/* For use with emTeX set FONTPATH to "TEXTFM" */ #ifndef FONTPATH #define FONTPATH "TEXFONTS" #endif /* * This code reads in and handles the defaults for the program from the * file config.sw. This entire file is a bit kludgy, sorry. */ #include "dvips.h" /* The copyright notice in that file is included too! */ #include "paths.h" #ifdef KPATHSEA #include #include #include #include #include #include #endif /* * This is the structure definition for resident fonts. We use * a small and simple hash table to handle these. We don't need * a big hash table. */ struct resfont *reshash[RESHASHPRIME]; /* * The external declarations: */ #include "protos.h" /* * To maintain a list of document fonts, we use the following * pointer. */ struct header_list *ps_fonts_used; /* * Our hash routine. */ unsigned int hash(char *s) { unsigned int h = 12; while (*s != 0) h = (h + h + (unsigned char)(*s++)) % RESHASHPRIME; return(h); } /* * Reverse the hash chains. */ void revpslists(void) { register int i; for (i=0; inext) if (p->sent == 1) p->sent = 0; } /* * The routine that looks up a font name. */ struct resfont * lookup(char *name) { struct resfont *p; for (p=reshash[hash(name)]; p!=NULL; p=p->next) if (strcmp(p->Keyname, name)==0) return(p); return(NULL); } struct resfont * findPSname(char *name) { register int i; register struct resfont *p; for (i=0; inext) { if (strcmp(p->PSname, name)==0) return p; } return NULL; } /* * This routine adds an entry. */ static void add_entry(char *TeXname, char *PSname, char *Fontfile, char *Vectfile, char *specinfo, char *downloadinfo) { struct resfont *p; int h; if (PSname == NULL) PSname = TeXname; p = (struct resfont *)mymalloc((integer)sizeof(struct resfont)); p->Keyname = TeXname; p->PSname = PSname; p->Fontfile = Fontfile; p->Vectfile = Vectfile; p->TeXname = TeXname; p->specialinstructions = specinfo; if (downloadinfo && *downloadinfo) p->downloadheader = downloadinfo; else p->downloadheader = 0; h = hash(TeXname); p->next = reshash[h]; p->sent = 0; reshash[h] = p; } /* * Now our residentfont routine. Returns the number of characters in * this font, based on the TFM file. */ int residentfont(register fontdesctype *curfnt) { int i; struct resfont *p; /* * First we determine if we can find this font in the resident list. */ if (*curfnt->area) return 0; /* resident fonts never have a nonstandard font area */ if ((p=lookup(curfnt->name))==NULL) return 0; /* * This is not yet the correct way to do things, but it is useful as it * is so we leave it in. The problem: if resident Times-Roman is * re-encoded, then it will be downloaded as bitmaps; this is not * right. The solution will be to introduce two types of `<' * directives, one that downloads fonts and one that downloads * short headers that are innocuous. */ if (p->Fontfile && downloadpspk) { #ifdef DEBUG if (dd(D_FONTS)) fprintf_str(stderr,"Using PK font %s for <%s>.\n", curfnt->name, p->PSname); #endif /* DEBUG */ return 0; } /* * We clear out some pointers: */ #ifdef DEBUG if (dd(D_FONTS)) fprintf_str(stderr,"Font %s <%s> is resident.\n", curfnt->name, p->PSname); #endif /* DEBUG */ curfnt->resfont = p; curfnt->name = p->TeXname; for (i=0; i<256; i++) { curfnt->chardesc[i].TFMwidth = 0; curfnt->chardesc[i].packptr = NULL; curfnt->chardesc[i].pixelwidth = 0; curfnt->chardesc[i].flags = 0; curfnt->chardesc[i].flags2 = 0; } add_name(p->PSname, &ps_fonts_used); /* * We include the font here. But we only should need to include the * font if we have a stupid spooler; smart spoolers should be able * to supply it automatically. */ if (p->downloadheader) { char *cp = p->downloadheader; char *q; infont = p->PSname; while (1) { q = cp; while (*cp && *cp != ' ') cp++; if (*cp) { *cp = 0; add_header(q); *cp++ = ' '; } else { /* if (strstr(q,".pfa")||strstr(q,".pfb")|| strstr(q,".PFA")||strstr(q,".PFB")) break; else */ { add_header(q); break; } } infont = 0; } infont = 0; } i = tfmload(curfnt); if (i < 0) i = 1; usesPSfonts = 1; return(i); } #define INLINE_SIZE (2000) static char was_inline[INLINE_SIZE]; static unsigned c_lineno; static void bad_config(const char *err) { fprintf_str(stderr, "%s:%d:", realnameoffile, c_lineno); error (err); fprintf_str(stderr, " (%s)\n", was_inline); } #ifndef KPATHSEA /* * Get environment variables! These override entries in ./config.h. * We substitute everything of the form ::, ^: or :$ with default, * so a user can easily build on to the existing paths. */ static char * getpath(char *who, char *what) { if (who) { register char *pp, *qq; int lastsep = 1; for (pp=nextstring, qq=who; *qq;) { if (*qq == PATHSEP) { if (lastsep) { strcpy(pp, what); pp = pp + strlen(pp); } lastsep = 1; } else lastsep = 0; *pp++ = *qq++; } if (lastsep) { strcpy(pp, what); pp = pp + strlen(pp); } *pp = 0; qq = nextstring; nextstring = pp + 1; return qq; } else return what; } #endif /* * We use this function so we can support strings delimited by * double quotes with spaces in them. We also accept strings * with spaces in them, but kill off any spaces at the end. */ static char * configstring(char *s, int nullok) { char tstr[INLINE_SIZE]; char *p = tstr; while (*s && *s <= ' ') s++; if (*s == '"') { s++; while (*s != 10 && *s != 0 && *s != '"' && p < tstr+290) *p++ = *s++; } else { while (*s && p < tstr+290) *p++ = *s++; while (*(p-1) <= ' ' && p > tstr) p--; } *p = 0; if (p == tstr && ! nullok) bad_config("bad string"); return newstring(tstr); } #ifdef KPATHSEA /* We use this in `getdefaults' to modify the kpathsea structure for the paths we read. See kpathsea/tex-file.[ch]. */ #define SET_CLIENT_PATH(filefmt, val) \ kpse_format_info[filefmt].client_path = xstrdup (val) #endif /* * Now we have the getdefaults routine. */ const char *psmapfile = PSMAPFILE; Boolean getdefaults(const char *s) { FILE *deffile; char PSname[INLINE_SIZE]; register char *p; integer hsiz, vsiz; #ifndef KPATHSEA char *d = configpath; int i, j; #endif int canaddtopaper = 0; if (printer == NULL) { if (s) { strcpy(PSname, s); } else { #ifdef KPATHSEA char *dvipsrc = kpse_var_value ("DVIPSRC"); #ifdef WIN32 if (dvipsrc && *dvipsrc) { /* $DVIPSRC was set by user */ strcpy(PSname, dvipsrc); } else /* No env var, looking into some kind of standard path. */ if (SearchPath(".;%HOME%;c:\\", ".dvipsrc", NULL, INLINE_SIZE, PSname, &dvipsrc) == 0) { /* search failed, we must put something into PSname. */ dvipsrc = kpse_var_expand(DVIPSRC); if (dvipsrc) { strcpy(PSname, dvipsrc); free(dvipsrc); } /* Else SearchPath has filled PSname with something */ } /* remove any redundant path separators. Many configurations can show up: c:\/.dvipsrc and so on ... */ { char *p, *q; for (p = q = PSname; *p && (p - PSname < INLINE_SIZE); p++, q++) { if (IS_DIR_SEP(*p)) { *q = DIR_SEP; p++; q++; while (*p && IS_DIR_SEP(*p)) p++; } else if (IS_KANJI(p)) { *q++ = *p++; } *q = *p; } *q = '\0'; } #else if(!dvipsrc) dvipsrc = kpse_var_expand(DVIPSRC); strcpy(PSname, dvipsrc ? dvipsrc : "~/.dvipsrc"); if(dvipsrc) free(dvipsrc); #endif /* WIN32 */ #else /* ! KPATHSEA */ #ifndef VMCMS /* IBM: VM/CMS - don't have home directory on VMCMS */ #ifndef MVSXA d = "~"; #endif #endif /* IBM: VM/CMS */ strcpy(PSname, DVIPSRC); #endif /* KPATHSEA */ } } else { #if defined(MSDOS) || defined(OS2) strcpy(PSname, printer); strcat(PSname, ".cfg"); #else strcpy(PSname, "config."); strcat(PSname, printer); #endif } #ifdef KPATHSEA if ((deffile=search(configpath,PSname,READ))!=NULL) { #else if ((deffile=search(d,PSname,READ))!=NULL) { #endif if (dvips_debug_flag && !quiet) { if (strlen(realnameoffile) + prettycolumn > STDOUTSIZE) { fprintf(stderr, "\n"); prettycolumn = 0; } fprintf_str(stderr, "{%s}", realnameoffile); prettycolumn += strlen(realnameoffile) + 2; } #ifdef DEBUG if (dd (D_CONFIG)) { fprintf_str(stderr, "Reading dvips config file `%s':\n", realnameoffile); } #endif c_lineno = 0; while (fgets(was_inline, INLINE_SIZE, deffile)!=NULL) { c_lineno++; #ifdef DEBUG if (dd (D_CONFIG)) { fprintf_str(stderr, "%s:%d:%s", realnameoffile, c_lineno, was_inline); } #endif /* * We need to get rid of the newline. */ for (p=was_inline; *p; p++); while (p > was_inline && (*(p-1) == '\n' || *(p-1) == '\r')) { *--p = '\0'; } if (was_inline[0] != '@') canaddtopaper = 0; switch (was_inline[0]) { /* * Handling paper size information: * * If line is empty, then we clear out the paper size information * we have so far. * * If it is `@+', then we add to the current paper size info. * * If it is `name hsize vsize', then we start a new definition. */ case '@' : p = was_inline + 1; while (*p && *p <= ' ') p++; if (*p == 0) { papsizes = 0; /* throw away memory */ } else if (*p == '+') { if (canaddtopaper == 0) error( " @+ in config files must immediately following a @ lines"); else { *(nextstring-1) = '\n';/* IBM: VM/CMS - changed 10 to "\n" */ p++; while (*p && *p == ' ') p++; strcpy(nextstring, p); nextstring += strlen(p) + 1; } } else { struct papsiz *ps; char *q; ps = (struct papsiz *)mymalloc((integer)sizeof(struct papsiz)); ps->next = papsizes; papsizes = ps; q = p; while (*p && *p > ' ') p++; *p++ = 0; ps->name = newstring(q); while (*p && *p <= ' ') p++; handlepapersize(p, &hsiz, &vsiz); ps->xsize = hsiz; ps->ysize = vsiz; ps->specdat = newstring(""); canaddtopaper = 1; } break; case 'a' : dopprescan = (was_inline[1] != '0'); break; case 'b': if (strncmp(was_inline, "bitmapfontenc", 13) == 0) { char *p = was_inline + 13 ; while (*p && *p <= ' ') p++ ; if (strncmp(p, "off", 3) == 0) { bitmapencopt(0) ; // disable bitmap font enc feature } else if (strncmp(p, "on", 2) == 0) { bitmapencopt(1) ; // try to include bitmap font encs } else if (strncmp(p, "strict", 6) == 0) { bitmapencopt(2) ; // issue warnings for missing encs } else { error( "! bitmapfontenc config file option only supports on, off, and strict") ; } break ; } #ifdef SHORTINT if (sscanf(was_inline+1, "%ld", &pagecopies) != 1) bad_config("missing pagecopies to b"); #else if (sscanf(was_inline+1, "%d", &pagecopies) != 1) bad_config("missing pagecopies to b"); #endif if (pagecopies < 1 || pagecopies > 1000) bad_config("pagecopies not between 1 and 1000"); break; case 'm' : #ifdef SHORTINT if (sscanf(was_inline+1, "%ld", &swmem) != 1) bad_config("missing swmem to m"); #else /* ~SHORTINT */ if (sscanf(was_inline+1, "%d", &swmem) != 1) bad_config("missing swmem to m"); #endif /* ~SHORTINT */ if (swmem > 0) { swmem += fontmem; /* grab headers we've seen already */ } else { swmem = INT_MAX; /* if value <=0, max it out */ } break; case 'M' : /* If the user specified a -mode, don't replace it. */ if (!mfmode_option) mfmode = configstring(was_inline+1, 0); mflandmode = 0; { char *pp; for (pp=mfmode; pp && *pp>' '; pp++); if (pp && *pp == ' ') { *pp++ = 0; while (*pp && *pp <= ' ') pp++; if (*pp) mflandmode = pp; } } break; case 'o' : if (!oname_option) { struct stat st_buf; char *tmp_oname; tmp_oname = configstring(was_inline+1, 1); if ((*tmp_oname && tmp_oname[strlen(tmp_oname)-1] == ':') || (stat(tmp_oname, &st_buf) == 0 && S_ISCHR(st_buf.st_mode))) { sendcontrolD = 1; /* if we send to a device, *we* are spooler */ #if defined(MSDOS) || defined(OS2) tmp_oname[strlen(tmp_oname)-1] = 0; #endif } oname = tmp_oname; } break; case 'F' : sendcontrolD = (was_inline[1] != '0'); break; case 'O' : p = was_inline + 1; handlepapersize(p, &hoff, &voff); break; #ifdef FONTLIB case 'L' : { char tempname[INLINE_SIZE]; if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to L"); else { flipath = getpath(fliparse(PSname,tempname), flipath); fliname = newstring(tempname); } } break; #endif case 'T' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to T"); else #ifdef KPATHSEA SET_CLIENT_PATH (kpse_tfm_format, PSname); #else tfmpath = getpath(PSname, tfmpath); #endif break; case 'P' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to P"); else #ifdef KPATHSEA SET_CLIENT_PATH (kpse_pk_format, PSname); #else pkpath = getpath(PSname, pkpath); #endif break; case 'p' : p = was_inline + 1; while (*p && *p <= ' ') p++; if (*p == '+') { if (sscanf(p+1, "%s", PSname) != 1) bad_config("missing arg to p"); getpsinfo(PSname); } else { psmapfile = configstring(was_inline+1, 0); } break; case 'v' : case 'V' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to V"); else #ifdef KPATHSEA SET_CLIENT_PATH (kpse_vf_format, PSname); #else vfpath = getpath(PSname, vfpath); #endif break; case 'S' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to S"); else #ifdef KPATHSEA SET_CLIENT_PATH (kpse_pict_format, PSname); #else figpath = getpath(PSname, figpath); #endif break; case 's': safetyenclose = 1; break; case 'H' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to H"); else #ifdef KPATHSEA SET_CLIENT_PATH (headerpath, PSname); #else headerpath = getpath(PSname, headerpath); #endif break; case '%': case ' ' : case '*' : case '#' : case ';' : case '=' : case 0 : case '\n' : break; case 'r' : reverse = (was_inline[1] != '0'); break; /* * This case is for last resort font scaling; I hate this, but enough * people have in no uncertain terms demanded it that I'll go ahead and * add it. * * This line must have numbers on it, resolutions, to search for the * font as a last resort, and then the font will be scaled. These * resolutions should be in increasing order. * * For most machines, just `300' is sufficient here; on the NeXT, * `300 400' may be more appropriate. */ case 'R': #ifndef KPATHSEA i = 0; p = was_inline + 1; while (*p) { while (*p && *p <= ' ') p++; if ('0' <= *p && *p <= '9') { j = 0; while ('0' <= *p && *p <= '9') j = 10 * j + (*p++ - '0'); if (i > 0) if (lastresortsizes[i-1] > j) { bad_config("last resort sizes (R) must be sorted"); } lastresortsizes[i++] = j; } else { if (*p == 0) break; bad_config("only numbers expected on `R' line"); } } lastresortsizes[i] = 32000; #else /* KPATHSEA */ for (p = was_inline + 1; *p; p++) { if (isblank ((unsigned char)*p)) { *p = ':'; } } kpse_fallback_resolutions_string = xstrdup (was_inline + 1); #endif break; case 'D' : if (sscanf(was_inline+1, "%d", &actualdpi) != 1) bad_config("missing arg to D"); if (actualdpi < 10 || actualdpi > 10000) bad_config("dpi must be between 10 and 10000"); vactualdpi = actualdpi; break; /* * Execute a command. This can be dangerous, but can also be very useful. */ case 'E' : #ifdef SECURE error("dvips was compiled with SECURE, which disables E in config"); #else if (secure) { error("E in config is disabled. To enable E, set z0 before E"); break; } system(was_inline+1); #endif break; case 'K': removecomments = (was_inline[1] != '0'); break; case 'L': lastpsizwins = (was_inline[1] != '0'); break; case 'U': nosmallchars = (was_inline[1] != '0'); break; case 'W': for (p=was_inline+1; *p && *p <= ' '; p++); if (*p) warningmsg = newstring(p); else warningmsg = 0; break; case 'X' : if (sscanf(was_inline+1, "%d", &actualdpi) != 1) bad_config("missing numeric arg to X"); if (actualdpi < 10 || actualdpi > 10000) bad_config("X arg must be between 10 and 10000"); break; case 'Y' : if (sscanf(was_inline+1, "%d", &vactualdpi) != 1) bad_config("missing numeric arg to Y"); if (vactualdpi < 10 || vactualdpi > 10000) bad_config("Y arg must be between 10 and 10000"); break; case 'x': case 'y': if (sscanf(was_inline+1, "%lg", &mag) != 1) bad_config("missing arg to x or y"); overridemag = (was_inline[0] == 'x') ? 1 : -1; break; case 'e' : if (sscanf(was_inline+1, "%d", &maxdrift) != 1) bad_config("missing arg to e"); if (maxdrift < 0) bad_config("bad argument to e"); vmaxdrift = maxdrift; break; case 'z' : if (secure_option && secure && was_inline[1] == '0') { fprintf_str(stderr, "warning: %s: z0 directive ignored since -R1 given\n", realnameoffile); /* Never happen */ } else { if (was_inline[1] == '0') { secure = 0; } else if (was_inline[1] == '2') { secure = 2; } else { secure = 1; } } break; case 'q' : case 'Q' : quiet = (was_inline[1] != '0'); break; case 'f' : filter = (was_inline[1] != '0'); if (filter) oname = ""; /* noenv has already been tested, so no point in setting. */ sendcontrolD = 0; break; #ifdef SHIFTLOWCHARS case 'G': shiftlowchars = (was_inline[1] != '0'); break; #endif case 'h' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to h"); else add_header(PSname); break; case 'i' : if (sscanf(was_inline+1, "%d", &maxsecsize) != 1) maxsecsize = 0; sepfiles = 1; break; case 'I': noenv = (was_inline[1] != '0'); break; case 'N' : disablecomments = (was_inline[1] != '0'); break; case 'Z' : compressed = (was_inline[1] != '0'); break; case 'j': partialdownload = (was_inline[1] != '0'); break; case 't' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to t"); else { if (strcmp(PSname, "landscape") == 0) { if (hpapersize || vpapersize) error( "both landscape and papersize specified; ignoring landscape"); else landscape = 1; } else paperfmt = newstring(PSname); } break; case 'c' : if (sscanf(was_inline+1, "%s", PSname) != 1) bad_config("missing arg to c"); else getdefaults(PSname); break; default: bad_config("strange line"); } } fclose(deffile); } else { if (printer) { char msg[1000]; snprintf (msg, sizeof(msg), "warning: no config file for `%s'", printer); error(msg); return 0; } } return 1; } /* * If a character pointer is passed in, use that name; else, use the * default (possibly set) name, psfonts.map. */ void getpsinfo(const char *name) { FILE *deffile; register char *p; char *specinfo, *downloadinfo; char downbuf[500]; char specbuf[500]; int slen; if (name == 0) name = psmapfile; if ((deffile=search(mappath, name, READ))!=NULL) { if (dvips_debug_flag && !quiet) { if (strlen(realnameoffile) + prettycolumn > STDOUTSIZE) { fprintf(stderr, "\n"); prettycolumn = 0; } fprintf_str(stderr, "{%s}", realnameoffile); prettycolumn += strlen(realnameoffile) + 2; } while (fgets(was_inline, INLINE_SIZE, deffile)!=NULL) { p = was_inline; if (*p > ' ' && *p != '*' && *p != '#' && *p != ';' && *p != '%') { char *TeXname = NULL; char *PSname = NULL; char *Fontfile = NULL; char *Vectfile = NULL; char *hdr_name = NULL; boolean nopartial_p = false; boolean encoding_p = false; specinfo = NULL; downloadinfo = NULL; downbuf[0] = 0; specbuf[0] = 0; while (*p) { encoding_p = false; while (*p && *p <= ' ') p++; if (*p) { if (*p == '"') { /* PostScript instructions? */ if (specinfo) { strcat(specbuf, specinfo); strcat(specbuf, " "); } specinfo = p + 1; } else if (*p == '<') { /* Header to download? */ /* If had previous downloadinfo, save it. */ if (downloadinfo) { strcat(downbuf, downloadinfo); strcat(downbuf, " "); downloadinfo = NULL; } if (p[1] == '<') { /* << means always full download */ p++; nopartial_p = true; } else if (p[1] == '[') { /* <[ means an encoding */ p++; encoding_p = true; } p++; /* skip whitespace after < */ while (*p && *p <= ' ') p++; /* save start of header name */ hdr_name = p; } else if (TeXname) /* second regular word on line? */ PSname = p; else /* first regular word? */ TeXname = p; if (*p == '"') { p++; /* find end of "..." word */ while (*p != '"' && *p) p++; } else while (*p > ' ') /* find end of anything else */ p++; if (*p) *p++ = 0; /* If we had a header we were downloading, figure out what to do; couldn't do this above since we want to check the suffix. */ if (hdr_name) { const char *suffix = find_suffix (hdr_name); if (encoding_p || STREQ (suffix, "enc")) { /* (SPQR) if it is a reencoding, pass on to FontPart, and download as usual */ Vectfile = downloadinfo = hdr_name; } else if (nopartial_p) { downloadinfo = hdr_name; } else if (FILESTRCASEEQ (suffix, "pfa") || FILESTRCASEEQ (suffix, "pfb") || STREQ (suffix, "PFA") || STREQ (suffix, "PFB")) { Fontfile = hdr_name; } else { downloadinfo = hdr_name; } } } } if (specinfo) strcat(specbuf, specinfo); if (downloadinfo) strcat(downbuf, downloadinfo); slen = strlen(downbuf) - 1; if (slen > 0 && downbuf[slen] == ' ') { downbuf[slen] = 0; } if (TeXname) { TeXname = newstring(TeXname); PSname = newstring(PSname); Fontfile = newstring(Fontfile); Vectfile = newstring(Vectfile); specinfo = newstring(specbuf); downloadinfo = newstring(downbuf); add_entry(TeXname, PSname, Fontfile, Vectfile, specinfo, downloadinfo); } } } fclose(deffile); } checkstrings(); } #ifndef KPATHSEA /* * Get environment variables! These override entries in ./config.h. * We substitute everything of the form ::, ^: or :$ with default, * so a user can easily build on to the existing paths. */ static char * getenvup(char *who, char *what) { return getpath(getenv(who), what); } #endif #if !defined(KPATHSEA) && defined(SEARCH_SUBDIRECTORIES) static char *concat3(); #endif void checkenv(int which) { #ifndef KPATHSEA if (which) { tfmpath = getenvup(FONTPATH, tfmpath); vfpath = getenvup("VFFONTS", vfpath); pictpath = getenvup("TEXPICTS", pictpath); figpath = getenvup("TEXINPUTS", figpath); headerpath = getenvup("DVIPSHEADERS", headerpath); if (getenv("TEXPKS")) pkpath = getenvup("TEXPKS", pkpath); else if (getenv("TEXPACKED")) pkpath = getenvup("TEXPACKED", pkpath); else if (getenv("PKFONTS")) pkpath = getenvup("PKFONTS", pkpath); #ifdef SEARCH_SUBDIRECTORIES else if (getenv(FONTPATH)) pkpath = getenvup(FONTPATH, pkpath); if (getenv ("TEXFONTS_SUBDIR")) fontsubdirpath = getenvup ("TEXFONTS_SUBDIR", fontsubdirpath); { char pathsep[2]; char *do_subdir_path(); char *dirs = do_subdir_path (fontsubdirpath); /* If the paths were in dynamic storage before, that memory is wasted now. */ pathsep[0] = PATHSEP; pathsep[1] = '\0'; tfmpath = concat3 (tfmpath, pathsep, dirs); pkpath = concat3 (pkpath, pathsep, dirs); } #endif } else configpath = getenvup("TEXCONFIG", configpath); #endif } #if !defined(KPATHSEA) && defined(SEARCH_SUBDIRECTORIES) #include #include #include #ifdef SYSV #include typedef struct dirent *directory_entry_type; #else #include typedef struct direct *directory_entry_type; #endif /* Declare the routine to get the current working directory. */ #ifndef HAVE_GETCWD extern char *getwd (); #define getcwd(b, len) ((b) ? getwd (b) : getwd (xmalloc (len))) #else #ifdef ANSI extern char *getcwd (char *, int); #else extern char *getcwd (); #endif /* not ANSI */ #endif /* not HAVE_GETWD */ #if defined(SYSV) || defined(VMS) || defined(MSDOS) || defined(OS2) || defined(ATARIST) #define MAXPATHLEN (256) #else /* ~SYSV */ #include /* for MAXPATHLEN */ #endif extern void exit(); extern int chdir(); /* Memory operations: variants of malloc(3) and realloc(3) that just give up the ghost when they fail. */ char * xmalloc(unsigned size) { char *mem = malloc (size); if (mem == NULL) { fprintf (stderr, "! Cannot allocate %u bytes.\n", size); exit (10); } return mem; } char * xrealloc(char *ptr, unsigned size) { char *mem = realloc (ptr, size); if (mem == NULL) { fprintf (stderr, "! Cannot reallocate %u bytes at %x.\n", size, (int)ptr); exit (10); } return mem; } /* Return, in NAME, the next component of PATH, i.e., the characters up to the next PATHSEP. */ static void next_component(char *name, char **path) { unsigned count = 0; while (**path != 0 && **path != PATHSEP) { name[count++] = **path; (*path)++; /* Move further along, even between calls. */ } name[count] = 0; if (**path == PATHSEP) (*path)++; /* Move past the delimiter. */ } #ifndef _POSIX_SOURCE #ifndef S_ISDIR #define S_ISDIR(m) ((m & S_IFMT) == S_IFDIR) #endif #endif /* Return true if FN is a directory or a symlink to a directory, false if not. */ int is_dir(char *fn) { struct stat stats; return stat (fn, &stats) == 0 && S_ISDIR (stats.st_mode); } static char * concat3(char *s1, char *s2, char *s3) { char *r = xmalloc (strlen (s1) + strlen (s2) + strlen (s3) + 1); strcpy (r, s1); strcat (r, s2); strcat (r, s3); return r; } /* DIR_LIST is the default list of directories (colon-separated) to search. We want to add all the subdirectories directly below each of the directories in the path. We return the list of directories found. */ char * do_subdir_path(char *dir_list) { char *cwd; unsigned len; char *result = xmalloc ((unsigned)1); char *temp = dir_list; char dirsep[2]; dirsep[0] = DIRSEP; dirsep[1] = '\0'; /* Make a copy in writable memory. */ dir_list = xmalloc (strlen (temp) + 1); strcpy (dir_list, temp); *result = 0; /* Unfortunately, we can't look in the environment for the current directory, because if we are running under a program (let's say Emacs), the PWD variable might have been set by Emacs' parent to the current directory at the time Emacs was invoked. This is not necessarily the same directory the user expects to be in. So, we must always call getcwd(3) or getwd(3), even though they are slow and prone to hang in networked installations. */ cwd = getcwd (NULL, MAXPATHLEN + 2); if (cwd == NULL) { perror ("getcwd"); exit (errno); } do { DIR *dir; directory_entry_type e; char dirname[MAXPATHLEN]; next_component (dirname, &dir_list); /* All the `::'s should be gone by now, but we may as well make sure `chdir' doesn't crash. */ if (*dirname == 0) continue; /* By changing directories, we save a bunch of string concatenations (and make the pathnames the kernel looks up shorter). */ if (chdir (dirname) != 0) continue; dir = opendir ("."); if (dir == NULL) continue; while ((e = readdir (dir)) != NULL) { if (is_dir (e->d_name) && strcmp (e->d_name, ".") != 0 && strcmp (e->d_name, "..") != 0) { char *found = concat3 (dirname, dirsep, e->d_name); result = xrealloc (result, strlen (result) + strlen (found) + 2); len = strlen (result); if (len > 0) { result[len] = PATHSEP; result[len + 1] = 0; } strcat (result, found); free (found); } } closedir (dir); /* Change back to the current directory, in case the path contains relative directory names. */ if (chdir (cwd) != 0) { perror (cwd); exit (errno); } } while (*dir_list != 0); return result; } #endif /* SEARCH_SUBDIRECTORIES */