diff options
author | Karl Berry <karl@freefriends.org> | 2017-11-28 23:57:17 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2017-11-28 23:57:17 +0000 |
commit | eb2db83023a6c4764e8b49ecabbe7137a964309b (patch) | |
tree | 17e0a1da1ec3ce584b485d40e55a51f2a31a0554 /Build/source/texk/web2c | |
parent | df0a5e429df2bae5e78e7eca3f363202562f75c2 (diff) |
import \pdfprimitive fixes (pdftex r784)
git-svn-id: svn://tug.org/texlive/trunk@45936 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build/source/texk/web2c')
-rw-r--r-- | Build/source/texk/web2c/pdftexdir/ChangeLog | 21 | ||||
-rw-r--r-- | Build/source/texk/web2c/pdftexdir/NEWS | 14 | ||||
-rw-r--r-- | Build/source/texk/web2c/pdftexdir/pdftex.ch | 2 | ||||
-rw-r--r-- | Build/source/texk/web2c/pdftexdir/pdftex.web | 90 |
4 files changed, 100 insertions, 27 deletions
diff --git a/Build/source/texk/web2c/pdftexdir/ChangeLog b/Build/source/texk/web2c/pdftexdir/ChangeLog index 5894ab1a4fb..b7f3e3928c8 100644 --- a/Build/source/texk/web2c/pdftexdir/ChangeLog +++ b/Build/source/texk/web2c/pdftexdir/ChangeLog @@ -1,3 +1,24 @@ +2017-11-28 Hironori KITAGAWA <h_kitagawa2001@yahoo.co.jp> + + Stop \pdfprimitive\vrule\q from swallowing q, by moving prim_eqtb + into the end of region 2 of eqtb instead of being a separate table. + * pdftex.ch (frozen_null_font): add prim_size. + * pdftex.web (prim_size): move to other region 2 definitions. + (prim_eqtb_base): new constant. + (prim_eq_level, prim_eq_type, prim_equiv): use prim_eqtb_base. + (prim_eqtb): remove array. + (Set init...): remove initializations. + (Basic printing...), + (Basic printing procedures): handle primitives after prim_eqtb_base. + (Implement \.{\\pdfprimitive}): do not give error if argument is + not a primitive, just do nothing. + (Reset |cur_tok| for unexpandable primitives, goto restart): + handle primitive lookups via prim_eqtb_base instead of cur_cmd*@'400. + (Cases of |main_control| that are not part of the inner loop): + <not undefined_primitive>: also set cur_tok. + (Dump the hash table): do not dump prim_eqtb. + (Undump the hash table): do not undump prim_eqtb. + 2017-11-14 Anders Kaseorg <andersk@mit.edu> * utils.c (printID): Do not hash the current directory name into diff --git a/Build/source/texk/web2c/pdftexdir/NEWS b/Build/source/texk/web2c/pdftexdir/NEWS index fa4712028c1..9ef490d8ca4 100644 --- a/Build/source/texk/web2c/pdftexdir/NEWS +++ b/Build/source/texk/web2c/pdftexdir/NEWS @@ -1,12 +1,16 @@ - changes: - - do not hash current directory into PDF ID, for more reproducible builds. + - do not hash current directory into PDF ID, for more reproducible builds + (pdftex r782). - bugfixes: - - \ifpdfprimitive now correctly returns true for "\ " (r45394). + - \pdfprimitive does nothing, rather than give an error, when given a + non-primitive (pdftex r784). + - \pdfprimitive does not swallow a following control sequence (pdftex r784). + - \ifpdfprimitive now correctly returns true for "\ " (TL r45394). - source: support xpdf-4 by default, or xpdf-3.04, or poppler-0.57.0 - and older, via #defines. provide new files, pdftoepdf-newpoppler.cc - and pdftosrc-newpoppler.cc, to support poppler-0.59.0 and newer. + and older, via #defines. Provide new files, pdftoepdf-newpoppler.cc + and pdftosrc-newpoppler.cc, to support poppler-0.59.0 and newer: they should be renamed as pdftoepdf.cc and pdftosrc.cc, respectively, before compilation. @@ -21,7 +25,7 @@ pdfTeX 3.14159265-2.6-1.40.18 (TeX Live 2017) (April 27, 2017) - bugfixes: - \pdflastmatch more reliable when there was no match. ------------------------------------------------------------- +------------------------------------------------------------- pdfTeX 3.14159265-2.6-1.40.17 (TeX Live 2016) (May 20, 2016) - changes: - if the environment variable SOURCE_DATE_EPOCH is set, use its value for diff --git a/Build/source/texk/web2c/pdftexdir/pdftex.ch b/Build/source/texk/web2c/pdftexdir/pdftex.ch index d96bd438c77..f12618ffdbb 100644 --- a/Build/source/texk/web2c/pdftexdir/pdftex.ch +++ b/Build/source/texk/web2c/pdftexdir/pdftex.ch @@ -41,7 +41,7 @@ @d frozen_null_font=frozen_control_sequence+11 {permanent `\.{\\nullfont}'} @y -@d frozen_null_font=frozen_control_sequence+12 +@d frozen_null_font=frozen_control_sequence+12+prim_size {permanent `\.{\\nullfont}'} @z diff --git a/Build/source/texk/web2c/pdftexdir/pdftex.web b/Build/source/texk/web2c/pdftexdir/pdftex.web index 0c741a1fba0..52f42f986b5 100644 --- a/Build/source/texk/web2c/pdftexdir/pdftex.web +++ b/Build/source/texk/web2c/pdftexdir/pdftex.web @@ -184,7 +184,7 @@ % and should use: % \toks0=\expandafter{\title} % \edef\title{...\the\toks0...} -\let\maybe=\iffalse % print only changed modules +\let\maybe=\iftrue % print only changed modules \def\topofcontents{\hsize 5.5in \vglue 0pt plus 1fil minus 1.5in \def\?##1]{\hbox to 1in{\hfil##1.\ }} @@ -5176,10 +5176,12 @@ locations for control sequences that are perpetually defined @d end_write=frozen_control_sequence+8 {permanent `\.{\\endwrite}'} @d frozen_dont_expand=frozen_control_sequence+9 {permanent `\.{\\notexpanded:}'} +@d prim_size=2100 {maximum number of primitives } @d frozen_null_font=frozen_control_sequence+10 {permanent `\.{\\nullfont}'} @d frozen_primitive=frozen_control_sequence+11 {permanent `\.{\\pdfprimitive}'} +@d prim_eqtb_base=frozen_primitive+1 @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} @@ -6455,7 +6457,6 @@ A global boolean variable called |no_new_control_sequence| is set to @ Primitive support needs a few extra variables and definitions -@d prim_size=2100 {maximum number of primitives } @d prim_prime=1777 {about 85\pct! of |primitive_size|} @d prim_base=1 @d prim_next(#) == prim[#].lh {link for coalesced lists} @@ -6464,25 +6465,20 @@ A global boolean variable called |no_new_control_sequence| is set to @d prim_eq_level_field(#)==#.hh.b1 @d prim_eq_type_field(#)==#.hh.b0 @d prim_equiv_field(#)==#.hh.rh -@d prim_eq_level(#)==prim_eq_level_field(prim_eqtb[#]) {level of definition} -@d prim_eq_type(#)==prim_eq_type_field(prim_eqtb[#]) {command code for equivalent} -@d prim_equiv(#)==prim_equiv_field(prim_eqtb[#]) {equivalent value} +@d prim_eq_level(#)==prim_eq_level_field(eqtb[prim_eqtb_base+#]) {level of definition} +@d prim_eq_type(#)==prim_eq_type_field(eqtb[prim_eqtb_base+#]) {command code for equivalent} +@d prim_equiv(#)==prim_equiv_field(eqtb[prim_eqtb_base+#]) {equivalent value} @d undefined_primitive=0 @d biggest_char=255 { 65535 in XeTeX } @<Glob...@>= @!prim: array [0..prim_size] of two_halves; {the primitives table} @!prim_used:pointer; {allocation pointer for |prim|} -@!prim_eqtb:array[0..prim_size] of memory_word; @ @<Set init...@>= no_new_control_sequence:=true; {new identifiers are usually forbidden} prim_next(0):=0; prim_text(0):=0; for k:=1 to prim_size do prim[k]:=prim[0]; -prim_eq_level(0) := level_zero; -prim_eq_type(0) := undefined_cs; -prim_equiv(0) := null; -for k:=1 to prim_size do prim_eqtb[k]:=prim_eqtb[0]; next(hash_base):=0; text(hash_base):=0; for k:=hash_base+1 to undefined_control_sequence-1 do hash[k]:=hash[hash_base]; @@ -6642,7 +6638,9 @@ begin if p<hash_base then {single character} else if p>=undefined_control_sequence then print_esc("IMPOSSIBLE.") else if (text(p)<0)or(text(p)>=str_ptr) then print_esc("NONEXISTENT.") @.NONEXISTENT@> -else begin print_esc(text(p)); +else begin + if (p>=prim_eqtb_base)and(p<frozen_null_font) then + print_esc(prim_text(p-prim_eqtb_base)-1) else print_esc(text(p)); print_char(" "); end; end; @@ -6657,6 +6655,8 @@ begin if p<hash_base then else if p<null_cs then print_esc(p-single_base) else begin print_esc("csname"); print_esc("endcsname"); end +else if (p>=prim_eqtb_base)and(p<frozen_null_font) then + print_esc(prim_text(p-prim_eqtb_base)-1) else print_esc(text(p)); end; @@ -6666,6 +6666,57 @@ 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. +Until pdf\TeX\ 1.40.19 (released in 2018), a bug in primitive handling +caused, e.g., \.{\\pdfprimitive\\ \\q} to swallow the \.{\\q} instead of +giving an undefined control sequence error. The original report was +posted by Hironori Kitagawa +(\.{tug.org/pipermail/tex-k/2017-October/002816.html}). Largely +quoting from that message: + +The cause was |cur_tok| not being set in the ``Cases of |main_control|\dots'' +module, because |back_input| unscans the token, but only looks at +|cur_tok|, which represents the internalized \.{\\pdfprimitive} at that +time. So \.{\\pdfprimitive\\vrule\\q} becomes ``(internalized +\.{\\pdfprimitive})''\.{\\q}, hence no error (and \.{\\vrule} disappears). + +Hironori's explanation of the previous behavior and fix continues (off-list): + +\yskip\textindent{*} |back_input| (and similar routine $\langle\,$Insert token +|p| into \TeX's input$\,\rangle$) only stores |cur_tok| to a token list. + +\textindent{*} When \TeX\ gets input from a token list (at module +$\langle\,$Input from token list, |goto restart| \dots$\,\rangle$), +\TeX\ looks at the saved |cur_tok| value $t$, and recover the command +code (|cur_cmd|) and its fmodifier (|cur_chr|) from it: + +{\advance\leftskip by 1.5em +\textindent{--} If |t>=cs_token_flag|, $t$ points to an |eqtb| location +|t - cs_token_flag|. + +\textindent{--} If |t<cs_token_flag|, |cur_cmd| and |cur_chr| are set +with |cur_cmd:=t div @'400; cur_chr:=t mod @'400|. + +\textindent{--} This $t$ is used to display the token (|show_token_list|). +\par} + +\textindent{*} pdf\TeX\ defines |cs_token_flag| as \.{"FFF}. So simply +using |cur_tok:=(cur_cmd*@'400)+cur_chr| by \.{\\pdfprimitive} does not +work correctly with primitives whose command codes |cur_cmd| $\ge16$. + +Increasing |cs_token_flag| to \.{"FFFF} or somewhat higher +might suffice for fixing this situation in pdf\TeX. +However, this approach does not seem good, because + +\textindent{1)} an (indirect) mapping from |cur_tok| to control sequence +name is needed anyway, for displaying the token, and + +\textindent{2)} this does not work in Japanese e-(u)p\TeX. + +Thus, we now put |prim_eqtb| entries into the end of region 2 of +|eqtb| (which contains some frozen primitives, such as ``frozen \.{\\fi}'' +and ``frozen \.{\\cr}''), thus treating |prim_eqtb| entries as a permanent +location for primitives. + @p @!init procedure primitive(@!s:str_number;@!c:quarterword;@!o:halfword); var k:pool_pointer; {index into |str_pool|} @!j:0..buf_size; {index into |buffer|} @@ -8939,12 +8990,6 @@ if cur_cs<>undefined_primitive then begin p:=get_avail; info(p):=cs_token_flag+frozen_primitive; link(p):=loc; loc:=p; start:=p; end; - end -else begin - print_err("Missing primitive name"); - help2("The control sequence marked <to be read again> does not")@/ - ("represent any known primitive."); - back_error; end; end @@ -8958,11 +9003,15 @@ expansion creating new errors. @<Reset |cur_tok| for unexpandable primitives, goto restart @>= begin get_token; -cur_cs := prim_lookup(text(cur_cs)); +if cur_cs < hash_base then + cur_cs := prim_lookup(cur_cs-single_base) +else + cur_cs := prim_lookup(text(cur_cs)); if cur_cs<>undefined_primitive then begin cur_cmd := prim_eq_type(cur_cs); cur_chr := prim_equiv(cur_cs); - cur_tok := (cur_cmd*@'400)+cur_chr; + cur_cs := prim_eqtb_base+cur_cs; + cur_tok := cs_token_flag+cur_cs; end else begin cur_cmd := relax; @@ -28807,6 +28856,7 @@ any_mode(ignore_spaces): begin if cur_cs<>undefined_primitive then begin cur_cmd := prim_eq_type(cur_cs); cur_chr := prim_equiv(cur_cs); + cur_tok := cs_token_flag+prim_eqtb_base+cur_cs; goto reswitch; end; end; @@ -32706,7 +32756,6 @@ for |p>=hash_used|, so the remaining entries are output in a~block. @<Dump the hash table@>= for p:=0 to prim_size do dump_hh(prim[p]); -for p:=0 to prim_size do dump_wd(prim_eqtb[p]); dump_int(hash_used); cs_count:=frozen_control_sequence-1-hash_used; for p:=hash_base to hash_used do if text(p)<>0 then begin dump_int(p); dump_hh(hash[p]); incr(cs_count); @@ -32717,7 +32766,6 @@ print_ln; print_int(cs_count); print(" multiletter control sequences") @ @<Undump the hash table@>= for p:=0 to prim_size do undump_hh(prim[p]); -for p:=0 to prim_size do undump_wd(prim_eqtb[p]); undump(hash_base)(frozen_control_sequence)(hash_used); p:=hash_base-1; repeat undump(p+1)(hash_used)(p); undump_hh(hash[p]); until p=hash_used; |