/* Copyright 1996-2018 Han The Thanh This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "ptexlib.h" #include #include #define t1_log(str) tex_printf("%s",str) #define get_length1() t1_length1 = t1_offset() - t1_save_offset #define get_length2() t1_length2 = t1_offset() - t1_save_offset #define get_length3() t1_length3 = fixedcontent? t1_offset() - t1_save_offset : 0 #define save_offset() t1_save_offset = t1_offset() #define t1_open() open_input(&t1_file, kpse_type1_format, FOPEN_RBIN_MODE) #define t1_close() xfclose(t1_file, cur_file_name) #define t1_getchar() getc(t1_file) #define t1_putchar fb_putchar #define t1_offset fb_offset #define t1_ungetchar(c) ungetc(c, t1_file) #define t1_eof() feof(t1_file) #define t1_prefix(s) str_prefix(t1_line_array, s) #define t1_buf_prefix(s) str_prefix(t1_buf_array, s) #define t1_suffix(s) str_suffix(t1_line_array, t1_line_ptr, s) #define t1_buf_suffix(s) str_suffix(t1_buf_array, t1_buf_ptr, s) #define t1_charstrings() strstr(t1_line_array, charstringname) #define t1_subrs() t1_prefix("/Subrs") #define t1_end_eexec() t1_suffix("mark currentfile closefile") #define t1_cleartomark() t1_prefix("cleartomark") #define enc_open() open_input(&enc_file, kpse_enc_format, FOPEN_RBIN_MODE) #define enc_close() xfclose(enc_file, cur_file_name) #define enc_getchar() getc(enc_file) #define enc_eof() feof(enc_file) #define valid_code(c) (c >= 0 && c < 256) #define fixedcontent false /* false for pdfTeX, true for dvips */ static const char *standard_glyph_names[256] = { /* 0x00 */ notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, /* 0x10 */ notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, /* 0x20 */ "space", "exclam", "quotedbl", "numbersign", "dollar", "percent", "ampersand", "quoteright", "parenleft", "parenright", "asterisk", "plus", "comma", "hyphen", "period", "slash", /* 0x30 */ "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "colon", "semicolon", "less", "equal", "greater", "question", /* 0x40 */ "at", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", /* 0x50 */ "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", "bracketleft", "backslash", "bracketright", "asciicircum", "underscore", /* 0x60 */ "quoteleft", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", /* 0x70 */ "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z", "braceleft", "bar", "braceright", "asciitilde", notdef, /* 0x80 */ notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, /* 0x90 */ notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, /* 0xa0 */ notdef, "exclamdown", "cent", "sterling", "fraction", "yen", "florin", "section", "currency", "quotesingle", "quotedblleft", "guillemotleft", "guilsinglleft", "guilsinglright", "fi", "fl", /* 0xb0 */ notdef, "endash", "dagger", "daggerdbl", "periodcentered", notdef, "paragraph", "bullet", "quotesinglbase", "quotedblbase", "quotedblright", "guillemotright", "ellipsis", "perthousand", notdef, "questiondown", /* 0xc0 */ notdef, "grave", "acute", "circumflex", "tilde", "macron", "breve", "dotaccent", "dieresis", notdef, "ring", "cedilla", notdef, "hungarumlaut", "ogonek", "caron", /* 0xd0 */ "emdash", notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, /* 0xe0 */ notdef, "AE", notdef, "ordfeminine", notdef, notdef, notdef, notdef, "Lslash", "Oslash", "OE", "ordmasculine", notdef, notdef, notdef, notdef, /* 0xf0 */ notdef, "ae", notdef, notdef, notdef, "dotlessi", notdef, notdef, "lslash", "oslash", "oe", "germandbls", notdef, notdef, notdef, notdef }; integer t1_length1, t1_length2, t1_length3; static integer t1_save_offset; static integer t1_fontname_offset; static fd_entry *fd_cur; static char charstringname[] = "/CharStrings"; enum { ENC_STANDARD, ENC_BUILTIN } t1_encoding; #define T1_BUF_SIZE 0x10 #define ENC_BUF_SIZE 0x1000 #define CS_HSTEM 1 #define CS_VSTEM 3 #define CS_VMOVETO 4 #define CS_RLINETO 5 #define CS_HLINETO 6 #define CS_VLINETO 7 #define CS_RRCURVETO 8 #define CS_CLOSEPATH 9 #define CS_CALLSUBR 10 #define CS_RETURN 11 #define CS_ESCAPE 12 #define CS_HSBW 13 #define CS_ENDCHAR 14 #define CS_RMOVETO 21 #define CS_HMOVETO 22 #define CS_VHCURVETO 30 #define CS_HVCURVETO 31 #define CS_1BYTE_MAX (CS_HVCURVETO + 1) #define CS_DOTSECTION CS_1BYTE_MAX + 0 #define CS_VSTEM3 CS_1BYTE_MAX + 1 #define CS_HSTEM3 CS_1BYTE_MAX + 2 #define CS_SEAC CS_1BYTE_MAX + 6 #define CS_SBW CS_1BYTE_MAX + 7 #define CS_DIV CS_1BYTE_MAX + 12 #define CS_CALLOTHERSUBR CS_1BYTE_MAX + 16 #define CS_POP CS_1BYTE_MAX + 17 #define CS_SETCURRENTPOINT CS_1BYTE_MAX + 33 #define CS_2BYTE_MAX (CS_SETCURRENTPOINT + 1) #define CS_MAX CS_2BYTE_MAX typedef unsigned char byte; typedef struct { byte nargs; /* number of arguments */ boolean bottom; /* take arguments from bottom of stack? */ boolean clear; /* clear stack? */ boolean valid; } cc_entry; /* CharString Command */ typedef struct { char *name; /* glyph name (or notdef for Subrs entry) */ byte *data; unsigned short len; /* length of the whole string */ unsigned short cslen; /* length of the encoded part of the string */ boolean used; boolean valid; } cs_entry; static unsigned short t1_dr, t1_er; static const unsigned short t1_c1 = 52845, t1_c2 = 22719; static unsigned short t1_cslen; static short t1_lenIV; static char enc_line[ENC_BUF_SIZE]; /* define t1_line_ptr, t1_line_array & t1_line_limit */ typedef char t1_line_entry; define_array(t1_line); /* define t1_buf_ptr, t1_buf_array & t1_buf_limit */ typedef char t1_buf_entry; define_array(t1_buf); static int cs_start; static cs_entry *cs_tab, *cs_ptr, *cs_notdef; static char *cs_dict_start, *cs_dict_end; static int cs_count, cs_size, cs_size_pos; static cs_entry *subr_tab; static char *subr_array_start, *subr_array_end; static int subr_max, subr_size, subr_size_pos; /* This list contains the begin/end tokens commonly used in the */ /* /Subrs array of a Type 1 font. */ static const char *cs_token_pairs_list[][2] = { {" RD", "NP"}, {" -|", "|"}, {" RD", "noaccess put"}, {" -|", "noaccess put"}, {NULL, NULL} }; static const char **cs_token_pair; static boolean t1_pfa, t1_cs, t1_scan, t1_eexec_encrypt, t1_synthetic; static int t1_in_eexec; /* 0 before eexec-encrypted, 1 during, 2 after */ static long t1_block_length; static int last_hexbyte; static FILE *t1_file; static FILE *enc_file; static void enc_getline(void) { char *p; int c; restart: if (enc_eof()) pdftex_fail("unexpected end of file"); p = enc_line; do { c = enc_getchar(); append_char_to_buf(c, p, enc_line, ENC_BUF_SIZE); } while (c != 10); append_eol(p, enc_line, ENC_BUF_SIZE); if (p - enc_line < 2 || *enc_line == '%') goto restart; } /* read encoding from .enc file, return glyph_names array, or pdffail() */ char **load_enc_file(char *enc_name) { char buf[ENC_BUF_SIZE], *p, *r; int i, names_count; char **glyph_names; set_cur_file_name(enc_name); if (!enc_open()) { pdftex_fail("cannot open encoding file for reading"); } glyph_names = xtalloc(256, char *); for (i = 0; i < 256; i++) glyph_names[i] = notdef; t1_log("{"); t1_log(cur_file_name = (char *) nameoffile + 1); enc_getline(); if (*enc_line != '/' || (r = strchr(enc_line, '[')) == NULL) { remove_eol(r, enc_line); pdftex_fail ("invalid encoding vector (a name or `[' missing): `%s'", enc_line); } names_count = 0; r++; /* skip '[' */ skip(r, ' '); for (;;) { while (*r == '/') { for (p = buf, r++; *r != ' ' && *r != 10 && *r != ']' && *r != '/'; *p++ = *r++); *p = 0; skip(r, ' '); if (names_count > 255) pdftex_fail("encoding vector contains more than 256 names"); if (strcmp(buf, notdef) != 0) glyph_names[names_count] = xstrdup(buf); names_count++; } if (*r != 10 && *r != '%') { if (str_prefix(r, "] def")) goto done; else { remove_eol(r, enc_line); pdftex_fail ("invalid encoding vector: a name or `] def' expected: `%s'", enc_line); } } enc_getline(); r = enc_line; } done: enc_close(); t1_log("}"); cur_file_name = NULL; return glyph_names; } static void t1_check_pfa(void) { const int c = t1_getchar(); t1_pfa = (c != 128) ? true : false; t1_ungetchar(c); } static int t1_getbyte(void) { int c = t1_getchar(); if (t1_pfa) return c; if (t1_block_length == 0) { if (c != 128) pdftex_fail("invalid marker"); c = t1_getchar(); if (c == 3) { while (!t1_eof()) t1_getchar(); return EOF; } t1_block_length = t1_getchar() & 0xff; t1_block_length |= (t1_getchar() & 0xff) << 8; t1_block_length |= (t1_getchar() & 0xff) << 16; t1_block_length |= (t1_getchar() & 0xff) << 24; c = t1_getchar(); } t1_block_length--; return c; } static int hexval(int c) { if (c >= 'A' && c <= 'F') return c - 'A' + 10; else if (c >= 'a' && c <= 'f') return c - 'a' + 10; else if (c >= '0' && c <= '9') return c - '0'; else return -1; } static byte edecrypt(byte cipher) { byte plain; if (t1_pfa) { while (cipher == 10 || cipher == 13) cipher = t1_getbyte(); last_hexbyte = cipher = (hexval(cipher) << 4) + hexval(t1_getbyte()); } plain = (cipher ^ (t1_dr >> 8)); t1_dr = (cipher + t1_dr) * t1_c1 + t1_c2; return plain; } static byte cdecrypt(byte cipher, unsigned short *cr) { const byte plain = (cipher ^ (*cr >> 8)); *cr = (cipher + *cr) * t1_c1 + t1_c2; return plain; } static byte eencrypt(byte plain) { const byte cipher = (plain ^ (t1_er >> 8)); t1_er = (cipher + t1_er) * t1_c1 + t1_c2; return cipher; } static byte cencrypt(byte plain, unsigned short *cr) { const byte cipher = (plain ^ (*cr >> 8)); *cr = (cipher + *cr) * t1_c1 + t1_c2; return cipher; } static char *eol(char *s) { char *p = strend(s); if (p - s > 1 && p[-1] != 10) { *p++ = 10; *p = 0; } return p; } static float t1_scan_num(char *p, char **r) { float f; skip(p, ' '); if (sscanf(p, "%g", &f) != 1) { remove_eol(p, t1_line_array); pdftex_fail("a number expected: `%s'", t1_line_array); } if (r != NULL) { for (; isdigit((unsigned char)*p) || *p == '.' || *p == 'e' || *p == 'E' || *p == '+' || *p == '-'; p++); *r = p; } return f; } static boolean str_suffix(const char *begin_buf, const char *end_buf, const char *s) { const char *s1 = end_buf - 1, *s2 = strend(s) - 1; if (*s1 == 10) s1--; while (s1 >= begin_buf && s2 >= s) { if (*s1-- != *s2--) return false; } return s2 < s; } static void t1_getline(void) { int c, l, eexec_scan; char *p; static const char eexec_str[] = "currentfile eexec"; static int eexec_len = 17; /* strlen(eexec_str) */ restart: if (t1_eof()) pdftex_fail("unexpected end of file"); t1_line_ptr = t1_line_array; alloc_array(t1_line, 1, T1_BUF_SIZE); t1_cslen = 0; eexec_scan = 0; c = t1_getbyte(); if (c == EOF) goto exit; while (!t1_eof()) { if (t1_in_eexec == 1) c = edecrypt((byte)c); alloc_array(t1_line, 1, T1_BUF_SIZE); append_char_to_buf(c, t1_line_ptr, t1_line_array, t1_line_limit); if (t1_in_eexec == 0 && eexec_scan >= 0 && eexec_scan < eexec_len) { if (t1_line_array[eexec_scan] == eexec_str[eexec_scan]) eexec_scan++; else eexec_scan = -1; } if (c == 10 || (t1_pfa && eexec_scan == eexec_len && c == 32)) break; if (t1_cs && t1_cslen == 0 && (t1_line_ptr - t1_line_array > 4) && (t1_suffix(" RD ") || t1_suffix(" -| "))) { p = t1_line_ptr - 5; while (*p != ' ') p--; t1_cslen = l = t1_scan_num(p + 1, 0); cs_start = t1_line_ptr - t1_line_array; /* cs_start is an index now */ alloc_array(t1_line, l, T1_BUF_SIZE); while (l-- > 0) *t1_line_ptr++ = edecrypt((byte)t1_getbyte()); } c = t1_getbyte(); } alloc_array(t1_line, 2, T1_BUF_SIZE); /* append_eol can append 2 chars */ append_eol(t1_line_ptr, t1_line_array, t1_line_limit); if (t1_line_ptr - t1_line_array < 2) goto restart; if (eexec_scan == eexec_len) t1_in_eexec = 1; exit: /* ensure that t1_buf_array has as much room as t1_line_array */ t1_buf_ptr = t1_buf_array; alloc_array(t1_buf, t1_line_limit, t1_line_limit); } static void t1_putline(void) { char *p = t1_line_array; if (t1_line_ptr - t1_line_array <= 1) return; if (t1_eexec_encrypt) { while (p < t1_line_ptr) t1_putchar(eencrypt(*p++)); } else while (p < t1_line_ptr) t1_putchar(*p++); } static void t1_puts(const char *s) { if (s != t1_line_array) strcpy(t1_line_array, s); t1_line_ptr = strend(t1_line_array); t1_putline(); } __attribute__ ((format(printf, 1, 2))) static void t1_printf(const char *fmt, ...) { va_list args; va_start(args, fmt); vsprintf(t1_line_array, fmt, args); t1_puts(t1_line_array); va_end(args); } static void t1_init_params(const char *open_name_prefix) { t1_log(open_name_prefix); t1_log(cur_file_name); t1_lenIV = 4; t1_dr = 55665; t1_er = 55665; t1_in_eexec = 0; t1_cs = false; t1_scan = true; t1_synthetic = false; t1_eexec_encrypt = false; t1_block_length = 0; t1_check_pfa(); } static void t1_close_font_file(const char *close_name_suffix) { t1_log(close_name_suffix); t1_close(); cur_file_name = NULL; } static void t1_check_block_len(boolean decrypt) { int l, c; if (t1_block_length == 0) return; c = t1_getbyte(); if (decrypt) c = edecrypt((byte)c); l = t1_block_length; if (!(l == 0 && (c == 10 || c == 13))) { pdftex_fail("%i bytes more than expected", l + 1); } } static void t1_start_eexec(void) { int i; assert(is_included(fd_cur->fm)); get_length1(); save_offset(); if (!t1_pfa) t1_check_block_len(false); for (t1_line_ptr = t1_line_array, i = 0; i < 4; i++) { edecrypt((byte)t1_getbyte()); *t1_line_ptr++ = 0; } t1_eexec_encrypt = true; t1_putline(); /* to put the first four bytes */ } static void t1_stop_eexec(void) { int c; assert(is_included(fd_cur->fm)); get_length2(); save_offset(); t1_eexec_encrypt = false; if (!t1_pfa) t1_check_block_len(true); else { c = edecrypt((byte)t1_getbyte()); if (!(c == 10 || c == 13)) { if (last_hexbyte == 0) t1_puts("00"); else pdftex_fail("unexpected data after eexec"); } } t1_cs = false; t1_in_eexec = 2; } /* macros for various transforms; currently only slant and extend are used */ #define do_xshift(x,a) {x[4]+=a;} #define do_yshift(x,a) {x[5]+=a;} #define do_xscale(x,a) {x[0]*=a; x[2]*=a; x[4]*=a;} #define do_yscale(x,a) {x[1]*=a; x[3]*=a; x[5]*=a;} #define do_extend(x,a) {do_xscale(x,a);} #define do_scale(x,a) {do_xscale(x,a); do_yscale(x,a);} #define do_slant(x,a) {x[0]+=x[1]*(a); x[2]+=x[3]*(a); x[4]+=x[5]*(a);} #define do_shear(x,a) {x[1]+=x[0]*(a); x[3]+=x[2]*(a); x[5]+=x[4]*(a);} #define do_rotate(x,a) \ {float t, u=cos(a), v=sin(a); \ t =x[0]*u+x[1]*-v; \ x[1] =x[0]*v+x[1]* u; x[0]=t; \ t =x[2]*u+x[3]*-v; \ x[3] =x[2]*v+x[3]* u; x[2]=t; \ t =x[4]*u+x[5]*-v; \ x[5] =x[4]*v+x[5]* u; x[4]=t;} static void t1_modify_fm(void) { /* * font matrix is given as six numbers a0..a5, which stands for the matrix * * a0 a1 0 * M = a2 a3 0 * a4 a5 1 * * ExtendFont is given as * * e 0 0 * E = 0 1 0 * 0 0 1 * * SlantFont is given as * * 1 0 0 * S = s 1 0 * 0 0 1 * * The slant transform must be done _before_ the extend transform * for compatibility! */ float a[6]; int i, c; char *p, *q, *r; if ((p = strchr(t1_line_array, '[')) == 0) if ((p = strchr(t1_line_array, '{')) == 0) { remove_eol(p, t1_line_array); pdftex_fail("FontMatrix: an array expected: `%s'", t1_line_array); } c = *p++; /* save the character '[' resp. '{' */ strncpy(t1_buf_array, t1_line_array, (size_t) (p - t1_line_array)); r = t1_buf_array + (p - t1_line_array); for (i = 0; i < 6; i++) { a[i] = t1_scan_num(p, &q); p = q; } if (fm_slant(fd_cur->fm) != 0) do_slant(a, fm_slant(fd_cur->fm) * 1E-3); if (fm_extend(fd_cur->fm) != 0) do_extend(a, fm_extend(fd_cur->fm) * 1E-3); for (i = 0; i < 6; i++) { sprintf(r, "%g ", a[i]); r = strend(r); } if (c == '[') { while (*p != ']' && *p != 0) p++; } else { while (*p != '}' && *p != 0) p++; } if (*p == 0) { remove_eol(p, t1_line_array); pdftex_fail ("FontMatrix: cannot find the corresponding character to '%c': `%s'", c, t1_line_array); } strcpy(r, p); strcpy(t1_line_array, t1_buf_array); t1_line_ptr = eol(t1_line_array); } static void t1_modify_italic(void) { float a; char *p, *r; if (fm_slant(fd_cur->fm) == 0) return; p = strchr(t1_line_array, ' '); strncpy(t1_buf_array, t1_line_array, (size_t) (p - t1_line_array + 1)); a = t1_scan_num(p + 1, &r); a -= atan(fm_slant(fd_cur->fm) * 1E-3) * (180 / M_PI); sprintf(t1_buf_array + (p - t1_line_array + 1), "%g", a); strcpy(strend(t1_buf_array), r); strcpy(t1_line_array, t1_buf_array); t1_line_ptr = eol(t1_line_array); fd_cur->font_dim[ITALIC_ANGLE_CODE].val = round(a); fd_cur->font_dim[ITALIC_ANGLE_CODE].set = true; } static void t1_scan_keys(void) { int i, k; char *p, *q, *r; const key_entry *key; if (fm_extend(fd_cur->fm) != 0 || fm_slant(fd_cur->fm) != 0) { if (t1_prefix("/FontMatrix")) { t1_modify_fm(); return; } if (t1_prefix("/ItalicAngle")) { t1_modify_italic(); return; } } if (t1_prefix("/FontType")) { p = t1_line_array + strlen("FontType") + 1; if ((i = t1_scan_num(p, 0)) != 1) pdftex_fail("Type%d fonts unsupported by pdfTeX", i); return; } for (key = font_key; key - font_key < FONT_KEYS_NUM; key++) { if (key->t1name[0] != '\0' && str_prefix(t1_line_array + 1, key->t1name)) break; } if (key - font_key == FONT_KEYS_NUM) return; p = t1_line_array + strlen(key->t1name) + 1; skip(p, ' '); if ((k = key - font_key) == FONTNAME_CODE) { if (*p != '/') { remove_eol(p, t1_line_array); pdftex_fail("a name expected: `%s'", t1_line_array); } r = ++p; /* skip the slash */ for (q = t1_buf_array; *p != ' ' && *p != 10; *q++ = *p++); *q = 0; if (fm_slant(fd_cur->fm) != 0) { sprintf(q, "-Slant_%i", (int) fm_slant(fd_cur->fm)); q = strend(q); } if (fm_extend(fd_cur->fm) != 0) { sprintf(q, "-Extend_%i", (int) fm_extend(fd_cur->fm)); } xfree(fd_cur->fontname); fd_cur->fontname = xstrdup(t1_buf_array); /* at this moment we cannot call make_subset_tag() yet, as the encoding * is not read; thus we mark the offset of the subset tag and write it * later */ if (is_subsetted(fd_cur->fm)) { assert(is_included(fd_cur->fm)); t1_fontname_offset = t1_offset() + (r - t1_line_array); strcpy(t1_buf_array, p); sprintf(r, "ABCDEF+%s%s", fd_cur->fontname, t1_buf_array); t1_line_ptr = eol(r); } return; } if ((k == STEMV_CODE || k == FONTBBOX1_CODE) && (*p == '[' || *p == '{')) p++; if (k == FONTBBOX1_CODE) { for (i = 0; i < 4; i++, k++) { fd_cur->font_dim[k].val = t1_scan_num(p, &r); fd_cur->font_dim[k].set = true; p = r; } return; } fd_cur->font_dim[k].val = t1_scan_num(p, 0); fd_cur->font_dim[k].set = true; } static void t1_scan_param(void) { static const char *lenIV = "/lenIV"; if (!t1_scan || *t1_line_array != '/') return; if (t1_prefix(lenIV)) { t1_lenIV = t1_scan_num(t1_line_array + strlen(lenIV), 0); if (t1_lenIV < 0) pdftex_fail("negative value of lenIV is not supported"); return; } t1_scan_keys(); } static void copy_glyph_names(char **glyph_names, int a, int b) { if (glyph_names[b] != notdef) { xfree(glyph_names[b]); glyph_names[b] = notdef; } if (glyph_names[a] != notdef) { glyph_names[b] = xstrdup(glyph_names[a]); } } /* read encoding from Type1 font file, return glyph_names array, or pdffail() */ static char **t1_builtin_enc(void) { int i, a, b, c, counter = 0; char *r, *p, **glyph_names; /* At this moment "/Encoding" is the prefix of t1_line_array */ glyph_names = xtalloc(256, char *); for (i = 0; i < 256; i++) glyph_names[i] = notdef; if (t1_suffix("def")) { /* predefined encoding */ if (sscanf(t1_line_array + strlen("/Encoding"), "%255s", t1_buf_array) == 1 && strcmp(t1_buf_array, "StandardEncoding") == 0) { t1_encoding = ENC_STANDARD; for (i = 0; i < 256; i++) { if (standard_glyph_names[i] != notdef) glyph_names[i] = xstrdup(standard_glyph_names[i]); } return glyph_names; } pdftex_fail("cannot subset font (unknown predefined encoding `%s')", t1_buf_array); } /* At this moment "/Encoding" is the prefix of t1_line_array, and the encoding is * not a predefined encoding. * * We have two possible forms of Encoding vector. The first case is * * /Encoding [/a /b /c...] readonly def * * and the second case can look like * * /Encoding 256 array 0 1 255 {1 index exch /.notdef put} for * dup 0 /x put * dup 1 /y put * ... * readonly def */ t1_encoding = ENC_BUILTIN; if (t1_prefix("/Encoding [") || t1_prefix("/Encoding[")) { /* the first case */ r = strchr(t1_line_array, '[') + 1; skip(r, ' '); for (;;) { while (*r == '/') { for (p = t1_buf_array, r++; *r != 32 && *r != 10 && *r != ']' && *r != '/'; *p++ = *r++); *p = 0; skip(r, ' '); if (counter > 255) pdftex_fail("encoding vector contains more than 256 names"); if (strcmp(t1_buf_array, notdef) != 0) glyph_names[counter] = xstrdup(t1_buf_array); counter++; } if (*r != 10 && *r != '%') { if (str_prefix(r, "] def") || str_prefix(r, "] readonly def")) break; else { remove_eol(r, t1_line_array); pdftex_fail ("a name or `] def' or `] readonly def' expected: `%s'", t1_line_array); } } t1_getline(); r = t1_line_array; } } else { /* the second case */ p = strchr(t1_line_array, 10); for (;;) { if (*p == 10) { t1_getline(); p = t1_line_array; } /* check for `dup put' */ if (sscanf(p, "dup %i%255s put", &i, t1_buf_array) == 2 && *t1_buf_array == '/' && valid_code(i)) { if (strcmp(t1_buf_array + 1, notdef) != 0) glyph_names[i] = xstrdup(t1_buf_array + 1); p = strstr(p, " put") + strlen(" put"); skip(p, ' '); } /* check for `dup dup exch get put' */ else if (sscanf(p, "dup dup %i exch %i get put", &b, &a) == 2 && valid_code(a) && valid_code(b)) { copy_glyph_names(glyph_names, a, b); p = strstr(p, " get put") + strlen(" get put"); skip(p, ' '); } /* check for `dup dup getinterval exch putinterval' */ else if (sscanf(p, "dup dup %i %i getinterval %i exch putinterval", &a, &c, &b) == 3 && valid_code(a) && valid_code(b) && valid_code(c)) { for (i = 0; i < c; i++) copy_glyph_names(glyph_names, a + i, b + i); p = strstr(p, " putinterval") + strlen(" putinterval"); skip(p, ' '); } /* check for `def' or `readonly def' */ else if ((p == t1_line_array || (p > t1_line_array && p[-1] == ' ')) && strcmp(p, "def\n") == 0) return glyph_names; /* skip an unrecognizable word */ else { while (*p != ' ' && *p != 10) p++; skip(p, ' '); } } } return glyph_names; } static void t1_check_end(void) { if (t1_eof()) return; t1_getline(); if (t1_prefix("{restore}")) t1_putline(); } static boolean t1_open_fontfile(const char *open_name_prefix) { ff_entry *ff; ff = check_ff_exist(fd_cur->fm->ff_name, is_truetype(fd_cur->fm)); if (ff->ff_path != NULL) { t1_file = xfopen(cur_file_name = ff->ff_path, FOPEN_RBIN_MODE); recorder_record_input(ff->ff_path); } else { set_cur_file_name(fd_cur->fm->ff_name); pdftex_fail("cannot open Type 1 font file for reading"); } t1_init_params(open_name_prefix); return true; /* font file found */ } static void t1_include(void) { do { t1_getline(); t1_scan_param(); t1_putline(); } while (t1_in_eexec == 0); t1_start_eexec(); do { t1_getline(); t1_scan_param(); t1_putline(); } while (!(t1_charstrings() || t1_subrs())); t1_cs = true; do { t1_getline(); t1_putline(); } while (!t1_end_eexec()); t1_stop_eexec(); if (fixedcontent) { /* copy 512 zeros (not needed for PDF) */ do { t1_getline(); t1_putline(); } while (!t1_cleartomark()); t1_check_end(); /* write "{restore}if" if found */ } get_length3(); } #define check_subr(subr) \ if (subr >= subr_size || subr < 0) \ pdftex_fail("Subrs array: entry index out of range (%i)", subr); static const char **check_cs_token_pair(void) { const char **p = (const char **) cs_token_pairs_list; for (; p[0] != NULL; ++p) if (t1_buf_prefix(p[0]) && t1_buf_suffix(p[1])) return p; return NULL; } static void cs_store(boolean is_subr) { char *p; cs_entry *ptr; int subr; for (p = t1_line_array, t1_buf_ptr = t1_buf_array; *p != ' '; *t1_buf_ptr++ = *p++); *t1_buf_ptr = 0; if (is_subr) { subr = t1_scan_num(p + 1, 0); check_subr(subr); ptr = subr_tab + subr; } else { ptr = cs_ptr++; if (cs_ptr - cs_tab > cs_size) pdftex_fail ("CharStrings dict: more entries than dict size (%i)", cs_size); if (strcmp(t1_buf_array + 1, notdef) == 0) /* skip the slash */ ptr->name = notdef; else ptr->name = xstrdup(t1_buf_array + 1); } /* copy " RD " + cs data to t1_buf_array */ memcpy(t1_buf_array, t1_line_array + cs_start - 4, (unsigned) (t1_cslen + 4)); /* copy the end of cs data to t1_buf_array */ for (p = t1_line_array + cs_start + t1_cslen, t1_buf_ptr = t1_buf_array + t1_cslen + 4; *p != 10; *t1_buf_ptr++ = *p++); *t1_buf_ptr++ = 10; if (is_subr && cs_token_pair == NULL) cs_token_pair = check_cs_token_pair(); ptr->len = t1_buf_ptr - t1_buf_array; ptr->cslen = t1_cslen; ptr->data = xtalloc(ptr->len, byte); memcpy(ptr->data, t1_buf_array, ptr->len); ptr->valid = true; } #define store_subr() cs_store(true) #define store_cs() cs_store(false) #define CC_STACK_SIZE 24 static integer cc_stack[CC_STACK_SIZE], *stack_ptr = cc_stack; static cc_entry cc_tab[CS_MAX]; static boolean is_cc_init = false; #define cc_pop(N) \ if (stack_ptr - cc_stack < (N)) \ stack_error(N); \ stack_ptr -= N #define stack_error(N) { \ pdftex_fail("CharString: invalid access (%i) to stack (%i entries)", \ (int) N, (int)(stack_ptr - cc_stack)); \ goto cs_error; \ } /* static integer cc_get(integer index) { if (index < 0) { if (stack_ptr + index < cc_stack ) stack_error(stack_ptr - cc_stack + index); return *(stack_ptr + index); } else { if (cc_stack + index >= stack_ptr) stack_error(index); return cc_stack[index]; } } */ #define cc_get(N) ((N) < 0 ? *(stack_ptr + (N)) : *(cc_stack + (N))) #define cc_push(V) *stack_ptr++ = V #define cc_clear() stack_ptr = cc_stack #define set_cc(N, B, A, C) \ cc_tab[N].nargs = A; \ cc_tab[N].bottom = B; \ cc_tab[N].clear = C; \ cc_tab[N].valid = true static void cc_init(void) { int i; if (is_cc_init) return; for (i = 0; i < CS_MAX; i++) cc_tab[i].valid = false; set_cc(CS_HSTEM, true, 2, true); set_cc(CS_VSTEM, true, 2, true); set_cc(CS_VMOVETO, true, 1, true); set_cc(CS_RLINETO, true, 2, true); set_cc(CS_HLINETO, true, 1, true); set_cc(CS_VLINETO, true, 1, true); set_cc(CS_RRCURVETO, true, 6, true); set_cc(CS_CLOSEPATH, false, 0, true); set_cc(CS_CALLSUBR, false, 1, false); set_cc(CS_RETURN, false, 0, false); /* set_cc(CS_ESCAPE, false, 0, false); */ set_cc(CS_HSBW, true, 2, true); set_cc(CS_ENDCHAR, false, 0, true); set_cc(CS_RMOVETO, true, 2, true); set_cc(CS_HMOVETO, true, 1, true); set_cc(CS_VHCURVETO, true, 4, true); set_cc(CS_HVCURVETO, true, 4, true); set_cc(CS_DOTSECTION, false, 0, true); set_cc(CS_VSTEM3, true, 6, true); set_cc(CS_HSTEM3, true, 6, true); set_cc(CS_SEAC, true, 5, true); set_cc(CS_SBW, true, 4, true); set_cc(CS_DIV, false, 2, false); set_cc(CS_CALLOTHERSUBR, false, 0, false); set_cc(CS_POP, false, 0, false); set_cc(CS_SETCURRENTPOINT, true, 2, true); is_cc_init = true; } #define cs_getchar() cdecrypt(*data++, &cr) #define mark_subr(n) cs_mark(0, n) #define mark_cs(s) cs_mark(s, 0) __attribute__ ((format(printf, 3, 4))) static void cs_fail(const char *cs_name, int subr, const char *fmt, ...) { char buf[SMALL_BUF_SIZE]; va_list args; va_start(args, fmt); vsprintf(buf, fmt, args); va_end(args); if (cs_name == NULL) pdftex_fail("Subr (%i): %s", (int) subr, buf); else pdftex_fail("CharString (/%s): %s", cs_name, buf); } /* fix a return-less subr by appending CS_RETURN */ static void append_cs_return(cs_entry *ptr) { unsigned short cr; int i; byte *p, *q, *data, *new_data; assert(ptr != NULL && ptr->valid && ptr->used); /* decrypt the cs data to t1_buf_array, append CS_RETURN */ p = (byte *) t1_buf_array; data = ptr->data + 4; cr = 4330; for (i = 0; i < ptr->cslen; i++) *p++ = cs_getchar(); *p = CS_RETURN; /* encrypt the new cs data to new_data */ new_data = xtalloc(ptr->len + 1, byte); memcpy(new_data, ptr->data, 4); p = new_data + 4; q = (byte *) t1_buf_array; cr = 4330; for (i = 0; i < ptr->cslen + 1; i++) *p++ = cencrypt(*q++, &cr); memcpy(p, ptr->data + 4 + ptr->cslen, ptr->len - ptr->cslen - 4); /* update *ptr */ xfree(ptr->data); ptr->data = new_data; ptr->len++; ptr->cslen++; } static void cs_mark(const char *cs_name, int subr) { byte *data; int i, b, cs_len; int last_cmd = 0; integer a, a1, a2; unsigned short cr; static integer lastargOtherSubr3 = 3; /* the argument of last call to OtherSubrs[3] */ cs_entry *ptr; cc_entry *cc; if (cs_name == NULL) { check_subr(subr); ptr = subr_tab + subr; if (!ptr->valid) return; } else { if (cs_notdef != NULL && (cs_name == notdef || strcmp(cs_name, notdef) == 0)) ptr = cs_notdef; else { for (ptr = cs_tab; ptr < cs_ptr; ptr++) if (strcmp(ptr->name, cs_name) == 0) break; if (ptr == cs_ptr) { pdftex_warn("glyph `%s' undefined", cs_name); return; } if (ptr->name == notdef) cs_notdef = ptr; } } /* only marked CharString entries and invalid entries can be skipped; valid marked subrs must be parsed to keep the stack in sync */ if (!ptr->valid || (ptr->used && cs_name != NULL)) return; ptr->used = true; cr = 4330; cs_len = ptr->cslen; data = ptr->data + 4; for (i = 0; i < t1_lenIV; i++, cs_len--) cs_getchar(); while (cs_len > 0) { --cs_len; b = cs_getchar(); if (b >= 32) { if (b <= 246) a = b - 139; else if (b <= 250) { --cs_len; a = ((b - 247) << 8) + 108 + cs_getchar(); } else if (b <= 254) { --cs_len; a = -((b - 251) << 8) - 108 - cs_getchar(); } else { cs_len -= 4; a = (cs_getchar() & 0xff) << 24; a |= (cs_getchar() & 0xff) << 16; a |= (cs_getchar() & 0xff) << 8; a |= (cs_getchar() & 0xff) << 0; if (sizeof(integer) > 4 && (a & 0x80000000)) a |= ~0x7FFFFFFF; } cc_push(a); } else { if (b == CS_ESCAPE) { b = cs_getchar() + CS_1BYTE_MAX; cs_len--; } if (b >= CS_MAX) { cs_fail(cs_name, subr, "command value out of range: %i", (int) b); goto cs_error; } cc = cc_tab + b; if (!cc->valid) { cs_fail(cs_name, subr, "command not valid: %i", (int) b); goto cs_error; } if (cc->bottom) { if (stack_ptr - cc_stack < cc->nargs) cs_fail(cs_name, subr, "less arguments on stack (%i) than required (%i)", (int) (stack_ptr - cc_stack), (int) cc->nargs); else if (stack_ptr - cc_stack > cc->nargs) cs_fail(cs_name, subr, "more arguments on stack (%i) than required (%i)", (int) (stack_ptr - cc_stack), (int) cc->nargs); } last_cmd = b; switch (cc - cc_tab) { case CS_CALLSUBR: a1 = cc_get(-1); cc_pop(1); mark_subr(a1); if (!subr_tab[a1].valid) { cs_fail(cs_name, subr, "cannot call subr (%i)", (int) a1); goto cs_error; } break; case CS_DIV: cc_pop(2); cc_push(0); break; case CS_CALLOTHERSUBR: if (cc_get(-1) == 3) lastargOtherSubr3 = cc_get(-3); a1 = cc_get(-2) + 2; cc_pop(a1); break; case CS_POP: cc_push(lastargOtherSubr3); /* the only case when we care about the value being pushed onto stack is when POP follows CALLOTHERSUBR (changing hints by OtherSubrs[3]) */ break; case CS_SEAC: a1 = cc_get(3); a2 = cc_get(4); cc_clear(); mark_cs(standard_glyph_names[a1]); mark_cs(standard_glyph_names[a2]); break; default: if (cc->clear) cc_clear(); } } } if (cs_name == NULL && last_cmd != CS_RETURN) { pdftex_warn("last command in subr `%i' is not a RETURN; " "I will add it now but please consider fixing the font", (int) subr); append_cs_return(ptr); } return; cs_error: /* an error occured during parsing */ cc_clear(); ptr->valid = false; ptr->used = false; } /**********************************************************************/ /* AVL search tree for glyph code by glyph name */ static int comp_t1_glyphs(const void *pa, const void *pb, void *p) { return strcmp(*((const char * const *) pa), *((const char * const *) pb)); } static struct avl_table *create_t1_glyph_tree(char **glyph_names) { int i; void **aa; static struct avl_table *gl_tree; gl_tree = avl_create(comp_t1_glyphs, NULL, &avl_xallocator); assert(gl_tree != NULL); for (i = 0; i < 256; i++) { if (glyph_names[i] != notdef && (char **) avl_find(gl_tree, &glyph_names[i]) == NULL) { /* no strdup here, just point to the glyph_names array members */ aa = avl_probe(gl_tree, &glyph_names[i]); assert(aa != NULL); } } return gl_tree; } static void destroy_t1_glyph_tree(struct avl_table *gl_tree) { assert(gl_tree != NULL); avl_destroy(gl_tree, NULL); } /**********************************************************************/ static void t1_subset_ascii_part(void) { int j, *p; char *glyph, **gg, **glyph_names; struct avl_table *gl_tree; struct avl_traverser t; void **aa; assert(fd_cur != NULL); assert(fd_cur->gl_tree != NULL); t1_getline(); while (!t1_prefix("/Encoding")) { t1_scan_param(); if (!(t1_prefix("/UniqueID") && !strncmp(t1_line_array + strlen(t1_line_array) -4, "def", 3))) t1_putline(); t1_getline(); } glyph_names = t1_builtin_enc(); fd_cur->builtin_glyph_names = glyph_names; if (is_subsetted(fd_cur->fm)) { assert(is_included(fd_cur->fm)); if (fd_cur->tx_tree != NULL) { /* take over collected non-reencoded characters from TeX */ avl_t_init(&t, fd_cur->tx_tree); for (p = (int *) avl_t_first(&t, fd_cur->tx_tree); p != NULL; p = (int *) avl_t_next(&t)) { if ((char *) avl_find(fd_cur->gl_tree, glyph_names[*p]) == NULL) { glyph = xstrdup(glyph_names[*p]); aa = avl_probe(fd_cur->gl_tree, glyph); assert(aa != NULL); } } } make_subset_tag(fd_cur); assert(t1_fontname_offset != 0); strncpy(fb_array + t1_fontname_offset, fd_cur->subset_tag, 6); } /* now really all glyphs needed from this font are in the fd_cur->gl_tree */ if (t1_encoding == ENC_STANDARD) t1_puts("/Encoding StandardEncoding def\n"); else { t1_puts ("/Encoding 256 array\n0 1 255 {1 index exch /.notdef put} for\n"); gl_tree = create_t1_glyph_tree(glyph_names); avl_t_init(&t, fd_cur->gl_tree); j = 0; for (glyph = (char *) avl_t_first(&t, fd_cur->gl_tree); glyph != NULL; glyph = (char *) avl_t_next(&t)) { if ((gg = (char **) avl_find(gl_tree, &glyph)) != NULL) { t1_printf("dup %i /%s put\n", (int) (gg - glyph_names), *gg); j++; } } destroy_t1_glyph_tree(gl_tree); if (j == 0) /* We didn't mark anything for the Encoding array. */ /* We add "dup 0 /.notdef put" for compatibility */ /* with Acrobat 5.0. */ t1_puts("dup 0 /.notdef put\n"); t1_puts("readonly def\n"); } do { t1_getline(); t1_scan_param(); if (!t1_prefix("/UniqueID")) /* ignore UniqueID for subsetted fonts */ t1_putline(); } while (t1_in_eexec == 0); } static void cs_init(void) { cs_ptr = cs_tab = NULL; cs_dict_start = cs_dict_end = NULL; cs_count = cs_size = cs_size_pos = 0; cs_token_pair = NULL; subr_tab = NULL; subr_array_start = subr_array_end = NULL; subr_max = subr_size = subr_size_pos = 0; } static void init_cs_entry(cs_entry *cs) { cs->data = NULL; cs->name = NULL; cs->len = 0; cs->cslen = 0; cs->used = false; cs->valid = false; } static void t1_read_subrs(void) { int i, s; cs_entry *ptr; t1_getline(); while (!(t1_charstrings() || t1_subrs())) { t1_scan_param(); if (!t1_prefix("/UniqueID")) /* ignore UniqueID for subsetted fonts */ t1_putline(); t1_getline(); } found: t1_cs = true; t1_scan = false; if (!t1_subrs()) return; subr_size_pos = strlen("/Subrs") + 1; /* subr_size_pos points to the number indicating dict size after "/Subrs" */ subr_size = t1_scan_num(t1_line_array + subr_size_pos, 0); if (subr_size == 0) { while (!t1_charstrings()) t1_getline(); return; } subr_tab = xtalloc(subr_size, cs_entry); for (ptr = subr_tab; ptr - subr_tab < subr_size; ptr++) init_cs_entry(ptr); subr_array_start = xstrdup(t1_line_array); t1_getline(); while (t1_cslen) { store_subr(); t1_getline(); } /* mark the first four entries without parsing */ for (i = 0; i < subr_size && i < 4; i++) subr_tab[i].used = true; /* the end of the Subrs array might have more than one line so we need to concatnate them to subr_array_end. Unfortunately some fonts don't have the Subrs array followed by the CharStrings dict immediately (synthetic fonts). If we cannot find CharStrings in next POST_SUBRS_SCAN lines then we will treat the font as synthetic and ignore everything until next Subrs is found */ #define POST_SUBRS_SCAN 5 s = 0; *t1_buf_array = 0; for (i = 0; i < POST_SUBRS_SCAN; i++) { if (t1_charstrings()) break; s += t1_line_ptr - t1_line_array; alloc_array(t1_buf, s, T1_BUF_SIZE); strcat(t1_buf_array, t1_line_array); t1_getline(); } subr_array_end = xstrdup(t1_buf_array); if (i == POST_SUBRS_SCAN) { /* CharStrings not found; suppose synthetic font */ for (ptr = subr_tab; ptr - subr_tab < subr_size; ptr++) if (ptr->valid) xfree(ptr->data); xfree(subr_tab); xfree(subr_array_start); xfree(subr_array_end); cs_init(); t1_cs = false; t1_synthetic = true; while (!(t1_charstrings() || t1_subrs())) t1_getline(); goto found; } } #define t1_subr_flush() t1_flush_cs(true) #define t1_cs_flush() t1_flush_cs(false) static void t1_flush_cs(boolean is_subr) { char *p; byte *r, *return_cs = NULL; cs_entry *tab, *end_tab, *ptr; char *start_line, *line_end; int count, size_pos; unsigned short cr, cs_len = 0; /* to avoid warning about uninitialized use of cs_len */ if (is_subr) { start_line = subr_array_start; line_end = subr_array_end; size_pos = subr_size_pos; tab = subr_tab; count = subr_max + 1; end_tab = subr_tab + count; } else { start_line = cs_dict_start; line_end = cs_dict_end; size_pos = cs_size_pos; tab = cs_tab; end_tab = cs_ptr; count = cs_count; } t1_line_ptr = t1_line_array; for (p = start_line; p - start_line < size_pos;) *t1_line_ptr++ = *p++; while (isdigit((unsigned char)*p)) p++; sprintf(t1_line_ptr, "%u", count); strcat(t1_line_ptr, p); t1_line_ptr = eol(t1_line_array); t1_putline(); /* create return_cs to replace unused subr's */ if (is_subr) { cr = 4330; cs_len = 0; /* at this point we have t1_lenIV >= 0; * a negative value would be caught in t1_scan_param() */ return_cs = xtalloc(t1_lenIV + 1, byte); for (cs_len = 0, r = return_cs; cs_len < t1_lenIV; cs_len++, r++) *r = cencrypt(0x00, &cr); *r = cencrypt(CS_RETURN, &cr); cs_len++; } for (ptr = tab; ptr < end_tab; ptr++) { if (ptr->used) { if (is_subr) sprintf(t1_line_array, "dup %lu %u", (unsigned long) (ptr - tab), ptr->cslen); else sprintf(t1_line_array, "/%s %u", ptr->name, ptr->cslen); p = strend(t1_line_array); memcpy(p, ptr->data, ptr->len); t1_line_ptr = p + ptr->len; t1_putline(); } else { /* replace unsused subr's by return_cs */ if (is_subr) { sprintf(t1_line_array, "dup %lu %u%s ", (unsigned long) (ptr - tab), cs_len, cs_token_pair[0]); p = strend(t1_line_array); memcpy(p, return_cs, cs_len); t1_line_ptr = p + cs_len; t1_putline(); sprintf(t1_line_array, " %s", cs_token_pair[1]); t1_line_ptr = eol(t1_line_array); t1_putline(); } } xfree(ptr->data); if (ptr->name != notdef) xfree(ptr->name); } sprintf(t1_line_array, "%s", line_end); t1_line_ptr = eol(t1_line_array); t1_putline(); if (is_subr) xfree(return_cs); xfree(tab); xfree(start_line); xfree(line_end); } static void t1_mark_glyphs(void) { char *glyph; struct avl_traverser t; cs_entry *ptr; if (t1_synthetic || fd_cur->all_glyphs) { /* mark everything */ if (cs_tab != NULL) for (ptr = cs_tab; ptr < cs_ptr; ptr++) if (ptr->valid) ptr->used = true; if (subr_tab != NULL) { for (ptr = subr_tab; ptr - subr_tab < subr_size; ptr++) if (ptr->valid) ptr->used = true; subr_max = subr_size - 1; } return; } mark_cs(notdef); avl_t_init(&t, fd_cur->gl_tree); for (glyph = (char *) avl_t_first(&t, fd_cur->gl_tree); glyph != NULL; glyph = (char *) avl_t_next(&t)) { mark_cs(glyph); } if (subr_tab != NULL) for (subr_max = -1, ptr = subr_tab; ptr - subr_tab < subr_size; ptr++) if (ptr->used && ptr - subr_tab > subr_max) subr_max = ptr - subr_tab; } static void t1_check_unusual_charstring(void) { char *p = strstr(t1_line_array, charstringname) + strlen(charstringname); int i; /* if no number follows "/CharStrings", let's read the next line */ if (sscanf(p, "%i", &i) != 1) { /* pdftex_warn("no number found after `%s', I assume it's on the next line", charstringname); */ strcpy(t1_buf_array, t1_line_array); /* t1_getline always appends EOL to t1_line_array; let's change it to * space before appending the next line */ *(strend(t1_buf_array) - 1) = ' '; t1_getline(); alloc_array(t1_buf, strlen(t1_line_array) + (t1_buf_array ? strlen(t1_buf_array) + 1 : 0), T1_BUF_SIZE); strcat(t1_buf_array, t1_line_array); alloc_array(t1_line, strlen(t1_buf_array) + 1, T1_BUF_SIZE); strcpy(t1_line_array, t1_buf_array); t1_line_ptr = eol(t1_line_array); } } static void t1_subset_charstrings(void) { cs_entry *ptr; /* at this point t1_line_array contains "/CharStrings". when we hit a case like this: dup/CharStrings 229 dict dup begin we read the next line and concatenate to t1_line_array before moving on */ t1_check_unusual_charstring(); cs_size_pos = strstr(t1_line_array, charstringname) + strlen(charstringname) - t1_line_array + 1; /* cs_size_pos points to the number indicating dict size after "/CharStrings" */ cs_size = t1_scan_num(t1_line_array + cs_size_pos, 0); cs_ptr = cs_tab = xtalloc(cs_size, cs_entry); for (ptr = cs_tab; ptr - cs_tab < cs_size; ptr++) init_cs_entry(ptr); cs_notdef = NULL; cs_dict_start = xstrdup(t1_line_array); t1_getline(); while (t1_cslen) { store_cs(); t1_getline(); } cs_dict_end = xstrdup(t1_line_array); t1_mark_glyphs(); if (subr_tab != NULL) { if (cs_token_pair == NULL) pdftex_fail ("This Type 1 font uses mismatched subroutine begin/end token pairs."); t1_subr_flush(); } for (cs_count = 0, ptr = cs_tab; ptr < cs_ptr; ptr++) if (ptr->used) cs_count++; t1_cs_flush(); } static void t1_subset_end(void) { if (t1_synthetic) { /* copy to "dup /FontName get exch definefont pop" */ while (!strstr(t1_line_array, "definefont")) { t1_getline(); t1_putline(); } while (!t1_end_eexec()) t1_getline(); /* ignore the rest */ t1_putline(); /* write "mark currentfile closefile" */ } else while (!t1_end_eexec()) { /* copy to "mark currentfile closefile" */ t1_getline(); t1_putline(); } t1_stop_eexec(); if (fixedcontent) { /* copy 512 zeros (not needed for PDF) */ while (!t1_cleartomark()) { t1_getline(); t1_putline(); } if (!t1_synthetic) /* don't check "{restore}if" for synthetic fonts */ t1_check_end(); /* write "{restore}if" if found */ } get_length3(); } void writet1(fd_entry *fd) { fd_cur = fd; /* fd_cur is global inside writet1.c */ assert(fd_cur->fm != NULL); assert(is_type1(fd->fm)); assert(is_included(fd->fm)); t1_save_offset = 0; if (!is_subsetted(fd_cur->fm)) { /* include entire font */ if (!(fd->ff_found = t1_open_fontfile("<<"))) return; t1_include(); t1_close_font_file(">>"); return; } /* partial downloading */ if (!(fd->ff_found = t1_open_fontfile("<"))) return; t1_subset_ascii_part(); t1_start_eexec(); cc_init(); cs_init(); t1_read_subrs(); t1_subset_charstrings(); t1_subset_end(); t1_close_font_file(">"); } void t1_free(void) { xfree(t1_line_array); xfree(t1_buf_array); }