are not allowed to contain -the control sequence \.{\\par}. If an illegal \.{\\par} appears, the macro -call is aborted, and the \.{\\par} will be rescanned. - -@<Declare the procedure called |macro_call|@>= -static void macro_call(void) /*invokes a user-defined control sequence*/ -{@+ -pointer r; /*current node in the macro's token list*/ -pointer @!p; /*current node in parameter token list being built*/ -pointer @!q; /*new node being put into the token list*/ -pointer @!s; /*backup pointer for parameter matching*/ -pointer @!t; /*cycle pointer for backup recovery*/ -pointer @!u, @!v; /*auxiliary pointers for backup recovery*/ -pointer @!rbrace_ptr; /*one step before the last |right_brace| token*/ -small_number @!n; /*the number of parameters scanned*/ -halfword @!unbalance; /*unmatched left braces in current parameter*/ -int @!m; /*the number of tokens or groups (usually)*/ -pointer @!ref_count; /*start of the token list*/ -small_number @!save_scanner_status; /*|scanner_status| upon entry*/ -pointer @!save_warning_index; /*|warning_index| upon entry*/ -ASCII_code @!match_chr; /*character used in parameter*/ -save_scanner_status=scanner_status;save_warning_index=warning_index; -warning_index=cur_cs;ref_count=cur_chr;r=link(ref_count);n=0; -if (tracing_macros > 0) @<Show the text of the macro being expanded@>; -if (info(r)==protected_token) r=link(r); -if (info(r)!=end_match_token) - @<Scan the parameters and make |link(r)| point to the macro body; but |return| if -an illegal \.{\\par} is detected@>; -@<Feed the macro body and its parameters to the scanner@>; -end: scanner_status=save_scanner_status;warning_index=save_warning_index; -} - -@ Before we put a new token list on the input stack, it is wise to clean off -all token lists that have recently been depleted. Then a user macro that ends -with a call to itself will not require unbounded stack space. - -@<Feed the macro body and its parameters to the scanner@>= -while ((state==token_list)&&(loc==null)&&(token_type!=v_template)) - end_token_list(); /*conserve stack space*/ -begin_token_list(ref_count, macro);name=warning_index;loc=link(r); -if (n > 0) - {@+if (param_ptr+n > max_param_stack) - {@+max_param_stack=param_ptr+n; - if (max_param_stack > param_size) - overflow("parameter stack size", param_size); -@:TeX capacity exceeded parameter stack size}{\quad parameter stack size@> - } - for (m=0; m<=n-1; m++) param_stack[param_ptr+m]=pstack[m]; - param_ptr=param_ptr+n; - } - -@ At this point, the reader will find it advisable to review the explanation -of token list format that was presented earlier, since many aspects of that -format are of importance chiefly in the |macro_call| routine. - -The token list might begin with a string of compulsory tokens before the -first |match| or |end_match|. In that case the macro name is supposed to be -followed by those tokens; the following program will set |s==null| to -represent this restriction. Otherwise |s| will be set to the first token of -a string that will delimit the next parameter. - -@<Scan the parameters and make |link(r)| point to the macro body...@>= -{@+scanner_status=matching;unbalance=0; -long_state=eq_type(cur_cs); -if (long_state >= outer_call) long_state=long_state-2; -@/do@+{link(temp_head)=null; -if ((info(r) > match_token+255)||(info(r) < match_token)) s=null; -else{@+match_chr=info(r)-match_token;s=link(r);r=s; - p=temp_head;m=0; - } -@<Scan a parameter until its delimiter string has been found; or, if |s=null|, simply -scan the delimiter string@>;@/ - /*now |info(r)| is a token whose command code is either |match| or |end_match|*/ -}@+ while (!(info(r)==end_match_token)); -} - -@ If |info(r)| is a |match| or |end_match| command, it cannot be equal to -any token found by |get_token|. Therefore an undelimited parameter---i.e., -a |match| that is immediately followed by |match| or |end_match|---will -always fail the test `|cur_tok==info(r)|' in the following algorithm. - -@<Scan a parameter until its delimiter string has been found; or,...@>= -resume: get_token(); /*set |cur_tok| to the next token of input*/ -if (cur_tok==info(r)) - @<Advance \(r)|r|; |goto found| if the parameter delimiter has been fully matched, -otherwise |goto continue|@>; -@<Contribute the recently matched tokens to the current parameter, and |goto continue| -if a partial match is still in effect; but abort if |s=null|@>; -if (cur_tok==par_token) if (long_state!=long_call) - @<Report a runaway argument and abort@>; -if (cur_tok < right_brace_limit) - if (cur_tok < left_brace_limit) - @<Contribute an entire group to the current parameter@>@; - else@<Report an extra right brace and |goto continue|@>@; -else@<Store the current token, but |goto continue| if it is a blank space that would -become an undelimited parameter@>; -incr(m); -if (info(r) > end_match_token) goto resume; -if (info(r) < match_token) goto resume; -found: if (s!=null) @<Tidy up the parameter just scanned, and tuck it away@>@; - -@ @<Store the current token, but |goto continue| if it is...@>= -{@+if (cur_tok==space_token) - if (info(r) <= end_match_token) - if (info(r) >= match_token) goto resume; -store_new_token(cur_tok); -} - -@ A slightly subtle point arises here: When the parameter delimiter ends -with `\.{\#\{}', the token list will have a left brace both before and -after the |end_match|\kern-.4pt. Only one of these should affect the -|align_state|, but both will be scanned, so we must make a correction. - -@<Advance \(r)|r|; |goto found| if the parameter delimiter has been fully...@>= -{@+r=link(r); -if ((info(r) >= match_token)&&(info(r) <= end_match_token)) - {@+if (cur_tok < left_brace_limit) decr(align_state); - goto found; - } -else goto resume; -} - -@ @<Report an extra right brace and |goto continue|@>= -{@+back_input();print_err("Argument of ");sprint_cs(warning_index); -@.Argument of \\x has...@> -print(" has an extra }"); -help6("I've run across a `}' that doesn't seem to match anything.",@/ - "For example, `\\def\\a#1{...}' and `\\a}' would produce",@/ - "this error. If you simply proceed now, the `\\par' that",@/ - "I've just inserted will cause me to report a runaway",@/ - "argument that might be the root of the problem. But if",@/ - "your `}' was spurious, just type `2' and it will go away."); -incr(align_state);long_state=call;cur_tok=par_token;ins_error(); -goto resume; -} /*a white lie; the \.{\\par} won't always trigger a runaway*/ - -@ If |long_state==outer_call|, a runaway argument has already been reported. - -@<Report a runaway argument and abort@>= -{@+if (long_state==call) - {@+runaway();print_err("Paragraph ended before "); -@.Paragraph ended before...@> - sprint_cs(warning_index);print(" was complete"); - help3("I suspect you've forgotten a `}', causing me to apply this",@/ - "control sequence to too much text. How can we recover?",@/ - "My plan is to forget the whole thing and hope for the best."); - back_error(); - } -pstack[n]=link(temp_head);align_state=align_state-unbalance; -for (m=0; m<=n; m++) flush_list(pstack[m]); -goto end; -} - -@ When the following code becomes active, we have matched tokens from |s| to -the predecessor of |r|, and we have found that |cur_tok!=info(r)|. An -interesting situation now presents itself: If the parameter is to be -delimited by a string such as `\.{ab}', and if we have scanned `\.{aa}', -we want to contribute one `\.a' to the current parameter and resume -looking for a `\.b'. The program must account for such partial matches and -for others that can be quite complex. But most of the time we have |s==r| -and nothing needs to be done. - -Incidentally, it is possible for \.{\\par} tokens to sneak in to certain -parameters of non-\.{\\long} macros. For example, consider a case like -`\.{\\def\\a\#1\\par!\{...\}}' where the first \.{\\par} is not followed -by an exclamation point. In such situations it does not seem appropriate -to prohibit the \.{\\par}, so \TeX\ keeps quiet about this bending of -the rules. - -@<Contribute the recently matched tokens to the current parameter...@>= -if (s!=r) - if (s==null) @<Report an improper use of the macro and abort@>@; - else{@+t=s; - @/do@+{store_new_token(info(t));incr(m);u=link(t);v=s; - loop@+{@+if (u==r) - if (cur_tok!=info(v)) goto done; - else{@+r=link(v);goto resume; - } - if (info(u)!=info(v)) goto done; - u=link(u);v=link(v); - } - done: t=link(t); - }@+ while (!(t==r)); - r=s; /*at this point, no tokens are recently matched*/ - } - -@ @<Report an improper use...@>= -{@+print_err("Use of ");sprint_cs(warning_index); -@.Use of x doesn't match...@> -print(" doesn't match its definition"); -help4("If you say, e.g., `\\def\\a1{...}', then you must always",@/ - "put `1' after `\\a', since control sequence names are",@/ - "made up of letters only. The macro here has not been",@/ - "followed by the required stuff, so I'm ignoring it."); -error();goto end; -} - -@ @<Contribute an entire group to the current parameter@>= -{@+unbalance=1; -@^inner loop@> -loop@+{@+fast_store_new_token(cur_tok);get_token(); - if (cur_tok==par_token) if (long_state!=long_call) - @<Report a runaway argument and abort@>; - if (cur_tok < right_brace_limit) - if (cur_tok < left_brace_limit) incr(unbalance); - else{@+decr(unbalance); - if (unbalance==0) goto done1; - } - } -done1: rbrace_ptr=p;store_new_token(cur_tok); -} - -@ If the parameter consists of a single group enclosed in braces, we must -strip off the enclosing braces. That's why |rbrace_ptr| was introduced. - -@<Tidy up the parameter just scanned, and tuck it away@>= -{@+if ((m==1)&&(info(p) < right_brace_limit)) - {@+link(rbrace_ptr)=null;free_avail(p); - p=link(temp_head);pstack[n]=link(p);free_avail(p); - } -else pstack[n]=link(temp_head); -incr(n); -if (tracing_macros > 0) - {@+begin_diagnostic();print_nl("");printn(match_chr);print_int(n); - print("<-");show_token_list(pstack[n-1], null, 1000); - end_diagnostic(false); - } -} - -@ @<Show the text of the macro being expanded@>= -{@+begin_diagnostic();print_ln();print_cs(warning_index); -token_show(ref_count);end_diagnostic(false); -} - -@* Basic scanning subroutines. -Let's turn now to some procedures that \TeX\ calls upon frequently to digest -certain kinds of patterns in the input. Most of these are quite simple; -some are quite elaborate. Almost all of the routines call |get_x_token|, -which can cause them to be invoked recursively. -@^stomach@> -@^recursion@> - -@ The |scan_left_brace| routine is called when a left brace is supposed to be -the next non-blank token. (The term ``left brace'' means, more precisely, -a character whose catcode is |left_brace|.) \TeX\ allows \.{\\relax} to -appear before the |left_brace|. - -@p void scan_left_brace(void) /*reads a mandatory |left_brace|*/ -{@+@<Get the next non-blank non-relax non-call token@>; -if (cur_cmd!=left_brace) - {@+print_err("Missing { inserted"); -@.Missing \{ inserted@> - help4("A left brace was mandatory here, so I've put one in.",@/ - "You might want to delete and/or insert some corrections",@/ - "so that I will find a matching right brace soon.",@/ - "(If you're confused by all this, try typing `I}' now.)"); - back_error();cur_tok=left_brace_token+'{';cur_cmd=left_brace; - cur_chr='{';incr(align_state); - } -} - -@ @<Get the next non-blank non-relax non-call token@>= -@/do@+{get_x_token(); -}@+ while (!((cur_cmd!=spacer)&&(cur_cmd!=relax))) - -@ The |scan_optional_equals| routine looks for an optional `\.=' sign preceded -by optional spaces; `\.{\\relax}' is not ignored here. - -@p static void scan_optional_equals(void) -{@+@<Get the next non-blank non-call token@>; -if (cur_tok!=other_token+'=') back_input(); -} - -@ @<Get the next non-blank non-call token@>= -@/do@+{get_x_token(); -}@+ while (!(cur_cmd!=spacer)) - -@ In case you are getting bored, here is a slightly less trivial routine: -Given a string of lowercase letters, like `\.{pt}' or `\.{plus}' or -`\.{width}', the |scan_keyword| routine checks to see whether the next -tokens of input match this string. The match must be exact, except that -uppercase letters will match their lowercase counterparts; uppercase -equivalents are determined by subtracting |'a'-'A'|, rather than using the -|uc_code| table, since \TeX\ uses this routine only for its own limited -set of keywords. - -If a match is found, the characters are effectively removed from the input -and |true| is returned. Otherwise |false| is returned, and the input -is left essentially unchanged (except for the fact that some macros -may have been expanded, etc.). -@^inner loop@> - -@p static bool scan_keyword(char *@!s) /*look for a given string*/ -{@+ -pointer p; /*tail of the backup list*/ -pointer @!q; /*new node being added to the token list via |store_new_token|*/ -p=backup_head;link(p)=null; -while (*s!=0) - {@+get_x_token(); /*recursion is possible here*/ -@^recursion@> - if ((cur_cs==0)&&@| - ((cur_chr==so(*s))||(cur_chr==so(*s)-'a'+'A'))) - {@+store_new_token(cur_tok);incr(s); - } - else if ((cur_cmd!=spacer)||(p!=backup_head)) - {@+back_input(); - if (p!=backup_head) back_list(link(backup_head)); - return false; - } - } -flush_list(link(backup_head));return true; -} - -@ Here is a procedure that sounds an alarm when mu and non-mu units -are being switched. - -@p static void mu_error(void) -{@+print_err("Incompatible glue units"); -@.Incompatible glue units@> -help1("I'm going to assume that 1mu=1pt when they're mixed."); -error(); -} - -@ The next routine `|scan_something_internal|' is used to fetch internal -numeric quantities like `\.{\\hsize}', and also to handle the `\.{\\the}' -when expanding constructions like `\.{\\the\\toks0}' and -`\.{\\the\\baselineskip}'. Soon we will be considering the |scan_int| -procedure, which calls |scan_something_internal|; on the other hand, -|scan_something_internal| also calls |scan_int|, for constructions like -`\.{\\catcode\`\\\$}' or `\.{\\fontdimen} \.3 \.{\\ff}'. So we -have to declare |scan_int| as a |forward| procedure. A few other -procedures are also declared at this point. - -@p static void scan_int(void); /*scans an integer value*/ -@t\4\4@>@<Declare procedures that scan restricted classes of integers@>@; -@t\4\4@>@<Declare \eTeX\ procedures for scanning@>@; -@t\4\4@>@<Declare procedures that scan font-related stuff@>@; - -@ \TeX\ doesn't know exactly what to expect when |scan_something_internal| -begins. For example, an integer or dimension or glue value could occur -immediately after `\.{\\hskip}'; and one can even say \.{\\the} with -respect to token lists in constructions like -`\.{\\xdef\\o\{\\the\\output\}}'. On the other hand, only integers are -allowed after a construction like `\.{\\count}'. To handle the various -possibilities, |scan_something_internal| has a |level| parameter, which -tells the ``highest'' kind of quantity that |scan_something_internal| is -allowed to produce. Six levels are distinguished, namely |int_val|, -|dimen_val|, |glue_val|, |mu_val|, |ident_val|, and |tok_val|. - -The output of |scan_something_internal| (and of the other routines -|scan_int|, |scan_dimen|, and |scan_glue| below) is put into the global -variable |cur_val|, and its level is put into |cur_val_level|. The highest -values of |cur_val_level| are special: |mu_val| is used only when -|cur_val| points to something in a ``muskip'' register, or to one of the -three parameters \.{\\thinmuskip}, \.{\\medmuskip}, \.{\\thickmuskip}; -|ident_val| is used only when |cur_val| points to a font identifier; -|tok_val| is used only when |cur_val| points to |null| or to the reference -count of a token list. The last two cases are allowed only when -|scan_something_internal| is called with |level==tok_val|. - -If the output is glue, |cur_val| will point to a glue specification, and -the reference count of that glue will have been updated to reflect this -reference; if the output is a nonempty token list, |cur_val| will point to -its reference count, but in this case the count will not have been updated. -Otherwise |cur_val| will contain the integer or scaled value in question. - -@d int_val 0 /*integer values*/ -@d dimen_val 1 /*dimension values*/ -@d glue_val 2 /*glue specifications*/ -@d mu_val 3 /*math glue specifications*/ -@d ident_val 4 /*font identifier*/ -@d tok_val 5 /*token lists*/ -@d has_factor (cur_hfactor!=0 || cur_vfactor!=0) - -@<Glob...@>= -static int @!cur_val, @!cur_hfactor, @!cur_vfactor; /*value returned by numeric scanners*/ -static int @!cur_val_level; /*the ``level'' of this value*/ - -@ The hash table is initialized with `\.{\\count}', `\.{\\dimen}', `\.{\\skip}', -and `\.{\\muskip}' all having |internal_register| as their command code; they are -distinguished by the |chr_code|, which is either |int_val|, |dimen_val|, -|glue_val|, or |mu_val| more than |mem_bot| (dynamic variable-size nodes -cannot have these values) - -@<Put each...@>= -primitive("count", internal_register, mem_bot+int_val); -@!@:count\_}{\.{\\count} primitive@> -primitive("dimen", internal_register, mem_bot+dimen_val); -@!@:dimen\_}{\.{\\dimen} primitive@> -primitive("skip", internal_register, mem_bot+glue_val); -@!@:skip\_}{\.{\\skip} primitive@> -primitive("muskip", internal_register, mem_bot+mu_val); -@!@:mu\_skip\_}{\.{\\muskip} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case internal_register: @<Cases of |register| for |print_cmd_chr|@>@;@+break; - -@ OK, we're ready for |scan_something_internal| itself. A second parameter, -|negative|, is set |true| if the value that is found should be negated. -It is assumed that |cur_cmd| and |cur_chr| represent the first token of -the internal quantity to be scanned; an error will be signalled if -|cur_cmd < min_internal| or |cur_cmd > max_internal|. - -@d scanned_result(A, B) @+{@+cur_val=A;cur_val_level=B;@+} - -@p static void scan_something_internal(small_number @!level, bool @!negative) - /*fetch an internal parameter*/ -{@+ -halfword m; /*|chr_code| part of the operand token*/ -pointer @!q, @!r; /*general purpose indices*/ -pointer @!tx; /*effective tail node*/ -four_quarters @!i; /*character info*/ -int @!p; /*index into |nest|*/ -m=cur_chr; -switch (cur_cmd) { -case def_code: @<Fetch a character code from some table@>@;@+break; -case toks_register: case assign_toks: case def_family: case set_font: case def_font: @<Fetch -a token list or font identifier, provided that |level=tok_val|@>@;@+break; -case assign_int: scanned_result(eqtb[m].i, int_val)@;@+break; -case assign_dimen: - scanned_result(eqtb[m].sc, dimen_val); - if (m>=dimen_base)@/ - { cur_hfactor=hfactor_eqtb[m].sc;@+ - cur_vfactor=vfactor_eqtb[m].sc;@+ - } - else - cur_hfactor=cur_vfactor=0;@/ - @+break; -case assign_glue: scanned_result(equiv(m), glue_val)@;@+break; -case assign_mu_glue: scanned_result(equiv(m), mu_val)@;@+break; -case set_aux: @<Fetch the |space_factor| or the |prev_depth|@>@;@+break; -case set_prev_graf: @<Fetch the |prev_graf|@>@;@+break; -case set_page_int: @<Fetch the |dead_cycles| or the |insert_penalties|@>@;@+break; -case set_page_dimen: @<Fetch something on the |page_so_far|@>@;@+break; -case set_shape: @<Fetch the |par_shape| size@>@;@+break; -case set_box_dimen: @<Fetch a box dimension@>@;@+break; -case char_given: case math_given: scanned_result(cur_chr, int_val)@;@+break; -case assign_font_dimen: @<Fetch a font dimension@>@;@+break; -case assign_font_int: @<Fetch a font integer@>@;@+break; -case internal_register: @<Fetch a register@>@;@+break; -case last_item: @<Fetch an item in the current node, if appropriate@>@;@+break; -default:@<Complain that \.{\\the} can't do this; give zero result@>@; -} @/ -while (cur_val_level > level) @<Convert \(c)|cur_val| to a lower level@>; -@<Fix the reference count, if any, and negate |cur_val| if |negative|@>; -} - -@ @<Fetch a character code from some table@>= -{@+scan_char_num(); -if (m==math_code_base) scanned_result(ho(math_code(cur_val)), int_val)@; -else if (m < math_code_base) scanned_result(equiv(m+cur_val), int_val)@; -else scanned_result(eqtb[m+cur_val].i, int_val); -} - -@ @<Fetch a token list...@>= -if (level!=tok_val) - {@+print_err("Missing number, treated as zero"); -@.Missing number...@> - help3("A number should have been here; I inserted `0'.",@/ - "(If you can't figure out why I needed to see a number,",@/ - "look up `weird error' in the index to The TeXbook.)"); -@:TeXbook}{\sl The \TeX book@> - back_error();scanned_result(0, dimen_val); - } -else if (cur_cmd <= assign_toks) - {@+if (cur_cmd < assign_toks) /*|cur_cmd==toks_register|*/ - if (m==mem_bot) - {@+scan_register_num(); - if (cur_val < 256) cur_val=equiv(toks_base+cur_val); - else{@+find_sa_element(tok_val, cur_val, false); - if (cur_ptr==null) cur_val=null; - else cur_val=sa_ptr(cur_ptr); - } - } - else cur_val=sa_ptr(m); - else cur_val=equiv(m); - cur_val_level=tok_val; - } -else{@+back_input();scan_font_ident(); - scanned_result(font_id_base+cur_val, ident_val); - } - -@ Users refer to `\.{\\the\\spacefactor}' only in horizontal -mode, and to `\.{\\the\\prevdepth}' only in vertical mode; so we put the -associated mode in the modifier part of the |set_aux| command. -The |set_page_int| command has modifier 0 or 1, for `\.{\\deadcycles}' and -`\.{\\insertpenalties}', respectively. The |set_box_dimen| command is -modified by either |width_offset|, |height_offset|, or |depth_offset|. -And the |last_item| command is modified by either |int_val|, |dimen_val|, -|glue_val|, |input_line_no_code|, or |badness_code|. -\eTeX\ inserts |last_node_type_code| after |glue_val| and adds -the codes for its extensions: |eTeX_version_code|, \dots\ . - -@d last_node_type_code (glue_val+1) /*code for \.{\\lastnodetype}*/ -@d input_line_no_code (glue_val+2) /*code for \.{\\inputlineno}*/ -@d badness_code (input_line_no_code+1) /*code for \.{\\badness}*/ -@# -@d eTeX_int (badness_code+1) /*first of \eTeX\ codes for integers*/ -@d eTeX_dim (eTeX_int+8) /*first of \eTeX\ codes for dimensions*/ -@d eTeX_glue (eTeX_dim+9) /*first of \eTeX\ codes for glue*/ -@d eTeX_mu (eTeX_glue+1) /*first of \eTeX\ codes for muglue*/ -@d eTeX_expr (eTeX_mu+1) /*first of \eTeX\ codes for expressions*/ - -@<Put each...@>= -primitive("spacefactor", set_aux, hmode); -@!@:space\_factor\_}{\.{\\spacefactor} primitive@> -primitive("prevdepth", set_aux, vmode);@/ -@!@:prev\_depth\_}{\.{\\prevdepth} primitive@> -primitive("deadcycles", set_page_int, 0); -@!@:dead\_cycles\_}{\.{\\deadcycles} primitive@> -primitive("insertpenalties", set_page_int, 1); -@!@:insert\_penalties\_}{\.{\\insertpenalties} primitive@> -primitive("wd", set_box_dimen, width_offset); -@!@:wd\_}{\.{\\wd} primitive@> -primitive("ht", set_box_dimen, height_offset); -@!@:ht\_}{\.{\\ht} primitive@> -primitive("dp", set_box_dimen, depth_offset); -@!@:dp\_}{\.{\\dp} primitive@> -primitive("lastpenalty", last_item, int_val); -@!@:last\_penalty\_}{\.{\\lastpenalty} primitive@> -primitive("lastkern", last_item, dimen_val); -@!@:last\_kern\_}{\.{\\lastkern} primitive@> -primitive("lastskip", last_item, glue_val); -@!@:last\_skip\_}{\.{\\lastskip} primitive@> -primitive("inputlineno", last_item, input_line_no_code); -@!@:input\_line\_no\_}{\.{\\inputlineno} primitive@> -primitive("badness", last_item, badness_code); -@!@:badness\_}{\.{\\badness} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case set_aux: if (chr_code==vmode) print_esc("prevdepth"); -@+else print_esc("spacefactor");@+break; -case set_page_int: if (chr_code==0) print_esc("deadcycles") -@/@<Cases of |set_page_int| for |print_cmd_chr|@>;@/ -@+else print_esc("insertpenalties");@+break; -case set_box_dimen: if (chr_code==width_offset) print_esc("wd"); -else if (chr_code==height_offset) print_esc("ht"); -else print_esc("dp");@+break; -case last_item: switch (chr_code) { - case int_val: print_esc("lastpenalty");@+break; - case dimen_val: print_esc("lastkern");@+break; - case glue_val: print_esc("lastskip");@+break; - case input_line_no_code: print_esc("inputlineno");@+break; - @/@<Cases of |last_item| for |print_cmd_chr|@>@/ - default:print_esc("badness"); - } @+break; - -@ @<Fetch the |space_factor| or the |prev_depth|@>= -if (abs(mode)!=m) - {@+print_err("Improper ");print_cmd_chr(set_aux, m); -@.Improper \\spacefactor@> -@.Improper \\prevdepth@> - help4("You can refer to \\spacefactor only in horizontal mode;",@/ - "you can refer to \\prevdepth only in vertical mode; and",@/ - "neither of these is meaningful inside \\write. So",@/ - "I'm forgetting what you said and using zero instead."); - error(); - if (level!=tok_val) scanned_result(0, dimen_val)@; - else scanned_result(0, int_val); - } -else if (m==vmode) scanned_result(prev_depth, dimen_val)@; -else scanned_result(space_factor, int_val) - -@ @<Fetch the |dead_cycles| or the |insert_penalties|@>= -{@+if (m==0) cur_val=dead_cycles -@/@<Cases for `Fetch the |dead_cycles| or the |insert_penalties|'@>;@/ -else cur_val=insert_penalties; -cur_val_level=int_val; -} - -@ @<Fetch a box dimension@>= -{@+scan_register_num();fetch_box(q); -if (q==null) cur_val=0;@+else cur_val=mem[q+m].sc; -cur_val_level=dimen_val; -} - -@ Inside an \.{\\output} routine, a user may wish to look at the page totals -that were present at the moment when output was triggered. - -@d max_dimen 07777777777 /*$2^{30}-1$*/ - -@<Fetch something on the |page_so_far|@>= -{@+if ((page_contents==empty)&&(!output_active)) - if (m==0) cur_val=max_dimen;@+else cur_val=0; -else cur_val=page_so_far[m]; -cur_val_level=dimen_val; -} - -@ @<Fetch the |prev_graf|@>= -if (mode==0) scanned_result(0, int_val)@; /*|prev_graf==0| within \.{\\write}*/ -else{@+nest[nest_ptr]=cur_list;p=nest_ptr; - while (abs(nest[p].mode_field)!=vmode) decr(p); - scanned_result(nest[p].pg_field, int_val); - } - -@ @<Fetch the |par_shape| size@>= -{@+if (m > par_shape_loc) @<Fetch a penalties array element@>@; -else if (par_shape_ptr==null) cur_val=0; -else cur_val=info(par_shape_ptr); -cur_val_level=int_val; -} - -@ Here is where \.{\\lastpenalty}, \.{\\lastkern}, \.{\\lastskip}, and -\.{\\lastnodetype} are -implemented. The reference count for \.{\\lastskip} will be updated later. - -We also handle \.{\\inputlineno} and \.{\\badness} here, because they are -legal in similar contexts. - -@<Fetch an item in the current node...@>= -if (m >= input_line_no_code) - if (m >= eTeX_glue) @<Process an expression and |return|@>@; - else if (m >= eTeX_dim) - {@+switch (m) { - @/@<Cases for fetching a dimension value@>@/ - } /*there are no other cases*/ - cur_val_level=dimen_val; - } - else{@+switch (m) { - case input_line_no_code: cur_val=line;@+break; - case badness_code: cur_val=last_badness;@+break; - @/@<Cases for fetching an integer value@>@/ - } /*there are no other cases*/ - cur_val_level=int_val; - } -else{@+if (cur_chr==glue_val) cur_val=zero_glue;@+else cur_val=0; - cur_val_level=cur_chr; - if (!is_char_node(tail)&&(mode!=0)) - switch (cur_chr) { - case int_val: if (type(tail)==penalty_node) cur_val=penalty(tail);@+break; - case dimen_val: if (type(tail)==kern_node) cur_val=width(tail);@+break; - case glue_val: if (type(tail)==glue_node) - {@+cur_val=glue_ptr(tail); - if (subtype(tail)==mu_glue) cur_val_level=mu_val; - } - } /*there are no other cases*/ - else if ((mode==vmode)&&(tail==head)) - switch (cur_chr) { - case int_val: cur_val=last_penalty;@+break; - case dimen_val: cur_val=last_kern;@+break; - case glue_val: if (last_glue!=max_halfword) cur_val=last_glue;@+break; - case last_node_type_code: cur_val=last_node_type; - } /*there are no other cases*/ - } - -@ @<Fetch a font dimension@>= -{@+find_font_dimen(false);font_info[fmem_ptr].sc=0; -scanned_result(font_info[cur_val].sc, dimen_val); -} - -@ @<Fetch a font integer@>= -{@+scan_font_ident(); -if (m==0) scanned_result(hyphen_char[cur_val], int_val)@; -else scanned_result(skew_char[cur_val], int_val); -} - -@ @<Fetch a register@>= -{@+if ((m < mem_bot)||(m > lo_mem_stat_max)) - {@+cur_val_level=sa_type(m); - if (cur_val_level < glue_val) cur_val=sa_int(m); - else cur_val=sa_ptr(m); - } -else{@+scan_register_num();cur_val_level=m-mem_bot; - if (cur_val > 255) - {@+find_sa_element(cur_val_level, cur_val, false); - if (cur_ptr==null) - if (cur_val_level < glue_val) cur_val=0; - else cur_val=zero_glue; - else if (cur_val_level < glue_val) cur_val=sa_int(cur_ptr); - else cur_val=sa_ptr(cur_ptr); - } - else - switch (cur_val_level) { -case int_val: cur_val=count(cur_val);@+break; -case dimen_val: - cur_hfactor=dimen_hfactor(cur_val); - cur_vfactor=dimen_vfactor(cur_val); - cur_val=dimen(cur_val);@+break; -case glue_val: cur_val=skip(cur_val);@+break; -case mu_val: cur_val=mu_skip(cur_val); -} /*there are no other cases*/ - } -} - -@ @<Complain that \.{\\the} can't do this; give zero result@>= -{@+print_err("You can't use `");print_cmd_chr(cur_cmd, cur_chr); -@.You can't use x after ...@> -print("' after ");print_esc("the"); -help1("I'm forgetting what you said and using zero instead."); -error(); -if (level!=tok_val) scanned_result(0, dimen_val)@; -else scanned_result(0, int_val); -} - -@ When a |glue_val| changes to a |dimen_val|, we use the width component -of the glue; there is no need to decrease the reference count, since it -has not yet been increased. When a |dimen_val| changes to an |int_val|, -we use scaled points so that the value doesn't actually change. And when a -|mu_val| changes to a |glue_val|, the value doesn't change either. - -@<Convert \(c)|cur_val| to a lower level@>= -{@+if (cur_val_level==glue_val) cur_val=width(cur_val); -else if (cur_val_level==mu_val) mu_error(); -decr(cur_val_level); -} - -@ If |cur_val| points to a glue specification at this point, the reference -count for the glue does not yet include the reference by |cur_val|. -If |negative| is |true|, |cur_val_level| is known to be | <= mu_val|. - -@<Fix the reference count, if any,...@>= -if (negative) - if (cur_val_level >= glue_val) - {@+cur_val=new_spec(cur_val); - @<Negate all three glue components of |cur_val|@>; - } - else {@+ negate(cur_val);@+ negate(cur_hfactor); @+negate(cur_vfactor); @+} -else if ((cur_val_level >= glue_val)&&(cur_val_level <= mu_val)) - add_glue_ref(cur_val) - -@ @<Negate all three...@>= -{@+negate(width(cur_val)); -negate(stretch(cur_val)); -negate(shrink(cur_val)); -} - -@ Our next goal is to write the |scan_int| procedure, which scans anything that -\TeX\ treats as an integer. But first we might as well look at some simple -applications of |scan_int| that have already been made inside of -|scan_something_internal|. - -@ @<Declare procedures that scan restricted classes of integers@>= -static void scan_eight_bit_int(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > 255)) - {@+print_err("Bad register code"); -@.Bad register code@> - help2("A register number must be between 0 and 255.",@/ - "I changed this one to zero.");int_error(cur_val);cur_val=0; - } -} - -@ @<Declare procedures that scan restricted classes of integers@>= -static void scan_char_num(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > 255)) - {@+print_err("Bad character code"); -@.Bad character code@> - help2("A character number must be between 0 and 255.",@/ - "I changed this one to zero.");int_error(cur_val);cur_val=0; - } -} - -@ While we're at it, we might as well deal with similar routines that -will be needed later. - -@<Declare procedures that scan restricted classes of integers@>= -static void scan_four_bit_int(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > 15)) - {@+print_err("Bad number"); -@.Bad number@> - help2("Since I expected to read a number between 0 and 15,",@/ - "I changed this one to zero.");int_error(cur_val);cur_val=0; - } -} - -@ @<Declare procedures that scan restricted classes of integers@>= -static void scan_fifteen_bit_int(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > 077777)) - {@+print_err("Bad mathchar"); -@.Bad mathchar@> - help2("A mathchar number must be between 0 and 32767.",@/ - "I changed this one to zero.");int_error(cur_val);cur_val=0; - } -} - -@ @<Declare procedures that scan restricted classes of integers@>= -static void scan_twenty_seven_bit_int(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > 0777777777)) - {@+print_err("Bad delimiter code"); -@.Bad delimiter code@> - help2("A numeric delimiter code must be between 0 and 2^{27}-1.",@/ - "I changed this one to zero.");int_error(cur_val);cur_val=0; - } -} - -@ An integer number can be preceded by any number of spaces and `\.+' or -`\.-' signs. Then comes either a decimal constant (i.e., radix 10), an -octal constant (i.e., radix 8, preceded by~\.\'), a hexadecimal constant -(radix 16, preceded by~\."), an alphabetic constant (preceded by~\.\`), or -an internal variable. After scanning is complete, -|cur_val| will contain the answer, which must be at most -$2^{31}-1=2147483647$ in absolute value. The value of |radix| is set to -10, 8, or 16 in the cases of decimal, octal, or hexadecimal constants, -otherwise |radix| is set to zero. An optional space follows a constant. - -@d octal_token (other_token+'\'') /*apostrophe, indicates an octal constant*/ -@d hex_token (other_token+'"') /*double quote, indicates a hex constant*/ -@d alpha_token (other_token+'`') /*reverse apostrophe, precedes alpha constants*/ -@d point_token (other_token+'.') /*decimal point*/ -@d continental_point_token (other_token+',') /*decimal point, Eurostyle*/ - -@<Glob...@>= -static small_number @!radix; /*|scan_int| sets this to 8, 10, 16, or zero*/ - -@ We initialize the following global variables just in case |expand| -comes into action before any of the basic scanning routines has assigned -them a value. - -@<Set init...@>= -cur_val=0;cur_val_level=int_val;radix=0;cur_order=normal; - -@ The |scan_int| routine is used also to scan the integer part of a -fraction; for example, the `\.3' in `\.{3.14159}' will be found by -|scan_int|. The |scan_dimen| routine assumes that |cur_tok==point_token| -after the integer part of such a fraction has been scanned by |scan_int|, -and that the decimal point has been backed up to be scanned again. - -@p static void scan_int(void) /*sets |cur_val| to an integer*/ -{@+ -bool negative; /*should the answer be negated?*/ -int @!m; /*|@t$2^{31}$@>/radix|, the threshold of danger*/ -small_number @!d; /*the digit just scanned*/ -bool @!vacuous; /*have no digits appeared?*/ -bool @!OK_so_far; /*has an error message been issued?*/ -radix=0;OK_so_far=true;@/ -@<Get the next non-blank non-sign token; set |negative| appropriately@>; -if (cur_tok==alpha_token) @<Scan an alphabetic character code into |cur_val|@>@; -else if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) - scan_something_internal(int_val, false); -else@<Scan a numeric constant@>; -if (negative) negate(cur_val); -} - -@ @<Get the next non-blank non-sign token...@>= -negative=false; -@/do@+{@<Get the next non-blank non-call token@>; -if (cur_tok==other_token+'-') - {@+negative=!negative;cur_tok=other_token+'+'; - } -}@+ while (!(cur_tok!=other_token+'+')) - -@ A space is ignored after an alphabetic character constant, so that -such constants behave like numeric ones. - -@<Scan an alphabetic character code into |cur_val|@>= -{@+get_token(); /*suppress macro expansion*/ -if (cur_tok < cs_token_flag) - {@+cur_val=cur_chr; - if (cur_cmd <= right_brace) - if (cur_cmd==right_brace) incr(align_state); - else decr(align_state); - } -else if (cur_tok < cs_token_flag+single_base) - cur_val=cur_tok-cs_token_flag-active_base; -else cur_val=cur_tok-cs_token_flag-single_base; -if (cur_val > 255) - {@+print_err("Improper alphabetic constant"); -@.Improper alphabetic constant@> - help2("A one-character control sequence belongs after a ` mark.",@/ - "So I'm essentially inserting \\0 here."); - cur_val='0';back_error(); - } -else@<Scan an optional space@>; -} - -@ @<Scan an optional space@>= -{@+get_x_token();if (cur_cmd!=spacer) back_input(); -} - -@ @<Scan a numeric constant@>= -{@+radix=10;m=214748364; -if (cur_tok==octal_token) - {@+radix=8;m=02000000000;get_x_token(); - } -else if (cur_tok==hex_token) - {@+radix=16;m=01000000000;get_x_token(); - } -vacuous=true;cur_val=0;@/ -@<Accumulate the constant until |cur_tok| is not a suitable digit@>; -if (vacuous) @<Express astonishment that no number was here@>@; -else if (cur_cmd!=spacer) back_input(); -} - -@ @d infinity 017777777777 /*the largest positive value that \TeX\ knows*/ -@d zero_token (other_token+'0') /*zero, the smallest digit*/ -@d A_token (letter_token+'A') /*the smallest special hex digit*/ -@d other_A_token (other_token+'A') /*special hex digit of type |other_char|*/ - -@<Accumulate the constant...@>= -loop@+{@+if ((cur_tok < zero_token+radix)&&(cur_tok >= zero_token)&& - (cur_tok <= zero_token+9)) d=cur_tok-zero_token; - else if (radix==16) - if ((cur_tok <= A_token+5)&&(cur_tok >= A_token)) d=cur_tok-A_token+10; - else if ((cur_tok <= other_A_token+5)&&(cur_tok >= other_A_token)) - d=cur_tok-other_A_token+10; - else goto done; - else goto done; - vacuous=false; - if ((cur_val >= m)&&((cur_val > m)||(d > 7)||(radix!=10))) - {@+if (OK_so_far) - {@+print_err("Number too big"); -@.Number too big@> - help2("I can only go up to 2147483647='17777777777=\"7FFFFFFF,",@/ - "so I'm using that number instead of yours."); - error();cur_val=infinity;OK_so_far=false; - } - } - else cur_val=cur_val*radix+d; - get_x_token(); - } -done: - -@ @<Express astonishment...@>= -{@+print_err("Missing number, treated as zero"); -@.Missing number...@> -help3("A number should have been here; I inserted `0'.",@/ - "(If you can't figure out why I needed to see a number,",@/ - "look up `weird error' in the index to The TeXbook.)"); -@:TeXbook}{\sl The \TeX book@> -back_error(); -} - -@ The |scan_dimen| routine is similar to |scan_int|, but it sets |cur_val| to -a |scaled| value, i.e., an integral number of sp. One of its main tasks -is therefore to interpret the abbreviations for various kinds of units and -to convert measurements to scaled points. - -There are three parameters: |mu| is |true| if the finite units must be -`\.{mu}', while |mu| is |false| if `\.{mu}' units are disallowed; -|inf| is |true| if the infinite units `\.{fil}', `\.{fill}', `\.{filll}' -are permitted; and |shortcut| is |true| if |cur_val| already contains -an integer and only the units need to be considered. - -The order of infinity that was found in the case of infinite glue is returned -in the global variable |cur_order|. - -@<Glob...@>= -static glue_ord @!cur_order; /*order of infinity found by |scan_dimen|*/ - -@ Constructions like `\.{-\'77 pt}' are legal dimensions, so |scan_dimen| -may begin with |scan_int|. This explains why it is convenient to use -|scan_int| also for the integer part of a decimal fraction. - -Several branches of |scan_dimen| work with |cur_val| as an integer and -with an auxiliary fraction |f|, so that the actual quantity of interest is -$|cur_val|+|f|/2^{16}$. At the end of the routine, this ``unpacked'' -representation is put into the single word |cur_val|, which suddenly -switches significance from |int| to |scaled|. - -@d scan_normal_dimen scan_dimen(false, false, false) - -@p static void scan_dimen(bool @!mu, bool @!inf, bool @!shortcut) - /*sets |cur_val| to a dimension*/ -{@+ -bool negative; /*should the answer be negated?*/ -int @!f; /*numerator of a fraction whose denominator is $2^{16}$*/ -@<Local variables for dimension calculations@>@; -f=0;arith_error=false;cur_order=normal;negative=false; -cur_hfactor=cur_vfactor=0; -if (!shortcut) - {@+@<Get the next non-blank non-sign...@>; - if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) - @<Fetch an internal dimension and |goto attach_sign|, or fetch an internal integer@>@; - else{@+back_input(); - if (cur_tok==continental_point_token) cur_tok=point_token; - if (cur_tok!=point_token) scan_int(); - else{@+radix=10;cur_val=0; - } - if (cur_tok==continental_point_token) cur_tok=point_token; - if ((radix==10)&&(cur_tok==point_token)) @<Scan decimal fraction@>; - } - } -if (cur_val < 0) /*in this case |f==0|*/ - {@+negative=!negative;negate(cur_val); - } -@<Scan units and set |cur_val| to $x\cdot(|cur_val|+f/2^{16})$, where there are |x| -sp per unit; |goto attach_sign| if the units are internal@>; -@<Scan an optional space@>; -attach_sign: -if (arith_error||(abs(cur_val) >= 010000000000)|| -(abs(cur_hfactor) >= 010000000000) || (abs(cur_vfactor) >= 010000000000)) - @<Report that this dimension is out of range@>; -if (negative) @/{@+ negate(cur_val);@+ negate(cur_hfactor); @+negate(cur_vfactor);@+ } -} - -@ @<Fetch an internal dimension and |goto attach_sign|...@>= -if (mu) - {@+scan_something_internal(mu_val, false); - @<Coerce glue to a dimension@>; - if (cur_val_level==mu_val) goto attach_sign; - if (cur_val_level!=int_val) mu_error(); - } -else{@+scan_something_internal(dimen_val, false); - if (cur_val_level==dimen_val) goto attach_sign; - } - -@ @<Local variables for dimension calculations@>= -int @!num, @!denom; /*conversion ratio for the scanned units*/ -int @!k, @!kk; /*number of digits in a decimal fraction*/ -pointer @!p, @!q; /*top of decimal digit stack*/ -scaled @!v; /*an internal dimension*/ -int @!save_cur_val; /*temporary storage of |cur_val|*/ - -@ The following code is executed when |scan_something_internal| was -called asking for |mu_val|, when we really wanted a ``mudimen'' instead -of ``muglue.'' - -@<Coerce glue to a dimension@>= -if (cur_val_level >= glue_val) - {@+v=width(cur_val);delete_glue_ref(cur_val);cur_val=v; - } - -@ When the following code is executed, we have |cur_tok==point_token|, but this -token has been backed up using |back_input|; we must first discard it. - -It turns out that a decimal point all by itself is equivalent to `\.{0.0}'. -Let's hope people don't use that fact. - -@<Scan decimal fraction@>= -{@+k=0;p=null;get_token(); /*|point_token| is being re-scanned*/ -loop@+{@+get_x_token(); - if ((cur_tok > zero_token+9)||(cur_tok < zero_token)) goto done1; - if (k < 17) /*digits for |k >= 17| cannot affect the result*/ - {@+q=get_avail();link(q)=p;info(q)=cur_tok-zero_token; - p=q;incr(k); - } - } -done1: for (kk=k; kk>=1; kk--) - {@+dig[kk-1]=info(p);q=p;p=link(p);free_avail(q); - } -f=round_decimals(k); -if (cur_cmd!=spacer) back_input(); -} - -@ Now comes the harder part: At this point in the program, |cur_val| is a -nonnegative integer and $f/2^{16}$ is a nonnegative fraction less than 1; -we want to multiply the sum of these two quantities by the appropriate -factor, based on the specified units, in order to produce a |scaled| -result, and we want to do the calculation with fixed point arithmetic that -does not overflow. - -@<Scan units and set |cur_val| to $x\cdot(|cur_val|+f/2^{16})$...@>= -if (inf) @<Scan for \(f)\.{fil} units; |goto attach_fraction| if found@>; -@<Scan for \(u)units that are internal dimensions; |goto attach_sign| with |cur_val| -set if found@>; -if (mu) @<Scan for \(m)\.{mu} units and |goto attach_fraction|@>; -if (scan_keyword("true")) @<Adjust \(f)for the magnification ratio@>; -@.true@> -if (scan_keyword("pt")) goto attach_fraction; /*the easy case*/ -@.pt@> -@<Scan for \(a)all other units and adjust |cur_val| and |f| accordingly; |goto done| -in the case of scaled points@>; -attach_fraction: if (cur_val >= 040000) arith_error=true; -else cur_val=cur_val*unity+f; -done: - -@ A specification like `\.{filllll}' or `\.{fill L L L}' will lead to two -error messages (one for each additional keyword \.{"l"}). - -@<Scan for \(f)\.{fil} units...@>= -if (scan_keyword("fil")) -@.fil@> - {@+cur_order=fil; - while (scan_keyword("l")) - {@+if (cur_order==filll) - {@+print_err("Illegal unit of measure ("); -@.Illegal unit of measure@> - print("replaced by filll)"); - help1("I dddon't go any higher than filll.");error(); - } - else incr(cur_order); - } - goto attach_fraction; - } - -@ @<Scan for \(u)units that are internal dimensions...@>= -save_cur_val=cur_val; -if (has_factor) -{ print_err("Factor is not constant. Linear component ignored"); - cur_hfactor=cur_vfactor=0; -} -@<Get the next non-blank non-call...@>; -if ((cur_cmd < min_internal)||(cur_cmd > max_internal)) back_input(); -else{@+if (mu) - {@+scan_something_internal(mu_val, false);@<Coerce glue...@>; - if (cur_val_level!=mu_val) mu_error(); - } - else scan_something_internal(dimen_val, false); - v=cur_val;goto found; - } -if (mu) goto not_found; -if (scan_keyword("em")) v=(@<The em width for |cur_font|@>); -@.em@> -else if (scan_keyword("ex")) v=(@<The x-height for |cur_font|@>); -@.ex@> -else goto not_found; -@<Scan an optional space@>; -found: -if (has_factor) -{ cur_hfactor=nx_plus_y(save_cur_val, cur_hfactor, xn_over_d(cur_hfactor, f, unity)); - cur_vfactor=nx_plus_y(save_cur_val, cur_vfactor, xn_over_d(cur_vfactor, f, unity)); -} - cur_val=nx_plus_y(save_cur_val, v, xn_over_d(v, f, unity)); -goto attach_sign; -not_found: - -@ @<Scan for \(m)\.{mu} units and |goto attach_fraction|@>= -if (scan_keyword("mu")) goto attach_fraction; -@.mu@> -else{@+print_err("Illegal unit of measure (");print("mu inserted)"); -@.Illegal unit of measure@> - help4("The unit of measurement in math glue must be mu.",@/ - "To recover gracefully from this error, it's best to",@/ - "delete the erroneous units; e.g., type `2' to delete",@/ - "two letters. (See Chapter 27 of The TeXbook.)"); -@:TeXbook}{\sl The \TeX book@> - error();goto attach_fraction; - } - -@ @<Adjust \(f)for the magnification ratio@>= -{@+prepare_mag(); -if (mag!=1000) - {@+cur_val=xn_over_d(cur_val, 1000, mag); - f=(1000*f+0200000*rem)/mag; - cur_val=cur_val+(f/0200000);f=f%0200000; - } -} - -@ The necessary conversion factors can all be specified exactly as -fractions whose numerator and denominator sum to 32768 or less. -According to the definitions here, $\rm2660\,dd\approx1000.33297\,mm$; -this agrees well with the value $\rm1000.333\,mm$ cited by Bosshard -@^Bosshard, Hans Rudolf@> -in {\sl Technische Grundlagen zur Satzherstellung\/} (Bern, 1980). - -@d set_conversion(A, B) @+{@+num=A;denom=B;} - -@<Scan for \(a)all other units and adjust |cur_val| and |f|...@>= -if (scan_keyword("in")) set_conversion(7227, 100)@; -@.in@> -else if (scan_keyword("pc")) set_conversion(12, 1)@; -@.pc@> -else if (scan_keyword("cm")) set_conversion(7227, 254)@; -@.cm@> -else if (scan_keyword("mm")) set_conversion(7227, 2540)@; -@.mm@> -else if (scan_keyword("bp")) set_conversion(7227, 7200)@; -@.bp@> -else if (scan_keyword("dd")) set_conversion(1238, 1157)@; -@.dd@> -else if (scan_keyword("cc")) set_conversion(14856, 1157)@; -@.cc@> -else if (scan_keyword("sp")) goto done; -@.sp@> -else@<Complain about unknown unit and |goto done2|@>; -cur_val=xn_over_d(cur_val, num, denom); -f=(num*f+0200000*rem)/denom;@/ -cur_val=cur_val+(f/0200000);f=f%0200000; -done2: - -@ @<Complain about unknown unit...@>= -{@+print_err("Illegal unit of measure (");print("pt inserted)"); -@.Illegal unit of measure@> -help6("Dimensions can be in units of em, ex, in, pt, pc,",@/ - "cm, mm, dd, cc, bp, or sp; but yours is a new one!",@/ - "I'll assume that you meant to say pt, for printer's points.",@/ - "To recover gracefully from this error, it's best to",@/ - "delete the erroneous units; e.g., type `2' to delete",@/ - "two letters. (See Chapter 27 of The TeXbook.)"); -@:TeXbook}{\sl The \TeX book@> -error();goto done2; -} - - -@ @<Report that this dimension is out of range@>= -{@+print_err("Dimension too large"); -@.Dimension too large@> -help2("I can't work with sizes bigger than about 19 feet.",@/ - "Continue and I'll use the largest value I can.");@/ -error();cur_val=max_dimen;arith_error=false; -} - -@ The final member of \TeX's value-scanning trio is |scan_glue|, which -makes |cur_val| point to a glue specification. The reference count of that -glue spec will take account of the fact that |cur_val| is pointing to~it. - -The |level| parameter should be either |glue_val| or |mu_val|. - -Since |scan_dimen| was so much more complex than |scan_int|, we might expect -|scan_glue| to be even worse. But fortunately, it is very simple, since -most of the work has already been done. - -@p static void scan_glue(small_number @!level) - /*sets |cur_val| to a glue spec pointer*/ -{@+ -bool negative; /*should the answer be negated?*/ -pointer @!q; /*new glue specification*/ -bool @!mu; /*does |level==mu_val|?*/ -mu=(level==mu_val);@<Get the next non-blank non-sign...@>; -if ((cur_cmd >= min_internal)&&(cur_cmd <= max_internal)) - {@+scan_something_internal(level, negative); - if (cur_val_level >= glue_val) - {@+if (cur_val_level!=level) mu_error(); - return; - } - if (cur_val_level==int_val) scan_dimen(mu, false, true); - else if (level==mu_val) mu_error(); - } -else{@+back_input();scan_dimen(mu, false, false); - if (negative) { negate(cur_val); negate(cur_hfactor); negate(cur_vfactor);} - } -@<Create a new glue specification whose width is |cur_val|; scan for its stretch and -shrink components@>; -} -@# -@<Declare procedures needed for expressions@>@; - -@ @<Create a new glue specification whose width is |cur_val|...@>= -q=new_spec(zero_glue);width(q)=cur_val; -if (scan_keyword("plus")) -@.plus@> - {@+scan_dimen(mu, true, false); - stretch(q)=cur_val;stretch_order(q)=cur_order; - } -if (scan_keyword("minus")) -@.minus@> - {@+scan_dimen(mu, true, false); - shrink(q)=cur_val;shrink_order(q)=cur_order; - } -cur_val=q - -@ Here's a similar procedure that returns a pointer to a rule node. This -routine is called just after \TeX\ has seen \.{\\hrule} or \.{\\vrule}; -therefore |cur_cmd| will be either |hrule| or |vrule|. The idea is to store -the default rule dimensions in the node, then to override them if -`\.{height}' or `\.{width}' or `\.{depth}' specifications are -found (in any order). - -@d default_rule 26214 /*0.4\thinspace pt*/ - -@p static pointer scan_rule_spec(void) -{@+ -pointer q; /*the rule node being created*/ -q=new_rule(); /*|width|, |depth|, and |height| all equal |null_flag| now*/ -if (cur_cmd==vrule) width(q)=default_rule; -else{@+height(q)=default_rule;depth(q)=0; - } -reswitch: if (scan_keyword("width")) -@.width@> - {@+scan_normal_dimen;width(q)=cur_val;goto reswitch; - } -if (scan_keyword("height")) -@.height@> - {@+scan_normal_dimen;height(q)=cur_val;goto reswitch; - } -if (scan_keyword("depth")) -@.depth@> - {@+scan_normal_dimen;depth(q)=cur_val;goto reswitch; - } -return q; -} - -@* Building token lists. -The token lists for macros and for other things like \.{\\mark} and \.{\\output} -and \.{\\write} are produced by a procedure called |scan_toks|. - -Before we get into the details of |scan_toks|, let's consider a much -simpler task, that of converting the current string into a token list. -The |str_toks| function does this; it classifies spaces as type |spacer| -and everything else as type |other_char|. - -The token list created by |str_toks| begins at |link(temp_head)| and ends -at the value |p| that is returned. (If |p==temp_head|, the list is empty.) - -@p @t\4@>@<Declare \eTeX\ procedures for token lists@>@;@/ -static pointer str_toks(pool_pointer @!b) - /*converts |str_pool[b dotdot pool_ptr-1]| to a token list*/ -{@+pointer p; /*tail of the token list*/ -pointer @!q; /*new node being added to the token list via |store_new_token|*/ -halfword @!t; /*token being appended*/ -pool_pointer @!k; /*index into |str_pool|*/ -str_room(1); -p=temp_head;link(p)=null;k=b; -while (k < pool_ptr) - {@+t=so(str_pool[k]); - if (t==' ') t=space_token; - else t=other_token+t; - fast_store_new_token(t); - incr(k); - } -pool_ptr=b;return p; -} - -@ The main reason for wanting |str_toks| is the next function, -|the_toks|, which has similar input/output characteristics. - -This procedure is supposed to scan something like `\.{\\skip\\count12}', -i.e., whatever can follow `\.{\\the}', and it constructs a token list -containing something like `\.{-3.0pt minus 0.5fill}'. - -@p static pointer the_toks(void) -{@+ -int old_setting; /*holds |selector| setting*/ -pointer @!p, @!q, @!r; /*used for copying a token list*/ -pool_pointer @!b; /*base of temporary string*/ -small_number @!c; /*value of |cur_chr|*/ -@<Handle \.{\\unexpanded} or \.{\\detokenize} and |return|@>;@/ -get_x_token();scan_something_internal(tok_val, false); -if (cur_val_level >= ident_val) @<Copy the token list@>@; -else{@+old_setting=selector;selector=new_string;b=pool_ptr; - switch (cur_val_level) { - case int_val: print_int(cur_val);@+break; - case dimen_val: {@+print_scaled(cur_val);print("pt"); - } @+break; - case glue_val: {@+print_spec(cur_val,"pt");delete_glue_ref(cur_val); - } @+break; - case mu_val: {@+print_spec(cur_val,"mu");delete_glue_ref(cur_val); - } - } /*there are no other cases*/ - selector=old_setting;return str_toks(b); - } -} - -@ @<Copy the token list@>= -{@+p=temp_head;link(p)=null; -if (cur_val_level==ident_val) store_new_token(cs_token_flag+cur_val)@; -else if (cur_val!=null) - {@+r=link(cur_val); /*do not copy the reference count*/ - while (r!=null) - {@+fast_store_new_token(info(r));r=link(r); - } - } -return p; -} - -@ Here's part of the |expand| subroutine that we are now ready to complete: - -@p static void ins_the_toks(void) -{@+link(garbage)=the_toks();ins_list(link(temp_head)); -} - -@ The primitives \.{\\number}, \.{\\romannumeral}, \.{\\string}, \.{\\meaning}, -\.{\\fontname}, and \.{\\jobname} are defined as follows. - -\eTeX\ adds \.{\\eTeXrevision} such that |job_name_code| remains last. - -@d number_code 0 /*command code for \.{\\number}*/ -@d roman_numeral_code 1 /*command code for \.{\\romannumeral}*/ -@d string_code 2 /*command code for \.{\\string}*/ -@d meaning_code 3 /*command code for \.{\\meaning}*/ -@d font_name_code 4 /*command code for \.{\\fontname}*/ -@d etex_convert_base 5 /*base for \eTeX's command codes*/ -@d eTeX_revision_code etex_convert_base /*command code for \.{\\eTeXrevision}*/ -@d etex_convert_codes (etex_convert_base+1) /*end of \eTeX's command codes*/ -@d job_name_code etex_convert_codes /*command code for \.{\\jobname}*/ - -@<Put each...@>= -primitive("number", convert, number_code);@/ -@!@:number\_}{\.{\\number} primitive@> -primitive("romannumeral", convert, roman_numeral_code);@/ -@!@:roman\_numeral\_}{\.{\\romannumeral} primitive@> -primitive("string", convert, string_code);@/ -@!@:string\_}{\.{\\string} primitive@> -primitive("meaning", convert, meaning_code);@/ -@!@:meaning\_}{\.{\\meaning} primitive@> -primitive("fontname", convert, font_name_code);@/ -@!@:font\_name\_}{\.{\\fontname} primitive@> -primitive("jobname", convert, job_name_code);@/ -@!@:job\_name\_}{\.{\\jobname} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case convert: switch (chr_code) { - case number_code: print_esc("number");@+break; - case roman_numeral_code: print_esc("romannumeral");@+break; - case string_code: print_esc("string");@+break; - case meaning_code: print_esc("meaning");@+break; - case font_name_code: print_esc("fontname");@+break; - case eTeX_revision_code: print_esc("eTeXrevision");@+break; - default:print_esc("jobname"); - } @+break; - -@ The procedure |conv_toks| uses |str_toks| to insert the token list -for |convert| functions into the scanner; `\.{\\outer}' control sequences -are allowed to follow `\.{\\string}' and `\.{\\meaning}'. - -@p static void conv_toks(void) -{@+int old_setting; /*holds |selector| setting*/ -int @!c; /*desired type of conversion*/ -small_number @!save_scanner_status; /*|scanner_status| upon entry*/ -pool_pointer @!b; /*base of temporary string*/ -c=cur_chr;@<Scan the argument for command |c|@>; -old_setting=selector;selector=new_string;b=pool_ptr; -@<Print the result of command |c|@>; -selector=old_setting;link(garbage)=str_toks(b);ins_list(link(temp_head)); -} - -@ @<Scan the argument for command |c|@>= -switch (c) { -case number_code: case roman_numeral_code: scan_int();@+break; -case string_code: case meaning_code: {@+save_scanner_status=scanner_status; - scanner_status=normal;get_token();scanner_status=save_scanner_status; - } @+break; -case font_name_code: scan_font_ident();@+break; -case eTeX_revision_code: do_nothing;@+break; -case job_name_code: if (job_name==0) open_log_file(); -} /*there are no other cases*/ - -@ @<Print the result of command |c|@>= -switch (c) { -case number_code: print_int(cur_val);@+break; -case roman_numeral_code: print_roman_int(cur_val);@+break; -case string_code: if (cur_cs!=0) sprint_cs(cur_cs); - else print_char(cur_chr);@+break; -case meaning_code: print_meaning();@+break; -case font_name_code: {@+printn(font_name[cur_val]); - if (font_size[cur_val]!=font_dsize[cur_val]) - {@+print(" at ");print_scaled(font_size[cur_val]); - print("pt"); - } - } @+break; -case eTeX_revision_code: print(eTeX_revision);@+break; -case job_name_code: printn(job_name); -} /*there are no other cases*/ - -@ Now we can't postpone the difficulties any longer; we must bravely tackle -|scan_toks|. This function returns a pointer to the tail of a new token -list, and it also makes |def_ref| point to the reference count at the -head of that list. - -There are two boolean parameters, |macro_def| and |xpand|. If |macro_def| -is true, the goal is to create the token list for a macro definition; -otherwise the goal is to create the token list for some other \TeX\ -primitive: \.{\\mark}, \.{\\output}, \.{\\everypar}, \.{\\lowercase}, -\.{\\uppercase}, \.{\\message}, \.{\\errmessage}, \.{\\write}, or -\.{\\special}. In the latter cases a left brace must be scanned next; this -left brace will not be part of the token list, nor will the matching right -brace that comes at the end. If |xpand| is false, the token list will -simply be copied from the input using |get_token|. Otherwise all expandable -tokens will be expanded until unexpandable tokens are left, except that -the results of expanding `\.{\\the}' are not expanded further. -If both |macro_def| and |xpand| are true, the expansion applies -only to the macro body (i.e., to the material following the first -|left_brace| character). - -The value of |cur_cs| when |scan_toks| begins should be the |eqtb| -address of the control sequence to display in ``runaway'' error -messages. - -@p static pointer scan_toks(bool @!macro_def, bool @!xpand) -{@+ -halfword t; /*token representing the highest parameter number*/ -halfword @!s; /*saved token*/ -pointer @!p; /*tail of the token list being built*/ -pointer @!q; /*new node being added to the token list via |store_new_token|*/ -halfword @!unbalance; /*number of unmatched left braces*/ -halfword @!hash_brace; /*possible `\.{\#\{}' token*/ -if (macro_def) scanner_status=defining; -@+else scanner_status=absorbing; -warning_index=cur_cs;def_ref=get_avail();token_ref_count(def_ref)=null; -p=def_ref;hash_brace=0;t=zero_token; -if (macro_def) @<Scan and build the parameter part of the macro definition@>@; -else scan_left_brace(); /*remove the compulsory left brace*/ -@<Scan and build the body of the token list; |goto found| when finished@>; -found: scanner_status=normal; -if (hash_brace!=0) store_new_token(hash_brace); -return p; -} - -@ @<Scan and build the parameter part...@>= -{@+loop{@+resume: get_token(); /*set |cur_cmd|, |cur_chr|, |cur_tok|*/ - if (cur_tok < right_brace_limit) goto done1; - if (cur_cmd==mac_param) - @<If the next character is a parameter number, make |cur_tok| a |match| token; -but if it is a left brace, store `|left_brace|, |end_match|', set |hash_brace|, and -|goto done|@>; - store_new_token(cur_tok); - } -done1: store_new_token(end_match_token); -if (cur_cmd==right_brace) - @<Express shock at the missing left brace; |goto found|@>; -done: ;} - -@ @<Express shock...@>= -{@+print_err("Missing { inserted");incr(align_state); -@.Missing \{ inserted@> -help2("Where was the left brace? You said something like `\\def\\a}',",@/ - "which I'm going to interpret as `\\def\\a{}'.");error();goto found; -} - -@ @<If the next character is a parameter number...@>= -{@+s=match_token+cur_chr;get_token(); -if (cur_tok < left_brace_limit) - {@+hash_brace=cur_tok; - store_new_token(cur_tok);store_new_token(end_match_token); - goto done; - } -if (t==zero_token+9) - {@+print_err("You already have nine parameters"); -@.You already have nine...@> - help2("I'm going to ignore the # sign you just used,",@/ - "as well as the token that followed it.");error();goto resume; - } -else{@+incr(t); - if (cur_tok!=t) - {@+print_err("Parameters must be numbered consecutively"); -@.Parameters...consecutively@> - help2("I've inserted the digit you should have used after the #.",@/ - "Type `1' to delete what you did use.");back_error(); - } - cur_tok=s; - } -} - -@ @<Scan and build the body of the token list; |goto found| when finished@>= -unbalance=1; -loop@+{@+if (xpand) @<Expand the next part of the input@>@; - else get_token(); - if (cur_tok < right_brace_limit) - if (cur_cmd < right_brace) incr(unbalance); - else{@+decr(unbalance); - if (unbalance==0) goto found; - } - else if (cur_cmd==mac_param) - if (macro_def) @<Look for parameter number or \.{\#\#}@>; - store_new_token(cur_tok); - } - -@ Here we insert an entire token list created by |the_toks| without -expanding it further. - -@<Expand the next part of the input@>= -{@+loop{@+get_next(); - if (cur_cmd >= call) - if (info(link(cur_chr))==protected_token) - {@+cur_cmd=relax;cur_chr=no_expand_flag; - } - if (cur_cmd <= max_command) goto done2; - if (cur_cmd!=the) expand(); - else{@+q=the_toks(); - if (link(temp_head)!=null) - {@+link(p)=link(temp_head);p=q; - } - } - } -done2: x_token(); -} - -@ @<Look for parameter number...@>= -{@+s=cur_tok; -if (xpand) get_x_token();else get_token(); -if (cur_cmd!=mac_param) - if ((cur_tok <= zero_token)||(cur_tok > t)) - {@+print_err("Illegal parameter number in definition of "); -@.Illegal parameter number...@> - sprint_cs(warning_index); - help3("You meant to type ## instead of #, right?",@/ - "Or maybe a } was forgotten somewhere earlier, and things",@/ - "are all screwed up? I'm going to assume that you meant ##."); - back_error();cur_tok=s; - } - else cur_tok=out_param_token-'0'+cur_chr; -} - -@ Another way to create a token list is via the \.{\\read} command. The -sixteen files potentially usable for reading appear in the following -global variables. The value of |read_open[n]| will be |closed| if -stream number |n| has not been opened or if it has been fully read; -|just_open| if an \.{\\openin} but not a \.{\\read} has been done; -and |normal| if it is open and ready to read the next line. - -@d closed 2 /*not open, or at end of file*/ -@d just_open 1 /*newly opened, first line not yet read*/ - -@<Glob...@>= -static alpha_file @!read_file[16]; /*used for \.{\\read}*/ -static int8_t @!read_open[17]; /*state of |read_file[n]|*/ - -@ @<Set init...@>= -for (k=0; k<=16; k++) read_open[k]=closed; - -@ The |read_toks| procedure constructs a token list like that for any -macro definition, and makes |cur_val| point to it. Parameter |r| points -to the control sequence that will receive this token list. - -@p static void read_toks(int @!n, pointer @!r, halfword @!j) -{@+ -pointer p; /*tail of the token list*/ -pointer @!q; /*new node being added to the token list via |store_new_token|*/ -int @!s; /*saved value of |align_state|*/ -small_number @!m; /*stream number*/ -scanner_status=defining;warning_index=r; -def_ref=get_avail();token_ref_count(def_ref)=null; -p=def_ref; /*the reference count*/ -store_new_token(end_match_token); -if ((n < 0)||(n > 15)) m=16;@+else m=n; -s=align_state;align_state=1000000; /*disable tab marks, etc.*/ -@/do@+{@<Input and store tokens from the next line of the file@>; -}@+ while (!(align_state==1000000)); -cur_val=def_ref;scanner_status=normal;align_state=s; -} - -@ @<Input and store tokens from the next line of the file@>= -begin_file_reading();name=m+1; -if (read_open[m]==closed) @<Input for \.{\\read} from the terminal@>; -else if (read_open[m]==just_open) @<Input the first line of |read_file[m]|@>@; -else@<Input the next line of |read_file[m]|@>; -limit=last; -if (end_line_char_inactive) decr(limit); -else buffer[limit]=end_line_char; -first=limit+1;loc=start;state=new_line;@/ -@<Handle \.{\\readline} and |goto done|@>;@/ -loop@+{@+get_token(); - if (cur_tok==0) goto done; - /*|cur_cmd==cur_chr==0| will occur at the end of the line*/ - if (align_state < 1000000) /*unmatched `\.\}' aborts the line*/ - {@+@/do@+{get_token();}@+ while (!(cur_tok==0)); - align_state=1000000;goto done; - } - store_new_token(cur_tok); - } -done: end_file_reading() - -@ Here we input on-line into the |buffer| array, prompting the user explicitly -if |n >= 0|. The value of |n| is set negative so that additional prompts -will not be given in the case of multi-line input. - -@<Input for \.{\\read} from the terminal@>= -if (interaction > nonstop_mode) - if (n < 0) prompt_input("")@; - else{@+wake_up_terminal; - print_ln();sprint_cs(r);prompt_input("=");n=-1; - } -else fatal_error("*** (cannot \\read from terminal in nonstop modes)") -@.cannot \\read@> - -@ The first line of a file must be treated specially, since |input_ln| -must be told not to start with |get|. -@^system dependencies@> - -@<Input the first line of |read_file[m]|@>= -if (input_ln(&read_file[m], false)) read_open[m]=normal; -else{@+a_close(&read_file[m]);read_open[m]=closed; - } - -@ An empty line is appended at the end of a |read_file|. -@^empty line at end of file@> - -@<Input the next line of |read_file[m]|@>= -{@+if (!input_ln(&read_file[m], true)) - {@+a_close(&read_file[m]);read_open[m]=closed; - if (align_state!=1000000) - {@+runaway(); - print_err("File ended within ");print_esc("read"); -@.File ended within \\read@> - help1("This \\read has unbalanced braces."); - align_state=1000000;limit=0;error(); - } - } -} - -@* Conditional processing. -We consider now the way \TeX\ handles various kinds of \.{\\if} commands. - -@d unless_code 32 /*amount added for `\.{\\unless}' prefix*/ -@# -@d if_char_code 0 /* `\.{\\if}' */ -@d if_cat_code 1 /* `\.{\\ifcat}' */ -@d if_int_code 2 /* `\.{\\ifnum}' */ -@d if_dim_code 3 /* `\.{\\ifdim}' */ -@d if_odd_code 4 /* `\.{\\ifodd}' */ -@d if_vmode_code 5 /* `\.{\\ifvmode}' */ -@d if_hmode_code 6 /* `\.{\\ifhmode}' */ -@d if_mmode_code 7 /* `\.{\\ifmmode}' */ -@d if_inner_code 8 /* `\.{\\ifinner}' */ -@d if_void_code 9 /* `\.{\\ifvoid}' */ -@d if_hbox_code 10 /* `\.{\\ifhbox}' */ -@d if_vbox_code 11 /* `\.{\\ifvbox}' */ -@d ifx_code 12 /* `\.{\\ifx}' */ -@d if_eof_code 13 /* `\.{\\ifeof}' */ -@d if_true_code 14 /* `\.{\\iftrue}' */ -@d if_false_code 15 /* `\.{\\iffalse}' */ -@d if_case_code 16 /* `\.{\\ifcase}' */ - -@<Put each...@>= -primitive("if", if_test, if_char_code); -@!@:if\_char\_}{\.{\\if} primitive@> -primitive("ifcat", if_test, if_cat_code); -@!@:if\_cat\_code\_}{\.{\\ifcat} primitive@> -primitive("ifnum", if_test, if_int_code); -@!@:if\_int\_}{\.{\\ifnum} primitive@> -primitive("ifdim", if_test, if_dim_code); -@!@:if\_dim\_}{\.{\\ifdim} primitive@> -primitive("ifodd", if_test, if_odd_code); -@!@:if\_odd\_}{\.{\\ifodd} primitive@> -primitive("ifvmode", if_test, if_vmode_code); -@!@:if\_vmode\_}{\.{\\ifvmode} primitive@> -primitive("ifhmode", if_test, if_hmode_code); -@!@:if\_hmode\_}{\.{\\ifhmode} primitive@> -primitive("ifmmode", if_test, if_mmode_code); -@!@:if\_mmode\_}{\.{\\ifmmode} primitive@> -primitive("ifinner", if_test, if_inner_code); -@!@:if\_inner\_}{\.{\\ifinner} primitive@> -primitive("ifvoid", if_test, if_void_code); -@!@:if\_void\_}{\.{\\ifvoid} primitive@> -primitive("ifhbox", if_test, if_hbox_code); -@!@:if\_hbox\_}{\.{\\ifhbox} primitive@> -primitive("ifvbox", if_test, if_vbox_code); -@!@:if\_vbox\_}{\.{\\ifvbox} primitive@> -primitive("ifx", if_test, ifx_code); -@!@:ifx\_}{\.{\\ifx} primitive@> -primitive("ifeof", if_test, if_eof_code); -@!@:if\_eof\_}{\.{\\ifeof} primitive@> -primitive("iftrue", if_test, if_true_code); -@!@:if\_true\_}{\.{\\iftrue} primitive@> -primitive("iffalse", if_test, if_false_code); -@!@:if\_false\_}{\.{\\iffalse} primitive@> -primitive("ifcase", if_test, if_case_code); -@!@:if\_case\_}{\.{\\ifcase} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case if_test: {@+if (chr_code >= unless_code) print_esc("unless"); -switch (chr_code%unless_code) { - case if_cat_code: print_esc("ifcat");@+break; - case if_int_code: print_esc("ifnum");@+break; - case if_dim_code: print_esc("ifdim");@+break; - case if_odd_code: print_esc("ifodd");@+break; - case if_vmode_code: print_esc("ifvmode");@+break; - case if_hmode_code: print_esc("ifhmode");@+break; - case if_mmode_code: print_esc("ifmmode");@+break; - case if_inner_code: print_esc("ifinner");@+break; - case if_void_code: print_esc("ifvoid");@+break; - case if_hbox_code: print_esc("ifhbox");@+break; - case if_vbox_code: print_esc("ifvbox");@+break; - case ifx_code: print_esc("ifx");@+break; - case if_eof_code: print_esc("ifeof");@+break; - case if_true_code: print_esc("iftrue");@+break; - case if_false_code: print_esc("iffalse");@+break; - case if_case_code: print_esc("ifcase");@+break; - @/@<Cases of |if_test| for |print_cmd_chr|@>@/ - default:print_esc("if"); - } -} @+break; - -@ Conditions can be inside conditions, and this nesting has a stack -that is independent of the |save_stack|. - -Four global variables represent the top of the condition stack: -|cond_ptr| points to pushed-down entries, if any; |if_limit| specifies -the largest code of a |fi_or_else| command that is syntactically legal; -|cur_if| is the name of the current type of conditional; and |if_line| -is the line number at which it began. - -If no conditions are currently in progress, the condition stack has the -special state |cond_ptr==null|, |if_limit==normal|, |cur_if==0|, |if_line==0|. -Otherwise |cond_ptr| points to a two-word node; the |type|, |subtype|, and -|link| fields of the first word contain |if_limit|, |cur_if|, and -|cond_ptr| at the next level, and the second word contains the -corresponding |if_line|. - -@d if_node_size 2 /*number of words in stack entry for conditionals*/ -@d if_line_field(A) mem[A+1].i -@d if_code 1 /*code for \.{\\if...} being evaluated*/ -@d fi_code 2 /*code for \.{\\fi}*/ -@d else_code 3 /*code for \.{\\else}*/ -@d or_code 4 /*code for \.{\\or}*/ - -@<Glob...@>= -static pointer @!cond_ptr; /*top of the condition stack*/ -static int @!if_limit; /*upper bound on |fi_or_else| codes*/ -static small_number @!cur_if; /*type of conditional being worked on*/ -static int @!if_line; /*line where that conditional began*/ - -@ @<Set init...@>= -cond_ptr=null;if_limit=normal;cur_if=0;if_line=0; - -@ @<Put each...@>= -primitive("fi", fi_or_else, fi_code); -@!@:fi\_}{\.{\\fi} primitive@> -text(frozen_fi)=text(cur_val);eqtb[frozen_fi]=eqtb[cur_val]; -primitive("or", fi_or_else, or_code); -@!@:or\_}{\.{\\or} primitive@> -primitive("else", fi_or_else, else_code); -@!@:else\_}{\.{\\else} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case fi_or_else: if (chr_code==fi_code) print_esc("fi"); - else if (chr_code==or_code) print_esc("or"); - else print_esc("else");@+break; - -@ When we skip conditional text, we keep track of the line number -where skipping began, for use in error messages. - -@<Glob...@>= -static int @!skip_line; /*skipping began here*/ - -@ Here is a procedure that ignores text until coming to an \.{\\or}, -\.{\\else}, or \.{\\fi} at the current level of $\.{\\if}\ldots\.{\\fi}$ -nesting. After it has acted, |cur_chr| will indicate the token that -was found, but |cur_tok| will not be set (because this makes the -procedure run faster). - -@p static void pass_text(void) -{@+ -int l; /*level of $\.{\\if}\ldots\.{\\fi}$ nesting*/ -small_number @!save_scanner_status; /*|scanner_status| upon entry*/ -save_scanner_status=scanner_status;scanner_status=skipping;l=0; -skip_line=line; -loop@+{@+get_next(); - if (cur_cmd==fi_or_else) - {@+if (l==0) goto done; - if (cur_chr==fi_code) decr(l); - } - else if (cur_cmd==if_test) incr(l); - } -done: scanner_status=save_scanner_status; -if (tracing_ifs > 0) show_cur_cmd_chr(); -} - -@ When we begin to process a new \.{\\if}, we set |if_limit=if_code|; then -if\/ \.{\\or} or \.{\\else} or \.{\\fi} occurs before the current \.{\\if} -condition has been evaluated, \.{\\relax} will be inserted. -For example, a sequence of commands like `\.{\\ifvoid1\\else...\\fi}' -would otherwise require something after the `\.1'. - -@<Push the condition stack@>= -{@+p=get_node(if_node_size);link(p)=cond_ptr;type(p)=if_limit; -subtype(p)=cur_if;if_line_field(p)=if_line; -cond_ptr=p;cur_if=cur_chr;if_limit=if_code;if_line=line; -} - -@ @<Pop the condition stack@>= -{@+if (if_stack[in_open]==cond_ptr) if_warning(); - /*conditionals possibly not properly nested with files*/ -p=cond_ptr;if_line=if_line_field(p); -cur_if=subtype(p);if_limit=type(p);cond_ptr=link(p); -free_node(p, if_node_size); -} - -@ Here's a procedure that changes the |if_limit| code corresponding to -a given value of |cond_ptr|. - -@p static void change_if_limit(small_number @!l, pointer @!p) -{@+ -pointer q; -if (p==cond_ptr) if_limit=l; /*that's the easy case*/ -else{@+q=cond_ptr; - loop@+{@+if (q==null) confusion("if"); -@:this can't happen if}{\quad if@> - if (link(q)==p) - {@+type(q)=l;return; - } - q=link(q); - } - } -} - -@ A condition is started when the |expand| procedure encounters -an |if_test| command; in that case |expand| reduces to |conditional|, -which is a recursive procedure. -@^recursion@> - -@p static void conditional(void) -{@+ -bool b; /*is the condition true?*/ -int @!r; /*relation to be evaluated*/ -int @!m, @!n; /*to be tested against the second operand*/ -pointer @!p, @!q; /*for traversing token lists in \.{\\ifx} tests*/ -small_number @!save_scanner_status; /*|scanner_status| upon entry*/ -pointer @!save_cond_ptr; /*|cond_ptr| corresponding to this conditional*/ -small_number @!this_if; /*type of this conditional*/ -bool @!is_unless; /*was this if preceded by `\.{\\unless}' ?*/ -if (tracing_ifs > 0) if (tracing_commands <= 1) show_cur_cmd_chr(); -@<Push the condition stack@>;@+save_cond_ptr=cond_ptr; -is_unless=(cur_chr >= unless_code);this_if=cur_chr%unless_code;@/ -@<Either process \.{\\ifcase} or set |b| to the value of a boolean condition@>; -if (is_unless) b=!b; -if (tracing_commands > 1) @<Display the value of |b|@>; -if (b) - {@+change_if_limit(else_code, save_cond_ptr); - return; /*wait for \.{\\else} or \.{\\fi}*/ - } -@<Skip to \.{\\else} or \.{\\fi}, then |goto common_ending|@>; -common_ending: if (cur_chr==fi_code) @<Pop the condition stack@>@; -else if_limit=fi_code; /*wait for \.{\\fi}*/ -} - -@ In a construction like `\.{\\if\\iftrue abc\\else d\\fi}', the first -\.{\\else} that we come to after learning that the \.{\\if} is false is -not the \.{\\else} we're looking for. Hence the following curious -logic is needed. - -@ @<Skip to \.{\\else} or \.{\\fi}...@>= -loop@+{@+pass_text(); - if (cond_ptr==save_cond_ptr) - {@+if (cur_chr!=or_code) goto common_ending; - print_err("Extra ");print_esc("or"); -@.Extra \\or@> - help1("I'm ignoring this; it doesn't match any \\if."); - error(); - } - else if (cur_chr==fi_code) @<Pop the condition stack@>; - } - -@ @<Either process \.{\\ifcase} or set |b|...@>= -switch (this_if) { -case if_char_code: case if_cat_code: @<Test if two characters match@>@;@+break; -case if_int_code: case if_dim_code: @<Test relation between integers or dimensions@>@;@+break; -case if_odd_code: @<Test if an integer is odd@>@;@+break; -case if_vmode_code: b=(abs(mode)==vmode);@+break; -case if_hmode_code: b=(abs(mode)==hmode);@+break; -case if_mmode_code: b=(abs(mode)==mmode);@+break; -case if_inner_code: b=(mode < 0);@+break; -case if_void_code: case if_hbox_code: case if_vbox_code: @<Test box register status@>@;@+break; -case ifx_code: @<Test if two tokens match@>@;@+break; -case if_eof_code: {@+scan_four_bit_int();b=(read_open[cur_val]==closed); - } @+break; -case if_true_code: b=true;@+break; -case if_false_code: b=false;@+break; -@/@<Cases for |conditional|@>@/ -case if_case_code: @<Select the appropriate case and |return| or |goto common_ending|@>; -} /*there are no other cases*/ - -@ @<Display the value of |b|@>= -{@+begin_diagnostic(); -if (b) print("{true}");@+else print("{false}"); -end_diagnostic(false); -} - -@ Here we use the fact that |'<'|, |'='|, and |'>'| are consecutive ASCII -codes. -@^ASCII code@> - -@<Test relation between integers or dimensions@>= -{@+if (this_if==if_int_code) scan_int();@+else scan_normal_dimen; -n=cur_val;@<Get the next non-blank non-call...@>; -if ((cur_tok >= other_token+'<')&&(cur_tok <= other_token+'>')) - r=cur_tok-other_token; -else{@+print_err("Missing = inserted for "); -@.Missing = inserted@> - print_cmd_chr(if_test, this_if); - help1("I was expecting to see `<', `=', or `>'. Didn't."); - back_error();r='='; - } -if (this_if==if_int_code) scan_int();@+else scan_normal_dimen; -switch (r) { -case '<': b=(n < cur_val);@+break; -case '=': b=(n==cur_val);@+break; -case '>': b=(n > cur_val); -} -} - -@ @<Test if an integer is odd@>= -{@+scan_int();b=odd(cur_val); -} - -@ @<Test box register status@>= -{@+scan_register_num();fetch_box(p); -if (this_if==if_void_code) b=(p==null); -else if (p==null) b=false; -else if (this_if==if_hbox_code) b=(type(p)==hlist_node); -else b=(type(p)==vlist_node); -} - -@ An active character will be treated as category 13 following -\.{\\if\\noexpand} or following \.{\\ifcat\\noexpand}. We use the fact that -active characters have the smallest tokens, among all control sequences. - -@d get_x_token_or_active_char @t@>@; - {@+get_x_token(); - if (cur_cmd==relax) if (cur_chr==no_expand_flag) - {@+cur_cmd=active_char; - cur_chr=cur_tok-cs_token_flag-active_base; - } - } - -@<Test if two characters match@>= -{@+get_x_token_or_active_char; -if ((cur_cmd > active_char)||(cur_chr > 255)) /*not a character*/ - {@+m=relax;n=256; - } -else{@+m=cur_cmd;n=cur_chr; - } -get_x_token_or_active_char; -if ((cur_cmd > active_char)||(cur_chr > 255)) - {@+cur_cmd=relax;cur_chr=256; - } -if (this_if==if_char_code) b=(n==cur_chr);@+else b=(m==cur_cmd); -} - -@ Note that `\.{\\ifx}' will declare two macros different if one is \\{long} -or \\{outer} and the other isn't, even though the texts of the macros are -the same. - -We need to reset |scanner_status|, since \.{\\outer} control sequences -are allowed, but we might be scanning a macro definition or preamble. - -@<Test if two tokens match@>= -{@+save_scanner_status=scanner_status;scanner_status=normal; -get_next();n=cur_cs;p=cur_cmd;q=cur_chr; -get_next();if (cur_cmd!=p) b=false; -else if (cur_cmd < call) b=(cur_chr==q); -else@<Test if two macro texts match@>; -scanner_status=save_scanner_status; -} - -@ Note also that `\.{\\ifx}' decides that macros \.{\\a} and \.{\\b} are -different in examples like this: -$$\vbox{\halign{\.{#}\hfil&\qquad\.{#}\hfil\cr - {}\\def\\a\{\\c\}& - {}\\def\\c\{\}\cr - {}\\def\\b\{\\d\}& - {}\\def\\d\{\}\cr}}$$ - -@<Test if two macro texts match@>= -{@+p=link(cur_chr);q=link(equiv(n)); /*omit reference counts*/ -if (p==q) b=true; -else{@+while ((p!=null)&&(q!=null)) - if (info(p)!=info(q)) p=null; - else{@+p=link(p);q=link(q); - } - b=((p==null)&&(q==null)); - } -} - -@ @<Select the appropriate case and |return| or |goto common_ending|@>= -{@+scan_int();n=cur_val; /*|n| is the number of cases to pass*/ -if (tracing_commands > 1) - {@+begin_diagnostic();print("{case ");print_int(n);print_char('}'); - end_diagnostic(false); - } -while (n!=0) - {@+pass_text(); - if (cond_ptr==save_cond_ptr) - if (cur_chr==or_code) decr(n); - else goto common_ending; - else if (cur_chr==fi_code) @<Pop the condition stack@>; - } -change_if_limit(or_code, save_cond_ptr); -return; /*wait for \.{\\or}, \.{\\else}, or \.{\\fi}*/ -} - -@ The processing of conditionals is complete except for the following -code, which is actually part of |expand|. It comes into play when -\.{\\or}, \.{\\else}, or \.{\\fi} is scanned. - -@<Terminate the current conditional and skip to \.{\\fi}@>= -{@+if (tracing_ifs > 0) if (tracing_commands <= 1) show_cur_cmd_chr(); -if (cur_chr > if_limit) - if (if_limit==if_code) insert_relax(); /*condition not yet evaluated*/ - else{@+print_err("Extra ");print_cmd_chr(fi_or_else, cur_chr); -@.Extra \\or@> -@.Extra \\else@> -@.Extra \\fi@> - help1("I'm ignoring this; it doesn't match any \\if."); - error(); - } -else{@+while (cur_chr!=fi_code) pass_text(); /*skip to \.{\\fi}*/ - @<Pop the condition stack@>; - } -} - -@* File names. -It's time now to fret about file names. Besides the fact that different -operating systems treat files in different ways, we must cope with the -fact that completely different naming conventions are used by different -groups of people. The following programs show what is required for one -particular operating system; similar routines for other systems are not -difficult to devise. -@^fingers@> -@^system dependencies@> - -\TeX\ assumes that a file name has three parts: the name proper; its -``extension''; and a ``file area'' where it is found in an external file -system. The extension of an input file or a write file is assumed to be -`\.{.tex}' unless otherwise specified; it is `\.{.log}' on the -transcript file that records each run of \TeX; it is `\.{.tfm}' on the font -metric files that describe characters in the fonts \TeX\ uses; it is -`\.{.dvi}' on the output files that specify typesetting information; and it -is `\.{.fmt}' on the format files written by \.{INITEX} to initialize \TeX. -The file area can be arbitrary on input files, but files are usually -output to the user's current area. If an input file cannot be -found on the specified area, \TeX\ will look for it on a special system -area; this special area is intended for commonly used input files like -\.{webmac.tex}. - -Simple uses of \TeX\ refer only to file names that have no explicit -extension or area. For example, a person usually says `\.{\\input} \.{paper}' -or `\.{\\font\\tenrm} \.= \.{helvetica}' instead of `\.{\\input} -\.{paper.new}' or `\.{\\font\\tenrm} \.= \.{<csd.knuth>test}'. Simple file -names are best, because they make the \TeX\ source files portable; -whenever a file name consists entirely of letters and digits, it should be -treated in the same way by all implementations of \TeX. However, users -need the ability to refer to other files in their environment, especially -when responding to error messages concerning unopenable files; therefore -we want to let them use the syntax that appears in their favorite -operating system. - -The following procedures don't allow spaces to be part of -file names; but some users seem to like names that are spaced-out. -System-dependent changes to allow such things should probably -be made with reluctance, and only when an entire file name that -includes spaces is ``quoted'' somehow. - -@ In order to isolate the system-dependent aspects of file names, the -@^system dependencies@> -system-independent parts of \TeX\ are expressed in terms -of three system-dependent -procedures called |begin_name|, |more_name|, and |end_name|. In -essence, if the user-specified characters of the file name are $c_1\ldots c_n$, -the system-independent driver program does the operations -$$|begin_name|;\,|more_name|(c_1);\,\ldots\,;\,|more_name|(c_n); -\,|end_name|.$$ -These three procedures communicate with each other via global variables. -Afterwards the file name will appear in the string pool as three strings -called |cur_name|\penalty10000\hskip-.05em, -|cur_area|, and |cur_ext|; the latter two are null (i.e., -|""|), unless they were explicitly specified by the user. - -Actually the situation is slightly more complicated, because \TeX\ needs -to know when the file name ends. The |more_name| routine is a function -(with side effects) that returns |true| on the calls |more_name|$(c_1)$, -\dots, |more_name|$(c_{n-1})$. The final call |more_name|$(c_n)$ -returns |false|; or, it returns |true| and the token following $c_n$ is -something like `\.{\\hbox}' (i.e., not a character). In other words, -|more_name| is supposed to return |true| unless it is sure that the -file name has been completely scanned; and |end_name| is supposed to be able -to finish the assembly of |cur_name|, |cur_area|, and |cur_ext| regardless of -whether $|more_name|(c_n)$ returned |true| or |false|. - -@<Glob...@>= -static str_number @!cur_name; /*name of file just scanned*/ -static char *@!cur_area; /*file area just scanned, or \.{""}*/ -static char *@!cur_ext; /*file extension just scanned, or \.{""}*/ - -@ The file names we shall deal with for illustrative purposes have the -following structure: If the name contains `\.>' or `\.:', the file area -consists of all characters up to and including the final such character; -otherwise the file area is null. If the remaining file name contains -`\..', the file extension consists of all such characters from the first -remaining `\..' to the end, otherwise the file extension is null. -@^system dependencies@> - -We can scan such file names easily by using two global variables that keep track -of the occurrences of area and extension delimiters: - -@<Glob...@>= -static pool_pointer @!area_delimiter; /*the most recent `\.>' or `\.:', if any*/ -static pool_pointer @!ext_delimiter; /*the relevant `\..', if any*/ -static int @!cur_file_name_length; - -@ Input files that can't be found in the user's area may appear in a standard -system area called |TEX_area|. Font metric files whose areas are not given -explicitly are assumed to appear in a standard system area called -|TEX_font_area|. These system area names will, of course, vary from place -to place. -@^system dependencies@> - -@d TEX_area "TeXinputs/" -@.TeXinputs@> -@d TEX_font_area "TeXfonts/" -@.TeXfonts@> - -@ Here now is the first of the system-dependent routines for file name scanning. -@^system dependencies@> - -The filename is scanned into |cur_file_name|; |cur_ext| and |cur_aire| -will point into this buffer. - -@d MAX_CUR_FILE_NAME 1024 - -@p static char cur_file_name[MAX_CUR_FILE_NAME+1]; -static void begin_name(void) -{@+area_delimiter=ext_delimiter=cur_file_name_length=0; -} - -@ And here's the second. The string pool might change as the file name is -being scanned, since a new \.{\\csname} might be entered; therefore we keep -|area_delimiter| and |ext_delimiter| relative to the beginning of the current -string, instead of assigning an absolute address like |pool_ptr| to them. -@^system dependencies@> - -@p static bool more_name(ASCII_code @!c) -{@+if (c==' ') return false; - if (cur_file_name_length>= MAX_CUR_FILE_NAME ) - { overflow("file name length", MAX_CUR_FILE_NAME); - return false; - } - else - { /*contribute |c| to the current string*/ - cur_file_name[cur_file_name_length]=c; - if (c=='/') - {@+area_delimiter=cur_file_name_length;ext_delimiter=0; - } - else if (c=='.') ext_delimiter=cur_file_name_length; - cur_file_name_length++; - return true; - } -} - -@ The third. -@^system dependencies@> - -@p static void end_name(void) -{@+int i=0; - if (str_ptr+1 > max_strings) - overflow("number of strings", max_strings-init_str_ptr); -@:TeX capacity exceeded number of strings}{\quad number of strings@> -cur_file_name[cur_file_name_length]=0; -if (area_delimiter==0) cur_area=cur_file_name+cur_file_name_length; -else @+cur_area=cur_file_name,i=area_delimiter+1; -if (ext_delimiter==0) ext_delimiter=cur_file_name_length; -cur_ext=cur_file_name+ext_delimiter; -for (;i<ext_delimiter;i++) append_char(cur_file_name[i]); -if (area_delimiter!=0) cur_file_name[area_delimiter+1]=0; -cur_name=make_string(); -} - -static void set_cur_area_ext(str_number a, str_number e) -{ int i; - if (length(a)+length(e)+2>=MAX_CUR_FILE_NAME) - { overflow("file name length", MAX_CUR_FILE_NAME); - return; - } - cur_file_name_length=0; - area_delimiter=0; - for(i=str_start[a]; i<str_start[a+1];i++) cur_file_name[cur_file_name_length++]=str_pool[i]; - cur_file_name[cur_file_name_length++]=0; - cur_area=cur_file_name; - cur_ext=cur_file_name+cur_file_name_length; - for(i=str_start[e]; i<str_start[e+1];i++) cur_file_name[cur_file_name_length++]=str_pool[i]; - cur_file_name[cur_file_name_length++]=0; -} - -@ Conversely, here is a routine that takes three strings and prints a file -name that might have produced them. (The routine is system dependent, because -some operating systems put the file area last instead of first.) -@^system dependencies@> - -@<Basic printing...@>= -static void print_file_name(int @!n, char *@!a, char *@!e) -{@+print(a);slow_print(n);print(e); -} - -static void printn_file_name(int @!n, int @!a, int @!e) -{@+slow_print(a);slow_print(n);slow_print(e); -} - -@ Another system-dependent routine is needed to convert three internal -\TeX\ strings -into the |name_of_file| value that is used to open files. The present code -allows both lowercase and uppercase letters in the file name. -@^system dependencies@> - -@d append_to_name(A) {@+c=A;incr(k); - if (k <= file_name_size) name_of_file[k]=xchr[c]; - } - -@p void pack_file_name(str_number @!n, char *@!a, char *@!e) -{@+int k; /*number of positions filled in |name_of_file|*/ -ASCII_code @!c; /*character being packed*/ -int @!j; /*index into |str_pool|*/ -k=0; -while(*a!=0) append_to_name(so(*a++)); -for (j=str_start[n]; j<=str_start[n+1]-1; j++) append_to_name(so(str_pool[j])); -while(*e!=0) append_to_name(so(*e++)); -if (k <= file_name_size) name_length=k;@+else name_length=file_name_size; -name_of_file[name_length+1]=0; -} - - -@ The global variable |TEX_format_default| is no longer needed -to supply the text for default system areas -and extensions related to format files. - -@ Consequently there is no initialization of |TEX_format_default| either. - -@ And there is no need to check the length of |TEX_format_default|. - -@ The |format_extension|, however, is needed later on -to create the format name from the job name. - -@d format_extension ".fmt" - -@ This part of the program -becomes active when a ``virgin'' \TeX\ is trying to get going, just after -the preliminary initialization, or when the user is substituting another -format file by typing `\.\&' after the initial `\.{**}' prompt. The buffer -contains the first line of input in |buffer[loc dotdot(last-1)]|, where -|loc < last| and |buffer[loc]!=' '|. - -k\TeX\ uses the {\tt kpathsearch} library to implement access to files. -To do so we declare |open_fmt_file| here and postpone the -actual implementation. - -@<Declare the function called |open_fmt_file|@>= -static bool open_fmt_file(void); - -@ Operating systems often make it possible to determine the exact name (and -possible version number) of a file that has been opened. The following routine, -which simply makes a \TeX\ string from the value of |name_of_file|, should -ideally be changed to deduce the full name of file~|f|, which is the file -most recently opened, if it is possible to do this in a \PASCAL\ program. -@^system dependencies@> - -This routine might be called after string memory has overflowed, hence -we dare not use `|str_room|'. - -@p static str_number make_name_string(void) -{@+int k; /*index into |name_of_file|*/ -if ((pool_ptr+name_length > pool_size)||(str_ptr==max_strings)|| - (cur_length > 0)) - return'?'; -else{@+for (k=1; k<=name_length; k++) append_char(xord[name_of_file[k]]); - return make_string(); - } -} -static str_number a_make_name_string(alpha_file *f) -{@+return make_name_string(); -} -static str_number b_make_name_string(byte_file *f) -{@+return make_name_string(); -} -#ifdef @!INIT -static str_number w_make_name_string(word_file *f) -{@+return make_name_string(); -} -#endif - -@ Now let's consider the ``driver'' -routines by which \TeX\ deals with file names -in a system-independent manner. First comes a procedure that looks for a -file name in the input by calling |get_x_token| for the information. - -@p static void scan_file_name(void) -{@+ -name_in_progress=true;begin_name(); -@<Get the next non-blank non-call...@>; -loop@+{@+if ((cur_cmd > other_char)||(cur_chr > 255)) /*not a character*/ - {@+back_input();goto done; - } - if (!more_name(cur_chr)) goto done; - get_x_token(); - } -done: end_name();name_in_progress=false; -} - -@ The global variable |name_in_progress| is used to prevent recursive -use of |scan_file_name|, since the |begin_name| and other procedures -communicate via global variables. Recursion would arise only by -devious tricks like `\.{\\input\\input f}'; such attempts at sabotage -must be thwarted. Furthermore, |name_in_progress| prevents \.{\\input} -@^recursion@> -from being initiated when a font size specification is being scanned. - -Another global variable, |job_name|, contains the file name that was first -\.{\\input} by the user. This name is extended by `\.{.log}' and `\.{.dvi}' -and `\.{.fmt}' in the names of \TeX's output files. - -@<Glob...@>= -static bool @!name_in_progress; /*is a file name being scanned?*/ -str_number @!job_name; /*principal file name*/ -static bool @!log_opened; /*has the transcript file been opened?*/ - -@ Initially |job_name==0|; it becomes nonzero as soon as the true name is known. -We have |job_name==0| if and only if the `\.{log}' file has not been opened, -except of course for a short time just after |job_name| has become nonzero. - -@<Initialize the output...@>= -job_name=0;name_in_progress=false;log_opened=false; - -@ Here is a routine that manufactures the output file names, assuming that -|job_name!=0|. It ignores and changes the current settings of |cur_area| -and |cur_ext|. - -@d pack_cur_name pack_file_name(cur_name, cur_area, cur_ext) - -@p void pack_job_name(char *@!s) /*|s==".log"|, |".dvi"|, or - |format_extension|*/ -{@+cur_area="";cur_ext=s; -cur_name=job_name;pack_cur_name; -} - -@ If some trouble arises when \TeX\ tries to open a file, the following -routine calls upon the user to supply another file name. Parameter~|s| -is used in the error message to identify the type of file; parameter~|e| -is the default extension if none is given. Upon exit from the routine, -variables |cur_name|, |cur_area|, |cur_ext|, and |name_of_file| are -ready for another attempt at file opening. - -@p void prompt_file_name(char *@!s, char *@!e) -{@+ -int k; /*index into |buffer|*/ -if (interaction==scroll_mode) wake_up_terminal; -if (strcmp(s,"input file name")==0) print_err("I can't find file `"); -@.I can't find file x@> -else print_err("I can't write on file `"); -@.I can't write on file x@> -print_file_name(cur_name, cur_area, cur_ext);print("'."); -if (strcmp(e,".tex")==0) show_context(); -print_nl("Please type another ");print(s); -@.Please type...@> -if (interaction < scroll_mode) - fatal_error("*** (job aborted, file error in nonstop mode)"); -@.job aborted, file error...@> -clear_terminal;prompt_input(": ");@<Scan file name in the buffer@>; -if (cur_ext[0]==0) cur_ext=e; -pack_cur_name; -} - -@ @<Scan file name in the buffer@>= -{@+begin_name();k=first; -while ((buffer[k]==' ')&&(k < last)) incr(k); -loop@+{@+if (k==last) goto done; - if (!more_name(buffer[k])) goto done; - incr(k); - } -done: end_name(); -} - -@ Here's an example of how these conventions are used. Whenever it is time to -ship out a box of stuff, we shall use the macro |ensure_dvi_open|. - -@d ensure_dvi_open if (output_file_name==0) - {@+if (job_name==0) open_log_file(); - pack_job_name(".dvi"); - while (!b_open_out(&dvi_file)) - prompt_file_name("file name for output",".dvi"); - output_file_name=b_make_name_string(&dvi_file); - } - -@<Glob...@>= -static byte_file @!dvi_file; /*the device-independent output goes here*/ -static str_number @!output_file_name; /*full name of the output file*/ -static str_number @!log_name; /*full name of the log file*/ - -@ @<Initialize the output...@>=output_file_name=0; - -@ The |open_log_file| routine is used to open the transcript file and to help -it catch up to what has previously been printed on the terminal. - -@p void open_log_file(void) -{@+int old_setting; /*previous |selector| setting*/ -int @!k; /*index into |months| and |buffer|*/ -int @!l; /*end of first input line*/ -char @!months[]=" JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC"; /*abbreviations of month names*/ -old_setting=selector; -if (job_name==0) job_name=s_no(c_job_name?c_job_name:"texput"); /* k\TeX\ */ -@.texput@> -pack_job_name(".log"); -while (!a_open_out(&log_file)) @<Try to get a different log file name@>; -log_name=a_make_name_string(&log_file); -selector=log_only;log_opened=true; -@<Print the banner line, including the date and time@>; -input_stack[input_ptr]=cur_input; /*make sure bottom level is in memory*/ -print_nl("**"); -@.**@> -l=input_stack[0].limit_field; /*last position of first line*/ -if (buffer[l]==end_line_char) decr(l); -for (k=1; k<=l; k++) printn(buffer[k]); -print_ln(); /*now the transcript file contains the first line of input*/ -selector=old_setting+2; /*|log_only| or |term_and_log|*/ -} - -@ Sometimes |open_log_file| is called at awkward moments when \TeX\ is -unable to print error messages or even to |show_context|. -The |prompt_file_name| routine can result in a |fatal_error|, but the |error| -routine will not be invoked because |log_opened| will be false. - -The normal idea of |batch_mode| is that nothing at all should be written -on the terminal. However, in the unusual case that -no log file could be opened, we make an exception and allow -an explanatory message to be seen. - -Incidentally, the program always refers to the log file as a `\.{transcript -file}', because some systems cannot use the extension `\.{.log}' for -this file. - -@<Try to get a different log file name@>= -{@+selector=term_only; -prompt_file_name("transcript file name",".log"); -} - -@ @<Print the banner...@>= -{@+wlog("%s",banner); -slow_print(format_ident);print(" "); -print_int(sys_day);print_char(' '); -for (k=3*sys_month-2; k<=3*sys_month; k++) wlog("%c",months[k]); -print_char(' ');print_int(sys_year);print_char(' '); -print_two(sys_time/60);print_char(':');print_two(sys_time%60); -if (eTeX_ex) - {@+;wlog_cr;wlog("entering extended mode"); - } -} - -@ Let's turn now to the procedure that is used to initiate file reading -when an `\.{\\input}' command is being processed. -Beware: For historic reasons, this code foolishly conserves a tiny bit -of string pool space; but that can confuse the interactive `\.E' option. -@^system dependencies@> - -@p static void start_input(void) /*\TeX\ will \.{\\input} something*/ -{@+ -scan_file_name(); /*set |cur_name| to desired file name*/ -if (cur_ext[0]==0) cur_ext=".tex"; -pack_cur_name; -loop@+{@+begin_file_reading(); /*set up |cur_file| and new level of input*/ - if (a_open_in(&cur_file)) goto done; - end_file_reading(); /*remove the level that didn't work*/ - prompt_file_name("input file name",".tex"); - } -done: name=a_make_name_string(&cur_file);@/ -source_filename_stack[in_open]=name; /* k\TeX\ */ -if (job_name==0) - {@+if (c_job_name==NULL) job_name=cur_name; - else job_name=s_no(c_job_name); open_log_file(); /* k\TeX\ */ - } /*|open_log_file| doesn't |show_context|, so |limit| - and |loc| needn't be set to meaningful values yet*/ -if (term_offset+length(name) > max_print_line-2) print_ln(); -else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); -print_char('(');incr(open_parens);slow_print(name);update_terminal; -state=new_line; -if (name==str_ptr-1) /*conserve string pool space (but see note above)*/ - {@+flush_string;name=cur_name; - } -@<Read the first line of the new file@>; -} - -@ Here we have to remember to tell the |input_ln| routine not to -start with a |get|. If the file is empty, it is considered to -contain a single blank line. -@^system dependencies@> -@^empty line at end of file@> - -@<Read the first line...@>= -{@+line=1; -if (input_ln(&cur_file, false)) do_nothing; -firm_up_the_line(); -if (end_line_char_inactive) decr(limit); -else buffer[limit]=end_line_char; -first=limit+1;loc=start; -} - -@* Font metric data. -\TeX\ gets its knowledge about fonts from font metric files, also called -\.{TFM} files; the `\.T' in `\.{TFM}' stands for \TeX, -but other programs know about them too. -@:TFM files}{\.{TFM} files@> -@^font metric files@> - -The information in a \.{TFM} file appears in a sequence of 8-bit bytes. -Since the number of bytes is always a multiple of 4, we could -also regard the file as a sequence of 32-bit words, but \TeX\ uses the -byte interpretation. The format of \.{TFM} files was designed by -Lyle Ramshaw in 1980. The intent is to convey a lot of different kinds -@^Ramshaw, Lyle Harold@> -of information in a compact but useful form. - -@<Glob...@>= -static byte_file @!tfm_file; - -@ The first 24 bytes (6 words) of a \.{TFM} file contain twelve 16-bit -integers that give the lengths of the various subsequent portions -of the file. These twelve integers are, in order: -$$\vbox{\halign{\hfil#&$\null=\null$#\hfil\cr -|lf|&length of the entire file, in words;\cr -|lh|&length of the header data, in words;\cr -|bc|&smallest character code in the font;\cr -|ec|&largest character code in the font;\cr -|nw|&number of words in the width table;\cr -|nh|&number of words in the height table;\cr -|nd|&number of words in the depth table;\cr -|ni|&number of words in the italic correction table;\cr -|nl|&number of words in the lig/kern table;\cr -|nk|&number of words in the kern table;\cr -|ne|&number of words in the extensible character table;\cr -|np|&number of font parameter words.\cr}}$$ -They are all nonnegative and less than $2^{15}$. We must have |bc-1 <= ec <= 255|, -and -$$\hbox{|lf==6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np|.}$$ -Note that a font may contain as many as 256 characters (if |bc==0| and |ec==255|), -and as few as 0 characters (if |bc==ec+1|). - -Incidentally, when two or more 8-bit bytes are combined to form an integer of -16 or more bits, the most significant bytes appear first in the file. -This is called BigEndian order. -@!@^BigEndian order@> - -@ The rest of the \.{TFM} file may be regarded as a sequence of ten data -arrays having the informal specification -$$\def\arr$[#1]#2${\&{array} $[#1]$ \&{of} #2} -\def\PB#1{\arr#1} -\vbox{\halign{\hfil\\{#}&$\,:\,$#\hfil\cr -header&|[0 dotdot lh-1]@t\\{stuff}@>|\cr -char\_info&|[bc dotdot ec]char_info_word|\cr -width&|[0 dotdot nw-1]fix_word|\cr -height&|[0 dotdot nh-1]fix_word|\cr -depth&|[0 dotdot nd-1]fix_word|\cr -italic&|[0 dotdot ni-1]fix_word|\cr -lig\_kern&|[0 dotdot nl-1]lig_kern_command|\cr -kern&|[0 dotdot nk-1]fix_word|\cr -exten&|[0 dotdot ne-1]extensible_recipe|\cr -param&|[1 dotdot np]fix_word|\cr}}$$ -The most important data type used here is a |@!fix_word|, which is -a 32-bit representation of a binary fraction. A |fix_word| is a signed -quantity, with the two's complement of the entire word used to represent -negation. Of the 32 bits in a |fix_word|, exactly 12 are to the left of the -binary point; thus, the largest |fix_word| value is $2048-2^{-20}$, and -the smallest is $-2048$. We will see below, however, that all but two of -the |fix_word| values must lie between $-16$ and $+16$. - -@ The first data array is a block of header information, which contains -general facts about the font. The header must contain at least two words, -|header[0]| and |header[1]|, whose meaning is explained below. -Additional header information of use to other software routines might -also be included, but \TeX82 does not need to know about such details. -For example, 16 more words of header information are in use at the Xerox -Palo Alto Research Center; the first ten specify the character coding -scheme used (e.g., `\.{XEROX text}' or `\.{TeX math symbols}'), the next five -give the font identifier (e.g., `\.{HELVETICA}' or `\.{CMSY}'), and the -last gives the ``face byte.'' The program that converts \.{DVI} files -to Xerox printing format gets this information by looking at the \.{TFM} -file, which it needs to read anyway because of other information that -is not explicitly repeated in \.{DVI}~format. - -\yskip\hang|header[0]| is a 32-bit check sum that \TeX\ will copy into -the \.{DVI} output file. Later on when the \.{DVI} file is printed, -possibly on another computer, the actual font that gets used is supposed -to have a check sum that agrees with the one in the \.{TFM} file used by -\TeX. In this way, users will be warned about potential incompatibilities. -(However, if the check sum is zero in either the font file or the \.{TFM} -file, no check is made.) The actual relation between this check sum and -the rest of the \.{TFM} file is not important; the check sum is simply an -identification number with the property that incompatible fonts almost -always have distinct check sums. -@^check sum@> - -\yskip\hang|header[1]| is a |fix_word| containing the design size of -the font, in units of \TeX\ points. This number must be at least 1.0; it is -fairly arbitrary, but usually the design size is 10.0 for a ``10 point'' -font, i.e., a font that was designed to look best at a 10-point size, -whatever that really means. When a \TeX\ user asks for a font -`\.{at} $\delta$ \.{pt}', the effect is to override the design size -and replace it by $\delta$, and to multiply the $x$ and~$y$ coordinates -of the points in the font image by a factor of $\delta$ divided by the -design size. {\sl All other dimensions in the\/ \.{TFM} file are -|fix_word|\kern-1pt\ numbers in design-size units}, with the exception of -|param[1]| (which denotes the slant ratio). Thus, for example, the value -of |param[6]|, which defines the \.{em} unit, is often the |fix_word| value -$2^{20}=1.0$, since many fonts have a design size equal to one em. -The other dimensions must be less than 16 design-size units in absolute -value; thus, |header[1]| and |param[1]| are the only |fix_word| -entries in the whole \.{TFM} file whose first byte might be something -besides 0 or 255. - -@ Next comes the |char_info| array, which contains one |@!char_info_word| -per character. Each word in this part of the file contains six fields -packed into four bytes as follows. - -\yskip\hang first byte: |@!width_index| (8 bits)\par -\hang second byte: |@!height_index| (4 bits) times 16, plus |@!depth_index| - (4~bits)\par -\hang third byte: |@!italic_index| (6 bits) times 4, plus |@!tag| - (2~bits)\par -\hang fourth byte: |@!rem| (8 bits)\par -\yskip\noindent -The actual width of a character is \\{width}|[width_index]|, in design-size -units; this is a device for compressing information, since many characters -have the same width. Since it is quite common for many characters -to have the same height, depth, or italic correction, the \.{TFM} format -imposes a limit of 16 different heights, 16 different depths, and -64 different italic corrections. - -@!@^italic correction@> -The italic correction of a character has two different uses. -(a)~In ordinary text, the italic correction is added to the width only if -the \TeX\ user specifies `\.{\\/}' after the character. -(b)~In math formulas, the italic correction is always added to the width, -except with respect to the positioning of subscripts. - -Incidentally, the relation $\\{width}[0]=\\{height}[0]=\\{depth}[0]= -\\{italic}[0]=0$ should always hold, so that an index of zero implies a -value of zero. The |width_index| should never be zero unless the -character does not exist in the font, since a character is valid if and -only if it lies between |bc| and |ec| and has a nonzero |width_index|. - -@ The |tag| field in a |char_info_word| has four values that explain how to -interpret the |rem| field. - -\yskip\hangg|tag==0| (|no_tag|) means that |rem| is unused.\par -\hangg|tag==1| (|lig_tag|) means that this character has a ligature/kerning -program starting at position |rem| in the |lig_kern| array.\par -\hangg|tag==2| (|list_tag|) means that this character is part of a chain of -characters of ascending sizes, and not the largest in the chain. The -|rem| field gives the character code of the next larger character.\par -\hangg|tag==3| (|ext_tag|) means that this character code represents an -extensible character, i.e., a character that is built up of smaller pieces -so that it can be made arbitrarily large. The pieces are specified in -|@!exten[rem]|.\par -\yskip\noindent -Characters with |tag==2| and |tag==3| are treated as characters with |tag==0| -unless they are used in special circumstances in math formulas. For example, -the \.{\\sum} operation looks for a |list_tag|, and the \.{\\left} -operation looks for both |list_tag| and |ext_tag|. - -@d no_tag 0 /*vanilla character*/ -@d lig_tag 1 /*character has a ligature/kerning program*/ -@d list_tag 2 /*character has a successor in a charlist*/ -@d ext_tag 3 /*character is extensible*/ - -@ The |lig_kern| array contains instructions in a simple programming language -that explains what to do for special letter pairs. Each word in this array is a -|@!lig_kern_command| of four bytes. - -\yskip\hang first byte: |skip_byte|, indicates that this is the final program - step if the byte is 128 or more, otherwise the next step is obtained by - skipping this number of intervening steps.\par -\hang second byte: |next_char|, ``if |next_char| follows the current character, - then perform the operation and stop, otherwise continue.''\par -\hang third byte: |op_byte|, indicates a ligature step if less than~128, - a kern step otherwise.\par -\hang fourth byte: |rem|.\par -\yskip\noindent -In a kern step, an -additional space equal to |kern[256*(op_byte-128)+rem]| is inserted -between the current character and |next_char|. This amount is -often negative, so that the characters are brought closer together -by kerning; but it might be positive. - -There are eight kinds of ligature steps, having |op_byte| codes $4a+2b+c$ where -$0\le a\le b+c$ and $0\le b,c\le1$. The character whose code is -|rem| is inserted between the current character and |next_char|; -then the current character is deleted if $b=0$, and |next_char| is -deleted if $c=0$; then we pass over $a$~characters to reach the next -current character (which may have a ligature/kerning program of its own). - -If the very first instruction of the |lig_kern| array has |skip_byte==255|, -the |next_char| byte is the so-called boundary character of this font; -the value of |next_char| need not lie between |bc| and~|ec|. -If the very last instruction of the |lig_kern| array has |skip_byte==255|, -there is a special ligature/kerning program for a boundary character at the -left, beginning at location |256*op_byte+rem|. -The interpretation is that \TeX\ puts implicit boundary characters -before and after each consecutive string of characters from the same font. -These implicit characters do not appear in the output, but they can affect -ligatures and kerning. - -If the very first instruction of a character's |lig_kern| program has -|skip_byte > 128|, the program actually begins in location -|256*op_byte+rem|. This feature allows access to large |lig_kern| -arrays, because the first instruction must otherwise -appear in a location | <= 255|. - -Any instruction with |skip_byte > 128| in the |lig_kern| array must satisfy -the condition -$$\hbox{|256*op_byte+rem < nl|.}$$ -If such an instruction is encountered during -normal program execution, it denotes an unconditional halt; no ligature -or kerning command is performed. - -@d stop_flag qi(128) /*value indicating `\.{STOP}' in a lig/kern program*/ -@d kern_flag qi(128) /*op code for a kern step*/ -@d skip_byte(A) A.b0 -@d next_char(A) A.b1 -@d op_byte(A) A.b2 -@d rem_byte(A) A.b3 - -@ Extensible characters are specified by an |@!extensible_recipe|, which -consists of four bytes called |@!top|, |@!mid|, |@!bot|, and |@!rep| (in this -order). These bytes are the character codes of individual pieces used to -build up a large symbol. If |top|, |mid|, or |bot| are zero, they are not -present in the built-up result. For example, an extensible vertical line is -like an extensible bracket, except that the top and bottom pieces are missing. - -Let $T$, $M$, $B$, and $R$ denote the respective pieces, or an empty box -if the piece isn't present. Then the extensible characters have the form -$TR^kMR^kB$ from top to bottom, for some |k >= 0|, unless $M$ is absent; -in the latter case we can have $TR^kB$ for both even and odd values of~|k|. -The width of the extensible character is the width of $R$; and the -height-plus-depth is the sum of the individual height-plus-depths of the -components used, since the pieces are butted together in a vertical list. - -@d ext_top(A) A.b0 /*|top| piece in a recipe*/ -@d ext_mid(A) A.b1 /*|mid| piece in a recipe*/ -@d ext_bot(A) A.b2 /*|bot| piece in a recipe*/ -@d ext_rep(A) A.b3 /*|rep| piece in a recipe*/ - -@ The final portion of a \.{TFM} file is the |param| array, which is another -sequence of |fix_word| values. - -\yskip\hang|param[1]==slant| is the amount of italic slant, which is used -to help position accents. For example, |slant==.25| means that when you go -up one unit, you also go .25 units to the right. The |slant| is a pure -number; it's the only |fix_word| other than the design size itself that is -not scaled by the design size. - -\hang|param[2]==space| is the normal spacing between words in text. -Note that character |' '| in the font need not have anything to do with -blank spaces. - -\hang|param[3]==space_stretch| is the amount of glue stretching between words. - -\hang|param[4]==space_shrink| is the amount of glue shrinking between words. - -\hang|param[5]==x_height| is the size of one ex in the font; it is also -the height of letters for which accents don't have to be raised or lowered. - -\hang|param[6]==quad| is the size of one em in the font. - -\hang|param[7]==extra_space| is the amount added to |param[2]| at the -ends of sentences. - -\yskip\noindent -If fewer than seven parameters are present, \TeX\ sets the missing parameters -to zero. Fonts used for math symbols are required to have -additional parameter information, which is explained later. - -@d slant_code 1 -@d space_code 2 -@d space_stretch_code 3 -@d space_shrink_code 4 -@d x_height_code 5 -@d quad_code 6 -@d extra_space_code 7 - -@ So that is what \.{TFM} files hold. Since \TeX\ has to absorb such information -about lots of fonts, it stores most of the data in a large array called -|font_info|. Each item of |font_info| is a |memory_word|; the |fix_word| -data gets converted into |scaled| entries, while everything else goes into -words of type |four_quarters|. - -When the user defines \.{\\font\\f}, say, \TeX\ assigns an internal number -to the user's font~\.{\\f}. Adding this number to |font_id_base| gives the -|eqtb| location of a ``frozen'' control sequence that will always select -the font. - -@<Types...@>= -typedef uint8_t internal_font_number; /*|font| in a |char_node|*/ -typedef int32_t font_index; /*index into |font_info|*/ - -@ Here now is the (rather formidable) array of font arrays. - -@d non_char qi(256) /*a |halfword| code that can't match a real character*/ -@d non_address 0 /*a spurious |bchar_label|*/ - -@<Glob...@>= -memory_word @!font_info[font_mem_size+1]; - /*the big collection of font data*/ -static font_index @!fmem_ptr; /*first unused word of |font_info|*/ -static internal_font_number @!font_ptr; /*largest internal font number in use*/ -static four_quarters @!font_check0[font_max-font_base+1], *const @!font_check = @!font_check0-font_base; /*check sum*/ -scaled @!font_size0[font_max-font_base+1], *const @!font_size = @!font_size0-font_base; /*``at'' size*/ -scaled @!font_dsize0[font_max-font_base+1], *const @!font_dsize = @!font_dsize0-font_base; /*``design'' size*/ -static font_index @!font_params0[font_max-font_base+1], *const @!font_params = @!font_params0-font_base; /*how many font - parameters are present*/ -str_number @!font_name0[font_max-font_base+1], *const @!font_name = @!font_name0-font_base; /*name of the font*/ -static str_number @!font_area0[font_max-font_base+1], *const @!font_area = @!font_area0-font_base; /*area of the font*/ -static eight_bits @!font_bc0[font_max-font_base+1], *const @!font_bc = @!font_bc0-font_base; - /*beginning (smallest) character code*/ -static eight_bits @!font_ec0[font_max-font_base+1], *const @!font_ec = @!font_ec0-font_base; - /*ending (largest) character code*/ -pointer @!font_glue0[font_max-font_base+1], *const @!font_glue = @!font_glue0-font_base; - /*glue specification for interword space, |null| if not allocated*/ -static bool @!font_used0[font_max-font_base+1], *const @!font_used = @!font_used0-font_base; - /*has a character from this font actually appeared in the output?*/ -int @!hyphen_char0[font_max-font_base+1], *const @!hyphen_char = @!hyphen_char0-font_base; - /*current \.{\\hyphenchar} values*/ -static int @!skew_char0[font_max-font_base+1], *const @!skew_char = @!skew_char0-font_base; - /*current \.{\\skewchar} values*/ -static font_index @!bchar_label0[font_max-font_base+1], *const @!bchar_label = @!bchar_label0-font_base; - /*start of |lig_kern| program for left boundary character, - |non_address| if there is none*/ -static int16_t @!font_bchar0[font_max-font_base+1], *const @!font_bchar = @!font_bchar0-font_base; - /*boundary character, |non_char| if there is none*/ -static int16_t @!font_false_bchar0[font_max-font_base+1], *const @!font_false_bchar = @!font_false_bchar0-font_base; - /*|font_bchar| if it doesn't exist in the font, otherwise |non_char|*/ - -@ Besides the arrays just enumerated, we have directory arrays that make it -easy to get at the individual entries in |font_info|. For example, the -|char_info| data for character |c| in font |f| will be in -|font_info[char_base[f]+c].qqqq|; and if |w| is the |width_index| -part of this word (the |b0| field), the width of the character is -|font_info[width_base[f]+w].sc|. (These formulas assume that -|min_quarterword| has already been added to |c| and to |w|, since \TeX\ -stores its quarterwords that way.) - -@<Glob...@>= -int @!char_base0[font_max-font_base+1], *const @!char_base = @!char_base0-font_base; - /*base addresses for |char_info|*/ -int @!width_base0[font_max-font_base+1], *const @!width_base = @!width_base0-font_base; - /*base addresses for widths*/ -int @!height_base0[font_max-font_base+1], *const @!height_base = @!height_base0-font_base; - /*base addresses for heights*/ -int @!depth_base0[font_max-font_base+1], *const @!depth_base = @!depth_base0-font_base; - /*base addresses for depths*/ -static int @!italic_base0[font_max-font_base+1], *const @!italic_base = @!italic_base0-font_base; - /*base addresses for italic corrections*/ -static int @!lig_kern_base0[font_max-font_base+1], *const @!lig_kern_base = @!lig_kern_base0-font_base; - /*base addresses for ligature/kerning programs*/ -static int @!kern_base0[font_max-font_base+1], *const @!kern_base = @!kern_base0-font_base; - /*base addresses for kerns*/ -static int @!exten_base0[font_max-font_base+1], *const @!exten_base = @!exten_base0-font_base; - /*base addresses for extensible recipes*/ -int @!param_base0[font_max-font_base+1], *const @!param_base = @!param_base0-font_base; - /*base addresses for font parameters*/ - -@ @<Set init...@>= -for (k=font_base; k<=font_max; k++) font_used[k]=false; - -@ \TeX\ always knows at least one font, namely the null font. It has no -characters, and its seven parameters are all equal to zero. - -@<Initialize table...@>= -font_ptr=null_font;fmem_ptr=7; -font_name[null_font]=s_no("nullfont");font_area[null_font]=empty_string; -hyphen_char[null_font]='-';skew_char[null_font]=-1; -bchar_label[null_font]=non_address; -font_bchar[null_font]=non_char;font_false_bchar[null_font]=non_char; -font_bc[null_font]=1;font_ec[null_font]=0; -font_size[null_font]=0;font_dsize[null_font]=0; -char_base[null_font]=0;width_base[null_font]=0; -height_base[null_font]=0;depth_base[null_font]=0; -italic_base[null_font]=0;lig_kern_base[null_font]=0; -kern_base[null_font]=0;exten_base[null_font]=0; -font_glue[null_font]=null;font_params[null_font]=7; -param_base[null_font]=-1; -for (k=0; k<=6; k++) font_info[k].sc=0; - -@ @<Put each...@>= -primitive("nullfont", set_font, null_font); -@!@:null\_font\_}{\.{\\nullfont} primitive@> -text(frozen_null_font)=text(cur_val);eqtb[frozen_null_font]=eqtb[cur_val]; - -@ Of course we want to define macros that suppress the detail of how font -information is actually packed, so that we don't have to write things like -$$\hbox{|font_info[width_base[f]+font_info[char_base[f]+c].qqqq.b0].sc|}$$ -too often. The \.{WEB} definitions here make |char_info(f)(c)| the -|four_quarters| word of font information corresponding to character -|c| of font |f|. If |q| is such a word, |char_width(f)(q)| will be -the character's width; hence the long formula above is at least -abbreviated to -$$\hbox{|char_width(f)(char_info(f)(c))|.}$$ -Usually, of course, we will fetch |q| first and look at several of its -fields at the same time. - -The italic correction of a character will be denoted by -|char_italic(f)(q)|, so it is analogous to |char_width|. But we will get -at the height and depth in a slightly different way, since we usually want -to compute both height and depth if we want either one. The value of -|height_depth(q)| will be the 8-bit quantity -$$b=|height_index|\times16+|depth_index|,$$ and if |b| is such a byte we -will write |char_height(f)(b)| and |char_depth(f)(b)| for the height and -depth of the character |c| for which |q==char_info(f)(c)|. Got that? - -The tag field will be called |char_tag(q)|; the remainder byte will be -called |rem_byte(q)|, using a macro that we have already defined above. - -Access to a character's |width|, |height|, |depth|, and |tag| fields is -part of \TeX's inner loop, so we want these macros to produce code that is -as fast as possible under the circumstances. -@^inner loop@> - -@d char_info(A, B) font_info[char_base[A]+B].qqqq -@d char_width(A, B) font_info[width_base[A]+B.b0].sc -@d char_exists(A) (A.b0 > min_quarterword) -@d char_italic(A, B) font_info[italic_base[A]+(qo(B.b2))/4].sc -@d height_depth(A) qo(A.b1) -@d char_height(A, B) font_info[height_base[A]+(B)/16].sc -@d char_depth(A, B) font_info[depth_base[A]+(B)%16].sc -@d char_tag(A) ((qo(A.b2))%4) - -@ The global variable |null_character| is set up to be a word of -|char_info| for a character that doesn't exist. Such a word provides a -convenient way to deal with erroneous situations. - -@<Glob...@>= -static four_quarters @!null_character; /*nonexistent character information*/ - -@ @<Set init...@>= -null_character.b0=min_quarterword;null_character.b1=min_quarterword; -null_character.b2=min_quarterword;null_character.b3=min_quarterword; - -@ Here are some macros that help process ligatures and kerns. -We write |char_kern(f)(j)| to find the amount of kerning specified by -kerning command~|j| in font~|f|. If |j| is the |char_info| for a character -with a ligature/kern program, the first instruction of that program is either -|i==font_info[lig_kern_start(f)(j)]| or |font_info[lig_kern_restart(f)(i)]|, -depending on whether or not |skip_byte(i) <= stop_flag|. - -The constant |kern_base_offset| should be simplified, for \PASCAL\ compilers -that do not do local optimization. -@^system dependencies@> - -@d char_kern(A, B) font_info[kern_base[A]+256*op_byte(B)+rem_byte(B)].sc -@d kern_base_offset 256*(128+min_quarterword) -@d lig_kern_start(A, B) lig_kern_base[A]+B.b3 /*beginning of lig/kern program*/ -@d lig_kern_restart(A, B) lig_kern_base[A]+256*op_byte(B)+rem_byte(B)+32768-kern_base_offset - -@ Font parameters are referred to as |slant(f)|, |space(f)|, etc. - -@d param_end(A) param_base[A]].sc -@d param(A) font_info[A+param_end -@d slant param(slant_code) /*slant to the right, per unit distance upward*/ -@d space param(space_code) /*normal space between words*/ -@d space_stretch param(space_stretch_code) /*stretch between words*/ -@d space_shrink param(space_shrink_code) /*shrink between words*/ -@d x_height param(x_height_code) /*one ex*/ -@d quad param(quad_code) /*one em*/ -@d extra_space param(extra_space_code) /*additional space at end of sentence*/ - -@<The em width for |cur_font|@>=quad(cur_font) - -@ @<The x-height for |cur_font|@>=x_height(cur_font) - -@ \TeX\ checks the information of a \.{TFM} file for validity as the -file is being read in, so that no further checks will be needed when -typesetting is going on. The somewhat tedious subroutine that does this -is called |read_font_info|. It has four parameters: the user font -identifier~|u|, the file name and area strings |nom| and |aire|, and the -``at'' size~|s|. If |s|~is negative, it's the negative of a scale factor -to be applied to the design size; |s==-1000| is the normal case. -Otherwise |s| will be substituted for the design size; in this -case, |s| must be positive and less than $2048\rm\,pt$ -(i.e., it must be less than $2^{27}$ when considered as an integer). - -The subroutine opens and closes a global file variable called |tfm_file|. -It returns the value of the internal font number that was just loaded. -If an error is detected, an error message is issued and no font -information is stored; |null_font| is returned in this case. - -@d abort goto bad_tfm /*do this when the \.{TFM} data is wrong*/ - -@p static internal_font_number read_font_info(pointer @!u, str_number @!nom, char *@!aire, - scaled @!s) /*input a \.{TFM} file*/ -{@+ -int k; /*index into |font_info|*/ -bool @!file_opened; /*was |tfm_file| successfully opened?*/ -halfword @!lf, @!lh, @!bc, @!ec, @!nw, @!nh, @!nd, @!ni, @!nl, @!nk, @!ne, @!np; - /*sizes of subfiles*/ -internal_font_number @!f; /*the new font's number*/ -internal_font_number @!g; /*the number to return*/ -eight_bits @!a, @!b, @!c, @!d; /*byte variables*/ -four_quarters @!qw;scaled @!sw; /*accumulators*/ -int @!bch_label; /*left boundary start location, or infinity*/ -int @!bchar; /*boundary character, or 256*/ -scaled @!z; /*the design size or the ``at'' size*/ -int @!alpha;int @!beta; - /*auxiliary quantities used in fixed-point multiplication*/ -g=null_font;@/ -@<Read and check the font data; |abort| if the \.{TFM} file is malformed; if there's -no room for this font, say so and |goto done|; otherwise |incr(font_ptr)| and |goto -done|@>; -bad_tfm: @<Report that the font won't be loaded@>; -done: if (file_opened) b_close(&tfm_file); -return g; -} - -@ There are programs called \.{TFtoPL} and \.{PLtoTF} that convert -between the \.{TFM} format and a symbolic property-list format -that can be easily edited. These programs contain extensive -diagnostic information, so \TeX\ does not have to bother giving -precise details about why it rejects a particular \.{TFM} file. -@.TFtoPL@> @.PLtoTF@> - -@d start_font_error_message print_err("Font ");sprint_cs(u); - print_char('=');print_file_name(nom, aire,""); - if (s >= 0) - {@+print(" at ");print_scaled(s);print("pt"); - } - else if (s!=-1000) - {@+print(" scaled ");print_int(-s); - } - -@<Report that the font won't be loaded@>= -start_font_error_message; -@.Font x=xx not loadable...@> -if (file_opened) print(" not loadable: Bad metric (TFM) file"); -else print(" not loadable: Metric (TFM) file not found"); -help5("I wasn't able to read the size data for this font,",@/ -"so I will ignore the font specification.",@/ -"[Wizards can fix TFM files using TFtoPL/PLtoTF.]",@/ -"You might try inserting a different font spec;",@/ -"e.g., type `I\\font<same font id>=<substitute font name>'."); -error() - -@ @<Read and check...@>= -@<Open |tfm_file| for input@>; -@<Read the {\.{TFM}} size fields@>; -@<Use size fields to allocate font information@>; -@<Read the {\.{TFM}} header@>; -@<Read character data@>; -@<Read box dimensions@>; -@<Read ligature/kern program@>; -@<Read extensible character recipes@>; -@<Read font parameters@>; -@<Make final adjustments and |goto done|@>@; - -@ @<Open |tfm_file| for input@>= -file_opened=false; -pack_file_name(nom, "",".tfm"); /* k\TeX\ */ -if (!b_open_in(&tfm_file)) abort; -file_opened=true - -@ Note: A malformed \.{TFM} file might be shorter than it claims to be; -thus |eof(tfm_file)| might be true when |read_font_info| refers to -|tfm_file.d| or when it says |get(tfm_file)|. If such circumstances -cause system error messages, you will have to defeat them somehow, -for example by defining |fget| to be `\ignorespaces|{@+get(tfm_file);| -|if (eof(tfm_file)) abort;} |\unskip'. -@^system dependencies@> - -@d fget get(tfm_file) -@d fbyte tfm_file.d -@d read_sixteen(A) {@+A=fbyte; - if (A > 127) abort; - fget;A=A*0400+fbyte; - } -@d store_four_quarters(A) {@+fget;a=fbyte;qw.b0=qi(a); - fget;b=fbyte;qw.b1=qi(b); - fget;c=fbyte;qw.b2=qi(c); - fget;d=fbyte;qw.b3=qi(d); - A=qw; - } - -@ @<Read the {\.{TFM}} size fields@>= -{@+read_sixteen(lf); -fget;read_sixteen(lh); -fget;read_sixteen(bc); -fget;read_sixteen(ec); -if ((bc > ec+1)||(ec > 255)) abort; -if (bc > 255) /*|bc==256| and |ec==255|*/ - {@+bc=1;ec=0; - } -fget;read_sixteen(nw); -fget;read_sixteen(nh); -fget;read_sixteen(nd); -fget;read_sixteen(ni); -fget;read_sixteen(nl); -fget;read_sixteen(nk); -fget;read_sixteen(ne); -fget;read_sixteen(np); -if (lf!=6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np) abort; -if ((nw==0)||(nh==0)||(nd==0)||(ni==0)) abort; -} - -@ The preliminary settings of the index-offset variables |char_base|, -|width_base|, |lig_kern_base|, |kern_base|, and |exten_base| will be -corrected later by subtracting |min_quarterword| from them; and we will -subtract 1 from |param_base| too. It's best to forget about such anomalies -until later. - -@<Use size fields to allocate font information@>= -lf=lf-6-lh; /*|lf| words should be loaded into |font_info|*/ -if (np < 7) lf=lf+7-np; /*at least seven parameters will appear*/ -if ((font_ptr==font_max)||(fmem_ptr+lf > font_mem_size)) - @<Apologize for not loading the font, |goto done|@>; -f=font_ptr+1; -char_base[f]=fmem_ptr-bc; -width_base[f]=char_base[f]+ec+1; -height_base[f]=width_base[f]+nw; -depth_base[f]=height_base[f]+nh; -italic_base[f]=depth_base[f]+nd; -lig_kern_base[f]=italic_base[f]+ni; -kern_base[f]=lig_kern_base[f]+nl-kern_base_offset; -exten_base[f]=kern_base[f]+kern_base_offset+nk; -param_base[f]=exten_base[f]+ne - -@ @<Apologize for not loading...@>= -{@+start_font_error_message; -print(" not loaded: Not enough room left"); -@.Font x=xx not loaded...@> -help4("I'm afraid I won't be able to make use of this font,",@/ -"because my memory for character-size data is too small.",@/ -"If you're really stuck, ask a wizard to enlarge me.",@/ -"Or maybe try `I\\font<same font id>=<name of loaded font>'."); -error();goto done; -} - -@ Only the first two words of the header are needed by \TeX82. - -@<Read the {\.{TFM}} header@>= -{@+if (lh < 2) abort; -store_four_quarters(font_check[f]); -fget;read_sixteen(z); /*this rejects a negative design size*/ -fget;z=z*0400+fbyte;fget;z=(z*020)+(fbyte/020); -if (z < unity) abort; -while (lh > 2) - {@+fget;fget;fget;fget;decr(lh); /*ignore the rest of the header*/ - } -font_dsize[f]=z; -if (s!=-1000) - if (s >= 0) z=s; - else z=xn_over_d(z,-s, 1000); -font_size[f]=z; -} - -@ @<Read character data@>= -for (k=fmem_ptr; k<=width_base[f]-1; k++) - {@+store_four_quarters(font_info[k].qqqq); - if ((a >= nw)||(b/020 >= nh)||(b%020 >= nd)|| - (c/4 >= ni)) abort; - switch (c%4) { - case lig_tag: if (d >= nl) abort;@+break; - case ext_tag: if (d >= ne) abort;@+break; - case list_tag: @<Check for charlist cycle@>@;@+break; - default:do_nothing; /*|no_tag|*/ - } - } - -@ We want to make sure that there is no cycle of characters linked together -by |list_tag| entries, since such a cycle would get \TeX\ into an endless -loop. If such a cycle exists, the routine here detects it when processing -the largest character code in the cycle. - -@d check_byte_range(A) {@+if ((A < bc)||(A > ec)) abort;@+} -@d current_character_being_worked_on k+bc-fmem_ptr - -@<Check for charlist cycle@>= -{@+check_byte_range(d); -while (d < current_character_being_worked_on) - {@+qw=char_info(f, d); - /*N.B.: not |qi(d)|, since |char_base[f]| hasn't been adjusted yet*/ - if (char_tag(qw)!=list_tag) goto not_found; - d=qo(rem_byte(qw)); /*next character on the list*/ - } -if (d==current_character_being_worked_on) abort; /*yes, there's a cycle*/ -not_found: ;} - -@ A |fix_word| whose four bytes are $(a,b,c,d)$ from left to right represents -the number -$$x=\left\{\vcenter{\halign{$#$,\hfil\qquad&if $#$\hfil\cr -b\cdot2^{-4}+c\cdot2^{-12}+d\cdot2^{-20}&a=0;\cr --16+b\cdot2^{-4}+c\cdot2^{-12}+d\cdot2^{-20}&a=255.\cr}}\right.$$ -(No other choices of |a| are allowed, since the magnitude of a number in -design-size units must be less than 16.) We want to multiply this -quantity by the integer~|z|, which is known to be less than $2^{27}$. -If $|z|<2^{23}$, the individual multiplications $b\cdot z$, -$c\cdot z$, $d\cdot z$ cannot overflow; otherwise we will divide |z| by 2, -4, 8, or 16, to obtain a multiplier less than $2^{23}$, and we can -compensate for this later. If |z| has thereby been replaced by -$|z|^\prime=|z|/2^e$, let $\beta=2^{4-e}$; we shall compute -$$\lfloor(b+c\cdot2^{-8}+d\cdot2^{-16})\,z^\prime/\beta\rfloor$$ -if $a=0$, or the same quantity minus $\alpha=2^{4+e}z^\prime$ if $a=255$. -This calculation must be done exactly, in order to guarantee portability -of \TeX\ between computers. - -@d store_scaled(A) {@+fget;a=fbyte;fget;b=fbyte; - fget;c=fbyte;fget;d=fbyte;@/ - sw=(((((d*z)/0400)+(c*z))/0400)+(b*z))/beta; - if (a==0) A=sw;@+else if (a==255) A=sw-alpha;@+else abort; - } - -@<Read box dimensions@>= -{@+@<Replace |z| by $|z|^\prime$ and compute $\alpha,\beta$@>; -for (k=width_base[f]; k<=lig_kern_base[f]-1; k++) - store_scaled(font_info[k].sc); -if (font_info[width_base[f]].sc!=0) abort; /*\\{width}[0] must be zero*/ -if (font_info[height_base[f]].sc!=0) abort; /*\\{height}[0] must be zero*/ -if (font_info[depth_base[f]].sc!=0) abort; /*\\{depth}[0] must be zero*/ -if (font_info[italic_base[f]].sc!=0) abort; /*\\{italic}[0] must be zero*/ -} - -@ @<Replace |z|...@>= -{@+alpha=16; -while (z >= 040000000) - {@+z=z/2;alpha=alpha+alpha; - } -beta=256/alpha;alpha=alpha*z; -} - -@ @d check_existence(A) @t@>@;@/ - {@+check_byte_range(A); - qw=char_info(f, A); /*N.B.: not |qi(A)|*/ - if (!char_exists(qw)) abort; - } - -@<Read ligature/kern program@>= -bch_label=077777;bchar=256; -if (nl > 0) - {@+for (k=lig_kern_base[f]; k<=kern_base[f]+kern_base_offset-1; k++) - {@+store_four_quarters(font_info[k].qqqq); - if (a > 128) - {@+if (256*c+d >= nl) abort; - if (a==255) if (k==lig_kern_base[f]) bchar=b; - } - else{@+if (b!=bchar) check_existence(b); - if (c < 128) check_existence(d)@; /*check ligature*/ - else if (256*(c-128)+d >= nk) abort; /*check kern*/ - if (a < 128) if (k-lig_kern_base[f]+a+1 >= nl) abort; - } - } - if (a==255) bch_label=256*c+d; - } -for (k=kern_base[f]+kern_base_offset; k<=exten_base[f]-1; k++) - store_scaled(font_info[k].sc); - -@ @<Read extensible character recipes@>= -for (k=exten_base[f]; k<=param_base[f]-1; k++) - {@+store_four_quarters(font_info[k].qqqq); - if (a!=0) check_existence(a); - if (b!=0) check_existence(b); - if (c!=0) check_existence(c); - check_existence(d); - } - -@ We check to see that the \.{TFM} file doesn't end prematurely; but -no error message is given for files having more than |lf| words. - -@<Read font parameters@>= -{@+for (k=1; k<=np; k++) - if (k==1) /*the |slant| parameter is a pure number*/ - {@+fget;sw=fbyte;if (sw > 127) sw=sw-256; - fget;sw=sw*0400+fbyte;fget;sw=sw*0400+fbyte; - fget;font_info[param_base[f]].sc= - (sw*020)+(fbyte/020); - } - else store_scaled(font_info[param_base[f]+k-1].sc); -if (eof(tfm_file)) abort; -for (k=np+1; k<=7; k++) font_info[param_base[f]+k-1].sc=0; -} - -@ Now to wrap it up, we have checked all the necessary things about the \.{TFM} -file, and all we need to do is put the finishing touches on the data for -the new font. - -@d adjust(A) A[f]=qo(A[f]) - /*correct for the excess |min_quarterword| that was added*/ - -@<Make final adjustments...@>= -if (np >= 7) font_params[f]=np;@+else font_params[f]=7; -hyphen_char[f]=default_hyphen_char;skew_char[f]=default_skew_char; -if (bch_label < nl) bchar_label[f]=bch_label+lig_kern_base[f]; -else bchar_label[f]=non_address; -font_bchar[f]=qi(bchar); -font_false_bchar[f]=qi(bchar); -if (bchar <= ec) if (bchar >= bc) - {@+qw=char_info(f, bchar); /*N.B.: not |qi(bchar)|*/ - if (char_exists(qw)) font_false_bchar[f]=non_char; - } -font_name[f]=nom; -font_area[f]=s_no(aire); -font_bc[f]=bc;font_ec[f]=ec;font_glue[f]=null; -adjust(char_base);adjust(width_base);adjust(lig_kern_base); -adjust(kern_base);adjust(exten_base); -decr(param_base[f]); -fmem_ptr=fmem_ptr+lf;font_ptr=f;g=f;goto done - -@ Before we forget about the format of these tables, let's deal with two -of \TeX's basic scanning routines related to font information. - -@<Declare procedures that scan font-related stuff@>= -static void scan_font_ident(void) -{@+internal_font_number f; -halfword @!m; -@<Get the next non-blank non-call...@>; -if (cur_cmd==def_font) f=cur_font; -else if (cur_cmd==set_font) f=cur_chr; -else if (cur_cmd==def_family) - {@+m=cur_chr;scan_four_bit_int();f=equiv(m+cur_val); - } -else{@+print_err("Missing font identifier"); -@.Missing font identifier@> - help2("I was looking for a control sequence whose",@/ - "current meaning has been defined by \\font."); - back_error();f=null_font; - } -cur_val=f; -} - -@ The following routine is used to implement `\.{\\fontdimen} |n| |f|'. -The boolean parameter |writing| is set |true| if the calling program -intends to change the parameter value. - -@<Declare procedures that scan font-related stuff@>= -static void find_font_dimen(bool @!writing) - /*sets |cur_val| to |font_info| location*/ -{@+internal_font_number f; -int @!n; /*the parameter number*/ -scan_int();n=cur_val;scan_font_ident();f=cur_val; -if (n <= 0) cur_val=fmem_ptr; -else{@+if (writing&&(n <= space_shrink_code)&&@| - (n >= space_code)&&(font_glue[f]!=null)) - {@+delete_glue_ref(font_glue[f]); - font_glue[f]=null; - } - if (n > font_params[f]) - if (f < font_ptr) cur_val=fmem_ptr; - else@<Increase the number of parameters in the last font@>@; - else cur_val=n+param_base[f]; - } -@<Issue an error message if |cur_val=fmem_ptr|@>; -} - -@ @<Issue an error message if |cur_val=fmem_ptr|@>= -if (cur_val==fmem_ptr) - {@+print_err("Font ");printn_esc(font_id_text(f)); - print(" has only ");print_int(font_params[f]); - print(" fontdimen parameters"); -@.Font x has only...@> - help2("To increase the number of font parameters, you must",@/ - "use \\fontdimen immediately after the \\font is loaded."); - error(); - } - -@ @<Increase the number of parameters...@>= -{@+@/do@+{if (fmem_ptr==font_mem_size) - overflow("font memory", font_mem_size); -@:TeX capacity exceeded font memory}{\quad font memory@> -font_info[fmem_ptr].sc=0;incr(fmem_ptr);incr(font_params[f]); -}@+ while (!(n==font_params[f])); -cur_val=fmem_ptr-1; /*this equals |param_base[f]+font_params[f]|*/ -} - -@ When \TeX\ wants to typeset a character that doesn't exist, the -character node is not created; thus the output routine can assume -that characters exist when it sees them. The following procedure -prints a warning message unless the user has suppressed it. - -@p static void char_warning(internal_font_number @!f, eight_bits @!c) -{@+int old_setting; /*saved value of |tracing_online|*/ -if (tracing_lost_chars > 0) - {@+old_setting=tracing_online; - if (eTeX_ex&&(tracing_lost_chars > 1)) tracing_online=1; - {@+begin_diagnostic(); - print_nl("Missing character: There is no "); -@.Missing character@> - print_ASCII(c);print(" in font "); - slow_print(font_name[f]);print_char('!');end_diagnostic(false); - } - tracing_online=old_setting; - } -} - -@ Here is a function that returns a pointer to a character node for a -given character in a given font. If that character doesn't exist, -|null| is returned instead. - -@p pointer new_character(internal_font_number @!f, eight_bits @!c) -{@+ -pointer p; /*newly allocated node*/ -if (font_bc[f] <= c) if (font_ec[f] >= c) - if (char_exists(char_info(f, qi(c)))) - {@+p=get_avail();font(p)=f;character(p)=qi(c); - return p; - } -char_warning(f, c); -return null; -} - -@* Device-independent file format. -The most important output produced by a run of \TeX\ is the ``device -independent'' (\.{DVI}) file that specifies where characters and rules -are to appear on printed pages. The form of these files was designed by -David R. Fuchs in 1979. Almost any reasonable typesetting device can be -@^Fuchs, David Raymond@> -@:DVI\_files}{\.{DVI} files@> -driven by a program that takes \.{DVI} files as input, and dozens of such -\.{DVI}-to-whatever programs have been written. Thus, it is possible to -print the output of \TeX\ on many different kinds of equipment, using \TeX\ -as a device-independent ``front end.'' - -A \.{DVI} file is a stream of 8-bit bytes, which may be regarded as a -series of commands in a machine-like language. The first byte of each command -is the operation code, and this code is followed by zero or more bytes -that provide parameters to the command. The parameters themselves may consist -of several consecutive bytes; for example, the `|set_rule|' command has two -parameters, each of which is four bytes long. Parameters are usually -regarded as nonnegative integers; but four-byte-long parameters, -and shorter parameters that denote distances, can be -either positive or negative. Such parameters are given in two's complement -notation. For example, a two-byte-long distance parameter has a value between -$-2^{15}$ and $2^{15}-1$. As in \.{TFM} files, numbers that occupy -more than one byte position appear in BigEndian order. - -A \.{DVI} file consists of a ``preamble,'' followed by a sequence of one -or more ``pages,'' followed by a ``postamble.'' The preamble is simply a -|pre| command, with its parameters that define the dimensions used in the -file; this must come first. Each ``page'' consists of a |bop| command, -followed by any number of other commands that tell where characters are to -be placed on a physical page, followed by an |eop| command. The pages -appear in the order that \TeX\ generated them. If we ignore |nop| commands -and \\{fnt\_def} commands (which are allowed between any two commands in -the file), each |eop| command is immediately followed by a |bop| command, -or by a |post| command; in the latter case, there are no more pages in the -file, and the remaining bytes form the postamble. Further details about -the postamble will be explained later. - -Some parameters in \.{DVI} commands are ``pointers.'' These are four-byte -quantities that give the location number of some other byte in the file; -the first byte is number~0, then comes number~1, and so on. For example, -one of the parameters of a |bop| command points to the previous |bop|; -this makes it feasible to read the pages in backwards order, in case the -results are being directed to a device that stacks its output face up. -Suppose the preamble of a \.{DVI} file occupies bytes 0 to 99. Now if the -first page occupies bytes 100 to 999, say, and if the second -page occupies bytes 1000 to 1999, then the |bop| that starts in byte 1000 -points to 100 and the |bop| that starts in byte 2000 points to 1000. (The -very first |bop|, i.e., the one starting in byte 100, has a pointer of~$-1$.) - -@ The \.{DVI} format is intended to be both compact and easily interpreted -by a machine. Compactness is achieved by making most of the information -implicit instead of explicit. When a \.{DVI}-reading program reads the -commands for a page, it keeps track of several quantities: (a)~The current -font |f| is an integer; this value is changed only -by \\{fnt} and \\{fnt\_num} commands. (b)~The current position on the page -is given by two numbers called the horizontal and vertical coordinates, -|h| and |v|. Both coordinates are zero at the upper left corner of the page; -moving to the right corresponds to increasing the horizontal coordinate, and -moving down corresponds to increasing the vertical coordinate. Thus, the -coordinates are essentially Cartesian, except that vertical directions are -flipped; the Cartesian version of |(h, v)| would be |(h,-v)|. (c)~The -current spacing amounts are given by four numbers |w|, |x|, |y|, and |z|, -where |w| and~|x| are used for horizontal spacing and where |y| and~|z| -are used for vertical spacing. (d)~There is a stack containing -|(h, v, w, x, y, z)| values; the \.{DVI} commands |push| and |pop| are used to -change the current level of operation. Note that the current font~|f| is -not pushed and popped; the stack contains only information about -positioning. - -The values of |h|, |v|, |w|, |x|, |y|, and |z| are signed integers having up -to 32 bits, including the sign. Since they represent physical distances, -there is a small unit of measurement such that increasing |h| by~1 means -moving a certain tiny distance to the right. The actual unit of -measurement is variable, as explained below; \TeX\ sets things up so that -its \.{DVI} output is in sp units, i.e., scaled points, in agreement with -all the |scaled| dimensions in \TeX's data structures. - -@ Here is a list of all the commands that may appear in a \.{DVI} file. Each -command is specified by its symbolic name (e.g., |bop|), its opcode byte -(e.g., 139), and its parameters (if any). The parameters are followed -by a bracketed number telling how many bytes they occupy; for example, -`|p[4]|' means that parameter |p| is four bytes long. - -\yskip\hang|set_char_0| 0. Typeset character number~0 from font~|f| -such that the reference point of the character is at |(h, v)|. Then -increase |h| by the width of that character. Note that a character may -have zero or negative width, so one cannot be sure that |h| will advance -after this command; but |h| usually does increase. - -\yskip\hang\\{set\_char\_1} through \\{set\_char\_127} (opcodes 1 to 127). -Do the operations of |set_char_0|; but use the character whose number -matches the opcode, instead of character~0. - -\yskip\hang|set1| 128 |c[1]|. Same as |set_char_0|, except that character -number~|c| is typeset. \TeX82 uses this command for characters in the -range |128 <= c < 256|. - -\yskip\hang|@!set2| 129 |c[2]|. Same as |set1|, except that |c|~is two -bytes long, so it is in the range |0 <= c < 65536|. \TeX82 never uses this -command, but it should come in handy for extensions of \TeX\ that deal -with oriental languages. -@^oriental characters@>@^Chinese characters@>@^Japanese characters@> - -\yskip\hang|@!set3| 130 |c[3]|. Same as |set1|, except that |c|~is three -bytes long, so it can be as large as $2^{24}-1$. Not even the Chinese -language has this many characters, but this command might prove useful -in some yet unforeseen extension. - -\yskip\hang|@!set4| 131 |c[4]|. Same as |set1|, except that |c|~is four -bytes long. Imagine that. - -\yskip\hang|set_rule| 132 |a[4]| |b[4]|. Typeset a solid black rectangle -of height~|a| and width~|b|, with its bottom left corner at |(h, v)|. Then -set |h=h+b|. If either |a <= 0| or |b <= 0|, nothing should be typeset. Note -that if |b < 0|, the value of |h| will decrease even though nothing else happens. -See below for details about how to typeset rules so that consistency with -\MF\ is guaranteed. - -\yskip\hang|@!put1| 133 |c[1]|. Typeset character number~|c| from font~|f| -such that the reference point of the character is at |(h, v)|. (The `put' -commands are exactly like the `set' commands, except that they simply put out a -character or a rule without moving the reference point afterwards.) - -\yskip\hang|@!put2| 134 |c[2]|. Same as |set2|, except that |h| is not changed. - -\yskip\hang|@!put3| 135 |c[3]|. Same as |set3|, except that |h| is not changed. - -\yskip\hang|@!put4| 136 |c[4]|. Same as |set4|, except that |h| is not changed. - -\yskip\hang|put_rule| 137 |a[4]| |b[4]|. Same as |set_rule|, except that -|h| is not changed. - -\yskip\hang|nop| 138. No operation, do nothing. Any number of |nop|'s -may occur between \.{DVI} commands, but a |nop| cannot be inserted between -a command and its parameters or between two parameters. - -\yskip\hang|bop| 139 $c_0[4]$ $c_1[4]$ $\ldots$ $c_9[4]$ $p[4]$. Beginning -of a page: Set |(h, v, w, x, y, z)=(0, 0, 0, 0, 0, 0)| and set the stack empty. Set -the current font |f| to an undefined value. The ten $c_i$ parameters hold -the values of \.{\\count0} $\ldots$ \.{\\count9} in \TeX\ at the time -\.{\\shipout} was invoked for this page; they can be used to identify -pages, if a user wants to print only part of a \.{DVI} file. The parameter -|p| points to the previous |bop| in the file; the first -|bop| has $p=-1$. - -\yskip\hang|eop| 140. End of page: Print what you have read since the -previous |bop|. At this point the stack should be empty. (The \.{DVI}-reading -programs that drive most output devices will have kept a buffer of the -material that appears on the page that has just ended. This material is -largely, but not entirely, in order by |v| coordinate and (for fixed |v|) by -|h|~coordinate; so it usually needs to be sorted into some order that is -appropriate for the device in question.) - -\yskip\hang|push| 141. Push the current values of |(h, v, w, x, y, z)| onto the -top of the stack; do not change any of these values. Note that |f| is -not pushed. - -\yskip\hang|pop| 142. Pop the top six values off of the stack and assign -them respectively to |(h, v, w, x, y, z)|. The number of pops should never -exceed the number of pushes, since it would be highly embarrassing if the -stack were empty at the time of a |pop| command. - -\yskip\hang|right1| 143 |b[1]|. Set |h=h+b|, i.e., move right |b| units. -The parameter is a signed number in two's complement notation, |-128 <= b < 128|; -if |b < 0|, the reference point moves left. - -\yskip\hang|@!right2| 144 |b[2]|. Same as |right1|, except that |b| is a -two-byte quantity in the range |-32768 <= b < 32768|. - -\yskip\hang|@!right3| 145 |b[3]|. Same as |right1|, except that |b| is a -three-byte quantity in the range |@t$-2^{23}$@> <= b < @t$2^{23}$@>|. - -\yskip\hang|@!right4| 146 |b[4]|. Same as |right1|, except that |b| is a -four-byte quantity in the range |@t$-2^{31}$@> <= b < @t$2^{31}$@>|. - -\yskip\hang|w0| 147. Set |h=h+w|; i.e., move right |w| units. With luck, -this parameterless command will usually suffice, because the same kind of motion -will occur several times in succession; the following commands explain how -|w| gets particular values. - -\yskip\hang|w1| 148 |b[1]|. Set |w=b| and |h=h+b|. The value of |b| is a -signed quantity in two's complement notation, |-128 <= b < 128|. This command -changes the current |w|~spacing and moves right by |b|. - -\yskip\hang|@!w2| 149 |b[2]|. Same as |w1|, but |b| is two bytes long, -|-32768 <= b < 32768|. - -\yskip\hang|@!w3| 150 |b[3]|. Same as |w1|, but |b| is three bytes long, -|@t$-2^{23}$@> <= b < @t$2^{23}$@>|. - -\yskip\hang|@!w4| 151 |b[4]|. Same as |w1|, but |b| is four bytes long, -|@t$-2^{31}$@> <= b < @t$2^{31}$@>|. - -\yskip\hang|x0| 152. Set |h=h+x|; i.e., move right |x| units. The `|x|' -commands are like the `|w|' commands except that they involve |x| instead -of |w|. - -\yskip\hang|x1| 153 |b[1]|. Set |x=b| and |h=h+b|. The value of |b| is a -signed quantity in two's complement notation, |-128 <= b < 128|. This command -changes the current |x|~spacing and moves right by |b|. - -\yskip\hang|@!x2| 154 |b[2]|. Same as |x1|, but |b| is two bytes long, -|-32768 <= b < 32768|. - -\yskip\hang|@!x3| 155 |b[3]|. Same as |x1|, but |b| is three bytes long, -|@t$-2^{23}$@> <= b < @t$2^{23}$@>|. - -\yskip\hang|@!x4| 156 |b[4]|. Same as |x1|, but |b| is four bytes long, -|@t$-2^{31}$@> <= b < @t$2^{31}$@>|. - -\yskip\hang|down1| 157 |a[1]|. Set |v=v+a|, i.e., move down |a| units. -The parameter is a signed number in two's complement notation, |-128 <= a < 128|; -if |a < 0|, the reference point moves up. - -\yskip\hang|@!down2| 158 |a[2]|. Same as |down1|, except that |a| is a -two-byte quantity in the range |-32768 <= a < 32768|. - -\yskip\hang|@!down3| 159 |a[3]|. Same as |down1|, except that |a| is a -three-byte quantity in the range |@t$-2^{23}$@> <= a < @t$2^{23}$@>|. - -\yskip\hang|@!down4| 160 |a[4]|. Same as |down1|, except that |a| is a -four-byte quantity in the range |@t$-2^{31}$@> <= a < @t$2^{31}$@>|. - -\yskip\hang|y0| 161. Set |v=v+y|; i.e., move down |y| units. With luck, -this parameterless command will usually suffice, because the same kind of motion -will occur several times in succession; the following commands explain how -|y| gets particular values. - -\yskip\hang|y1| 162 |a[1]|. Set |y=a| and |v=v+a|. The value of |a| is a -signed quantity in two's complement notation, |-128 <= a < 128|. This command -changes the current |y|~spacing and moves down by |a|. - -\yskip\hang|@!y2| 163 |a[2]|. Same as |y1|, but |a| is two bytes long, -|-32768 <= a < 32768|. - -\yskip\hang|@!y3| 164 |a[3]|. Same as |y1|, but |a| is three bytes long, -|@t$-2^{23}$@> <= a < @t$2^{23}$@>|. - -\yskip\hang|@!y4| 165 |a[4]|. Same as |y1|, but |a| is four bytes long, -|@t$-2^{31}$@> <= a < @t$2^{31}$@>|. - -\yskip\hang|z0| 166. Set |v=v+z|; i.e., move down |z| units. The `|z|' commands -are like the `|y|' commands except that they involve |z| instead of |y|. - -\yskip\hang|z1| 167 |a[1]|. Set |z=a| and |v=v+a|. The value of |a| is a -signed quantity in two's complement notation, |-128 <= a < 128|. This command -changes the current |z|~spacing and moves down by |a|. - -\yskip\hang|@!z2| 168 |a[2]|. Same as |z1|, but |a| is two bytes long, -|-32768 <= a < 32768|. - -\yskip\hang|@!z3| 169 |a[3]|. Same as |z1|, but |a| is three bytes long, -|@t$-2^{23}$@> <= a < @t$2^{23}$@>|. - -\yskip\hang|@!z4| 170 |a[4]|. Same as |z1|, but |a| is four bytes long, -|@t$-2^{31}$@> <= a < @t$2^{31}$@>|. - -\yskip\hang|fnt_num_0| 171. Set |f=0|. Font 0 must previously have been -defined by a \\{fnt\_def} instruction, as explained below. - -\yskip\hang\\{fnt\_num\_1} through \\{fnt\_num\_63} (opcodes 172 to 234). Set -|f=1|, \dots, \hbox{|f=63|}, respectively. - -\yskip\hang|fnt1| 235 |k[1]|. Set |f=k|. \TeX82 uses this command for font -numbers in the range |64 <= k < 256|. - -\yskip\hang|@!fnt2| 236 |k[2]|. Same as |fnt1|, except that |k|~is two -bytes long, so it is in the range |0 <= k < 65536|. \TeX82 never generates this -command, but large font numbers may prove useful for specifications of -color or texture, or they may be used for special fonts that have fixed -numbers in some external coding scheme. - -\yskip\hang|@!fnt3| 237 |k[3]|. Same as |fnt1|, except that |k|~is three -bytes long, so it can be as large as $2^{24}-1$. - -\yskip\hang|@!fnt4| 238 |k[4]|. Same as |fnt1|, except that |k|~is four -bytes long; this is for the really big font numbers (and for the negative ones). - -\yskip\hang|xxx1| 239 |k[1]| |x[k]|. This command is undefined in -general; it functions as a $(k+2)$-byte |nop| unless special \.{DVI}-reading -programs are being used. \TeX82 generates |xxx1| when a short enough -\.{\\special} appears, setting |k| to the number of bytes being sent. It -is recommended that |x| be a string having the form of a keyword followed -by possible parameters relevant to that keyword. - -\yskip\hang|@!xxx2| 240 |k[2]| |x[k]|. Like |xxx1|, but |0 <= k < 65536|. - -\yskip\hang|@!xxx3| 241 |k[3]| |x[k]|. Like |xxx1|, but |0 <= k < @t$2^{24}$@>|. - -\yskip\hang|xxx4| 242 |k[4]| |x[k]|. Like |xxx1|, but |k| can be ridiculously -large. \TeX82 uses |xxx4| when sending a string of length 256 or more. - -\yskip\hang|fnt_def1| 243 |k[1]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. -Define font |k|, where |0 <= k < 256|; font definitions will be explained shortly. - -\yskip\hang|@!fnt_def2| 244 |k[2]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. -Define font |k|, where |0 <= k < 65536|. - -\yskip\hang|@!fnt_def3| 245 |k[3]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. -Define font |k|, where |0 <= k < @t$2^{24}$@>|. - -\yskip\hang|@!fnt_def4| 246 |k[4]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|. -Define font |k|, where |@t$-2^{31}$@> <= k < @t$2^{31}$@>|. - -\yskip\hang|pre| 247 |i[1]| |num[4]| |den[4]| |mag[4]| |k[1]| |x[k]|. -Beginning of the preamble; this must come at the very beginning of the -file. Parameters |i|, |num|, |den|, |mag|, |k|, and |x| are explained below. - -\yskip\hang|post| 248. Beginning of the postamble, see below. - -\yskip\hang|post_post| 249. Ending of the postamble, see below. - -\yskip\noindent Commands 250--255 are undefined at the present time. - -@ @d set_char_0 0 /*typeset character 0 and move right*/ -@d set1 128 /*typeset a character and move right*/ -@d set_rule 132 /*typeset a rule and move right*/ -@d put_rule 137 /*typeset a rule*/ -@d nop 138 /*no operation*/ -@d bop 139 /*beginning of page*/ -@d eop 140 /*ending of page*/ -@d push 141 /*save the current positions*/ -@d pop 142 /*restore previous positions*/ -@d right1 143 /*move right*/ -@d w0 147 /*move right by |w|*/ -@d w1 148 /*move right and set |w|*/ -@d x0 152 /*move right by |x|*/ -@d x1 153 /*move right and set |x|*/ -@d down1 157 /*move down*/ -@d y0 161 /*move down by |y|*/ -@d y1 162 /*move down and set |y|*/ -@d z0 166 /*move down by |z|*/ -@d z1 167 /*move down and set |z|*/ -@d fnt_num_0 171 /*set current font to 0*/ -@d fnt1 235 /*set current font*/ -@d xxx1 239 /*extension to \.{DVI} primitives*/ -@d xxx4 242 /*potentially long extension to \.{DVI} primitives*/ -@d fnt_def1 243 /*define the meaning of a font number*/ -@d pre 247 /*preamble*/ -@d post 248 /*postamble beginning*/ -@d post_post 249 /*postamble ending*/ - -@ The preamble contains basic information about the file as a whole. As -stated above, there are six parameters: -$$\hbox{|@!i[1]| |@!num[4]| |@!den[4]| |@!mag[4]| |@!k[1]| |@!x[k]|.}$$ -The |i| byte identifies \.{DVI} format; currently this byte is always set -to~2. (The value |i==3| is currently used for an extended format that -allows a mixture of right-to-left and left-to-right typesetting. -Some day we will set |i==4|, when \.{DVI} format makes another -incompatible change---perhaps in the year 2048.) - -The next two parameters, |num| and |den|, are positive integers that define -the units of measurement; they are the numerator and denominator of a -fraction by which all dimensions in the \.{DVI} file could be multiplied -in order to get lengths in units of $10^{-7}$ meters. Since $\rm 7227{pt} = -254{cm}$, and since \TeX\ works with scaled points where there are $2^{16}$ -sp in a point, \TeX\ sets -$|num|/|den|=(254\cdot10^5)/(7227\cdot2^{16})=25400000/473628672$. -@^sp@> - -The |mag| parameter is what \TeX\ calls \.{\\mag}, i.e., 1000 times the -desired magnification. The actual fraction by which dimensions are -multiplied is therefore $|mag|\cdot|num|/1000|den|$. Note that if a \TeX\ -source document does not call for any `\.{true}' dimensions, and if you -change it only by specifying a different \.{\\mag} setting, the \.{DVI} -file that \TeX\ creates will be completely unchanged except for the value -of |mag| in the preamble and postamble. (Fancy \.{DVI}-reading programs allow -users to override the |mag|~setting when a \.{DVI} file is being printed.) - -Finally, |k| and |x| allow the \.{DVI} writer to include a comment, which is not -interpreted further. The length of comment |x| is |k|, where |0 <= k < 256|. - -@d id_byte 2 /*identifies the kind of \.{DVI} files described here*/ - -@ Font definitions for a given font number |k| contain further parameters -$$\hbox{|c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.}$$ -The four-byte value |c| is the check sum that \TeX\ found in the \.{TFM} -file for this font; |c| should match the check sum of the font found by -programs that read this \.{DVI} file. -@^check sum@> - -Parameter |s| contains a fixed-point scale factor that is applied to -the character widths in font |k|; font dimensions in \.{TFM} files and -other font files are relative to this quantity, which is called the -``at size'' elsewhere in this documentation. The value of |s| is -always positive and less than $2^{27}$. It is given in the same units -as the other \.{DVI} dimensions, i.e., in sp when \TeX82 has made the -file. Parameter |d| is similar to |s|; it is the ``design size,'' and -(like~|s|) it is given in \.{DVI} units. Thus, font |k| is to be used -at $|mag|\cdot s/1000d$ times its normal size. - -The remaining part of a font definition gives the external name of the font, -which is an ASCII string of length |a+l|. The number |a| is the length -of the ``area'' or directory, and |l| is the length of the font name itself; -the standard local system font area is supposed to be used when |a==0|. -The |n| field contains the area in its first |a| bytes. - -Font definitions must appear before the first use of a particular font number. -Once font |k| is defined, it must not be defined again; however, we -shall see below that font definitions appear in the postamble as well as -in the pages, so in this sense each font number is defined exactly twice, -if at all. Like |nop| commands, font definitions can -appear before the first |bop|, or between an |eop| and a |bop|. - -@ Sometimes it is desirable to make horizontal or vertical rules line up -precisely with certain features in characters of a font. It is possible to -guarantee the correct matching between \.{DVI} output and the characters -generated by \MF\ by adhering to the following principles: (1)~The \MF\ -characters should be positioned so that a bottom edge or left edge that is -supposed to line up with the bottom or left edge of a rule appears at the -reference point, i.e., in row~0 and column~0 of the \MF\ raster. This -ensures that the position of the rule will not be rounded differently when -the pixel size is not a perfect multiple of the units of measurement in -the \.{DVI} file. (2)~A typeset rule of height $a>0$ and width $b>0$ -should be equivalent to a \MF-generated character having black pixels in -precisely those raster positions whose \MF\ coordinates satisfy -|0 <= x < @t$\alpha$@>b| and |0 <= y < @t$\alpha$@>a|, where $\alpha$ is the number -of pixels per \.{DVI} unit. -@:METAFONT}{\MF@> -@^alignment of rules with characters@> -@^rules aligning with characters@> - -@ The last page in a \.{DVI} file is followed by `|post|'; this command -introduces the postamble, which summarizes important facts that \TeX\ has -accumulated about the file, making it possible to print subsets of the data -with reasonable efficiency. The postamble has the form -$$\vbox{\halign{\hbox{#\hfil}\cr - |post| |p[4]| |num[4]| |den[4]| |mag[4]| |l[4]| |u[4]| |s[2]| |t[2]|\cr - $\langle\,$font definitions$\,\rangle$\cr - |post_post| |q[4]| |i[1]| 223's$[{\G}4]$\cr}}$$ -Here |p| is a pointer to the final |bop| in the file. The next three -parameters, |num|, |den|, and |mag|, are duplicates of the quantities that -appeared in the preamble. - -Parameters |l| and |u| give respectively the height-plus-depth of the tallest -page and the width of the widest page, in the same units as other dimensions -of the file. These numbers might be used by a \.{DVI}-reading program to -position individual ``pages'' on large sheets of film or paper; however, -the standard convention for output on normal size paper is to position each -page so that the upper left-hand corner is exactly one inch from the left -and the top. Experience has shown that it is unwise to design \.{DVI}-to-printer -software that attempts cleverly to center the output; a fixed position of -the upper left corner is easiest for users to understand and to work with. -Therefore |l| and~|u| are often ignored. - -Parameter |s| is the maximum stack depth (i.e., the largest excess of -|push| commands over |pop| commands) needed to process this file. Then -comes |t|, the total number of pages (|bop| commands) present. - -The postamble continues with font definitions, which are any number of -\\{fnt\_def} commands as described above, possibly interspersed with |nop| -commands. Each font number that is used in the \.{DVI} file must be defined -exactly twice: Once before it is first selected by a \\{fnt} command, and once -in the postamble. - -@ The last part of the postamble, following the |post_post| byte that -signifies the end of the font definitions, contains |q|, a pointer to the -|post| command that started the postamble. An identification byte, |i|, -comes next; this currently equals~2, as in the preamble. - -The |i| byte is followed by four or more bytes that are all equal to -the decimal number 223 (i.e., 0337 in octal). \TeX\ puts out four to seven of -these trailing bytes, until the total length of the file is a multiple of -four bytes, since this works out best on machines that pack four bytes per -word; but any number of 223's is allowed, as long as there are at least four -of them. In effect, 223 is a sort of signature that is added at the very end. -@^Fuchs, David Raymond@> - -This curious way to finish off a \.{DVI} file makes it feasible for -\.{DVI}-reading programs to find the postamble first, on most computers, -even though \TeX\ wants to write the postamble last. Most operating -systems permit random access to individual words or bytes of a file, so -the \.{DVI} reader can start at the end and skip backwards over the 223's -until finding the identification byte. Then it can back up four bytes, read -|q|, and move to byte |q| of the file. This byte should, of course, -contain the value 248 (|post|); now the postamble can be read, so the -\.{DVI} reader can discover all the information needed for typesetting the -pages. Note that it is also possible to skip through the \.{DVI} file at -reasonably high speed to locate a particular page, if that proves -desirable. This saves a lot of time, since \.{DVI} files used in production -jobs tend to be large. - -Unfortunately, however, standard \PASCAL\ does not include the ability to -@^system dependencies@> -access a random position in a file, or even to determine the length of a file. -Almost all systems nowadays provide the necessary capabilities, so \.{DVI} -format has been designed to work most efficiently with modern operating systems. -But if \.{DVI} files have to be processed under the restrictions of standard -\PASCAL, one can simply read them from front to back, since the necessary -header information is present in the preamble and in the font definitions. -(The |l| and |u| and |s| and |t| parameters, which appear only in the -postamble, are ``frills'' that are handy but not absolutely necessary.) - -@* Shipping pages out. -After considering \TeX's eyes and stomach, we come now to the bowels. -@^bowels@> - -The |ship_out| procedure is given a pointer to a box; its mission is -to describe that box in \.{DVI} form, outputting a ``page'' to |dvi_file|. -The \.{DVI} coordinates $(h,v)=(0,0)$ should correspond to the upper left -corner of the box being shipped. - -Since boxes can be inside of boxes inside of boxes, the main work of -|ship_out| is done by two mutually recursive routines, |hlist_out| -and |vlist_out|, which traverse the hlists and vlists inside of horizontal -and vertical boxes. - -As individual pages are being processed, we need to accumulate -information about the entire set of pages, since such statistics must be -reported in the postamble. The global variables |total_pages|, |max_v|, -|max_h|, |max_push|, and |last_bop| are used to record this information. - -The variable |doing_leaders| is |true| while leaders are being output. -The variable |dead_cycles| contains the number of times an output routine -has been initiated since the last |ship_out|. - -A few additional global variables are also defined here for use in -|vlist_out| and |hlist_out|. They could have been local variables, but -that would waste stack space when boxes are deeply nested, since the -values of these variables are not needed during recursive calls. -@^recursion@> - -@<Glob...@>= -static int @!total_pages; /*the number of pages that have been shipped out*/ -static scaled @!max_v; /*maximum height-plus-depth of pages shipped so far*/ -static scaled @!max_h; /*maximum width of pages shipped so far*/ -static int @!max_push; /*deepest nesting of |push| commands encountered so far*/ -static int @!last_bop; /*location of previous |bop| in the \.{DVI} output*/ -static int @!dead_cycles; /*recent outputs that didn't ship anything out*/ -bool @!doing_leaders; /*are we inside a leader box?*/ -@# -static quarterword @!c, @!f; /*character and font in current |char_node|*/ -static scaled @!rule_ht, @!rule_dp, @!rule_wd; /*size of current rule being output*/ -static pointer @!g; /*current glue specification*/ -static int @!lq, @!lr; /*quantities used in calculations for leaders*/ - -@ @<Set init...@>= -total_pages=0;max_v=0;max_h=0;max_push=0;last_bop=-1; -doing_leaders=false;dead_cycles=0;cur_s=-1; - -@ The \.{DVI} bytes are output to a buffer instead of being written directly -to the output file. This makes it possible to reduce the overhead of -subroutine calls, thereby measurably speeding up the computation, since -output of \.{DVI} bytes is part of \TeX's inner loop. And it has another -advantage as well, since we can change instructions in the buffer in order to -make the output more compact. For example, a `|down2|' command can be -changed to a `|y2|', thereby making a subsequent `|y0|' command possible, -saving two bytes. - -The output buffer is divided into two parts of equal size; the bytes found -in |dvi_buf[0 dotdot half_buf-1]| constitute the first half, and those in -|dvi_buf[half_buf dotdot dvi_buf_size-1]| constitute the second. The global -variable |dvi_ptr| points to the position that will receive the next -output byte. When |dvi_ptr| reaches |dvi_limit|, which is always equal -to one of the two values |half_buf| or |dvi_buf_size|, the half buffer that -is about to be invaded next is sent to the output and |dvi_limit| is -changed to its other value. Thus, there is always at least a half buffer's -worth of information present, except at the very beginning of the job. - -Bytes of the \.{DVI} file are numbered sequentially starting with 0; -the next byte to be generated will be number |dvi_offset+dvi_ptr|. -A byte is present in the buffer only if its number is | >= dvi_gone|. - -@<Types...@>= -typedef int16_t dvi_index; /*an index into the output buffer*/ - -@ Some systems may find it more efficient to make |dvi_buf| a || -array, since output of four bytes at once may be facilitated. -@^system dependencies@> - -@<Glob...@>= -static eight_bits @!dvi_buf[dvi_buf_size+1]; /*buffer for \.{DVI} output*/ -static dvi_index @!half_buf; /*half of |dvi_buf_size|*/ -static dvi_index @!dvi_limit; /*end of the current half buffer*/ -static dvi_index @!dvi_ptr; /*the next available buffer address*/ -static int @!dvi_offset; /*|dvi_buf_size| times the number of times the - output buffer has been fully emptied*/ -static int @!dvi_gone; /*the number of bytes already output to |dvi_file|*/ - -@ Initially the buffer is all in one piece; we will output half of it only -after it first fills up. - -@<Set init...@>= -half_buf=dvi_buf_size/2;dvi_limit=dvi_buf_size;dvi_ptr=0; -dvi_offset=0;dvi_gone=0; - -@ The actual output of |dvi_buf[a dotdot b]| to |dvi_file| is performed by calling -|write_dvi(a, b)|. For best results, this procedure should be optimized to -run as fast as possible on each particular system, since it is part of -\TeX's inner loop. It is safe to assume that |a| and |b+1| will both be -multiples of 4 when |write_dvi(a, b)| is called; therefore it is possible on -many machines to use efficient methods to pack four bytes per word and to -output an array of words with one system call. -@^system dependencies@> -@^inner loop@> -@^defecation@> - -@p static void write_dvi(dvi_index @!a, dvi_index @!b) -{@+int k; -for (k=a; k<=b; k++) pascal_write(dvi_file, "%c", dvi_buf[k]); -} - -@ To put a byte in the buffer without paying the cost of invoking a procedure -each time, we use the macro |dvi_out|. - -@d dvi_out(A) @+{@+dvi_buf[dvi_ptr]=A;incr(dvi_ptr); - if (dvi_ptr==dvi_limit) dvi_swap(); - } - -@p static void dvi_swap(void) /*outputs half of the buffer*/ -{@+if (dvi_limit==dvi_buf_size) - {@+write_dvi(0, half_buf-1);dvi_limit=half_buf; - dvi_offset=dvi_offset+dvi_buf_size;dvi_ptr=0; - } -else{@+write_dvi(half_buf, dvi_buf_size-1);dvi_limit=dvi_buf_size; - } -dvi_gone=dvi_gone+half_buf; -} - -@ Here is how we clean out the buffer when \TeX\ is all through; |dvi_ptr| -will be a multiple of~4. - -@<Empty the last bytes out of |dvi_buf|@>= -if (dvi_limit==half_buf) write_dvi(half_buf, dvi_buf_size-1); -if (dvi_ptr > 0) write_dvi(0, dvi_ptr-1) - -@ The |dvi_four| procedure outputs four bytes in two's complement notation, -without risking arithmetic overflow. - -@p static void dvi_four(int @!x) -{@+if (x >= 0) dvi_out(x/0100000000)@; -else{@+x=x+010000000000; - x=x+010000000000; - dvi_out((x/0100000000)+128); - } -x=x%0100000000;dvi_out(x/0200000); -x=x%0200000;dvi_out(x/0400); -dvi_out(x%0400); -} - -@ A mild optimization of the output is performed by the |dvi_pop| -routine, which issues a |pop| unless it is possible to cancel a -`|push| |pop|' pair. The parameter to |dvi_pop| is the byte address -following the old |push| that matches the new |pop|. - -@p static void dvi_pop(int @!l) -{@+if ((l==dvi_offset+dvi_ptr)&&(dvi_ptr > 0)) decr(dvi_ptr); -else dvi_out(pop); -} - -@ Here's a procedure that outputs a font definition. Since \TeX82 uses at -most 256 different fonts per job, |fnt_def1| is always used as the command code. - -@p static void dvi_font_def(internal_font_number @!f) -{@+int k; /*index into |str_pool|*/ -dvi_out(fnt_def1); -dvi_out(f-font_base-1);@/ -dvi_out(qo(font_check[f].b0)); -dvi_out(qo(font_check[f].b1)); -dvi_out(qo(font_check[f].b2)); -dvi_out(qo(font_check[f].b3));@/ -dvi_four(font_size[f]); -dvi_four(font_dsize[f]);@/ -dvi_out(length(font_area[f])); -dvi_out(length(font_name[f])); -@<Output the font name whose internal number is |f|@>; -} - -@ @<Output the font name whose internal number is |f|@>= -for (k=str_start[font_area[f]]; k<=str_start[font_area[f]+1]-1; k++) - dvi_out(so(str_pool[k])); -for (k=str_start[font_name[f]]; k<=str_start[font_name[f]+1]-1; k++) - dvi_out(so(str_pool[k])) - -@ Versions of \TeX\ intended for small computers might well choose to omit -the ideas in the next few parts of this program, since it is not really -necessary to optimize the \.{DVI} code by making use of the |w0|, |x0|, -|y0|, and |z0| commands. Furthermore, the algorithm that we are about to -describe does not pretend to give an optimum reduction in the length -of the \.{DVI} code; after all, speed is more important than compactness. -But the method is surprisingly effective, and it takes comparatively little -time. - -We can best understand the basic idea by first considering a simpler problem -that has the same essential characteristics. Given a sequence of digits, -say $3\,1\,4\,1\,5\,9\,2\,6\,5\,3\,5\,8\,9$, we want to assign subscripts -$d$, $y$, or $z$ to each digit so as to maximize the number of ``$y$-hits'' -and ``$z$-hits''; a $y$-hit is an instance of two appearances of the same -digit with the subscript $y$, where no $y$'s intervene between the two -appearances, and a $z$-hit is defined similarly. For example, the sequence -above could be decorated with subscripts as follows: -$$3_z\,1_y\,4_d\,1_y\,5_y\,9_d\,2_d\,6_d\,5_y\,3_z\,5_y\,8_d\,9_d.$$ -There are three $y$-hits ($1_y\ldots1_y$ and $5_y\ldots5_y\ldots5_y$) and -one $z$-hit ($3_z\ldots3_z$); there are no $d$-hits, since the two appearances -of $9_d$ have $d$'s between them, but we don't count $d$-hits so it doesn't -matter how many there are. These subscripts are analogous to the \.{DVI} -commands called \\{down}, $y$, and $z$, and the digits are analogous to -different amounts of vertical motion; a $y$-hit or $z$-hit corresponds to -the opportunity to use the one-byte commands |y0| or |z0| in a \.{DVI} file. - -\TeX's method of assigning subscripts works like this: Append a new digit, -say $\delta$, to the right of the sequence. Now look back through the -sequence until one of the following things happens: (a)~You see -$\delta_y$ or $\delta_z$, and this was the first time you encountered a -$y$ or $z$ subscript, respectively. Then assign $y$ or $z$ to the new -$\delta$; you have scored a hit. (b)~You see $\delta_d$, and no $y$ -subscripts have been encountered so far during this search. Then change -the previous $\delta_d$ to $\delta_y$ (this corresponds to changing a -command in the output buffer), and assign $y$ to the new $\delta$; it's -another hit. (c)~You see $\delta_d$, and a $y$ subscript has been seen -but not a $z$. Change the previous $\delta_d$ to $\delta_z$ and assign -$z$ to the new $\delta$. (d)~You encounter both $y$ and $z$ subscripts -before encountering a suitable $\delta$, or you scan all the way to the -front of the sequence. Assign $d$ to the new $\delta$; this assignment may -be changed later. - -The subscripts $3_z\,1_y\,4_d\ldots\,$ in the example above were, in fact, -produced by this procedure, as the reader can verify. (Go ahead and try it.) - -@ In order to implement such an idea, \TeX\ maintains a stack of pointers -to the \\{down}, $y$, and $z$ commands that have been generated for the -current page. And there is a similar stack for \\{right}, |w|, and |x| -commands. These stacks are called the down stack and right stack, and their -top elements are maintained in the variables |down_ptr| and |right_ptr|. - -Each entry in these stacks contains four fields: The |width| field is -the amount of motion down or to the right; the |location| field is the -byte number of the \.{DVI} command in question (including the appropriate -|dvi_offset|); the |link| field points to the next item below this one -on the stack; and the |info| field encodes the options for possible change -in the \.{DVI} command. - -@d movement_node_size 3 /*number of words per entry in the down and right stacks*/ -@d location(A) mem[A+2].i /*\.{DVI} byte number for a movement command*/ - -@<Glob...@>= -static pointer @!down_ptr, @!right_ptr; /*heads of the down and right stacks*/ - -@ @<Set init...@>= -down_ptr=null;right_ptr=null; - -@ Here is a subroutine that produces a \.{DVI} command for some specified -downward or rightward motion. It has two parameters: |w| is the amount -of motion, and |o| is either |down1| or |right1|. We use the fact that -the command codes have convenient arithmetic properties: |y1-down1==w1-right1| -and |z1-down1==x1-right1|. - -@p static void movement(scaled @!w, eight_bits @!o) -{@+ -small_number mstate; /*have we seen a |y| or |z|?*/ -pointer @!p, @!q; /*current and top nodes on the stack*/ -int @!k; /*index into |dvi_buf|, modulo |dvi_buf_size|*/ -q=get_node(movement_node_size); /*new node for the top of the stack*/ -width(q)=w;location(q)=dvi_offset+dvi_ptr; -if (o==down1) - {@+link(q)=down_ptr;down_ptr=q; - } -else{@+link(q)=right_ptr;right_ptr=q; - } -@<Look at the other stack entries until deciding what sort of \.{DVI} command to generate; -|goto found| if node |p| is a ``hit''@>; -@<Generate a |down| or |right| command for |w| and |return|@>; -found: @<Generate a |y0| or |z0| command in order to reuse a previous appearance of~|w|@>; -} - -@ The |info| fields in the entries of the down stack or the right stack -have six possible settings: |y_here| or |z_here| mean that the \.{DVI} -command refers to |y| or |z|, respectively (or to |w| or |x|, in the -case of horizontal motion); |yz_OK| means that the \.{DVI} command is -\\{down} (or \\{right}) but can be changed to either |y| or |z| (or -to either |w| or |x|); |y_OK| means that it is \\{down} and can be changed -to |y| but not |z|; |z_OK| is similar; and |d_fixed| means it must stay -\\{down}. - -The four settings |yz_OK|, |y_OK|, |z_OK|, |d_fixed| would not need to -be distinguished from each other if we were simply solving the -digit-subscripting problem mentioned above. But in \TeX's case there is -a complication because of the nested structure of |push| and |pop| -commands. Suppose we add parentheses to the digit-subscripting problem, -redefining hits so that $\delta_y\ldots \delta_y$ is a hit if all $y$'s between -the $\delta$'s are enclosed in properly nested parentheses, and if the -parenthesis level of the right-hand $\delta_y$ is deeper than or equal to -that of the left-hand one. Thus, `(' and `)' correspond to `|push|' -and `|pop|'. Now if we want to assign a subscript to the final 1 in the -sequence -$$2_y\,7_d\,1_d\,(\,8_z\,2_y\,8_z\,)\,1$$ -we cannot change the previous $1_d$ to $1_y$, since that would invalidate -the $2_y\ldots2_y$ hit. But we can change it to $1_z$, scoring a hit -since the intervening $8_z$'s are enclosed in parentheses. - -The program below removes movement nodes that are introduced after a |push|, -before it outputs the corresponding |pop|. - -@d y_here 1 /*|info| when the movement entry points to a |y| command*/ -@d z_here 2 /*|info| when the movement entry points to a |z| command*/ -@d yz_OK 3 /*|info| corresponding to an unconstrained \\{down} command*/ -@d y_OK 4 /*|info| corresponding to a \\{down} that can't become a |z|*/ -@d z_OK 5 /*|info| corresponding to a \\{down} that can't become a |y|*/ -@d d_fixed 6 /*|info| corresponding to a \\{down} that can't change*/ - -@ When the |movement| procedure gets to the label |found|, the value of -|info(p)| will be either |y_here| or |z_here|. If it is, say, |y_here|, -the procedure generates a |y0| command (or a |w0| command), and marks -all |info| fields between |q| and |p| so that |y| is not OK in that range. - -@<Generate a |y0| or |z0| command...@>= -info(q)=info(p); -if (info(q)==y_here) - {@+dvi_out(o+y0-down1); /*|y0| or |w0|*/ - while (link(q)!=p) - {@+q=link(q); - switch (info(q)) { - case yz_OK: info(q)=z_OK;@+break; - case y_OK: info(q)=d_fixed;@+break; - default:do_nothing; - } - } - } -else{@+dvi_out(o+z0-down1); /*|z0| or |x0|*/ - while (link(q)!=p) - {@+q=link(q); - switch (info(q)) { - case yz_OK: info(q)=y_OK;@+break; - case z_OK: info(q)=d_fixed;@+break; - default:do_nothing; - } - } - } - -@ @<Generate a |down| or |right|...@>= -info(q)=yz_OK; -if (abs(w) >= 040000000) - {@+dvi_out(o+3); /*|down4| or |right4|*/ - dvi_four(w);return; - } -if (abs(w) >= 0100000) - {@+dvi_out(o+2); /*|down3| or |right3|*/ - if (w < 0) w=w+0100000000; - dvi_out(w/0200000);w=w%0200000;goto label2; - } -if (abs(w) >= 0200) - {@+dvi_out(o+1); /*|down2| or |right2|*/ - if (w < 0) w=w+0200000; - goto label2; - } -dvi_out(o); /*|down1| or |right1|*/ -if (w < 0) w=w+0400; -goto label1; -label2: dvi_out(w/0400); -label1: dvi_out(w%0400);return - -@ As we search through the stack, we are in one of three states, -|y_seen|, |z_seen|, or |none_seen|, depending on whether we have -encountered |y_here| or |z_here| nodes. These states are encoded as -multiples of 6, so that they can be added to the |info| fields for quick -decision-making. -@^inner loop@> - -@d none_seen 0 /*no |y_here| or |z_here| nodes have been encountered yet*/ -@d y_seen 6 /*we have seen |y_here| but not |z_here|*/ -@d z_seen 12 /*we have seen |z_here| but not |y_here|*/ - -@<Look at the other stack entries until deciding...@>= -p=link(q);mstate=none_seen; -while (p!=null) - {@+if (width(p)==w) @<Consider a node with matching width; |goto found| if it's -a hit@>@; - else switch (mstate+info(p)) { - case none_seen+y_here: mstate=y_seen;@+break; - case none_seen+z_here: mstate=z_seen;@+break; - case y_seen+z_here: case z_seen+y_here: goto not_found; - default:do_nothing; - } - p=link(p); - } -not_found: - -@ We might find a valid hit in a |y| or |z| byte that is already gone -from the buffer. But we can't change bytes that are gone forever; ``the -moving finger writes, $\ldots\,\,$.'' - -@<Consider a node with matching width...@>= -switch (mstate+info(p)) { -case none_seen+yz_OK: case none_seen+y_OK: case z_seen+yz_OK: case z_seen+y_OK: @t@>@;@/ - if (location(p) < dvi_gone) goto not_found; - else@<Change buffered instruction to |y| or |w| and |goto found|@>@;@+break; -case none_seen+z_OK: case y_seen+yz_OK: case y_seen+z_OK: @t@>@;@/ - if (location(p) < dvi_gone) goto not_found; - else@<Change buffered instruction to |z| or |x| and |goto found|@>@;@+break; -case none_seen+y_here: case none_seen+z_here: case y_seen+z_here: case z_seen+y_here: goto found; -default:do_nothing; -} - -@ @<Change buffered instruction to |y| or |w| and |goto found|@>= -{@+k=location(p)-dvi_offset; -if (k < 0) k=k+dvi_buf_size; -dvi_buf[k]=dvi_buf[k]+y1-down1; -info(p)=y_here;goto found; -} - -@ @<Change buffered instruction to |z| or |x| and |goto found|@>= -{@+k=location(p)-dvi_offset; -if (k < 0) k=k+dvi_buf_size; -dvi_buf[k]=dvi_buf[k]+z1-down1; -info(p)=z_here;goto found; -} - -@ In case you are wondering when all the movement nodes are removed from -\TeX's memory, the answer is that they are recycled just before -|hlist_out| and |vlist_out| finish outputting a box. This restores the -down and right stacks to the state they were in before the box was output, -except that some |info|'s may have become more restrictive. - -@p static void prune_movements(int @!l) - /*delete movement nodes with |location >= l|*/ -{@+ -pointer p; /*node being deleted*/ -while (down_ptr!=null) - {@+if (location(down_ptr) < l) goto done; - p=down_ptr;down_ptr=link(p);free_node(p, movement_node_size); - } -done: while (right_ptr!=null) - {@+if (location(right_ptr) < l) return; - p=right_ptr;right_ptr=link(p);free_node(p, movement_node_size); - } -} - -@ The actual distances by which we want to move might be computed as the -sum of several separate movements. For example, there might be several -glue nodes in succession, or we might want to move right by the width of -some box plus some amount of glue. More importantly, the baselineskip -distances are computed in terms of glue together with the depth and -height of adjacent boxes, and we want the \.{DVI} file to lump these -three quantities together into a single motion. - -Therefore, \TeX\ maintains two pairs of global variables: |dvi_h| and |dvi_v| -are the |h| and |v| coordinates corresponding to the commands actually -output to the \.{DVI} file, while |cur_h| and |cur_v| are the coordinates -corresponding to the current state of the output routines. Coordinate -changes will accumulate in |cur_h| and |cur_v| without being reflected -in the output, until such a change becomes necessary or desirable; we -can call the |movement| procedure whenever we want to make |dvi_h==cur_h| -or |dvi_v==cur_v|. - -The current font reflected in the \.{DVI} output is called |dvi_f|; -there is no need for a `\\{cur\_f}' variable. - -The depth of nesting of |hlist_out| and |vlist_out| is called |cur_s|; -this is essentially the depth of |push| commands in the \.{DVI} output. - -@d synch_h if (cur_h!=dvi_h) - {@+movement(cur_h-dvi_h, right1);dvi_h=cur_h; - } -@d synch_v if (cur_v!=dvi_v) - {@+movement(cur_v-dvi_v, down1);dvi_v=cur_v; - } - -@<Glob...@>= -static scaled @!dvi_h, @!dvi_v; /*a \.{DVI} reader program thinks we are here*/ -static scaled @!cur_h, @!cur_v; /*\TeX\ thinks we are here*/ -static internal_font_number @!dvi_f; /*the current font*/ -static int @!cur_s; /*current depth of output box nesting, initially $-1$*/ - -@ @<Initialize variables as |ship_out| begins@>= -dvi_h=0;dvi_v=0;cur_h=h_offset;dvi_f=null_font; -ensure_dvi_open; -if (total_pages==0) - {@+dvi_out(pre);dvi_out(id_byte); /*output the preamble*/ -@^preamble of \.{DVI} file@> - dvi_four(25400000);dvi_four(473628672); /*conversion ratio for sp*/ - prepare_mag();dvi_four(mag); /*magnification factor is frozen*/ - old_setting=selector;selector=new_string; - print(" TeX output ");print_int(year);print_char('.'); - print_two(month);print_char('.');print_two(day); - print_char(':');print_two(time/60); - print_two(time%60); - selector=old_setting;dvi_out(cur_length); - for (s=str_start[str_ptr]; s<=pool_ptr-1; s++) dvi_out(so(str_pool[s])); - pool_ptr=str_start[str_ptr]; /*flush the current string*/ - } - -@ When |hlist_out| is called, its duty is to output the box represented -by the |hlist_node| pointed to by |temp_ptr|. The reference point of that -box has coordinates |(cur_h, cur_v)|. - -Similarly, when |vlist_out| is called, its duty is to output the box represented -by the |vlist_node| pointed to by |temp_ptr|. The reference point of that -box has coordinates |(cur_h, cur_v)|. -@^recursion@> - -@p static void vlist_out(void); /*|hlist_out| and |vlist_out| are mutually - recursive*/ - -@ The recursive procedures |hlist_out| and |vlist_out| each have local variables -|save_h| and |save_v| to hold the values of |dvi_h| and |dvi_v| just before -entering a new level of recursion. In effect, the values of |save_h| and -|save_v| on \TeX's run-time stack correspond to the values of |h| and |v| -that a \.{DVI}-reading program will push onto its coordinate stack. - -@p @t\4@>@<Declare procedures needed in |hlist_out|, |vlist_out|@>@t@>@/ -static void hlist_out(void) /*output an |hlist_node| box*/ -{@+ -scaled base_line; /*the baseline coordinate for this box*/ -scaled @!left_edge; /*the left coordinate for this box*/ -scaled @!save_h, @!save_v; /*what |dvi_h| and |dvi_v| should pop to*/ -pointer @!this_box; /*pointer to containing box*/ -glue_ord @!g_order; /*applicable order of infinity for glue*/ -int @!g_sign; /*selects type of glue*/ -pointer @!p; /*current position in the hlist*/ -int @!save_loc; /*\.{DVI} byte location upon entry*/ -pointer @!leader_box; /*the leader box being replicated*/ -scaled @!leader_wd; /*width of leader box being replicated*/ -scaled @!lx; /*extra space between leader boxes*/ -bool @!outer_doing_leaders; /*were we doing leaders?*/ -scaled @!edge; /*left edge of sub-box, or right edge of leader space*/ -double @!glue_temp; /*glue value before rounding*/ -double @!cur_glue; /*glue seen so far*/ -scaled @!cur_g; /*rounded equivalent of |cur_glue| times the glue ratio*/ -cur_g=0;cur_glue=float_constant(0); -this_box=temp_ptr;g_order=glue_order(this_box); -g_sign=glue_sign(this_box);p=list_ptr(this_box); -incr(cur_s); -if (cur_s > 0) dvi_out(push); -if (cur_s > max_push) max_push=cur_s; -save_loc=dvi_offset+dvi_ptr;base_line=cur_v;left_edge=cur_h; -while (p!=null) @<Output node |p| for |hlist_out| and move to the next node, maintaining -the condition |cur_v=base_line|@>; -prune_movements(save_loc); -if (cur_s > 0) dvi_pop(save_loc); -decr(cur_s); -} - -@ We ought to give special care to the efficiency of one part of |hlist_out|, -since it belongs to \TeX's inner loop. When a |char_node| is encountered, -we save a little time by processing several nodes in succession until -reaching a non-|char_node|. The program uses the fact that |set_char_0==0|. -@^inner loop@> - -@<Output node |p| for |hlist_out|...@>= -reswitch: if (is_char_node(p)) - {@+synch_h;synch_v; - @/do@+{f=font(p);c=character(p); - if (f!=dvi_f) @<Change font |dvi_f| to |f|@>; - if (c >= qi(128)) dvi_out(set1); - dvi_out(qo(c));@/ - cur_h=cur_h+char_width(f, char_info(f, c)); - p=link(p); - }@+ while (!(!is_char_node(p))); - dvi_h=cur_h; - } -else@<Output the non-|char_node| |p| for |hlist_out| and move to the next node@>@; - -@ @<Change font |dvi_f| to |f|@>= -{@+if (!font_used[f]) - {@+dvi_font_def(f);font_used[f]=true; - } -if (f <= 64+font_base) dvi_out(f-font_base-1+fnt_num_0)@; -else{@+dvi_out(fnt1);dvi_out(f-font_base-1); - } -dvi_f=f; -} - -@ @<Output the non-|char_node| |p| for |hlist_out|...@>= -{@+switch (type(p)) { -case hlist_node: case vlist_node: @<Output a box in an hlist@>@;@+break; -case rule_node: {@+rule_ht=height(p);rule_dp=depth(p);rule_wd=width(p); - goto fin_rule; - } -case whatsit_node: @<Output the whatsit node |p| in an hlist@>;@+break; -case glue_node: @<Move right or output leaders@>@; -case kern_node: case math_node: cur_h=cur_h+width(p);@+break; -case ligature_node: @<Make node |p| look like a |char_node| and |goto reswitch|@>@; -default:do_nothing; -} @/ -goto next_p; -fin_rule: @<Output a rule in an hlist@>; -move_past: cur_h=cur_h+rule_wd; -next_p: p=link(p); -} - -@ @<Output a box in an hlist@>= -if (list_ptr(p)==null) cur_h=cur_h+width(p); -else{@+save_h=dvi_h;save_v=dvi_v; - cur_v=base_line+shift_amount(p); /*shift the box down*/ - temp_ptr=p;edge=cur_h; - if (type(p)==vlist_node) vlist_out();@+else hlist_out(); - dvi_h=save_h;dvi_v=save_v; - cur_h=edge+width(p);cur_v=base_line; - } - -@ @<Output a rule in an hlist@>= -if (is_running(rule_ht)) rule_ht=height(this_box); -if (is_running(rule_dp)) rule_dp=depth(this_box); -rule_ht=rule_ht+rule_dp; /*this is the rule thickness*/ -if ((rule_ht > 0)&&(rule_wd > 0)) /*we don't output empty rules*/ - {@+synch_h;cur_v=base_line+rule_dp;synch_v; - dvi_out(set_rule);dvi_four(rule_ht);dvi_four(rule_wd); - cur_v=base_line;dvi_h=dvi_h+rule_wd; - } - -@ @d billion float_constant(1000000000) -@d vet_glue(A) glue_temp=A; - if (glue_temp > billion) - glue_temp=billion; - else if (glue_temp < -billion) - glue_temp=-billion - -@<Move right or output leaders@>= -{@+g=glue_ptr(p);rule_wd=width(g)-cur_g; -if (g_sign!=normal) - {@+if (g_sign==stretching) - {@+if (stretch_order(g)==g_order) - {@+cur_glue=cur_glue+stretch(g); - vet_glue(float(glue_set(this_box))*cur_glue); -@^real multiplication@> - cur_g=round(glue_temp); - } - } - else if (shrink_order(g)==g_order) - {@+cur_glue=cur_glue-shrink(g); - vet_glue(float(glue_set(this_box))*cur_glue); - cur_g=round(glue_temp); - } - } -rule_wd=rule_wd+cur_g; -if (subtype(p) >= a_leaders) - @<Output leaders in an hlist, |goto fin_rule| if a rule or to |next_p| if done@>; -goto move_past; -} - -@ @<Output leaders in an hlist...@>= -{@+leader_box=leader_ptr(p); -if (type(leader_box)==rule_node) - {@+rule_ht=height(leader_box);rule_dp=depth(leader_box); - goto fin_rule; - } -leader_wd=width(leader_box); -if ((leader_wd > 0)&&(rule_wd > 0)) - {@+rule_wd=rule_wd+10; /*compensate for floating-point rounding*/ - edge=cur_h+rule_wd;lx=0; - @<Let |cur_h| be the position of the first box, and set |leader_wd+lx| to the spacing -between corresponding parts of boxes@>; - while (cur_h+leader_wd <= edge) - @<Output a leader box at |cur_h|, then advance |cur_h| by |leader_wd+lx|@>; - cur_h=edge-10;goto next_p; - } -} - -@ The calculations related to leaders require a bit of care. First, in the -case of |a_leaders| (aligned leaders), we want to move |cur_h| to -|left_edge| plus the smallest multiple of |leader_wd| for which the result -is not less than the current value of |cur_h|; i.e., |cur_h| should become -$|left_edge|+|leader_wd|\times\lceil -(|cur_h|-|left_edge|)/|leader_wd|\rceil$. The program here should work in -all cases even though some implementations of \PASCAL\ give nonstandard -results for the |/| operation when |cur_h| is less than |left_edge|. - -In the case of |c_leaders| (centered leaders), we want to increase |cur_h| -by half of the excess space not occupied by the leaders; and in the -case of |x_leaders| (expanded leaders) we increase |cur_h| -by $1/(q+1)$ of this excess space, where $q$ is the number of times the -leader box will be replicated. Slight inaccuracies in the division might -accumulate; half of this rounding error is placed at each end of the leaders. - -@<Let |cur_h| be the position of the first box,...@>= -if (subtype(p)==a_leaders) - {@+save_h=cur_h; - cur_h=left_edge+leader_wd*((cur_h-left_edge)/leader_wd); - if (cur_h < save_h) cur_h=cur_h+leader_wd; - } -else{@+lq=rule_wd/leader_wd; /*the number of box copies*/ - lr=rule_wd%leader_wd; /*the remaining space*/ - if (subtype(p)==c_leaders) cur_h=cur_h+(lr/2); - else{@+lx=lr/(lq+1); - cur_h=cur_h+((lr-(lq-1)*lx)/2); - } - } - -@ The `\\{synch}' operations here are intended to decrease the number of -bytes needed to specify horizontal and vertical motion in the \.{DVI} output. - -@<Output a leader box at |cur_h|,...@>= -{@+cur_v=base_line+shift_amount(leader_box);synch_v;save_v=dvi_v;@/ -synch_h;save_h=dvi_h;temp_ptr=leader_box; -outer_doing_leaders=doing_leaders;doing_leaders=true; -if (type(leader_box)==vlist_node) vlist_out();@+else hlist_out(); -doing_leaders=outer_doing_leaders; -dvi_v=save_v;dvi_h=save_h;cur_v=base_line; -cur_h=save_h+leader_wd+lx; -} - -@ The |vlist_out| routine is similar to |hlist_out|, but a bit simpler. - -@p static void vlist_out(void) /*output a |vlist_node| box*/ -{@+ -scaled left_edge; /*the left coordinate for this box*/ -scaled @!top_edge; /*the top coordinate for this box*/ -scaled @!save_h, @!save_v; /*what |dvi_h| and |dvi_v| should pop to*/ -pointer @!this_box; /*pointer to containing box*/ -glue_ord @!g_order; /*applicable order of infinity for glue*/ -int @!g_sign; /*selects type of glue*/ -pointer @!p; /*current position in the vlist*/ -int @!save_loc; /*\.{DVI} byte location upon entry*/ -pointer @!leader_box; /*the leader box being replicated*/ -scaled @!leader_ht; /*height of leader box being replicated*/ -scaled @!lx; /*extra space between leader boxes*/ -bool @!outer_doing_leaders; /*were we doing leaders?*/ -scaled @!edge; /*bottom boundary of leader space*/ -double @!glue_temp; /*glue value before rounding*/ -double @!cur_glue; /*glue seen so far*/ -scaled @!cur_g; /*rounded equivalent of |cur_glue| times the glue ratio*/ -cur_g=0;cur_glue=float_constant(0); -this_box=temp_ptr;g_order=glue_order(this_box); -g_sign=glue_sign(this_box);p=list_ptr(this_box); -incr(cur_s); -if (cur_s > 0) dvi_out(push); -if (cur_s > max_push) max_push=cur_s; -save_loc=dvi_offset+dvi_ptr;left_edge=cur_h;cur_v=cur_v-height(this_box); -top_edge=cur_v; -while (p!=null) @<Output node |p| for |vlist_out| and move to the next node, maintaining -the condition |cur_h=left_edge|@>; -prune_movements(save_loc); -if (cur_s > 0) dvi_pop(save_loc); -decr(cur_s); -} - -@ @<Output node |p| for |vlist_out|...@>= -{@+if (is_char_node(p)) confusion("vlistout"); -@:this can't happen vlistout}{\quad vlistout@> -else@<Output the non-|char_node| |p| for |vlist_out|@>; -next_p: p=link(p); -} - -@ @<Output the non-|char_node| |p| for |vlist_out|@>= -{@+switch (type(p)) { -case hlist_node: case vlist_node: @<Output a box in a vlist@>@;@+break; -case rule_node: {@+rule_ht=height(p);rule_dp=depth(p);rule_wd=width(p); - goto fin_rule; - } -case whatsit_node: @<Output the whatsit node |p| in a vlist@>;@+break; -case glue_node: @<Move down or output leaders@>@; -case kern_node: cur_v=cur_v+width(p);@+break; -default:do_nothing; -} @/ -goto next_p; -fin_rule: @<Output a rule in a vlist, |goto next_p|@>; -move_past: cur_v=cur_v+rule_ht; -} - -@ The |synch_v| here allows the \.{DVI} output to use one-byte commands -for adjusting |v| in most cases, since the baselineskip distance will -usually be constant. - -@<Output a box in a vlist@>= -if (list_ptr(p)==null) cur_v=cur_v+height(p)+depth(p); -else{@+cur_v=cur_v+height(p);synch_v; - save_h=dvi_h;save_v=dvi_v; - cur_h=left_edge+shift_amount(p); /*shift the box right*/ - temp_ptr=p; - if (type(p)==vlist_node) vlist_out();@+else hlist_out(); - dvi_h=save_h;dvi_v=save_v; - cur_v=save_v+depth(p);cur_h=left_edge; - } - -@ @<Output a rule in a vlist...@>= -if (is_running(rule_wd)) rule_wd=width(this_box); -rule_ht=rule_ht+rule_dp; /*this is the rule thickness*/ -cur_v=cur_v+rule_ht; -if ((rule_ht > 0)&&(rule_wd > 0)) /*we don't output empty rules*/ - {@+synch_h;synch_v; - dvi_out(put_rule);dvi_four(rule_ht);dvi_four(rule_wd); - } -goto next_p - -@ @<Move down or output leaders@>= -{@+g=glue_ptr(p);rule_ht=width(g)-cur_g; -if (g_sign!=normal) - {@+if (g_sign==stretching) - {@+if (stretch_order(g)==g_order) - {@+cur_glue=cur_glue+stretch(g); - vet_glue(float(glue_set(this_box))*cur_glue); -@^real multiplication@> - cur_g=round(glue_temp); - } - } - else if (shrink_order(g)==g_order) - {@+cur_glue=cur_glue-shrink(g); - vet_glue(float(glue_set(this_box))*cur_glue); - cur_g=round(glue_temp); - } - } -rule_ht=rule_ht+cur_g; -if (subtype(p) >= a_leaders) - @<Output leaders in a vlist, |goto fin_rule| if a rule or to |next_p| if done@>; -goto move_past; -} - -@ @<Output leaders in a vlist...@>= -{@+leader_box=leader_ptr(p); -if (type(leader_box)==rule_node) - {@+rule_wd=width(leader_box);rule_dp=0; - goto fin_rule; - } -leader_ht=height(leader_box)+depth(leader_box); -if ((leader_ht > 0)&&(rule_ht > 0)) - {@+rule_ht=rule_ht+10; /*compensate for floating-point rounding*/ - edge=cur_v+rule_ht;lx=0; - @<Let |cur_v| be the position of the first box, and set |leader_ht+lx| to the spacing -between corresponding parts of boxes@>; - while (cur_v+leader_ht <= edge) - @<Output a leader box at |cur_v|, then advance |cur_v| by |leader_ht+lx|@>; - cur_v=edge-10;goto next_p; - } -} - -@ @<Let |cur_v| be the position of the first box,...@>= -if (subtype(p)==a_leaders) - {@+save_v=cur_v; - cur_v=top_edge+leader_ht*((cur_v-top_edge)/leader_ht); - if (cur_v < save_v) cur_v=cur_v+leader_ht; - } -else{@+lq=rule_ht/leader_ht; /*the number of box copies*/ - lr=rule_ht%leader_ht; /*the remaining space*/ - if (subtype(p)==c_leaders) cur_v=cur_v+(lr/2); - else{@+lx=lr/(lq+1); - cur_v=cur_v+((lr-(lq-1)*lx)/2); - } - } - -@ When we reach this part of the program, |cur_v| indicates the top of a -leader box, not its baseline. - -@<Output a leader box at |cur_v|,...@>= -{@+cur_h=left_edge+shift_amount(leader_box);synch_h;save_h=dvi_h;@/ -cur_v=cur_v+height(leader_box);synch_v;save_v=dvi_v; -temp_ptr=leader_box; -outer_doing_leaders=doing_leaders;doing_leaders=true; -if (type(leader_box)==vlist_node) vlist_out();@+else hlist_out(); -doing_leaders=outer_doing_leaders; -dvi_v=save_v;dvi_h=save_h;cur_h=left_edge; -cur_v=save_v-height(leader_box)+leader_ht+lx; -} - -@ The |hlist_out| and |vlist_out| procedures are now complete, so we are -ready for the |ship_out| routine that gets them started in the first place. - -@p void ship_out(pointer @!p) /*output the box |p|*/ -{@+ -execute_output(p); -flush_node_list(p); -} - -@ @<Flush the box from memory, showing statistics if requested@>= -#ifdef @!STAT -if (tracing_stats > 1) - {@+print_nl("Memory usage before: "); -@.Memory usage...@> - print_int(var_used);print_char('&'); - print_int(dyn_used);print_char(';'); - } -#endif -flush_node_list(p); -#ifdef @!STAT -if (tracing_stats > 1) - {@+print(" after: "); - print_int(var_used);print_char('&'); - print_int(dyn_used);print("; still untouched: "); - print_int(hi_mem_min-lo_mem_max-1);print_ln(); - } -#endif - -@ @<Ship box |p| out@>= -@<Update the values of |max_h| and |max_v|; but if the page is too large, |goto done|@>; -@<Initialize variables as |ship_out| begins@>; -page_loc=dvi_offset+dvi_ptr; -dvi_out(bop); -for (k=0; k<=9; k++) dvi_four(count(k)); -dvi_four(last_bop);last_bop=page_loc; -cur_v=height(p)+v_offset;temp_ptr=p; -if (type(p)==vlist_node) vlist_out();@+else hlist_out(); -dvi_out(eop);incr(total_pages);cur_s=-1; -done: - -@ Sometimes the user will generate a huge page because other error messages -are being ignored. Such pages are not output to the \.{dvi} file, since they -may confuse the printing software. - -@<Update the values of |max_h| and |max_v|; but if the page is too large...@>= -if ((height(p) > max_dimen)||@|(depth(p) > max_dimen)||@| - (height(p)+depth(p)+v_offset > max_dimen)||@| - (width(p)+h_offset > max_dimen)) - {@+print_err("Huge page cannot be shipped out"); -@.Huge page...@> - help2("The page just created is more than 18 feet tall or",@/ - "more than 18 feet wide, so I suspect something went wrong."); - error(); - if (tracing_output <= 0) - {@+begin_diagnostic(); - print_nl("The following box has been deleted:"); -@.The following...deleted@> - show_box(p); - end_diagnostic(true); - } - goto done; - } -if (height(p)+depth(p)+v_offset > max_v) max_v=height(p)+depth(p)+v_offset; -if (width(p)+h_offset > max_h) max_h=width(p)+h_offset - -@ At the end of the program, we must finish things off by writing the -post\-amble. If |total_pages==0|, the \.{DVI} file was never opened. -If |total_pages >= 65536|, the \.{DVI} file will lie. And if -|max_push >= 65536|, the user deserves whatever chaos might ensue. - -An integer variable |k| will be declared for use by this routine. - -@<Finish the \.{DVI} file@>= -while (cur_s > -1) - {@+if (cur_s > 0) dvi_out(pop)@; - else{@+dvi_out(eop);incr(total_pages); - } - decr(cur_s); - } -if (total_pages==0) print_nl("No pages of output."); -@.No pages of output@> -else{@+dvi_out(post); /*beginning of the postamble*/ - dvi_four(last_bop);last_bop=dvi_offset+dvi_ptr-5; /*|post| location*/ - dvi_four(25400000);dvi_four(473628672); /*conversion ratio for sp*/ - prepare_mag();dvi_four(mag); /*magnification factor*/ - dvi_four(max_v);dvi_four(max_h);@/ - dvi_out(max_push/256);dvi_out(max_push%256);@/ - dvi_out((total_pages/256)%256);dvi_out(total_pages%256);@/ - @<Output the font definitions for all fonts that were used@>; - dvi_out(post_post);dvi_four(last_bop);dvi_out(id_byte);@/ - k=4+((dvi_buf_size-dvi_ptr)%4); /*the number of 223's*/ - while (k > 0) - {@+dvi_out(223);decr(k); - } - @<Empty the last bytes out of |dvi_buf|@>; - print_nl("Output written on ");slow_print(output_file_name); -@.Output written on x@> - print(" (");print_int(total_pages);print(" page"); - if (total_pages!=1) print_char('s'); - print(", ");print_int(dvi_offset+dvi_ptr);print(" bytes)."); - b_close(&dvi_file); - } - -@ @<Output the font definitions...@>= -while (font_ptr > font_base) - {@+if (font_used[font_ptr]) dvi_font_def(font_ptr); - decr(font_ptr); - } - -@* Packaging. -We're essentially done with the parts of \TeX\ that are concerned with -the input (|get_next|) and the output (|ship_out|). So it's time to -get heavily into the remaining part, which does the real work of typesetting. - -After lists are constructed, \TeX\ wraps them up and puts them into boxes. -Two major subroutines are given the responsibility for this task: |hpack| -applies to horizontal lists (hlists) and |vpack| applies to vertical lists -(vlists). The main duty of |hpack| and |vpack| is to compute the dimensions -of the resulting boxes, and to adjust the glue if one of those dimensions -is pre-specified. The computed sizes normally enclose all of the material -inside the new box; but some items may stick out if negative glue is used, -if the box is overfull, or if a \.{\\vbox} includes other boxes that have -been shifted left. - -The subroutine call |hpack(p, w, m)| returns a pointer to an |hlist_node| -for a box containing the hlist that starts at |p|. Parameter |w| specifies -a width; and parameter |m| is either `|exactly|' or `|additional|'. Thus, -|hpack(p, w, exactly)| produces a box whose width is exactly |w|, while -|hpack(p, w, additional)| yields a box whose width is the natural width plus -|w|. It is convenient to define a macro called `|natural|' to cover the -most common case, so that we can say |hpack(p, natural)| to get a box that -has the natural width of list |p|. - -Similarly, |vpack(p, w, m)| returns a pointer to a |vlist_node| for a -box containing the vlist that starts at |p|. In this case |w| represents -a height instead of a width; the parameter |m| is interpreted as in |hpack|. - -@d exactly 0 /*a box dimension is pre-specified*/ -@d additional 1 /*a box dimension is increased from the natural one*/ -@d natural 0, 0, 0, additional /*shorthand for parameters to |hpack| and |vpack|*/ - -@ The parameters to |hpack| and |vpack| correspond to \TeX's primitives -like `\.{\\hbox} \.{to} \.{300pt}', `\.{\\hbox} \.{spread} \.{10pt}'; note -that `\.{\\hbox}' with no dimension following it is equivalent to -`\.{\\hbox} \.{spread} \.{0pt}'. The |scan_spec| subroutine scans such -constructions in the user's input, including the mandatory left brace that -follows them, and it puts the specification onto |save_stack| so that the -desired box can later be obtained by executing the following code: -$$\vbox{\halign{#\hfil\cr -|save_ptr=save_ptr-2;|\cr -|hpack(p, saved(1), saved(0)).|\cr}}$$ -Special care is necessary to ensure that the special |save_stack| codes -are placed just below the new group code, because scanning can change -|save_stack| when \.{\\csname} appears. - -@p static void scan_spec(group_code @!c, bool @!three_codes) - /*scans a box specification and left brace*/ -{@+ -int @!s; /*temporarily saved value*/ -int @!spec_code; -if (three_codes) s=saved(0); -if (scan_keyword("to")) spec_code=exactly; -@.to@> -else if (scan_keyword("spread")) spec_code=additional; -@.spread@> -else{@+spec_code=additional;cur_val=cur_hfactor=cur_vfactor=0; - goto found; - } -scan_normal_dimen; -found: if (three_codes) - {@+saved(0)=s;incr(save_ptr); - } -saved(0)=spec_code;saved(1)=cur_val; -saved_hfactor(1)=cur_hfactor; -saved_vfactor(1)=cur_vfactor; -save_ptr=save_ptr+2; -new_save_level(c);scan_left_brace(); -} - -@ To figure out the glue setting, |hpack| and |vpack| determine how much -stretchability and shrinkability are present, considering all four orders -of infinity. The highest order of infinity that has a nonzero coefficient -is then used as if no other orders were present. - -For example, suppose that the given list contains six glue nodes with -the respective stretchabilities 3pt, 8fill, 5fil, 6pt, $-3$fil, $-8$fill. -Then the total is essentially 2fil; and if a total additional space of 6pt -is to be achieved by stretching, the actual amounts of stretch will be -0pt, 0pt, 15pt, 0pt, $-9$pt, and 0pt, since only `fil' glue will be -considered. (The `fill' glue is therefore not really stretching infinitely -with respect to `fil'; nobody would actually want that to happen.) - -The arrays |total_stretch| and |total_shrink| are used to determine how much -glue of each kind is present. A global variable |last_badness| is used -to implement \.{\\badness}. - -@<Glob...@>= -scaled @!total_stretch0[filll-normal+1], *const @!total_stretch = @!total_stretch0-normal, @!total_shrink0[filll-normal+1], *const @!total_shrink = @!total_shrink0-normal; - /*glue found by |hpack| or |vpack|*/ -int @!last_badness; /*badness of the most recently packaged box*/ - -@ If the global variable |adjust_tail| is non-null, the |hpack| routine -also removes all occurrences of |ins_node|, |mark_node|, and |adjust_node| -items and appends the resulting material onto the list that ends at -location |adjust_tail|. - -@<Glob...@>= -pointer @!adjust_tail; /*tail of adjustment list*/ - -@ @<Set init...@>=adjust_tail=null;last_badness=0; - -@ Here now is |hpack|, which contains few if any surprises. - -@p extern pointer hpack(pointer p, scaled w, scaled hf, scaled vf, small_number m); - -@ @<Clear dimensions to zero@>= -d=0;x=0; -total_stretch[normal]=0;total_shrink[normal]=0; -total_stretch[fil]=0;total_shrink[fil]=0; -total_stretch[fill]=0;total_shrink[fill]=0; -total_stretch[filll]=0;total_shrink[filll]=0 - -@ @<Examine node |p| in the hlist, taking account of its effect...@>= -@^inner loop@> -{@+reswitch: while (is_char_node(p)) - @<Incorporate character dimensions into the dimensions of the hbox that will contain~it, -then move to the next node@>; -if (p!=null) - {@+switch (type(p)) { - case hlist_node: case vlist_node: case rule_node: case unset_node: case unset_set_node: case unset_pack_node: - @<Incorporate box dimensions into the dimensions of the hbox that will contain~it@>@;@+break; - case ins_node: case mark_node: case adjust_node: if (adjust_tail!=null) - @<Transfer node |p| to the adjustment list@>@;@+break; - case whatsit_node: @<Incorporate a whatsit node into an hbox@>;@+break; - case glue_node: @<Incorporate glue into the horizontal totals@>@;@+break; - case kern_node: case math_node: x=x+width(p);@+break; - case ligature_node: @<Make node |p| look like a |char_node| and |goto reswitch|@>@; - default:do_nothing; - } @/ - p=link(p); - } -} - - -@ @<Make node |p| look like a |char_node| and |goto reswitch|@>= -{@+mem[lig_trick]=mem[lig_char(p)];link(lig_trick)=link(p); -p=lig_trick;goto reswitch; -} - -@ The code here implicitly uses the fact that running dimensions are -indicated by |null_flag|, which will be ignored in the calculations -because it is a highly negative number. - -@<Incorporate box dimensions into the dimensions of the hbox...@>= -{@+x=x+width(p); -if (type(p) >= rule_node) s=0;@+else s=shift_amount(p); -if (height(p)-s > h) h=height(p)-s; -if (depth(p)+s > d) d=depth(p)+s; -} - -@ The following code is part of \TeX's inner loop; i.e., adding another -character of text to the user's input will cause each of these instructions -to be exercised one more time. -@^inner loop@> - -@<Incorporate character dimensions into the dimensions of the hbox...@>= -{@+f=font(p);i=char_info(f, character(p));hd=height_depth(i); -x=x+char_width(f, i);@/ -s=char_height(f, hd);@+if (s > h) h=s; -s=char_depth(f, hd);@+if (s > d) d=s; -p=link(p); -} - -@ Although node |q| is not necessarily the immediate predecessor of node |p|, -it always points to some node in the list preceding |p|. Thus, we can delete -nodes by moving |q| when necessary. The algorithm takes linear time, and the -extra computation does not intrude on the inner loop unless it is necessary -to make a deletion. -@^inner loop@> - -@<Transfer node |p| to the adjustment list@>= -{@+while (link(q)!=p) q=link(q); -if (type(p)==adjust_node) - {@+link(adjust_tail)=adjust_ptr(p); - while (link(adjust_tail)!=null) adjust_tail=link(adjust_tail); - p=link(p);free_node(link(q), small_node_size); - } -else{@+link(adjust_tail)=p;adjust_tail=p;p=link(p); - } -link(q)=p;p=q; -} - -@ @<Incorporate glue into the horizontal totals@>= -{@+g=glue_ptr(p);x=x+width(g);@/ -o=stretch_order(g);total_stretch[o]=total_stretch[o]+stretch(g); -o=shrink_order(g);total_shrink[o]=total_shrink[o]+shrink(g); -if (subtype(p) >= a_leaders) - {@+g=leader_ptr(p); - if (height(g) > h) h=height(g); - if (depth(g) > d) d=depth(g); - } -} - -@ When we get to the present part of the program, |x| is the natural width -of the box being packaged. - -@<Determine the value of |width(r)| and the appropriate glue setting...@>= -if (m==additional) w=x+w; -width(r)=w;x=w-x; /*now |x| is the excess to be made up*/ -if (x==0) - {@+glue_sign(r)=normal;glue_order(r)=normal; - set_glue_ratio_zero(glue_set(r)); - goto end; - } -else if (x > 0) @<Determine horizontal glue stretch setting, then |return| or \hbox{|goto -common_ending|}@>@; -else@<Determine horizontal glue shrink setting, then |return| or \hbox{|goto common_ending|}@>@; - -@ @<Determine horizontal glue stretch setting...@>= -{@+@<Determine the stretch order@>; -glue_order(r)=o;glue_sign(r)=stretching; -if (total_stretch[o]!=0) glue_set(r)=unfloat(x/(double)total_stretch[o]); -@^real division@> -else{@+glue_sign(r)=normal; - set_glue_ratio_zero(glue_set(r)); /*there's nothing to stretch*/ - } -if (o==normal) if (list_ptr(r)!=null) - @<Report an underfull hbox and |goto common_ending|, if this box is sufficiently -bad@>; -goto end; -} - -@ @<Determine the stretch order@>= -if (total_stretch[filll]!=0) o=filll; -else if (total_stretch[fill]!=0) o=fill; -else if (total_stretch[fil]!=0) o=fil; -else o=normal - -@ @<Report an underfull hbox and |goto common_ending|, if...@>= -{@+last_badness=badness(x, total_stretch[normal]); -if (last_badness > hbadness) - {@+print_ln(); - if (last_badness > 100) print_nl("Underfull");@+else print_nl("Loose"); - print(" \\hbox (badness ");print_int(last_badness); -@.Underfull \\hbox...@> -@.Loose \\hbox...@> - goto common_ending; - } -} - -@ In order to provide a decent indication of where an overfull or underfull -box originated, we use a global variable |pack_begin_line| that is -set nonzero only when |hpack| is being called by the paragraph builder -or the alignment finishing routine. - -@<Glob...@>= -int @!pack_begin_line; /*source file line where the current paragraph - or alignment began; a negative value denotes alignment*/ - -@ @<Set init...@>= -pack_begin_line=0; - -@ @<Finish issuing a diagnostic message for an overfull or underfull hbox@>= -if (output_active) print(") has occurred while \\output is active"); -else{@+if (pack_begin_line!=0) - {@+if (pack_begin_line > 0) print(") in paragraph at lines "); - else print(") in alignment at lines "); - print_int(abs(pack_begin_line)); - print("--"); - } - else print(") detected at line "); - print_int(line); - } -print_ln();@/ -font_in_short_display=null_font;short_display(list_ptr(r));print_ln();@/ -begin_diagnostic();show_box(r);end_diagnostic(true) - -@ @<Determine horizontal glue shrink setting...@>= -{@+@<Determine the shrink order@>; -glue_order(r)=o;glue_sign(r)=shrinking; -if (total_shrink[o]!=0) glue_set(r)=unfloat((-x)/(double)total_shrink[o]); -@^real division@> -else{@+glue_sign(r)=normal; - set_glue_ratio_zero(glue_set(r)); /*there's nothing to shrink*/ - } -if ((total_shrink[o] < -x)&&(o==normal)&&(list_ptr(r)!=null)) - {@+last_badness=1000000; - set_glue_ratio_one(glue_set(r)); /*use the maximum shrinkage*/ - @<Report an overfull hbox and |goto common_ending|, if this box is sufficiently -bad@>; - } -else if (o==normal) if (list_ptr(r)!=null) - @<Report a tight hbox and |goto common_ending|, if this box is sufficiently bad@>; -goto end; -} - -@ @<Determine the shrink order@>= -if (total_shrink[filll]!=0) o=filll; -else if (total_shrink[fill]!=0) o=fill; -else if (total_shrink[fil]!=0) o=fil; -else o=normal - -@ @<Report an overfull hbox and |goto common_ending|, if...@>= -if ((-x-total_shrink[normal] > hfuzz)||(hbadness < 100)) - {@+if ((overfull_rule > 0)&&(-x-total_shrink[normal] > hfuzz)) - {@+while (link(q)!=null) q=link(q); - link(q)=new_rule(); - width(link(q))=overfull_rule; - } - print_ln();print_nl("Overfull \\hbox ("); -@.Overfull \\hbox...@> - print_scaled(-x-total_shrink[normal]);print("pt too wide"); - goto common_ending; - } - -@ @<Report a tight hbox and |goto common_ending|, if...@>= -{@+last_badness=badness(-x, total_shrink[normal]); -if (last_badness > hbadness) - {@+print_ln();print_nl("Tight \\hbox (badness ");print_int(last_badness); -@.Tight \\hbox...@> - goto common_ending; - } -} - -@ The |vpack| subroutine is actually a special case of a slightly more -general routine called |vpackage|, which has four parameters. The fourth -parameter, which is |max_dimen| in the case of |vpack|, specifies the -maximum depth of the page box that is constructed. The depth is first -computed by the normal rules; if it exceeds this limit, the reference -point is simply moved down until the limiting depth is attained. - - -@p -#define vpack(...) @[vpackage(__VA_ARGS__, max_dimen)@] /*special case of unconstrained depth*/ -extern pointer vpackage(pointer p, scaled h, scaled hf, scaled vf, small_number m, scaled l); - -@ @<Examine node |p| in the vlist, taking account of its effect...@>= -{@+if (is_char_node(p)) confusion("vpack"); -@:this can't happen vpack}{\quad vpack@> -else switch (type(p)) { - case hlist_node: case vlist_node: case rule_node: case unset_node: case unset_set_node: case unset_pack_node: - @<Incorporate box dimensions into the dimensions of the vbox that will contain~it@>@;@+break; - case whatsit_node: @<Incorporate a whatsit node into a vbox@>;@+break; - case glue_node: @<Incorporate glue into the vertical totals@>@;@+break; - case kern_node: {@+x=x+d+width(p);d=0; - } @+break; - default:do_nothing; - } -p=link(p); -} - -@ @<Incorporate box dimensions into the dimensions of the vbox...@>= -{@+x=x+d+height(p);d=depth(p); -if (type(p) >= rule_node) s=0;@+else s=shift_amount(p); -if (width(p)+s > w) w=width(p)+s; -} - -@ @<Incorporate glue into the vertical totals@>= -{@+x=x+d;d=0;@/ -g=glue_ptr(p);x=x+width(g);@/ -o=stretch_order(g);total_stretch[o]=total_stretch[o]+stretch(g); -o=shrink_order(g);total_shrink[o]=total_shrink[o]+shrink(g); -if (subtype(p) >= a_leaders) - {@+g=leader_ptr(p); - if (width(g) > w) w=width(g); - } -} - -@ When we get to the present part of the program, |x| is the natural height -of the box being packaged. - -@<Determine the value of |height(r)| and the appropriate glue setting...@>= -if (m==additional) h=x+h; -height(r)=h;x=h-x; /*now |x| is the excess to be made up*/ -if (x==0) - {@+glue_sign(r)=normal;glue_order(r)=normal; - set_glue_ratio_zero(glue_set(r)); - goto end; - } -else if (x > 0) @<Determine vertical glue stretch setting, then |return| or \hbox{|goto -common_ending|}@>@; -else@<Determine vertical glue shrink setting, then |return| or \hbox{|goto common_ending|}@>@; - -@ @<Determine vertical glue stretch setting...@>= -{@+@<Determine the stretch order@>; -glue_order(r)=o;glue_sign(r)=stretching; -if (total_stretch[o]!=0) glue_set(r)=unfloat(x/(double)total_stretch[o]); -@^real division@> -else{@+glue_sign(r)=normal; - set_glue_ratio_zero(glue_set(r)); /*there's nothing to stretch*/ - } -if (o==normal) if (list_ptr(r)!=null) - @<Report an underfull vbox and |goto common_ending|, if this box is sufficiently -bad@>; -goto end; -} - -@ @<Report an underfull vbox and |goto common_ending|, if...@>= -{@+last_badness=badness(x, total_stretch[normal]); -if (last_badness > vbadness) - {@+print_ln(); - if (last_badness > 100) print_nl("Underfull");@+else print_nl("Loose"); - print(" \\vbox (badness ");print_int(last_badness); -@.Underfull \\vbox...@> -@.Loose \\vbox...@> - goto common_ending; - } -} - -@ @<Finish issuing a diagnostic message for an overfull or underfull vbox@>= -if (output_active) print(") has occurred while \\output is active"); -else{@+if (pack_begin_line!=0) /*it's actually negative*/ - {@+print(") in alignment at lines "); - print_int(abs(pack_begin_line)); - print("--"); - } - else print(") detected at line "); - print_int(line); - print_ln();@/ - } -begin_diagnostic();show_box(r);end_diagnostic(true) - -@ @<Determine vertical glue shrink setting...@>= -{@+@<Determine the shrink order@>; -glue_order(r)=o;glue_sign(r)=shrinking; -if (total_shrink[o]!=0) glue_set(r)=unfloat((-x)/(double)total_shrink[o]); -@^real division@> -else{@+glue_sign(r)=normal; - set_glue_ratio_zero(glue_set(r)); /*there's nothing to shrink*/ - } -if ((total_shrink[o] < -x)&&(o==normal)&&(list_ptr(r)!=null)) - {@+last_badness=1000000; - set_glue_ratio_one(glue_set(r)); /*use the maximum shrinkage*/ - @<Report an overfull vbox and |goto common_ending|, if this box is sufficiently -bad@>; - } -else if (o==normal) if (list_ptr(r)!=null) - @<Report a tight vbox and |goto common_ending|, if this box is sufficiently bad@>; -goto end; -} - -@ @<Report an overfull vbox and |goto common_ending|, if...@>= -if ((-x-total_shrink[normal] > vfuzz)||(vbadness < 100)) - {@+print_ln();print_nl("Overfull \\vbox ("); -@.Overfull \\vbox...@> - print_scaled(-x-total_shrink[normal]);print("pt too high"); - goto common_ending; - } - -@ @<Report a tight vbox and |goto common_ending|, if...@>= -{@+last_badness=badness(-x, total_shrink[normal]); -if (last_badness > vbadness) - {@+print_ln();print_nl("Tight \\vbox (badness ");print_int(last_badness); -@.Tight \\vbox...@> - goto common_ending; - } -} - -@ When a box is being appended to the current vertical list, the -baselineskip calculation is handled by the |append_to_vlist| routine. - -@p void append_to_vlist(pointer @!b)@t\2\2@>@/ -{ bool height_known;@t\1@>@/ - height_known=(type(b)==hlist_node || type(b)==vlist_node ||@| - (type(b)==whatsit_node && subtype(b)==hset_node) ||@| - (type(b)==whatsit_node && subtype(b)==image_node));@/ - if (prev_depth > ignore_depth && height_known)@/ - {@+scaled d;@t\1@> /*deficiency of space between baselines*/ - pointer @!p; /*a new glue node*/ - {@+d=width(baseline_skip)-prev_depth-height(b); - if (d < line_skip_limit) p=new_param_glue(line_skip_code); - else{@+p=new_skip_param(baseline_skip_code); - width(temp_ptr)=d; /*|temp_ptr==glue_ptr(p)|*/ - } - link(tail)=p;tail=p; - }@+ -} @+ else @+if (prev_depth<=unknown_depth || prev_depth>ignore_depth )@t\2@>@/ - {@+pointer p; - p=new_baseline_node(baseline_skip, line_skip, line_skip_limit); - link(tail)= p;tail= p; - } - link(tail)=b;tail=b; - if (height_known) - prev_depth=depth(b); /* then also depth is known */ - else - prev_depth=unknown_depth; -} - -@* Data structures for math mode. -When \TeX\ reads a formula that is enclosed between \.\$'s, it constructs an -{\sl mlist}, which is essentially a tree structure representing that -formula. An mlist is a linear sequence of items, but we can regard it as -a tree structure because mlists can appear within mlists. For example, many -of the entries can be subscripted or superscripted, and such ``scripts'' -are mlists in their own right. - -An entire formula is parsed into such a tree before any of the actual -typesetting is done, because the current style of type is usually not -known until the formula has been fully scanned. For example, when the -formula `\.{\$a+b \\over c+d\$}' is being read, there is no way to tell -that `\.{a+b}' will be in script size until `\.{\\over}' has appeared. - -During the scanning process, each element of the mlist being built is -classified as a relation, a binary operator, an open parenthesis, etc., -or as a construct like `\.{\\sqrt}' that must be built up. This classification -appears in the mlist data structure. - -After a formula has been fully scanned, the mlist is converted to an hlist -so that it can be incorporated into the surrounding text. This conversion is -controlled by a recursive procedure that decides all of the appropriate -styles by a ``top-down'' process starting at the outermost level and working -in towards the subformulas. The formula is ultimately pasted together using -combinations of horizontal and vertical boxes, with glue and penalty nodes -inserted as necessary. - -An mlist is represented internally as a linked list consisting chiefly -of ``noads'' (pronounced ``no-adds''), to distinguish them from the somewhat -similar ``nodes'' in hlists and vlists. Certain kinds of ordinary nodes are -allowed to appear in mlists together with the noads; \TeX\ tells the difference -by means of the |type| field, since a noad's |type| is always greater than -that of a node. An mlist does not contain character nodes, hlist nodes, vlist -nodes, math nodes, ligature nodes, -or unset nodes; in particular, each mlist item appears in the -variable-size part of |mem|, so the |type| field is always present. - -@ Each noad is four or more words long. The first word contains the |type| -and |subtype| and |link| fields that are already so familiar to us; the -second, third, and fourth words are called the noad's |nucleus|, |subscr|, -and |supscr| fields. - -Consider, for example, the simple formula `\.{\$x\^2\$}', which would be -parsed into an mlist containing a single element called an |ord_noad|. -The |nucleus| of this noad is a representation of `\.x', the |subscr| is -empty, and the |supscr| is a representation of `\.2'. - -The |nucleus|, |subscr|, and |supscr| fields are further broken into -subfields. If |p| points to a noad, and if |q| is one of its principal -fields (e.g., |q==subscr(p)|), there are several possibilities for the -subfields, depending on the |math_type| of |q|. - -\yskip\hang|math_type(q)==math_char| means that |fam(q)| refers to one of -the sixteen font families, and |character(q)| is the number of a character -within a font of that family, as in a character node. - -\yskip\hang|math_type(q)==math_text_char| is similar, but the character is -unsubscripted and unsuperscripted and it is followed immediately by another -character from the same font. (This |math_type| setting appears only -briefly during the processing; it is used to suppress unwanted italic -corrections.) - -\yskip\hang|math_type(q)==empty| indicates a field with no value (the -corresponding attribute of noad |p| is not present). - -\yskip\hang|math_type(q)==sub_box| means that |info(q)| points to a box -node (either an |hlist_node| or a |vlist_node|) that should be used as the -value of the field. The |shift_amount| in the subsidiary box node is the -amount by which that box will be shifted downward. - -\yskip\hang|math_type(q)==sub_mlist| means that |info(q)| points to -an mlist; the mlist must be converted to an hlist in order to obtain -the value of this field. - -\yskip\noindent In the latter case, we might have |info(q)==null|. This -is not the same as |math_type(q)==empty|; for example, `\.{\$P\_\{\}\$}' -and `\.{\$P\$}' produce different results (the former will not have the -``italic correction'' added to the width of |P|, but the ``script skip'' -will be added). - -The definitions of subfields given here are evidently wasteful of space, -since a halfword is being used for the |math_type| although only three -bits would be needed. However, there are hardly ever many noads present at -once, since they are soon converted to nodes that take up even more space, -so we can afford to represent them in whatever way simplifies the -programming. - -@d noad_size 4 /*number of words in a normal noad*/ -@d nucleus(A) A+1 /*the |nucleus| field of a noad*/ -@d supscr(A) A+2 /*the |supscr| field of a noad*/ -@d subscr(A) A+3 /*the |subscr| field of a noad*/ -@d math_type(A) link(A) /*a |halfword| in |mem|*/ -@d fam font /*a |quarterword| in |mem|*/ -@d math_char 1 /*|math_type| when the attribute is simple*/ -@d sub_box 2 /*|math_type| when the attribute is a box*/ -@d sub_mlist 3 /*|math_type| when the attribute is a formula*/ -@d math_text_char 4 /*|math_type| when italic correction is dubious*/ - -@ Each portion of a formula is classified as Ord, Op, Bin, Rel, Open, -Close, Punct, or Inner, for purposes of spacing and line breaking. An -|ord_noad|, |op_noad|, |bin_noad|, |rel_noad|, |open_noad|, |close_noad|, -|punct_noad|, or |inner_noad| is used to represent portions of the various -types. For example, an `\.=' sign in a formula leads to the creation of a -|rel_noad| whose |nucleus| field is a representation of an equals sign -(usually |fam==0|, |character==075|). A formula preceded by \.{\\mathrel} -also results in a |rel_noad|. When a |rel_noad| is followed by an -|op_noad|, say, and possibly separated by one or more ordinary nodes (not -noads), \TeX\ will insert a penalty node (with the current |rel_penalty|) -just after the formula that corresponds to the |rel_noad|, unless there -already was a penalty immediately following; and a ``thick space'' will be -inserted just before the formula that corresponds to the |op_noad|. - -A noad of type |ord_noad|, |op_noad|, \dots, |inner_noad| usually -has a |subtype==normal|. The only exception is that an |op_noad| might -have |subtype==limits| or |no_limits|, if the normal positioning of -limits has been overridden for this operator. - -@d ord_noad (unset_node+3) /*|type| of a noad classified Ord*/ -@d op_noad (ord_noad+1) /*|type| of a noad classified Op*/ -@d bin_noad (ord_noad+2) /*|type| of a noad classified Bin*/ -@d rel_noad (ord_noad+3) /*|type| of a noad classified Rel*/ -@d open_noad (ord_noad+4) /*|type| of a noad classified Open*/ -@d close_noad (ord_noad+5) /*|type| of a noad classified Close*/ -@d punct_noad (ord_noad+6) /*|type| of a noad classified Punct*/ -@d inner_noad (ord_noad+7) /*|type| of a noad classified Inner*/ -@d limits 1 /*|subtype| of |op_noad| whose scripts are to be above, below*/ -@d no_limits 2 /*|subtype| of |op_noad| whose scripts are to be normal*/ - -@ A |radical_noad| is five words long; the fifth word is the |left_delimiter| -field, which usually represents a square root sign. - -A |fraction_noad| is six words long; it has a |right_delimiter| field -as well as a |left_delimiter|. - -Delimiter fields are of type |four_quarters|, and they have four subfields -called |small_fam|, |small_char|, |large_fam|, |large_char|. These subfields -represent variable-size delimiters by giving the ``small'' and ``large'' -starting characters, as explained in Chapter~17 of {\sl The \TeX book}. -@:TeXbook}{\sl The \TeX book@> - -A |fraction_noad| is actually quite different from all other noads. Not -only does it have six words, it has |thickness|, |denominator|, and -|numerator| fields instead of |nucleus|, |subscr|, and |supscr|. The -|thickness| is a scaled value that tells how thick to make a fraction -rule; however, the special value |default_code| is used to stand for the -|default_rule_thickness| of the current size. The |numerator| and -|denominator| point to mlists that define a fraction; we always have -$$\hbox{|math_type(numerator)==math_type(denominator)==sub_mlist|}.$$ The -|left_delimiter| and |right_delimiter| fields specify delimiters that will -be placed at the left and right of the fraction. In this way, a -|fraction_noad| is able to represent all of \TeX's operators \.{\\over}, -\.{\\atop}, \.{\\above}, \.{\\overwithdelims}, \.{\\atopwithdelims}, and - \.{\\abovewithdelims}. - -@d left_delimiter(A) A+4 /*first delimiter field of a noad*/ -@d right_delimiter(A) A+5 /*second delimiter field of a fraction noad*/ -@d radical_noad (inner_noad+1) /*|type| of a noad for square roots*/ -@d radical_noad_size 5 /*number of |mem| words in a radical noad*/ -@d fraction_noad (radical_noad+1) /*|type| of a noad for generalized fractions*/ -@d fraction_noad_size 6 /*number of |mem| words in a fraction noad*/ -@d small_fam(A) mem[A].qqqq.b0 /*|fam| for ``small'' delimiter*/ -@d small_char(A) mem[A].qqqq.b1 /*|character| for ``small'' delimiter*/ -@d large_fam(A) mem[A].qqqq.b2 /*|fam| for ``large'' delimiter*/ -@d large_char(A) mem[A].qqqq.b3 /*|character| for ``large'' delimiter*/ -@d thickness(A) width(A) /*|thickness| field in a fraction noad*/ -@d default_code 010000000000 /*denotes |default_rule_thickness|*/ -@d numerator(A) supscr(A) /*|numerator| field in a fraction noad*/ -@d denominator(A) subscr(A) /*|denominator| field in a fraction noad*/ - -@ The global variable |empty_field| is set up for initialization of empty -fields in new noads. Similarly, |null_delimiter| is for the initialization -of delimiter fields. - -@<Glob...@>= -static two_halves @!empty_field; -static four_quarters @!null_delimiter; - -@ @<Set init...@>= -empty_field.rh=empty;empty_field.lh=null;@/ -null_delimiter.b0=0;null_delimiter.b1=min_quarterword;@/ -null_delimiter.b2=0;null_delimiter.b3=min_quarterword; - -@ The |new_noad| function creates an |ord_noad| that is completely null. - -@p static pointer new_noad(void) -{@+pointer p; -p=get_node(noad_size); -type(p)=ord_noad;subtype(p)=normal; -mem[nucleus(p)].hh=empty_field; -mem[subscr(p)].hh=empty_field; -mem[supscr(p)].hh=empty_field; -return p; -} - -@ A few more kinds of noads will complete the set: An |under_noad| has its -nucleus underlined; an |over_noad| has it overlined. An |accent_noad| places -an accent over its nucleus; the accent character appears as -|fam(accent_chr(p))| and |character(accent_chr(p))|. A |vcenter_noad| -centers its nucleus vertically with respect to the axis of the formula; -in such noads we always have |math_type(nucleus(p))==sub_box|. - -And finally, we have |left_noad| and |right_noad| types, to implement -\TeX's \.{\\left} and \.{\\right} as well as \eTeX's \.{\\middle}. -The |nucleus| of such noads is -replaced by a |delimiter| field; thus, for example, `\.{\\left(}' produces -a |left_noad| such that |delimiter(p)| holds the family and character -codes for all left parentheses. A |left_noad| never appears in an mlist -except as the first element, and a |right_noad| never appears in an mlist -except as the last element; furthermore, we either have both a |left_noad| -and a |right_noad|, or neither one is present. The |subscr| and |supscr| -fields are always |empty| in a |left_noad| and a |right_noad|. - -@d under_noad (fraction_noad+1) /*|type| of a noad for underlining*/ -@d over_noad (under_noad+1) /*|type| of a noad for overlining*/ -@d accent_noad (over_noad+1) /*|type| of a noad for accented subformulas*/ -@d accent_noad_size 5 /*number of |mem| words in an accent noad*/ -@d accent_chr(A) A+4 /*the |accent_chr| field of an accent noad*/ -@d vcenter_noad (accent_noad+1) /*|type| of a noad for \.{\\vcenter}*/ -@d left_noad (vcenter_noad+1) /*|type| of a noad for \.{\\left}*/ -@d right_noad (left_noad+1) /*|type| of a noad for \.{\\right}*/ -@d delimiter(A) nucleus(A) /*|delimiter| field in left and right noads*/ -@d middle_noad 1 /*|subtype| of right noad representing \.{\\middle}*/ -@d scripts_allowed(A) (type(A) >= ord_noad)&&(type(A) < left_noad) - -@ Math formulas can also contain instructions like \.{\\textstyle} that -override \TeX's normal style rules. A |style_node| is inserted into the -data structure to record such instructions; it is three words long, so it -is considered a node instead of a noad. The |subtype| is either |display_style| -or |text_style| or |script_style| or |script_script_style|. The -second and third words of a |style_node| are not used, but they are -present because a |choice_node| is converted to a |style_node|. - -\TeX\ uses even numbers 0, 2, 4, 6 to encode the basic styles -|display_style|, \dots, |script_script_style|, and adds~1 to get the -``cramped'' versions of these styles. This gives a numerical order that -is backwards from the convention of Appendix~G in {\sl The \TeX book\/}; -i.e., a smaller style has a larger numerical value. -@:TeXbook}{\sl The \TeX book@> - -@d style_node (unset_node+1) /*|type| of a style node*/ -@d style_node_size 3 /*number of words in a style node*/ -@d display_style 0 /*|subtype| for \.{\\displaystyle}*/ -@d text_style 2 /*|subtype| for \.{\\textstyle}*/ -@d script_style 4 /*|subtype| for \.{\\scriptstyle}*/ -@d script_script_style 6 /*|subtype| for \.{\\scriptscriptstyle}*/ -@d cramped 1 /*add this to an uncramped style if you want to cramp it*/ - -@p static pointer new_style(small_number @!s) /*create a style node*/ -{@+pointer p; /*the new node*/ -p=get_node(style_node_size);type(p)=style_node; -subtype(p)=s;width(p)=0;depth(p)=0; /*the |width| and |depth| are not used*/ -return p; -} - -@ Finally, the \.{\\mathchoice} primitive creates a |choice_node|, which -has special subfields |display_mlist|, |text_mlist|, |script_mlist|, -and |script_script_mlist| pointing to the mlists for each style. - -@d choice_node (unset_node+2) /*|type| of a choice node*/ -@d display_mlist(A) info(A+1) /*mlist to be used in display style*/ -@d text_mlist(A) link(A+1) /*mlist to be used in text style*/ -@d script_mlist(A) info(A+2) /*mlist to be used in script style*/ -@d script_script_mlist(A) link(A+2) /*mlist to be used in scriptscript style*/ - -@p static pointer new_choice(void) /*create a choice node*/ -{@+pointer p; /*the new node*/ -p=get_node(style_node_size);type(p)=choice_node; -subtype(p)=0; /*the |subtype| is not used*/ -display_mlist(p)=null;text_mlist(p)=null;script_mlist(p)=null; -script_script_mlist(p)=null; -return p; -} - -@ Let's consider now the previously unwritten part of |show_node_list| -that displays the things that can only be present in mlists; this -program illustrates how to access the data structures just defined. - -In the context of the following program, |p| points to a node or noad that -should be displayed, and the current string contains the ``recursion history'' -that leads to this point. The recursion history consists of a dot for each -outer level in which |p| is subsidiary to some node, or in which |p| is -subsidiary to the |nucleus| field of some noad; the dot is replaced by -`\.\_' or `\.\^' or `\./' or `\.\\' if |p| is descended from the |subscr| -or |supscr| or |denominator| or |numerator| fields of noads. For example, -the current string would be `\.{.\^.\_/}' if |p| points to the |ord_noad| for -|x| in the (ridiculous) formula -`\.{\$\\sqrt\{a\^\{\\mathinner\{b\_\{c\\over x+y\}\}\}\}\$}'. - -@<Cases of |show_node_list| that arise...@>= -case style_node: print_style(subtype(p));@+break; -case choice_node: @<Display choice node |p|@>@;@+break; -case ord_noad: case op_noad: case bin_noad: case rel_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: - case radical_noad: case over_noad: case under_noad: case vcenter_noad: case accent_noad: - case left_noad: case right_noad: @<Display normal noad |p|@>@;@+break; -case fraction_noad: @<Display fraction noad |p|@>@;@+break; - -@ Here are some simple routines used in the display of noads. - -@<Declare procedures needed for displaying the elements of mlists@>= -static void print_fam_and_char(pointer @!p) /*prints family and character*/ -{@+print_esc("fam");print_int(fam(p));print_char(' '); -print_ASCII(qo(character(p))); -} -@# -static void print_delimiter(pointer @!p) /*prints a delimiter as 24-bit hex value*/ -{@+int a; /*accumulator*/ -a=small_fam(p)*256+qo(small_char(p)); -a=a*0x1000+large_fam(p)*256+qo(large_char(p)); -if (a < 0) print_int(a); /*this should never happen*/ -else print_hex(a); -} - -@ The next subroutine will descend to another level of recursion when a -subsidiary mlist needs to be displayed. The parameter |c| indicates what -character is to become part of the recursion history. An empty mlist is -distinguished from a field with |math_type(p)==empty|, because these are -not equivalent (as explained above). -@^recursion@> - -@<Declare procedures needed for displaying...@>= -static void show_info(void); /*|show_node_list(info(temp_ptr))|*/ -static void print_subsidiary_data(pointer @!p, ASCII_code @!c) - /*display a noad field*/ -{@+if (cur_length >= depth_threshold) - {@+if (math_type(p)!=empty) print(" []"); - } -else{@+append_char(c); /*include |c| in the recursion history*/ - temp_ptr=p; /*prepare for |show_info| if recursion is needed*/ - switch (math_type(p)) { - case math_char: {@+print_ln();print_current_string();print_fam_and_char(p); - } @+break; - case sub_box: show_info();@+break; /*recursive call*/ - case sub_mlist: if (info(p)==null) - {@+print_ln();print_current_string();print("{}"); - } - else show_info();@+break; /*recursive call*/ - default:do_nothing; /*|empty|*/ - } @/ - flush_char; /*remove |c| from the recursion history*/ - } -} - -@ The inelegant introduction of |show_info| in the code above seems better -than the alternative of using \PASCAL's strange |forward| declaration for a -procedure with parameters. The \PASCAL\ convention about dropping parameters -from a post-|forward| procedure is, frankly, so intolerable to the author -of \TeX\ that he would rather stoop to communication via a global temporary -variable. (A similar stoopidity occurred with respect to |hlist_out| and -|vlist_out| above, and it will occur with respect to |mlist_to_hlist| below.) -@^Knuth, Donald Ervin@> -@:PASCAL}{\PASCAL@> - -@p static void show_info(void) /*the reader will kindly forgive this*/ -{@+show_node_list(info(temp_ptr)); -} - -@ @<Declare procedures needed for displaying...@>= -static void print_style(int @!c) -{@+switch (c/2) { -case 0: print_esc("displaystyle");@+break; /*|display_style==0|*/ -case 1: print_esc("textstyle");@+break; /*|text_style==2|*/ -case 2: print_esc("scriptstyle");@+break; /*|script_style==4|*/ -case 3: print_esc("scriptscriptstyle");@+break; /*|script_script_style==6|*/ -default:print("Unknown style!"); -} -} - -@ @<Display choice node |p|@>= -{@+print_esc("mathchoice"); -append_char('D');show_node_list(display_mlist(p));flush_char; -append_char('T');show_node_list(text_mlist(p));flush_char; -append_char('S');show_node_list(script_mlist(p));flush_char; -append_char('s');show_node_list(script_script_mlist(p));flush_char; -} - -@ @<Display normal noad |p|@>= -{@+switch (type(p)) { -case ord_noad: print_esc("mathord");@+break; -case op_noad: print_esc("mathop");@+break; -case bin_noad: print_esc("mathbin");@+break; -case rel_noad: print_esc("mathrel");@+break; -case open_noad: print_esc("mathopen");@+break; -case close_noad: print_esc("mathclose");@+break; -case punct_noad: print_esc("mathpunct");@+break; -case inner_noad: print_esc("mathinner");@+break; -case over_noad: print_esc("overline");@+break; -case under_noad: print_esc("underline");@+break; -case vcenter_noad: print_esc("vcenter");@+break; -case radical_noad: {@+print_esc("radical");print_delimiter(left_delimiter(p)); - } @+break; -case accent_noad: {@+print_esc("accent");print_fam_and_char(accent_chr(p)); - } @+break; -case left_noad: {@+print_esc("left");print_delimiter(delimiter(p)); - } @+break; -case right_noad: {@+if (subtype(p)==normal) print_esc("right"); - else print_esc("middle"); - print_delimiter(delimiter(p)); - } -} -if (type(p) < left_noad) - {@+if (subtype(p)!=normal) - if (subtype(p)==limits) print_esc("limits"); - else print_esc("nolimits"); - print_subsidiary_data(nucleus(p),'.'); - } -print_subsidiary_data(supscr(p),'^'); -print_subsidiary_data(subscr(p),'_'); -} - -@ @<Display fraction noad |p|@>= -{@+print_esc("fraction, thickness "); -if (thickness(p)==default_code) print("= default"); -else print_scaled(thickness(p)); -if ((small_fam(left_delimiter(p))!=0)||@+ - (small_char(left_delimiter(p))!=min_quarterword)||@| - (large_fam(left_delimiter(p))!=0)||@| - (large_char(left_delimiter(p))!=min_quarterword)) - {@+print(", left-delimiter ");print_delimiter(left_delimiter(p)); - } -if ((small_fam(right_delimiter(p))!=0)||@| - (small_char(right_delimiter(p))!=min_quarterword)||@| - (large_fam(right_delimiter(p))!=0)||@| - (large_char(right_delimiter(p))!=min_quarterword)) - {@+print(", right-delimiter ");print_delimiter(right_delimiter(p)); - } -print_subsidiary_data(numerator(p),'\\'); -print_subsidiary_data(denominator(p),'/'); -} - -@ That which can be displayed can also be destroyed. - -@<Cases of |flush_node_list| that arise...@>= -case style_node: {@+free_node(p, style_node_size);goto done; - } -case choice_node: {@+flush_node_list(display_mlist(p)); - flush_node_list(text_mlist(p)); - flush_node_list(script_mlist(p)); - flush_node_list(script_script_mlist(p)); - free_node(p, style_node_size);goto done; - } -case ord_noad: case op_noad: case bin_noad: case rel_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: - case radical_noad: case over_noad: case under_noad: case vcenter_noad: case accent_noad: @t@>@;@/ - {@+if (math_type(nucleus(p)) >= sub_box) - flush_node_list(info(nucleus(p))); - if (math_type(supscr(p)) >= sub_box) - flush_node_list(info(supscr(p))); - if (math_type(subscr(p)) >= sub_box) - flush_node_list(info(subscr(p))); - if (type(p)==radical_noad) free_node(p, radical_noad_size); - else if (type(p)==accent_noad) free_node(p, accent_noad_size); - else free_node(p, noad_size); - goto done; - } -case left_noad: case right_noad: {@+free_node(p, noad_size);goto done; - } -case fraction_noad: {@+flush_node_list(info(numerator(p))); - flush_node_list(info(denominator(p))); - free_node(p, fraction_noad_size);goto done; - } - -@* Subroutines for math mode. -In order to convert mlists to hlists, i.e., noads to nodes, we need several -subroutines that are conveniently dealt with now. - -Let us first introduce the macros that make it easy to get at the parameters and -other font information. A size code, which is a multiple of 16, is added to a -family number to get an index into the table of internal font numbers -for each combination of family and size. (Be alert: Size codes get -larger as the type gets smaller.) - -@d text_size 0 /*size code for the largest size in a family*/ -@d script_size 16 /*size code for the medium size in a family*/ -@d script_script_size 32 /*size code for the smallest size in a family*/ - -@<Basic printing procedures@>= -static void print_size(int @!s) -{@+if (s==text_size) print_esc("textfont"); -else if (s==script_size) print_esc("scriptfont"); -else print_esc("scriptscriptfont"); -} - -@ Before an mlist is converted to an hlist, \TeX\ makes sure that -the fonts in family~2 have enough parameters to be math-symbol -fonts, and that the fonts in family~3 have enough parameters to be -math-extension fonts. The math-symbol parameters are referred to by using the -following macros, which take a size code as their parameter; for example, -|num1(cur_size)| gives the value of the |num1| parameter for the current size. -@^parameters for symbols@> -@^font parameters@> - -@d mathsy_end(A) fam_fnt(2+A)]].sc -@d mathsy(A) font_info[A+param_base[mathsy_end -@d math_x_height mathsy(5) /*height of `\.x'*/ -@d math_quad mathsy(6) /*\.{18mu}*/ -@d num1 mathsy(8) /*numerator shift-up in display styles*/ -@d num2 mathsy(9) /*numerator shift-up in non-display, non-\.{\\atop}*/ -@d num3 mathsy(10) /*numerator shift-up in non-display \.{\\atop}*/ -@d denom1 mathsy(11) /*denominator shift-down in display styles*/ -@d denom2 mathsy(12) /*denominator shift-down in non-display styles*/ -@d sup1 mathsy(13) /*superscript shift-up in uncramped display style*/ -@d sup2 mathsy(14) /*superscript shift-up in uncramped non-display*/ -@d sup3 mathsy(15) /*superscript shift-up in cramped styles*/ -@d sub1 mathsy(16) /*subscript shift-down if superscript is absent*/ -@d sub2 mathsy(17) /*subscript shift-down if superscript is present*/ -@d sup_drop mathsy(18) /*superscript baseline below top of large box*/ -@d sub_drop mathsy(19) /*subscript baseline below bottom of large box*/ -@d delim1 mathsy(20) /*size of \.{\\atopwithdelims} delimiters - in display styles*/ -@d delim2 mathsy(21) /*size of \.{\\atopwithdelims} delimiters in non-displays*/ -@d axis_height mathsy(22) /*height of fraction lines above the baseline*/ -@d total_mathsy_params 22 - -@ The math-extension parameters have similar macros, but the size code is -omitted (since it is always |cur_size| when we refer to such parameters). -@^parameters for symbols@> -@^font parameters@> - -@d mathex(A) font_info[A+param_base[fam_fnt(3+cur_size)]].sc -@d default_rule_thickness mathex(8) /*thickness of \.{\\over} bars*/ -@d big_op_spacing1 mathex(9) /*minimum clearance above a displayed op*/ -@d big_op_spacing2 mathex(10) /*minimum clearance below a displayed op*/ -@d big_op_spacing3 mathex(11) /*minimum baselineskip above displayed op*/ -@d big_op_spacing4 mathex(12) /*minimum baselineskip below displayed op*/ -@d big_op_spacing5 mathex(13) /*padding above and below displayed limits*/ -@d total_mathex_params 13 - -@ We also need to compute the change in style between mlists and their -subsidiaries. The following macros define the subsidiary style for -an overlined nucleus (|cramped_style|), for a subscript or a superscript -(|sub_style| or |sup_style|), or for a numerator or denominator (|num_style| -or |denom_style|). - -@d cramped_style(A) 2*(A/2)+cramped /*cramp the style*/ -@d sub_style(A) 2*(A/4)+script_style+cramped /*smaller and cramped*/ -@d sup_style(A) 2*(A/4)+script_style+(A%2) /*smaller*/ -@d num_style(A) A+2-2*(A/6) /*smaller unless already script-script*/ -@d denom_style(A) 2*(A/2)+cramped+2-2*(A/6) /*smaller, cramped*/ - -@ When the style changes, the following piece of program computes associated -information: - -@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>= -{@+if (cur_style < script_style) cur_size=text_size; -else cur_size=16*((cur_style-text_style)/2); -cur_mu=x_over_n(math_quad(cur_size), 18); -} - -@ Here is a function that returns a pointer to a rule node having a given -thickness |t|. The rule will extend horizontally to the boundary of the vlist -that eventually contains it. - -@p static pointer fraction_rule(scaled @!t) - /*construct the bar for a fraction*/ -{@+pointer p; /*the new node*/ -p=new_rule();height(p)=t;depth(p)=0;return p; -} - -@ The |overbar| function returns a pointer to a vlist box that consists of -a given box |b|, above which has been placed a kern of height |k| under a -fraction rule of thickness |t| under additional space of height |t|. - -@p static pointer overbar(pointer @!b, scaled @!k, scaled @!t) -{@+pointer p, @!q; /*nodes being constructed*/ -p=new_kern(k);link(p)=b;q=fraction_rule(t);link(q)=p; -p=new_kern(t);link(p)=q;return vpack(p, natural); -} - -@ The |var_delimiter| function, which finds or constructs a sufficiently -large delimiter, is the most interesting of the auxiliary functions that -currently concern us. Given a pointer |d| to a delimiter field in some noad, -together with a size code |s| and a vertical distance |v|, this function -returns a pointer to a box that contains the smallest variant of |d| whose -height plus depth is |v| or more. (And if no variant is large enough, it -returns the largest available variant.) In particular, this routine will -construct arbitrarily large delimiters from extensible components, if -|d| leads to such characters. - -The value returned is a box whose |shift_amount| has been set so that -the box is vertically centered with respect to the axis in the given size. -If a built-up symbol is returned, the height of the box before shifting -will be the height of its topmost component. - -@p @t\4@>@<Declare subprocedures for |var_delimiter|@>@; -static pointer var_delimiter(pointer @!d, small_number @!s, scaled @!v) -{@+ -pointer b; /*the box that will be constructed*/ -internal_font_number @!f, @!g; /*best-so-far and tentative font codes*/ -quarterword @!c, @!x, @!y; /*best-so-far and tentative character codes*/ -int @!m, @!n; /*the number of extensible pieces*/ -scaled @!u; /*height-plus-depth of a tentative character*/ -scaled @!w; /*largest height-plus-depth so far*/ -four_quarters @!q; /*character info*/ -eight_bits @!hd; /*height-depth byte*/ -four_quarters @!r; /*extensible pieces*/ -small_number @!z; /*runs through font family members*/ -bool @!large_attempt; /*are we trying the ``large'' variant?*/ -f=null_font;w=0;large_attempt=false; -z=small_fam(d);x=small_char(d); -loop@+{@+@<Look at the variants of |(z,x)|; set |f| and |c| whenever a better character -is found; |goto found| as soon as a large enough variant is encountered@>; - if (large_attempt) goto found; /*there were none large enough*/ - large_attempt=true;z=large_fam(d);x=large_char(d); - } -found: if (f!=null_font) - @<Make variable |b| point to a box for |(f,c)|@>; -else{@+b=new_null_box(); - width(b)=null_delimiter_space; /*use this width if no delimiter was found*/ - } -shift_amount(b)=half(height(b)-depth(b))-axis_height(s); -return b; -} - -@ The search process is complicated slightly by the facts that some of the -characters might not be present in some of the fonts, and they might not -be probed in increasing order of height. - -@<Look at the variants of |(z,x)|; set |f| and |c|...@>= -if ((z!=0)||(x!=min_quarterword)) - {@+z=z+s+16; - @/do@+{z=z-16;g=fam_fnt(z); - if (g!=null_font) - @<Look at the list of characters starting with |x| in font |g|; set |f| and |c| -whenever a better character is found; |goto found| as soon as a large enough variant -is encountered@>; - }@+ while (!(z < 16)); - } - -@ @<Look at the list of characters starting with |x|...@>= -{@+y=x; -if ((qo(y) >= font_bc[g])&&(qo(y) <= font_ec[g])) - {@+resume: q=char_info(g, y); - if (char_exists(q)) - {@+if (char_tag(q)==ext_tag) - {@+f=g;c=y;goto found; - } - hd=height_depth(q); - u=char_height(g, hd)+char_depth(g, hd); - if (u > w) - {@+f=g;c=y;w=u; - if (u >= v) goto found; - } - if (char_tag(q)==list_tag) - {@+y=rem_byte(q);goto resume; - } - } - } -} - -@ Here is a subroutine that creates a new box, whose list contains a -single character, and whose width includes the italic correction for -that character. The height or depth of the box will be negative, if -the height or depth of the character is negative; thus, this routine -may deliver a slightly different result than |hpack| would produce. - -@<Declare subprocedures for |var_delimiter|@>= -static pointer char_box(internal_font_number @!f, quarterword @!c) -{@+four_quarters q; -eight_bits @!hd; /*|height_depth| byte*/ -pointer @!b, @!p; /*the new box and its character node*/ -q=char_info(f, c);hd=height_depth(q); -b=new_null_box();width(b)=char_width(f, q)+char_italic(f, q); -height(b)=char_height(f, hd);depth(b)=char_depth(f, hd); -p=get_avail();character(p)=c;font(p)=f;list_ptr(b)=p;return b; -} - -@ When the following code is executed, |char_tag(q)| will be equal to -|ext_tag| if and only if a built-up symbol is supposed to be returned. - -@<Make variable |b| point to a box for |(f,c)|@>= -if (char_tag(q)==ext_tag) - @<Construct an extensible character in a new box |b|, using recipe |rem_byte(q)| -and font |f|@>@; -else b=char_box(f, c) - -@ When we build an extensible character, it's handy to have the -following subroutine, which puts a given character on top -of the characters already in box |b|: - -@<Declare subprocedures for |var_delimiter|@>= -static void stack_into_box(pointer @!b, internal_font_number @!f, - quarterword @!c) -{@+pointer p; /*new node placed into |b|*/ -p=char_box(f, c);link(p)=list_ptr(b);list_ptr(b)=p; -height(b)=height(p); -} - -@ Another handy subroutine computes the height plus depth of -a given character: - -@<Declare subprocedures for |var_delimiter|@>= -static scaled height_plus_depth(internal_font_number @!f, quarterword @!c) -{@+four_quarters q; -eight_bits @!hd; /*|height_depth| byte*/ -q=char_info(f, c);hd=height_depth(q); -return char_height(f, hd)+char_depth(f, hd); -} - -@ @<Construct an extensible...@>= -{@+b=new_null_box(); -type(b)=vlist_node; -r=font_info[exten_base[f]+rem_byte(q)].qqqq;@/ -@<Compute the minimum suitable height, |w|, and the corresponding number of extension -steps, |n|; also set |width(b)|@>; -c=ext_bot(r); -if (c!=min_quarterword) stack_into_box(b, f, c); -c=ext_rep(r); -for (m=1; m<=n; m++) stack_into_box(b, f, c); -c=ext_mid(r); -if (c!=min_quarterword) - {@+stack_into_box(b, f, c);c=ext_rep(r); - for (m=1; m<=n; m++) stack_into_box(b, f, c); - } -c=ext_top(r); -if (c!=min_quarterword) stack_into_box(b, f, c); -depth(b)=w-height(b); -} - -@ The width of an extensible character is the width of the repeatable -module. If this module does not have positive height plus depth, -we don't use any copies of it, otherwise we use as few as possible -(in groups of two if there is a middle part). - -@<Compute the minimum suitable height, |w|, and...@>= -c=ext_rep(r);u=height_plus_depth(f, c); -w=0;q=char_info(f, c);width(b)=char_width(f, q)+char_italic(f, q);@/ -c=ext_bot(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); -c=ext_mid(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); -c=ext_top(r);@+if (c!=min_quarterword) w=w+height_plus_depth(f, c); -n=0; -if (u > 0) while (w < v) - {@+w=w+u;incr(n); - if (ext_mid(r)!=min_quarterword) w=w+u; - } - -@ The next subroutine is much simpler; it is used for numerators and -denominators of fractions as well as for displayed operators and -their limits above and below. It takes a given box~|b| and -changes it so that the new box is centered in a box of width~|w|. -The centering is done by putting \.{\\hss} glue at the left and right -of the list inside |b|, then packaging the new box; thus, the -actual box might not really be centered, if it already contains -infinite glue. - -The given box might contain a single character whose italic correction -has been added to the width of the box; in this case a compensating -kern is inserted. - -@p static pointer rebox(pointer @!b, scaled @!w) -{@+pointer p; /*temporary register for list manipulation*/ -internal_font_number @!f; /*font in a one-character box*/ -scaled @!v; /*width of a character without italic correction*/ -if ((width(b)!=w)&&(list_ptr(b)!=null)) - {@+if (type(b)==vlist_node) b=hpack(b, natural); - p=list_ptr(b); - if ((is_char_node(p))&&(link(p)==null)) - {@+f=font(p);v=char_width(f, char_info(f, character(p))); - if (v!=width(b)) link(p)=new_kern(width(b)-v); - } - list_ptr(b)=null; flush_node_list(b); - b=new_glue(ss_glue);link(b)=p; - while (link(p)!=null) p=link(p); - link(p)=new_glue(ss_glue); - return hpack(b, w, 0, 0, exactly); - } -else{@+width(b)=w;return b; - } -} - -@ Here is a subroutine that creates a new glue specification from another -one that is expressed in `\.{mu}', given the value of the math unit. - -@d mu_mult(A) nx_plus_y(n, A, xn_over_d(A, f, 0200000)) - -@p static pointer math_glue(pointer @!g, scaled @!m) -{@+pointer p; /*the new glue specification*/ -int @!n; /*integer part of |m|*/ -scaled @!f; /*fraction part of |m|*/ -n=x_over_n(m, 0200000);f=rem;@/ -if (f < 0) - {@+decr(n);f=f+0200000; - } -p=get_node(glue_spec_size); -width(p)=mu_mult(width(g)); /*convert \.{mu} to \.{pt}*/ -stretch_order(p)=stretch_order(g); -if (stretch_order(p)==normal) stretch(p)=mu_mult(stretch(g)); -else stretch(p)=stretch(g); -shrink_order(p)=shrink_order(g); -if (shrink_order(p)==normal) shrink(p)=mu_mult(shrink(g)); -else shrink(p)=shrink(g); -return p; -} - -@ The |math_kern| subroutine removes |mu_glue| from a kern node, given -the value of the math unit. - -@p static void math_kern(pointer @!p, scaled @!m) -{@+int @!n; /*integer part of |m|*/ -scaled @!f; /*fraction part of |m|*/ -if (subtype(p)==mu_glue) - {@+n=x_over_n(m, 0200000);f=rem;@/ - if (f < 0) - {@+decr(n);f=f+0200000; - } - width(p)=mu_mult(width(p));subtype(p)=explicit; - } -} - -@ Sometimes it is necessary to destroy an mlist. The following -subroutine empties the current list, assuming that |abs(mode)==mmode|. - -@p static void flush_math(void) -{@+flush_node_list(link(head));flush_node_list(incompleat_noad); -link(head)=null;tail=head;incompleat_noad=null; -} - -@* Typesetting math formulas. -\TeX's most important routine for dealing with formulas is called -|mlist_to_hlist|. After a formula has been scanned and represented as an -mlist, this routine converts it to an hlist that can be placed into a box -or incorporated into the text of a paragraph. There are three implicit -parameters, passed in global variables: |cur_mlist| points to the first -node or noad in the given mlist (and it might be |null|); |cur_style| is a -style code; and |mlist_penalties| is |true| if penalty nodes for potential -line breaks are to be inserted into the resulting hlist. After -|mlist_to_hlist| has acted, |link(temp_head)| points to the translated hlist. - -Since mlists can be inside mlists, the procedure is recursive. And since this -is not part of \TeX's inner loop, the program has been written in a manner -that stresses compactness over efficiency. -@^recursion@> - -@<Glob...@>= -static pointer @!cur_mlist; /*beginning of mlist to be translated*/ -static small_number @!cur_style; /*style code at current place in the list*/ -static small_number @!cur_size; /*size code corresponding to |cur_style|*/ -static scaled @!cur_mu; /*the math unit width corresponding to |cur_size|*/ -static bool @!mlist_penalties; /*should |mlist_to_hlist| insert penalties?*/ - -@ The recursion in |mlist_to_hlist| is due primarily to a subroutine -called |clean_box| that puts a given noad field into a box using a given -math style; |mlist_to_hlist| can call |clean_box|, which can call -|mlist_to_hlist|. -@^recursion@> - -The box returned by |clean_box| is ``clean'' in the -sense that its |shift_amount| is zero. - -@p static void mlist_to_hlist(void);@/ -static pointer clean_box(pointer @!p, small_number @!s) -{@+ -pointer q; /*beginning of a list to be boxed*/ -small_number @!save_style; /*|cur_style| to be restored*/ -pointer @!x; /*box to be returned*/ -pointer @!r; /*temporary pointer*/ -switch (math_type(p)) { -case math_char: {@+cur_mlist=new_noad();mem[nucleus(cur_mlist)]=mem[p]; - } @+break; -case sub_box: {@+q=info(p);goto found; - } -case sub_mlist: cur_mlist=info(p);@+break; -default:{@+q=new_null_box();goto found; - } -} @/ -save_style=cur_style;cur_style=s;mlist_penalties=false;@/ -mlist_to_hlist();q=link(temp_head); /*recursive call*/ -cur_style=save_style; /*restore the style*/ -@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; -found: if (is_char_node(q)||(q==null)) x=hpack(q, natural); - else if ((link(q)==null)&&(type(q) <= vlist_node)&&(shift_amount(q)==0)) - x=q; /*it's already clean*/ - else x=hpack(q, natural); -@<Simplify a trivial box@>; -return x; -} - -@ Here we save memory space in a common case. - -@<Simplify a trivial box@>= -q=list_ptr(x); -if (is_char_node(q)) - {@+r=link(q); - if (r!=null) if (link(r)==null) if (!is_char_node(r)) - if (type(r)==kern_node) /*unneeded italic correction*/ - {@+free_node(r, small_node_size);link(q)=null; - } - } - -@ It is convenient to have a procedure that converts a |math_char| -field to an ``unpacked'' form. The |fetch| routine sets |cur_f|, |cur_c|, -and |cur_i| to the font code, character code, and character information bytes of -a given noad field. It also takes care of issuing error messages for -nonexistent characters; in such cases, |char_exists(cur_i)| will be |false| -after |fetch| has acted, and the field will also have been reset to |empty|. - -@p static void fetch(pointer @!a) /*unpack the |math_char| field |a|*/ -{@+cur_c=character(a);cur_f=fam_fnt(fam(a)+cur_size); -if (cur_f==null_font) - @<Complain about an undefined family and set |cur_i| null@>@; -else{@+if ((qo(cur_c) >= font_bc[cur_f])&&(qo(cur_c) <= font_ec[cur_f])) - cur_i=char_info(cur_f, cur_c); - else cur_i=null_character; - if (!(char_exists(cur_i))) - {@+char_warning(cur_f, qo(cur_c)); - math_type(a)=empty;cur_i=null_character; - } - } -} - -@ @<Complain about an undefined family...@>= -{@+print_err("");print_size(cur_size);print_char(' '); -print_int(fam(a));print(" is undefined (character "); -print_ASCII(qo(cur_c));print_char(')'); -help4("Somewhere in the math formula just ended, you used the",@/ -"stated character from an undefined font family. For example,",@/ -"plain TeX doesn't allow \\it or \\sl in subscripts. Proceed,",@/ -"and I'll try to forget that I needed that character."); -error();cur_i=null_character;math_type(a)=empty; -} - -@ The outputs of |fetch| are placed in global variables. - -@<Glob...@>= -static internal_font_number @!cur_f; /*the |font| field of a |math_char|*/ -static quarterword @!cur_c; /*the |character| field of a |math_char|*/ -static four_quarters @!cur_i; /*the |char_info| of a |math_char|, - or a lig/kern instruction*/ - -@ We need to do a lot of different things, so |mlist_to_hlist| makes two -passes over the given mlist. - -The first pass does most of the processing: It removes ``mu'' spacing from -glue, it recursively evaluates all subsidiary mlists so that only the -top-level mlist remains to be handled, it puts fractions and square roots -and such things into boxes, it attaches subscripts and superscripts, and -it computes the overall height and depth of the top-level mlist so that -the size of delimiters for a |left_noad| and a |right_noad| will be known. -The hlist resulting from each noad is recorded in that noad's |new_hlist| -field, an integer field that replaces the |nucleus| or |thickness|. -@^recursion@> - -The second pass eliminates all noads and inserts the correct glue and -penalties between nodes. - -@d new_hlist(A) mem[nucleus(A)].i /*the translation of an mlist*/ - -@ Here is the overall plan of |mlist_to_hlist|, and the list of its -local variables. - -@p @t\4@>@<Declare math construction procedures@>@; -static void mlist_to_hlist(void) -{@+ - -pointer mlist; /*beginning of the given list*/ -bool @!penalties; /*should penalty nodes be inserted?*/ -small_number @!style; /*the given style*/ -small_number @!save_style; /*holds |cur_style| during recursion*/ -pointer @!q; /*runs through the mlist*/ -pointer @!r; /*the most recent noad preceding |q|*/ -small_number @!r_type; /*the |type| of noad |r|, or |op_noad| if |r==null|*/ -small_number @!t; /*the effective |type| of noad |q| during the second pass*/ -pointer @!p, @!x, @!y, @!z; /*temporary registers for list construction*/ -int @!pen; /*a penalty to be inserted*/ -small_number @!s; /*the size of a noad to be deleted*/ -scaled @!max_h, @!max_d; /*maximum height and depth of the list translated so far*/ -scaled @!delta; /*offset between subscript and superscript*/ -mlist=cur_mlist;penalties=mlist_penalties; -style=cur_style; /*tuck global parameters away as local variables*/ -q=mlist;r=null;r_type=op_noad;max_h=0;max_d=0; -@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; -while (q!=null) @<Process node-or-noad |q| as much as possible in preparation for -the second pass of |mlist_to_hlist|, then move to the next item in the mlist@>; -@<Convert \(a)a final |bin_noad| to an |ord_noad|@>; -@<Make a second pass over the mlist, removing all noads and inserting the proper spacing -and penalties@>; -} - -@ We use the fact that no character nodes appear in an mlist, hence -the field |type(q)| is always present. - -@<Process node-or-noad...@>= -{@+@<Do first-pass processing based on |type(q)|; |goto done_with_noad| if a noad -has been fully processed, |goto check_dimensions| if it has been translated into |new_hlist(q)|, -or |goto done_with_node| if a node has been fully processed@>; -check_dimensions: z=hpack(new_hlist(q), natural); -if (height(z) > max_h) max_h=height(z); -if (depth(z) > max_d) max_d=depth(z); -list_ptr(z)=null; flush_node_list(z); -done_with_noad: r=q;r_type=type(r); -if (r_type==right_noad) - {@+r_type=left_noad;cur_style=style;@<Set up the values...@>; - } -done_with_node: q=link(q); -} - -@ One of the things we must do on the first pass is change a |bin_noad| to -an |ord_noad| if the |bin_noad| is not in the context of a binary operator. -The values of |r| and |r_type| make this fairly easy. - -@<Do first-pass processing...@>= -reswitch: delta=0; -switch (type(q)) { -case bin_noad: switch (r_type) { - case bin_noad: case op_noad: case rel_noad: case open_noad: case punct_noad: case left_noad: - {@+type(q)=ord_noad;goto reswitch; - } - default:do_nothing; - } @+break; -case rel_noad: case close_noad: case punct_noad: case right_noad: {@+@t@>@;@/ - @<Convert \(a)a final |bin_noad| to an |ord_noad|@>; - if (type(q)==right_noad) goto done_with_noad; - } @+break; -@t\4@>@<Cases for noads that can follow a |bin_noad|@>@; -@t\4@>@<Cases for nodes that can appear in an mlist, after which we |goto done_with_node|@>@; -default:confusion("mlist1"); -@:this can't happen mlist1}{\quad mlist1@> -} @/ -@<Convert \(n)|nucleus(q)| to an hlist and attach the sub/superscripts@>@; - -@ @<Convert \(a)a final |bin_noad| to an |ord_noad|@>= -if (r_type==bin_noad) type(r)=ord_noad - -@ @<Cases for nodes that can appear in an mlist...@>= -case style_node: {@+cur_style=subtype(q); - @<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; - goto done_with_node; - } -case choice_node: @<Change this node to a style node followed by the correct choice, -then |goto done_with_node|@>@; -case ins_node: case mark_node: case adjust_node: - case whatsit_node: case penalty_node: case disc_node: goto done_with_node; -case rule_node: {@+if (height(q) > max_h) max_h=height(q); - if (depth(q) > max_d) max_d=depth(q);goto done_with_node; - } -case glue_node: {@+@<Convert \(m)math glue to ordinary glue@>; - goto done_with_node; - } -case kern_node: {@+math_kern(q, cur_mu);goto done_with_node; - } - -@ @d choose_mlist(A) {@+p=A(q);A(q)=null;@+} - -@<Change this node to a style node...@>= -{@+switch (cur_style/2) { -case 0: choose_mlist(display_mlist)@;@+break; /*|display_style==0|*/ -case 1: choose_mlist(text_mlist)@;@+break; /*|text_style==2|*/ -case 2: choose_mlist(script_mlist)@;@+break; /*|script_style==4|*/ -case 3: choose_mlist(script_script_mlist); /*|script_script_style==6|*/ -} /*there are no other cases*/ -flush_node_list(display_mlist(q)); -flush_node_list(text_mlist(q)); -flush_node_list(script_mlist(q)); -flush_node_list(script_script_mlist(q));@/ -type(q)=style_node;subtype(q)=cur_style;width(q)=0;depth(q)=0; -if (p!=null) - {@+z=link(q);link(q)=p; - while (link(p)!=null) p=link(p); - link(p)=z; - } -goto done_with_node; -} - -@ Conditional math glue (`\.{\\nonscript}') results in a |glue_node| -pointing to |zero_glue|, with |subtype(q)==cond_math_glue|; in such a case -the node following will be eliminated if it is a glue or kern node and if the -current size is different from |text_size|. Unconditional math glue -(`\.{\\muskip}') is converted to normal glue by multiplying the dimensions -by |cur_mu|. -@!@:non\_script\_}{\.{\\nonscript} primitive@> - -@<Convert \(m)math glue to ordinary glue@>= -if (subtype(q)==mu_glue) - {@+x=glue_ptr(q); - y=math_glue(x, cur_mu);delete_glue_ref(x);glue_ptr(q)=y; - subtype(q)=normal; - } -else if ((cur_size!=text_size)&&(subtype(q)==cond_math_glue)) - {@+p=link(q); - if (p!=null) if ((type(p)==glue_node)||(type(p)==kern_node)) - {@+link(q)=link(p);link(p)=null;flush_node_list(p); - } - } - -@ @<Cases for noads that can follow a |bin_noad|@>= -case left_noad: goto done_with_noad; -case fraction_noad: {@+make_fraction(q);goto check_dimensions; - } -case op_noad: {@+delta=make_op(q); - if (subtype(q)==limits) goto check_dimensions; - } @+break; -case ord_noad: make_ord(q);@+break; -case open_noad: case inner_noad: do_nothing;@+break; -case radical_noad: make_radical(q);@+break; -case over_noad: make_over(q);@+break; -case under_noad: make_under(q);@+break; -case accent_noad: make_math_accent(q);@+break; -case vcenter_noad: make_vcenter(q);@+break; - -@ Most of the actual construction work of |mlist_to_hlist| is done -by procedures with names -like |make_fraction|, |make_radical|, etc. To illustrate -the general setup of such procedures, let's begin with a couple of -simple ones. - -@<Declare math...@>= -static void make_over(pointer @!q) -{@+info(nucleus(q))=@| - overbar(clean_box(nucleus(q), cramped_style(cur_style)),@| - 3*default_rule_thickness, default_rule_thickness); -math_type(nucleus(q))=sub_box; -} - -@ @<Declare math...@>= -static void make_under(pointer @!q) -{@+pointer p, @!x, @!y; /*temporary registers for box construction*/ -scaled @!delta; /*overall height plus depth*/ -x=clean_box(nucleus(q), cur_style); -p=new_kern(3*default_rule_thickness);link(x)=p; -link(p)=fraction_rule(default_rule_thickness); -y=vpack(x, natural); -delta=height(y)+depth(y)+default_rule_thickness; -height(y)=height(x);depth(y)=delta-height(y); -info(nucleus(q))=y;math_type(nucleus(q))=sub_box; -} - -@ @<Declare math...@>= -static void make_vcenter(pointer @!q) -{@+pointer v; /*the box that should be centered vertically*/ -scaled @!delta; /*its height plus depth*/ -v=info(nucleus(q)); -if (type(v)!=vlist_node) confusion("vcenter"); -@:this can't happen vcenter}{\quad vcenter@> -delta=height(v)+depth(v); -height(v)=axis_height(cur_size)+half(delta); -depth(v)=delta-height(v); -} - -@ According to the rules in the \.{DVI} file specifications, we ensure alignment -@^square roots@> -between a square root sign and the rule above its nucleus by assuming that the -baseline of the square-root symbol is the same as the bottom of the rule. The -height of the square-root symbol will be the thickness of the rule, and the -depth of the square-root symbol should exceed or equal the height-plus-depth -of the nucleus plus a certain minimum clearance~|clr|. The symbol will be -placed so that the actual clearance is |clr| plus half the excess. - -@<Declare math...@>= -static void make_radical(pointer @!q) -{@+pointer x, @!y; /*temporary registers for box construction*/ -scaled @!delta, @!clr; /*dimensions involved in the calculation*/ -x=clean_box(nucleus(q), cramped_style(cur_style)); -if (cur_style < text_style) /*display style*/ - clr=default_rule_thickness+(abs(math_x_height(cur_size))/4); -else{@+clr=default_rule_thickness;clr=clr+(abs(clr)/4); - } -y=var_delimiter(left_delimiter(q), cur_size, height(x)+depth(x)+clr+ - default_rule_thickness); -delta=depth(y)-(height(x)+depth(x)+clr); -if (delta > 0) clr=clr+half(delta); /*increase the actual clearance*/ -shift_amount(y)=-(height(x)+clr); -link(y)=overbar(x, clr, height(y)); -info(nucleus(q))=hpack(y, natural);math_type(nucleus(q))=sub_box; -} - -@ Slants are not considered when placing accents in math mode. The accenter is -centered over the accentee, and the accent width is treated as zero with -respect to the size of the final box. - -@<Declare math...@>= -static void make_math_accent(pointer @!q) -{@+ -pointer p, @!x, @!y; /*temporary registers for box construction*/ -int @!a; /*address of lig/kern instruction*/ -quarterword @!c; /*accent character*/ -internal_font_number @!f; /*its font*/ -four_quarters @!i; /*its |char_info|*/ -scaled @!s; /*amount to skew the accent to the right*/ -scaled @!h; /*height of character being accented*/ -scaled @!delta; /*space to remove between accent and accentee*/ -scaled @!w; /*width of the accentee, not including sub/superscripts*/ -fetch(accent_chr(q)); -if (char_exists(cur_i)) - {@+i=cur_i;c=cur_c;f=cur_f;@/ - @<Compute the amount of skew@>; - x=clean_box(nucleus(q), cramped_style(cur_style));w=width(x);h=height(x); - @<Switch to a larger accent if available and appropriate@>; - if (h < x_height(f)) delta=h;@+else delta=x_height(f); - if ((math_type(supscr(q))!=empty)||(math_type(subscr(q))!=empty)) - if (math_type(nucleus(q))==math_char) - @<Swap the subscript and superscript into box |x|@>; - y=char_box(f, c); - shift_amount(y)=s+half(w-width(y)); - width(y)=0;p=new_kern(-delta);link(p)=x;link(y)=p; - y=vpack(y, natural);width(y)=width(x); - if (height(y) < h) @<Make the height of box |y| equal to |h|@>; - info(nucleus(q))=y; - math_type(nucleus(q))=sub_box; - } -} - -@ @<Make the height of box |y|...@>= -{@+p=new_kern(h-height(y));link(p)=list_ptr(y);list_ptr(y)=p; -height(y)=h; -} - -@ @<Switch to a larger accent if available and appropriate@>= -loop@+{@+if (char_tag(i)!=list_tag) goto done; - y=rem_byte(i); - i=char_info(f, y); - if (!char_exists(i)) goto done; - if (char_width(f, i) > w) goto done; - c=y; - } -done: - -@ @<Compute the amount of skew@>= -s=0; -if (math_type(nucleus(q))==math_char) - {@+fetch(nucleus(q)); - if (char_tag(cur_i)==lig_tag) - {@+a=lig_kern_start(cur_f, cur_i); - cur_i=font_info[a].qqqq; - if (skip_byte(cur_i) > stop_flag) - {@+a=lig_kern_restart(cur_f, cur_i); - cur_i=font_info[a].qqqq; - } - loop@+{@+if (qo(next_char(cur_i))==skew_char[cur_f]) - {@+if (op_byte(cur_i) >= kern_flag) - if (skip_byte(cur_i) <= stop_flag) s=char_kern(cur_f, cur_i); - goto done1; - } - if (skip_byte(cur_i) >= stop_flag) goto done1; - a=a+qo(skip_byte(cur_i))+1; - cur_i=font_info[a].qqqq; - } - } - } -done1: - -@ @<Swap the subscript and superscript into box |x|@>= -{@+flush_node_list(x);x=new_noad(); -mem[nucleus(x)]=mem[nucleus(q)]; -mem[supscr(x)]=mem[supscr(q)]; -mem[subscr(x)]=mem[subscr(q)];@/ -mem[supscr(q)].hh=empty_field; -mem[subscr(q)].hh=empty_field;@/ -math_type(nucleus(q))=sub_mlist;info(nucleus(q))=x; -x=clean_box(nucleus(q), cur_style);delta=delta+height(x)-h;h=height(x); -} - -@ The |make_fraction| procedure is a bit different because it sets -|new_hlist(q)| directly rather than making a sub-box. - -@<Declare math...@>= -static void make_fraction(pointer @!q) -{@+pointer p, @!v, @!x, @!y, @!z; /*temporary registers for box construction*/ -scaled @!delta, @!delta1, @!delta2, @!shift_up, @!shift_down, @!clr; - /*dimensions for box calculations*/ -if (thickness(q)==default_code) thickness(q)=default_rule_thickness; -@<Create equal-width boxes |x| and |z| for the numerator and denominator, and compute -the default amounts |shift_up| and |shift_down| by which they are displaced from the -baseline@>; -if (thickness(q)==0) @<Adjust \(s)|shift_up| and |shift_down| for the case of no fraction -line@>@; -else@<Adjust \(s)|shift_up| and |shift_down| for the case of a fraction line@>; -@<Construct a vlist box for the fraction, according to |shift_up| and |shift_down|@>; -@<Put the \(f)fraction into a box with its delimiters, and make |new_hlist(q)| point -to it@>; -} - -@ @<Create equal-width boxes |x| and |z| for the numerator and denom...@>= -x=clean_box(numerator(q), num_style(cur_style)); -z=clean_box(denominator(q), denom_style(cur_style)); -if (width(x) < width(z)) x=rebox(x, width(z)); -else z=rebox(z, width(x)); -if (cur_style < text_style) /*display style*/ - {@+shift_up=num1(cur_size);shift_down=denom1(cur_size); - } -else{@+shift_down=denom2(cur_size); - if (thickness(q)!=0) shift_up=num2(cur_size); - else shift_up=num3(cur_size); - } - -@ The numerator and denominator must be separated by a certain minimum -clearance, called |clr| in the following program. The difference between -|clr| and the actual clearance is twice |delta|. - -@<Adjust \(s)|shift_up| and |shift_down| for the case of no fraction line@>= -{@+if (cur_style < text_style) clr=7*default_rule_thickness; -else clr=3*default_rule_thickness; -delta=half(clr-((shift_up-depth(x))-(height(z)-shift_down))); -if (delta > 0) - {@+shift_up=shift_up+delta; - shift_down=shift_down+delta; - } -} - -@ In the case of a fraction line, the minimum clearance depends on the actual -thickness of the line. - -@<Adjust \(s)|shift_up| and |shift_down| for the case of a fraction line@>= -{@+if (cur_style < text_style) clr=3*thickness(q); -else clr=thickness(q); -delta=half(thickness(q)); -delta1=clr-((shift_up-depth(x))-(axis_height(cur_size)+delta)); -delta2=clr-((axis_height(cur_size)-delta)-(height(z)-shift_down)); -if (delta1 > 0) shift_up=shift_up+delta1; -if (delta2 > 0) shift_down=shift_down+delta2; -} - -@ @<Construct a vlist box for the fraction...@>= -v=new_null_box();type(v)=vlist_node; -height(v)=shift_up+height(x);depth(v)=depth(z)+shift_down; -width(v)=width(x); /*this also equals |width(z)|*/ -if (thickness(q)==0) - {@+p=new_kern((shift_up-depth(x))-(height(z)-shift_down)); - link(p)=z; - } -else{@+y=fraction_rule(thickness(q));@/ - p=new_kern((axis_height(cur_size)-delta)-@|(height(z)-shift_down));@/ - link(y)=p;link(p)=z;@/ - p=new_kern((shift_up-depth(x))-(axis_height(cur_size)+delta)); - link(p)=y; - } -link(x)=p;list_ptr(v)=x - -@ @<Put the \(f)fraction into a box with its delimiters...@>= -if (cur_style < text_style) delta=delim1(cur_size); -else delta=delim2(cur_size); -x=var_delimiter(left_delimiter(q), cur_size, delta);link(x)=v;@/ -z=var_delimiter(right_delimiter(q), cur_size, delta);link(v)=z;@/ -new_hlist(q)=hpack(x, natural) - -@ If the nucleus of an |op_noad| is a single character, it is to be -centered vertically with respect to the axis, after first being enlarged -(via a character list in the font) if we are in display style. The normal -convention for placing displayed limits is to put them above and below the -operator in display style. - -The italic correction is removed from the character if there is a subscript -and the limits are not being displayed. The |make_op| -routine returns the value that should be used as an offset between -subscript and superscript. - -After |make_op| has acted, |subtype(q)| will be |limits| if and only if -the limits have been set above and below the operator. In that case, -|new_hlist(q)| will already contain the desired final box. - -@<Declare math...@>= -static scaled make_op(pointer @!q) -{@+scaled delta; /*offset between subscript and superscript*/ -pointer @!p, @!v, @!x, @!y, @!z; /*temporary registers for box construction*/ -quarterword @!c;@+four_quarters @!i; /*registers for character examination*/ -scaled @!shift_up, @!shift_down; /*dimensions for box calculation*/ -if ((subtype(q)==normal)&&(cur_style < text_style)) - subtype(q)=limits; -if (math_type(nucleus(q))==math_char) - {@+fetch(nucleus(q)); - if ((cur_style < text_style)&&(char_tag(cur_i)==list_tag)) /*make it larger*/ - {@+c=rem_byte(cur_i);i=char_info(cur_f, c); - if (char_exists(i)) - {@+cur_c=c;cur_i=i;character(nucleus(q))=c; - } - } - delta=char_italic(cur_f, cur_i);x=clean_box(nucleus(q), cur_style); - if ((math_type(subscr(q))!=empty)&&(subtype(q)!=limits)) - width(x)=width(x)-delta; /*remove italic correction*/ - shift_amount(x)=half(height(x)-depth(x))-axis_height(cur_size); - /*center vertically*/ - math_type(nucleus(q))=sub_box;info(nucleus(q))=x; - } -else delta=0; -if (subtype(q)==limits) - @<Construct a box with limits above and below it, skewed by |delta|@>; -return delta; -} - -@ The following program builds a vlist box |v| for displayed limits. The -width of the box is not affected by the fact that the limits may be skewed. - -@<Construct a box with limits above and below it...@>= -{@+x=clean_box(supscr(q), sup_style(cur_style)); -y=clean_box(nucleus(q), cur_style); -z=clean_box(subscr(q), sub_style(cur_style)); -v=new_null_box();type(v)=vlist_node;width(v)=width(y); -if (width(x) > width(v)) width(v)=width(x); -if (width(z) > width(v)) width(v)=width(z); -x=rebox(x, width(v));y=rebox(y, width(v));z=rebox(z, width(v));@/ -shift_amount(x)=half(delta);shift_amount(z)=-shift_amount(x); -height(v)=height(y);depth(v)=depth(y); -@<Attach the limits to |y| and adjust |height(v)|, |depth(v)| to account for their -presence@>; -new_hlist(q)=v; -} - -@ We use |shift_up| and |shift_down| in the following program for the -amount of glue between the displayed operator |y| and its limits |x| and -|z|. The vlist inside box |v| will consist of |x| followed by |y| followed -by |z|, with kern nodes for the spaces between and around them. - -@<Attach the limits to |y| and adjust |height(v)|, |depth(v)|...@>= -if (math_type(supscr(q))==empty) - {@+list_ptr(x)=null; flush_node_list(x);list_ptr(v)=y; - } -else{@+shift_up=big_op_spacing3-depth(x); - if (shift_up < big_op_spacing1) shift_up=big_op_spacing1; - p=new_kern(shift_up);link(p)=y;link(x)=p;@/ - p=new_kern(big_op_spacing5);link(p)=x;list_ptr(v)=p; - height(v)=height(v)+big_op_spacing5+height(x)+depth(x)+shift_up; - } -if (math_type(subscr(q))==empty)@/ - {@+list_ptr(z)=null;@+flush_node_list(z);@+} -else{@+shift_down=big_op_spacing4-height(z); - if (shift_down < big_op_spacing2) shift_down=big_op_spacing2; - p=new_kern(shift_down);link(y)=p;link(p)=z;@/ - p=new_kern(big_op_spacing5);link(z)=p; - depth(v)=depth(v)+big_op_spacing5+height(z)+depth(z)+shift_down; - } - -@ A ligature found in a math formula does not create a |ligature_node|, because -there is no question of hyphenation afterwards; the ligature will simply be -stored in an ordinary |char_node|, after residing in an |ord_noad|. - -The |math_type| is converted to |math_text_char| here if we would not want to -apply an italic correction to the current character unless it belongs -to a math font (i.e., a font with |space==0|). - -No boundary characters enter into these ligatures. - -@<Declare math...@>= -static void make_ord(pointer @!q) -{@+ -int a; /*address of lig/kern instruction*/ -pointer @!p, @!r; /*temporary registers for list manipulation*/ -restart: @t@>@;@/ -if (math_type(subscr(q))==empty) if (math_type(supscr(q))==empty) - if (math_type(nucleus(q))==math_char) - {@+p=link(q); - if (p!=null) if ((type(p) >= ord_noad)&&(type(p) <= punct_noad)) - if (math_type(nucleus(p))==math_char) - if (fam(nucleus(p))==fam(nucleus(q))) - {@+math_type(nucleus(q))=math_text_char; - fetch(nucleus(q)); - if (char_tag(cur_i)==lig_tag) - {@+a=lig_kern_start(cur_f, cur_i); - cur_c=character(nucleus(p)); - cur_i=font_info[a].qqqq; - if (skip_byte(cur_i) > stop_flag) - {@+a=lig_kern_restart(cur_f, cur_i); - cur_i=font_info[a].qqqq; - } - loop@+{@+@<If instruction |cur_i| is a kern with |cur_c|, attach the kern -after~|q|; or if it is a ligature with |cur_c|, combine noads |q| and~|p| appropriately; -then |return| if the cursor has moved past a noad, or |goto restart|@>; - if (skip_byte(cur_i) >= stop_flag) return; - a=a+qo(skip_byte(cur_i))+1; - cur_i=font_info[a].qqqq; - } - } - } - } -} - -@ Note that a ligature between an |ord_noad| and another kind of noad -is replaced by an |ord_noad|, when the two noads collapse into one. -But we could make a parenthesis (say) change shape when it follows -certain letters. Presumably a font designer will define such -ligatures only when this convention makes sense. - -\chardef\@@='174 % vertical line to indicate character retention - -@<If instruction |cur_i| is a kern with |cur_c|,...@>= -if (next_char(cur_i)==cur_c) if (skip_byte(cur_i) <= stop_flag) - if (op_byte(cur_i) >= kern_flag) - {@+p=new_kern(char_kern(cur_f, cur_i)); - link(p)=link(q);link(q)=p;return; - } - else{@+check_interrupt; /*allow a way out of infinite ligature loop*/ - switch (op_byte(cur_i)) { - case qi(1): case qi(5): character(nucleus(q))=rem_byte(cur_i);@+break; /*\.{=:\@@}, \.{=:\@@>}*/ - case qi(2): case qi(6): character(nucleus(p))=rem_byte(cur_i);@+break; /*\.{\@@=:}, \.{\@@=:>}*/ - case qi(3): case qi(7): case qi(11): {@+r=new_noad(); /*\.{\@@=:\@@}, \.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ - character(nucleus(r))=rem_byte(cur_i); - fam(nucleus(r))=fam(nucleus(q));@/ - link(q)=r;link(r)=p; - if (op_byte(cur_i) < qi(11)) math_type(nucleus(r))=math_char; - else math_type(nucleus(r))=math_text_char; /*prevent combination*/ - } @+break; - default:{@+link(q)=link(p); - character(nucleus(q))=rem_byte(cur_i); /*\.{=:}*/ - mem[subscr(q)]=mem[subscr(p)];mem[supscr(q)]=mem[supscr(p)];@/ - free_node(p, noad_size); - } - } - if (op_byte(cur_i) > qi(3)) return; - math_type(nucleus(q))=math_char;goto restart; - } - -@ When we get to the following part of the program, we have ``fallen through'' -from cases that did not lead to |check_dimensions| or |done_with_noad| or -|done_with_node|. Thus, |q|~points to a noad whose nucleus may need to be -converted to an hlist, and whose subscripts and superscripts need to be -appended if they are present. - -If |nucleus(q)| is not a |math_char|, the variable |delta| is the amount -by which a superscript should be moved right with respect to a subscript -when both are present. -@^subscripts@> -@^superscripts@> - -@<Convert \(n)|nucleus(q)| to an hlist and attach the sub/superscripts@>= -switch (math_type(nucleus(q))) { -case math_char: case math_text_char: - @<Create a character node |p| for |nucleus(q)|, possibly followed by a kern node -for the italic correction, and set |delta| to the italic correction if a subscript -is present@>@;@+break; -case empty: p=null;@+break; -case sub_box: p=info(nucleus(q));@+break; -case sub_mlist: {@+cur_mlist=info(nucleus(q));save_style=cur_style; - mlist_penalties=false;mlist_to_hlist(); /*recursive call*/ -@^recursion@> - cur_style=save_style;@<Set up the values...@>; - p=hpack(link(temp_head), natural); - } @+break; -default:confusion("mlist2"); -@:this can't happen mlist2}{\quad mlist2@> -} @/ -new_hlist(q)=p; -if ((math_type(subscr(q))==empty)&&(math_type(supscr(q))==empty)) - goto check_dimensions; -make_scripts(q, delta) - -@ @<Create a character node |p| for |nucleus(q)|...@>= -{@+fetch(nucleus(q)); -if (char_exists(cur_i)) - {@+delta=char_italic(cur_f, cur_i);p=new_character(cur_f, qo(cur_c)); - if ((math_type(nucleus(q))==math_text_char)&&(space(cur_f)!=0)) - delta=0; /*no italic correction in mid-word of text font*/ - if ((math_type(subscr(q))==empty)&&(delta!=0)) - {@+link(p)=new_kern(delta);delta=0; - } - } -else p=null; -} - -@ The purpose of |make_scripts(q, delta)| is to attach the subscript and/or -superscript of noad |q| to the list that starts at |new_hlist(q)|, -given that the subscript and superscript aren't both empty. The superscript -will appear to the right of the subscript by a given distance |delta|. - -We set |shift_down| and |shift_up| to the minimum amounts to shift the -baseline of subscripts and superscripts based on the given nucleus. - -@<Declare math...@>= -static void make_scripts(pointer @!q, scaled @!delta) -{@+pointer p, @!x, @!y, @!z; /*temporary registers for box construction*/ -scaled @!shift_up, @!shift_down, @!clr; /*dimensions in the calculation*/ -small_number @!t; /*subsidiary size code*/ -p=new_hlist(q); -if (is_char_node(p)) - {@+shift_up=0;shift_down=0; - } -else{@+z=hpack(p, natural); - if (cur_style < script_style) t=script_size;@+else t=script_script_size; - shift_up=height(z)-sup_drop(t); - shift_down=depth(z)+sub_drop(t); - list_ptr(z)=null;flush_node_list(z); - } -if (math_type(supscr(q))==empty) - @<Construct a subscript box |x| when there is no superscript@>@; -else{@+@<Construct a superscript box |x|@>; - if (math_type(subscr(q))==empty) shift_amount(x)=-shift_up; - else@<Construct a sub/superscript combination box |x|, with the superscript offset -by |delta|@>; - } -if (new_hlist(q)==null) new_hlist(q)=x; -else{@+p=new_hlist(q); - while (link(p)!=null) p=link(p); - link(p)=x; - } -} - -@ When there is a subscript without a superscript, the top of the subscript -should not exceed the baseline plus four-fifths of the x-height. - -@<Construct a subscript box |x| when there is no superscript@>= -{@+x=clean_box(subscr(q), sub_style(cur_style)); -width(x)=width(x)+script_space; -if (shift_down < sub1(cur_size)) shift_down=sub1(cur_size); -clr=height(x)-(abs(math_x_height(cur_size)*4)/5); -if (shift_down < clr) shift_down=clr; -shift_amount(x)=shift_down; -} - -@ The bottom of a superscript should never descend below the baseline plus -one-fourth of the x-height. - -@<Construct a superscript box |x|@>= -{@+x=clean_box(supscr(q), sup_style(cur_style)); -width(x)=width(x)+script_space; -if (odd(cur_style)) clr=sup3(cur_size); -else if (cur_style < text_style) clr=sup1(cur_size); -else clr=sup2(cur_size); -if (shift_up < clr) shift_up=clr; -clr=depth(x)+(abs(math_x_height(cur_size))/4); -if (shift_up < clr) shift_up=clr; -} - -@ When both subscript and superscript are present, the subscript must be -separated from the superscript by at least four times |default_rule_thickness|. -If this condition would be violated, the subscript moves down, after which -both subscript and superscript move up so that the bottom of the superscript -is at least as high as the baseline plus four-fifths of the x-height. - -@<Construct a sub/superscript combination box |x|...@>= -{@+y=clean_box(subscr(q), sub_style(cur_style)); -width(y)=width(y)+script_space; -if (shift_down < sub2(cur_size)) shift_down=sub2(cur_size); -clr=4*default_rule_thickness- - ((shift_up-depth(x))-(height(y)-shift_down)); -if (clr > 0) - {@+shift_down=shift_down+clr; - clr=(abs(math_x_height(cur_size)*4)/5)-(shift_up-depth(x)); - if (clr > 0) - {@+shift_up=shift_up+clr; - shift_down=shift_down-clr; - } - } -shift_amount(x)=delta; /*superscript is |delta| to the right of the subscript*/ -p=new_kern((shift_up-depth(x))-(height(y)-shift_down));link(x)=p;link(p)=y; -x=vpack(x, natural);shift_amount(x)=shift_down; -} - -@ We have now tied up all the loose ends of the first pass of |mlist_to_hlist|. -The second pass simply goes through and hooks everything together with the -proper glue and penalties. It also handles the |left_noad| and |right_noad| that -might be present, since |max_h| and |max_d| are now known. Variable |p| points -to a node at the current end of the final hlist. - -@<Make a second pass over the mlist,...@>= -p=temp_head;link(p)=null;q=mlist;r_type=0;cur_style=style; -@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; -while (q!=null) - {@+@<If node |q| is a style node, change the style and |goto delete_q|; otherwise -if it is not a noad, put it into the hlist, advance |q|, and |goto done|; otherwise -set |s| to the size of noad |q|, set |t| to the associated type (|ord_noad.. inner_noad|), -and set |pen| to the associated penalty@>; - @<Append inter-element spacing based on |r_type| and |t|@>; - @<Append any |new_hlist| entries for |q|, and any appropriate penalties@>; - if (type(q)==right_noad) t=open_noad; - r_type=t; - delete_q: r=q;q=link(q);free_node(r, s); - done: ;} - -@ Just before doing the big |case| switch in the second pass, the program -sets up default values so that most of the branches are short. - -@<If node |q| is a style node, change the style...@>= -t=ord_noad;s=noad_size;pen=inf_penalty; -switch (type(q)) { -case op_noad: case open_noad: case close_noad: case punct_noad: case inner_noad: t=type(q);@+break; -case bin_noad: {@+t=bin_noad;pen=bin_op_penalty; - } @+break; -case rel_noad: {@+t=rel_noad;pen=rel_penalty; - } @+break; -case ord_noad: case vcenter_noad: case over_noad: case under_noad: do_nothing;@+break; -case radical_noad: s=radical_noad_size;@+break; -case accent_noad: s=accent_noad_size;@+break; -case fraction_noad: s=fraction_noad_size;@+break; -case left_noad: case right_noad: t=make_left_right(q, style, max_d, max_h);@+break; -case style_node: @<Change the current style and |goto delete_q|@>@; -case whatsit_node: case penalty_node: case rule_node: case disc_node: case adjust_node: case ins_node: case mark_node: - case glue_node: case kern_node: @t@>@;@/ - {@+link(p)=q;p=q;q=link(q);link(p)=null;goto done; - } -default:confusion("mlist3"); -@:this can't happen mlist3}{\quad mlist3@> -} - -@ The |make_left_right| function constructs a left or right delimiter of -the required size and returns the value |open_noad| or |close_noad|. The -|right_noad| and |left_noad| will both be based on the original |style|, -so they will have consistent sizes. - -We use the fact that |right_noad-left_noad==close_noad-open_noad|. - -@<Declare math...@>= -static small_number make_left_right(pointer @!q, small_number @!style, - scaled @!max_d, scaled @!max_h) -{@+scaled delta, @!delta1, @!delta2; /*dimensions used in the calculation*/ -cur_style=style;@<Set up the values...@>; -delta2=max_d+axis_height(cur_size); -delta1=max_h+max_d-delta2; -if (delta2 > delta1) delta1=delta2; /*|delta1| is max distance from axis*/ -delta=(delta1/500)*delimiter_factor; -delta2=delta1+delta1-delimiter_shortfall; -if (delta < delta2) delta=delta2; -new_hlist(q)=var_delimiter(delimiter(q), cur_size, delta); -return type(q)-(left_noad-open_noad); /*|open_noad| or |close_noad|*/ -} - -@ @<Change the current style and |goto delete_q|@>= -{@+cur_style=subtype(q);s=style_node_size; -@<Set up the values of |cur_size| and |cur_mu|, based on |cur_style|@>; -goto delete_q; -} - -@ The inter-element spacing in math formulas depends on an $8\times8$ table that -\TeX\ preloads as a 64-digit string. The elements of this string have the -following significance: -$$\vbox{\halign{#\hfil\cr -\.0 means no space;\cr -\.1 means a conditional thin space (\.{\\nonscript\\mskip\\thinmuskip});\cr -\.2 means a thin space (\.{\\mskip\\thinmuskip});\cr -\.3 means a conditional medium space - (\.{\\nonscript\\mskip\\medmuskip});\cr -\.4 means a conditional thick space - (\.{\\nonscript\\mskip\\thickmuskip});\cr -\.* means an impossible case.\cr}}$$ -This is all pretty cryptic, but {\sl The \TeX book\/} explains what is -supposed to happen, and the string makes it happen. -@:TeXbook}{\sl The \TeX book@> - -A global variable |magic_offset| is computed so that if |a| and |b| are -in the range |ord_noad dotdot inner_noad|, then |str_pool[a*8+b+magic_offset]| -is the digit for spacing between noad types |a| and |b|. - -If \PASCAL\ had provided a good way to preload constant arrays, this part of -the program would not have been so strange. -@:PASCAL}{\PASCAL@> - -@d math_spacing @;@/ -@t\hskip-35pt@> -"0234000122*4000133**3**344*0400400*000000234000111*1111112341011" -@t$ \hskip-35pt$@> - -@ @<Glob...@>= -static const int @!magic_offset=-9*ord_noad; /*used to find inter-element spacing*/ - -@ @<Append inter-element spacing based on |r_type| and |t|@>= -if (r_type > 0) /*not the first noad*/ - {@+switch (so(math_spacing[r_type*8+t+magic_offset])) { - case '0': x=0;@+break; - case '1': if (cur_style < script_style) x=thin_mu_skip_code;@+else x=0;@+break; - case '2': x=thin_mu_skip_code;@+break; - case '3': if (cur_style < script_style) x=med_mu_skip_code;@+else x=0;@+break; - case '4': if (cur_style < script_style) x=thick_mu_skip_code;@+else x=0;@+break; - default:confusion("mlist4"); -@:this can't happen mlist4}{\quad mlist4@> - } - if (x!=0) - {@+y=math_glue(glue_par(x), cur_mu); - z=new_glue(y);glue_ref_count(y)=null;link(p)=z;p=z;@/ - subtype(z)=x+1; /*store a symbolic subtype*/ - } - } - -@ We insert a penalty node after the hlist entries of noad |q| if |pen| -is not an ``infinite'' penalty, and if the node immediately following |q| -is not a penalty node or a |rel_noad| or absent entirely. - -@<Append any |new_hlist| entries for |q|, and any appropriate penalties@>= -if (new_hlist(q)!=null) - {@+link(p)=new_hlist(q); - @/do@+{p=link(p); - }@+ while (!(link(p)==null)); - } -if (penalties) if (link(q)!=null) if (pen < inf_penalty) - {@+r_type=type(link(q)); - if (r_type!=penalty_node) if (r_type!=rel_noad) - {@+z=new_penalty(pen);link(p)=z;p=z; - } - } - -@* Alignment. -It's sort of a miracle whenever \.{\\halign} and \.{\\valign} work, because -they cut across so many of the control structures of \TeX. - -Therefore the -present page is probably not the best place for a beginner to start reading -this program; it is better to master everything else first. - -Let us focus our thoughts on an example of what the input might be, in order -to get some idea about how the alignment miracle happens. The example doesn't -do anything useful, but it is sufficiently general to indicate all of the -special cases that must be dealt with; please do not be disturbed by its -apparent complexity and meaninglessness. -$$\vbox{\halign{\.{#}\hfil\cr -{}\\tabskip 2pt plus 3pt\cr -{}\\halign to 300pt\{u1\#v1\&\cr -\hskip 50pt\\tabskip 1pt plus 1fil u2\#v2\&\cr -\hskip 50pt u3\#v3\\cr\cr -\hskip 25pt a1\&\\omit a2\&\\vrule\\cr\cr -\hskip 25pt \\noalign\{\\vskip 3pt\}\cr -\hskip 25pt b1\\span b2\\cr\cr -\hskip 25pt \\omit\&c2\\span\\omit\\cr\}\cr}}$$ -Here's what happens: - -\yskip -(0) When `\.{\\halign to 300pt\{}' is scanned, the |scan_spec| routine -places the 300pt dimension onto the |save_stack|, and an |align_group| -code is placed above it. This will make it possible to complete the alignment -when the matching `\.\}' is found. - -(1) The preamble is scanned next. Macros in the preamble are not expanded, -@^preamble@> -except as part of a tabskip specification. For example, if \.{u2} had been -a macro in the preamble above, it would have been expanded, since \TeX\ -must look for `\.{minus...}' as part of the tabskip glue. A ``preamble list'' -is constructed based on the user's preamble; in our case it contains the -following seven items: -$$\vbox{\halign{\.{#}\hfil\qquad&(#)\hfil\cr -{}\\glue 2pt plus 3pt&the tabskip preceding column 1\cr -{}\\alignrecord, width $-\infty$&preamble info for column 1\cr -{}\\glue 2pt plus 3pt&the tabskip between columns 1 and 2\cr -{}\\alignrecord, width $-\infty$&preamble info for column 2\cr -{}\\glue 1pt plus 1fil&the tabskip between columns 2 and 3\cr -{}\\alignrecord, width $-\infty$&preamble info for column 3\cr -{}\\glue 1pt plus 1fil&the tabskip following column 3\cr}}$$ -These ``alignrecord'' entries have the same size as an |unset_node|, -since they will later be converted into such nodes. However, at the -moment they have no |type| or |subtype| fields; they have |info| fields -instead, and these |info| fields are initially set to the value |end_span|, -for reasons explained below. Furthermore, the alignrecord nodes have no -|height| or |depth| fields; these are renamed |u_part| and |v_part|, -and they point to token lists for the templates of the alignment. -For example, the |u_part| field in the first alignrecord points to the -token list `\.{u1}', i.e., the template preceding the `\.\#' for column~1. - -(2) \TeX\ now looks at what follows the \.{\\cr} that ended the preamble. -It is not `\.{\\noalign}' or `\.{\\omit}', so this input is put back to -be read again, and the template `\.{u1}' is fed to the scanner. Just -before reading `\.{u1}', \TeX\ goes into restricted horizontal mode. -Just after reading `\.{u1}', \TeX\ will see `\.{a1}', and then (when the -{\.\&} is sensed) \TeX\ will see `\.{v1}'. Then \TeX\ scans an |endv| -token, indicating the end of a column. At this point an |unset_node| is -created, containing the contents of the current hlist (i.e., `\.{u1a1v1}'). -The natural width of this unset node replaces the |width| field of the -alignrecord for column~1; in general, the alignrecords will record the -maximum natural width that has occurred so far in a given column. - -(3) Since `\.{\\omit}' follows the `\.\&', the templates for column~2 -are now bypassed. Again \TeX\ goes into restricted horizontal mode and -makes an |unset_node| from the resulting hlist; but this time the -hlist contains simply `\.{a2}'. The natural width of the new unset box -is remembered in the |width| field of the alignrecord for column~2. - -(4) A third |unset_node| is created for column 3, using essentially the -mechanism that worked for column~1; this unset box contains `\.{u3\\vrule -v3}'. The vertical rule in this case has running dimensions that will later -extend to the height and depth of the whole first row, since each |unset_node| -in a row will eventually inherit the height and depth of its enclosing box. - -(5) The first row has now ended; it is made into a single unset box -comprising the following seven items: -$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr -{}\\glue 2pt plus 3pt\cr -{}\\unsetbox for 1 column: u1a1v1\cr -{}\\glue 2pt plus 3pt\cr -{}\\unsetbox for 1 column: a2\cr -{}\\glue 1pt plus 1fil\cr -{}\\unsetbox for 1 column: u3\\vrule v3\cr -{}\\glue 1pt plus 1fil\cr}}$$ -The width of this unset row is unimportant, but it has the correct height -and depth, so the correct baselineskip glue will be computed as the row -is inserted into a vertical list. - -(6) Since `\.{\\noalign}' follows the current \.{\\cr}, \TeX\ appends -additional material (in this case \.{\\vskip 3pt}) to the vertical list. -While processing this material, \TeX\ will be in internal vertical -mode, and |no_align_group| will be on |save_stack|. - -(7) The next row produces an unset box that looks like this: -$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr -{}\\glue 2pt plus 3pt\cr -{}\\unsetbox for 2 columns: u1b1v1u2b2v2\cr -{}\\glue 1pt plus 1fil\cr -{}\\unsetbox for 1 column: {\rm(empty)}\cr -{}\\glue 1pt plus 1fil\cr}}$$ -The natural width of the unset box that spans columns 1~and~2 is stored -in a ``span node,'' which we will explain later; the |info| field of the -alignrecord for column~1 now points to the new span node, and the |info| -of the span node points to |end_span|. - -(8) The final row produces the unset box -$$\vbox{\halign{\hbox to 325pt{\qquad\.{#}\hfil}\cr -{}\\glue 2pt plus 3pt\cr -{}\\unsetbox for 1 column: {\rm(empty)}\cr -{}\\glue 2pt plus 3pt\cr -{}\\unsetbox for 2 columns: u2c2v2\cr -{}\\glue 1pt plus 1fil\cr}}$$ -A new span node is attached to the alignrecord for column 2. - -(9) The last step is to compute the true column widths and to change all the -unset boxes to hboxes, appending the whole works to the vertical list that -encloses the \.{\\halign}. The rules for deciding on the final widths of -each unset column box will be explained below. - -\yskip\noindent -Note that as \.{\\halign} is being processed, we fearlessly give up control -to the rest of \TeX. At critical junctures, an alignment routine is -called upon to step in and do some little action, but most of the time -these routines just lurk in the background. It's something like -post-hypnotic suggestion. - -@ We have mentioned that alignrecords contain no |height| or |depth| fields. -Their |glue_sign| and |glue_order| are pre-empted as well, since it -is necessary to store information about what to do when a template ends. -This information is called the |extra_info| field. - -@d u_part(A) mem[A+height_offset].i /*pointer to \<u_j> token list*/ -@d v_part(A) mem[A+depth_offset].i /*pointer to \<v_j> token list*/ -@d extra_info(A) info(A+list_offset) /*info to remember during template*/ - -@ Alignments can occur within alignments, so a small stack is used to access -the alignrecord information. At each level we have a |preamble| pointer, -indicating the beginning of the preamble list; a |cur_align| pointer, -indicating the current position in the preamble list; a |cur_span| pointer, -indicating the value of |cur_align| at the beginning of a sequence of -spanned columns; a |cur_loop| pointer, indicating the tabskip glue before -an alignrecord that should be copied next if the current list is extended; -and the |align_state| variable, which indicates the nesting of braces so -that \.{\\cr} and \.{\\span} and tab marks are properly intercepted. -There also are pointers |cur_head| and |cur_tail| to the head and tail -of a list of adjustments being moved out from horizontal mode to -vertical~mode. - -The current values of these seven quantities appear in global variables; -when they have to be pushed down, they are stored in 5-word nodes, and -|align_ptr| points to the topmost such node. - -@d preamble link(align_head) /*the current preamble list*/ -@d align_stack_node_size 5 /*number of |mem| words to save alignment states*/ - -@<Glob...@>= -static pointer @!cur_align; /*current position in preamble list*/ -static pointer @!cur_span; /*start of currently spanned columns in preamble list*/ -static pointer @!cur_loop; /*place to copy when extending a periodic preamble*/ -static pointer @!align_ptr; /*most recently pushed-down alignment stack node*/ -static pointer @!cur_head, @!cur_tail; /*adjustment list pointers*/ - -@ The |align_state| and |preamble| variables are initialized elsewhere. - -@<Set init...@>= -align_ptr=null;cur_align=null;cur_span=null;cur_loop=null; -cur_head=null;cur_tail=null; - -@ Alignment stack maintenance is handled by a pair of trivial routines -called |push_alignment| and |pop_alignment|. - -@p static void push_alignment(void) -{@+pointer p; /*the new alignment stack node*/ -p=get_node(align_stack_node_size); -link(p)=align_ptr;info(p)=cur_align; -llink(p)=preamble;rlink(p)=cur_span; -mem[p+2].i=cur_loop;mem[p+3].i=align_state; -info(p+4)=cur_head;link(p+4)=cur_tail; -align_ptr=p; -cur_head=get_avail(); -} -@# -static void pop_alignment(void) -{@+pointer p; /*the top alignment stack node*/ -free_avail(cur_head); -p=align_ptr; -cur_tail=link(p+4);cur_head=info(p+4); -align_state=mem[p+3].i;cur_loop=mem[p+2].i; -cur_span=rlink(p);preamble=llink(p); -cur_align=info(p);align_ptr=link(p); -free_node(p, align_stack_node_size); -} - -@ \TeX\ has eight procedures that govern alignments: |init_align| and -|fin_align| are used at the very beginning and the very end; |init_row| and -|fin_row| are used at the beginning and end of individual rows; |init_span| -is used at the beginning of a sequence of spanned columns (possibly involving -only one column); |init_col| and |fin_col| are used at the beginning and -end of individual columns; and |align_peek| is used after \.{\\cr} to see -whether the next item is \.{\\noalign}. - -We shall consider these routines in the order they are first used during -the course of a complete \.{\\halign}, namely |init_align|, |align_peek|, -|init_row|, |init_span|, |init_col|, |fin_col|, |fin_row|, |fin_align|. - -@ When \.{\\halign} or \.{\\valign} has been scanned in an appropriate -mode, \TeX\ calls |init_align|, whose task is to get everything off to a -good start. This mostly involves scanning the preamble and putting its -information into the preamble list. -@^preamble@> - -@p @t\4@>@<Declare the procedure called |get_preamble_token|@>@t@>@/ -static void align_peek(void);@/ -void normal_paragraph(void);@/ -static void init_align(void) -{@+ -pointer save_cs_ptr; /*|warning_index| value for error messages*/ -pointer @!p; /*for short-term temporary use*/ -save_cs_ptr=cur_cs; /*\.{\\halign} or \.{\\valign}, usually*/ -push_alignment();align_state=-1000000; /*enter a new alignment level*/ -@<Check for improper alignment in displayed math@>; -push_nest(); /*enter a new semantic level*/ -@<Change current mode to |-vmode| for \.{\\halign}, |-hmode| for \.{\\valign}@>; -scan_spec(align_group, false);@/ -@<Scan the preamble and record it in the |preamble| list@>; -new_save_level(align_group); -if (every_cr!=null) begin_token_list(every_cr, every_cr_text); -align_peek(); /*look for \.{\\noalign} or \.{\\omit}*/ -} - -@ In vertical modes, |prev_depth| already has the correct value. But -if we are in |mmode| (displayed formula mode), we reach out to the -enclosing vertical mode for the |prev_depth| value that produces the -correct baseline calculations. - -@<Change current mode...@>= -if (mode==mmode) - {@+mode=-vmode;prev_depth=nest[nest_ptr-2].aux_field.sc; - } -else if (mode > 0) negate(mode) - -@ When \.{\\halign} is used as a displayed formula, there should be -no other pieces of mlists present. - -@<Check for improper alignment in displayed math@>= -if ((mode==mmode)&&((tail!=head)||(incompleat_noad!=null))) - {@+print_err("Improper ");print_esc("halign");print(" inside $$'s"); -@.Improper \\halign...@> - help3("Displays can use special alignments (like \\eqalignno)",@/ - "only if nothing but the alignment itself is between $$'s.",@/ - "So I've deleted the formulas that preceded this alignment."); - error();flush_math(); - } - -@ @<Scan the preamble and record it in the |preamble| list@>= -preamble=null;cur_align=align_head;cur_loop=null;scanner_status=aligning; -warning_index=save_cs_ptr;align_state=-1000000; - /*at this point, |cur_cmd==left_brace|*/ -loop@+{@+@<Append the current tabskip glue to the preamble list@>; - if (cur_cmd==car_ret) goto done; /*\.{\\cr} ends the preamble*/ - @<Scan preamble text until |cur_cmd| is |tab_mark| or |car_ret|, looking for changes -in the tabskip glue; append an alignrecord to the preamble list@>; - } -done: scanner_status=normal - -@ @<Append the current tabskip glue to the preamble list@>= -link(cur_align)=new_param_glue(tab_skip_code); -cur_align=link(cur_align) - -@ @<Scan preamble text until |cur_cmd| is |tab_mark| or |car_ret|...@>= -@<Scan the template \<u_j>, putting the resulting token list in |hold_head|@>; -link(cur_align)=new_null_box();cur_align=link(cur_align); /*a new alignrecord*/ -info(cur_align)=end_span;width(cur_align)=null_flag; -u_part(cur_align)=link(hold_head); -@<Scan the template \<v_j>, putting the resulting token list in |hold_head|@>; -v_part(cur_align)=link(hold_head) - -@ We enter `\.{\\span}' into |eqtb| with |tab_mark| as its command code, -and with |span_code| as the command modifier. This makes \TeX\ interpret it -essentially the same as an alignment delimiter like `\.\&', yet it is -recognizably different when we need to distinguish it from a normal delimiter. -It also turns out to be useful to give a special |cr_code| to `\.{\\cr}', -and an even larger |cr_cr_code| to `\.{\\crcr}'. - -The end of a template is represented by two ``frozen'' control sequences -called \.{\\endtemplate}. The first has the command code |end_template|, which -is | > outer_call|, so it will not easily disappear in the presence of errors. -The |get_x_token| routine converts the first into the second, which has |endv| -as its command code. - -@d span_code 256 /*distinct from any character*/ -@d cr_code 257 /*distinct from |span_code| and from any character*/ -@d cr_cr_code (cr_code+1) /*this distinguishes \.{\\crcr} from \.{\\cr}*/ -@d end_template_token cs_token_flag+frozen_end_template - -@<Put each of \TeX's primitives into the hash table@>= -primitive("span", tab_mark, span_code);@/ -@!@:span\_}{\.{\\span} primitive@> -primitive("cr", car_ret, cr_code); -@!@:cr\_}{\.{\\cr} primitive@> -text(frozen_cr)=text(cur_val);eqtb[frozen_cr]=eqtb[cur_val];@/ -primitive("crcr", car_ret, cr_cr_code); -@!@:cr\_cr\_}{\.{\\crcr} primitive@> -text(frozen_end_template)=text(frozen_endv)=s_no("endtemplate"); -@.endtemplate@> -eq_type(frozen_endv)=endv;equiv(frozen_endv)=null_list; -eq_level(frozen_endv)=level_one;@/ -eqtb[frozen_end_template]=eqtb[frozen_endv]; -eq_type(frozen_end_template)=end_template; - -@ @<Cases of |print_cmd_chr|...@>= -case tab_mark: if (chr_code==span_code) print_esc("span"); - else chr_cmd("alignment tab character ")@;@+break; -case car_ret: if (chr_code==cr_code) print_esc("cr"); - else print_esc("crcr");@+break; - -@ The preamble is copied directly, except that \.{\\tabskip} causes a change -to the tabskip glue, thereby possibly expanding macros that immediately -follow it. An appearance of \.{\\span} also causes such an expansion. - -Note that if the preamble contains `\.{\\global\\tabskip}', the `\.{\\global}' -token survives in the preamble and the `\.{\\tabskip}' defines new -tabskip glue (locally). - -@<Declare the procedure called |get_preamble_token|@>= -static void get_preamble_token(void) -{@+ -restart: get_token(); -while ((cur_chr==span_code)&&(cur_cmd==tab_mark)) - {@+get_token(); /*this token will be expanded once*/ - if (cur_cmd > max_command) - {@+expand();get_token(); - } - } -if (cur_cmd==endv) - fatal_error("(interwoven alignment preambles are not allowed)"); -@.interwoven alignment preambles...@> -if ((cur_cmd==assign_glue)&&(cur_chr==glue_base+tab_skip_code)) - {@+scan_optional_equals();scan_glue(glue_val); - if (global_defs > 0) geq_define(glue_base+tab_skip_code, glue_ref, cur_val); - else eq_define(glue_base+tab_skip_code, glue_ref, cur_val); - goto restart; - } -} - -@ Spaces are eliminated from the beginning of a template. - -@<Scan the template \<u_j>...@>= -p=hold_head;link(p)=null; -loop@+{@+get_preamble_token(); - if (cur_cmd==mac_param) goto done1; - if ((cur_cmd <= car_ret)&&(cur_cmd >= tab_mark)&&(align_state==-1000000)) - if ((p==hold_head)&&(cur_loop==null)&&(cur_cmd==tab_mark) - ) cur_loop=cur_align; - else{@+print_err("Missing # inserted in alignment preamble"); -@.Missing \# inserted...@> - help3("There should be exactly one # between &'s, when an",@/ - "\\halign or \\valign is being set up. In this case you had",@/ - "none, so I've put one in; maybe that will work."); - back_error();goto done1; - } - else if ((cur_cmd!=spacer)||(p!=hold_head)) - {@+link(p)=get_avail();p=link(p);info(p)=cur_tok; - } - } -done1: - -@ @<Scan the template \<v_j>...@>= -p=hold_head;link(p)=null; -loop@+{@+resume: get_preamble_token(); - if ((cur_cmd <= car_ret)&&(cur_cmd >= tab_mark)&&(align_state==-1000000)) - goto done2; - if (cur_cmd==mac_param) - {@+print_err("Only one # is allowed per tab"); -@.Only one \# is allowed...@> - help3("There should be exactly one # between &'s, when an",@/ - "\\halign or \\valign is being set up. In this case you had",@/ - "more than one, so I'm ignoring all but the first."); - error();goto resume; - } - link(p)=get_avail();p=link(p);info(p)=cur_tok; - } -done2: link(p)=get_avail();p=link(p); -info(p)=end_template_token /*put \.{\\endtemplate} at the end*/ - -@ The tricky part about alignments is getting the templates into the -scanner at the right time, and recovering control when a row or column -is finished. - -We usually begin a row after each \.{\\cr} has been sensed, unless that -\.{\\cr} is followed by \.{\\noalign} or by the right brace that terminates -the alignment. The |align_peek| routine is used to look ahead and do -the right thing; it either gets a new row started, or gets a \.{\\noalign} -started, or finishes off the alignment. - -@<Declare the procedure called |align_peek|@>= -static void align_peek(void) -{@+ -restart: align_state=1000000; -@/do@+{get_x_or_protected(); -}@+ while (!(cur_cmd!=spacer)); -if (cur_cmd==no_align) - {@+scan_left_brace();new_save_level(no_align_group); - if (mode==-vmode) normal_paragraph(); - } -else if (cur_cmd==right_brace) fin_align(); -else if ((cur_cmd==car_ret)&&(cur_chr==cr_cr_code)) - goto restart; /*ignore \.{\\crcr}*/ -else{@+init_row(); /*start a new row*/ - init_col(); /*start a new column and replace what we peeked at*/ - } -} - -@ To start a row (i.e., a `row' that rhymes with `dough' but not with `bough'), -we enter a new semantic level, copy the first tabskip glue, and change -from internal vertical mode to restricted horizontal mode or vice versa. -The |space_factor| and |prev_depth| are not used on this semantic level, -but we clear them to zero just to be tidy. - -@p @t\4@>@<Declare the procedure called |init_span|@>@t@>@/ -static void init_row(void) -{@+push_nest();mode=(-hmode-vmode)-mode; -if (mode==-hmode) space_factor=0;@+else prev_depth=0; -tail_append(new_glue(glue_ptr(preamble))); -subtype(tail)=tab_skip_code+1;@/ -cur_align=link(preamble);cur_tail=cur_head;init_span(cur_align); -} - -@ The parameter to |init_span| is a pointer to the alignrecord where the -next column or group of columns will begin. A new semantic level is -entered, so that the columns will generate a list for subsequent packaging. - -@<Declare the procedure called |init_span|@>= -static void init_span(pointer @!p) -{@+push_nest(); -if (mode==-hmode) space_factor=1000; -else{@+prev_depth=ignore_depth;normal_paragraph(); - } -cur_span=p; -} - -@ When a column begins, we assume that |cur_cmd| is either |omit| or else -the current token should be put back into the input until the \<u_j> -template has been scanned. (Note that |cur_cmd| might be |tab_mark| or -|car_ret|.) We also assume that |align_state| is approximately 1000000 at -this time. We remain in the same mode, and start the template if it is -called for. - -@p static void init_col(void) -{@+extra_info(cur_align)=cur_cmd; -if (cur_cmd==omit) align_state=0; -else{@+back_input();begin_token_list(u_part(cur_align), u_template); - } /*now |align_state==1000000|*/ -} - -@ The scanner sets |align_state| to zero when the \<u_j> template ends. When -a subsequent \.{\\cr} or \.{\\span} or tab mark occurs with |align_state==0|, -the scanner activates the following code, which fires up the \<v_j> template. -We need to remember the |cur_chr|, which is either |cr_cr_code|, |cr_code|, -|span_code|, or a character code, depending on how the column text has ended. - -This part of the program had better not be activated when the preamble -to another alignment is being scanned, or when no alignment preamble is active. - -@<Insert the \(v)\<v_j>...@>= -{@+if ((scanner_status==aligning)||(cur_align==null)) - fatal_error("(interwoven alignment preambles are not allowed)"); -@.interwoven alignment preambles...@> -cur_cmd=extra_info(cur_align);extra_info(cur_align)=cur_chr; -if (cur_cmd==omit) begin_token_list(omit_template, v_template); -else begin_token_list(v_part(cur_align), v_template); -align_state=1000000;goto restart; -} - -@ The token list |omit_template| just referred to is a constant token -list that contains the special control sequence \.{\\endtemplate} only. - -@<Initialize the special...@>= -info(omit_template)=end_template_token; /*|link(omit_template)==null|*/ - -@ When the |endv| command at the end of a \<v_j> template comes through the -scanner, things really start to happen; and it is the |fin_col| routine -that makes them happen. This routine returns |true| if a row as well as a -column has been finished. - -@p static bool fin_col(void) -{@+ -pointer p; /*the alignrecord after the current one*/ -pointer @!q, @!r; /*temporary pointers for list manipulation*/ -pointer @!s; /*a new span node*/ -pointer @!u; /*a new unset box*/ -scaled @!w; /*natural width*/ -glue_ord @!o; /*order of infinity*/ -halfword @!n; /*span counter*/ -if (cur_align==null) confusion("endv"); -q=link(cur_align);@+if (q==null) confusion("endv"); -@:this can't happen endv}{\quad endv@> -if (align_state < 500000) - fatal_error("(interwoven alignment preambles are not allowed)"); -@.interwoven alignment preambles...@> -p=link(q); -@<If the preamble list has been traversed, check that the row has ended@>; -if (extra_info(cur_align)!=span_code) - {@+unsave();new_save_level(align_group);@/ - @<Package an unset box for the current column and record its width@>; - @<Copy the tabskip glue between columns@>; - if (extra_info(cur_align) >= cr_code) - {@+return true; - } - init_span(p); - } -align_state=1000000; -@/do@+{get_x_or_protected(); -}@+ while (!(cur_cmd!=spacer)); -cur_align=p; -init_col();return false; -} - -@ @<If the preamble list has been traversed, check that the row has ended@>= -if ((p==null)&&(extra_info(cur_align) < cr_code)) - if (cur_loop!=null) @<Lengthen the preamble periodically@>@; - else{@+print_err("Extra alignment tab has been changed to "); -@.Extra alignment tab...@> - print_esc("cr"); - help3("You have given more \\span or & marks than there were",@/ - "in the preamble to the \\halign or \\valign now in progress.",@/ - "So I'll assume that you meant to type \\cr instead."); - extra_info(cur_align)=cr_code;error(); - } - -@ @<Lengthen the preamble...@>= -{@+link(q)=new_null_box();p=link(q); /*a new alignrecord*/ -info(p)=end_span;width(p)=null_flag;cur_loop=link(cur_loop); -@<Copy the templates from node |cur_loop| into node |p|@>; -cur_loop=link(cur_loop); -link(p)=new_glue(glue_ptr(cur_loop)); -subtype(link(p))=tab_skip_code+1; -} - -@ @<Copy the templates from node |cur_loop| into node |p|@>= -q=hold_head;r=u_part(cur_loop); -while (r!=null) - {@+link(q)=get_avail();q=link(q);info(q)=info(r);r=link(r); - } -link(q)=null;u_part(p)=link(hold_head); -q=hold_head;r=v_part(cur_loop); -while (r!=null) - {@+link(q)=get_avail();q=link(q);info(q)=info(r);r=link(r); - } -link(q)=null;v_part(p)=link(hold_head) - -@ @<Copy the tabskip glue...@>= -tail_append(new_glue(glue_ptr(link(cur_align)))); -subtype(tail)=tab_skip_code+1 - -@ @<Package an unset...@>= -{@+if (mode==-hmode) - {@+adjust_tail=cur_tail;u=hpack(link(head), natural); - if (type(u)==hlist_node) w=width(u); - else w=max_dimen+1; - cur_tail=adjust_tail;adjust_tail=null; - } -else{@+u=vpackage(link(head), natural, 0); - if (type(u)==vlist_node) w=height(u); - else w=max_dimen+1; - } -n=min_quarterword; /*this represents a span count of 1*/ -if (cur_span!=cur_align) @<Update width entry for spanned columns@>@; -else if (w > width(cur_align)) width(cur_align)=w; -if (type(u)==whatsit_node) -{ if (subtype(u)==hset_node ||subtype(u)==vset_node) type(u)=unset_set_node; - else type(u)=unset_pack_node; - span_count(u)=n; -} -else if (type(u)==hlist_node ||type(u)==vlist_node) -{ type(u)=unset_node;span_count(u)=n; -@<Determine the stretch order@>; -glue_order(u)=o;glue_stretch(u)=total_stretch[o];@/ -@<Determine the shrink order@>; -glue_sign(u)=o;glue_shrink(u)=total_shrink[o];@/ -} -pop_nest();link(tail)=u;tail=u; -} - -@ A span node is a 2-word record containing |width|, |info|, and |link| -fields. The |link| field is not really a link, it indicates the number of -spanned columns; the |info| field points to a span node for the same -starting column, having a greater extent of spanning, or to |end_span|, -which has the largest possible |link| field; the |width| field holds the -largest natural width corresponding to a particular set of spanned columns. - -A list of the maximum widths so far, for spanned columns starting at a -given column, begins with the |info| field of the alignrecord for that -column. - -@d span_node_size 2 /*number of |mem| words for a span node*/ - -@<Initialize the special list heads...@>= -link(end_span)=max_quarterword+1;info(end_span)=null; - -@ @<Update width entry for spanned columns@>= -{@+q=cur_span; -@/do@+{incr(n);q=link(link(q)); -}@+ while (!(q==cur_align)); -if (n > max_quarterword) confusion("256 spans"); /*this can happen, but won't*/ -@^system dependencies@> -@:this can't happen 256 spans}{\quad 256 spans@> -q=cur_span;while (link(info(q)) < n) q=info(q); -if (link(info(q)) > n) - {@+s=get_node(span_node_size);info(s)=info(q);link(s)=n; - info(q)=s;width(s)=w; - } -else if (width(info(q)) < w) width(info(q))=w; -} - -@ At the end of a row, we append an unset box to the current vlist (for -\.{\\halign}) or the current hlist (for \.{\\valign}). This unset box -contains the unset boxes for the columns, separated by the tabskip glue. -Everything will be set later. - -@p static void fin_row(void) -{@+pointer p; /*the new unset box*/ -if (mode==-hmode) - {@+p=hpack(link(head), natural); - pop_nest();append_to_vlist(p); - if (cur_head!=cur_tail) - {@+link(tail)=link(cur_head);tail=cur_tail; - } - } -else{@+p=vpack(link(head), natural);pop_nest(); - link(tail)=p;tail=p;space_factor=1000; - } -type(p)=unset_node;glue_stretch(p)=0; -if (every_cr!=null) begin_token_list(every_cr, every_cr_text); -align_peek(); -} /*note that |glue_shrink(p)==0| since |glue_shrink====shift_amount|*/ - -@ Finally, we will reach the end of the alignment, and we can breathe a -sigh of relief that memory hasn't overflowed. All the unset boxes will now be -set so that the columns line up, taking due account of spanned columns. - -@p static void do_assignments(void);@/ -static void resume_after_display(void);@/ -extern void build_page(void); -static void fin_align(void) -{@+pointer @!p, @!q, @!r, @!s, @!u, @!v; /*registers for the list operations*/ -scaled @!t, @!w; /*width of column*/ -bool x=false; /* indicates an extende alignment */ -scaled @!o; /*shift offset for unset boxes*/ -halfword @!n; /*matching span amount*/ -scaled @!rule_save; /*temporary storage for |overfull_rule|*/ -memory_word @!aux_save; /*temporary storage for |aux|*/ -if (cur_group!=align_group) confusion("align1"); -@:this can't happen align}{\quad align@> -unsave(); /*that |align_group| was for individual entries*/ -if (cur_group!=align_group) confusion("align0"); -unsave(); /*that |align_group| was for the whole alignment*/ -if (nest[nest_ptr-1].mode_field==mmode) o=display_indent; - else o=0; -@<Go through the preamble list, determining the column widths and changing the alignrecords -to dummy unset boxes@>; -if (x) -{ @<Handle an alignment that depends on |hsize| or |vsize|@>@; - pop_alignment(); -} -else -{ @<Package the preamble list, to determine the actual tabskip glue amounts, and let - |p| point to this prototype box@>; - @<Set the glue in all the unset boxes of the current list@>; - flush_node_list(p);pop_alignment(); -} -@<Insert the \(c)current list into its environment@>; -} @/ -@t\4@>@<Declare the procedure called |align_peek|@>@; -@ @<Handle an alignment that depends on |hsize| or |vsize|@>= - pointer r=get_node(align_node_size); - save_ptr=save_ptr-2;pack_begin_line=-mode_line; - - type(r)=whatsit_node; subtype(r)=align_node; - align_preamble(r)=preamble; - align_list(r)=link(head); - align_extent(r)=new_xdimen(saved(1),saved_hfactor(1),saved_vfactor(1)); - align_m(r)= saved(0); - align_v(r)= (mode!=-vmode); - link(head)=r; tail=r; - pack_begin_line=0; - -@ It's time now to dismantle the preamble list and to compute the column -widths. Let $w_{ij}$ be the maximum of the natural widths of all entries -that span columns $i$ through $j$, inclusive. The alignrecord for column~$i$ -contains $w_{ii}$ in its |width| field, and there is also a linked list of -the nonzero $w_{ij}$ for increasing $j$, accessible via the |info| field; -these span nodes contain the value $j-i+|min_quarterword|$ in their -|link| fields. The values of $w_{ii}$ were initialized to |null_flag|, which -we regard as $-\infty$. - -The final column widths are defined by the formula -$$w_j=\max_{1\le i\le j}\biggl( w_{ij}-\sum_{i\le k<j}(t_k+w_k)\biggr),$$ -where $t_k$ is the natural width of the tabskip glue between columns -$k$ and~$k+1$. However, if $w_{ij}=-\infty$ for all |i| in the range -|1 <= i <= j| (i.e., if every entry that involved column~|j| also involved -column~|j+1|), we let $w_j=0$, and we zero out the tabskip glue after -column~|j|. - -\TeX\ computes these values by using the following scheme: First $w_1=w_{11}$. -Then replace $w_{2j}$ by $\max(w_{2j},w_{1j}-t_1-w_1)$, for all $j>1$. -Then $w_2=w_{22}$. Then replace $w_{3j}$ by $\max(w_{3j},w_{2j}-t_2-w_2)$ -for all $j>2$; and so on. If any $w_j$ turns out to be $-\infty$, its -value is changed to zero and so is the next tabskip. - -@<Go through the preamble list,...@>= -q=link(preamble); -@/do@+{flush_list(u_part(q));flush_list(v_part(q)); -p=link(link(q)); -if (width(q)==null_flag) - @<Nullify |width(q)| and the tabskip glue following this column@>; -if (info(q)!=end_span) - @<Merge the widths in the span nodes of |q| with those of |p|, destroying the span -nodes of |q|@>; -type(q)=unset_node;span_count(q)=min_quarterword;height(q)=0; -depth(q)=0;glue_order(q)=normal;glue_sign(q)=normal; -glue_stretch(q)=0;glue_shrink(q)=0;q=p; - if (width(q)>max_dimen) x=true; -}@+ while (!(q==null)) - -@ @<Nullify |width(q)| and the tabskip glue following this column@>= -{@+width(q)=0;r=link(q);s=glue_ptr(r); -if (s!=zero_glue) - {@+add_glue_ref(zero_glue);delete_glue_ref(s); - glue_ptr(r)=zero_glue; - } -} - -@ Merging of two span-node lists is a typical exercise in the manipulation of -linearly linked data structures. The essential invariant in the following -|@/do@+{| loop is that we want to dispense with node |r|, in |q|'s list, -and |u| is its successor; all nodes of |p|'s list up to and including |s| -have been processed, and the successor of |s| matches |r| or precedes |r| -or follows |r|, according as |link(r)==n| or |link(r) > n| or |link(r) < n|. - -@<Merge the widths...@>= -{@+t=width(q)+width(glue_ptr(link(q))); -r=info(q);s=end_span;info(s)=p;n=min_quarterword+1; -@/do@+{width(r)=width(r)-t;u=info(r); -while (link(r) > n) - {@+s=info(s);n=link(info(s))+1; - } -if (link(r) < n) - {@+info(r)=info(s);info(s)=r;decr(link(r));s=r; - } -else{@+if (width(r) > width(info(s))) width(info(s))=width(r); - free_node(r, span_node_size); - } -r=u; -}@+ while (!(r==end_span)); -} - -@ Now the preamble list has been converted to a list of alternating unset -boxes and tabskip glue, where the box widths are equal to the final -column sizes. In case of \.{\\valign}, we change the widths to heights, -so that a correct error message will be produced if the alignment is -overfull or underfull. - -@<Package the preamble list...@>= -save_ptr=save_ptr-2;pack_begin_line=-mode_line; -if (mode==-vmode) - {@+rule_save=overfull_rule; - overfull_rule=0; /*prevent rule from being packaged*/ - p=hpack(preamble, saved(1), saved_hfactor(1), saved_vfactor(1), saved(0));overfull_rule=rule_save; - } -else{@+q=link(preamble); - @/do@+{height(q)=width(q);width(q)=0;q=link(link(q)); - }@+ while (!(q==null)); - p=vpack(preamble, saved(1), saved_hfactor(1), saved_vfactor(1), saved(0)); - q=link(preamble); - @/do@+{width(q)=height(q);height(q)=0;q=link(link(q)); - }@+ while (!(q==null)); - } -pack_begin_line=0 - -@ @<Set the glue in all the unset...@>= -q=link(head);s=head; -while (q!=null) - {@+if (!is_char_node(q)) - if (type(q)==unset_node) - @<Set the unset box |q| and the unset boxes in it@>@; - else if (type(q)==rule_node) - @<Make the running dimensions in rule |q| extend to the boundaries of the alignment@>; - s=q;q=link(q); - } - -@ @<Make the running dimensions in rule |q| extend...@>= -{@+if (is_running(width(q))) width(q)=width(p); -if (is_running(height(q))) height(q)=height(p); -if (is_running(depth(q))) depth(q)=depth(p); -if (o!=0) - {@+r=link(q);link(q)=null;q=hpack(q, natural); - shift_amount(q)=o;link(q)=r;link(s)=q; - } -} - -@ The unset box |q| represents a row that contains one or more unset boxes, -depending on how soon \.{\\cr} occurred in that row. - -@<Set the unset box |q| and the unset boxes in it@>= -{@+if (mode==-vmode) - {@+type(q)=hlist_node;width(q)=width(p); - } -else{@+type(q)=vlist_node;height(q)=height(p); - } -glue_order(q)=glue_order(p);glue_sign(q)=glue_sign(p); -glue_set(q)=glue_set(p);shift_amount(q)=o; -r=link(list_ptr(q));s=link(list_ptr(p)); -@/do@+{@<Set the glue in node |r| and change it from an unset node@>; -r=link(link(r));s=link(link(s)); -}@+ while (!(r==null)); -} - -@ A box made from spanned columns will be followed by tabskip glue nodes and -by empty boxes as if there were no spanning. This permits perfect alignment -of subsequent entries, and it prevents values that depend on floating point -arithmetic from entering into the dimensions of any boxes. - -@<Set the glue in node |r|...@>= -n=span_count(r);t=width(s);w=t;u=hold_head; -while (n > min_quarterword) - {@+decr(n); - @<Append tabskip glue and an empty box to list |u|, and update |s| and |t| as the -prototype nodes are passed@>; - } -if (mode==-vmode) - @<Make the unset node |r| into an |hlist_node| of width |w|, setting the glue as -if the width were |t|@>@; -else@<Make the unset node |r| into a |vlist_node| of height |w|, setting the glue -as if the height were |t|@>; -shift_amount(r)=0; -if (u!=hold_head) /*append blank boxes to account for spanned nodes*/ - {@+link(u)=link(r);link(r)=link(hold_head);r=u; - } - -@ @<Append tabskip glue and an empty box to list |u|...@>= -s=link(s);v=glue_ptr(s);link(u)=new_glue(v);u=link(u); -subtype(u)=tab_skip_code+1;t=t+width(v); -if (glue_sign(p)==stretching) - {@+if (stretch_order(v)==glue_order(p)) - t=t+round(float(glue_set(p))*stretch(v)); -@^real multiplication@> - } -else if (glue_sign(p)==shrinking) - {@+if (shrink_order(v)==glue_order(p)) - t=t-round(float(glue_set(p))*shrink(v)); - } -s=link(s);link(u)=new_null_box();u=link(u);t=t+width(s); -if (mode==-vmode) width(u)=width(s);@+else - {@+type(u)=vlist_node;height(u)=width(s); - } - -@ @<Make the unset node |r| into an |hlist_node| of width |w|...@>= -{@+height(r)=height(q);depth(r)=depth(q); -if (t==width(r)) - {@+glue_sign(r)=normal;glue_order(r)=normal; - set_glue_ratio_zero(glue_set(r)); - } -else if (t > width(r)) - {@+glue_sign(r)=stretching; - if (glue_stretch(r)==0) set_glue_ratio_zero(glue_set(r)); - else glue_set(r)=unfloat((t-width(r))/(double)glue_stretch(r)); -@^real division@> - } -else{@+glue_order(r)=glue_sign(r);glue_sign(r)=shrinking; - if (glue_shrink(r)==0) set_glue_ratio_zero(glue_set(r)); - else if ((glue_order(r)==normal)&&(width(r)-t > glue_shrink(r))) - set_glue_ratio_one(glue_set(r)); - else glue_set(r)=unfloat((width(r)-t)/(double)glue_shrink(r)); - } -width(r)=w;type(r)=hlist_node; -} - -@ @<Make the unset node |r| into a |vlist_node| of height |w|...@>= -{@+width(r)=width(q); -if (t==height(r)) - {@+glue_sign(r)=normal;glue_order(r)=normal; - set_glue_ratio_zero(glue_set(r)); - } -else if (t > height(r)) - {@+glue_sign(r)=stretching; - if (glue_stretch(r)==0) set_glue_ratio_zero(glue_set(r)); - else glue_set(r)=unfloat((t-height(r))/(double)glue_stretch(r)); -@^real division@> - } -else{@+glue_order(r)=glue_sign(r);glue_sign(r)=shrinking; - if (glue_shrink(r)==0) set_glue_ratio_zero(glue_set(r)); - else if ((glue_order(r)==normal)&&(height(r)-t > glue_shrink(r))) - set_glue_ratio_one(glue_set(r)); - else glue_set(r)=unfloat((height(r)-t)/(double)glue_shrink(r)); - } -height(r)=w;type(r)=vlist_node; -} - -@ We now have a completed alignment, in the list that starts at |head| -and ends at |tail|. This list will be merged with the one that encloses -it. (In case the enclosing mode is |mmode|, for displayed formulas, -we will need to insert glue before and after the display; that part of the -program will be deferred until we're more familiar with such operations.) - -In restricted horizontal mode, the |clang| part of |aux| is undefined; -an over-cautious \PASCAL\ runtime system may complain about this. -@^dirty \PASCAL@> - -@<Insert the \(c)current list into its environment@>= -aux_save=aux;p=link(head);q=tail;pop_nest(); -if (mode==mmode) @<Finish an alignment in a display@>@; -else{@+aux=aux_save;link(tail)=p; - if (p!=null) tail=q; - if (mode==vmode) build_page(); - } - -@* Breaking paragraphs into lines. -We come now to what is probably the most interesting algorithm of \TeX: -the mechanism for choosing the ``best possible'' breakpoints that yield -the individual lines of a paragraph. \TeX's line-breaking algorithm takes -a given horizontal list and converts it to a sequence of boxes that are -appended to the current vertical list. In the course of doing this, it -creates a special data structure containing three kinds of records that are -not used elsewhere in \TeX. Such nodes are created while a paragraph is -being processed, and they are destroyed afterwards; thus, the other parts -of \TeX\ do not need to know anything about how line-breaking is done. - -The method used here is based on an approach devised by Michael F. Plass and -@^Plass, Michael Frederick@> -@^Knuth, Donald Ervin@> -the author in 1977, subsequently generalized and improved by the same two -people in 1980. A detailed discussion appears in {\sl Software---Practice -and Experience \bf11} (1981), 1119--1184, where it is shown that the -line-breaking problem can be regarded as a special case of the problem of -computing the shortest path in an acyclic network. The cited paper includes -numerous examples and describes the history of line breaking as it has been -practiced by printers through the ages. The present implementation adds two -new ideas to the algorithm of 1980: Memory space requirements are considerably -reduced by using smaller records for inactive nodes than for active ones, -and arithmetic overflow is avoided by using ``delta distances'' instead of -keeping track of the total distance from the beginning of the paragraph to the -current point. - -@ The |line_break| procedure should be invoked only in horizontal mode; it -leaves that mode and places its output into the current vlist of the -enclosing vertical mode (or internal vertical mode). -There is one explicit parameter: |final_widow_penalty| is the amount of -additional penalty to be inserted before the final line of the paragraph. - -There are also a number of implicit parameters: The hlist to be broken -starts at |link(head)|, and it is nonempty. The value of |prev_graf| in the -enclosing semantic level tells where the paragraph should begin in the -sequence of line numbers, in case hanging indentation or \.{\\parshape} -is in use; |prev_graf| is zero unless this paragraph is being continued -after a displayed formula. Other implicit parameters, such as the -|par_shape_ptr| and various penalties to use for hyphenation, etc., appear -in |eqtb|. - -After |line_break| has acted, it will have updated the current vlist and the -value of |prev_graf|. Furthermore, the global variable |just_box| will -point to the final box created by |line_break|, so that the width of this -line can be ascertained when it is necessary to decide whether to use -|above_display_skip| or |above_display_short_skip| before a displayed formula. - -@<Glob...@>= -static pointer @!just_box; /*the |hlist_node| for the last line of the new paragraph*/ - -@ Since |line_break| is a rather lengthy procedure---sort of a small world unto -itself---we must build it up little by little, somewhat more cautiously -than we have done with the simpler procedures of \TeX. Here is the -general outline. - -@p @t\4@>@<Declare subprocedures for |line_break|@>@; -void line_break(int @!final_widow_penalty) -{@+ -@<Local variables for line breaking@>@; -pack_begin_line=mode_line; /*this is for over/underfull box messages*/ -@<Get ready to start line breaking@>; -@<Find optimal breakpoints@>; -@<Break the paragraph at the chosen breakpoints, justify the resulting lines to the -correct widths, and append them to the current vertical list@>; -@<Clean up the memory by removing the break nodes@>; -pack_begin_line=0; -} -@# -@t\4@>@<Declare \eTeX\ procedures for use by |main_control|@>@; - -@ The first task is to move the list from |head| to |temp_head| and go -into the enclosing semantic level. We also append the \.{\\parfillskip} -glue to the end of the paragraph, removing a space (or other glue node) if -it was there, since spaces usually precede blank lines and instances of -`\.{\$\$}'. The |par_fill_skip| is preceded by an infinite penalty, so -it will never be considered as a potential breakpoint. - -This code assumes that a |glue_node| and a |penalty_node| occupy the -same number of |mem|~words. -@^data structure assumptions@> - -@<Get ready to start...@>= -link(temp_head)=link(head); -if (is_char_node(tail)) tail_append(new_penalty(inf_penalty))@; -else if (type(tail)!=glue_node) tail_append(new_penalty(inf_penalty))@; -else{@+type(tail)=penalty_node;delete_glue_ref(glue_ptr(tail)); - flush_node_list(leader_ptr(tail));penalty(tail)=inf_penalty; - } -link(tail)=new_param_glue(par_fill_skip_code); -init_cur_lang=prev_graf%0200000; -init_l_hyf=prev_graf/020000000; -init_r_hyf=(prev_graf/0200000)%0100; -pop_nest(); - -@ When looking for optimal line breaks, \TeX\ creates a ``break node'' for -each break that is {\sl feasible}, in the sense that there is a way to end -a line at the given place without requiring any line to stretch more than -a given tolerance. A break node is characterized by three things: the position -of the break (which is a pointer to a |glue_node|, |math_node|, |penalty_node|, -or |disc_node|); the ordinal number of the line that will follow this -breakpoint; and the fitness classification of the line that has just -ended, i.e., |tight_fit|, |decent_fit|, |loose_fit|, or |very_loose_fit|. - -@d tight_fit 3 /*fitness classification for lines shrinking 0.5 to 1.0 of their - shrinkability*/ -@d loose_fit 1 /*fitness classification for lines stretching 0.5 to 1.0 of their - stretchability*/ -@d very_loose_fit 0 /*fitness classification for lines stretching more than - their stretchability*/ -@d decent_fit 2 /*fitness classification for all other lines*/ - -@ The algorithm essentially determines the best possible way to achieve -each feasible combination of position, line, and fitness. Thus, it answers -questions like, ``What is the best way to break the opening part of the -paragraph so that the fourth line is a tight line ending at such-and-such -a place?'' However, the fact that all lines are to be the same length -after a certain point makes it possible to regard all sufficiently large -line numbers as equivalent, when the looseness parameter is zero, and this -makes it possible for the algorithm to save space and time. - -An ``active node'' and a ``passive node'' are created in |mem| for each -feasible breakpoint that needs to be considered. Active nodes are three -words long and passive nodes are two words long. We need active nodes only -for breakpoints near the place in the paragraph that is currently being -examined, so they are recycled within a comparatively short time after -they are created. - -@ An active node for a given breakpoint contains six fields: - -\yskip\hang|link| points to the next node in the list of active nodes; the -last active node has |link==last_active|. - -\yskip\hang|break_node| points to the passive node associated with this -breakpoint. - -\yskip\hang|line_number| is the number of the line that follows this -breakpoint. - -\yskip\hang|fitness| is the fitness classification of the line ending at this -breakpoint. - -\yskip\hang|type| is either |hyphenated| or |unhyphenated|, depending on -whether this breakpoint is a |disc_node|. - -\yskip\hang|total_demerits| is the minimum possible sum of demerits over all -lines leading from the beginning of the paragraph to this breakpoint. - -\yskip\noindent -The value of |link(active)| points to the first active node on a linked list -of all currently active nodes. This list is in order by |line_number|, -except that nodes with |line_number > easy_line| may be in any order relative -to each other. - -@d active_node_size 3 /*number of words in active nodes*/ -@d fitness(A) subtype(A) /*|very_loose_fit dotdot tight_fit| on final line for this break*/ -@d break_node(A) rlink(A) /*pointer to the corresponding passive node*/ -@d line_number(A) llink(A) /*line that begins at this breakpoint*/ -@d total_demerits(A) mem[A+2].i /*the quantity that \TeX\ minimizes*/ -@d unhyphenated 0 /*the |type| of a normal active break node*/ -@d hyphenated 1 /*the |type| of an active node that breaks at a |disc_node|*/ -@d last_active active /*the active list ends where it begins*/ - -@ @<Initialize the special list heads...@>= -type(last_active)=hyphenated;line_number(last_active)=max_halfword; -subtype(last_active)=0; /*the |subtype| is never examined by the algorithm*/ - -@ The passive node for a given breakpoint contains only four fields: - -\yskip\hang|link| points to the passive node created just before this one, -if any, otherwise it is |null|. - -\yskip\hang|cur_break| points to the position of this breakpoint in the -horizontal list for the paragraph being broken. - -\yskip\hang|prev_break| points to the passive node that should precede this -one in an optimal path to this breakpoint. - -\yskip\hang|serial| is equal to |n| if this passive node is the |n|th -one created during the current pass. (This field is used only when -printing out detailed statistics about the line-breaking calculations.) - -\yskip\noindent -There is a global variable called |passive| that points to the most -recently created passive node. Another global variable, |printed_node|, -is used to help print out the paragraph when detailed information about -the line-breaking computation is being displayed. - -@d passive_node_size 2 /*number of words in passive nodes*/ -@d cur_break(A) rlink(A) /*in passive node, points to position of this breakpoint*/ -@d prev_break(A) llink(A) /*points to passive node that should precede this one*/ -@d serial(A) info(A) /*serial number for symbolic identification*/ - -@<Glob...@>= -static pointer @!passive; /*most recent node on passive list*/ -static pointer @!printed_node; /*most recent node that has been printed*/ -static halfword @!pass_number; /*the number of passive nodes allocated on this pass*/ - -@ The active list also contains ``delta'' nodes that help the algorithm -compute the badness of individual lines. Such nodes appear only between two -active nodes, and they have |type==delta_node|. If |p| and |r| are active nodes -and if |q| is a delta node between them, so that |link(p)==q| and |link(q)==r|, -then |q| tells the space difference between lines in the horizontal list that -start after breakpoint |p| and lines that start after breakpoint |r|. In -other words, if we know the length of the line that starts after |p| and -ends at our current position, then the corresponding length of the line that -starts after |r| is obtained by adding the amounts in node~|q|. A delta node -contains six scaled numbers, since it must record the net change in glue -stretchability with respect to all orders of infinity. The natural width -difference appears in |mem[q+1].sc|; the stretch differences in units of -pt, fil, fill, and filll appear in |mem[q+2 dotdot q+5].sc|; and the shrink difference -appears in |mem[q+6].sc|. The |subtype| field of a delta node is not used. - -@d delta_node_size 7 /*number of words in a delta node*/ -@d delta_node 2 /*|type| field in a delta node*/ - -@ As the algorithm runs, it maintains a set of six delta-like registers -for the length of the line following the first active breakpoint to the -current position in the given hlist. When it makes a pass through the -active list, it also maintains a similar set of six registers for the -length following the active breakpoint of current interest. A third set -holds the length of an empty line (namely, the sum of \.{\\leftskip} and -\.{\\rightskip}); and a fourth set is used to create new delta nodes. - -When we pass a delta node we want to do operations like -$$\hbox{\ignorespaces|for -k=1 to 6 do cur_active_width[k]=cur_active_width[k]+mem[q+k].sc|};$$ and we -want to do this without the overhead of |for| loops. The |do_all_six| -macro makes such six-tuples convenient. - -@d do_all_six(A) A(1);A(2);A(3);A(4);A(5);A(6) - -@<Glob...@>= -static scaled @!active_width0[6], *const @!active_width = @!active_width0-1; - /*distance from first active node to~|cur_p|*/ -static scaled @!cur_active_width0[6], *const @!cur_active_width = @!cur_active_width0-1; /*distance from current active node*/ -static scaled @!background0[6], *const @!background = @!background0-1; /*length of an ``empty'' line*/ -static scaled @!break_width0[6], *const @!break_width = @!break_width0-1; /*length being computed after current break*/ - -@ Let's state the principles of the delta nodes more precisely and concisely, -so that the following programs will be less obscure. For each legal -breakpoint~|p| in the paragraph, we define two quantities $\alpha(p)$ and -$\beta(p)$ such that the length of material in a line from breakpoint~|p| -to breakpoint~|q| is $\gamma+\beta(q)-\alpha(p)$, for some fixed $\gamma$. -Intuitively, $\alpha(p)$ and $\beta(q)$ are the total length of material from -the beginning of the paragraph to a point ``after'' a break at |p| and to a -point ``before'' a break at |q|; and $\gamma$ is the width of an empty line, -namely the length contributed by \.{\\leftskip} and \.{\\rightskip}. - -Suppose, for example, that the paragraph consists entirely of alternating -boxes and glue skips; let the boxes have widths $x_1\ldots x_n$ and -let the skips have widths $y_1\ldots y_n$, so that the paragraph can be -represented by $x_1y_1\ldots x_ny_n$. Let $p_i$ be the legal breakpoint -at $y_i$; then $\alpha(p_i)=x_1+y_1+\cdots+x_i+y_i$, and $\beta(p_i)= -x_1+y_1+\cdots+x_i$. To check this, note that the length of material from -$p_2$ to $p_5$, say, is $\gamma+x_3+y_3+x_4+y_4+x_5=\gamma+\beta(p_5) --\alpha(p_2)$. - -The quantities $\alpha$, $\beta$, $\gamma$ involve glue stretchability and -shrinkability as well as a natural width. If we were to compute $\alpha(p)$ -and $\beta(p)$ for each |p|, we would need multiple precision arithmetic, and -the multiprecise numbers would have to be kept in the active nodes. -\TeX\ avoids this problem by working entirely with relative differences -or ``deltas.'' Suppose, for example, that the active list contains -$a_1\,\delta_1\,a_2\,\delta_2\,a_3$, where the |a|'s are active breakpoints -and the $\delta$'s are delta nodes. Then $\delta_1=\alpha(a_1)-\alpha(a_2)$ -and $\delta_2=\alpha(a_2)-\alpha(a_3)$. If the line breaking algorithm is -currently positioned at some other breakpoint |p|, the |active_width| array -contains the value $\gamma+\beta(p)-\alpha(a_1)$. If we are scanning through -the list of active nodes and considering a tentative line that runs from -$a_2$ to~|p|, say, the |cur_active_width| array will contain the value -$\gamma+\beta(p)-\alpha(a_2)$. Thus, when we move from $a_2$ to $a_3$, -we want to add $\alpha(a_2)-\alpha(a_3)$ to |cur_active_width|; and this -is just $\delta_2$, which appears in the active list between $a_2$ and -$a_3$. The |background| array contains $\gamma$. The |break_width| array -will be used to calculate values of new delta nodes when the active -list is being updated. - -@ Glue nodes in a horizontal list that is being paragraphed are not supposed to -include ``infinite'' shrinkability; that is why the algorithm maintains -four registers for stretching but only one for shrinking. If the user tries to -introduce infinite shrinkability, the shrinkability will be reset to finite -and an error message will be issued. A boolean variable |no_shrink_error_yet| -prevents this error message from appearing more than once per paragraph. - -@d check_shrinkage(A) if ((shrink_order(A)!=normal)&&(shrink(A)!=0)) - {@+A=finite_shrink(A); - } - -@<Glob...@>= -static bool @!no_shrink_error_yet; /*have we complained about infinite shrinkage?*/ - -@ @<Declare subprocedures for |line_break|@>= -static pointer finite_shrink(pointer @!p) /*recovers from infinite shrinkage*/ -{@+pointer q; /*new glue specification*/ -if (no_shrink_error_yet) - {@+no_shrink_error_yet=false; -#ifdef @!STAT - if (tracing_paragraphs > 0) end_diagnostic(true); -#endif -@; - print_err("Infinite glue shrinkage found in a paragraph"); -@.Infinite glue shrinkage...@> - help5("The paragraph just ended includes some glue that has",@/ - "infinite shrinkability, e.g., `\\hskip 0pt minus 1fil'.",@/ - "Such glue doesn't belong there---it allows a paragraph",@/ - "of any length to fit on one line. But it's safe to proceed,",@/ - "since the offensive shrinkability has been made finite."); - error(); -#ifdef @!STAT - if (tracing_paragraphs > 0) begin_diagnostic(); -#endif -@; - } -q=new_spec(p);shrink_order(q)=normal; -delete_glue_ref(p);return q; -} - -@ @<Get ready to start...@>= -no_shrink_error_yet=true;@/ -check_shrinkage(left_skip);check_shrinkage(right_skip);@/ -q=left_skip;r=right_skip;background[1]=width(q)+width(r);@/ -background[2]=0;background[3]=0;background[4]=0;background[5]=0;@/ -background[2+stretch_order(q)]=stretch(q);@/ -background[2+stretch_order(r)]=@|background[2+stretch_order(r)]+stretch(r);@/ -background[6]=shrink(q)+shrink(r); - -@ A pointer variable |cur_p| runs through the given horizontal list as we look -for breakpoints. This variable is global, since it is used both by |line_break| -and by its subprocedure |try_break|. - -Another global variable called |threshold| is used to determine the feasibility -of individual lines: Breakpoints are feasible if there is a way to reach -them without creating lines whose badness exceeds |threshold|. (The -badness is compared to |threshold| before penalties are added, so that -penalty values do not affect the feasibility of breakpoints, except that -no break is allowed when the penalty is 10000 or more.) If |threshold| -is 10000 or more, all legal breaks are considered feasible, since the -|badness| function specified above never returns a value greater than~10000. - -Up to three passes might be made through the paragraph in an attempt to find at -least one set of feasible breakpoints. On the first pass, we have -|threshold==pretolerance| and |second_pass==final_pass==false|. -If this pass fails to find a -feasible solution, |threshold| is set to |tolerance|, |second_pass| is set -|true|, and an attempt is made to hyphenate as many words as possible. -If that fails too, we add |emergency_stretch| to the background -stretchability and set |final_pass==true|. - -@<Glob...@>= -pointer @!cur_p; /*the current breakpoint under consideration*/ -static bool @!second_pass; /*is this our second attempt to break this paragraph?*/ -static bool @!final_pass; /*is this our final attempt to break this paragraph?*/ -static int @!threshold; /*maximum badness on feasible lines*/ - -@ The heart of the line-breaking procedure is `|try_break|', a subroutine -that tests if the current breakpoint |cur_p| is feasible, by running -through the active list to see what lines of text can be made from active -nodes to~|cur_p|. If feasible breaks are possible, new break nodes are -created. If |cur_p| is too far from an active node, that node is -deactivated. - -The parameter |pi| to |try_break| is the penalty associated -with a break at |cur_p|; we have |pi==eject_penalty| if the break is forced, -and |pi==inf_penalty| if the break is illegal. - -The other parameter, |break_type|, is set to |hyphenated| or |unhyphenated|, -depending on whether or not the current break is at a |disc_node|. The -end of a paragraph is also regarded as `|hyphenated|'; this case is -distinguishable by the condition |cur_p==null|. - -@d copy_to_cur_active(A) cur_active_width[A]=active_width[A] -@<Declare subprocedures for |line_break|@>= -static void try_break(int @!pi, small_number @!break_type) -{@+ -pointer r; /*runs through the active list*/ -pointer @!prev_r; /*stays a step behind |r|*/ -halfword @!old_l; /*maximum line number in current equivalence class of lines*/ -bool @!no_break_yet; /*have we found a feasible break at |cur_p|?*/ -@<Other local variables for |try_break|@>@; -@<Make sure that |pi| is in the proper range@>; -no_break_yet=true;prev_r=active;old_l=0; -do_all_six(copy_to_cur_active); -loop@+{@+resume: r=link(prev_r); - @<If node |r| is of type |delta_node|, update |cur_active_width|, set |prev_r| and -|prev_prev_r|, then |goto continue|@>; - @<If a line number class has ended, create new active nodes for the best feasible -breaks in that class; then |return| if |r=last_active|, otherwise compute the new -|line_width|@>; - @<Consider the demerits for a line from |r| to |cur_p|; deactivate node |r| if it -should no longer be active; then |goto continue| if a line from |r| to |cur_p| is -infeasible, otherwise record a new feasible break@>; - } -end: ; -#ifdef @!STAT -@<Update the value of |printed_node| for symbolic displays@>; -#endif -@; -} - -@ @<Other local variables for |try_break|@>= -pointer @!prev_prev_r; /*a step behind |prev_r|, if |type(prev_r)==delta_node|*/ -pointer @!s; /*runs through nodes ahead of |cur_p|*/ -pointer @!q; /*points to a new node being created*/ -pointer @!v; /*points to a glue specification or a node ahead of |cur_p|*/ -int @!t; /*node count, if |cur_p| is a discretionary node*/ -internal_font_number @!f; /*used in character width calculation*/ -halfword @!l; /*line number of current active node*/ -bool @!node_r_stays_active; /*should node |r| remain in the active list?*/ -scaled @!line_width; /*the current line will be justified to this width*/ -int @!fit_class; /*possible fitness class of test line*/ -halfword @!b; /*badness of test line*/ -int @!d; /*demerits of test line*/ -bool @!artificial_demerits; /*has |d| been forced to zero?*/ -#ifdef @!STAT -pointer @!save_link; /*temporarily holds value of |link(cur_p)|*/ -#endif -scaled @!shortfall; /*used in badness calculations*/ - -@ @<Make sure that |pi| is in the proper range@>= -if (abs(pi) >= inf_penalty) - if (pi > 0) goto end; /*this breakpoint is inhibited by infinite penalty*/ - else pi=eject_penalty /*this breakpoint will be forced*/ - -@ The following code uses the fact that |type(last_active)!=delta_node|. - -@d update_width(A) @| - cur_active_width[A]=cur_active_width[A]+mem[r+A].sc - -@<If node |r|...@>= -@^inner loop@> -if (type(r)==delta_node) - {@+do_all_six(update_width); - prev_prev_r=prev_r;prev_r=r;goto resume; - } - -@ As we consider various ways to end a line at |cur_p|, in a given line number -class, we keep track of the best total demerits known, in an array with -one entry for each of the fitness classifications. For example, -|minimal_demerits[tight_fit]| contains the fewest total demerits of feasible -line breaks ending at |cur_p| with a |tight_fit| line; |best_place[tight_fit]| -points to the passive node for the break before~|cur_p| that achieves such -an optimum; and |best_pl_line[tight_fit]| is the |line_number| field in the -active node corresponding to |best_place[tight_fit]|. When no feasible break -sequence is known, the |minimal_demerits| entries will be equal to -|awful_bad|, which is $2^{30}-1$. Another variable, |minimum_demerits|, -keeps track of the smallest value in the |minimal_demerits| array. - -@d awful_bad 07777777777 /*more than a billion demerits*/ - -@<Global...@>= -static int @!minimal_demerits0[tight_fit-very_loose_fit+1], *const @!minimal_demerits = @!minimal_demerits0-very_loose_fit; /*best total - demerits known for current line class and position, given the fitness*/ -static int @!minimum_demerits; /*best total demerits known for current line class - and position*/ -static pointer @!best_place0[tight_fit-very_loose_fit+1], *const @!best_place = @!best_place0-very_loose_fit; /*how to achieve - |minimal_demerits|*/ -static halfword @!best_pl_line0[tight_fit-very_loose_fit+1], *const @!best_pl_line = @!best_pl_line0-very_loose_fit; /*corresponding - line number*/ - -@ @<Get ready to start...@>= -minimum_demerits=awful_bad; -minimal_demerits[tight_fit]=awful_bad; -minimal_demerits[decent_fit]=awful_bad; -minimal_demerits[loose_fit]=awful_bad; -minimal_demerits[very_loose_fit]=awful_bad; - -@ The first part of the following code is part of \TeX's inner loop, so -we don't want to waste any time. The current active node, namely node |r|, -contains the line number that will be considered next. At the end of the -list we have arranged the data structure so that |r==last_active| and -|line_number(last_active) > old_l|. -@^inner loop@> - -@<If a line number class...@>= -{@+l=line_number(r); -if (l > old_l) - {@+ /*now we are no longer in the inner loop*/ - if ((minimum_demerits < awful_bad)&&@| - ((old_l!=easy_line)||(r==last_active))) - @<Create new active nodes for the best feasible breaks just found@>; - if (r==last_active) goto end; - @<Compute the new line width@>; - } -} - -@ It is not necessary to create new active nodes having |minimal_demerits| -greater than -|minimum_demerits+abs(adj_demerits)|, since such active nodes will never -be chosen in the final paragraph breaks. This observation allows us to -omit a substantial number of feasible breakpoints from further consideration. - -@<Create new active nodes...@>= -{@+if (no_break_yet) @<Compute the values of |break_width|@>; -@<Insert a delta node to prepare for breaks at |cur_p|@>; -if (abs(adj_demerits) >= awful_bad-minimum_demerits) - minimum_demerits=awful_bad-1; -else minimum_demerits=minimum_demerits+abs(adj_demerits); -for (fit_class=very_loose_fit; fit_class<=tight_fit; fit_class++) - {@+if (minimal_demerits[fit_class] <= minimum_demerits) - @<Insert a new active node from |best_place[fit_class]| to |cur_p|@>; - minimal_demerits[fit_class]=awful_bad; - } -minimum_demerits=awful_bad; -@<Insert a delta node to prepare for the next active node@>; -} - -@ When we insert a new active node for a break at |cur_p|, suppose this -new node is to be placed just before active node |a|; then we essentially -want to insert `$\delta\,|cur_p|\,\delta^\prime$' before |a|, where -$\delta=\alpha(a)-\alpha(|cur_p|)$ and $\delta^\prime=\alpha(|cur_p|)-\alpha(a)$ -in the notation explained above. The |cur_active_width| array now holds -$\gamma+\beta(|cur_p|)-\alpha(a)$; so $\delta$ can be obtained by -subtracting |cur_active_width| from the quantity $\gamma+\beta(|cur_p|)- -\alpha(|cur_p|)$. The latter quantity can be regarded as the length of a -line ``from |cur_p| to |cur_p|''; we call it the |break_width| at |cur_p|. - -The |break_width| is usually negative, since it consists of the background -(which is normally zero) minus the width of nodes following~|cur_p| that are -eliminated after a break. If, for example, node |cur_p| is a glue node, the -width of this glue is subtracted from the background; and we also look -ahead to eliminate all subsequent glue and penalty and kern and math -nodes, subtracting their widths as well. - -Kern nodes do not disappear at a line break unless they are |explicit|. - -@d set_break_width_to_background(A) break_width[A]=background[A] - -@<Compute the values of |break...@>= -{@+no_break_yet=false;do_all_six(set_break_width_to_background); -s=cur_p; -if (break_type > unhyphenated) if (cur_p!=null) - @<Compute the discretionary |break_width| values@>; -while (s!=null) - {@+if (is_char_node(s)) goto done; - switch (type(s)) { - case glue_node: @<Subtract glue from |break_width|@>@;@+break; - case penalty_node: do_nothing;@+break; - case math_node: break_width[1]=break_width[1]-width(s);@+break; - case kern_node: if (subtype(s)!=explicit) goto done; - else break_width[1]=break_width[1]-width(s);@+break; - default:goto done; - } @/ - s=link(s); - } -done: ;} - -@ @<Subtract glue from |break...@>= -{@+v=glue_ptr(s);break_width[1]=break_width[1]-width(v); -break_width[2+stretch_order(v)]=break_width[2+stretch_order(v)]-stretch(v); -break_width[6]=break_width[6]-shrink(v); -} - -@ When |cur_p| is a discretionary break, the length of a line ``from |cur_p| to -|cur_p|'' has to be defined properly so that the other calculations work out. -Suppose that the pre-break text at |cur_p| has length $l_0$, the post-break -text has length $l_1$, and the replacement text has length |l|. Suppose -also that |q| is the node following the replacement text. Then length of a -line from |cur_p| to |q| will be computed as $\gamma+\beta(q)-\alpha(|cur_p|)$, -where $\beta(q)=\beta(|cur_p|)-l_0+l$. The actual length will be the background -plus $l_1$, so the length from |cur_p| to |cur_p| should be $\gamma+l_0+l_1-l$. -If the post-break text of the discretionary is empty, a break may also -discard~|q|; in that unusual case we subtract the length of~|q| and any -other nodes that will be discarded after the discretionary break. - -The value of $l_0$ need not be computed, since |line_break| will put -it into the global variable |disc_width| before calling |try_break|. - -@<Glob...@>= -static scaled @!disc_width; /*the length of discretionary material preceding a break*/ - -@ @<Compute the discretionary |break...@>= -{@+t=replace_count(cur_p);v=cur_p;s=post_break(cur_p); -while (t > 0) - {@+decr(t);v=link(v); - @<Subtract the width of node |v| from |break_width|@>; - } -while (s!=null) - {@+@<Add the width of node |s| to |break_width|@>; - s=link(s); - } -break_width[1]=break_width[1]+disc_width; -if (post_break(cur_p)==null) s=link(v); - /*nodes may be discardable after the break*/ -} - -@ Replacement texts and discretionary texts are supposed to contain -only character nodes, kern nodes, ligature nodes, and box or rule nodes. - -@<Subtract the width of node |v|...@>= -if (is_char_node(v)) - {@+f=font(v); - break_width[1]=break_width[1]-char_width(f, char_info(f, character(v))); - } -else switch (type(v)) { - case ligature_node: {@+f=font(lig_char(v));@/ - break_width[1]=@|break_width[1]- - char_width(f, char_info(f, character(lig_char(v)))); - } @+break; - case hlist_node: case vlist_node: case rule_node: case kern_node: - break_width[1]=break_width[1]-width(v);@+break; - default:confusion("disc1"); -@:this can't happen disc1}{\quad disc1@> - } - -@ @<Add the width of node |s| to |b...@>= -if (is_char_node(s)) - {@+f=font(s); - break_width[1]=@|break_width[1]+char_width(f, char_info(f, character(s))); - } -else switch (type(s)) { - case ligature_node: {@+f=font(lig_char(s)); - break_width[1]=break_width[1]+ - char_width(f, char_info(f, character(lig_char(s)))); - } @+break; - case hlist_node: case vlist_node: case rule_node: case kern_node: - break_width[1]=break_width[1]+width(s);@+break; - default:confusion("disc2"); -@:this can't happen disc2}{\quad disc2@> - } - -@ We use the fact that |type(active)!=delta_node|. - -@d convert_to_break_width(A) @| - mem[prev_r+A].sc=@|@t\hskip10pt@>mem[prev_r+A].sc - -cur_active_width[A]+break_width[A] -@d store_break_width(A) active_width[A]=break_width[A] -@d new_delta_to_break_width(A) @| - mem[q+A].sc=break_width[A]-cur_active_width[A] - -@<Insert a delta node to prepare for breaks at |cur_p|@>= -if (type(prev_r)==delta_node) /*modify an existing delta node*/ - {@+do_all_six(convert_to_break_width); - } -else if (prev_r==active) /*no delta node needed at the beginning*/ - {@+do_all_six(store_break_width); - } -else{@+q=get_node(delta_node_size);link(q)=r;type(q)=delta_node;@/ - subtype(q)=0; /*the |subtype| is not used*/ - do_all_six(new_delta_to_break_width); - link(prev_r)=q;prev_prev_r=prev_r;prev_r=q; - } - -@ When the following code is performed, we will have just inserted at -least one active node before |r|, so |type(prev_r)!=delta_node|. - -@d new_delta_from_break_width(A) @|mem[q+A].sc= - cur_active_width[A]-break_width[A] - -@<Insert a delta node to prepare for the next active node@>= -if (r!=last_active) - {@+q=get_node(delta_node_size);link(q)=r;type(q)=delta_node;@/ - subtype(q)=0; /*the |subtype| is not used*/ - do_all_six(new_delta_from_break_width); - link(prev_r)=q;prev_prev_r=prev_r;prev_r=q; - } - -@ When we create an active node, we also create the corresponding -passive node. - -@<Insert a new active node from |best_place[fit_class]| to |cur_p|@>= -{@+q=get_node(passive_node_size); -link(q)=passive;passive=q;cur_break(q)=cur_p; -#ifdef @!STAT -incr(pass_number);serial(q)=pass_number; -#endif -@;@/ -prev_break(q)=best_place[fit_class];@/ -q=get_node(active_node_size);break_node(q)=passive; -line_number(q)=best_pl_line[fit_class]+1; -fitness(q)=fit_class;type(q)=break_type; -total_demerits(q)=minimal_demerits[fit_class]; -link(q)=r;link(prev_r)=q;prev_r=q; -#ifdef @!STAT -if (tracing_paragraphs > 0) - @<Print a symbolic description of the new break node@>; -#endif -@;@/ -} - -@ @<Print a symbolic description of the new break node@>= -{@+print_nl("@@@@");print_int(serial(passive)); -@.\AT\AT@> -print(": line ");print_int(line_number(q)-1); -print_char('.');print_int(fit_class); -if (break_type==hyphenated) print_char('-'); -print(" t=");print_int(total_demerits(q)); -print(" -> @@@@"); -if (prev_break(passive)==null) print_char('0'); -else print_int(serial(prev_break(passive))); -} - -@ The length of lines depends on whether the user has specified -\.{\\parshape} or \.{\\hangindent}. If |par_shape_ptr| is not null, it -points to a $(2n+1)$-word record in |mem|, where the |info| in the first -word contains the value of |n|, and the other $2n$ words contain the left -margins and line lengths for the first |n| lines of the paragraph; the -specifications for line |n| apply to all subsequent lines. If -|par_shape_ptr==null|, the shape of the paragraph depends on the value of -|n==hang_after|; if |n >= 0|, hanging indentation takes place on lines |n+1|, -|n+2|, \dots, otherwise it takes place on lines 1, \dots, $\vert -n\vert$. When hanging indentation is active, the left margin is -|hang_indent|, if |hang_indent >= 0|, else it is 0; the line length is -$|hsize|-\vert|hang_indent|\vert$. The normal setting is -|par_shape_ptr==null|, |hang_after==1|, and |hang_indent==0|. -Note that if |hang_indent==0|, the value of |hang_after| is irrelevant. -@^length of lines@> @^hanging indentation@> - -@<Glob...@>= -static halfword @!easy_line; /*line numbers | > easy_line| are equivalent in break nodes*/ -halfword @!last_special_line; /*line numbers | > last_special_line| all have - the same width*/ -static scaled @!first_width; /*the width of all lines | <= last_special_line|, if - no \.{\\parshape} has been specified*/ -scaled @!second_width; /*the width of all lines | > last_special_line|*/ -static scaled @!first_indent; /*left margin to go with |first_width|*/ -scaled @!second_indent; /*left margin to go with |second_width|*/ - -@ We compute the values of |easy_line| and the other local variables relating -to line length when the |line_break| procedure is initializing itself. - -@<Get ready to start...@>= -if (par_shape_ptr==null) - if (hang_indent==0) - {@+last_special_line=0;second_width=hsize; - second_indent=0; - } - else@<Set line length parameters in preparation for hanging indentation@>@; -else{@+last_special_line=info(par_shape_ptr)-1; - second_width=mem[par_shape_ptr+2*(last_special_line+1)].sc; - second_indent=mem[par_shape_ptr+2*last_special_line+1].sc; - } -if (looseness==0) easy_line=last_special_line; -else easy_line=max_halfword - -@ @<Set line length parameters in preparation for hanging indentation@>= -{@+last_special_line=abs(hang_after); -if (hang_after < 0) - {@+first_width=hsize-abs(hang_indent); - if (hang_indent >= 0) first_indent=hang_indent; - else first_indent=0; - second_width=hsize;second_indent=0; - } -else{@+first_width=hsize;first_indent=0; - second_width=hsize-abs(hang_indent); - if (hang_indent >= 0) second_indent=hang_indent; - else second_indent=0; - } -} - -@ When we come to the following code, we have just encountered the first -active node~|r| whose |line_number| field contains |l|. Thus we want to -compute the length of the $l\mskip1mu$th line of the current paragraph. Furthermore, -we want to set |old_l| to the last number in the class of line numbers -equivalent to~|l|. - -@<Compute the new line width@>= -if (l > easy_line) - {@+line_width=second_width;old_l=max_halfword-1; - } -else{@+old_l=l; - if (l > last_special_line) line_width=second_width; - else if (par_shape_ptr==null) line_width=first_width; - else line_width=mem[par_shape_ptr+2*l@,].sc; - } - -@ The remaining part of |try_break| deals with the calculation of -demerits for a break from |r| to |cur_p|. - -The first thing to do is calculate the badness, |b|. This value will always -be between zero and |inf_bad+1|; the latter value occurs only in the -case of lines from |r| to |cur_p| that cannot shrink enough to fit the necessary -width. In such cases, node |r| will be deactivated. -We also deactivate node~|r| when a break at~|cur_p| is forced, since future -breaks must go through a forced break. - -@<Consider the demerits for a line from |r| to |cur_p|...@>= -{@+artificial_demerits=false;@/ -@^inner loop@> -shortfall=line_width-cur_active_width[1]; /*we're this much too short*/ -if (shortfall > 0) - @<Set the value of |b| to the badness for stretching the line, and compute the corresponding -|fit_class|@>@; -else@<Set the value of |b| to the badness for shrinking the line, and compute the -corresponding |fit_class|@>; -if ((b > inf_bad)||(pi==eject_penalty)) - @<Prepare to deactivate node~|r|, and |goto deactivate| unless there is a reason -to consider lines of text from |r| to |cur_p|@>@; -else{@+prev_r=r; - if (b > threshold) goto resume; - node_r_stays_active=true; - } -@<Record a new feasible break@>; -if (node_r_stays_active) goto resume; /*|prev_r| has been set to |r|*/ -deactivate: @<Deactivate node |r|@>; -} - -@ When a line must stretch, the available stretchability can be found in the -subarray |cur_active_width[2 dotdot 5]|, in units of points, fil, fill, and filll. - -The present section is part of \TeX's inner loop, and it is most often performed -when the badness is infinite; therefore it is worth while to make a quick -test for large width excess and small stretchability, before calling the -|badness| subroutine. -@^inner loop@> - -@<Set the value of |b| to the badness for stretching...@>= -if ((cur_active_width[3]!=0)||(cur_active_width[4]!=0)||@| - (cur_active_width[5]!=0)) - {@+b=0;fit_class=decent_fit; /*infinite stretch*/ - } -else{@+if (shortfall > 7230584) if (cur_active_width[2] < 1663497) - {@+b=inf_bad;fit_class=very_loose_fit;goto done1; - } - b=badness(shortfall, cur_active_width[2]); - if (b > 12) - if (b > 99) fit_class=very_loose_fit; - else fit_class=loose_fit; - else fit_class=decent_fit; - done1: ; - } - -@ Shrinkability is never infinite in a paragraph; -we can shrink the line from |r| to |cur_p| by at most |cur_active_width[6]|. - -@<Set the value of |b| to the badness for shrinking...@>= -{@+if (-shortfall > cur_active_width[6]) b=inf_bad+1; -else b=badness(-shortfall, cur_active_width[6]); -if (b > 12) fit_class=tight_fit;@+else fit_class=decent_fit; -} - -@ During the final pass, we dare not lose all active nodes, lest we lose -touch with the line breaks already found. The code shown here makes sure -that such a catastrophe does not happen, by permitting overfull boxes as -a last resort. This particular part of \TeX\ was a source of several subtle -bugs before the correct program logic was finally discovered; readers -who seek to ``improve'' \TeX\ should therefore think thrice before daring -to make any changes here. -@^overfull boxes@> - -@<Prepare to deactivate node~|r|, and |goto deactivate| unless...@>= -{@+if (final_pass&&(minimum_demerits==awful_bad)&&@| - (link(r)==last_active)&& - (prev_r==active)) - artificial_demerits=true; /*set demerits zero, this break is forced*/ -else if (b > threshold) goto deactivate; -node_r_stays_active=false; -} - -@ When we get to this part of the code, the line from |r| to |cur_p| is -feasible, its badness is~|b|, and its fitness classification is |fit_class|. -We don't want to make an active node for this break yet, but we will -compute the total demerits and record them in the |minimal_demerits| array, -if such a break is the current champion among all ways to get to |cur_p| -in a given line-number class and fitness class. - -@<Record a new feasible break@>= -if (artificial_demerits) d=0; -else@<Compute the demerits, |d|, from |r| to |cur_p|@>; -#ifdef @!STAT -if (tracing_paragraphs > 0) - @<Print a symbolic description of this feasible break@>; -#endif -@;@/ -d=d+total_demerits(r); /*this is the minimum total demerits - from the beginning to |cur_p| via |r|*/ -if (d <= minimal_demerits[fit_class]) - {@+minimal_demerits[fit_class]=d; - best_place[fit_class]=break_node(r);best_pl_line[fit_class]=l; - if (d < minimum_demerits) minimum_demerits=d; - } - -@ @<Print a symbolic description of this feasible break@>= -{@+if (printed_node!=cur_p) - @<Print the list between |printed_node| and |cur_p|, then set |printed_node:=cur_p|@>; -print_nl("@@"); -@.\AT@> -if (cur_p==null) print_esc("par"); -else if (type(cur_p)!=glue_node) - {@+if (type(cur_p)==penalty_node) print_esc("penalty"); - else if (type(cur_p)==disc_node) print_esc("discretionary"); - else if (type(cur_p)==kern_node) print_esc("kern"); - else print_esc("math"); - } -print(" via @@@@"); -if (break_node(r)==null) print_char('0'); -else print_int(serial(break_node(r))); -print(" b="); -if (b > inf_bad) print_char('*');@+else print_int(b); -@.*\relax@> -print(" p=");print_int(pi);print(" d="); -if (artificial_demerits) print_char('*');@+else print_int(d); -} - -@ @<Print the list between |printed_node| and |cur_p|...@>= -{@+print_nl(""); -if (cur_p==null) short_display(link(printed_node)); -else{@+save_link=link(cur_p); - link(cur_p)=null;print_nl("");short_display(link(printed_node)); - link(cur_p)=save_link; - } -printed_node=cur_p; -} - -@ When the data for a discretionary break is being displayed, we will have -printed the |pre_break| and |post_break| lists; we want to skip over the -third list, so that the discretionary data will not appear twice. The -following code is performed at the very end of |try_break|. - -@<Update the value of |printed_node|...@>= -if (cur_p==printed_node) if (cur_p!=null) if (type(cur_p)==disc_node) - {@+t=replace_count(cur_p); - while (t > 0) - {@+decr(t);printed_node=link(printed_node); - } - } - -@ @<Compute the demerits, |d|, from |r| to |cur_p|@>= -{@+d=line_penalty+b; -if (abs(d) >= 10000) d=100000000;@+else d=d*d; -if (pi!=0) - if (pi > 0) d=d+pi*pi; - else if (pi > eject_penalty) d=d-pi*pi; -if ((break_type==hyphenated)&&(type(r)==hyphenated)) - if (cur_p!=null) d=d+double_hyphen_demerits; - else d=d+final_hyphen_demerits; -if (abs(fit_class-fitness(r)) > 1) d=d+adj_demerits; -} - -@ When an active node disappears, we must delete an adjacent delta node if the -active node was at the beginning or the end of the active list, or if it -was surrounded by delta nodes. We also must preserve the property that -|cur_active_width| represents the length of material from |link(prev_r)| -to~|cur_p|. - -@d combine_two_deltas(A) @|mem[prev_r+A].sc=mem[prev_r+A].sc+mem[r+A].sc -@d downdate_width(A) @|cur_active_width[A]=cur_active_width[A]- - mem[prev_r+A].sc - -@<Deactivate node |r|@>= -link(prev_r)=link(r);free_node(r, active_node_size); -if (prev_r==active) @<Update the active widths, since the first active node has been -deleted@>@; -else if (type(prev_r)==delta_node) - {@+r=link(prev_r); - if (r==last_active) - {@+do_all_six(downdate_width); - link(prev_prev_r)=last_active; - free_node(prev_r, delta_node_size);prev_r=prev_prev_r; - } - else if (type(r)==delta_node) - {@+do_all_six(update_width); - do_all_six(combine_two_deltas); - link(prev_r)=link(r);free_node(r, delta_node_size); - } - } - -@ The following code uses the fact that |type(last_active)!=delta_node|. If the -active list has just become empty, we do not need to update the -|active_width| array, since it will be initialized when an active -node is next inserted. - -@d update_active(A) active_width[A]=active_width[A]+mem[r+A].sc - -@<Update the active widths,...@>= -{@+r=link(active); -if (type(r)==delta_node) - {@+do_all_six(update_active); - do_all_six(copy_to_cur_active); - link(active)=link(r);free_node(r, delta_node_size); - } -} - -@* Breaking paragraphs into lines, continued. -So far we have gotten a little way into the |line_break| routine, having -covered its important |try_break| subroutine. Now let's consider the -rest of the process. - -The main loop of |line_break| traverses the given hlist, -starting at |link(temp_head)|, and calls |try_break| at each legal -breakpoint. A variable called |auto_breaking| is set to true except -within math formulas, since glue nodes are not legal breakpoints when -they appear in formulas. - -The current node of interest in the hlist is pointed to by |cur_p|. Another -variable, |prev_p|, is usually one step behind |cur_p|, but the real -meaning of |prev_p| is this: If |type(cur_p)==glue_node| then |cur_p| is a legal -breakpoint if and only if |auto_breaking| is true and |prev_p| does not -point to a glue node, penalty node, explicit kern node, or math node. - -The following declarations provide for a few other local variables that are -used in special calculations. - -@<Local variables for line breaking@>= -bool @!auto_breaking; /*is node |cur_p| outside a formula?*/ -pointer @!prev_p; /*helps to determine when glue nodes are breakpoints*/ -pointer @!q, @!r, @!s, @!prev_s; /*miscellaneous nodes of temporary interest*/ -internal_font_number @!f; /*used when calculating character widths*/ - -@ The `\ignorespaces|loop|\unskip' in the following code is performed at most -thrice per call of |line_break|, since it is actually a pass over the -entire paragraph. - -@<Find optimal breakpoints@>= -threshold=pretolerance; -if (threshold >= 0) - { -#ifdef @!STAT -if (tracing_paragraphs > 0) - {@+begin_diagnostic();print_nl("@@firstpass");@+} @; -#endif -@;@/ - second_pass=false;final_pass=false; - } -else{@+threshold=tolerance;second_pass=true; - final_pass=(emergency_stretch <= 0); -#ifdef @!STAT - if (tracing_paragraphs > 0) begin_diagnostic(); -#endif -@; - } -loop@+{@+if (threshold > inf_bad) threshold=inf_bad; - if (second_pass) @<Initialize for hyphenating a paragraph@>; - @<Create an active breakpoint representing the beginning of the paragraph@>; - cur_p=link(temp_head);auto_breaking=true;@/ - prev_p=cur_p; /*glue at beginning is not a legal breakpoint*/ - while ((cur_p!=null)&&(link(active)!=last_active)) - @<Call |try_break| if |cur_p| is a legal breakpoint; on the second pass, also -try to hyphenate the next word, if |cur_p| is a glue node; then advance |cur_p| to -the next node of the paragraph that could possibly be a legal breakpoint@>; - if (cur_p==null) - @<Try the final line break at the end of the paragraph, and |goto done| if the -desired breakpoints have been found@>; - @<Clean up the memory by removing the break nodes@>; - if (!second_pass) - { -#ifdef @!STAT -if (tracing_paragraphs > 0) print_nl("@@secondpass");@; -#endif - threshold=tolerance;second_pass=true;final_pass=(emergency_stretch <= 0); - } /*if at first you don't succeed, \dots*/ - else{ -#ifdef @!STAT -if (tracing_paragraphs > 0) - print_nl("@@emergencypass");@; -#endif - background[2]=background[2]+emergency_stretch;final_pass=true; - } - } -done: -#ifdef @!STAT -if (tracing_paragraphs > 0) - {@+end_diagnostic(true);normalize_selector(); - } -#endif - -@ The active node that represents the starting point does not need a -corresponding passive node. - -@d store_background(A) active_width[A]=background[A] - -@<Create an active breakpoint representing the beginning of the paragraph@>= -q=get_node(active_node_size); -type(q)=unhyphenated;fitness(q)=decent_fit; -link(q)=last_active;break_node(q)=null; -line_number(q)=prev_graf+1;total_demerits(q)=0;link(active)=q; -do_all_six(store_background);@/ -passive=null;printed_node=temp_head;pass_number=0; -font_in_short_display=null_font - -@ @<Clean...@>= -q=link(active); -while (q!=last_active) - {@+cur_p=link(q); - if (type(q)==delta_node) free_node(q, delta_node_size); - else free_node(q, active_node_size); - q=cur_p; - } -q=passive; -while (q!=null) - {@+cur_p=link(q); - free_node(q, passive_node_size); - q=cur_p; - } - -@ Here is the main switch in the |line_break| routine, where legal breaks -are determined. As we move through the hlist, we need to keep the |active_width| -array up to date, so that the badness of individual lines is readily calculated -by |try_break|. It is convenient to use the short name |act_width| for -the component of active width that represents real width as opposed to glue. - -@d act_width active_width[1] /*length from first active node to current node*/ -@d kern_break {@+if (!is_char_node(link(cur_p))&&auto_breaking) - if (type(link(cur_p))==glue_node) try_break(0, unhyphenated); - act_width=act_width+width(cur_p); - } - -@<Call |try_break| if |cur_p| is a legal breakpoint...@>= -{@+if (is_char_node(cur_p)) - @<Advance \(c)|cur_p| to the node following the present string of characters@>; -switch (type(cur_p)) { -case hlist_node: case vlist_node: case rule_node: act_width=act_width+width(cur_p);@+break; -case whatsit_node: @<Advance \(p)past a whatsit node in the \(l)|line_break| loop@>@;@+break; -case glue_node: {@+@<If node |cur_p| is a legal breakpoint, call |try_break|; then -update the active widths by including the glue in |glue_ptr(cur_p)|@>; - if (second_pass&&auto_breaking) - hyphenate_word(); - } @+break; -case kern_node: if (subtype(cur_p)==explicit) kern_break@; - else act_width=act_width+width(cur_p);@+break; -case ligature_node: {@+f=font(lig_char(cur_p)); - act_width=act_width+char_width(f, char_info(f, character(lig_char(cur_p)))); - } @+break; -case disc_node: @<Try to break after a discretionary fragment, then |goto done5|@>@; -case math_node: {@+auto_breaking=(subtype(cur_p)==after);kern_break; - } @+break; -case penalty_node: try_break(penalty(cur_p), unhyphenated);@+break; -case mark_node: case ins_node: case adjust_node: do_nothing;@+break; -default:confusion("paragraph"); -@:this can't happen paragraph}{\quad paragraph@> -} @/ -prev_p=cur_p;cur_p=link(cur_p); -done5: ;} - -@ The code that passes over the characters of words in a paragraph is -part of \TeX's inner loop, so it has been streamlined for speed. We use -the fact that `\.{\\parfillskip}' glue appears at the end of each paragraph; -it is therefore unnecessary to check if |link(cur_p)==null| when |cur_p| is a -character node. -@^inner loop@> - -@<Advance \(c)|cur_p| to the node following the present string...@>= -{@+prev_p=cur_p; -@/do@+{f=font(cur_p); -act_width=act_width+char_width(f, char_info(f, character(cur_p))); -cur_p=link(cur_p); -}@+ while (!(!is_char_node(cur_p))); -} - -@ When node |cur_p| is a glue node, we look at |prev_p| to see whether or not -a breakpoint is legal at |cur_p|, as explained above. - -@<If node |cur_p| is a legal breakpoint, call...@>= -if (auto_breaking) - {@+if (is_char_node(prev_p)) try_break(0, unhyphenated); - else if (precedes_break(prev_p)) try_break(0, unhyphenated); - else if ((type(prev_p)==kern_node)&&(subtype(prev_p)!=explicit)) - try_break(0, unhyphenated); - } -check_shrinkage(glue_ptr(cur_p));q=glue_ptr(cur_p); -act_width=act_width+width(q);@| -active_width[2+stretch_order(q)]=@| - active_width[2+stretch_order(q)]+stretch(q);@/ -active_width[6]=active_width[6]+shrink(q) - -@ The following code knows that discretionary texts contain -only character nodes, kern nodes, box nodes, rule nodes, and ligature nodes. - -@<Try to break after a discretionary fragment...@>= -{@+s=pre_break(cur_p);disc_width=0; -if (s==null) try_break(ex_hyphen_penalty, hyphenated); -else{@+@/do@+{@<Add the width of node |s| to |disc_width|@>; - s=link(s); - }@+ while (!(s==null)); - act_width=act_width+disc_width; - try_break(hyphen_penalty, hyphenated); - act_width=act_width-disc_width; - } -r=replace_count(cur_p);s=link(cur_p); -while (r > 0) - {@+@<Add the width of node |s| to |act_width|@>; - decr(r);s=link(s); - } -prev_p=cur_p;cur_p=s;goto done5; -} - -@ @<Add the width of node |s| to |disc_width|@>= -if (is_char_node(s)) - {@+f=font(s); - disc_width=disc_width+char_width(f, char_info(f, character(s))); - } -else switch (type(s)) { - case ligature_node: {@+f=font(lig_char(s)); - disc_width=disc_width+ - char_width(f, char_info(f, character(lig_char(s)))); - } @+break; - case hlist_node: case vlist_node: case rule_node: case kern_node: - disc_width=disc_width+width(s);@+break; - default:confusion("disc3"); -@:this can't happen disc3}{\quad disc3@> - } - -@ @<Add the width of node |s| to |act_width|@>= -if (is_char_node(s)) - {@+f=font(s); - act_width=act_width+char_width(f, char_info(f, character(s))); - } -else switch (type(s)) { - case ligature_node: {@+f=font(lig_char(s)); - act_width=act_width+ - char_width(f, char_info(f, character(lig_char(s)))); - } @+break; - case hlist_node: case vlist_node: case rule_node: case kern_node: - act_width=act_width+width(s);@+break; - default:confusion("disc4"); -@:this can't happen disc4}{\quad disc4@> - } - -@ The forced line break at the paragraph's end will reduce the list of -breakpoints so that all active nodes represent breaks at |cur_p==null|. -On the first pass, we insist on finding an active node that has the -correct ``looseness.'' On the final pass, there will be at least one active -node, and we will match the desired looseness as well as we can. - -The global variable |best_bet| will be set to the active node for the best -way to break the paragraph, and a few other variables are used to -help determine what is best. - -@<Glob...@>= -static pointer @!best_bet; /*use this passive node and its predecessors*/ -static int @!fewest_demerits; /*the demerits associated with |best_bet|*/ -static halfword @!best_line; /*line number following the last line of the new paragraph*/ -static int @!actual_looseness; /*the difference between |line_number(best_bet)| - and the optimum |best_line|*/ -static int @!line_diff; /*the difference between the current line number and - the optimum |best_line|*/ - -@ @<Try the final line break at the end of the paragraph...@>= -{@+try_break(eject_penalty, hyphenated); -if (link(active)!=last_active) - {@+@<Find an active node with fewest demerits@>; - if (looseness==0) goto done; - @<Find the best active node for the desired looseness@>; - if ((actual_looseness==looseness)||final_pass) goto done; - } -} - -@ @<Find an active node...@>= -r=link(active);fewest_demerits=awful_bad; -@/do@+{if (type(r)!=delta_node) if (total_demerits(r) < fewest_demerits) - {@+fewest_demerits=total_demerits(r);best_bet=r; - } -r=link(r); -}@+ while (!(r==last_active)); -best_line=line_number(best_bet) - -@ The adjustment for a desired looseness is a slightly more complicated -version of the loop just considered. Note that if a paragraph is broken -into segments by displayed equations, each segment will be subject to the -looseness calculation, independently of the other segments. - -@<Find the best active node...@>= -{@+r=link(active);actual_looseness=0; -@/do@+{if (type(r)!=delta_node) - {@+line_diff=line_number(r)-best_line; - if (((line_diff < actual_looseness)&&(looseness <= line_diff))||@| - ((line_diff > actual_looseness)&&(looseness >= line_diff))) - {@+best_bet=r;actual_looseness=line_diff; - fewest_demerits=total_demerits(r); - } - else if ((line_diff==actual_looseness)&&@| - (total_demerits(r) < fewest_demerits)) - {@+best_bet=r;fewest_demerits=total_demerits(r); - } - } -r=link(r); -}@+ while (!(r==last_active)); -best_line=line_number(best_bet); -} - -@ Once the best sequence of breakpoints has been found (hurray), we call on the -procedure |post_line_break| to finish the remainder of the work. -(By introducing this subprocedure, we are able to keep |line_break| -from getting extremely long.) - -@<Break the paragraph at the chosen...@>= -post_line_break(final_widow_penalty) - -@ The total number of lines that will be set by |post_line_break| -is |best_line-prev_graf-1|. The last breakpoint is specified by -|break_node(best_bet)|, and this passive node points to the other breakpoints -via the |prev_break| links. The finishing-up phase starts by linking the -relevant passive nodes in forward order, changing |prev_break| to -|next_break|. (The |next_break| fields actually reside in the same memory -space as the |prev_break| fields did, but we give them a new name because -of their new significance.) Then the lines are justified, one by one. - -@d next_break prev_break /*new name for |prev_break| after links are reversed*/ - -@<Declare subprocedures for |line_break|@>= -static void post_line_break(int @!final_widow_penalty) -{@+ -pointer q, @!r, @!s; /*temporary registers for list manipulation*/ -bool @!disc_break; /*was the current break at a discretionary node?*/ -bool @!post_disc_break; /*and did it have a nonempty post-break part?*/ -scaled @!cur_width; /*width of line number |cur_line|*/ -scaled @!cur_indent; /*left margin of line number |cur_line|*/ -quarterword @!t; /*used for replacement counts in discretionary nodes*/ -int @!pen; /*use when calculating penalties between lines*/ -halfword @!cur_line; /*the current line number being justified*/ -@<Reverse the links of the relevant passive nodes, setting |cur_p| to the first breakpoint@>; -cur_line=prev_graf+1; -@/do@+{@<Justify the line ending at breakpoint |cur_p|, and append it to the current -vertical list, together with associated penalties and other insertions@>; -incr(cur_line);cur_p=next_break(cur_p); -if (cur_p!=null) if (!post_disc_break) - @<Prune unwanted nodes at the beginning of the next line@>; -}@+ while (!(cur_p==null)); -if ((cur_line!=best_line)||(link(temp_head)!=null)) - confusion("line breaking"); -@:this can't happen line breaking}{\quad line breaking@> -prev_graf=best_line-1; -} - -@ The job of reversing links in a list is conveniently regarded as the job -of taking items off one stack and putting them on another. In this case we -take them off a stack pointed to by |q| and having |prev_break| fields; -we put them on a stack pointed to by |cur_p| and having |next_break| fields. -Node |r| is the passive node being moved from stack to stack. - -@<Reverse the links of the relevant passive nodes...@>= -q=break_node(best_bet);cur_p=null; -@/do@+{r=q;q=prev_break(q);next_break(r)=cur_p;cur_p=r; -}@+ while (!(q==null)) - -@ Glue and penalty and kern and math nodes are deleted at the beginning of -a line, except in the anomalous case that the node to be deleted is actually -one of the chosen breakpoints. Otherwise -the pruning done here is designed to match -the lookahead computation in |try_break|, where the |break_width| values -are computed for non-discretionary breakpoints. - -@<Prune unwanted nodes at the beginning of the next line@>= -{@+r=temp_head; -loop@+{@+q=link(r); - if (q==cur_break(cur_p)) goto done1; - /*|cur_break(cur_p)| is the next breakpoint*/ - /*now |q| cannot be |null|*/ - if (is_char_node(q)) goto done1; - if (non_discardable(q)) goto done1; - if (type(q)==kern_node) if (subtype(q)!=explicit) goto done1; - r=q; /*now |type(q)==glue_node|, |kern_node|, |math_node|, or |penalty_node|*/ - } -done1: if (r!=temp_head) - {@+link(r)=null;flush_node_list(link(temp_head)); - link(temp_head)=q; - } -} - -@ The current line to be justified appears in a horizontal list starting -at |link(temp_head)| and ending at |cur_break(cur_p)|. If |cur_break(cur_p)| is -a glue node, we reset the glue to equal the |right_skip| glue; otherwise -we append the |right_skip| glue at the right. If |cur_break(cur_p)| is a -discretionary node, we modify the list so that the discretionary break -is compulsory, and we set |disc_break| to |true|. We also append -the |left_skip| glue at the left of the line, unless it is zero. - -@<Justify the line ending at breakpoint |cur_p|, and append it...@>= -@<Modify the end of the line to reflect the nature of the break and to include \.{\\rightskip}; -also set the proper value of |disc_break|@>; -@<Put the \(l)\.{\\leftskip} glue at the left and detach this line@>; -@<Call the packaging subroutine, setting |just_box| to the justified box@>; -@<Append the new box to the current vertical list, followed by the list of special -nodes taken out of the box by the packager@>; -@<Append a penalty node, if a nonzero penalty is appropriate@>@; - -@ At the end of the following code, |q| will point to the final node on the -list about to be justified. - -@<Modify the end of the line...@>= -q=cur_break(cur_p);disc_break=false;post_disc_break=false; -if (q!=null) /*|q| cannot be a |char_node|*/ - if (type(q)==glue_node) - {@+delete_glue_ref(glue_ptr(q)); - glue_ptr(q)=right_skip; - subtype(q)=right_skip_code+1;add_glue_ref(right_skip); - goto done; - } - else{@+if (type(q)==disc_node) - @<Change discretionary to compulsory and set |disc_break:=true|@>@; - else if ((type(q)==math_node)||(type(q)==kern_node)) width(q)=0; - } -else{@+q=temp_head; - while (link(q)!=null) q=link(q); - } -@<Put the \(r)\.{\\rightskip} glue after node |q|@>; -done: - -@ @<Change discretionary to compulsory...@>= -{@+t=replace_count(q); -@<Destroy the |t| nodes following |q|, and make |r| point to the following node@>; -if (post_break(q)!=null) @<Transplant the post-break list@>; -if (pre_break(q)!=null) @<Transplant the pre-break list@>; -link(q)=r;disc_break=true; -} - -@ @<Destroy the |t| nodes following |q|...@>= -if (t==0) r=link(q); -else{@+r=q; - while (t > 1) - {@+r=link(r);decr(t); - } - s=link(r); - r=link(s);link(s)=null; - flush_node_list(link(q));set_replace_count(q,0); - } - -@ We move the post-break list from inside node |q| to the main list by -re\-attaching it just before the present node |r|, then resetting |r|. - -@<Transplant the post-break list@>= -{@+s=post_break(q); -while (link(s)!=null) s=link(s); -link(s)=r;r=post_break(q);post_break(q)=null;post_disc_break=true; -} - -@ We move the pre-break list from inside node |q| to the main list by -re\-attaching it just after the present node |q|, then resetting |q|. - -@<Transplant the pre-break list@>= -{@+s=pre_break(q);link(q)=s; -while (link(s)!=null) s=link(s); -pre_break(q)=null;q=s; -} - -@ @<Put the \(r)\.{\\rightskip} glue after node |q|@>= -r=new_param_glue(right_skip_code);link(r)=link(q);link(q)=r;q=r - -@ The following code begins with |q| at the end of the list to be -justified. It ends with |q| at the beginning of that list, and with -|link(temp_head)| pointing to the remainder of the paragraph, if any. - -@<Put the \(l)\.{\\leftskip} glue at the left...@>= -r=link(q);link(q)=null;q=link(temp_head);link(temp_head)=r; -if (left_skip!=zero_glue) - {@+r=new_param_glue(left_skip_code); - link(r)=q;q=r; - } - -@ @<Append the new box to the current vertical list...@>= -append_to_vlist(just_box); -if (adjust_head!=adjust_tail) - {@+link(tail)=link(adjust_head);tail=adjust_tail; - } -adjust_tail=null - -@ Now |q| points to the hlist that represents the current line of the -paragraph. We need to compute the appropriate line width, pack the -line into a box of this size, and shift the box by the appropriate -amount of indentation. - -@<Call the packaging subroutine...@>= -if (cur_line > last_special_line) - {@+cur_width=second_width;cur_indent=second_indent; - } -else if (par_shape_ptr==null) - {@+cur_width=first_width;cur_indent=first_indent; - } -else{@+cur_width=mem[par_shape_ptr+2*cur_line].sc; - cur_indent=mem[par_shape_ptr+2*cur_line-1].sc; - } -adjust_tail=adjust_head;just_box=hpack(q, cur_width, 0, 0, exactly); -shift_amount(just_box)=cur_indent - -@ Penalties between the lines of a paragraph come from club and widow lines, -from the |inter_line_penalty| parameter, and from lines that end at -discretionary breaks. Breaking between lines of a two-line paragraph gets -both club-line and widow-line penalties. The local variable |pen| will -be set to the sum of all relevant penalties for the current line, except -that the final line is never penalized. - -@<Append a penalty node, if a nonzero penalty is appropriate@>= -if (cur_line+1!=best_line) - {@+pen=inter_line_penalty; - if (cur_line==prev_graf+1) pen=pen+club_penalty; - if (cur_line+2==best_line) pen=pen+final_widow_penalty; - if (disc_break) pen=pen+broken_penalty; - if (pen!=0) - {@+r=new_penalty(pen); - link(tail)=r;tail=r; - } - } - -@* Pre-hyphenation. -When the line-breaking routine is unable to find a feasible sequence of -breakpoints, it makes a second pass over the paragraph, attempting to -hyphenate the hyphenatable words. The goal of hyphenation is to insert -discretionary material into the paragraph so that there are more -potential places to break. - -The general rules for hyphenation are somewhat complex and technical, -because we want to be able to hyphenate words that are preceded or -followed by punctuation marks, and because we want the rules to work -for languages other than English. We also must contend with the fact -that hyphens might radically alter the ligature and kerning structure -of a word. - -A sequence of characters will be considered for hyphenation only if it -belongs to a ``potentially hyphenatable part'' of the current paragraph. -This is a sequence of nodes $p_0p_1\ldots p_m$ where $p_0$ is a glue node, -$p_1\ldots p_{m-1}$ are either character or ligature or whatsit or -implicit kern nodes, and $p_m$ is a glue or penalty or insertion or adjust -or mark or whatsit or explicit kern node. (Therefore hyphenation is -disabled by boxes, math formulas, and discretionary nodes already inserted -by the user.) The ligature nodes among $p_1\ldots p_{m-1}$ are effectively -expanded into the original non-ligature characters; the kern nodes and -whatsits are ignored. Each character |c| is now classified as either a -nonletter (if |lc_code(c)==0|), a lowercase letter (if -|lc_code(c)==c|), or an uppercase letter (otherwise); an uppercase letter -is treated as if it were |lc_code(c)| for purposes of hyphenation. The -characters generated by $p_1\ldots p_{m-1}$ may begin with nonletters; let -$c_1$ be the first letter that is not in the middle of a ligature. Whatsit -nodes preceding $c_1$ are ignored; a whatsit found after $c_1$ will be the -terminating node $p_m$. All characters that do not have the same font as -$c_1$ will be treated as nonletters. The |hyphen_char| for that font -must be between 0 and 255, otherwise hyphenation will not be attempted. -\TeX\ looks ahead for as many consecutive letters $c_1\ldots c_n$ as -possible; however, |n| must be less than 64, so a character that would -otherwise be $c_{64}$ is effectively not a letter. Furthermore $c_n$ must -not be in the middle of a ligature. In this way we obtain a string of -letters $c_1\ldots c_n$ that are generated by nodes $p_a\ldots p_b$, where -|1 <= a <= b+1 <= m|. If |n >= l_hyf+r_hyf|, this string qualifies for hyphenation; -however, |uc_hyph| must be positive, if $c_1$ is uppercase. - -The hyphenation process takes place in three stages. First, the candidate -sequence $c_1\ldots c_n$ is found; then potential positions for hyphens -are determined by referring to hyphenation tables; and finally, the nodes -$p_a\ldots p_b$ are replaced by a new sequence of nodes that includes the -discretionary breaks found. - -Fortunately, we do not have to do all this calculation very often, because -of the way it has been taken out of \TeX's inner loop. For example, when -the second edition of the author's 700-page book {\sl Seminumerical -Algorithms} was typeset by \TeX, only about 1.2 hyphenations needed to be -@^Knuth, Donald Ervin@> -tried per paragraph, since the line breaking algorithm needed to use two -passes on only about 5 per cent of the paragraphs. - -@<Initialize for hyphenating...@>= -{ -#ifdef @!INIT -if (trie_not_ready) init_trie(); -#endif -@;@/ -cur_lang=init_cur_lang;l_hyf=init_l_hyf;r_hyf=init_r_hyf; -} - -@ The letters $c_1\ldots c_n$ that are candidates for hyphenation are placed -into an array called |hc|; the number |n| is placed into |hn|; pointers to -nodes $p_{a-1}$ and~$p_b$ in the description above are placed into variables -|ha| and |hb|; and the font number is placed into |hf|. - -@<Glob...@>= -static int16_t @!hc[66]; /*word to be hyphenated*/ -static int @!hn; /*the number of positions occupied in |hc|; - not always a |small_number|*/ -static pointer @!ha, @!hb; /*nodes |ha dotdot hb| should be replaced by the hyphenated result*/ -static internal_font_number @!hf; /*font number of the letters in |hc|*/ -static int16_t @!hu[64]; /*like |hc|, before conversion to lowercase*/ -static int @!hyf_char; /*hyphen character of the relevant font*/ -ASCII_code @!cur_lang, @!init_cur_lang; /*current hyphenation table of interest*/ -int @!l_hyf, @!r_hyf, @!init_l_hyf, @!init_r_hyf; /*limits on fragment sizes*/ -static halfword @!hyf_bchar; /*boundary character after $c_n$*/ - -@ Hyphenation routines need a few more local variables. - -@<Local variables for line...@>= -small_number @!j; /*an index into |hc| or |hu|*/ -int @!c; /*character being considered for hyphenation*/ - -@ When the following code is activated, the |line_break| procedure is in its -second pass, and |cur_p| points to a glue node. - -@p -void hyphenate_word(void)@t\2\2@>@/ -{ pointer @!q, @!s, @!prev_s;@t\1@> /*miscellaneous nodes of temporary interest*/ - small_number @!j; /*an index into |hc| or |hu|*/ - uint8_t @!c; /*character being considered for hyphenation*/ - - prev_s=cur_p;s=link(prev_s); -if (s!=null) - {@+@<Skip to node |ha|, or |goto done1| if no hyphenation should be attempted@>; - if (l_hyf+r_hyf > 63) goto done1; - @<Skip to node |hb|, putting letters into |hu| and |hc|@>; - @<Check that the nodes following |hb| permit hyphenation and that at least |l_hyf+r_hyf| -letters have been found, otherwise |goto done1|@>; - hyphenate(); - } -done1: ;} - -@ @<Declare subprocedures for |line_break|@>= -@t\4@>@<Declare the function called |reconstitute|@>@; -static void hyphenate(void) -{@+ -@<Local variables for hyphenation@>@; -@<Find hyphen locations for the word in |hc|, or |return|@>; -@<If no hyphens were found, |return|@>; -@<Replace nodes |ha..hb| by a sequence of nodes that includes the discretionary hyphens@>; -} - -@ The first thing we need to do is find the node |ha| just before the -first letter. - -@<Skip to node |ha|, or |goto done1|...@>= -loop@+{@+if (is_char_node(s)) - {@+c=qo(character(s));hf=font(s); - } - else if (type(s)==ligature_node) - if (lig_ptr(s)==null) goto resume; - else{@+q=lig_ptr(s);c=qo(character(q));hf=font(q); - } - else if ((type(s)==kern_node)&&(subtype(s)==normal)) goto resume; - else if (type(s)==whatsit_node) - {@+@<Advance \(p)past a whatsit node in the \(p)pre-hyphenation loop@>; - goto resume; - } - else goto done1; - if (lc_code(c)!=0) - if ((lc_code(c)==c)||(uc_hyph > 0)) goto done2; - else goto done1; -resume: prev_s=s;s=link(prev_s); - } -done2: hyf_char=hyphen_char[hf]; -if (hyf_char < 0) goto done1; -if (hyf_char > 255) goto done1; -ha=prev_s - -@ The word to be hyphenated is now moved to the |hu| and |hc| arrays. - -@<Skip to node |hb|, putting letters...@>= -hn=0; -loop@+{@+if (is_char_node(s)) - {@+if (font(s)!=hf) goto done3; - hyf_bchar=character(s);c=qo(hyf_bchar); - if (lc_code(c)==0) goto done3; - if (hn==63) goto done3; - hb=s;incr(hn);hu[hn]=c;hc[hn]=lc_code(c);hyf_bchar=non_char; - } - else if (type(s)==ligature_node) - @<Move the characters of a ligature node to |hu| and |hc|; but |goto done3| if -they are not all letters@>@; - else if ((type(s)==kern_node)&&(subtype(s)==normal)) - {@+hb=s; - hyf_bchar=font_bchar[hf]; - } - else goto done3; - s=link(s); - } -done3: - -@ We let |j| be the index of the character being stored when a ligature node -is being expanded, since we do not want to advance |hn| until we are sure -that the entire ligature consists of letters. Note that it is possible -to get to |done3| with |hn==0| and |hb| not set to any value. - -@<Move the characters of a ligature node to |hu| and |hc|...@>= -{@+if (font(lig_char(s))!=hf) goto done3; -j=hn;q=lig_ptr(s);@+if (q > null) hyf_bchar=character(q); -while (q > null) - {@+c=qo(character(q)); - if (lc_code(c)==0) goto done3; - if (j==63) goto done3; - incr(j);hu[j]=c;hc[j]=lc_code(c);@/ - q=link(q); - } -hb=s;hn=j; -if (odd(subtype(s))) hyf_bchar=font_bchar[hf];@+else hyf_bchar=non_char; -} - -@ @<Check that the nodes following |hb| permit hyphenation...@>= -if (hn < l_hyf+r_hyf) goto done1; /*|l_hyf| and |r_hyf| are | >= 1|*/ -loop@+{@+if (!(is_char_node(s))) - switch (type(s)) { - case ligature_node: do_nothing;@+break; - case kern_node: if (subtype(s)!=normal) goto done4;@+break; - case whatsit_node: case glue_node: case penalty_node: case ins_node: case adjust_node: case mark_node: - goto done4; - default:goto done1; - } - s=link(s); - } -done4: - -@* Post-hyphenation. -If a hyphen may be inserted between |hc[j]| and |hc[j+1]|, the hyphenation -procedure will set |hyf[j]| to some small odd number. But before we look -at \TeX's hyphenation procedure, which is independent of the rest of the -line-breaking algorithm, let us consider what we will do with the hyphens -it finds, since it is better to work on this part of the program before -forgetting what |ha| and |hb|, etc., are all about. - -@<Glob...@>= -static int8_t @!hyf[65]; /*odd values indicate discretionary hyphens*/ -static pointer @!init_list; /*list of punctuation characters preceding the word*/ -static bool @!init_lig; /*does |init_list| represent a ligature?*/ -static bool @!init_lft; /*if so, did the ligature involve a left boundary?*/ - -@ @<Local variables for hyphenation@>= -int @!i, @!j, @!l; /*indices into |hc| or |hu|*/ -pointer @!q, @!r, @!s; /*temporary registers for list manipulation*/ -halfword @!bchar; /*boundary character of hyphenated word, or |non_char|*/ - -@ \TeX\ will never insert a hyphen that has fewer than -\.{\\lefthyphenmin} letters before it or fewer than -\.{\\righthyphenmin} after it; hence, a short word has -comparatively little chance of being hyphenated. If no hyphens have -been found, we can save time by not having to make any changes to the -paragraph. - -@<If no hyphens were found, |return|@>= -for (j=l_hyf; j<=hn-r_hyf; j++) if (odd(hyf[j])) goto found1; -return; -found1: - -@ If hyphens are in fact going to be inserted, \TeX\ first deletes the -subsequence of nodes between |ha| and~|hb|. An attempt is made to -preserve the effect that implicit boundary characters and punctuation marks -had on ligatures inside the hyphenated word, by storing a left boundary or -preceding character in |hu[0]| and by storing a possible right boundary -in |bchar|. We set |j=0| if |hu[0]| is to be part of the reconstruction; -otherwise |j=1|. -The variable |s| will point to the tail of the current hlist, and -|q| will point to the node following |hb|, so that -things can be hooked up after we reconstitute the hyphenated word. - -@<Replace nodes |ha..hb| by a sequence of nodes...@>= -q=link(hb);link(hb)=null;r=link(ha);link(ha)=null;bchar=hyf_bchar; -if (is_char_node(ha)) - if (font(ha)!=hf) goto found2; - else{@+init_list=ha;init_lig=false;hu[0]=qo(character(ha)); - } -else if (type(ha)==ligature_node) - if (font(lig_char(ha))!=hf) goto found2; - else{@+init_list=lig_ptr(ha);init_lig=true;init_lft=(subtype(ha) > 1); - hu[0]=qo(character(lig_char(ha))); - if (init_list==null) if (init_lft) - {@+hu[0]=256;init_lig=false; - } /*in this case a ligature will be reconstructed from scratch*/ - free_node(ha, small_node_size); - } -else{@+ /*no punctuation found; look for left boundary*/ - if (!is_char_node(r)) if (type(r)==ligature_node) - if (subtype(r) > 1) goto found2; - j=1;s=ha;init_list=null;goto common_ending; - } -s=cur_p; /*we have |cur_p!=ha| because |type(cur_p)==glue_node|*/ -while (link(s)!=ha) s=link(s); -j=0;goto common_ending; -found2: s=ha;j=0;hu[0]=256;init_lig=false;init_list=null; -common_ending: flush_node_list(r); -@<Reconstitute nodes for the hyphenated word, inserting discretionary hyphens@>; -flush_list(init_list) - -@ We must now face the fact that the battle is not over, even though the -{\def\!{\kern-1pt}% -hyphens have been found: The process of reconstituting a word can be nontrivial -because ligatures might change when a hyphen is present. {\sl The \TeX book\/} -discusses the difficulties of the word ``difficult'', and -the discretionary material surrounding a -hyphen can be considerably more complex than that. Suppose -\.{abcdef} is a word in a font for which the only ligatures are \.{b\!c}, -\.{c\!d}, \.{d\!e}, and \.{e\!f}. If this word permits hyphenation -between \.b and \.c, the two patterns with and without hyphenation are -$\.a\,\.b\,\.-\,\.{c\!d}\,\.{e\!f}$ and $\.a\,\.{b\!c}\,\.{d\!e}\,\.f$. -Thus the insertion of a hyphen might cause effects to ripple arbitrarily -far into the rest of the word. A further complication arises if additional -hyphens appear together with such rippling, e.g., if the word in the -example just given could also be hyphenated between \.c and \.d; \TeX\ -avoids this by simply ignoring the additional hyphens in such weird cases.} - -Still further complications arise in the presence of ligatures that do not -delete the original characters. When punctuation precedes the word being -hyphenated, \TeX's method is not perfect under all possible scenarios, -because punctuation marks and letters can propagate information back and forth. -For example, suppose the original pre-hyphenation pair -\.{*a} changes to \.{*y} via a \.{\@@=:} ligature, which changes to \.{xy} -via a \.{=:\@@} ligature; if $p_{a-1}=\.x$ and $p_a=\.y$, the reconstitution -procedure isn't smart enough to obtain \.{xy} again. In such cases the -font designer should include a ligature that goes from \.{xa} to \.{xy}. - -@ The processing is facilitated by a subroutine called |reconstitute|. Given -a string of characters $x_j\ldots x_n$, there is a smallest index $m\ge j$ -such that the ``translation'' of $x_j\ldots x_n$ by ligatures and kerning -has the form $y_1\ldots y_t$ followed by the translation of $x_{m+1}\ldots x_n$, -where $y_1\ldots y_t$ is some nonempty sequence of character, ligature, and -kern nodes. We call $x_j\ldots x_m$ a ``cut prefix'' of $x_j\ldots x_n$. -For example, if $x_1x_2x_3=\.{fly}$, and if the font contains `fl' as a -ligature and a kern between `fl' and `y', then $m=2$, $t=2$, and $y_1$ will -be a ligature node for `fl' followed by an appropriate kern node~$y_2$. -In the most common case, $x_j$~forms no ligature with $x_{j+1}$ and we -simply have $m=j$, $y_1=x_j$. If $m<n$ we can repeat the procedure on -$x_{m+1}\ldots x_n$ until the entire translation has been found. - -The |reconstitute| function returns the integer $m$ and puts the nodes -$y_1\ldots y_t$ into a linked list starting at |link(hold_head)|, -getting the input $x_j\ldots x_n$ from the |hu| array. If $x_j=256$, -we consider $x_j$ to be an implicit left boundary character; in this -case |j| must be strictly less than~|n|. There is a -parameter |bchar|, which is either 256 or an implicit right boundary character -assumed to be present just following~$x_n$. (The value |hu[n+1]| is never -explicitly examined, but the algorithm imagines that |bchar| is there.) - -If there exists an index |k| in the range $j\le k\le m$ such that |hyf[k]| -is odd and such that the result of |reconstitute| would have been different -if $x_{k+1}$ had been |hchar|, then |reconstitute| sets |hyphen_passed| -to the smallest such~|k|. Otherwise it sets |hyphen_passed| to zero. - -A special convention is used in the case |j==0|: Then we assume that the -translation of |hu[0]| appears in a special list of charnodes starting at -|init_list|; moreover, if |init_lig| is |true|, then |hu[0]| will be -a ligature character, involving a left boundary if |init_lft| is |true|. -This facility is provided for cases when a hyphenated -word is preceded by punctuation (like single or double quotes) that might -affect the translation of the beginning of the word. - -@<Glob...@>= -static small_number @!hyphen_passed; /*first hyphen in a ligature, if any*/ - -@ @<Declare the function called |reconstitute|@>= -static - small_number reconstitute(small_number @!j, small_number @!n, halfword @!bchar, halfword @!hchar) -{@+ -pointer @!p; /*temporary register for list manipulation*/ -pointer @!t; /*a node being appended to*/ -four_quarters @!q; /*character information or a lig/kern instruction*/ -halfword @!cur_rh; /*hyphen character for ligature testing*/ -halfword @!test_char; /*hyphen or other character for ligature testing*/ -scaled @!w; /*amount of kerning*/ -font_index @!k; /*position of current lig/kern instruction*/ -hyphen_passed=0;t=hold_head;w=0;link(hold_head)=null; - /*at this point |ligature_present==lft_hit==rt_hit==false|*/ -@<Set up data structures with the cursor following position |j|@>; -resume: @<If there's a ligature or kern at the cursor position, update the data structures, -possibly advancing~|j|; continue until the cursor moves@>; -@<Append a ligature and/or kern to the translation; |goto continue| if the stack of -inserted ligatures is nonempty@>; -return j; -} - -@ The reconstitution procedure shares many of the global data structures -by which \TeX\ has processed the words before they were hyphenated. -There is an implied ``cursor'' between characters |cur_l| and |cur_r|; -these characters will be tested for possible ligature activity. If -|ligature_present| then |cur_l| is a ligature character formed from the -original characters following |cur_q| in the current translation list. -There is a ``ligature stack'' between the cursor and character |j+1|, -consisting of pseudo-ligature nodes linked together by their |link| fields. -This stack is normally empty unless a ligature command has created a new -character that will need to be processed later. A pseudo-ligature is -a special node having a |character| field that represents a potential -ligature and a |lig_ptr| field that points to a |char_node| or is |null|. -We have -$$|cur_r|=\cases{|character(lig_stack)|,&if |lig_stack > null|;\cr - \hbox{|qi(hu[j+1])|},&if |lig_stack==null| and |j < n|;\cr - bchar,&if |lig_stack==null| and |j==n|.\cr}$$ - -@<Glob...@>= -static halfword @!cur_l, @!cur_r; /*characters before and after the cursor*/ -static pointer @!cur_q; /*where a ligature should be detached*/ -static pointer @!lig_stack; /*unfinished business to the right of the cursor*/ -static bool @!ligature_present; /*should a ligature node be made for |cur_l|?*/ -static bool @!lft_hit, @!rt_hit; /*did we hit a ligature with a boundary character?*/ - -@ @d append_charnode_to_t(A) {@+link(t)=get_avail();t=link(t); - font(t)=hf;character(t)=A; - } -@d set_cur_r {@+if (j < n) cur_r=qi(hu[j+1]);@+else cur_r=bchar; - if (odd(hyf[j])) cur_rh=hchar;@+else cur_rh=non_char; - } - -@<Set up data structures with the cursor following position |j|@>= -cur_l=qi(hu[j]);cur_q=t; -if (j==0) - {@+ligature_present=init_lig;p=init_list; - if (ligature_present) lft_hit=init_lft; - while (p > null) - {@+append_charnode_to_t(character(p));p=link(p); - } - } -else if (cur_l < non_char) append_charnode_to_t(cur_l); -lig_stack=null;set_cur_r - -@ We may want to look at the lig/kern program twice, once for a hyphen -and once for a normal letter. (The hyphen might appear after the letter -in the program, so we'd better not try to look for both at once.) - -@<If there's a ligature or kern at the cursor position, update...@>= -if (cur_l==non_char) - {@+k=bchar_label[hf]; - if (k==non_address) goto done;@+else q=font_info[k].qqqq; - } -else{@+q=char_info(hf, cur_l); - if (char_tag(q)!=lig_tag) goto done; - k=lig_kern_start(hf, q);q=font_info[k].qqqq; - if (skip_byte(q) > stop_flag) - {@+k=lig_kern_restart(hf, q);q=font_info[k].qqqq; - } - } /*now |k| is the starting address of the lig/kern program*/ -if (cur_rh < non_char) test_char=cur_rh;@+else test_char=cur_r; -loop@+{@+if (next_char(q)==test_char) if (skip_byte(q) <= stop_flag) - if (cur_rh < non_char) - {@+hyphen_passed=j;hchar=non_char;cur_rh=non_char; - goto resume; - } - else{@+if (hchar < non_char) if (odd(hyf[j])) - {@+hyphen_passed=j;hchar=non_char; - } - if (op_byte(q) < kern_flag) - @<Carry out a ligature replacement, updating the cursor structure and possibly -advancing~|j|; |goto continue| if the cursor doesn't advance, otherwise |goto done|@>; - w=char_kern(hf, q);goto done; /*this kern will be inserted below*/ - } - if (skip_byte(q) >= stop_flag) - if (cur_rh==non_char) goto done; - else{@+cur_rh=non_char;goto resume; - } - k=k+qo(skip_byte(q))+1;q=font_info[k].qqqq; - } -done: - -@ @d wrap_lig(A) if (ligature_present) - {@+p=new_ligature(hf, cur_l, link(cur_q)); - if (lft_hit) - {@+subtype(p)=2;lft_hit=false; - } - if (A) if (lig_stack==null) - {@+incr(subtype(p));rt_hit=false; - } - link(cur_q)=p;t=p;ligature_present=false; - } -@d pop_lig_stack {@+if (lig_ptr(lig_stack) > null) - {@+link(t)=lig_ptr(lig_stack); /*this is a charnode for |hu[j+1]|*/ - t=link(t);incr(j); - } - p=lig_stack;lig_stack=link(p);free_node(p, small_node_size); - if (lig_stack==null) set_cur_r@;@+else cur_r=character(lig_stack); - } /*if |lig_stack| isn't |null| we have |cur_rh==non_char|*/ - -@<Append a ligature and/or kern to the translation...@>= -wrap_lig(rt_hit); -if (w!=0) - {@+link(t)=new_kern(w);t=link(t);w=0; - } -if (lig_stack > null) - {@+cur_q=t;cur_l=character(lig_stack);ligature_present=true; - pop_lig_stack;goto resume; - } - -@ @<Carry out a ligature replacement, updating the cursor structure...@>= -{@+if (cur_l==non_char) lft_hit=true; -if (j==n) if (lig_stack==null) rt_hit=true; -check_interrupt; /*allow a way out in case there's an infinite ligature loop*/ -switch (op_byte(q)) { -case qi(1): case qi(5): {@+cur_l=rem_byte(q); /*\.{=:\@@}, \.{=:\@@>}*/ - ligature_present=true; - } @+break; -case qi(2): case qi(6): {@+cur_r=rem_byte(q); /*\.{\@@=:}, \.{\@@=:>}*/ - if (lig_stack > null) character(lig_stack)=cur_r; - else{@+lig_stack=new_lig_item(cur_r); - if (j==n) bchar=non_char; - else{@+p=get_avail();lig_ptr(lig_stack)=p; - character(p)=qi(hu[j+1]);font(p)=hf; - } - } - } @+break; -case qi(3): {@+cur_r=rem_byte(q); /*\.{\@@=:\@@}*/ - p=lig_stack;lig_stack=new_lig_item(cur_r);link(lig_stack)=p; - } @+break; -case qi(7): case qi(11): {@+wrap_lig(false); /*\.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ - cur_q=t;cur_l=rem_byte(q);ligature_present=true; - } @+break; -default:{@+cur_l=rem_byte(q);ligature_present=true; /*\.{=:}*/ - if (lig_stack > null) pop_lig_stack@; - else if (j==n) goto done; - else{@+append_charnode_to_t(cur_r);incr(j);set_cur_r; - } - } -} -if (op_byte(q) > qi(4)) if (op_byte(q)!=qi(7)) goto done; -goto resume; -} - -@ Okay, we're ready to insert the potential hyphenations that were found. -When the following program is executed, we want to append the word -|hu[1 dotdot hn]| after node |ha|, and node |q| should be appended to the result. -During this process, the variable |i| will be a temporary -index into |hu|; the variable |j| will be an index to our current position -in |hu|; the variable |l| will be the counterpart of |j|, in a discretionary -branch; the variable |r| will point to new nodes being created; and -we need a few new local variables: - -@<Local variables for hyph...@>= -pointer @!major_tail, @!minor_tail; /*the end of lists in the main and - discretionary branches being reconstructed*/ -ASCII_code @!c; /*character temporarily replaced by a hyphen*/ -int @!c_loc; /*where that character came from*/ -int @!r_count; /*replacement count for discretionary*/ -pointer @!hyf_node; /*the hyphen, if it exists*/ - -@ When the following code is performed, |hyf[0]| and |hyf[hn]| will be zero. - -@<Reconstitute nodes for the hyphenated word...@>= -@/do@+{l=j;j=reconstitute(j, hn, bchar, qi(hyf_char))+1; -if (hyphen_passed==0) - {@+link(s)=link(hold_head); - while (link(s) > null) s=link(s); - if (odd(hyf[j-1])) - {@+l=j;hyphen_passed=j-1;link(hold_head)=null; - } - } -if (hyphen_passed > 0) - @<Create and append a discretionary node as an alternative to the unhyphenated word, -and continue to develop both branches until they become equivalent@>; -}@+ while (!(j > hn)); -link(s)=q - -@ In this repeat loop we will insert another discretionary if |hyf[j-1]| is -odd, when both branches of the previous discretionary end at position |j-1|. -Strictly speaking, we aren't justified in doing this, because we don't know -that a hyphen after |j-1| is truly independent of those branches. But in almost -all applications we would rather not lose a potentially valuable hyphenation -point. (Consider the word `difficult', where the letter `c' is in position |j|.) - -@d advance_major_tail {@+major_tail=link(major_tail);incr(r_count); - } - -@<Create and append a discretionary node as an alternative...@>= -@/do@+{r=get_node(small_node_size); -link(r)=link(hold_head);type(r)=disc_node; -major_tail=r;r_count=0; -while (link(major_tail) > null) advance_major_tail; -i=hyphen_passed;hyf[i]=0; -@<Put the \(c)characters |hu[l..i]| and a hyphen into |pre_break(r)|@>; -@<Put the \(c)characters |hu[i+1..]| into |post_break(r)|, appending to this list -and to |major_tail| until synchronization has been achieved@>; -@<Move pointer |s| to the end of the current list, and set |replace_count(r)| appropriately@>; -hyphen_passed=j-1;link(hold_head)=null; -}@+ while (!(!odd(hyf[j-1]))) - -@ The new hyphen might combine with the previous character via ligature -or kern. At this point we have |l-1 <= i < j| and |i < hn|. - -@<Put the \(c)characters |hu[l..i]| and a hyphen into |pre_break(r)|@>= -minor_tail=null;pre_break(r)=null;hyf_node=new_character(hf, hyf_char); -if (hyf_node!=null) - {@+incr(i);c=hu[i];hu[i]=hyf_char;free_avail(hyf_node); - } -while (l <= i) - {@+l=reconstitute(l, i, font_bchar[hf], non_char)+1; - if (link(hold_head) > null) - {@+if (minor_tail==null) pre_break(r)=link(hold_head); - else link(minor_tail)=link(hold_head); - minor_tail=link(hold_head); - while (link(minor_tail) > null) minor_tail=link(minor_tail); - } - } -if (hyf_node!=null) - {@+hu[i]=c; /*restore the character in the hyphen position*/ - l=i;decr(i); - } - -@ The synchronization algorithm begins with |l==i+1 <= j|. - -@<Put the \(c)characters |hu[i+1..]| into |post_break(r)|...@>= -minor_tail=null;post_break(r)=null;c_loc=0; -if (bchar_label[hf]!=non_address) /*put left boundary at beginning of new line*/ - {@+decr(l);c=hu[l];c_loc=l;hu[l]=256; - } -while (l < j) - {@+@/do@+{l=reconstitute(l, hn, bchar, non_char)+1; - if (c_loc > 0) - {@+hu[c_loc]=c;c_loc=0; - } - if (link(hold_head) > null) - {@+if (minor_tail==null) post_break(r)=link(hold_head); - else link(minor_tail)=link(hold_head); - minor_tail=link(hold_head); - while (link(minor_tail) > null) minor_tail=link(minor_tail); - } - }@+ while (!(l >= j)); - while (l > j) - @<Append characters of |hu[j..]| to |major_tail|, advancing~|j|@>; - } - -@ @<Append characters of |hu[j..]|...@>= -{@+j=reconstitute(j, hn, bchar, non_char)+1; -link(major_tail)=link(hold_head); -while (link(major_tail) > null) advance_major_tail; -} - -@ Ligature insertion can cause a word to grow exponentially in size. Therefore -we must test the size of |r_count| here, even though the hyphenated text -was at most 63 characters long. - -@<Move pointer |s| to the end of the current list...@>= -if (r_count > 127) /*we have to forget the discretionary hyphen*/ - {@+link(s)=link(r);link(r)=null;flush_node_list(r); - } -else{@+link(s)=r;set_replace_count(r,r_count);set_auto_disc(r); - } -s=major_tail - -@* Hyphenation. -When a word |hc[1 dotdot hn]| has been set up to contain a candidate for hyphenation, -\TeX\ first looks to see if it is in the user's exception dictionary. If not, -hyphens are inserted based on patterns that appear within the given word, -using an algorithm due to Frank~M. Liang. -@^Liang, Franklin Mark@> - -Let's consider Liang's method first, since it is much more interesting than the -exception-lookup routine. The algorithm begins by setting |hyf[j]| to zero -for all |j|, and invalid characters are inserted into |hc[0]| -and |hc[hn+1]| to serve as delimiters. Then a reasonably fast method is -used to see which of a given set of patterns occurs in the word -|hc[0 dotdot(hn+1)]|. Each pattern $p_1\ldots p_k$ of length |k| has an associated -sequence of |k+1| numbers $n_0\ldots n_k$; and if the pattern occurs in -|hc[(j+1)dotdot(j+k)]|, \TeX\ will set |hyf[j+i]=@tmax@>(hyf[j+i],@t$n\_i$@>)| for -|0 <= i <= k|. After this has been done for each pattern that occurs, a -discretionary hyphen will be inserted between |hc[j]| and |hc[j+1]| when -|hyf[j]| is odd, as we have already seen. - -The set of patterns $p_1\ldots p_k$ and associated numbers $n_0\ldots n_k$ -depends, of course, on the language whose words are being hyphenated, and -on the degree of hyphenation that is desired. A method for finding -appropriate |p|'s and |n|'s, from a given dictionary of words and acceptable -hyphenations, is discussed in Liang's Ph.D. thesis (Stanford University, -1983); \TeX\ simply starts with the patterns and works from there. - -@ The patterns are stored in a compact table that is also efficient for -retrieval, using a variant of ``trie memory'' [cf.\ {\sl The Art of -Computer Programming \bf3} (1973), 481--505]. We can find each pattern -$p_1\ldots p_k$ by letting $z_0$ be one greater than the relevant language -index and then, for |1 <= i <= k|, -setting |@t$z\_i$@>=trie_link@t$(z\_{i-1})+p\_i$@>|; the pattern will be -identified by the number $z_k$. Since all the pattern information is -packed together into a single |trie_link| array, it is necessary to -prevent confusion between the data from inequivalent patterns, so another -table is provided such that |trie_char@t$(z\_i)=p\_i$@>| for all |i|. There -is also a table |trie_op|$(z_k)$ to identify the numbers $n_0\ldots n_k$ -associated with $p_1\ldots p_k$. - -Comparatively few different number sequences $n_0\ldots n_k$ actually occur, -since most of the |n|'s are generally zero. Therefore the number sequences -are encoded in such a way that |trie_op|$(z_k)$ is only one byte long. -If |trie_op(@t$z\_k$@>)!=min_quarterword|, when $p_1\ldots p_k$ has matched -the letters in |hc[(l-k+1)dotdot l@,]| of language |t|, -we perform all of the required operations -for this pattern by carrying out the following little program: Set -|v=trie_op(@t$z\_k$@>)|. Then set |v=v+op_start[t]|, -|hyf[l-hyf_distance[v]]=@tmax@>(hyf[l-hyf_distance[v]], hyf_num[v])|, -and |v=hyf_next[v]|; repeat, if necessary, until |v==min_quarterword|. - -@<Types...@>= -typedef int32_t trie_pointer; /*an index into |trie|*/ - -@ @d trie_link(A) trie[A].rh /*``downward'' link in a trie*/ -@d trie_char(A) trie[A].b1 /*character matched at this trie location*/ -@d trie_op(A) trie[A].b0 /*program for hyphenation at this trie location*/ - -@<Glob...@>= -static two_halves @!trie[trie_size+1]; /*|trie_link|, |trie_char|, |trie_op|*/ -static small_number @!hyf_distance0[trie_op_size], *const @!hyf_distance = @!hyf_distance0-1; /*position |k-j| of $n_j$*/ -static small_number @!hyf_num0[trie_op_size], *const @!hyf_num = @!hyf_num0-1; /*value of $n_j$*/ -static quarterword @!hyf_next0[trie_op_size], *const @!hyf_next = @!hyf_next0-1; /*continuation code*/ -static uint16_t @!op_start[256]; /*offset for current language*/ - -@ @<Local variables for hyph...@>= -trie_pointer @!z; /*an index into |trie|*/ -int @!v; /*an index into |hyf_distance|, etc.*/ - -@ Assuming that these auxiliary tables have been set up properly, the -hyphenation algorithm is quite short. In the following code we set |hc[hn+2]| -to the impossible value 256, in order to guarantee that |hc[hn+3]| will -never be fetched. - -@<Find hyphen locations for the word in |hc|...@>= -for (j=0; j<=hn; j++) hyf[j]=0; -@<Look for the word |hc[1..hn]| in the exception table, and |goto found| (with |hyf| -containing the hyphens) if an entry is found@>; -if (trie_char(cur_lang+1)!=qi(cur_lang)) return; /*no patterns for |cur_lang|*/ -hc[0]=0;hc[hn+1]=0;hc[hn+2]=256; /*insert delimiters*/ -for (j=0; j<=hn-r_hyf+1; j++) - {@+z=trie_link(cur_lang+1)+hc[j];l=j; - while (hc[l]==qo(trie_char(z))) - {@+if (trie_op(z)!=min_quarterword) - @<Store \(m)maximum values in the |hyf| table@>; - incr(l);z=trie_link(z)+hc[l]; - } - } -found: for (j=0; j<=l_hyf-1; j++) hyf[j]=0; -for (j=0; j<=r_hyf-1; j++) hyf[hn-j]=0 - -@ @<Store \(m)maximum values in the |hyf| table@>= -{@+v=trie_op(z); -@/do@+{v=v+op_start[cur_lang];i=l-hyf_distance[v]; -if (hyf_num[v] > hyf[i]) hyf[i]=hyf_num[v]; -v=hyf_next[v]; -}@+ while (!(v==min_quarterword)); -} - -@ The exception table that is built by \TeX's \.{\\hyphenation} primitive is -organized as an ordered hash table [cf.\ Amble and Knuth, {\sl The Computer -@^Amble, Ole@> @^Knuth, Donald Ervin@> -Journal\/ \bf17} (1974), 135--142] using linear probing. If $\alpha$ and -$\beta$ are words, we will say that $\alpha<\beta$ if $\vert\alpha\vert< -\vert\beta\vert$ or if $\vert\alpha\vert=\vert\beta\vert$ and -$\alpha$ is lexicographically smaller than $\beta$. (The notation $\vert -\alpha\vert$ stands for the length of $\alpha$.) The idea of ordered hashing -is to arrange the table so that a given word $\alpha$ can be sought by computing -a hash address $h=h(\alpha)$ and then looking in table positions |h|, |h-1|, -\dots, until encountering the first word $\le\alpha$. If this word is -different from $\alpha$, we can conclude that $\alpha$ is not in the table. - -The words in the table point to lists in |mem| that specify hyphen positions -in their |info| fields. The list for $c_1\ldots c_n$ contains the number |k| if -the word $c_1\ldots c_n$ has a discretionary hyphen between $c_k$ and -$c_{k+1}$. - -@<Types...@>= -typedef int16_t hyph_pointer; /*an index into the ordered hash table*/ - -@ @<Glob...@>= -static str_number @!hyph_word[hyph_size+1]; /*exception words*/ -static pointer @!hyph_list[hyph_size+1]; /*lists of hyphen positions*/ -static hyph_pointer @!hyph_count; /*the number of words in the exception dictionary*/ - -@ @<Local variables for init...@>= -int @!z; /*runs through the exception dictionary*/ - -@ @<Set init...@>= -for (z=0; z<=hyph_size; z++) - {@+hyph_word[z]=0;hyph_list[z]=null; - } -hyph_count=0; - -@ The algorithm for exception lookup is quite simple, as soon as we have -a few more local variables to work with. - -@<Local variables for hyph...@>= -hyph_pointer @!h; /*an index into |hyph_word| and |hyph_list|*/ -str_number @!k; /*an index into |str_start|*/ -pool_pointer @!u; /*an index into |str_pool|*/ - -@ First we compute the hash code |h|, then we search until we either -find the word or we don't. Words from different languages are kept -separate by appending the language code to the string. - -@<Look for the word |hc[1...@>= -h=hc[1];incr(hn);hc[hn]=cur_lang; -for (j=2; j<=hn; j++) h=(h+h+hc[j])%hyph_size; -loop@+{@+@<If the string |hyph_word[h]| is less than \(hc)|hc[1..hn]|, |goto not_found|; -but if the two strings are equal, set |hyf| to the hyphen positions and |goto found|@>; - if (h > 0) decr(h);@+else h=hyph_size; - } -not_found: decr(hn) - -@ @<If the string |hyph_word[h]| is less than \(hc)...@>= -k=hyph_word[h];if (k==0) goto not_found; -if (length(k) < hn) goto not_found; -if (length(k)==hn) - {@+j=1;u=str_start[k]; - @/do@+{if (so(str_pool[u]) < hc[j]) goto not_found; - if (so(str_pool[u]) > hc[j]) goto done; - incr(j);incr(u); - }@+ while (!(j > hn)); - @<Insert hyphens as specified in |hyph_list[h]|@>; - decr(hn);goto found; - } -done: - -@ @<Insert hyphens as specified...@>= -s=hyph_list[h]; -while (s!=null) - {@+hyf[info(s)]=1;s=link(s); - } - -@ @<Search |hyph_list| for pointers to |p|@>= -for (q=0; q<=hyph_size; q++) - {@+if (hyph_list[q]==p) - {@+print_nl("HYPH(");print_int(q);print_char(')'); - } - } - -@ We have now completed the hyphenation routine, so the |line_break| procedure -is finished at last. Since the hyphenation exception table is fresh in our -minds, it's a good time to deal with the routine that adds new entries to it. - -When \TeX\ has scanned `\.{\\hyphenation}', it calls on a procedure named -|new_hyph_exceptions| to do the right thing. - -@d set_cur_lang if (language <= 0) cur_lang=0; - else if (language > 255) cur_lang=0; - else cur_lang=language - -@p static void new_hyph_exceptions(void) /*enters new exceptions*/ -{@+ -int n; /*length of current word; not always a |small_number|*/ -int @!j; /*an index into |hc|*/ -hyph_pointer @!h; /*an index into |hyph_word| and |hyph_list|*/ -str_number @!k; /*an index into |str_start|*/ -pointer @!p; /*head of a list of hyphen positions*/ -pointer @!q; /*used when creating a new node for list |p|*/ -str_number @!s, @!t; /*strings being compared or stored*/ -pool_pointer @!u, @!v; /*indices into |str_pool|*/ -scan_left_brace(); /*a left brace must follow \.{\\hyphenation}*/ -set_cur_lang; -@<Enter as many hyphenation exceptions as are listed, until coming to a right brace; -then |return|@>; -} - -@ @<Enter as many...@>= -n=0;p=null; -loop@+{@+get_x_token(); - reswitch: switch (cur_cmd) { - case letter: case other_char: case char_given: @<Append a new letter or hyphen@>@;@+break; - case char_num: {@+scan_char_num();cur_chr=cur_val;cur_cmd=char_given; - goto reswitch; - } - case spacer: case right_brace: {@+if (n > 1) @<Enter a hyphenation exception@>; - if (cur_cmd==right_brace) return; - n=0;p=null; - } @+break; - default:@<Give improper \.{\\hyphenation} error@>@; - } - } - -@ @<Give improper \.{\\hyph...@>= -{@+print_err("Improper ");print_esc("hyphenation"); -@.Improper \\hyphenation...@> - print(" will be flushed"); -help2("Hyphenation exceptions must contain only letters",@/ - "and hyphens. But continue; I'll forgive and forget."); -error(); -} - -@ @<Append a new letter or hyphen@>= -if (cur_chr=='-') @<Append the value |n| to list |p|@>@; -else{@+if (lc_code(cur_chr)==0) - {@+print_err("Not a letter"); -@.Not a letter@> - help2("Letters in \\hyphenation words must have \\lccode>0.",@/ - "Proceed; I'll ignore the character I just read."); - error(); - } - else if (n < 63) - {@+incr(n);hc[n]=lc_code(cur_chr); - } - } - -@ @<Append the value |n| to list |p|@>= -{@+if (n < 63) - {@+q=get_avail();link(q)=p;info(q)=n;p=q; - } -} - -@ @<Enter a hyphenation exception@>= -{@+incr(n);hc[n]=cur_lang;str_room(n);h=0; -for (j=1; j<=n; j++) - {@+h=(h+h+hc[j])%hyph_size; - append_char(hc[j]); - } -s=make_string(); -@<Insert the \(p)pair |(s,p)| into the exception table@>; -} - -@ @<Insert the \(p)pair |(s,p)|...@>= -if (hyph_count==hyph_size) overflow("exception dictionary", hyph_size); -@:TeX capacity exceeded exception dictionary}{\quad exception dictionary@> -incr(hyph_count); -while (hyph_word[h]!=0) - {@+@<If the string |hyph_word[h]| is less than \(or)or equal to |s|, interchange -|(hyph_word[h],hyph_list[h])| with |(s,p)|@>; - if (h > 0) decr(h);@+else h=hyph_size; - } -hyph_word[h]=s;hyph_list[h]=p - -@ @<If the string |hyph_word[h]| is less than \(or)...@>= -k=hyph_word[h]; -if (length(k) < length(s)) goto found; -if (length(k) > length(s)) goto not_found; -u=str_start[k];v=str_start[s]; -@/do@+{if (str_pool[u] < str_pool[v]) goto found; -if (str_pool[u] > str_pool[v]) goto not_found; -incr(u);incr(v); -}@+ while (!(u==str_start[k+1])); -found: q=hyph_list[h];hyph_list[h]=p;p=q;@/ -t=hyph_word[h];hyph_word[h]=s;s=t; -not_found: - -@* Initializing the hyphenation tables. -The trie for \TeX's hyphenation algorithm is built from a sequence of -patterns following a \.{\\patterns} specification. Such a specification -is allowed only in \.{INITEX}, since the extra memory for auxiliary tables -and for the initialization program itself would only clutter up the -production version of \TeX\ with a lot of deadwood. - -The first step is to build a trie that is linked, instead of packed -into sequential storage, so that insertions are readily made. -After all patterns have been processed, \.{INITEX} -compresses the linked trie by identifying common subtries. Finally the -trie is packed into the efficient sequential form that the hyphenation -algorithm actually uses. - -@<Declare subprocedures for |line_break|@>= -#ifdef @!INIT -@<Declare procedures for preprocessing hyphenation patterns@>@; -#endif - -@ Before we discuss trie building in detail, let's consider the simpler -problem of creating the |hyf_distance|, |hyf_num|, and |hyf_next| arrays. - -Suppose, for example, that \TeX\ reads the pattern `\.{ab2cde1}'. This is -a pattern of length 5, with $n_0\ldots n_5=0\,0\,2\,0\,0\,1$ in the -notation above. We want the corresponding |trie_op| code |v| to have -|hyf_distance[v]==3|, |hyf_num[v]==2|, and |hyf_next[v]==@t$v^\prime$@>|, -where the auxiliary |trie_op| code $v^\prime$ has -|hyf_distance[@t$v^\prime$@>]==0|, |hyf_num[@t$v^\prime$@>]==1|, and -|hyf_next[@t$v^\prime$@>]==min_quarterword|. - -\TeX\ computes an appropriate value |v| with the |new_trie_op| subroutine -below, by setting -$$\hbox{|@t$v^\prime$@>=new_trie_op(0, 1, min_quarterword)|,\qquad -|v=new_trie_op(3, 2,@t$v^\prime$@>)|.}$$ -This subroutine looks up its three -parameters in a special hash table, assigning a new value only if these -three have not appeared before for the current language. - -The hash table is called |trie_op_hash|, and the number of entries it contains -is |trie_op_ptr|. - -@<Glob...@>= -#ifdef @!INIT -static uint16_t @!trie_op_hash0[trie_op_size+trie_op_size+1], *const @!trie_op_hash = @!trie_op_hash0+trie_op_size; - /*trie op codes for quadruples*/ -static quarterword @!trie_used[256]; - /*largest opcode used so far for this language*/ -static ASCII_code @!trie_op_lang0[trie_op_size], *const @!trie_op_lang = @!trie_op_lang0-1; - /*language part of a hashed quadruple*/ -static quarterword @!trie_op_val0[trie_op_size], *const @!trie_op_val = @!trie_op_val0-1; - /*opcode corresponding to a hashed quadruple*/ -static int @!trie_op_ptr; /*number of stored ops so far*/ -#endif - -@ It's tempting to remove the |overflow| stops in the following procedure; -|new_trie_op| could return |min_quarterword| (thereby simply ignoring -part of a hyphenation pattern) instead of aborting the job. However, that would -lead to different hyphenation results on different installations of \TeX\ -using the same patterns. The |overflow| stops are necessary for portability -of patterns. - -@<Declare procedures for preprocessing hyph...@>= -static quarterword new_trie_op(small_number @!d, small_number @!n, quarterword @!v) -{@+ -int h; /*trial hash location*/ -quarterword @!u; /*trial op code*/ -int @!l; /*pointer to stored data*/ -h=abs(n+313*d+361*v+1009*cur_lang)%(trie_op_size+trie_op_size) - -trie_op_size; -loop@+{@+l=trie_op_hash[h]; - if (l==0) /*empty position found for a new op*/ - {@+if (trie_op_ptr==trie_op_size) - overflow("pattern memory ops", trie_op_size); - u=trie_used[cur_lang]; - if (u==max_quarterword) - overflow("pattern memory ops per language", - max_quarterword-min_quarterword); - incr(trie_op_ptr);incr(u);trie_used[cur_lang]=u; - hyf_distance[trie_op_ptr]=d; - hyf_num[trie_op_ptr]=n;hyf_next[trie_op_ptr]=v; - trie_op_lang[trie_op_ptr]=cur_lang;trie_op_hash[h]=trie_op_ptr; - trie_op_val[trie_op_ptr]=u;return u; - } - if ((hyf_distance[l]==d)&&(hyf_num[l]==n)&&(hyf_next[l]==v) - &&(trie_op_lang[l]==cur_lang)) - {@+return trie_op_val[l]; - } - if (h > -trie_op_size) decr(h);@+else h=trie_op_size; - } -} - -@ After |new_trie_op| has compressed the necessary opcode information, -plenty of information is available to unscramble the data into the -final form needed by our hyphenation algorithm. - -@<Sort \(t)the hyphenation op tables into proper order@>= -op_start[0]=-min_quarterword; -for (j=1; j<=255; j++) op_start[j]=op_start[j-1]+qo(trie_used[j-1]); -for (j=1; j<=trie_op_ptr; j++) - trie_op_hash[j]=op_start[trie_op_lang[j]]+trie_op_val[j]; /*destination*/ -for (j=1; j<=trie_op_ptr; j++) while (trie_op_hash[j] > j) - {@+k=trie_op_hash[j];@/ - t=hyf_distance[k];hyf_distance[k]=hyf_distance[j];hyf_distance[j]=t;@/ - t=hyf_num[k];hyf_num[k]=hyf_num[j];hyf_num[j]=t;@/ - t=hyf_next[k];hyf_next[k]=hyf_next[j];hyf_next[j]=t;@/ - trie_op_hash[j]=trie_op_hash[k];trie_op_hash[k]=k; - } - -@ Before we forget how to initialize the data structures that have been -mentioned so far, let's write down the code that gets them started. - -@<Initialize table entries...@>= -for (k=-trie_op_size; k<=trie_op_size; k++) trie_op_hash[k]=0; -for (k=0; k<=255; k++) trie_used[k]=min_quarterword; -trie_op_ptr=0; - -@ The linked trie that is used to preprocess hyphenation patterns appears -in several global arrays. Each node represents an instruction of the form -``if you see character |c|, then perform operation |o|, move to the -next character, and go to node |l|; otherwise go to node |r|.'' -The four quantities |c|, |o|, |l|, and |r| are stored in four arrays -|trie_c|, |trie_o|, |trie_l|, and |trie_r|. The root of the trie -is |trie_l[0]|, and the number of nodes is |trie_ptr|. Null trie -pointers are represented by zero. To initialize the trie, we simply -set |trie_l[0]| and |trie_ptr| to zero. We also set |trie_c[0]| to some -arbitrary value, since the algorithm may access it. - -The algorithms maintain the condition -$$\hbox{|trie_c[trie_r[z]] > trie_c[z]|\qquad -whenever |z!=0| and |trie_r[z]!=0|};$$ in other words, sibling nodes are -ordered by their |c| fields. - -@d trie_root trie_l[0] /*root of the linked trie*/ - -@<Glob...@>= -#ifdef @!INIT -static packed_ASCII_code @!trie_c[trie_size+1]; - /*characters to match*/ -@t\hskip10pt@>static quarterword @!trie_o[trie_size+1]; - /*operations to perform*/ -@t\hskip10pt@>static trie_pointer @!trie_l[trie_size+1]; - /*left subtrie links*/ -@t\hskip10pt@>static trie_pointer @!trie_r[trie_size+1]; - /*right subtrie links*/ -@t\hskip10pt@>static trie_pointer @!trie_ptr; /*the number of nodes in the trie*/ -@t\hskip10pt@>static trie_pointer @!trie_hash[trie_size+1]; - /*used to identify equivalent subtries*/ -#endif - -@ Let us suppose that a linked trie has already been constructed. -Experience shows that we can often reduce its size by recognizing common -subtries; therefore another hash table is introduced for this purpose, -somewhat similar to |trie_op_hash|. The new hash table will be -initialized to zero. - -The function |trie_node(p)| returns |p| if |p| is distinct from other nodes -that it has seen, otherwise it returns the number of the first equivalent -node that it has seen. - -Notice that we might make subtries equivalent even if they correspond to -patterns for different languages, in which the trie ops might mean quite -different things. That's perfectly all right. - -@<Declare procedures for preprocessing hyph...@>= -static trie_pointer trie_node(trie_pointer @!p) /*converts - to a canonical form*/ -{@+ -trie_pointer h; /*trial hash location*/ -trie_pointer @!q; /*trial trie node*/ -h=abs(trie_c[p]+1009*trie_o[p]+@| - 2718*trie_l[p]+3142*trie_r[p])%trie_size; -loop@+{@+q=trie_hash[h]; - if (q==0) - {@+trie_hash[h]=p;return p; - } - if ((trie_c[q]==trie_c[p])&&(trie_o[q]==trie_o[p])&&@| - (trie_l[q]==trie_l[p])&&(trie_r[q]==trie_r[p])) - {@+return q; - } - if (h > 0) decr(h);@+else h=trie_size; - } -} - -@ A neat recursive procedure is now able to compress a trie by -traversing it and applying |trie_node| to its nodes in ``bottom up'' -fashion. We will compress the entire trie by clearing |trie_hash| to -zero and then saying `|trie_root=compress_trie(trie_root)|'. -@^recursion@> - -@<Declare procedures for preprocessing hyph...@>= -static trie_pointer compress_trie(trie_pointer @!p) -{@+if (p==0) return 0; -else{@+trie_l[p]=compress_trie(trie_l[p]); - trie_r[p]=compress_trie(trie_r[p]); - return trie_node(p); - } -} - -@ The compressed trie will be packed into the |trie| array using a -``top-down first-fit'' procedure. This is a little tricky, so the reader -should pay close attention: The |trie_hash| array is cleared to zero -again and renamed |trie_ref| for this phase of the operation; later on, -|trie_ref[p]| will be nonzero only if the linked trie node |p| is the -smallest character -in a family and if the characters |c| of that family have been allocated to -locations |trie_ref[p]+c| in the |trie| array. Locations of |trie| that -are in use will have |trie_link==0|, while the unused holes in |trie| -will be doubly linked with |trie_link| pointing to the next larger vacant -location and |trie_back| pointing to the next smaller one. This double -linking will have been carried out only as far as |trie_max|, where -|trie_max| is the largest index of |trie| that will be needed. -To save time at the low end of the trie, we maintain array entries -|trie_min[c]| pointing to the smallest hole that is greater than~|c|. -Another array |trie_taken| tells whether or not a given location is -equal to |trie_ref[p]| for some |p|; this array is used to ensure that -distinct nodes in the compressed trie will have distinct |trie_ref| -entries. - -@d trie_ref trie_hash /*where linked trie families go into |trie|*/ -@d trie_back(A) trie[A].lh /*backward links in |trie| holes*/ - -@<Glob...@>= -#ifdef @!INIT -static bool @!trie_taken0[trie_size], *const @!trie_taken = @!trie_taken0-1; - /*does a family start here?*/ -@t\hskip10pt@>static trie_pointer @!trie_min[256]; - /*the first possible slot for each character*/ -@t\hskip10pt@>static trie_pointer @!trie_max; /*largest location used in |trie|*/ -@t\hskip10pt@>bool @!trie_not_ready; /*is the trie still in linked form?*/ -#endif - -@ Each time \.{\\patterns} appears, it contributes further patterns to -the future trie, which will be built only when hyphenation is attempted or -when a format file is dumped. The boolean variable |trie_not_ready| -will change to |false| when the trie is compressed; this will disable -further patterns. - -@<Initialize table entries...@>= -trie_not_ready=true;trie_root=0;trie_c[0]=si(0);trie_ptr=0; - -@ Here is how the trie-compression data structures are initialized. -If storage is tight, it would be possible to overlap |trie_op_hash|, -|trie_op_lang|, and |trie_op_val| with |trie|, |trie_hash|, and |trie_taken|, -because we finish with the former just before we need the latter. - -@<Get ready to compress the trie@>= -@<Sort \(t)the hyphenation...@>; -for (p=0; p<=trie_size; p++) trie_hash[p]=0; -trie_root=compress_trie(trie_root); /*identify equivalent subtries*/ -for (p=0; p<=trie_ptr; p++) trie_ref[p]=0; -for (p=0; p<=255; p++) trie_min[p]=p+1; -trie_link(0)=1;trie_max=0 - -@ The |first_fit| procedure finds the smallest hole |z| in |trie| such that -a trie family starting at a given node |p| will fit into vacant positions -starting at |z|. If |c==trie_c[p]|, this means that location |z-c| must -not already be taken by some other family, and that |z-c+@t$c^\prime$@>| -must be vacant for all characters $c^\prime$ in the family. The procedure -sets |trie_ref[p]| to |z-c| when the first fit has been found. - -@<Declare procedures for preprocessing hyph...@>= -static void first_fit(trie_pointer @!p) /*packs a family into |trie|*/ -{@+ -trie_pointer h; /*candidate for |trie_ref[p]|*/ -trie_pointer @!z; /*runs through holes*/ -trie_pointer @!q; /*runs through the family starting at |p|*/ -ASCII_code @!c; /*smallest character in the family*/ -trie_pointer @!l, @!r; /*left and right neighbors*/ -int @!ll; /*upper limit of |trie_min| updating*/ -c=so(trie_c[p]); -z=trie_min[c]; /*get the first conceivably good hole*/ -loop@+{@+h=z-c;@/ - @<Ensure that |trie_max>=h+256|@>; - if (trie_taken[h]) goto not_found; - @<If all characters of the family fit relative to |h|, then |goto found|,\30\ otherwise -|goto not_found|@>; - not_found: z=trie_link(z); /*move to the next hole*/ - } -found: @<Pack the family into |trie| relative to |h|@>; -} - -@ By making sure that |trie_max| is at least |h+256|, we can be sure that -|trie_max > z|, since |h==z-c|. It follows that location |trie_max| will -never be occupied in |trie|, and we will have |trie_max >= trie_link(z)|. - -@<Ensure that |trie_max>=h+256|@>= -if (trie_max < h+256) - {@+if (trie_size <= h+256) overflow("pattern memory", trie_size); -@:TeX capacity exceeded pattern memory}{\quad pattern memory@> - @/do@+{incr(trie_max);trie_taken[trie_max]=false; - trie_link(trie_max)=trie_max+1;trie_back(trie_max)=trie_max-1; - }@+ while (!(trie_max==h+256)); - } - -@ @<If all characters of the family fit relative to |h|...@>= -q=trie_r[p]; -while (q > 0) - {@+if (trie_link(h+so(trie_c[q]))==0) goto not_found; - q=trie_r[q]; - } -goto found - -@ @<Pack the family into |trie| relative to |h|@>= -trie_taken[h]=true;trie_ref[p]=h;q=p; -@/do@+{z=h+so(trie_c[q]);l=trie_back(z);r=trie_link(z); -trie_back(r)=l;trie_link(l)=r;trie_link(z)=0; -if (l < 256) - {@+if (z < 256) ll=z;@+else ll=256; - @/do@+{trie_min[l]=r;incr(l); - }@+ while (!(l==ll)); - } -q=trie_r[q]; -}@+ while (!(q==0)) - -@ To pack the entire linked trie, we use the following recursive procedure. -@^recursion@> - -@<Declare procedures for preprocessing hyph...@>= -static void trie_pack(trie_pointer @!p) /*pack subtries of a family*/ -{@+trie_pointer q; /*a local variable that need not be saved on recursive calls*/ -@/do@+{q=trie_l[p]; -if ((q > 0)&&(trie_ref[q]==0)) - {@+first_fit(q);trie_pack(q); - } -p=trie_r[p]; -}@+ while (!(p==0)); -} - -@ When the whole trie has been allocated into the sequential table, we -must go through it once again so that |trie| contains the correct -information. Null pointers in the linked trie will be represented by the -value~0, which properly implements an ``empty'' family. - -@<Move the data into |trie|@>= -h.rh=0;h.b0=min_quarterword;h.b1=min_quarterword; /*|trie_link=0|, - |trie_op=min_quarterword|, |trie_char=qi(0)|*/ -if (trie_root==0) /*no patterns were given*/ - {@+for (r=0; r<=256; r++) trie[r]=h; - trie_max=256; - } -else{@+trie_fix(trie_root); /*this fixes the non-holes in |trie|*/ - r=0; /*now we will zero out all the holes*/ - @/do@+{s=trie_link(r);trie[r]=h;r=s; - }@+ while (!(r > trie_max)); - } -trie_char(0)=qi('?'); /*make |trie_char(c)!=c| for all |c|*/ - -@ The fixing-up procedure is, of course, recursive. Since the linked trie -usually has overlapping subtries, the same data may be moved several -times; but that causes no harm, and at most as much work is done as it -took to build the uncompressed trie. -@^recursion@> - -@<Declare procedures for preprocessing hyph...@>= -static void trie_fix(trie_pointer @!p) /*moves |p| and its siblings into |trie|*/ -{@+trie_pointer q; /*a local variable that need not be saved on recursive calls*/ -ASCII_code @!c; /*another one that need not be saved*/ -trie_pointer @!z; /*|trie| reference; this local variable must be saved*/ -z=trie_ref[p]; -@/do@+{q=trie_l[p];c=so(trie_c[p]); -trie_link(z+c)=trie_ref[q];trie_char(z+c)=qi(c);trie_op(z+c)=trie_o[p]; -if (q > 0) trie_fix(q); -p=trie_r[p]; -}@+ while (!(p==0)); -} - -@ Now let's go back to the easier problem, of building the linked -trie. When \.{INITEX} has scanned the `\.{\\patterns}' control -sequence, it calls on |new_patterns| to do the right thing. - -@<Declare procedures for preprocessing hyph...@>= -static void new_patterns(void) /*initializes the hyphenation pattern data*/ -{@+ -int k, @!l; /*indices into |hc| and |hyf|; - not always in |small_number| range*/ -bool @!digit_sensed; /*should the next digit be treated as a letter?*/ -quarterword @!v; /*trie op code*/ -trie_pointer @!p, @!q; /*nodes of trie traversed during insertion*/ -bool @!first_child; /*is |p==trie_l[q]|?*/ -ASCII_code @!c; /*character being inserted*/ -if (trie_not_ready) - {@+set_cur_lang;scan_left_brace(); /*a left brace must follow \.{\\patterns}*/ - @<Enter all of the patterns into a linked trie, until coming to a right brace@>; - } -else{@+print_err("Too late for ");print_esc("patterns"); - help1("All patterns must be given before typesetting begins."); - error();link(garbage)=scan_toks(false, false);flush_list(def_ref); - } -} - -@ Novices are not supposed to be using \.{\\patterns}, so the error -messages are terse. (Note that all error messages appear in \TeX's string -pool, even if they are used only by \.{INITEX}.) - -@<Enter all of the patterns into a linked trie...@>= -k=0;hyf[0]=0;digit_sensed=false; -loop@+{@+get_x_token(); - switch (cur_cmd) { - case letter: case other_char: @<Append a new letter or a hyphen level@>@;@+break; - case spacer: case right_brace: {@+if (k > 0) - @<Insert a new pattern into the linked trie@>; - if (cur_cmd==right_brace) goto done; - k=0;hyf[0]=0;digit_sensed=false; - } @+break; - default:{@+print_err("Bad ");print_esc("patterns"); -@.Bad \\patterns@> - help1("(See Appendix H.)");error(); - } - } - } -done: - -@ @<Append a new letter or a hyphen level@>= -if (digit_sensed||(cur_chr < '0')||(cur_chr > '9')) - {@+if (cur_chr=='.') cur_chr=0; /*edge-of-word delimiter*/ - else{@+cur_chr=lc_code(cur_chr); - if (cur_chr==0) - {@+print_err("Nonletter"); -@.Nonletter@> - help1("(See Appendix H.)");error(); - } - } - if (k < 63) - {@+incr(k);hc[k]=cur_chr;hyf[k]=0;digit_sensed=false; - } - } -else if (k < 63) - {@+hyf[k]=cur_chr-'0';digit_sensed=true; - } - -@ When the following code comes into play, the pattern $p_1\ldots p_k$ -appears in |hc[1 dotdot k]|, and the corresponding sequence of numbers $n_0\ldots -n_k$ appears in |hyf[0 dotdot k]|. - -@<Insert a new pattern into the linked trie@>= -{@+@<Compute the trie op code, |v|, and set |l:=0|@>; -q=0;hc[0]=cur_lang; -while (l <= k) - {@+c=hc[l];incr(l);p=trie_l[q];first_child=true; - while ((p > 0)&&(c > so(trie_c[p]))) - {@+q=p;p=trie_r[q];first_child=false; - } - if ((p==0)||(c < so(trie_c[p]))) - @<Insert a new trie node between |q| and |p|, and make |p| point to it@>; - q=p; /*now node |q| represents $p_1\ldots p_{l-1}$*/ - } -if (trie_o[q]!=min_quarterword) - {@+print_err("Duplicate pattern"); -@.Duplicate pattern@> - help1("(See Appendix H.)");error(); - } -trie_o[q]=v; -} - -@ @<Insert a new trie node between |q| and |p|...@>= -{@+if (trie_ptr==trie_size) overflow("pattern memory", trie_size); -@:TeX capacity exceeded pattern memory}{\quad pattern memory@> -incr(trie_ptr);trie_r[trie_ptr]=p;p=trie_ptr;trie_l[p]=0; -if (first_child) trie_l[q]=p;@+else trie_r[q]=p; -trie_c[p]=si(c);trie_o[p]=min_quarterword; -} - -@ @<Compute the trie op code, |v|...@>= -if (hc[1]==0) hyf[0]=0; -if (hc[k]==0) hyf[k]=0; -l=k;v=min_quarterword; -loop@+{@+if (hyf[l]!=0) v=new_trie_op(k-l, hyf[l], v); - if (l > 0) decr(l);@+else goto done1; - } -done1: - -@ Finally we put everything together: Here is how the trie gets to its -final, efficient form. -The following packing routine is rigged so that the root of the linked -tree gets mapped into location 1 of |trie|, as required by the hyphenation -algorithm. This happens because the first call of |first_fit| will -``take'' location~1. - -@<Declare procedures for preprocessing hyphenation patterns@>= -void init_trie(void) -{@+int @!p; /*pointer for initialization*/ -int @!j, @!k, @!t; /*all-purpose registers for initialization*/ -int @!r, @!s; /*used to clean up the packed |trie|*/ -two_halves @!h; /*template used to zero out |trie|'s holes*/ -@<Get ready to compress the trie@>; -if (trie_root!=0) - {@+first_fit(trie_root);trie_pack(trie_root); - } -@<Move the data into |trie|@>; -trie_not_ready=false; -} - -@* Breaking vertical lists into pages. -The |vsplit| procedure, which implements \TeX's \.{\\vsplit} operation, -is considerably simpler than |line_break| because it doesn't have to -worry about hyphenation, and because its mission is to discover a single -break instead of an optimum sequence of breakpoints. But before we get -into the details of |vsplit|, we need to consider a few more basic things. - -@ A subroutine called |prune_page_top| takes a pointer to a vlist and -returns a pointer to a modified vlist in which all glue, kern, and penalty nodes -have been deleted before the first box or rule node. However, the first -box or rule is actually preceded by a newly created glue node designed so that -the topmost baseline will be at distance |split_top_skip| from the top, -whenever this is possible without backspacing. - -In this routine and those that follow, we make use of the fact that a -vertical list contains no character nodes, hence the |type| field exists -for each node in the list. -@^data structure assumptions@> - -@p static pointer prune_page_top(pointer @!p) /*adjust top after page break*/ -{@+pointer prev_p; /*lags one step behind |p|*/ -pointer @!q; /*temporary variable for list manipulation*/ -prev_p=temp_head;link(temp_head)=p; -while (p!=null) - switch (type(p)) { - case hlist_node: case vlist_node: case rule_node: @<Insert glue for |split_top_skip| -and set~|p:=null|@>@;@+break; - case whatsit_node: case mark_node: case ins_node: {@+prev_p=p;p=link(prev_p); - } @+break; - case glue_node: case kern_node: case penalty_node: {@+q=p;p=link(q);link(q)=null; - link(prev_p)=p;flush_node_list(q); - } @+break; - default:confusion("pruning"); -@:this can't happen pruning}{\quad pruning@> - } -return link(temp_head); -} - -@ @<Insert glue for |split_top_skip|...@>= -{@+q=new_skip_param(split_top_skip_code);link(prev_p)=q;link(q)=p; - /*now |temp_ptr==glue_ptr(q)|*/ -if (width(temp_ptr) > height(p)) width(temp_ptr)=width(temp_ptr)-height(p); -else width(temp_ptr)=0; -p=null; -} - -@ The next subroutine finds the best place to break a given vertical list -so as to obtain a box of height~|h|, with maximum depth~|d|. -A pointer to the beginning of the vertical list is given, -and a pointer to the optimum breakpoint is returned. The list is effectively -followed by a forced break, i.e., a penalty node with the |eject_penalty|; -if the best break occurs at this artificial node, the value |null| is returned. - -An array of six |scaled| distances is used to keep track of the height -from the beginning of the list to the current place, just as in |line_break|. -In fact, we use one of the same arrays, only changing its name to reflect -its new significance. - -@d active_height active_width /*new name for the six distance variables*/ -@d cur_height active_height[1] /*the natural height*/ -@d set_height_zero(A) active_height[A]=0 /*initialize the height to zero*/ -@# -@p static pointer vert_break(pointer @!p, scaled @!h, scaled @!d) - /*finds optimum page break*/ -{@+ -pointer prev_p; /*if |p| is a glue node, |type(prev_p)| determines - whether |p| is a legal breakpoint*/ -pointer @!q, @!r; /*glue specifications*/ -int @!pi; /*penalty value*/ -int @!b; /*badness at a trial breakpoint*/ -int @!least_cost; /*the smallest badness plus penalties found so far*/ -pointer @!best_place; /*the most recent break that leads to |least_cost|*/ -scaled @!prev_dp; /*depth of previous box in the list*/ -small_number @!t; /*|type| of the node following a kern*/ -prev_p=p; /*an initial glue node is not a legal breakpoint*/ -least_cost=awful_bad;do_all_six(set_height_zero);prev_dp=0; -loop@+{@+@<If node |p| is a legal breakpoint, check if this break is the best known, -and |goto done| if |p| is null or if the page-so-far is already too full to accept -more stuff@>; - prev_p=p;p=link(prev_p); - } -done: return best_place; -} - -@ A global variable |best_height_plus_depth| will be set to the natural size -of the box that corresponds to the optimum breakpoint found by |vert_break|. -(This value is used by the insertion-splitting algorithm of the page builder.) - -@<Glob...@>= -static scaled @!best_height_plus_depth; /*height of the best box, without stretching or - shrinking*/ - -@ A subtle point to be noted here is that the maximum depth~|d| might be -negative, so |cur_height| and |prev_dp| might need to be corrected even -after a glue or kern node. - -@<If node |p| is a legal breakpoint, check...@>= -if (p==null) pi=eject_penalty; -else@<Use node |p| to update the current height and depth measurements; if this node -is not a legal breakpoint, |goto not_found| or |update_heights|, otherwise set |pi| -to the associated penalty at the break@>; -@<Check if node |p| is a new champion breakpoint; then \(go)|goto done| if |p| is -a forced break or if the page-so-far is already too full@>; -if ((type(p) < glue_node)||(type(p) > kern_node)) goto not_found; -update_heights: @<Update the current height and depth measurements with respect to -a glue or kern node~|p|@>; -not_found: if (prev_dp > d) - {@+cur_height=cur_height+prev_dp-d; - prev_dp=d; - } - -@ @<Use node |p| to update the current height and depth measurements...@>= -switch (type(p)) { -case hlist_node: case vlist_node: case rule_node: {@+@t@>@;@/ - cur_height=cur_height+prev_dp+height(p);prev_dp=depth(p); - goto not_found; - } -case whatsit_node: @<Process whatsit |p| in |vert_break| loop, |goto not_found|@>; -case glue_node: if (precedes_break(prev_p)) pi=0; - else goto update_heights;@+break; -case kern_node: {@+if (link(p)==null) t=penalty_node; - else t=type(link(p)); - if (t==glue_node) pi=0;@+else goto update_heights; - } @+break; -case penalty_node: pi=penalty(p);@+break; -case mark_node: case ins_node: goto not_found; -default:confusion("vertbreak"); -@:this can't happen vertbreak}{\quad vertbreak@> -} - -@ @d deplorable 100000 /*more than |inf_bad|, but less than |awful_bad|*/ - -@<Check if node |p| is a new champion breakpoint; then \(go)...@>= -if (pi < inf_penalty) - {@+@<Compute the badness, |b|, using |awful_bad| if the box is too full@>; - if (b < awful_bad) - if (pi <= eject_penalty) b=pi; - else if (b < inf_bad) b=b+pi; - else b=deplorable; - if (b <= least_cost) - {@+best_place=p;least_cost=b; - best_height_plus_depth=cur_height+prev_dp; - } - if ((b==awful_bad)||(pi <= eject_penalty)) goto done; - } - -@ @<Compute the badness, |b|, using |awful_bad| if the box is too full@>= -if (cur_height < h) - if ((active_height[3]!=0)||(active_height[4]!=0)|| - (active_height[5]!=0)) b=0; - else b=badness(h-cur_height, active_height[2]); -else if (cur_height-h > active_height[6]) b=awful_bad; -else b=badness(cur_height-h, active_height[6]) - -@ Vertical lists that are subject to the |vert_break| procedure should not -contain infinite shrinkability, since that would permit any amount of -information to ``fit'' on one page. - -@<Update the current height and depth measurements with...@>= -if (type(p)==kern_node) q=p; -else{@+q=glue_ptr(p); - active_height[2+stretch_order(q)]=@| - active_height[2+stretch_order(q)]+stretch(q);@/ - active_height[6]=active_height[6]+shrink(q); - if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) - {@+@t@>@;@/ - print_err("Infinite glue shrinkage found in box being split");@/ -@.Infinite glue shrinkage...@> - help4("The box you are \\vsplitting contains some infinitely",@/ - "shrinkable glue, e.g., `\\vss' or `\\vskip 0pt minus 1fil'.",@/ - "Such glue doesn't belong there; but you can safely proceed,",@/ - "since the offensive shrinkability has been made finite."); - error();r=new_spec(q);shrink_order(r)=normal;delete_glue_ref(q); - glue_ptr(p)=r;q=r; - } - } -cur_height=cur_height+prev_dp+width(q);prev_dp=0 - -@ Now we are ready to consider |vsplit| itself. Most of -its work is accomplished by the two subroutines that we have just considered. - -Given the number of a vlist box |n|, and given a desired page height |h|, -the |vsplit| function finds the best initial segment of the vlist and -returns a box for a page of height~|h|. The remainder of the vlist, if -any, replaces the original box, after removing glue and penalties and -adjusting for |split_top_skip|. Mark nodes in the split-off box are used to -set the values of |split_first_mark| and |split_bot_mark|; we use the -fact that |split_first_mark==null| if and only if |split_bot_mark==null|. - -The original box becomes ``void'' if and only if it has been entirely -extracted. The extracted box is ``void'' if and only if the original -box was void (or if it was, erroneously, an hlist box). - -@p static pointer vsplit(halfword @!n, scaled @!h) - /*extracts a page of height |h| from box |n|*/ -{@+ -pointer v; /*the box to be split*/ -pointer p; /*runs through the vlist*/ -pointer q; /*points to where the break occurs*/ -cur_val=n;fetch_box(v); -if (split_first_mark!=null) - {@+delete_token_ref(split_first_mark);split_first_mark=null; - delete_token_ref(split_bot_mark);split_bot_mark=null; - } -@<Dispense with trivial cases of void or bad boxes@>; -q=vert_break(list_ptr(v), h, split_max_depth); -@<Look at all the marks in nodes before the break, and set the final link to |null| -at the break@>; -q=prune_page_top(q);p=list_ptr(v);list_ptr(v)=null;flush_node_list(v); -if (q!=null) q=vpack(q, natural); -change_box(q); /*the |eq_level| of the box stays the same*/ -return vpackage(p, h, 0, 0, exactly, split_max_depth); -} - -@ @<Dispense with trivial cases of void or bad boxes@>= -if (v==null) - {@+return null; - } -if (type(v)!=vlist_node) - {@+print_err("");print_esc("vsplit");print(" needs a "); - print_esc("vbox"); -@:vsplit\_}{\.{\\vsplit needs a \\vbox}@> - help2("The box you are trying to split is an \\hbox.",@/ - "I can't split such a box, so I'll leave it alone."); - error();return null; - } - -@ It's possible that the box begins with a penalty node that is the -``best'' break, so we must be careful to handle this special case correctly. - -@<Look at all the marks...@>= -p=list_ptr(v); -if (p==q) list_ptr(v)=null; -else loop@+{@+if (type(p)==mark_node) - if (split_first_mark==null) - {@+split_first_mark=mark_ptr(p); - split_bot_mark=split_first_mark; - token_ref_count(split_first_mark)=@| - token_ref_count(split_first_mark)+2; - } - else{@+delete_token_ref(split_bot_mark); - split_bot_mark=mark_ptr(p); - add_token_ref(split_bot_mark); - } - if (link(p)==q) - {@+link(p)=null;goto done; - } - p=link(p); - } -done: - -@* The page builder. -When \TeX\ appends new material to its main vlist in vertical mode, it uses -a method something like |vsplit| to decide where a page ends, except that -the calculations are done ``on line'' as new items come in. -The main complication in this process is that insertions must be put -into their boxes and removed from the vlist, in a more-or-less optimum manner. - -We shall use the term ``current page'' for that part of the main vlist that -is being considered as a candidate for being broken off and sent to the -user's output routine. The current page starts at |link(page_head)|, and -it ends at |page_tail|. We have |page_head==page_tail| if this list is empty. -@^current page@> - -Utter chaos would reign if the user kept changing page specifications -while a page is being constructed, so the page builder keeps the pertinent -specifications frozen as soon as the page receives its first box or -insertion. The global variable |page_contents| is |empty| when the -current page contains only mark nodes and content-less whatsit nodes; it -is |inserts_only| if the page contains only insertion nodes in addition to -marks and whatsits. Glue nodes, kern nodes, and penalty nodes are -discarded until a box or rule node appears, at which time |page_contents| -changes to |box_there|. As soon as |page_contents| becomes non-|empty|, -the current |vsize| and |max_depth| are squirreled away into |page_goal| -and |page_max_depth|; the latter values will be used until the page has -been forwarded to the user's output routine. The \.{\\topskip} adjustment -is made when |page_contents| changes to |box_there|. - -Although |page_goal| starts out equal to |vsize|, it is decreased by the -scaled natural height-plus-depth of the insertions considered so far, and by -the \.{\\skip} corrections for those insertions. Therefore it represents -the size into which the non-inserted material should fit, assuming that -all insertions in the current page have been made. - -The global variables |best_page_break| and |least_page_cost| correspond -respectively to the local variables |best_place| and |least_cost| in the -|vert_break| routine that we have already studied; i.e., they record the -location and value of the best place currently known for breaking the -current page. The value of |page_goal| at the time of the best break is -stored in |best_size|. - -@d inserts_only 1 - /*|page_contents| when an insert node has been contributed, but no boxes*/ -@d box_there 2 /*|page_contents| when a box or rule has been contributed*/ - -@<Glob...@>= -static pointer @!page_tail; /*the final node on the current page*/ -int @!page_contents; /*what is on the current page so far?*/ -static scaled @!page_max_depth; /*maximum box depth on page being built*/ -static pointer @!best_page_break; /*break here to get the best page known so far*/ -static int @!least_page_cost; /*the score for this currently best page*/ -static scaled @!best_size; /*its |page_goal|*/ - -@ The page builder has another data structure to keep track of insertions. -This is a list of four-word nodes, starting and ending at |page_ins_head|. -That is, the first element of the list is node |r@t$\_1$@>==link(page_ins_head)|; -node $r_j$ is followed by |r@t$\_{j+1}$@>==link(r@t$\_j$@>)|; and if there are -|n| items we have |r@t$\_{n+1}$@>==page_ins_head|. The |subtype| field of -each node in this list refers to an insertion number; for example, `\.{\\insert -250}' would correspond to a node whose |subtype| is |qi(250)| -(the same as the |subtype| field of the relevant |ins_node|). These |subtype| -fields are in increasing order, and |subtype(page_ins_head)== -qi(255)|, so |page_ins_head| serves as a convenient sentinel -at the end of the list. A record is present for each insertion number that -appears in the current page. - -The |type| field in these nodes distinguishes two possibilities that -might occur as we look ahead before deciding on the optimum page break. -If |type(r)==inserting|, then |height(r)| contains the total of the -height-plus-depth dimensions of the box and all its inserts seen so far. -If |type(r)==split_up|, then no more insertions will be made into this box, -because at least one previous insertion was too big to fit on the current -page; |broken_ptr(r)| points to the node where that insertion will be -split, if \TeX\ decides to split it, |broken_ins(r)| points to the -insertion node that was tentatively split, and |height(r)| includes also the -natural height plus depth of the part that would be split off. - -In both cases, |last_ins_ptr(r)| points to the last |ins_node| -encountered for box |qo(subtype(r))| that would be at least partially -inserted on the next page; and |best_ins_ptr(r)| points to the last -such |ins_node| that should actually be inserted, to get the page with -minimum badness among all page breaks considered so far. We have -|best_ins_ptr(r)==null| if and only if no insertion for this box should -be made to produce this optimum page. - -The data structure definitions here use the fact that the |@!height| field -appears in the fourth word of a box node. -@^data structure assumptions@> - -@d page_ins_node_size 4 /*number of words for a page insertion node*/ -@d inserting 0 /*an insertion class that has not yet overflowed*/ -@d split_up 1 /*an overflowed insertion class*/ -@d broken_ptr(A) link(A+1) - /*an insertion for this class will break here if anywhere*/ -@d broken_ins(A) info(A+1) /*this insertion might break at |broken_ptr|*/ -@d last_ins_ptr(A) link(A+2) /*the most recent insertion for this |subtype|*/ -@d best_ins_ptr(A) info(A+2) /*the optimum most recent insertion*/ - -@<Initialize the special list heads...@>= -subtype(page_ins_head)=qi(255); -type(page_ins_head)=split_up;link(page_ins_head)=page_ins_head; - -@ An array |page_so_far| records the heights and depths of everything -on the current page. This array contains six |scaled| numbers, like the -similar arrays already considered in |line_break| and |vert_break|; and it -also contains |page_goal| and |page_depth|, since these values are -all accessible to the user via |set_page_dimen| commands. The -value of |page_so_far[1]| is also called |page_total|. The stretch -and shrink components of the \.{\\skip} corrections for each insertion are -included in |page_so_far|, but the natural space components of these -corrections are not, since they have been subtracted from |page_goal|. - -The variable |page_depth| records the depth of the current page; it has been -adjusted so that it is at most |page_max_depth|. The variable -|last_glue| points to the glue specification of the most recent node -contributed from the contribution list, if this was a glue node; otherwise -|last_glue==max_halfword|. (If the contribution list is nonempty, -however, the value of |last_glue| is not necessarily accurate.) -The variables |last_penalty|, |last_kern|, and |last_node_type| -are similar. And -finally, |insert_penalties| holds the sum of the penalties associated with -all split and floating insertions. - -@d page_goal page_so_far[0] /*desired height of information on page being built*/ -@d page_total page_so_far[1] /*height of the current page*/ -@d page_shrink page_so_far[6] /*shrinkability of the current page*/ -@d page_depth page_so_far[7] /*depth of the current page*/ - -@<Glob...@>= -scaled @!page_so_far[8]; /*height and glue of the current page*/ -static pointer @!last_glue; /*used to implement \.{\\lastskip}*/ -static int @!last_penalty; /*used to implement \.{\\lastpenalty}*/ -static scaled @!last_kern; /*used to implement \.{\\lastkern}*/ -static int @!last_node_type; /*used to implement \.{\\lastnodetype}*/ -static int @!insert_penalties; /*sum of the penalties for insertions - that were held over*/ - -@ @<Put each...@>= -primitive("pagegoal", set_page_dimen, 0); -@!@:page\_goal\_}{\.{\\pagegoal} primitive@> -primitive("pagetotal", set_page_dimen, 1); -@!@:page\_total\_}{\.{\\pagetotal} primitive@> -primitive("pagestretch", set_page_dimen, 2); -@!@:page\_stretch\_}{\.{\\pagestretch} primitive@> -primitive("pagefilstretch", set_page_dimen, 3); -@!@:page\_fil\_stretch\_}{\.{\\pagefilstretch} primitive@> -primitive("pagefillstretch", set_page_dimen, 4); -@!@:page\_fill\_stretch\_}{\.{\\pagefillstretch} primitive@> -primitive("pagefilllstretch", set_page_dimen, 5); -@!@:page\_filll\_stretch\_}{\.{\\pagefilllstretch} primitive@> -primitive("pageshrink", set_page_dimen, 6); -@!@:page\_shrink\_}{\.{\\pageshrink} primitive@> -primitive("pagedepth", set_page_dimen, 7); -@!@:page\_depth\_}{\.{\\pagedepth} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case set_page_dimen: switch (chr_code) { -case 0: print_esc("pagegoal");@+break; -case 1: print_esc("pagetotal");@+break; -case 2: print_esc("pagestretch");@+break; -case 3: print_esc("pagefilstretch");@+break; -case 4: print_esc("pagefillstretch");@+break; -case 5: print_esc("pagefilllstretch");@+break; -case 6: print_esc("pageshrink");@+break; -default:print_esc("pagedepth"); -} @+break; - -@ @d print_plus(A, B) if (page_so_far[A]!=0) - {@+print(" plus ");print_scaled(page_so_far[A]);print(B);@+} - -@p static void print_totals(void) -{@+print_scaled(page_total); -print_plus(2,""); -print_plus(3,"fil"); -print_plus(4,"fill"); -print_plus(5,"filll"); -if (page_shrink!=0) - {@+print(" minus ");print_scaled(page_shrink); - } -} - -@ @<Show the status of the current page@>= -if (page_head!=page_tail) - {@+print_nl("### current page:"); - if (output_active) print(" (held over for next output)"); -@.held over for next output@> - show_box(link(page_head)); - if (page_contents > empty) - {@+print_nl("total height ");print_totals(); -@:total\_height}{\.{total height}@> - print_nl(" goal height ");print_scaled(page_goal); -@.goal height@> - r=link(page_ins_head); - while (r!=page_ins_head) - {@+print_ln();print_esc("insert");t=qo(subtype(r)); - print_int(t);print(" adds "); - if (count(t)==1000) t=height(r); - else t=x_over_n(height(r), 1000)*count(t); - print_scaled(t); - if (type(r)==split_up) - {@+q=page_head;t=0; - @/do@+{q=link(q); - if ((type(q)==ins_node)&&(subtype(q)==subtype(r))) incr(t); - }@+ while (!(q==broken_ins(r))); - print(", #");print_int(t);print(" might split"); - } - r=link(r); - } - } - } - -@ Here is a procedure that is called when the |page_contents| is changing -from |empty| to |inserts_only| or |box_there|. - -@d set_page_so_far_zero(A) page_so_far[A]=0 - -@p void freeze_page_specs(small_number @!s) -{@+page_contents=s; -page_goal=vsize;page_max_depth=max_depth; -page_depth=0;do_all_six(set_page_so_far_zero); -least_page_cost=awful_bad; -#ifdef @!STAT -if (tracing_pages > 0) - {@+begin_diagnostic(); - print_nl("%% goal height=");print_scaled(page_goal); -@.goal height@> - print(", max depth=");print_scaled(page_max_depth); - end_diagnostic(false); - } @; -#endif -@;@/ -} - -@ Pages are built by appending nodes to the current list in \TeX's -vertical mode, which is at the outermost level of the semantic nest. This -vlist is split into two parts; the ``current page'' that we have been -talking so much about already, and the ``contribution list'' that receives -new nodes as they are created. The current page contains everything that -the page builder has accounted for in its data structures, as described -above, while the contribution list contains other things that have been -generated by other parts of \TeX\ but have not yet been -seen by the page builder. -The contribution list starts at |link(contrib_head)|, and it ends at the -current node in \TeX's vertical mode. - -When \TeX\ has appended new material in vertical mode, it calls the procedure -|build_page|, which tries to catch up by moving nodes from the contribution -list to the current page. This procedure will succeed in its goal of -emptying the contribution list, unless a page break is discovered, i.e., -unless the current page has grown to the point where the optimum next -page break has been determined. In the latter case, the nodes after the -optimum break will go back onto the contribution list, and control will -effectively pass to the user's output routine. - -We make |type(page_head)==glue_node|, so that an initial glue node on -the current page will not be considered a valid breakpoint. - -@<Initialize the special list...@>= -type(page_head)=glue_node;subtype(page_head)=normal; - -@ The global variable |output_active| is true during the time the -user's output routine is driving \TeX. - -@<Glob...@>= -bool @!output_active; /*are we in the midst of an output routine?*/ - -@ @<Set init...@>= -output_active=false;insert_penalties=0; - -@ The page builder is ready to start a fresh page if we initialize -the following state variables. (However, the page insertion list is initialized -elsewhere.) - -@<Start a new current page@>= -page_contents=empty;page_tail=page_head;link(page_head)=null;@/ -last_glue=max_halfword;last_penalty=0;last_kern=0; -last_node_type=-1; -page_depth=0;page_max_depth=0 - -@ At certain times box 255 is supposed to be void (i.e., |null|), -or an insertion box is supposed to be ready to accept a vertical list. -If not, an error message is printed, and the following subroutine -flushes the unwanted contents, reporting them to the user. - -@p static void box_error(eight_bits @!n) -{@+error();begin_diagnostic(); -print_nl("The following box has been deleted:"); -@.The following...deleted@> -show_box(box(n));end_diagnostic(true); -flush_node_list(box(n));box(n)=null; -} - -@ The following procedure guarantees that a given box register -does not contain an \.{\\hbox}. - -@p static void ensure_vbox(eight_bits @!n) -{@+pointer p; /*the box register contents*/ -p=box(n); -if (p!=null) if (type(p)==hlist_node) - {@+print_err("Insertions can only be added to a vbox"); -@.Insertions can only...@> - help3("Tut tut: You're trying to \\insert into a",@/ - "\\box register that now contains an \\hbox.",@/ - "Proceed, and I'll discard its present contents."); - box_error(n); - } -} - -@ \TeX\ is not always in vertical mode at the time |build_page| -is called; the current mode reflects what \TeX\ should return to, after -the contribution list has been emptied. A call on |build_page| should -be immediately followed by `|goto big_switch|', which is \TeX's central -control point. - -@p -void update_last_values(pointer p) -{@<Update the values of |last_glue|, |last_penalty|, and |last_kern|@>; -} - -@ @d contrib_tail nest[0].tail_field /*tail of the contribution list*/ - -@<Make the contribution list empty...@>= -if (nest_ptr==0) tail=contrib_head; /*vertical mode*/ -else contrib_tail=contrib_head /*other modes*/ - -@ @<Update the values of |last_glue|...@>= -if (last_glue!=max_halfword) delete_glue_ref(last_glue); -last_penalty=0;last_kern=0; -last_node_type=type(p)+1; -if (type(p)==glue_node) - {@+last_glue=glue_ptr(p);add_glue_ref(last_glue); - } -else{@+last_glue=max_halfword; - if (type(p)==penalty_node) last_penalty=penalty(p); - else if (type(p)==kern_node) last_kern=width(p); - } - -@ The code here is an example of a many-way switch into routines that -merge together in different places. Some people call this unstructured -programming, but the author doesn't see much wrong with it, as long as -@^Knuth, Donald Ervin@> -the various labels have a well-understood meaning. - -@<Move node |p| to the current page;...@>= -@<If the current page is empty and node |p| is to be deleted, |goto done1|; otherwise -use node |p| to update the state of the current page; if this node is an insertion, -|goto contribute|; otherwise if this node is not a legal breakpoint, |goto contribute| -or |update_heights|; otherwise set |pi| to the penalty associated with this breakpoint@>; -@<Check if node |p| is a new champion breakpoint; then \(if)if it is time for a page -break, prepare for output, and either fire up the user's output routine and |return| -or ship out the page and |goto done|@>; -if ((type(p) < glue_node)||(type(p) > kern_node)) goto contribute; -update_heights: @<Update the current page measurements with respect to the glue or -kern specified by node~|p|@>; -contribute: @<Make sure that |page_max_depth| is not exceeded@>; -@<Link node |p| into the current page and |goto done|@>; -done1: @<Recycle node |p|@>; -done: - -@ @<Link node |p| into the current page and |goto done|@>= -link(page_tail)=p;page_tail=p; -link(contrib_head)=link(p);link(p)=null;goto done - -@ @<Recycle node |p|@>= -link(contrib_head)=link(p);link(p)=null;flush_node_list(p) - -@ The title of this section is already so long, it seems best to avoid -making it more accurate but still longer, by mentioning the fact that a -kern node at the end of the contribution list will not be contributed until -we know its successor. - -@<If the current page is empty...@>= -switch (type(p)) { -case hlist_node: case vlist_node: case rule_node: if (page_contents < box_there) - @<Initialize the current page, insert the \.{\\topskip} glue ahead of |p|, and -|goto continue|@>@; - else@<Prepare to move a box or rule node to the current page, then |goto contribute|@>@;@+break; -case whatsit_node: @<Prepare to move whatsit |p| to the current page, then |goto contribute|@>; -case glue_node: if (page_contents < box_there) goto done1; - else if (precedes_break(page_tail)) pi=0; - else goto update_heights;@+break; -case kern_node: if (page_contents < box_there) goto done1; - else if (link(p)==null) return; - else if (type(link(p))==glue_node) pi=0; - else goto update_heights;@+break; -case penalty_node: if (page_contents < box_there) goto done1;@+else pi=penalty(p);@+break; -case mark_node: goto contribute; -case ins_node: @<Append an insertion to the current page and |goto contribute|@>@; -default:confusion("page"); -@:this can't happen page}{\quad page@> -} - -@ @<Initialize the current page, insert the \.{\\topskip} glue...@>= -{@+if (page_contents==empty) freeze_page_specs(box_there); -else page_contents=box_there; -q=new_skip_param(top_skip_code); /*now |temp_ptr==glue_ptr(q)|*/ -if (width(temp_ptr) > height(p)) width(temp_ptr)=width(temp_ptr)-height(p); -else width(temp_ptr)=0; -link(q)=p;link(contrib_head)=q;goto resume; -} - -@ @<Prepare to move a box or rule node to the current page...@>= -{@+page_total=page_total+page_depth+height(p); -page_depth=depth(p); -goto contribute; -} - -@ @<Make sure that |page_max_depth| is not exceeded@>= -if (page_depth > page_max_depth) - {@+page_total=@| - page_total+page_depth-page_max_depth;@/ - page_depth=page_max_depth; - } - -@ @<Update the current page measurements with respect to the glue...@>= -if (type(p)==kern_node) q=p; -else{@+q=glue_ptr(p); - page_so_far[2+stretch_order(q)]=@| - page_so_far[2+stretch_order(q)]+stretch(q);@/ - page_shrink=page_shrink+shrink(q); - if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) - {@+@t@>@;@/ - print_err("Infinite glue shrinkage found on current page");@/ -@.Infinite glue shrinkage...@> - help4("The page about to be output contains some infinitely",@/ - "shrinkable glue, e.g., `\\vss' or `\\vskip 0pt minus 1fil'.",@/ - "Such glue doesn't belong there; but you can safely proceed,",@/ - "since the offensive shrinkability has been made finite."); - error(); - r=new_spec(q);shrink_order(r)=normal;delete_glue_ref(q); - glue_ptr(p)=r;q=r; - } - } -page_total=page_total+page_depth+width(q);page_depth=0 - -@ @<Check if node |p| is a new champion breakpoint; then \(if)...@>= -if (pi < inf_penalty) - {@+@<Compute the badness, |b|, of the current page, using |awful_bad| if the box -is too full@>; - if (b < awful_bad) - if (pi <= eject_penalty) c=pi; - else if (b < inf_bad) c=b+pi+insert_penalties; - else c=deplorable; - else c=b; - if (insert_penalties >= 10000) c=awful_bad; -#ifdef @!STAT - if (tracing_pages > 0) @<Display the page break cost@>; -#endif -@;@/ - if (c <= least_page_cost) - {@+best_page_break=p;best_size=page_goal; - least_page_cost=c; - r=link(page_ins_head); - while (r!=page_ins_head) - {@+best_ins_ptr(r)=last_ins_ptr(r); - r=link(r); - } - } - if ((c==awful_bad)||(pi <= eject_penalty)) - {@+fire_up(p); /*output the current page at the best place*/ - if (output_active) return; /*user's output routine will act*/ - goto done; /*the page has been shipped out by default output routine*/ - } - } - -@ @<Display the page break cost@>= -{@+begin_diagnostic();print_nl("%"); -print(" t=");print_totals();@/ -print(" g=");print_scaled(page_goal);@/ -print(" b="); -if (b==awful_bad) print_char('*');@+else print_int(b); -@.*\relax@> -print(" p=");print_int(pi); -print(" c="); -if (c==awful_bad) print_char('*');@+else print_int(c); -if (c <= least_page_cost) print_char('#'); -end_diagnostic(false); -} - -@ @<Compute the badness, |b|, of the current page...@>= -if (page_total < page_goal) - if ((page_so_far[3]!=0)||(page_so_far[4]!=0)||@| - (page_so_far[5]!=0)) b=0; - else b=badness(page_goal-page_total, page_so_far[2]); -else if (page_total-page_goal > page_shrink) b=awful_bad; -else b=badness(page_total-page_goal, page_shrink) - -@ @<Append an insertion to the current page and |goto contribute|@>= -{@+if (page_contents==empty) freeze_page_specs(inserts_only); -n=subtype(p);r=page_ins_head; -while (n >= subtype(link(r))) r=link(r); -n=qo(n); -if (subtype(r)!=qi(n)) - @<Create a page insertion node with |subtype(r)=qi(n)|, and include the glue correction -for box |n| in the current page state@>; -if (type(r)==split_up) insert_penalties=insert_penalties+float_cost(p); -else{@+last_ins_ptr(r)=p; - delta=page_goal-page_total-page_depth+page_shrink; - /*this much room is left if we shrink the maximum*/ - if (count(n)==1000) h=height(p); - else h=x_over_n(height(p), 1000)*count(n); /*this much room is needed*/ - if (((h <= 0)||(h <= delta))&&(height(p)+height(r) <= dimen(n))) - {@+page_goal=page_goal-h;height(r)=height(r)+height(p); - } - else@<Find the best way to split the insertion, and change |type(r)| to |split_up|@>; - } -goto contribute; -} - -@ We take note of the value of \.{\\skip} |n| and the height plus depth -of \.{\\box}~|n| only when the first \.{\\insert}~|n| node is -encountered for a new page. A user who changes the contents of \.{\\box}~|n| -after that first \.{\\insert}~|n| had better be either extremely careful -or extremely lucky, or both. - -@<Create a page insertion node...@>= -{@+q=get_node(page_ins_node_size);link(q)=link(r);link(r)=q;r=q; -subtype(r)=qi(n);type(r)=inserting;ensure_vbox(n); -if (box(n)==null) height(r)=0; -else height(r)=height(box(n))+depth(box(n)); -best_ins_ptr(r)=null;@/ -q=skip(n); -if (count(n)==1000) h=height(r); -else h=x_over_n(height(r), 1000)*count(n); -page_goal=page_goal-h-width(q);@/ -page_so_far[2+stretch_order(q)]=@|page_so_far[2+stretch_order(q)]+stretch(q);@/ -page_shrink=page_shrink+shrink(q); -if ((shrink_order(q)!=normal)&&(shrink(q)!=0)) - {@+print_err("Infinite glue shrinkage inserted from ");print_esc("skip"); -@.Infinite glue shrinkage...@> - print_int(n); - help3("The correction glue for page breaking with insertions",@/ - "must have finite shrinkability. But you may proceed,",@/ - "since the offensive shrinkability has been made finite."); - error(); - } -} - -@ Here is the code that will split a long footnote between pages, in an -emergency. The current situation deserves to be recapitulated: Node |p| -is an insertion into box |n|; the insertion will not fit, in its entirety, -either because it would make the total contents of box |n| greater than -\.{\\dimen} |n|, or because it would make the incremental amount of growth -|h| greater than the available space |delta|, or both. (This amount |h| has -been weighted by the insertion scaling factor, i.e., by \.{\\count} |n| -over 1000.) Now we will choose the best way to break the vlist of the -insertion, using the same criteria as in the \.{\\vsplit} operation. - -@<Find the best way to split the insertion...@>= -{@+if (count(n) <= 0) w=max_dimen; -else{@+w=page_goal-page_total-page_depth; - if (count(n)!=1000) w=x_over_n(w, count(n))*1000; - } -if (w > dimen(n)-height(r)) w=dimen(n)-height(r); -q=vert_break(ins_ptr(p), w, depth(p)); -height(r)=height(r)+best_height_plus_depth; -#ifdef @!STAT -if (tracing_pages > 0) @<Display the insertion split cost@>; -#endif -@;@/ -if (count(n)!=1000) - best_height_plus_depth=x_over_n(best_height_plus_depth, 1000)*count(n); -page_goal=page_goal-best_height_plus_depth; -type(r)=split_up;broken_ptr(r)=q;broken_ins(r)=p; -if (q==null) insert_penalties=insert_penalties+eject_penalty; -else if (type(q)==penalty_node) insert_penalties=insert_penalties+penalty(q); -} - -@ @<Display the insertion split cost@>= -{@+begin_diagnostic();print_nl("% split");print_int(n); -@.split@> -print(" to ");print_scaled(w); -print_char(',');print_scaled(best_height_plus_depth);@/ -print(" p="); -if (q==null) print_int(eject_penalty); -else if (type(q)==penalty_node) print_int(penalty(q)); -else print_char('0'); -end_diagnostic(false); -} - -@ When the page builder has looked at as much material as could appear before -the next page break, it makes its decision. The break that gave minimum -badness will be used to put a completed ``page'' into box 255, with insertions -appended to their other boxes. - -We also set the values of |top_mark|, |first_mark|, and |bot_mark|. The -program uses the fact that |bot_mark!=null| implies |first_mark!=null|; -it also knows that |bot_mark==null| implies |top_mark==first_mark==null|. - -The |fire_up| subroutine prepares to output the current page at the best -place; then it fires up the user's output routine, if there is one, -or it simply ships out the page. There is one parameter, |c|, which represents -the node that was being contributed to the page when the decision to -force an output was made. - -@<Declare the procedure called |fire_up|@>= -static void fire_up(pointer @!c) -{@+ -pointer p, @!q, @!r, @!s; /*nodes being examined and/or changed*/ -pointer @!prev_p; /*predecessor of |p|*/ -int @!n; /*insertion box number*/ -bool @!wait; /*should the present insertion be held over?*/ -int @!save_vbadness; /*saved value of |vbadness|*/ -scaled @!save_vfuzz; /*saved value of |vfuzz|*/ -pointer @!save_split_top_skip; /*saved value of |split_top_skip|*/ -@<Set the value of |output_penalty|@>; -if (bot_mark!=null) - {@+if (top_mark!=null) delete_token_ref(top_mark); - top_mark=bot_mark;add_token_ref(top_mark); - delete_token_ref(first_mark);first_mark=null; - } -@<Put the \(o)optimal current page into box 255, update |first_mark| and |bot_mark|, -append insertions to their boxes, and put the remaining nodes back on the contribution -list@>; -if ((top_mark!=null)&&(first_mark==null)) - {@+first_mark=top_mark;add_token_ref(top_mark); - } -if (output_routine!=null) - if (dead_cycles >= max_dead_cycles) - @<Explain that too many dead cycles have occurred in a row@>@; - else@<Fire up the user's output routine and |return|@>; -@<Perform the default output routine@>; -} - -@ @<Set the value of |output_penalty|@>= -if (type(best_page_break)==penalty_node) - {@+geq_word_define(int_base+output_penalty_code, penalty(best_page_break)); - penalty(best_page_break)=inf_penalty; - } -else geq_word_define(int_base+output_penalty_code, inf_penalty) - -@ As the page is finally being prepared for output, -pointer |p| runs through the vlist, with |prev_p| trailing behind; -pointer |q| is the tail of a list of insertions that -are being held over for a subsequent page. - -@<Put the \(o)optimal current page into box 255...@>= -if (c==best_page_break) best_page_break=null; /*|c| not yet linked in*/ -@<Ensure that box 255 is empty before output@>; -insert_penalties=0; /*this will count the number of insertions held over*/ -save_split_top_skip=split_top_skip; -if (holding_inserts <= 0) - @<Prepare all the boxes involved in insertions to act as queues@>; -q=hold_head;link(q)=null;prev_p=page_head;p=link(prev_p); -while (p!=best_page_break) - {@+if (type(p)==ins_node) - {@+if (holding_inserts <= 0) - @<Either insert the material specified by node |p| into the appropriate box, -or hold it for the next page; also delete node |p| from the current page@>; - } - else if (type(p)==mark_node) @<Update the values of |first_mark| and |bot_mark|@>; - prev_p=p;p=link(prev_p); - } -split_top_skip=save_split_top_skip; -@<Break the current page at node |p|, put it in box~255, and put the remaining nodes -on the contribution list@>; -@<Delete \(t)the page-insertion nodes@>@; - -@ @<Ensure that box 255 is empty before output@>= -if (box(255)!=null) - {@+print_err("");print_esc("box");print("255 is not void"); -@:box255}{\.{\\box255 is not void}@> - help2("You shouldn't use \\box255 except in \\output routines.",@/ - "Proceed, and I'll discard its present contents."); - box_error(255); - } - -@ @<Update the values of |first_mark| and |bot_mark|@>= -{@+if (first_mark==null) - {@+first_mark=mark_ptr(p); - add_token_ref(first_mark); - } -if (bot_mark!=null) delete_token_ref(bot_mark); -bot_mark=mark_ptr(p);add_token_ref(bot_mark); -} - -@ When the following code is executed, the current page runs from node -|link(page_head)| to node |prev_p|, and the nodes from |p| to |page_tail| -are to be placed back at the front of the contribution list. Furthermore -the heldover insertions appear in a list from |link(hold_head)| to |q|; we -will put them into the current page list for safekeeping while the user's -output routine is active. We might have |q==hold_head|; and |p==null| if -and only if |prev_p==page_tail|. Error messages are suppressed within -|vpackage|, since the box might appear to be overfull or underfull simply -because the stretch and shrink from the \.{\\skip} registers for inserts -are not actually present in the box. - -@<Break the current page at node |p|, put it...@>= -if (p!=null) - {@+if (link(contrib_head)==null) - if (nest_ptr==0) tail=page_tail; - else contrib_tail=page_tail; - link(page_tail)=link(contrib_head); - link(contrib_head)=p; - link(prev_p)=null; - } -save_vbadness=vbadness;vbadness=inf_bad; -save_vfuzz=vfuzz;vfuzz=max_dimen; /*inhibit error messages*/ -box(255)=vpackage(link(page_head), best_size, 0, 0, exactly, page_max_depth); -vbadness=save_vbadness;vfuzz=save_vfuzz; -if (last_glue!=max_halfword) delete_glue_ref(last_glue); -@<Start a new current page@>; /*this sets |last_glue=max_halfword|*/ -if (q!=hold_head) - {@+link(page_head)=link(hold_head);page_tail=q; - } - -@ If many insertions are supposed to go into the same box, we want to know -the position of the last node in that box, so that we don't need to waste time -when linking further information into it. The |last_ins_ptr| fields of the -page insertion nodes are therefore used for this purpose during the -packaging phase. - -@<Prepare all the boxes involved in insertions to act as queues@>= -{@+r=link(page_ins_head); -while (r!=page_ins_head) - {@+if (best_ins_ptr(r)!=null) - {@+n=qo(subtype(r));ensure_vbox(n); - if (box(n)==null) box(n)=new_null_box(); - p=box(n)+list_offset; - while (link(p)!=null) p=link(p); - last_ins_ptr(r)=p; - } - r=link(r); - } -} - -@ @<Delete \(t)the page-insertion nodes@>= -r=link(page_ins_head); -while (r!=page_ins_head) - {@+q=link(r);free_node(r, page_ins_node_size);r=q; - } -link(page_ins_head)=page_ins_head - -@ We will set |best_ins_ptr=null| and package the box corresponding to -insertion node~|r|, just after making the final insertion into that box. -If this final insertion is `|split_up|', the remainder after splitting -and pruning (if any) will be carried over to the next page. - -@<Either insert the material specified by node |p| into...@>= -{@+r=link(page_ins_head); -while (subtype(r)!=subtype(p)) r=link(r); -if (best_ins_ptr(r)==null) wait=true; -else{@+wait=false;s=last_ins_ptr(r);link(s)=ins_ptr(p); - if (best_ins_ptr(r)==p) - @<Wrap up the box specified by node |r|, splitting node |p| if called for; set -|wait:=true| if node |p| holds a remainder after splitting@>@; - else{@+while (link(s)!=null) s=link(s); - last_ins_ptr(r)=s; - } - } -@<Either append the insertion node |p| after node |q|, and remove it from the current -page, or delete |node(p)|@>; -} - -@ @<Wrap up the box specified by node |r|, splitting node |p| if...@>= -{@+if (type(r)==split_up) - if ((broken_ins(r)==p)&&(broken_ptr(r)!=null)) - {@+while (link(s)!=broken_ptr(r)) s=link(s); - link(s)=null; - split_top_skip=split_top_ptr(p); - ins_ptr(p)=prune_page_top(broken_ptr(r)); - if (ins_ptr(p)!=null) - {@+temp_ptr=vpack(ins_ptr(p), natural); - height(p)=height(temp_ptr)+depth(temp_ptr); - list_ptr(temp_ptr)=null;flush_node_list(temp_ptr);wait=true; - } - } -best_ins_ptr(r)=null; -n=qo(subtype(r)); -temp_ptr=list_ptr(box(n)); -list_ptr(box(n))=null;flush_node_list(box(n)); -box(n)=vpack(temp_ptr, natural); -} - -@ @<Either append the insertion node |p|...@>= -link(prev_p)=link(p);link(p)=null; -if (wait) - {@+link(q)=p;q=p;incr(insert_penalties); - } -else{@+delete_glue_ref(split_top_ptr(p)); - free_node(p, ins_node_size); - } -p=prev_p - -@ The list of heldover insertions, running from |link(page_head)| to -|page_tail|, must be moved to the contribution list when the user has -specified no output routine. - -@<Perform the default output routine@>= -{@+if (link(page_head)!=null) - {@+if (link(contrib_head)==null) - if (nest_ptr==0) tail=page_tail;@+else contrib_tail=page_tail; - else link(page_tail)=link(contrib_head); - link(contrib_head)=link(page_head); - link(page_head)=null;page_tail=page_head; - } -ship_out(box(255));box(255)=null; -} - -@ @<Explain that too many dead cycles have occurred in a row@>= -{@+print_err("Output loop---");print_int(dead_cycles); -@.Output loop...@> -print(" consecutive dead cycles"); -help3("I've concluded that your \\output is awry; it never does a",@/ -"\\shipout, so I'm shipping \\box255 out myself. Next time",@/ -"increase \\maxdeadcycles if you want me to be more patient!");error(); -} - -@ @<Fire up the user's output routine and |return|@>= -{@+output_active=true; -incr(dead_cycles); -push_nest();mode=-vmode;prev_depth=ignore_depth;mode_line=-line; -begin_token_list(output_routine, output_text); -new_save_level(output_group);normal_paragraph(); -scan_left_brace(); -return; -} - -@ When the user's output routine finishes, it has constructed a vlist -in internal vertical mode, and \TeX\ will do the following: - -@<Resume the page builder after an output routine has come to an end@>= -{@+if ((loc!=null)|| - ((token_type!=output_text)&&(token_type!=backed_up))) - @<Recover from an unbalanced output routine@>; -end_token_list(); /*conserve stack space in case more outputs are triggered*/ -end_graf();unsave();output_active=false;insert_penalties=0;@/ -@<Ensure that box 255 is empty after output@>; -if (tail!=head) /*current list goes after heldover insertions*/ - {@+link(page_tail)=link(head); - page_tail=tail; - } -if (link(page_head)!=null) /*and both go before heldover contributions*/ - {@+if (link(contrib_head)==null) contrib_tail=page_tail; - link(page_tail)=link(contrib_head); - link(contrib_head)=link(page_head); - link(page_head)=null;page_tail=page_head; - } -pop_nest();build_page(); -} - -@ @<Recover from an unbalanced output routine@>= -{@+print_err("Unbalanced output routine"); -@.Unbalanced output routine@> -help2("Your sneaky output routine has problematic {'s and/or }'s.",@/ -"I can't handle that very well; good luck.");error(); -@/do@+{get_token(); -}@+ while (!(loc==null)); -} /*loops forever if reading from a file, since |null==min_halfword <= 0|*/ - -@ @<Ensure that box 255 is empty after output@>= -if (box(255)!=null) - {@+print_err("Output routine didn't use all of "); - print_esc("box");print_int(255); -@.Output routine didn't use...@> - help3("Your \\output commands should empty \\box255,",@/ - "e.g., by saying `\\shipout\\box255'.",@/ - "Proceed; I'll discard its present contents."); - box_error(255); - } - -@* The chief executive. -We come now to the |main_control| routine, which contains the master -switch that causes all the various pieces of \TeX\ to do their things, -in the right order. - -In a sense, this is the grand climax of the program: It applies all the -tools that we have worked so hard to construct. In another sense, this is -the messiest part of the program: It necessarily refers to other pieces -of code all over the place, so that a person can't fully understand what is -going on without paging back and forth to be reminded of conventions that -are defined elsewhere. We are now at the hub of the web, the central nervous -system that touches most of the other parts and ties them together. -@^brain@> - -The structure of |main_control| itself is quite simple. There's a label -called |big_switch|, at which point the next token of input is fetched -using |get_x_token|. Then the program branches at high speed into one of -about 100 possible directions, based on the value of the current -mode and the newly fetched command code; the sum |abs(mode)+cur_cmd| -indicates what to do next. For example, the case `|vmode+letter|' arises -when a letter occurs in vertical mode (or internal vertical mode); this -case leads to instructions that initialize a new paragraph and enter -horizontal mode. - -The big |case| statement that contains this multiway switch has been labeled -|reswitch|, so that the program can |goto reswitch| when the next token -has already been fetched. Most of the cases are quite short; they call -an ``action procedure'' that does the work for that case, and then they -either |goto reswitch| or they ``fall through'' to the end of the |case| -statement, which returns control back to |big_switch|. Thus, |main_control| -is not an extremely large procedure, in spite of the multiplicity of things -it must do; it is small enough to be handled by \PASCAL\ compilers that put -severe restrictions on procedure size. -@!@^action procedure@> - -One case is singled out for special treatment, because it accounts for most -of \TeX's activities in typical applications. The process of reading simple -text and converting it into |char_node| records, while looking for ligatures -and kerns, is part of \TeX's ``inner loop''; the whole program runs -efficiently when its inner loop is fast, so this part has been written -with particular care. - -@ We shall concentrate first on the inner loop of |main_control|, deferring -consideration of the other cases until later. -@^inner loop@> - -@p @t\4@>@<Declare action procedures for use by |main_control|@>@; -@t\4@>@<Declare the procedure called |handle_right_brace|@>@; -static void main_control(void) /*governs \TeX's activities*/ -{@+ - - - - -int @!t; /*general-purpose temporary variable*/ -if (every_job!=null) begin_token_list(every_job, every_job_text); -big_switch: get_x_token();@/ -reswitch: @<Give diagnostic information, if requested@>; -switch (abs(mode)+cur_cmd) { -case hmode+letter: case hmode+other_char: case hmode+char_given: goto main_loop; -case hmode+char_num: {@+scan_char_num();cur_chr=cur_val;goto main_loop;@+} -case hmode+no_boundary: {@+get_x_token(); - if ((cur_cmd==letter)||(cur_cmd==other_char)||(cur_cmd==char_given)|| - (cur_cmd==char_num)) cancel_boundary=true; - goto reswitch; - } -case hmode+spacer: if (space_factor==1000) goto append_normal_space; - else app_space();@+break; -case hmode+ex_space: case mmode+ex_space: goto append_normal_space; -@t\4@>@<Cases of |main_control| that are not part of the inner loop@>@; -} /*of the big |case| statement*/ -goto big_switch; -main_loop: @<Append character |cur_chr| and the following characters (if~any) to the -current hlist in the current font; |goto reswitch| when a non-character has been fetched@>; -append_normal_space: @<Append a normal inter-word space to the current list, then -|goto big_switch|@>; -} - -@ When a new token has just been fetched at |big_switch|, we have an -ideal place to monitor \TeX's activity. -@^debugging@> - -@<Give diagnostic information, if requested@>= -if (interrupt!=0) if (OK_to_interrupt) - {@+back_input();check_interrupt;goto big_switch; - } -#ifdef @!DEBUG -if (panicking) check_mem(false);@; -#endif -if (tracing_commands > 0) show_cur_cmd_chr() - -@ The following part of the program was first written in a structured -manner, according to the philosophy that ``premature optimization is -the root of all evil.'' Then it was rearranged into pieces of -spaghetti so that the most common actions could proceed with little or -no redundancy. - -The original unoptimized form of this algorithm resembles the -|reconstitute| procedure, which was described earlier in connection with -hyphenation. Again we have an implied ``cursor'' between characters -|cur_l| and |cur_r|. The main difference is that the |lig_stack| can now -contain a charnode as well as pseudo-ligatures; that stack is now -usually nonempty, because the next character of input (if any) has been -appended to it. In |main_control| we have -$$|cur_r|=\cases{|character(lig_stack)|,&if |lig_stack > null|;\cr - |font_bchar[cur_font]|,&otherwise;\cr}$$ -except when |character(lig_stack)==font_false_bchar[cur_font]|. -Several additional global variables are needed. - -@<Glob...@>= -static internal_font_number @!main_f; /*the current font*/ -static four_quarters @!main_i; /*character information bytes for |cur_l|*/ -static four_quarters @!main_j; /*ligature/kern command*/ -static font_index @!main_k; /*index into |font_info|*/ -static pointer @!main_p; /*temporary register for list manipulation*/ -static int @!main_s; /*space factor value*/ -static halfword @!bchar; /*boundary character of current font, or |non_char|*/ -static halfword @!false_bchar; /*nonexistent character matching |bchar|, or |non_char|*/ -static bool @!cancel_boundary; /*should the left boundary be ignored?*/ -static bool @!ins_disc; /*should we insert a discretionary node?*/ - -@ The boolean variables of the main loop are normally false, and always reset -to false before the loop is left. That saves us the extra work of initializing -each time. - -@<Set init...@>= -ligature_present=false;cancel_boundary=false;lft_hit=false;rt_hit=false; -ins_disc=false; - -@ We leave the |space_factor| unchanged if |sf_code(cur_chr)==0|; otherwise we -set it equal to |sf_code(cur_chr)|, except that it should never change -from a value less than 1000 to a value exceeding 1000. The most common -case is |sf_code(cur_chr)==1000|, so we want that case to be fast. - -The overall structure of the main loop is presented here. Some program labels -are inside the individual sections. -@^inner loop@> - -@d adjust_space_factor @t@>@;@/ - main_s=sf_code(cur_chr); - if (main_s==1000) space_factor=1000; - else if (main_s < 1000) - {@+if (main_s > 0) space_factor=main_s; - } - else if (space_factor < 1000) space_factor=1000; - else space_factor=main_s - -@<Append character |cur_chr|...@>= -adjust_space_factor;@/ -main_f=cur_font; -bchar=font_bchar[main_f];false_bchar=font_false_bchar[main_f]; -if (mode > 0) if (language!=clang) fix_language(); -fast_get_avail(lig_stack);font(lig_stack)=main_f;cur_l=qi(cur_chr); -character(lig_stack)=cur_l;@/ -cur_q=tail; -if (cancel_boundary) - {@+cancel_boundary=false;main_k=non_address; - } -else main_k=bchar_label[main_f]; -if (main_k==non_address) goto main_loop_move2; /*no left boundary processing*/ -cur_r=cur_l;cur_l=non_char; -goto main_lig_loop1; /*begin with cursor after left boundary*/ -@# -main_loop_wrapup: @<Make a ligature node, if |ligature_present|; insert a null discretionary, -if appropriate@>; -main_loop_move: @<If the cursor is immediately followed by the right boundary, |goto -reswitch|; if it's followed by an invalid character, |goto big_switch|; otherwise -move the cursor one step to the right and |goto main_lig_loop|@>; -main_loop_lookahead: @<Look ahead for another character, or leave |lig_stack| empty -if there's none there@>; -main_lig_loop: @<If there's a ligature/kern command relevant to |cur_l| and |cur_r|, -adjust the text appropriately; exit to |main_loop_wrapup|@>; -main_loop_move_lig: @<Move the cursor past a pseudo-ligature, then |goto main_loop_lookahead| -or |main_lig_loop|@>@; - -@ If |link(cur_q)| is nonnull when |wrapup| is invoked, |cur_q| points to -the list of characters that were consumed while building the ligature -character~|cur_l|. - -A discretionary break is not inserted for an explicit hyphen when we are in -restricted horizontal mode. In particular, this avoids putting discretionary -nodes inside of other discretionaries. -@^inner loop@> - -@d pack_lig(X) /*the parameter is either |rt_hit| or |false|*/ - {@+main_p=new_ligature(main_f, cur_l, link(cur_q)); - if (lft_hit) - {@+subtype(main_p)=2;lft_hit=false; - } - if (X) if (lig_stack==null) - {@+incr(subtype(main_p));rt_hit=false; - } - link(cur_q)=main_p;tail=main_p;ligature_present=false; - } - -@d wrapup(A) if (cur_l < non_char) - {@+if (link(cur_q) > null) - if (character(tail)==qi(hyphen_char[main_f])) ins_disc=true; - if (ligature_present) pack_lig(A); - if (ins_disc) - {@+ins_disc=false; - if (mode > 0) tail_append(new_disc()); - } - } - -@<Make a ligature node, if |ligature_present|;...@>= -wrapup(rt_hit) - -@ @<If the cursor is immediately followed by the right boundary...@>= -@^inner loop@> -if (lig_stack==null) goto reswitch; -cur_q=tail;cur_l=character(lig_stack); -main_loop_move1: if (!is_char_node(lig_stack)) goto main_loop_move_lig; -main_loop_move2: if ((cur_chr < font_bc[main_f])||(cur_chr > font_ec[main_f])) - {@+char_warning(main_f, cur_chr);free_avail(lig_stack);goto big_switch; - } -main_i=char_info(main_f, cur_l); -if (!char_exists(main_i)) - {@+char_warning(main_f, cur_chr);free_avail(lig_stack);goto big_switch; - } -link(tail)=lig_stack;tail=lig_stack /*|main_loop_lookahead| is next*/ - -@ Here we are at |main_loop_move_lig|. -When we begin this code we have |cur_q==tail| and |cur_l==character(lig_stack)|. - -@<Move the cursor past a pseudo-ligature...@>= -main_p=lig_ptr(lig_stack); -if (main_p > null) tail_append(main_p); /*append a single character*/ -temp_ptr=lig_stack;lig_stack=link(temp_ptr); -free_node(temp_ptr, small_node_size); -main_i=char_info(main_f, cur_l);ligature_present=true; -if (lig_stack==null) - if (main_p > null) goto main_loop_lookahead; - else cur_r=bchar; -else cur_r=character(lig_stack); -goto main_lig_loop - -@ The result of \.{\\char} can participate in a ligature or kern, so we must -look ahead for it. - -@<Look ahead for another character...@>= -get_next(); /*set only |cur_cmd| and |cur_chr|, for speed*/ -if (cur_cmd==letter) goto main_loop_lookahead1; -if (cur_cmd==other_char) goto main_loop_lookahead1; -if (cur_cmd==char_given) goto main_loop_lookahead1; -x_token(); /*now expand and set |cur_cmd|, |cur_chr|, |cur_tok|*/ -if (cur_cmd==letter) goto main_loop_lookahead1; -if (cur_cmd==other_char) goto main_loop_lookahead1; -if (cur_cmd==char_given) goto main_loop_lookahead1; -if (cur_cmd==char_num) - {@+scan_char_num();cur_chr=cur_val;goto main_loop_lookahead1; - } -if (cur_cmd==no_boundary) bchar=non_char; -cur_r=bchar;lig_stack=null;goto main_lig_loop; -main_loop_lookahead1: adjust_space_factor; -fast_get_avail(lig_stack);font(lig_stack)=main_f; -cur_r=qi(cur_chr);character(lig_stack)=cur_r; -if (cur_r==false_bchar) cur_r=non_char /*this prevents spurious ligatures*/ - -@ Even though comparatively few characters have a lig/kern program, several -of the instructions here count as part of \TeX's inner loop, since a -@^inner loop@> -potentially long sequential search must be performed. For example, tests with -Computer Modern Roman showed that about 40 per cent of all characters -actually encountered in practice had a lig/kern program, and that about four -lig/kern commands were investigated for every such character. - -At the beginning of this code we have |main_i==char_info(main_f, cur_l)|. - -@<If there's a ligature/kern command...@>= -if (char_tag(main_i)!=lig_tag) goto main_loop_wrapup; -if (cur_r==non_char) goto main_loop_wrapup; -main_k=lig_kern_start(main_f, main_i);main_j=font_info[main_k].qqqq; -if (skip_byte(main_j) <= stop_flag) goto main_lig_loop2; -main_k=lig_kern_restart(main_f, main_j); -main_lig_loop1: main_j=font_info[main_k].qqqq; -main_lig_loop2: if (next_char(main_j)==cur_r) - if (skip_byte(main_j) <= stop_flag) - @<Do ligature or kern command, returning to |main_lig_loop| or |main_loop_wrapup| -or |main_loop_move|@>; -if (skip_byte(main_j)==qi(0)) incr(main_k); -else{@+if (skip_byte(main_j) >= stop_flag) goto main_loop_wrapup; - main_k=main_k+qo(skip_byte(main_j))+1; - } -goto main_lig_loop1 - -@ When a ligature or kern instruction matches a character, we know from -|read_font_info| that the character exists in the font, even though we -haven't verified its existence in the normal way. - -This section could be made into a subroutine, if the code inside -|main_control| needs to be shortened. - -\chardef\@@='174 % vertical line to indicate character retention - -@<Do ligature or kern command...@>= -{@+if (op_byte(main_j) >= kern_flag) - {@+wrapup(rt_hit); - tail_append(new_kern(char_kern(main_f, main_j)));goto main_loop_move; - } -if (cur_l==non_char) lft_hit=true; -else if (lig_stack==null) rt_hit=true; -check_interrupt; /*allow a way out in case there's an infinite ligature loop*/ -switch (op_byte(main_j)) { -case qi(1): case qi(5): {@+cur_l=rem_byte(main_j); /*\.{=:\@@}, \.{=:\@@>}*/ - main_i=char_info(main_f, cur_l);ligature_present=true; - } @+break; -case qi(2): case qi(6): {@+cur_r=rem_byte(main_j); /*\.{\@@=:}, \.{\@@=:>}*/ - if (lig_stack==null) /*right boundary character is being consumed*/ - {@+lig_stack=new_lig_item(cur_r);bchar=non_char; - } - else if (is_char_node(lig_stack)) /*|link(lig_stack)==null|*/ - {@+main_p=lig_stack;lig_stack=new_lig_item(cur_r); - lig_ptr(lig_stack)=main_p; - } - else character(lig_stack)=cur_r; - } @+break; -case qi(3): {@+cur_r=rem_byte(main_j); /*\.{\@@=:\@@}*/ - main_p=lig_stack;lig_stack=new_lig_item(cur_r); - link(lig_stack)=main_p; - } @+break; -case qi(7): case qi(11): {@+wrapup(false); /*\.{\@@=:\@@>}, \.{\@@=:\@@>>}*/ - cur_q=tail;cur_l=rem_byte(main_j); - main_i=char_info(main_f, cur_l);ligature_present=true; - } @+break; -default:{@+cur_l=rem_byte(main_j);ligature_present=true; /*\.{=:}*/ - if (lig_stack==null) goto main_loop_wrapup; - else goto main_loop_move1; - } -} -if (op_byte(main_j) > qi(4)) - if (op_byte(main_j)!=qi(7)) goto main_loop_wrapup; -if (cur_l < non_char) goto main_lig_loop; -main_k=bchar_label[main_f];goto main_lig_loop1; -} - -@ The occurrence of blank spaces is almost part of \TeX's inner loop, -@^inner loop@> -since we usually encounter about one space for every five non-blank characters. -Therefore |main_control| gives second-highest priority to ordinary spaces. - -When a glue parameter like \.{\\spaceskip} is set to `\.{0pt}', we will -see to it later that the corresponding glue specification is precisely -|zero_glue|, not merely a pointer to some specification that happens -to be full of zeroes. Therefore it is simple to test whether a glue parameter -is zero or~not. - -@<Append a normal inter-word space...@>= -if (space_skip==zero_glue) - {@+@<Find the glue specification, |main_p|, for text spaces in the current font@>; - temp_ptr=new_glue(main_p); - } -else temp_ptr=new_param_glue(space_skip_code); -link(tail)=temp_ptr;tail=temp_ptr; -goto big_switch - -@ Having |font_glue| allocated for each text font saves both time and memory. -If any of the three spacing parameters are subsequently changed by the -use of \.{\\fontdimen}, the |find_font_dimen| procedure deallocates the -|font_glue| specification allocated here. - -@<Find the glue specification...@>= -{@+main_p=font_glue[cur_font]; -if (main_p==null) - {@+main_p=new_spec(zero_glue);main_k=param_base[cur_font]+space_code; - width(main_p)=font_info[main_k].sc; /*that's |space(cur_font)|*/ - stretch(main_p)=font_info[main_k+1].sc; /*and |space_stretch(cur_font)|*/ - shrink(main_p)=font_info[main_k+2].sc; /*and |space_shrink(cur_font)|*/ - font_glue[cur_font]=main_p; - } -} - -@ @<Declare act...@>= -static void app_space(void) /*handle spaces when |space_factor!=1000|*/ -{@+pointer @!q; /*glue node*/ -if ((space_factor >= 2000)&&(xspace_skip!=zero_glue)) - q=new_param_glue(xspace_skip_code); -else{@+if (space_skip!=zero_glue) main_p=space_skip; - else@<Find the glue specification...@>; - main_p=new_spec(main_p); - @<Modify the glue specification in |main_p| according to the space factor@>; - q=new_glue(main_p);glue_ref_count(main_p)=null; - } -link(tail)=q;tail=q; -} - -@ @<Modify the glue specification in |main_p| according to the space factor@>= -if (space_factor >= 2000) width(main_p)=width(main_p)+extra_space(cur_font); -stretch(main_p)=xn_over_d(stretch(main_p), space_factor, 1000); -shrink(main_p)=xn_over_d(shrink(main_p), 1000, space_factor) - -@ Whew---that covers the main loop. We can now proceed at a leisurely -pace through the other combinations of possibilities. - -@d any_mode(A) case vmode+A: case hmode+A: case mmode+A /*for mode-independent commands*/ - -@<Cases of |main_control| that are not part of the inner loop@>= -any_mode(relax): case vmode+spacer: case mmode+spacer: case mmode+no_boundary: do_nothing; -any_mode(ignore_spaces): {@+@<Get the next non-blank non-call...@>; - goto reswitch; - } -case vmode+stop: if (its_all_over()) return;@+break; /*this is the only way out*/ -@t\4@>@<Forbidden cases detected in |main_control|@>@+@, any_mode(mac_param): - report_illegal_case();@+break; -@<Math-only cases in non-math modes, or vice versa@>: insert_dollar_sign();@+break; -@t\4@>@<Cases of |main_control| that build boxes and lists@>@; -@t\4@>@<Cases of |main_control| that don't depend on |mode|@>@; -@t\4@>@<Cases of |main_control| that are for extensions to \TeX@>@; - -@ Here is a list of cases where the user has probably gotten into or out of math -mode by mistake. \TeX\ will insert a dollar sign and rescan the current token. - -@d non_math(A) case vmode+A: case hmode+A - -@<Math-only cases in non-math modes...@>= -non_math(sup_mark): non_math(sub_mark): non_math(math_char_num): -non_math(math_given): non_math(math_comp): non_math(delim_num): -non_math(left_right): non_math(above): non_math(radical): -non_math(math_style): non_math(math_choice): non_math(vcenter): -non_math(non_script): non_math(mkern): non_math(limit_switch): -non_math(mskip): non_math(math_accent): -case mmode+endv: case mmode+par_end: case mmode+stop: case mmode+vskip: case mmode+un_vbox: -case mmode+valign: case mmode+hrule - -@ @<Declare action...@>= -static void insert_dollar_sign(void) -{@+back_input();cur_tok=math_shift_token+'$'; -print_err("Missing $ inserted"); -@.Missing \$ inserted@> -help2("I've inserted a begin-math/end-math symbol since I think",@/ -"you left one out. Proceed, with fingers crossed.");ins_error(); -} - -@ When erroneous situations arise, \TeX\ usually issues an error message -specific to the particular error. For example, `\.{\\noalign}' should -not appear in any mode, since it is recognized by the |align_peek| routine -in all of its legitimate appearances; a special error message is given -when `\.{\\noalign}' occurs elsewhere. But sometimes the most appropriate -error message is simply that the user is not allowed to do what he or she -has attempted. For example, `\.{\\moveleft}' is allowed only in vertical mode, -and `\.{\\lower}' only in non-vertical modes. Such cases are enumerated -here and in the other sections referred to under `See also \dots.' - -@<Forbidden cases...@>= -case vmode+vmove: case hmode+hmove: case mmode+hmove: any_mode(last_item): - -@ The `|you_cant|' procedure prints a line saying that the current command -is illegal in the current mode; it identifies these things symbolically. - -@<Declare action...@>= -static void you_cant(void) -{@+print_err("You can't use `"); -@.You can't use x in y mode@> -print_cmd_chr(cur_cmd, cur_chr); -print("' in ");print_mode(mode); -} - -@ @<Declare act...@>= -static void report_illegal_case(void) -{@+you_cant(); -help4("Sorry, but I'm not programmed to handle this case;",@/ -"I'll just pretend that you didn't ask for it.",@/ -"If you're in the wrong mode, you might be able to",@/ -"return to the right one by typing `I}' or `I$' or `I\\par'.");@/ -error(); -} - -@ Some operations are allowed only in privileged modes, i.e., in cases -that |mode > 0|. The |privileged| function is used to detect violations -of this rule; it issues an error message and returns |false| if the -current |mode| is negative. - -@<Declare act...@>= -static bool privileged(void) -{@+if (mode > 0) return true; -else{@+report_illegal_case();return false; - } -} - -@ Either \.{\\dump} or \.{\\end} will cause |main_control| to enter the -endgame, since both of them have `|stop|' as their command code. - -@<Put each...@>= -primitive("end", stop, 0);@/ -@!@:end\_}{\.{\\end} primitive@> -primitive("dump", stop, 1);@/ -@!@:dump\_}{\.{\\dump} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case stop: if (chr_code==1) print_esc("dump");@+else print_esc("end");@+break; - -@ We don't want to leave |main_control| immediately when a |stop| command -is sensed, because it may be necessary to invoke an \.{\\output} routine -several times before things really grind to a halt. (The output routine -might even say `\.{\\gdef\\end\{...\}}', to prolong the life of the job.) -Therefore |its_all_over| is |true| only when the current page -and contribution list are empty, and when the last output was not a -``dead cycle.'' - -@<Declare act...@>= -static bool its_all_over(void) /*do this when \.{\\end} or \.{\\dump} occurs*/ -{@+ -if (privileged()) - {@+if ((page_head==page_tail)&&(head==tail)&&(dead_cycles==0)) - {@+return true; - } - back_input(); /*we will try to end again after ejecting residual material*/ - tail_append(new_set_node()); - set_extent(tail)=new_xdimen(dimen_par(hsize_code), - dimen_par_hfactor(hsize_code),dimen_par_vfactor(hsize_code)); - tail_append(new_glue(fill_glue)); - tail_append(new_penalty(2*(eject_penalty)));@/ - build_page(); /*append \.{\\hbox to \\hsize\{\}\\vfill\\penalty-'10000000000}*/ - } -return false; -} - -@* Building boxes and lists. -The most important parts of |main_control| are concerned with \TeX's -chief mission of box-making. We need to control the activities that put -entries on vlists and hlists, as well as the activities that convert -those lists into boxes. All of the necessary machinery has already been -developed; it remains for us to ``push the buttons'' at the right times. - -@ As an introduction to these routines, let's consider one of the simplest -cases: What happens when `\.{\\hrule}' occurs in vertical mode, or -`\.{\\vrule}' in horizontal mode or math mode? The code in |main_control| -is short, since the |scan_rule_spec| routine already does most of what is -required; thus, there is no need for a special action procedure. - -Note that baselineskip calculations are disabled after a rule in vertical -mode, by setting |prev_depth=ignore_depth|. - -@<Cases of |main_control| that build...@>= -case vmode+hrule: case hmode+vrule: case mmode+vrule: {@+tail_append(scan_rule_spec()); - if (abs(mode)==vmode) prev_depth=ignore_depth; - else if (abs(mode)==hmode) space_factor=1000; - } @+break; - -@ The processing of things like \.{\\hskip} and \.{\\vskip} is slightly -more complicated. But the code in |main_control| is very short, since -it simply calls on the action routine |append_glue|. Similarly, \.{\\kern} -activates |append_kern|. - -@<Cases of |main_control| that build...@>= -case vmode+vskip: case hmode+hskip: case mmode+hskip: case mmode+mskip: append_glue();@+break; -any_mode(kern): case mmode+mkern: append_kern();@+break; - -@ The |hskip| and |vskip| command codes are used for control sequences -like \.{\\hss} and \.{\\vfil} as well as for \.{\\hskip} and \.{\\vskip}. -The difference is in the value of |cur_chr|. - -@d fil_code 0 /*identifies \.{\\hfil} and \.{\\vfil}*/ -@d fill_code 1 /*identifies \.{\\hfill} and \.{\\vfill}*/ -@d ss_code 2 /*identifies \.{\\hss} and \.{\\vss}*/ -@d fil_neg_code 3 /*identifies \.{\\hfilneg} and \.{\\vfilneg}*/ -@d skip_code 4 /*identifies \.{\\hskip} and \.{\\vskip}*/ -@d mskip_code 5 /*identifies \.{\\mskip}*/ - -@<Put each...@>= -primitive("hskip", hskip, skip_code);@/ -@!@:hskip\_}{\.{\\hskip} primitive@> -primitive("hfil", hskip, fil_code); -@!@:hfil\_}{\.{\\hfil} primitive@> -primitive("hfill", hskip, fill_code);@/ -@!@:hfill\_}{\.{\\hfill} primitive@> -primitive("hss", hskip, ss_code); -@!@:hss\_}{\.{\\hss} primitive@> -primitive("hfilneg", hskip, fil_neg_code);@/ -@!@:hfil\_neg\_}{\.{\\hfilneg} primitive@> -primitive("vskip", vskip, skip_code);@/ -@!@:vskip\_}{\.{\\vskip} primitive@> -primitive("vfil", vskip, fil_code); -@!@:vfil\_}{\.{\\vfil} primitive@> -primitive("vfill", vskip, fill_code);@/ -@!@:vfill\_}{\.{\\vfill} primitive@> -primitive("vss", vskip, ss_code); -@!@:vss\_}{\.{\\vss} primitive@> -primitive("vfilneg", vskip, fil_neg_code);@/ -@!@:vfil\_neg\_}{\.{\\vfilneg} primitive@> -primitive("mskip", mskip, mskip_code);@/ -@!@:mskip\_}{\.{\\mskip} primitive@> -primitive("kern", kern, explicit); -@!@:kern\_}{\.{\\kern} primitive@> -primitive("mkern", mkern, mu_glue);@/ -@!@:mkern\_}{\.{\\mkern} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case hskip: switch (chr_code) { - case skip_code: print_esc("hskip");@+break; - case fil_code: print_esc("hfil");@+break; - case fill_code: print_esc("hfill");@+break; - case ss_code: print_esc("hss");@+break; - default:print_esc("hfilneg"); - } @+break; -case vskip: switch (chr_code) { - case skip_code: print_esc("vskip");@+break; - case fil_code: print_esc("vfil");@+break; - case fill_code: print_esc("vfill");@+break; - case ss_code: print_esc("vss");@+break; - default:print_esc("vfilneg"); - } @+break; -case mskip: print_esc("mskip");@+break; -case kern: print_esc("kern");@+break; -case mkern: print_esc("mkern");@+break; - -@ All the work relating to glue creation has been relegated to the -following subroutine. It does not call |build_page|, because it is -used in at least one place where that would be a mistake. - -@<Declare action...@>= -static void append_glue(void) -{@+small_number s; /*modifier of skip command*/ -s=cur_chr; -switch (s) { -case fil_code: cur_val=fil_glue;@+break; -case fill_code: cur_val=fill_glue;@+break; -case ss_code: cur_val=ss_glue;@+break; -case fil_neg_code: cur_val=fil_neg_glue;@+break; -case skip_code: scan_glue(glue_val);@+break; -case mskip_code: scan_glue(mu_val); -} /*now |cur_val| points to the glue specification*/ -tail_append(new_glue(cur_val)); -if (s >= skip_code) - {@+decr(glue_ref_count(cur_val)); - if (s > skip_code) subtype(tail)=mu_glue; - } -} - -@ @<Declare act...@>= -static void append_kern(void) -{@+quarterword s; /*|subtype| of the kern node*/ -s=cur_chr;scan_dimen(s==mu_glue, false, false); -tail_append(new_kern(cur_val));subtype(tail)=s; -} - -@ Many of the actions related to box-making are triggered by the appearance -of braces in the input. For example, when the user says `\.{\\hbox} -\.{to} \.{100pt\{$\langle\,\hbox{\rm hlist}\,\rangle$\}}' in vertical mode, -the information about the box size (100pt, |exactly|) is put onto |save_stack| -with a level boundary word just above it, and |cur_group=adjusted_hbox_group|; -\TeX\ enters restricted horizontal mode to process the hlist. The right -brace eventually causes |save_stack| to be restored to its former state, -at which time the information about the box size (100pt, |exactly|) is -available once again; a box is packaged and we leave restricted horizontal -mode, appending the new box to the current list of the enclosing mode -(in this case to the current list of vertical mode), followed by any -vertical adjustments that were removed from the box by |hpack|. - -The next few sections of the program are therefore concerned with the -treatment of left and right curly braces. - -@ If a left brace occurs in the middle of a page or paragraph, it simply -introduces a new level of grouping, and the matching right brace will not have -such a drastic effect. Such grouping affects neither the mode nor the -current list. - -@<Cases of |main_control| that build...@>= -non_math(left_brace): new_save_level(simple_group);@+break; -any_mode(begin_group): new_save_level(semi_simple_group);@+break; -any_mode(end_group): if (cur_group==semi_simple_group) unsave(); - else off_save();@+break; - -@ We have to deal with errors in which braces and such things are not -properly nested. Sometimes the user makes an error of commission by -inserting an extra symbol, but sometimes the user makes an error of omission. -\TeX\ can't always tell one from the other, so it makes a guess and tries -to avoid getting into a loop. - -The |off_save| routine is called when the current group code is wrong. It tries -to insert something into the user's input that will help clean off -the top level. - -@<Declare act...@>= -static void off_save(void) -{@+pointer p; /*inserted token*/ -if (cur_group==bottom_level) - @<Drop current token and complain that it was unmatched@>@; -else{@+back_input();p=get_avail();link(temp_head)=p; - print_err("Missing "); - @<Prepare to insert a token that matches |cur_group|, and print what it is@>; - print(" inserted");ins_list(link(temp_head)); - help5("I've inserted something that you may have forgotten.",@/ - "(See the <inserted text> above.)",@/ - "With luck, this will get me unwedged. But if you",@/ - "really didn't forget anything, try typing `2' now; then",@/ - "my insertion and my current dilemma will both disappear."); - error(); - } -} - -@ At this point, |link(temp_head)==p|, a pointer to an empty one-word node. - -@<Prepare to insert a token that matches |cur_group|...@>= -switch (cur_group) { -case semi_simple_group: {@+info(p)=cs_token_flag+frozen_end_group; - print_esc("endgroup"); -@.Missing \\endgroup inserted@> - } @+break; -case math_shift_group: {@+info(p)=math_shift_token+'$';print_char('$'); -@.Missing \$ inserted@> - } @+break; -case math_left_group: {@+info(p)=cs_token_flag+frozen_right;link(p)=get_avail(); - p=link(p);info(p)=other_token+'.';print_esc("right."); -@.Missing \\right\hbox{.} inserted@> -@^null delimiter@> - } @+break; -default:{@+info(p)=right_brace_token+'}';print_char('}'); -@.Missing \} inserted@> - } -} - -@ @<Drop current token and complain that it was unmatched@>= -{@+print_err("Extra ");print_cmd_chr(cur_cmd, cur_chr); -@.Extra x@> -help1("Things are pretty mixed up, but I think the worst is over.");@/ -error(); -} - -@ The routine for a |right_brace| character branches into many subcases, -since a variety of things may happen, depending on |cur_group|. Some -types of groups are not supposed to be ended by a right brace; error -messages are given in hopes of pinpointing the problem. Most branches -of this routine will be filled in later, when we are ready to understand -them; meanwhile, we must prepare ourselves to deal with such errors. - -@<Cases of |main_control| that build...@>= -any_mode(right_brace): handle_right_brace();@+break; - -@ @<Declare the procedure called |handle_right_brace|@>= -static void handle_right_brace(void) -{@+pointer p, @!q; /*for short-term use*/ -scaled @!d; /*holds |split_max_depth| in |insert_group|*/ -int @!f; /*holds |floating_penalty| in |insert_group|*/ -switch (cur_group) { -case simple_group: unsave();@+break; -case bottom_level: {@+print_err("Too many }'s"); -@.Too many \}'s@> - help2("You've closed more groups than you opened.",@/ - "Such booboos are generally harmless, so keep going.");error(); - } @+break; -case semi_simple_group: case math_shift_group: case math_left_group: extra_right_brace();@+break; -@t\4@>@<Cases of |handle_right_brace| where a |right_brace| triggers a delayed action@>@; -default:confusion("rightbrace"); -@:this can't happen rightbrace}{\quad rightbrace@> -} -} - -@ @<Declare act...@>= -static void extra_right_brace(void) -{@+print_err("Extra }, or forgotten "); -@.Extra \}, or forgotten x@> -switch (cur_group) { -case semi_simple_group: print_esc("endgroup");@+break; -case math_shift_group: print_char('$');@+break; -case math_left_group: print_esc("right"); -} @/ -help5("I've deleted a group-closing symbol because it seems to be",@/ -"spurious, as in `$x}$'. But perhaps the } is legitimate and",@/ -"you forgot something else, as in `\\hbox{$x}'. In such cases",@/ -"the way to recover is to insert both the forgotten and the",@/ -"deleted material, e.g., by typing `I$}'.");error(); -incr(align_state); -} - -@ Here is where we clear the parameters that are supposed to revert to their -default values after every paragraph and when internal vertical mode is entered. - -@<Declare act...@>= -void normal_paragraph(void) -{@+if (looseness!=0) eq_word_define(int_base+looseness_code, 0); -if (hang_indent!=0) eq_word_define(dimen_base+hang_indent_code, 0); -if (hang_after!=1) eq_word_define(int_base+hang_after_code, 1); -if (par_shape_ptr!=null) eq_define(par_shape_loc, shape_ref, null); -if (inter_line_penalties_ptr!=null) - eq_define(inter_line_penalties_loc, shape_ref, null); -} - -@ Now let's turn to the question of how \.{\\hbox} is treated. We actually -need to consider also a slightly larger context, since constructions like -`\.{\\setbox3=}\penalty0\.{\\hbox...}' and -`\.{\\leaders}\penalty0\.{\\hbox...}' and -`\.{\\lower3.8pt\\hbox...}' -are supposed to invoke quite -different actions after the box has been packaged. Conversely, -constructions like `\.{\\setbox3=}' can be followed by a variety of -different kinds of boxes, and we would like to encode such things in an -efficient way. - -In other words, there are two problems: to represent the context of a box, -and to represent its type. - -The first problem is solved by putting a ``context code'' on the |save_stack|, -just below the two entries that give the dimensions produced by |scan_spec|. -The context code is either a (signed) shift amount, or it is a large -integer | >= box_flag|, where |box_flag==@t$2^{30}$@>|. Codes |box_flag| through -|global_box_flag-1| represent `\.{\\setbox0}' through `\.{\\setbox32767}'; -codes |global_box_flag| through |ship_out_flag-1| represent -`\.{\\global\\setbox0}' through `\.{\\global\\setbox32767}'; -code |ship_out_flag| represents `\.{\\shipout}'; and codes |leader_flag| -through |leader_flag+2| represent `\.{\\leaders}', `\.{\\cleaders}', -and `\.{\\xleaders}'. - -The second problem is solved by giving the command code |make_box| to all -control sequences that produce a box, and by using the following |chr_code| -values to distinguish between them: |box_code|, |copy_code|, |last_box_code|, -|vsplit_code|, |vtop_code|, |vtop_code+vmode|, and |vtop_code+hmode|, where -the latter two are used to denote \.{\\vbox} and \.{\\hbox}, respectively. - -@d box_flag 010000000000 /*context code for `\.{\\setbox0}'*/ -@d global_box_flag 010000100000 /*context code for `\.{\\global\\setbox0}'*/ -@d ship_out_flag 010000200000 /*context code for `\.{\\shipout}'*/ -@d leader_flag 010000200001 /*context code for `\.{\\leaders}'*/ -@d box_code 0 /*|chr_code| for `\.{\\box}'*/ -@d copy_code 1 /*|chr_code| for `\.{\\copy}'*/ -@d last_box_code 2 /*|chr_code| for `\.{\\lastbox}'*/ -@d vsplit_code 3 /*|chr_code| for `\.{\\vsplit}'*/ -@d vtop_code 4 /*|chr_code| for `\.{\\vtop}'*/ - -@<Put each...@>= -primitive("moveleft", hmove, 1); -@!@:move\_left\_}{\.{\\moveleft} primitive@> -primitive("moveright", hmove, 0);@/ -@!@:move\_right\_}{\.{\\moveright} primitive@> -primitive("raise", vmove, 1); -@!@:raise\_}{\.{\\raise} primitive@> -primitive("lower", vmove, 0); -@!@:lower\_}{\.{\\lower} primitive@> -@# -primitive("box", make_box, box_code); -@!@:box\_}{\.{\\box} primitive@> -primitive("copy", make_box, copy_code); -@!@:copy\_}{\.{\\copy} primitive@> -primitive("lastbox", make_box, last_box_code); -@!@:last\_box\_}{\.{\\lastbox} primitive@> -primitive("vsplit", make_box, vsplit_code); -@!@:vsplit\_}{\.{\\vsplit} primitive@> -primitive("vtop", make_box, vtop_code);@/ -@!@:vtop\_}{\.{\\vtop} primitive@> -primitive("vbox", make_box, vtop_code+vmode); -@!@:vbox\_}{\.{\\vbox} primitive@> -primitive("hbox", make_box, vtop_code+hmode);@/ -@!@:hbox\_}{\.{\\hbox} primitive@> -primitive("shipout", leader_ship, a_leaders-1); /*|ship_out_flag==leader_flag-1|*/ -@!@:ship\_out\_}{\.{\\shipout} primitive@> -primitive("leaders", leader_ship, a_leaders); -@!@:leaders\_}{\.{\\leaders} primitive@> -primitive("cleaders", leader_ship, c_leaders); -@!@:c\_leaders\_}{\.{\\cleaders} primitive@> -primitive("xleaders", leader_ship, x_leaders); -@!@:x\_leaders\_}{\.{\\xleaders} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case hmove: if (chr_code==1) print_esc("moveleft");@+else print_esc("moveright");@+break; -case vmove: if (chr_code==1) print_esc("raise");@+else print_esc("lower");@+break; -case make_box: switch (chr_code) { - case box_code: print_esc("box");@+break; - case copy_code: print_esc("copy");@+break; - case last_box_code: print_esc("lastbox");@+break; - case vsplit_code: print_esc("vsplit");@+break; - case vtop_code: print_esc("vtop");@+break; - case vtop_code+vmode: print_esc("vbox");@+break; - default:print_esc("hbox"); - } @+break; -case leader_ship: if (chr_code==a_leaders) print_esc("leaders"); - else if (chr_code==c_leaders) print_esc("cleaders"); - else if (chr_code==x_leaders) print_esc("xleaders"); - else print_esc("shipout");@+break; - -@ Constructions that require a box are started by calling |scan_box| with -a specified context code. The |scan_box| routine verifies -that a |make_box| command comes next and then it calls |begin_box|. - -@<Cases of |main_control| that build...@>= -case vmode+hmove: case hmode+vmove: case mmode+vmove: {@+t=cur_chr; - scan_normal_dimen; - if (t==0) scan_box(cur_val);@+else scan_box(-cur_val); - } @+break; -any_mode(leader_ship): scan_box(leader_flag-a_leaders+cur_chr);@+break; -any_mode(make_box): begin_box(0);@+break; - -@ The global variable |cur_box| will point to a newly made box. If the box -is void, we will have |cur_box==null|. Otherwise we will have -|type(cur_box)==hlist_node| or |vlist_node| or |rule_node|; the |rule_node| -case can occur only with leaders. - -@<Glob...@>= -static pointer @!cur_box; /*box to be placed into its context*/ - -@ The |box_end| procedure does the right thing with |cur_box|, if -|box_context| represents the context as explained above. - -@<Declare act...@>= -static void box_end(int @!box_context) -{@+pointer p; /*|ord_noad| for new box in math mode*/ -small_number @!a; /*global prefix*/ -if (box_context < box_flag) @<Append box |cur_box| to the current list, shifted by -|box_context|@>@; -else if (box_context < ship_out_flag) @<Store \(c)|cur_box| in a box register@>@; -else if (cur_box!=null) - if (box_context > ship_out_flag) @<Append a new leader node that uses |cur_box|@>@; - else ship_out(cur_box); -} - -@ The global variable |adjust_tail| will be non-null if and only if the -current box might include adjustments that should be appended to the -current vertical list. - -@<Append box |cur_box| to the current...@>= -{@+if (cur_box!=null) - {@+shift_amount(cur_box)=box_context; - if (abs(mode)==vmode) - {@+append_to_vlist(cur_box); - if (adjust_tail!=null) - {@+if (adjust_head!=adjust_tail) - {@+link(tail)=link(adjust_head);tail=adjust_tail; - } - adjust_tail=null; - } - if (mode > 0) build_page(); - } - else{@+if (abs(mode)==hmode) space_factor=1000; - else{@+p=new_noad(); - math_type(nucleus(p))=sub_box; - info(nucleus(p))=cur_box;cur_box=p; - } - link(tail)=cur_box;tail=cur_box; - } - } -} - -@ @<Store \(c)|cur_box| in a box register@>= -{@+if (box_context < global_box_flag) - {@+cur_val=box_context-box_flag;a=0; - } -else{@+cur_val=box_context-global_box_flag;a=4; - } -if (cur_val < 256) define(box_base+cur_val, box_ref, cur_box); -else sa_def_box; -} - -@ @<Append a new leader node...@>= -{@+@<Get the next non-blank non-relax...@>; -if (((cur_cmd==hskip)&&(abs(mode)!=vmode))||@| - ((cur_cmd==vskip)&&(abs(mode)==vmode))) - {@+append_glue();subtype(tail)=box_context-(leader_flag-a_leaders); - leader_ptr(tail)=cur_box; - } -else{@+print_err("Leaders not followed by proper glue"); -@.Leaders not followed by...@> - help3("You should say `\\leaders <box or rule><hskip or vskip>'.",@/ - "I found the <box or rule>, but there's no suitable",@/ - "<hskip or vskip>, so I'm ignoring these leaders.");back_error(); - flush_node_list(cur_box); - } -} - -@ Now that we can see what eventually happens to boxes, we can consider -the first steps in their creation. The |begin_box| routine is called when -|box_context| is a context specification, |cur_chr| specifies the type of -box desired, and |cur_cmd==make_box|. - -@<Declare act...@>= -static void begin_box(int @!box_context) -{@+ -pointer @!p, @!q; /*run through the current list*/ -int @!m; /*the length of a replacement list*/ -halfword @!k; /*0 or |vmode| or |hmode|*/ -halfword @!n; /*a box number*/ -switch (cur_chr) { -case box_code: {@+scan_register_num();fetch_box(cur_box); - change_box(null); /*the box becomes void, at the same level*/ - } @+break; -case copy_code: {@+scan_register_num();fetch_box(q);cur_box=copy_node_list(q); - } @+break; -case last_box_code: @<If the current list ends with a box node, delete it from the -list and make |cur_box| point to it; otherwise set |cur_box:=null|@>@;@+break; -case vsplit_code: @<Split off part of a vertical box, make |cur_box| point to it@>@;@+break; -default:@<Initiate the construction of an hbox or vbox, then |return|@>@; -} @/ -box_end(box_context); /*in simple cases, we use the box immediately*/ -} - -@ Note that the condition |!is_char_node(tail)| implies that |head!=tail|, -since |head| is a one-word node. - -@<If the current list ends with a box node, delete it...@>= -{@+cur_box=null; -if (abs(mode)==mmode) - {@+you_cant();help1("Sorry; this \\lastbox will be void.");error(); - } -else if ((mode==vmode)&&(head==tail)) - {@+you_cant(); - help2("Sorry...I usually can't take things from the current page.",@/ - "This \\lastbox will therefore be void.");error(); - } -else{@+if (!is_char_node(tail)) - if ((type(tail)==hlist_node)||(type(tail)==vlist_node)) - @<Remove the last box, unless it's part of a discretionary@>; - } -} - -@ @<Remove the last box...@>= -{@+q=head; -@/do@+{p=q; -if (!is_char_node(q)) if (type(q)==disc_node) - {@+for (m=1; m<=replace_count(q); m++) p=link(p); - if (p==tail) goto done; - } -q=link(p); -}@+ while (!(q==tail)); -cur_box=tail;shift_amount(cur_box)=0; -tail=p;link(p)=null; -done: ;} - -@ Here we deal with things like `\.{\\vsplit 13 to 100pt}'. - -@<Split off part of a vertical box, make |cur_box| point to it@>= -{@+scan_register_num();n=cur_val; -if (!scan_keyword("to")) -@.to@> - {@+print_err("Missing `to' inserted"); -@.Missing `to' inserted@> - help2("I'm working on `\\vsplit<box number> to <dimen>';",@/ - "will look for the <dimen> next.");error(); - } -scan_normal_dimen; -cur_box=vsplit(n, cur_val); -} - -@ Here is where we enter restricted horizontal mode or internal vertical -mode, in order to make a box. - -@<Initiate the construction of an hbox or vbox, then |return|@>= -{@+k=cur_chr-vtop_code;saved(0)=box_context; -if (k==hmode) - if ((box_context < box_flag)&&(abs(mode)==vmode)) - scan_spec(adjusted_hbox_group, true); - else scan_spec(hbox_group, true); -else{@+if (k==vmode) scan_spec(vbox_group, true); - else{@+scan_spec(vtop_group, true);k=vmode; - } - normal_paragraph(); - } -push_nest();mode=-k; -if (k==vmode) - {@+prev_depth=ignore_depth; - if (every_vbox!=null) begin_token_list(every_vbox, every_vbox_text); - } -else{@+space_factor=1000; - if (every_hbox!=null) begin_token_list(every_hbox, every_hbox_text); - } -return; -} - -@ @<Declare act...@>= -static void scan_box(int @!box_context) - /*the next input should specify a box or perhaps a rule*/ -{@+@<Get the next non-blank non-relax...@>; -if (cur_cmd==make_box) begin_box(box_context); -else if ((box_context >= leader_flag)&&((cur_cmd==hrule)||(cur_cmd==vrule))) - {@+cur_box=scan_rule_spec();box_end(box_context); - } -else{@+@t@>@;@/ - print_err("A <box> was supposed to be here");@/ -@.A <box> was supposed to...@> - help3("I was expecting to see \\hbox or \\vbox or \\copy or \\box or",@/ - "something like that. So you might find something missing in",@/ - "your output. But keep trying; you can fix this later.");back_error(); - } -} - -@ When the right brace occurs at the end of an \.{\\hbox} or \.{\\vbox} or -\.{\\vtop} construction, the |package| routine comes into action. We might -also have to finish a paragraph that hasn't ended. - -@<Cases of |handle...@>= -case hbox_group: package(0);@+break; -case adjusted_hbox_group: {@+adjust_tail=adjust_head;package(0); - } @+break; -case vbox_group: {@+end_graf();package(0); - } @+break; -case vtop_group: {@+end_graf();package(vtop_code); - } @+break; - -@ @<Declare action...@>= -static void package(small_number @!c) -{@+scaled h; /*height of box*/ -pointer @!p; /*first node in a box*/ -scaled @!d; /*max depth*/ -d=box_max_depth;unsave();save_ptr=save_ptr-3; -if (mode==-hmode) cur_box=hpack(link(head), saved(2), saved_hfactor(2), saved_vfactor(2), saved(1)); -else{@+cur_box=vpackage(link(head), saved(2), saved_hfactor(2), saved_vfactor(2), saved(1), d); - if (c==vtop_code) @<Readjust the height and depth of |cur_box|, for \.{\\vtop}@>; - } -pop_nest();box_end(saved(0)); -} - -@ The height of a `\.{\\vtop}' box is inherited from the first item on its list, -if that item is an |hlist_node|, |vlist_node|, or |rule_node|; otherwise -the \.{\\vtop} height is zero. - - -@<Readjust the height...@>= -{@+h=0;p=list_ptr(cur_box); -if (p!=null) if (type(p) <= rule_node) h=height(p); -depth(cur_box)=depth(cur_box)-h+height(cur_box);height(cur_box)=h; -} - -@ A paragraph begins when horizontal-mode material occurs in vertical mode, -or when the paragraph is explicitly started by `\.{\\indent}' or -`\.{\\noindent}'. - -@<Put each...@>= -primitive("indent", start_par, 1); -@!@:indent\_}{\.{\\indent} primitive@> -primitive("noindent", start_par, 0); -@!@:no\_indent\_}{\.{\\noindent} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case start_par: if (chr_code==0) print_esc("noindent");@+else print_esc("indent");@+break; - -@ @<Cases of |main_control| that build...@>= -case vmode+start_par: new_graf(cur_chr > 0);@+break; -case vmode+letter: case vmode+other_char: case vmode+char_num: case vmode+char_given: - case vmode+math_shift: case vmode+un_hbox: case vmode+vrule: - case vmode+accent: case vmode+discretionary: case vmode+hskip: case vmode+valign: - case vmode+ex_space: case vmode+no_boundary: @t@>@;@/ - {@+back_input();new_graf(true); - } @+break; - -@ @<Declare act...@>= -static small_number norm_min(int @!h) -{@+if (h <= 0) return 1;@+else if (h >= 63) return 63;@+ -else return h; -} -@# -static void new_graf(bool @!indented) -{@+prev_graf=0; -if ((mode==vmode)||(head!=tail)) - tail_append(new_param_glue(par_skip_code)); -push_nest();mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; -prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) - *0200000+cur_lang; -if (indented) - {@+tail=new_null_box();link(head)=tail;width(tail)=par_indent;@+ - } -if (every_par!=null) begin_token_list(every_par, every_par_text); -if (nest_ptr==1) build_page(); /*put |par_skip| glue on current page*/ -} - -@ @<Cases of |main_control| that build...@>= -case hmode+start_par: case mmode+start_par: indent_in_hmode();@+break; - -@ @<Declare act...@>= -static void indent_in_hmode(void) -{@+pointer p, @!q; -if (cur_chr > 0) /*\.{\\indent}*/ - {@+p=new_null_box();width(p)=par_indent; - if (abs(mode)==hmode) space_factor=1000; - else{@+q=new_noad();math_type(nucleus(q))=sub_box; - info(nucleus(q))=p;p=q; - } - tail_append(p); - } -} - -@ A paragraph ends when a |par_end| command is sensed, or when we are in -horizontal mode when reaching the right brace of vertical-mode routines -like \.{\\vbox}, \.{\\insert}, or \.{\\output}. - -@<Cases of |main_control| that build...@>= -case vmode+par_end: {@+normal_paragraph(); - if (mode > 0) build_page(); - } @+break; -case hmode+par_end: {@+if (align_state < 0) off_save(); /*this tries to - recover from an alignment that didn't end properly*/ - end_graf(); /*this takes us to the enclosing mode, if |mode > 0|*/ - if (mode==vmode) build_page(); - } @+break; -case hmode+stop: case hmode+vskip: case hmode+hrule: case hmode+un_vbox: case hmode+halign: head_for_vmode();@+break; - -@ @<Declare act...@>= -static void head_for_vmode(void) -{@+if (mode < 0) - if (cur_cmd!=hrule) off_save(); - else{@+print_err("You can't use `"); - print_esc("hrule");print("' here except with leaders"); -@.You can't use \\hrule...@> - help2("To put a horizontal rule in an hbox or an alignment,",@/ - "you should use \\leaders or \\hrulefill (see The TeXbook)."); - error(); - } -else{@+back_input();cur_tok=par_token;back_input();token_type=inserted; - } -} - -@ @<Declare act...@>= -void end_graf(void) -{@+if (mode==hmode) - {@+if (head==tail) pop_nest(); /*null paragraphs are ignored*/ - else hline_break(widow_penalty); - normal_paragraph(); - error_count=0; - } -} - -@ Insertion and adjustment and mark nodes are constructed by the following -pieces of the program. - -@<Cases of |main_control| that build...@>= -any_mode(insert): case hmode+vadjust: case mmode+vadjust: begin_insert_or_adjust();@+break; -any_mode(mark): make_mark();@+break; - -@ @<Forbidden...@>= -case vmode+vadjust: - -@ @<Declare act...@>= -static void begin_insert_or_adjust(void) -{@+if (cur_cmd==vadjust) cur_val=255; -else{@+scan_eight_bit_int(); - if (cur_val==255) - {@+print_err("You can't ");print_esc("insert");print_int(255); -@.You can't \\insert255@> - help1("I'm changing to \\insert0; box 255 is special."); - error();cur_val=0; - } - } -saved(0)=cur_val;incr(save_ptr); -new_save_level(insert_group);scan_left_brace();normal_paragraph(); -push_nest();mode=-vmode;prev_depth=ignore_depth; -} - -@ @<Cases of |handle...@>= -case insert_group: {@+end_graf();q=split_top_skip;add_glue_ref(q); - d=split_max_depth;f=floating_penalty;unsave();decr(save_ptr); - /*now |saved(0)| is the insertion number, or 255 for |vadjust|*/ - p=link(head);pop_nest(); - if (saved(0) < 255) - {@+tail_append(get_node(ins_node_size)); - type(tail)=ins_node;subtype(tail)=qi(saved(0)); - height(tail)=0; ins_ptr(tail)=p; hget_stream_no(subtype(tail)); - split_top_ptr(tail)=q;depth(tail)=d;float_cost(tail)=f; - } - else{@+tail_append(get_node(small_node_size)); - type(tail)=adjust_node;@/ - subtype(tail)=0; /*the |subtype| is not used*/ - adjust_ptr(tail)=p;delete_glue_ref(q); - } - if (nest_ptr==0) build_page(); - } @+break; -case output_group: @<Resume the page builder...@>@;@+break; -case page_group: hfinish_page_group();@+break; -case stream_group: hfinish_stream_group();@+break; -case stream_before_group: hfinish_stream_before_group();@+break; -case stream_after_group: hfinish_stream_after_group();@+break; -case outline_group: hfinish_outline_group();@+break; - -@ @<Declare act...@>= -static void make_mark(void) -{@+pointer p; /*new node*/ -p=scan_toks(false, true);p=get_node(small_node_size); -type(p)=mark_node;subtype(p)=0; /*the |subtype| is not used*/ -mark_ptr(p)=def_ref;link(tail)=p;tail=p; -} - -@ Penalty nodes get into a list via the |break_penalty| command. -@^penalties@> - -@<Cases of |main_control| that build...@>= -any_mode(break_penalty): append_penalty();@+break; - -@ @<Declare action...@>= -static void append_penalty(void) -{@+scan_int();tail_append(new_penalty(cur_val)); -if (mode==vmode) build_page(); -} - -@ The |remove_item| command removes a penalty, kern, or glue node if it -appears at the tail of the current list, using a brute-force linear scan. -Like \.{\\lastbox}, this command is not allowed in vertical mode (except -internal vertical mode), since the current list in vertical mode is sent -to the page builder. But if we happen to be able to implement it in -vertical mode, we do. - -@<Cases of |main_control| that build...@>= -any_mode(remove_item): delete_last();@+break; - -@ When |delete_last| is called, |cur_chr| is the |type| of node that -will be deleted, if present. - -@<Declare action...@>= -static void delete_last(void) -{@+ -pointer @!p, @!q; /*run through the current list*/ -int @!m; /*the length of a replacement list*/ -if ((mode==vmode)&&(tail==head)) - @<Apologize for inability to do the operation now, unless \.{\\unskip} follows non-glue@>@; -else{@+if (!is_char_node(tail)) if (type(tail)==cur_chr) - {@+q=head; - @/do@+{p=q; - if (!is_char_node(q)) if (type(q)==disc_node) - {@+for (m=1; m<=replace_count(q); m++) p=link(p); - if (p==tail) return; - } - q=link(p); - }@+ while (!(q==tail)); - link(p)=null;flush_node_list(tail);tail=p; - } - } -} - -@ @<Apologize for inability to do the operation...@>= -{@+if ((cur_chr!=glue_node)||(last_glue!=max_halfword)) - {@+you_cant(); - help2("Sorry...I usually can't take things from the current page.",@/ - "Try `I\\vskip-\\lastskip' instead."); - if (cur_chr==kern_node) help_line[0]= - ("Try `I\\kern-\\lastkern' instead."); - else if (cur_chr!=glue_node) help_line[0]=@| - ("Perhaps you can make the output routine do it."); - error(); - } -} - -@ @<Put each...@>= -primitive("unpenalty", remove_item, penalty_node);@/ -@!@:un\_penalty\_}{\.{\\unpenalty} primitive@> -primitive("unkern", remove_item, kern_node);@/ -@!@:un\_kern\_}{\.{\\unkern} primitive@> -primitive("unskip", remove_item, glue_node);@/ -@!@:un\_skip\_}{\.{\\unskip} primitive@> -primitive("unhbox", un_hbox, box_code);@/ -@!@:un\_hbox\_}{\.{\\unhbox} primitive@> -primitive("unhcopy", un_hbox, copy_code);@/ -@!@:un\_hcopy\_}{\.{\\unhcopy} primitive@> -primitive("unvbox", un_vbox, box_code);@/ -@!@:un\_vbox\_}{\.{\\unvbox} primitive@> -primitive("unvcopy", un_vbox, copy_code);@/ -@!@:un\_vcopy\_}{\.{\\unvcopy} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case remove_item: if (chr_code==glue_node) print_esc("unskip"); - else if (chr_code==kern_node) print_esc("unkern"); - else print_esc("unpenalty");@+break; -case un_hbox: if (chr_code==copy_code) print_esc("unhcopy"); - else print_esc("unhbox");@+break; -case un_vbox: if (chr_code==copy_code) print_esc("unvcopy"); - else print_esc("unvbox");@+break; - -@ The |un_hbox| and |un_vbox| commands unwrap one of the 256 current boxes. - -@<Cases of |main_control| that build...@>= -case vmode+un_vbox: case hmode+un_hbox: case mmode+un_hbox: unpackage();@+break; - -@ @<Declare act...@>= -static void unpackage(void) -{@+ -pointer p; /*the box*/ -int @!c; /*should we copy?*/ -c=cur_chr;scan_register_num();fetch_box(p); -if (p==null) return; -if ((abs(mode)==mmode)||@| - ((abs(mode)==vmode)&& (type(p)!=vlist_node) - && (type(p)!=whatsit_node || (subtype(p)!=vset_node - && subtype(p)!=vpack_node))) ||@| - ((abs(mode)==hmode)&& (type(p)!=hlist_node) - && (type(p)!=whatsit_node || ( subtype(p)!=hset_node - && subtype(p)!=hpack_node)))) - {@+print_err("Incompatible list can't be unboxed"); -@.Incompatible list...@> - help3("Sorry, Pandora. (You sneaky devil.)",@/ - "I refuse to unbox an \\hbox in vertical mode or vice versa.",@/ - "And I can't open any boxes in math mode.");@/ - error();return; - } -if (c==copy_code) link(tail)=copy_node_list(list_ptr(p)); -else{@+link(tail)=list_ptr(p);change_box(null); - list_ptr(p)=null;flush_node_list(p); - } -while (link(tail)!=null) tail=link(tail); -} - -@ @<Forbidden...@>=case vmode+ital_corr: - -@ Italic corrections are converted to kern nodes when the |ital_corr| command -follows a character. In math mode the same effect is achieved by appending -a kern of zero here, since italic corrections are supplied later. - -@<Cases of |main_control| that build...@>= -case hmode+ital_corr: append_italic_correction();@+break; -case mmode+ital_corr: tail_append(new_kern(0))@;@+break; - -@ @<Declare act...@>= -static void append_italic_correction(void) -{@+ -pointer p; /*|char_node| at the tail of the current list*/ -internal_font_number @!f; /*the font in the |char_node|*/ -if (tail!=head) - {@+if (is_char_node(tail)) p=tail; - else if (type(tail)==ligature_node) p=lig_char(tail); - else return; - f=font(p); - tail_append(new_kern(char_italic(f, char_info(f, character(p))))); - subtype(tail)=explicit; - } -} - -@ Discretionary nodes are easy in the common case `\.{\\-}', but in the -general case we must process three braces full of items. - -@<Put each...@>= -primitive("-", discretionary, 1); -@!@:Single-character primitives -}{\quad\.{\\-}@> -primitive("discretionary", discretionary, 0); -@!@:discretionary\_}{\.{\\discretionary} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case discretionary: if (chr_code==1) - print_esc("-");@+else print_esc("discretionary");@+break; - -@ @<Cases of |main_control| that build...@>= -case hmode+discretionary: case mmode+discretionary: append_discretionary();@+break; - -@ The space factor does not change when we append a discretionary node, -but it starts out as 1000 in the subsidiary lists. - -@<Declare act...@>= -static void append_discretionary(void) -{@+int c; /*hyphen character*/ -tail_append(new_disc()); -if (cur_chr==1) - {@+c=hyphen_char[cur_font]; - if (c >= 0) if (c < 256) pre_break(tail)=new_character(cur_font, c); - } -else{@+incr(save_ptr);saved(-1)=0;new_save_level(disc_group); - scan_left_brace();push_nest();mode=-hmode;space_factor=1000; - } -} - -@ The three discretionary lists are constructed somewhat as if they were -hboxes. A~subroutine called |build_discretionary| handles the transitions. -(This is sort of fun.) - -@<Cases of |handle...@>= -case disc_group: build_discretionary();@+break; - -@ @<Declare act...@>= -static void build_discretionary(void) -{@+ -pointer p, @!q; /*for link manipulation*/ -int @!n; /*length of discretionary list*/ -unsave(); -@<Prune the current list, if necessary, until it contains only |char_node|, |kern_node|, -|hlist_node|, |vlist_node|, |rule_node|, and |ligature_node| items; set |n| to the -length of the list, and set |q| to the list's tail@>; -p=link(head);pop_nest(); -switch (saved(-1)) { -case 0: pre_break(tail)=p;@+break; -case 1: post_break(tail)=p;@+break; -case 2: @<Attach list |p| to the current list, and record its length; then finish -up and |return|@>; -} /*there are no other cases*/ -incr(saved(-1));new_save_level(disc_group);scan_left_brace(); -push_nest();mode=-hmode;space_factor=1000; -} - -@ @<Attach list |p| to the current...@>= -{@+if ((n > 0)&&(abs(mode)==mmode)) - {@+print_err("Illegal math ");print_esc("discretionary"); -@.Illegal math \\disc...@> - help2("Sorry: The third part of a discretionary break must be",@/ - "empty, in math formulas. I had to delete your third part."); - flush_node_list(p);n=0;error(); - } -else link(tail)=p; -if (n <= 0x7F) set_replace_count(tail,n); -else{@+print_err("Discretionary list is too long"); -@.Discretionary list is too long@> - help2("Wow---I never thought anybody would tweak me here.",@/ - "You can't seriously need such a huge discretionary list?"); - error(); - } -if (n > 0) tail=q; -decr(save_ptr);return; -} - -@ During this loop, |p==link(q)| and there are |n| items preceding |p|. - -@<Prune the current list, if necessary...@>= -q=head;p=link(q);n=0; -while (p!=null) - {@+if (!is_char_node(p)) if (type(p) > rule_node) - if (type(p)!=kern_node) if (type(p)!=ligature_node) - {@+print_err("Improper discretionary list"); -@.Improper discretionary list@> - help1("Discretionary lists must contain only boxes and kerns.");@/ - error(); - begin_diagnostic(); - print_nl("The following discretionary sublist has been deleted:"); -@.The following...deleted@> - show_box(p); - end_diagnostic(true); - flush_node_list(p);link(q)=null;goto done; - } - q=p;p=link(q);incr(n); - } -done: - -@ We need only one more thing to complete the horizontal mode routines, namely -the \.{\\accent} primitive. - -@<Cases of |main_control| that build...@>= -case hmode+accent: make_accent();@+break; - -@ The positioning of accents is straightforward but tedious. Given an accent -of width |a|, designed for characters of height |x| and slant |s|; -and given a character of width |w|, height |h|, and slant |t|: We will shift -the accent down by |x-h|, and we will insert kern nodes that have the effect of -centering the accent over the character and shifting the accent to the -right by $\delta={1\over2}(w-a)+h\cdot t-x\cdot s$. If either character is -absent from the font, we will simply use the other, without shifting. - -@<Declare act...@>= -static void make_accent(void) -{@+double s, @!t; /*amount of slant*/ -pointer @!p, @!q, @!r; /*character, box, and kern nodes*/ -internal_font_number @!f; /*relevant font*/ -scaled @!a, @!h, @!x, @!w, @!delta; /*heights and widths, as explained above*/ -four_quarters @!i; /*character information*/ -scan_char_num();f=cur_font;p=new_character(f, cur_val); -if (p!=null) - {@+x=x_height(f);s=slant(f)/float_constant(65536); -@^real division@> - a=char_width(f, char_info(f, character(p)));@/ - do_assignments();@/ - @<Create a character node |q| for the next character, but set |q:=null| if problems -arise@>; - if (q!=null) @<Append the accent with appropriate kerns, then set |p:=q|@>; - link(tail)=p;tail=p;space_factor=1000; - } -} - -@ @<Create a character node |q| for the next...@>= -q=null;f=cur_font; -if ((cur_cmd==letter)||(cur_cmd==other_char)||(cur_cmd==char_given)) - q=new_character(f, cur_chr); -else if (cur_cmd==char_num) - {@+scan_char_num();q=new_character(f, cur_val); - } -else back_input() - -@ The kern nodes appended here must be distinguished from other kerns, lest -they be wiped away by the hyphenation algorithm or by a previous line break. - -The two kerns are computed with (machine-dependent) |double| arithmetic, but -their sum is machine-independent; the net effect is machine-independent, -because the user cannot remove these nodes nor access them via \.{\\lastkern}. - -@<Append the accent with appropriate kerns...@>= -{@+t=slant(f)/float_constant(65536); -@^real division@> -i=char_info(f, character(q)); -w=char_width(f, i);h=char_height(f, height_depth(i)); -if (h!=x) /*the accent must be shifted up or down*/ - {@+p=hpack(p, natural);shift_amount(p)=x-h; - } -delta=round((w-a)/float_constant(2)+h*t-x*s); -@^real multiplication@> -@^real addition@> -r=new_kern(delta);subtype(r)=acc_kern;link(tail)=r;link(r)=p; -tail=new_kern(-a-delta);subtype(tail)=acc_kern;link(p)=tail;p=q; -} - -@ When `\.{\\cr}' or `\.{\\span}' or a tab mark comes through the scanner -into |main_control|, it might be that the user has foolishly inserted -one of them into something that has nothing to do with alignment. But it is -far more likely that a left brace or right brace has been omitted, since -|get_next| takes actions appropriate to alignment only when `\.{\\cr}' -or `\.{\\span}' or tab marks occur with |align_state==0|. The following -program attempts to make an appropriate recovery. - -@<Cases of |main_control| that build...@>= -any_mode(car_ret): any_mode(tab_mark): align_error();@+break; -any_mode(no_align): no_align_error();@+break; -any_mode(omit): omit_error();@+break; - -@ @<Declare act...@>= -static void align_error(void) -{@+if (abs(align_state) > 2) - @<Express consternation over the fact that no alignment is in progress@>@; -else{@+back_input(); - if (align_state < 0) - {@+print_err("Missing { inserted"); -@.Missing \{ inserted@> - incr(align_state);cur_tok=left_brace_token+'{'; - } - else{@+print_err("Missing } inserted"); -@.Missing \} inserted@> - decr(align_state);cur_tok=right_brace_token+'}'; - } - help3("I've put in what seems to be necessary to fix",@/ - "the current column of the current alignment.",@/ - "Try to go on, since this might almost work.");ins_error(); - } -} - -@ @<Express consternation...@>= -{@+print_err("Misplaced ");print_cmd_chr(cur_cmd, cur_chr); -@.Misplaced \&@> -@.Misplaced \\span@> -@.Misplaced \\cr@> -if (cur_tok==tab_token+'&') - {@+help6("I can't figure out why you would want to use a tab mark",@/ - "here. If you just want an ampersand, the remedy is",@/ - "simple: Just type `I\\&' now. But if some right brace",@/ - "up above has ended a previous alignment prematurely,",@/ - "you're probably due for more error messages, and you",@/ - "might try typing `S' now just to see what is salvageable."); - } -else{@+help5("I can't figure out why you would want to use a tab mark",@/ - "or \\cr or \\span just now. If something like a right brace",@/ - "up above has ended a previous alignment prematurely,",@/ - "you're probably due for more error messages, and you",@/ - "might try typing `S' now just to see what is salvageable."); - } -error(); -} - -@ The help messages here contain a little white lie, since \.{\\noalign} -and \.{\\omit} are allowed also after `\.{\\noalign\{...\}}'. - -@<Declare act...@>= -static void no_align_error(void) -{@+print_err("Misplaced ");print_esc("noalign"); -@.Misplaced \\noalign@> -help2("I expect to see \\noalign only after the \\cr of",@/ - "an alignment. Proceed, and I'll ignore this case.");error(); -} -static void omit_error(void) -{@+print_err("Misplaced ");print_esc("omit"); -@.Misplaced \\omit@> -help2("I expect to see \\omit only after tab marks or the \\cr of",@/ - "an alignment. Proceed, and I'll ignore this case.");error(); -} - -@ We've now covered most of the abuses of \.{\\halign} and \.{\\valign}. -Let's take a look at what happens when they are used correctly. - -@<Cases of |main_control| that build...@>= -case vmode+halign: case hmode+valign: init_align();@+break; -case mmode+halign: if (privileged()) - if (cur_group==math_shift_group) init_align(); - else off_save();@+break; -case vmode+endv: case hmode+endv: do_endv();@+break; - -@ An |align_group| code is supposed to remain on the |save_stack| -during an entire alignment, until |fin_align| removes it. - -A devious user might force an |endv| command to occur just about anywhere; -we must defeat such hacks. - -@<Declare act...@>= -static void do_endv(void) -{@+base_ptr=input_ptr;input_stack[base_ptr]=cur_input; -while ((input_stack[base_ptr].index_field!=v_template)&& - (input_stack[base_ptr].loc_field==null)&& - (input_stack[base_ptr].state_field==token_list)) decr(base_ptr); -if ((input_stack[base_ptr].index_field!=v_template)|| - (input_stack[base_ptr].loc_field!=null)|| - (input_stack[base_ptr].state_field!=token_list)) - fatal_error("(interwoven alignment preambles are not allowed)"); -@.interwoven alignment preambles...@> - if (cur_group==align_group) - {@+end_graf(); - if (fin_col()) fin_row(); - } -else off_save(); -} - -@ @<Cases of |handle_right_brace|...@>= -case align_group: {@+back_input();cur_tok=cs_token_flag+frozen_cr; - print_err("Missing ");print_esc("cr");print(" inserted"); -@.Missing \\cr inserted@> - help1("I'm guessing that you meant to end an alignment here."); - ins_error(); - } @+break; - -@ @<Cases of |handle_right_brace|...@>= -case no_align_group: {@+end_graf();unsave();align_peek(); - } @+break; - -@ Finally, \.{\\endcsname} is not supposed to get through to |main_control|. - -@<Cases of |main_control| that build...@>= -any_mode(end_cs_name): cs_error();@+break; - -@ @<Declare act...@>= -static void cs_error(void) -{@+print_err("Extra ");print_esc("endcsname"); -@.Extra \\endcsname@> -help1("I'm ignoring this, since I wasn't doing a \\csname."); -error(); -} - -@* Building math lists. -The routines that \TeX\ uses to create mlists are similar to those we have -just seen for the generation of hlists and vlists. But it is necessary to -make ``noads'' as well as nodes, so the reader should review the -discussion of math mode data structures before trying to make sense out of -the following program. - -Here is a little routine that needs to be done whenever a subformula -is about to be processed. The parameter is a code like |math_group|. - -@<Declare act...@>= -static void push_math(group_code @!c) -{@+push_nest();mode=-mmode;incompleat_noad=null;new_save_level(c); -} - -@ We get into math mode from horizontal mode when a `\.\$' (i.e., a -|math_shift| character) is scanned. We must check to see whether this -`\.\$' is immediately followed by another, in case display math mode is -called for. - -@<Cases of |main_control| that build...@>= -case hmode+math_shift: init_math();@+break; - -@ @<Declare act...@>= -static void init_math(void) -{@+ -scaled w; /*new or partial |pre_display_size|*/ -scaled @!l; /*new |display_width|*/ -scaled @!s; /*new |display_indent|*/ -pointer @!p; /*current node when calculating |pre_display_size|*/ -pointer @!q; /*glue specification when calculating |pre_display_size|*/ -internal_font_number @!f; /*font in current |char_node|*/ -int @!n; /*scope of paragraph shape specification*/ -scaled @!v; /*|w| plus possible glue amount*/ -scaled @!d; /*increment to |v|*/ -get_token(); /*|get_x_token| would fail on \.{\\ifmmode}\thinspace!*/ -if ((cur_cmd==math_shift)&&(mode > 0)) @<Go into display math mode@>@; -else{@+back_input();@<Go into ordinary math mode@>; - } -} - -@ @<Go into ordinary math mode@>= -{@+push_math(math_shift_group);eq_word_define(int_base+cur_fam_code,-1); -if (every_math!=null) begin_token_list(every_math, every_math_text); -} - -@ We get into ordinary math mode from display math mode when `\.{\\eqno}' or -`\.{\\leqno}' appears. In such cases |cur_chr| will be 0 or~1, respectively; -the value of |cur_chr| is placed onto |save_stack| for safe keeping. - -@<Cases of |main_control| that build...@>= -case mmode+eq_no: if (privileged()) - if (cur_group==math_shift_group) start_eq_no(); - else off_save();@+break; - -@ @<Put each...@>= -primitive("eqno", eq_no, 0); -@!@:eq\_no\_}{\.{\\eqno} primitive@> -primitive("leqno", eq_no, 1); -@!@:leq\_no\_}{\.{\\leqno} primitive@> - -@ When \TeX\ is in display math mode, |cur_group==math_shift_group|, -so it is not necessary for the |start_eq_no| procedure to test for -this condition. - -@<Declare act...@>= -static void start_eq_no(void) -{@+saved(0)=cur_chr;incr(save_ptr); -@<Go into ordinary math mode@>; -} - -@ @<Cases of |print_cmd_chr|...@>= -case eq_no: if (chr_code==1) print_esc("leqno");@+else print_esc("eqno");@+break; - -@ @<Forbidden...@>=non_math(eq_no): - -@ When we enter display math mode, we need to call |line_break| to -process the partial paragraph that has just been interrupted by the -display. Then we can set the proper values of |display_width| and -|display_indent| and |pre_display_size|. - -@<Go into display math mode@>= -{ if (head!=tail && !(type(tail)==whatsit_node && subtype(tail)==disp_node)) - { if (is_char_node(tail)) tail_append(new_penalty(inf_penalty))@; - else if (type(tail)!=glue_node) tail_append(new_penalty(inf_penalty))@; - else - {@+type(tail)=penalty_node;delete_glue_ref(glue_ptr(tail)); - flush_node_list(leader_ptr(tail));penalty(tail)=inf_penalty; - } - tail_append(new_param_glue(par_fill_skip_code)); - } -push_math(math_shift_group);mode=mmode; -eq_word_define(int_base+cur_fam_code,-1);@/ -if (every_display!=null) begin_token_list(every_display, every_display_text); -} - -@ @<Calculate the natural width, |w|, by which...@>= -v=shift_amount(just_box)+2*quad(cur_font);w=-max_dimen; -p=list_ptr(just_box); -while (p!=null) - {@+@<Let |d| be the natural width of node |p|; if the node is ``visible,'' |goto -found|; if the node is glue that stretches or shrinks, set |v:=max_dimen|@>; - if (v < max_dimen) v=v+d; - goto not_found; - found: if (v < max_dimen) - {@+v=v+d;w=v; - } - else{@+w=max_dimen;goto done; - } - not_found: p=link(p); - } -done: - -@ @<Let |d| be the natural width of node |p|...@>= -reswitch: if (is_char_node(p)) - {@+f=font(p);d=char_width(f, char_info(f, character(p))); - goto found; - } -switch (type(p)) { -case hlist_node: case vlist_node: case rule_node: {@+d=width(p);goto found; - } -case ligature_node: @<Make node |p| look like a |char_node|...@>@; -case kern_node: case math_node: d=width(p);@+break; -case glue_node: @<Let |d| be the natural width of this glue; if stretching or shrinking, -set |v:=max_dimen|; |goto found| in the case of leaders@>@;@+break; -case whatsit_node: @<Let |d| be the width of the whatsit |p|@>;@+break; -default:d=0; -} - -@ We need to be careful that |w|, |v|, and |d| do not depend on any |glue_set| -values, since such values are subject to system-dependent rounding. -System-dependent numbers are not allowed to infiltrate parameters like -|pre_display_size|, since \TeX82 is supposed to make the same decisions on all -machines. - -@<Let |d| be the natural width of this glue...@>= -{@+q=glue_ptr(p);d=width(q); -if (glue_sign(just_box)==stretching) - {@+if ((glue_order(just_box)==stretch_order(q))&&@| - (stretch(q)!=0)) - v=max_dimen; - } -else if (glue_sign(just_box)==shrinking) - {@+if ((glue_order(just_box)==shrink_order(q))&&@| - (shrink(q)!=0)) - v=max_dimen; - } -if (subtype(p) >= a_leaders) goto found; -} - -@ A displayed equation is considered to be three lines long, so we -calculate the length and offset of line number |prev_graf+2|. - -@<Calculate the length, |l|,...@>= -if (par_shape_ptr==null) - if ((hang_indent!=0)&&@| - (((hang_after >= 0)&&(prev_graf+2 > hang_after))||@| - (prev_graf+1 < -hang_after))) - {@+l=hsize-abs(hang_indent); - if (hang_indent > 0) s=hang_indent;@+else s=0; - } - else{@+l=hsize;s=0; - } -else{@+n=info(par_shape_ptr); - if (prev_graf+2 >= n) p=par_shape_ptr+2*n; - else p=par_shape_ptr+2*(prev_graf+2); - s=mem[p-1].sc;l=mem[p].sc; - } - -@ Subformulas of math formulas cause a new level of math mode to be entered, -on the semantic nest as well as the save stack. These subformulas arise in -several ways: (1)~A left brace by itself indicates the beginning of a -subformula that will be put into a box, thereby freezing its glue and -preventing line breaks. (2)~A subscript or superscript is treated as a -subformula if it is not a single character; the same applies to -the nucleus of things like \.{\\underline}. (3)~The \.{\\left} primitive -initiates a subformula that will be terminated by a matching \.{\\right}. -The group codes placed on |save_stack| in these three cases are -|math_group|, |math_group|, and |math_left_group|, respectively. - -Here is the code that handles case (1); the other cases are not quite as -trivial, so we shall consider them later. - -@<Cases of |main_control| that build...@>= -case mmode+left_brace: {@+tail_append(new_noad()); - back_input();scan_math(nucleus(tail)); - } @+break; - -@ Recall that the |nucleus|, |subscr|, and |supscr| fields in a noad are -broken down into subfields called |math_type| and either |info| or -|(fam, character)|. The job of |scan_math| is to figure out what to place -in one of these principal fields; it looks at the subformula that -comes next in the input, and places an encoding of that subformula -into a given word of |mem|. - -@d fam_in_range ((cur_fam >= 0)&&(cur_fam < 16)) - -@<Declare act...@>= -static void scan_math(pointer @!p) -{@+ -int c; /*math character code*/ -restart: @<Get the next non-blank non-relax...@>; -reswitch: switch (cur_cmd) { -case letter: case other_char: case char_given: {@+c=ho(math_code(cur_chr)); - if (c==0100000) - {@+@<Treat |cur_chr| as an active character@>; - goto restart; - } - } @+break; -case char_num: {@+scan_char_num();cur_chr=cur_val;cur_cmd=char_given; - goto reswitch; - } -case math_char_num: {@+scan_fifteen_bit_int();c=cur_val; - } @+break; -case math_given: c=cur_chr;@+break; -case delim_num: {@+scan_twenty_seven_bit_int();c=cur_val/010000; - } @+break; -default:@<Scan a subformula enclosed in braces and |return|@>@; -} @/ -math_type(p)=math_char;character(p)=qi(c%256); -if ((c >= var_code)&&fam_in_range) fam(p)=cur_fam; -else fam(p)=(c/256)%16; -} - -@ An active character that is an |outer_call| is allowed here. - -@<Treat |cur_chr|...@>= -{@+cur_cs=cur_chr+active_base; -cur_cmd=eq_type(cur_cs);cur_chr=equiv(cur_cs); -x_token();back_input(); -} - -@ The pointer |p| is placed on |save_stack| while a complex subformula -is being scanned. - -@<Scan a subformula...@>= -{@+back_input();scan_left_brace();@/ -saved(0)=p;incr(save_ptr);push_math(math_group);return; -} - -@ The simplest math formula is, of course, `\.{\${ }\$}', when no noads are -generated. The next simplest cases involve a single character, e.g., -`\.{\$x\$}'. Even though such cases may not seem to be very interesting, -the reader can perhaps understand how happy the author was when `\.{\$x\$}' -was first properly typeset by \TeX. The code in this section was used. -@^Knuth, Donald Ervin@> - -@<Cases of |main_control| that build...@>= -case mmode+letter: case mmode+other_char: case mmode+char_given: - set_math_char(ho(math_code(cur_chr)));@+break; -case mmode+char_num: {@+scan_char_num();cur_chr=cur_val; - set_math_char(ho(math_code(cur_chr))); - } @+break; -case mmode+math_char_num: {@+scan_fifteen_bit_int();set_math_char(cur_val); - } @+break; -case mmode+math_given: set_math_char(cur_chr);@+break; -case mmode+delim_num: {@+scan_twenty_seven_bit_int(); - set_math_char(cur_val/010000); - } @+break; - -@ The |set_math_char| procedure creates a new noad appropriate to a given -math code, and appends it to the current mlist. However, if the math code -is sufficiently large, the |cur_chr| is treated as an active character and -nothing is appended. - -@<Declare act...@>= -static void set_math_char(int @!c) -{@+pointer p; /*the new noad*/ -if (c >= 0100000) - @<Treat |cur_chr|...@>@; -else{@+p=new_noad();math_type(nucleus(p))=math_char; - character(nucleus(p))=qi(c%256); - fam(nucleus(p))=(c/256)%16; - if (c >= var_code) - {@+if (fam_in_range) fam(nucleus(p))=cur_fam; - type(p)=ord_noad; - } - else type(p)=ord_noad+(c/010000); - link(tail)=p;tail=p; - } -} - -@ Primitive math operators like \.{\\mathop} and \.{\\underline} are given -the command code |math_comp|, supplemented by the noad type that they -generate. - -@<Put each...@>= -primitive("mathord", math_comp, ord_noad); -@!@:math\_ord\_}{\.{\\mathord} primitive@> -primitive("mathop", math_comp, op_noad); -@!@:math\_op\_}{\.{\\mathop} primitive@> -primitive("mathbin", math_comp, bin_noad); -@!@:math\_bin\_}{\.{\\mathbin} primitive@> -primitive("mathrel", math_comp, rel_noad); -@!@:math\_rel\_}{\.{\\mathrel} primitive@> -primitive("mathopen", math_comp, open_noad); -@!@:math\_open\_}{\.{\\mathopen} primitive@> -primitive("mathclose", math_comp, close_noad); -@!@:math\_close\_}{\.{\\mathclose} primitive@> -primitive("mathpunct", math_comp, punct_noad); -@!@:math\_punct\_}{\.{\\mathpunct} primitive@> -primitive("mathinner", math_comp, inner_noad); -@!@:math\_inner\_}{\.{\\mathinner} primitive@> -primitive("underline", math_comp, under_noad); -@!@:underline\_}{\.{\\underline} primitive@> -primitive("overline", math_comp, over_noad);@/ -@!@:overline\_}{\.{\\overline} primitive@> -primitive("displaylimits", limit_switch, normal); -@!@:display\_limits\_}{\.{\\displaylimits} primitive@> -primitive("limits", limit_switch, limits); -@!@:limits\_}{\.{\\limits} primitive@> -primitive("nolimits", limit_switch, no_limits); -@!@:no\_limits\_}{\.{\\nolimits} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case math_comp: switch (chr_code) { - case ord_noad: print_esc("mathord");@+break; - case op_noad: print_esc("mathop");@+break; - case bin_noad: print_esc("mathbin");@+break; - case rel_noad: print_esc("mathrel");@+break; - case open_noad: print_esc("mathopen");@+break; - case close_noad: print_esc("mathclose");@+break; - case punct_noad: print_esc("mathpunct");@+break; - case inner_noad: print_esc("mathinner");@+break; - case under_noad: print_esc("underline");@+break; - default:print_esc("overline"); - } @+break; -case limit_switch: if (chr_code==limits) print_esc("limits"); - else if (chr_code==no_limits) print_esc("nolimits"); - else print_esc("displaylimits");@+break; - -@ @<Cases of |main_control| that build...@>= -case mmode+math_comp: {@+tail_append(new_noad()); - type(tail)=cur_chr;scan_math(nucleus(tail)); - } @+break; -case mmode+limit_switch: math_limit_switch();@+break; - -@ @<Declare act...@>= -static void math_limit_switch(void) -{@+ -if (head!=tail) if (type(tail)==op_noad) - {@+subtype(tail)=cur_chr;return; - } -print_err("Limit controls must follow a math operator"); -@.Limit controls must follow...@> -help1("I'm ignoring this misplaced \\limits or \\nolimits command.");error(); -} - -@ Delimiter fields of noads are filled in by the |scan_delimiter| routine. -The first parameter of this procedure is the |mem| address where the -delimiter is to be placed; the second tells if this delimiter follows -\.{\\radical} or not. - -@<Declare act...@>= -static void scan_delimiter(pointer @!p, bool @!r) -{@+if (r) scan_twenty_seven_bit_int(); -else{@+@<Get the next non-blank non-relax...@>; - switch (cur_cmd) { - case letter: case other_char: cur_val=del_code(cur_chr);@+break; - case delim_num: scan_twenty_seven_bit_int();@+break; - default:cur_val=-1; - } - } -if (cur_val < 0) @<Report that an invalid delimiter code is being changed to null; -set~|cur_val:=0|@>; -small_fam(p)=(cur_val/04000000)%16; -small_char(p)=qi((cur_val/010000)%256); -large_fam(p)=(cur_val/256)%16; -large_char(p)=qi(cur_val%256); -} - -@ @<Report that an invalid delimiter...@>= -{@+print_err("Missing delimiter (. inserted)"); -@.Missing delimiter...@> -help6("I was expecting to see something like `(' or `\\{' or",@/ - "`\\}' here. If you typed, e.g., `{' instead of `\\{', you",@/ - "should probably delete the `{' by typing `1' now, so that",@/ - "braces don't get unbalanced. Otherwise just proceed.",@/ - "Acceptable delimiters are characters whose \\delcode is",@/ - "nonnegative, or you can use `\\delimiter <delimiter code>'."); -back_error();cur_val=0; -} - -@ @<Cases of |main_control| that build...@>= -case mmode+radical: math_radical();@+break; - -@ @<Declare act...@>= -static void math_radical(void) -{@+tail_append(get_node(radical_noad_size)); -type(tail)=radical_noad;subtype(tail)=normal; -mem[nucleus(tail)].hh=empty_field; -mem[subscr(tail)].hh=empty_field; -mem[supscr(tail)].hh=empty_field; -scan_delimiter(left_delimiter(tail), true);scan_math(nucleus(tail)); -} - -@ @<Cases of |main_control| that build...@>= -case mmode+accent: case mmode+math_accent: math_ac();@+break; - -@ @<Declare act...@>= -static void math_ac(void) -{@+if (cur_cmd==accent) - @<Complain that the user should have said \.{\\mathaccent}@>; -tail_append(get_node(accent_noad_size)); -type(tail)=accent_noad;subtype(tail)=normal; -mem[nucleus(tail)].hh=empty_field; -mem[subscr(tail)].hh=empty_field; -mem[supscr(tail)].hh=empty_field; -math_type(accent_chr(tail))=math_char; -scan_fifteen_bit_int(); -character(accent_chr(tail))=qi(cur_val%256); -if ((cur_val >= var_code)&&fam_in_range) fam(accent_chr(tail))=cur_fam; -else fam(accent_chr(tail))=(cur_val/256)%16; -scan_math(nucleus(tail)); -} - -@ @<Complain that the user should have said \.{\\mathaccent}@>= -{@+print_err("Please use ");print_esc("mathaccent"); -print(" for accents in math mode"); -@.Please use \\mathaccent...@> -help2("I'm changing \\accent to \\mathaccent here; wish me luck.",@/ - "(Accents are not the same in formulas as they are in text.)"); -error(); -} - -@ @<Cases of |main_control| that build...@>= -case mmode+vcenter: {@+scan_spec(vcenter_group, false);normal_paragraph(); - push_nest();mode=-vmode;prev_depth=ignore_depth; - if (every_vbox!=null) begin_token_list(every_vbox, every_vbox_text); - } @+break; - -@ @<Cases of |handle...@>= -case vcenter_group: {@+end_graf();unsave();save_ptr=save_ptr-2; - p=vpack(link(head), saved(1), saved_hfactor(1), saved_vfactor(1), saved(0));pop_nest(); - tail_append(new_noad());type(tail)=vcenter_noad; - math_type(nucleus(tail))=sub_box;info(nucleus(tail))=p; - } @+break; - -@ The routine that inserts a |style_node| holds no surprises. - -@<Put each...@>= -primitive("displaystyle", math_style, display_style); -@!@:display\_style\_}{\.{\\displaystyle} primitive@> -primitive("textstyle", math_style, text_style); -@!@:text\_style\_}{\.{\\textstyle} primitive@> -primitive("scriptstyle", math_style, script_style); -@!@:script\_style\_}{\.{\\scriptstyle} primitive@> -primitive("scriptscriptstyle", math_style, script_script_style); -@!@:script\_script\_style\_}{\.{\\scriptscriptstyle} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case math_style: print_style(chr_code);@+break; - -@ @<Cases of |main_control| that build...@>= -case mmode+math_style: tail_append(new_style(cur_chr))@;@+break; -case mmode+non_script: {@+tail_append(new_glue(zero_glue)); - subtype(tail)=cond_math_glue; - } @+break; -case mmode+math_choice: append_choices();@+break; - -@ The routine that scans the four mlists of a \.{\\mathchoice} is very -much like the routine that builds discretionary nodes. - -@<Declare act...@>= -static void append_choices(void) -{@+tail_append(new_choice());incr(save_ptr);saved(-1)=0; -push_math(math_choice_group);scan_left_brace(); -} - -@ @<Cases of |handle_right_brace|...@>= -case math_choice_group: build_choices();@+break; - -@ @<Declare act...@>= -@t\4@>@<Declare the function called |fin_mlist|@>@t@>@;@/ -static void build_choices(void) -{@+ -pointer p; /*the current mlist*/ -unsave();p=fin_mlist(null); -switch (saved(-1)) { -case 0: display_mlist(tail)=p;@+break; -case 1: text_mlist(tail)=p;@+break; -case 2: script_mlist(tail)=p;@+break; -case 3: {@+script_script_mlist(tail)=p;decr(save_ptr);return; - } -} /*there are no other cases*/ -incr(saved(-1));push_math(math_choice_group);scan_left_brace(); -} - -@ Subscripts and superscripts are attached to the previous nucleus by the -@^superscripts@>@^subscripts@> -action procedure called |sub_sup|. We use the facts that |sub_mark==sup_mark+1| -and |subscr(p)==supscr(p)+1|. - -@<Cases of |main_control| that build...@>= -case mmode+sub_mark: case mmode+sup_mark: sub_sup();@+break; - -@ @<Declare act...@>= -static void sub_sup(void) -{@+small_number t; /*type of previous sub/superscript*/ -pointer @!p; /*field to be filled by |scan_math|*/ -t=empty;p=null; -if (tail!=head) if (scripts_allowed(tail)) - {@+p=supscr(tail)+cur_cmd-sup_mark; /*|supscr| or |subscr|*/ - t=math_type(p); - } -if ((p==null)||(t!=empty)) @<Insert a dummy noad to be sub/superscripted@>; -scan_math(p); -} - -@ @<Insert a dummy...@>= -{@+tail_append(new_noad()); -p=supscr(tail)+cur_cmd-sup_mark; /*|supscr| or |subscr|*/ -if (t!=empty) - {@+if (cur_cmd==sup_mark) - {@+print_err("Double superscript"); -@.Double superscript@> - help1("I treat `x^1^2' essentially like `x^1{}^2'."); - } - else{@+print_err("Double subscript"); -@.Double subscript@> - help1("I treat `x_1_2' essentially like `x_1{}_2'."); - } - error(); - } -} - -@ An operation like `\.{\\over}' causes the current mlist to go into a -state of suspended animation: |incompleat_noad| points to a |fraction_noad| -that contains the mlist-so-far as its numerator, while the denominator -is yet to come. Finally when the mlist is finished, the denominator will -go into the incompleat fraction noad, and that noad will become the -whole formula, unless it is surrounded by `\.{\\left}' and `\.{\\right}' -delimiters. - -@d above_code 0 /* `\.{\\above}' */ -@d over_code 1 /* `\.{\\over}' */ -@d atop_code 2 /* `\.{\\atop}' */ -@d delimited_code 3 /* `\.{\\abovewithdelims}', etc.*/ - -@<Put each...@>= -primitive("above", above, above_code);@/ -@!@:above\_}{\.{\\above} primitive@> -primitive("over", above, over_code);@/ -@!@:over\_}{\.{\\over} primitive@> -primitive("atop", above, atop_code);@/ -@!@:atop\_}{\.{\\atop} primitive@> -primitive("abovewithdelims", above, delimited_code+above_code);@/ -@!@:above\_with\_delims\_}{\.{\\abovewithdelims} primitive@> -primitive("overwithdelims", above, delimited_code+over_code);@/ -@!@:over\_with\_delims\_}{\.{\\overwithdelims} primitive@> -primitive("atopwithdelims", above, delimited_code+atop_code); -@!@:atop\_with\_delims\_}{\.{\\atopwithdelims} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case above: switch (chr_code) { - case over_code: print_esc("over");@+break; - case atop_code: print_esc("atop");@+break; - case delimited_code+above_code: print_esc("abovewithdelims");@+break; - case delimited_code+over_code: print_esc("overwithdelims");@+break; - case delimited_code+atop_code: print_esc("atopwithdelims");@+break; - default:print_esc("above"); - } @+break; - -@ @<Cases of |main_control| that build...@>= -case mmode+above: math_fraction();@+break; - -@ @<Declare act...@>= -static void math_fraction(void) -{@+small_number c; /*the type of generalized fraction we are scanning*/ -c=cur_chr; -if (incompleat_noad!=null) - @<Ignore the fraction operation and complain about this ambiguous case@>@; -else{@+incompleat_noad=get_node(fraction_noad_size); - type(incompleat_noad)=fraction_noad; - subtype(incompleat_noad)=normal; - math_type(numerator(incompleat_noad))=sub_mlist; - info(numerator(incompleat_noad))=link(head); - mem[denominator(incompleat_noad)].hh=empty_field; - mem[left_delimiter(incompleat_noad)].qqqq=null_delimiter; - mem[right_delimiter(incompleat_noad)].qqqq=null_delimiter;@/ - link(head)=null;tail=head; - @<Use code |c| to distinguish between generalized fractions@>; - } -} - -@ @<Use code |c|...@>= -if (c >= delimited_code) - {@+scan_delimiter(left_delimiter(incompleat_noad), false); - scan_delimiter(right_delimiter(incompleat_noad), false); - } -switch (c%delimited_code) { -case above_code: {@+scan_normal_dimen; - thickness(incompleat_noad)=cur_val; - } @+break; -case over_code: thickness(incompleat_noad)=default_code;@+break; -case atop_code: thickness(incompleat_noad)=0; -} /*there are no other cases*/ - -@ @<Ignore the fraction...@>= -{@+if (c >= delimited_code) - {@+scan_delimiter(garbage, false);scan_delimiter(garbage, false); - } -if (c%delimited_code==above_code) scan_normal_dimen; -print_err("Ambiguous; you need another { and }"); -@.Ambiguous...@> -help3("I'm ignoring this fraction specification, since I don't",@/ - "know whether a construction like `x \\over y \\over z'",@/ - "means `{x \\over y} \\over z' or `x \\over {y \\over z}'."); -error(); -} - -@ At the end of a math formula or subformula, the |fin_mlist| routine is -called upon to return a pointer to the newly completed mlist, and to -pop the nest back to the enclosing semantic level. The parameter to -|fin_mlist|, if not null, points to a |right_noad| that ends the -current mlist; this |right_noad| has not yet been appended. - -@<Declare the function called |fin_mlist|@>= -static pointer fin_mlist(pointer @!p) -{@+pointer q; /*the mlist to return*/ -if (incompleat_noad!=null) @<Compleat the incompleat noad@>@; -else{@+link(tail)=p;q=link(head); - } -pop_nest();return q; -} - -@ @<Compleat...@>= -{@+math_type(denominator(incompleat_noad))=sub_mlist; -info(denominator(incompleat_noad))=link(head); -if (p==null) q=incompleat_noad; -else{@+q=info(numerator(incompleat_noad)); - if ((type(q)!=left_noad)||(delim_ptr==null)) confusion("right"); -@:this can't happen right}{\quad right@> - info(numerator(incompleat_noad))=link(delim_ptr); - link(delim_ptr)=incompleat_noad;link(incompleat_noad)=p; - } -} - -@ Now at last we're ready to see what happens when a right brace occurs -in a math formula. Two special cases are simplified here: Braces are effectively -removed when they surround a single Ord without sub/superscripts, or when they -surround an accent that is the nucleus of an Ord atom. - -@<Cases of |handle...@>= -case math_group: {@+unsave();decr(save_ptr);@/ - math_type(saved(0))=sub_mlist;p=fin_mlist(null);info(saved(0))=p; - if (p!=null) if (link(p)==null) - if (type(p)==ord_noad) - {@+if (math_type(subscr(p))==empty) - if (math_type(supscr(p))==empty) - {@+mem[saved(0)].hh=mem[nucleus(p)].hh; - free_node(p, noad_size); - } - } - else if (type(p)==accent_noad) if (saved(0)==nucleus(tail)) - if (type(tail)==ord_noad) @<Replace the tail of the list by |p|@>; - } @+break; - -@ @<Replace the tail...@>= -{@+q=head;while (link(q)!=tail) q=link(q); -link(q)=p;free_node(tail, noad_size);tail=p; -} - -@ We have dealt with all constructions of math mode except `\.{\\left}' and -`\.{\\right}', so the picture is completed by the following sections of -the program. - -@<Put each...@>= -primitive("left", left_right, left_noad); -@!@:left\_}{\.{\\left} primitive@> -primitive("right", left_right, right_noad); -@!@:right\_}{\.{\\right} primitive@> -text(frozen_right)=text(cur_val);eqtb[frozen_right]=eqtb[cur_val]; - -@ @<Cases of |print_cmd_chr|...@>= -case left_right: if (chr_code==left_noad) print_esc("left") -@/@<Cases of |left_right| for |print_cmd_chr|@>;@/ -else print_esc("right");@+break; - -@ @<Cases of |main_control| that build...@>= -case mmode+left_right: math_left_right();@+break; - -@ @<Declare act...@>= -static void math_left_right(void) -{@+small_number t; /*|left_noad| or |right_noad|*/ -pointer @!p; /*new noad*/ -pointer @!q; /*resulting mlist*/ -t=cur_chr; -if ((t!=left_noad)&&(cur_group!=math_left_group)) - @<Try to recover from mismatched \.{\\right}@>@; -else{@+p=new_noad();type(p)=t; - scan_delimiter(delimiter(p), false); - if (t==middle_noad) - {@+type(p)=right_noad;subtype(p)=middle_noad; - } - if (t==left_noad) q=p; - else{@+q=fin_mlist(p);unsave(); /*end of |math_left_group|*/ - } - if (t!=right_noad) - {@+push_math(math_left_group);link(head)=q;tail=p; - delim_ptr=p; - } - else{@+ - tail_append(new_noad());type(tail)=inner_noad; - math_type(nucleus(tail))=sub_mlist; - info(nucleus(tail))=q; - } - } -} - -@ @<Try to recover from mismatch...@>= -{@+if (cur_group==math_shift_group) - {@+scan_delimiter(garbage, false); - print_err("Extra "); - if (t==middle_noad) - {@+print_esc("middle"); -@.Extra \\middle.@> - help1("I'm ignoring a \\middle that had no matching \\left."); - } - else{@+print_esc("right"); -@.Extra \\right.@> - help1("I'm ignoring a \\right that had no matching \\left."); - } - error(); - } -else off_save(); -} - -@ Here is the only way out of math mode. - -@<Cases of |main_control| that build...@>= -case mmode+math_shift: if (cur_group==math_shift_group) after_math(); - else off_save();@+break; - -@ @<Declare act...@>= -static void after_math(void) -{@+bool l; /*`\.{\\leqno}' instead of `\.{\\eqno}'*/ -bool @!danger; /*not enough symbol fonts are present*/ -int @!m; /*|mmode| or |-mmode|*/ -pointer @!p; /*the formula*/ -pointer @!a; /*box containing equation number*/ -danger=false; -@<Check that the necessary fonts for math symbols are present; if not, flush the current -math lists and set |danger:=true|@>; -m=mode;l=false;p=fin_mlist(null); /*this pops the nest*/ -if (mode==-m) /*end of equation number*/ - {@+@<Check that another \.\$ follows@>; - cur_mlist=p;cur_style=text_style;mlist_penalties=false; - mlist_to_hlist();a=hpack(link(temp_head), natural); - unsave();decr(save_ptr); /*now |cur_group==math_shift_group|*/ - if (saved(0)==1) l=true; - danger=false; - @<Check that the necessary fonts for math symbols are present; if not, flush the -current math lists and set |danger:=true|@>; - m=mode;p=fin_mlist(null); - } -else a=null; -if (m < 0) @<Finish math in text@>@; -else{@+if (a==null) @<Check that another \.\$ follows@>; - @<Finish displayed math@>; - } -} - -@ @<Check that the necessary fonts...@>= -if ((font_params[fam_fnt(2+text_size)] < total_mathsy_params)||@| - (font_params[fam_fnt(2+script_size)] < total_mathsy_params)||@| - (font_params[fam_fnt(2+script_script_size)] < total_mathsy_params)) - {@+print_err("Math formula deleted: Insufficient symbol fonts");@/ -@.Math formula deleted...@> - help3("Sorry, but I can't typeset math unless \\textfont 2",@/ - "and \\scriptfont 2 and \\scriptscriptfont 2 have all",@/ - "the \\fontdimen values needed in math symbol fonts."); - error();flush_math();danger=true; - } -else if ((font_params[fam_fnt(3+text_size)] < total_mathex_params)||@| - (font_params[fam_fnt(3+script_size)] < total_mathex_params)||@| - (font_params[fam_fnt(3+script_script_size)] < total_mathex_params)) - {@+print_err("Math formula deleted: Insufficient extension fonts");@/ - help3("Sorry, but I can't typeset math unless \\textfont 3",@/ - "and \\scriptfont 3 and \\scriptscriptfont 3 have all",@/ - "the \\fontdimen values needed in math extension fonts."); - error();flush_math();danger=true; - } - -@ The |unsave| is done after everything else here; hence an appearance of -`\.{\\mathsurround}' inside of `\.{\$...\$}' affects the spacing at these -particular \.\$'s. This is consistent with the conventions of -`\.{\$\$...\$\$}', since `\.{\\abovedisplayskip}' inside a display affects the -space above that display. - -@<Finish math in text@>= -{@+tail_append(new_math(math_surround, before)); -cur_mlist=p;cur_style=text_style;mlist_penalties=(mode > 0);mlist_to_hlist(); -link(tail)=link(temp_head); -while (link(tail)!=null) tail=link(tail); -tail_append(new_math(math_surround, after)); -space_factor=1000;unsave(); -} - -@ \TeX\ gets to the following part of the program when the first `\.\$' ending -a display has been scanned. - -@<Check that another \.\$ follows@>= -{@+get_x_token(); -if (cur_cmd!=math_shift) - {@+print_err("Display math should end with $$"); -@.Display math...with \$\$@> - help2("The `$' that I just saw supposedly matches a previous `$$'.",@/ - "So I shall assume that you typed `$$' both times."); - back_error(); - } -} - -@ We have saved the worst for last: The fussiest part of math mode processing -occurs when a displayed formula is being centered and placed with an optional -equation number. - -@<Local variables for finishing...@>= -pointer @!b; /*box containing the equation*/ -scaled @!w; /*width of the equation*/ -scaled @!z; /*width of the line*/ -scaled @!e; /*width of equation number*/ -scaled @!q; /*width of equation number plus space to separate from equation*/ -scaled @!d; /*displacement of equation in the line*/ -scaled @!s; /*move the line right this much*/ -small_number @!g1, @!g2; /*glue parameter codes for before and after*/ -pointer @!r; /*kern node used to position the display*/ -pointer @!t; /*tail of adjustment list*/ - -@ At this time |p| points to the mlist for the formula; |a| is either -|null| or it points to a box containing the equation number; and we are in -vertical mode (or internal vertical mode). - -@<Finish displayed math@>= -cur_mlist=p;cur_style=display_style;mlist_penalties=false; -mlist_to_hlist();p=link(temp_head); link(temp_head)=null;@/ -{@+ pointer q; - q=new_disp_node(); - if (!danger) { display_formula(q)=p; display_eqno(q)=a; display_left(q)=l; } - /* adding parameter nodes */ - if (hang_indent!=0) - { add_par_node(dimen_type,hang_indent_code,hang_indent); - if (hang_after!=1) - add_par_node(int_type,hang_after_code,hang_after); - } - add_par_node(dimen_type,line_skip_limit_code,line_skip_limit); - add_par_node(glue_type,line_skip_code,line_skip); - add_par_node(glue_type,baseline_skip_code,baseline_skip); - display_params(q)=link(temp_head); link(temp_head)=null; - display_no_bs(q)= prev_depth <= ignore_depth; - tail_append(q); -} -/* this is from |resume_after_display| */ -if (cur_group!=math_shift_group) confusion("display"); -@:this can't happen display}{\quad display@> -unsave(); -mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; -prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) - *0200000+cur_lang; -@<Scan an optional space@>; - -@ @<Declare act...@>= -static void resume_after_display(void) -{@+if (cur_group!=math_shift_group) confusion("display"); -@:this can't happen display}{\quad display@> -unsave();prev_graf=prev_graf+3; -push_nest();mode=hmode;space_factor=1000;set_cur_lang;clang=cur_lang; -prev_graf=(norm_min(left_hyphen_min)*0100+norm_min(right_hyphen_min)) - *0200000+cur_lang; -@<Scan an optional space@>; -if (nest_ptr==1) build_page(); -} - -@ The user can force the equation number to go on a separate line -by causing its width to be zero. - -@<Squeeze the equation as much as possible...@>= -{@+if ((e!=0)&&((w-total_shrink[normal]+q <= z)||@| - (total_shrink[fil]!=0)||(total_shrink[fill]!=0)|| - (total_shrink[filll]!=0))) - {@+list_ptr(b)=null;flush_node_list(b); - b=hpack(p, z-q, 0, 0, exactly); - } -else{@+e=0; - if (w > z) - {@+list_ptr(b)=null;flush_node_list(b); - b=hpack(p, z, 0, 0, exactly); - } - } -w=width(b); -} - -@ We try first to center the display without regard to the existence of -the equation number. If that would make it too close (where ``too close'' -means that the space between display and equation number is less than the -width of the equation number), we either center it in the remaining space -or move it as far from the equation number as possible. The latter alternative -is taken only if the display begins with glue, since we assume that the -user put glue there to control the spacing precisely. - -@<Determine the displacement, |d|, of the left edge of the equation...@>= -d=half(z-w); -if ((e > 0)&&(d < 2*e)) /*too close*/ - {@+d=half(z-w-e); - if (p!=null) if (!is_char_node(p)) if (type(p)==glue_node) d=0; - } - -@ If the equation number is set on a line by itself, either before or -after the formula, we append an infinite penalty so that no page break will -separate the display from its number; and we use the same size and -displacement for all three potential lines of the display, even though -`\.{\\parshape}' may specify them differently. - -@<Append the glue or equation number preceding the display@>= -tail_append(new_penalty(pre_display_penalty));@/ -if ((d+s <= pre_display_size)||l) /*not enough clearance*/ - {@+g1=above_display_skip_code;g2=below_display_skip_code; - } -else{@+g1=above_display_short_skip_code; - g2=below_display_short_skip_code; - } -if (l&&(e==0)) /*it follows that |type(a)==hlist_node|*/ - {@+shift_amount(a)=s;append_to_vlist(a); - tail_append(new_penalty(inf_penalty)); - } -else tail_append(new_param_glue(g1)) - -@ @<Append the display and perhaps also the equation number@>= -if (e!=0) - {@+r=new_kern(z-w-e-d); - if (l) - {@+link(a)=r;link(r)=b;b=a;d=0; - } - else{@+link(b)=r;link(r)=a; - } - b=hpack(b, natural); - } -shift_amount(b)=s+d;append_to_vlist(b) - -@ @<Append the glue or equation number following the display@>= -if ((a!=null)&&(e==0)&&!l) - {@+tail_append(new_penalty(inf_penalty)); - shift_amount(a)=s+z-width(a); - append_to_vlist(a); - g2=0; - } -if (t!=adjust_head) /*migrating material comes after equation number*/ - {@+link(tail)=link(adjust_head);tail=t; - } -tail_append(new_penalty(post_display_penalty)); -if (g2 > 0) tail_append(new_param_glue(g2)) - -@ When \.{\\halign} appears in a display, the alignment routines operate -essentially as they do in vertical mode. Then the following program is -activated, with |p| and |q| pointing to the beginning and end of the -resulting list, and with |aux_save| holding the |prev_depth| value. - -@<Finish an alignment in a display@>= -{@+do_assignments(); -if (cur_cmd!=math_shift) @<Pontificate about improper alignment in display@>@; -else@<Check that another \.\$ follows@>; -pop_nest(); -tail_append(new_penalty(pre_display_penalty)); -tail_append(new_param_glue(above_display_skip_code)); -link(tail)=p; -if (p!=null) tail=q; -tail_append(new_penalty(post_display_penalty)); -tail_append(new_param_glue(below_display_skip_code)); -prev_depth=aux_save.sc;resume_after_display(); -} - -@ @<Pontificate...@>= -{@+print_err("Missing $$ inserted"); -@.Missing {\$\$} inserted@> -help2("Displays can use special alignments (like \\eqalignno)",@/ - "only if nothing but the alignment itself is between $$'s."); -back_error(); -} - -@* Mode-independent processing. -The long |main_control| procedure has now been fully specified, except for -certain activities that are independent of the current mode. These activities -do not change the current vlist or hlist or mlist; if they change anything, -it is the value of a parameter or the meaning of a control sequence. - -Assignments to values in |eqtb| can be global or local. Furthermore, a -control sequence can be defined to be `\.{\\long}', `\.{\\protected}', -or `\.{\\outer}', and it might or might not be expanded. The prefixes -`\.{\\global}', `\.{\\long}', `\.{\\protected}', -and `\.{\\outer}' can occur in any order. Therefore we assign binary numeric -codes, making it possible to accumulate the union of all specified prefixes -by adding the corresponding codes. (\PASCAL's |set| operations could also -have been used.) - -@<Put each...@>= -primitive("long", prefix, 1); -@!@:long\_}{\.{\\long} primitive@> -primitive("outer", prefix, 2); -@!@:outer\_}{\.{\\outer} primitive@> -primitive("global", prefix, 4); -@!@:global\_}{\.{\\global} primitive@> -primitive("def", def, 0); -@!@:def\_}{\.{\\def} primitive@> -primitive("gdef", def, 1); -@!@:gdef\_}{\.{\\gdef} primitive@> -primitive("edef", def, 2); -@!@:edef\_}{\.{\\edef} primitive@> -primitive("xdef", def, 3); -@!@:xdef\_}{\.{\\xdef} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case prefix: if (chr_code==1) print_esc("long"); - else if (chr_code==2) print_esc("outer") - @/@<Cases of |prefix| for |print_cmd_chr|@>;@/ - else print_esc("global");@+break; -case def: if (chr_code==0) print_esc("def"); - else if (chr_code==1) print_esc("gdef"); - else if (chr_code==2) print_esc("edef"); - else print_esc("xdef");@+break; - -@ Every prefix, and every command code that might or might not be prefixed, -calls the action procedure |prefixed_command|. This routine accumulates -a sequence of prefixes until coming to a non-prefix, then it carries out -the command. - -@<Cases of |main_control| that don't...@>= -any_mode(toks_register): -any_mode(assign_toks): -any_mode(assign_int): -any_mode(assign_dimen): -any_mode(assign_glue): -any_mode(assign_mu_glue): -any_mode(assign_font_dimen): -any_mode(assign_font_int): -any_mode(set_aux): -any_mode(set_prev_graf): -any_mode(set_page_dimen): -any_mode(set_page_int): -any_mode(set_box_dimen): -any_mode(set_shape): -any_mode(def_code): -any_mode(def_family): -any_mode(set_font): -any_mode(def_font): -any_mode(internal_register): -any_mode(advance): -any_mode(multiply): -any_mode(divide): -any_mode(prefix): -any_mode(let): -any_mode(shorthand_def): -any_mode(read_to_cs): -any_mode(def): -any_mode(set_box): -any_mode(hyph_data): -any_mode(set_interaction): prefixed_command();@+break; - -@ If the user says, e.g., `\.{\\global\\global}', the redundancy is -silently accepted. - -@<Declare act...@>= -@t\4@>@<Declare subprocedures for |prefixed_command|@>@t@>@;@/ -static void prefixed_command(void) -{@+ -small_number a; /*accumulated prefix codes so far*/ -internal_font_number @!f; /*identifies a font*/ -int @!j; /*index into a \.{\\parshape} specification*/ -font_index @!k; /*index into |font_info|*/ -pointer @!p, @!q; /*for temporary short-term use*/ -int @!n; /*ditto*/ -bool @!e; /*should a definition be expanded? or was \.{\\let} not done?*/ -a=0; -while (cur_cmd==prefix) - {@+if (!odd(a/cur_chr)) a=a+cur_chr; - @<Get the next non-blank non-relax...@>; - if (cur_cmd <= max_non_prefixed_command) - @<Discard erroneous prefixes and |return|@>; - if (tracing_commands > 2) if (eTeX_ex) show_cur_cmd_chr(); - } -@<Discard the prefixes \.{\\long} and \.{\\outer} if they are irrelevant@>; -@<Adjust \(f)for the setting of \.{\\globaldefs}@>; -switch (cur_cmd) { -@t\4@>@<Assignments@>@; -default:confusion("prefix"); -@:this can't happen prefix}{\quad prefix@> -} -done: @<Insert a token saved by \.{\\afterassignment}, if any@>; -} - -@ @<Discard erroneous...@>= -{@+print_err("You can't use a prefix with `"); -@.You can't use a prefix with x@> -print_cmd_chr(cur_cmd, cur_chr);print_char('\''); -help1("I'll pretend you didn't say \\long or \\outer or \\global."); -if (eTeX_ex) help_line[0]=@| - "I'll pretend you didn't say \\long or \\outer or \\global or \\protected."; -back_error();return; -} - -@ @<Discard the prefixes...@>= -if (a >= 8) - {@+j=protected_token;a=a-8; - } -else j=0; -if ((cur_cmd!=def)&&((a%4!=0)||(j!=0))) - {@+print_err("You can't use `");print_esc("long");print("' or `"); - print_esc("outer"); - help1("I'll pretend you didn't say \\long or \\outer here."); - if (eTeX_ex) - {@+help_line[0]=@| - "I'll pretend you didn't say \\long or \\outer or \\protected here."; - print("' or `");print_esc("protected"); - } - print("' with `"); -@.You can't use \\long...@> - print_cmd_chr(cur_cmd, cur_chr);print_char('\''); - error(); - } - -@ The previous routine does not have to adjust |a| so that |a%4==0|, -since the following routines test for the \.{\\global} prefix as follows. - -@d global (a >= 4) -@d define(A, B, C) if (global) geq_define(A, B, C);@+else eq_define(A, B, C) -@d word_define(A, B) if (global) geq_word_define(A, B);@+else eq_word_define(A, B) - -@<Adjust \(f)for the setting of \.{\\globaldefs}@>= -if (global_defs!=0) - if (global_defs < 0) - {@+if (global) a=a-4; - } - else{@+if (!global) a=a+4; - } - -@ When a control sequence is to be defined, by \.{\\def} or \.{\\let} or -something similar, the |get_r_token| routine will substitute a special -control sequence for a token that is not redefinable. - -@<Declare subprocedures for |prefixed_command|@>= -static void get_r_token(void) -{@+ -restart: @/do@+{get_token(); -}@+ while (!(cur_tok!=space_token)); -if ((cur_cs==0)||(cur_cs > frozen_control_sequence)) - {@+print_err("Missing control sequence inserted"); -@.Missing control...@> - help5("Please don't say `\\def cs{...}', say `\\def\\cs{...}'.",@/ - "I've inserted an inaccessible control sequence so that your",@/ - "definition will be completed without mixing me up too badly.",@/ - "You can recover graciously from this error, if you're",@/ - "careful; see exercise 27.2 in The TeXbook."); -@:TeXbook}{\sl The \TeX book@> - if (cur_cs==0) back_input(); - cur_tok=cs_token_flag+frozen_protection;ins_error();goto restart; - } -} - -@ @<Initialize table entries...@>= -text(frozen_protection)=s_no("inaccessible"); -@.inaccessible@> - -@ Here's an example of the way many of the following routines operate. -(Unfortunately, they aren't all as simple as this.) - -@<Assignments@>= -case set_font: define(cur_font_loc, data, cur_chr);@+break; - -@ When a |def| command has been scanned, -|cur_chr| is odd if the definition is supposed to be global, and -|cur_chr >= 2| if the definition is supposed to be expanded. - -@<Assignments@>= -case def: {@+if (odd(cur_chr)&&!global&&(global_defs >= 0)) a=a+4; - e=(cur_chr >= 2);get_r_token();p=cur_cs; - q=scan_toks(true, e); - if (j!=0) - {@+q=get_avail();info(q)=j;link(q)=link(def_ref); - link(def_ref)=q; - } - define(p, call+(a%4), def_ref); - } @+break; - -@ Both \.{\\let} and \.{\\futurelet} share the command code |let|. - -@<Put each...@>= -primitive("let", let, normal);@/ -@!@:let\_}{\.{\\let} primitive@> -primitive("futurelet", let, normal+1);@/ -@!@:future\_let\_}{\.{\\futurelet} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case let: if (chr_code!=normal) print_esc("futurelet");@+else print_esc("let");@+break; - -@ @<Assignments@>= -case let: {@+n=cur_chr; - get_r_token();p=cur_cs; - if (n==normal) - {@+@/do@+{get_token(); - }@+ while (!(cur_cmd!=spacer)); - if (cur_tok==other_token+'=') - {@+get_token(); - if (cur_cmd==spacer) get_token(); - } - } - else{@+get_token();q=cur_tok;get_token();back_input(); - cur_tok=q;back_input(); /*look ahead, then back up*/ - } /*note that |back_input| doesn't affect |cur_cmd|, |cur_chr|*/ - if (cur_cmd >= call) add_token_ref(cur_chr); - else if ((cur_cmd==internal_register)||(cur_cmd==toks_register)) - if ((cur_chr < mem_bot)||(cur_chr > lo_mem_stat_max)) - add_sa_ref(cur_chr); - define(p, cur_cmd, cur_chr); - } @+break; - -@ A \.{\\chardef} creates a control sequence whose |cmd| is |char_given|; -a \.{\\mathchardef} creates a control sequence whose |cmd| is |math_given|; -and the corresponding |chr| is the character code or math code. A \.{\\countdef} -or \.{\\dimendef} or \.{\\skipdef} or \.{\\muskipdef} creates a control -sequence whose |cmd| is |assign_int| or \dots\ or |assign_mu_glue|, and the -corresponding |chr| is the |eqtb| location of the internal register in question. - -@d char_def_code 0 /*|shorthand_def| for \.{\\chardef}*/ -@d math_char_def_code 1 /*|shorthand_def| for \.{\\mathchardef}*/ -@d count_def_code 2 /*|shorthand_def| for \.{\\countdef}*/ -@d dimen_def_code 3 /*|shorthand_def| for \.{\\dimendef}*/ -@d skip_def_code 4 /*|shorthand_def| for \.{\\skipdef}*/ -@d mu_skip_def_code 5 /*|shorthand_def| for \.{\\muskipdef}*/ -@d toks_def_code 6 /*|shorthand_def| for \.{\\toksdef}*/ - -@<Put each...@>= -primitive("chardef", shorthand_def, char_def_code);@/ -@!@:char\_def\_}{\.{\\chardef} primitive@> -primitive("mathchardef", shorthand_def, math_char_def_code);@/ -@!@:math\_char\_def\_}{\.{\\mathchardef} primitive@> -primitive("countdef", shorthand_def, count_def_code);@/ -@!@:count\_def\_}{\.{\\countdef} primitive@> -primitive("dimendef", shorthand_def, dimen_def_code);@/ -@!@:dimen\_def\_}{\.{\\dimendef} primitive@> -primitive("skipdef", shorthand_def, skip_def_code);@/ -@!@:skip\_def\_}{\.{\\skipdef} primitive@> -primitive("muskipdef", shorthand_def, mu_skip_def_code);@/ -@!@:mu\_skip\_def\_}{\.{\\muskipdef} primitive@> -primitive("toksdef", shorthand_def, toks_def_code);@/ -@!@:toks\_def\_}{\.{\\toksdef} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case shorthand_def: switch (chr_code) { - case char_def_code: print_esc("chardef");@+break; - case math_char_def_code: print_esc("mathchardef");@+break; - case count_def_code: print_esc("countdef");@+break; - case dimen_def_code: print_esc("dimendef");@+break; - case skip_def_code: print_esc("skipdef");@+break; - case mu_skip_def_code: print_esc("muskipdef");@+break; - default:print_esc("toksdef"); - } @+break; -case char_given: {@+print_esc("char");print_hex(chr_code); - } @+break; -case math_given: {@+print_esc("mathchar");print_hex(chr_code); - } @+break; - -@ We temporarily define |p| to be |relax|, so that an occurrence of |p| -while scanning the definition will simply stop the scanning instead of -producing an ``undefined control sequence'' error or expanding the -previous meaning. This allows, for instance, `\.{\\chardef\\foo=123\\foo}'. - -@<Assignments@>= -case shorthand_def: {@+n=cur_chr;get_r_token();p=cur_cs;define(p, relax, 256); - scan_optional_equals(); - switch (n) { - case char_def_code: {@+scan_char_num();define(p, char_given, cur_val); - } @+break; - case math_char_def_code: {@+scan_fifteen_bit_int();define(p, math_given, cur_val); - } @+break; - default:{@+scan_register_num(); - if (cur_val > 255) - {@+j=n-count_def_code; /*|int_val dotdot box_val|*/ - if (j > mu_val) j=tok_val; /*|int_val dotdot mu_val| or |tok_val|*/ - find_sa_element(j, cur_val, true);add_sa_ref(cur_ptr); - if (j==tok_val) j=toks_register;@+else j=internal_register; - define(p, j, cur_ptr); - } - else - switch (n) { - case count_def_code: define(p, assign_int, count_base+cur_val);@+break; - case dimen_def_code: define(p, assign_dimen, scaled_base+cur_val);@+break; - case skip_def_code: define(p, assign_glue, skip_base+cur_val);@+break; - case mu_skip_def_code: define(p, assign_mu_glue, mu_skip_base+cur_val);@+break; - case toks_def_code: define(p, assign_toks, toks_base+cur_val); - } /*there are no other cases*/ - } - } - } @+break; - -@ @<Assignments@>= -case read_to_cs: {@+j=cur_chr;scan_int();n=cur_val; - if (!scan_keyword("to")) -@.to@> - {@+print_err("Missing `to' inserted"); -@.Missing `to'...@> - help2("You should have said `\\read<number> to \\cs'.",@/ - "I'm going to look for the \\cs now.");error(); - } - get_r_token(); - p=cur_cs;read_toks(n, p, j);define(p, call, cur_val); - } @+break; - -@ The token-list parameters, \.{\\output} and \.{\\everypar}, etc., receive -their values in the following way. (For safety's sake, we place an -enclosing pair of braces around an \.{\\output} list.) - -@<Assignments@>= -case toks_register: case assign_toks: {@+q=cur_cs; - e=false; /*just in case, will be set |true| for sparse array elements*/ - if (cur_cmd==toks_register) - if (cur_chr==mem_bot) - {@+scan_register_num(); - if (cur_val > 255) - {@+find_sa_element(tok_val, cur_val, true); - cur_chr=cur_ptr;e=true; - } - else cur_chr=toks_base+cur_val; - } - else e=true; - p=cur_chr; /*|p==every_par_loc| or |output_routine_loc| or \dots*/ - scan_optional_equals(); - @<Get the next non-blank non-relax non-call token@>; - if (cur_cmd!=left_brace) @<If the right-hand side is a token parameter or token -register, finish the assignment and |goto done|@>; - back_input();cur_cs=q;q=scan_toks(false, false); - if (link(def_ref)==null) /*empty list: revert to the default*/ - {@+sa_define(p, null, p, undefined_cs, null);free_avail(def_ref); - } - else{@+if ((p==output_routine_loc)&&!e) /*enclose in curlies*/ - {@+link(q)=get_avail();q=link(q); - info(q)=right_brace_token+'}'; - q=get_avail();info(q)=left_brace_token+'{'; - link(q)=link(def_ref);link(def_ref)=q; - } - sa_define(p, def_ref, p, call, def_ref); - } - } @+break; - -@ @<If the right-hand side is a token parameter...@>= -if ((cur_cmd==toks_register)||(cur_cmd==assign_toks)) - {@+if (cur_cmd==toks_register) - if (cur_chr==mem_bot) - {@+scan_register_num(); - if (cur_val < 256) q=equiv(toks_base+cur_val); - else{@+find_sa_element(tok_val, cur_val, false); - if (cur_ptr==null) q=null; - else q=sa_ptr(cur_ptr); - } - } - else q=sa_ptr(cur_chr); - else q=equiv(cur_chr); - if (q==null) sa_define(p, null, p, undefined_cs, null); - else{@+add_token_ref(q);sa_define(p, q, p, call, q); - } - goto done; - } - -@ Similar routines are used to assign values to the numeric parameters. - -@<Assignments@>= -case assign_int: {@+p=cur_chr;scan_optional_equals();scan_int(); - word_define(p, cur_val); - } @+break; -case assign_dimen: {@+p=cur_chr;scan_optional_equals(); - scan_normal_dimen;word_define(p, cur_val); - } @+break; -case assign_glue: case assign_mu_glue: {@+p=cur_chr;n=cur_cmd;scan_optional_equals(); - if (n==assign_mu_glue) scan_glue(mu_val);@+else scan_glue(glue_val); - trap_zero_glue(); - define(p, glue_ref, cur_val); - } @+break; - -@ When a glue register or parameter becomes zero, it will always point to -|zero_glue| because of the following procedure. (Exception: The tabskip -glue isn't trapped while preambles are being scanned.) - -@<Declare subprocedures for |prefixed_command|@>= -static void trap_zero_glue(void) -{@+if ((width(cur_val)==0)&&(stretch(cur_val)==0)&&(shrink(cur_val)==0)) - {@+add_glue_ref(zero_glue); - delete_glue_ref(cur_val);cur_val=zero_glue; - } -} - -@ The various character code tables are changed by the |def_code| commands, -and the font families are declared by |def_family|. - -@<Put each...@>= -primitive("catcode", def_code, cat_code_base); -@!@:cat\_code\_}{\.{\\catcode} primitive@> -primitive("mathcode", def_code, math_code_base); -@!@:math\_code\_}{\.{\\mathcode} primitive@> -primitive("lccode", def_code, lc_code_base); -@!@:lc\_code\_}{\.{\\lccode} primitive@> -primitive("uccode", def_code, uc_code_base); -@!@:uc\_code\_}{\.{\\uccode} primitive@> -primitive("sfcode", def_code, sf_code_base); -@!@:sf\_code\_}{\.{\\sfcode} primitive@> -primitive("delcode", def_code, del_code_base); -@!@:del\_code\_}{\.{\\delcode} primitive@> -primitive("textfont", def_family, math_font_base); -@!@:text\_font\_}{\.{\\textfont} primitive@> -primitive("scriptfont", def_family, math_font_base+script_size); -@!@:script\_font\_}{\.{\\scriptfont} primitive@> -primitive("scriptscriptfont", def_family, math_font_base+script_script_size); -@!@:script\_script\_font\_}{\.{\\scriptscriptfont} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case def_code: if (chr_code==cat_code_base) print_esc("catcode"); - else if (chr_code==math_code_base) print_esc("mathcode"); - else if (chr_code==lc_code_base) print_esc("lccode"); - else if (chr_code==uc_code_base) print_esc("uccode"); - else if (chr_code==sf_code_base) print_esc("sfcode"); - else print_esc("delcode");@+break; -case def_family: print_size(chr_code-math_font_base);@+break; - -@ The different types of code values have different legal ranges; the -following program is careful to check each case properly. - -@<Assignments@>= -case def_code: {@+@<Let |n| be the largest legal code value, based on |cur_chr|@>; - p=cur_chr;scan_char_num();p=p+cur_val;scan_optional_equals(); - scan_int(); - if (((cur_val < 0)&&(p < del_code_base))||(cur_val > n)) - {@+print_err("Invalid code (");print_int(cur_val); -@.Invalid code@> - if (p < del_code_base) print("), should be in the range 0.."); - else print("), should be at most "); - print_int(n); - help1("I'm going to use 0 instead of that illegal code value.");@/ - error();cur_val=0; - } - if (p < math_code_base) define(p, data, cur_val); - else if (p < del_code_base) define(p, data, hi(cur_val)); - else word_define(p, cur_val); - } @+break; - -@ @<Let |n| be the largest...@>= -if (cur_chr==cat_code_base) n=max_char_code; -else if (cur_chr==math_code_base) n=0100000; -else if (cur_chr==sf_code_base) n=077777; -else if (cur_chr==del_code_base) n=077777777; -else n=255 - -@ @<Assignments@>= -case def_family: {@+p=cur_chr;scan_four_bit_int();p=p+cur_val; - scan_optional_equals();scan_font_ident();define(p, data, cur_val); - } @+break; - -@ Next we consider changes to \TeX's numeric registers. - -@<Assignments@>= -case internal_register: case advance: case multiply: case divide: do_register_command(a);@+break; - -@ We use the fact that |internal_register < advance < multiply < divide|. - -@<Declare subprocedures for |prefixed_command|@>= -static void do_register_command(small_number @!a) -{@+ -pointer l, @!q, @!r, @!s; /*for list manipulation*/ -int @!p; /*type of register involved*/ -bool @!e; /*does |l| refer to a sparse array element?*/ -int @!w; /*integer or dimen value of |l|*/ -q=cur_cmd; -e=false; /*just in case, will be set |true| for sparse array elements*/ -@<Compute the register location |l| and its type |p|; but |return| if invalid@>; -if (q==internal_register) scan_optional_equals(); -else if (scan_keyword("by")) do_nothing; /*optional `\.{by}'*/ -@.by@> -arith_error=false; -if (q < multiply) @<Compute result of |register| or |advance|, put it in |cur_val|@>@; -else@<Compute result of |multiply| or |divide|, put it in |cur_val|@>; -if (arith_error) - {@+print_err("Arithmetic overflow"); -@.Arithmetic overflow@> - help2("I can't carry out that multiplication or division,",@/ - "since the result is out of range."); - if (p >= glue_val) delete_glue_ref(cur_val); - error();return; - } -if (p < glue_val) sa_word_define(l, cur_val); -else{@+trap_zero_glue();sa_define(l, cur_val, l, glue_ref, cur_val); - } -} - -@ Here we use the fact that the consecutive codes |int_val dotdot mu_val| and -|assign_int dotdot assign_mu_glue| correspond to each other nicely. - -@<Compute the register location |l| and its type |p|...@>= -{@+if (q!=internal_register) - {@+get_x_token(); - if ((cur_cmd >= assign_int)&&(cur_cmd <= assign_mu_glue)) - {@+l=cur_chr;p=cur_cmd-assign_int;goto found; - } - if (cur_cmd!=internal_register) - {@+print_err("You can't use `");print_cmd_chr(cur_cmd, cur_chr); -@.You can't use x after ...@> - print("' after ");print_cmd_chr(q, 0); - help1("I'm forgetting what you said and not changing anything."); - error();return; - } - } -if ((cur_chr < mem_bot)||(cur_chr > lo_mem_stat_max)) - {@+l=cur_chr;p=sa_type(l);e=true; - } -else{@+p=cur_chr-mem_bot;scan_register_num(); - if (cur_val > 255) - {@+find_sa_element(p, cur_val, true);l=cur_ptr;e=true; - } - else -switch (p) { -case int_val: l=cur_val+count_base;@+break; -case dimen_val: l=cur_val+scaled_base;@+break; -case glue_val: l=cur_val+skip_base;@+break; -case mu_val: l=cur_val+mu_skip_base; -} /*there are no other cases*/ - } -} -found: if (p < glue_val) @+if (e) w=sa_int(l);@+else w=eqtb[l].i; -else if (e) s=sa_ptr(l);@+else s=equiv(l) - -@ @<Compute result of |register| or |advance|...@>= -if (p < glue_val) - {@+if (p==int_val) scan_int();@+else scan_normal_dimen; - if (q==advance) - { cur_val=cur_val+w; - if (!e && l>=dimen_base) - { cur_hfactor+=hfactor_eqtb[l].sc; - cur_vfactor+=vfactor_eqtb[l].sc; - } - } - } -else{@+scan_glue(p); - if (q==advance) @<Compute the sum of two glue specs@>; - } - -@ @<Compute the sum of two glue specs@>= -{@+q=new_spec(cur_val);r=s; -delete_glue_ref(cur_val); -width(q)=width(q)+width(r); -if (stretch(q)==0) stretch_order(q)=normal; -if (stretch_order(q)==stretch_order(r)) stretch(q)=stretch(q)+stretch(r); -else if ((stretch_order(q) < stretch_order(r))&&(stretch(r)!=0)) - {@+stretch(q)=stretch(r);stretch_order(q)=stretch_order(r); - } -if (shrink(q)==0) shrink_order(q)=normal; -if (shrink_order(q)==shrink_order(r)) shrink(q)=shrink(q)+shrink(r); -else if ((shrink_order(q) < shrink_order(r))&&(shrink(r)!=0)) - {@+shrink(q)=shrink(r);shrink_order(q)=shrink_order(r); - } -cur_val=q; -} - -@ @<Compute result of |multiply| or |divide|...@>= -{@+scan_int(); -if (p < glue_val) - if (q==multiply) - if (p==int_val) cur_val=mult_integers(w, cur_val); - else cur_val=nx_plus_y(w, cur_val, 0); - else cur_val=x_over_n(w, cur_val); -else{@+r=new_spec(s); - if (q==multiply) - {@+width(r)=nx_plus_y(width(s), cur_val, 0); - stretch(r)=nx_plus_y(stretch(s), cur_val, 0); - shrink(r)=nx_plus_y(shrink(s), cur_val, 0); - } - else{@+width(r)=x_over_n(width(s), cur_val); - stretch(r)=x_over_n(stretch(s), cur_val); - shrink(r)=x_over_n(shrink(s), cur_val); - } - cur_val=r; - } -} - -@ The processing of boxes is somewhat different, because we may need -to scan and create an entire box before we actually change the value of the old -one. - -@<Assignments@>= -case set_box: {@+scan_register_num(); - if (global) n=global_box_flag+cur_val;@+else n=box_flag+cur_val; - scan_optional_equals(); - if (set_box_allowed) scan_box(n); - else{@+print_err("Improper ");print_esc("setbox"); -@.Improper \\setbox@> - help2("Sorry, \\setbox is not allowed after \\halign in a display,",@/ - "or between \\accent and an accented character.");error(); - } - } @+break; - -@ The |space_factor| or |prev_depth| settings are changed when a |set_aux| -command is sensed. Similarly, |prev_graf| is changed in the presence of -|set_prev_graf|, and |dead_cycles| or |insert_penalties| in the presence of -|set_page_int|. These definitions are always global. - -When some dimension of a box register is changed, the change isn't exactly -global; but \TeX\ does not look at the \.{\\global} switch. - -@<Assignments@>= -case set_aux: alter_aux();@+break; -case set_prev_graf: alter_prev_graf();@+break; -case set_page_dimen: alter_page_so_far();@+break; -case set_page_int: alter_integer();@+break; -case set_box_dimen: alter_box_dimen();@+break; - -@ @<Declare subprocedures for |prefixed_command|@>= -static void alter_aux(void) -{@+halfword c; /*|hmode| or |vmode|*/ -if (cur_chr!=abs(mode)) report_illegal_case(); -else{@+c=cur_chr;scan_optional_equals(); - if (c==vmode) - {@+scan_normal_dimen;prev_depth=cur_val; - } - else{@+scan_int(); - if ((cur_val <= 0)||(cur_val > 32767)) - {@+print_err("Bad space factor"); -@.Bad space factor@> - help1("I allow only values in the range 1..32767 here."); - int_error(cur_val); - } - else space_factor=cur_val; - } - } -} - -@ @<Declare subprocedures for |prefixed_command|@>= -static void alter_prev_graf(void) -{@+int p; /*index into |nest|*/ -nest[nest_ptr]=cur_list;p=nest_ptr; -while (abs(nest[p].mode_field)!=vmode) decr(p); -scan_optional_equals();scan_int(); -if (cur_val < 0) - {@+print_err("Bad ");print_esc("prevgraf"); -@.Bad \\prevgraf@> - help1("I allow only nonnegative values here."); - int_error(cur_val); - } -else{@+nest[p].pg_field=cur_val;cur_list=nest[nest_ptr]; - } -} - -@ @<Declare subprocedures for |prefixed_command|@>= -static void alter_page_so_far(void) -{@+int c; /*index into |page_so_far|*/ -c=cur_chr;scan_optional_equals();scan_normal_dimen; -page_so_far[c]=cur_val; -} - -@ @<Declare subprocedures for |prefixed_command|@>= -static void alter_integer(void) -{@+small_number c; - /*0 for \.{\\deadcycles}, 1 for \.{\\insertpenalties}, etc.*/ -c=cur_chr;scan_optional_equals();scan_int(); -if (c==0) dead_cycles=cur_val -@/@<Cases for |alter_integer|@>@;@/ -else insert_penalties=cur_val; -} - -@ @<Declare subprocedures for |prefixed_command|@>= -static void alter_box_dimen(void) -{@+small_number c; /*|width_offset| or |height_offset| or |depth_offset|*/ -pointer @!b; /*box register*/ -c=cur_chr;scan_register_num();fetch_box(b);scan_optional_equals(); -scan_normal_dimen; -if (b!=null) mem[b+c].sc=cur_val; -} - -@ Paragraph shapes are set up in the obvious way. - -@<Assignments@>= -case set_shape: {@+q=cur_chr;scan_optional_equals();scan_int();n=cur_val; - if (n <= 0) p=null; - else if (q > par_shape_loc) - {@+n=(cur_val/2)+1;p=get_node(2*n+1);info(p)=n; - n=cur_val;mem[p+1].i=n; /*number of penalties*/ - for (j=p+2; j<=p+n+1; j++) - {@+scan_int();mem[j].i=cur_val; /*penalty values*/ - } - if (!odd(n)) mem[p+n+2].i=0; /*unused*/ - } - else{@+ - scaled fh=0, fv=0; - p=get_node(2*n+1);info(p)=n; - for (j=1; j<=n; j++) - {@+scan_normal_dimen; - mem[p+2*j-1].sc=cur_val; /*indentation*/ - scan_normal_dimen; - if (j==1) {fh=cur_hfactor; fv=cur_vfactor;} - mem[p+2*j].sc=cur_val; /*width*/ - } - cur_hfactor=fh; cur_vfactor=fv; - } - define(q, shape_ref, p); - } @+break; - -@ Here's something that isn't quite so obvious. It guarantees that -|info(par_shape_ptr)| can hold any positive~|n| for which |get_node(2*n+1)| -doesn't overflow the memory capacity. - -@<Check the ``constant''...@>= -if (2*max_halfword < mem_top-mem_min) bad=41; - -@ New hyphenation data is loaded by the |hyph_data| command. - -@<Put each...@>= -primitive("hyphenation", hyph_data, 0); -@!@:hyphenation\_}{\.{\\hyphenation} primitive@> -primitive("patterns", hyph_data, 1); -@!@:patterns\_}{\.{\\patterns} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case hyph_data: if (chr_code==1) print_esc("patterns"); - else print_esc("hyphenation");@+break; - -@ @<Assignments@>= -case hyph_data: if (cur_chr==1) - { -#ifdef @!INIT -new_patterns();goto done;@; -#endif - print_err("Patterns can be loaded only by INITEX"); -@.Patterns can be...@> - help0;error(); - @/do@+{get_token();}@+ while (!(cur_cmd==right_brace)); /*flush the patterns*/ - return; - } - else{@+new_hyph_exceptions();goto done; - } @+break; - -@ All of \TeX's parameters are kept in |eqtb| except the font information, -the interaction mode, and the hyphenation tables; these are strictly global. - -@<Assignments@>= -case assign_font_dimen: {@+find_font_dimen(true);k=cur_val; - scan_optional_equals();scan_normal_dimen;font_info[k].sc=cur_val; - } @+break; -case assign_font_int: {@+n=cur_chr;scan_font_ident();f=cur_val; - scan_optional_equals();scan_int(); - if (n==0) hyphen_char[f]=cur_val;@+else skew_char[f]=cur_val; - } @+break; - -@ @<Put each...@>= -primitive("hyphenchar", assign_font_int, 0); -@!@:hyphen\_char\_}{\.{\\hyphenchar} primitive@> -primitive("skewchar", assign_font_int, 1); -@!@:skew\_char\_}{\.{\\skewchar} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case assign_font_int: if (chr_code==0) print_esc("hyphenchar"); - else print_esc("skewchar");@+break; - -@ Here is where the information for a new font gets loaded. - -@<Assignments@>= -case def_font: new_font(a);@+break; - -@ @<Declare subprocedures for |prefixed_command|@>= -static void new_font(small_number @!a) -{@+ -pointer u; /*user's font identifier*/ -scaled @!s; /*stated ``at'' size, or negative of scaled magnification*/ -int @!f; /*runs through existing fonts*/ -str_number @!t; /*name for the frozen font identifier*/ -int @!old_setting; /*holds |selector| setting*/ -str_number @!flushable_string; /*string not yet referenced*/ -if (job_name==0) open_log_file(); - /*avoid confusing \.{texput} with the font name*/ -@.texput@> -get_r_token();u=cur_cs; -if (u >= hash_base) t=text(u); -else if (u >= single_base) - if (u==null_cs) t=s_no("FONT");@+else t=u-single_base; -else{@+old_setting=selector;selector=new_string; - print("FONT");printn(u-active_base);selector=old_setting; -@.FONTx@> - str_room(1);t=make_string(); - } -define(u, set_font, null_font);scan_optional_equals();scan_file_name(); -@<Scan the font size specification@>; -@<If this font has already been loaded, set |f| to the internal font number and |goto -common_ending|@>; -f=read_font_info(u, cur_name, cur_area, s); -common_ending: define(u, set_font, f);eqtb[font_id_base+f]=eqtb[u];font_id_text(f)=t; -} - -@ @<Scan the font size specification@>= -name_in_progress=true; /*this keeps |cur_name| from being changed*/ -if (scan_keyword("at")) @<Put the \(p)(positive) `at' size into |s|@>@; -@.at@> -else if (scan_keyword("scaled")) -@.scaled@> - {@+scan_int();s=-cur_val; - if ((cur_val <= 0)||(cur_val > 32768)) - {@+print_err("Illegal magnification has been changed to 1000");@/ -@.Illegal magnification...@> - help1("The magnification ratio must be between 1 and 32768."); - int_error(cur_val);s=-1000; - } - } -else s=-1000; -name_in_progress=false - -@ @<Put the \(p)(positive) `at' size into |s|@>= -{@+scan_normal_dimen;s=cur_val; -if ((s <= 0)||(s >= 01000000000)) - {@+print_err("Improper `at' size ("); - print_scaled(s);print("pt), replaced by 10pt"); -@.Improper `at' size...@> - help2("I can only handle fonts at positive sizes that are",@/ - "less than 2048pt, so I've changed what you said to 10pt."); - error();s=10*unity; - } -} - -@ When the user gives a new identifier to a font that was previously loaded, -the new name becomes the font identifier of record. Font names `\.{xyz}' and -`\.{XYZ}' are considered to be different. - -@<If this font has already been loaded...@>= -flushable_string=str_ptr-1; -for (f=font_base+1; f<=font_ptr; f++) - if (strn_eq_str(font_name[f], cur_name)&&str_eq_str(font_area[f], cur_area)) - {@+if (cur_name==flushable_string) - {@+flush_string;cur_name=font_name[f]; - } - if (s > 0) - {@+if (s==font_size[f]) goto common_ending; - } - else if (font_size[f]==xn_over_d(font_dsize[f],-s, 1000)) - goto common_ending; - } - -@ @<Cases of |print_cmd_chr|...@>= -case set_font: {@+print("select font ");slow_print(font_name[chr_code]); - if (font_size[chr_code]!=font_dsize[chr_code]) - {@+print(" at ");print_scaled(font_size[chr_code]); - print("pt"); - } - } @+break; - -@ @<Put each...@>= -primitive("batchmode", set_interaction, batch_mode); -@!@:batch\_mode\_}{\.{\\batchmode} primitive@> -primitive("nonstopmode", set_interaction, nonstop_mode); -@!@:nonstop\_mode\_}{\.{\\nonstopmode} primitive@> -primitive("scrollmode", set_interaction, scroll_mode); -@!@:scroll\_mode\_}{\.{\\scrollmode} primitive@> -primitive("errorstopmode", set_interaction, error_stop_mode); -@!@:error\_stop\_mode\_}{\.{\\errorstopmode} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case set_interaction: switch (chr_code) { - case batch_mode: print_esc("batchmode");@+break; - case nonstop_mode: print_esc("nonstopmode");@+break; - case scroll_mode: print_esc("scrollmode");@+break; - default:print_esc("errorstopmode"); - } @+break; - -@ @<Assignments@>= -case set_interaction: new_interaction();@+break; - -@ @<Declare subprocedures for |prefixed_command|@>= -static void new_interaction(void) -{@+print_ln(); -interaction=cur_chr; -@<Initialize the print |selector| based on |interaction|@>; -if (log_opened) selector=selector+2; -} - -@ The \.{\\afterassignment} command puts a token into the global -variable |after_token|. This global variable is examined just after -every assignment has been performed. - -@<Glob...@>= -static halfword @!after_token; /*zero, or a saved token*/ - -@ @<Set init...@>= -after_token=0; - -@ @<Cases of |main_control| that don't...@>= -any_mode(after_assignment): {@+get_token();after_token=cur_tok; - } @+break; - -@ @<Insert a token saved by \.{\\afterassignment}, if any@>= -if (after_token!=0) - {@+cur_tok=after_token;back_input();after_token=0; - } - -@ Here is a procedure that might be called `Get the next non-blank non-relax -non-call non-assignment token'. - -@<Declare act...@>= -static void do_assignments(void) -{@+ -loop{@+@<Get the next non-blank non-relax...@>; - if (cur_cmd <= max_non_prefixed_command) return; - set_box_allowed=false;prefixed_command();set_box_allowed=true; - } -} - -@ @<Cases of |main_control| that don't...@>= -any_mode(after_group): {@+get_token();save_for_after(cur_tok); - } @+break; - -@ Files for \.{\\read} are opened and closed by the |in_stream| command. - -@<Put each...@>= -primitive("openin", in_stream, 1); -@!@:open\_in\_}{\.{\\openin} primitive@> -primitive("closein", in_stream, 0); -@!@:close\_in\_}{\.{\\closein} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case in_stream: if (chr_code==0) print_esc("closein"); - else print_esc("openin");@+break; - -@ @<Cases of |main_control| that don't...@>= -any_mode(in_stream): open_or_close_in();@+break; - -@ @<Declare act...@>= -static void open_or_close_in(void) -{@+int c; /*1 for \.{\\openin}, 0 for \.{\\closein}*/ -int @!n; /*stream number*/ -c=cur_chr;scan_four_bit_int();n=cur_val; -if (read_open[n]!=closed) - {@+a_close(&read_file[n]);read_open[n]=closed; - } -if (c!=0) - {@+scan_optional_equals();scan_file_name(); - if (cur_ext[0]==0) cur_ext=".tex"; - pack_cur_name; - if (a_open_in(&read_file[n])) read_open[n]=just_open; - } -} - -@ The user can issue messages to the terminal, regardless of the -current mode. - -@<Cases of |main_control| that don't...@>= -any_mode(message): issue_message();@+break; - -@ @<Put each...@>= -primitive("message", message, 0); -@!@:message\_}{\.{\\message} primitive@> -primitive("errmessage", message, 1); -@!@:err\_message\_}{\.{\\errmessage} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case message: if (chr_code==0) print_esc("message"); - else print_esc("errmessage");@+break; - -@ @<Declare act...@>= -static void issue_message(void) -{@+int old_setting; /*holds |selector| setting*/ -int @!c; /*identifies \.{\\message} and \.{\\errmessage}*/ -str_number @!s; /*the message*/ -c=cur_chr;link(garbage)=scan_toks(false, true); -old_setting=selector;selector=new_string; -token_show(def_ref);selector=old_setting; -flush_list(def_ref); -str_room(1);s=make_string(); -if (c==0) @<Print string |s| on the terminal@>@; -else@<Print string |s| as an error message@>; -flush_string; -} - -@ @<Print string |s| on the terminal@>= -{@+if (term_offset+length(s) > max_print_line-2) print_ln(); -else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); -slow_print(s);update_terminal; -} - -@ If \.{\\errmessage} occurs often in |scroll_mode|, without user-defined -\.{\\errhelp}, we don't want to give a long help message each time. So we -give a verbose explanation only once. - -@<Glob...@>= -static bool @!long_help_seen; /*has the long \.{\\errmessage} help been used?*/ - -@ @<Set init...@>=long_help_seen=false; - -@ @<Print string |s| as an error message@>= -{@+print_err("");slow_print(s); -if (err_help!=null) use_err_help=true; -else if (long_help_seen) help1("(That was another \\errmessage.)")@; -else{@+if (interaction < error_stop_mode) long_help_seen=true; - help4("This error message was generated by an \\errmessage",@/ - "command, so I can't give any explicit help.",@/ - "Pretend that you're Hercule Poirot: Examine all clues,",@/ -@^Poirot, Hercule@> - "and deduce the truth by order and method."); - } -error();use_err_help=false; -} - -@ The |error| routine calls on |give_err_help| if help is requested from -the |err_help| parameter. - -@p static void give_err_help(void) -{@+token_show(err_help); -} - -@ The \.{\\uppercase} and \.{\\lowercase} commands are implemented by -building a token list and then changing the cases of the letters in it. - -@<Cases of |main_control| that don't...@>= -any_mode(case_shift): shift_case();@+break; - -@ @<Put each...@>= -primitive("lowercase", case_shift, lc_code_base); -@!@:lowercase\_}{\.{\\lowercase} primitive@> -primitive("uppercase", case_shift, uc_code_base); -@!@:uppercase\_}{\.{\\uppercase} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case case_shift: if (chr_code==lc_code_base) print_esc("lowercase"); - else print_esc("uppercase");@+break; - -@ @<Declare act...@>= -static void shift_case(void) -{@+pointer b; /*|lc_code_base| or |uc_code_base|*/ -pointer @!p; /*runs through the token list*/ -halfword @!t; /*token*/ -eight_bits @!c; /*character code*/ -b=cur_chr;p=scan_toks(false, false);p=link(def_ref); -while (p!=null) - {@+@<Change the case of the token in |p|, if a change is appropriate@>; - p=link(p); - } -back_list(link(def_ref));free_avail(def_ref); /*omit reference count*/ -} - -@ When the case of a |chr_code| changes, we don't change the |cmd|. -We also change active characters, using the fact that -|cs_token_flag+active_base| is a multiple of~256. -@^data structure assumptions@> - -@<Change the case of the token in |p|, if a change is appropriate@>= -t=info(p); -if (t < cs_token_flag+single_base) - {@+c=t%256; - if (equiv(b+c)!=0) info(p)=t-c+equiv(b+c); - } - -@ We come finally to the last pieces missing from |main_control|, namely the -`\.{\\show}' commands that are useful when debugging. - -@<Cases of |main_control| that don't...@>= -any_mode(xray): show_whatever();@+break; - -@ @d show_code 0 /* \.{\\show} */ -@d show_box_code 1 /* \.{\\showbox} */ -@d show_the_code 2 /* \.{\\showthe} */ -@d show_lists_code 3 /* \.{\\showlists} */ - -@<Put each...@>= -primitive("show", xray, show_code); -@!@:show\_}{\.{\\show} primitive@> -primitive("showbox", xray, show_box_code); -@!@:show\_box\_}{\.{\\showbox} primitive@> -primitive("showthe", xray, show_the_code); -@!@:show\_the\_}{\.{\\showthe} primitive@> -primitive("showlists", xray, show_lists_code); -@!@:show\_lists\_code\_}{\.{\\showlists} primitive@> - -@ @<Cases of |print_cmd_chr|...@>= -case xray: switch (chr_code) { - case show_box_code: print_esc("showbox");@+break; - case show_the_code: print_esc("showthe");@+break; - case show_lists_code: print_esc("showlists");@+break; - @<Cases of |xray| for |print_cmd_chr|@>@;@/ - default:print_esc("show"); - } @+break; - -@ @<Declare act...@>= -static void show_whatever(void) -{@+ -pointer p; /*tail of a token list to show*/ -small_number @!t; /*type of conditional being shown*/ -int @!m; /*upper bound on |fi_or_else| codes*/ -int @!l; /*line where that conditional began*/ -int @!n; /*level of \.{\\if...\\fi} nesting*/ -switch (cur_chr) { -case show_lists_code: {@+begin_diagnostic();show_activities(); - } @+break; -case show_box_code: @<Show the current contents of a box@>@;@+break; -case show_code: @<Show the current meaning of a token, then |goto common_ending|@>@; -@<Cases for |show_whatever|@>@;@/ -default:@<Show the current value of some parameter or register, then |goto common_ending|@>@; -} @/ -@<Complete a potentially long \.{\\show} command@>; -common_ending: if (interaction < error_stop_mode) - {@+help0;decr(error_count); - } -else if (tracing_online > 0) - {@+@t@>@;@/ - help3("This isn't an error message; I'm just \\showing something.",@/ - "Type `I\\show...' to show more (e.g., \\show\\cs,",@/ - "\\showthe\\count10, \\showbox255, \\showlists)."); - } -else{@+@t@>@;@/ - help5("This isn't an error message; I'm just \\showing something.",@/ - "Type `I\\show...' to show more (e.g., \\show\\cs,",@/ - "\\showthe\\count10, \\showbox255, \\showlists).",@/ - "And type `I\\tracingonline=1\\show...' to show boxes and",@/ - "lists on your terminal as well as in the transcript file."); - } -error(); -} - -@ @<Show the current meaning of a token...@>= -{@+get_token(); -if (interaction==error_stop_mode) wake_up_terminal; -print_nl("> "); -if (cur_cs!=0) - {@+sprint_cs(cur_cs);print_char('='); - } -print_meaning();goto common_ending; -} - -@ @<Cases of |print_cmd_chr|...@>= -case undefined_cs: print("undefined");@+break; -case call: case long_call: case outer_call: case long_outer_call: {@+n=cmd-call; - if (info(link(chr_code))==protected_token) n=n+4; - if (odd(n/4)) print_esc("protected"); - if (odd(n)) print_esc("long"); - if (odd(n/2)) print_esc("outer"); - if (n > 0) print_char(' '); - print("macro"); - } @+break; -case end_template: print_esc("outer endtemplate");@+break; - -@ @<Show the current contents of a box@>= -{@+scan_register_num();fetch_box(p);begin_diagnostic(); -print_nl("> \\box");print_int(cur_val);print_char('='); -if (p==null) print("void");@+else show_box(p); -} - -@ @<Show the current value of some parameter...@>= -{@+the_toks(); -if (interaction==error_stop_mode) wake_up_terminal; -print_nl("> ");token_show(temp_head); -flush_list(link(temp_head));goto common_ending; -} - -@ @<Complete a potentially long \.{\\show} command@>= -end_diagnostic(true);print_err("OK"); -@.OK@> -if (selector==term_and_log) if (tracing_online <= 0) - {@+selector=term_only;print(" (see the transcript file)"); - selector=term_and_log; - } - -@* Dumping and undumping the tables. -After \.{INITEX} has seen a collection of fonts and macros, it -can write all the necessary information on an auxiliary file so -that production versions of \TeX\ are able to initialize their -memory at high speed. The present section of the program takes -care of such output and input. We shall consider simultaneously -the processes of storing and restoring, -so that the inverse relation between them is clear. -@.INITEX@> - -The global variable |format_ident| is a string that is printed right -after the |banner| line when \TeX\ is ready to start. For \.{INITEX} this -string says simply `\.{ (INITEX)}'; for other versions of \TeX\ it says, -for example, `\.{ (preloaded format=plain 1982.11.19)}', showing the year, -month, and day that the format file was created. We have |format_ident==0| -before \TeX's tables are loaded. - -@<Glob...@>= -static str_number @!format_ident; - -@ @<Set init...@>= -format_ident=0; - -@ @<Initialize table entries...@>= -format_ident=s_no(" (INITEX)"); - -@ @<Declare act...@>= -#ifdef @!INIT -static void store_fmt_file(void) -{@+ -int j, @!k, @!l; /*all-purpose indices*/ -int @!p, @!q; /*all-purpose pointers*/ -int @!x; /*something to dump*/ -four_quarters @!w; /*four ASCII codes*/ -@<If dumping is not allowed, abort@>; -@<Create the |format_ident|, open the format file, and inform the user that dumping -has begun@>; -eqtb[dimen_base+hsize_code].i=hhsize; -eqtb[dimen_base+vsize_code].i=hvsize; -@<Dump constants for consistency check@>; -@<Dump the string pool@>; -@<Dump the dynamic memory@>; -@<Dump the table of equivalents@>; -@<Dump the font information@>; -@<Dump the hyphenation tables@>; -@<Dump a couple more things and the closing check word@>; -@<Close the format file@>; -eqtb[dimen_base+hsize_code].i=0; -eqtb[dimen_base+vsize_code].i=0; -} -#endif - -@ Corresponding to the procedure that dumps a format file, we have a function -that reads one in. The function returns |false| if the dumped format is -incompatible with the present \TeX\ table sizes, etc. - -@d too_small(X) {@+wake_up_terminal; - wterm_ln("---! Must increase the %s", X); -@.Must increase the x@> - goto bad_fmt; - } - -@p @t\4@>@<Declare the function called |open_fmt_file|@>@; -static bool load_fmt_file(void) -{@+ -int j, @!k; /*all-purpose indices*/ -int @!p, @!q; /*all-purpose pointers*/ -int @!x; /*something undumped*/ -four_quarters @!w; /*four ASCII codes*/ -@<Undump constants for consistency check@>; -@<Undump the string pool@>; -@<Undump the dynamic memory@>; -@<Undump the table of equivalents@>; -@<Undump the font information@>; -@<Undump the hyphenation tables@>; -@<Undump a couple more things and the closing check word@>; -return true; /*it worked!*/ -bad_fmt: wake_up_terminal; - wterm_ln("(Fatal format file error; I'm stymied)"); -@.Fatal format file error@> -return false; -} - -@ The user is not allowed to dump a format file unless |save_ptr==0|. -This condition implies that |cur_level==level_one|, hence -the |xeq_level| array is constant and it need not be dumped. - -@<If dumping is not allowed, abort@>= -if (save_ptr!=0) - {@+print_err("You can't dump inside a group"); -@.You can't dump...@> - help1("`{...\\dump}' is a no-no.");succumb; - } - -@ Format files consist of |memory_word| items, and we use the following -macros to dump words of different types: - -@d dump_wd(A) {@+fmt_file.d=A;put(fmt_file);@+} -@d dump_int(A) {@+fmt_file.d.i=A;put(fmt_file);@+} -@d dump_hh(A) {@+fmt_file.d.hh=A;put(fmt_file);@+} -@d dump_qqqq(A) {@+fmt_file.d.qqqq=A;put(fmt_file);@+} - -@<Glob...@>= -static word_file @!fmt_file; /*for input or output of format information*/ - -@ The inverse macros are slightly more complicated, since we need to check -the range of the values we are reading in. We say `|undump(a)(b)(x)|' to -read an integer value |x| that is supposed to be in the range |a <= x <= b|. -System error messages should be suppressed when undumping. -@^system dependencies@> - -@d undump_wd(A) {@+get(fmt_file);A=fmt_file.d;@+} -@d undump_int(A) {@+get(fmt_file);A=fmt_file.d.i;@+} -@d undump_hh(A) {@+get(fmt_file);A=fmt_file.d.hh;@+} -@d undump_qqqq(A) {@+get(fmt_file);A=fmt_file.d.qqqq;@+} -@d undump(A, B, C) {@+undump_int(x);if ((x < A)||(x > B)) goto bad_fmt;@+else C=x;@+} -@d undump_size(A, B, C, D) {@+undump_int(x); - if (x < A) goto bad_fmt;if (x > B) too_small(C)@;@+else D=x;@+} - -@ The next few sections of the program should make it clear how we use the -dump/undump macros. - -@<Dump constants for consistency check@>= -dump_int(0);@/ -@<Dump the \eTeX\ state@>@/ -dump_int(mem_bot);@/ -dump_int(mem_top);@/ -dump_int(eqtb_size);@/ -dump_int(hash_prime);@/ -dump_int(hyph_size) - -@ Sections of a \.{WEB} program that are ``commented out'' still contribute -strings to the string pool; therefore \.{INITEX} and \TeX\ will have -the same strings. (And it is, of course, a good thing that they do.) -@.WEB@> -@^string pool@> - -@<Undump constants for consistency check@>= -x=fmt_file.d.i; -if (x!=0) goto bad_fmt; /*check that strings are the same*/ -@/@<Undump the \eTeX\ state@>@/ -undump_int(x); -if (x!=mem_bot) goto bad_fmt; -undump_int(x); -if (x!=mem_top) goto bad_fmt; -undump_int(x); -if (x!=eqtb_size) goto bad_fmt; -undump_int(x); -if (x!=hash_prime) goto bad_fmt; -undump_int(x); -if (x!=hyph_size) goto bad_fmt - -@ @d dump_four_ASCII - w.b0=qi(so(str_pool[k]));w.b1=qi(so(str_pool[k+1])); - w.b2=qi(so(str_pool[k+2]));w.b3=qi(so(str_pool[k+3])); - dump_qqqq(w) - -@<Dump the string pool@>= -dump_int(pool_ptr); -dump_int(str_ptr); -for (k=0; k<=str_ptr; k++) dump_int(str_start[k]); -k=0; -while (k+4 < pool_ptr) - {@+dump_four_ASCII;k=k+4; - } -k=pool_ptr-4;dump_four_ASCII; -print_ln();print_int(str_ptr);print(" strings of total length "); -print_int(pool_ptr) - -@ @d undump_four_ASCII - undump_qqqq(w); - str_pool[k]=si(qo(w.b0));str_pool[k+1]=si(qo(w.b1)); - str_pool[k+2]=si(qo(w.b2));str_pool[k+3]=si(qo(w.b3)) - -@<Undump the string pool@>= -undump_size(0, pool_size,"string pool size", pool_ptr); -undump_size(0, max_strings,"max strings", str_ptr); -for (k=0; k<=str_ptr; k++) undump(0, pool_ptr, str_start[k]); -k=0; -while (k+4 < pool_ptr) - {@+undump_four_ASCII;k=k+4; - } -k=pool_ptr-4;undump_four_ASCII; -init_str_ptr=str_ptr;init_pool_ptr=pool_ptr - -@ By sorting the list of available spaces in the variable-size portion of -|mem|, we are usually able to get by without having to dump very much -of the dynamic memory. - -We recompute |var_used| and |dyn_used|, so that \.{INITEX} dumps valid -information even when it has not been gathering statistics. - -@<Dump the dynamic memory@>= -sort_avail();var_used=0; -dump_int(lo_mem_max);dump_int(rover); -if (eTeX_ex) for (k=int_val; k<=tok_val; k++) dump_int(sa_root[k]); -p=mem_bot;q=rover;x=0; -@/do@+{for (k=p; k<=q+1; k++) dump_wd(mem[k]); -x=x+q+2-p;var_used=var_used+q-p; -p=q+node_size(q);q=rlink(q); -}@+ while (!(q==rover)); -var_used=var_used+lo_mem_max-p;dyn_used=mem_end+1-hi_mem_min;@/ -for (k=p; k<=lo_mem_max; k++) dump_wd(mem[k]); -x=x+lo_mem_max+1-p; -dump_int(hi_mem_min);dump_int(avail); -for (k=hi_mem_min; k<=mem_end; k++) dump_wd(mem[k]); -x=x+mem_end+1-hi_mem_min; -p=avail; -while (p!=null) - {@+decr(dyn_used);p=link(p); - } -dump_int(var_used);dump_int(dyn_used); -print_ln();print_int(x); -print(" memory locations dumped; current usage is "); -print_int(var_used);print_char('&');print_int(dyn_used) - -@ @<Undump the dynamic memory@>= -undump(lo_mem_stat_max+1000, hi_mem_stat_min-1, lo_mem_max); -undump(lo_mem_stat_max+1, lo_mem_max, rover); -if (eTeX_ex) for (k=int_val; k<=tok_val; k++) - undump(null, lo_mem_max, sa_root[k]); -p=mem_bot;q=rover; -@/do@+{for (k=p; k<=q+1; k++) undump_wd(mem[k]); -p=q+node_size(q); -if ((p > lo_mem_max)||((q >= rlink(q))&&(rlink(q)!=rover))) goto bad_fmt; -q=rlink(q); -}@+ while (!(q==rover)); -for (k=p; k<=lo_mem_max; k++) undump_wd(mem[k]); -if (mem_min < mem_bot-2) /*make more low memory available*/ - {@+p=llink(rover);q=mem_min+1; - link(mem_min)=null;info(mem_min)=null; /*we don't use the bottom word*/ - rlink(p)=q;llink(rover)=q;@/ - rlink(q)=rover;llink(q)=p;link(q)=empty_flag; - node_size(q)=mem_bot-q; - } -undump(lo_mem_max+1, hi_mem_stat_min, hi_mem_min); -undump(null, mem_top, avail);mem_end=mem_top; -for (k=hi_mem_min; k<=mem_end; k++) undump_wd(mem[k]); -undump_int(var_used);undump_int(dyn_used) - -@ @<Dump the table of equivalents@>= -@<Dump regions 1 to 4 of |eqtb|@>; -@<Dump regions 5 and 6 of |eqtb|@>; -dump_int(par_loc);dump_int(write_loc);@/ -@<Dump the hash table@>@; - -@ @<Undump the table of equivalents@>= -@<Undump regions 1 to 6 of |eqtb|@>; -undump(hash_base, frozen_control_sequence, par_loc); -par_token=cs_token_flag+par_loc;@/ -undump(hash_base, frozen_control_sequence, write_loc);@/ -@<Undump the hash table@>@; - -@ The table of equivalents usually contains repeated information, so we dump it -in compressed form: The sequence of $n+2$ values $(n,x_1,\ldots,x_n,m)$ in the -format file represents $n+m$ consecutive entries of |eqtb|, with |m| extra -copies of $x_n$, namely $(x_1,\ldots,x_n,x_n,\ldots,x_n)$. - -@<Dump regions 1 to 4 of |eqtb|@>= -k=active_base; -@/do@+{j=k; -while (j < int_base-1) - {@+if ((equiv(j)==equiv(j+1))&&(eq_type(j)==eq_type(j+1))&&@| - (eq_level(j)==eq_level(j+1))) goto found1; - incr(j); - } -l=int_base;goto done1; /*|j==int_base-1|*/ -found1: incr(j);l=j; -while (j < int_base-1) - {@+if ((equiv(j)!=equiv(j+1))||(eq_type(j)!=eq_type(j+1))||@| - (eq_level(j)!=eq_level(j+1))) goto done1; - incr(j); - } -done1: dump_int(l-k); -while (k < l) - {@+dump_wd(eqtb[k]);incr(k); - } -k=j+1;dump_int(k-l); -}@+ while (!(k==int_base)) - -@ @<Dump regions 5 and 6 of |eqtb|@>= -@/do@+{j=k; -while (j < eqtb_size) - {@+if (eqtb[j].i==eqtb[j+1].i) goto found2; - incr(j); - } -l=eqtb_size+1;goto done2; /*|j==eqtb_size|*/ -found2: incr(j);l=j; -while (j < eqtb_size) - {@+if (eqtb[j].i!=eqtb[j+1].i) goto done2; - incr(j); - } -done2: dump_int(l-k); -while (k < l) - {@+dump_wd(eqtb[k]);incr(k); - } -k=j+1;dump_int(k-l); -}@+ while (!(k > eqtb_size)) - -@ @<Undump regions 1 to 6 of |eqtb|@>= -k=active_base; -@/do@+{undump_int(x); -if ((x < 1)||(k+x > eqtb_size+1)) goto bad_fmt; -for (j=k; j<=k+x-1; j++) undump_wd(eqtb[j]); -k=k+x; -undump_int(x); -if ((x < 0)||(k+x > eqtb_size+1)) goto bad_fmt; -for (j=k; j<=k+x-1; j++) eqtb[j]=eqtb[k-1]; -k=k+x; -}@+ while (!(k > eqtb_size)) - -@ A different scheme is used to compress the hash table, since its lower -region is usually sparse. When |text(p)!=0| for |p <= hash_used|, we output -two words, |p| and |hash[p]|. The hash table is, of course, densely packed -for |p >= hash_used|, so the remaining entries are output in a~block. - -@<Dump the hash table@>= -dump_int(hash_used);cs_count=frozen_control_sequence-1-hash_used; -for (p=hash_base; p<=hash_used; p++) if (text(p)!=0) - {@+dump_int(p);dump_hh(hash[p]);incr(cs_count); - } -for (p=hash_used+1; p<=undefined_control_sequence-1; p++) dump_hh(hash[p]); -dump_int(cs_count);@/ -print_ln();print_int(cs_count);print(" multiletter control sequences") - -@ @<Undump the hash table@>= -undump(hash_base, frozen_control_sequence, hash_used);p=hash_base-1; -@/do@+{undump(p+1, hash_used, p);undump_hh(hash[p]); -}@+ while (!(p==hash_used)); -for (p=hash_used+1; p<=undefined_control_sequence-1; p++) undump_hh(hash[p]); -undump_int(cs_count) - -@ @<Dump the font information@>= -dump_int(fmem_ptr); -for (k=0; k<=fmem_ptr-1; k++) dump_wd(font_info[k]); -dump_int(font_ptr); -for (k=null_font; k<=font_ptr; k++) - @<Dump the array info for internal font number |k|@>; -print_ln();print_int(fmem_ptr-7);print(" words of font info for "); -print_int(font_ptr-font_base);print(" preloaded font"); -if (font_ptr!=font_base+1) print_char('s') - -@ @<Undump the font information@>= -undump_size(7, font_mem_size,"font mem size", fmem_ptr); -for (k=0; k<=fmem_ptr-1; k++) undump_wd(font_info[k]); -undump_size(font_base, font_max,"font max", font_ptr); -for (k=null_font; k<=font_ptr; k++) - @<Undump the array info for internal font number |k|@>@; - -@ @<Dump the array info for internal font number |k|@>= -{@+dump_qqqq(font_check[k]); -dump_int(font_size[k]); -dump_int(font_dsize[k]); -dump_int(font_params[k]);@/ -dump_int(hyphen_char[k]); -dump_int(skew_char[k]);@/ -dump_int(font_name[k]); -dump_int(font_area[k]);@/ -dump_int(font_bc[k]); -dump_int(font_ec[k]);@/ -dump_int(char_base[k]); -dump_int(width_base[k]); -dump_int(height_base[k]);@/ -dump_int(depth_base[k]); -dump_int(italic_base[k]); -dump_int(lig_kern_base[k]);@/ -dump_int(kern_base[k]); -dump_int(exten_base[k]); -dump_int(param_base[k]);@/ -dump_int(font_glue[k]);@/ -dump_int(bchar_label[k]); -dump_int(font_bchar[k]); -dump_int(font_false_bchar[k]);@/ -print_nl("\\font");printn_esc(font_id_text(k));print_char('='); -printn_file_name(font_name[k], font_area[k],empty_string); -if (font_size[k]!=font_dsize[k]) - {@+print(" at ");print_scaled(font_size[k]);print("pt"); - } -} - -@ @<Undump the array info for internal font number |k|@>= -{@+undump_qqqq(font_check[k]);@/ -undump_int(font_size[k]); -undump_int(font_dsize[k]); -undump(min_halfword, max_halfword, font_params[k]);@/ -undump_int(hyphen_char[k]); -undump_int(skew_char[k]);@/ -undump(0, str_ptr, font_name[k]); -undump(0, str_ptr, font_area[k]);@/ -undump(0, 255, font_bc[k]); -undump(0, 255, font_ec[k]);@/ -undump_int(char_base[k]); -undump_int(width_base[k]); -undump_int(height_base[k]);@/ -undump_int(depth_base[k]); -undump_int(italic_base[k]); -undump_int(lig_kern_base[k]);@/ -undump_int(kern_base[k]); -undump_int(exten_base[k]); -undump_int(param_base[k]);@/ -undump(min_halfword, lo_mem_max, font_glue[k]);@/ -undump(0, fmem_ptr-1, bchar_label[k]); -undump(min_quarterword, non_char, font_bchar[k]); -undump(min_quarterword, non_char, font_false_bchar[k]); -} - -@ @<Dump the hyphenation tables@>= -dump_int(hyph_count); -for (k=0; k<=hyph_size; k++) if (hyph_word[k]!=0) - {@+dump_int(k);dump_int(hyph_word[k]);dump_int(hyph_list[k]); - } -print_ln();print_int(hyph_count);print(" hyphenation exception"); -if (hyph_count!=1) print_char('s'); -if (trie_not_ready) init_trie(); -dump_int(trie_max); -for (k=0; k<=trie_max; k++) dump_hh(trie[k]); -dump_int(trie_op_ptr); -for (k=1; k<=trie_op_ptr; k++) - {@+dump_int(hyf_distance[k]); - dump_int(hyf_num[k]); - dump_int(hyf_next[k]); - } -print_nl("Hyphenation trie of length ");print_int(trie_max); -@.Hyphenation trie...@> -print(" has ");print_int(trie_op_ptr);print(" op"); -if (trie_op_ptr!=1) print_char('s'); -print(" out of ");print_int(trie_op_size); -for (k=255; k>=0; k--) if (trie_used[k] > min_quarterword) - {@+print_nl(" ");print_int(qo(trie_used[k])); - print(" for language ");print_int(k); - dump_int(k);dump_int(qo(trie_used[k])); - } - -@ Only ``nonempty'' parts of |op_start| need to be restored. - -@<Undump the hyphenation tables@>= -undump(0, hyph_size, hyph_count); -for (k=1; k<=hyph_count; k++) - {@+undump(0, hyph_size, j); - undump(0, str_ptr, hyph_word[j]); - undump(min_halfword, max_halfword, hyph_list[j]); - } -undump_size(0, trie_size,"trie size", j); -#ifdef @!INIT -trie_max=j; -#endif -for (k=0; k<=j; k++) undump_hh(trie[k]); -undump_size(0, trie_op_size,"trie op size", j); -#ifdef @!INIT -trie_op_ptr=j; -#endif -for (k=1; k<=j; k++) - {@+undump(0, 63, hyf_distance[k]); /*a |small_number|*/ - undump(0, 63, hyf_num[k]); - undump(min_quarterword, max_quarterword, hyf_next[k]); - } -#ifdef @!INIT -for (k=0; k<=255; k++) trie_used[k]=min_quarterword; -#endif -@;@/ -k=256; -while (j > 0) - {@+undump(0, k-1, k);undump(1, j, x); -#ifdef @!INIT -trie_used[k]=qi(x); -#endif -@;@/ - j=j-x;op_start[k]=qo(j); - } -#ifdef @!INIT -trie_not_ready=false -#endif - -@ We have already printed a lot of statistics, so we set |tracing_stats=0| -to prevent them from appearing again. - -@<Dump a couple more things and the closing check word@>= -dump_int(interaction);dump_int(format_ident);dump_int(69069); -tracing_stats=0 - -@ @<Undump a couple more things and the closing check word@>= -undump(batch_mode, error_stop_mode, interaction); -undump(0, str_ptr, format_ident); -undump_int(x); -if ((x!=69069)||eof(fmt_file)) goto bad_fmt - -@ @<Create the |format_ident|...@>= -selector=new_string; -print(" (preloaded format=");printn(job_name);print_char(' '); -print_int(year);print_char('.'); -print_int(month);print_char('.');print_int(day);print_char(')'); -if (interaction==batch_mode) selector=log_only; -else selector=term_and_log; -str_room(1); -format_ident=make_string(); -pack_job_name(format_extension); -while (!w_open_out(&fmt_file)) - prompt_file_name("format file name", format_extension); -print_nl("Beginning to dump on file "); -@.Beginning to dump...@> -slow_print(w_make_name_string(&fmt_file));flush_string; -print_nl("");slow_print(format_ident) - -@ @<Close the format file@>= -w_close(&fmt_file) - -@* The main program. -This is it: the part of \TeX\ that executes all those procedures we have -written. - -Well---almost. Let's leave space for a few more routines that we may -have forgotten. - -@p @<Last-minute procedures@>@; - -@ We have noted that there are two versions of \TeX82. One, called \.{INITEX}, -@.INITEX@> -has to be run first; it initializes everything from scratch, without -reading a format file, and it has the capability of dumping a format file. -The other one is called `\.{VIRTEX}'; it is a ``virgin'' program that needs -@.VIRTEX@> -to input a format file in order to get started. \.{VIRTEX} typically has -more memory capacity than \.{INITEX}, because it does not need the space -consumed by the auxiliary hyphenation tables and the numerous calls on -|primitive|, etc. - -The \.{VIRTEX} program cannot read a format file instantaneously, of course; -the best implementations therefore allow for production versions of \TeX\ that -not only avoid the loading routine for \PASCAL\ object code, they also have -a format file pre-loaded. This is impossible to do if we stick to standard -\PASCAL; but there is a simple way to fool many systems into avoiding the -initialization, as follows:\quad(1)~We declare a global integer variable -called |ready_already|. The probability is negligible that this -variable holds any particular value like 314159 when \.{VIRTEX} is first -loaded.\quad(2)~After we have read in a format file and initialized -everything, we set |ready_already=314159|.\quad(3)~Soon \.{VIRTEX} -will print `\.*', waiting for more input; and at this point we -interrupt the program and save its core image in some form that the -operating system can reload speedily.\quad(4)~When that core image is -activated, the program starts again at the beginning; but now -|ready_already==314159| and all the other global variables have -their initial values too. The former chastity has vanished! - -In other words, if we allow ourselves to test the condition -|ready_already==314159|, before |ready_already| has been -assigned a value, we can avoid the lengthy initialization. Dirty tricks -rarely pay off so handsomely. -@^dirty \PASCAL@> -@^system dependencies@> - -On systems that allow such preloading, the standard program called \.{TeX} -should be the one that has \.{plain} format preloaded, since that agrees -with {\sl The \TeX book}. Other versions, e.g., \.{AmSTeX}, should also -@:TeXbook}{\sl The \TeX book@> -@.AmSTeX@> -@.plain@> -be provided for commonly used formats. - -@<Glob...@>= -static int @!ready_already; /*a sacrifice of purity for economy*/ - -@ Now this is really it: \TeX\ starts and ends here. - -The initial test involving |ready_already| should be deleted if the -\PASCAL\ runtime system is smart enough to detect such a ``mistake.'' -@^system dependencies@> - -@p -int main(int argc, char *argv[]) {@! /*|start_here|*/ - main_init(argc, argv); /* k\TeX\ */ -history=fatal_error_stop; /*in case we quit during initialization*/ -t_open_out; /*open the terminal for output*/ -if (ready_already==314159) goto start_of_TEX; -@<Check the ``constant'' values...@>@; -if (bad > 0) - {@+wterm_ln("Ouch---my internal constants have been clobbered!" - "---case %d", bad); -@.Ouch...clobbered@> - exit(0); - } -get_strings_started(); -initialize(); /*set global variables to their starting values*/ -#ifdef @!INIT -if (iniversion) -{ init_prim(); /*call |primitive| for each primitive*/ - init_str_ptr=str_ptr;init_pool_ptr=pool_ptr;fix_date_and_time(); } -#endif -ready_already=314159; -start_of_TEX: @<Initialize the output routines@>; -@<Get the first line of input and prepare to start@>; -history=spotless; /*ready to go!*/ -hhsize=hsize; hvsize=vsize;@/ -hint_open(); main_control(); hint_close(); /*come to life*/ -final_cleanup(); /*prepare for death*/ -close_files_and_terminate(); -ready_already=0; -return 0; } - -@ Here we do whatever is needed to complete \TeX's job gracefully on the -local operating system. The code here might come into play after a fatal -error; it must therefore consist entirely of ``safe'' operations that -cannot produce error messages. For example, it would be a mistake to call -|str_room| or |make_string| at this time, because a call on |overflow| -might lead to an infinite loop. -@^system dependencies@> -(Actually there's one way to get error messages, via |prepare_mag|; -but that can't cause infinite recursion.) -@^recursion@> - -If |final_cleanup| is bypassed, this program doesn't bother to close -the input files that may still be open. - -@<Last-minute...@>= -static void close_files_and_terminate(void) -{@+int k; /*all-purpose index*/ -@<Finish the extensions@>;new_line_char=-1; -#ifdef @!STAT -if (tracing_stats > 0) @<Output statistics about this job@>;@; -#endif -wake_up_terminal; -if (log_opened) - {@+wlog_cr;a_close(&log_file);selector=selector-2; - if (selector==term_only) - {@+print_nl("Transcript written on "); -@.Transcript written...@> - slow_print(log_name);print_char('.');print_nl(""); - } - } -} - -@ The present section goes directly to the log file instead of using -|print| commands, because there's no need for these strings to take -up |str_pool| memory when a non-{\bf stat} version of \TeX\ is being used. - -@<Output statistics...@>= -if (log_opened) - {@+wlog_ln(" "); - wlog_ln("Here is how much of TeX's memory you used:"); -@.Here is how much...@> - wlog(" %d string", str_ptr-init_str_ptr); - if (str_ptr!=init_str_ptr+1) wlog( "s" ); - wlog_ln( " out of %d", max_strings-init_str_ptr);@/ - wlog_ln( " %d string characters out of %d", pool_ptr-init_pool_ptr, - pool_size-init_pool_ptr);@/ - wlog_ln(" %d words of memory out of %d", lo_mem_max-mem_min+mem_end-hi_mem_min+2,@| - mem_end+1-mem_min);@/ - wlog_ln(" %d multiletter control sequences out of %d", cs_count, hash_size);@/ - wlog(" %d words of font info for %d font", fmem_ptr, font_ptr-font_base); - if (font_ptr!=font_base+1) wlog("s"); - wlog_ln( ", out of %d for %d", font_mem_size, font_max-font_base);@/ - wlog(" %d hyphenation exception", hyph_count); - if (hyph_count!=1) wlog("s"); - wlog_ln( " out of %d", hyph_size);@/ - wlog_ln(" %di,%dn,%dp,%db,%ds stack positions out of %di,%dn,%dp,%db,%ds", - max_in_stack, max_nest_stack,@| - max_param_stack,@| - max_buf_stack+1,@| - max_save_stack+6,@| - stack_size, - nest_size, - param_size, - buf_size, - save_size ); - } - -@ We get to the |final_cleanup| routine when \.{\\end} or \.{\\dump} has -been scanned and |its_all_over|\kern-2pt. - -@<Last-minute...@>= -static void final_cleanup(void) -{@+ -int c; /*0 for \.{\\end}, 1 for \.{\\dump}*/ -c=cur_chr;if (c!=1) new_line_char=-1; -if (job_name==0) open_log_file(); -while (input_ptr > 0) - if (state==token_list) end_token_list();@+else end_file_reading(); -while (open_parens > 0) - {@+print(" )");decr(open_parens); - } -if (cur_level > level_one) - {@+print_nl("(");print_esc("end occurred "); - print("inside a group at level "); -@:end\_}{\.{(\\end occurred...)}@> - print_int(cur_level-level_one);print_char(')'); - if (eTeX_ex) show_save_groups(); - } -while (cond_ptr!=null) - {@+print_nl("(");print_esc("end occurred "); - print("when ");print_cmd_chr(if_test, cur_if); - if (if_line!=0) - {@+print(" on line ");print_int(if_line); - } - print(" was incomplete)"); - if_line=if_line_field(cond_ptr); - cur_if=subtype(cond_ptr);temp_ptr=cond_ptr; - cond_ptr=link(cond_ptr);free_node(temp_ptr, if_node_size); - } -if (history!=spotless) - if (((history==warning_issued)||(interaction < error_stop_mode))) - if (selector==term_and_log) - {@+selector=term_only; - print_nl("(see the transcript file for additional information)"); -@.see the transcript file...@> - selector=term_and_log; - } -if (c==1) - { -#ifdef @!INIT -for (c=top_mark_code; c<=split_bot_mark_code; c++) - if (cur_mark[c]!=null) delete_token_ref(cur_mark[c]); - if (last_glue!=max_halfword) delete_glue_ref(last_glue); - store_fmt_file();return; -#endif - print_nl("(\\dump is performed only by INITEX)");return; -@:dump\_}{\.{\\dump...only by INITEX}@> - } -} - -@ @<Last-minute...@>= -#ifdef @!INIT -static void init_prim(void) /*initialize all the primitives*/ -{@+no_new_control_sequence=false; -first=0; -@<Put each...@>; -no_new_control_sequence=true; -} -#endif - -@ When we begin the following code, \TeX's tables may still contain garbage; -the strings might not even be present. Thus we must proceed cautiously to get -bootstrapped in. - -But when we finish this part of the program, \TeX\ is ready to call on the -|main_control| routine to do its work. - -@<Get the first line...@>= -{@+@<Initialize the input routines@>; -@<Enable \eTeX, if requested@>@;@/ -if ((format_ident==0)||(buffer[loc]=='&')) - {@+if (format_ident!=0) initialize(); /*erase preloaded format*/ - if (!open_fmt_file()) exit(0); - if (!load_fmt_file()) - {@+w_close(&fmt_file);exit(0); - } - w_close(&fmt_file); - while ((loc < limit)&&(buffer[loc]==' ')) incr(loc); - } -if (eTeX_ex) wterm_ln("entering extended mode"); -if (end_line_char_inactive) decr(limit); -else buffer[limit]=end_line_char; -fix_date_and_time();@/ -@<Initialize the print |selector|...@>; -if ((loc < limit)&&(cat_code(buffer[loc])!=escape)) start_input(); - /*\.{\\input} assumed*/ -} - -@* Debugging. -Once \TeX\ is working, you should be able to diagnose most errors with -the \.{\\show} commands and other diagnostic features. But for the initial -stages of debugging, and for the revelation of really deep mysteries, you -can compile \TeX\ with a few more aids, including the \PASCAL\ runtime -checks and its debugger. An additional routine called |debug_help| -will also come into play when you type `\.D' after an error message; -|debug_help| also occurs just before a fatal error causes \TeX\ to succumb. -@^debugging@> -@^system dependencies@> - -The interface to |debug_help| is primitive, but it is good enough when used -with a \PASCAL\ debugger that allows you to set breakpoints and to read -variables and change their values. After getting the prompt `\.{debug \#}', you -type either a negative number (this exits |debug_help|), or zero (this -goes to a location where you can set a breakpoint, thereby entering into -dialog with the \PASCAL\ debugger), or a positive number |m| followed by -an argument |n|. The meaning of |m| and |n| will be clear from the -program below. (If |m==13|, there is an additional argument, |l|.) -@.debug \#@> - -@<Last-minute...@>= -#ifdef @!DEBUG -static void debug_help(void) /*routine to display various things*/ -{@+ -int k, @!l, @!m, @!n; -clear_terminal; - loop{@+wake_up_terminal; - print_nl("debug # (-1 to exit):");update_terminal; -@.debug \#@> - if (fscanf(term_in.f," %d",&m)<1 || - m < 0) return; - else if (m==0) - {@+goto breakpoint;@/ /*go to every declared label at least once*/ - breakpoint: m=0; /*'BREAKPOINT'*/@/ - } - else{@+fscanf(term_in.f," %d",&n); - switch (m) { - @t\4@>@<Numbered cases for |debug_help|@>@; - default:print("?"); - } - } - } -} -#endif - -@ @<Numbered cases...@>= -case 1: print_word(mem[n]);@+break; /*display |mem[n]| in all forms*/ -case 2: print_int(info(n));@+break; -case 3: print_int(link(n));@+break; -case 4: print_word(eqtb[n]);@+break; -case 5: print_word(font_info[n]);@+break; -case 6: print_word(save_stack[n]);@+break; -case 7: show_box(n);@+break; - /*show a box, abbreviated by |show_box_depth| and |show_box_breadth|*/ -case 8: {@+breadth_max=10000;depth_threshold=pool_size-pool_ptr-10; - show_node_list(n); /*show a box in its entirety*/ - } @+break; -case 9: show_token_list(n, null, 1000);@+break; -case 10: slow_print(n);@+break; -case 11: check_mem(n > 0);@+break; /*check wellformedness; print new busy locations if |n > 0|*/ -case 12: search_mem(n);@+break; /*look for pointers to |n|*/ -case 13: {@+fscanf(term_in.f," %d",&l);print_cmd_chr(n, l); - } @+break; -case 14: for (k=0; k<=n; k++) printn(buffer[k]);@+break; -case 15: {@+font_in_short_display=null_font;short_display(n); - } @+break; -case 16: panicking=!panicking;@+break; - -@* Extensions. -The program above includes a bunch of ``hooks'' that allow further -capabilities to be added without upsetting \TeX's basic structure. -Most of these hooks are concerned with ``whatsit'' nodes, which are -intended to be used for special purposes; whenever a new extension to -\TeX\ involves a new kind of whatsit node, a corresponding change needs -to be made to the routines below that deal with such nodes, -but it will usually be unnecessary to make many changes to the -other parts of this program. - -In order to demonstrate how extensions can be made, we shall treat -`\.{\\write}', `\.{\\openout}', `\.{\\closeout}', `\.{\\immediate}', -`\.{\\special}', and `\.{\\setlanguage}' as if they were extensions. -These commands are actually primitives of \TeX, and they should -appear in all implementations of the system; but let's try to imagine -that they aren't. Then the program below illustrates how a person -could add them. - -Sometimes, of course, an extension will require changes to \TeX\ itself; -no system of hooks could be complete enough for all conceivable extensions. -The features associated with `\.{\\write}' are almost all confined to the -following paragraphs, but there are small parts of the |print_ln| and -|print_char| procedures that were introduced specifically to \.{\\write} -characters. Furthermore one of the token lists recognized by the scanner -is a |write_text|; and there are a few other miscellaneous places where we -have already provided for some aspect of \.{\\write}. The goal of a \TeX\ -extender should be to minimize alterations to the standard parts of the -program, and to avoid them completely if possible. He or she should also -be quite sure that there's no easy way to accomplish the desired goals -with the standard features that \TeX\ already has. ``Think thrice before -extending,'' because that may save a lot of work, and it will also keep -incompatible extensions of \TeX\ from proliferating. -@^system dependencies@> -@^extensions to \TeX@> - -@ First let's consider the format of whatsit nodes that are used to represent -the data associated with \.{\\write} and its relatives. Recall that a whatsit -has |type==whatsit_node|, and the |subtype| is supposed to distinguish -different kinds of whatsits. Each node occupies two or more words; the -exact number is immaterial, as long as it is readily determined from the -|subtype| or other data. - -We shall introduce five |subtype| values here, corresponding to the -control sequences \.{\\openout}, \.{\\write}, \.{\\closeout}, \.{\\special}, and -\.{\\setlanguage}. The second word of I/O whatsits has a |write_stream| field -that identifies the write-stream number (0 to 15, or 16 for out-of-range and -positive, or 17 for out-of-range and negative). -In the case of \.{\\write} and \.{\\special}, there is also a field that -points to the reference count of a token list that should be sent. In the -case of \.{\\openout}, we need three words and three auxiliary subfields -to hold the string numbers for name, area, and extension. - -@d write_node_size 2 /*number of words in a write/whatsit node*/ -@d open_node_size 3 /*number of words in an open/whatsit node*/ -@d open_node 0 /*|subtype| in whatsits that represent files to \.{\\openout}*/ -@d write_node 1 /*|subtype| in whatsits that represent things to \.{\\write}*/ -@d close_node 2 /*|subtype| in whatsits that represent streams to \.{\\closeout}*/ -@d special_node 3 /*|subtype| in whatsits that represent \.{\\special} things*/ -@d language_node 4 /*|subtype| in whatsits that change the current language*/ -@d what_lang(A) link(A+1) /*language number, in the range |0 dotdot 255|*/ -@d what_lhm(A) type(A+1) /*minimum left fragment, in the range |1 dotdot 63|*/ -@d what_rhm(A) subtype(A+1) /*minimum right fragment, in the range |1 dotdot 63|*/ -@d write_tokens(A) link(A+1) /*reference count of token list to write*/ -@d write_stream(A) info(A+1) /*stream number (0 to 17)*/ -@d open_name(A) link(A+1) /*string number of file name to open*/ -@d open_area(A) info(A+2) /*string number of file area for |open_name|*/ -@d open_ext(A) link(A+2) /*string number of file extension for |open_name|*/ @# - -@d par_node 6 /*|subtype| that records the change of a parameter*/ -@d par_node_size 3 /* number of memory words in a |par_node| */ -@d par_type(A) type(A+1) /* type of parameter */ -@d int_type 0 /* type of an |int_par| node */ -@d dimen_type 1 /* type of an |dimen_par| node */ -@d glue_type 2 /* type of an |glue_par| node */ -@d par_number(A) subtype(A+1) /* the parameter number */ -@d par_value(A) mem[A+2] /* the parameter value */@# - -@d graf_node 7 /*|subtype| that records a paragraph*/ -@d graf_node_size 5 /* number of memory words in a |graf_node| */ -@d graf_penalty(A) mem[A+1].i /* the final penalty */ -@d graf_extent(A) link(A+3) /* the extent */@# -@d graf_params(A) info(A+4) /* list of parameter nodes */ -@d graf_list(A) link(A+4) /* list of content nodes */ - -@d disp_node 8 /*|subtype| that records a math display*/ -@d disp_node_size 3 /* number of memory words in a |disp_node| */ -@d display_left(A) type(A+1) /* 1=left 0=right */ -@d display_no_bs(A) subtype(A+1) /* |prev_depth==ignore_depth| */ -@d display_params(A) link(A+1) /* list of parameter nodes */ -@d display_formula(A) link(A+2) /* formula list */ -@d display_eqno(A) info(A+2) /* box with equation number */@# - -@d baseline_node 9 /*|subtype| that records a |baseline_skip| */ -@d baseline_node_size small_node_size /* This is 2; we will convert baseline nodes to glue nodes */ -@d baseline_node_no(A) mem[A+1].i /* baseline reference */@# - -@d image_node 10 /*|subtype| that records an image */ -@d image_node_size 9 /* width, depth, height, |shift_amount| like a hbox */ -@d image_width(A) width(A) /*width of image */ -@d image_height(A) height(A) /*height of image */ -@d image_depth(A) depth(A) /* depth of image==zero */ -@d image_no(A) mem[A+4].i /* the section number */ -@d image_stretch(A) mem[A+5].sc /*stretchability of image */ -@d image_shrink(A) mem[A+6].sc /*shrinkability of image */ -@d image_stretch_order(A) stretch_order(A+7) -@d image_shrink_order(A) shrink_order(A+7) -@d image_name(A) link(A+7) /*string number of file name */ -@d image_area(A) info(A+8) /*string number of file area */ -@d image_ext(A) link(A+8) /*string number of file extension */@# - -@d hpack_node 12 /* a hlist that needs to go to hpack */ -@d vpack_node 13 /* a vlist that needs to go to vpackage */ -@d pack_node_size box_node_size /* a box node up to |list_ptr|*/ -@d pack_m(A) type(A+list_offset) /* either additional or exactly */ -@d pack_limit(A) mem[(A)+1+list_offset].sc /* depth limit in |vpack| */ -@d pack_extent(A) link(A+2+list_offset) /* extent */@# - -@d hset_node 14 /* represents a hlist that needs |glue_set| */ -@d vset_node 15 /* represents a vlist that needs |glue_set| */ -@d set_node_size box_node_size /* up to |list_ptr| like a box node */ -@d set_stretch_order glue_sign -@d set_shrink_order glue_order -@d set_stretch(A) mem[(A)+1+list_offset].sc /* replaces |glue_set| */ -@d set_extent(A) pack_extent(A) /* extent */ -@d set_shrink(A) mem[(A)+3+list_offset].sc @# - -@d align_node 16 /* represents an alignment */ -@d align_node_size 4 -@d align_extent(A) link(A+2) /* the extent of the alignment */ -@d align_m(A) type(A+2) /* either additional or exactly */ -@d align_v(A) subtype(A+2) /* true if vertical */ -@d align_preamble(A) info(A+3) /* the preamble */ -@d align_list(A) link(A+3) /* the unset rows/columns */ - -@d setpage_node 17 /* represents a page template */ -@d setpage_node_size 6 -@d setpage_name(A) link(A+1) -@d setpage_number(A) type(A+1) /* the \HINT/ number */ -@d setpage_id(A) subtype(A+1) /* the \TeX\ number */ -@d setpage_priority(A) info(A+2) -@d setpage_topskip(A) link(A+2) -@d setpage_depth(A) mem[A+3].sc /* maximum depth */ -@d setpage_height(A) info(A+4) /* extended dimension number */ -@d setpage_width(A) link(A+4) /* extended dimension number */ -@d setpage_list(A) info(A+5) /* the template itself */ -@d setpage_streams(A) link(A+5) /* list of stream definitions */ - -@d setstream_node 18 /* represents a stream definition */ -@d setstream_node_size 6 -@d setstream_number(A) type(A+1) -@d setstream_insertion(A) subtype(A+1) -@d setstream_mag(A) link(A+1) /* magnification factor */ -@d setstream_prefered(A) type(A+2) -@d setstream_next(A) subtype(A+2) -@d setstream_ratio(A) link(A+2) /* split ratio */ -@d setstream_max(A) info(A+3) /* extended dimension number */ -@d setstream_width(A) link(A+3) /* extended dimension number */ -@d setstream_topskip(A) info(A+4) -@d setstream_height(A) link(A+4) -@d setstream_before(A) info(A+5) -@d setstream_after(A) link(A+5) - -@d stream_node 19 /* represents a stream insertion point */ -@d stream_node_size 2 -@d stream_number(A) type(A+1) -@d stream_insertion(A) subtype(A+1) - -@d stream_after_node 20 /* never allocated */ -@d stream_before_node 21 /* never allocated */ - -@d xdimen_node 22 -@d xdimen_node_size 4 -@d xdimen_ref_count(A) link(A) -@d xdimen_width(A) mem[A+1].sc -@d xdimen_hfactor(A) mem[A+2].sc -@d xdimen_vfactor(A) mem[A+3].sc - -@d ignore_node 23 /* ignored used to attach extra information */ -@d ignore_node_size small_node_size /* same as |disc_node| */ -@d ignore_info(A) type(A+1) -@d ignore_list(A) link(A+1) - -@d label_node 24 /* represents a link to a another location */ -@d label_node_size 2 -@d label_has_name(A) type(A+1) /* 1 for a name , 0 for a number */ -@d label_where(A) subtype(A+1) /* 1 for top, 2 for bot, 3 for mid */ -@d label_ptr(A) link(A+1) /* for a name the token list or the number */ -@d label_ref(A) link(A+1) /*alternatively the label number */ - -@d start_link_node 25 /* represents a link to a another location */ -@d end_link_node 26 /* represents a link to a another location */ -@d link_node_size 2 /* second word like a |label_node| */ - -@d outline_node 27 /* represents an outline item */ -@d outline_node_size 4 /* second word like a |label_node| */ -@d outline_ptr(A) link(A+2) /* text to be displayed */ -@d outline_depth(A) mem[A+3].i /* depth of sub items */ - - -@ The sixteen possible \.{\\write} streams are represented by the |write_file| -array. The |j|th file is open if and only if |write_open[j]==true|. The last -two streams are special; |write_open[16]| represents a stream number -greater than 15, while |write_open[17]| represents a negative stream number, -and both of these variables are always |false|. - -@<Glob...@>= -static alpha_file @!write_file[16]; -static bool @!write_open[18]; - -@ @<Set init...@>= -for (k=0; k<=17; k++) write_open[k]=false; - -@ Extensions might introduce new command codes; but it's best to use -|extension| with a modifier, whenever possible, so that |main_control| -stays the same. - -@d immediate_code 4 /*command modifier for \.{\\immediate}*/ -@d set_language_code 5 /*command modifier for \.{\\setlanguage}*/ - -@<Put each...@>= -primitive("openout", extension, open_node);@/ -@!@:open\_out\_}{\.{\\openout} primitive@> -primitive("write", extension, write_node);write_loc=cur_val;@/ -@!@:write\_}{\.{\\write} primitive@> -primitive("closeout", extension, close_node);@/ -@!@:close\_out\_}{\.{\\closeout} primitive@> -primitive("special", extension, special_node);@/ -@!@:special\_}{\.{\\special} primitive@> -primitive("immediate", extension, immediate_code);@/ -@!@:immediate\_}{\.{\\immediate} primitive@> -primitive("setlanguage", extension, set_language_code);@/ -@!@:set\_language\_}{\.{\\setlanguage} primitive@> - -primitive("@@HINT", relax, 256); /*cf.\ |relax|*/ -@!@:@@HINT\_}{\.{\\@@HINT} primitive@> - -primitive("HINTdest", extension, label_node);@/ -@!@:HINTdest\_}{\.{\\HINTdest} primitive@> - -primitive("HINTstartlink", extension, start_link_node);@/ -@!@:startlink\_}{\.{\\HINTstartlink} primitive@> - -primitive("HINTendlink", extension, end_link_node);@/ -@!@:HINTendlink\_}{\.{\\HINTendlink} primitive@> - -primitive("HINToutline", extension, outline_node);@/ -@!@:HINToutline\_}{\.{\\HINToutline} primitive@> - -primitive("image", extension, image_node);@/ -@!@:image\_}{\.{\\image} primitive@> - -primitive("setpage", extension, setpage_node);@/ -@!@:setpage\_}{\.{\\setpage} primitive@> - -primitive("stream", extension, stream_node);@/ -@!@:stream\_}{\.{\\stream} primitive@> - -primitive("setstream", extension, setstream_node);@/ -@!@:setstream\_}{\.{\\setstream} primitive@> - -primitive("before", extension, stream_before_node);@/ -@!@:before\_}{\.{\\before} primitive@> - -primitive("after", extension, stream_after_node);@/ -@!@:after\_}{\.{\\after} primitive@> - - -@ The variable |write_loc| just introduced is used to provide an -appropriate error message in case of ``runaway'' write texts. - -@<Glob...@>= -static pointer @!write_loc; /*|eqtb| address of \.{\\write}*/ - -@ @<Cases of |print_cmd_chr|...@>= -case extension: switch (chr_code) { - case open_node: print_esc("openout");@+break; - case write_node: print_esc("write");@+break; - case close_node: print_esc("closeout");@+break; - case special_node: print_esc("special");@+break; - case par_node: print("parameter");@+break; - case graf_node: print("paragraf");@+break; - case disp_node: print("display");@+break; - case baseline_node: print("baselineskip");@+break; - case hpack_node: print("hpack");@+break; - case vpack_node: print("vpack");@+break; - case hset_node: print("hset");@+break; - case vset_node: print("vset");@+break; - case image_node: print("image");@+break; - case start_link_node: print("startlink");@+break; - case end_link_node: print("endlink");@+break; - case label_node: print("dest");@+break; - case outline_node: print("outline");@+break; - case align_node: print("align");@+break; - case setpage_node: print("setpage");@+break; - case setstream_node: print("setstream");@+break; - case stream_node: print("stream");@+break; - case xdimen_node: print("xdimen");@+break; - case ignore_node: print("ignore");@+break; - case immediate_code: print_esc("immediate");@+break; - case set_language_code: print_esc("setlanguage");@+break; - default:print("[unknown extension!]"); - } @+break; - -@ When an |extension| command occurs in |main_control|, in any mode, -the |do_extension| routine is called. - -@<Cases of |main_control| that are for extensions...@>= -any_mode(extension): do_extension(); - -@ @<Declare act...@>= -@t\4@>@<Declare procedures needed in |do_extension|@>@; -static void do_extension(void) -{@+int @!k; /*all-purpose integer*/ -pointer @!p; /*all-purpose pointer*/ -switch (cur_chr) { -case open_node: @<Implement \.{\\openout}@>@;@+break; -case write_node: @<Implement \.{\\write}@>@;@+break; -case close_node: @<Implement \.{\\closeout}@>@;@+break; -case special_node: @<Implement \.{\\special}@>@;@+break; -case par_node: -case graf_node: -case disp_node: -case baseline_node: -case hpack_node: -case vpack_node: -case hset_node: -case vset_node: -case align_node: @+break;@# -case image_node:@/ -{@+ pointer p; - scan_optional_equals(); - scan_file_name(); - p=new_image_node(cur_name,cur_area,cur_ext); - loop { - if (scan_keyword("width")) - {@+scan_normal_dimen;@+image_width(p)=cur_val;} - else if (scan_keyword("height")) - {@+scan_normal_dimen;image_height(p)=cur_val; } - else if (scan_keyword("plus")) - { scan_dimen(false, true, false); - image_stretch(p)=cur_val;image_stretch_order(p)=cur_order; - } - else if (scan_keyword("minus")) - { scan_dimen(false, true, false); - image_shrink(p)=cur_val;image_shrink_order(p)=cur_order; - } - else - break; - } - hget_image_information(p); - if (abs(mode)==vmode) - append_to_vlist(p); /* image nodes have height, width, and depth like boxes */ - else - tail_append(p); - break; -} -case start_link_node: - if (abs(mode) == vmode) - fatal_error("HiTeX startlink cannot be used in vertical mode"); - else - { new_whatsit(start_link_node,link_node_size); - scan_label(tail); - } - break; -case end_link_node: - if (abs(mode) == vmode) - fatal_error("HiTeX endlink cannot be used in vertical mode"); - else - new_whatsit(end_link_node,link_node_size); - break; -case label_node: - new_whatsit(label_node,label_node_size); - scan_destination(tail); - if (scan_keyword("top")) label_where(tail)=1; - else if (scan_keyword("bot")) label_where(tail)=2; - else label_where(tail)=3; - scan_spaces(); - break; -case outline_node: - new_whatsit(outline_node,outline_node_size); - scan_label(tail); - if (scan_keyword("depth")) - { scan_int(); - outline_depth(tail)= cur_val; - } - else outline_depth(tail)=0; - outline_ptr(tail)=null; - new_save_level(outline_group);scan_left_brace(); - push_nest();mode=-hmode;prev_depth=ignore_depth;space_factor=1000; - break; -case setpage_node: -{ uint8_t n;@+ - pointer t; - scan_eight_bit_int(); n=cur_val; - if (n==0) - { print_err("Illegal redefinition of page template 0"); print_int(n); error(); break;} - scan_optional_equals(); - scan_file_name(); /* this should be improved to use |scan_name|*/ - t=new_setpage_node(n,cur_name); - loop { - if (scan_keyword("priority")) - {@+scan_eight_bit_int();setpage_priority(t)=cur_val; } - else if (scan_keyword("width")) - {@+scan_normal_dimen; setpage_width(t)=new_xdimen(cur_val,cur_hfactor,cur_vfactor); } - else if (scan_keyword("height")) - {@+scan_normal_dimen; setpage_height(t)=new_xdimen(cur_val,cur_hfactor,cur_vfactor); } - else - break; - } - new_save_level(page_group);scan_left_brace();normal_paragraph(); - push_nest();mode=-vmode;prev_depth=ignore_depth; - break; -} -case stream_node: -{ uint8_t n; - scan_eight_bit_int(); n=cur_val; - new_whatsit(stream_node,stream_node_size); - stream_insertion(tail)=n; - stream_number(tail)=hget_stream_no(n); - break; -} -case setstream_node: -{ uint8_t n; - pointer t, s; - scan_eight_bit_int(); n=cur_val; - scan_optional_equals(); - t=link(setpage_head); - if (t==null) { print_err("\\setstream without \\setpage"); error(); break;} - s=new_setstream_node(n); - link(s)=setpage_streams(t); setpage_streams(t)=s; - loop { - if (scan_keyword("prefered")) - {@+scan_eight_bit_int(); - if (cur_val!=255) - setstream_prefered(s)=hget_stream_no(cur_val); } - else if (scan_keyword("next")) - {@+scan_eight_bit_int(); - if (cur_val!=255) - setstream_next(s)=hget_stream_no(cur_val); } - else if (scan_keyword("ratio")) - {@+scan_int();setstream_ratio(s)=cur_val; } - else - break; - } - new_save_level(stream_group);scan_left_brace();normal_paragraph(); - push_nest();mode=-vmode;prev_depth=ignore_depth; - break; -} -case stream_before_node: - scan_optional_equals(); - new_save_level(stream_before_group);scan_left_brace();normal_paragraph(); - push_nest();mode=-vmode;prev_depth=ignore_depth; - break; -case stream_after_node: - scan_optional_equals(); - new_save_level(stream_after_group);scan_left_brace();normal_paragraph(); - push_nest();mode=-vmode;prev_depth=ignore_depth; - break; -case xdimen_node: -case ignore_node: @+break; -case immediate_code: @<Implement \.{\\immediate}@>@;@+break; -case set_language_code: @<Implement \.{\\setlanguage}@>@;@+break; -default:confusion("ext1"); -@:this can't happen ext1}{\quad ext1@> -} -} - -@ @<Declare procedures needed in |do_extension|@>= -void scan_spaces(void) -{ @<Get the next non-blank non-call token@>; - back_input(); -} -void scan_destination(pointer p) -{@+if (scan_keyword("name")) - { label_has_name(p)=1; - scan_toks(false,true); label_ptr(p)=def_ref; - } - else if (scan_keyword("num")) - { label_has_name(p)=0; scan_int(); label_ptr(p)=cur_val; - } - else - { print_err("`name {...}' or `num 000' expected. Inserted `num 0'."); - label_has_name(p)=0; label_ptr(p)=0; - error(); - return; - } - scan_spaces(); -} -void scan_label(pointer p) -{ if (!scan_keyword("goto")) - print_err("keyword `goto' inserted"); - scan_destination(p); -} - -@ Here is a subroutine that creates a whatsit node having a given |subtype| -and a given number of words. It initializes only the first word of the whatsit, -and appends it to the current list. - -@<Declare procedures needed in |do_extension|@>= -static void new_whatsit(small_number @!s, small_number @!w) -{@+pointer p; /*the new node*/ -p=get_node(w);type(p)=whatsit_node;subtype(p)=s; -link(tail)=p;tail=p; -} - -@ The next subroutine uses |cur_chr| to decide what sort of whatsit is -involved, and also inserts a |write_stream| number. - -@<Declare procedures needed in |do_ext...@>= -static void new_write_whatsit(small_number @!w) -{@+new_whatsit(cur_chr, w); -if (w!=write_node_size) scan_four_bit_int(); -else{@+scan_int(); - if (cur_val < 0) cur_val=17; - else if (cur_val > 15) cur_val=16; - } -write_stream(tail)=cur_val; -} - -@ @<Implement \.{\\openout}@>= -{@+new_write_whatsit(open_node_size); -scan_optional_equals();scan_file_name();@/ -open_name(tail)=cur_name;open_area(tail)=s_no(cur_area);open_ext(tail)=s_no(cur_ext); -} - -@ When `\.{\\write 12\{...\}}' appears, we scan the token list `\.{\{...\}}' -without expanding its macros; the macros will be expanded later when this -token list is rescanned. - -@<Implement \.{\\write}@>= -{@+k=cur_cs;new_write_whatsit(write_node_size);@/ -cur_cs=k;p=scan_toks(false, false);write_tokens(tail)=def_ref; -} - -@ @<Implement \.{\\closeout}@>= -{@+new_write_whatsit(write_node_size);write_tokens(tail)=null; -} - -@ When `\.{\\special\{...\}}' appears, we expand the macros in the token -list as in \.{\\xdef} and \.{\\mark}. - -@<Implement \.{\\special}@>= -{@+new_whatsit(special_node, write_node_size);write_stream(tail)=null; -p=scan_toks(false, true);write_tokens(tail)=def_ref; -} - -@ Each new type of node that appears in our data structure must be capable -of being displayed, copied, destroyed, and so on. The routines that we -need for write-oriented whatsits are somewhat like those for mark nodes; -other extensions might, of course, involve more subtlety here. - -@<Basic printing...@>= -static void print_mark(int @!p); -static void print_label(pointer @!p) -{ print("goto "); - if (label_has_name(p)) { print("name "); print_mark(label_ptr(p));} - else { print("num "); print_int(label_ptr(p));} -} - -static void print_write_whatsit(char *@!s, pointer @!p) -{@+print_esc(s); -if (write_stream(p) < 16) print_int(write_stream(p)); -else if (write_stream(p)==16) print_char('*'); -@.*\relax@> -else print_char('-'); -} - -@ @<Display the whatsit...@>= -switch (subtype(p)) { -case open_node: {@+print_write_whatsit("openout", p); - print_char('=');printn_file_name(open_name(p), open_area(p), open_ext(p)); - } @+break; -case write_node: {@+print_write_whatsit("write", p); - print_mark(write_tokens(p)); - } @+break; -case close_node: print_write_whatsit("closeout", p);@+break; -case special_node: {@+print_esc("special"); - print_mark(write_tokens(p)); - } @+break; -case language_node: {@+print_esc("setlanguage"); - print_int(what_lang(p));print(" (hyphenmin "); - print_int(what_lhm(p));print_char(','); - print_int(what_rhm(p));print_char(')'); - } @+break; -case par_node: print_esc("parameter "); - print_int(par_type(p));print_char(',');print_int(par_number(p)); - print_char(':');print_int(par_value(p).i); - break; -case graf_node: print_esc("paragraf("); - print_int(graf_penalty(p)); - print_char(')'); - node_list_display(graf_params(p)); - node_list_display(graf_list(p)); - print_xdimen(graf_extent(p)); - break; -case disp_node: print_esc("display "); - node_list_display(display_eqno(p)); - if (display_left(p)) print("left "); else print("right "); - node_list_display(display_formula(p)); - node_list_display(display_params(p)); - break; -case baseline_node: print_esc("baselineskip "); - print_baseline_skip(baseline_node_no(p)); - break; -case hset_node: case vset_node: - print_char('\\'); - print_char(subtype(p)==hset_node?'h':'v'); - print("set("); - print_scaled(height(p)); print_char('+'); - print_scaled(depth(p)); print(")x"); print_scaled(width(p)); - if (shift_amount(p)!=0) - {@+print(", shifted ");print_scaled(shift_amount(p)); - } - if (set_stretch(p)!=0) - {@+print(", stretch ");print_glue(set_stretch(p),set_stretch_order(p),"pt"); - } - if (set_shrink(p)!=0) - {@+print(", shrink ");print_glue(set_shrink(p),set_shrink_order(p),"pt"); - } - print(", extent "); print_xdimen(set_extent(p)); - node_list_display(list_ptr(p)); /*recursive call*/ - break; -case hpack_node: case vpack_node: - print_char('\\'); - print_char(subtype(p)==hpack_node?'h':'v'); - print("pack("); - print(pack_m(p)==exactly?"exactly ":"additional "); - print_xdimen(pack_extent(p)); - if (subtype(p)==vpack_node && pack_limit(p)!=max_dimen) { print(", limit "); print_scaled(pack_limit(p)); } - print_char(')'); - node_list_display(list_ptr(p)); - break; -case image_node: - print_esc("image("); - print_char('(');print_scaled(image_height(p)); - print_char('+'); print_scaled(image_depth(p)); - print(")x"); print_scaled(image_width(p)); - if (image_stretch(p)!=0) { print(" plus ");print_glue(image_stretch(p), image_stretch_order(p),"pt"); } - if (image_shrink(p)!=0) { print(" minus ");print_glue(image_shrink(p), image_shrink_order(p), "pt"); } - print(", section ");print_int(image_no(p)); - if (image_name(p)!=0) {print(", "); printn(image_name(p));} - break; -case align_node: - print_esc("align("); - print(align_m(p)==exactly?"exactly ":"additional "); - print_xdimen(align_extent(p));print_char(')'); - node_list_display(align_preamble(p)); - print_char(':'); - node_list_display(align_list(p)); - break; -case setpage_node: - print_esc("setpage");print_int(setpage_number(p));print_char(' '); printn(setpage_name(p)); - print(" priority ");print_int(setpage_priority(p)); - print(" width ");print_xdimen(setpage_width(p)); - print(" height ");print_xdimen(setpage_height(p)); - print_ln();print_current_string();print(".\\topskip=");print_spec(setpage_topskip(p),0); - print_ln();print_current_string();print(".\\maxdepth=");print_scaled(setpage_depth(p)); - node_list_display(setpage_list(p)); - node_list_display(setpage_streams(p)); - break; -case setstream_node: - print_esc("setstream");print_int(setstream_insertion(p)); - print_char('(');print_int(setstream_number(p));print_char(')'); - if (setstream_prefered(p)!=255) { print(" prefered ");print_int(setstream_prefered(p)); } - if (setstream_ratio(p)>0) { print(" ratio ");print_int(setstream_ratio(p)); } - if (setstream_next(p)!=255) { print(" next ");print_int(setstream_next(p)); } - append_char('.'); - print_ln();print_current_string();print_esc("count");print_int(setstream_insertion(p));print_char('='); - print_int(setstream_mag(p)); - print_ln();print_current_string();print_esc("dimen");print_int(setstream_insertion(p));print_char('='); - print_xdimen(setstream_max(p)); - print_ln();print_current_string();print_esc("skip");print_int(setstream_insertion(p));print_char('='); - print_spec(setstream_height(p),0); - print_ln();print_current_string();print_esc("hsize=");print_xdimen(setstream_width(p)); - print_ln();print_current_string();print_esc("topskip=");print_spec(setstream_topskip(p),0); - if (setstream_before(p)!=null) { print_ln();print_current_string();print_esc("before");node_list_display(setstream_before(p));} - if (setstream_after(p)!=null) { print_ln();print_current_string();print_esc("after");node_list_display(setstream_after(p));} - flush_char; - break; -case ignore_node: - print_esc("ignore ");print_int(ignore_info(p));print_char(':'); - node_list_display(ignore_list(p)); - break; -case start_link_node: - print_esc("startlink "); - print_label(p); - break; -case end_link_node: - print_esc("endlink "); - break; -case label_node: - print_esc("dest "); - print_label(p); - if (label_where(p)==1) print("top"); - else if (label_where(p)==2) print("bot"); - else if (label_where(p)==3) print("mid"); - else print("undefined"); - break; -case outline_node: - print_esc("outline"); - print_label(p); - print(" depth "); print_int(outline_depth(p)); - if (outline_ptr(p)==null) print("{}"); else - { print_ln();print_current_string();node_list_display(outline_ptr(p));} - break; -case stream_node: - print_esc("stream");print_int(stream_insertion(p)); - print_char('(');print_int(stream_number(p));print_char(')'); - break; -case xdimen_node: - print_esc("xdimen ");print_xdimen(p); - break; -default: print("whatsit?"); -} - -@ @<Make a partial copy of the whatsit...@>= -switch (subtype(p)) { -case open_node: {@+r=get_node(open_node_size);words=open_node_size; - } @+break; -case write_node: case special_node: {@+r=get_node(write_node_size); - add_token_ref(write_tokens(p));words=write_node_size; - } @+break; -case close_node: case language_node: {@+r=get_node(small_node_size); - words=small_node_size; - } @+break; -case par_node: -{@+r=get_node(par_node_size); - if (par_type(p)==glue_type) add_glue_ref(par_value(p).i); - words=par_node_size; - } @+break; -case graf_node: -{@+r=get_node(graf_node_size); - add_xdimen_ref(graf_extent(p)); - graf_params(r)=copy_node_list(graf_params(p)); - graf_list(r)=copy_node_list(graf_list(p)); - words=graf_node_size-1; - } @+break; -case disp_node: -{@+r=get_node(disp_node_size); - display_left(r)=display_left(p); - display_no_bs(r)=display_no_bs(p); - display_eqno(r)=copy_node_list(display_eqno(p)); - display_formula(r)=copy_node_list(display_formula(p)); - display_params(r)=copy_node_list(display_params(p)); - words=disp_node_size-2; - } @+break; -case baseline_node: -{@+r=get_node(baseline_node_size); - words=baseline_node_size; - } @+break; -case hpack_node: case vpack_node: -{@+r=get_node(pack_node_size); - pack_m(r)=pack_m(p); - list_ptr(r)=copy_node_list(list_ptr(p)); - add_xdimen_ref(pack_extent(p)); - pack_limit(r)=pack_limit(p); - words=pack_node_size-3; - } @+break; -case hset_node: case vset_node: -{@+r=get_node(set_node_size); - mem[r+8]=mem[p+8];mem[r+7]=mem[p+7];mem[r+6]=mem[p+6];mem[r+5]=mem[p+5]; /*copy the last four words*/ - add_xdimen_ref(set_extent(p)); - list_ptr(r)=copy_node_list(list_ptr(p)); /*this affects |mem[r+5]|*/ - words=5; - } @+break; -case image_node: - r=get_node(image_node_size); - words=image_node_size; - break; -case align_node: - {@+r=get_node(align_node_size); - align_preamble(r)=copy_node_list(align_preamble(p)); - align_list(r)=copy_node_list(align_list(p)); - add_xdimen_ref(align_extent(p)); - words=align_node_size-1; - } @+break; -case setpage_node: - {@+r=get_node(setpage_node_size); - add_glue_ref(setpage_topskip(p)); - add_xdimen_ref(setpage_height(p)); - add_xdimen_ref(setpage_width(p)); - setpage_list(r)=copy_node_list(setpage_list(p)); - setpage_streams(r)=copy_node_list(setpage_streams(p)); - words=setpage_node_size-1; - } @+break; -case setstream_node: - {@+r=get_node(setstream_node_size); - add_xdimen_ref(setstream_max(p)); - add_xdimen_ref(setstream_width(p)); - add_glue_ref(setstream_topskip(p)); - add_glue_ref(setstream_height(p)); - setstream_before(r)=copy_node_list(setstream_before(p)); - setstream_after(r)=copy_node_list(setstream_after(p)); - words=setstream_node_size-1; - } @+break; -case ignore_node: - r=get_node(ignore_node_size); - ignore_info(r)=ignore_info(p); - ignore_list(r)=copy_node_list(ignore_list(p)); - words=ignore_node_size-1; - break; -case start_link_node: - r=get_node(link_node_size); - if (label_has_name(p)) add_token_ref(label_ptr(p)); - words=link_node_size; - break; -case end_link_node: - r=get_node(link_node_size); - words=link_node_size; - break; -case label_node: - r=get_node(label_node_size); - if (label_has_name(p)) add_token_ref(label_ptr(p)); - words=label_node_size; - break; -case outline_node: - r=get_node(outline_node_size); - if (label_has_name(p)) add_token_ref(label_ptr(p)); - outline_ptr(r)=copy_node_list(outline_ptr(p)); - words=outline_node_size-1; - break; -case stream_node: - r=get_node(stream_node_size); - words=stream_node_size; - break; -case xdimen_node: - r=get_node(xdimen_node_size); - words=xdimen_node_size; - break; -default:confusion("ext2"); -@:this can't happen ext2}{\quad ext2@> -} - -@ @<Wipe out the whatsit...@>= -{@+switch (subtype(p)) { -case open_node: free_node(p, open_node_size);@+break; -case write_node: case special_node: {@+delete_token_ref(write_tokens(p)); - free_node(p, write_node_size);goto done; - } -case close_node: case language_node: free_node(p, small_node_size);@+break; -case par_node: - if (par_type(p)==glue_type) fast_delete_glue_ref(par_value(p).i); - free_node(p, par_node_size);@+break; -case graf_node: - delete_xdimen_ref(graf_extent(p)); - flush_node_list(graf_params(p)); - flush_node_list(graf_list(p)); - free_node(p, graf_node_size);@+break; -case disp_node: - flush_node_list(display_eqno(p)); - flush_node_list(display_formula(p)); - flush_node_list(display_params(p)); - free_node(p, disp_node_size);@+break; -case baseline_node: - free_node(p, baseline_node_size);@+break; -case hpack_node: case vpack_node: - delete_xdimen_ref(pack_extent(p)); - flush_node_list(list_ptr(p)); - free_node(p, pack_node_size);@+break; -case hset_node: case vset_node: - delete_xdimen_ref(set_extent(p)); - flush_node_list(list_ptr(p)); - free_node(p, set_node_size);@+break; -case image_node: - free_node(p,image_node_size);@+break; -case align_node: - delete_xdimen_ref(align_extent(p)); - flush_node_list(align_preamble(p)); - flush_node_list(align_list(p)); - free_node(p, align_node_size);@+break; -case setpage_node: - delete_glue_ref(setpage_topskip(p)); - delete_xdimen_ref(setpage_height(p)); - delete_xdimen_ref(setpage_width(p)); - flush_node_list(setpage_list(p)); - flush_node_list(setpage_streams(p)); - free_node(p, setpage_node_size);@+break; -case setstream_node: - delete_xdimen_ref(setstream_max(p)); - delete_xdimen_ref(setstream_width(p)); - delete_glue_ref(setstream_topskip(p)); - delete_glue_ref(setstream_height(p)); - flush_node_list(setstream_before(p)); - flush_node_list(setstream_after(p)); - free_node(p,setstream_node_size); @+break; -case ignore_node: - flush_node_list(ignore_list(p)); - free_node(p,ignore_node_size); @+break; -case start_link_node: - if (label_has_name(p)) delete_token_ref(label_ptr(p)); - free_node(p,link_node_size);@+break; -case end_link_node: - free_node(p,link_node_size);@+break; -case label_node: - if (label_has_name(p)) delete_token_ref(label_ptr(p)); - free_node(p,label_node_size);@+break; -case outline_node: - if (label_has_name(p)) delete_token_ref(label_ptr(p)); - flush_node_list(outline_ptr(p)); - free_node(p,outline_node_size);@+break; -case stream_node: - free_node(p,stream_node_size); @+break; -case xdimen_node: - free_node(p,xdimen_node_size); -default:confusion("ext3"); -@:this can't happen ext3}{\quad ext3@> -} @/ -goto done; -} - -@ @<Incorporate a whatsit node into a vbox@>=do_nothing - -@ @<Incorporate a whatsit node into an hbox@>=do_nothing - -@ @<Let |d| be the width of the whatsit |p|@>=d=0 - -@ @d adv_past(A) @+if (subtype(A)==language_node) - {@+cur_lang=what_lang(A);l_hyf=what_lhm(A);r_hyf=what_rhm(A);@+} - -@<Advance \(p)past a whatsit node in the \(l)|line_break| loop@>=@+ -adv_past(cur_p) - -@ @<Advance \(p)past a whatsit node in the \(p)pre-hyphenation loop@>=@+ -adv_past(s) - -@ @<Prepare to move whatsit |p| to the current page, then |goto contribute|@>= -goto contribute - -@ @<Process whatsit |p| in |vert_break| loop, |goto not_found|@>= -goto not_found - -@ @<Output the whatsit node |p| in a vlist@>= -out_what(p) - -@ @<Output the whatsit node |p| in an hlist@>= -out_what(p) - -@ After all this preliminary shuffling, we come finally to the routines -that actually send out the requested data. Let's do \.{\\special} first -(it's easier). - -@<Declare procedures needed in |hlist_out|, |vlist_out|@>= -static void special_out(pointer @!p) -{@+int old_setting; /*holds print |selector|*/ -int @!k; /*index into |str_pool|*/ -synch_h;synch_v;@/ -old_setting=selector;selector=new_string; -show_token_list(link(write_tokens(p)), null, pool_size-pool_ptr); -selector=old_setting; -str_room(1); -if (cur_length < 256) - {@+dvi_out(xxx1);dvi_out(cur_length); - } -else{@+dvi_out(xxx4);dvi_four(cur_length); - } -for (k=str_start[str_ptr]; k<=pool_ptr-1; k++) dvi_out(so(str_pool[k])); -pool_ptr=str_start[str_ptr]; /*erase the string*/ -} - -@ To write a token list, we must run it through \TeX's scanner, expanding -macros and \.{\\the} and \.{\\number}, etc. This might cause runaways, -if a delimited macro parameter isn't matched, and runaways would be -extremely confusing since we are calling on \TeX's scanner in the middle -of a \.{\\shipout} command. Therefore we will put a dummy control sequence as -a ``stopper,'' right after the token list. This control sequence is -artificially defined to be \.{\\outer}. -@:end\_write\_}{\.{\\endwrite}@> - -@<Initialize table...@>= -text(end_write)=s_no("endwrite");eq_level(end_write)=level_one; -eq_type(end_write)=outer_call;equiv(end_write)=null; - -@ @<Declare procedures needed in |hlist_out|, |vlist_out|@>= -static void write_out(pointer @!p) -{@+int old_setting; /*holds print |selector|*/ -int @!old_mode; /*saved |mode|*/ -small_number @!j; /*write stream number*/ -pointer @!q, @!r; /*temporary variables for list manipulation*/ -@<Expand macros in the token list and make |link(def_ref)| point to the result@>; -old_setting=selector;j=write_stream(p); -if (write_open[j]) selector=j; -else{@+ /*write to the terminal if file isn't open*/ - if ((j==17)&&(selector==term_and_log)) selector=log_only; - print_nl(""); - } -token_show(def_ref);print_ln(); -flush_list(def_ref);selector=old_setting; -} - -@ The final line of this routine is slightly subtle; at least, the author -didn't think about it until getting burnt! There is a used-up token list -@^Knuth, Donald Ervin@> -on the stack, namely the one that contained |end_write_token|. (We -insert this artificial `\.{\\endwrite}' to prevent runaways, as explained -above.) If it were not removed, and if there were numerous writes on a -single page, the stack would overflow. - -@d end_write_token cs_token_flag+end_write - -@<Expand macros in the token list and...@>= -q=get_avail();info(q)=right_brace_token+'}';@/ -r=get_avail();link(q)=r;info(r)=end_write_token;ins_list(q);@/ -begin_token_list(write_tokens(p), write_text);@/ -q=get_avail();info(q)=left_brace_token+'{';ins_list(q); - /*now we're ready to scan - `\.\{$\langle\,$token list$\,\rangle$\.{\} \\endwrite}'*/ -old_mode=mode;mode=0; - /*disable \.{\\prevdepth}, \.{\\spacefactor}, \.{\\lastskip}, \.{\\prevgraf}*/ -cur_cs=write_loc;q=scan_toks(false, true); /*expand macros, etc.*/ -get_token();@+if (cur_tok!=end_write_token) - @<Recover from an unbalanced write command@>; -mode=old_mode; -end_token_list() /*conserve stack space*/ - -@ @<Recover from an unbalanced write command@>= -{@+print_err("Unbalanced write command"); -@.Unbalanced write...@> -help2("On this page there's a \\write with fewer real {'s than }'s.",@/ -"I can't handle that very well; good luck.");error(); -@/do@+{get_token(); -}@+ while (!(cur_tok==end_write_token)); -} - -@ The |out_what| procedure takes care of outputting whatsit nodes for -|vlist_out| and |hlist_out|\kern-.3pt. - -@<Declare procedures needed in |hlist_out|, |vlist_out|@>= -void out_what(pointer @!p) -{@+small_number j; /*write stream number*/ -if (subtype(p)==open_node||subtype(p)==write_node||subtype(p)==close_node) -@<Do some work that has been queued up for \.{\\write}@>@; -} - -@ We don't implement \.{\\write} inside of leaders. (The reason is that -the number of times a leader box appears might be different in different -implementations, due to machine-dependent rounding in the glue calculations.) -@^leaders@> - -@<Do some work that has been queued up...@>= -if (!doing_leaders) - {@+j=write_stream(p); - if (subtype(p)==write_node) write_out(p); - else{@+if (write_open[j]) a_close(&write_file[j]); - if (subtype(p)==close_node) write_open[j]=false; - else if (j < 16) - {@+cur_name=open_name(p); - set_cur_area_ext(open_area(p),open_ext(p)); - if (cur_ext[0]==0) cur_ext=".tex"; - pack_cur_name; - while (!a_open_out(&write_file[j])) - prompt_file_name("output file name",".tex"); - write_open[j]=true; - } - } - } - -@ The presence of `\.{\\immediate}' causes the |do_extension| procedure -to descend to one level of recursion. Nothing happens unless \.{\\immediate} -is followed by `\.{\\openout}', `\.{\\write}', or `\.{\\closeout}'. -@^recursion@> - -@<Implement \.{\\immediate}@>= -{@+get_x_token(); -if ((cur_cmd==extension)&&(cur_chr <= close_node)) - {@+p=tail;do_extension(); /*append a whatsit node*/ - out_what(tail); /*do the action immediately*/ - flush_node_list(tail);tail=p;link(p)=null; - } -else back_input(); -} - -@ The \.{\\language} extension is somewhat different. -We need a subroutine that comes into play when a character of -a non-|clang| language is being appended to the current paragraph. - -@<Declare action...@>= -static void fix_language(void) -{@+ASCII_code @!l; /*the new current language*/ -if (language <= 0) l=0; -else if (language > 255) l=0; -else l=language; -if (l!=clang) - {@+new_whatsit(language_node, small_node_size); - what_lang(tail)=l;clang=l;@/ - what_lhm(tail)=norm_min(left_hyphen_min); - what_rhm(tail)=norm_min(right_hyphen_min); - } -} - -@ @<Implement \.{\\setlanguage}@>= -if (abs(mode)!=hmode) report_illegal_case(); -else{@+new_whatsit(language_node, small_node_size); - scan_int(); - if (cur_val <= 0) clang=0; - else if (cur_val > 255) clang=0; - else clang=cur_val; - what_lang(tail)=clang; - what_lhm(tail)=norm_min(left_hyphen_min); - what_rhm(tail)=norm_min(right_hyphen_min); - } - -@ @<Finish the extensions@>= -for (k=0; k<=15; k++) if (write_open[k]) a_close(&write_file[k]) - -@* The extended features of \eTeX. -The program has two modes of operation: (1)~In \TeX\ compatibility mode -it fully deserves the name \TeX\ and there are neither extended features -nor additional primitive commands. There are, however, a few -modifications that would be legitimate in any implementation of \TeX\ -such as, e.g., preventing inadequate results of the glue to \.{DVI} -unit conversion during |ship_out|. (2)~In extended mode there are -additional primitive commands and the extended features of \eTeX\ are -available. - -The distinction between these two modes of operation initially takes -place when a `virgin' \.{eINITEX} starts without reading a format file. -Later on the values of all \eTeX\ state variables are inherited when -\.{eVIRTEX} (or \.{eINITEX}) reads a format file. - -The code below is designed to work for cases where `$|init|\ldots|tini|$' -is a run-time switch. - -@<Enable \eTeX, if requested@>= -#ifdef @!INIT -if (iniversion && (buffer[loc]=='*'||etexp)&&str_eq_str(format_ident," (INITEX)")) - {@+no_new_control_sequence=false; - @<Generate all \eTeX\ primitives@>@; - if (buffer[loc]=='*') incr(loc); - eTeX_mode=1; /*enter extended mode*/ - @<Initialize variables for \eTeX\ extended mode@>; - } -#endif -@;@/ -if (!no_new_control_sequence) /*just entered extended mode ?*/ - no_new_control_sequence=true;@+else - -@ The \eTeX\ features available in extended mode are grouped into two -categories: (1)~Some of them are permanently enabled and have no -semantic effect as long as none of the additional primitives are -executed. (2)~The remaining \eTeX\ features are optional and can be -individually enabled and disabled. For each optional feature there is -an \eTeX\ state variable named \.{\\...state}; the feature is enabled, -resp.\ disabled by assigning a positive, resp.\ non-positive value to -that integer. - -@d eTeX_state_base (int_base+eTeX_state_code) -@d eTeX_state(A) eqtb[eTeX_state_base+A].i /*an \eTeX\ state variable*/ -@# -@d eTeX_version_code eTeX_int /*code for \.{\\eTeXversion}*/ - -@<Generate all \eTeX...@>= -primitive("lastnodetype", last_item, last_node_type_code); -@!@:last\_node\_type\_}{\.{\\lastnodetype} primitive@> -primitive("eTeXversion", last_item, eTeX_version_code); -@!@:eTeX\_version\_}{\.{\\eTeXversion} primitive@> -primitive("eTeXrevision", convert, eTeX_revision_code);@/ -@!@:eTeX\_revision\_}{\.{\\eTeXrevision} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case last_node_type_code: print_esc("lastnodetype");@+break; -case eTeX_version_code: print_esc("eTeXversion");@+break; - -@ @<Cases for fetching an integer value@>= -case eTeX_version_code: cur_val=eTeX_version;@+break; - -@ @d eTeX_ex (eTeX_mode==1) /*is this extended mode?*/ - -@<Glob...@>= -static int @!eTeX_mode; /*identifies compatibility and extended mode*/ - -@ @<Initialize table entries...@>= -eTeX_mode=0; /*initially we are in compatibility mode*/ -@<Initialize variables for \eTeX\ compatibility mode@>@; - -@ @<Dump the \eTeX\ state@>= -dump_int(eTeX_mode); -for (j=0; j<=eTeX_states-1; j++) eTeX_state(j)=0; /*disable all enhancements*/ - -@ @<Undump the \eTeX\ state@>= -undump(0, 1, eTeX_mode); -if (eTeX_ex) - {@+@<Initialize variables for \eTeX\ extended mode@>; - } -else{@+@<Initialize variables for \eTeX\ compatibility mode@>; - } - -@ The |eTeX_enabled| function simply returns its first argument as -result. This argument is |true| if an optional \eTeX\ feature is -currently enabled; otherwise, if the argument is |false|, the function -gives an error message. - -@<Declare \eTeX\ procedures for use...@>= -static bool eTeX_enabled(bool @!b, quarterword @!j, halfword @!k) -{@+if (!b) - {@+print_err("Improper ");print_cmd_chr(j, k); - help1("Sorry, this optional e-TeX feature has been disabled.");error(); - } -return b; -} - -@ First we implement the additional \eTeX\ parameters in the table of -equivalents. - -@<Generate all \eTeX...@>= -primitive("everyeof", assign_toks, every_eof_loc); -@!@:every\_eof\_}{\.{\\everyeof} primitive@> -primitive("tracingassigns", assign_int, int_base+tracing_assigns_code);@/ -@!@:tracing\_assigns\_}{\.{\\tracingassigns} primitive@> -primitive("tracinggroups", assign_int, int_base+tracing_groups_code);@/ -@!@:tracing\_groups\_}{\.{\\tracinggroups} primitive@> -primitive("tracingifs", assign_int, int_base+tracing_ifs_code);@/ -@!@:tracing\_ifs\_}{\.{\\tracingifs} primitive@> -primitive("tracingscantokens", assign_int, int_base+tracing_scan_tokens_code);@/ -@!@:tracing\_scan\_tokens\_}{\.{\\tracingscantokens} primitive@> -primitive("tracingnesting", assign_int, int_base+tracing_nesting_code);@/ -@!@:tracing\_nesting\_}{\.{\\tracingnesting} primitive@> - -@ @d every_eof equiv(every_eof_loc) - -@<Cases of |assign_toks| for |print_cmd_chr|@>= -case every_eof_loc: print_esc("everyeof");@+break; - -@ @<Cases for |print_param|@>= -case tracing_assigns_code: print_esc("tracingassigns");@+break; -case tracing_groups_code: print_esc("tracinggroups");@+break; -case tracing_ifs_code: print_esc("tracingifs");@+break; -case tracing_scan_tokens_code: print_esc("tracingscantokens");@+break; -case tracing_nesting_code: print_esc("tracingnesting");@+break; - -@ In order to handle \.{\\everyeof} we need an array |eof_seen| of -boolean variables. - -@<Glob...@>= -static bool @!eof_seen0[max_in_open], *const @!eof_seen = @!eof_seen0-1; /*has eof been seen?*/ - -@ The |print_group| procedure prints the current level of grouping and -the name corresponding to |cur_group|. - -@<Declare \eTeX\ procedures for tr...@>= -static void print_group(bool @!e) -{@+ -switch (cur_group) { - case bottom_level: {@+print("bottom level");return; - } - case simple_group: case semi_simple_group: - {@+if (cur_group==semi_simple_group) print("semi "); - print("simple"); - } @+break; - case hbox_group: case adjusted_hbox_group: - {@+if (cur_group==adjusted_hbox_group) print("adjusted "); - print("hbox"); - } @+break; - case vbox_group: print("vbox");@+break; - case vtop_group: print("vtop");@+break; - case align_group: case no_align_group: - {@+if (cur_group==no_align_group) print("no "); - print("align"); - } @+break; - case output_group: print("output");@+break; - case disc_group: print("disc");@+break; - case insert_group: print("insert");@+break; - case vcenter_group: print("vcenter");@+break; - case math_group: case math_choice_group: case math_shift_group: case math_left_group: - {@+print("math"); - if (cur_group==math_choice_group) print(" choice"); - else if (cur_group==math_shift_group) print(" shift"); - else if (cur_group==math_left_group) print(" left"); - } - } /*there are no other cases*/ -print(" group (level ");print_int(qo(cur_level));print_char(')'); -if (saved(-1)!=0) - {@+if (e) print(" entered at line ");else print(" at line "); - print_int(saved(-1)); - } -} - -@ The |group_trace| procedure is called when a new level of grouping -begins (|e==false|) or ends (|e==true|) with |saved(-1)| containing the -line number. - -@<Declare \eTeX\ procedures for tr...@>= -#ifdef @!STAT -static void group_trace(bool @!e) -{@+begin_diagnostic();print_char('{'); -if (e) print("leaving ");else print("entering "); -print_group(e);print_char('}');end_diagnostic(false); -} -#endif - -@ The \.{\\currentgrouplevel} and \.{\\currentgrouptype} commands return -the current level of grouping and the type of the current group -respectively. - -@d current_group_level_code (eTeX_int+1) /*code for \.{\\currentgrouplevel}*/ -@d current_group_type_code (eTeX_int+2) /*code for \.{\\currentgrouptype}*/ - -@<Generate all \eTeX...@>= -primitive("currentgrouplevel", last_item, current_group_level_code); -@!@:current\_group\_level\_}{\.{\\currentgrouplevel} primitive@> -primitive("currentgrouptype", last_item, current_group_type_code); -@!@:current\_group\_type\_}{\.{\\currentgrouptype} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case current_group_level_code: print_esc("currentgrouplevel");@+break; -case current_group_type_code: print_esc("currentgrouptype");@+break; - -@ @<Cases for fetching an integer value@>= -case current_group_level_code: cur_val=cur_level-level_one;@+break; -case current_group_type_code: cur_val=cur_group;@+break; - -@ The \.{\\currentiflevel}, \.{\\currentiftype}, and -\.{\\currentifbranch} commands return the current level of conditionals -and the type and branch of the current conditional. - -@d current_if_level_code (eTeX_int+3) /*code for \.{\\currentiflevel}*/ -@d current_if_type_code (eTeX_int+4) /*code for \.{\\currentiftype}*/ -@d current_if_branch_code (eTeX_int+5) /*code for \.{\\currentifbranch}*/ - -@<Generate all \eTeX...@>= -primitive("currentiflevel", last_item, current_if_level_code); -@!@:current\_if\_level\_}{\.{\\currentiflevel} primitive@> -primitive("currentiftype", last_item, current_if_type_code); -@!@:current\_if\_type\_}{\.{\\currentiftype} primitive@> -primitive("currentifbranch", last_item, current_if_branch_code); -@!@:current\_if\_branch\_}{\.{\\currentifbranch} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case current_if_level_code: print_esc("currentiflevel");@+break; -case current_if_type_code: print_esc("currentiftype");@+break; -case current_if_branch_code: print_esc("currentifbranch");@+break; - -@ @<Cases for fetching an integer value@>= -case current_if_level_code: {@+q=cond_ptr;cur_val=0; - while (q!=null) - {@+incr(cur_val);q=link(q); - } - } @+break; -case current_if_type_code: if (cond_ptr==null) cur_val=0; - else if (cur_if < unless_code) cur_val=cur_if+1; - else cur_val=-(cur_if-unless_code+1);@+break; -case current_if_branch_code: - if ((if_limit==or_code)||(if_limit==else_code)) cur_val=1; - else if (if_limit==fi_code) cur_val=-1; - else cur_val=0;@+break; - -@ The \.{\\fontcharwd}, \.{\\fontcharht}, \.{\\fontchardp}, and -\.{\\fontcharic} commands return information about a character in a -font. - -@d font_char_wd_code eTeX_dim /*code for \.{\\fontcharwd}*/ -@d font_char_ht_code (eTeX_dim+1) /*code for \.{\\fontcharht}*/ -@d font_char_dp_code (eTeX_dim+2) /*code for \.{\\fontchardp}*/ -@d font_char_ic_code (eTeX_dim+3) /*code for \.{\\fontcharic}*/ - -@<Generate all \eTeX...@>= -primitive("fontcharwd", last_item, font_char_wd_code); -@!@:font\_char\_wd\_}{\.{\\fontcharwd} primitive@> -primitive("fontcharht", last_item, font_char_ht_code); -@!@:font\_char\_ht\_}{\.{\\fontcharht} primitive@> -primitive("fontchardp", last_item, font_char_dp_code); -@!@:font\_char\_dp\_}{\.{\\fontchardp} primitive@> -primitive("fontcharic", last_item, font_char_ic_code); -@!@:font\_char\_ic\_}{\.{\\fontcharic} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case font_char_wd_code: print_esc("fontcharwd");@+break; -case font_char_ht_code: print_esc("fontcharht");@+break; -case font_char_dp_code: print_esc("fontchardp");@+break; -case font_char_ic_code: print_esc("fontcharic");@+break; - -@ @<Cases for fetching a dimension value@>= -case font_char_wd_code: -case font_char_ht_code: -case font_char_dp_code: -case font_char_ic_code: {@+scan_font_ident();q=cur_val;scan_char_num(); - if ((font_bc[q] <= cur_val)&&(font_ec[q] >= cur_val)) - {@+i=char_info(q, qi(cur_val)); - switch (m) { - case font_char_wd_code: cur_val=char_width(q, i);@+break; - case font_char_ht_code: cur_val=char_height(q, height_depth(i));@+break; - case font_char_dp_code: cur_val=char_depth(q, height_depth(i));@+break; - case font_char_ic_code: cur_val=char_italic(q, i); - } /*there are no other cases*/ - } - else cur_val=0; - } @+break; - -@ The \.{\\parshapedimen}, \.{\\parshapeindent}, and \.{\\parshapelength} -commands return the indent and length parameters of the current -\.{\\parshape} specification. - -@d par_shape_length_code (eTeX_dim+4) /*code for \.{\\parshapelength}*/ -@d par_shape_indent_code (eTeX_dim+5) /*code for \.{\\parshapeindent}*/ -@d par_shape_dimen_code (eTeX_dim+6) /*code for \.{\\parshapedimen}*/ - -@<Generate all \eTeX...@>= -primitive("parshapelength", last_item, par_shape_length_code); -@!@:par\_shape\_length\_}{\.{\\parshapelength} primitive@> -primitive("parshapeindent", last_item, par_shape_indent_code); -@!@:par\_shape\_indent\_}{\.{\\parshapeindent} primitive@> -primitive("parshapedimen", last_item, par_shape_dimen_code); -@!@:par\_shape\_dimen\_}{\.{\\parshapedimen} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case par_shape_length_code: print_esc("parshapelength");@+break; -case par_shape_indent_code: print_esc("parshapeindent");@+break; -case par_shape_dimen_code: print_esc("parshapedimen");@+break; - -@ @<Cases for fetching a dimension value@>= -case par_shape_length_code: -case par_shape_indent_code: -case par_shape_dimen_code: {@+q=cur_chr-par_shape_length_code;scan_int(); - if ((par_shape_ptr==null)||(cur_val <= 0)) cur_val=0; - else{@+if (q==2) - {@+q=cur_val%2;cur_val=(cur_val+q)/2; - } - if (cur_val > info(par_shape_ptr)) cur_val=info(par_shape_ptr); - cur_val=mem[par_shape_ptr+2*cur_val-q].sc; - } - cur_val_level=dimen_val; - } @+break; - -@ The \.{\\showgroups} command displays all currently active grouping -levels. - -@d show_groups 4 /* \.{\\showgroups} */ - -@<Generate all \eTeX...@>= -primitive("showgroups", xray, show_groups); -@!@:show\_groups\_}{\.{\\showgroups} primitive@> - -@ @<Cases of |xray| for |print_cmd_chr|@>= -case show_groups: print_esc("showgroups");@+break; - -@ @<Cases for |show_whatever|@>= -case show_groups: {@+begin_diagnostic();show_save_groups(); - } @+break; - -@ @<Types...@>= -typedef int32_t save_pointer; /*index into |save_stack|*/ - -@ The modifications of \TeX\ required for the display produced by the -|show_save_groups| procedure were first discussed by Donald~E. Knuth in -{\sl TUGboat\/} {\bf 11}, 165--170 and 499--511, 1990. -@^Knuth, Donald Ervin@> - -In order to understand a group type we also have to know its mode. -Since unrestricted horizontal modes are not associated with grouping, -they are skipped when traversing the semantic nest. - -@<Declare \eTeX\ procedures for use...@>= -static void show_save_groups(void) -{@+ -int p; /*index into |nest|*/ -int @!m; /*mode*/ -save_pointer @!v; /*saved value of |save_ptr|*/ -quarterword @!l; /*saved value of |cur_level|*/ -group_code @!c; /*saved value of |cur_group|*/ -int @!a; /*to keep track of alignments*/ -int @!i; -quarterword @!j; -char *@!s; -p=nest_ptr;nest[p]=cur_list; /*put the top level into the array*/ -v=save_ptr;l=cur_level;c=cur_group; -save_ptr=cur_boundary;decr(cur_level);@/ -a=1; -print_nl("");print_ln(); -loop@+{@+print_nl("### ");print_group(true); - if (cur_group==bottom_level) goto done; - @/do@+{m=nest[p].mode_field; - if (p > 0) decr(p);else m=vmode; - }@+ while (!(m!=hmode)); - print(" ("); - switch (cur_group) { - case simple_group: {@+incr(p);goto found2; - } - case hbox_group: case adjusted_hbox_group: s="hbox";@+break; - case vbox_group: s="vbox";@+break; - case vtop_group: s="vtop";@+break; - case align_group: if (a==0) - {@+if (m==-vmode) s="halign";else s="valign"; - a=1;goto found1; - } - else{@+if (a==1) print("align entry");else print_esc("cr"); - if (p >= a) p=p-a; - a=0;goto found; - } @+break; - case no_align_group: - {@+incr(p);a=-1;print_esc("noalign");goto found2; - } - case output_group: - {@+print_esc("output");goto found; - } - case math_group: goto found2; - case disc_group: case math_choice_group: - {@+if (cur_group==disc_group) print_esc("discretionary"); - else print_esc("mathchoice"); - for (i=1; i<=3; i++) if (i <= saved(-2)) print("{}"); - goto found2; - } - case insert_group: - {@+if (saved(-2)==255) print_esc("vadjust"); - else{@+print_esc("insert");print_int(saved(-2)); - } - goto found2; - } - case vcenter_group: {@+s="vcenter";goto found1; - } - case semi_simple_group: {@+incr(p);print_esc("begingroup");goto found; - } - case math_shift_group: - {@+if (m==mmode) print_char('$'); - else if (nest[p].mode_field==mmode) - {@+print_cmd_chr(eq_no, saved(-2));goto found; - } - print_char('$');goto found; - } - case math_left_group: - {@+if (type(nest[p+1].eTeX_aux_field)==left_noad) print_esc("left"); - else print_esc("middle"); - goto found; - } - } /*there are no other cases*/ - @<Show the box context@>; - found1: print_esc(s);@<Show the box packaging info@>; - found2: print_char('{'); - found: print_char(')');decr(cur_level); - cur_group=save_level(save_ptr);save_ptr=save_index(save_ptr); - } -done: save_ptr=v;cur_level=l;cur_group=c; -} - -@ @<Show the box packaging info@>= -if (saved(-2)!=0) - {@+print_char(' '); - if (saved(-3)==exactly) print("to");else print("spread"); - print_scaled(saved(-2));print("pt"); - } - -@ @<Show the box context@>= -i=saved(-4); -if (i!=0) - if (i < box_flag) - {@+if (abs(nest[p].mode_field)==vmode) j=hmove;else j=vmove; - if (i > 0) print_cmd_chr(j, 0);else print_cmd_chr(j, 1); - print_scaled(abs(i));print("pt"); - } - else if (i < ship_out_flag) - {@+if (i >= global_box_flag) - {@+print_esc("global");i=i-(global_box_flag-box_flag); - } - print_esc("setbox");print_int(i-box_flag);print_char('='); - } - else print_cmd_chr(leader_ship, i-(leader_flag-a_leaders)) - -@ The |scan_general_text| procedure is much like |scan_toks(false, false)|, -but will be invoked via |expand|, i.e., recursively. -@^recursion@> - -@<Declare \eTeX\ procedures for sc...@>= -static void scan_general_text(void); - -@ The token list (balanced text) created by |scan_general_text| begins -at |link(temp_head)| and ends at |cur_val|. (If |cur_val==temp_head|, -the list is empty.) - -@<Declare \eTeX\ procedures for tok...@>= -static void scan_general_text(void) -{@+ -int s; /*to save |scanner_status|*/ -pointer @!w; /*to save |warning_index|*/ -pointer @!d; /*to save |def_ref|*/ -pointer @!p; /*tail of the token list being built*/ -pointer @!q; /*new node being added to the token list via |store_new_token|*/ -halfword @!unbalance; /*number of unmatched left braces*/ -s=scanner_status;w=warning_index;d=def_ref; -scanner_status=absorbing;warning_index=cur_cs; -def_ref=get_avail();token_ref_count(def_ref)=null;p=def_ref; -scan_left_brace(); /*remove the compulsory left brace*/ -unbalance=1; -loop@+{@+get_token(); - if (cur_tok < right_brace_limit) - if (cur_cmd < right_brace) incr(unbalance); - else{@+decr(unbalance); - if (unbalance==0) goto found; - } - store_new_token(cur_tok); - } -found: q=link(def_ref);free_avail(def_ref); /*discard reference count*/ -if (q==null) cur_val=temp_head;@+else cur_val=p; -link(temp_head)=q; -scanner_status=s;warning_index=w;def_ref=d; -} - -@ The \.{\\showtokens} command displays a token list. - -@d show_tokens 5 /* \.{\\showtokens} , must be odd! */ - -@<Generate all \eTeX...@>= -primitive("showtokens", xray, show_tokens); -@!@:show\_tokens\_}{\.{\\showtokens} primitive@> - -@ @<Cases of |xray| for |print_cmd_chr|@>= -case show_tokens: print_esc("showtokens");@+break; - -@ The \.{\\unexpanded} primitive prevents expansion of tokens much as -the result from \.{\\the} applied to a token variable. The -\.{\\detokenize} primitive converts a token list into a list of -character tokens much as if the token list were written to a file. We -use the fact that the command modifiers for \.{\\unexpanded} and -\.{\\detokenize} are odd whereas those for \.{\\the} and \.{\\showthe} -are even. - -@<Generate all \eTeX...@>= -primitive("unexpanded", the, 1);@/ -@!@:unexpanded\_}{\.{\\unexpanded} primitive@> -primitive("detokenize", the, show_tokens);@/ -@!@:detokenize\_}{\.{\\detokenize} primitive@> - -@ @<Cases of |the| for |print_cmd_chr|@>=; -else if (chr_code==1) print_esc("unexpanded"); -else print_esc("detokenize") - -@ @<Handle \.{\\unexpanded} or \.{\\detokenize} and |return|@>= -if (odd(cur_chr)) - {@+c=cur_chr;scan_general_text(); - if (c==1) return cur_val; - else{@+old_setting=selector;selector=new_string;b=pool_ptr; - p=get_avail();link(p)=link(temp_head); - token_show(p);flush_list(p); - selector=old_setting;return str_toks(b); - } - - } - -@ The \.{\\showifs} command displays all currently active conditionals. - -@d show_ifs 6 /* \.{\\showifs} */ - -@<Generate all \eTeX...@>= -primitive("showifs", xray, show_ifs); -@!@:show\_ifs\_}{\.{\\showifs} primitive@> - -@ @<Cases of |xray| for |print_cmd_chr|@>= -case show_ifs: print_esc("showifs");@+break; - -@ @d print_if_line(A) if (A!=0) - {@+print(" entered on line ");print_int(A); - } - -@<Cases for |show_whatever|@>= -case show_ifs: {@+begin_diagnostic();print_nl("");print_ln(); - if (cond_ptr==null) - {@+print_nl("### ");print("no active conditionals"); - } - else{@+p=cond_ptr;n=0; - @/do@+{incr(n);p=link(p);@+}@+ while (!(p==null)); - p=cond_ptr;t=cur_if;l=if_line;m=if_limit; - @/do@+{print_nl("### level ");print_int(n);print(": "); - print_cmd_chr(if_test, t); - if (m==fi_code) print_esc("else"); - print_if_line(l); - decr(n);t=subtype(p);l=if_line_field(p);m=type(p);p=link(p); - }@+ while (!(p==null)); - } - } @+break; - -@ The \.{\\interactionmode} primitive allows to query and set the -interaction mode. - -@<Generate all \eTeX...@>= -primitive("interactionmode", set_page_int, 2); -@!@:interaction\_mode\_}{\.{\\interactionmode} primitive@> - -@ @<Cases of |set_page_int| for |print_cmd_chr|@>=; -else if (chr_code==2) print_esc("interactionmode") - -@ @<Cases for `Fetch the |dead_cycles| or the |insert_penalties|'@>=; -else if (m==2) cur_val=interaction - -@ @<Declare \eTeX\ procedures for use...@>= -static void new_interaction(void); - -@ @<Cases for |alter_integer|@>=; -else if (c==2) - {@+if ((cur_val < batch_mode)||(cur_val > error_stop_mode)) - {@+print_err("Bad interaction mode"); -@.Bad interaction mode@> - help2("Modes are 0=batch, 1=nonstop, 2=scroll, and",@/ - "3=errorstop. Proceed, and I'll ignore this case."); - int_error(cur_val); - } - else{@+cur_chr=cur_val;new_interaction(); - } - } - -@ The |middle| feature of \eTeX\ allows one ore several \.{\\middle} -delimiters to appear between \.{\\left} and \.{\\right}. - -@<Generate all \eTeX...@>= -primitive("middle", left_right, middle_noad); -@!@:middle\_}{\.{\\middle} primitive@> - -@ @<Cases of |left_right| for |print_cmd_chr|@>=; -else if (chr_code==middle_noad) print_esc("middle") - -@ The |scan_tokens| feature of \eTeX\ defines the \.{\\scantokens} -primitive. - -@<Generate all \eTeX...@>= -primitive("scantokens", input, 2); -@!@:scan\_tokens\_}{\.{\\scantokens} primitive@> - -@ @<Cases of |input| for |print_cmd_chr|@>=; -else if (chr_code==2) print_esc("scantokens") - -@ @<Cases for |input|@>=; -else if (cur_chr==2) pseudo_start() - -@ The global variable |pseudo_files| is used to maintain a stack of -pseudo files. The |info| field of each pseudo file points to a linked -list of variable size nodes representing lines not yet processed: the -|info| field of the first word contains the size of this node, all the -following words contain ASCII codes. - -@<Glob...@>= -static pointer @!pseudo_files; /*stack of pseudo files*/ - -@ @<Set init...@>= -pseudo_files=null; - -@ The |pseudo_start| procedure initiates reading from a pseudo file. - -@<Declare \eTeX\ procedures for ex...@>= -static void pseudo_start(void); - -@ @<Declare \eTeX\ procedures for tok...@>= -static void pseudo_start(void) -{@+int old_setting; /*holds |selector| setting*/ -str_number @!s; /*string to be converted into a pseudo file*/ -pool_pointer @!l, @!m; /*indices into |str_pool|*/ -pointer @!p, @!q, @!r; /*for list construction*/ -four_quarters @!w; /*four ASCII codes*/ -int @!nl, @!sz; -scan_general_text(); -old_setting=selector;selector=new_string; -token_show(temp_head);selector=old_setting; -flush_list(link(temp_head)); -str_room(1);s=make_string(); -@<Convert string |s| into a new pseudo file@>; -flush_string; -@<Initiate input from new pseudo file@>; -} - -@ @<Convert string |s| into a new pseudo file@>= -str_pool[pool_ptr]=si(' ');l=str_start[s]; -nl=si(new_line_char); -p=get_avail();q=p; -while (l < pool_ptr) - {@+m=l; - while ((l < pool_ptr)&&(str_pool[l]!=nl)) incr(l); - sz=(l-m+7)/4; - if (sz==1) sz=2; - r=get_node(sz);link(q)=r;q=r;info(q)=hi(sz); - while (sz > 2) - {@+decr(sz);incr(r); - w.b0=qi(so(str_pool[m]));w.b1=qi(so(str_pool[m+1])); - w.b2=qi(so(str_pool[m+2]));w.b3=qi(so(str_pool[m+3])); - mem[r].qqqq=w;m=m+4; - } - w.b0=qi(' ');w.b1=qi(' ');w.b2=qi(' ');w.b3=qi(' '); - if (l > m) - {@+w.b0=qi(so(str_pool[m])); - if (l > m+1) - {@+w.b1=qi(so(str_pool[m+1])); - if (l > m+2) - {@+w.b2=qi(so(str_pool[m+2])); - if (l > m+3) w.b3=qi(so(str_pool[m+3])); - } - } - } - mem[r+1].qqqq=w; - if (str_pool[l]==nl) incr(l); - } -info(p)=link(p);link(p)=pseudo_files;pseudo_files=p - -@ @<Initiate input from new pseudo file@>= -begin_file_reading(); /*set up |cur_file| and new level of input*/ -line=0;limit=start;loc=limit+1; /*force line read*/ -if (tracing_scan_tokens > 0) - {@+if (term_offset > max_print_line-3) print_ln(); - else if ((term_offset > 0)||(file_offset > 0)) print_char(' '); - name=19;print("( ");incr(open_parens);update_terminal; - } -else name=18 - -@ Here we read a line from the current pseudo file into |buffer|. - -@<Declare \eTeX\ procedures for tr...@>= -static bool pseudo_input(void) /*inputs the next line or returns |false|*/ -{@+pointer p; /*current line from pseudo file*/ -int @!sz; /*size of node |p|*/ -four_quarters @!w; /*four ASCII codes*/ -int @!r; /*loop index*/ -last=first; /*cf.\ Matthew 19\thinspace:\thinspace30*/ -p=info(pseudo_files); -if (p==null) return false; -else{@+info(pseudo_files)=link(p);sz=ho(info(p)); - if (4*sz-3 >= buf_size-last) - @<Report overflow of the input buffer, and abort@>; - last=first; - for (r=p+1; r<=p+sz-1; r++) - {@+w=mem[r].qqqq; - buffer[last]=w.b0;buffer[last+1]=w.b1; - buffer[last+2]=w.b2;buffer[last+3]=w.b3; - last=last+4; - } - if (last >= max_buf_stack) max_buf_stack=last+1; - while ((last > first)&&(buffer[last-1]==' ')) decr(last); - free_node(p, sz); - return true; - } -} - -@ When we are done with a pseudo file we `close' it. - -@<Declare \eTeX\ procedures for tr...@>= -static void pseudo_close(void) /*close the top level pseudo file*/ -{@+pointer p, @!q; -p=link(pseudo_files);q=info(pseudo_files); -free_avail(pseudo_files);pseudo_files=p; -while (q!=null) - {@+p=q;q=link(p);free_node(p, ho(info(p))); - } -} - -@ @<Dump the \eTeX\ state@>= -while (pseudo_files!=null) pseudo_close(); /*flush pseudo files*/ - -@ @<Generate all \eTeX...@>= -primitive("readline", read_to_cs, 1);@/ -@!@:read\_line\_}{\.{\\readline} primitive@> - -@ @<Cases of |read| for |print_cmd_chr|@>=; -else print_esc("readline") - -@ @<Handle \.{\\readline} and |goto done|@>= -if (j==1) - {@+while (loc <= limit) /*current line not yet finished*/ - {@+cur_chr=buffer[loc];incr(loc); - if (cur_chr==' ') cur_tok=space_token; - @+else cur_tok=cur_chr+other_token; - store_new_token(cur_tok); - } - goto done; - } - -@ Here we define the additional conditionals of \eTeX\ as well as the -\.{\\unless} prefix. - -@d if_def_code 17 /* `\.{\\ifdefined}' */ -@d if_cs_code 18 /* `\.{\\ifcsname}' */ -@d if_font_char_code 19 /* `\.{\\iffontchar}' */ - -@<Generate all \eTeX...@>= -primitive("unless", expand_after, 1);@/ -@!@:unless\_}{\.{\\unless} primitive@> -primitive("ifdefined", if_test, if_def_code); -@!@:if\_defined\_}{\.{\\ifdefined} primitive@> -primitive("ifcsname", if_test, if_cs_code); -@!@:if\_cs\_name\_}{\.{\\ifcsname} primitive@> -primitive("iffontchar", if_test, if_font_char_code); -@!@:if\_font\_char\_}{\.{\\iffontchar} primitive@> - -@ @<Cases of |expandafter| for |print_cmd_chr|@>=; -else print_esc("unless") - -@ @<Cases of |if_test| for |print_cmd_chr|@>= -case if_def_code: print_esc("ifdefined");@+break; -case if_cs_code: print_esc("ifcsname");@+break; -case if_font_char_code: print_esc("iffontchar");@+break; - -@ The result of a boolean condition is reversed when the conditional is -preceded by \.{\\unless}. - -@<Negate a boolean conditional and |goto reswitch|@>= -{@+get_token(); -if ((cur_cmd==if_test)&&(cur_chr!=if_case_code)) - {@+cur_chr=cur_chr+unless_code;goto reswitch; - } -print_err("You can't use `");print_esc("unless");print("' before `"); -@.You can't use \\unless...@> -print_cmd_chr(cur_cmd, cur_chr);print_char('\''); -help1("Continue, and I'll forget that it ever happened."); -back_error(); -} - -@ The conditional \.{\\ifdefined} tests if a control sequence is -defined. - -We need to reset |scanner_status|, since \.{\\outer} control sequences -are allowed, but we might be scanning a macro definition or preamble. - -@<Cases for |conditional|@>= -case if_def_code: {@+save_scanner_status=scanner_status; - scanner_status=normal; - get_next();b=(cur_cmd!=undefined_cs); - scanner_status=save_scanner_status; - } @+break; - -@ The conditional \.{\\ifcsname} is equivalent to \.{\{\\expandafter} -\.{\}\\expandafter} \.{\\ifdefined} \.{\\csname}, except that no new -control sequence will be entered into the hash table (once all tokens -preceding the mandatory \.{\\endcsname} have been expanded). - -@<Cases for |conditional|@>= -case if_cs_code: {@+n=get_avail();p=n; /*head of the list of characters*/ - @/do@+{get_x_token(); - if (cur_cs==0) store_new_token(cur_tok); - }@+ while (!(cur_cs!=0)); - if (cur_cmd!=end_cs_name) @<Complain about missing \.{\\endcsname}@>; - @<Look up the characters of list |n| in the hash table, and set |cur_cs|@>; - flush_list(n); - b=(eq_type(cur_cs)!=undefined_cs); - } @+break; - -@ @<Look up the characters of list |n| in the hash table...@>= -m=first;p=link(n); -while (p!=null) - {@+if (m >= max_buf_stack) - {@+max_buf_stack=m+1; - if (max_buf_stack==buf_size) - overflow("buffer size", buf_size); -@:TeX capacity exceeded buffer size}{\quad buffer size@> - } - buffer[m]=info(p)%0400;incr(m);p=link(p); - } -if (m==first) cur_cs=null_cs; /*the list is empty*/ -else if (m > first+1) - cur_cs=id_lookup(first, m-first); /*|no_new_control_sequence| is |true|*/ -else cur_cs=single_base+buffer[first] /*the list has length one*/ - -@ The conditional \.{\\iffontchar} tests the existence of a character in -a font. - -@<Cases for |conditional|@>= -case if_font_char_code: {@+scan_font_ident();n=cur_val;scan_char_num(); - if ((font_bc[n] <= cur_val)&&(font_ec[n] >= cur_val)) - b=char_exists(char_info(n, qi(cur_val))); - else b=false; - } @+break; - -@ The |protected| feature of \eTeX\ defines the \.{\\protected} prefix -command for macro definitions. Such macros are protected against -expansions when lists of expanded tokens are built, e.g., for \.{\\edef} -or during \.{\\write}. - -@<Generate all \eTeX...@>= -primitive("protected", prefix, 8); -@!@:protected\_}{\.{\\protected} primitive@> - -@ @<Cases of |prefix| for |print_cmd_chr|@>=; -else if (chr_code==8) print_esc("protected") - -@ The |get_x_or_protected| procedure is like |get_x_token| except that -protected macros are not expanded. - -@<Declare \eTeX\ procedures for sc...@>= -static void get_x_or_protected(void) /*sets |cur_cmd|, |cur_chr|, |cur_tok|, - and expands non-protected macros*/ -{@+ -loop@+{@+get_token(); - if (cur_cmd <= max_command) return; - if ((cur_cmd >= call)&&(cur_cmd < end_template)) - if (info(link(cur_chr))==protected_token) return; - expand(); - } -} - -@ A group entered (or a conditional started) in one file may end in a -different file. Such slight anomalies, although perfectly legitimate, -may cause errors that are difficult to locate. In order to be able to -give a warning message when such anomalies occur, \eTeX\ uses the -|grp_stack| and |if_stack| arrays to record the initial |cur_boundary| -and |cond_ptr| values for each input file. - -@<Glob...@>= -static save_pointer @!grp_stack[max_in_open+1]; /*initial |cur_boundary|*/ -static pointer @!if_stack[max_in_open+1]; /*initial |cond_ptr|*/ - -@ When a group ends that was apparently entered in a different input -file, the |group_warning| procedure is invoked in order to update the -|grp_stack|. If moreover \.{\\tracingnesting} is positive we want to -give a warning message. The situation is, however, somewhat complicated -by two facts: (1)~There may be |grp_stack| elements without a -corresponding \.{\\input} file or \.{\\scantokens} pseudo file (e.g., -error insertions from the terminal); and (2)~the relevant information is -recorded in the |name_field| of the |input_stack| only loosely -synchronized with the |in_open| variable indexing |grp_stack|. - -@<Declare \eTeX\ procedures for tr...@>= -static void group_warning(void) -{@+int i; /*index into |grp_stack|*/ -bool @!w; /*do we need a warning?*/ -base_ptr=input_ptr;input_stack[base_ptr]=cur_input; - /*store current state*/ -i=in_open;w=false; -while ((grp_stack[i]==cur_boundary)&&(i > 0)) - {@+@<Set variable |w| to indicate if this case should be reported@>; - grp_stack[i]=save_index(save_ptr);decr(i); - } -if (w) - {@+print_nl("Warning: end of ");print_group(true); -@.Warning: end of...@> - print(" of a different file");print_ln(); - if (tracing_nesting > 1) show_context(); - if (history==spotless) history=warning_issued; - } -} - -@ This code scans the input stack in order to determine the type of the -current input file. - -@<Set variable |w| to...@>= -if (tracing_nesting > 0) - {@+while ((input_stack[base_ptr].state_field==token_list)||@| - (input_stack[base_ptr].index_field > i)) decr(base_ptr); - if (input_stack[base_ptr].name_field > 17) w=true; - } - -@ When a conditional ends that was apparently started in a different -input file, the |if_warning| procedure is invoked in order to update the -|if_stack|. If moreover \.{\\tracingnesting} is positive we want to -give a warning message (with the same complications as above). - -@<Declare \eTeX\ procedures for tr...@>= -static void if_warning(void) -{@+int i; /*index into |if_stack|*/ -bool @!w; /*do we need a warning?*/ -base_ptr=input_ptr;input_stack[base_ptr]=cur_input; - /*store current state*/ -i=in_open;w=false; -while (if_stack[i]==cond_ptr) - {@+@<Set variable |w| to...@>; - if_stack[i]=link(cond_ptr);decr(i); - } -if (w) - {@+print_nl("Warning: end of ");print_cmd_chr(if_test, cur_if); -@.Warning: end of...@> - print_if_line(if_line);print(" of a different file");print_ln(); - if (tracing_nesting > 1) show_context(); - if (history==spotless) history=warning_issued; - } -} - -@ Conversely, the |file_warning| procedure is invoked when a file ends -and some groups entered or conditionals started while reading from that -file are still incomplete. - -@<Declare \eTeX\ procedures for tr...@>= -static void file_warning(void) -{@+pointer p; /*saved value of |save_ptr| or |cond_ptr|*/ -quarterword @!l; /*saved value of |cur_level| or |if_limit|*/ -quarterword @!c; /*saved value of |cur_group| or |cur_if|*/ -int @!i; /*saved value of |if_line|*/ -p=save_ptr;l=cur_level;c=cur_group;save_ptr=cur_boundary; -while (grp_stack[in_open]!=save_ptr) - {@+decr(cur_level); - print_nl("Warning: end of file when "); -@.Warning: end of file when...@> - print_group(true);print(" is incomplete");@/ - cur_group=save_level(save_ptr);save_ptr=save_index(save_ptr); - } -save_ptr=p;cur_level=l;cur_group=c; /*restore old values*/ -p=cond_ptr;l=if_limit;c=cur_if;i=if_line; -while (if_stack[in_open]!=cond_ptr) - {@+print_nl("Warning: end of file when "); -@.Warning: end of file when...@> - print_cmd_chr(if_test, cur_if); - if (if_limit==fi_code) print_esc("else"); - print_if_line(if_line);print(" is incomplete");@/ - if_line=if_line_field(cond_ptr);cur_if=subtype(cond_ptr); - if_limit=type(cond_ptr);cond_ptr=link(cond_ptr); - } -cond_ptr=p;if_limit=l;cur_if=c;if_line=i; /*restore old values*/ -print_ln(); -if (tracing_nesting > 1) show_context(); -if (history==spotless) history=warning_issued; -} - -@ Here are the additional \eTeX\ primitives for expressions. - -@<Generate all \eTeX...@>= -primitive("numexpr", last_item, eTeX_expr-int_val+int_val); -@!@:num\_expr\_}{\.{\\numexpr} primitive@> -primitive("dimexpr", last_item, eTeX_expr-int_val+dimen_val); -@!@:dim\_expr\_}{\.{\\dimexpr} primitive@> -primitive("glueexpr", last_item, eTeX_expr-int_val+glue_val); -@!@:glue\_expr\_}{\.{\\glueexpr} primitive@> -primitive("muexpr", last_item, eTeX_expr-int_val+mu_val); -@!@:mu\_expr\_}{\.{\\muexpr} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case eTeX_expr-int_val+int_val: print_esc("numexpr");@+break; -case eTeX_expr-int_val+dimen_val: print_esc("dimexpr");@+break; -case eTeX_expr-int_val+glue_val: print_esc("glueexpr");@+break; -case eTeX_expr-int_val+mu_val: print_esc("muexpr");@+break; - -@ This code for reducing |cur_val_level| and\slash or negating the -result is similar to the one for all the other cases of -|scan_something_internal|, with the difference that |scan_expr| has -already increased the reference count of a glue specification. - -@<Process an expression and |return|@>= -{@+if (m < eTeX_mu) - {@+switch (m) { - @/@<Cases for fetching a glue value@>@/ - } /*there are no other cases*/ - cur_val_level=glue_val; - } -else if (m < eTeX_expr) - {@+switch (m) { - @/@<Cases for fetching a mu value@>@/ - } /*there are no other cases*/ - cur_val_level=mu_val; - } -else{@+cur_val_level=m-eTeX_expr+int_val;scan_expr(); - } -while (cur_val_level > level) - {@+if (cur_val_level==glue_val) - {@+m=cur_val;cur_val=width(m);delete_glue_ref(m); - } - else if (cur_val_level==mu_val) mu_error(); - decr(cur_val_level); - } -if (negative) - if (cur_val_level >= glue_val) - {@+m=cur_val;cur_val=new_spec(m);delete_glue_ref(m); - @<Negate all three glue components of |cur_val|@>; - } - else negate(cur_val); -return; -} - -@ @<Declare \eTeX\ procedures for sc...@>= -static void scan_expr(void); - -@ The |scan_expr| procedure scans and evaluates an expression. - -@<Declare procedures needed for expressions@>= -@t\4@>@<Declare subprocedures for |scan_expr|@>@; -static void scan_expr(void) /*scans and evaluates an expression*/ -{@+ -bool a, @!b; /*saved values of |arith_error|*/ -small_number @!l; /*type of expression*/ -small_number @!r; /*state of expression so far*/ -small_number @!s; /*state of term so far*/ -small_number @!o; /*next operation or type of next factor*/ -int @!e; /*expression so far*/ -int @!t; /*term so far*/ -int @!f; /*current factor*/ -int @!n; /*numerator of combined multiplication and division*/ -pointer @!p; /*top of expression stack*/ -pointer @!q; /*for stack manipulations*/ -l=cur_val_level;a=arith_error;b=false;p=null; -@<Scan and evaluate an expression |e| of type |l|@>; -if (b) - {@+print_err("Arithmetic overflow"); -@.Arithmetic overflow@> - help2("I can't evaluate this expression,",@/ - "since the result is out of range."); - error(); - if (l >= glue_val) - {@+delete_glue_ref(e);e=zero_glue;add_glue_ref(e); - } - else e=0; - } -arith_error=a;cur_val=e;cur_val_level=l; -} - -@ Evaluating an expression is a recursive process: When the left -parenthesis of a subexpression is scanned we descend to the next level -of recursion; the previous level is resumed with the matching right -parenthesis. - -@d expr_none 0 /*\.( seen, or \.( $\langle\it expr\rangle$ \.) seen*/ -@d expr_add 1 /*\.( $\langle\it expr\rangle$ \.+ seen*/ -@d expr_sub 2 /*\.( $\langle\it expr\rangle$ \.- seen*/ -@d expr_mult 3 /*$\langle\it term\rangle$ \.* seen*/ -@d expr_div 4 /*$\langle\it term\rangle$ \./ seen*/ -@d expr_scale 5 /*$\langle\it term\rangle$ \.* - $\langle\it factor\rangle$ \./ seen*/ - -@<Scan and eval...@>= -restart: r=expr_none;e=0;s=expr_none;t=0;n=0; -resume: if (s==expr_none) o=l;@+else o=int_val; -@<Scan a factor |f| of type |o| or start a subexpression@>; -found: @<Scan the next operator and set |o|@>; -arith_error=b; -@<Make sure that |f| is in the proper range@>; -switch (s) {@<Cases for evaluation of the current term@>@; -} /*there are no other cases*/ -if (o > expr_sub) s=o;@+else@<Evaluate the current expression@>; -b=arith_error; -if (o!=expr_none) goto resume; -if (p!=null) @<Pop the expression stack and |goto found|@>@; - -@ @<Scan the next op...@>= -@<Get the next non-blank non-call token@>; -if (cur_tok==other_token+'+') o=expr_add; -else if (cur_tok==other_token+'-') o=expr_sub; -else if (cur_tok==other_token+'*') o=expr_mult; -else if (cur_tok==other_token+'/') o=expr_div; -else{@+o=expr_none; - if (p==null) - {@+if (cur_cmd!=relax) back_input(); - } - else if (cur_tok!=other_token+')') - {@+print_err("Missing ) inserted for expression"); -@.Missing ) inserted@> - help1("I was expecting to see `+', `-', `*', `/', or `)'. Didn't."); - back_error(); - } - } - -@ @<Scan a factor...@>= -@<Get the next non-blank non-call token@>; -if (cur_tok==other_token+'(') - @<Push the expression stack and |goto restart|@>; -back_input(); -if (o==int_val) scan_int(); -else if (o==dimen_val) scan_normal_dimen; -else if (o==glue_val) scan_normal_glue(); -else scan_mu_glue(); -f=cur_val - -@ @<Declare \eTeX\ procedures for sc...@>= -static void scan_normal_glue(void);@/ -static void scan_mu_glue(void); - -@ Here we declare two trivial procedures in order to avoid mutually -recursive procedures with parameters. - -@<Declare procedures needed for expressions@>= -static void scan_normal_glue(void) -{@+scan_glue(glue_val); -} -@# -static void scan_mu_glue(void) -{@+scan_glue(mu_val); -} - -@ Parenthesized subexpressions can be inside expressions, and this -nesting has a stack. Seven local variables represent the top of the -expression stack: |p| points to pushed-down entries, if any; |l| -specifies the type of expression currently beeing evaluated; |e| is the -expression so far and |r| is the state of its evaluation; |t| is the -term so far and |s| is the state of its evaluation; finally |n| is the -numerator for a combined multiplication and division, if any. - -@d expr_node_size 4 /*number of words in stack entry for subexpressions*/ -@d expr_e_field(A) mem[A+1].i /*saved expression so far*/ -@d expr_t_field(A) mem[A+2].i /*saved term so far*/ -@d expr_n_field(A) mem[A+3].i /*saved numerator*/ - -@<Push the expression...@>= -{@+q=get_node(expr_node_size);link(q)=p;type(q)=l; -subtype(q)=4*s+r; -expr_e_field(q)=e;expr_t_field(q)=t;expr_n_field(q)=n; -p=q;l=o;goto restart; -} - -@ @<Pop the expression...@>= -{@+f=e;q=p; -e=expr_e_field(q);t=expr_t_field(q);n=expr_n_field(q); -s=subtype(q)/4;r=subtype(q)%4; -l=type(q);p=link(q);free_node(q, expr_node_size); -goto found; -} - -@ We want to make sure that each term and (intermediate) result is in -the proper range. Integer values must not exceed |infinity| -($2^{31}-1$) in absolute value, dimensions must not exceed |max_dimen| -($2^{30}-1$). We avoid the absolute value of an integer, because this -might fail for the value $-2^{31}$ using 32-bit arithmetic. - -@d num_error(A) /*clear a number or dimension and set |arith_error|*/ - {@+arith_error=true;A=0; - } -@d glue_error(A) /*clear a glue spec and set |arith_error|*/ - {@+arith_error=true;delete_glue_ref(A);A=new_spec(zero_glue); - } - -@<Make sure that |f|...@>= -if ((l==int_val)||(s > expr_sub)) - {@+if ((f > infinity)||(f < -infinity)) num_error(f); - } -else if (l==dimen_val) - {@+if (abs(f) > max_dimen) num_error(f); - } -else{@+if ((abs(width(f)) > max_dimen)||@| - (abs(stretch(f)) > max_dimen)||@| - (abs(shrink(f)) > max_dimen)) glue_error(f); - } - -@ Applying the factor |f| to the partial term |t| (with the operator -|s|) is delayed until the next operator |o| has been scanned. Here we -handle the first factor of a partial term. A glue spec has to be copied -unless the next operator is a right parenthesis; this allows us later on -to simply modify the glue components. - -@d normalize_glue(A) - if (stretch(A)==0) stretch_order(A)=normal; - if (shrink(A)==0) shrink_order(A)=normal - -@<Cases for evaluation of the current term@>= -case expr_none: if ((l >= glue_val)&&(o!=expr_none)) - {@+t=new_spec(f);delete_glue_ref(f);normalize_glue(t); - } - else t=f;@+break; - -@ When a term |t| has been completed it is copied to, added to, or -subtracted from the expression |e|. - -@d expr_add_sub(A, B, C) add_or_sub(A, B, C, r==expr_sub) -@d expr_a(A, B) expr_add_sub(A, B, max_dimen) - -@<Evaluate the current expression@>= -{@+s=expr_none; -if (r==expr_none) e=t; -else if (l==int_val) e=expr_add_sub(e, t, infinity); -else if (l==dimen_val) e=expr_a(e, t); -else@<Compute the sum or difference of two glue specs@>; -r=o; -} - -@ The function |add_or_sub(x, y, max_answer, negative)| computes the sum -(for |negative==false|) or difference (for |negative==true|) of |x| and -|y|, provided the absolute value of the result does not exceed -|max_answer|. - -@<Declare subprocedures for |scan_expr|@>= -static int add_or_sub(int @!x, int @!y, int @!max_answer, bool @!negative) -{@+int a; /*the answer*/ -if (negative) negate(y); -if (x >= 0) - if (y <= max_answer-x) a=x+y;@+else num_error(a)@; -else if (y >= -max_answer-x) a=x+y;@+else num_error(a); -return a; -} - -@ We know that |stretch_order(e) > normal| implies |stretch(e)!=0| and -|shrink_order(e) > normal| implies |shrink(e)!=0|. - -@<Compute the sum or diff...@>= -{@+width(e)=expr_a(width(e), width(t)); -if (stretch_order(e)==stretch_order(t)) - stretch(e)=expr_a(stretch(e), stretch(t)); -else if ((stretch_order(e) < stretch_order(t))&&(stretch(t)!=0)) - {@+stretch(e)=stretch(t);stretch_order(e)=stretch_order(t); - } -if (shrink_order(e)==shrink_order(t)) - shrink(e)=expr_a(shrink(e), shrink(t)); -else if ((shrink_order(e) < shrink_order(t))&&(shrink(t)!=0)) - {@+shrink(e)=shrink(t);shrink_order(e)=shrink_order(t); - } -delete_glue_ref(t);normalize_glue(e); -} - -@ If a multiplication is followed by a division, the two operations are -combined into a `scaling' operation. Otherwise the term |t| is -multiplied by the factor |f|. - -@d expr_m(A) A=nx_plus_y(A, f, 0) - -@<Cases for evaluation of the current term@>= -case expr_mult: if (o==expr_div) - {@+n=f;o=expr_scale; - } - else if (l==int_val) t=mult_integers(t, f); - else if (l==dimen_val) expr_m(t); - else{@+expr_m(width(t));expr_m(stretch(t));expr_m(shrink(t)); - } @+break; - -@ Here we divide the term |t| by the factor |f|. - -@d expr_d(A) A=quotient(A, f) - -@<Cases for evaluation of the current term@>= -case expr_div: if (l < glue_val) expr_d(t); - else{@+expr_d(width(t));expr_d(stretch(t));expr_d(shrink(t)); - } @+break; - -@ The function |quotient(n, d)| computes the rounded quotient -$q=\lfloor n/d+{1\over2}\rfloor$, when $n$ and $d$ are positive. - -@<Declare subprocedures for |scan_expr|@>= -static int quotient(int @!n, int @!d) -{@+bool negative; /*should the answer be negated?*/ -int @!a; /*the answer*/ -if (d==0) num_error(a)@; -else{@+if (d > 0) negative=false; - else{@+negate(d);negative=true; - } - if (n < 0) - {@+negate(n);negative=!negative; - } - a=n/d;n=n-a*d;d=n-d; /*avoid certain compiler optimizations!*/ - if (d+n >= 0) incr(a); - if (negative) negate(a); - } -return a; -} - -@ Here the term |t| is multiplied by the quotient $n/f$. - -@d expr_s(A) A=fract(A, n, f, max_dimen) - -@<Cases for evaluation of the current term@>= -case expr_scale: if (l==int_val) t=fract(t, n, f, infinity); - else if (l==dimen_val) expr_s(t); - else{@+expr_s(width(t));expr_s(stretch(t));expr_s(shrink(t)); - } - -@ Finally, the function |fract(x, n, d, max_answer)| computes the integer -$q=\lfloor xn/d+{1\over2}\rfloor$, when $x$, $n$, and $d$ are positive -and the result does not exceed |max_answer|. We can't use floating -point arithmetic since the routine must produce identical results in all -cases; and it would be too dangerous to multiply by~|n| and then divide -by~|d|, in separate operations, since overflow might well occur. Hence -this subroutine simulates double precision arithmetic, somewhat -analogous to \MF's |make_fraction| and |take_fraction| routines. - -@<Declare subprocedures for |scan_expr|@>= -static int fract(int @!x, int @!n, int @!d, int @!max_answer) -{@+ -bool negative; /*should the answer be negated?*/ -int @!a; /*the answer*/ -int @!f; /*a proper fraction*/ -int @!h; /*smallest integer such that |2*h >= d|*/ -int @!r; /*intermediate remainder*/ -int @!t; /*temp variable*/ -if (d==0) goto too_big; -a=0; -if (d > 0) negative=false; -else{@+negate(d);negative=true; - } -if (x < 0) - {@+negate(x);negative=!negative; - } -else if (x==0) goto done; -if (n < 0) - {@+negate(n);negative=!negative; - } -t=n/d; -if (t > max_answer/x) goto too_big; -a=t*x;n=n-t*d; -if (n==0) goto found; -t=x/d; -if (t > (max_answer-a)/n) goto too_big; -a=a+t*n;x=x-t*d; -if (x==0) goto found; -if (x < n) - {@+t=x;x=n;n=t; - } /*now |0 < n <= x < d|*/ -@<Compute \(f)$f=\lfloor xn/d+{1\over2}\rfloor$@>@; -if (f > (max_answer-a)) goto too_big; -a=a+f; -found: if (negative) negate(a); -goto done; -too_big: num_error(a); -done: return a; -} - -@ The loop here preserves the following invariant relations -between |f|, |x|, |n|, and~|r|: -(i)~$f+\lfloor(xn+(r+d))/d\rfloor=\lfloor x_0n_0/d+{1\over2}\rfloor$; -(ii)~|-d <= r < 0 < n <= x < d|, where $x_0$, $n_0$ are the original values of~$x$ -and $n$. - -Notice that the computation specifies |(x-d)+x| instead of |(x+x)-d|, -because the latter could overflow. - -@<Compute \(f)$f=\lfloor xn/d+{1\over2}\rfloor$@>= -f=0;r=(d/2)-d;h=-r; -loop@+{@+if (odd(n)) - {@+r=r+x; - if (r >= 0) - {@+r=r-d;incr(f); - } - } - n=n/2; - if (n==0) goto found1; - if (x < h) x=x+x; - else{@+t=x-d;x=t+x;f=f+n; - if (x < n) - {@+if (x==0) goto found1; - t=x;x=n;n=t; - } - } - } -found1: - -@ The \.{\\gluestretch}, \.{\\glueshrink}, \.{\\gluestretchorder}, and -\.{\\glueshrinkorder} commands return the stretch and shrink components -and their orders of ``infinity'' of a glue specification. - -@d glue_stretch_order_code (eTeX_int+6) /*code for \.{\\gluestretchorder}*/ -@d glue_shrink_order_code (eTeX_int+7) /*code for \.{\\glueshrinkorder}*/ -@d glue_stretch_code (eTeX_dim+7) /*code for \.{\\gluestretch}*/ -@d glue_shrink_code (eTeX_dim+8) /*code for \.{\\glueshrink}*/ - -@<Generate all \eTeX...@>= -primitive("gluestretchorder", last_item, glue_stretch_order_code); -@!@:glue\_stretch\_order\_}{\.{\\gluestretchorder} primitive@> -primitive("glueshrinkorder", last_item, glue_shrink_order_code); -@!@:glue\_shrink\_order\_}{\.{\\glueshrinkorder} primitive@> -primitive("gluestretch", last_item, glue_stretch_code); -@!@:glue\_stretch\_}{\.{\\gluestretch} primitive@> -primitive("glueshrink", last_item, glue_shrink_code); -@!@:glue\_shrink\_}{\.{\\glueshrink} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case glue_stretch_order_code: print_esc("gluestretchorder");@+break; -case glue_shrink_order_code: print_esc("glueshrinkorder");@+break; -case glue_stretch_code: print_esc("gluestretch");@+break; -case glue_shrink_code: print_esc("glueshrink");@+break; - -@ @<Cases for fetching an integer value@>= -case glue_stretch_order_code: case glue_shrink_order_code: - {@+scan_normal_glue();q=cur_val; - if (m==glue_stretch_order_code) cur_val=stretch_order(q); - else cur_val=shrink_order(q); - delete_glue_ref(q); - } - -@ @<Cases for fetching a dimension value@>= -case glue_stretch_code: case glue_shrink_code: - {@+scan_normal_glue();q=cur_val; - if (m==glue_stretch_code) cur_val=stretch(q); - else cur_val=shrink(q); - delete_glue_ref(q); - } - -@ The \.{\\mutoglue} and \.{\\gluetomu} commands convert ``math'' glue -into normal glue and vice versa; they allow to manipulate math glue with -\.{\\gluestretch} etc. - -@d mu_to_glue_code eTeX_glue /*code for \.{\\mutoglue}*/ -@d glue_to_mu_code eTeX_mu /*code for \.{\\gluetomu}*/ - -@<Generate all \eTeX...@>= -primitive("mutoglue", last_item, mu_to_glue_code); -@!@:mu\_to\_glue\_}{\.{\\mutoglue} primitive@> -primitive("gluetomu", last_item, glue_to_mu_code); -@!@:glue\_to\_mu\_}{\.{\\gluetomu} primitive@> - -@ @<Cases of |last_item| for |print_cmd_chr|@>= -case mu_to_glue_code: print_esc("mutoglue");@+break; -case glue_to_mu_code: print_esc("gluetomu");@+break; - -@ @<Cases for fetching a glue value@>= -case mu_to_glue_code: scan_mu_glue(); - -@ @<Cases for fetching a mu value@>= -case glue_to_mu_code: scan_normal_glue(); - -@ \eTeX\ (in extended mode) supports 32768 (i.e., $2^{15}$) count, -dimen, skip, muskip, box, and token registers. As in \TeX\ the first -256 registers of each kind are realized as arrays in the table of -equivalents; the additional registers are realized as tree structures -built from variable-size nodes with individual registers existing only -when needed. Default values are used for nonexistent registers: zero -for count and dimen values, |zero_glue| for glue (skip and muskip) -values, void for boxes, and |null| for token lists (and current marks -discussed below). - - -@ The |scan_register_num| procedure scans a register number that must -not exceed 255 in compatibility mode resp.\ 32767 in extended mode. - -@<Declare \eTeX\ procedures for ex...@>= -static void scan_register_num(void); - -@ @<Declare procedures that scan restricted classes of integers@>= -static void scan_register_num(void) -{@+scan_int(); -if ((cur_val < 0)||(cur_val > max_reg_num)) - {@+print_err("Bad register code"); -@.Bad register code@> - help2(max_reg_help_line,"I changed this one to zero."); - int_error(cur_val);cur_val=0; - } -} - -@ @<Initialize variables for \eTeX\ comp...@>= -max_reg_num=255; -max_reg_help_line="A register number must be between 0 and 255."; - -@ @<Initialize variables for \eTeX\ ext...@>= -max_reg_num=32767; -max_reg_help_line="A register number must be between 0 and 32767."; - -@ @<Glob...@>= -static halfword @!max_reg_num; /*largest allowed register number*/ -static char *@!max_reg_help_line; /*first line of help message*/ - -@ There are seven almost identical doubly linked trees, one for the -sparse array of the up to 32512 additional registers of each kind and -one for the sparse array of the up to 32767 additional mark classes. -The root of each such tree, if it exists, is an index node containing 16 -pointers to subtrees for 4096 consecutive array elements. Similar index -nodes are the starting points for all nonempty subtrees for 4096, 256, -and 16 consecutive array elements. These four levels of index nodes are -followed by a fifth level with nodes for the individual array elements. - -Each index node is nine words long. The pointers to the 16 possible -subtrees or are kept in the |info| and |link| fields of the last eight -words. (It would be both elegant and efficient to declare them as -array, unfortunately \PASCAL\ doesn't allow this.) - -The fields in the first word of each index node and in the nodes for the -array elements are closely related. The |link| field points to the next -lower index node and the |sa_index| field contains four bits (one -hexadecimal digit) of the register number or mark class. For the lowest -index node the |link| field is |null| and the |sa_index| field indicates -the type of quantity (|int_val|, |dimen_val|, |glue_val|, |mu_val|, -|box_val|, |tok_val|, or |mark_val|). The |sa_used| field in the index -nodes counts how many of the 16 pointers are non-null. - -The |sa_index| field in the nodes for array elements contains the four -bits plus 16 times the type. Therefore such a node represents a count -or dimen register if and only if |sa_index < dimen_val_limit|; it -represents a skip or muskip register if and only if -|dimen_val_limit <= sa_index < mu_val_limit|; it represents a box register -if and only if |mu_val_limit <= sa_index < box_val_limit|; it represents a -token list register if and only if -|box_val_limit <= sa_index < tok_val_limit|; finally it represents a mark -class if and only if |tok_val_limit <= sa_index|. - -The |new_index| procedure creates an index node (returned in |cur_ptr|) -having given contents of the |sa_index| and |link| fields. - -@d box_val 4 /*the additional box registers*/ -@d mark_val 6 /*the additional mark classes*/ -@# -@d dimen_val_limit 0x20 /*$2^4\cdot(|dimen_val|+1)$*/ -@d mu_val_limit 0x40 /*$2^4\cdot(|mu_val|+1)$*/ -@d box_val_limit 0x50 /*$2^4\cdot(|box_val|+1)$*/ -@d tok_val_limit 0x60 /*$2^4\cdot(|tok_val|+1)$*/ -@# -@d index_node_size 9 /*size of an index node*/ -@d sa_index(A) type(A) /*a four-bit address or a type or both*/ -@d sa_used(A) subtype(A) /*count of non-null pointers*/ - -@<Declare \eTeX\ procedures for ex...@>= -static void new_index(quarterword @!i, pointer @!q) -{@+int k; /*loop index*/ -cur_ptr=get_node(index_node_size);sa_index(cur_ptr)=i; -sa_used(cur_ptr)=0;link(cur_ptr)=q; -for (k=1; k<=index_node_size-1; k++) /*clear all 16 pointers*/ - mem[cur_ptr+k]=sa_null; -} - -@ The roots of the seven trees for the additional registers and mark -classes are kept in the |sa_root| array. The first six locations must -be dumped and undumped; the last one is also known as |sa_mark|. - -@d sa_mark sa_root[mark_val] /*root for mark classes*/ - -@<Glob...@>= -static pointer @!sa_root0[mark_val-int_val+1], *const @!sa_root = @!sa_root0-int_val; /*roots of sparse arrays*/ -static pointer @!cur_ptr; /*value returned by |new_index| and |find_sa_element|*/ -static memory_word @!sa_null; /*two |null| pointers*/ - -@ @<Set init...@>= -sa_mark=null;sa_null.hh.lh=null;sa_null.hh.rh=null; - -@ @<Initialize table...@>= -for (i=int_val; i<=tok_val; i++) sa_root[i]=null; - -@ Given a type |t| and a sixteen-bit number |n|, the |find_sa_element| -procedure returns (in |cur_ptr|) a pointer to the node for the -corresponding array element, or |null| when no such element exists. The -third parameter |w| is set |true| if the element must exist, e.g., -because it is about to be modified. The procedure has two main -branches: one follows the existing tree structure, the other (only used -when |w| is |true|) creates the missing nodes. - -We use macros to extract the four-bit pieces from a sixteen-bit register -number or mark class and to fetch or store one of the 16 pointers from -an index node. - -@d if_cur_ptr_is_null_then_return_or_goto(A) /*some tree element is missing*/ - {@+if (cur_ptr==null) - if (w) goto A;@+else return; - } -@# -@d hex_dig1(A) A/4096 /*the fourth lowest hexadecimal digit*/ -@d hex_dig2(A) (A/256)%16 /*the third lowest hexadecimal digit*/ -@d hex_dig3(A) (A/16)%16 /*the second lowest hexadecimal digit*/ -@d hex_dig4(A) A%16 /*the lowest hexadecimal digit*/ -@# -@d get_sa_ptr if (odd(i)) cur_ptr=link(q+(i/2)+1); - else cur_ptr=info(q+(i/2)+1) - /*set |cur_ptr| to the pointer indexed by |i| from index node |q|*/ -@d put_sa_ptr(A) if (odd(i)) link(q+(i/2)+1)=A; - else info(q+(i/2)+1)=A - /*store the pointer indexed by |i| in index node |q|*/ -@d add_sa_ptr {@+put_sa_ptr(cur_ptr);incr(sa_used(q)); - } /*add |cur_ptr| as the pointer indexed by |i| in index node |q|*/ -@d delete_sa_ptr {@+put_sa_ptr(null);decr(sa_used(q)); - } /*delete the pointer indexed by |i| in index node |q|*/ - -@<Declare \eTeX\ procedures for ex...@>= -static void find_sa_element(small_number @!t, halfword @!n, bool @!w) - /*sets |cur_val| to sparse array element location or |null|*/ -{@+ -pointer q; /*for list manipulations*/ -small_number @!i; /*a four bit index*/ -cur_ptr=sa_root[t]; -if_cur_ptr_is_null_then_return_or_goto(not_found);@/ -q=cur_ptr;i=hex_dig1(n);get_sa_ptr; -if_cur_ptr_is_null_then_return_or_goto(not_found1);@/ -q=cur_ptr;i=hex_dig2(n);get_sa_ptr; -if_cur_ptr_is_null_then_return_or_goto(not_found2);@/ -q=cur_ptr;i=hex_dig3(n);get_sa_ptr; -if_cur_ptr_is_null_then_return_or_goto(not_found3);@/ -q=cur_ptr;i=hex_dig4(n);get_sa_ptr; -if ((cur_ptr==null)&&w) goto not_found4; -return; -not_found: new_index(t, null); /*create first level index node*/ -sa_root[t]=cur_ptr;q=cur_ptr;i=hex_dig1(n); -not_found1: new_index(i, q); /*create second level index node*/ -add_sa_ptr;q=cur_ptr;i=hex_dig2(n); -not_found2: new_index(i, q); /*create third level index node*/ -add_sa_ptr;q=cur_ptr;i=hex_dig3(n); -not_found3: new_index(i, q); /*create fourth level index node*/ -add_sa_ptr;q=cur_ptr;i=hex_dig4(n); -not_found4: @<Create a new array element of type |t| with index |i|@>; -link(cur_ptr)=q;add_sa_ptr; -} - -@ The array elements for registers are subject to grouping and have an -|sa_lev| field (quite analogous to |eq_level|) instead of |sa_used|. -Since saved values as well as shorthand definitions (created by e.g., -\.{\\countdef}) refer to the location of the respective array element, -we need a reference count that is kept in the |sa_ref| field. An array -element can be deleted (together with all references to it) when its -|sa_ref| value is |null| and its value is the default value. -@^reference counts@> - -Skip, muskip, box, and token registers use two word nodes, their values -are stored in the |sa_ptr| field. -Count and dimen registers use three word nodes, their -values are stored in the |sa_int| resp.\ |sa_dim| field in the third -word; the |sa_ptr| field is used under the name |sa_num| to store -the register number. Mark classes use four word nodes. The last three -words contain the five types of current marks - -@d sa_lev sa_used /*grouping level for the current value*/ -@d pointer_node_size 2 /*size of an element with a pointer value*/ -@d sa_type(A) (sa_index(A)/16) /*type part of combined type/index*/ -@d sa_ref(A) info(A+1) /*reference count of a sparse array element*/ -@d sa_ptr(A) link(A+1) /*a pointer value*/ -@# -@d word_node_size 3 /*size of an element with a word value*/ -@d sa_num(A) sa_ptr(A) /*the register number*/ -@d sa_int(A) mem[A+2].i /*an integer*/ -@d sa_dim(A) mem[A+2].sc /*a dimension (a somewhat esotheric distinction)*/ -@# -@d mark_class_node_size 4 /*size of an element for a mark class*/ -@# -@d fetch_box(A) /*fetch |box(cur_val)|*/ - if (cur_val < 256) A=box(cur_val); - else{@+find_sa_element(box_val, cur_val, false); - if (cur_ptr==null) A=null;@+else A=sa_ptr(cur_ptr); - } - -@<Create a new array element...@>= -if (t==mark_val) /*a mark class*/ - {@+cur_ptr=get_node(mark_class_node_size); - mem[cur_ptr+1]=sa_null;mem[cur_ptr+2]=sa_null;mem[cur_ptr+3]=sa_null; - } -else{@+if (t <= dimen_val) /*a count or dimen register*/ - {@+cur_ptr=get_node(word_node_size);sa_int(cur_ptr)=0; - sa_num(cur_ptr)=n; - } - else{@+cur_ptr=get_node(pointer_node_size); - if (t <= mu_val) /*a skip or muskip register*/ - {@+sa_ptr(cur_ptr)=zero_glue;add_glue_ref(zero_glue); - } - else sa_ptr(cur_ptr)=null; /*a box or token list register*/ - } - sa_ref(cur_ptr)=null; /*all registers have a reference count*/ - } -sa_index(cur_ptr)=16*t+i;sa_lev(cur_ptr)=level_one - -@ The |delete_sa_ref| procedure is called when a pointer to an array -element representing a register is being removed; this means that the -reference count should be decreased by one. If the reduced reference -count is |null| and the register has been (globally) assigned its -default value the array element should disappear, possibly together with -some index nodes. This procedure will never be used for mark class -nodes. -@^reference counts@> - -@d add_sa_ref(A) incr(sa_ref(A)) /*increase reference count*/ -@# -@d change_box(A) /*change |box(cur_val)|, the |eq_level| stays the same*/ - if (cur_val < 256) box(cur_val)=A;@+else set_sa_box(A) -@# -@d set_sa_box(X) {@+find_sa_element(box_val, cur_val, false); - if (cur_ptr!=null) - {@+sa_ptr(cur_ptr)=X;add_sa_ref(cur_ptr);delete_sa_ref(cur_ptr); - } - } - -@<Declare \eTeX\ procedures for tr...@>= -static void delete_sa_ref(pointer @!q) /*reduce reference count*/ -{@+ -pointer p; /*for list manipulations*/ -small_number @!i; /*a four bit index*/ -small_number @!s; /*size of a node*/ -decr(sa_ref(q)); -if (sa_ref(q)!=null) return; -if (sa_index(q) < dimen_val_limit) - if (sa_int(q)==0) s=word_node_size; - else return; -else{@+if (sa_index(q) < mu_val_limit) - if (sa_ptr(q)==zero_glue) delete_glue_ref(zero_glue); - else return; - else if (sa_ptr(q)!=null) return; - s=pointer_node_size; - } -@/do@+{i=hex_dig4(sa_index(q));p=q;q=link(p);free_node(p, s); -if (q==null) /*the whole tree has been freed*/ - {@+sa_root[i]=null;return; - } -delete_sa_ptr;s=index_node_size; /*node |q| is an index node*/ -}@+ while (!(sa_used(q) > 0)); -} - -@ The |print_sa_num| procedure prints the register number corresponding -to an array element. - -@<Basic print...@>= -static void print_sa_num(pointer @!q) /*print register number*/ -{@+halfword @!n; /*the register number*/ -if (sa_index(q) < dimen_val_limit) n=sa_num(q); /*the easy case*/ -else{@+n=hex_dig4(sa_index(q));q=link(q);n=n+16*sa_index(q); - q=link(q);n=n+256*(sa_index(q)+16*sa_index(link(q))); - } -print_int(n); -} - -@ Here is a procedure that displays the contents of an array element -symbolically. It is used under similar circumstances as is -|restore_trace| (together with |show_eqtb|) for the quantities kept in -the |eqtb| array. - -@<Declare \eTeX\ procedures for tr...@>= -#ifdef @!STAT -static void show_sa(pointer @!p, char *@!s) -{@+small_number t; /*the type of element*/ -begin_diagnostic();print_char('{');print(s);print_char(' '); -if (p==null) print_char('?'); /*this can't happen*/ -else{@+t=sa_type(p); - if (t < box_val) print_cmd_chr(internal_register, p); - else if (t==box_val) - {@+print_esc("box");print_sa_num(p); - } - else if (t==tok_val) print_cmd_chr(toks_register, p); - else print_char('?'); /*this can't happen either*/ - print_char('='); - if (t==int_val) print_int(sa_int(p)); - else if (t==dimen_val) - {@+print_scaled(sa_dim(p));print("pt"); - } - else{@+p=sa_ptr(p); - if (t==glue_val) print_spec(p,"pt"); - else if (t==mu_val) print_spec(p,"mu"); - else if (t==box_val) - if (p==null) print("void"); - else{@+depth_threshold=0;breadth_max=1;show_node_list(p); - } - else if (t==tok_val) - {@+if (p!=null) show_token_list(link(p), null, 32); - } - else print_char('?'); /*this can't happen either*/ - } - } -print_char('}');end_diagnostic(false); -} -#endif - -@ The command code |internal_register| is used for `\.{\\count}', `\.{\\dimen}', -etc., as well as for references to sparse array elements defined by -`\.{\\countdef}', etc. - -@<Cases of |register| for |print_cmd_chr|@>= -{@+if ((chr_code < mem_bot)||(chr_code > lo_mem_stat_max)) - cmd=sa_type(chr_code); -else{@+cmd=chr_code-mem_bot;chr_code=null; - } -if (cmd==int_val) print_esc("count"); -else if (cmd==dimen_val) print_esc("dimen"); -else if (cmd==glue_val) print_esc("skip"); -else print_esc("muskip"); -if (chr_code!=null) print_sa_num(chr_code); -} - -@ Similarly the command code |toks_register| is used for `\.{\\toks}' as -well as for references to sparse array elements defined by -`\.{\\toksdef}'. - -@<Cases of |toks_register| for |print_cmd_chr|@>= -{@+print_esc("toks"); -if (chr_code!=mem_bot) print_sa_num(chr_code); -} - -@ When a shorthand definition for an element of one of the sparse arrays -is destroyed, we must reduce the reference count. - -@<Cases for |eq_destroy|@>= -case toks_register: case internal_register: - if ((equiv_field(w) < mem_bot)||(equiv_field(w) > lo_mem_stat_max)) - delete_sa_ref(equiv_field(w));@+break; - -@ The task to maintain (change, save, and restore) register values is -essentially the same when the register is realized as sparse array -element or entry in |eqtb|. The global variable |sa_chain| is the head -of a linked list of entries saved at the topmost level |sa_level|; the -lists for lowel levels are kept in special save stack entries. - -@<Glob...@>= -static pointer @!sa_chain; /*chain of saved sparse array entries*/ -static quarterword @!sa_level; /*group level for |sa_chain|*/ - -@ @<Set init...@>= -sa_chain=null;sa_level=level_zero; - -@ The individual saved items are kept in pointer or word nodes similar -to those used for the array elements: a word node with value zero is, -however, saved as pointer node with the otherwise impossible |sa_index| -value |tok_val_limit|. - -@d sa_loc(A) sa_ref(A) /*location of saved item*/ - -@<Declare \eTeX\ procedures for tr...@>= -static void sa_save(pointer @!p) /*saves value of |p|*/ -{@+pointer q; /*the new save node*/ -quarterword @!i; /*index field of node*/ -if (cur_level!=sa_level) - {@+check_full_save_stack;save_type(save_ptr)=restore_sa; - save_level(save_ptr)=sa_level;save_index(save_ptr)=sa_chain; - incr(save_ptr);sa_chain=null;sa_level=cur_level; - } -i=sa_index(p); -if (i < dimen_val_limit) - {@+if (sa_int(p)==0) - {@+q=get_node(pointer_node_size);i=tok_val_limit; - } - else{@+q=get_node(word_node_size);sa_int(q)=sa_int(p); - } - sa_ptr(q)=null; - } -else{@+q=get_node(pointer_node_size);sa_ptr(q)=sa_ptr(p); - } -sa_loc(q)=p;sa_index(q)=i;sa_lev(q)=sa_lev(p); -link(q)=sa_chain;sa_chain=q;add_sa_ref(p); -} - -@ @<Declare \eTeX\ procedures for tr...@>= -static void sa_destroy(pointer @!p) /*destroy value of |p|*/ -{@+if (sa_index(p) < mu_val_limit) delete_glue_ref(sa_ptr(p)); -else if (sa_ptr(p)!=null) - if (sa_index(p) < box_val_limit) flush_node_list(sa_ptr(p)); - else delete_token_ref(sa_ptr(p)); -} - -@ The procedure |sa_def| assigns a new value to sparse array elements, -and saves the former value if appropriate. This procedure is used only -for skip, muskip, box, and token list registers. The counterpart of -|sa_def| for count and dimen registers is called |sa_w_def|. - -@d sa_define(A, B, C, D, E) if (e) - if (global) gsa_def(A, B);@+else sa_def(A, B); - else if (global) geq_define(C, D, E);@+else eq_define(C, D, E) -@# -@d sa_def_box /*assign |cur_box| to |box(cur_val)|*/ - {@+find_sa_element(box_val, cur_val, true); - if (global) gsa_def(cur_ptr, cur_box);@+else sa_def(cur_ptr, cur_box); - } -@# -@d sa_word_define(A, B) if (e) - if (global) gsa_w_def(A, B);@+else sa_w_def(A, B); - else word_define(A, B) - -@<Declare \eTeX\ procedures for tr...@>= -static void sa_def(pointer @!p, halfword @!e) - /*new data for sparse array elements*/ -{@+add_sa_ref(p); -if (sa_ptr(p)==e) - { -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"reassigning"); -#endif -@;@/ - sa_destroy(p); - } -else{ -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"changing"); -#endif -@;@/ - if (sa_lev(p)==cur_level) sa_destroy(p);@+else sa_save(p); - sa_lev(p)=cur_level;sa_ptr(p)=e; -#ifdef @!STAT - if (tracing_assigns > 0) show_sa(p,"into"); -#endif -@;@/ - } -delete_sa_ref(p); -} -@# -static void sa_w_def(pointer @!p, int @!w) -{@+add_sa_ref(p); -if (sa_int(p)==w) - { -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"reassigning"); -#endif -@;@/ - } -else{ -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"changing"); -#endif -@;@/ - if (sa_lev(p)!=cur_level) sa_save(p); - sa_lev(p)=cur_level;sa_int(p)=w; -#ifdef @!STAT - if (tracing_assigns > 0) show_sa(p,"into"); -#endif -@;@/ - } -delete_sa_ref(p); -} - -@ The |sa_def| and |sa_w_def| routines take care of local definitions. -@^global definitions@> -Global definitions are done in almost the same way, but there is no need -to save old values, and the new value is associated with |level_one|. - -@<Declare \eTeX\ procedures for tr...@>= -static void gsa_def(pointer @!p, halfword @!e) /*global |sa_def|*/ -{@+add_sa_ref(p); -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"globally changing"); -#endif -@;@/ -sa_destroy(p);sa_lev(p)=level_one;sa_ptr(p)=e; -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"into"); -#endif -@;@/ -delete_sa_ref(p); -} -@# -static void gsa_w_def(pointer @!p, int @!w) /*global |sa_w_def|*/ -{@+add_sa_ref(p); -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"globally changing"); -#endif -@;@/ -sa_lev(p)=level_one;sa_int(p)=w; -#ifdef @!STAT -if (tracing_assigns > 0) show_sa(p,"into"); -#endif -@;@/ -delete_sa_ref(p); -} - -@ The |sa_restore| procedure restores the sparse array entries pointed -at by |sa_chain| - -@<Declare \eTeX\ procedures for tr...@>= -static void sa_restore(void) -{@+pointer p; /*sparse array element*/ -@/do@+{p=sa_loc(sa_chain); -if (sa_lev(p)==level_one) - {@+if (sa_index(p) >= dimen_val_limit) sa_destroy(sa_chain); -#ifdef @!STAT - if (tracing_restores > 0) show_sa(p,"retaining"); -#endif -@;@/ - } -else{@+if (sa_index(p) < dimen_val_limit) - if (sa_index(sa_chain) < dimen_val_limit) sa_int(p)=sa_int(sa_chain); - else sa_int(p)=0; - else{@+sa_destroy(p);sa_ptr(p)=sa_ptr(sa_chain); - } - sa_lev(p)=sa_lev(sa_chain); -#ifdef @!STAT - if (tracing_restores > 0) show_sa(p,"restoring"); -#endif -@;@/ - } -delete_sa_ref(p); -p=sa_chain;sa_chain=link(p); -if (sa_index(p) < dimen_val_limit) free_node(p, word_node_size); -else free_node(p, pointer_node_size); -}@+ while (!(sa_chain==null)); -} - - -@ The \.{\\interlinepenalties}, \.{\\clubpenalties}, \.{\\widowpenalties}, -and \.{\\displaywidowpenalties} commands allow to define arrays of -penalty values to be used instead of the corresponding single values. - -@d inter_line_penalties_ptr equiv(inter_line_penalties_loc) -@<Generate all \eTeX...@>= -primitive("interlinepenalties", set_shape, inter_line_penalties_loc);@/ -@!@:inter\_line\_penalties\_}{\.{\\interlinepenalties} primitive@> -primitive("clubpenalties", set_shape, club_penalties_loc);@/ -@!@:club\_penalties\_}{\.{\\clubpenalties} primitive@> -primitive("widowpenalties", set_shape, widow_penalties_loc);@/ -@!@:widow\_penalties\_}{\.{\\widowpenalties} primitive@> -primitive("displaywidowpenalties", set_shape, display_widow_penalties_loc);@/ -@!@:display\_widow\_penalties\_}{\.{\\displaywidowpenalties} primitive@> - -@ @<Cases of |set_shape| for |print_cmd_chr|@>= -case inter_line_penalties_loc: print_esc("interlinepenalties");@+break; -case club_penalties_loc: print_esc("clubpenalties");@+break; -case widow_penalties_loc: print_esc("widowpenalties");@+break; -case display_widow_penalties_loc: print_esc("displaywidowpenalties"); - -@ @<Fetch a penalties array element@>= -{@+scan_int(); -if ((equiv(m)==null)||(cur_val < 0)) cur_val=0; -else{@+if (cur_val > penalty(equiv(m))) cur_val=penalty(equiv(m)); - cur_val=penalty(equiv(m)+cur_val); - } -} - -@* System-dependent changes. -This section should be replaced, if necessary, by any special -modifications of the program -that are necessary to make \TeX\ work at a particular installation. -It is usually best to design your change file so that all changes to -previous sections preserve the section numbering; then everybody's version -will be consistent with the published program. More extensive changes, -which introduce new sections, can be inserted here; then only the index -itself will get a new section number. -@^system dependencies@> - -@* \TeX\ Live Integration. -A \TeX\ engine that aspires -to become a member of the \TeX\ Live family of programs -must - -$-$ respect the \TeX\ Live conventions for command line parameters,\par -$-$ find its input files using the \.{kpathsearch} library, and\par -$-$ implement \TeX\ primitives to support -\def\LaTeX{L\kern-.36em\raise.3ex\hbox{\sc A}\kern-.15em\TeX}% -\LaTeX. - -\noindent Naturally, the functions that follow here are taken, with small -modifications, from the \TeX\ Live sources. What is -added here, or rather subtracted here, are the parts that are specific -to some of the \TeX\ engines included in \TeX\ Live. New is also -that the code is presented in literate programming style. - -The code that follows is organized in three parts. -Some code for k\TeX\ must come before -the definition of \TeX's macros because -it uses include files containing identifiers that are in conflict -with \TeX's macros. The remaining two parts are first auxiliar functions and then -those functions that are called from the ``classic'' \TeX\ code. - -@p @<k\TeX\ auxiliar functions@>@; - @<k\TeX\ functions@>@; - -@ Let's begin with the beginning: the command line. -To see how a command line is structured, we first look at the -help text that is displayed if the user asks for it (or if \TeX\ -decides that the user needs it). The help text is produced by the -function |usage_help|. -\def\SP{ }% disable visible spaces in strings. - -@<k\TeX\ auxiliar functions@>= -static void usage_help(void) -{@+@<explain the command line@>@; - @<explain the options@>@; - fprintf(stderr,"\nEmail bug reports to ruckert@@cs.hm.edu.\n"); - exit(0); -} - -@ The command line commes in three slightly different versions: - -@<explain the command line@>= - fprintf(stderr,@/ - "Usage: %s [OPTION]... [TEXNAME[.tex]] [COMMANDS]\n"@/ - " or: %s [OPTION]... \\FIRST-LINE\n"@/ - " or: %s [OPTION]... &FMT ARGS\n\n",@/ - argv[0],argv[0],argv[0]);@/ - fprintf(stderr,@/ - " Run TeX on TEXNAME, creating TEXNAME.dvi.\n"@/ - " Any remaining COMMANDS are processed\n"@/ - " as TeX input after TEXNAME is read.\n"@/ - " If the first line of TEXNAME starts with %%&FMT, and FMT is\n"@/ - " an existing .fmt file, use it. Else use `NAME.fmt', where\n"@/ - " NAME is the program invocation name.\n"@/ - "\n"@/ - " Alternatively, if the first non-option argument begins\n"@/ - " with a backslash, interpret all non-option arguments as\n"@/ - " a line of TeX input.\n"@/ - "\n"@/ - " Alternatively, if the first non-option argument begins\n"@/ - " with a &, the next word is taken as the FMT to read,\n"@/ - " overriding all else. Any remaining arguments are\n"@/ - " processed as above.\n"@/ - "\n"@/ - " If no arguments or options are specified, prompt for input.\n"@/ - "\n"); - -@ Here is the list of possible options and their explanation: - -@<explain the options@>= - fprintf(stderr, - "Options:\n"@/ - " -help "@/ - @t\qquad@>"\t display this help and exit\n"@/ - " -version "@/ - @t\qquad@>"\t output version information and exit\n"@/ - " -etex "@/ - @t\qquad@>"\t enable e-TeX extensions\n"@/ - " -ini "@/ - @t\qquad@>"\t be initex for dumping formats; this is\n"@/ - @t\qquad@>"\t\t\t also true if the program name is `kinitex'\n"@/ - " -progname=STRING "@/ - @t\qquad@>"\t set program (and fmt) name to STRING\n"@/ - " -fmt=FMTNAME "@/ - @t\qquad@>"\t use FMTNAME instead of program name or a %%& line\n"@/ - " -output-directory=DIR "@/ - @t\qquad@>"\t use existing DIR as the directory to write files to\n"@/ - " -jobname=STRING "@/ - @t\qquad@>"\t set the TeX \\jobname to STRING\n"@/ - " [-no]-mktex=FMT "@/ - @t\qquad@>"\t disable/enable mktexFMT generation (FMT=tex/tfm/fmt/pk)\n"@/ - " -interaction=STRING "@/ - @t\qquad@>"\t set interaction mode (STRING=batchmode/\n"@/ - @t\qquad@>"\t\t\t nonstopmode/scrollmode/errorstopmode)\n"@/ - " -kpathsea-debug=NUMBER"@/ - @t\qquad@>"\t set path searching debugging flags according\n"@/ - @t\qquad@>"\t\t\t to the bits of NUMBER\n"@/ - " [-no]-parse-first-line"@/ - @t\qquad@>"\t disable/enable parsing of the first line of\n"@/ - @t\qquad@>"\t\t\t the input file\n"@/ - " [-no]-file-line-error"@/ - @t\qquad@>"\t Disable/Enable file:line:error style\n"@/ - " -cnf-line=STRING"@/ - @t\qquad@>"\t Process STRING like a line in texmf.cnf\n"@/ - " -compress "@/ - @t\qquad@>"\t enable compression of section 1 and 2\n"@/ - " [-no]-empty-page "@/ - @t\qquad@>"\t Disable/Enable empty pages\n"@/ - " -hyphenate-first-word "@/ - @t\qquad@>"\t hyphenate the first word of a paragraph\n"@/ - " -resolution=NUMBER "@/ - @t\qquad@>"\t set the resolution to NUMBER dpi\n"@/ - " -mfmode=MODE "@/ - @t\qquad@>"\t set the METAFONT mode to MODE\n"@/ -#ifdef DEBUG - " -debug=FLAGS "@/ - @t\qquad@>"\t set flags to controll hint debug output\n"@/ - " -hint-debug-help "@/ - @t\qquad@>"\t give help on hint debugging\n"@/ -#endif -); - - -@ The processing of command line options is controlled by the |long_options| -\def\SP{{\tt\char`\ }}% restore the visible space in a string -array. Each entry in this array contains first the name of the option, -then a flag that tells whether the option takes an argument or not, -then the (optional) address of a flag variable that gets set -by this option, and finally the value to store in the flag variable. - -Besides the flag variables that occur in the table, -a few string variables may be set using the options. -The following is a complete list of these variables---except -for the the |interaction| variable of \TeX. -Flag variables are initialized with |-1| to indicate an undefined value; -string variables are initialized with |NULL|. - -@<Global...@>= -static int iniversion=0; -static int etexp=0; -static int parsefirstlinep=-1; -static int filelineerrorstylep=-1; -static const char *user_progname=NULL, *output_directory=NULL, *c_job_name=NULL; -static char *dump_name=NULL;@# -int option_no_empty_page=true, option_hyphen_first=false; -int option_dpi=600; -const char *option_mfmode="ljfour", *option_dpi_str="600"; -extern int option_compress; -extern unsigned int debugflags; - -static struct option long_options[] = {@/ - { "help", 0, 0, 0 },@/ - { "version", 0, 0, 0 },@/ - { "interaction", 1, 0, 0 },@/ - { "mktex", 1, 0, 0 },@/ - { "no-mktex", 1, 0, 0 },@/ - { "kpathsea-debug", 1, 0, 0 },@/ - { "progname", 1, 0, 0 },@/ - { "fmt", 1, 0, 0 },@/ - { "output-directory", 1, 0, 0 },@/ - { "jobname", 1, 0, 0 },@/ - { "cnf-line", 1, 0, 0 },@/ - { "ini", 0, &iniversion, 1 },@/ - { "etex", 0, &etexp, 1 },@/ - { "parse-first-line", 0, &parsefirstlinep, 1 },@/ - { "no-parse-first-line", 0, &parsefirstlinep, 0 },@/ - { "file-line-error", 0, &filelineerrorstylep, 1 },@/ - { "no-file-line-error", 0, &filelineerrorstylep, 0 },@/ - { "compress", 0, &option_compress, 1 },@/ - { "no-empty-page", 0, &option_no_empty_page, 1 },@/ - { "empty-page", 0, &option_no_empty_page, 0 },@/ - { "hyphenate-first-word", 0, &option_hyphen_first, 1 },@/ - { "resolution", 1, 0, 0 },@/ - { "mfmode", 1, 0, 0 },@/ -#ifdef DEBUG - { "debug", 1, 0, 0 },@/ - { "hint-debug-help", 0, 0, 0 },@/ -#endif - { 0, 0, 0, 0 }@+}@+; - - -@ Parsing the command line options is accomplished with the -|parse_options| function which in turn uses the |getopt_long_only| -function from the \CEE/ library. This function returns 0 and sets the -|option_index| parameter to the option found, or it returns $-1$ if -the end of all options is reached. -@<k\TeX\ functions@>= -static void parse_options (int argc, char *argv[]) -{@+ while (true) { - int option_index; - int g = getopt_long_only (argc, argv, "+", long_options, &option_index); - if (g==0) - { @<handle the option at |option_index|@>@;@+ } - else if (g == -1) return; - } -} - -@ To handle the options, we compare the name at the given |option_index| with -the different option names. This is not a very efficient method, but the -impact is low and it's simple to write. - -Comparing the name of the argument with the |name| field in the |option| -structure is done in the auxiliar function |argument_is|. -Unfortunately the |name| field is in conflict with the |name| macro -defined by \TeX. To avoid the conflict, the |argument_is| function -goes just after the \.{kpathsea.h} header file that defines -the option structure. - - -@<Header files and function declarations@>= -#include <kpathsea/kpathsea.h> -static int argument_is(struct option *opt, char * s) -{@+ return STREQ(opt->name, s); @+} -#define ARGUMENT_IS(S) argument_is(long_options+option_index,S) - -@ Now we can handle the first two options: -@<handle the option at |option_index|@>= -if (ARGUMENT_IS("help")) usage_help(); -else if (ARGUMENT_IS("version")){@+ - printf("Version 0.0\n"); - exit(0);@+ -} - - -@ The ``interaction'' option sets \TeX's |interaction| variable -based on its string argument contained in the |optarg| variable. - -@<handle the option at |option_index|@>= -else @+if (ARGUMENT_IS ("interaction"))@t\2@> { - if (STREQ (optarg, "batchmode")) interaction = batch_mode; - else if (STREQ (optarg, "nonstopmode")) interaction = nonstop_mode; - else if (STREQ (optarg, "scrollmode")) interaction = scroll_mode; - else if (STREQ (optarg, "errorstopmode")) interaction = error_stop_mode; - else WARNING1 ("Ignoring unknown argument `%s' to --interaction", optarg); - } - -@ The next two options pass the string argument to the -\.{kpathsearch} library. - -@<handle the option at |option_index|@>= -else @+if (ARGUMENT_IS ("mktex")) @t\2@> kpse_maketex_option (optarg, true); -else if (ARGUMENT_IS ("no-mktex")) kpse_maketex_option (optarg, false); - - -@ To debug the searching done by the \.{kpathsearch} library, -the following otion can be used. -The argument value 3 is a good choice to start with. - -@<handle the option at |option_index|@>= -else @+if (ARGUMENT_IS ("kpathsea-debug")) @t\2@> - kpathsea_debug |= atoi (optarg); - - -@ The remaining options either set a flag and are handled by -the |getopt_long_only| function or they take a string argument -and assign it to the corresponding string variable. - -@<handle the option at |option_index|@>= -else @+if (ARGUMENT_IS ("progname"))@t\2@> - user_progname = normalize_quotes(optarg,"program name"); -else if (ARGUMENT_IS ("fmt")) - dump_name = normalize_quotes(optarg,"format name"); -else if (ARGUMENT_IS ("output-directory")) - output_directory = normalize_quotes(optarg,"output directory"); -else if (ARGUMENT_IS ("jobname")) - c_job_name = normalize_quotes (optarg, "job name"); -else @+if (ARGUMENT_IS ("cnf-line")) - add_cnf_line(optarg);@t\2@> -else if (ARGUMENT_IS("resolution")) @t\2@> -{ option_dpi_str=optarg; - option_dpi=strtol(option_dpi_str,NULL,10); -} -else if (ARGUMENT_IS("mfmode")) - option_mfmode=optarg; -#ifdef DEBUG@t\1@> -else @+if (ARGUMENT_IS("debug")) - debugflags=strtol(optarg,NULL,16); -else @+if (ARGUMENT_IS("hint-debug-help")) - hint_debug_help(); -#endif - -@ When string arguments specify files or directories, -special care is needed if arguments are quoted and/or contain spaces. -The function |normalize_quotes| makes shure that arguments containing -spaces get quotes around them and it checks for unballanced quotes. - - -@<k\TeX\ auxiliar functions@>= -static char *normalize_quotes (const char *nom, const char *mesg) -{@+ int quoted = false; - int must_quote = (strchr(nom, ' ') != NULL); - char *ret = xmalloc(strlen(nom)+3);/*room for two quotes and NUL*/ - char *p=ret; - const char *q; - - if (must_quote) - *p++ = '"'; - for (q = nom; *q; q++) - if (*q == '"') - quoted = !quoted;@+ - else - *p++ = *q; - - if (must_quote) - *p++ = '"'; - *p = '\0'; - if (quoted) { - fprintf(stderr, "! Unbalanced quotes in %s %s\n", mesg, nom); - exit(1); - } - return ret; -} - -@ With the \.{-cnf-line} option it is possible to specify -a line of text as if this line were part of \TeX's configuration -file---even taking precedence over conflicting lines in the configuration -file. For example it is possible to change \TeX's -\.{TEXINPUTS} variable by saying \.{--cnf-line=TEXINPUTS=/foo}. -The configuration lines are temporarily stored in the variable -|cnf_lines| and counted in |cnf_count| because we can send them -to the \.{kpathsearch} library only after the library has been -initialized sufficiently. - -@<Global...@>= -char **cnf_lines=NULL; -int cnf_count=0; - -@ The function |add_cnf_line| stores the -given command line argument in the variable |cnf_lines|. - -@<k\TeX\ auxiliar functions@>= -static void add_cnf_line(char *arg) -{@+ cnf_count++; - cnf_lines=xrealloc(cnf_lines,sizeof(char*)*cnf_count); - cnf_lines[cnf_count-1]=arg; -} - -@ To activate the configuration lines they are passed to the - \.{kpathsearch} library. - -@<activate configuration lines@>= -#if 0 /* this function does not exists allways */ -{@+ int i; - for (i=0;i<cnf_count;i++) - kpathsea_cnf_line_env_progname (kpse_def, cnf_lines[i]); - free(cnf_lines); -} -#endif - -@ After we are done with the options, -we inform the \.{kpathsearch} library about the program name. -This is an important piece of information for the library -because the library serves quite different programs -and its behaviour can be customized for each program -using configuration files. -After the program and engine name is set, -the library is ready to use. -@<set the program and engine name@>= -if (!user_progname) - user_progname = dump_name; -#if defined(WIN32) - if (user_progname) - kpse_reset_program_name (user_progname); -#else - kpse_set_program_name (argv[0], user_progname); -#endif - xputenv ("engine", "hitex");@/ - - -@ After the options, the command line usually continues with the name of the input -file. Getting a hold of the input file name can be quite complicated, -and we will have the first opportunity to use the \.{kpathsearch} library. - -We start by looking at the first argument after the options: -If it does not start with an -``\.{\AM}'' and neither with a ``\.{\BS}'', it's a simple file name. -Under Windows, however, filenames might start with a drive letter -followed by a colon and a ``\.{\BS}'' which is used to separate -directory names. Finally, if the filename is a quoted string, we need -to remove the quotes before we use the \.{kpathsearch} library to find it -and reattach the quotes afterwards. - -@<k\TeX\ auxiliar functions@>= -#ifdef WIN32 -static void clean_windows_filename(char *filename) -{@+if (strlen (filename) > 2 && isalpha (filename[0]) && - filename[1] == ':' && filename[2] == '\\') - { char *pp; - for (pp = filename; *pp; pp++) - if (*pp == '\\') - *pp = '/'; - } -} -#endif - -static char *find_file(char *fname, kpse_file_format_type t, int mx) -{@+char *filename; - int final_quote=(int)strlen(fname)-1; - int quoted = final_quote>1 && fname[0] == '"' && fname[final_quote]=='"'; - if (quoted) { - /* Overwrite last quote and skip first quote. */ - fname[final_quote] = '\0'; - fname++; - } - filename = kpse_find_file(fname, t, mx); - if (quoted) { - /* Undo modifications */ - fname--; - fname[final_quote] = '"'; - } - return filename; -} - -static char *get_input_file_name (void) -{@+ - char *input_file_name = NULL; - - if (argv[optind] && argv[optind][0] != '&' && argv[optind][0] != '\\') - { -#ifdef WIN32 - clean_windows_filename(argv[optind]); -#endif - argv[optind] = normalize_quotes(argv[optind], "input file"); - input_file_name=find_file(argv[optind],kpse_tex_format, false); - } - return input_file_name; -} - - -@ After we called |get_input_file_name|, we might need to look at |argv[argc-1]| -in case we run under Windows. - -@<set the input file name@>= - main_input_file = get_input_file_name (); - -#ifdef WIN32 - /* Were we given a simple filename? */ - if (main_input_file == NULL) { - char *file_name=argv[argc-1]; - if (file_name && file_name[0] != '-' && file_name[0] != '&' && file_name[0] != '\\') { - clean_windows_filename(file_name); - file_name = normalize_quotes(file_name, "argument"); - main_input_file=find_file(file_name,kpse_tex_format, false); - argv[argc-1] = file_name; - } - } -#endif - - -@ After we have an input file, we make an attempt at filling in options -from the {\tt texmf.cfg} file. - -@<set defaults from the {\tt texmf.cfg} file@>= - if (filelineerrorstylep < 0) - filelineerrorstylep = texmf_yesno ("file_line_error_style"); - if (parsefirstlinep < 0) - parsefirstlinep = texmf_yesno ("parse_first_line");@/@t~@> - -@ We needed: -@<k\TeX\ auxiliar functions@>= -static int texmf_yesno(const char *var) -{@+ - char *value = kpse_var_value (var); - return value && (*value == 't' || *value == 'y' || *value == '1'); -} - -@ We need a stack, matching the |line_stack| that -contains the source file names; -we postpone k\TeX\'s |full_source_filename_stack| to a later time. - -@<Global...@>= -int @!source_filename_stack0[max_in_open], *const @!source_filename_stack = @!source_filename_stack0-1; - -@ The function |print_file_line| -prints ``file:line:error'' style messages. It looks for a -filename in |source_filename_stack|, and if it fails to find -one falls back on the ``non-file:line:error'' style. - -@<Basic printing...@>= -static void print_file_line(void) -{@+int level=in_open; - while (level>0 && source_filename_stack[level]==0) level--; - if (level==0) print_nl("! "); - else - { print_nl(""); printn(source_filename_stack[level]); print_char(':'); - if (level==in_open) print_int(line); - else print_int(line_stack[level]); - print(": "); - } -} - -@ Most of the time \TeX\ is not running as \.{initex} or \.{virtex}, -but it runs with a format file preloaded. -To set the format name, we first check if the format name was given on the -command line with an ``\.{\AM}'' prefix, -second we might check the first line of the input file, -and last, we check if the program is an initex or virtex program. - -If we still don't have a format, -we use a plain format if running as a virtex, otherwise the program -name is our best guess. -There is no need to check for an extension, because the -\.{kpathsearch} library will take care of that. -We store the format file name in |dump_name| which is -used in the function |w_open_in| below. - -@<set the format name@>= -if (parsefirstlinep && !dump_name) - parse_first_line (main_input_file); -if (!main_input_file && argv[1] && argv[1][0] == '&') - dump_name = argv[1] + 1; -if (strcmp(kpse_program_name, "hinitex")==0) iniversion = true; -else if (strcmp(kpse_program_name, "hvirtex")==0 && !dump_name) - dump_name = "hitex"; -if (!dump_name) - dump_name = kpse_program_name; -if (!dump_name) -{ fprintf(stderr,"Unable to determine format name\n"); - exit(1); -} -if (etexp && !iniversion) -{ fprintf(stderr,"-etex requires -ini\n"); - exit(1); -} - -@ Here is the function |parse_first_line |. It searches the first line of -the file for a \TeX\ comment of the form ``\%\AM format''\footnote{${}^1$}{The idea of using this format came from Wlodzimierz Bzyl.}. -If found, we will use the format given there. - -@<k\TeX\ functions@>= -static void parse_first_line (char*filename) -{@+ FILE *f=NULL; - if (filename==NULL) return; - f = open_in(filename,kpse_tex_format,"r"); - if (f!=NULL) - { char *r,*s,*t=read_line (f); - xfclose (f, filename); - if (t==NULL) return; - s=t; - if (s[0] == '%' && s[1] == '&') { - s = s+2; - while ( ISBLANK(*s)) ++s; - r=s; - while (*s!=0 && *s!=' ' && *s!='\r' && *s!='\n') s++; - *s=0; - if (dump_name==NULL) { - char *f_name = concat (r, ".fmt"); - char *d_name = kpse_find_file (f_name,kpse_fmt_format, false); - if (d_name && kpse_readable_file (d_name)) { - dump_name = xstrdup (r); - kpse_reset_program_name (dump_name); - } - free (f_name); - } - } - free (t); - } -} - - -@ The \TeX\ Live infrastructure is able to generate format files, -font metric files, -and even some tex files, if required. - -@<enable the generation of input files@>= - kpse_set_program_enabled (kpse_tfm_format, MAKE_TEX_TFM_BY_DEFAULT, - kpse_src_compile);@/ - kpse_set_program_enabled (kpse_tex_format, MAKE_TEX_TEX_BY_DEFAULT, - kpse_src_compile);@/ - kpse_set_program_enabled (kpse_fmt_format, MAKE_TEX_FMT_BY_DEFAULT, - kpse_src_compile);@/ - kpse_set_program_enabled (kpse_pk_format, MAKE_TEX_PK_BY_DEFAULT, - kpse_src_compile);@/ - xputenv("MAKETEX_BASE_DPI", option_dpi_str); - xputenv("MAKETEX_MODE", option_mfmode); - - -@ In the old days, \TeX\ was a \PASCAL\ program, and standard \PASCAL\ -did say nothing about a command line. So \TeX\ would open the terminal -file for input and read all the information from the terminal. -If you don't give \TeX\ command line arguments, this is still true today. -In our present time, people got so much used to control the behaviour -of a program using command line arguments---especially when writing -scripts---that k\TeX\ allows the specification of commands on -the command line which \TeX\ would normally expect on -the first line of its terminal input. - -So our next task is -writing a function to add the remainder of the -command line to \TeX's input buffer. -The main job is done by the |input_add_str| function -which duplicates part of the |input_ln| function. -Further it skips initial spaces and replaces trailing spaces -and line endings by a single space. - -@<k\TeX\ auxiliar functions@>= -static void input_add_char(unsigned int c) -{@+ if (last >= max_buf_stack) - {@+max_buf_stack=last+1; - if (max_buf_stack==buf_size) - @<Report overflow of the input buffer, and abort@>; - } - buffer[last]=xord[c];incr(last); -} - -static void input_add_str(const char *str) -{@+ int prev_last; - while (*str==' ') str++; - prev_last=last; - while (*str!=0) - -input_add_char(*str++); - for (--last; last >= first ; --last) - { char c =buffer[last]; - if ((c) != ' ' && (c) != '\r' && (c) != '\n') break; - } - last++; - if (last>prev_last) input_add_char(' '); -} - -static int input_command_line(void) -{@+ -last=first; -while (optind < argc) input_add_str(argv[optind++]); -loc=first; -return (loc < last); -@+ } - - - -@ When we open an output file, there is usually no searching necessary. -In the best case, we have an absolute path and can open it. -If the path is relative, we try in this order: -the |file_name| prefixed by the |output_directory|, -the |file_name| as is, and -the |file_name| prefixed with the environment variable |TEXMFOUTPUT|. - -If we were successful with one of the modified names, we update -|name_of_file|. - -@<k\TeX\ functions@>= -FILE *open_out(const char *file_name, const char *file_mode) -{@+ FILE *f=NULL; - char *new_name=NULL; - int absolute = kpse_absolute_p(file_name, false); - if (absolute) - return fopen(file_name,file_mode); - if (output_directory) - { new_name = concat3(output_directory, DIR_SEP_STRING, file_name); - f = fopen(new_name,file_mode); - if (f==NULL) {@+ free(new_name); new_name=NULL;@+} - } - if (f==NULL) - f = fopen(file_name,file_mode); - if (f==NULL) - { const char *texmfoutput = kpse_var_value("TEXMFOUTPUT"); - if (texmfoutput!=NULL && texmfoutput[0]!=0) - { new_name = concat3(texmfoutput, DIR_SEP_STRING, file_name);@/ - f = fopen(new_name,file_mode); - if (f==NULL) {@+ free(new_name); new_name=NULL; @+} - } - } - if (f!=NULL && new_name!=NULL) - update_name_of_file(new_name,(int)strlen(new_name)); - if (new_name!=NULL) free(new_name); - return f; -} - -static bool a_open_out(alpha_file *f) - /*open a text file for output*/ -{@+f->f=open_out((char*)name_of_file+1,"w"); - return f->f!=NULL && ferror(f->f)==0;@+ -} - -static bool b_open_out(byte_file *f) - /*open a binary file for output*/ -{@+f->f=open_out((char *)name_of_file+1,"wb"); -return f->f!=NULL && ferror(f->f)==0;@+ -} - -#ifdef @!INIT -static bool w_open_out(word_file *f) - /*open a word file for output*/ -{@+f->f=open_out((char *)name_of_file+1,"wb"); - return f->f!=NULL && ferror(f->f)==0;@+ -} -#endif - -@ Format file names must be scanned -before \TeX's string mechanism has been initialized. -The function |update_name_of_file| will set |name_of_file| from -a \CEE/ string. - -We dare not give error messages here, since \TeX\ calls this routine before -the |error| routine is ready to roll. Instead, we simply drop excess characters, -since the error will be detected in another way when a strange file name -isn't found. -@^system dependencies@> - -@<k\TeX\ auxiliar functions@>= -static void update_name_of_file(char *@!s, int @!k) -{@+ int j; - if (k <= file_name_size) name_length=k;@+ - else name_length=file_name_size; - for (j=0; j<name_length;j++) name_of_file[j+1]=xchr[(int)s[j]]; - name_of_file[name_length+1]=0; -} - -@ In standard \TeX, the |reset| macro is used to open input files. -The \.{kpathsearch} library uses different search pathes for -different types of files and therefore different functions are needed to -open these files. The common code is in the function |open_in|. - - -@<k\TeX\ auxiliar functions@>= -static FILE*open_in(char*filename,kpse_file_format_type t,const char*rwb) -{@+ char *fname=NULL; - FILE*f= NULL; - fname= find_file(filename,t,true); - if(fname!=NULL) - {@+ - f= fopen(fname,rwb); - free(fname);@+ - } - return f; -} - -@ @<k\TeX\ functions@>= -static bool a_open_in(alpha_file *f) /*open a text file for input*/ -{@+f->f= open_in((char *)name_of_file+1,kpse_tex_format,"r"); - if (f->f!=NULL) get(*f); - return f->f!=NULL && ferror(f->f)==0; -} - -static bool b_open_in(byte_file *f) /*open a binary file for input*/ -{@+f->f= kpse_open_file((char *)name_of_file+1,kpse_tfm_format); - if (f->f!=NULL) get(*f); - return f->f!=NULL && ferror(f->f)==0; -} - - -@ \TeX's |open_fmt_file| function will call the following function -either with the name of a format file as given with an ``\.{\AM}'' -prefix in the input or with |NULL| if no such name was specified. -The function will try |dump_name| as a last resort before returning |NULL|. - - - -@<k\TeX\ functions@>= -static bool w_open_in(word_file *f) /*open a word file for input*/ -{@+ - f->f=NULL; - if (name_of_file[1]!=0) - f->f= open_in((char*)name_of_file+1,kpse_fmt_format,"rb"); - if (f->f!=NULL) get(*f); - return f->f!=NULL && ferror(f->f)==0; -} - -static bool open_fmt_file(void) -{@+int j=loc; - if (buffer[loc]=='&') - {@+incr(loc);j=loc;buffer[last]=' '; - while (buffer[j]!=' ') incr(j); - update_name_of_file((char *)buffer+loc,j-loc); - if (w_open_in(&fmt_file)) goto found; - } - update_name_of_file(dump_name,(int)strlen(dump_name)); - if (w_open_in(&fmt_file)) goto found; - name_of_file[1]=0; - wake_up_terminal; - wterm_ln("I can't find a format file!"); - return false; -found: loc=j;return true; -} - - - -@ All the code that we have seen so far commes together in the function |main_init| -which is the first function called in the main program of a \TeX\ engine -belonging to \TeX\ Live. Before doing so, we make copies of -argument count and argument vector putting them in global variables. -@<Global...@>= -static char **argv; -static int argc; - -@ @<k\TeX\ functions@>= -static void main_init(int ac, char *av[]) -{@+ - char* main_input_file; - argc = ac; - argv = av; - interaction = error_stop_mode;@/ - @<parse options@>@; - @<set the program and engine name@>@; - @<activate configuration lines@>@; - @<set the input file name@>@; - @<set defaults from the {\tt texmf.cfg} file@>@; - @<set the format name@>@; - @<enable the generation of input files@>@; -} - - -@ Before we can call the |parse_options| function, -we might need some special preparations for Windows. - -@<parse options@>= -#if defined(WIN32) -{@+ char* enc; - kpse_set_program_name (argv[0], NULL); - enc = kpse_var_value("command_line_encoding"); - get_command_line_args_utf8(enc, &argc, &argv);@/ - parse_options (argc, argv); -} -#else - parse_options (ac, av); -#endif - -@ Adding prototypes for the functions just defined allows \TeX\ -to call them. - -@<Header files and function declarations@>= - -static int input_command_line(void); -static void main_init(int ac, char *av[]); - -@ We conclude this chapter using \.{time.h} to provide a function -that is used to initialize -\TeX's date and time information. Because |time| is one of \TeX's -macros, we add the function |tl_now| that wraps the call to |time| -(and |gmtime|) for later use in |fix_date_and_time|. - -@<Header files and function declarations@>= -#include <time.h> -static struct tm *tl_now(void) -{@+ time_t t=time(NULL); - return gmtime(&t); -} - -@* Primitives required for \LaTeX. - -Still missing - -@* Index. -Here is where you can find all uses of each identifier in the program, -with underlined entries pointing to where the identifier was defined. -If the identifier is only one letter long, however, you get to see only -the underlined entries. {\sl All references are to section numbers instead of -page numbers.} - -This index also lists error messages and other aspects of the program -that you might want to look up some day. For example, the entry -for ``system dependencies'' lists all sections that should receive -special attention from people who are installing \TeX\ in a new -operating environment. A list of various things that can't happen appears -under ``this can't happen''. Approximately 40 sections are listed under -``inner loop''; these account for about 60\pct! of \TeX's running time, -exclusive of input and output. - -@ Generating the header file. -@(htex.h@>= -@h -enum {@+@<Constants in the outer block@>@+}; -@<Types in the outer block@>@; -extern void display_node(pointer p); -extern void hyphenate_word(void); -extern memory_word *const hfactor_eqtb, *const vfactor_eqtb; -extern scaled par_shape_hfactor, par_shape_vfactor; -extern scaled hhsize, hvsize; -extern int option_no_empty_page, option_hyphen_first; -extern int option_dpi; -extern FILE *open_out(const char *file_name, const char *file_mode); -extern void update_last_values(pointer p); /* see section~\secref{pagebuilder} */ -extern void print_err(char *s); -extern int s_no(const char *str); -extern two_halves *const hash; -extern scaled *const font_dsize; -extern scaled *const font_size; -extern void end_diagnostic(bool @!blank_line); -extern void show_box(pointer @!p); -extern void begin_diagnostic(void); -extern void short_display(int @!p); -extern int font_in_short_display; -extern int line; -extern int pack_begin_line; -extern void print_scaled(scaled @!s); -extern pointer new_null_box(void); -extern pointer new_rule(void); -extern void print_int(int @!n); -extern halfword badness(scaled @!t, scaled @!s); -extern str_number job_name; -extern pointer adjust_tail; -extern int *const depth_base; -extern int *const height_base; -extern int *const width_base; -extern int *const char_base; -extern scaled *const total_shrink; -extern scaled *const total_stretch; -extern int last_badness; -extern int dyn_used; -extern list_state_record nest[]; -extern void append_to_vlist(pointer @!b); -extern int nest_ptr; -extern void freeze_page_specs(small_number @!s); -extern pointer cur_p; -extern int r_hyf; -extern int l_hyf; -extern ASCII_code cur_lang; -extern void init_trie(void); -extern bool trie_not_ready; -extern void ship_out(pointer @!p); -extern void scan_left_brace(void); -extern void normal_paragraph(void); -extern void new_save_level(group_code @!c); -extern void begin_token_list(pointer @!p, quarterword @!t); -extern void push_nest(void); -extern void pop_nest(void); -extern int init_r_hyf; -extern int init_l_hyf; -extern ASCII_code init_cur_lang; -extern void delete_glue_ref(pointer @!p); -extern pointer new_param_glue(small_number @!n); -extern pointer new_penalty(int @!m); -extern scaled second_indent; -extern scaled second_width; -extern halfword last_special_line; -extern void line_break(int @!final_widow_penalty); -extern list_state_record cur_list; -extern void show_node_list(int @!p); -extern int depth_threshold; -extern int breadth_max; -extern void print_ln(void); -extern void free_node(pointer @!p, halfword @!s); -extern void flush_node_list(pointer @!p); -extern packed_ASCII_code str_pool[]; -extern pool_pointer str_start[]; -extern str_number *const font_name; -extern pointer new_character(internal_font_number @!f, eight_bits @!c); -extern int *const hyphen_char; -extern void delete_token_ref(pointer @!p); -extern pointer *const cur_mark; -extern memory_word *const eqtb; -extern memory_word font_info[]; -extern int *const param_base; -extern pointer new_spec(pointer @!p); -extern pointer new_glue(pointer @!q); -extern unsigned char *const name_of_file; -extern pointer new_disc(void); -extern pointer *const font_glue; -extern pointer copy_node_list(pointer @!p); -extern pointer get_node(int @!s); -extern pointer hi_mem_min; -extern int name_length; -extern void out_what(pointer @!p); -extern bool doing_leaders; -extern bool output_active; -extern int interaction; -extern memory_word *const mem; -extern int page_contents; -extern scaled page_so_far[]; -extern void end_graf(void); -extern void unsave(void); -extern void open_log_file(void); -extern void print_char(ASCII_code @!s); -extern void prompt_file_name(char *@!s, char *@!e); -extern void pack_job_name(char *@!s); -extern void print_spec(int @!p, char *@!s); -extern void pack_file_name(str_number @!n, char *@!a, char *@!e); -extern void print(char *@!s); -extern void print_nl(char *@!s); -extern void fatal_error(char *@!s); -extern void overflow(char *@!s, int @!n); -extern void confusion(char *@!s); -extern int main(int argc, char *argv[]); |