/* * This program converts dvi files to dvi files; * the command line options are: * * page n is first page selected -f n * page n is last page selected -l n * print at most n pages -n n * include pages (ranges allowed) -i { n1..n2 | n1 }[,...] * exclude pages (ranges allowed) -x { n1..n2 | n1 }[,...] * work in quiet mode -q * reverse pages -r * select even -m 2:1 * select odd -m 2:0 * print both on same page -m 2:0,1(5.5in,0in) * do folded brochures -m 4:-3,0(5.5in,0in) * -m 4:1,-2(5.5in,0in) * round up number of pages to a * multiple of n -p n * sort pages to print one from top -j * next one from end * etc. * * The original program is by Tomas Rokicki (version 0.5) but it was * modified and improved by Esteban ZIMANYI ezimanyi@rc1.vub.ac.be * to give version 1.0. * To give version 1.1 it was improved by Markus_Kohm@ka.maus.de. * * This version has been tested for the IBM PC and compatibles under * compilers Turbo C 2.0 and Microsoft C 6.0 and for Atari ST under * compiler Turbo C 2.0 with MiNTLIB. * */ #define SEEK_SET 0 #define SEEK_CUR 1 #define SEEK_END 2 #define BANNER "\nThis is dvidvi 1.1, Copyright (C) 1988-91, Radical Eye Software\n" \ "Improved from 1.0 to 1.1, 1994, Markus Kohm\n" #define STRINGSIZE (500L) /* maximum number of strings in program */ #ifdef HAVE_CONFIG_H #include #endif #ifndef VMS #include #ifdef WIN32 #include #endif #include #include #else /* VMS */ #include "sys$library:stdio.h" /* AKT: added sys$library: */ #include #endif /* VMS */ #define MAXPPERP (32) void error(const char *); /* defines READBIN, WRITEBIN, PATHSEP and IS_DIR_SEP*/ #ifdef HAVE_UNISTD_H #include #endif #ifdef KPATHSEA #include #define READBIN FOPEN_RBIN_MODE #ifdef VMS #define WRITEBIN "wb" /* VMS doesn't have FOPEN_WBIN_MODE defined */ #else #define WRITEBIN FOPEN_WBIN_MODE #endif #include #define PATHSEP ENV_SEP #ifdef WIN32 #include #include #undef fopen #undef fprintf #define fopen fsyscp_fopen #define fprintf win32_fprintf #endif #else /* not KPATHSEA */ #if defined(__TOS__) #define READBIN "rb" /* TOS must use binary mode */ #define WRITEBIN "wb" #define PATHSEP ';' #define IS_DIR_SEP(c) ((c) == '\\') #elif defined (MSDOS) || defined(WIN32) #define READBIN "rb" /* MSDOS must use binary mode */ #define WRITEBIN "wb" #define PATHSEP ';' #define IS_DIR_SEP(c) ((c) == '\\' || (c) == '/') #elif defined(VMS) #define READBIN "rb" /* VMS must use binary mode */ #define WRITEBIN "wb" #define PATHSEP ',' #define IS_DIR_SEP ((c) == ':') #else #define READBIN "r" /* UNIX doesn't care */ #define WRITEBIN "w" #define PATHSEP ':' #define IS_DIR_SEP ((c) == '/') #endif #endif /* not KPATHSEA */ /* * Type declarations. integer must be a 32-bit signed; shalfword must * be a sixteen-bit signed; halfword must be a sixteen-bit unsigned; * quarterword must be an eight-bit unsigned. */ typedef long integer; typedef short shalfword ; typedef unsigned short halfword ; typedef unsigned char quarterword ; typedef short Boolean ; /* * Some globals to keep everyone happy. */ integer numpages ; /* the total number of pages in the dvi file. */ integer TeXfonts[256] ; /* information about each font */ char fontseen[256] ; /* have we defined this font yet? */ int modulo ; /* our mod value */ integer pagemodulo ; /* additional mod value for number of pages */ struct pagespec { int pageno, reversed ; long hoffset, voffset ; /* in scaled points */ } pages[MAXPPERP] ; /* the organization of the pages on output */ int pagesperpage ; /* how many pages crammed onto each page? */ FILE *infile ; /* input dvi file (cannot be a stream) */ FILE *outfile ; /* output dvi file */ char *temp ; /* a temporary place to put things */ char *nextstring, *maxstring ; const char *oname=NULL ; /* output dvi file name */ char *iname ; /* input dvi file name */ char *strings ; /* pointer of the string pool */ const char banner[] = BANNER ; /* the startup message */ integer inlength ; /* the length of the input dvi file */ integer postloc ; /* location of the postamble */ integer mag ; /* magnification factor */ integer pagecount ; /* number of actual pages */ integer landscape = 0; /* if landscape special, here it is! */ int rem0special ; /* should we remove the first first-page special? */ integer prevpp = -1 ; /* previous page pointer on output */ integer outputpages ; /* number of pages output */ integer dviloc ; /* our position in the output file */ integer pagefake ; /* number of pages, rounded up to multiple of pagemodulo */ Boolean firsttransf = 0, lasttransf = 0; Boolean jumpingpages = 0; integer firstpage ; /* first page selected (option -p) */ integer lastpage ; /* last page selected (option -l) */ integer maxpages ; /* maximum number of page selected (option -n) */ short quiet ; /* quiet mode (option -q) */ Boolean exctransf[40][2] ; /* if the ranges of pages to exclude (option -x) have to be transformed */ integer exclude[40][2] ; /* the ranges of pages to exclude (option -x) It is supposed that there are at most 40 ranges to exclude in the command line */ short excludeseq ; /* number of ranges to exclude (option -x) */ Boolean inctransf[40][2] ; /* if the ranges of pages to exclude (option -x) have to be transformed */ integer include[40][2] ; /* the ranges of pages to include (option -i) It is supposed that there are at most 40 ranges to include in the command line */ short includeseq ; /* number of ranges to include (option -i) */ integer *pageloc ; integer *pagenumbers ; int prettycolumn ; /* the column we are at when running pretty */ #ifdef ASCIIPTEX int ptexdvi ; /* true if dvi file is extended (TATEKUMI) */ #endif #ifdef WIN32 void win32_fprintf(FILE *fp, const char *fmt, ...) { va_list argp; va_start(argp, fmt); win32_vfprintf(fp, fmt, argp); va_end(argp); } #endif /* * This array holds values that indicate the length of a command, if * we aren't concerned with that command (which is most of them) or * zero, if it is a special case. This makes running through the * dvi file a lot easier (and probably faster) than any form of * dispatch table, especially since we really don't care what the * pages are made of. */ short comlen[256] = { 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 0-15 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 16-31 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 32-47 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 48-63 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 64-79 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 80-95 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 96-111 */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 112-127 */ 2, 3, 4, 5, 9, 2, 3, 4, 5, 9, 1, 0, 0, 1, 1, 2, /* 128-143 */ 3, 4, 5, 1, 2, 3, 4, 5, 1, 2, 3, 4, 5, 2, 3, 4, /* 144-159 */ 5, 1, 2, 3, 4, 5, 1, 2, 3, 4, 5, 0, 0, 0, 0, 0, /* 160-175 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 176-191 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 192-207 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 208-223 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 4, 5, 0, /* 224-239 */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };/* 240-255 */ /* * Input bytes from the dvi file. * These routines could probably be sped up significantly; but they are * very machine dependent, so I will leave such tuning to the installer. * They simply get and return bytes in batches of one, two, three, and four, * updating the current position as necessary. */ static void abortpage(void) { error("! unexpected eof on DVI file") ; } static shalfword dvibyte(void) { register shalfword i ; if ((i=getc(infile))==EOF) abortpage() ; return(i) ; } static halfword twobytes(void) { register halfword i ; i = dvibyte() ; return(i*256+dvibyte()) ; } #if 0 /* not used */ static integer threebytes(void) { register integer i ; i = twobytes() ; return(i*256+dvibyte()) ; } #endif static shalfword signedbyte(void) { register shalfword i ; if ((i=getc(infile))==EOF) abortpage() ; if (i<128) return(i) ; else return(i-256) ; } static shalfword signedpair(void) { register shalfword i ; i = signedbyte() ; return(i*256+dvibyte()) ; } #if 0 /* not used */ static integer signedtrio(void) { register integer i ; i = signedpair() ; return(i*256+dvibyte()) ; } #endif static integer signedquad(void) { register integer i ; i = signedpair() ; return(i*65536+twobytes()) ; } /* * Routines for the transformation of the pages specified with * the @ parameter into the actual number of page from the file * * trans(p,q) looks for the q'th occurrence of the page numbered p * transformpages makes the transformation for the options -f -i -l -x */ static integer transf(integer p, halfword q) { int i=0, j=0; while( j != q && i < pagecount ) if ( pagenumbers[i++] == p ) j++; if ( j != q ) error ("! Page specified not found"); return (i++); } static void transformpages(void) { int i; if (firsttransf) firstpage=transf(firstpage,firsttransf); if (lasttransf) lastpage=transf(lastpage,lasttransf); for ( i= 0; i< 40; i++) { if (exctransf[i][0]) exclude[i][0]=transf(exclude[i][0],exctransf[i][0]); if (exctransf[i][1]) exclude[i][1]=transf(exclude[i][1],exctransf[i][1]); if (inctransf[i][0]) include[i][0]=transf(include[i][0],inctransf[i][0]); if (inctransf[i][1]) include[i][1]=transf(include[i][1],inctransf[i][1]); } } /* * */ static integer fontdeflen(integer p) { fseek(infile,p+14,SEEK_SET); return (16L+dvibyte()+dvibyte()); } /* * Simulation of dvibuf, get the character located at the position * p in the input dvi file */ static unsigned char dvibuf(integer p) { fseek(infile,p,SEEK_SET); return(dvibyte()); } /* * Read a string of length n from the file into the string temp */ static void stringdvibuf(integer p, integer n) { fseek(infile,p,SEEK_SET); while ( n-- > 0 ) *temp++ = dvibyte(); } /* * Print a usage error messsage, and quit. */ static void usage(void) { (void)fprintf(stderr,banner); (void)fprintf(stderr,"Usage: dvidvi [options] input[.dvi] [output]\n"); (void)fprintf(stderr,"where options are:\n"); (void)fprintf(stderr," [-f n] first page printed [-l n] last page printed\n"); (void)fprintf(stderr," [-n n] print at most n pages \n"); (void)fprintf(stderr," [-i {n1..n2 | n3}[,...]] include pages\n"); (void)fprintf(stderr," [-x {n1..n2 | n3}[,...]] exclude pages\n"); (void)fprintf(stderr," [-q] quiet mode [-r] reverse pages\n"); (void)fprintf(stderr," [-m modulo:pagespecs] [-j] jumping pages\n"); (void)fprintf(stderr," [-p pagemodulo]\n"); #ifndef VMS exit(1) ; #else /* VMS */ exit(0x10000002) ; /* AKT: was exit(1) */ #endif /* VMS */ } /* * Print an error message, and exit if it is fatal. */ void error(const char *s) { (void)fprintf(stderr, "%s\n", s) ; /* AKT: was dvidvi: %s */ if (*s == '!') #ifndef VMS exit(1) ; #else /* VMS */ exit(0x10000002) ; /* AKT: was exit(1) */ #endif /* VMS */ } /* * This function calculates approximately (whole + num/den) * sf. * No need for real extreme accuracy; one ten thousandth of an * inch should be sufficient. * * No `sf' parameter means to use an old one; inches are assumed * originally. * * Assumptions: * * 0 <= num < den <= 10000 * 0 <= whole */ integer defaultscale = 4736286 ; static integer scale(integer whole, integer num, integer den, integer sf) { integer v ; if (sf) defaultscale = sf ; else sf = defaultscale ; v = whole * sf + num * (sf / den) ; if (v / sf != whole || v < 0 || v > 0x40000000L) error("! arithmetic overflow in parameter") ; sf = sf % den ; v += (sf * num * 2 + den) / (2 * den) ; return(v) ; } /* * Multiplies *p by 1000 and divides it by mag. Avoiding overflow. * * 1 <= mag <= 1000000 ; * 0 <= *p <= 2^30 * * (Could blow up if a parameter * mag / 1000 > 2^30 sp.) */ static void scalemag(long *p) { int negative ; negative = 0 ; if (*p < 0) { negative = 1 ; *p = - *p ; } *p = 1000 * (*p / mag) + (2000 * (*p % mag) + mag) / (2 * mag) ; if (negative) *p = - *p ; } /* * Convert a sequence of digits into an integer; return -1 if no digits. * Advance the passed pointer as well. */ static integer myatol(char **s) { register char *p ; register integer result ; result = 0 ; p = *s ; while ('0' <= *p && *p <= '9') { if (result > 100000000) error("! arithmetic overflow in parameter") ; result = 10 * result + *p++ - '0' ; } if (p == *s) usage() ; *s = p ; return(result) ; } /* * Get a dimension, allowing all the various extensions, and * defaults. */ static integer myatodim(char **s) { register integer w, num, den ; register char *p ; int negative = 0 ; p = *s ; if (**s == '-') { (*s)++ ; negative = 1 ; } w = myatol(s) ; if (w < 0) usage() ; p = *s ; num = 0 ; den = 1 ; if (*p == '.') { p++ ; while ('0' <= *p && *p <= '9') { if (den < 1000) { den *= 10 ; num = num * 10 + *p - '0' ; } p++ ; } } /* * Allowed units are `in', `cm', `mm', `pt', `sp', `cc', `dd', and `pc'; * must be in lower case. */ if (*p == 'c' && p[1] == 'm') { /* centimeters need to be multiplied by 72.27 * 2^16 / 2.54, or 1 864 680 */ w = scale(w, num, den, 1864680L) ; } else if (*p == 'p' && p[1] == 't') { /* real points need to be multiplied by 2^16 */ w = scale(w, num, den, 65536L) ; } else if (*p == 'p' && p[1] == 'c') { /* picas need to be multiplied by 65536 * 12, or 786 432 */ w = scale(w, num, den, 786432L) ; } else if (*p == 'm' && p[1] == 'm') { /* millimeters need to be multiplied by 72.27 * 2^16 / 25.4, or 186 468 */ w = scale(w, num, den, 186468L) ; } else if (*p == 's' && p[1] == 'p') { /* scaled points are already taken care of; simply round */ w = scale(w, num, den, 1L) ; } else if (*p == 'b' && p[1] == 'p') { /* big points need to be multiplied by 72.27 * 65536 / 72, or 65782 */ w = scale(w, num, den, 65782L) ; } else if (*p == 'd' && p[1] == 'd') { /* didot points need to be multiplied by 65536 * 1238 / 1157, or 70124 */ w = scale(w, num, den, 70124L) ; } else if (*p == 'c' && p[1] == 'c') { /* cicero need to be multiplied by 65536 * 1238 / 1157 * 12, or 841 489 */ w = scale(w, num, den, 841489L) ; } else if (*p == 'i' && p[1] == 'n') { /* inches need to be multiplied by 72.27 * 65536, or 4 736 286 */ w = scale(w, num, den, 4736286L) ; } else { /* use default values */ w = scale(w, num, den, 0L) ; p -= 2 ; } p += 2 ; *s = p ; return(negative?-w:w) ; } /* * This function determine if the page has to be printed * depending on the values of options -f, -l, -i and -x */ static short selectedpage (integer n) { short i; if ( firstpage > n || n > lastpage ) return(0); for ( i=0 ; i < excludeseq ; i++ ) if ( exclude[i][0] <= n && n <= exclude[i][1] ) return(0); if (includeseq == 0) return (1); for ( i=0 ; i < includeseq ; i++ ) if ( include[i][0] <= n && n <= include[i][1] ) return(1); return(0); } /* * Initialize sets up all the globals and data structures. */ static void initialize(void) { int i; /* initialize values in case of option -m is not specified */ modulo = 1 ; pagemodulo = 0; pages[0].hoffset = 0 ; pages[0].voffset = 0 ; pages[0].pageno = 0 ; pages[0].reversed = 0 ; pagesperpage = 1 ; for ( i= 0; i< 40; i++) { exctransf[i][0] = exctransf[i][1] = 0; inctransf[i][0] = inctransf[i][1] = 0; } firsttransf = lasttransf = 0; excludeseq = 0; includeseq = 0; firstpage = 1; lastpage = 1000000; maxpages = 1000000; quiet = 0; strings =(char *) malloc(STRINGSIZE) ; if (strings == 0) error("! no memory for strings") ; maxpages = 100000 ; nextstring = strings ; iname = strings ; *nextstring++ = 0 ; maxstring = strings + STRINGSIZE - 200; } /* * Parse the arguments to the routine, and stuff everything away * into those globals above. */ static void processargs(int argc, char *argv[]) { char *q ; int i, pageno, lastext = -1 ; long hoffset, voffset ; int reversed ; initialize (); if (argc < 2 || argc > 8) usage() ; /* * This next whole big section of code is straightforward; we just scan * the options. An argument can either immediately follow its option letter * or be separated by spaces. Any argument not preceded by '-' and an * option letter is considered a file name. */ for (i=1; i MAXPPERP) error("! modulo must lie between 1 and 32") ; p++ ; } /* * This loop grabs all of the page specifications. */ pagesperpage = 0 ; while (*p != 0) { if (pagesperpage >= MAXPPERP) error("! too many page specifications") ; if (*p == '-') { reversed = 1 ; p++ ; } else reversed = 0 ; if (*p == 0 || *p == '(' || *p == ',') pageno = 0 ; else pageno = myatol(&p) ; if (*p == '(') { p++ ; hoffset = myatodim(&p) ; if (*p++ != ',') usage() ; voffset = myatodim(&p) ; if (*p++ != ')') usage() ; } else { hoffset = 0 ; voffset = 0 ; } pages[pagesperpage].hoffset = hoffset ; pages[pagesperpage].voffset = voffset ; pages[pagesperpage].pageno = pageno ; pages[pagesperpage].reversed = reversed ; pagesperpage++ ; if (*p == ',') p++ ; } /* while */ break ; case 'n' : if (*p == 0 && argv[i+1]) p = argv[++i] ; if (sscanf(p, "%ld", &maxpages)==0) error("! Bad number of pages option (-n).") ; break ; case 'q' : case 'Q' : quiet = 0 ; break ; case 'r' : case 'R' : pages[0].reversed = 1; break ; case 'j' : case 'J' : jumpingpages = 1; break; case 'x' : if (*p == 0 && argv[i+1]) p = argv[++i] ; while (*p != 0) { if (*p == '(' && *(p+1) == '@' ) { p+=2; exctransf[excludeseq][0] = myatol(&p); p++; } else if (*p == '@') { p++; exctransf[excludeseq][0] = 1 ; } exclude[excludeseq][0]=myatol(&p); if (*p == '.' && *(p+1) == '.' ) { p += 2; if (*p == '(' && *(p+1) == '@' ) { p+=2; exctransf[excludeseq][1] = myatol(&p); p++; } else if (*p == '@') { p++; exctransf[excludeseq][1] = 1 ; } exclude[excludeseq][1] = myatol(&p); } else { exclude[excludeseq][1] = exclude[excludeseq][0]; exctransf[excludeseq][0] = exctransf[excludeseq][1] ; } excludeseq++ ; if (*p != ',' && *p !=0 ) error("! Bad page range option (-x).") ; if (*p == ',' ) p++ ; } /* while */ break ; case '?' : usage() ; break ; default: error("! Bad option, not one of fijlmnpqrx?") ; } /* switch c */ } else { /* this a file name */ if (*iname == 0) { /* input file name */ register char *p ; lastext = 0 ; iname = nextstring ; p = argv[i] ; while (*p) { *nextstring = *p++ ; if (*nextstring == '.') lastext = nextstring - iname ; else if (IS_DIR_SEP(*nextstring) || *nextstring == ':') lastext = 0 ; nextstring++ ; } if (lastext == 0) { lastext = nextstring - iname ; *nextstring++ = '.' ; *nextstring++ = 'd' ; *nextstring++ = 'v' ; *nextstring++ = 'i' ; } *nextstring++ = 0 ; if ((infile=fopen(iname, READBIN))==NULL) error("! can't open input file") ; } else { /* output file name */ register char *p ; lastext = 0 ; oname = nextstring ; p = argv[i] ; while (*p) { *nextstring = *p++ ; if (*nextstring == '.') lastext = nextstring - oname ; else if (IS_DIR_SEP(*nextstring) || *nextstring == ':') lastext = 0 ; nextstring++ ; } if (lastext == 0) { lastext = nextstring - oname ; *nextstring++ = '.' ; *nextstring++ = 'd' ; *nextstring++ = 'v' ; *nextstring++ = 'i' ; } *nextstring++ = 0 ; if (freopen(oname, WRITEBIN, stdout)==NULL) error("! can't open output file") ; } /* end output file name */ } /* else argument with '-' */ } /* for */ if (*iname == 0) { (void)fprintf(stderr, banner) ; error("! no input file specified"); } /* Inserted by djc@dsmail.hmi.de 3.8.1994 */ if(!oname) { oname="stdout"; if (!isatty(fileno(stdout))) SET_BINARY(fileno(stdout)); } if (*oname != 0 && !quiet) { (void)fprintf(stderr, banner) ; (void)fprintf(stderr, "%s -> %s\n",iname,oname); temp = nextstring ; } } /* * Grabs a pointer, and checks it for validity. */ static integer ptr(integer where) { fseek(infile,where,SEEK_SET); where = signedquad() ; if (where < -1L || where > inlength) error("! dvi file malformed; impossible pointer") ; return(where) ; } /* * This routine store the page locations by tracing the pointers backwards. */ static void searchpageloc(void) { integer p,num ; num=pagecount-1; for (p = ptr(postloc+1); num > 0; num--) { if (dvibuf(p) != 139) error("! missed a bop somehow") ; else { pageloc[num]=p; pagenumbers[num]=signedquad(); } p = ptr(p+41) ; } pageloc[num]=p; (void)dvibuf(p); pagenumbers[num]=signedquad(); } /* * This routine simply reads the entire dvi file, and then initializes * some values about it. */ static void readdvifile(void) { integer p ; unsigned char c,d,e ; fseek(infile, 0L, 2) ; inlength = ftell(infile) ; if (inlength < 10) error("! dvi file too short") ; fseek(infile,-3L,SEEK_CUR); for (p=inlength - 3; p > 0; p--) { c = dvibyte (); d = dvibyte (); e = dvibyte (); if (c == 2 && d == 0xdf /* dave fuchs */ && e == 0xdf) break ; #ifdef ASCIIPTEX if (c == 3 && d == 0xdf /* dave fuchs */ && e == 0xdf) break ; #endif fseek(infile,-4L,SEEK_CUR); } if (p < 10) error("! rather short dvi file, ain't it?") ; postloc = ptr(p-4) ; fseek(infile,postloc+5L,SEEK_SET); if (signedquad() != 25400000 || signedquad() != 473628672) error("! change this program to support non-TeX num/den values") ; mag = signedquad() ; if (mag < 1 || mag > 1000000) error("! impossible magnification value") ; fseek(infile,postloc+27L,SEEK_SET); pagecount = twobytes() ; if (pagecount < 1 || pagecount > 1000000) error("! impossible page count value") ; /* * That's enough error checking; we probably have a correct dvi file. * Let's convert all the values we got from the command line into * units that we can actually use in the dvi file. */ for (p=0; p> 8)) ; outdvibyte((unsigned char)(v & 255)) ; } /* * Send out a longword. */ static void outdviquad(integer v) { outdvi2(v >> 16) ; outdvi2(v & 65535) ; } /* * This routine just copies some stuff from the buffer on out. * Suppose the file is positioned correctly before */ static void putbuf(integer length) { while ( length-- > 0 ) outdvibyte((unsigned char)dvibyte()) ; } /* * This routine outputs a string, terminated by null. */ static void putstr(unsigned const char *s) { while (*s) outdvibyte(*s++) ; } /* * Here we write the preamble to the dvi file. */ static void writepreamble(void) { /* just copy the first 14 bytes of the file */ fseek(infile,0L,SEEK_SET); putbuf(14L) ; /* and put our identifier. */ putstr((unsigned const char *)"\015dvidvi output") ; } /* * This routine writes out a font definition. */ static void putfontdef(int f) { integer p,q ; p = TeXfonts[f] ; q=fontdeflen(p) ; fseek(infile,p,SEEK_SET); putbuf(q) ; } /* * The postamble is next. */ static void writepostamble(void) { int i ; integer p ; p = dviloc ; outdvibyte(248) ; outdviquad(prevpp) ; fseek(infile,postloc+5,SEEK_SET); putbuf(20L) ; outdvi2(twobytes()+1L) ; /* increase stack depth by 1 */ outdvi2(outputpages) ; for (i=0; i<256; i++) if (fontseen[i]) putfontdef(i) ; outdvibyte(249) ; outdviquad(p) ; #ifdef ASCIIPTEX if (ptexdvi) outdvibyte(3) ; else #endif outdvibyte(2) ; outdviquad(0xdfdfdfdfL) ; while (dviloc & 3) outdvibyte(0xdf) ; fclose(stdout) ; } /* * This routine starts a page, by writing out a bop command. */ static void beginpage(void) { int i ; integer p ; p = dviloc ; outdvibyte(139) ; outdviquad(outputpages+1) ; for (i=0; i<9; i++) outdviquad(0L) ; outdviquad(prevpp) ; prevpp = p ; } /* * This routine sends out a page. We need to handle the * landscape special, though. */ static void dopage(integer num) { register integer p ; register int len ; integer v, oldp ; unsigned char c; /* * We want to take the base 10 log of the number. It's probably * small, so we do it quick. */ if (! quiet) { int t = num+1, i = 0 ; if (t < 0) { t = -t ; i++ ; } do { i++ ; t /= 10 ; } while (t > 0) ; if (i + prettycolumn > 76) { fprintf(stderr, "\n") ; prettycolumn = 0 ; } prettycolumn += i + 1 ; (void)fprintf(stderr, "[%ld", num+1) ; (void)fflush(stderr) ; } p = pageloc[num] + 45 ; c=dvibuf(p); while (c != 140) { if ((len=comlen[c]) > 0) { /* most commands are simple */ outdvibyte(c); putbuf((long)len-1) ; p += len ; } else { /* but there are a few we need to treat specially */ len = c ; if (171 <= len && len <= 235) { p++ ; if (len == 235) { len = dvibyte (); p++ ;} else len -= 171 ; if (!fontseen[len]) { putfontdef(len) ; fontseen[len] = 1 ; fseek(infile,p,SEEK_SET); } if (len < 64) outdvibyte((unsigned char)(171 + len)) ; else { outdvibyte(235) ; outdvibyte((unsigned char)len) ; } } else { v = 0 ; oldp = p++ ; switch(len) { case 242: v = dvibyte() ; p++ ; break ; case 241: v = (v << 8) + dvibyte() ; p++ ; break ; case 240: v = (v << 8) + dvibyte() ; p++ ; break ; case 239: v = (v << 8) + dvibyte() ; p++ ; /* * Remove a landscape special on page 0, if one is found. */ stringdvibuf(oldp + len - 327,9); if (num || ! rem0special || strncmp(temp, "landscape", 9)) { fseek (infile,oldp,SEEK_SET); putbuf(v + len - 237) ; } p = oldp + v + len - 237 ; fseek(infile,p,SEEK_SET); break ; case 243: case 244: case 245: case 246: p += len - 230 ; p += dvibuf(p) ; p += dvibyte() + 2 ; fseek(infile,p,SEEK_SET); break ; #ifdef ASCIIPTEX case 255: ptexdvi = 1 ; outdvibyte(len); break ; #endif default: fprintf(stderr, "Bad dvi command was %d at %ld\n", len, p) ; error("! lost sync dvi in file lost dvi sync file in") ; } } } c=dvibyte(); } if (! quiet) { (void)fprintf(stderr, "] ") ; (void)fflush(stderr) ; prettycolumn += 2 ; } } /* * Here we end a page. Simple enough. */ static void endpage(void) { outputpages++ ; outdvibyte(140) ; } /* * This is our main routine for output, which runs through all the * pages we need to output. */ static void writedvifile(void) { integer pagenum ; int ppp ; integer actualpageno, lastpageno ; struct pagespec *ps ; Boolean beginp ; #ifdef ASCIIPTEX ptexdvi = 0 ; #endif writepreamble() ; if ( !pagemodulo ) pagefake = (pagecount + modulo - 1) / modulo * modulo ; else pagefake = (pagecount + pagemodulo - 1) / pagemodulo * pagemodulo ; if ( maxpages < pagefake ) pagefake = maxpages; for (lastpageno = -1, pagenum = 0; pagenum < pagefake / ( jumpingpages + 1); pagenum += modulo) { beginp = 1 ; for (ppp = 0, ps=pages; ppp < pagesperpage; ppp++, ps++) { if (ps->reversed) actualpageno = pagefake - pagenum - modulo + ps->pageno ; else actualpageno = pagenum + ps->pageno ; if ( jumpingpages ) ps->reversed = !ps->reversed; if ( actualpageno == lastpageno ) { pagenum = pagefake; break; } if (actualpageno < pagecount && selectedpage(actualpageno+1) ) { if (beginp) { beginpage() ; beginp = 0 ; } if (landscape) { fseek(infile,landscape,SEEK_SET); putbuf(dvibuf(landscape+1)+2L) ; landscape = 0 ; } if (pagesperpage) outdvibyte(141) ; if (ps->hoffset) { outdvibyte(146) ; outdviquad(ps->hoffset) ; } if ( pagemodulo ) lastpageno = actualpageno; if (ps->voffset) { outdvibyte(160) ; outdviquad(ps->voffset) ; } dopage(actualpageno) ; if (pagesperpage) outdvibyte(142) ; } } if (beginp != 1) endpage() ; } writepostamble() ; if (! quiet) { (void)fprintf(stderr, "\n") ; (void)fflush(stderr) ; prettycolumn = 0 ; } } int main(int argc, char *argv[]) { #if defined(WIN32) && defined(KPATHSEA) int ac; char **av, *enc; kpse_set_program_name(argv[0], "dvidvi"); enc = kpse_var_value("command_line_encoding"); if (get_command_line_args_utf8(enc, &ac, &av)) { argc = ac; argv = av; } #endif processargs(argc, argv) ; readdvifile() ; writedvifile() ; return 0 ; }