/* This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks. Copyright (C) 2002-2021 by Jin-Hwan Cho and Shunsaku Hirata, the dvipdfmx project team. Copyright (C) 2012-2015 by Khaled Hosny Copyright (C) 1998, 1999 by Mark A. Wicks 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, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #ifdef WIN32 #include #include #endif #include "system.h" #include "mem.h" #include "error.h" #include "mfileio.h" #include "numbers.h" #include "dpxconf.h" #include "dpxutil.h" #include "pdfdev.h" #include "pdfdoc.h" #include "pdfparse.h" #include "pdfresource.h" #include "pdfdraw.h" #include "fontmap.h" #include "dvicodes.h" #include "tfm.h" #include "vf.h" #include "subfont.h" #include "spc_util.h" #include "specials.h" #include "dvi.h" #include "dvipdfmx.h" #include "dpxfile.h" #include "pdfximage.h" #include "tt_aux.h" #include "tt_table.h" #include "t1_load.h" #include "t1_char.h" #include "cff_dict.h" #define DVI_STACK_DEPTH_MAX 256u #define TEX_FONTS_ALLOC_SIZE 16u #define VF_NESTING_MAX 16u /* UTF-32 over U+FFFF -> UTF-16 surrogate pair */ #define UTF32toUTF16HS(x) (0xd800 + (((x-0x10000) >> 10) & 0x3ff)) #define UTF32toUTF16LS(x) (0xdc00 + ( x & 0x3ff)) /* Interal Variables */ static FILE *dvi_file = NULL; static char linear = 0; /* set to 1 for strict linear processing of the input */ static int32_t *page_loc = NULL; static unsigned int num_pages = 0; static uint32_t dvi_file_size = 0; static struct dvi_header { uint32_t unit_num; uint32_t unit_den; uint32_t mag; uint32_t media_width, media_height; unsigned int stackdepth; char comment[257]; } dvi_info = { 25400000 , /* num */ 473628672, /* den */ 1000, /* mag */ 0, 0, /* media width and height */ 0, /* stackdepth */ {'\0'} /* comment */ }; static double dev_origin_x = 72.0, dev_origin_y = 770.0; double get_origin (int x) { return x ? dev_origin_x : dev_origin_y; } #define LTYPESETTING 0 /* typesetting from left to right */ #define RTYPESETTING 1 /* typesetting from right to left */ #define SKIMMING 2 /* skimming through reflected segment measuring its width */ #define REVERSE(MODE) (LTYPESETTING + RTYPESETTING - MODE) struct dvi_lr { int state, font; unsigned int buf_index; }; static struct dvi_lr lr_state; /* state at start of current skimming */ static int lr_mode; /* current direction or skimming depth */ static uint32_t lr_width; /* total width of reflected segment */ static uint32_t lr_width_stack[DVI_STACK_DEPTH_MAX]; static unsigned lr_width_stack_depth = 0; #define PHYSICAL 1 #define VIRTUAL 2 #define SUBFONT 3 #define NATIVE 4 #define DVI 1 #define VF 2 struct gm { spt_t advance, ascent, descent; }; static struct loaded_font { int type; /* Type is physical or virtual */ int font_id; /* id returned by dev (for PHYSICAL fonts) * or by vf module for (VIRTUAL fonts) */ int subfont_id; /* id returned by subfont_locate_font() */ int tfm_id; spt_t size; int source; /* Source is either DVI or VF */ uint32_t rgba_color; uint8_t rgba_used; /* Indicates that rgba_color is used or not. * It enables full range of opacity: 0-255. */ int xgs_id; /* Transparency ExtGState */ /* XeTeX requires glyph metrics */ struct gm *gm; int shift_gid; uint16_t num_glyphs; int layout_dir; float extend; float slant; float embolden; int is_unicode; int minbytes; char padbytes[4]; } *loaded_fonts = NULL; static int num_loaded_fonts = 0, max_loaded_fonts = 0; static void need_more_fonts (unsigned n) { if (num_loaded_fonts + n > max_loaded_fonts) { max_loaded_fonts += TEX_FONTS_ALLOC_SIZE; loaded_fonts = RENEW (loaded_fonts, max_loaded_fonts, struct loaded_font); } } static struct font_def { int32_t tex_id; spt_t point_size; spt_t design_size; char *font_name; int font_id; /* index of _loaded_ font in loaded_fonts array */ int used; int native; /* boolean */ uint32_t rgba_color; /* only used for native fonts in XeTeX */ uint8_t rgba_used; /* Indicates that rgba_color is used or not. * It enables full range of opacity: 0-255. */ uint32_t face_index; int layout_dir; /* 1 = vertical, 0 = horizontal */ int extend; int slant; int embolden; } *def_fonts = NULL; #define XDV_FLAG_VERTICAL 0x0100 #define XDV_FLAG_COLORED 0x0200 #define XDV_FLAG_FEATURES 0x0400 #define XDV_FLAG_EXTEND 0x1000 #define XDV_FLAG_SLANT 0x2000 #define XDV_FLAG_EMBOLDEN 0x4000 static int num_def_fonts = 0, max_def_fonts = 0; static int compute_boxes = 0, link_annot = 1; /* If "catch_phantom" is non-zero, dvipdfmx try to catch phantom texts. * Dvipdfmx treats DVI horizontal movement instructions (x, w, right) differently * when "catch_phantom" is non-zero. Amount of horizontal move will be added to * the current annotation rectangle with "height" and "depth" estimated as, * * catch_phantom=1: with current font size * catch_phantom=2: with specified height and depth */ static int catch_phantom = 0; static double phantom_height = 0.0; static double phantom_depth = 0.0; #define DVI_PAGE_BUF_CHUNK 0x10000U /* 64K should be plenty for most pages */ static unsigned char* dvi_page_buffer; static unsigned int dvi_page_buf_size; static unsigned int dvi_page_buf_index; /* functions to read numbers from the dvi file and store them in dvi_page_buffer */ static int get_and_buffer_unsigned_byte (FILE *file) { int ch; if ((ch = fgetc (file)) < 0) ERROR ("File ended prematurely\n"); if (dvi_page_buf_index >= dvi_page_buf_size) { dvi_page_buf_size += DVI_PAGE_BUF_CHUNK; dvi_page_buffer = RENEW(dvi_page_buffer, dvi_page_buf_size, unsigned char); } dvi_page_buffer[dvi_page_buf_index++] = ch; return ch; } static unsigned int get_and_buffer_unsigned_pair (FILE *file) { unsigned int pair = get_and_buffer_unsigned_byte(file); pair = (pair << 8) | get_and_buffer_unsigned_byte(file); return pair; } static void get_and_buffer_bytes(FILE *file, unsigned int count) { if (dvi_page_buf_index + count >= dvi_page_buf_size) { dvi_page_buf_size = dvi_page_buf_index + count + DVI_PAGE_BUF_CHUNK; dvi_page_buffer = RENEW(dvi_page_buffer, dvi_page_buf_size, unsigned char); } if (fread(dvi_page_buffer + dvi_page_buf_index, 1, count, file) != count) ERROR ("File ended prematurely\n"); dvi_page_buf_index += count; } /* functions to fetch values from dvi_page_buffer */ static int get_buffered_unsigned_byte (void) { return dvi_page_buffer[dvi_page_buf_index++]; } static unsigned int get_buffered_unsigned_pair (void) { unsigned int pair = dvi_page_buffer[dvi_page_buf_index++]; pair = (pair << 8) | dvi_page_buffer[dvi_page_buf_index++]; return pair; } static int32_t get_buffered_signed_quad(void) { int i; int32_t quad = dvi_page_buffer[dvi_page_buf_index++]; /* Check sign on first byte before reading others */ if (quad >= 0x80) quad -= 0x100; for (i=0; i<3; i++) { quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; } return quad; } static int32_t get_buffered_signed_num(unsigned char num) { int32_t quad = dvi_page_buffer[dvi_page_buf_index++]; if (quad > 0x7f) quad -= 0x100; switch (num) { case 3: quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; case 2: quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; case 1: quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; default: break; } return quad; } static int32_t get_buffered_unsigned_num(unsigned char num) { int32_t quad = dvi_page_buffer[dvi_page_buf_index++]; switch (num) { case 3: if (quad > 0x7f) quad -= 0x100; quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; case 2: quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; case 1: quad = (quad << 8) | dvi_page_buffer[dvi_page_buf_index++]; default: break; } return quad; } #define skip_bufferd_bytes(n) dvi_page_buf_index += n unsigned int dvi_npages (void) { return num_pages; } static const char invalid_signature[] = "Something is wrong. Are you sure this is a DVI file?"; #define range_check_loc(loc) \ if ((loc) > dvi_file_size) {\ ERROR(invalid_signature); \ } static int pre_id_byte, post_id_byte, is_ptex = 0, has_ptex = 0; static void check_id_bytes (void) { if (pre_id_byte != post_id_byte && (pre_id_byte != DVI_ID || post_id_byte != DVIV_ID)) ERROR ("Inconsistent DVI id_bytes %d (pre) and %d (post)", pre_id_byte, post_id_byte); } static void need_XeTeX (int c) { if (dpx_conf.compat_mode != dpx_mode_xdv_mode) ERROR ("DVI opcode %i only valid for XeTeX", c); } static void need_pTeX (int c) { if (!is_ptex) ERROR ("DVI opcode %i only valid for Ascii pTeX", c); has_ptex = 1; } static int32_t find_post (void) { off_t dvi_size; int32_t current; int ch; /* First find end of file */ dvi_size = xfile_size (dvi_file, "DVI"); if (dvi_size > 0x7fffffff) ERROR("DVI file size exceeds 31-bit"); dvi_file_size = dvi_size; current = dvi_size; /* Scan backwards through PADDING */ do { xseek_absolute (dvi_file, --current, "DVI"); } while ((ch = fgetc(dvi_file)) == PADDING && current > 0); /* file_position now points to last non padding character or * beginning of file */ if (dvi_file_size - current < 4 || current == 0 || !(ch == DVI_ID || ch == DVIV_ID || ch == XDV_ID || ch == XDV_ID_OLD)) { MESG("DVI ID = %d\n", ch); ERROR(invalid_signature); } post_id_byte = ch; if (ch == XDV_ID || ch == XDV_ID_OLD) dpx_conf.compat_mode = dpx_mode_xdv_mode; is_ptex = ch == DVIV_ID; /* Make sure post_post is really there */ current = current - 5; xseek_absolute (dvi_file, current, "DVI"); if ((ch = fgetc(dvi_file)) != POST_POST) { MESG("Found %d where post_post opcode should be\n", ch); ERROR(invalid_signature); } current = get_signed_quad(dvi_file); xseek_absolute (dvi_file, current, "DVI"); if ((ch = fgetc(dvi_file)) != POST) { MESG("Found %d where post_post opcode should be\n", ch); ERROR(invalid_signature); } /* Finally check the ID byte in the preamble */ /* An Ascii pTeX DVI file has id_byte DVI_ID in the preamble but DVIV_ID in the postamble. */ xseek_absolute (dvi_file, 0, "DVI"); if ((ch = get_unsigned_byte(dvi_file)) != PRE) { MESG("Found %d where PRE was expected\n", ch); ERROR(invalid_signature); } ch = get_unsigned_byte(dvi_file); if (!(ch == DVI_ID || ch == XDV_ID || ch == XDV_ID_OLD)) { MESG("DVI ID = %d\n", ch); ERROR(invalid_signature); } pre_id_byte = ch; check_id_bytes(); return current; } static void get_page_info (int32_t post_location) { int i; xseek_absolute (dvi_file, post_location + 27, "DVI"); num_pages = get_unsigned_pair(dvi_file); if (num_pages == 0) { ERROR("Page count is 0!"); } if (dpx_conf.verbose_level > 2) { MESG("Page count:\t %4d\n", num_pages); } page_loc = NEW(num_pages, int32_t); xseek_absolute (dvi_file, post_location + 1, "DVI"); page_loc[num_pages-1] = get_unsigned_quad(dvi_file); range_check_loc(page_loc[num_pages-1] + 41); for (i = num_pages - 2; i >= 0; i--) { xseek_absolute (dvi_file, page_loc[i+1] + 41, "DVI"); page_loc[i] = get_unsigned_quad(dvi_file); range_check_loc(page_loc[num_pages-1] + 41); } } /* Following are computed "constants" used for unit conversion */ static double dvi2pts = 1.52018, total_mag = 1.0; double dvi_tell_mag (void) { return total_mag; } static void do_scales (double mag) { total_mag = (double) dvi_info.mag / 1000.0 * mag; dvi2pts = (double) dvi_info.unit_num / (double) dvi_info.unit_den; dvi2pts *= (72.0 / 254000.0); } static void get_dvi_info (int32_t post_location) { xseek_absolute (dvi_file, post_location + 5, "DVI"); dvi_info.unit_num = get_unsigned_quad(dvi_file); dvi_info.unit_den = get_unsigned_quad(dvi_file); dvi_info.mag = get_unsigned_quad(dvi_file); dvi_info.media_height = get_unsigned_quad(dvi_file); dvi_info.media_width = get_unsigned_quad(dvi_file); dvi_info.stackdepth = get_unsigned_pair(dvi_file); if (dvi_info.stackdepth > DVI_STACK_DEPTH_MAX) { WARN("DVI need stack depth of %d,", dvi_info.stackdepth); WARN("but DVI_STACK_DEPTH_MAX is %d.", DVI_STACK_DEPTH_MAX); ERROR("Capacity exceeded."); } if (dpx_conf.verbose_level > 2) { MESG("DVI File Info\n"); MESG("Unit: %ld / %ld\n", dvi_info.unit_num, dvi_info.unit_den); MESG("Magnification: %ld\n", dvi_info.mag); MESG("Media Height: %ld\n", dvi_info.media_height); MESG("Media Width: %ld\n", dvi_info.media_width); MESG("Stack Depth: %d\n", dvi_info.stackdepth); } } static void get_preamble_dvi_info (void) { int ch; ch = get_unsigned_byte(dvi_file); if (ch != PRE) { MESG("Found %d where PRE was expected\n", ch); ERROR(invalid_signature); } /* An Ascii pTeX DVI file has id_byte DVI_ID in the preamble but DVIV_ID in the postamble. */ ch = get_unsigned_byte(dvi_file); if (!(ch == DVI_ID || ch == XDV_ID || ch == XDV_ID_OLD)) { MESG("DVI ID = %d\n", ch); ERROR(invalid_signature); } pre_id_byte = ch; if (ch == XDV_ID || ch == XDV_ID_OLD) dpx_conf.compat_mode = dpx_mode_xdv_mode; is_ptex = ch == DVI_ID; /* maybe */ dvi_info.unit_num = get_positive_quad(dvi_file, "DVI", "unit_num"); dvi_info.unit_den = get_positive_quad(dvi_file, "DVI", "unit_den"); dvi_info.mag = get_positive_quad(dvi_file, "DVI", "mag"); ch = get_unsigned_byte(dvi_file); if (fread(dvi_info.comment, 1, ch, dvi_file) != ch) { ERROR(invalid_signature); } dvi_info.comment[ch] = '\0'; if (dpx_conf.verbose_level > 2) { MESG("DVI File Info\n"); MESG("Unit: %ld / %ld\n", dvi_info.unit_num, dvi_info.unit_den); MESG("Magnification: %ld\n", dvi_info.mag); } if (dpx_conf.verbose_level > 0) { MESG("DVI Comment: %s\n", dvi_info.comment); } num_pages = 0x7FFFFFFU; /* for linear processing: we just keep going! */ } const char * dvi_comment (void) { return dvi_info.comment; } static void proc_dvilua_font_record (int32_t tex_id, const char *font_name, uint32_t point_size, uint32_t design_size) { char *file_name, *p, *q, *endptr; uint32_t index = 0; uint32_t embolden = 0; int32_t slant = 0, extend = 0x00010000; ASSERT(font_name[0] == '['); /* redundant check but leave this here anyway */ if (num_def_fonts >= max_def_fonts) { max_def_fonts += TEX_FONTS_ALLOC_SIZE; def_fonts = RENEW (def_fonts, max_def_fonts, struct font_def); } file_name = NEW(strlen(font_name) + 1, char); strcpy(file_name, font_name + 1); endptr = file_name + strlen(file_name); q = strchr(file_name, ']'); if (q == NULL) { ERROR("Syntax error in dvilua fnt_def: no ']' found in font name."); } *q = '\0'; p = q + 1; if (p < endptr && *p == ':') { for (p++; *p != '\0' && p < endptr; ) { char *kvsep, *delim; delim = strchr(p, ';'); kvsep = strchr(p, '='); if (delim == NULL) delim = endptr; if (kvsep == NULL || kvsep >= delim) { ERROR("Syntax error in dvilua fnt_def: not in key=value format: %s", font_name); } *kvsep = '\0'; if (!strcmp(p, "index")) { uint32_t value = strtoul(kvsep + 1, &q, 10); if (q != delim) { WARN("Syntax error in dvilua fnt_def: invalid value specified for \"%s\": %s", p, font_name); } else { index = value; } } else if (!strcmp(p, "embolden")) { int32_t value = strtol(kvsep + 1, &q, 10); if (q != delim) { WARN("Syntax error in dvilua fnt_def: invalid value specified for \"%s\": %s", p, font_name); } else { embolden = value; } } else if (!strcmp(p, "slant")) { int32_t value = strtol(kvsep + 1, &q, 10); if (q != delim) { WARN("Syntax error in dvilua fnt_def: invalid value specified for \"%s\": %s", p, font_name); } else { slant = value; } } else if (!strcmp(p, "extend")) { int32_t value = strtol(kvsep + 1, &q, 10); if (q != delim) { WARN("Syntax error in dvilua fnt_def: invalid value specified for \"%s\": %s", p, font_name); } else { extend = value; } } else { WARN("Ignoring unrecognized/unsupported key \"%s\" in dvilua fnt_def: %s", p, font_name); } p = delim + 1; } } def_fonts[num_def_fonts].tex_id = tex_id; def_fonts[num_def_fonts].font_name = file_name; def_fonts[num_def_fonts].face_index = index; def_fonts[num_def_fonts].point_size = point_size; def_fonts[num_def_fonts].design_size = design_size; def_fonts[num_def_fonts].used = 0; def_fonts[num_def_fonts].native = 1; def_fonts[num_def_fonts].layout_dir = 0; def_fonts[num_def_fonts].rgba_color = 0xffffffff; def_fonts[num_def_fonts].rgba_used = 0; def_fonts[num_def_fonts].extend = extend; def_fonts[num_def_fonts].slant = slant; def_fonts[num_def_fonts].embolden = embolden; num_def_fonts++; return; } #define SIG_DVILUA_FNT_DEF ('L' << 24|'u' << 16|'a' << 8|'F') static void read_font_record (int32_t tex_id) { int dir_length, name_length; uint32_t checksum; uint32_t point_size, design_size; char *directory, *font_name; if (num_def_fonts >= max_def_fonts) { max_def_fonts += TEX_FONTS_ALLOC_SIZE; def_fonts = RENEW (def_fonts, max_def_fonts, struct font_def); } checksum = get_unsigned_quad(dvi_file); point_size = get_positive_quad(dvi_file, "DVI", "point_size"); design_size = get_positive_quad(dvi_file, "DVI", "design_size"); dir_length = get_unsigned_byte(dvi_file); name_length = get_unsigned_byte(dvi_file); directory = NEW(dir_length + 1, char); if (fread(directory, 1, dir_length, dvi_file) != dir_length) { ERROR(invalid_signature); } directory[dir_length] = '\0'; RELEASE(directory); /* unused */ font_name = NEW(name_length + 1, char); if (fread(font_name, 1, name_length, dvi_file) != name_length) { ERROR(invalid_signature); } font_name[name_length] = '\0'; if (checksum == SIG_DVILUA_FNT_DEF && name_length > 0 && font_name[0] == '[') { proc_dvilua_font_record(tex_id, font_name, point_size, design_size); RELEASE(font_name); return; } def_fonts[num_def_fonts].tex_id = tex_id; def_fonts[num_def_fonts].font_name = font_name; def_fonts[num_def_fonts].point_size = point_size; def_fonts[num_def_fonts].design_size = design_size; def_fonts[num_def_fonts].used = 0; def_fonts[num_def_fonts].native = 0; def_fonts[num_def_fonts].rgba_color = 0xffffffff; def_fonts[num_def_fonts].rgba_used = 0; def_fonts[num_def_fonts].face_index = 0; def_fonts[num_def_fonts].layout_dir = 0; def_fonts[num_def_fonts].extend = 0x00010000; /* 1.0 */ def_fonts[num_def_fonts].slant = 0; def_fonts[num_def_fonts].embolden = 0; num_def_fonts++; return; } static void read_native_font_record (int32_t tex_id) { unsigned int flags; uint32_t point_size; char *font_name; int len; uint32_t index; if (num_def_fonts >= max_def_fonts) { max_def_fonts += TEX_FONTS_ALLOC_SIZE; def_fonts = RENEW (def_fonts, max_def_fonts, struct font_def); } point_size = get_positive_quad(dvi_file, "DVI", "point_size"); flags = get_unsigned_pair(dvi_file); len = (int) get_unsigned_byte(dvi_file); /* font name length */ font_name = NEW(len + 1, char); if (fread(font_name, 1, len, dvi_file) != len) { ERROR(invalid_signature); } font_name[len] = '\0'; index = get_positive_quad(dvi_file, "DVI", "index"); def_fonts[num_def_fonts].tex_id = tex_id; def_fonts[num_def_fonts].font_name = font_name; def_fonts[num_def_fonts].face_index = index; def_fonts[num_def_fonts].point_size = point_size; def_fonts[num_def_fonts].design_size = 655360; /* hard-code as 10pt for now, not used anyway */ def_fonts[num_def_fonts].used = 0; def_fonts[num_def_fonts].native = 1; def_fonts[num_def_fonts].layout_dir = 0; def_fonts[num_def_fonts].rgba_color = 0xffffffff; def_fonts[num_def_fonts].rgba_used = 0; def_fonts[num_def_fonts].extend = 0x00010000; def_fonts[num_def_fonts].slant = 0; def_fonts[num_def_fonts].embolden = 0; if (flags & XDV_FLAG_VERTICAL) def_fonts[num_def_fonts].layout_dir = 1; if (flags & XDV_FLAG_COLORED) { def_fonts[num_def_fonts].rgba_color = get_unsigned_quad(dvi_file); def_fonts[num_def_fonts].rgba_used = 1; } if (flags & XDV_FLAG_EXTEND) def_fonts[num_def_fonts].extend = get_signed_quad(dvi_file); if (flags & XDV_FLAG_SLANT) def_fonts[num_def_fonts].slant = get_signed_quad(dvi_file); if (flags & XDV_FLAG_EMBOLDEN) def_fonts[num_def_fonts].embolden = get_signed_quad(dvi_file); num_def_fonts++; return; } static void get_dvi_fonts (int32_t post_location) { int code; xseek_absolute (dvi_file, post_location + 29, "DVI"); while ((code = get_unsigned_byte(dvi_file)) != POST_POST) { switch (code) { case FNT_DEF1: case FNT_DEF2: case FNT_DEF3: case FNT_DEF4: read_font_record(get_unsigned_num(dvi_file, code-FNT_DEF1)); break; case XDV_NATIVE_FONT_DEF: need_XeTeX(code); read_native_font_record(get_signed_quad(dvi_file)); break; default: MESG("Unexpected op code: %3d\n", code); ERROR(invalid_signature); } } if (dpx_conf.verbose_level > 2) { unsigned i; MESG("\n"); MESG("DVI file font info\n"); for (i = 0; i < num_def_fonts; i++) { MESG("TeX Font: %10s loaded at ID=%5d, ", def_fonts[i].font_name, def_fonts[i].tex_id); MESG("size=%5.2fpt (scaled %4.1f%%)", def_fonts[i].point_size * dvi2pts, 100.0 * ((double) def_fonts[i].point_size / def_fonts[i].design_size)); MESG("\n"); } } } static void get_comment (void) { int length; xseek_absolute (dvi_file, 14, "DVI"); length = get_unsigned_byte(dvi_file); if (fread(dvi_info.comment, 1, length, dvi_file) != length) { ERROR(invalid_signature); } dvi_info.comment[length] = '\0'; if (dpx_conf.verbose_level > 0) { MESG("DVI Comment: %s\n", dvi_info.comment); } } /* * The section below this line deals with the actual processing of the * dvi file. * * The dvi file processor state is contained in the following variables: */ struct dvi_registers { int32_t h, v, w, x, y, z; unsigned int d; }; static struct dvi_registers dvi_state; static struct dvi_registers dvi_stack[DVI_STACK_DEPTH_MAX]; static unsigned dvi_stack_depth = 0 ; static int current_font = -1; static int processing_page = 0 ; static void clear_state (void) { dvi_state.h = 0; dvi_state.v = 0; dvi_state.w = 0; dvi_state.x = 0; dvi_state.y = 0; dvi_state.z = 0; dvi_state.d = 0; /* direction */ pdf_dev_set_dirmode(0); dvi_stack_depth = 0; current_font = -1; } /* Migrated from pdfdev.c: * The following codes are originally put into pdfdev.c. * But they are moved to here to make PDF output independent * from DVI input. * pdfdoc, pdfspecial and htex are also modified. pdfspecial * and htex does tag/untag depth. pdfdev and pdfdoc now does * not care about line-breaking at all. */ static unsigned marked_depth = 0; static int tagged_depth = -1; static void dvi_mark_depth (void) { /* If decreasing below tagged_depth */ if (link_annot && marked_depth == tagged_depth && dvi_stack_depth == tagged_depth - 1) { /* * See if this appears to be the end of a "logical unit" * that's been broken. If so, flush the logical unit. */ pdf_doc_break_annot(); } marked_depth = dvi_stack_depth; } /* * The following routines setup and tear down a callback at a * certain stack depth. This is used to handle broken (linewise) * links. */ void dvi_tag_depth (void) { tagged_depth = marked_depth; dvi_compute_boxes(1); } void dvi_untag_depth (void) { tagged_depth = -1; dvi_compute_boxes(0); } void dvi_compute_boxes (int flag) { compute_boxes = flag; } void dvi_link_annot (int flag) { link_annot = flag; } int dvi_is_tracking_boxes(void) { return (compute_boxes && link_annot && marked_depth >= tagged_depth); } void dvi_set_linkmode (int mode) { catch_phantom = mode != 0 ? 1 : 0; } void dvi_set_phantom_height (double height, double depth) { phantom_height = height; phantom_depth = depth; catch_phantom = 2; } /* All those things related to "compensation" is intruduced due to * bcontent/econtent specials. They are originally implemented with * modification to very important part of pdfdev functions such as * pdf_dev_set_string(), and it made things very unclear. * * It is not good idea to modify the core part of PDF output routines * just for implementing DVI "special" command. They do not make sense * and just look odd when PDF output routines are separated from dvipdfmx. */ static struct spt_coord { spt_t x, y; } compensation = { 0, 0 }; void dvi_set_compensation (double x, double y) { compensation.x = (spt_t) round(x / dvi2pts); compensation.y = (spt_t) round(y / dvi2pts); } static void set_string (spt_t xpos, spt_t ypos, const void *instr_ptr, int instr_len, spt_t width, int font_id) { xpos -= compensation.x; ypos -= compensation.y; pdf_dev_set_string(xpos, ypos, instr_ptr, instr_len, width, font_id); } static void set_rule (spt_t xpos, spt_t ypos, spt_t width, spt_t height) { xpos -= compensation.x; ypos -= compensation.y; pdf_dev_set_rule(xpos, ypos, width, height); } static void calc_rect (pdf_rect *r, spt_t xpos, spt_t ypos, spt_t width, spt_t height, spt_t depth) { xpos -= compensation.x; ypos -= compensation.y; pdf_dev_set_rect(r, xpos, ypos, width, height, depth); } void dvi_do_special (const void *buffer, int32_t size) { double x_user, y_user, mag; const char *p; int is_drawable = 0; pdf_rect rect = {0.0, 0.0, 0.0, 0.0}; graphics_mode(); p = (const char *) buffer; x_user = dvi_state.h * dvi2pts; y_user = -dvi_state.v * dvi2pts; mag = dvi_tell_mag(); if (spc_exec_special(p, size, x_user, y_user, mag, &is_drawable, &rect) < 0) { if (dpx_conf.verbose_level > 0) { dump(p, p + size); } return; } if (dvi_is_tracking_boxes() && is_drawable) { pdf_doc_expand_box(&rect); } return; } double dvi_unit_size (void) { return dvi2pts; } int dvi_locate_font (const char *tfm_name, spt_t ptsize) { int cur_id = -1; const char *name = tfm_name; int subfont_id = -1, font_id; /* VF or device font ID */ fontmap_rec *mrec; if (dpx_conf.verbose_level > 0) MESG("<%s@%.2fpt", tfm_name, ptsize * dvi2pts); need_more_fonts(1); /* This routine needs to be recursive/reentrant. Load current high water * mark into an automatic variable. */ cur_id = num_loaded_fonts++; mrec = pdf_lookup_fontmap_record(tfm_name); /* Load subfont mapping table */ if (mrec && mrec->charmap.sfd_name && mrec->charmap.subfont_id) { subfont_id = sfd_load_record(mrec->charmap.sfd_name, mrec->charmap.subfont_id); } memset(&loaded_fonts[cur_id], 0, sizeof (struct loaded_font)); /* TFM must exist here. */ loaded_fonts[cur_id].tfm_id = tfm_open(tfm_name, 1); loaded_fonts[cur_id].subfont_id = subfont_id; loaded_fonts[cur_id].size = ptsize; /* This will be reset later if it was really generated by the dvi file. */ loaded_fonts[cur_id].source = VF; /* The order of searching fonts is as follows: * * 1. If mrec is null, that is, there is no map entry matching * with tfm_name, then search a virtual font matching with * tfm_name at first. If no virtual font is found, search a * PK font matching with tfm_name. * * 2. If mrec is non-null, search a physical scalable font. * * 3. Notice that every subfont gets non-null mrec. In this case, * enc_name corresponding to mrec will be used instead of mrec. * That is enc_name is NULL, search a virtual font for Omega (.ovf) * matching with the base name of the subfont. If no virtual font * for Omega is found, it is a fatal error because there is no PK font * for Omega. */ if (!mrec) { font_id = vf_locate_font(tfm_name, ptsize); if (font_id >= 0) { loaded_fonts[cur_id].type = VIRTUAL; loaded_fonts[cur_id].font_id = font_id; if (dpx_conf.verbose_level > 0) MESG("(VF)>"); return cur_id; } } #if 1 /* Sorry, I don't understand this well... Please fix. * The purpose of this seems to be: * * Map 8-bit char codes in subfont to 16-bit code with SFD mapping * and map subfonts to single OVF font. * * But it apparently only does TFM -> OVF mapping but no character * code mapping. Please see dvi_set(), you can't have both font->type * VIRTUAL and font->subfont_id >= 0. Am I missing something? */ else if (subfont_id >= 0 && mrec->map_name) { fontmap_rec *mrec1 = pdf_lookup_fontmap_record(mrec->map_name); /* enc_name=NULL should be used only for 'built-in' encoding. * Please fix this! */ if (mrec1 && !mrec1->enc_name) { font_id = vf_locate_font(mrec1->font_name, ptsize); if (font_id < 0) WARN("Could not locate Omega Virtual Font \"%s\" for \"%s\".", mrec1->font_name, tfm_name); else { loaded_fonts[cur_id].type = VIRTUAL; loaded_fonts[cur_id].font_id = font_id; if (dpx_conf.verbose_level > 0) MESG("(OVF)>"); return cur_id; } } } #endif /* 1 */ /* Failed to load a virtual font so we try to load a physical font. */ /* If mrec->map_name is not NULL, font name identified in PDF output * is different than tfm_name, this can happen for subfonts grouped * into a single "intermediate" font foo@SFD@. * This is necessary for optimal output; to avoid unnecessary creation * of multiple instances of a same font, to avoid frequent font selection * and break of string_mode. */ if (mrec && mrec->map_name) { name = mrec->map_name; } else { name = tfm_name; } /* We need ptsize for PK font creation. */ font_id = pdf_dev_locate_font(name, ptsize); if (font_id < 0) { WARN("Could not locate a virtual/physical font for TFM \"%s\".", tfm_name); if (mrec && mrec->map_name) { /* has map_name */ fontmap_rec *mrec1 = pdf_lookup_fontmap_record(mrec->map_name); WARN(">> This font is mapped to an intermediate 16-bit font \"%s\" with SFD charmap=<%s,%s>,", mrec->map_name, mrec->charmap.sfd_name, mrec->charmap.subfont_id); if (!mrec1) WARN(">> but I couldn't find font mapping for \"%s\".", mrec->map_name); else { WARN(">> and then mapped to a physical font \"%s\" by fontmap.", mrec1->font_name); WARN(">> Please check if kpathsea library can find this font: %s", mrec1->font_name); } } else if (mrec && !mrec->map_name) { char *finaldot = strrchr(mrec->font_name, '.'); if (finaldot && strcasecmp(finaldot, ".pfa") == 0) { /* type1 fonts with pfa format are not supported */ WARN("This font is mapped to a physical font \"%s\".", mrec->font_name); ERROR("Sorry, pfa format not supported; please convert the font to pfb, e.g., with t1binary."); } else { WARN(">> This font is mapped to a physical font \"%s\".", mrec->font_name); WARN(">> Please check if kpathsea library can find this font: %s", mrec->font_name); } } else { WARN(">> There are no valid font mapping entry for this font."); WARN(">> Font file name \"%s\" was assumed but failed to locate that font.", tfm_name); } ERROR("Cannot proceed without .vf or \"physical\" font for PDF output..."); } memset(loaded_fonts[cur_id].padbytes, 0, 4); if (mrec) { if (mrec->opt.mapc >= 0) { loaded_fonts[cur_id].padbytes[2] = (mrec->opt.mapc >> 8) & 0xff; } if (mrec->enc_name && !strcmp(mrec->enc_name, "unicode")) { loaded_fonts[cur_id].is_unicode = 1; if (mrec->opt.mapc >= 0) { loaded_fonts[cur_id].padbytes[0] = (mrec->opt.mapc >> 24) & 0xff; loaded_fonts[cur_id].padbytes[1] = (mrec->opt.mapc >> 16) & 0xff; } } } loaded_fonts[cur_id].minbytes = pdf_dev_font_minbytes(font_id); loaded_fonts[cur_id].type = PHYSICAL; loaded_fonts[cur_id].font_id = font_id; if (loaded_fonts[cur_id].minbytes > 4) { WARN("Input encoding requries more than 4 bytes per char... (unsupported)"); loaded_fonts[cur_id].minbytes = 4; } if (dpx_conf.verbose_level > 0) MESG(">"); return cur_id; } #if defined(LIBDPX) int #else static int #endif /* LIBDPX */ dvi_locate_native_font (const char *filename, uint32_t index, spt_t ptsize, int layout_dir, int extend, int slant, int embolden) { int cur_id = -1; fontmap_rec *mrec; char *fontmap_key; FILE *fp; char *path; sfnt *sfont; ULONG offset = 0; int is_dfont = 0, is_type1 = 0; if (dpx_conf.verbose_level > 0) MESG("<%s@%.2fpt", filename, ptsize * dvi2pts); if ((path = dpx_find_dfont_file(filename)) != NULL && (fp = MFOPEN(path, "rb")) != NULL) is_dfont = 1; else if ((path = dpx_find_type1_file(filename)) != NULL) is_type1 = 1; else if (((path = dpx_find_opentype_file(filename)) == NULL && (path = dpx_find_truetype_file(filename)) == NULL) || (fp = MFOPEN(path, "rb")) == NULL) { ERROR("Cannot proceed without the font: %s", filename); } need_more_fonts(1); cur_id = num_loaded_fonts++; fontmap_key = malloc(strlen(path) + 40); // CHECK this is enough sprintf(fontmap_key, "%s/%u/%c/%d/%d/%d", path, index, layout_dir == 0 ? 'H' : 'V', extend, slant, embolden); mrec = pdf_lookup_fontmap_record(fontmap_key); if (mrec == NULL) { if ((mrec = pdf_insert_native_fontmap_record(path, index, layout_dir, extend, slant, embolden)) == NULL) { ERROR("Failed to insert font record for font: %s", filename); } } memset(&loaded_fonts[cur_id], 0, sizeof (struct loaded_font)); loaded_fonts[cur_id].font_id = pdf_dev_locate_font(fontmap_key, ptsize); loaded_fonts[cur_id].size = ptsize; loaded_fonts[cur_id].type = NATIVE; loaded_fonts[cur_id].minbytes = pdf_dev_font_minbytes(loaded_fonts[cur_id].font_id); if (loaded_fonts[cur_id].minbytes > 4) { WARN("Input encoding requries more than 4 bytes per char... (unsupprted)"); loaded_fonts[cur_id].minbytes = 4; } RELEASE(fontmap_key); if (is_type1) { cff_font *cffont; char *enc_vec[256]; uint16_t num_glyphs; int i; fp = DPXFOPEN(filename, DPX_RES_TYPE_T1FONT); if (!fp) return -1; if (!is_pfb(fp)) ERROR("Failed to read Type 1 font \"%s\".", filename); memset(enc_vec, 0, 256 * sizeof(char *)); cffont = t1_load_font(enc_vec, 0, fp); if (!cffont) ERROR("Failed to read Type 1 font \"%s\".", filename); for (i = 0; i < 256; i++) { if (enc_vec[i]) RELEASE(enc_vec[i]); } loaded_fonts[cur_id].shift_gid = cffont->is_notdef_notzero; loaded_fonts[cur_id].num_glyphs = num_glyphs = cffont->num_glyphs; loaded_fonts[cur_id].gm = NEW(num_glyphs + 1, struct gm); for (i = 0; i < num_glyphs; i++) { double advance, ascent, descent; cff_index *cstrings = cffont->cstrings; t1_ginfo gm; uint16_t gid; /* If .notdef is not the 1st glyph in CharStrings, glyph_id given by * FreeType should be increased by 1 */ gid = (cffont->is_notdef_notzero) ? i + 1 : i; if (gid == num_glyphs) break; t1char_get_metrics(cstrings->data + cstrings->offset[gid] - 1, cstrings->offset[gid + 1] - cstrings->offset[gid], cffont->subrs[0], &gm); advance = layout_dir == 0 ? gm.wx : gm.wy; ascent = gm.bbox.ury; descent = gm.bbox.lly; loaded_fonts[cur_id].gm[gid].advance = (spt_t) (ptsize * ((advance / 1000.0) * mrec->opt.extend)); loaded_fonts[cur_id].gm[gid].ascent = (spt_t) (ptsize * ((ascent / 1000.0))); loaded_fonts[cur_id].gm[gid].descent = (spt_t) (ptsize * ((descent / 1000.0))); } cff_close(cffont); DPXFCLOSE(fp); } else { struct tt_head_table *head; struct tt_maxp_table *maxp; struct tt_hhea_table *hhea; struct tt_longMetrics *gm; spt_t ascent, descent; uint16_t num_glyphs; int i; if (is_dfont) sfont = dfont_open(fp, index); else sfont = sfnt_open(fp); if (sfont->type == SFNT_TYPE_TTC) offset = ttc_read_offset(sfont, index); else if (sfont->type == SFNT_TYPE_DFONT) offset = sfont->offset; sfnt_read_table_directory(sfont, offset); head = tt_read_head_table(sfont); maxp = tt_read_maxp_table(sfont); hhea = tt_read_hhea_table(sfont); ascent = (spt_t) (ptsize * ((double) hhea->ascent / (double) head->unitsPerEm)); descent = (spt_t) (ptsize * ((double) hhea->descent / (double) head->unitsPerEm)); loaded_fonts[cur_id].num_glyphs = num_glyphs = maxp->numGlyphs; if (layout_dir == 1 && sfnt_find_table_pos(sfont, "vmtx") > 0) { struct tt_vhea_table *vhea = tt_read_vhea_table(sfont); sfnt_locate_table(sfont, "vmtx"); gm = tt_read_longMetrics(sfont, maxp->numGlyphs, vhea->numOfLongVerMetrics, vhea->numOfExSideBearings); RELEASE(vhea); } else { sfnt_locate_table(sfont, "hmtx"); gm = tt_read_longMetrics(sfont, maxp->numGlyphs, hhea->numOfLongHorMetrics, hhea->numOfExSideBearings); } if (!gm) ERROR("Failed to read TrueType/OpenType glyph metrics table."); loaded_fonts[cur_id].gm = NEW(num_glyphs, struct gm); for (i = 0; i < num_glyphs; i++) { loaded_fonts[cur_id].gm[i].advance = (spt_t) (ptsize * ((double) gm[i].advance / (double) head->unitsPerEm) * mrec->opt.extend); loaded_fonts[cur_id].gm[i].ascent = ascent; loaded_fonts[cur_id].gm[i].descent = descent; } RELEASE(gm); RELEASE(hhea); RELEASE(maxp); RELEASE(head); sfnt_close(sfont); DPXFCLOSE(fp); } RELEASE(path); loaded_fonts[cur_id].layout_dir = layout_dir; loaded_fonts[cur_id].extend = mrec->opt.extend; loaded_fonts[cur_id].slant = mrec->opt.slant; loaded_fonts[cur_id].embolden = mrec->opt.bold; if (dpx_conf.verbose_level > 0) MESG(">"); return cur_id; } double dvi_dev_xpos (void) { return dvi_state.h * dvi2pts; } double dvi_dev_ypos (void) { return -(dvi_state.v * dvi2pts); } static void do_moveto (int32_t x, int32_t y) { dvi_state.h = x; dvi_state.v = y; } void dvi_right (int32_t x) { spt_t save_h, save_v; if (lr_mode >= SKIMMING) { lr_width += x; return; } if (lr_mode == RTYPESETTING) x = -x; save_h = dvi_state.h; save_v = dvi_state.v; switch (dvi_state.d) { case 0: dvi_state.h += x; break; case 1: dvi_state.v += x; break; case 3: dvi_state.v -= x; break; } if (dvi_is_tracking_boxes() && catch_phantom > 0) { pdf_rect rect; spt_t width, height, depth; if (catch_phantom == 1) { if (current_font >= 0 && current_font < num_loaded_fonts) { height = loaded_fonts[current_font].size; } else { if (dpx_conf.verbose_level > 0) { WARN("Don't know how to calculate the box height since current font is not set..."); } height = 0.0; } depth = 0.0; } else { height = phantom_height / dvi2pts; depth = phantom_depth / dvi2pts; } switch (dvi_state.d) { case 0: width = dvi_state.h - save_h; break; case 1: case 2: width = dvi_state.v - save_v; break; default: width = dvi_state.h - save_h; } calc_rect(&rect, save_h, -save_v, width, height, depth); pdf_doc_expand_box(&rect); } } void dvi_down (int32_t y) { if (lr_mode < SKIMMING) { switch (dvi_state.d) { case 0: dvi_state.v += y; break; case 1: dvi_state.h -= y; break; case 3: dvi_state.h += y; break; } } } /* _FIXME_ * CMap decoder wants multibyte strings as input but * how DVI char codes are converted to multibyte sting * is not clear. */ void dvi_set (int32_t ch) { struct loaded_font *font; spt_t width, height, depth; unsigned char wbuf[4]; int n, cbytes; if (current_font < 0) { ERROR("No font selected!"); } /* The division by dvi2pts seems strange since we actually know the * "dvi" size of the fonts contained in the DVI file. In other * words, we converted from DVI units to pts and back again! * The problem comes from fonts defined in VF files where we don't know * the DVI size. It's keeping me sane to keep *point sizes* of *all* * fonts in the dev.c file and convert them back if necessary. */ font = &loaded_fonts[current_font]; if (font->type == NATIVE) { if (ch >= 0 && ch < font->num_glyphs) { width = font->gm[ch].advance; } else { WARN("Invalid char for dvilua font (ignored): %04x", ch); return; } } else { width = tfm_get_fw_width(font->tfm_id, ch); width = sqxfw(font->size, width); } if (lr_mode >= SKIMMING) { lr_width += width; return; } if (lr_mode == RTYPESETTING) dvi_right(width); /* Will actually move left */ memcpy(wbuf, font->padbytes, 4); switch (font->type) { case PHYSICAL: if (ch > 65535) { /* FIXME: uptex specific undocumented */ if (!font->is_unicode && tfm_is_jfm(font->tfm_id)) { wbuf[0] = (UTF32toUTF16HS(ch) >> 8) & 0xff; wbuf[1] = UTF32toUTF16HS(ch) & 0xff; wbuf[2] = (UTF32toUTF16LS(ch) >> 8) & 0xff; wbuf[3] = UTF32toUTF16LS(ch) & 0xff; } else { wbuf[0] = (ch >> 24) & 0xff; wbuf[1] = (ch >> 16) & 0xff; wbuf[2] = (ch >> 8) & 0xff; wbuf[3] = ch & 0xff; } n = 4; } else if (ch > 255) { wbuf[2] = (ch >> 8) & 0xff; wbuf[3] = ch & 0xff; n = 2; } else if (font->subfont_id >= 0) { uint16_t uch = lookup_sfd_record(font->subfont_id, (unsigned char) ch); wbuf[2] = (uch >> 8) & 0xff; wbuf[3] = uch & 0xff; n = 2; } else { wbuf[3] = (unsigned char) ch; n = 1; } cbytes = font->minbytes > n ? font->minbytes : n; set_string(dvi_state.h, -dvi_state.v, wbuf + 4 - cbytes, cbytes, width, font->font_id); if (dvi_is_tracking_boxes()) { pdf_rect rect; height = tfm_get_fw_height(font->tfm_id, ch); depth = tfm_get_fw_depth (font->tfm_id, ch); height = sqxfw(font->size, height); depth = sqxfw(font->size, depth); calc_rect(&rect, dvi_state.h, -dvi_state.v, width, height, depth); pdf_doc_expand_box(&rect); } break; case NATIVE: wbuf[0] = (ch >> 8) & 0xff; wbuf[1] = ch & 0xff; set_string(dvi_state.h, -dvi_state.v, wbuf, 2, width, font->font_id); if (dvi_is_tracking_boxes()) { pdf_rect rect; height = font->gm[ch].ascent; depth = font->gm[ch].descent; calc_rect(&rect, dvi_state.h, -dvi_state.v, width, height, depth); pdf_doc_expand_box(&rect); } break; case VIRTUAL: #if 0 /* See comment in locate_font() */ if (font->subfont_id >= 0) ch = lookup_sfd_record(font->subfont_id, (unsigned char) ch); #endif /* 0 */ vf_set_char(ch, font->font_id); /* push/pop invoked */ break; } if (lr_mode == LTYPESETTING) dvi_right(width); } void dvi_put (int32_t ch) { struct loaded_font *font; spt_t width, height, depth; unsigned char wbuf[4]; int n, cbytes; if (current_font < 0) { ERROR("No font selected!"); } font = &loaded_fonts[current_font]; memcpy(wbuf, font->padbytes, 4); switch (font->type) { case PHYSICAL: width = tfm_get_fw_width(font->tfm_id, ch); width = sqxfw(font->size, width); /* Treat a single character as a one byte string and use the * string routine. */ if (ch > 65535) { /* FIXME: uptex specific undocumented */ if (!font->is_unicode && tfm_is_jfm(font->tfm_id)) { wbuf[0] = (UTF32toUTF16HS(ch) >> 8) & 0xff; wbuf[1] = UTF32toUTF16HS(ch) & 0xff; wbuf[2] = (UTF32toUTF16LS(ch) >> 8) & 0xff; wbuf[3] = UTF32toUTF16LS(ch) & 0xff; } else { wbuf[0] = (ch >> 24) & 0xff; wbuf[1] = (ch >> 16) & 0xff; wbuf[2] = (ch >> 8) & 0xff; wbuf[3] = ch & 0xff; } n = 4; } else if (ch > 255) { wbuf[2] = (ch >> 8) & 0xff; wbuf[3] = ch & 0xff; n = 2; } else if (font->subfont_id >= 0) { uint16_t uch = lookup_sfd_record(font->subfont_id, (unsigned char) ch); wbuf[2] = (uch >> 8) & 0xff; wbuf[3] = uch & 0xff; n = 2; } else { wbuf[3] = (unsigned char) ch; n = 1; } cbytes = font->minbytes > n ? font->minbytes : n; set_string(dvi_state.h, -dvi_state.v, wbuf + 4 - cbytes, cbytes, width, font->font_id); if (dvi_is_tracking_boxes()) { pdf_rect rect; height = tfm_get_fw_height(font->tfm_id, ch); depth = tfm_get_fw_depth (font->tfm_id, ch); height = sqxfw(font->size, height); depth = sqxfw(font->size, depth); calc_rect(&rect, dvi_state.h, -dvi_state.v, width, height, depth); pdf_doc_expand_box(&rect); } break; case VIRTUAL: #if 0 /* See comment in locate_font() */ if (font->subfont_id >= 0) ch = lookup_sfd_record(font->subfont_id, (unsigned char) ch); #endif /* 0 */ vf_set_char(ch, font->font_id); break; } return; } void dvi_rule (int32_t width, int32_t height) { if (width > 0 && height > 0) { do_moveto(dvi_state.h, dvi_state.v); switch (dvi_state.d) { case 0: set_rule(dvi_state.h, -dvi_state.v, width, height); break; case 1: set_rule(dvi_state.h, -dvi_state.v - width, height, width); break; case 3: set_rule(dvi_state.h - height, -dvi_state.v , height, width); break; } } } void dvi_dirchg (unsigned char dir) { if (dpx_conf.verbose_level > 0) fprintf(stderr, " > dvi_dirchg %d\n", dir); dvi_state.d = dir; pdf_dev_set_dirmode(dvi_state.d); /* 0: horizontal, 1,3: vertical */ } static void do_setrule (void) { int32_t width, height; height = get_buffered_signed_quad(); width = get_buffered_signed_quad(); switch (lr_mode) { case LTYPESETTING: dvi_rule(width, height); dvi_right(width); break; case RTYPESETTING: dvi_right(width); dvi_rule(width, height); break; default: lr_width += width; break; } } static void do_putrule (void) { int32_t width, height; height = get_buffered_signed_quad (); width = get_buffered_signed_quad (); switch (lr_mode) { case LTYPESETTING: dvi_rule(width, height); break; case RTYPESETTING: dvi_right(width); dvi_rule(width, height); dvi_right(-width); break; default: break; } } void dvi_push (void) { if (dvi_stack_depth >= DVI_STACK_DEPTH_MAX) ERROR("DVI stack exceeded limit."); dvi_stack[dvi_stack_depth++] = dvi_state; } void dvi_pop (void) { if (dvi_stack_depth <= 0) ERROR ("Tried to pop an empty stack."); dvi_state = dvi_stack[--dvi_stack_depth]; do_moveto(dvi_state.h, dvi_state.v); pdf_dev_set_dirmode(dvi_state.d); /* 0: horizontal, 1,3: vertical */ } void dvi_w (int32_t ch) { dvi_state.w = ch; dvi_right(ch); } void dvi_w0 (void) { dvi_right(dvi_state.w); } void dvi_x (int32_t ch) { dvi_state.x = ch; dvi_right(ch); } void dvi_x0 (void) { dvi_right(dvi_state.x); } void dvi_y (int32_t ch) { dvi_state.y = ch; dvi_down(ch); } void dvi_y0 (void) { dvi_down(dvi_state.y); } void dvi_z (int32_t ch) { dvi_state.z = ch; dvi_down(ch); } void dvi_z0 (void) { dvi_down(dvi_state.z); } static void skip_fntdef (void) { int area_len, name_len; skip_bytes(12, dvi_file); area_len = get_unsigned_byte(dvi_file); name_len = get_unsigned_byte(dvi_file); skip_bytes(area_len + name_len, dvi_file); } /* when pre-scanning the page, we process fntdef and remove the fntdef opcode from the buffer */ static void do_fntdef (int32_t tex_id) { if (linear) read_font_record(tex_id); else skip_fntdef(); --dvi_page_buf_index; } void dvi_set_font (int font_id) { current_font = font_id; } static void do_fnt (int32_t tex_id) { int i; for (i = 0; i < num_def_fonts; i++) { if (def_fonts[i].tex_id == tex_id) break; } if (i == num_def_fonts) { ERROR("Tried to select a font that hasn't been defined: id=%d", tex_id); } if (!def_fonts[i].used) { int font_id; if (def_fonts[i].native) { font_id = dvi_locate_native_font(def_fonts[i].font_name, def_fonts[i].face_index, def_fonts[i].point_size, def_fonts[i].layout_dir, def_fonts[i].extend, def_fonts[i].slant, def_fonts[i].embolden); } else { font_id = dvi_locate_font(def_fonts[i].font_name, def_fonts[i].point_size); } loaded_fonts[font_id].rgba_color = def_fonts[i].rgba_color; loaded_fonts[font_id].rgba_used = def_fonts[i].rgba_used; /* if rgba_used == 0, not a colored font */ if (loaded_fonts[font_id].rgba_used == 0) { loaded_fonts[font_id].xgs_id = -1; } else { pdf_obj *xgs_dict; int a = loaded_fonts[font_id].rgba_color & 0xff; /* Inefficient but don't care as transparency is not expected to be frequently used. */ xgs_dict = pdf_new_dict(); pdf_add_dict(xgs_dict, pdf_new_name("Type"), pdf_new_name("ExtGState")); pdf_add_dict(xgs_dict, pdf_new_name("ca"), pdf_new_number(a/255.0)); pdf_add_dict(xgs_dict, pdf_new_name("CA"), pdf_new_number(a/255.0)); loaded_fonts[font_id].xgs_id = pdf_defineresource("ExtGState", NULL, xgs_dict, 0); } loaded_fonts[font_id].source = DVI; def_fonts[i].used = 1; def_fonts[i].font_id = font_id; } current_font = def_fonts[i].font_id; } static void do_xxx (int32_t size) { if (lr_mode < SKIMMING) dvi_do_special(dvi_page_buffer + dvi_page_buf_index, size); dvi_page_buf_index += size; } static void do_bop (void) { int i; if (processing_page) ERROR("Got a bop in the middle of a page!"); /* For now, ignore TeX's count registers */ for (i = 0; i < 10; i++) { skip_bufferd_bytes(4); } /* Ignore previous page pointer since we have already * saved this information */ skip_bufferd_bytes(4); clear_state(); processing_page = 1; pdf_doc_begin_page(dvi_tell_mag(), dev_origin_x, dev_origin_y); spc_exec_at_begin_page(); return; } static void do_eop (void) { processing_page = 0; if (dvi_stack_depth != 0) { ERROR("DVI stack depth is not zero at end of page"); } spc_exec_at_end_page(); pdf_doc_end_page(); return; } static void do_dir (void) { dvi_state.d = get_buffered_unsigned_byte(); pdf_dev_set_dirmode(dvi_state.d); /* 0: horizontal, 1,3: vertical */ } static void lr_width_push (void) { if (lr_width_stack_depth >= DVI_STACK_DEPTH_MAX) ERROR("Segment width stack exceeded limit."); lr_width_stack[lr_width_stack_depth++] = lr_width; } static void lr_width_pop (void) { if (lr_width_stack_depth <= 0) ERROR("Tried to pop an empty segment width stack."); lr_width = lr_width_stack[--lr_width_stack_depth]; } static void dvi_begin_reflect (void) { if (lr_mode >= SKIMMING) { ++lr_mode; } else { lr_state.buf_index = dvi_page_buf_index; lr_state.font = current_font; lr_state.state = lr_mode; lr_mode = SKIMMING; lr_width = 0; } } static void dvi_end_reflect (void) { switch (lr_mode) { case SKIMMING: current_font = lr_state.font; dvi_page_buf_index = lr_state.buf_index; lr_mode = REVERSE(lr_state.state); /* must precede dvi_right */ dvi_right(-(int32_t)lr_width); lr_width_push(); break; case LTYPESETTING: case RTYPESETTING: lr_width_pop(); dvi_right(-(int32_t)lr_width); lr_mode = REVERSE(lr_mode); break; default: /* lr_mode > SKIMMING */ lr_mode--; } } static void skip_native_font_def (void) { unsigned int flags; int name_length; skip_bytes(4, dvi_file); /* skip point size */ flags = get_unsigned_pair(dvi_file); name_length = get_unsigned_byte(dvi_file); skip_bytes(name_length + 4, dvi_file); if (flags & XDV_FLAG_COLORED) skip_bytes(4, dvi_file); if (flags & XDV_FLAG_EXTEND) skip_bytes(4, dvi_file); if (flags & XDV_FLAG_SLANT) skip_bytes(4, dvi_file); if (flags & XDV_FLAG_EMBOLDEN) skip_bytes(4, dvi_file); } static void do_native_font_def (int32_t tex_id) { if (linear) read_native_font_record(tex_id); else skip_native_font_def(); --dvi_page_buf_index; /* don't buffer the opcode */ } static void skip_glyphs (void) { unsigned int i, slen = 0; slen = (unsigned int) get_buffered_unsigned_pair(); for (i = 0; i < slen; i++) { skip_bufferd_bytes(4); skip_bufferd_bytes(4); skip_bufferd_bytes(2); } } static void do_glyphs (int do_actual_text) { struct loaded_font *font; spt_t width, height, depth, *xloc, *yloc; unsigned char wbuf[2]; int32_t i; uint16_t glyph_id, slen = 0; if (current_font < 0) ERROR("No font selected!"); font = &loaded_fonts[current_font]; if (do_actual_text) { slen = (unsigned int) get_buffered_unsigned_pair(); if (lr_mode >= SKIMMING) { for (i = 0; i < slen; i++) { skip_bufferd_bytes(2); } } else { uint16_t *unicodes = NEW(slen, uint16_t); for (i = 0; i < slen; i++) { unicodes[i] = (uint16_t) get_buffered_unsigned_pair(); } pdf_dev_begin_actualtext (unicodes, slen); RELEASE(unicodes); } } width = get_buffered_signed_quad(); if (lr_mode >= SKIMMING) { lr_width += width; skip_glyphs(); return; } if (lr_mode == RTYPESETTING) dvi_right(width); /* Will actually move left */ slen = (unsigned int) get_buffered_unsigned_pair(); xloc = NEW(slen, spt_t); yloc = NEW(slen, spt_t); for (i = 0; i < slen; i++) { xloc[i] = get_buffered_signed_quad(); yloc[i] = get_buffered_signed_quad(); } if (font->rgba_used == 1) { pdf_color color; pdf_color_rgbcolor(&color, (double)((unsigned char)(font->rgba_color >> 24) & 0xff) / 255, (double)((unsigned char)(font->rgba_color >> 16) & 0xff) / 255, (double)((unsigned char)(font->rgba_color >> 8) & 0xff) / 255); pdf_color_push(&color, &color); /* Opacity: * Enter graphics_mode and then enclose with save/resotre * since pdf_color_pop() may not restore graphics state. */ if (font->xgs_id >= 0) { pdf_obj *ref; char resname[16]; char content[22]; sprintf(resname, "Xtx_Gs_%08x", current_font); ref = pdf_get_resource_reference(font->xgs_id); pdf_doc_add_page_resource("ExtGState", resname, ref); graphics_mode(); pdf_dev_gsave(); sprintf(content, " /%s gs ", resname); pdf_doc_add_page_content(content, strlen(content)); } } for (i = 0; i < slen; i++) { spt_t advance = 0; glyph_id = get_buffered_unsigned_pair(); /* freetype glyph index */ if (glyph_id < font->num_glyphs) { if (font->shift_gid) glyph_id++; advance = font->gm[glyph_id].advance; if (dvi_is_tracking_boxes()) { pdf_rect rect; height = font->gm[glyph_id].ascent ; depth = -font->gm[glyph_id].descent; calc_rect(&rect, dvi_state.h + xloc[i], -dvi_state.v - yloc[i], advance, height, depth); pdf_doc_expand_box(&rect); } } wbuf[0] = glyph_id >> 8; wbuf[1] = glyph_id & 0xff; set_string(dvi_state.h + xloc[i], -dvi_state.v - yloc[i], wbuf, 2, advance, font->font_id); } if (font->rgba_used == 1) { if (font->xgs_id >= 0) { graphics_mode(); pdf_dev_grestore(); } pdf_color_pop(); } RELEASE(xloc); RELEASE(yloc); if (do_actual_text) { pdf_dev_end_actualtext(); } if (lr_mode == LTYPESETTING) dvi_right(width); return; } static void check_postamble (void) { int code; skip_bytes(28, dvi_file); while ((code = get_unsigned_byte(dvi_file)) != POST_POST) { switch (code) { case FNT_DEF1: case FNT_DEF2: case FNT_DEF3: case FNT_DEF4: skip_bytes(code + 1 - FNT_DEF1, dvi_file); skip_fntdef(); break; case XDV_NATIVE_FONT_DEF: skip_bytes(4, dvi_file); skip_native_font_def(); break; default: ERROR("Unexpected op code (%u) in postamble", code); } } skip_bytes(4, dvi_file); post_id_byte = get_unsigned_byte(dvi_file); if (!(post_id_byte == DVI_ID || post_id_byte == DVIV_ID || post_id_byte == XDV_ID || post_id_byte == XDV_ID_OLD)) { MESG("DVI ID = %d\n", post_id_byte); ERROR(invalid_signature); } check_id_bytes(); if (has_ptex && post_id_byte != DVIV_ID) ERROR ("Saw opcode %i in DVI file not for Ascii pTeX", PTEXDIR); num_pages = 0; /* force loop to terminate */ } /* Most of the work of actually interpreting * the dvi file is here. */ void dvi_do_page (double page_paper_height, double hmargin, double vmargin) { unsigned char opcode; /* before this is called, we have scanned the page for papersize specials and the complete DVI data is now in dvi_page_buffer */ dvi_page_buf_index = 0; /* DVI coordinate */ dev_origin_x = hmargin; dev_origin_y = page_paper_height - vmargin; dvi_stack_depth = 0; for (;;) { opcode = get_buffered_unsigned_byte(); if (opcode <= SET_CHAR_127) { dvi_set(opcode); continue; } /* If we are here, we have an opcode that is something * other than SET_CHAR. */ if (opcode >= FNT_NUM_0 && opcode <= FNT_NUM_63) { do_fnt(opcode-FNT_NUM_0); continue; } switch (opcode) { case SET1: case SET2: case SET3: dvi_set(get_buffered_unsigned_num(opcode-SET1)); break; case SET4: ERROR("Multibyte (>24 bits) character not supported!"); break; case SET_RULE: do_setrule(); break; case PUT1: case PUT2: case PUT3: dvi_put(get_buffered_unsigned_num(opcode-PUT1)); break; case PUT4: ERROR("Multibyte (>24 bits) character not supported!"); break; case PUT_RULE: do_putrule(); break; case NOP: break; case BOP: do_bop(); break; case EOP: do_eop(); if (linear) { if ((opcode = get_unsigned_byte(dvi_file)) == POST) check_postamble(); else ungetc(opcode, dvi_file); } return; case PUSH: dvi_push(); if (lr_mode >= SKIMMING) lr_width_push(); /* The following line needs to go here instead of in * dvi_push() since logical structure of document is * oblivous to virtual fonts. For example the last line on a * page could be at stack level 3 and the page footer should * be at stack level 3. However, if the page footer contains * virtual fonts (or other nested constructions), it could * fool the link breaker into thinking it was a continuation * of the link */ dvi_mark_depth(); break; case POP: dvi_pop(); if (lr_mode >= SKIMMING) lr_width_pop(); /* Above explanation holds for following line too */ dvi_mark_depth(); break; case RIGHT1: case RIGHT2: case RIGHT3: case RIGHT4: dvi_right(get_buffered_signed_num(opcode-RIGHT1)); break; case W0: dvi_w0(); break; case W1: case W2: case W3: case W4: dvi_w(get_buffered_signed_num(opcode-W1)); break; case X0: dvi_x0(); break; case X1: case X2: case X3: case X4: dvi_x(get_buffered_signed_num(opcode-X1)); break; case DOWN1: case DOWN2: case DOWN3: case DOWN4: dvi_down(get_buffered_signed_num(opcode-DOWN1)); break; case Y0: dvi_y0(); break; case Y1: case Y2: case Y3: case Y4: dvi_y(get_buffered_signed_num(opcode-Y1)); break; case Z0: dvi_z0(); break; case Z1: case Z2: case Z3: case Z4: dvi_z(get_buffered_signed_num(opcode-Z1)); break; case FNT1: case FNT2: case FNT3: case FNT4: do_fnt(get_buffered_unsigned_num(opcode-FNT1)); break; /* Specials */ case XXX1: case XXX2: case XXX3: case XXX4: { int32_t size = get_buffered_unsigned_num(opcode-XXX1); if (size < 0) WARN("DVI: Special with %d bytes???", size); else do_xxx(size); break; } /* These should not occur - processed during pre-scanning */ case FNT_DEF1: case FNT_DEF2: case FNT_DEF3: case FNT_DEF4: break; /* pTeX extension */ case PTEXDIR: need_pTeX(opcode); do_dir(); break; /* XeTeX extensions */ case XDV_GLYPHS: need_XeTeX(opcode); do_glyphs(0); break; case XDV_TEXT_AND_GLYPHS: need_XeTeX(opcode); do_glyphs(1); break; /* should not occur - processed during pre-scanning */ case XDV_NATIVE_FONT_DEF: need_XeTeX(opcode); break; case BEGIN_REFLECT: need_XeTeX(opcode); dvi_begin_reflect(); break; case END_REFLECT: need_XeTeX(opcode); dvi_end_reflect(); break; case POST: if (linear && !processing_page) { /* for linear processing, this means there are no more pages */ num_pages = 0; /* force loop to terminate */ return; } /* else fall through to error case */ case PRE: case POST_POST: ERROR("Unexpected preamble or postamble in dvi file"); break; default: ERROR("Unexpected opcode or DVI file ended prematurely"); } } } double dvi_init (char *dvi_filename, double mag) { int32_t post_location; if (!dvi_filename) { /* no filename: reading from stdin, probably a pipe */ int ch; #ifdef WIN32 setmode(fileno(stdin), _O_BINARY); #endif dvi_file = stdin; linear = 1; get_preamble_dvi_info(); do_scales(mag); if ((ch = get_unsigned_byte(dvi_file)) == POST) check_postamble(); else ungetc(ch, dvi_file); } else { char *p, *saved_orig_name; dvi_file = NULL; saved_orig_name = xstrdup(dvi_filename); p = strrchr(dvi_filename, '.'); if (p == NULL || (!FILESTRCASEEQ(p, ".dvi") && !FILESTRCASEEQ(p, ".xdv"))) { strcat(dvi_filename, ".xdv"); dvi_file = MFOPEN(dvi_filename, FOPEN_RBIN_MODE); if (!dvi_file) { dvi_filename[strlen(dvi_filename) - 4] = '\0'; strcat(dvi_filename, ".dvi"); dvi_file = MFOPEN(dvi_filename, FOPEN_RBIN_MODE); } } if (!dvi_file) dvi_file = MFOPEN(saved_orig_name, FOPEN_RBIN_MODE); free(saved_orig_name); if (!dvi_file) { ERROR("Could not open specified DVI (or XDV) file: %s", dvi_filename); return 0.0; } /* DVI files are most easily read backwards by * searching for post_post and then post opcode. */ post_location = find_post(); get_dvi_info(post_location); do_scales(mag); get_page_info(post_location); get_comment(); get_dvi_fonts(post_location); } clear_state(); dvi_page_buf_size = DVI_PAGE_BUF_CHUNK; dvi_page_buffer = NEW(dvi_page_buf_size, unsigned char); return dvi2pts; } void dvi_close (void) { int i; if (linear) { /* probably reading a pipe from xetex; consume any remaining data */ while (fgetc(dvi_file) != EOF) ; } /* We add comment in dvi_close instead of dvi_init so user * has a change to overwrite it. The docinfo dictionary is * treated as a write-once record. */ /* Do some house cleaning */ MFCLOSE(dvi_file); dvi_file = NULL; if (def_fonts) { for (i = 0; i < num_def_fonts; i++) { if (def_fonts[i].font_name) RELEASE(def_fonts[i].font_name); def_fonts[i].font_name = NULL; } RELEASE(def_fonts); } def_fonts = NULL; if (page_loc) RELEASE(page_loc); page_loc = NULL; num_pages = 0; for (i = 0; i < num_loaded_fonts; i++) { if (loaded_fonts[i].gm != NULL) RELEASE(loaded_fonts[i].gm); loaded_fonts[i].gm = NULL; } if (loaded_fonts) RELEASE(loaded_fonts); loaded_fonts = NULL; num_loaded_fonts = 0; vf_close_all_fonts(); tfm_close_all (); if (dvi_page_buffer) { RELEASE(dvi_page_buffer); dvi_page_buffer = NULL; dvi_page_buf_size = 0; } } /* The following are need to implement virtual fonts According to documentation, the vf "subroutine" must have state pushed and must have w,v,y, and z set to zero. The current font is determined by the virtual font header, which may be undefined */ static int saved_dvi_font[VF_NESTING_MAX]; static int num_saved_fonts = 0; void dvi_vf_init (int dev_font_id) { dvi_push(); dvi_state.w = 0; dvi_state.x = 0; dvi_state.y = 0; dvi_state.z = 0; /* do not reset dvi_state.d. */ if (num_saved_fonts < VF_NESTING_MAX) { saved_dvi_font[num_saved_fonts++] = current_font; } else ERROR("Virtual fonts nested too deeply!"); current_font = dev_font_id; } /* After VF subroutine is finished, we simply pop the DVI stack */ void dvi_vf_finish (void) { dvi_pop(); if (num_saved_fonts > 0) current_font = saved_dvi_font[--num_saved_fonts]; else { ERROR("Tried to pop an empty font stack"); } } /* Scan various specials */ #include "dpxutil.h" /* For MAX_PWD_LEN */ #include "pdfencrypt.h" static int scan_special_encrypt (int *key_bits, int32_t *permission, char *opassword, char *upassword, const char **curptr, const char *endptr) { int error = 0; const char *p = *curptr; skip_white(&p, endptr); opassword[0] = '\0'; upassword[0] = '\0'; while (!error && p < endptr) { char *kp = parse_c_ident(&p, endptr); if (!kp) break; else { pdf_obj *obj; skip_white(&p, endptr); if (!strcmp(kp, "ownerpw")) { if ((obj = parse_pdf_string(&p, endptr))) { if (pdf_string_value(obj)) { int str_length = (MAX_PWD_LEN - 1 > pdf_string_length(obj) ? pdf_string_length(obj) : MAX_PWD_LEN - 1); strncpy(opassword, pdf_string_value(obj), str_length); opassword[str_length] = '\0'; } pdf_release_obj(obj); } else error = -1; } else if (!strcmp(kp, "userpw")) { if ((obj = parse_pdf_string(&p, endptr))) { if (pdf_string_value(obj)) { int str_length = (MAX_PWD_LEN - 1 > pdf_string_length(obj) ? pdf_string_length(obj) : MAX_PWD_LEN - 1); strncpy(upassword, pdf_string_value(obj), str_length); upassword[str_length] = '\0'; } pdf_release_obj(obj); } else error = -1; } else if (!strcmp(kp, "length")) { if ((obj = parse_pdf_number(&p, endptr)) && PDF_OBJ_NUMBERTYPE(obj)) { *key_bits = (unsigned) pdf_number_value(obj); } else error = -1; if (obj) pdf_release_obj(obj); } else if (!strcmp(kp, "perm")) { if ((obj = parse_pdf_number(&p, endptr)) && PDF_OBJ_NUMBERTYPE(obj)) { *permission = (unsigned) pdf_number_value(obj); } else error = -1; if (obj) pdf_release_obj(obj); } else error = -1; RELEASE(kp); } skip_white(&p, endptr); } *curptr = p; return error; } static int scan_special_trailerid (unsigned char *id1, unsigned char *id2, const char **curptr, const char *endptr) { int error = 0; pdf_obj *id_array; const char *p = *curptr; skip_white(&p, endptr); id_array = parse_pdf_array(&p, endptr, NULL); if (id_array) { if (pdf_array_length(id_array) == 2) { pdf_obj *tmp1, *tmp2; tmp1 = pdf_get_array(id_array, 0); tmp2 = pdf_get_array(id_array, 1); if (PDF_OBJ_STRINGTYPE(tmp1) && pdf_string_length(tmp1) == 16 && PDF_OBJ_STRINGTYPE(tmp2) && pdf_string_length(tmp2) == 16) { memcpy(id1, pdf_string_value(tmp1), 16); memcpy(id2, pdf_string_value(tmp2), 16); } else { error = -1; } } else { error = -1; } pdf_release_obj(id_array); } else { error = -1; } skip_white(&p, endptr); *curptr = p; return error; } static int scan_special (double *wd, double *ht, double *xo, double *yo, int *lm, int *majorversion, int *minorversion, int *enable_encryption, int *key_bits, int32_t *permission, char *opassword, char *upassword, int *has_id, unsigned char *id1, unsigned char *id2, const char *buf, uint32_t size) { char *q; const char *p = buf, *endptr; int ns_pdf = 0, ns_dvipdfmx = 0, error = 0; double tmp; endptr = p + size; skip_white(&p, endptr); q = parse_c_ident(&p, endptr); if (q && !strcmp(q, "pdf")) { skip_white(&p, endptr); if (p < endptr && *p == ':') { p++; skip_white(&p, endptr); RELEASE(q); q = parse_c_ident(&p, endptr); ns_pdf = 1; } } else if (q && !strcmp(q, "x")) { skip_white(&p, endptr); if (p < endptr && *p == ':') { p++; skip_white(&p, endptr); RELEASE(q); q = parse_c_ident(&p, endptr); } } else if (q && !strcmp(q, "dvipdfmx")) { skip_white(&p, endptr); if (p < endptr && *p == ':') { p++; skip_white(&p, endptr); RELEASE(q); q = parse_c_ident(&p, endptr); ns_dvipdfmx = 1; } } skip_white(&p, endptr); if (q) { if (!strcmp(q, "landscape")) { *lm = 1; } else if (ns_pdf && !strcmp(q, "pagesize")) { while (!error && p < endptr) { char *kp = parse_c_ident(&p, endptr); if (!kp) break; else { skip_white(&p, endptr); if (!strcmp(kp, "width")) { error = dpx_util_read_length(&tmp, dvi_tell_mag(), &p, endptr); if (!error) *wd = tmp * dvi_tell_mag(); } else if (!strcmp(kp, "height")) { error = dpx_util_read_length(&tmp, dvi_tell_mag(), &p, endptr); if (!error) *ht = tmp * dvi_tell_mag(); } else if (!strcmp(kp, "xoffset")) { error = dpx_util_read_length(&tmp, dvi_tell_mag(), &p, endptr); if (!error) *xo = tmp * dvi_tell_mag(); } else if (!strcmp(kp, "yoffset")) { error = dpx_util_read_length(&tmp, dvi_tell_mag(), &p, endptr); if (!error) *yo = tmp * dvi_tell_mag(); } else if (!strcmp(kp, "default")) { *wd = paper_width; *ht = paper_height; *lm = landscape_mode; *xo = *yo = 72.0; } RELEASE(kp); } skip_white(&p, endptr); } } else if (!strcmp(q, "papersize")) { char qchr = 0; if (*p == '=') p++; skip_white(&p, endptr); if (p < endptr && (*p == '\'' || *p == '\"')) { qchr = *p; p++; skip_white(&p, endptr); } error = dpx_util_read_length(&tmp, 1.0, &p, endptr); if (!error) { double tmp1; skip_white(&p, endptr); if (p < endptr && *p == ',') { p++; skip_white(&p, endptr); } error = dpx_util_read_length(&tmp1, 1.0, &p, endptr); if (!error) { *wd = tmp; *ht = tmp1; skip_white(&p, endptr); } } if (!error && qchr) { /* Check if properly quoted */ if (p >= endptr || *p != qchr) error = -1; } if (error == 0) { paper_width = *wd; paper_height = *ht; } } else if (minorversion && ns_pdf && !strcmp(q, "minorversion")) { char *kv; if (*p == '=') p++; skip_white(&p, endptr); kv = parse_float_decimal(&p, endptr); if (kv) { *minorversion = (int)strtol(kv, NULL, 10); RELEASE(kv); } } else if (majorversion && ns_pdf && !strcmp(q, "majorversion")) { char *kv; if (*p == '=') p++; skip_white(&p, endptr); kv = parse_float_decimal(&p, endptr); if (kv) { *majorversion = (int)strtol(kv, NULL, 10); RELEASE(kv); } } else if (enable_encryption && ns_pdf && !strcmp(q, "encrypt")) { *enable_encryption = 1; error = scan_special_encrypt(key_bits, permission, opassword, upassword, &p, endptr); } else if (ns_dvipdfmx && !strcmp(q, "config")) { read_config_special(&p, endptr); } else if (has_id && id1 && id2 && ns_pdf && !strcmp(q, "trailerid")) { error = scan_special_trailerid(id1, id2, &p, endptr); if (error) { WARN("Invalid argument for pdf:trailerid special."); *has_id = 0; } else { *has_id = 1; } } RELEASE(q); } return error; } void dvi_scan_specials (int page_no, double *page_width, double *page_height, double *x_offset, double *y_offset, int *landscape, int *majorversion, int *minorversion, int *do_enc, int *key_bits, int32_t *permission, char *owner_pw, char *user_pw, int *has_id, unsigned char *id1, unsigned char *id2) { FILE *fp = dvi_file; int32_t offset; unsigned char opcode; static int buffered_page = -1; unsigned int len; if (page_no == buffered_page || num_pages == 0) return; /* because dvipdfmx wants to scan first page twice! */ buffered_page = page_no; dvi_page_buf_index = 0; if (!linear) { if (page_no >= num_pages) ERROR("Invalid page number: %u", page_no); offset = page_loc[page_no]; xseek_absolute (fp, offset, "DVI"); } while ((opcode = get_and_buffer_unsigned_byte(fp)) != EOP) { if (opcode <= SET_CHAR_127 || (opcode >= FNT_NUM_0 && opcode <= FNT_NUM_63)) continue; else if (opcode == XXX1 || opcode == XXX2 || opcode == XXX3 || opcode == XXX4) { uint32_t size = get_and_buffer_unsigned_byte(fp); switch (opcode) { case XXX4: size = size * 0x100u + get_and_buffer_unsigned_byte(fp); if (size > 0x7fff) WARN("Unsigned number starting with %x exceeds 0x7fffffff", size); case XXX3: size = size * 0x100u + get_and_buffer_unsigned_byte(fp); case XXX2: size = size * 0x100u + get_and_buffer_unsigned_byte(fp); default: break; } if (dvi_page_buf_index + size >= dvi_page_buf_size) { dvi_page_buf_size = (dvi_page_buf_index + size + DVI_PAGE_BUF_CHUNK); dvi_page_buffer = RENEW(dvi_page_buffer, dvi_page_buf_size, unsigned char); } #define buf ((char*)(dvi_page_buffer + dvi_page_buf_index)) if (fread(buf, sizeof(char), size, fp) != size) ERROR("Reading DVI file failed!"); if (scan_special(page_width, page_height, x_offset, y_offset, landscape, majorversion, minorversion, do_enc, key_bits, permission, owner_pw, user_pw, has_id, id1, id2, buf, size)) WARN("Reading special command failed: \"%.*s\"", size, buf); #undef buf dvi_page_buf_index += size; continue; } /* Skipping... */ switch (opcode) { case BOP: get_and_buffer_bytes(fp, 44); break; case NOP: case PUSH: case POP: case W0: case X0: case Y0: case Z0: break; case SET1: case PUT1: case RIGHT1: case DOWN1: case W1: case X1: case Y1: case Z1: case FNT1: get_and_buffer_bytes(fp, 1); break; case SET2: case PUT2: case RIGHT2: case DOWN2: case W2: case X2: case Y2: case Z2: case FNT2: get_and_buffer_bytes(fp, 2); break; case SET3: case PUT3: case RIGHT3: case DOWN3: case W3: case X3: case Y3: case Z3: case FNT3: get_and_buffer_bytes(fp, 3); break; case SET4: case PUT4: case RIGHT4: case DOWN4: case W4: case X4: case Y4: case Z4: case FNT4: get_and_buffer_bytes(fp, 4); break; case SET_RULE: case PUT_RULE: get_and_buffer_bytes(fp, 8); break; case FNT_DEF1: case FNT_DEF2: case FNT_DEF3: case FNT_DEF4: do_fntdef(get_unsigned_num(fp, opcode-FNT_DEF1)); break; case XDV_GLYPHS: need_XeTeX(opcode); get_and_buffer_bytes(fp, 4); /* width */ len = get_and_buffer_unsigned_pair(fp); /* glyph count */ get_and_buffer_bytes(fp, len * 10); /* 2 bytes ID + 8 bytes x,y-location per glyph */ break; case XDV_TEXT_AND_GLYPHS: need_XeTeX(opcode); len = get_and_buffer_unsigned_pair(fp); /* utf16 code unit count */ get_and_buffer_bytes(fp, len * 2); /* 2 bytes per code unit */ get_and_buffer_bytes(fp, 4); /* width */ len = get_and_buffer_unsigned_pair(fp); /* glyph count */ get_and_buffer_bytes(fp, len * 10); /* 2 bytes ID + 8 bytes x,y-location per glyph */ break; case XDV_NATIVE_FONT_DEF: need_XeTeX(opcode); do_native_font_def(get_signed_quad(dvi_file)); break; case BEGIN_REFLECT: case END_REFLECT: need_XeTeX(opcode); break; case PTEXDIR: need_pTeX(opcode); get_and_buffer_bytes(fp, 1); break; case POST: if (linear && dvi_page_buf_index == 1) { /* this is actually an indication that we've reached the end of the input */ return; } /* else fall through to error case */ default: /* case PRE: case POST_POST: and others */ ERROR("Unexpected opcode %d at pos=0x%x", opcode, tell_position(fp)); break; } } return; } #if defined(LIBDPX) #include "dvi_ng.c" #endif /* LIBDPX */