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/* * True Type Font to Adobe Type 1 font converter * By Mark Heath <mheath@netspace.net.au> * Based on ttf2pfa by Andrew Weeks <ccsaw@bath.ac.uk> * With help from Frank M. Siegert <fms@this.net> * * see COPYRIGHT * */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <time.h> #include <ctype.h> #include <math.h> #ifndef WINDOWS # include <unistd.h> # include <netinet/in.h> #else # include "windows.h" #endif #include "ttf.h" #include "pt1.h" #include "global.h" /* prototypes of call entries */ static void openfont(char *fname, char *arg); static void closefont( void); static int getnglyphs ( void); static int glnames( GLYPH *glyph_list); static void glmetrics( GLYPH *glyph_list); static int glenc( GLYPH *glyph_list, int *encoding, int *unimap); static void fnmetrics( struct font_metrics *fm); static void glpath( int glyphno, GLYPH *glyph_list); static void kerning( GLYPH *glyph_list); /* globals */ /* front-end descriptor */ struct frontsw ttf_sw = { /*name*/ "ttf", /*descr*/ "built-in TTF support", /*suffix*/ { "ttf" }, /*open*/ openfont, /*close*/ closefont, /*nglyphs*/ getnglyphs, /*glnames*/ glnames, /*glmetrics*/ glmetrics, /*glenc*/ glenc, /*fnmetrics*/ fnmetrics, /*glpath*/ glpath, /*kerning*/ kerning, }; /* statics */ static FILE *ttf_file; static int ttf_nglyphs, long_offsets; static TTF_DIRECTORY *directory; static TTF_DIR_ENTRY *dir_entry; static char *filebuffer; static char *filebuffer_end; static TTF_NAME *name_table = NULL; static TTF_NAME_REC *name_record; static TTF_HEAD *head_table = NULL; static TTF_HHEA *hhea_table = NULL; static TTF_KERN *kern_table = NULL; static TTF_CMAP *cmap_table = NULL; static LONGHORMETRIC *hmtx_table = NULL; static TTF_GLYF *glyf_table; static BYTE *glyf_start = NULL; static TTF_MAXP *maxp_table = NULL; static TTF_POST_HEAD *post_table = NULL; static union { USHORT *sp; ULONG *lp; } loca_table; #define short_loca_table loca_table.sp #define long_loca_table loca_table.lp static short cmap_n_segs; static USHORT *cmap_seg_start, *cmap_seg_end; static short *cmap_idDelta, *cmap_idRangeOffset; static TTF_CMAP_FMT0 *encoding0; static int enc_type; static char *name_fields[8]; static int enc_found_ms, enc_found_mac; static char *mac_glyph_names[258] = { ".notdef", ".null", "CR", "space", "exclam", "quotedbl", "numbersign", "dollar", "percent", "ampersand", "quotesingle", "parenleft", "parenright", "asterisk", "plus", "comma", "hyphen", "period", "slash", "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "colon", "semicolon", "less", "equal", "greater", "question", "at", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", "bracketleft", "backslash", "bracketright", "asciicircum", "underscore", "grave", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z", "braceleft", "bar", "braceright", "asciitilde", "Adieresis", "Aring", "Ccedilla", "Eacute", "Ntilde", "Odieresis", "Udieresis", "aacute", "agrave", "acircumflex", "adieresis", "atilde", "aring", "ccedilla", "eacute", "egrave", "ecircumflex", "edieresis", "iacute", "igrave", "icircumflex", "idieresis", "ntilde", "oacute", "ograve", "ocircumflex", "odieresis", "otilde", "uacute", "ugrave", "ucircumflex", "udieresis", "dagger", "degree", "cent", "sterling", "section", "bullet", "paragraph", "germandbls", "registered", "copyright", "trademark", "acute", "dieresis", "notequal", "AE", "Oslash", "infinity", "plusminus", "lessequal", "greaterequal", "yen", "mu", "partialdiff", "summation", "product", "pi", "integral", "ordfeminine", "ordmasculine", "Omega", "ae", "oslash", "questiondown", "exclamdown", "logicalnot", "radical", "florin", "approxequal", "increment", "guillemotleft", "guillemotright", "ellipsis", "nbspace", "Agrave", "Atilde", "Otilde", "OE", "oe", "endash", "emdash", "quotedblleft", "quotedblright", "quoteleft", "quoteright", "divide", "lozenge", "ydieresis", "Ydieresis", "fraction", "currency", "guilsinglleft", "guilsinglright", "fi", "fl", "daggerdbl", "periodcentered", "quotesinglbase", "quotedblbase", "perthousand", "Acircumflex", "Ecircumflex", "Aacute", "Edieresis", "Egrave", "Iacute", "Icircumflex", "Idieresis", "Igrave", "Oacute", "Ocircumflex", "applelogo", "Ograve", "Uacute", "Ucircumflex", "Ugrave", "dotlessi", "circumflex", "tilde", "macron", "breve", "dotaccent", "ring", "cedilla", "hungarumlaut", "ogonek", "caron", "Lslash", "lslash", "Scaron", "scaron", "Zcaron", "zcaron", "brokenbar", "Eth", "eth", "Yacute", "yacute", "Thorn", "thorn", "minus", "multiply", "onesuperior", "twosuperior", "threesuperior", "onehalf", "onequarter", "threequarters", "franc", "Gbreve", "gbreve", "Idot", "Scedilla", "scedilla", "Cacute", "cacute", "Ccaron", "ccaron", "dmacron" }; /* other prototypes */ static void draw_composite_glyf( GLYPH *g, GLYPH *glyph_list, int glyphno, double *matrix, int level); static void draw_simple_glyf( GLYPH *g, GLYPH *glyph_list, int glyphno, double *matrix); static double f2dot14( short x); /* get the TTF description table address and length for this index */ static void get_glyf_table( int glyphno, TTF_GLYF **tab, int *len ) { if(tab!=NULL) { if (long_offsets) { *tab = (TTF_GLYF *) (glyf_start + ntohl(long_loca_table[glyphno])); } else { *tab = (TTF_GLYF *) (glyf_start + (ntohs(short_loca_table[glyphno]) << 1)); } } if(len!=NULL) { if (long_offsets) { *len = ntohl(long_loca_table[glyphno + 1]) - ntohl(long_loca_table[glyphno]); } else { *len = (ntohs(short_loca_table[glyphno + 1]) - ntohs(short_loca_table[glyphno])) << 1; } } } static void handle_name(void) { int j, k, lang, len, platform; char *p, *string_area; int found3 = 0; string_area = (char *) name_table + ntohs(name_table->offset); name_record = &(name_table->nameRecords); for (j = 0; j < 8; j++) { name_fields[j] = ""; } for (j = 0; j < ntohs(name_table->numberOfNameRecords); j++) { platform = ntohs(name_record->platformID); if (platform == 3) { found3 = 1; lang = ntohs(name_record->languageID) & 0xff; len = ntohs(name_record->stringLength); if (lang == 0 || lang == 9) { k = ntohs(name_record->nameID); if (k < 8) { p = string_area + ntohs(name_record->stringOffset); name_fields[k] = dupcnstring(p, len); } } } name_record++; } string_area = (char *) name_table + ntohs(name_table->offset); name_record = &(name_table->nameRecords); if (!found3) { for (j = 0; j < ntohs(name_table->numberOfNameRecords); j++) { platform = ntohs(name_record->platformID); if (platform == 1) { found3 = 1; lang = ntohs(name_record->languageID) & 0xff; len = ntohs(name_record->stringLength); if (lang == 0 || lang == 9) { k = ntohs(name_record->nameID); if (k < 8) { p = string_area + ntohs(name_record->stringOffset); name_fields[k] = dupcnstring(p, len); } } } name_record++; } } if (!found3) { fprintf(stderr, "**** Cannot decode font name fields ****\n"); exit(1); } if (name_fields[4][0] == 0) { /* Full Name empty, use Family Name */ name_fields[4] = name_fields[1]; } if (name_fields[6][0] == 0) { /* Font Name empty, use Full Name */ name_fields[6] = name_fields[4]; if (name_fields[6][0] == 0) { /* oops, empty again */ WARNING_1 fprintf(stderr, "Font name is unknown, setting to \"Unknown\"\n"); name_fields[6] = "Unknown"; } } p = name_fields[6]; /* must not start with a digit */ if(isdigit(*p)) *p+= 'A'-'0'; /* change to a letter */ while (*p != '\0') { if (!isalnum(*p) || *p=='_') { *p = '-'; } p++; } } static void handle_head(void) { long_offsets = ntohs(head_table->indexToLocFormat); if (long_offsets != 0 && long_offsets != 1) { fprintf(stderr, "**** indexToLocFormat wrong ****\n"); exit(1); } } /* limit the recursion level to avoid cycles */ #define MAX_COMPOSITE_LEVEL 20 static void draw_composite_glyf( GLYPH *g, GLYPH *glyph_list, int glyphno, double *orgmatrix, int level ) { int len; short ncontours; USHORT flagbyte, glyphindex; double arg1, arg2; BYTE *ptr; char *bptr; SHORT *sptr; double matrix[6], newmatrix[6]; get_glyf_table(glyphno, &glyf_table, &len); if(len<=0) /* nothing to do */ return; ncontours = ntohs(glyf_table->numberOfContours); if (ncontours >= 0) { /* simple case */ draw_simple_glyf(g, glyph_list, glyphno, orgmatrix); return; } if(ISDBG(COMPOSITE) && level ==0) fprintf(stderr, "* %s [ %.2f %.2f %.2f %.2f %.2f %.2f ]\n", g->name, orgmatrix[0], orgmatrix[1], orgmatrix[2], orgmatrix[3], orgmatrix[4], orgmatrix[5]); /* complex case */ if(level >= MAX_COMPOSITE_LEVEL) { WARNING_1 fprintf(stderr, "*** Glyph %s: stopped (possibly infinite) recursion at depth %d\n", g->name, level); return; } ptr = ((BYTE *) glyf_table + sizeof(TTF_GLYF)); sptr = (SHORT *) ptr; do { flagbyte = ntohs(*sptr); sptr++; glyphindex = ntohs(*sptr); sptr++; if (flagbyte & ARG_1_AND_2_ARE_WORDS) { arg1 = (short)ntohs(*sptr); sptr++; arg2 = (short)ntohs(*sptr); sptr++; } else { bptr = (char *) sptr; arg1 = (signed char) bptr[0]; arg2 = (signed char) bptr[1]; sptr++; } matrix[1] = matrix[2] = 0.0; if (flagbyte & WE_HAVE_A_SCALE) { matrix[0] = matrix[3] = f2dot14(*sptr); sptr++; } else if (flagbyte & WE_HAVE_AN_X_AND_Y_SCALE) { matrix[0] = f2dot14(*sptr); sptr++; matrix[3] = f2dot14(*sptr); sptr++; } else if (flagbyte & WE_HAVE_A_TWO_BY_TWO) { matrix[0] = f2dot14(*sptr); sptr++; matrix[2] = f2dot14(*sptr); sptr++; matrix[1] = f2dot14(*sptr); sptr++; matrix[3] = f2dot14(*sptr); sptr++; } else { matrix[0] = matrix[3] = 1.0; } /* * See * * http://fonts.apple.com/TTRefMan/RM06/Chap6g * lyf.html * matrix[0,1,2,3,4,5]=a,b,c,d,m,n */ if (fabs(matrix[0]) > fabs(matrix[1])) matrix[4] = fabs(matrix[0]); else matrix[4] = fabs(matrix[1]); if (fabs(fabs(matrix[0]) - fabs(matrix[2])) <= 33. / 65536.) matrix[4] *= 2.0; if (fabs(matrix[2]) > fabs(matrix[3])) matrix[5] = fabs(matrix[2]); else matrix[5] = fabs(matrix[3]); if (fabs(fabs(matrix[2]) - fabs(matrix[3])) <= 33. / 65536.) matrix[5] *= 2.0; /* * fprintf (stderr,"Matrix Opp %hd * %hd\n",arg1,arg2); */ #if 0 fprintf(stderr, "Matrix: %f %f %f %f %f %f\n", matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]); fprintf(stderr, "Offset: %f %f (%s)\n", arg1, arg2, ((flagbyte & ARGS_ARE_XY_VALUES) ? "XY" : "index")); #endif if (flagbyte & ARGS_ARE_XY_VALUES) { matrix[4] *= arg1; matrix[5] *= arg2; } else { WARNING_1 fprintf(stderr, "*** Glyph %s: reusing scale from another glyph is unsupported\n", g->name); /* * must extract values from a glyph * but it seems to be too much pain * and it's not clear now that it * would be really used in any * interesting font */ } /* at this point arg1,arg2 contain what logically should be matrix[4,5] */ /* combine matrices */ newmatrix[0] = orgmatrix[0]*matrix[0] + orgmatrix[2]*matrix[1]; newmatrix[1] = orgmatrix[0]*matrix[2] + orgmatrix[2]*matrix[3]; newmatrix[2] = orgmatrix[1]*matrix[0] + orgmatrix[3]*matrix[1]; newmatrix[3] = orgmatrix[1]*matrix[2] + orgmatrix[3]*matrix[3]; newmatrix[4] = orgmatrix[0]*matrix[4] + orgmatrix[2]*matrix[5] + orgmatrix[4]; newmatrix[5] = orgmatrix[1]*matrix[4] + orgmatrix[3]*matrix[5] + orgmatrix[5]; if(ISDBG(COMPOSITE)) { fprintf(stderr, "%*c+-> %2d %s [ %.2f %.2f %.2f %.2f %.2f %.2f ]\n", level+1, ' ', level, glyph_list[glyphindex].name, matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]); fprintf(stderr, "%*c = [ %.2f %.2f %.2f %.2f %.2f %.2f ]\n", level+1, ' ', newmatrix[0], newmatrix[1], newmatrix[2], newmatrix[3], newmatrix[4], newmatrix[5]); } draw_composite_glyf(g, glyph_list, glyphindex, newmatrix, level+1); } while (flagbyte & MORE_COMPONENTS); } static void draw_simple_glyf( GLYPH *g, GLYPH *glyph_list, int glyphno, double *matrix ) { int i, j, k, k1, len, first, cs, ce; /* We assume that hsbw always sets to(0, 0) */ double xlast = 0, ylast = 0; int finished, nguide, contour_start, contour_end; short ncontours, n_inst, last_point; USHORT *contour_end_pt; BYTE *ptr; #define GLYFSZ 2000 short xabs[GLYFSZ], yabs[GLYFSZ], xrel[GLYFSZ], yrel[GLYFSZ]; double xcoord[GLYFSZ], ycoord[GLYFSZ]; BYTE flags[GLYFSZ]; double tx, ty; int needreverse = 0; /* transformation may require * that */ GENTRY *lge; lge = g->lastentry; get_glyf_table(glyphno, &glyf_table, &len); if (len <= 0) { WARNING_1 fprintf(stderr, "**** Composite glyph %s refers to non-existent glyph %s, ignored\n", g->name, glyph_list[glyphno].name); return; } ncontours = ntohs(glyf_table->numberOfContours); if (ncontours < 0) { WARNING_1 fprintf(stderr, "**** Composite glyph %s refers to composite glyph %s, ignored\n", g->name, glyph_list[glyphno].name); return; } contour_end_pt = (USHORT *) ((char *) glyf_table + sizeof(TTF_GLYF)); last_point = ntohs(contour_end_pt[ncontours - 1]); n_inst = ntohs(contour_end_pt[ncontours]); ptr = ((BYTE *) contour_end_pt) + (ncontours << 1) + n_inst + 2; j = k = 0; while (k <= last_point) { flags[k] = ptr[j]; if (ptr[j] & REPEAT) { for (k1 = 0; k1 < ptr[j + 1]; k1++) { k++; flags[k] = ptr[j]; } j++; } j++; k++; } for (k = 0; k <= last_point; k++) { if (flags[k] & XSHORT) { if (flags[k] & XSAME) { xrel[k] = ptr[j]; } else { xrel[k] = -ptr[j]; } j++; } else if (flags[k] & XSAME) { xrel[k] = 0.0; } else { xrel[k] = (short)( ptr[j] * 256 + ptr[j + 1] ); j += 2; } if (k == 0) { xabs[k] = xrel[k]; } else { xabs[k] = xrel[k] + xabs[k - 1]; } } for (k = 0; k <= last_point; k++) { if (flags[k] & YSHORT) { if (flags[k] & YSAME) { yrel[k] = ptr[j]; } else { yrel[k] = -ptr[j]; } j++; } else if (flags[k] & YSAME) { yrel[k] = 0; } else { yrel[k] = ptr[j] * 256 + ptr[j + 1]; j += 2; } if (k == 0) { yabs[k] = yrel[k]; } else { yabs[k] = yrel[k] + yabs[k - 1]; } } if (matrix) { for (i = 0; i <= last_point; i++) { tx = xabs[i]; ty = yabs[i]; xcoord[i] = fscale(matrix[0] * tx + matrix[2] * ty + matrix[4]); ycoord[i] = fscale(matrix[1] * tx + matrix[3] * ty + matrix[5]); } } else { for (i = 0; i <= last_point; i++) { xcoord[i] = fscale(xabs[i]); ycoord[i] = fscale(yabs[i]); } } i = j = 0; first = 1; while (i <= ntohs(contour_end_pt[ncontours - 1])) { contour_end = ntohs(contour_end_pt[j]); if (first) { fg_rmoveto(g, xcoord[i], ycoord[i]); xlast = xcoord[i]; ylast = ycoord[i]; contour_start = i; first = 0; } else if (flags[i] & ONOROFF) { fg_rlineto(g, xcoord[i], ycoord[i]); xlast = xcoord[i]; ylast = ycoord[i]; } else { cs = i - 1; finished = nguide = 0; while (!finished) { if (i == contour_end + 1) { ce = contour_start; finished = 1; } else if (flags[i] & ONOROFF) { ce = i; finished = 1; } else { i++; nguide++; } } switch (nguide) { case 0: fg_rlineto(g, xcoord[ce], ycoord[ce]); xlast = xcoord[ce]; ylast = ycoord[ce]; break; case 1: fg_rrcurveto(g, (xcoord[cs] + 2.0 * xcoord[cs + 1]) / 3.0, (ycoord[cs] + 2.0 * ycoord[cs + 1]) / 3.0, (2.0 * xcoord[cs + 1] + xcoord[ce]) / 3.0, (2.0 * ycoord[cs + 1] + ycoord[ce]) / 3.0, xcoord[ce], ycoord[ce] ); xlast = xcoord[ce]; ylast = ycoord[ce]; break; case 2: fg_rrcurveto(g, (-xcoord[cs] + 4.0 * xcoord[cs + 1]) / 3.0, (-ycoord[cs] + 4.0 * ycoord[cs + 1]) / 3.0, (4.0 * xcoord[cs + 2] - xcoord[ce]) / 3.0, (4.0 * ycoord[cs + 2] - ycoord[ce]) / 3.0, xcoord[ce], ycoord[ce] ); xlast = xcoord[ce]; ylast = ycoord[ce]; break; case 3: fg_rrcurveto(g, (xcoord[cs] + 2.0 * xcoord[cs + 1]) / 3.0, (ycoord[cs] + 2.0 * ycoord[cs + 1]) / 3.0, (5.0 * xcoord[cs + 1] + xcoord[cs + 2]) / 6.0, (5.0 * ycoord[cs + 1] + ycoord[cs + 2]) / 6.0, (xcoord[cs + 1] + xcoord[cs + 2]) / 2.0, (ycoord[cs + 1] + ycoord[cs + 2]) / 2.0 ); fg_rrcurveto(g, (xcoord[cs + 1] + 5.0 * xcoord[cs + 2]) / 6.0, (ycoord[cs + 1] + 5.0 * ycoord[cs + 2]) / 6.0, (5.0 * xcoord[cs + 2] + xcoord[cs + 3]) / 6.0, (5.0 * ycoord[cs + 2] + ycoord[cs + 3]) / 6.0, (xcoord[cs + 3] + xcoord[cs + 2]) / 2.0, (ycoord[cs + 3] + ycoord[cs + 2]) / 2.0 ); fg_rrcurveto(g, (xcoord[cs + 2] + 5.0 * xcoord[cs + 3]) / 6.0, (ycoord[cs + 2] + 5.0 * ycoord[cs + 3]) / 6.0, (2.0 * xcoord[cs + 3] + xcoord[ce]) / 3.0, (2.0 * ycoord[cs + 3] + ycoord[ce]) / 3.0, xcoord[ce], ycoord[ce] ); ylast = ycoord[ce]; xlast = xcoord[ce]; break; default: k1 = cs + nguide; fg_rrcurveto(g, (xcoord[cs] + 2.0 * xcoord[cs + 1]) / 3.0, (ycoord[cs] + 2.0 * ycoord[cs + 1]) / 3.0, (5.0 * xcoord[cs + 1] + xcoord[cs + 2]) / 6.0, (5.0 * ycoord[cs + 1] + ycoord[cs + 2]) / 6.0, (xcoord[cs + 1] + xcoord[cs + 2]) / 2.0, (ycoord[cs + 1] + ycoord[cs + 2]) / 2.0 ); for (k = cs + 2; k <= k1 - 1; k++) { fg_rrcurveto(g, (xcoord[k - 1] + 5.0 * xcoord[k]) / 6.0, (ycoord[k - 1] + 5.0 * ycoord[k]) / 6.0, (5.0 * xcoord[k] + xcoord[k + 1]) / 6.0, (5.0 * ycoord[k] + ycoord[k + 1]) / 6.0, (xcoord[k] + xcoord[k + 1]) / 2.0, (ycoord[k] + ycoord[k + 1]) / 2.0 ); } fg_rrcurveto(g, (xcoord[k1 - 1] + 5.0 * xcoord[k1]) / 6.0, (ycoord[k1 - 1] + 5.0 * ycoord[k1]) / 6.0, (2.0 * xcoord[k1] + xcoord[ce]) / 3.0, (2.0 * ycoord[k1] + ycoord[ce]) / 3.0, xcoord[ce], ycoord[ce] ); xlast = xcoord[ce]; ylast = ycoord[ce]; break; } } if (i >= contour_end) { g_closepath(g); first = 1; i = contour_end + 1; j++; } else { i++; } } if (matrix) { /* guess whether do we need to reverse the results */ double x[3], y[3]; int max = 0, from, to; /* transform a triangle going in proper direction */ /* * the origin of triangle is in (0,0) so we know it in * advance */ x[0] = y[0] = 0; x[1] = matrix[0] * 0 + matrix[2] * 300; y[1] = matrix[1] * 0 + matrix[3] * 300; x[2] = matrix[0] * 300 + matrix[2] * 0; y[2] = matrix[1] * 300 + matrix[3] * 0; /* then find the topmost point */ for (i = 0; i < 3; i++) if (y[i] > y[max]) max = i; from = (max + 3 - 1) % 3; to = (max + 1) % 3; needreverse = 0; /* special cases for horizontal lines */ if (y[max] == y[from]) { if (x[max] < y[from]) needreverse = 1; } else if (y[to] == y[from]) { if (x[to] < x[max]) needreverse = 1; } else { /* generic case */ if ((x[to] - x[max]) * (y[max] - y[from]) > (x[max] - x[from]) * (y[to] - y[max])) needreverse = 1; } if (needreverse) { if (lge) { assertpath(lge->next, __FILE__, __LINE__, g->name); reversepathsfromto(lge->next, NULL); } else { assertpath(g->entries, __FILE__, __LINE__, g->name); reversepaths(g); } } } } static double f2dot14( short x ) { short y = ntohs(x); return (y >> 14) + ((y & 0x3fff) / 16384.0); } /* check that the pointer points within the file */ /* returns 0 if pointer is good, 1 if bad */ static int badpointer( void *ptr ) { return (ptr < (void *)filebuffer || ptr >= (void *)filebuffer_end); } /* * Externally accessible methods */ /* * Open font and prepare to return information to the main driver. * May print error and warning messages. * Exit on error. */ static void openfont( char *fname, char *arg /* unused now */ ) { int i, j; struct stat statbuf; static struct { void **tbpp; /* pointer to pointer to the table */ char name[5]; /* table name */ char optional; /* flag: table may be missing */ } tables[] = { { (void **)&name_table, "name", 0 }, { (void **)&head_table, "head", 0 }, { (void **)&hhea_table, "hhea", 0 }, { (void **)&post_table, "post", 0 }, { (void **)&glyf_start, "glyf", 0 }, { (void **)&cmap_table, "cmap", 0 }, { (void **)&kern_table, "kern", 1 }, { (void **)&maxp_table, "maxp", 0 }, { (void **)&hmtx_table, "hmtx", 0 }, { (void **)&long_loca_table, "loca", 0 }, { NULL, "", 0 } /* end of table */ }; if (stat(fname, &statbuf) == -1) { fprintf(stderr, "**** Cannot access %s ****\n", fname); exit(1); } if ((filebuffer = malloc(statbuf.st_size)) == NULL) { fprintf(stderr, "**** Cannot malloc space for file ****\n"); exit(1); } filebuffer_end = filebuffer + statbuf.st_size; if ((ttf_file = fopen(fname, "rb")) == NULL) { fprintf(stderr, "**** Cannot open file '%s'\n", fname); exit(1); } else { WARNING_2 fprintf(stderr, "Processing file %s\n", fname); } if (fread(filebuffer, 1, statbuf.st_size, ttf_file) != statbuf.st_size) { fprintf(stderr, "**** Could not read whole file \n"); exit(1); } fclose(ttf_file); directory = (TTF_DIRECTORY *) filebuffer; if (ntohl(directory->sfntVersion) != 0x00010000) { fprintf(stderr, "**** Unknown File Version number [%x], or not a TrueType file\n", directory->sfntVersion); exit(1); } /* clear the tables */ for(j=0; tables[j].tbpp != NULL; j++) *(tables[j].tbpp) = NULL; dir_entry = &(directory->list); for (i = 0; i < ntohs(directory->numTables); i++) { for(j=0; tables[j].tbpp != NULL; j++) if (memcmp(dir_entry->tag, tables[j].name, 4) == 0) { *(tables[j].tbpp) = (void *) (filebuffer + ntohl(dir_entry->offset)); break; } if (memcmp(dir_entry->tag, "EBDT", 4) == 0 || memcmp(dir_entry->tag, "EBLC", 4) == 0 || memcmp(dir_entry->tag, "EBSC", 4) == 0) { WARNING_1 fprintf(stderr, "Font contains bitmaps\n"); } dir_entry++; } for(j=0; tables[j].tbpp != NULL; j++) if(!tables[j].optional && badpointer( *(tables[j].tbpp) )) { fprintf(stderr, "**** File contains no required table '%s'\n", tables[j].name); exit(1); } handle_name(); handle_head(); ttf_nglyphs = ntohs(maxp_table->numGlyphs); enc_found_ms = enc_found_mac = 0; } /* * Close font. * Exit on error. */ static void closefont( void ) { return; /* empty operation */ } /* * Get the number of glyphs in font. */ static int getnglyphs ( void ) { return ttf_nglyphs; } /* * Get the names of the glyphs. * Returns 0 if the names were assigned, non-zero if the font * provides no glyph names. */ static int glnames( GLYPH *glyph_list ) { int i, len, n, npost; unsigned int format; USHORT *name_index; char *ptr, *p; char **ps_name_ptr = (char **) malloc(ttf_nglyphs * sizeof(char *)); int n_ps_names; int ps_fmt_3 = 0; format = ntohl(post_table->formatType); if (format == 0x00010000) { for (i = 0; i < 258 && i < ttf_nglyphs; i++) { glyph_list[i].name = mac_glyph_names[i]; } } else if (format == 0x00020000) { npost = ntohs(post_table->numGlyphs); if (ttf_nglyphs != npost) { /* This is an error in the font, but we can now cope */ WARNING_1 fprintf(stderr, "**** Postscript table size mismatch %d/%d ****\n", npost, ttf_nglyphs); } n_ps_names = 0; name_index = &(post_table->glyphNameIndex); /* This checks the integrity of the post table */ for (i=0; i<npost; i++) { n = ntohs(name_index[i]); if (n > n_ps_names + 257) { n_ps_names = n - 257; } } ptr = (char *) post_table + 34 + (ttf_nglyphs << 1); i = 0; while (*ptr > 0 && i < n_ps_names) { len = *ptr; /* previously the program wrote nulls into the table. If the table was corrupt, this could put zeroes anywhere, leading to obscure bugs, so now I malloc space for the names. Yes it is much less efficient */ if ((p = malloc(len+1)) == NULL) { fprintf (stderr, "****malloc failed %s line %d\n", __FILE__, __LINE__); exit(255); } ps_name_ptr[i] = p; strncpy(p, ptr+1, len); p[len] = '\0'; i ++; ptr += len + 1; } if (i != n_ps_names) { WARNING_2 fprintf (stderr, "** Postscript Name mismatch %d != %d **\n", i, n_ps_names); n_ps_names = i; } /* * for (i=0; i<n_ps_names; i++) { fprintf(stderr, "i=%d, * len=%d, name=%s\n", i, ps_name_len[i], ps_name_ptr[i]); } */ for (i = 0; i < npost; i++) { n = ntohs(name_index[i]); if (n < 258) { glyph_list[i].name = mac_glyph_names[n]; } else if (n < 258 + n_ps_names) { glyph_list[i].name = ps_name_ptr[n - 258]; } else { glyph_list[i].name = malloc(16); sprintf(glyph_list[i].name, "_g_%d", i); WARNING_2 fprintf(stderr, "Glyph No. %d has no postscript name, becomes %s\n", i, glyph_list[i].name); } } /* Now fake postscript names for all those beyond the end of the table */ if (npost < ttf_nglyphs) { for (i=npost; i<ttf_nglyphs; i++) { if ((glyph_list[i].name = malloc(16)) == NULL) { fprintf (stderr, "****malloc failed %s line %d\n", __FILE__, __LINE__); exit(255); } sprintf(glyph_list[i].name, "_g_%d", i); WARNING_2 fprintf(stderr, "Glyph No. %d has no postscript name, becomes %s\n", i, glyph_list[i].name); } } } else if (format == 0x00030000) { WARNING_3 fputs("No postscript table, using default\n", stderr); ps_fmt_3 = 1; } else if (format == 0x00028000) { ptr = (char *) &(post_table->numGlyphs); for (i = 0; i < ttf_nglyphs; i++) { glyph_list[i].name = mac_glyph_names[i + ptr[i]]; } } else { fprintf(stderr, "**** Postscript table in wrong format %x ****\n", format); exit(1); } return ps_fmt_3; } /* * Get the metrics of the glyphs. */ static void glmetrics( GLYPH *glyph_list ) { int i; int n_hmetrics = ntohs(hhea_table->numberOfHMetrics); GLYPH *g; LONGHORMETRIC *hmtx_entry = hmtx_table; FWORD *lsblist; for (i = 0; i < n_hmetrics; i++) { g = &(glyph_list[i]); g->width = ntohs(hmtx_entry->advanceWidth); g->lsb = ntohs(hmtx_entry->lsb); hmtx_entry++; } lsblist = (FWORD *) hmtx_entry; hmtx_entry--; for (i = n_hmetrics; i < ttf_nglyphs; i++) { g = &(glyph_list[i]); g->width = ntohs(hmtx_entry->advanceWidth); g->lsb = ntohs(lsblist[i - n_hmetrics]); } for (i = 0; i < ttf_nglyphs; i++) { g = &(glyph_list[i]); get_glyf_table(i, &glyf_table, &g->ttf_pathlen); g->xMin = (short)ntohs(glyf_table->xMin); g->xMax = (short)ntohs(glyf_table->xMax); g->yMin = (short)ntohs(glyf_table->yMin); g->yMax = (short)ntohs(glyf_table->yMax); } } static void handle_ms_encoding( GLYPH *glyph_list, int *encoding, int *unimap ) { int i, j, k, kk, set_ok; USHORT start, end, ro; short delta, n; for (j = 0; j < cmap_n_segs - 1; j++) { start = ntohs(cmap_seg_start[j]); end = ntohs(cmap_seg_end[j]); delta = ntohs(cmap_idDelta[j]); ro = ntohs(cmap_idRangeOffset[j]); for (k = start; k <= end; k++) { if (ro == 0) { n = k + delta; } else { n = ntohs(*((ro >> 1) + (k - start) + &(cmap_idRangeOffset[j]))); if (delta != 0) { /* Not exactly sure how to deal with this circumstance, I suspect it never occurs */ n += delta; fprintf (stderr, "rangeoffset and delta both non-zero - %d/%d", ro, delta); } } if(n<0 || n>=ttf_nglyphs) { WARNING_1 fprintf(stderr, "Font contains a broken glyph code mapping, ignored\n"); continue; } // Find the first available orig_code slot for (i = 0; i < GLYPH_MAX_ENCODINGS; i++ ) { if ( glyph_list[n].orig_code[i] == -1 ) break; } if ( i == GLYPH_MAX_ENCODINGS ) { //#if 0 if (strcmp(glyph_list[n].name, ".notdef") != 0) { WARNING_2 fprintf(stderr, "Glyph %s has >= %d encodings (A), %4.4x & %4.4x\n", glyph_list[n].name, GLYPH_MAX_ENCODINGS, glyph_list[n].orig_code[0], k); } //#endif set_ok = 0; break; } else { set_ok = 1; } if (enc_type==1 || forcemap) { kk = unicode_rev_lookup(k); if(ISDBG(UNICODE)) fprintf(stderr, "Unicode %s - 0x%04x\n",glyph_list[n].name,k); if (set_ok) { glyph_list[n].orig_code[i] = k; /* glyph_list[n].char_no = kk; */ } if (kk >= 0 && kk < ENCTABSZ && encoding[kk] == -1) encoding[kk] = n; } else { if ((k & 0xff00) == 0xf000) { if( encoding[k & 0x00ff] == -1 ) { encoding[k & 0x00ff] = n; if (set_ok) { /* glyph_list[n].char_no = k & 0x00ff; */ glyph_list[n].orig_code[i] = k; } } } else { if (set_ok) { /* glyph_list[n].char_no = k; */ glyph_list[n].orig_code[i] = k; } WARNING_2 fprintf(stderr, "Glyph %s has non-symbol encoding %4.4x\n", glyph_list[n].name, k & 0xffff); /* * just use the code * as it is */ if ((k & ~0xff) == 0 && encoding[k] == -1 ) encoding[k] = n; } } } } } static void handle_mac_encoding( GLYPH *glyph_list, int *encoding, int *unimap ) { short n; int j, size; size = ntohs(encoding0->length) - 6; for (j = 0; j < size; j++) { n = encoding0->glyphIdArray[j]; if (glyph_list[n].char_no != -1) { WARNING_2 fprintf(stderr, "Glyph %s has >= two encodings (B), %4.4x & %4.4x\n", glyph_list[n].name, glyph_list[n].char_no, j); } else { if (j < ENCTABSZ) { if(encoding[j] == -1) { glyph_list[n].char_no = j; encoding[j] = n; } } } } } /* * Get the original encoding of the font. * Returns 1 for if the original encoding is Unicode, 2 if the * original encoding is other 16-bit, 0 if 8-bit. */ static int glenc( GLYPH *glyph_list, int *encoding, int *unimap ) { int num_tables = ntohs(cmap_table->numberOfEncodingTables); BYTE *ptr; int i, format, offset, seg_c2, found; int platform, encoding_id; TTF_CMAP_ENTRY *table_entry; TTF_CMAP_FMT4 *encoding4; if(enc_found_ms) { handle_ms_encoding(glyph_list, encoding, unimap); return enc_type; } else if(enc_found_mac) { handle_mac_encoding(glyph_list, encoding, unimap); return 0; } enc_type = 0; found = 0; for (i = 0; i < num_tables && !found; i++) { table_entry = &(cmap_table->encodingTable[i]); offset = ntohl(table_entry->offset); encoding4 = (TTF_CMAP_FMT4 *) ((BYTE *) cmap_table + offset); format = ntohs(encoding4->format); platform = ntohs(table_entry->platformID); encoding_id = ntohs(table_entry->encodingID); if (format != 4) continue; if(force_pid != -1) { if(force_pid != platform || encoding_id != force_eid) continue; WARNING_1 fprintf(stderr, "Found Encoding PID=%d/EID=%d\n", force_pid, force_eid); enc_type = 1; } else { if (platform == 3 ) { switch (encoding_id) { case 0: WARNING_1 fputs("Found Symbol Encoding\n", stderr); break; case 1: WARNING_1 fputs("Found Unicode Encoding\n", stderr); enc_type = 1; break; default: WARNING_1 { fprintf(stderr, "****MS Encoding ID %d not supported****\n", encoding_id); fputs("Treating it like Symbol encoding\n", stderr); } break; } } else continue; } found = 1; seg_c2 = ntohs(encoding4->segCountX2); cmap_n_segs = seg_c2 >> 1; ptr = (BYTE *) encoding4 + 14; cmap_seg_end = (USHORT *) ptr; cmap_seg_start = (USHORT *) (ptr + seg_c2 + 2); cmap_idDelta = (short *) (ptr + (seg_c2 * 2) + 2); cmap_idRangeOffset = (short *) (ptr + (seg_c2 * 3) + 2); enc_found_ms = 1; handle_ms_encoding(glyph_list, encoding, unimap); } if (!found && force_pid == -1) { WARNING_1 fputs("No Microsoft encoding, looking for MAC encoding\n", stderr); for (i = 0; i < num_tables && !found; i++) { table_entry = &(cmap_table->encodingTable[i]); offset = ntohl(table_entry->offset); encoding0 = (TTF_CMAP_FMT0 *) ((BYTE *) cmap_table + offset); format = ntohs(encoding0->format); platform = ntohs(table_entry->platformID); encoding_id = ntohs(table_entry->encodingID); if (format == 0) { found = 1; enc_found_mac = 1; handle_mac_encoding(glyph_list, encoding, unimap); } } } if (!found && force_pid == -1) { WARNING_1 fputs("No MAC encoding either, looking for any format 4 encoding\n", stderr); for (i = 0; i < num_tables && !found; i++) { table_entry = &(cmap_table->encodingTable[i]); offset = ntohl(table_entry->offset); encoding4 = (TTF_CMAP_FMT4 *) ((BYTE *) cmap_table + offset); format = ntohs(encoding4->format); platform = ntohs(table_entry->platformID); encoding_id = ntohs(table_entry->encodingID); if (format != 4) continue; WARNING_1 fprintf(stderr, "Found a last ditch encoding PID=%d/EID=%d, treating it as Unicode.\n", platform, encoding_id); found = 1; enc_type = 1; seg_c2 = ntohs(encoding4->segCountX2); cmap_n_segs = seg_c2 >> 1; ptr = (BYTE *) encoding4 + 14; cmap_seg_end = (USHORT *) ptr; cmap_seg_start = (USHORT *) (ptr + seg_c2 + 2); cmap_idDelta = (short *) (ptr + (seg_c2 * 2) + 2); cmap_idRangeOffset = (short *) (ptr + (seg_c2 * 3) + 2); enc_found_ms = 1; handle_ms_encoding(glyph_list, encoding, unimap); } } if (!found) { if(force_pid != -1) { fprintf(stderr, "*** TTF encoding table PID=%d/EID=%d not found\n", force_pid, force_eid); } fprintf(stderr, "**** No Recognised Encoding Table ****\n"); if(warnlevel >= 2) { fprintf(stderr, "Font contains the following unsupported encoding tables:\n"); for (i = 0; i < num_tables && !found; i++) { table_entry = &(cmap_table->encodingTable[i]); offset = ntohl(table_entry->offset); encoding0 = (TTF_CMAP_FMT0 *) ((BYTE *) cmap_table + offset); format = ntohs(encoding0->format); platform = ntohs(table_entry->platformID); encoding_id = ntohs(table_entry->encodingID); fprintf(stderr, " format=%d platform=%d encoding_id=%d\n", format, platform, encoding_id); } } exit(1); } return enc_type; } /* * Get the font metrics */ static void fnmetrics( struct font_metrics *fm ) { char *str; static int fieldstocheck[]= {2,4,6}; int i, j, len; fm->italic_angle = (short) (ntohs(post_table->italicAngle.upper)) + ((short) ntohs(post_table->italicAngle.lower) / 65536.0); fm->underline_position = (short) ntohs(post_table->underlinePosition); fm->underline_thickness = (short) ntohs(post_table->underlineThickness); fm->is_fixed_pitch = ntohl(post_table->isFixedPitch); fm->ascender = (short)ntohs(hhea_table->ascender); fm->descender = (short)ntohs(hhea_table->descender); fm->units_per_em = ntohs(head_table->unitsPerEm); fm->bbox[0] = (short) ntohs(head_table->xMin); fm->bbox[1] = (short) ntohs(head_table->yMin); fm->bbox[2] = (short) ntohs(head_table->xMax); fm->bbox[3] = (short) ntohs(head_table->yMax); fm->name_copyright = name_fields[0]; fm->name_family = name_fields[1]; fm->name_style = name_fields[2]; fm->name_full = name_fields[4]; fm->name_version = name_fields[5]; fm->name_ps = name_fields[6]; /* guess the boldness from the font names */ fm->force_bold=0; for(i=0; !fm->force_bold && i<sizeof fieldstocheck /sizeof(int); i++) { str = name_fields[fieldstocheck[i]]; len = strlen(str); for(j=0; j<len; j++) { if( (str[j]=='B' || str[j]=='b' && ( j==0 || !isalpha(str[j-1]) ) ) && !strncmp("old",&str[j+1],3) && (j+4 >= len || !islower(str[j+4])) ) { fm->force_bold=1; break; } } } } /* * Get the path of contrours for a glyph. */ static void glpath( int glyphno, GLYPH *glyf_list ) { double matrix[6]; GLYPH *g; g = &glyph_list[glyphno]; matrix[0] = matrix[3] = 1.0; matrix[1] = matrix[2] = matrix[4] = matrix[5] = 0.0; draw_composite_glyf(g, glyf_list, glyphno, matrix, 0 /*level*/); } /* * Get the kerning data. */ static void kerning( GLYPH *glyph_list ) { TTF_KERN_SUB *subtable; TTF_KERN_ENTRY *kern_entry; int i, j; int ntables; int npairs; char *ptr; if(kern_table == NULL) { WARNING_1 fputs("No Kerning data\n", stderr); return; } if(badpointer(kern_table)) { fputs("**** Defective Kerning table, ignored\n", stderr); return; } ntables = ntohs(kern_table->nTables); ptr = (char *) kern_table + 4; for (i = 0; i < ntables; i++) { subtable = (TTF_KERN_SUB *) ptr; if ((ntohs(subtable->coverage) & 0xff00) == 0) { npairs = (short) ntohs(subtable->nPairs); kern_entry = (TTF_KERN_ENTRY *) (ptr + sizeof(TTF_KERN_SUB)); kern_entry = (TTF_KERN_ENTRY *) (ptr + sizeof(TTF_KERN_SUB)); for (j = 0; j < npairs; j++) { if( kern_entry->value != 0) addkernpair(ntohs(kern_entry->left), ntohs(kern_entry->right), (short)ntohs(kern_entry->value)); kern_entry++; } } ptr += subtable->length; } }