/****************************************************************************\ Part of the XeTeX typesetting system Copyright (c) 1994-2008 by SIL International Copyright (c) 2009, 2011 by Jonathan Kew Copyright (c) 2012-2015 by Khaled Hosny Copyright (c) 2012, 2013 by Jiang Jiang SIL Author(s): Jonathan Kew Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of the copyright holders shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the copyright holders. \****************************************************************************/ /* XeTeX_ext.c * additional plain C extensions for XeTeX - mostly platform-neutral */ #include /* * From TeX Live 2021, we use pplib by Pawe\l Jackowski instead of * libpoppler */ #include #include #include #include #ifdef _MSC_VER #undef timezone #endif #include /* For `struct tm'. */ #if defined (HAVE_SYS_TIME_H) #include #elif defined (HAVE_SYS_TIMEB_H) #include #endif #define EXTERN extern #include "xetexd.h" #include "XeTeX_ext.h" #include #include #include #include #include #include #if defined(WIN32) #include #endif #include /* for fabs() */ #if defined(__STDC__) #include #endif #include /* Catch interrupts. */ #include "XeTeXLayoutInterface.h" #include "XeTeXswap.h" #include #include #include #include /* for reading input files, we don't need the default locking routines as xetex is a single-threaded program */ #ifdef WIN32 #ifdef __MINGW32__ /* MinGW (both 32- and 64-bit) has problems with _getc_nolock() and/or _ungetc_nolock() */ #define GETC(f) getc(f) #define UNGETC(c,f) ungetc(c,f) #else #define GETC(f) _getc_nolock(f) #define UNGETC(c,f) _ungetc_nolock(c,f) #endif #else #define GETC(f) getc_unlocked(f) #define UNGETC(c,f) ungetc(c,f) #endif /* tables/values used in UTF-8 interpretation - code is based on ConvertUTF.[ch] sample code published by the Unicode consortium */ const uint32_t offsetsFromUTF8[6] = { 0x00000000UL, 0x00003080UL, 0x000E2080UL, 0x03C82080UL, 0xFA082080UL, 0x82082080UL }; const uint8_t bytesFromUTF8[256] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5 }; const uint8_t firstByteMark[7] = { 0x00, 0x00, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC }; const int halfShift = 10; const uint32_t halfBase = 0x0010000UL; const uint32_t halfMask = 0x3FFUL; const uint32_t kSurrogateHighStart = 0xD800UL; const uint32_t kSurrogateHighEnd = 0xDBFFUL; const uint32_t kSurrogateLowStart = 0xDC00UL; const uint32_t kSurrogateLowEnd = 0xDFFFUL; const uint32_t byteMask = 0x000000BFUL; const uint32_t byteMark = 0x00000080UL; /* if the user specifies a paper size or output driver program */ const char *papersize; const char *outputdriver = "xdvipdfmx -q -E"; /* default to portable xdvipdfmx driver */ void initversionstring(char **versions) { #ifndef XETEX_MAC int fc_version = FcGetVersion(); #endif FT_Int ftMajor, ftMinor, ftPatch; int grMajor, grMinor, grBugfix; UVersionInfo icuVersion; char icu_version[U_MAX_VERSION_STRING_LENGTH] = ""; const_string fmt = "Compiled with ICU version %s; using %s\n" "Compiled with zlib version %s; using %s\n" "Compiled with FreeType2 version %d.%d.%d; using %d.%d.%d\n" "Compiled with Graphite2 version %d.%d.%d; using %d.%d.%d\n" "Compiled with HarfBuzz version %s; using %s\n" "Compiled with libpng version %s; using %s\n" "Compiled with pplib version %s\n" #ifdef XETEX_MAC "Using Mac OS X Core Text and Cocoa frameworks\n" #else "Compiled with fontconfig version %d.%d.%d; using %d.%d.%d\n" #endif ; int len = strlen(fmt) + strlen(U_ICU_VERSION) + strlen(icu_version) + strlen(ZLIB_VERSION) + strlen(zlib_version) + strlen(HB_VERSION_STRING) + strlen(hb_version_string()) + strlen(PNG_LIBPNG_VER_STRING) + strlen(png_libpng_ver) + strlen(pplib_version) #ifndef XETEX_MAC + 6 * 3 /* for fontconfig version #s (won't really need 3 digits per field!) */ #endif + 6 * 3 /* for graphite2 version #s (ditto) */ + 6 * 3; /* for freetype version #s (ditto) */ *versions = (char *) xmalloc(len + 1); /* len will be more than enough, because of the placeholder chars in fmt that get replaced by the arguments */ u_getVersion(icuVersion); u_versionToString(icuVersion, icu_version); if (gFreeTypeLibrary == 0 && FT_Init_FreeType(&gFreeTypeLibrary) != 0) { fprintf(stderr, "FreeType initialization failed!\n"); exit(9); } FT_Library_Version(gFreeTypeLibrary, &ftMajor, &ftMinor, &ftPatch); gr_engine_version(&grMajor, &grMinor, &grBugfix); (void)sprintf(*versions, fmt, U_ICU_VERSION, icu_version, ZLIB_VERSION, zlib_version, FREETYPE_MAJOR, FREETYPE_MINOR, FREETYPE_PATCH, ftMajor, ftMinor, ftPatch, GR2_VERSION_MAJOR, GR2_VERSION_MINOR, GR2_VERSION_BUGFIX, grMajor, grMinor, grBugfix, HB_VERSION_STRING, hb_version_string(), PNG_LIBPNG_VER_STRING, png_libpng_ver, pplib_version #ifndef XETEX_MAC , FC_VERSION / 10000, (FC_VERSION % 10000) / 100, FC_VERSION % 100, fc_version / 10000, (fc_version % 10000) / 100, fc_version % 100 #endif ); } void setinputfileencoding(UFILE* f, integer mode, integer encodingData) { if ((f->encodingMode == ICUMAPPING) && (f->conversionData != NULL)) ucnv_close((UConverter*)(f->conversionData)); f->conversionData = 0; switch (mode) { case UTF8: case UTF16BE: case UTF16LE: case RAW: f->encodingMode = mode; break; case ICUMAPPING: { char* name = gettexstring(encodingData); UErrorCode err = U_ZERO_ERROR; UConverter* cnv = ucnv_open(name, &err); if (cnv == NULL) { begindiagnostic(); printnl('E'); printcstring("rror "); printint(err); printcstring(" creating Unicode converter for `"); printcstring(name); printcstring("'; reading as raw bytes"); enddiagnostic(1); f->encodingMode = RAW; } else { f->encodingMode = ICUMAPPING; f->conversionData = cnv; } free(name); } break; } } static void buffer_overflow(void) { fprintf (stderr, "! Unable to read an entire line---bufsize=%u.\n", (unsigned) bufsize); fputs ("Please increase buf_size in texmf.cnf.\n", stderr); uexit (1); } static void conversion_error(int errcode) { begindiagnostic(); printnl('U'); printcstring("nicode conversion failed (ICU error code = "); printint(errcode); printcstring(") discarding any remaining text"); enddiagnostic(1); } #ifdef WORDS_BIGENDIAN #define NATIVE_UTF32 kForm_UTF32BE #else #define NATIVE_UTF32 kForm_UTF32LE #endif static void apply_normalization(uint32_t* buf, int len, int norm) { static TECkit_Converter normalizers[2] = { NULL, NULL }; TECkit_Status status; UInt32 inUsed, outUsed; TECkit_Converter *normPtr = &normalizers[norm - 1]; if (*normPtr == NULL) { status = TECkit_CreateConverter(NULL, 0, 1, NATIVE_UTF32, NATIVE_UTF32 | (norm == 1 ? kForm_NFC : kForm_NFD), &*normPtr); if (status != kStatus_NoError) { fprintf(stderr, "! Failed to create normalizer: error code = %d\n", (int)status); uexit (1); } } status = TECkit_ConvertBuffer(*normPtr, (Byte*)buf, len * sizeof(UInt32), &inUsed, (Byte*)&buffer[first], sizeof(*buffer) * (bufsize - first), &outUsed, 1); TECkit_ResetConverter(*normPtr); if (status != kStatus_NoError) buffer_overflow(); last = first + outUsed / sizeof(*buffer); } #ifdef WORDS_BIGENDIAN #define UCNV_UTF32_NativeEndian UCNV_UTF32_BigEndian #else #define UCNV_UTF32_NativeEndian UCNV_UTF32_LittleEndian #endif int input_line(UFILE* f) { static char* byteBuffer = NULL; static uint32_t *utf32Buf = NULL; int i, tmpLen; int norm = getinputnormalizationstate(); #ifdef WIN32 const int fd = fileno(f->f); if (fd == _fileno(stdin) && _isatty(fd)) { f->encodingMode = WIN32CONSOLE; } #endif last = first; if (f->encodingMode == ICUMAPPING) { uint32_t bytesRead = 0; UConverter* cnv; int outLen; UErrorCode errorCode = U_ZERO_ERROR; if (byteBuffer == NULL) byteBuffer = (char*) xmalloc(bufsize + 1); /* Recognize either LF or CR as a line terminator; skip initial LF if prev line ended with CR. */ i = GETC(f->f); if (f->skipNextLF) { f->skipNextLF = 0; if (i == '\n') i = GETC(f->f); } if (i != EOF && i != '\n' && i != '\r') byteBuffer[bytesRead++] = i; if (i != EOF && i != '\n' && i != '\r') while (bytesRead < bufsize && (i = GETC(f->f)) != EOF && i != '\n' && i != '\r') byteBuffer[bytesRead++] = i; if (i == EOF && errno != EINTR && bytesRead == 0) return false; if (i != EOF && i != '\n' && i != '\r') buffer_overflow(); /* now apply the mapping to turn external bytes into Unicode characters in buffer */ cnv = (UConverter*)(f->conversionData); switch (norm) { case 1: // NFC case 2: // NFD if (utf32Buf == NULL) utf32Buf = (uint32_t*) xcalloc(bufsize, sizeof(uint32_t)); tmpLen = ucnv_toAlgorithmic(UCNV_UTF32_NativeEndian, cnv, (char*)utf32Buf, bufsize * sizeof(*utf32Buf), byteBuffer, bytesRead, &errorCode); if (errorCode != 0) { conversion_error((int)errorCode); return false; } apply_normalization(utf32Buf, tmpLen / sizeof(*utf32Buf), norm); // sets 'last' correctly break; default: // none outLen = ucnv_toAlgorithmic(UCNV_UTF32_NativeEndian, cnv, (char*)&buffer[first], sizeof(*buffer) * (bufsize - first), byteBuffer, bytesRead, &errorCode); if (errorCode != 0) { conversion_error((int)errorCode); return false; } outLen /= sizeof(*buffer); last = first + outLen; break; } } else { /* Recognize either LF or CR as a line terminator; skip initial LF if prev line ended with CR. */ i = get_uni_c(f); if (f->skipNextLF) { f->skipNextLF = 0; if (i == '\n') i = get_uni_c(f); } switch (norm) { case 1: // NFC case 2: // NFD // read Unicode chars into utf32Buf as UTF32 if (utf32Buf == NULL) utf32Buf = (uint32_t*) xcalloc(bufsize, sizeof(uint32_t)); tmpLen = 0; if (i != EOF && i != '\n' && i != '\r') utf32Buf[tmpLen++] = i; if (i != EOF && i != '\n' && i != '\r') while (tmpLen < bufsize && (i = get_uni_c(f)) != EOF && i != '\n' && i != '\r') utf32Buf[tmpLen++] = i; if (i == EOF && errno != EINTR && tmpLen == 0) return false; /* We didn't get the whole line because our buffer was too small. */ if (i != EOF && i != '\n' && i != '\r') buffer_overflow(); apply_normalization(utf32Buf, tmpLen, norm); break; default: // none #ifdef WIN32 if (f->encodingMode == WIN32CONSOLE && i == 0x1a) /* Ctrl+Z */ return false; #endif if (last < bufsize && i != EOF && i != '\n' && i != '\r') buffer[last++] = i; if (i != EOF && i != '\n' && i != '\r') while (last < bufsize && (i = get_uni_c(f)) != EOF && i != '\n' && i != '\r') buffer[last++] = i; if (i == EOF && errno != EINTR && last == first) return false; /* We didn't get the whole line because our buffer was too small. */ if (i != EOF && i != '\n' && i != '\r') buffer_overflow(); break; } } /* If line ended with CR, remember to skip following LF. */ if (i == '\r') f->skipNextLF = 1; buffer[last] = ' '; if (last >= maxbufstack) maxbufstack = last; /* Trim trailing space or EOL characters. */ #define IS_SPC_OR_EOL(c) ((c) == ' ' || (c) == '\r' || (c) == '\n') while (last > first && IS_SPC_OR_EOL(buffer[last - 1])) --last; return true; } static void die(const_string s, int i) { fprintf(stderr, s, i); fprintf(stderr, " - exiting\n"); exit(3); } static UBreakIterator* brkIter = NULL; static int brkLocaleStrNum = 0; void linebreakstart(int f, integer localeStrNum, uint16_t* text, integer textLength) { UErrorCode status = U_ZERO_ERROR; char* locale = (char*)gettexstring(localeStrNum); if (fontarea[f] == OTGR_FONT_FLAG && strcmp(locale, "G") == 0) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine) fontlayoutengine[f]; if (initGraphiteBreaking(engine, text, textLength)) /* user asked for Graphite line breaking and the font supports it */ return; } if ((localeStrNum != brkLocaleStrNum) && (brkIter != NULL)) { ubrk_close(brkIter); brkIter = NULL; } if (brkIter == NULL) { brkIter = ubrk_open(UBRK_LINE, locale, NULL, 0, &status); if (U_FAILURE(status)) { begindiagnostic(); printnl('E'); printcstring("rror "); printint(status); printcstring(" creating linebreak iterator for locale `"); printcstring(locale); printcstring("'; trying default locale `en_us'."); enddiagnostic(1); if (brkIter != NULL) ubrk_close(brkIter); status = U_ZERO_ERROR; brkIter = ubrk_open(UBRK_LINE, "en_us", NULL, 0, &status); } free(locale); brkLocaleStrNum = localeStrNum; } if (brkIter == NULL) { die("! failed to create linebreak iterator, status=%d", (int)status); } ubrk_setText(brkIter, (UChar*) text, textLength, &status); } int linebreaknext(void) { if (brkIter != NULL) return ubrk_next((UBreakIterator*)brkIter); else return findNextGraphiteBreak(); } int getencodingmodeandinfo(integer* info) { /* \XeTeXinputencoding "enc-name" * -> name is packed in |nameoffile| as a C string, starting at [1] * Check if it's a built-in name; if not, try to open an ICU converter by that name */ UErrorCode err = U_ZERO_ERROR; UConverter* cnv; char* name = (char*)nameoffile + 1; *info = 0; if (strcasecmp(name, "auto") == 0) { return AUTO; } if (strcasecmp(name, "utf8") == 0) { return UTF8; } if (strcasecmp(name, "utf16") == 0) { /* depends on host platform */ #ifdef WORDS_BIGENDIAN return UTF16BE; #else return UTF16LE; #endif } if (strcasecmp(name, "utf16be") == 0) { return UTF16BE; } if (strcasecmp(name, "utf16le") == 0) { return UTF16LE; } if (strcasecmp(name, "bytes") == 0) { return RAW; } /* try for an ICU converter */ cnv = ucnv_open(name, &err); if (cnv == NULL) { begindiagnostic(); printnl('U'); /* ensure message starts on a new line */ printcstring("nknown encoding `"); printcstring(name); printcstring("'; reading as raw bytes"); enddiagnostic(1); return RAW; } else { ucnv_close(cnv); *info = maketexstring(name); return ICUMAPPING; } } void printutf8str(const unsigned char* str, int len) { while (len-- > 0) printrawchar(*(str++), true); /* bypass utf-8 encoding done in print_char() */ } void printchars(const unsigned short* str, int len) { while (len-- > 0) printchar(*(str++)); } #ifdef WORDS_BIGENDIAN #define UTF16_NATIVE kForm_UTF16BE #else #define UTF16_NATIVE kForm_UTF16LE #endif static void* load_mapping_file(const char* s, const char* e, char byteMapping) { char* mapPath; TECkit_Converter cnv = 0; char* buffer = (char*) xmalloc(e - s + 5); strncpy(buffer, s, e - s); buffer[e - s] = 0; strcat(buffer, ".tec"); mapPath = kpse_find_file(buffer, kpse_miscfonts_format, 1); if (mapPath) { FILE* mapFile = fopen(mapPath, FOPEN_RBIN_MODE); free(mapPath); if (mapFile) { uint32_t mappingSize; Byte* mapping; /* TECkit_Status status; */ fseek(mapFile, 0, SEEK_END); mappingSize = ftell(mapFile); fseek(mapFile, 0, SEEK_SET); mapping = (Byte*) xmalloc(mappingSize); fread(mapping, 1, mappingSize, mapFile); fclose(mapFile); if (byteMapping != 0) /* status = */ TECkit_CreateConverter(mapping, mappingSize, false, UTF16_NATIVE, kForm_Bytes, &cnv); else /* status = */ TECkit_CreateConverter(mapping, mappingSize, true, UTF16_NATIVE, UTF16_NATIVE, &cnv); free(mapping); } if (cnv == NULL) fontmappingwarning(buffer, strlen(buffer), 2); /* not loadable */ else if (gettracingfontsstate() > 1) fontmappingwarning(buffer, strlen(buffer), 0); /* tracing */ } else { fontmappingwarning(buffer, strlen(buffer), 1); /* not found */ } free(buffer); return cnv; } char *saved_mapping_name = NULL; void checkfortfmfontmapping(void) { char* cp = strstr((char*)nameoffile + 1, ":mapping="); if (saved_mapping_name != NULL) { free(saved_mapping_name); saved_mapping_name = NULL; } if (cp != NULL) { *cp = 0; cp += 9; while (*cp && *cp <= ' ') ++cp; if (*cp) saved_mapping_name = xstrdup(cp); } } void* loadtfmfontmapping(void) { void* rval = NULL; if (saved_mapping_name != NULL) { rval = load_mapping_file(saved_mapping_name, saved_mapping_name + strlen(saved_mapping_name), 1); free(saved_mapping_name); saved_mapping_name = NULL; } return rval; } int applytfmfontmapping(void* cnv, int c) { UniChar in = c; Byte out[2]; UInt32 inUsed, outUsed; /* TECkit_Status status; */ /* status = */ TECkit_ConvertBuffer((TECkit_Converter)cnv, (const Byte*)&in, sizeof(in), &inUsed, out, sizeof(out), &outUsed, 1); TECkit_ResetConverter((TECkit_Converter)cnv); if (outUsed < 1) return 0; else return out[0]; } double read_double(const char** s) { int neg = 0; double val = 0.0; const char* cp = *s; while (*cp == ' '|| *cp == '\t') ++cp; if (*cp == '-') { neg = 1; ++cp; } else if (*cp == '+') { ++cp; } while (*cp >= '0' && *cp <= '9') { val = val * 10.0 + *cp - '0'; ++cp; } if (*cp == '.') { double dec = 10.0; ++cp; while (*cp >= '0' && *cp <= '9') { val = val + (*cp - '0') / dec; ++cp; dec = dec * 10.0; } } *s = cp; return neg ? -val : val; } static hb_tag_t read_tag_with_param(const char* cp, int* param) { const char* cp2; hb_tag_t tag; cp2 = cp; while (*cp2 && (*cp2 != ':') && (*cp2 != ';') && (*cp2 != ',') && (*cp2 != '=')) ++cp2; tag = hb_tag_from_string(cp, cp2 - cp); cp = cp2; if (*cp == '=') { int neg = 0; ++cp; if (*cp == '-') { ++neg; ++cp; } while (*cp >= '0' && *cp <= '9') { *param = *param * 10 + *cp - '0'; ++cp; } if (neg) *param = -(*param); } return tag; } unsigned int read_rgb_a(const char** cp) { uint32_t rgbValue = 0; uint32_t alpha = 0; int i; for (i = 0; i < 6; ++i) { if ((**cp >= '0') && (**cp <= '9')) rgbValue = (rgbValue << 4) + **cp - '0'; else if ((**cp >= 'A') && (**cp <= 'F')) rgbValue = (rgbValue << 4) + **cp - 'A' + 10; else if ((**cp >= 'a') && (**cp <= 'f')) rgbValue = (rgbValue << 4) + **cp - 'a' + 10; else return 0x000000FF; (*cp)++; } rgbValue <<= 8; for (i = 0; i < 2; ++i) { if ((**cp >= '0') && (**cp <= '9')) alpha = (alpha << 4) + **cp - '0'; else if ((**cp >= 'A') && (**cp <= 'F')) alpha = (alpha << 4) + **cp - 'A' + 10; else if ((**cp >= 'a') && (**cp <= 'f')) alpha = (alpha << 4) + **cp - 'a' + 10; else break; (*cp)++; } if (i == 2) rgbValue += alpha; else rgbValue += 0xFF; return rgbValue; } int readCommonFeatures(const char* feat, const char* end, float* extend, float* slant, float* embolden, float* letterspace, uint32_t* rgbValue) // returns 1 to go to next_option, -1 for bad_option, 0 to continue { const char* sep; if (strncmp(feat, "mapping", 7) == 0) { sep = feat + 7; if (*sep != '=') return -1; loadedfontmapping = load_mapping_file(sep + 1, end, 0); return 1; } if (strncmp(feat, "extend", 6) == 0) { sep = feat + 6; if (*sep != '=') return -1; ++sep; *extend = read_double(&sep); return 1; } if (strncmp(feat, "slant", 5) == 0) { sep = feat + 5; if (*sep != '=') return -1; ++sep; *slant = read_double(&sep); return 1; } if (strncmp(feat, "embolden", 8) == 0) { sep = feat + 8; if (*sep != '=') return -1; ++sep; *embolden = read_double(&sep); return 1; } if (strncmp(feat, "letterspace", 11) == 0) { sep = feat + 11; if (*sep != '=') return -1; ++sep; *letterspace = read_double(&sep); return 1; } if (strncmp(feat, "color", 5) == 0) { const char* s; sep = feat + 5; if (*sep != '=') return -1; ++sep; s = sep; *rgbValue = read_rgb_a(&sep); if ((sep == s+6) || (sep == s+8)) loadedfontflags |= FONT_FLAGS_COLORED; else return -1; return 1; } return 0; } static bool readFeatureNumber(const char* s, const char* e, hb_tag_t* f, int* v) /* s...e is a "id=setting" string; */ { *f = 0; *v = 0; if (*s < '0' || *s > '9') return false; while (*s >= '0' && *s <= '9') *f = *f * 10 + *s++ - '0'; while ((*s == ' ') || (*s == '\t')) ++s; if (*s++ != '=') /* no setting was specified */ return false; if (*s < '0' || *s > '9') return false; while (*s >= '0' && *s <= '9') *v = *v * 10 + *s++ - '0'; while ((*s == ' ') || (*s == '\t')) ++s; if (s != e) return false; return true; } static void* loadOTfont(PlatformFontRef fontRef, XeTeXFont font, Fixed scaled_size, char* cp1) { XeTeXLayoutEngine engine = NULL; hb_tag_t script = HB_TAG_NONE; char * language = NULL; hb_feature_t* features = NULL; char** shapers = NULL; /* NULL-terminated array */ int nFeatures = 0; int nShapers = 0; char* cp2; char* cp3; hb_tag_t tag; uint32_t rgbValue = 0x000000FF; float extend = 1.0; float slant = 0.0; float embolden = 0.0; float letterspace = 0.0; int i; char reqEngine = getReqEngine(); if (reqEngine == 'O' || reqEngine == 'G') { shapers = (char**) xrealloc(shapers, (nShapers + 1) * sizeof(char *)); if (reqEngine == 'O') { static char ot_const[] = "ot"; shapers[nShapers] = ot_const; } else if (reqEngine == 'G') { static char graphite2_const[] = "graphite2"; shapers[nShapers] = graphite2_const; } nShapers++; } if (reqEngine == 'G') { char* tmpShapers[] = {shapers[0]}; /* create a default engine so we can query the font for Graphite features; * because of font caching, it's cheap to discard this and create the real one later */ engine = createLayoutEngine(fontRef, font, script, language, features, nFeatures, tmpShapers, rgbValue, extend, slant, embolden); if (engine == NULL) return NULL; } /* scan the feature string (if any) */ if (cp1 != NULL) { while (*cp1) { if ((*cp1 == ':') || (*cp1 == ';') || (*cp1 == ',')) ++cp1; while ((*cp1 == ' ') || (*cp1 == '\t')) /* skip leading whitespace */ ++cp1; if (*cp1 == 0) /* break if end of string */ break; cp2 = cp1; while (*cp2 && (*cp2 != ':') && (*cp2 != ';') && (*cp2 != ',')) ++cp2; if (strncmp(cp1, "script", 6) == 0) { cp3 = cp1 + 6; if (*cp3 != '=') goto bad_option; ++cp3; script = hb_tag_from_string(cp3, cp2 - cp3); goto next_option; } if (strncmp(cp1, "language", 8) == 0) { cp3 = cp1 + 8; if (*cp3 != '=') goto bad_option; ++cp3; language = (char*)xmalloc(cp2 - cp3 + 1); language[cp2 - cp3] = '\0'; memcpy(language, cp3, cp2 - cp3); goto next_option; } if (strncmp(cp1, "shaper", 6) == 0) { cp3 = cp1 + 6; if (*cp3 != '=') goto bad_option; ++cp3; shapers = (char**) xrealloc(shapers, (nShapers + 1) * sizeof(char *)); /* some dumb systems have no strndup() */ shapers[nShapers] = strdup(cp3); shapers[nShapers][cp2 - cp3] = '\0'; nShapers++; goto next_option; } i = readCommonFeatures(cp1, cp2, &extend, &slant, &embolden, &letterspace, &rgbValue); if (i == 1) goto next_option; else if (i == -1) goto bad_option; if (reqEngine == 'G') { int value = 0; if (readFeatureNumber(cp1, cp2, &tag, &value) || findGraphiteFeature(engine, cp1, cp2, &tag, &value)) { features = (hb_feature_t*) xrealloc(features, (nFeatures + 1) * sizeof(hb_feature_t)); features[nFeatures].tag = tag; features[nFeatures].value = value; features[nFeatures].start = 0; features[nFeatures].end = (unsigned int) -1; nFeatures++; goto next_option; } } if (*cp1 == '+') { int param = 0; tag = read_tag_with_param(cp1 + 1, ¶m); features = (hb_feature_t*) xrealloc(features, (nFeatures + 1) * sizeof(hb_feature_t)); features[nFeatures].tag = tag; features[nFeatures].start = 0; features[nFeatures].end = (unsigned int) -1; // for backward compatibility with pre-0.9999 where feature // indices started from 0 if (param >= 0) param++; features[nFeatures].value = param; nFeatures++; goto next_option; } if (*cp1 == '-') { ++cp1; tag = hb_tag_from_string(cp1, cp2 - cp1); features = (hb_feature_t*) xrealloc(features, (nFeatures + 1) * sizeof(hb_feature_t)); features[nFeatures].tag = tag; features[nFeatures].start = 0; features[nFeatures].end = (unsigned int) -1; features[nFeatures].value = 0; nFeatures++; goto next_option; } if (strncmp(cp1, "vertical", 8) == 0) { cp3 = cp2; if (*cp3 == ';' || *cp3 == ':' || *cp3 == ',') --cp3; while (*cp3 == '\0' || *cp3 == ' ' || *cp3 == '\t') --cp3; if (*cp3) ++cp3; if (cp3 == cp1 + 8) { loadedfontflags |= FONT_FLAGS_VERTICAL; goto next_option; } } bad_option: fontfeaturewarning((void*) cp1, cp2 - cp1, 0, 0); next_option: cp1 = cp2; } } if (shapers != NULL) { shapers = (char**) xrealloc(shapers, (nShapers + 1) * sizeof(char *)); shapers[nShapers] = NULL; } if (embolden != 0.0) embolden = embolden * Fix2D(scaled_size) / 100.0; if (letterspace != 0.0) loadedfontletterspace = (letterspace / 100.0) * scaled_size; if ((loadedfontflags & FONT_FLAGS_COLORED) == 0) rgbValue = 0x000000FF; if ((loadedfontflags & FONT_FLAGS_VERTICAL) != 0) setFontLayoutDir(font, 1); engine = createLayoutEngine(fontRef, font, script, language, features, nFeatures, shapers, rgbValue, extend, slant, embolden); if (engine == 0) { // only free these if creation failed, otherwise the engine now owns them free(features); free(shapers); } else { nativefonttypeflag = OTGR_FONT_FLAG; } return engine; } static void splitFontName(char* name, char** var, char** feat, char** end, int* index) { *var = NULL; *feat = NULL; *index = 0; if (*name == '[') { int withinFileName = 1; #ifdef WIN32 char* start = name + 1; #endif ++name; while (*name) { if (withinFileName && *name == ']') { withinFileName = 0; if (*var == NULL) *var = name; } else if (*name == ':') { if (withinFileName && *var == NULL #ifdef WIN32 && !((name - start == 1) && isalpha(*start)) #endif ) { *var = name; ++name; while (*name >= '0' && *name <= '9') *index = *index * 10 + *name++ - '0'; --name; } else if (!withinFileName && *feat == NULL) *feat = name; } ++name; } *end = name; } else { while (*name) { if (*name == '/' && *var == NULL && *feat == NULL) *var = name; else if (*name == ':' && *feat == NULL) *feat = name; ++name; } *end = name; } if (*feat == NULL) *feat = name; if (*var == NULL) *var = *feat; } void* findnativefont(unsigned char* uname, integer scaled_size) /* scaled_size here is in TeX points, or is a negative integer for 'scaled' */ { void* rval = NULL; char* nameString; char* var; char* feat; char* end; char* name = (char*)uname; char* varString = NULL; char* featString = NULL; PlatformFontRef fontRef; XeTeXFont font = NULL; int index = 0; loadedfontmapping = NULL; loadedfontflags = 0; loadedfontletterspace = 0; splitFontName(name, &var, &feat, &end, &index); nameString = (char*) xmalloc(var - name + 1); strncpy(nameString, name, var - name); nameString[var - name] = 0; if (feat > var) { varString = (char*) xmalloc(feat - var); strncpy(varString, var + 1, feat - var - 1); varString[feat - var - 1] = 0; } if (end > feat) { featString = (char*) xmalloc(end - feat); strncpy(featString, feat + 1, end - feat - 1); featString[end - feat - 1] = 0; } // check for "[filename]" form, don't search maps in this case if (nameString[0] == '[') { char* path = kpse_find_file(nameString + 1, kpse_opentype_format, 0); if (path == NULL) path = kpse_find_file(nameString + 1, kpse_truetype_format, 0); if (path == NULL) path = kpse_find_file(nameString + 1, kpse_type1_format, 0); if (path != NULL) { if (scaled_size < 0) { font = createFontFromFile(path, index, 655360L); if (font != NULL) { Fixed dsize = D2Fix(getDesignSize(font)); if (scaled_size == -1000) scaled_size = dsize; else scaled_size = zxnoverd(dsize, -scaled_size, 1000); deleteFont(font); } } font = createFontFromFile(path, index, scaled_size); if (font != NULL) { loadedfontdesignsize = D2Fix(getDesignSize(font)); /* This is duplicated in XeTeXFontMgr::findFont! */ setReqEngine(0); if (varString) { if (strncmp(varString, "/AAT", 4) == 0) setReqEngine('A'); else if ((strncmp(varString, "/OT", 3) == 0) || (strncmp(varString, "/ICU", 4) == 0)) setReqEngine('O'); else if (strncmp(varString, "/GR", 3) == 0) setReqEngine('G'); } rval = loadOTfont(0, font, scaled_size, featString); if (rval == NULL) deleteFont(font); if (rval != NULL && gettracingfontsstate() > 0) { begindiagnostic(); zprintnl(' '); printcstring("-> "); printcstring(path); zenddiagnostic(0); } } } } else { fontRef = findFontByName(nameString, varString, Fix2D(scaled_size)); if (fontRef != 0) { /* update nameoffile to the full name of the font, for error messages during font loading */ const char* fullName = getFullName(fontRef); namelength = strlen(fullName); if (featString != NULL) namelength += strlen(featString) + 1; if (varString != NULL) namelength += strlen(varString) + 1; free(nameoffile); nameoffile = xmalloc(namelength + 4); /* +2 would be correct: initial space, final NUL */ nameoffile[0] = ' '; strcpy((char*)nameoffile + 1, fullName); if (scaled_size < 0) { font = createFont(fontRef, scaled_size); if (font != NULL) { Fixed dsize = D2Fix(getDesignSize(font)); if (scaled_size == -1000) scaled_size = dsize; else scaled_size = zxnoverd(dsize, -scaled_size, 1000); deleteFont(font); } } font = createFont(fontRef, scaled_size); if (font != NULL) { #ifdef XETEX_MAC /* decide whether to use AAT or OpenType rendering with this font */ if (getReqEngine() == 'A') { rval = loadAATfont(fontRef, scaled_size, featString); if (rval == NULL) deleteFont(font); } else { if (getReqEngine() == 'O' || getReqEngine() == 'G' || getFontTablePtr(font, kGSUB) != NULL || getFontTablePtr(font, kGPOS) != NULL) rval = loadOTfont(fontRef, font, scaled_size, featString); /* loadOTfont failed or the above check was false */ if (rval == NULL) rval = loadAATfont(fontRef, scaled_size, featString); if (rval == NULL) deleteFont(font); } #else rval = loadOTfont(fontRef, font, scaled_size, featString); if (rval == NULL) deleteFont(font); #endif } /* append the style and feature strings, so that \show\fontID will give a full result */ if (varString != NULL && *varString != 0) { strcat((char*)nameoffile + 1, "/"); strcat((char*)nameoffile + 1, varString); } if (featString != NULL && *featString != 0) { strcat((char*)nameoffile + 1, ":"); strcat((char*)nameoffile + 1, featString); } namelength = strlen((char*)nameoffile + 1); } } if (varString != NULL) free(varString); if (featString != NULL) free(featString); free(nameString); return rval; } void releasefontengine(void* engine, int type_flag) { #ifdef XETEX_MAC if (type_flag == AAT_FONT_FLAG) { CFRelease((CFDictionaryRef)engine); } else #endif if (type_flag == OTGR_FONT_FLAG) { deleteLayoutEngine((XeTeXLayoutEngine)engine); } } /* params are given as 'integer' in the header file, but are really TeX scaled integers */ void otgetfontmetrics(void* pEngine, scaled* ascent, scaled* descent, scaled* xheight, scaled* capheight, scaled* slant) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; float a, d; getAscentAndDescent(engine, &a, &d); *ascent = D2Fix(a); *descent = D2Fix(d); *slant = D2Fix(Fix2D(getSlant(getFont(engine))) * getExtendFactor(engine) + getSlantFactor(engine)); /* get cap and x height from OS/2 table */ getCapAndXHeight(engine, &a, &d); *capheight = D2Fix(a); *xheight = D2Fix(d); /* fallback in case the font does not have OS/2 table */ if (*xheight == 0) { int glyphID = mapCharToGlyph(engine, 'x'); if (glyphID != 0) { getGlyphHeightDepth(engine, glyphID, &a, &d); *xheight = D2Fix(a); } else { *xheight = *ascent / 2; /* arbitrary figure if there's no 'x' in the font */ } } if (*capheight == 0) { int glyphID = mapCharToGlyph(engine, 'X'); if (glyphID != 0) { getGlyphHeightDepth(engine, glyphID, &a, &d); *capheight = D2Fix(a); } else { *capheight = *ascent; /* arbitrary figure if there's no 'X' in the font */ } } } integer otfontget(integer what, void* pEngine) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; XeTeXFont fontInst = getFont(engine); switch (what) { case XeTeX_count_glyphs: return countGlyphs(fontInst); break; case XeTeX_count_features: /* ie Graphite features */ return countGraphiteFeatures(engine); break; case XeTeX_OT_count_scripts: return countScripts(fontInst); break; } return 0; } integer otfontget1(integer what, void* pEngine, integer param) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; XeTeXFont fontInst = getFont(engine); switch (what) { case XeTeX_OT_count_languages: return countLanguages(fontInst, param); break; case XeTeX_OT_script_code: return getIndScript(fontInst, param); break; /* for graphite fonts...*/ case XeTeX_feature_code: return getGraphiteFeatureCode(engine, param); break; case XeTeX_is_exclusive_feature: return 1; break; case XeTeX_count_selectors: return countGraphiteFeatureSettings(engine, param); break; } return 0; } integer otfontget2(integer what, void* pEngine, integer param1, integer param2) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; XeTeXFont fontInst = getFont(engine); switch (what) { case XeTeX_OT_language_code: return getIndLanguage(fontInst, param1, param2); break; case XeTeX_OT_count_features: return countFeatures(fontInst, param1, param2); break; /* for graphite fonts */ case XeTeX_selector_code: return getGraphiteFeatureSettingCode(engine, param1, param2); break; case XeTeX_is_default_selector: return getGraphiteFeatureDefaultSetting(engine, param1) == param2; break; } return 0; } integer otfontget3(integer what, void* pEngine, integer param1, integer param2, integer param3) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; XeTeXFont fontInst = getFont(engine); switch (what) { case XeTeX_OT_feature_code: return getIndFeature(fontInst, param1, param2, param3); break; } return 0; } void grprintfontname(integer what, void* pEngine, integer param1, integer param2) { char* name = NULL; XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; switch (what) { case XeTeX_feature_name: name = getGraphiteFeatureLabel(engine, param1); break; case XeTeX_selector_name: name = getGraphiteFeatureSettingLabel(engine, param1, param2); break; } if (name != NULL) { printcstring(name); gr_label_destroy(name); } } integer grfontgetnamed(integer what, void* pEngine) { long rval = -1; XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; switch (what) { case XeTeX_find_feature_by_name: rval = findGraphiteFeatureNamed(engine, (const char*)nameoffile + 1, namelength); break; } return rval; } integer grfontgetnamed1(integer what, void* pEngine, integer param) { long rval = -1; XeTeXLayoutEngine engine = (XeTeXLayoutEngine)pEngine; switch (what) { case XeTeX_find_selector_by_name: rval = findGraphiteFeatureSettingNamed(engine, param, (const char*)nameoffile + 1, namelength); break; } return rval; } #define XDV_FLAG_VERTICAL 0x0100 #define XDV_FLAG_COLORED 0x0200 #define XDV_FLAG_EXTEND 0x1000 #define XDV_FLAG_SLANT 0x2000 #define XDV_FLAG_EMBOLDEN 0x4000 #ifdef XETEX_MAC static UInt32 cgColorToRGBA32(CGColorRef color) { const CGFloat *components = CGColorGetComponents(color); UInt32 rval = (UInt8)(components[0] * 255.0 + 0.5); rval <<= 8; rval += (UInt8)(components[1] * 255.0 + 0.5); rval <<= 8; rval += (UInt8)(components[2] * 255.0 + 0.5); rval <<= 8; rval += (UInt8)(components[3] * 255.0 + 0.5); return rval; } #endif static int xdvBufSize = 0; int makeXDVGlyphArrayData(void* pNode) { unsigned char* cp; uint16_t* glyphIDs; memoryword* p = (memoryword*) pNode; void* glyph_info; FixedPoint* locations; Fixed width; uint16_t glyphCount = native_glyph_count(p); int i = glyphCount * native_glyph_info_size + 8; /* to guarantee enough space in the buffer */ if (i > xdvBufSize) { if (xdvbuffer != NULL) free(xdvbuffer); xdvBufSize = ((i / 1024) + 1) * 1024; xdvbuffer = (char*) xmalloc(xdvBufSize); } glyph_info = native_glyph_info_ptr(p); locations = (FixedPoint*)glyph_info; glyphIDs = (uint16_t*)(locations + glyphCount); cp = (unsigned char*)xdvbuffer; width = node_width(p); *cp++ = (width >> 24) & 0xff; *cp++ = (width >> 16) & 0xff; *cp++ = (width >> 8) & 0xff; *cp++ = width & 0xff; *cp++ = (glyphCount >> 8) & 0xff; *cp++ = glyphCount & 0xff; for (i = 0; i < glyphCount; ++i) { Fixed x = locations[i].x; Fixed y = locations[i].y; *cp++ = (x >> 24) & 0xff; *cp++ = (x >> 16) & 0xff; *cp++ = (x >> 8) & 0xff; *cp++ = x & 0xff; *cp++ = (y >> 24) & 0xff; *cp++ = (y >> 16) & 0xff; *cp++ = (y >> 8) & 0xff; *cp++ = y & 0xff; } for (i = 0; i < glyphCount; ++i) { uint16_t g = glyphIDs[i]; *cp++ = (g >> 8) & 0xff; *cp++ = g & 0xff; } return ((char*)cp - xdvbuffer); } int makefontdef(integer f) { uint16_t flags = 0; uint32_t rgba; Fixed size; char* filename; uint32_t index; uint8_t filenameLen; int fontDefLength; char* cp; /* PlatformFontRef fontRef = 0; */ float extend = 1.0; float slant = 0.0; float embolden = 0.0; #ifdef XETEX_MAC CFDictionaryRef attributes = NULL; if (fontarea[f] == AAT_FONT_FLAG) { CTFontRef font; CGColorRef color; CGAffineTransform t; CFNumberRef emboldenNumber; CGFloat fSize; attributes = (CFDictionaryRef) fontlayoutengine[f]; font = CFDictionaryGetValue(attributes, kCTFontAttributeName); filename = getFileNameFromCTFont(font, &index); assert(filename); if (CFDictionaryGetValue(attributes, kCTVerticalFormsAttributeName)) flags |= XDV_FLAG_VERTICAL; color = (CGColorRef) CFDictionaryGetValue(attributes, kCTForegroundColorAttributeName); if (color) rgba = cgColorToRGBA32(color); t = CTFontGetMatrix(font); extend = t.a; slant = t.c; emboldenNumber = CFDictionaryGetValue(attributes, kXeTeXEmboldenAttributeName); if (emboldenNumber) CFNumberGetValue(emboldenNumber, kCFNumberFloatType, &embolden); fSize = CTFontGetSize(font); size = D2Fix(fSize); } else #endif if (fontarea[f] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine; engine = (XeTeXLayoutEngine)fontlayoutengine[f]; /* fontRef = */ getFontRef(engine); filename = getFontFilename(engine, &index); assert(filename); rgba = getRgbValue(engine); if ((fontflags[f] & FONT_FLAGS_VERTICAL) != 0) flags |= XDV_FLAG_VERTICAL; extend = getExtendFactor(engine); slant = getSlantFactor(engine); embolden = getEmboldenFactor(engine); size = D2Fix(getPointSize(engine)); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `make_font_def'\n"); exit(3); } filenameLen = strlen(filename); /* parameters after internal font ID: // size[4] // flags[2] // l[1] n[l] // if flags & COLORED: // c[4] */ fontDefLength = 4 /* size */ + 2 /* flags */ + 1 /* name length */ + filenameLen + 4 /* face index */; if ((fontflags[f] & FONT_FLAGS_COLORED) != 0) { fontDefLength += 4; /* 32-bit RGBA value */ flags |= XDV_FLAG_COLORED; } if (extend != 1.0) { fontDefLength += 4; flags |= XDV_FLAG_EXTEND; } if (slant != 0.0) { fontDefLength += 4; flags |= XDV_FLAG_SLANT; } if (embolden != 0.0) { fontDefLength += 4; flags |= XDV_FLAG_EMBOLDEN; } if (fontDefLength > xdvBufSize) { if (xdvbuffer != NULL) free(xdvbuffer); xdvBufSize = ((fontDefLength / 1024) + 1) * 1024; xdvbuffer = (char*) xmalloc(xdvBufSize); } cp = xdvbuffer; *(Fixed*)cp = SWAP32(size); cp += 4; *(uint16_t*)cp = SWAP16(flags); cp += 2; *(uint8_t*)cp = filenameLen; cp += 1; memcpy(cp, filename, filenameLen); cp += filenameLen; *(uint32_t*)cp = SWAP32(index); cp += 4; if ((fontflags[f] & FONT_FLAGS_COLORED) != 0) { *(uint32_t*)cp = SWAP32(rgba); cp += 4; } if (flags & XDV_FLAG_EXTEND) { Fixed f = D2Fix(extend); *(uint32_t*)(cp) = SWAP32(f); cp += 4; } if (flags & XDV_FLAG_SLANT) { Fixed f = D2Fix(slant); *(uint32_t*)(cp) = SWAP32(f); cp += 4; } if (flags & XDV_FLAG_EMBOLDEN) { Fixed f = D2Fix(embolden); *(uint32_t*)(cp) = SWAP32(f); cp += 4; } free((char*) filename); return fontDefLength; } int applymapping(void* pCnv, uint16_t* txtPtr, int txtLen) { TECkit_Converter cnv = (TECkit_Converter)pCnv; UInt32 inUsed, outUsed; TECkit_Status status; static UInt32 outLength = 0; /* allocate outBuffer if not big enough */ if (outLength < txtLen * sizeof(UniChar) + 32) { if (mappedtext != 0) free(mappedtext); outLength = txtLen * sizeof(UniChar) + 32; mappedtext = xmalloc(outLength); } /* try the mapping */ retry: status = TECkit_ConvertBuffer(cnv, (Byte*)txtPtr, txtLen * sizeof(UniChar), &inUsed, (Byte*)mappedtext, outLength, &outUsed, true); TECkit_ResetConverter(cnv); switch (status) { case kStatus_NoError: txtPtr = (UniChar*)mappedtext; return outUsed / sizeof(UniChar); case kStatus_OutputBufferFull: outLength += (txtLen * sizeof(UniChar)) + 32; free(mappedtext); mappedtext = xmalloc(outLength); goto retry; default: return 0; } } static void snap_zone(scaled* value, scaled snap_value, scaled fuzz) { scaled difference = *value - snap_value; if (difference <= fuzz && difference >= -fuzz) *value = snap_value; } void getnativecharheightdepth(integer font, integer ch, scaled* height, scaled* depth) { #define QUAD(f) fontinfo[6+parambase[f]].cint #define X_HEIGHT(f) fontinfo[5+parambase[f]].cint #define CAP_HEIGHT(f) fontinfo[8+parambase[f]].cint float ht = 0.0; float dp = 0.0; Fixed fuzz; #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) { CFDictionaryRef attributes = (CFDictionaryRef)(fontlayoutengine[font]); int gid = MapCharToGlyph_AAT(attributes, ch); GetGlyphHeightDepth_AAT(attributes, gid, &ht, &dp); } else #endif if (fontarea[font] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[font]; int gid = mapCharToGlyph(engine, ch); getGlyphHeightDepth(engine, gid, &ht, &dp); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `get_native_char_height_depth`\n"); exit(3); } *height = D2Fix(ht); *depth = D2Fix(dp); /* snap to "known" zones for baseline, x-height, cap-height if within 4% of em-size */ fuzz = QUAD(font) / 25; snap_zone(depth, 0, fuzz); snap_zone(height, 0, fuzz); snap_zone(height, X_HEIGHT(font), fuzz); snap_zone(height, CAP_HEIGHT(font), fuzz); } scaled getnativecharht(integer f, integer c) { scaled h, d; getnativecharheightdepth(f, c, &h, &d); return h; } scaled getnativechardp(integer f, integer c) { scaled h, d; getnativecharheightdepth(f, c, &h, &d); return d; } void getnativecharsidebearings(integer font, integer ch, scaled* lsb, scaled* rsb) { float l, r; #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) { CFDictionaryRef attributes = (CFDictionaryRef)(fontlayoutengine[font]); int gid = MapCharToGlyph_AAT(attributes, ch); GetGlyphSidebearings_AAT(attributes, gid, &l, &r); } else #endif if (fontarea[font] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[font]; int gid = mapCharToGlyph(engine, ch); getGlyphSidebearings(engine, gid, &l, &r); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `get_native_char_side_bearings'\n"); exit(3); } *lsb = D2Fix(l); *rsb = D2Fix(r); } scaled getglyphbounds(integer font, integer edge, integer gid) { /* edge codes 1,2,3,4 => L T R B */ float a, b; #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) { CFDictionaryRef attributes = (CFDictionaryRef)(fontlayoutengine[font]); if (edge & 1) GetGlyphSidebearings_AAT(attributes, gid, &a, &b); else GetGlyphHeightDepth_AAT(attributes, gid, &a, &b); } else #endif if (fontarea[font] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[font]; if (edge & 1) getGlyphSidebearings(engine, gid, &a, &b); else getGlyphHeightDepth(engine, gid, &a, &b); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `get_glyph_bounds'\n"); exit(3); } return D2Fix((edge <= 2) ? a : b); } scaled getnativecharic(integer f, integer c) { scaled lsb, rsb; getnativecharsidebearings(f, c, &lsb, &rsb); if (rsb < 0) return fontletterspace[f] - rsb; else return fontletterspace[f]; } scaled getnativecharwd(integer f, integer c) { scaled wd = 0; #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) { CFDictionaryRef attributes = (CFDictionaryRef)(fontlayoutengine[f]); int gid = MapCharToGlyph_AAT(attributes, c); wd = D2Fix(GetGlyphWidth_AAT(attributes, gid)); } else #endif if (fontarea[f] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[f]; int gid = mapCharToGlyph(engine, c); wd = D2Fix(getGlyphWidthFromEngine(engine, gid)); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `get_native_char_wd'\n"); exit(3); } return wd; } uint16_t get_native_glyph(void* pNode, unsigned index) { memoryword* node = (memoryword*)pNode; FixedPoint* locations = (FixedPoint*)native_glyph_info_ptr(node); uint16_t* glyphIDs = (uint16_t*)(locations + native_glyph_count(node)); if (index >= native_glyph_count(node)) return 0; else return glyphIDs[index]; } void store_justified_native_glyphs(void* pNode) { memoryword* node = (memoryword*)pNode; unsigned f = native_font(node); #ifdef XETEX_MAC /* separate Mac-only codepath for AAT fonts */ if (fontarea[f] == AAT_FONT_FLAG) { (void)DoAATLayout(node, 1); return; } #endif /* save desired width */ int savedWidth = node_width(node); measure_native_node(node, 0); if (node_width(node) != savedWidth) { /* see how much adjustment is needed overall */ double justAmount = Fix2D(savedWidth - node_width(node)); /* apply justification to spaces (or if there are none, distribute it to all glyphs as a last resort) */ FixedPoint* locations = (FixedPoint*)native_glyph_info_ptr(node); uint16_t* glyphIDs = (uint16_t*)(locations + native_glyph_count(node)); int glyphCount = native_glyph_count(node); int spaceCount = 0, i; int spaceGlyph = mapchartoglyph(f, ' '); for (i = 0; i < glyphCount; ++i) if (glyphIDs[i] == spaceGlyph) spaceCount++; if (spaceCount > 0) { double adjustment = 0; int spaceIndex = 0; for (i = 0; i < glyphCount; ++i) { locations[i].x = D2Fix(Fix2D(locations[i].x) + adjustment); if (glyphIDs[i] == spaceGlyph) { spaceIndex++; adjustment = justAmount * spaceIndex / spaceCount; } } } else { for (i = 1; i < glyphCount; ++i) locations[i].x = D2Fix(Fix2D(locations[i].x) + justAmount * i / (glyphCount - 1)); } node_width(node) = savedWidth; } } void measure_native_node(void* pNode, int use_glyph_metrics) { memoryword* node = (memoryword*)pNode; int txtLen = native_length(node); uint16_t* txtPtr = (uint16_t*)(node + native_node_size); unsigned f = native_font(node); #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) { /* we're using this font in AAT mode, so fontlayoutengine[f] is actually a CFDictionaryRef */ DoAATLayout(node, 0); } else #endif if (fontarea[f] == OTGR_FONT_FLAG) { /* using this font in OT Layout mode, so fontlayoutengine[f] is actually a XeTeXLayoutEngine */ XeTeXLayoutEngine engine = (XeTeXLayoutEngine)(fontlayoutengine[f]); FixedPoint* locations = NULL; uint16_t* glyphIDs; Fixed* glyphAdvances = NULL; int totalGlyphCount = 0; /* need to find direction runs within the text, and call layoutChars separately for each */ UBiDiDirection dir; void* glyph_info = 0; static FloatPoint* positions = 0; static float* advances = 0; static uint32_t* glyphs = 0; UBiDi* pBiDi = ubidi_open(); UErrorCode errorCode = U_ZERO_ERROR; ubidi_setPara(pBiDi, (const UChar*) txtPtr, txtLen, getDefaultDirection(engine), NULL, &errorCode); dir = ubidi_getDirection(pBiDi); if (dir == UBIDI_MIXED) { /* we actually do the layout twice here, once to count glyphs and then again to get them; which is inefficient, but i figure that MIXED is a relatively rare occurrence, so i can't be bothered to deal with the memory reallocation headache of doing it differently */ int nRuns = ubidi_countRuns(pBiDi, &errorCode); double width = 0; int i, runIndex; int32_t logicalStart, length; for (runIndex = 0; runIndex < nRuns; ++runIndex) { dir = ubidi_getVisualRun(pBiDi, runIndex, &logicalStart, &length); totalGlyphCount += layoutChars(engine, txtPtr, logicalStart, length, txtLen, (dir == UBIDI_RTL)); } if (totalGlyphCount > 0) { double x, y; glyph_info = xcalloc(totalGlyphCount, native_glyph_info_size); locations = (FixedPoint*)glyph_info; glyphIDs = (uint16_t*)(locations + totalGlyphCount); glyphAdvances = (Fixed*) xcalloc(totalGlyphCount, sizeof(Fixed)); totalGlyphCount = 0; x = y = 0.0; for (runIndex = 0; runIndex < nRuns; ++runIndex) { int nGlyphs; dir = ubidi_getVisualRun(pBiDi, runIndex, &logicalStart, &length); nGlyphs = layoutChars(engine, txtPtr, logicalStart, length, txtLen, (dir == UBIDI_RTL)); glyphs = (uint32_t*) xcalloc(nGlyphs, sizeof(uint32_t)); positions = (FloatPoint*) xcalloc(nGlyphs + 1, sizeof(FloatPoint)); advances = (float*) xcalloc(nGlyphs, sizeof(float)); getGlyphs(engine, glyphs); getGlyphAdvances(engine, advances); getGlyphPositions(engine, positions); for (i = 0; i < nGlyphs; ++i) { glyphIDs[totalGlyphCount] = glyphs[i]; locations[totalGlyphCount].x = D2Fix(positions[i].x + x); locations[totalGlyphCount].y = D2Fix(positions[i].y + y); glyphAdvances[totalGlyphCount] = D2Fix(advances[i]); ++totalGlyphCount; } x += positions[nGlyphs].x; y += positions[nGlyphs].y; free(glyphs); free(positions); free(advances); } width = x; } node_width(node) = D2Fix(width); native_glyph_count(node) = totalGlyphCount; native_glyph_info_ptr(node) = glyph_info; } else { double width = 0; totalGlyphCount = layoutChars(engine, txtPtr, 0, txtLen, txtLen, (dir == UBIDI_RTL)); glyphs = (uint32_t*) xcalloc(totalGlyphCount, sizeof(uint32_t)); positions = (FloatPoint*) xcalloc(totalGlyphCount + 1, sizeof(FloatPoint)); advances = (float*) xcalloc(totalGlyphCount, sizeof(float)); getGlyphs(engine, glyphs); getGlyphAdvances(engine, advances); getGlyphPositions(engine, positions); if (totalGlyphCount > 0) { int i; glyph_info = xcalloc(totalGlyphCount, native_glyph_info_size); locations = (FixedPoint*)glyph_info; glyphIDs = (uint16_t*)(locations + totalGlyphCount); glyphAdvances = (Fixed*) xcalloc(totalGlyphCount, sizeof(Fixed)); for (i = 0; i < totalGlyphCount; ++i) { glyphIDs[i] = glyphs[i]; glyphAdvances[i] = D2Fix(advances[i]); locations[i].x = D2Fix(positions[i].x); locations[i].y = D2Fix(positions[i].y); } width = positions[totalGlyphCount].x; } node_width(node) = D2Fix(width); native_glyph_count(node) = totalGlyphCount; native_glyph_info_ptr(node) = glyph_info; free(glyphs); free(positions); free(advances); } ubidi_close(pBiDi); if (fontletterspace[f] != 0) { Fixed lsDelta = 0; Fixed lsUnit = fontletterspace[f]; int i; for (i = 0; i < totalGlyphCount; ++i) { if (glyphAdvances[i] == 0 && lsDelta != 0) lsDelta -= lsUnit; locations[i].x += lsDelta; lsDelta += lsUnit; } if (lsDelta != 0) { lsDelta -= lsUnit; node_width(node) += lsDelta; } } free(glyphAdvances); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `measure_native_node'\n"); exit(3); } if (use_glyph_metrics == 0 || native_glyph_count(node) == 0) { /* for efficiency, height and depth are the font's ascent/descent, not true values based on the actual content of the word, unless use_glyph_metrics is non-zero */ node_height(node) = heightbase[f]; node_depth(node) = depthbase[f]; } else { /* this iterates over the glyph data whether it comes from AAT or OT layout */ FixedPoint* locations = (FixedPoint*)native_glyph_info_ptr(node); uint16_t* glyphIDs = (uint16_t*)(locations + native_glyph_count(node)); float yMin = 65536.0; float yMax = -65536.0; int i; for (i = 0; i < native_glyph_count(node); ++i) { float ht, dp; float y = Fix2D(-locations[i].y); /* NB negative is upwards in locations[].y! */ GlyphBBox bbox; if (getCachedGlyphBBox(f, glyphIDs[i], &bbox) == 0) { #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) GetGlyphBBox_AAT((CFDictionaryRef)(fontlayoutengine[f]), glyphIDs[i], &bbox); else #endif if (fontarea[f] == OTGR_FONT_FLAG) getGlyphBounds((XeTeXLayoutEngine)(fontlayoutengine[f]), glyphIDs[i], &bbox); cacheGlyphBBox(f, glyphIDs[i], &bbox); } ht = bbox.yMax; dp = -bbox.yMin; if (y + ht > yMax) yMax = y + ht; if (y - dp < yMin) yMin = y - dp; } node_height(node) = D2Fix(yMax); node_depth(node) = -D2Fix(yMin); } } Fixed get_native_italic_correction(void* pNode) { memoryword* node = (memoryword*) pNode; unsigned f = native_font(node); unsigned n = native_glyph_count(node); if (n > 0) { FixedPoint* locations = (FixedPoint*)native_glyph_info_ptr(node); uint16_t* glyphIDs = (uint16_t*)(locations + n); #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) return D2Fix(GetGlyphItalCorr_AAT((CFDictionaryRef)(fontlayoutengine[f]), glyphIDs[n-1])) + fontletterspace[f]; #endif if (fontarea[f] == OTGR_FONT_FLAG) return D2Fix(getGlyphItalCorr((XeTeXLayoutEngine)(fontlayoutengine[f]), glyphIDs[n-1])) + fontletterspace[f]; } return 0; } Fixed get_native_glyph_italic_correction(void* pNode) { memoryword* node = (memoryword*) pNode; uint16_t gid = native_glyph(node); unsigned f = native_font(node); #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) return D2Fix(GetGlyphItalCorr_AAT((CFDictionaryRef)(fontlayoutengine[f]), gid)); #endif if (fontarea[f] == OTGR_FONT_FLAG) return D2Fix(getGlyphItalCorr((XeTeXLayoutEngine)(fontlayoutengine[f]), gid)); return 0; /* can't actually happen */ } void measure_native_glyph(void* pNode, int use_glyph_metrics) { memoryword* node = (memoryword*) pNode; uint16_t gid = native_glyph(node); unsigned f = native_font(node); float ht = 0.0; float dp = 0.0; #ifdef XETEX_MAC if (fontarea[f] == AAT_FONT_FLAG) { CFDictionaryRef attributes = (CFDictionaryRef)(fontlayoutengine[f]); node_width(node) = D2Fix(GetGlyphWidth_AAT(attributes, gid)); if (use_glyph_metrics) GetGlyphHeightDepth_AAT(attributes, gid, &ht, &dp); } else #endif if (fontarea[f] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[f]; XeTeXFont fontInst = getFont(engine); node_width(node) = D2Fix(getGlyphWidth(fontInst, gid)); if (use_glyph_metrics) getGlyphHeightDepth(engine, gid, &ht, &dp); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `measure_native_glyph'\n"); exit(3); } if (use_glyph_metrics) { node_height(node) = D2Fix(ht); node_depth(node) = D2Fix(dp); } else { node_height(node) = heightbase[f]; node_depth(node) = depthbase[f]; } } integer mapchartoglyph(integer font, integer ch) { if (ch > 0x10ffff || ((ch >= 0xd800) && (ch <= 0xdfff))) return 0; #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) return MapCharToGlyph_AAT((CFDictionaryRef)(fontlayoutengine[font]), ch); else #endif if (fontarea[font] == OTGR_FONT_FLAG) return mapCharToGlyph((XeTeXLayoutEngine)(fontlayoutengine[font]), ch); else { fprintf(stderr, "\n! Internal error: bad native font flag in `map_char_to_glyph'\n"); exit(3); } } integer mapglyphtoindex(integer font) /* glyph name is at nameoffile+1 */ { #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) return MapGlyphToIndex_AAT((CFDictionaryRef)(fontlayoutengine[font]), (const char*)nameoffile + 1); else #endif if (fontarea[font] == OTGR_FONT_FLAG) return mapGlyphToIndex((XeTeXLayoutEngine)(fontlayoutengine[font]), (const char*)nameoffile + 1); else { fprintf(stderr, "\n! Internal error: bad native font flag in `map_glyph_to_index'\n"); exit(3); } } integer getfontcharrange(integer font, int first) { #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) return GetFontCharRange_AAT((CFDictionaryRef)(fontlayoutengine[font]), first); else #endif if (fontarea[font] == OTGR_FONT_FLAG) return getFontCharRange((XeTeXLayoutEngine)(fontlayoutengine[font]), first); else { fprintf(stderr, "\n! Internal error: bad native font flag in `get_font_char_range'\n"); exit(3); } } Fixed D2Fix(double d) { Fixed rval = (int)(d * 65536.0 + 0.5); return rval; } double Fix2D(Fixed f) { double rval = f / 65536.0; return rval; } /* these are here, not XeTeX_mac.c, because we need stubs on other platforms */ void aatgetfontmetrics(CFDictionaryRef attributes, integer* ascent, integer* descent, integer* xheight, integer* capheight, integer* slant) { #ifdef XETEX_MAC CTFontRef font = fontFromAttributes(attributes); *ascent = D2Fix(CTFontGetAscent(font)); *descent = D2Fix(CTFontGetDescent(font)); *xheight = D2Fix(CTFontGetXHeight(font)); *capheight = D2Fix(CTFontGetCapHeight(font)); *slant = D2Fix(tan(-CTFontGetSlantAngle(font) * M_PI / 180.0)); #endif } int aatfontget(int what, CFDictionaryRef attributes) { int rval = -1; #ifdef XETEX_MAC CTFontRef font = fontFromAttributes(attributes); CFArrayRef list; switch (what) { case XeTeX_count_glyphs: rval = CTFontGetGlyphCount(font); break; case XeTeX_count_features: list = CTFontCopyFeatures(font); if (list) { rval = CFArrayGetCount(list); CFRelease(list); } break; } #endif return rval; } int aatfontget1(int what, CFDictionaryRef attributes, int param) { int rval = -1; #ifdef XETEX_MAC CTFontRef font = fontFromAttributes(attributes); switch (what) { case XeTeX_feature_code: { CFArrayRef features = CTFontCopyFeatures(font); if (features) { if (CFArrayGetCount(features) > param) { CFDictionaryRef feature = CFArrayGetValueAtIndex(features, param); CFNumberRef identifier = CFDictionaryGetValue(feature, kCTFontFeatureTypeIdentifierKey); if (identifier) CFNumberGetValue(identifier, kCFNumberIntType, &rval); } CFRelease(features); } break; } case XeTeX_is_exclusive_feature: { CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFBooleanRef value; CFDictionaryRef feature = findDictionaryInArrayWithIdentifier(features, kCTFontFeatureTypeIdentifierKey, param); Boolean found = CFDictionaryGetValueIfPresent(feature, kCTFontFeatureTypeExclusiveKey, (const void **)&value); if (found) rval = CFBooleanGetValue(value); CFRelease(features); } break; } case XeTeX_count_selectors: { CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFDictionaryRef feature = findDictionaryInArrayWithIdentifier(features, kCTFontFeatureTypeIdentifierKey, param); if (feature) { CFArrayRef selectors = CFDictionaryGetValue(feature, kCTFontFeatureTypeSelectorsKey); if (selectors) rval = CFArrayGetCount(selectors); } CFRelease(features); } break; } } #endif return rval; } int aatfontget2(int what, CFDictionaryRef attributes, int param1, int param2) { int rval = -1; #ifdef XETEX_MAC CTFontRef font = fontFromAttributes(attributes); CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFDictionaryRef feature = findDictionaryInArrayWithIdentifier(features, kCTFontFeatureTypeIdentifierKey, param1); if (feature) { CFArrayRef selectors = CFDictionaryGetValue(feature, kCTFontFeatureTypeSelectorsKey); if (selectors) { CFDictionaryRef selector; switch (what) { case XeTeX_selector_code: if (CFArrayGetCount(selectors) > param2) { CFNumberRef identifier; selector = CFArrayGetValueAtIndex(selectors, param2); identifier = CFDictionaryGetValue(selector, kCTFontFeatureSelectorIdentifierKey); if (identifier) CFNumberGetValue(identifier, kCFNumberIntType, &rval); } break; case XeTeX_is_default_selector: selector = findDictionaryInArrayWithIdentifier(selectors, kCTFontFeatureSelectorIdentifierKey, param2); if (selector) { CFBooleanRef isDefault; Boolean found = CFDictionaryGetValueIfPresent(selector, kCTFontFeatureSelectorDefaultKey, (const void **)&isDefault); if (found) rval = CFBooleanGetValue(isDefault); } break; } } } CFRelease(features); } #endif return rval; } int aatfontgetnamed(int what, CFDictionaryRef attributes) { int rval = -1; #ifdef XETEX_MAC if (what == XeTeX_find_feature_by_name) { CTFontRef font = fontFromAttributes(attributes); CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFDictionaryRef feature = findDictionaryInArray(features, kCTFontFeatureTypeNameKey, (const char*)nameoffile + 1, namelength); if (feature) { CFNumberRef identifier = CFDictionaryGetValue(feature, kCTFontFeatureTypeIdentifierKey); CFNumberGetValue(identifier, kCFNumberIntType, &rval); } CFRelease(features); } } #endif return rval; } int aatfontgetnamed1(int what, CFDictionaryRef attributes, int param) { int rval = -1; #ifdef XETEX_MAC CTFontRef font = fontFromAttributes(attributes); if (what == XeTeX_find_selector_by_name) { CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFDictionaryRef feature = findDictionaryInArrayWithIdentifier(features, kCTFontFeatureTypeIdentifierKey, param); if (feature) { CFNumberRef selector = findSelectorByName(feature, (const char*)nameoffile + 1, namelength); if (selector) CFNumberGetValue(selector, kCFNumberIntType, &rval); } CFRelease(features); } } #endif return rval; } void aatprintfontname(int what, CFDictionaryRef attributes, int param1, int param2) { #ifdef XETEX_MAC CFStringRef name = NULL; if (what == XeTeX_feature_name || what == XeTeX_selector_name) { CTFontRef font = fontFromAttributes(attributes); CFArrayRef features = CTFontCopyFeatures(font); if (features) { CFDictionaryRef feature = findDictionaryInArrayWithIdentifier(features, kCTFontFeatureTypeIdentifierKey, param1); if (feature) { if (what == XeTeX_feature_name) name = CFDictionaryGetValue(feature, kCTFontFeatureTypeNameKey); else { CFArrayRef selectors = CFDictionaryGetValue(feature, kCTFontFeatureTypeSelectorsKey); CFDictionaryRef selector = findDictionaryInArrayWithIdentifier(selectors, kCTFontFeatureSelectorIdentifierKey, param2); if (selector) name = CFDictionaryGetValue(selector, kCTFontFeatureSelectorNameKey); } } CFRelease(features); } } if (name) { CFIndex len = CFStringGetLength(name); UniChar* buf = xcalloc(len, sizeof(UniChar)); CFStringGetCharacters(name, CFRangeMake(0, len), buf); printchars(buf, len); free(buf); } #endif } void printglyphname(integer font, integer gid) { const char* s; int len = 0; #ifdef XETEX_MAC if (fontarea[font] == AAT_FONT_FLAG) { s = GetGlyphNameFromCTFont(fontFromInteger(font), gid, &len); } else #endif if (fontarea[font] == OTGR_FONT_FLAG) { XeTeXLayoutEngine engine = (XeTeXLayoutEngine)fontlayoutengine[font]; s = getGlyphName(getFont(engine), gid, &len); } else { fprintf(stderr, "\n! Internal error: bad native font flag in `print_glyph_name'\n"); exit(3); } while (len-- > 0) printchar(*s++); } int u_open_in(unicodefile* f, integer filefmt, const_string fopen_mode, integer mode, integer encodingData) { boolean rval; *f = (unicodefile) xmalloc(sizeof(UFILE)); (*f)->encodingMode = 0; (*f)->conversionData = 0; (*f)->savedChar = -1; (*f)->skipNextLF = 0; rval = open_input (&((*f)->f), filefmt, fopen_mode); if (rval) { int B1, B2; if (mode == AUTO) { /* sniff encoding form */ B1 = GETC((*f)->f); B2 = GETC((*f)->f); if (B1 == 0xfe && B2 == 0xff) mode = UTF16BE; else if (B2 == 0xfe && B1 == 0xff) mode = UTF16LE; else if (B1 == 0 && B2 != 0) { mode = UTF16BE; rewind((*f)->f); } else if (B2 == 0 && B1 != 0) { mode = UTF16LE; rewind((*f)->f); } else if (B1 == 0xef && B2 == 0xbb) { int B3 = GETC((*f)->f); if (B3 == 0xbf) mode = UTF8; } if (mode == AUTO) { rewind((*f)->f); mode = UTF8; } } setinputfileencoding(*f, mode, encodingData); } return rval; } void u_close_inout(unicodefile* f) { if (f != 0) { fclose((*f)->f); if (((*f)->encodingMode == ICUMAPPING) && ((*f)->conversionData != NULL)) ucnv_close((*f)->conversionData); free(*f); } } #if defined(WIN32) static int Isspace(char c) { return (c == ' ' || c == '\t'); } #endif int open_dvi_output(FILE** fptr) { if (nopdfoutput) { return open_output(fptr, FOPEN_WBIN_MODE); } else { const char *p = (const char*)nameoffile+1; char *cmd, *q, *bindir = NULL; int len = strlen(p); while (*p) if (*p++ == '\"') ++len; len += strlen(outputdriver); #ifndef WIN32 if (!kpse_absolute_p(outputdriver, true)) bindir = kpse_var_value("SELFAUTOLOC"); if (bindir) len += strlen(bindir) + 1; #endif if (output_directory) len += strlen(output_directory); len += 10; /* space for -o flag, quotes, NUL */ for (p = (const char*)nameoffile+1; *p; p++) if (*p == '\"') ++len; /* allow extra space to escape quotes in filename */ cmd = xmalloc(len); #ifdef WIN32 strcpy(cmd, outputdriver); #else if (bindir) { strcpy(cmd, bindir); strcat(cmd, "/"); strcat(cmd, outputdriver); } else { strcpy(cmd, outputdriver); } #endif strcat(cmd, " -o \""); if (output_directory) { len = strlen(output_directory); if (IS_DIR_SEP(output_directory[len-1])) output_directory[len-1] = '\0'; strcat(cmd, output_directory); strcat(cmd, "/"); } q = cmd + strlen(cmd); for (p = (const char*)nameoffile+1; *p; p++) { if (*p == '\"') *q++ = '\\'; *q++ = *p; } *q++ = '\"'; *q = '\0'; if (papersize != 0) { char* cmd2 = concat3(cmd, " -p ", papersize); free(cmd); cmd = cmd2; } if (output_directory) { char *fullname = concat3(output_directory, "/", (const char*)nameoffile+1); free(nameoffile); namelength = strlen(fullname); nameoffile = (unsigned char*) xmalloc(namelength + 2); strcpy((char*)nameoffile+1, fullname); free(fullname); } #if defined(WIN32) { wchar_t *tmp1w; char *p, *pp, *fullcmd, *prgnam; bindir = kpse_var_value("SELFAUTOLOC"); for(pp = bindir; *pp; pp++) { if(*pp == '/') *pp = '\\'; } pp = cmd; while(Isspace(*pp)) pp++; prgnam = xmalloc(strlen(cmd)); p = prgnam; while(!Isspace(*pp)) { *p++ = *pp++; } *p = '\0'; fullcmd = concatn("\"\"", bindir, "\\", prgnam, "\"", pp, "\"", NULL); tmp1w = get_wstring_from_mbstring(CP_UTF8, (const char *)fullcmd, tmp1w=NULL); *fptr = _wpopen(tmp1w, L"wb"); free(bindir); free(prgnam); free(fullcmd); free(tmp1w); } #else *fptr = popen(cmd, "w"); #endif free(cmd); return (*fptr != 0); } } int dviclose(FILE* fptr) { if (nopdfoutput) { if (fclose(fptr) != 0) return errno; } else { return pclose(fptr); } return 0; } int get_uni_c(UFILE* f) { int rval; int c; #ifdef WIN32 HANDLE hStdin; DWORD ret; wint_t wc[1]; #endif if (f->savedChar != -1) { rval = f->savedChar; f->savedChar = -1; return rval; } switch (f->encodingMode) { case UTF8: c = rval = GETC(f->f); if (rval != EOF) { uint16_t extraBytes = bytesFromUTF8[rval]; switch (extraBytes) { /* note: code falls through cases! */ case 3: c = GETC(f->f); if (c < 0x80 || c >= 0xc0) goto bad_utf8; rval <<= 6; rval += c; case 2: c = GETC(f->f); if (c < 0x80 || c >= 0xc0) goto bad_utf8; rval <<= 6; rval += c; case 1: c = GETC(f->f); if (c < 0x80 || c >= 0xc0) goto bad_utf8; rval <<= 6; rval += c; case 0: break; bad_utf8: if (c != EOF) UNGETC(c, f->f); case 5: case 4: badutf8warning(); return 0xfffd; /* return without adjusting by offsetsFromUTF8 */ }; rval -= offsetsFromUTF8[extraBytes]; if (rval < 0 || rval > 0x10ffff) { badutf8warning(); return 0xfffd; } } break; case UTF16BE: rval = GETC(f->f); if (rval != EOF) { rval <<= 8; rval += GETC(f->f); if (rval >= 0xd800 && rval <= 0xdbff) { int lo = GETC(f->f); lo <<= 8; lo += GETC(f->f); if (lo >= 0xdc00 && lo <= 0xdfff) rval = 0x10000 + (rval - 0xd800) * 0x400 + (lo - 0xdc00); else { rval = 0xfffd; f->savedChar = lo; } } else if (rval >= 0xdc00 && rval <= 0xdfff) rval = 0xfffd; } break; case UTF16LE: rval = GETC(f->f); if (rval != EOF) { rval += (GETC(f->f) << 8); if (rval >= 0xd800 && rval <= 0xdbff) { int lo = GETC(f->f); lo += (GETC(f->f) << 8); if (lo >= 0xdc00 && lo <= 0xdfff) rval = 0x10000 + (rval - 0xd800) * 0x400 + (lo - 0xdc00); else { rval = 0xfffd; f->savedChar = lo; } } else if (rval >= 0xdc00 && rval <= 0xdfff) rval = 0xfffd; } break; #ifdef WIN32 case WIN32CONSOLE: hStdin = GetStdHandle(STD_INPUT_HANDLE); if (ReadConsoleW(hStdin, wc, 1, &ret, NULL) == 0) { rval = EOF; break; } rval = wc[0]; if (rval >= 0xd800 && rval <= 0xdbff) { int lo; if (ReadConsoleW(hStdin, wc, 1, &ret, NULL) == 0) { rval = EOF; break; } lo = wc[0]; if (lo >= 0xdc00 && lo <= 0xdfff) rval = 0x10000 + (rval - 0xd800) * 0x400 + (lo - 0xdc00); else { rval = 0xfffd; f->savedChar = lo; } } else if (rval >= 0xdc00 && rval <= 0xdfff) rval = 0xfffd; break; #endif case RAW: rval = GETC(f->f); break; default: /* this can't happen */ fprintf(stderr, "! Internal error---file input mode=%d.\n", f->encodingMode); uexit(3); } return rval; } void makeutf16name(void) { unsigned char* s = nameoffile + 1; uint32_t rval; uint16_t* t; static int name16len = 0; if (name16len <= namelength) { if (nameoffile16 != 0) free(nameoffile16); name16len = namelength + 10; nameoffile16 = (uint16_t*) xcalloc(name16len, sizeof(uint16_t)); } t = nameoffile16; while (s <= nameoffile + namelength) { uint16_t extraBytes; rval = *(s++); extraBytes = bytesFromUTF8[rval]; switch (extraBytes) { /* note: code falls through cases! */ case 5: rval <<= 6; if (*s) rval += *(s++); case 4: rval <<= 6; if (*s) rval += *(s++); case 3: rval <<= 6; if (*s) rval += *(s++); case 2: rval <<= 6; if (*s) rval += *(s++); case 1: rval <<= 6; if (*s) rval += *(s++); case 0: ; }; rval -= offsetsFromUTF8[extraBytes]; if (rval > 0xffff) { rval -= 0x10000; *(t++) = 0xd800 + rval / 0x0400; *(t++) = 0xdc00 + rval % 0x0400; } else { *(t++) = rval; } } namelength16 = t - nameoffile16; } integer get_native_word_cp(void* pNode, int side) { memoryword* node = (memoryword*)pNode; FixedPoint* locations = (FixedPoint*)native_glyph_info_ptr(node); uint16_t* glyphIDs = (uint16_t*)(locations + native_glyph_count(node)); uint16_t glyphCount = native_glyph_count(node); integer f = native_font(node); uint16_t actual_glyph; if (glyphCount == 0) return 0; switch (side) { case LEFT_SIDE: actual_glyph = *glyphIDs; break; case RIGHT_SIDE: actual_glyph = glyphIDs[glyphCount - 1]; break; default: assert(0); // we should not reach this point } return get_cp_code(f, actual_glyph, side); }