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ps_tiny.c
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ps_tiny.c
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#define DUMMY \
set -ex; \
gcc -O3 -s -DNDEBUG=1 -DNO_CONFIG=1 -ansi -pedantic -Wunused \
-Wall -W -Wstrict-prototypes -Wtraditional -Wnested-externs -Winline \
-Wpointer-arith -Wbad-function-cast -Wcast-qual -Wmissing-prototypes \
-Wmissing-declarations ps_tiny.c -o ps_tiny; \
exit
/* ps_tiny.c -- read .pin files, write short PostScript code
* by [email protected] at Sat Aug 24 12:46:14 CEST 2002
* -- Sat Aug 24 18:23:08 CEST 2002
* -- Sat Aug 24 23:47:02 CEST 2002
* -- Mon Sep 2 11:28:19 CEST 2002
* %<B added -- Thu Sep 19 09:23:00 CEST 2002
* v0.02 WORKS for flatedecode.psm -- Sun Sep 22 00:39:54 CEST 2002
* DEVEL
*/
/*
* Imp: extensive documentation
* Imp: verify acount + xcount
* Imp: uncompressed méretellenõrzés
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h> /* exit() */
#if NO_CONFIG
#include <assert.h>
#if SIZEOF_INT>=4
typedef unsigned slen_t;
typedef int slendiff_t;
# define SLEN_P ""
#else
typedef unsigned long slen_t;
typedef long slendiff_t;
# define SLEN_P "l"
#endif
typedef char sbool;
#if ';'!=59 || 'a'!=97
# error ASCII system is required to compile this program.
#endif
#else
#include "config2.h" /* by sam2p... */
typedef bool sbool;
#endif
#if OBJDEP
# warning PROVIDES: ps_tiny_main
#endif
#define ULE(a,b) (((a)+0U)<=((b)+0U))
#define ISWSPACEE(i) ((i)==32 || ULE(i-9,13-9) || i==0)
#define ISWSPACE(i,j) ((i j)==32 || ULE(i-9,13-9) || i==0)
#define PROGNAME "ps_tiny"
#define VERSION "0.02"
/* --- Data */
#define SBUFSIZE 4096
/** Data area holding strings; */
char sbuf[SBUFSIZE], *sbufb;
#define WORDSSIZE 127
/** Pointers inside sbuf, indexed by chars, [0..31] are special */
char const* words[WORDSSIZE];
static void sbuff(void) {
unsigned i;
sbuf[0]='\0';
sbufb=sbuf+1;
for (i=0;i<WORDSSIZE;i++) words[i]=sbuf;
}
/** @return -1 or the word found */
static int findword(char const*word) {
unsigned i=32;
while (i<WORDSSIZE && 0!=strcmp(word,words[i])) i++;
return i==WORDSSIZE ? -1 : (int)i;
}
/** @return -1 or the word found */
static int findword_stripslash(char const*word) {
unsigned i=32;
assert(word[0]!='/');
while (i<WORDSSIZE && 0!=strcmp(word,words[i]+(words[i][0]=='/'))) i++;
return i==WORDSSIZE ? -1 : (int)i;
}
/* --- Reading */
/** Current byte offset in input. (from 0) */
slen_t curofs;
/** Current line in input. (from 1) */
slen_t curline;
/** Offset of the leftmost char of current line in input. (from 0) */
slen_t leftofs;
/** Current position in input override format string */
char const* ifmt;
/** Input override string list */
char const* const* ilist;
/** Current position in current item of ilist */
char const* iitem;
/** Char unget */
int ilast;
static void rewindd(void) { ifmt=0; curofs=leftofs=0; curline=1; }
static void setifmt(char const *ifmt_, char const* const* ilist_) {
ifmt=ifmt_;
ilist=ilist_;
iitem="";
ilast=-1;
}
static void noifmt(void) { ifmt=0; }
static int getcc(void) {
int c;
if (ifmt!=0) {
nextitem:
if (ilast>=0) { c=ilast; ilast=-1; }
else if (iitem[0]!='\0') c=*iitem++;
else if (ifmt[0]=='$') { iitem=*ilist++; ifmt++; goto nextitem; }
else if (ifmt[0]=='\0') c=-1; /* EOF forever */
else c=*ifmt++;
/* fprintf(stderr, "igetcc()='%c'\n", c); */
} else {
if ((c=getchar())=='\n') { leftofs=curofs; curline++; }
curofs++;
}
return c;
}
static void ungetcc(int c) {
if (ifmt!=0) {
assert(ilast<0);
ilast=c;
} else {
if (c=='\n') curline--;
if (c>=0) { curofs--; ungetc(c,stdin); }
}
}
__attribute__((noreturn)) static void erri(char const*msg1, char const*msg2) {
fprintf(stderr, "%s: error at %" SLEN_P "u.%" SLEN_P "u.%" SLEN_P "u: %s%s\n",
PROGNAME, curline, curofs-leftofs+1, curofs, msg1, msg2?msg2:"");
exit(3);
}
static void setword(int c, char const*word, int slash) {
slen_t len;
assert(slash==0 || slash==1);
if (words[c][0]!='\0') erri("abbr letter already used",0);
if (sbuf+SBUFSIZE-sbufb+(slen_t)0<(len=strlen(word))+slash+1U) erri("words overflow",0);
/* fprintf(stderr,"setword(%d,\"%s\");\n", c, word); */
words[c]=sbufb;
if (slash) *sbufb++='/';
strcpy(sbufb, word);
sbufb+=len+1;
/* assert(c<3 || findword(word)==c); */
}
/** So a long string from ps_tiny --copy <bts2.ttt will fit */
/* #define IBUFSIZE 512 */
#define IBUFSIZE 32000
/** Input buffer for several operations. */
char ibuf[IBUFSIZE];
/** Position after last valid char in ibuf */
char *ibufb;
typedef slendiff_t psint_t;
#if 0
static psint_t getint(void) {
int c, sgn=1;
psint_t v, w;
while (ISWSPACE(c,=getcc())) ;
if (c=='-') { c=getcc(); sgn=-1; }
if (!ULE(c-'0','9'-'0')) erri("integer expected",0); /* Dat: EOF err */
v=sgn*(c-'0');
while (ULE((c=getcc())-'0','9'-'0')) {
if ((w=10*v+sgn*(c-'0'))/10!=v) erri("integer overflow",0);
/* ^^^ Dat: overflow check is ok between -MAX-1 .. MAX */
v=w;
}
ungetcc(c);
return v;
}
static psint_t getuint(void) {
psint_t v=getint();
if (v<0) erri("nonnegative integer expected",0);
return v;
}
#endif
static /*inline*/ sbool is_ps_white(int/*char*/ c) {
return c=='\n' || c=='\r' || c=='\t' || c==' ' || c=='\f' || c=='\0';
}
static /*inline*/ sbool is_ps_name(int/*char*/ c) {
/* Dat: we differ from PDF since we do not treat the hashmark (`#') special
* in names.
* Dat: we differ from PostScript since we accept names =~ /[!-~]/
*/
return c>='!' && c<='~'
&& c!='/' && c!='%' && c!='{' && c!='}' && c!='<' && c!='>'
&& c!='[' && c!=']' && c!='(' && c!=')';
/* Dat: PS avoids: /{}<>()[]% \n\r\t\000\f\040 */
}
/** Definition chosen rather arbitrarily by pts */
static sbool is_wordx(char const *s) {
if (!ULE(*s-'A','Z'-'A') && !ULE(*s-'a','z'-'a') && *s!='.') return 0;
/* && !ULE(*s-'0','9'-'0') && *s!='-') return 0; */
while (*++s!='\0') if (!is_ps_name(*s)) return 0;
return 1;
}
/** @param b: assume null-terminated @return true on error */
static /*inline*/ sbool toInteger(char *s, psint_t *ret) {
int n=0; /* BUGFIX?? found by __CHECKER__ */
return sscanf(s, "%" SLEN_P "i%n", ret, &n)<1 || s[n]!='\0';
}
/** @param b: assume null-terminated @return true on error */
static /*inline*/ sbool toReal(char *s, double *ret) {
int n;
char c;
/* Dat: glibc accepts "12e", "12E", "12e+" and "12E-" */
return sscanf(s, "%lf%n", ret, &n)<1
|| (c=s[n-1])=='e' || c=='E' || c=='+' || c=='-' || s[n]!='\0';
}
/** Returns a PostScript token ID, puts token into buf */
static char gettok(void) {
/* Derived from MiniPS::Tokenizer::yylex() of sam2p-0.37 */
int c=0; /* dummy initialization */
sbool hi;
unsigned hv=0; /* =0: pacify G++ 2.91 */
slen_t nest;
char *ibufend=ibuf+IBUFSIZE;
ibufb=ibuf;
#if 0
if (ungot==EOFF) return EOFF;
if (ungot!=NO_UNGOT) { c=ungot; ungot=NO_UNGOT; goto again; }
#endif
again_getcc:
c=getcc();
/* again: */
switch (c) {
case -1: eof:
return 0; /*ungot=EOFF */;
case '\n': case '\r': case '\t': case ' ': case '\f': case '\0':
goto again_getcc;
case '%': /* one-line comment */
if ((c=getcc())=='<') { /* XMLish tag */
char ret='<';
if ((c=getcc())=='/') { ret='>'; c=getcc(); } /* close tag */
if (!ULE(c-'A','Z'-'A')) erri("invalid tag",0); /* catch EOF */
(ibufb=ibuf)[0]=c; ibufb++;
while (ULE((c=getcc())-'A','Z'-'A') || ULE(c-'a','z'-'a')) {
if (ibufb==ibufend-1) erri("tag too long",0);
*ibufb++=c;
}
if (c<0) erri("unfinished tag",0);
*ibufb='\0';
ungetcc(c);
return ret;
}
while (c!='\n' && c!='\r' && c!=-1) c=getcc();
if (c==-1) goto eof;
goto again_getcc;
case '{': case '[':
*ibufb++=c;
return '[';
case '}': case ']':
*ibufb++=c;
return ']';
case '>':
if (getcc()!='>') goto err;
*ibufb++='>'; *ibufb++='>';
return ']';
case '<':
if ((c=getcc())==-1) { uf_hex: erri("unfinished hexstr",0); }
if (c=='<') {
*ibufb++='<'; *ibufb++='<';
return '[';
}
if (c=='~') erri("a85str unsupported",0);
hi=1;
while (c!='>') {
if (ULE(c-'0','9'-'0')) hv=c-'0';
else if (ULE(c-'a','f'-'a')) hv=c-'a'+10;
else if (ULE(c-'A','F'-'A')) hv=c-'A'+10;
else if (is_ps_white(c)) hv=16;
else erri("syntax error in hexstr",0);
if (hv==16) ;
else if (!hi) { ibufb[-1]|=hv; hi=1; }
else if (ibufb==ibufend) erri("hexstr literal too long",0);
else { *ibufb++=(char)(hv<<4); hi=0; }
if ((c=getcc())==-1) goto uf_hex;
}
/* This is correct even if an odd number of hex digits have arrived */
return '(';
case '(':
nest=1;
while ((c=getcc())!=-1) {
if (c==')' && --nest==0) return '(';
if (c!='\\') { if (c=='(') nest++; }
else switch (c=getcc()) { /* read a backslash escape */
case -1: goto uf_str;
case 'n': c='\n'; break;
case 'r': c='\r'; break;
case 't': c='\t'; break;
case 'b': c='\010'; break; /* \b and \a conflict between -ansi and -traditional */
case 'f': c='\f'; break;
default:
if (!ULE(c-'0','7'-'0')) break;
hv=c-'0'; /* read at most 3 octal chars */
if ((c=getcc())==-1) goto uf_str;
if (c<'0' || c>'7') { ungetcc(c); c=hv; }
hv=8*hv+(c-'0');
if ((c=getcc())==-1) goto uf_str;
if (c<'0' || c>'7') { ungetcc(c); c=hv; }
c=(char)(8*hv+(c-'0'));
} /* SWITCH */
if (ibufb==ibufend) erri("str literal too long",0);
/* putchar(c); */
*ibufb++=c;
} /* WHILE */
/* if (c==')') return '('; */
uf_str: erri("unfinished str",0);
case ')': goto err;
case '/':
*ibufb++='/';
while (ISWSPACE(c,=getcc())) ;
/* ^^^ `/ x' are two token in PostScript, but here we overcome the C
* preprocessor's feature of including whitespace.
*/
/* fall-through, b will begin with '/' */
/*fallthrough*/
default: /* /nametype, /integertype or /realtype */
*ibufb++=c;
while ((c=getcc())!=-1 && is_ps_name(c)) {
if (ibufb==ibufend) erri("token too long",0);
*ibufb++=c;
}
ungetcc(c);
if (ibuf[0]=='/') return '/';
/* Imp: optimise numbers?? */
if (ibufb!=ibufend) {
psint_t l;
double d;
*ibufb='\0';
/* Dat: we don't support base-n number such as `16#100' == 256 in real PostScript */
if (!toInteger(ibufb, &l)) return '1'; /* throw away integer value */
/* Dat: call toInteger _before_ toReal */
if (!toReal(ibufb, &d)) return '.';
}
return 'E'; /* executable /nametype */
}
err:
erri("syntax error, token expected",0);
goto again_getcc; /* notreached */
}
static void getotag(char const*tag) {
#if 0 /* This code segment cannot ignore comments */
char const *p=tag;
int c;
while (ISWSPACE(c,=getcc())) ;
if (c!='%' || (c=getcc())!='<') erri("tag expected: ", tag);
while (ISWSPACE(c,=getcc())) ;
while (p[0]!='\0') {
if (c!=*p++) erri("this tag expected: ", tag);
c=getcc();
}
ungetcc(c);
#else
if (gettok()!='<' || 0!=strcmp(ibuf,tag)) erri("tag expected: ", tag);
#endif
}
static void gettagbeg(void) {
int c;
while (ISWSPACE(c,=getcc())) ;
if (c!='>') erri("`>' expected",0);
}
static void gettagend(void) {
int c;
while (ISWSPACE(c,=getcc())) ;
if (c!='/') erri("`/>' expected",0);
while (ISWSPACE(c,=getcc())) ;
if (c!='>') erri("`/>' expected",0);
}
static void getkey(char const *key) {
char const *p=key;
int c;
while (ISWSPACE(c,=getcc())) ;
while (p[0]!='\0') {
if (c!=*p++) erri("this key expected: ", key);
c=getcc();
}
while (ISWSPACEE(c)) c=getcc();
if (c!='=') erri("key `=' expected", 0);
}
/** Loads a value into ibuf, '\0'-terminated. */
static void getval(void) {
sbool g=1;
char *ibufend1=ibuf+IBUFSIZE-1, c;
ibufb=ibuf;
while (ISWSPACE(c,=getcc())) ;
while (1) {
if (c=='"') g=!g;
else if (g && (ISWSPACEE(c) || c=='/' || c=='>')) { ungetcc(c); break; }
else if (c<0) erri("unfinished tag val",0);
else if (c==0) erri("\\0 disallowed in tag val",0);
else if (ibufb==ibufend1) erri("tag val too long",0);
else *ibufb++=c;
c=getcc();
} /* WHILE */
*ibufb='\0';
}
static psint_t getuintval(void) {
psint_t ret;
getval();
/* fprintf(stderr, "[%s]\n", ibuf); */
if (toInteger(ibuf, &ret) || ret<0) erri("tag val must be nonnegative integer",0);
return ret;
}
/* --- Writing */
/** Maximum number of characters in a line. */
#define MAXLINE 78
/** Number of characters already written into this line. (from 0) */
slen_t wcolc;
/** Last token was a self-closing one */
sbool wlastclosed;
static void prepare(void) { wcolc=0; wlastclosed=1; }
static void newline(void) {
if (wcolc!=0) {
putchar('\n');
wcolc=0; wlastclosed=1;
} else assert(wlastclosed);
}
/** 2: "\\n"; 1: "\n" */
static int pstrq_litn_pp=2;
/** @return the byte length of a string as a quoted PostScript ASCII string
* literal
*/
static slen_t pstrqlen(register char const* p, char const* pend) {
slen_t olen=2; /* '(' and ')' */
char c;
p=ibuf; pend=ibufb; while (p!=pend) {
if ((c=*(unsigned char const*)p++)=='\r' || c=='\t' || c=='\010' || c=='\f' || c=='(' || c==')') olen+=2;
else if (c=='\n') olen+=pstrq_litn_pp;
else if (c>=32 && c<=126) olen++;
else if (c>=64 || p==pend || ULE(*p-'0','7'-'0')) olen+=4;
else if (c>=8) olen+=3;
else olen+=2;
}
return olen;
}
/** Prints the specified string as a quoted PostScript ASCII string literal.
* Does not modify wcolc etc.
*/
static void pstrqput(register char const* p, char const* pend) {
char c;
putchar('(');
p=ibuf; pend=ibufb; while (p!=pend) {
if ((ULE((c=*(unsigned char const*)p++)-32, 126-32) && c!='(' && c!=')')
|| (c=='\n' && pstrq_litn_pp==1)
) { putchar(c); continue; }
putchar('\\');
if (c=='\n') putchar('n');
else if (c=='\r') putchar('r');
else if (c=='\t') putchar('t');
else if (c=='\010') putchar('b');
else if (c=='\f') putchar('f');
else if (c=='(') putchar('('); /* BUGFIX at Tue Feb 22 00:22:19 CET 2005 */
else if (c==')') putchar(')');
else if (c>=64 || p==pend || ULE(*p-'0','7'-'0')) {
putchar((c>>6&7)+'0');
putchar((c>>3&7)+'0');
putchar(( c&7)+'0');
} else if (c>=8) {
putchar((c>>3) +'0');
putchar(( c&7)+'0');
} else putchar(c+'0');
}
putchar(')');
}
static int copy_longstr_warn_p=1;
/** Copies PostScript code from input to output. Strips comments, superfluous
* whitespace etc., substitutes words etc.
* @param tag may be NULL, this signals: copy till EOF, doesn't substitute
* words
*/
static void copy(char const*tag) {
int c;
slen_t len, olen;
while (1) switch (gettok()) {
case 0:
if (tag) erri("eof before close tag: ", tag);
return;
case '[': case ']':
if (wcolc+(len=ibufb-ibuf)>MAXLINE) newline();
wlastclosed=1;
write:
if (len>MAXLINE) fprintf(stderr, "%s: warning: output line too long\n", PROGNAME);
fwrite(ibuf, 1, len, stdout); wcolc+=len;
break;
case '/':
if ((len=ibufb-ibuf)<IBUFSIZE && tag && !(*ibufb='\0') && (c=findword(ibuf))>=0) {
ibuf[0]='/';
ibuf[1]=c;
ibufb=ibuf+2;
len=2;
}
if (wcolc+len>MAXLINE) newline();
wlastclosed=0;
goto write;
case '<': erri("tag unexpected",0);
case '>':
if (!tag) erri("close tag unexpected",0);
if (strlen(tag)!=(len=ibufb-ibuf) || 0!=memcmp(ibuf,tag,len)) erri("this close tag expected: ", tag);
/* wlastclosed is left unmodified */
gettagbeg();
return;
case '(':
olen=pstrqlen(ibuf,ibufb);
if (wcolc+olen>MAXLINE) newline();
if (olen>MAXLINE && copy_longstr_warn_p) fprintf(stderr, "%s: warning: output string too long\n", PROGNAME);
/* putchar(ibuf[1]); */
wcolc+=olen; pstrqput(ibuf,ibufb);
wlastclosed=1;
break;
default: /* case '1': case '.': case 'E': */
/* fprintf(stderr,"fw(%s) %c\n", ibuf, findword("32768")); */
if ((len=ibufb-ibuf)<IBUFSIZE && tag && !(*ibufb='\0') && (c=findword_stripslash(ibuf))>=0) {
ibuf[0]=c;
ibufb=ibuf+1;
len=1;
}
if (wcolc+len+!wlastclosed>MAXLINE) newline();
else if (!wlastclosed) { putchar(' '); wcolc++; }
wlastclosed=0;
goto write;
}
}
/** Prefix chars: 32..41 ' '..')' */
static void cprefix(slen_t olen) {
slen_t plen;
if (0==olen) erri("empty token","");
if (olen>11) erri("compressed token too long (>11)","");
plen=olen+(olen>1)+(olen==7);
if (wcolc+(wcolc==0)+plen>MAXLINE) newline();
if (wcolc==0) { putchar('%'); wcolc=1; }
if (plen>=MAXLINE) fprintf(stderr, "%s: warning: output line too long\n", PROGNAME);
if (olen==7) { putchar(8+30); putchar(' '); wcolc+=2; } /* Dat: ASCII 37=='%' */
else if (olen>1) { putchar(olen+30); wcolc++; }
}
/** Copies PostScript code from input to output. Strips comments, superfluous
* whitespace etc., substitutes words etc. Output is not valid PostScript code,
* but it needs decompression (i.e adding spaces to words). Ignores var
* `wlastclosed' (sets it to 1 by calling newline()).
*/
static void compress0(char const*tag) {
int c;
slen_t len, olen;
newline();
while (1) switch (gettok()) {
case 0: erri("eof before close tag: ", tag);
case '[': case ']':
len=ibufb-ibuf;
write:
cprefix(len);
fwrite(ibuf, 1, len, stdout); wcolc+=len;
break;
case '/':
if ((len=ibufb-ibuf)<IBUFSIZE && !(*ibufb='\0') && (c=findword(ibuf))>=0) {
/* erri("possibly stupid redef: ", ibuf); */
ibuf[0]='/';
ibuf[1]=c;
ibufb=ibuf+2;
len=2;
}
goto write;
case '<': erri("tag unexpected",0);
case '>':
if (strlen(tag)!=(len=ibufb-ibuf) || 0!=memcmp(ibuf,tag,len)) erri("this close tag expected: ", tag);
/* wlastclosed is left unmodified */
fputs((wcolc+2>MAXLINE) ? "\n% %%" : "%%", stdout);
newline();
gettagbeg();
return;
case '(':
cprefix(olen=pstrqlen(ibuf,ibufb));
wcolc+=olen; pstrqput(ibuf,ibufb);
break;
default: /* case '1': case '.': case 'E': */
if ((len=ibufb-ibuf)<IBUFSIZE && !(*ibufb='\0') && (c=findword_stripslash(ibuf))>=0) {
ibuf[0]=c;
ibufb=ibuf+1;
len=1;
}
goto write;
}
}
/** by [email protected] at Fri Sep 6 11:34:57 CEST 2002. Copies data from stdin
* to stdout till close tag %</tag>. (Note that it isn't safe to copy data of
* the ASCII85Encode filter this way
*/
static void copydata(char const*tag) {
int c;
while (ISWSPACE(c,=getcc())) ;
/* ungetcc(c); */
while (1) {
if (c<0) erri("missing close tag: ", tag);
if (c!='%') { putchar(c); c=getcc(); continue; }
if ((c=getcc())=='<') {
if ((c=getcc())=='/') {
while (tag[0]!='\0') {
if ((c=getcc())!=*tag++) erri("this close tag expected: ", tag);
}
while (ISWSPACE(c,=getcc())) ;
if (c!='>') erri("`>' expected", 0);
break;
} else {
putchar('%');
putchar('<');
}
} else {
putchar('%');
}
}
}
/* --- Main */
int main(int argc, char**argv) {
slen_t acount, xcount, inlining;
char tmp[40];
(void)argc;
/* freopen("t.pin","rb",stdin); */
sbuff();
rewindd();
prepare();
if (argv[0] && argv[1] && 0==strcmp(argv[1],"--copy")) {
copy_longstr_warn_p=0;
pstrq_litn_pp=1;
copy((char const*)0);
return 0;
}
{ char tok=gettok();
slen_t len;
len=ibufb-ibuf;
if (tok=='<' && len==4 && 0==memcmp(ibuf, "Head", 4)) {
gettagbeg();
copydata("Head");
getotag("Open");
} else if (tok=='<' && len==4 && 0==memcmp(ibuf, "Open", 4)) {
} else erri("tag %<Head or %<Open expected",0);
}
gettagbeg();
copy("Open");
getotag("Abbr");
getkey("acount"); acount=getuintval();
getkey("xcount"); xcount=getuintval();
sprintf(tmp,"%" SLEN_P "u dict%%</I>", acount+xcount);
setifmt(tmp,0); copy("I"); noifmt();
gettagbeg();
#define E_RANGE 3
#define E_SYNTAX 4
#define E_COMPRESS 5
copy("Abbr");
setword(E_RANGE, ")range", 0);
setword(E_SYNTAX, ")syntax", 0);
setword(E_COMPRESS, ")compress", 0);
{ int c;
for (c=7;c<32;c++) words[c]=words[E_RANGE];
for (c=32;c<42;c++) words[c]=words[E_COMPRESS];
for (c=47;c<58;c++) words[c]=words[E_SYNTAX]; /* Name:'/', Number:'0'..'9' */
words[0U+'<']=words[0U+'>']= /* Hex */
words[0U+'[']=words[0U+']']= /* Bracket */
words[0U+'{']=words[0U+'}']= /* Brace */
words[E_SYNTAX];
for (c=127;c<WORDSSIZE;c++) words[c]=words[E_RANGE];
}
{ char tok;
slen_t len;
int c;
char ct[2];
char const* ilist_[3];
psint_t i;
sbool g;
while (1) {
tok=gettok(); len=ibufb-ibuf;
if (tok=='<' && len==1 && 0==memcmp(ibuf, "A", 1)) {
while (ISWSPACE(c,=getcc())) ;
if (c<32 || c>=WORDSSIZE) erri("invalid %<A letter",0);
ct[0]=c; ct[1]='\0'; ilist_[0]=ct;
getval();
if (is_wordx(ibuf)) {
setword(c, ibuf, 0);
ilist_[1]=words[c]; words[c]=sbuf; /* temp hide */
ilist_[2]=words[0][0]=='\0' ? "load def" : words[0];
setifmt("/$ /$ $%</I>", ilist_);
if (words[1][0]=='\0' && 0==strcmp(ibuf,"def")) setword(1, ct, 0);
} else {
g=toInteger(ibuf, &i); /* need braces? */
if (g) { words[2]=sbuf; c=2; }
setword(c, ibuf, 0); /* temp save */
ilist_[1]=words[c]; words[c]=sbuf; /* temp hide */
ilist_[2]=words[1][0]=='\0' ? "def" : words[1];
setifmt(g ? "/$ { $\n} $%</I>" : "/$ $\n $%</I>", ilist_);
if (words[0][0]=='\0' && 0==strcmp(ibuf,"load def")) setword(0, ct, 0);
}
copy("I");
noifmt();
words[c]=ilist_[1];
} else if (tok=='<' && len==1 && 0==memcmp(ibuf, "D", 1)) {
/* define both /x and x */
while (ISWSPACE(c,=getcc())) ;
if (c<32 || c>=WORDSSIZE) erri("invalid %<D letter",0);
ct[0]=c; ct[1]='\0'; ilist_[0]=ct;
getval();
if (!is_wordx(ibuf)) erri("body for %<D must be a single word",0);
setword(c, ibuf, 1);
} else if (tok=='<' && len==7 && 0==memcmp(ibuf, "TokSubs", 7)) {
break;
} else erri("tag %<TokSubs or %<A or %<D expected",0);
gettagend();
}
words[2]=sbuf; /* Imp: free chars */
}
getkey("name"); getval(); setword(2, ibuf, 0);
if (ibufb-ibuf==1 && words[(unsigned char)ibuf[0]]!=sbuf) erri("abbr used as %<TokSubs name= : ",ibuf);
getkey("inlining"); inlining=getuintval();
gettagend();
{ char const* ilist_[2]; ilist_[0]=ilist_[1]=words[2];
setifmt(inlining!=0 ? "/${mark exch{dup xcheck{dup type/arraytype eq{$}{dup type/nametype eq{dup currentdict exch known{load dup dup type/arraytype eq exch xcheck and{$ aload pop}if}if}if}ifelse}if}forall counttomark array astore exch pop cvx}bind def%</I>"
:"/$ {\n"
"mark exch{\n"
"dup xcheck{\n"
"dup type/arraytype eq{$}{\n"
"dup type/nametype eq{\n"
"dup currentdict exch known {load}if\n"
"}if\n"
"}ifelse\n"
"}if\n"
"}forall\n"
"counttomark array astore exch pop cvx\n"
"} bind def%</I>", ilist_);
copy("I"); noifmt();
}
getotag("Test");
gettagbeg();
copy("Test");
getotag("S");
getkey("len"); (void)getuintval(); /* Imp: verify slen for overruns */
gettagbeg();
setifmt("{%</I>",0); copy("I"); noifmt(); /*}*/
copy("S");
{ char const* ilist_[2]; ilist_[0]=ilist_[1]=words[2];
setifmt(
"0\n"
"{ % Stack: <dst-str> <i>\n"
" currentfile read pop\n"
" dup 37 eq{% '%'\n"
" pop currentfile read pop\n"
" dup 37 eq{pop pop exit}if % exit when '%%'\n"
" }if\n"
" % Stack: <dst-str> <i> <char-read>\n"
" dup 42 lt{\n"
" 30 sub\n"
" % Stack: <dst-str> <i> <repeat-count>\n"
" dup 0 gt{\n"
" 3 copy getinterval\n"
" % Stack: <dst-str> <i> <repeat-count> <sub-dst-str>\n"
" currentfile exch readstring pop pop\n"
" % Stack: <dst-str> <i> <repeat-count>\n"
" add 1 add\n"
" }{pop}ifelse % skip newlines, tabs etc.\n"
" }{\n"
" 3 copy put\n"
" pop 2 add % \\0 as space\n"
" }ifelse\n"
" % Stack: <dst-str> <new-i>\n"
"}$ bind loop\n"
"% Stack: <dst-str>\n"
"cvx exec $ bind exec\n" /* CONST, VAR és CODE futtatása */
"currentfile token pop pop\n" /* A %%BeginData utáni exec beolvasása */
"%</I>\n", ilist_);
copy("I"); noifmt();
}
getotag("True");
gettagbeg();
copy("True");
setifmt("}{currentfile token pop pop%</I>",0);
copy("I"); noifmt();
getotag("False");
gettagbeg();
copy("False");
setifmt("}ifelse%</I>",0);
copy("I"); noifmt();
getotag("Defs");
gettagbeg();
compress0("Defs");
{ char tok=gettok();
slen_t len;
len=ibufb-ibuf;
if (tok=='<' && len==4 && 0==memcmp(ibuf, "Data", 4)) {
gettagbeg();
copydata("Data");
} else if (tok=='<' && len==4 && 0==memcmp(ibuf, "Fini", 4)) {
fputs("%%BeginData:\nexec\n`S\n%%EndData\n",stdout);
getotag("Fini");
gettagbeg();
copy("Fini");
newline();
fputs("%%Trailer\n%%EOF\n", stdout);
} else erri("tag %<Data or %<Fini expected",0);
}
if (gettok()!=0) erri("premature EOF",0);
return 0;
}