/* * Copyright (c) 1987, 1989 University of Maryland * Department of Computer Science. All rights reserved. * Permission to copy for any purpose is hereby granted * so long as this copyright notice remains intact. */ #ifndef lint static char rcsid[] = "$Header: /usr/src/local/tex/local/mctex/dvi/RCS/dviselect.c,v 3.1 89/08/22 17:16:13 chris Exp $"; #endif /* * DVI page selection program * * Reads DVI version 2 files and selects pages, writing a new DVI * file. The new DVI file is technically correct, though we do not * adjust the tallest and widest page values, nor the DVI stack size. * This is all right since the values will never become too small, * but it might be nice to fix them up. Perhaps someday . . . . */ #include "libtex/types.h" #include "libtex/dviclass.h" #include "libtex/dvicodes.h" #include "libtex/error.h" #include "libtex/fio.h" #include "libtex/gripes.h" #include "libtex/search.h" #include #include #define white(x) ((x) == ' ' || (x) == '\t' || (x) == ',') char *ProgName; extern char *optarg; extern int optind; /* Globals */ char serrbuf[BUFSIZ]; /* buffer for stderr */ /* * We will try to keep output lines shorter than MAXCOL characters. */ #define MAXCOL 75 /* * We use the following structure to keep track of fonts we have seen. * The final DVI file lists only the fonts it uses. */ struct fontinfo { i32 fi_newindex; /* font number in output file */ int fi_reallyused; /* true => used on a page we copied */ i32 fi_checksum; /* the checksum */ i32 fi_mag; /* the magnification */ i32 fi_designsize; /* the design size */ short fi_n1; /* the name header length */ short fi_n2; /* the name body length */ char *fi_name; /* the name itself */ }; /* * We need to remember which pages the user would like. We build a linked * list that allows us to decide (for any given page) whether it should * be included in the output file. Each page has ten \count variables * associated with it. We put a bound on the values allowed for each, and * keep a linked list of alternatives should any be outside the allowed * range. For example, `dviselect *.3,10-15' would generate a two-element * page list, with the first allowing any value for \count0 (and \counts 2 to * 9) but \count1 restricted to the range 3-3, and the second restricting * \count0 to the range 10-15 but leaving \counts 1 to 9 unrestrained. * * We remember whether a bound is specified, so that we need not fix * some `large' number as a maximum value. * * We also allow `absolute' page references, where the first page is * page 1, the second 2, and so forth. These are specified with an * equal sign: `dviselect =4:10' picks up the fourth through tenth * sequential pages, irrespective of \count values. * * There is also an even/odd switch (which can be applied to absolute * or relative pages): dviselect =even, even.3, etc. */ enum pstype { pt_lu, /* have both lower and upper bounds */ pt_l, /* lower bound only */ pt_u, /* upper bound only */ pt_unbounded, /* any value at all */ pt_even, /* even values only */ pt_odd /* odd values only */ }; struct pagesel { enum pstype ps_type; /* type of selector */ i32 ps_low; /* lower bound */ i32 ps_high; /* upper bound */ }; struct pagelist { struct pagelist *pl_alt; /* next in a series of alternates */ int pl_len; /* number of ranges to check */ int pl_abs; /* true iff absolute page ref */ struct pagesel pl_pages[10]; /* one for each \count variable */ }; int SFlag; /* true => -s, silent operation */ struct search *FontFinder; /* maps from input indicies to fontinfo */ i32 NextOutputFontIndex; /* generates output indicies */ i32 CurrentFontIndex; /* current (old) index in input */ i32 OutputFontIndex; /* current (new) index in ouput */ struct pagelist *PageList; /* the list of allowed pages */ char *DVIFileName; /* name of input DVI file */ FILE *inf; /* the input file itself */ FILE *outf; /* the output DVI file */ long StartOfLastPage; /* The file position just before we started the last page (this is later written to the output file as the previous page pointer). */ long CurrentPosition; /* The current position of the file */ int UseThisPage; /* true => current page is selected */ i32 InputPageNumber; /* current absolute page in old DVI file */ int NumberOfOutputPages; /* number of pages in new DVI file */ i32 Numerator; /* numerator from DVI file */ i32 Denominator; /* denominator from DVI file */ i32 DVIMag; /* magnification from DVI file */ i32 Count[10]; /* the 10 \count variables */ /* save some string space: we use this a lot */ char writeerr[] = "error writing DVI file"; char *malloc(), *realloc(); /* * You may get lint warnings about sprintf's return value. * Older versions of 4BSD have `char *sprintf()'. ANSI and * SysV use `int sprintf()'; so ignore the warnings. */ /* * Lint gets somewhat confused over putc. */ #ifdef lint #undef putc #ifdef ultrix /* grr */ #define putc(c, f) fputc((char)(c), f) #else #define putc(c, f) fputc((int)(c), f) #endif #endif /* * Return true iff the 10 \counts are one of the desired output pages. */ DesiredPageP() { register struct pagelist *pl; for (pl = PageList; pl != NULL; pl = pl->pl_alt) { register struct pagesel *ps = pl->pl_pages; register int i; register i32 *pagep; pagep = pl->pl_abs ? &InputPageNumber : &Count[0]; for (i = 0; i < pl->pl_len; i++, ps++, pagep++) { switch (ps->ps_type) { case pt_lu: /* check upper, fall through */ if (*pagep > ps->ps_high) goto no_good; /* FALLTHROUGH */ case pt_l: /* only if not too low */ if (*pagep < ps->ps_low) goto no_good; break; case pt_u: /* only if not too high */ if (*pagep > ps->ps_high) goto no_good; break; case pt_unbounded: break; case pt_even: /* only if even */ if (*pagep & 1) goto no_good; break; case pt_odd: /* only if odd */ if ((*pagep & 1) == 0) goto no_good; break; } } return (1); /* success */ no_good: continue; } return (0); } /* * Print a message to stderr, with an optional leading space, and handling * long line wraps. */ message(space, str, len) int space; register char *str; register int len; { static int beenhere; static int col; if (!beenhere) space = 0, beenhere++; if (len == 0) len = strlen(str); col += len; if (space) { if (col >= MAXCOL) (void) putc('\n', stderr), col = len; else (void) putc(' ', stderr), col++; } while (--len >= 0) (void) putc(*str++, stderr); (void) fflush(stderr); } /* * Start a page (process a DVI_BOP). */ BeginPage() { register i32 *i; OutputFontIndex = -1; /* new page requires respecifying font */ InputPageNumber++; /* count it */ for (i = Count; i < &Count[10]; i++) fGetLong(inf, *i); (void) GetLong(inf); /* previous page pointer */ if ((UseThisPage = DesiredPageP()) == 0) return; putbyte(outf, DVI_BOP); for (i = Count; i < &Count[10]; i++) PutLong(outf, *i); PutLong(outf, StartOfLastPage); if (ferror(outf)) error(1, -1, writeerr); StartOfLastPage = CurrentPosition; CurrentPosition += 45; /* we just wrote this much */ if (!SFlag) { /* write nice page usage messages */ register int z = 0; register int mlen = 0; char msg[80]; (void) sprintf(msg, "[%ld", (long)Count[0]); mlen = strlen(msg); for (i = &Count[1]; i < &Count[10]; i++) { if (*i == 0) { z++; continue; } while (--z >= 0) msg[mlen++] = '.', msg[mlen++] = '0'; z = 0; (void) sprintf(msg + mlen, ".%ld", (long)*i); mlen += strlen(msg + mlen); } message(1, msg, mlen); } } /* * End a page (process a DVI_EOP). */ EndPage() { if (!UseThisPage) return; if (!SFlag) message(0, "]", 1); putbyte(outf, DVI_EOP); if (ferror(outf)) error(1, -1, writeerr); CurrentPosition++; NumberOfOutputPages++; } /* * For each of the fonts used in the new DVI file, write out a definition. */ /* ARGSUSED */ void PostAmbleFontEnumerator(addr, key) char *addr; i32 key; { if (((struct fontinfo *)addr)->fi_reallyused) WriteFont((struct fontinfo *)addr); } HandlePostAmble() { register i32 c; (void) GetLong(inf); /* previous page pointer */ if (GetLong(inf) != Numerator) GripeMismatchedValue("numerator"); if (GetLong(inf) != Denominator) GripeMismatchedValue("denominator"); if (GetLong(inf) != DVIMag) GripeMismatchedValue("\\magnification"); putbyte(outf, DVI_POST); PutLong(outf, StartOfLastPage); PutLong(outf, Numerator); PutLong(outf, Denominator); PutLong(outf, DVIMag); c = GetLong(inf); PutLong(outf, c); /* tallest page height */ c = GetLong(inf); PutLong(outf, c); /* widest page width */ c = GetWord(inf); PutWord(outf, c); /* DVI stack size */ PutWord(outf, NumberOfOutputPages); StartOfLastPage = CurrentPosition; /* point at post */ CurrentPosition += 29; /* count all those `put's */ #ifdef notdef (void) GetWord(inf); /* skip original number of pages */ #endif /* * just ignore all the incoming font definitions; we are done with * input file */ /* * run through the FontFinder table and dump definitions for the * fonts we have used. */ SEnumerate(FontFinder, PostAmbleFontEnumerator); putbyte(outf, DVI_POSTPOST); PutLong(outf, StartOfLastPage); /* actually start of postamble */ putbyte(outf, DVI_VERSION); putbyte(outf, DVI_FILLER); putbyte(outf, DVI_FILLER); putbyte(outf, DVI_FILLER); putbyte(outf, DVI_FILLER); CurrentPosition += 10; while (CurrentPosition & 3) { putbyte(outf, DVI_FILLER); CurrentPosition++; } if (ferror(outf)) error(1, -1, writeerr); } /* * Write a font definition to the output file */ WriteFont(fi) register struct fontinfo *fi; { register int l; register char *s; if (fi->fi_newindex < 256) { putbyte(outf, DVI_FNTDEF1); putbyte(outf, fi->fi_newindex); CurrentPosition += 2; } else if (fi->fi_newindex < 65536) { putbyte(outf, DVI_FNTDEF2); PutWord(outf, fi->fi_newindex); CurrentPosition += 3; } else if (fi->fi_newindex < 16777216) { putbyte(outf, DVI_FNTDEF3); Put3Byte(outf, fi->fi_newindex); CurrentPosition += 4; } else { putbyte(outf, DVI_FNTDEF4); PutLong(outf, fi->fi_newindex); CurrentPosition += 5; } PutLong(outf, fi->fi_checksum); PutLong(outf, fi->fi_mag); PutLong(outf, fi->fi_designsize); putbyte(outf, fi->fi_n1); putbyte(outf, fi->fi_n2); l = fi->fi_n1 + fi->fi_n2; CurrentPosition += 14 + l; s = fi->fi_name; while (--l >= 0) putbyte(outf, *s++); } /* * Handle the preamble. Someday we should update the comment field. */ HandlePreAmble() { register int n, c; c = getc(inf); if (c == EOF) GripeUnexpectedDVIEOF(); if (c != DVI_PRE) GripeMissingOp("PRE"); if (getc(inf) != DVI_VERSION) error(1, 0, "%s is not a DVI version %d file", DVIFileName, DVI_VERSION); Numerator = GetLong(inf); Denominator = GetLong(inf); DVIMag = GetLong(inf); putbyte(outf, DVI_PRE); putbyte(outf, DVI_VERSION); PutLong(outf, Numerator); PutLong(outf, Denominator); PutLong(outf, DVIMag); n = UnSign8(GetByte(inf)); CurrentPosition = 15 + n; /* well, almost */ putbyte(outf, n); while (--n >= 0) { c = GetByte(inf); putbyte(outf, c); } } main(argc, argv) int argc; register char **argv; { register int c; register char *s; char *outname = NULL; ProgName = *argv; setbuf(stderr, serrbuf); while ((c = getopt(argc, argv, "i:o:s")) != EOF) { switch (c) { case 's': /* silent */ SFlag++; break; case 'i': if (DVIFileName != NULL) goto usage; DVIFileName = optarg; break; case 'o': if (outname != NULL) goto usage; outname = optarg; break; case '?': usage: (void) fprintf(stderr, "\ Usage: %s [-s] [-i infile] [-o outfile] pages [...] [infile [outfile]]\n", ProgName); (void) fflush(stderr); exit(1); } } while (optind < argc) { s = argv[optind++]; c = *s; if (!isalpha(c) && c != '/' || (c == 'e' || c == 'o') && evenodd(s)) { if (ParsePages(s)) goto usage; } else if (DVIFileName == NULL) DVIFileName = s; else if (outname == NULL) outname = s; else goto usage; } if (PageList == NULL) goto usage; if (DVIFileName == NULL) { DVIFileName = "`stdin'"; inf = stdin; } else if ((inf = fopen(DVIFileName, "r")) == 0) error(1, -1, "cannot read %s", DVIFileName); if (outname == NULL) outf = stdout; else if ((outf = fopen(outname, "w")) == 0) error(1, -1, "cannot write %s", outname); if ((FontFinder = SCreate(sizeof(struct fontinfo))) == 0) error(1, 0, "cannot create font finder (out of memory?)"); StartOfLastPage = -1; HandlePreAmble(); HandleDVIFile(); HandlePostAmble(); if (!SFlag) (void) fprintf(stderr, "\nWrote %d page%s, %ld bytes\n", NumberOfOutputPages, NumberOfOutputPages == 1 ? "" : "s", (long)CurrentPosition); exit(0); /* NOTREACHED */ } struct pagelist * InstallPL(ps, n, absolute) register struct pagesel *ps; register int n; int absolute; { register struct pagelist *pl; pl = (struct pagelist *)malloc(sizeof *pl); if (pl == NULL) GripeOutOfMemory(sizeof *pl, "page list"); pl->pl_alt = PageList; PageList = pl; pl->pl_len = n; while (--n >= 0) pl->pl_pages[n] = ps[n]; pl->pl_abs = absolute; } /* * Return true iff the string `s' is the word `even' or `odd', * followed by `.' or `white' characters. */ int evenodd(s) char *s; { register int c; if (strncmp(s, "even", 4) == 0) c = s[4]; else if (strncmp(s, "odd", 3) == 0) c = s[3]; else return (0); if (c == 0 || c == '.' || white(c)) return (1); return (0); } /* * Parse a string representing a list of pages. Return 0 iff ok. As a * side effect, the page selection(s) is (are) prepended to PageList. */ ParsePages(s) register char *s; { register struct pagesel *ps; register int c; /* current character */ register i32 n; /* current numeric value */ register int innumber; /* true => gathering a number */ int i; /* next index in page select list */ int range; /* true => saw a range indicator */ int negative; /* true => number being built is negative */ int absolute; /* true => absolute, not \count */ int lb, ub, even, odd; /* flags for lower,upper,even,odd */ struct pagesel pagesel[10]; range = 0; innumber = 0; absolute = 0; i = 0; ps = pagesel; lb = ub = even = odd = 0; /* * Talk about ad hoc! (Not to mention convoluted.) */ for (;;) { c = *s++; if (i == 0 && !innumber && !range) { /* nothing special going on */ if (c == 0) return 0; if (white(c)) continue; } if ((c == 'e' || c == 'o') && evenodd(s - 1)) { if (innumber || range) return (-1); if (c == 'e') { s += 3; even = 1; } else { s += 2; odd = 1; } c = *s++; goto finishnum; } if (c == '_') { /* kludge: should be '-' for negatives */ if (innumber || absolute) return (-1); innumber = 1; negative = 1; n = 0; continue; } if (c == '=') { /* absolute page */ if (innumber || range || i > 0) return (-1); absolute = 1; negative = 0; n = 0; continue; } if (isdigit(c)) { /* accumulate numeric value */ if (!innumber) { innumber = 1; negative = 0; n = c - '0'; continue; } n *= 10; n += negative ? '0' - c : c - '0'; continue; } if (c == '-' || c == ':') { /* here is a range */ if (range) return (-1); if (innumber) { /* have a lower bound */ ps->ps_low = n; lb = 1; } range = 1; innumber = 0; continue; } if (c == '*') { /* no lower bound, no upper bound */ c = *s++; if (innumber || range || (c && c != '.' && !white(c))) return (-1); goto finishnum; } if (c == 0 || c == '.' || white(c)) { /* end of this range */ if (innumber) { /* have an upper bound */ ps->ps_high = n; ub = 1; if (!range) { /* no range => lower bound == upper */ ps->ps_low = ps->ps_high; lb = 1; } } finishnum: if (even) ps->ps_type = pt_even; else if (odd) ps->ps_type = pt_odd; else if (lb) ps->ps_type = ub ? pt_lu : pt_l; else ps->ps_type = ub ? pt_u : pt_unbounded; if (c == '.') { if (absolute) return (-1); if (++i >= 10) /* too many specifiers */ return (-1); ps++; } else { InstallPL(pagesel, i + 1, absolute); ps = pagesel; i = 0; absolute = 0; } if (c == 0) return (0); range = 0; innumber = 0; lb = ub = even = odd = 0; continue; } /* illegal character */ return (-1); } } /* * Handle a font definition. */ HandleFontDef(index) i32 index; { register struct fontinfo *fi; register int i; register char *s; int def = S_CREATE | S_EXCL; if ((fi = (struct fontinfo *)SSearch(FontFinder, index, &def)) == 0) if (def & S_COLL) error(1, 0, "font %ld already defined", (long)index); else error(1, 0, "cannot stash font %ld (out of memory?)", (long)index); fi->fi_reallyused = 0; fi->fi_checksum = GetLong(inf); fi->fi_mag = GetLong(inf); fi->fi_designsize = GetLong(inf); fi->fi_n1 = UnSign8(GetByte(inf)); fi->fi_n2 = UnSign8(GetByte(inf)); i = fi->fi_n1 + fi->fi_n2; if ((s = malloc((unsigned)i)) == 0) GripeOutOfMemory(i, "font name"); fi->fi_name = s; while (--i >= 0) *s++ = GetByte(inf); } /* * Handle a \special. */ HandleSpecial(c, l, p) int c; register int l; register i32 p; { register int i; if (UseThisPage) { putbyte(outf, c); switch (l) { case DPL_UNS1: putbyte(outf, p); CurrentPosition += 2; break; case DPL_UNS2: PutWord(outf, p); CurrentPosition += 3; break; case DPL_UNS3: Put3Byte(outf, p); CurrentPosition += 4; break; case DPL_SGN4: PutLong(outf, p); CurrentPosition += 5; break; default: panic("HandleSpecial l=%d", l); /* NOTREACHED */ } CurrentPosition += p; while (--p >= 0) { i = getc(inf); putbyte(outf, i); } if (feof(inf)) GripeUnexpectedDVIEOF(); if (ferror(outf)) error(1, -1, writeerr); } else while (--p >= 0) (void) getc(inf); } ReallyUseFont() { register struct fontinfo *fi; int look = S_LOOKUP; fi = (struct fontinfo *)SSearch(FontFinder, CurrentFontIndex, &look); if (fi == NULL) error(1, 0, "DVI file requested font %ld without defining it", (long)CurrentFontIndex); if (fi->fi_reallyused == 0) { fi->fi_reallyused++; fi->fi_newindex = NextOutputFontIndex++; WriteFont(fi); } if (fi->fi_newindex != OutputFontIndex) { PutFontSelector(fi->fi_newindex); OutputFontIndex = fi->fi_newindex; } } /* * Write a font selection command to the output file */ PutFontSelector(index) i32 index; { if (index < 64) { putbyte(outf, index + DVI_FNTNUM0); CurrentPosition++; } else if (index < 256) { putbyte(outf, DVI_FNT1); putbyte(outf, index); CurrentPosition += 2; } else if (index < 65536) { putbyte(outf, DVI_FNT2); PutWord(outf, index); CurrentPosition += 3; } else if (index < 16777216) { putbyte(outf, DVI_FNT3); Put3Byte(outf, index); CurrentPosition += 4; } else { putbyte(outf, DVI_FNT4); PutLong(outf, index); CurrentPosition += 5; } } /* * The following table describes the length (in bytes) of each of the DVI * commands that we can simply copy, starting with DVI_SET1 (128). */ char oplen[128] = { 0, 0, 0, 0, /* DVI_SET1 .. DVI_SET4 */ 9, /* DVI_SETRULE */ 0, 0, 0, 0, /* DVI_PUT1 .. DVI_PUT4 */ 9, /* DVI_PUTRULE */ 1, /* DVI_NOP */ 0, /* DVI_BOP */ 0, /* DVI_EOP */ 1, /* DVI_PUSH */ 1, /* DVI_POP */ 2, 3, 4, 5, /* DVI_RIGHT1 .. DVI_RIGHT4 */ 1, /* DVI_W0 */ 2, 3, 4, 5, /* DVI_W1 .. DVI_W4 */ 1, /* DVI_X0 */ 2, 3, 4, 5, /* DVI_X1 .. DVI_X4 */ 2, 3, 4, 5, /* DVI_DOWN1 .. DVI_DOWN4 */ 1, /* DVI_Y0 */ 2, 3, 4, 5, /* DVI_Y1 .. DVI_Y4 */ 1, /* DVI_Z0 */ 2, 3, 4, 5, /* DVI_Z1 .. DVI_Z4 */ 0, /* DVI_FNTNUM0 (171) */ 0, 0, 0, 0, 0, 0, 0, 0, /* 172 .. 179 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 180 .. 187 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 188 .. 195 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 196 .. 203 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 204 .. 211 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 212 .. 219 */ 0, 0, 0, 0, 0, 0, 0, 0, /* 220 .. 227 */ 0, 0, 0, 0, 0, 0, 0, /* 228 .. 234 */ 0, 0, 0, 0, /* DVI_FNT1 .. DVI_FNT4 */ 0, 0, 0, 0, /* DVI_XXX1 .. DVI_XXX4 */ 0, 0, 0, 0, /* DVI_FNTDEF1 .. DVI_FNTDEF4 */ 0, /* DVI_PRE */ 0, /* DVI_POST */ 0, /* DVI_POSTPOST */ 0, 0, 0, 0, 0, 0, /* 250 .. 255 */ }; /* * Here we read the input DVI file and write relevant pages to the * output DVI file. We also keep track of font changes, handle font * definitions, and perform some other housekeeping. */ HandleDVIFile() { register int c, l; register i32 p; register int CurrentFontOK = 0; int doingpage = 0; /* Only way out is via "return" statement */ for (;;) { c = getc(inf); /* getc() returns unsigned values */ if (DVI_IsChar(c)) { /* * Copy chars, note font usage, but ignore if * page is not interesting. */ if (!UseThisPage) continue; if (!CurrentFontOK) { ReallyUseFont(); CurrentFontOK++; } putbyte(outf, c); CurrentPosition++; continue; } if (DVI_IsFont(c)) { /* note font change */ CurrentFontIndex = c - DVI_FNTNUM0; CurrentFontOK = 0; continue; } if (c == EOF) GripeUnexpectedDVIEOF(); if ((l = (oplen - 128)[c]) != 0) { /* simple copy */ if (!UseThisPage) { while (--l > 0) (void) getc(inf); continue; } CurrentPosition += l; putbyte(outf, c); while (--l > 0) { c = getc(inf); putbyte(outf, c); } if (ferror(outf)) error(1, -1, writeerr); continue; } if ((l = DVI_OpLen(c)) != 0) { /* * Handle other generics. * N.B.: there should only be unsigned parameters * here (save SGN4), for commands with negative * parameters have been taken care of above. */ switch (l) { case DPL_UNS1: p = getc(inf); break; case DPL_UNS2: fGetWord(inf, p); break; case DPL_UNS3: fGet3Byte(inf, p); break; case DPL_SGN4: fGetLong(inf, p); break; default: panic("HandleDVIFile l=%d", l); } /* * Now that we have the parameter, perform the * command. */ switch (DVI_DT(c)) { case DT_SET: case DT_PUT: if (!UseThisPage) continue; if (!CurrentFontOK) { ReallyUseFont(); CurrentFontOK++; } putbyte(outf, c); switch (l) { case DPL_UNS1: putbyte(outf, p); CurrentPosition += 2; continue; case DPL_UNS2: PutWord(outf, p); CurrentPosition += 3; continue; case DPL_UNS3: Put3Byte(outf, p); CurrentPosition += 4; continue; case DPL_SGN4: PutLong(outf, p); CurrentPosition += 5; continue; } case DT_FNT: CurrentFontIndex = p; CurrentFontOK = 0; continue; case DT_XXX: HandleSpecial(c, l, p); continue; case DT_FNTDEF: HandleFontDef(p); continue; default: panic("HandleDVIFile DVI_DT(%d)=%d", c, DVI_DT(c)); } continue; } switch (c) { /* handle the few remaining cases */ case DVI_BOP: if (doingpage) GripeUnexpectedOp("BOP (during page)"); BeginPage(); doingpage = 1; CurrentFontOK = 0; break; case DVI_EOP: if (!doingpage) GripeUnexpectedOp("EOP (outside page)"); EndPage(); doingpage = 0; break; case DVI_PRE: GripeUnexpectedOp("PRE"); /* NOTREACHED */ case DVI_POST: if (doingpage) GripeUnexpectedOp("POST (inside page)"); return; case DVI_POSTPOST: GripeUnexpectedOp("POSTPOST"); /* NOTREACHED */ default: GripeUndefinedOp(c); /* NOTREACHED */ } } }