% omstr.ch: String manipulation % % This file is part of Omega, % which is based on the web2c distribution of TeX, % % Copyright (c) 1994--2001 John Plaice and Yannis Haralambous % % Omega is free software; you can redistribute it and/or modify % it under the terms of the GNU General Public License as published by % the Free Software Foundation; either version 2 of the License, or % (at your option) any later version. % % Omega is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the % GNU General Public License for more details. % % You should have received a copy of the GNU General Public License % along with Omega; if not, write to the Free Software Foundation, Inc., % 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. % %--------------------------------------- @x [2] m.17 l.510 - Omega 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 @y In order to make $\Omega$ readily portable to a wide variety of computers, all of its input text is converted to an internal 31-bit @z %--------------------------------------- @x [2] m.18 l.537 - Omega @!ASCII_code=0..255; {eight-bit numbers} @y @!ASCII_code=0..biggest_char; @z %--------------------------------------- @x [2] m.19 l.567 - Omega @d last_text_char=255 {ordinal number of the largest element of |text_char|} @y @d last_text_char=biggest_char {ordinal number of the largest element of |text_char|} @z %--------------------------------------- @x [2] m.20 l.577 - Omega @!xord: array [text_char] of ASCII_code; {specifies conversion of input characters} @!xchr: array [ASCII_code] of text_char; {specifies conversion of output characters} @y @!xchr: array [0..255] of text_char; {specifies conversion of output characters} @z %--------------------------------------- @x [2] m.23 l.724 - Omega for i:=0 to @'37 do xchr[i]:=' '; for i:=@'177 to @'377 do xchr[i]:=' '; @y for i:=0 to @'37 do xchr[i]:=chr(i); for i:=@'177 to @'377 do xchr[i]:=chr(i); init_eqtb_table; @z %--------------------------------------- @x [2] m.24 l.734 - Omega for i:=first_text_char to last_text_char do xord[chr(i)]:=invalid_code; for i:=@'200 to @'377 do xord[xchr[i]]:=i; for i:=0 to @'176 do xord[xchr[i]]:=i; @y @z %--------------------------------------- @x [3] m.25 l.772 - Omega @!eight_bits=0..255; {unsigned one-byte quantity} @!alpha_file=packed file of text_char; {files that contain textual data} @!byte_file=packed file of eight_bits; {files that contain binary data} @y @!eight_bits=0..biggest_char; {unsigned two-byte quantity} @!real_eight_bits=0..255; {dvi output uses exactly 8 bits} @!alpha_file=packed file of text_char; {files that contain textual data} @!byte_file=packed file of real_eight_bits; {files that contain binary data} @z %--------------------------------------- @x [3] m.31 l.947 - Omega buffer[last]:=xord[f^]; get(f); incr(last); @y buffer[last]:=f^; get(f); incr(last); @z %--------------------------------------- @x [4] m.38 l.1099 - Omega String numbers 0 to 255 are reserved for strings that correspond to single ASCII characters. This is in accordance with the conventions of \.{WEB}, @y String numbers 0 to |biggest_char| are reserved for strings that correspond to single ASCII characters. This is in accordance with the conventions of \.{WEB}, @z %--------------------------------------- @x [4] m.38 l.1109 - Omega ASCII character, so the first 256 strings are used to specify exactly what should be printed for each of the 256 possibilities. @y ASCII character, so the first |biggest_char+1| strings are used to specify exactly what should be printed for each of the |biggest_char+1| possibilities. @z %--------------------------------------- @x [4] m.38-9 l.1122 - Omega @d si(#) == # {convert from |ASCII_code| to |packed_ASCII_code|} @d so(#) == # {convert from |packed_ASCII_code| to |ASCII_code|} @= @!pool_pointer = 0..pool_size; {for variables that point into |str_pool|} @!str_number = 0..max_strings; {for variables that point into |str_start|} @!packed_ASCII_code = 0..255; {elements of |str_pool| array} @ @= @!str_pool:packed array[pool_pointer] of packed_ASCII_code; {the characters} @!str_start : array[str_number] of pool_pointer; {the starting pointers} @y @d si(#) == # {convert from |ASCII_code| to |packed_ASCII_code|} @d so(#) == # {convert from |packed_ASCII_code| to |ASCII_code|} @d str_start(#) == str_start_ar[#-too_big_char] @= @!pool_pointer = 0..pool_size; {for variables that point into |str_pool|} @!str_number = 0..max_strings; {for variables that point into |str_start|} @!packed_ASCII_code = 0..65535; {elements of |str_pool| array} @ @= @!str_pool:packed array[pool_pointer] of packed_ASCII_code; {the characters} @!str_start_ar : array[str_number] of pool_pointer; {the starting pointers} @z %--------------------------------------- @x [4] m.40 l.1145 - Omega @d length(#)==(str_start[#+1]-str_start[#]) {the number of characters in string number \#} @y @p function length(s:str_number):integer; {the number of characters in string number |s|} begin if (s>=@"10000) then length:=str_start(s+1)-str_start(s) else if (s>=@"20) and (s<@"7F) then length:=1 else if (s<=@"7F) then length:=3 else if (s<@"100) then length:=4 else length:=8 end; @z %--------------------------------------- @x [4] m.41 l.1150 - Omega @d cur_length == (pool_ptr - str_start[str_ptr]) @y @d cur_length == (pool_ptr - str_start(str_ptr)) @z %--------------------------------------- @x [4] m.43 l.1181 - Omega incr(str_ptr); str_start[str_ptr]:=pool_ptr; @y incr(str_ptr); str_start(str_ptr):=pool_ptr; @z %--------------------------------------- @x [4] m.44 l.1187 - Omega @d flush_string==begin decr(str_ptr); pool_ptr:=str_start[str_ptr]; @y @d flush_string==begin decr(str_ptr); pool_ptr:=str_start(str_ptr); @z %--------------------------------------- @x [4] m.45 l.1201 - Omega begin j:=str_start[s]; while jlength(t) then goto not_found; j:=str_start[s]; k:=str_start[t]; while jstr_pool[k] then goto not_found; incr(j); incr(k); end; result:=true; not_found: str_eq_str:=result; end; @y @p function str_eq_str(@!s,@!t:str_number):boolean; {test equality of strings} label not_found; {loop exit} var j,@!k: pool_pointer; {running indices} @!result: boolean; {result of comparison} begin result:=false; if length(s)<>length(t) then goto not_found; if (length(s)=1) then begin if s<65536 then begin if t<65536 then begin if s<>t then goto not_found; end else begin if s<>str_pool[str_start(t)] then goto not_found; end; end else begin if t<65536 then begin if str_pool[str_start(s)]<>t then goto not_found; end else begin if str_pool[str_start(s)]<>str_pool[str_start(t)] then goto not_found; end; end; end else begin j:=str_start(s); k:=str_start(t); while jstr_pool[k] then goto not_found; incr(j); incr(k); end; end; result:=true; not_found: str_eq_str:=result; end; @z %--------------------------------------- @x [4] m.47 l.1240 - Omega var k,@!l:0..255; {small indices or counters} @y var k,@!l:0..biggest_char; {small indices or counters} @z %--------------------------------------- @x [4] m.47 l.1245 - Omega begin pool_ptr:=0; str_ptr:=0; str_start[0]:=0; @; @; @= for k:=0 to 255 do begin if (@) then begin append_char("^"); append_char("^"); if k<@'100 then append_char(k+@'100) else if k<@'200 then append_char(k-@'100) else begin app_lc_hex(k div 16); app_lc_hex(k mod 16); end; end else append_char(k); g:=make_string; end @y @= begin str_ptr:=too_big_char; end @z %--------------------------------------- @x [4] m.49 l.1279 - Omega Unprintable characters of codes 128--255 are, similarly, rendered \.{\^\^80}--\.{\^\^ff}. @y Unprintable characters of codes 128--255 are, similarly, rendered \.{\^\^80}--\.{\^\^ff}. Unprintable characters of codes 256--|biggest_char| are, similarly, rendered \.{\^\^\^\^0100}--\.{\^\^\^\^ffff}. @z %--------------------------------------- @x [4] m.49 l.1295 - Omega @= (k<" ")or(k>"~") @y @z %--------------------------------------- @x [4] m.50 l.1298 - Omega @ When the \.{WEB} system program called \.{TANGLE} processes the \.{TEX.WEB} description that you are now reading, it outputs the \PASCAL\ program \.{TEX.PAS} and also a string pool file called \.{TEX.POOL}. The \.{INITEX} @y @ When the \.{WEB} system program called \.{OTANGLE} processes the \.{OMEGA.WEB} description that you are now reading, it outputs the \PASCAL\ program \.{OMEGA.PAS} and also a string pool file called \.{OMEGA.POOL}. The \.{INITEX} @z %--------------------------------------- @x [4] m.51 l.1322 - Omega else bad_pool('! I can''t read TEX.POOL.') @.I can't read TEX.POOL@> @y else bad_pool('! I can''t read OMEGA.POOL.') @.I can't read OMEGA.POOL@> @z %--------------------------------------- @x [4] m.52 l.1326 - Omega begin if eof(pool_file) then bad_pool('! TEX.POOL has no check sum.'); @.TEX.POOL has no check sum@> @y begin if eof(pool_file) then bad_pool('! OMEGA.POOL has no check sum.'); @.OMEGA.POOL has no check sum@> @z %--------------------------------------- @x [4] m.52 l.1332 - Omega else begin if (xord[m]<"0")or(xord[m]>"9")or@| (xord[n]<"0")or(xord[n]>"9") then bad_pool('! TEX.POOL line doesn''t begin with two digits.'); @.TEX.POOL line doesn't...@> l:=xord[m]*10+xord[n]-"0"*11; {compute the length} if pool_ptr+l+string_vacancies>pool_size then bad_pool('! You have to increase POOLSIZE.'); @.You have to increase POOLSIZE@> for k:=1 to l do begin if eoln(pool_file) then m:=' '@+else read(pool_file,m); append_char(xord[m]); @y else begin if (m<"0")or(m>"9")or@| (n<"0")or(n>"9") then bad_pool('! OMEGA.POOL line doesn''t begin with two digits.'); @.OMEGA.POOL line doesn't...@> l:=m*10+n-"0"*11; {compute the length} if pool_ptr+l+string_vacancies>pool_size then bad_pool('! You have to increase POOLSIZE.'); @.You have to increase POOLSIZE@> for k:=1 to l do begin if eoln(pool_file) then m:=' '@+else read(pool_file,m); append_char(m); @z %--------------------------------------- @x [4] m.53 l.1347 - Omega end of this \.{TEX.POOL} file; any other value means that the wrong pool @y end of this \.{OMEGA.POOL} file; any other value means that the wrong pool @z %--------------------------------------- @x [4] m.53 l.1354 - Omega loop@+ begin if (xord[n]<"0")or(xord[n]>"9") then bad_pool('! TEX.POOL check sum doesn''t have nine digits.'); @.TEX.POOL check sum...@> a:=10*a+xord[n]-"0"; @y loop@+ begin if (n<"0")or(n>"9") then bad_pool('! OMEGA.POOL check sum doesn''t have nine digits.'); @.OMEGA.POOL check sum...@> a:=10*a+n-"0"; @z %--------------------------------------- @x [4] m.53 l.1360 - Omega done: if a<>@$ then bad_pool('! TEX.POOL doesn''t match; TANGLE me again.'); @.TEX.POOL doesn't match@> @y done: if a<>@$ then bad_pool('! OMEGA.POOL doesn''t match; OTANGLE me again.'); @.OMEGA.POOL doesn't match@> @z %--------------------------------------- % When we print a string, we must make sure we do the appropriate % thing for strings 256 through to 65535. We must generate the % strings on the fly. @x [5] m.59 l.1496 - Omega @ 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@> @= procedure print(@!s:integer); {prints string |s|} label exit; var j:pool_pointer; {current character code position} @!nl:integer; {new-line character to restore} begin if s>=str_ptr then s:="???" {this can't happen} @.???@> else if s<256 then if s<0 then s:="???" {can't happen} else begin if selector>pseudo then begin print_char(s); return; {internal strings are not expanded} end; if (@) then if selector @d print_lc_hex(#)==l:=#; if l<10 then print_char(l+"0") else print_char(l-10+"a"); @= procedure print(@!s:integer); {prints string |s|} label exit; var j:pool_pointer; {current character code position} @!nl:integer; {new-line character to restore} @!l:integer; {for printing 16-bit characters} begin if s>=str_ptr then s:="???" {this can't happen} @.???@> else if spseudo then begin print_char(s); return; {internal strings are not expanded} end; if (@) then if selector; if s<@"20 then begin print_char(@"5E); print_char(@"5E); print_char(s+@'100); end else if s<@"7F then print_char(s) else if s=@"7F then begin print_char(@"5E); print_char(@"5E); print_char(s-@'100); end else if s<@"100 then begin print_char(@"5E); print_char(@"5E); print_lc_hex((s mod @"100) div @"10); print_lc_hex(s mod @"10); end else begin {Here is where we generate the strings on the fly.} print_char(@"5E); print_char(@"5E); print_char(@"5E); print_char(@"5E); print_lc_hex(s div @"1000); print_lc_hex((s mod @"1000) div @"100); print_lc_hex((s mod @"100) div @"10); print_lc_hex(s mod @"10); end; @; return; end; j:=str_start(s); while j=str_ptr) or (s<256) then print(s) else begin j:=str_start[s]; while j=str_ptr) or (s<=biggest_char) then print(s) else begin j:=str_start(s); while j; if c>=0 then if c<256 then print(c); @y procedure print_esc(@!s:str_number); {prints escape character, then |s|} var c:integer; {the escape character code} begin @; if c>=0 then if c<=biggest_char then print(c); @z %--------------------------------------- @x [5] m.69 l.1654 - Omega @p procedure print_roman_int(@!n:integer); label exit; var j,@!k: pool_pointer; {mysterious indices into |str_pool|} @!u,@!v: nonnegative_integer; {mysterious numbers} begin j:=str_start["m2d5c2l5x2v5i"]; v:=1000; @y @p procedure print_roman_int(@!n:integer); label exit; var j,@!k: pool_pointer; {mysterious indices into |str_pool|} @!u,@!v: nonnegative_integer; {mysterious numbers} begin j:=str_start("m2d5c2l5x2v5i"); v:=1000; @z %--------------------------------------- @x [5] m.70 l.1674 - Omega @p procedure print_current_string; {prints a yet-unmade string} var j:pool_pointer; {points to current character code} begin j:=str_start[str_ptr]; @y @p procedure print_current_string; {prints a yet-unmade string} var j:pool_pointer; {points to current character code} begin j:=str_start(str_ptr); @z %--------------------------------------- @x [6] m.94 l.2052 - Omega print_err("TeX capacity exceeded, sorry ["); @y print_err("Omega capacity exceeded, sorry ["); @z %--------------------------------------- @x [18] m.260 l.5532 - Omega while pool_ptr>str_start[str_ptr] do @y while pool_ptr>str_start(str_ptr) do @z %--------------------------------------- @x [18] m.264 l.5610 - Omega else begin k:=str_start[s]; l:=str_start[s+1]-k; @y else begin k:=str_start(s); l:=str_start(s+1)-k; @z %--------------------------------------- @x [24] m.341 l.7219 - Omega @!c,@!cc:ASCII_code; {constituents of a possible expanded code} @!d:2..3; {number of excess characters in an expanded code} @y @!c,@!cc,@!ccc,@!cccc:ASCII_code; {constituents of a possible expanded code} @!d:2..7; {number of excess characters in an expanded code} @z %--------------------------------------- @x [24] m.352 l.7349 - Omega else cur_chr:=16*cur_chr+cc-"a"+10 @y else cur_chr:=16*cur_chr+cc-"a"+10 @d long_hex_to_cur_chr== if c<="9" then cur_chr:=c-"0" @+else cur_chr:=c-"a"+10; if cc<="9" then cur_chr:=16*cur_chr+cc-"0" else cur_chr:=16*cur_chr+cc-"a"+10; if ccc<="9" then cur_chr:=16*cur_chr+ccc-"0" else cur_chr:=16*cur_chr+ccc-"a"+10; if cccc<="9" then cur_chr:=16*cur_chr+cccc-"0" else cur_chr:=16*cur_chr+cccc-"a"+10 @z %--------------------------------------- @x [24] m.352 l.7353 - Omega begin c:=buffer[loc+1]; @+if c<@'200 then {yes we have an expanded char} @y begin if (cur_chr=buffer[loc+1]) and (cur_chr=buffer[loc+2]) and ((loc+6)<=limit) then begin c:=buffer[loc+3]; cc:=buffer[loc+4]; ccc:=buffer[loc+5]; cccc:=buffer[loc+6]; if is_hex(c) and is_hex(cc) and is_hex(ccc) and is_hex(cccc) then begin loc:=loc+7; long_hex_to_cur_chr; goto reswitch; end; end; c:=buffer[loc+1]; @+if c<@'200 then {yes we have an expanded char} @z %--------------------------------------- @x [24] m.355 l.7416 - Omega begin if buffer[k]=cur_chr then @+if cat=sup_mark then @+if k2 then begin hex_to_cur_chr; buffer[k-1]:=cur_chr; end else if c<@'100 then buffer[k-1]:=c+@'100 else buffer[k-1]:=c-@'100; limit:=limit-d; first:=first-d; while k<=limit do begin buffer[k]:=buffer[k+d]; incr(k); end; goto start_cs; end; end; end @y begin if buffer[k]=cur_chr then @+if cat=sup_mark then @+if k2 then begin hex_to_cur_chr; buffer[k-1]:=cur_chr; end else if c<@'100 then buffer[k-1]:=c+@'100 else buffer[k-1]:=c-@'100; limit:=limit-d; first:=first-d; while k<=limit do begin buffer[k]:=buffer[k+d]; incr(k); end; goto start_cs; end end end end @z %--------------------------------------- @x [26] m.407 l.8216 - Omega begin p:=backup_head; link(p):=null; k:=str_start[s]; while k if (cur_cs=0)and@| ((cur_chr=so(str_pool[k]))or(cur_chr=so(str_pool[k])-"a"+"A")) then begin store_new_token(cur_tok); incr(k); end else if (cur_cmd<>spacer)or(p<>backup_head) then begin back_input; if p<>backup_head then back_list(link(backup_head)); scan_keyword:=false; return; end; end; @y begin p:=backup_head; link(p):=null; if s if (cur_cs=0)and@| ((cur_chr=s)or(cur_chr=s-"a"+"A")) then begin store_new_token(cur_tok); flush_list(link(backup_head)); scan_keyword:=true; return; end else if (cur_cmd<>spacer)or(p<>backup_head) then begin back_input; if p<>backup_head then back_list(link(backup_head)); scan_keyword:=false; return; end; end; end; k:=str_start(s); while k if (cur_cs=0)and@| ((cur_chr=so(str_pool[k]))or(cur_chr=so(str_pool[k])-"a"+"A")) then begin store_new_token(cur_tok); incr(k); end else if (cur_cmd<>spacer)or(p<>backup_head) then begin back_input; if p<>backup_head then back_list(link(backup_head)); scan_keyword:=false; return; end; end; @z %--------------------------------------- @x [29] m.517 l.10005 - Omega @p procedure end_name; begin if str_ptr+3>max_strings then overflow("number of strings",max_strings-init_str_ptr); @:TeX capacity exceeded number of strings}{\quad number of strings@> if area_delimiter=0 then cur_area:="" else begin cur_area:=str_ptr; str_start[str_ptr+1]:=str_start[str_ptr]+area_delimiter; incr(str_ptr); end; if ext_delimiter=0 then begin cur_ext:=""; cur_name:=make_string; end else begin cur_name:=str_ptr; str_start[str_ptr+1]:=str_start[str_ptr]+ext_delimiter-area_delimiter-1; @y @p procedure end_name; begin if str_ptr+3>max_strings then overflow("number of strings",max_strings-init_str_ptr); @:TeX capacity exceeded number of strings}{\quad number of strings@> if area_delimiter=0 then cur_area:="" else begin cur_area:=str_ptr; str_start(str_ptr+1):=str_start(str_ptr)+area_delimiter; incr(str_ptr); end; if ext_delimiter=0 then begin cur_ext:=""; cur_name:=make_string; end else begin cur_name:=str_ptr; str_start(str_ptr+1):=str_start(str_ptr)+ext_delimiter-area_delimiter-1; @z %--------------------------------------- @x [29] m.519 l.10039 - Omega if k<=file_name_size then name_of_file[k]:=xchr[c]; end @p procedure pack_file_name(@!n,@!a,@!e:str_number); var k:integer; {number of positions filled in |name_of_file|} @!c: ASCII_code; {character being packed} @!j:pool_pointer; {index into |str_pool|} begin k:=0; for j:=str_start[a] to str_start[a+1]-1 do append_to_name(so(str_pool[j])); for j:=str_start[n] to str_start[n+1]-1 do append_to_name(so(str_pool[j])); for j:=str_start[e] to str_start[e+1]-1 do append_to_name(so(str_pool[j])); @y if k<=file_name_size then name_of_file[k]:=xchr[c]; end @p procedure pack_file_name(@!n,@!a,@!e:str_number); var k:integer; {number of positions filled in |name_of_file|} @!c: ASCII_code; {character being packed} @!j:pool_pointer; {index into |str_pool|} begin k:=0; for j:=str_start(a) to str_start(a+1)-1 do append_to_name(so(str_pool[j])); for j:=str_start(n) to str_start(n+1)-1 do append_to_name(so(str_pool[j])); for j:=str_start(e) to str_start(e+1)-1 do append_to_name(so(str_pool[j])); @z %--------------------------------------- @x [29] m.523 l.10095 - Omega for j:=1 to n do append_to_name(xord[TEX_format_default[j]]); for j:=a to b do append_to_name(buffer[j]); for j:=format_default_length-format_ext_length+1 to format_default_length do append_to_name(xord[TEX_format_default[j]]); @y for j:=1 to n do append_to_name(TEX_format_default[j]); for j:=a to b do append_to_name(buffer[j]); for j:=format_default_length-format_ext_length+1 to format_default_length do append_to_name(TEX_format_default[j]); @z %--------------------------------------- @x [29] m.524 l.10155 - Omega else begin for k:=1 to name_length do append_char(xord[name_of_file[k]]); @y else begin for k:=1 to name_length do append_char(name_of_file[k]); @z %--------------------------------------- @x [29] m.536 l.10324 - Omega begin wlog(banner); slow_print(format_ident); print(" "); print_int(day); print_char(" "); months:='JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC'; for k:=3*month-2 to 3*month do wlog(months[k]); print_char(" "); print_int(year); print_char(" "); print_two(time div 60); print_char(":"); print_two(time mod 60); end @y begin wlog(banner); slow_print(format_ident); print_nl(""); print_int(day); print_char(" "); months:='JANFEBMARAPRMAYJUNJULAUGSEPOCTNOVDEC'; for k:=3*month-2 to 3*month do wlog(months[k]); print_char(" "); print_int(year); print_char(" "); print_two(time div 60); print_char(":"); print_two(time mod 60); print_nl("Copyright (c) 1994--2000 John Plaice and Yannis Haralambous"); end @z %--------------------------------------- @x [32] m.595 l.11860 - Omega @!dvi_buf:array[dvi_index] of eight_bits; {buffer for \.{DVI} output} @y @!dvi_buf:array[dvi_index] of real_eight_bits; {buffer for \.{DVI} output} @z %--------------------------------------- @x [32] m.617 l.12262 - Omega print(" TeX output "); print_int(year); print_char("."); @y print("Omega output, Version 3.141592-1.23.2.3, "); print_int(year); print_char("."); @z %--------------------------------------- @x [32] m.617 l.12267 - Omega for s:=str_start[str_ptr] to pool_ptr-1 do dvi_out(so(str_pool[s])); pool_ptr:=str_start[str_ptr]; {flush the current string} @y for s:=str_start(str_ptr) to pool_ptr-1 do dvi_out(so(str_pool[s])); pool_ptr:=str_start(str_ptr); {flush the current string} @z %--------------------------------------- @x [36] m.765 l.15021 - Omega magic_offset:=str_start[math_spacing]-9*ord_noad @y magic_offset:=str_start(math_spacing)-9*ord_noad @z %--------------------------------------- @x [42] m.931 l.18172 - Omega begin j:=1; u:=str_start[k]; @y begin j:=1; u:=str_start(k); @z %--------------------------------------- @x [42] m.940 l.18296 - Omega u:=str_start[k]; v:=str_start[s]; repeat if str_pool[u]str_pool[v] then goto not_found; incr(u); incr(v); until u=str_start[k+1]; @y u:=str_start(k); v:=str_start(s); repeat if str_pool[u]str_pool[v] then goto not_found; incr(u); incr(v); until u=str_start(k+1); @z %--------------------------------------- @x [49] m.1252 l.23232 - Omega print_err("Patterns can be loaded only by INITEX"); @y print_err("Patterns can be loaded only by INIOMEGA"); @z %--------------------------------------- @x [50] m.1301 l.23682 - Omega format_ident:=" (INITEX)"; @y format_ident:=" (INIOMEGA)"; @z %--------------------------------------- % We do not store any information for strings between 257 and 65535. @x [50] m.1309 l.23814 - Omega for k:=0 to str_ptr do dump_int(str_start[k]); @y for k:=too_big_char to str_ptr do dump_int(str_start(k)); @z %--------------------------------------- % We recreate the information for strings between 257 and 65535. @x [50] m.1310 l.23831 - Omega for k:=0 to str_ptr do undump(0)(pool_ptr)(str_start[k]); @y for k:=too_big_char to str_ptr do undump(0)(pool_ptr)(str_start(k)); @z %--------------------------------------- @x [51] m.1334 l.24266 - Omega wlog_ln('Here is how much of TeX''s memory',' you used:'); @y wlog_ln('Here is how much of Omega''s memory',' you used:'); @z %--------------------------------------- @x [51] m.1335 l.24338 - Omega print_nl("(\dump is performed only by INITEX)"); return; @:dump_}{\.{\\dump...only by INITEX}@> @y print_nl("(\dump is performed only by INIOMEGA)"); return; @:dump_}{\.{\\dump...only by INIOMEGA}@> @z %--------------------------------------- @x [53] m.1368 l.24747 - Omega for k:=str_start[str_ptr] to pool_ptr-1 do dvi_out(so(str_pool[k])); pool_ptr:=str_start[str_ptr]; {erase the string} @y for k:=str_start(str_ptr) to pool_ptr-1 do dvi_out(so(str_pool[k])); pool_ptr:=str_start(str_ptr); {erase the string} @z %---------------------------------------