/*
* This routine scans a page for font definitions and character usage.
* It keeps an estimate of the memory remaining in the printer, and
* returns false when that memory is exhausted, unless scanning the
* first page. Otherwise it returns 1 if no problems were found,
* or 2 if it thinks the first page of a section may overflow memory.
*/
#include "dvips.h" /* The copyright notice in that file is included too! */
/*
* These are the external routines we need.
*/
#include "protos.h"
extern integer firstboploc ;
/*
* And, of course, the globals it uses.
*/
#ifdef DEBUG
extern integer debug_flag;
#endif /* DEBUG */
extern fontdesctype *curfnt ;
extern fontdesctype *baseFonts[] ;
extern fontmaptype *ffont ;
extern quarterword *curpos, *curlim ;
extern integer fontmem ;
extern integer pagecount ;
extern integer pagenum ;
extern Boolean compressed ;
extern FILE *dvifile ;
extern char errbuf[] ;
extern frametype frames[] ;
extern integer pagecost ;
/*
* Charge pagecost for the cost of showing the character that *cd refers to
* and charge fontmem for the cost of downloading the character if necessary.
* A zero result indicates that we have run out of memory.
* If the character is small (a small packet), we save 43 bytes (since we
* use a single string instead of an array with integers in the PostScript.)
*/
Boolean
prescanchar P1C(chardesctype *, cd)
{
register quarterword *cras ;
register integer thischar ;
if ((cd->flags & (PREVPAGE | THISPAGE)) == 0) {
/* the character hasn't been used before in the current section */
cras = cd->packptr ;
if (curfnt->resfont) {
thischar = PSCHARCOST ;
cd->flags |= THISPAGE ;
} else if (cras != NULL) {
thischar = CHARCOST ;
if (cd->flags & BIGCHAR)
thischar += 43 ;
if (compressed) {
if ((cd->flags & REPACKED) == 0) {
repack(cd) ;
cras = cd->packptr ;
}
if ((*cras & 4))
if ((*cras & 7) == 7)
thischar += getlong(cras + 17) ;
else
thischar += getlong(cras + 9) ;
else
thischar += getlong(cras + 5) ;
} else {
if ((*cras & 4))
if ((*cras & 7) == 7)
thischar += getlong(cras + 1)
* ((getlong(cras + 5) + 7) >> 3) ;
else
thischar += (cras[3] * 256L + cras[4]) *
((cras[1] * 256L + cras[2] + 7) >> 3) ;
else
thischar += ((long)(cras[2] * ((cras[1] + 7) >> 3))) ;
}
cd->flags |= THISPAGE ;
} else
thischar = 0 ;
fontmem -= thischar ;
if (fontmem <= pagecost) {
if (pagecount > 0)
return(0) ;
}
}
return(1) ;
}
/*
* When a font is selected during the prescan, this routine makes sure that
* the tfm or pk file is loaded and charges fontmem for the VM overhead in
* creating the font. The result is true unless the section must be aborted
* in order to keep this font from overflowing VM.
*/
Boolean
preselectfont P1C(fontdesctype *, f)
{
curfnt = f ;
if (curfnt->loaded == 0 || curfnt->loaded == 3) {
if (!residentfont(curfnt))
if (!virtualfont(curfnt))
loadfont(curfnt) ;
}
if (curfnt->psname == 0) {
if (curfnt->loaded < 2) /* virtual font costs nothing (yet) */
if (curfnt->resfont)
fontmem -= PSFONTCOST ;
else {
fontmem -= FONTCOST + curfnt->maxchars ;
if (curfnt->loadeddpi != curfnt->dpi)
fontmem -= 48 ; /* for the new font matrix */
}
curfnt->psname = 1 ;
if (fontmem <= pagecost) {
if (pagecount > 0)
return(0) ;
}
}
return(1) ;
}
/*
* Now our scanpage routine.
*/
short
scanpage P1H(void)
{
register shalfword cmd ;
register chardesctype *cd ;
register fontmaptype *cfnt = 0 ;
integer fnt ;
integer mychar ;
register frametype *frp = frames ;
if (firstboploc == 0)
firstboploc = ftell(dvifile) ;
pagecost = 0 ;
#ifdef DEBUG
if (dd(D_PAGE))
#ifdef SHORTINT
(void)fprintf(stderr,"Scanning page %ld\n", pagenum) ;
#else /* ~SHORTINT */
(void)fprintf(stderr,"Scanning page %d\n", pagenum) ;
#endif /* ~SHORTINT */
#endif /* DEBUG */
curfnt = NULL ;
curpos = NULL ;
bopcolor(0) ; /* IBM: color - put current colorstack to bopstackdepth */
while (1) {
switch (cmd=dvibyte()) {
#ifdef Omega
case 130: case 131: case 135: case 136: case 139:
case 247: case 248: case 249: case 250: case 251: case 252: case 253:
case 254: case 255: /* unimplemented or illegal commands */
(void)sprintf(errbuf,
"! DVI file contains unexpected command (%d)",cmd) ;
error(errbuf) ;
case 132: case 137: /* eight-byte commands setrule, putrule */
(void)dvibyte() ;
(void)dvibyte() ;
(void)dvibyte() ;
(void)dvibyte() ;
case 146: case 151: case 156: case 160: case 165: case 170:
/* four-byte commands right4, w4, x4, down4, y4, z4 */
(void)dvibyte() ;
case 145: case 150: case 155: case 159: case 164: case 169:
/* three-byte commands right3, w3, x3, down3, y3, z3 */
(void)dvibyte() ;
case 144: case 149: case 154: case 158: case 163: case 168:
/* two-byte commands right2, w2, x2, down2, y2, z2 */
(void)dvibyte() ;
case 143: case 148: case 153: case 157: case 162: case 167:
/* one-byte commands right1, w1, x1, down1, y1, z1 */
(void)dvibyte() ;
case 147: case 152: case 161: case 166: /* w0, x0, y0, z0 */
case 138: case 141: case 142: /* nop, push, pop */
break ;
case 134: case 129: mychar = dvibyte() ; mychar = (mychar << 8) + dvibyte() ;
goto dochar ;
case 133: case 128: mychar = dvibyte() ;
goto dochar ;
#else
case 129: case 130: case 131: case 134: case 135: case 136: case 139:
case 247: case 248: case 249: case 250: case 251: case 252: case 253:
case 254: case 255: /* unimplemented or illegal commands */
(void)sprintf(errbuf,
"! DVI file contains unexpected command (%d)",cmd) ;
error(errbuf) ;
case 132: case 137: /* eight-byte commands setrule, putrule */
(void)dvibyte() ;
(void)dvibyte() ;
(void)dvibyte() ;
(void)dvibyte() ;
case 146: case 151: case 156: case 160: case 165: case 170:
/* four-byte commands right4, w4, x4, down4, y4, z4 */
(void)dvibyte() ;
case 145: case 150: case 155: case 159: case 164: case 169:
/* three-byte commands right3, w3, x3, down3, y3, z3 */
(void)dvibyte() ;
case 144: case 149: case 154: case 158: case 163: case 168:
/* two-byte commands right2, w2, x2, down2, y2, z2 */
(void)dvibyte() ;
case 143: case 148: case 153: case 157: case 162: case 167:
/* one-byte commands right1, w1, x1, down1, y1, z1 */
(void)dvibyte() ;
case 147: case 152: case 161: case 166: /* w0, x0, y0, z0 */
case 138: case 141: case 142: /* nop, push, pop */
break ;
case 133: case 128: cmd = dvibyte() ; /* set1 commands drops through */
#endif
default: /* these are commands 0 (setchar0) thru 127 (setchar 127) */
/*
* We are going to approximate that each string of consecutive characters
* requires (length of string) bytes of PostScript VM.
*/
#ifdef Omega
mychar = cmd ;
dochar:
#endif
if (curfnt==NULL)
error("! Bad DVI file: no font selected") ;
if (curfnt->loaded == 2) { /* scanning a virtual font character */
frp->curp = curpos ;
frp->curl = curlim ;
frp->ff = ffont ;
frp->curf = curfnt ;
if (++frp == &frames[MAXFRAME] )
error("! virtual recursion stack overflow") ;
#ifdef Omega
cd = curfnt->chardesc + mychar ;
#else
cd = curfnt->chardesc + cmd ;
#endif
if (cd->packptr == 0)
error("! a non-existent virtual character is being used; check vf/tfm files") ;
curpos = cd->packptr + 2 ;
curlim = curpos + (256*(long)(*cd->packptr)+(*(cd->packptr+1))) ;
ffont = curfnt->localfonts ;
if (ffont==NULL)
curfnt = NULL ;
else if (!preselectfont(ffont->desc))
goto outofmem ;
} else {
pagecost++ ;
#ifdef Omega
if (!prescanchar(curfnt->chardesc + mychar))
#else
if (!prescanchar(curfnt->chardesc + cmd))
#endif
goto outofmem ;
}
break ;
case 171: case 172: case 173: case 174: case 175: case 176: case 177:
case 178: case 179: case 180: case 181: case 182: case 183: case 184:
case 185: case 186: case 187: case 188: case 189: case 190: case 191:
case 192: case 193: case 194: case 195: case 196: case 197: case 198:
case 199: case 200: case 201: case 202: case 203: case 204: case 205:
case 206: case 207: case 208: case 209: case 210: case 211: case 212:
case 213: case 214: case 215: case 216: case 217: case 218: case 219:
case 220: case 221: case 222: case 223: case 224: case 225: case 226:
case 227: case 228: case 229: case 230: case 231: case 232: case 233:
case 234: case 235: case 236: case 237: case 238: /* font selection commands */
if (cmd < 235) fnt = cmd - 171 ; /* fntnum0 thru fntnum63 */
else {
fnt = dvibyte() ; /* fnt1 */
while (cmd-- > 235)
fnt = (fnt << 8) + dvibyte() ;
}
if (curpos || fnt > 255) {
for (cfnt=ffont; cfnt; cfnt = cfnt->next)
if (cfnt->fontnum == fnt) goto fontfound ;
} else
if (0 != (curfnt = baseFonts[fnt]))
goto fontfound2 ;
printf("Font number %d not found\n", fnt) ;
error("! no font selected") ;
fontfound: curfnt = cfnt->desc ;
fontfound2: if (!preselectfont(curfnt))
goto outofmem ;
break ;
case 239: predospecial((integer)dvibyte(), 1) ; break ; /* xxx1 */
case 240: predospecial((integer)twobytes(), 1) ; break ; /* xxx2 */
case 241: predospecial(threebytes(), 1) ; break ; /* xxx3 */
case 242: predospecial(signedquad(), 1) ; break ; /* xxx4 */
case 243: case 244: case 245: case 246: fontdef(cmd-242) ; break ; /* fntdef1 */
case 140: /* eop or end of virtual char */
if (curpos) {
--frp ;
curfnt = frp->curf ;
ffont = frp->ff ;
curlim = frp->curl ;
curpos = frp->curp ;
break ;
}
goto endofpage ; /* eop */
}
}
endofpage:
if (fontmem > pagecost)
return(1) ;
if (pagecount > 0) {
return(0) ;
} /* IBM: color */
#ifdef SHORTINT
(void)fprintf(stderr, "Page %ld may be too complex to print\n", pagenum) ;
#else /* ~SHORTINT */
(void)fprintf(stderr, "Page %d may be too complex to print\n", pagenum) ;
#endif /* ~SHORTINT */
/*
* This case should be rare indeed. Even with only 200K of virtual memory,
* at 11 bytes per char, you can have 18K characters on a page.
*/
return(2) ;
outofmem:
if (frp != frames) {
curpos = frames->curp ;
curlim = frames->curl ;
ffont = frames->ff ;
curfnt = frames->curf ;
}
return 0 ;
}
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