@x \def\?##1]{\hbox to 1in{\hfil##1.\ }} } @y \def\?##1]{\hbox{Changes to \hbox to 1em{\hfil##1}.\ }} } \let\maybe=\iftrue @z @x @d banner==luaTeX_banner @y @d luaTeXk_banner=='This is luaTeXk, Version ',luatex_version_string @# @d banner==luaTeX_banner @d banner_k==luaTeXk_banner @z @x Actually the heading shown here is not quite normal: The |program| line does not mention any |output| file, because \ph\ would ask the \TeX\ user to specify a file name if |output| were specified here. @^system dependencies@> @y @z @x program TEX; {all file names are defined dynamically} label @@/ @y program TEX; {all file names are defined dynamically} @z @x @ Three labels must be declared in the main program, so we give them symbolic names. @d start_of_TEX=1 {go here when \TeX's variables are initialized} @d end_of_TEX=9998 {go here to close files and terminate gracefully} @d final_end=9999 {this label marks the ending of the program} @= start_of_TEX@t\hskip-2pt@>, end_of_TEX@t\hskip-2pt@>,@,final_end; {key control points} @y @ For Web2c, labels are not declared in the main program, but we still have to declare the symbolic names. @d start_of_TEX=1 {go here when \TeX's variables are initialized} @d final_end=9999 {this label marks the ending of the program} @z @x @d debug==@{ {change this to `$\\{debug}\equiv\null$' when debugging} @d gubed==@t@>@} {change this to `$\\{gubed}\equiv\null$' when debugging} @y @d debug== ifdef('TEXMF_DEBUG') @d gubed== endif('TEXMF_DEBUG') @z @x @d stat==@{ {change this to `$\\{stat}\equiv\null$' when gathering usage statistics} @d tats==@t@>@} {change this to `$\\{tats}\equiv\null$' when gathering usage statistics} @y @d stat==ifdef('STAT') @d tats==endif('STAT') @z @x the codewords `$|init|\ldots|tini|$'. @d init== {change this to `$\\{init}\equiv\.{@@\{}$' in the production version} @d tini== {change this to `$\\{tini}\equiv\.{@@\}}$' in the production version} @y the codewords `$|init|\ldots|tini|$' for declarations and by the codewords `$|Init|\ldots|Tini|$' for executable code. This distinction is helpful for implementations where a run-time switch differentiates between the two versions of the program. @d init==ifdef('INITEX') @d tini==endif('INITEX') @d Init==init if ini_version then begin @d Tini==end;@+tini @f Init==begin @f Tini==end @z @x @!init @@;@+tini @y @!Init @@;@+Tini @z @x @= @!buf_size=500; {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=72; {width of context lines on terminal error messages} @!half_error_line=42; {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=200; {maximum number of simultaneous input sources} @!max_in_open=6; {maximum number of input files and error insertions that can be going on simultaneously} @!param_size=60; {maximum number of simultaneous macro parameters} @!nest_size=40; {maximum number of semantic levels simultaneously active} @!max_strings=3000; {maximum number of strings; must not exceed |max_halfword|} @!string_vacancies=8000; {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=32000; {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=600; {space for saving values outside of current group; must be at most |max_halfword|} @!dvi_buf_size=800; {size of the output buffer; must be a multiple of 8} @!expand_depth=10000; {limits recursive calls of the |expand| procedure} @!file_name_size=40; {file names shouldn't be longer than this} @!pool_name='TeXformats:TEX.POOL '; {string of length |file_name_size|; tells where the string pool appears} @y @d file_name_size == max_halfword-1 { has to be big enough to force namelength into integer } @d ssup_error_line = 255 @d ssup_max_strings == 262143 {Larger values than 65536 cause the arrays consume much more memory.} @= @!hash_offset=514; {smallest index in hash array, i.e., |hash_base| } {Use |hash_offset=0| for compilers which cannot decrement pointers.} @!engine_name='luatex'; {the name of this engine} @# @!inf_main_memory = 2000000; @!sup_main_memory = 32000000; @!inf_max_strings = 100000; @!sup_max_strings = ssup_max_strings; @!inf_strings_free = 100; @!sup_strings_free = sup_max_strings; @!inf_buf_size = 500; @!sup_buf_size = 100000000; @!inf_nest_size = 40; @!sup_nest_size = 4000; @!inf_max_in_open = 6; @!sup_max_in_open = 127; @!inf_param_size = 60; @!sup_param_size = 6000; @!inf_save_size = 600; @!sup_save_size = 80000; @!inf_stack_size = 200; @!sup_stack_size = 30000; @!inf_dvi_buf_size = 800; @!sup_dvi_buf_size = 65536; @!inf_pool_size = 128000; @!sup_pool_size = 40000000; @!inf_pool_free = 1000; @!sup_pool_free = sup_pool_size; @!inf_string_vacancies = 8000; @!sup_string_vacancies = sup_pool_size - 23000; @!sup_hash_extra = sup_max_strings; @!inf_hash_extra = 0; @!sup_ocp_list_size = 1000000; @!inf_ocp_list_size = 1000; @!sup_ocp_buf_size = 100000000; @!inf_ocp_buf_size = 1000; @!sup_ocp_stack_size = 1000000; @!inf_ocp_stack_size = 1000; @!inf_expand_depth = 100; @!sup_expand_depth = 1000000; @z @x @d font_base=0 {smallest internal font number; must not be less than |min_quarterword|} @d hash_size=2100 {maximum number of control sequences; it should be at most about |(fix_mem_max-fix_mem_min)/10|} @d hash_prime=1777 {a prime number equal to about 85\pct! of |hash_size|} @y @d font_base=0 {smallest internal font number; must not be less than |min_quarterword|} @d hash_size=65536 {maximum number of control sequences; it should be at most about |(mem_max-mem_min)/10|} @d hash_prime=55711 {a prime number equal to about 85\pct! of |hash_size|} @z @x @d incr(#) == #:=#+1 {increase a variable by unity} @d decr(#) == #:=#-1 {decrease a variable by unity} @y @z @x @d text_char == char {the data type of characters in text files} @y @d text_char == ASCII_code {the data type of characters in text files} @z @x @!nameoffile:packed array[1..file_name_size] of char;@;@/ {on some systems this may be a \&{record} variable} @y @!nameoffile:^packed_ASCII_code; @z @x @ The \ph\ compiler with which the present version of \TeX\ was prepared has extended the rules of \PASCAL\ in a very convenient way. To open file~|f|, we can write $$\vbox{\halign{#\hfil\qquad&#\hfil\cr |reset(f,@t\\{name}@>,'/O')|&for input;\cr |rewrite(f,@t\\{name}@>,'/O')|&for output.\cr}}$$ The `\\{name}' parameter, which is of type `{\bf packed array $[\langle\\{any}\rangle]$ of \\{char}}', stands for the name of the external file that is being opened for input or output. Blank spaces that might appear in \\{name} are ignored. The `\.{/O}' parameter tells the operating system not to issue its own error messages if something goes wrong. If a file of the specified name 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), we will have |@!erstat(f)<>0| after an unsuccessful |reset| or |rewrite|. This allows \TeX\ to undertake appropriate corrective action. @:PASCAL H}{\ph@> @^system dependencies@> \TeX's file-opening procedures return |false| if no file identified by |nameoffile| could be opened. @d reset_OK(#)==erstat(#)=0 @d rewrite_OK(#)==erstat(#)=0 @p function a_open_in(var f:alpha_file):boolean; {open a text file for input} begin reset(f,nameoffile,'/O'); a_open_in:=reset_OK(f); end; @# function a_open_out(var f:alpha_file):boolean; {open a text file for output} begin rewrite(f,nameoffile,'/O'); a_open_out:=rewrite_OK(f); end; @# function b_open_in(var f:byte_file):boolean; {open a binary file for input} begin reset(f,nameoffile,'/O'); b_open_in:=reset_OK(f); end; @# function b_open_out(var f:byte_file):boolean; {open a binary file for output} begin rewrite(f,nameoffile,'/O'); b_open_out:=rewrite_OK(f); end; @# function w_open_in(var f:word_file):boolean; {open a word file for input} begin reset(f,nameoffile,'/O'); w_open_in:=reset_OK(f); end; @# function w_open_out(var f:word_file):boolean; {open a word file for output} begin rewrite(f,nameoffile,'/O'); w_open_out:=rewrite_OK(f); end; @y @ All of the file opening functions are defined in C. @z @x @ Files can be closed with the \ph\ routine `|close(f)|', which @^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 |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 procedure a_close(var f:alpha_file); {close a text file} begin close(f); end; @# procedure b_close(var f:byte_file); {close a binary file} begin close(f); end; @# procedure w_close(var f:word_file); {close a word file} begin close(f); end; @y @ And all the file closing routines as well. @z @x @!buffer:array[0..buf_size] of packed_ASCII_code; {lines of characters being read} @y @!buffer:^packed_ASCII_code; {lines of characters being read} @z @x @p function input_ln(var f:alpha_file;@!bypass_eoln:boolean):boolean; {inputs the next line or returns |false|} var last_nonblank:0..buf_size; {|last| with trailing blanks removed} begin if bypass_eoln then if not eof(f) then get(f); {input the first character of the line into |f^|} last:=first; {cf.\ Matthew 19\thinspace:\thinspace30} if eof(f) then input_ln:=false else begin last_nonblank:=first; while not eoln(f) do begin if last>=max_buf_stack then begin max_buf_stack:=last+1; if max_buf_stack=buf_size then @; end; buffer[last]:=f^; get(f); incr(last); if buffer[last-1]<>" " then last_nonblank:=last; end; last:=last_nonblank; input_ln:=true; end; end; @y We define |input_ln| in C, for efficiency. Nevertheless we quote the module `Report overflow of the input buffer, and abort' here in order to make \.{WEAVE} happy, since part of that module is needed by e-TeX. @p @{ @ @} @z @x @= @!term_in:alpha_file; {the terminal as an input file} @!term_out:alpha_file; {the terminal as an output file} @y @d term_in==stdin {the terminal as an input file} @d term_out==stdout {the terminal as an output file} @= @!init @!ini_version:boolean; {are we \.{INITEX}?} @!dump_option:boolean; {was the dump name option used?} @!dump_line:boolean; {was a \.{\%\AM format} line seen?} tini@/ @# @!bound_default:integer; {temporary for setup} @!bound_name:^char; {temporary for setup} @# @!error_line:integer; {width of context lines on terminal error messages} @!half_error_line:integer; {width of first lines of contexts in terminal error messages; should be between 30 and |error_line-15|} @!max_print_line:integer; {width of longest text lines output; should be at least 60} @!ocp_list_size:integer; @!ocp_buf_size:integer; @!ocp_stack_size:integer; @!max_strings:integer; {maximum number of strings; must not exceed |max_halfword|} @!strings_free:integer; {strings available after format loaded} @!string_vacancies:integer; {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:integer; {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} @!pool_free:integer;{pool space free after format loaded} @!font_k:integer; {loop variable for initialization} @!buf_size:integer; {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|} @!stack_size:integer; {maximum number of simultaneous input sources} @!max_in_open:integer; {maximum number of input files and error insertions that can be going on simultaneously} @!param_size:integer; {maximum number of simultaneous macro parameters} @!nest_size:integer; {maximum number of semantic levels simultaneously active} @!save_size:integer; {space for saving values outside of current group; must be at most |max_halfword|} @!dvi_buf_size:integer; {size of the output buffer; must be a multiple of 8} @!expand_depth:integer; {limits recursive calls of the |expand| procedure} @!parsefirstlinep:cinttype; {parse the first line for options} @!filelineerrorstylep:cinttype; {format messages as file:line:error} @!haltonerrorp:cinttype; {stop at first error} @!quoted_filename:boolean; {current filename is quoted} {Variables for source specials} @!srcspecialsp : boolean;{Whether |src_specials| are enabled at all} @!insertsrcspecialauto : boolean; @!insertsrcspecialeverypar : boolean; @!insertsrcspecialeveryparend : boolean; @!insertsrcspecialeverycr : boolean; @!insertsrcspecialeverymath : boolean; @!insertsrcspecialeveryhbox : boolean; @!insertsrcspecialeveryvbox : boolean; @!insertsrcspecialeverydisplay : boolean; @z @x @ Here is how to open the terminal files in \ph. The `\.{/I}' switch suppresses the first |get|. @^system dependencies@> @d t_open_in==reset(term_in,'TTY:','/O/I') {open the terminal for text input} @d t_open_out==rewrite(term_out,'TTY:','/O') {open the terminal for text output} @y @ Here is how to open the terminal files. |t_open_out| does nothing. |t_open_in|, on the other hand, does the work of ``rescanning,'' or getting any command line arguments the user has provided. It's defined in C. @d t_open_out == {output already open for text output} @z @x these operations can be specified in \ph: @^system dependencies@> @d update_terminal == break(term_out) {empty the terminal output buffer} @d clear_terminal == break_in(term_in,true) {clear the terminal input buffer} @y these operations can be specified with {\mc UNIX}. |update_terminal| does an |fflush|. |clear_terminal| is redefined to do nothing, since the user should control the terminal. @^system dependencies@> @d update_terminal == fflush (term_out) @d clear_terminal == do_nothing @z @x @= if format_ident=0 then begin writeln(term_out,'Buffer size exceeded!'); goto final_end; @.Buffer size exceeded@> end else check_buffer_overflow(buf_size+10) { need a little bit more} @y @= check_buffer_overflow(buf_size+10) { need a little bit more} @z @x @ The following program does the required initialization without retrieving a possible command line. It should be clear how to modify this routine to deal with command lines, if the system permits them. @^system dependencies@> @p function init_terminal:boolean; {gets the terminal input started} label exit; begin t_open_in; @y @ The following program does the required initialization. Iff anything has been specified on the command line, then |t_open_in| will return with |last > first|. @^system dependencies@> @p function init_terminal:boolean; {gets the terminal input started} label exit; begin t_open_in; if last > first then begin loc := first; while (loc < last) and (buffer[loc]=' ') do incr(loc); if loc < last then begin init_terminal := true; goto exit; end; end; @z @x write(term_out,'! End of file on the terminal... why?'); @y writeln(term_out,'! End of file on the terminal... why?'); @z @x @!str_pool:packed array[pool_pointer] of packed_ASCII_code; {the characters} @!str_start : array[str_number] of pool_pointer; {the starting pointers} @y @!str_pool: ^packed_ASCII_code; {the characters} @!str_start : ^pool_pointer; {the starting pointers} @z @x @p @!init function get_strings_started:boolean; {initializes the string pool, @y @p @t\4@>@@/ @!init function get_strings_started:boolean; {initializes the string pool, @z @x would like string @'32 to be the single character @'32 instead of the @y would like string @'32 to be printed as the single character @'32 instead of the @z @x @!trick_buf:array[0..error_line] of packed_ASCII_code; {circular buffer for @y @!trick_buf:array[0..ssup_error_line] of packed_ASCII_code; {circular buffer for @z @x @d error_stop_mode=3 {stops at every opportunity to interact} @y @d error_stop_mode=3 {stops at every opportunity to interact} @d unspecified_mode=4 {extra value for command-line switch} @z @x print_nl("! "); print(#); @y if filelineerrorstylep then print_file_line else print_nl("! "); print(#); @z @x @!interaction:batch_mode..error_stop_mode; {current level of interaction} @y @!interaction:batch_mode..error_stop_mode; {current level of interaction} @!interactionoption:batch_mode..unspecified_mode; {set from command line} @z @x @ @=interaction:=error_stop_mode; @y @ @=if interactionoption=unspecified_mode then interaction:=error_stop_mode else interaction:=interactionoption; @z @x @= procedure jump_out; begin goto end_of_TEX; end; @y @d do_final_end==begin update_terminal; ready_already:=0; if (history <> spotless) and (history <> warning_issued) then uexit(1) else uexit(0); end @= procedure jump_out; begin close_files_and_terminate; do_final_end; end; @z @x show_context; @y show_context; if (haltonerrorp) then begin history:=fatal_error_stop; jump_out; end; @z @x 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@> @y line ready to be edited. We do this by calling the external procedure |calledit| with a pointer to the filename, its length, and the line number. However, here we just set up the variables that will be used as arguments, since we don't want to do the switch-to-editor until after TeX has closed its files. @^system dependencies@> There is a secret `\.D' option available when the debugging routines haven't been commented~out. @^debugging@> @d edit_file==input_stack[base_ptr] @z @x "E": if base_ptr>0 then begin 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; @y "E": if base_ptr>0 then begin edit_name_start:=str_start_macro(edit_file.name_field); edit_name_length:=str_start_macro(edit_file.name_field+1) - str_start_macro(edit_file.name_field); edit_line:=line; jump_out; @z @x |remainder|, holds the remainder after a division. @= @y |remainder|, holds the remainder after a division. @d remainder==tex_remainder @= @z @x @!glue_ratio=real; {one-word representation of a glue expansion factor} @y @z @x macros are simplified in the obvious way when |min_quarterword=0|. @^inner loop@>@^system dependencies@> @d qi(#)==#+min_quarterword {to put an |eight_bits| item into a quarterword} @d qo(#)==#-min_quarterword {to take an |eight_bits| item out of a quarterword} @d hi(#)==#+min_halfword {to put a sixteen-bit item into a halfword} @d ho(#)==#-min_halfword {to take a sixteen-bit item from a halfword} @y macros are simplified in the obvious way when |min_quarterword=0|. So they have been simplified here in the obvious way. @^inner loop@>@^system dependencies@> @d qi(#)==# {to put an |eight_bits| item into a quarterword} @d qo(#)==# {to take an |eight_bits| item from a quarterword} @d hi(#)==# {to put a sixteen-bit item into a halfword} @d ho(#)==# {to take a sixteen-bit item from a halfword} @z @x @!quarterword = min_quarterword..max_quarterword; {1/4 of a word} @!halfword=min_halfword..max_halfword; {1/2 of a word} @!two_choices = 1..2; {used when there are two variants in a record} @!four_choices = 1..4; {used when there are four variants in a record} @!two_halves = packed record@;@/ @!rh:halfword; case two_choices of 1: (@!lh:halfword); 2: (@!b0:quarterword; @!b1:quarterword); end; @!four_quarters = packed record@;@/ @!b0:quarterword; @!b1:quarterword; @!b2:quarterword; @!b3:quarterword; end; @!memory_word = record@;@/ case four_choices of 1: (@!int:integer); 2: (@!gr:glue_ratio); 3: (@!hh:two_halves); 4: (@!qqqq:four_quarters); end; @y @!quarterword = min_quarterword..max_quarterword; @!halfword = min_halfword..max_halfword; @!two_choices = 1..2; {used when there are two variants in a record} @!four_choices = 1..4; {used when there are four variants in a record} @=#include "texmfmem.h";@> @z @x if abs(vmem(p+glue_offset).int)<@'4000000 then print("?.?") else if abs(g)>float_constant(20000) then @y { The Unix |pc| folks removed this restriction with a remark that invalid bit patterns were vanishingly improbable, so we follow their example without really understanding it. |if abs(vmem(p+glue_offset).int)<@'4000000 then print('?.?')| |else| } if fabs(g)>float_constant(20000) then @z @x begin if m>0 then case m div (max_command+1) of 0:print("vertical"); 1:print("horizontal"); 2:print("display math"); end else if m=0 then print("no") else case (-m) div (max_command+1) of 0:print("internal vertical"); 1:print("restricted horizontal"); 2:print("math"); end; print(" mode"); end; @y begin if m>0 then case m div (max_command+1) of 0:print("vertical mode"); 1:print("horizontal mode"); 2:print("display math mode"); end else if m=0 then print("no mode") else case (-m) div (max_command+1) of 0:print("internal vertical mode"); 1:print("restricted horizontal mode"); 2:print("math mode"); end; end; procedure print_in_mode(@!m:integer); {prints the mode represented by |m|} begin if m>0 then case m div (max_command+1) of 0:print("' in vertical mode"); 1:print("' in horizontal mode"); 2:print("' in display math mode"); end else if m=0 then print("' in no mode") else case (-m) div (max_command+1) of 0:print("' in internal vertical mode"); 1:print("' in restricted horizontal mode"); 2:print("' in math mode"); end; end; @z @x @!nest:array[0..nest_size] of list_state_record; @y @!nest:^list_state_record; @z @x local_par:=null; local_par_bool:=false; @; @y local_par:=null; local_par_bool:=false; @/{The following piece of code is a copy of module 991:} page_contents:=empty; page_tail:=page_head; {|link(page_head):=null;|}@/ last_glue:=max_halfword; last_penalty:=0; last_kern:=0; page_depth:=0; page_max_depth:=0; @z @x print_int(nest[p].pg_field); print(" line"); if nest[p].pg_field<>1 then print_char("s"); @y print_int(nest[p].pg_field); if nest[p].pg_field<>1 then print(" lines") else print(" line"); @z @x @d frozen_null_font=frozen_control_sequence+12 {permanent `\.{\\nullfont}'} @y @d frozen_special=frozen_control_sequence+12 {permanent `\.{\\special}'} @d frozen_null_font=frozen_control_sequence+13 {permanent `\.{\\nullfont}'} @z @x for k:=active_base to undefined_control_sequence-1 do eqtb[k]:=eqtb[undefined_control_sequence]; @y for k:=active_base to eqtb_top do eqtb[k]:=eqtb[undefined_control_sequence]; @z @x @ 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@> Since standard \PASCAL\ cannot provide such information, something special is needed. The program here simply specifies July 4, 1776, at noon; but users probably want a better approximation to the truth. @p procedure fix_date_and_time; begin time:=12*60; {minutes since midnight} day:=4; {fourth day of the month} month:=7; {seventh month of the year} year:=1776; {Anno Domini} end; @y @ The following procedure, which is called just before \TeX\ initializes its input and output, establishes the initial values of the date and time. It calls a macro-defined |date_and_time| routine. |date_and_time| in turn is a C macro, which calls |get_date_and_time|, passing it the addresses of the day, month, etc., so they can be set by the routine. |get_date_and_time| also sets up interrupt catching if that is conditionally compiled in the C code. @^system dependencies@> @d fix_date_and_time==dateandtime(time,day,month,year) @z @x else if n @y else if (neqtb_size)and(n<=eqtb_top)) then @ @z @x @!eqtb:array[active_base..eqtb_size] of memory_word; @y @!zeqtb:^memory_word; @z @x @!hash: array[hash_base..undefined_control_sequence-1] of two_halves; {the hash table} @!hash_used:pointer; {allocation pointer for |hash|} @y @!hash: ^two_halves; {the hash table} @!yhash: ^two_halves; {auxiliary pointer for freeing hash} @!hash_used:pointer; {allocation pointer for |hash|} @!hash_extra:pointer; {|hash_extra=hash| above |eqtb_size|} @!hash_top:pointer; {maximum of the hash array} @!eqtb_top:pointer; {maximum of the |eqtb|} @!hash_high:pointer; {pointer to next high hash location} @z @x next(hash_base):=0; text(hash_base):=0; for k:=hash_base+1 to undefined_control_sequence-1 do hash[k]:=hash[hash_base]; @y @z @x hash_used:=frozen_control_sequence; {nothing is used} @y hash_used:=frozen_control_sequence; {nothing is used} hash_high:=0; @z @x @ @= begin if text(p)>0 then begin repeat if hash_is_full then overflow("hash size",hash_size); @:TeX capacity exceeded hash size}{\quad hash size@> decr(hash_used); until text(hash_used)=0; {search for an empty location in |hash|} next(p):=hash_used; p:=hash_used; end; @y @ @= begin if text(p)>0 then begin if hash_high decr(hash_used); until text(hash_used)=0; {search for an empty location in |hash|} next(p):=hash_used; p:=hash_used; end; end; @z @x else if p>=undefined_control_sequence then print_esc("IMPOSSIBLE.") @y else if ((p>=undefined_control_sequence)and(p<=eqtb_size))or(p>eqtb_top) then print_esc("IMPOSSIBLE.") @z @x else if (text(p)<0)or(text(p)>=str_ptr) then print_esc("NONEXISTENT.") @y else if (text(p)>=str_ptr) then print_esc("NONEXISTENT.") @z @x @!save_stack : array[0..save_size] of memory_word; @y @!save_stack : ^memory_word; @z @x if peqtb_size) then @z @x if cs_token_flag+undefined_control_sequence>max_halfword then bad:=21; @y if cs_token_flag+eqtb_size+hash_extra>max_halfword then bad:=21; if (hash_offset<0)or(hash_offset>hash_base) then bad:=42; @z @x @!input_stack : array[0..stack_size] of in_state_record; @y @!input_stack : ^in_state_record; @z @x @!input_file : array[1..max_in_open] of alpha_file; @!line : integer; {current line number in the current source file} @!line_stack : array[1..max_in_open] of integer; @y @!input_file : ^alpha_file; @!line : integer; {current line number in the current source file} @!line_stack : ^integer; @!source_filename_stack : ^str_number; @!full_source_filename_stack : ^str_number; @z @x begin print_nl("Runaway "); @.Runaway...@> case scanner_status of defining: begin print("definition"); p:=def_ref; end; matching: begin print("argument"); p:=temp_token_head; end; aligning: begin print("preamble"); p:=hold_token_head; end; absorbing: begin print("text"); p:=def_ref; end; end; {there are no other cases} @y begin @.Runaway...@> case scanner_status of defining: begin print_nl("Runaway definition"); p:=def_ref; end; matching: begin print_nl("Runaway argument"); p:=temp_token_head; end; aligning: begin print_nl("Runaway preamble"); p:=hold_token_head; end; absorbing: begin print_nl("Runaway text"); p:=def_ref; end; end; {there are no other cases} @z @x @!param_stack:array [0..param_size] of pointer; {token list pointers for parameters} @y @!param_stack: ^pointer; {token list pointers for parameters} @z @x incr(in_open); push_input; index:=in_open; @y incr(in_open); push_input; index:=in_open; source_filename_stack[index]:=0;full_source_filename_stack[index]:=0; @z @x begin input_ptr:=0; max_in_stack:=0; @y begin input_ptr:=0; max_in_stack:=0; source_filename_stack[0]:=0;full_source_filename_stack[0]:=0; @z @x if_eof_code: begin scan_four_bit_int; b:=(read_open[cur_val]=closed); end; @y if_eof_code: begin scan_four_bit_int_or_18; if cur_val=18 then b:=not shellenabledp else b:=(read_open[cur_val]=closed); end; @z @x @ 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. @y @ The file names we shall deal with have the following structure: If the name contains `\./' or `\.:' (for Amiga only), 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 last `\..' to the end, otherwise the file extension is null. @z @x @!area_delimiter:pool_pointer; {the most recent `\.>' or `\.:', if any} @!ext_delimiter:pool_pointer; {the relevant `\..', if any} @y @!area_delimiter:pool_pointer; {the most recent `\./', if any} @!ext_delimiter:pool_pointer; {the most recent `\..', if any} @z @x @d TEX_area=="TeXinputs:" @.TeXinputs@> @d TEX_font_area=="TeXfonts:" @.TeXfonts@> @y In C, the default paths are specified separately. @z @x begin area_delimiter:=0; ext_delimiter:=0; @y begin area_delimiter:=0; ext_delimiter:=0; quoted_filename:=false; @z @x begin if c=" " then more_name:=false @y begin if (c=" ") and stop_at_space and (not quoted_filename) then more_name:=false else if c="""" then begin quoted_filename:=not quoted_filename; more_name:=true; end @z @x if (c=">")or(c=":") then @y if ISDIRSEP(c) then @z @x else if (c=".")and(ext_delimiter=0) then ext_delimiter:=cur_length; @y else if c="." then ext_delimiter:=cur_length; @z @x @ The third. @^system dependencies@> @p procedure end_name; @y @ The third. @^system dependencies@> If a string is already in the string pool, the function |slow_make_string| does not create a new string but returns this string number, thus saving string space. Because of this new property of the returned string number it is not possible to apply |flush_string| to these strings. @p procedure end_name; var temp_str: str_number; {result of file name cache lookups} @!j,@!s,@!t: pool_pointer; {running indices} @!must_quote:boolean; {whether we need to quote a string} @z @x @:TeX capacity exceeded number of strings}{\quad number of strings@> @y @:TeX capacity exceeded number of strings}{\quad number of strings@> str_room(6); {Room for quotes, if needed.} {add quotes if needed} if area_delimiter<>0 then begin {maybe quote |cur_area|} must_quote:=false; s:=str_start_macro(str_ptr); t:=str_start_macro(str_ptr)+area_delimiter; j:=s; while (not must_quote) and (j0 then ext_delimiter:=ext_delimiter+2; area_delimiter:=area_delimiter+2; pool_ptr:=pool_ptr+2; end; end; {maybe quote |cur_name|} s:=str_start_macro(str_ptr)+area_delimiter; if ext_delimiter=0 then t:=pool_ptr else t:=str_start_macro(str_ptr)+ext_delimiter-1; must_quote:=false; j:=s; while (not must_quote) and (j0 then ext_delimiter:=ext_delimiter+2; pool_ptr:=pool_ptr+2; end; if ext_delimiter<>0 then begin {maybe quote |cur_ext|} s:=str_start_macro(str_ptr)+ext_delimiter-1; t:=pool_ptr; must_quote:=false; j:=s; while (not must_quote) and (j0 then begin cur_area:=temp_str; decr(str_ptr); {no |flush_string|, |pool_ptr| will be wrong!} for j:=str_start_macro(str_ptr+1) to pool_ptr-1 do begin str_pool[j-area_delimiter]:=str_pool[j]; end; pool_ptr:=pool_ptr-area_delimiter; {update |pool_ptr|} end; end; if ext_delimiter=0 then begin cur_ext:=""; cur_name:=slow_make_string; @z @x else begin cur_name:=str_ptr; str_start_macro(str_ptr+1):=str_start_macro(str_ptr)+ext_delimiter-area_delimiter-1; incr(str_ptr); cur_ext:=make_string; @y else begin cur_name:=str_ptr; str_start_macro(str_ptr+1):=str_start_macro(str_ptr)+ext_delimiter-area_delimiter-1; incr(str_ptr); cur_ext:=make_string; decr(str_ptr); {undo extension string to look at name part} temp_str:=search_string(cur_name); if temp_str>0 then begin cur_name:=temp_str; decr(str_ptr); {no |flush_string|, |pool_ptr| will be wrong!} for j:=str_start_macro(str_ptr+1) to pool_ptr-1 do begin str_pool[j-ext_delimiter+area_delimiter+1]:=str_pool[j]; end; pool_ptr:=pool_ptr-ext_delimiter+area_delimiter+1; {update |pool_ptr|} end; cur_ext:=slow_make_string; {remake extension string} @z @x begin slow_print(a); slow_print(n); slow_print(e); @y var must_quote: boolean; {whether to quote the filename} @!j:pool_pointer; {index into |str_pool|} begin must_quote:=false; if a<>0 then begin j:=str_start_macro(a); while (not must_quote) and (j0 then begin j:=str_start_macro(n); while (not must_quote) and (j0 then begin j:=str_start_macro(e); while (not must_quote) and (j0)and(|str_pool|[|str_start|[|a|]]=""""))or ((|n|<>0)and(|str_pool|[|str_start|[|n|]]=""""))or ((|e|<>0)and(|str_pool|[|str_start|[|e|]]=""""));} if must_quote then print_char(""""); if a<>0 then for j:=str_start_macro(a) to str_start_macro(a+1)-1 do if so(str_pool[j])<>"""" then print(so(str_pool[j])); if n<>0 then for j:=str_start_macro(n) to str_start_macro(n+1)-1 do if so(str_pool[j])<>"""" then print(so(str_pool[j])); if e<>0 then for j:=str_start_macro(e) to str_start_macro(e+1)-1 do if so(str_pool[j])<>"""" then print(so(str_pool[j])); if must_quote then print_char(""""); @z @x @d append_to_name(#)==begin c:=#; incr(k); if k<=file_name_size then nameoffile[k]:=xchr[c]; end @y @d append_to_name(#)==begin c:=#; if not (c="""") then begin incr(k); if k<=file_name_size then nameoffile[k]:=xchr[c]; end end @z @x for j:=str_start_macro(a) to str_start_macro(a+1)-1 do append_to_name(so(str_pool[j])); @y if nameoffile then libcfree (nameoffile); nameoffile:= xmallocarray (packed_ASCII_code, length(a)+length(n)+length(e)+1); for j:=str_start_macro(a) to str_start_macro(a+1)-1 do append_to_name(so(str_pool[j])); @z @x for k:=namelength+1 to file_name_size do nameoffile[k]:=' '; @y nameoffile[namelength+1]:=0; @z @x @d format_default_length=20 {length of the |TEX_format_default| string} @d format_area_length=11 {length of its area part} @d format_ext_length=4 {length of its `\.{.fmt}' part} @y Under {\mc UNIX} we don't give the area part, instead depending on the path searching that will happen during file opening. Also, the length will be set in the main program. @d format_area_length=0 {length of its area part} @d format_ext_length=4 {length of its `\.{.fmt}' part} @z @x @!TEX_format_default:packed array[1..format_default_length] of char; @ @= TEX_format_default:='TeXformats:plain.fmt'; @y @!format_default_length: integer; @!TEX_format_default: ^char; @ We set the name of the default format file and the length of that name in C, instead of Pascal, since we want them to depend on the name of the program. @z @x for j:=1 to n do append_to_name(TEX_format_default[j]); @y if nameoffile then libcfree (nameoffile); nameoffile := xmallocarray (packed_ASCII_code, n+(b-a+1)+format_ext_length+1); for j:=1 to n do append_to_name(TEX_format_default[j]); @z @x for k:=namelength+1 to file_name_size do nameoffile[k]:=' '; @y nameoffile[namelength+1]:=0; @z @x pack_buffered_name(0,loc,j-1); {try first without the system file area} if w_open_in(fmt_file) then goto found; pack_buffered_name(format_area_length,loc,j-1); {now try the system format file area} if w_open_in(fmt_file) then goto found; @y pack_buffered_name(0,loc,j-1); {Kpathsea does everything} if w_open_in(fmt_file) then goto found; @z @x wterm_ln('Sorry, I can''t find that format;',' will try PLAIN.'); @y wterm ('Sorry, I can''t find the format `'); fputs (stringcast(nameoffile + 1), stdout); wterm ('''; will try `'); fputs (TEX_format_default + 1, stdout); wterm_ln ('''.'); @z @x wterm_ln('I can''t find the PLAIN format file!'); @.I can't find PLAIN...@> @y wterm ('I can''t find the format file `'); fputs (TEX_format_default + 1, stdout); wterm_ln ('''!'); @.I can't find the format...@> @z @x @p function make_name_string:str_number; var k:1..file_name_size; {index into |nameoffile|} begin if (pool_ptr+namelength>pool_size)or(str_ptr=max_strings)or (cur_length>0) then make_name_string:="?" else begin for k:=1 to namelength do append_char(nameoffile[k]); make_name_string:=make_string; end; @y @p function make_name_string:str_number; var k:1..file_name_size; {index into |nameoffile|} save_area_delimiter, save_ext_delimiter: pool_pointer; save_name_in_progress, save_stop_at_space: boolean; begin if (pool_ptr+namelength>pool_size)or(str_ptr=max_strings)or (cur_length>0) then make_name_string:="?" else begin for k:=1 to namelength do append_char(nameoffile[k]); make_name_string:=make_string; {At this point we also set |cur_name|, |cur_ext|, and |cur_area| to match the contents of |nameoffile|.} save_area_delimiter:=area_delimiter; save_ext_delimiter:=ext_delimiter; save_name_in_progress:=name_in_progress; save_stop_at_space:=stop_at_space; name_in_progress:=true; begin_name; stop_at_space:=false; k:=1; while (k<=namelength)and(more_name(nameoffile[k])) do incr(k); stop_at_space:=save_stop_at_space; end_name; name_in_progress:=save_name_in_progress; area_delimiter:=save_area_delimiter; ext_delimiter:=save_ext_delimiter; end; @z @x if not more_name(cur_chr) then goto done; @y {If |cur_chr| is a space and we're not scanning a token list, check whether we're at the end of the buffer. Otherwise we end up adding spurious spaces to file names in some cases.} if (cur_chr=" ") and (state<>token_list) and (loc>limit) then goto done; if not more_name(cur_chr) then goto done; @z @x var k:0..buf_size; {index into |buffer|} @y var k:0..buf_size; {index into |buffer|} @!saved_cur_name:str_number; {to catch empty terminal input} @z @x if e=".tex" then show_context; @y if (e=".tex") or (e="") then show_context; @z @x clear_terminal; prompt_input(": "); @; if cur_ext="" then cur_ext:=e; @y saved_cur_name:=cur_name; clear_terminal; prompt_input(": "); @; if cur_ext="" then cur_ext:=e; if length(cur_name)=0 then cur_name:=saved_cur_name; @z @x @d ensure_dvi_open==if output_file_name=0 then @y @d log_name == texmf_log_name @d ensure_dvi_open==if output_file_name=0 then @z @x @!months:packed array [1..36] of char; {abbreviations of month names} @y @!months:^char; @z @x if job_name=0 then job_name:="texput"; @.texput@> @y if job_name=0 then job_name:=getjobname("texput"); @.texput@> pack_job_name(".fls"); recorder_change_filename(stringcast(nameoffile+1)); @z @x begin wlog(banner); @y begin if srcspecialsp or filelineerrorstylep or parsefirstlinep then wlog(banner_k) else wlog(banner); @z @x slow_print(format_ident); print(" "); @y wlog(versionstring); slow_print(format_ident); print(" "); @z @x months:='JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC'; @y months := ' JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC'; @z @x end @y if shellenabledp then begin wlog_cr; wlog(' '); if restrictedshell then begin wlog('restricted '); end; wlog('\write18 enabled.') end; if srcspecialsp then begin wlog_cr; wlog(' Source specials enabled.') end; if filelineerrorstylep then begin wlog_cr; wlog(' file:line:error style messages enabled.') end; if parsefirstlinep then begin wlog_cr; wlog(' %&-line parsing enabled.'); end; end @z @x prompt_file_name("input file name",".tex"); @y prompt_file_name("input file name",""); @z @x name:=a_make_name_string(cur_file); @y name:=a_make_name_string(cur_file); source_filename_stack[in_open]:=name; full_source_filename_stack[in_open]:=makefullnamestring; if name=str_ptr-1 then {we can try to conserve string pool space now} begin temp_str:=search_string(name); if temp_str>0 then begin name:=temp_str; flush_string; end; end; @z @x begin job_name:=cur_name; open_log_file; @y begin job_name:=getjobname(cur_name); open_log_file; @z @x if name=str_ptr-1 then {we can conserve string pool space now} begin flush_string; name:=cur_name; end; @y @z @x @!ocp_list_info:array[ocp_list_index] of memory_word; {the big collection of ocp list data} @!ocp_listmem_ptr:ocp_list_index; {first unused word of |ocp_list_info|} @!ocp_listmem_run_ptr:ocp_list_index; {temp unused word of |ocp_list_info|} @!ocp_lstack_info:array[ocp_lstack_index] of memory_word; {the big collection of ocp lstack data} @!ocp_lstackmem_ptr:ocp_lstack_index; {first unused word of |ocp_lstack_info|} @!ocp_lstackmem_run_ptr:ocp_lstack_index; {temp unused word of |ocp_lstack_info|} @!ocp_list_ptr:internal_ocp_list_number; {largest internal ocp list number in use} @!ocp_list_list:array[internal_ocp_list_number] of ocp_list_index; @y @!ocp_list_info:^memory_word; {the big collection of ocp list data} @!ocp_listmem_ptr:ocp_list_index; {first unused word of |ocp_list_info|} @!ocp_listmem_run_ptr:ocp_list_index; {temp unused word of |ocp_list_info|} @!ocp_lstack_info:^memory_word; {the big collection of ocp lstack data} @!ocp_lstackmem_ptr:ocp_lstack_index; {first unused word of |ocp_lstack_info|} @!ocp_lstackmem_run_ptr:ocp_lstack_index; {temp unused word of |ocp_lstack_info|} @!ocp_list_ptr:internal_ocp_list_number; {largest internal ocp list number in use} @!ocp_list_list:^ocp_list_index; @z @x @!dvi_buf:array[dvi_index] of real_eight_bits; {buffer for \.{DVI} output} @!half_buf:dvi_index; {half of |dvi_buf_size|} @!dvi_limit:dvi_index; {end of the current half buffer} @!dvi_ptr:dvi_index; {the next available buffer address} @y @!dvi_buf:^real_eight_bits; {buffer for \.{DVI} output} @!half_buf:integer; {half of |dvi_buf_size|} @!dvi_limit:integer; {end of the current half buffer} @!dvi_ptr:integer; {the next available buffer address} @z @x @p procedure write_dvi(@!a,@!b:dvi_index); var k:dvi_index; begin for k:=a to b do write(dvi_file,dvi_buf[k]); end; @y In C, we use a macro to call |fwrite| or |write| directly, writing all the bytes in one shot. Much better even than writing four bytes at a time. @z @x old_setting:=selector; selector:=new_string; @y if output_comment then begin l:=strlen(output_comment); dvi_out(l); for s:=0 to l-1 do dvi_out(output_comment[s]); end else begin {the default code is unchanged} old_setting:=selector; selector:=new_string; @z @x pool_ptr:=str_start_macro(str_ptr); {flush the current string} @y pool_ptr:=str_start_macro(str_ptr); {flush the current string} end; @z @x dvi_out(eop); incr(total_pages); cur_s:=-1; @y dvi_out(eop); incr(total_pages); cur_s:=-1; ifdef ('IPC') if ipcon>0 then begin if dvi_limit=half_buf then begin write_dvi(half_buf, dvi_buf_size-1); flush_dvi; dvi_gone:=dvi_gone+half_buf; end; if dvi_ptr>0 then begin write_dvi(0, dvi_ptr-1); flush_dvi; dvi_offset:=dvi_offset+dvi_ptr; dvi_gone:=dvi_gone+dvi_ptr; end; dvi_ptr:=0; dvi_limit:=dvi_buf_size; ipcpage(dvi_gone); end; endif ('IPC'); @z @x k:=4+((dvi_buf_size-dvi_ptr) mod 4); {the number of 223's} @y ifdef ('IPC') k:=7-((3+dvi_offset+dvi_ptr) mod 4); {the number of 223's} endif ('IPC') ifndef ('IPC') k:=4+((dvi_buf_size-dvi_ptr) mod 4); {the number of 223's} endifn ('IPC') @z @x print_nl("Output written on "); slow_print(output_file_name); @y print_nl("Output written on "); print_file_name(0, output_file_name, 0); @z @x print(" ("); print_int(total_pages); print(" page"); if total_pages<>1 then print_char("s"); @y print(" ("); print_int(total_pages); if total_pages<>1 then print(" pages") else print(" page"); @z @x @= continue: adjust_space_factor;@/ @y @= if ((head=tail) and (mode>0)) then begin if (insertsrcspecialauto) then append_src_special; end; continue: adjust_space_factor;@/ @z @x print("' in "); print_mode(mode); @y print_in_mode(mode); @z @x if indented then begin p:=new_null_box; box_dir(p):=par_direction; width(p):=par_indent;@+ tail_append(p); @y if indented then begin p:=new_null_box; box_dir(p):=par_direction; width(p):=par_indent;@+ tail_append(p); if (insertsrcspecialeverypar) then insert_src_special;@+ @z @x begin print_err("Extra "); print_esc("endcsname"); @.Extra \\endcsname@> help1("I'm ignoring this, since I wasn't doing a \csname."); @y begin if cur_chr = 10 then begin print_err("Extra "); print_esc("endmubyte"); @.Extra \\endmubyte@> help1("I'm ignoring this, since I wasn't doing a \mubyte."); end else begin print_err("Extra "); print_esc("endcsname"); @.Extra \\endcsname@> help1("I'm ignoring this, since I wasn't doing a \csname."); end; @z @x if every_math<>null then begin_token_list(every_math,every_math_text); @y if (insertsrcspecialeverymath) then insert_src_special; if every_math<>null then begin_token_list(every_math,every_math_text); @z @x if every_vbox<>null then begin_token_list(every_vbox,every_vbox_text); @y if (insertsrcspecialeveryvbox) then insert_src_special; if every_vbox<>null then begin_token_list(every_vbox,every_vbox_text); @z @x if (cur_cs=0)or(cur_cs>frozen_control_sequence) then @y if (cur_cs=0)or(cur_cs>eqtb_top)or ((cur_cs>frozen_control_sequence)and(cur_cs<=eqtb_size)) then @z @x @!flushable_string:str_number; {string not yet referenced} @y @z @x interaction:=cur_chr; @y interaction:=cur_chr; if interaction = batch_mode then kpsemaketexdiscarderrors := 1 else kpsemaketexdiscarderrors := 0; @z @x slow_print(s); update_terminal; @y print(s); update_terminal; @z @x begin print_err(""); slow_print(s); @y begin print_err(""); print(s); @z @x format_ident:=" (INITEX)"; @y if ini_version then format_ident:=" (INITEX)"; @z @x @!w: four_quarters; {four ASCII codes} @y @!format_engine: ^packed_ASCII_code; @z @x @!w: four_quarters; {four ASCII codes} @y @!format_engine: ^packed_ASCII_code; @z @x @d dump_wd(#)==begin fmt_file^:=#; put(fmt_file);@+end @d dump_int(#)==begin fmt_file^.int:=#; put(fmt_file);@+end @d dump_hh(#)==begin fmt_file^.hh:=#; put(fmt_file);@+end @d dump_qqqq(#)==begin fmt_file^.qqqq:=#; put(fmt_file);@+end @y @z @x @d undump_wd(#)==begin get(fmt_file); #:=fmt_file^;@+end @d undump_int(#)==begin get(fmt_file); #:=fmt_file^.int;@+end @d undump_hh(#)==begin get(fmt_file); #:=fmt_file^.hh;@+end @d undump_qqqq(#)==begin get(fmt_file); #:=fmt_file^.qqqq;@+end @y @z @x @d undump_size_end_end(#)==too_small(#)@+else undump_end_end @y @d format_debug_end(#)== writeln (stderr, ' = ', #); end; @d format_debug(#)== if debug_format_file then begin write (stderr, 'fmtdebug:', #); format_debug_end @d undump_size_end_end(#)== too_small(#)@+else format_debug (#)(x); undump_end_end @z @x dump_int(@$);@/ @y dump_int(@"57325458); {Web2C \TeX's magic constant: "W2TX"} {Align engine to 4 bytes with one or more trailing NUL} x:=strlen(engine_name); format_engine:=xmallocarray(packed_ASCII_code,x+4); strcpy(stringcast(format_engine), stringcast(engine_name)); for k:=x to x+3 do format_engine[k]:=0; x:=x+4-(x mod 4); dump_int(x);dump_things(format_engine[0], x); libcfree(format_engine);@/ dump_int(@$);@/ dump_int(max_halfword);@/ dump_int(hash_high); @z @x x:=fmt_file^.int; if x<>@$ then goto bad_fmt; {check that strings are the same} @y @+Init libcfree(str_pool); libcfree(str_start); libcfree(yhash); libcfree(zeqtb); libcfree(fixmem); libcfree(varmem); @+Tini undump_int(x); format_debug('format magic number')(x); if x<>@"57325458 then goto bad_fmt; {not a format file} undump_int(x); format_debug('engine name size')(x); if (x<0) or (x>256) then goto bad_fmt; {corrupted format file} format_engine:=xmallocarray(packed_ASCII_code, x); undump_things(format_engine[0], x); format_engine[x-1]:=0; {force string termination, just in case} if strcmp(stringcast(engine_name), stringcast(format_engine)) then begin wake_up_terminal; wterm_ln('---! ', stringcast(nameoffile+1), ' was written by ', format_engine); libcfree(format_engine); goto bad_fmt; end; libcfree(format_engine); undump_int(x); format_debug('string pool checksum')(x); if x<>@$ then begin {check that strings are the same} wake_up_terminal; wterm_ln('---! ', stringcast(nameoffile+1), ' was written by an older version'); goto bad_fmt; end; undump_int(x); if x<>max_halfword then goto bad_fmt; {check |max_halfword|} undump_int(hash_high); if (hash_high<0)or(hash_high>sup_hash_extra) then goto bad_fmt; if hash_extraeqtb_size @y k:=j+1; dump_int(k-l); until k>eqtb_size; if hash_high>0 then dump_things(eqtb[eqtb_size+1],hash_high); {dump |hash_extra| part} @z @x for j:=k to k+x-1 do undump_wd(eqtb[j]); @y undump_things(eqtb[k], x); @z @x until k>eqtb_size @y until k>eqtb_size; if hash_high>0 then undump_things(eqtb[eqtb_size+1],hash_high); {undump |hash_extra| part} @z @x dump_int(hash_used); cs_count:=frozen_control_sequence-1-hash_used; @y dump_int(hash_used); cs_count:=frozen_control_sequence-1-hash_used+hash_high; @z @x for p:=hash_used+1 to undefined_control_sequence-1 do dump_hh(hash[p]); @y dump_things(hash[hash_used+1], undefined_control_sequence-1-hash_used); if hash_high>0 then dump_things(hash[eqtb_size+1], hash_high); @z @x for p:=hash_used+1 to undefined_control_sequence-1 do undump_hh(hash[p]); @y undump_things (hash[hash_used+1], undefined_control_sequence-1-hash_used); if debug_format_file then begin print_csnames (hash_base, undefined_control_sequence - 1); end; if hash_high > 0 then begin undump_things (hash[eqtb_size+1], hash_high); if debug_format_file then begin print_csnames (eqtb_size + 1, hash_high - (eqtb_size + 1)); end; end; @z @x @ @= begin undump_font(k);@/ end @y @ @= begin undump_font(k);@/ end; make_pdftex_banner @z @x for k:=0 to active_max_ptr-1 do dump_wd(active_info[k]); if active_max_ptr>0 then begin print_ln; print_int(active_max_ptr); print(" words of active ocps"); end; @ @= undump_size(0)(active_mem_size)('active start point')(active_min_ptr); undump_size(0)(active_mem_size)('active mem size')(active_max_ptr); for k:=0 to active_max_ptr-1 do undump_wd(active_info[k]); @y if active_max_ptr>0 then dump_things(active_info[0], active_max_ptr); if active_max_ptr>0 then begin print_ln; print_int(active_max_ptr); print(" words of active ocps"); end; @ @= undump_size(0)(active_mem_size)('active start point')(active_min_ptr); undump_size(0)(active_mem_size)('active mem size')(active_max_ptr); if active_max_ptr>0 then undump_things(active_info[0], active_max_ptr); @z @x @ @= dump_int(ocp_listmem_ptr); for k:=0 to ocp_listmem_ptr-1 do dump_wd(ocp_list_info[k]); dump_int(ocp_list_ptr); for k:=null_ocp_list to ocp_list_ptr do begin dump_int(ocp_list_list[k]); if null_ocp_list<>ocp_list_ptr then begin print_nl("\ocplist"); print_esc(ocp_list_id_text(k)); print_char("="); print_ocp_list(ocp_list_list[k]); end; end; dump_int(ocp_lstackmem_ptr); for k:=0 to ocp_lstackmem_ptr-1 do dump_wd(ocp_lstack_info[k]) @y @ @= dump_int(ocp_listmem_ptr); dump_things(ocp_list_info[0], ocp_listmem_ptr); dump_int(ocp_list_ptr); dump_things(ocp_list_list[null_ocp_list], ocp_list_ptr+1-null_ocp_list); for k:=null_ocp_list to ocp_list_ptr do begin if null_ocp_list<>ocp_list_ptr then begin print_nl("\ocplist"); print_esc(ocp_list_id_text(k)); print_char("="); print_ocp_list(ocp_list_list[k]); end; end; dump_int(ocp_lstackmem_ptr); dump_things(ocp_lstack_info[0], ocp_lstackmem_ptr) @z @x @ @= undump_size(1)(1000000)('ocp list mem size')(ocp_listmem_ptr); for k:=0 to ocp_listmem_ptr-1 do undump_wd(ocp_list_info[k]); undump_size(ocp_list_base)(ocp_list_biggest)('ocp list max')(ocp_list_ptr); for k:=null_ocp_list to ocp_list_ptr do undump_int(ocp_list_list[k]); undump_size(1)(1000000)('ocp lstack mem size')(ocp_lstackmem_ptr); for k:=0 to ocp_lstackmem_ptr-1 do undump_wd(ocp_lstack_info[k]) @y @ @= undump_size(1)(1000000)('ocp list mem size')(ocp_listmem_ptr); undump_things(ocp_list_info[0], ocp_listmem_ptr); undump_size(0)(1000000)('ocp list max')(ocp_list_ptr); undump_things(ocp_list_list[null_ocp_list], ocp_list_ptr+1-null_ocp_list); undump_size(0)(1000000)('ocp lstack mem size')(ocp_lstackmem_ptr); undump_things(ocp_lstack_info[0], ocp_lstackmem_ptr) @z @x undump(batch_mode)(error_stop_mode)(interaction); @y undump(batch_mode)(error_stop_mode)(interaction); if interactionoption<>unspecified_mode then interaction:=interactionoption; @z @x if (x<>69069)or eof(fmt_file) then goto bad_fmt @y if x<>69069 then goto bad_fmt @z @x print(" (preloaded format="); print(job_name); print_char(" "); @y print(" (format="); print(job_name); print_char(" "); @z @x @p begin @!{|start_here|} @y @d const_chk(#)==begin if # < inf_@&# then # := inf_@&# else if # > sup_@&# then # := sup_@&# end {|setup_bound_var| stuff duplicated in \.{mf.ch}.} @d setup_bound_var(#)==bound_default:=#; setup_bound_var_end @d setup_bound_var_end(#)==bound_name:=#; setup_bound_var_end_end @d setup_bound_var_end_end(#)==if luainit>0 then begin get_lua_number('texconfig',bound_name,addressof(#)); if #=0 then #:=bound_default; end else setupboundvariable(addressof(#), bound_name, bound_default); @p procedure main_body; begin @!{|start_here|} {Bounds that may be set from the configuration file. We want the user to be able to specify the names with underscores, but \.{TANGLE} removes underscores, so we're stuck giving the names twice, once as a string, once as the identifier. How ugly.} setup_bound_var (100000)('pool_size')(pool_size); setup_bound_var (75000)('string_vacancies')(string_vacancies); setup_bound_var (5000)('pool_free')(pool_free); {min pool avail after fmt} setup_bound_var (15000)('max_strings')(max_strings); setup_bound_var (100)('strings_free')(strings_free); setup_bound_var (3000)('buf_size')(buf_size); setup_bound_var (50)('nest_size')(nest_size); setup_bound_var (15)('max_in_open')(max_in_open); setup_bound_var (60)('param_size')(param_size); setup_bound_var (4000)('save_size')(save_size); setup_bound_var (300)('stack_size')(stack_size); setup_bound_var (16384)('dvi_buf_size')(dvi_buf_size); setup_bound_var (79)('error_line')(error_line); setup_bound_var (50)('half_error_line')(half_error_line); setup_bound_var (79)('max_print_line')(max_print_line); setup_bound_var(1000)('ocp_list_size')(ocp_list_size); setup_bound_var(1000)('ocp_buf_size')(ocp_buf_size); setup_bound_var(1000)('ocp_stack_size')(ocp_stack_size); setup_bound_var (0)('hash_extra')(hash_extra); setup_bound_var (72)('pk_dpi')(pk_dpi); setup_bound_var (10000)('expand_depth')(expand_depth); {Check other constants against their sup and inf.} const_chk (buf_size); const_chk (nest_size); const_chk (max_in_open); const_chk (param_size); const_chk (save_size); const_chk (stack_size); const_chk (dvi_buf_size); const_chk (pool_size); const_chk (string_vacancies); const_chk (pool_free); const_chk (max_strings); const_chk (strings_free); const_chk (hash_extra); const_chk (obj_tab_size); const_chk (pdf_mem_size); const_chk (dest_names_size); const_chk (pk_dpi); if error_line > ssup_error_line then error_line := ssup_error_line; {array memory allocation} buffer:=xmallocarray (packed_ASCII_code, buf_size); nest:=xmallocarray (list_state_record, nest_size); save_stack:=xmallocarray (memory_word, save_size); input_stack:=xmallocarray (in_state_record, stack_size); input_file:=xmallocarray (alpha_file, max_in_open); input_file_callback_id:=xmallocarray (integer, max_in_open); line_stack:=xmallocarray (integer, max_in_open); eof_seen:=xmallocarray (boolean, max_in_open); grp_stack:=xmallocarray (save_pointer, max_in_open); if_stack:=xmallocarray (pointer, max_in_open); source_filename_stack:=xmallocarray (str_number, max_in_open); full_source_filename_stack:=xmallocarray (str_number, max_in_open); param_stack:=xmallocarray (halfword, param_size); dvi_buf:=xmallocarray (real_eight_bits, dvi_buf_size); ocp_list_info:=xmallocarray (memory_word, ocp_list_size); memset(ocp_list_info,0,sizeof(memory_word)* ocp_list_size); ocp_lstack_info:=xmallocarray (memory_word, ocp_list_size); memset(ocp_lstack_info,0,sizeof(memory_word)* ocp_list_size); ocp_list_list:=xmallocarray (ocp_list_index, ocp_list_size); otp_init_input_buf:=xmallocarray (quarterword, ocp_buf_size); otp_input_buf:=xmallocarray (quarterword, ocp_buf_size); otp_output_buf:=xmallocarray (quarterword, ocp_buf_size); otp_stack_buf:=xmallocarray (quarterword, ocp_stack_size); otp_calcs:=xmallocarray (halfword, ocp_stack_size); otp_states:=xmallocarray (halfword, ocp_stack_size); obj_tab:=xmallocarray (obj_entry, inf_obj_tab_size); {will grow dynamically} obj_offset(0):=0; pdf_mem:=xmallocarray (integer, inf_pdf_mem_size); {will grow dynamically} dest_names:=xmallocarray (dest_name_entry, inf_dest_names_size); {will grow dynamically} pdf_op_buf:=xmallocarray (real_eight_bits, pdf_op_buf_size); pdf_os_buf:=xmallocarray (real_eight_bits, inf_pdf_os_buf_size); {will grow dynamically} pdf_os_objnum:=xmallocarray (integer, pdf_os_max_objs); pdf_os_objoff:=xmallocarray (integer, pdf_os_max_objs); @+Init fixmem:=xmallocarray (smemory_word, fix_mem_init+1); memset (voidcast(fixmem), 0, (fix_mem_init+1)*sizeof(smemory_word)); fix_mem_min:=0; fix_mem_max:=fix_mem_init; eqtb_top := eqtb_size+hash_extra; if hash_extra=0 then hash_top:=undefined_control_sequence else hash_top:=eqtb_top; yhash:=xmallocarray (two_halves,1+hash_top-hash_offset); hash:=yhash - hash_offset; {Some compilers require |hash_offset=0|} next(hash_base):=0; text(hash_base):=0; for hash_used:=hash_base+1 to hash_top do hash[hash_used]:=hash[hash_base]; zeqtb:=xmallocarray (memory_word, eqtb_top); eqtb:=zeqtb; str_start:=xmallocarray (pool_pointer, max_strings); str_pool:=xmallocarray (packed_ASCII_code, pool_size); @+Tini @z @x @!init if not get_strings_started then goto final_end; init_prim; {call |primitive| for each primitive} init_str_ptr:=str_ptr; init_pool_ptr:=pool_ptr; fix_date_and_time; tini@/ @y @!Init if not get_strings_started then goto final_end; init_prim; {call |primitive| for each primitive} init_str_ptr:=str_ptr; init_pool_ptr:=pool_ptr; fix_date_and_time; Tini@/ @z @x end_of_TEX: close_files_and_terminate; final_end: ready_already:=0; end. @y close_files_and_terminate; final_end: do_final_end; end {|main_body|}; @z @x wterm(banner); @y if srcspecialsp or filelineerrorstylep or parsefirstlinep then wterm(banner_k) else wterm(banner); @z @x if format_ident=0 then wterm_ln(' (no format preloaded)') else begin slow_print(format_ident); print_ln; end; @y wterm(versionstring); if format_ident>0 then slow_print(format_ident); print_ln; if shellenabledp then begin wterm(' '); if restrictedshell then begin wterm('restricted '); end; wterm_ln('\write18 enabled.'); end; if srcspecialsp then begin wterm_ln(' Source specials enabled.') end; if filelineerrorstylep then begin wterm_ln(' file:line:error style messages enabled.') end; if parsefirstlinep then begin wterm_ln(' %&-line parsing enabled.') end; @z @x slow_print(log_name); print_char("."); @y print_file_name(0, log_name, 0); print_char("."); @z @x end; @y end; print_ln; if (edit_name_start<>0) and (interaction>batch_mode) then calledit(str_pool,edit_name_start,edit_name_length,edit_line); @z @x wlog_ln(' ',cs_count:1,' multiletter control sequences out of ', hash_size:1);@/ @y wlog_ln(' ',cs_count:1,' multiletter control sequences out of ', hash_size:1, '+', hash_extra:1);@/ @z @x begin @!init for i:=0 to biggest_used_mark do begin @y begin @!Init for i:=0 to biggest_used_mark do begin @z @x store_fmt_file; return;@+tini@/ @y store_fmt_file; return;@+Tini@/ @z @x if (format_ident=0)or(buffer[loc]="&") then @y if (format_ident=0)or(buffer[loc]="&")or dump_line then @z @x w_close(fmt_file); @y w_close(fmt_file); eqtb:=zeqtb; @z @x fix_date_and_time;@/ @y fix_date_and_time;@/ @!init make_pdftex_banner; tini@/ @z @x begin goto breakpoint;@\ {go to every label at least once} breakpoint: m:=0; @{'BREAKPOINT'@}@\ end @y abort {do something to cause a core dump} @z @x primitive("special",extension,special_node);@/ @y primitive("special",extension,special_node);@/ text(frozen_special):="special"; eqtb[frozen_special]:=eqtb[cur_val];@/ @z @x else if cur_val>15 then cur_val:=16; @y else if (cur_val>15) and (cur_val <> 18) then cur_val:=16; @z @x begin @ @= @!edit_name_start: pool_pointer; {where the filename to switch to starts} @!edit_name_length,@!edit_line: integer; {what line to start editing at} @!ipcon: cinttype; {level of IPC action, 0 for none [default]} @!stop_at_space: boolean; {whether |more_name| returns false for space} @ The |edit_name_start| will be set to point into |str_pool| somewhere after its beginning if \TeX\ is supposed to switch to an editor on exit. @= edit_name_start:=0; stop_at_space:=true; @ These are used when we regenerate the representation of the first 256 strings. @ = @!save_str_ptr: str_number; @!save_pool_ptr: pool_pointer; @!shellenabledp: cinttype; @!restrictedshell: cinttype; @!output_comment: ^char; @!k,l: 0..255; {used by `Make the first 256 strings', etc.} @ When debugging a macro package, it can be useful to see the exact control sequence names in the format file. For example, if ten new csnames appear, it's nice to know what they are, to help pinpoint where they came from. (This isn't a truly ``basic'' printing procedure, but that's a convenient module in which to put it.) @ = procedure print_csnames (hstart:integer; hfinish:integer); var c,h:integer; begin writeln(stderr, 'fmtdebug:csnames from ', hstart, ' to ', hfinish, ':'); for h := hstart to hfinish do begin if text(h) > 0 then begin {if have anything at this position} for c := str_start_macro(text(h)) to str_start_macro(text(h) + 1) - 1 do begin putbyte(str_pool[c], stderr); {print the characters} end; writeln(stderr, '|'); end; end; end; @ Are we printing extra info as we read the format file? @ = @!debug_format_file: boolean; @ A helper for printing file:line:error style messages. Look for a filename in |full_source_filename_stack|, and if we fail to find one fall back on the non-file:line:error style. @= procedure print_file_line; var level: 0..max_in_open; begin level:=in_open; while (level>0) and (full_source_filename_stack[level]=0) do decr(level); if level=0 then print_nl("! ") else begin print_nl (""); print (full_source_filename_stack[level]); print (":"); if level=in_open then print_int (line) else print_int (line_stack[index+1-(in_open-level)]); print (": "); end; end; @ To be able to determine whether \.{\\write18} is enabled from within \TeX\ we also implement \.{\\eof18}. We sort of cheat by having an additional route |scan_four_bit_int_or_18| which is the same as |scan_four_bit_int| except it also accepts the value 18. @= procedure scan_four_bit_int_or_18; begin scan_int; if (cur_val<0)or((cur_val>15)and(cur_val<>18)) then begin 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; end; end; @* \[54/web2c-string] The string recycling routines. \TeX{} uses 2 upto 4 {\it new\/} strings when scanning a filename in an \.{\\input}, \.{\\openin}, or \.{\\openout} operation. These strings are normally lost because the reference to them are not saved after finishing the operation. |search_string| searches through the string pool for the given string and returns either 0 or the found string number. @= function search_string(@!search:str_number):str_number; label found; var result: str_number; @!s: str_number; {running index} @!len: integer; {length of searched string} begin result:=0; len:=length(search); if len=0 then {trivial case} begin result:=""; goto found; end else begin s:=search-1; {start search with newest string below |s|; |search>1|!} while s>=string_offset do {first |string_offset| strings depend on implementation!!} begin if length(s)=len then if str_eq_str(s,search) then begin result:=s; goto found; end; decr(s); end; end; found:search_string:=result; end; @ The following routine is a variant of |make_string|. It searches the whole string pool for a string equal to the string currently built and returns a found string. Otherwise a new string is created and returned. Be cautious, you can not apply |flush_string| to a replaced string! @= function slow_make_string : str_number; label exit; var s: str_number; {result of |search_string|} @!t: str_number; {new string} begin t:=make_string; s:=search_string(t); if s>0 then begin flush_string; slow_make_string:=s; return; end; slow_make_string:=t; exit:end; @* \[54] System-dependent changes. @z @x @* \[55] Index. @y @ @= procedure insert_src_special; var toklist, p, q,r : pointer; begin if (source_filename_stack[in_open] > 0 and isnewsource (source_filename_stack[in_open] , line)) then begin toklist := get_avail; p := toklist; info(p) := cs_token_flag+frozen_special; r := get_avail; link(p):=r; p := link(p); info(p) := left_brace_token+"{"; q := str_toks (makesrcspecial (source_filename_stack[in_open], line)); link(p) := link(temp_token_head); p := q; r := get_avail; link(p):=r; p := link(p); info(p) := right_brace_token+"}"; ins_list (toklist); remembersourceinfo (source_filename_stack[in_open], line); end; end; procedure append_src_special; var q : pointer; begin if (source_filename_stack[in_open] > 0 and isnewsource (source_filename_stack[in_open] , line)) then begin new_whatsit (special_node); write_stream(tail) := 0; q:=get_avail; def_ref := q; token_ref_count(def_ref) := null; q := str_toks (makesrcspecial (source_filename_stack[in_open], line)); link(def_ref) := link(temp_head); write_tokens(tail) := def_ref; remembersourceinfo (source_filename_stack[in_open], line); end; end; @ This function used to be in pdftex, but is useful in tex too. @p function get_nullstr: str_number; begin get_nullstr := ""; end; @* \[55] Index. @z