// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * * Copyright (C) 1999-2015, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* * file name: PortableFontInstance.cpp * * created on: 11/22/1999 * created by: Eric R. Mader */ #include #include "layout/LETypes.h" #include "layout/LEFontInstance.h" #include "layout/LESwaps.h" #include "PortableFontInstance.h" //#include "letest.h" #include "sfnt.h" #include #include #if 0 static const char *letagToStr(LETag tag, char *str) { str[0]= 0xFF & (tag>>24); str[1]= 0xFF & (tag>>16); str[2]= 0xFF & (tag>>8); str[3]= 0xFF & (tag>>0); str[4]= 0; return str; } #endif // // Finds the high bit by binary searching // through the bits in n. // le_int8 PortableFontInstance::highBit(le_int32 value) { if (value <= 0) { return -32; } le_uint8 bit = 0; if (value >= 1 << 16) { value >>= 16; bit += 16; } if (value >= 1 << 8) { value >>= 8; bit += 8; } if (value >= 1 << 4) { value >>= 4; bit += 4; } if (value >= 1 << 2) { value >>= 2; bit += 2; } if (value >= 1 << 1) { value >>= 1; bit += 1; } return bit; } PortableFontInstance::PortableFontInstance(const char *fileName, float pointSize, LEErrorCode &status) : fFile(NULL), fPointSize(pointSize), fUnitsPerEM(0), fFontChecksum(0), fAscent(0), fDescent(0), fLeading(0), fDirectory(NULL), fNAMETable(NULL), fNameCount(0), fNameStringOffset(0), fCMAPMapper(NULL), fHMTXTable(NULL), fNumGlyphs(0), fNumLongHorMetrics(0) { if (LE_FAILURE(status)) { return; } // open the font file fFile = fopen(fileName, "rb"); //printf("Open Font: %s\n", fileName); if (fFile == NULL) { printf("%s:%d: %s: FNF\n", __FILE__, __LINE__, fileName); status = LE_FONT_FILE_NOT_FOUND_ERROR; return; } // read in the directory SFNTDirectory tempDir; size_t numRead = fread(&tempDir, sizeof tempDir, 1, fFile); (void)numRead; le_int32 dirSize = sizeof tempDir + ((SWAPW(tempDir.numTables) - ANY_NUMBER) * sizeof(DirectoryEntry)); const LETag headTag = LE_HEAD_TABLE_TAG; const LETag hheaTag = LE_HHEA_TABLE_TAG; const HEADTable *headTable = NULL; const HHEATable *hheaTable = NULL; // const NAMETable *nameTable = NULL; le_uint16 numTables = 0; fDirectory = (const SFNTDirectory *) LE_NEW_ARRAY(char, dirSize); if (fDirectory == NULL) { printf("%s:%d: %s: malloc err\n", __FILE__, __LINE__, fileName); status = LE_MEMORY_ALLOCATION_ERROR; goto error_exit; } fseek(fFile, 0L, SEEK_SET); numRead = fread((void *) fDirectory, sizeof(char), dirSize, fFile); // // We calculate these numbers 'cause some fonts // have bogus values for them in the directory header. // numTables = SWAPW(fDirectory->numTables); fDirPower = 1 << highBit(numTables); fDirExtra = numTables - fDirPower; // read unitsPerEm from 'head' table headTable = (const HEADTable *) readFontTable(headTag); if (headTable == NULL) { status = LE_MISSING_FONT_TABLE_ERROR; printf("%s:%d: %s: missing head table\n", __FILE__, __LINE__, fileName); goto error_exit; } fUnitsPerEM = SWAPW(headTable->unitsPerEm); fFontChecksum = SWAPL(headTable->checksumAdjustment); freeFontTable(headTable); //nameTable = (NAMETable *) readFontTable(nameTag); //if (nameTable == NULL) { // status = LE_MISSING_FONT_TABLE_ERROR; // goto error_exit; //} //fFontVersionString = findName(nameTable, NAME_VERSION_STRING, PLATFORM_MACINTOSH, MACINTOSH_ROMAN, MACINTOSH_ENGLISH); //if (fFontVersionString == NULL) { // status = LE_MISSING_FONT_TABLE_ERROR; // goto error_exit; //} //freeFontTable(nameTable); hheaTable = (HHEATable *) readFontTable(hheaTag); if (hheaTable == NULL) { printf("%s:%d: %s: missing hhea table\n", __FILE__, __LINE__, fileName); status = LE_MISSING_FONT_TABLE_ERROR; goto error_exit; } fAscent = (le_int32) yUnitsToPoints((float) SWAPW(hheaTable->ascent)); fDescent = (le_int32) yUnitsToPoints((float) SWAPW(hheaTable->descent)); fLeading = (le_int32) yUnitsToPoints((float) SWAPW(hheaTable->lineGap)); fNumLongHorMetrics = SWAPW(hheaTable->numOfLongHorMetrics); freeFontTable((void *) hheaTable); fCMAPMapper = findUnicodeMapper(); if (fCMAPMapper == NULL) { printf("%s:%d: %s: can't load cmap\n", __FILE__, __LINE__, fileName); status = LE_MISSING_FONT_TABLE_ERROR; goto error_exit; } return; error_exit: fclose(fFile); fFile = NULL; return; } PortableFontInstance::~PortableFontInstance() { if (fFile != NULL) { fclose(fFile); freeFontTable(fHMTXTable); freeFontTable(fNAMETable); delete fCMAPMapper; LE_DELETE_ARRAY(fDirectory); } } const DirectoryEntry *PortableFontInstance::findTable(LETag tag) const { if (fDirectory != NULL) { le_uint16 table = 0; le_uint16 probe = fDirPower; if (SWAPL(fDirectory->tableDirectory[fDirExtra].tag) <= tag) { table = fDirExtra; } while (probe > (1 << 0)) { probe >>= 1; if (SWAPL(fDirectory->tableDirectory[table + probe].tag) <= tag) { table += probe; } } if (SWAPL(fDirectory->tableDirectory[table].tag) == tag) { return &fDirectory->tableDirectory[table]; } } return NULL; } const void *PortableFontInstance::readTable(LETag tag, le_uint32 *length) const { const DirectoryEntry *entry = findTable(tag); if (entry == NULL) { *length = 0; return NULL; } *length = SWAPL(entry->length); void *table = LE_NEW_ARRAY(char, *length); if (table != NULL) { fseek(fFile, SWAPL(entry->offset), SEEK_SET); size_t numRead = fread(table, sizeof(char), *length, fFile); (void)numRead; } return table; } const void *PortableFontInstance::getFontTable(LETag tableTag, size_t &length) const { return FontTableCache::find(tableTag, length); } const void *PortableFontInstance::readFontTable(LETag tableTag, size_t &length) const { le_uint32 len; const void *data= readTable(tableTag, &len); length = len; //char tag5[5]; //printf("Read %s, result %p #%d\n", letagToStr(tableTag,tag5), data,len); return data; } CMAPMapper *PortableFontInstance::findUnicodeMapper() { LETag cmapTag = LE_CMAP_TABLE_TAG; const CMAPTable *cmap = (CMAPTable *) readFontTable(cmapTag); if (cmap == NULL) { return NULL; } return CMAPMapper::createUnicodeMapper(cmap); } const char *PortableFontInstance::getNameString(le_uint16 nameID, le_uint16 platformID, le_uint16 encodingID, le_uint16 languageID) const { if (fNAMETable == NULL) { LETag nameTag = LE_NAME_TABLE_TAG; PortableFontInstance *realThis = (PortableFontInstance *) this; realThis->fNAMETable = (const NAMETable *) readFontTable(nameTag); if (realThis->fNAMETable != NULL) { realThis->fNameCount = SWAPW(realThis->fNAMETable->count); realThis->fNameStringOffset = SWAPW(realThis->fNAMETable->stringOffset); } } for(le_int32 i = 0; i < fNameCount; i += 1) { const NameRecord *nameRecord = &fNAMETable->nameRecords[i]; if (SWAPW(nameRecord->platformID) == platformID && SWAPW(nameRecord->encodingID) == encodingID && SWAPW(nameRecord->languageID) == languageID && SWAPW(nameRecord->nameID) == nameID) { char *name = ((char *) fNAMETable) + fNameStringOffset + SWAPW(nameRecord->offset); le_uint16 length = SWAPW(nameRecord->length); char *result = LE_NEW_ARRAY(char, length + 2); LE_ARRAY_COPY(result, name, length); result[length] = result[length + 1] = 0; return result; } } return NULL; } const LEUnicode16 *PortableFontInstance::getUnicodeNameString(le_uint16 nameID, le_uint16 platformID, le_uint16 encodingID, le_uint16 languageID) const { if (fNAMETable == NULL) { LETag nameTag = LE_NAME_TABLE_TAG; PortableFontInstance *realThis = (PortableFontInstance *) this; realThis->fNAMETable = (const NAMETable *) readFontTable(nameTag); if (realThis->fNAMETable != NULL) { realThis->fNameCount = SWAPW(realThis->fNAMETable->count); realThis->fNameStringOffset = SWAPW(realThis->fNAMETable->stringOffset); } } for(le_int32 i = 0; i < fNameCount; i += 1) { const NameRecord *nameRecord = &fNAMETable->nameRecords[i]; if (SWAPW(nameRecord->platformID) == platformID && SWAPW(nameRecord->encodingID) == encodingID && SWAPW(nameRecord->languageID) == languageID && SWAPW(nameRecord->nameID) == nameID) { LEUnicode16 *name = (LEUnicode16 *) (((char *) fNAMETable) + fNameStringOffset + SWAPW(nameRecord->offset)); le_uint16 length = SWAPW(nameRecord->length) / 2; LEUnicode16 *result = LE_NEW_ARRAY(LEUnicode16, length + 2); for (le_int32 c = 0; c < length; c += 1) { result[c] = SWAPW(name[c]); } result[length] = 0; return result; } } return NULL; } void PortableFontInstance::deleteNameString(const char *name) const { LE_DELETE_ARRAY(name); } void PortableFontInstance::deleteNameString(const LEUnicode16 *name) const { LE_DELETE_ARRAY(name); } void PortableFontInstance::getGlyphAdvance(LEGlyphID glyph, LEPoint &advance) const { TTGlyphID ttGlyph = (TTGlyphID) LE_GET_GLYPH(glyph); if (fHMTXTable == NULL) { LETag maxpTag = LE_MAXP_TABLE_TAG; LETag hmtxTag = LE_HMTX_TABLE_TAG; const MAXPTable *maxpTable = (MAXPTable *) readFontTable(maxpTag); PortableFontInstance *realThis = (PortableFontInstance *) this; if (maxpTable != NULL) { realThis->fNumGlyphs = SWAPW(maxpTable->numGlyphs); freeFontTable(maxpTable); } realThis->fHMTXTable = (const HMTXTable *) readFontTable(hmtxTag); } le_uint16 index = ttGlyph; if (ttGlyph >= fNumGlyphs || fHMTXTable == NULL) { advance.fX = advance.fY = 0; return; } if (ttGlyph >= fNumLongHorMetrics) { index = fNumLongHorMetrics - 1; } advance.fX = xUnitsToPoints(SWAPW(fHMTXTable->hMetrics[index].advanceWidth)); advance.fY = 0; } le_bool PortableFontInstance::getGlyphPoint(LEGlyphID /*glyph*/, le_int32 /*pointNumber*/, LEPoint &/*point*/) const { return FALSE; } le_int32 PortableFontInstance::getUnitsPerEM() const { return fUnitsPerEM; } le_uint32 PortableFontInstance::getFontChecksum() const { return fFontChecksum; } le_uint32 PortableFontInstance::getRawChecksum() const { // how big is it? // fseek(fFile, 0L, SEEK_END); // long size = ftell(fFile); le_int32 chksum = 0; // now, calculate fseek(fFile, 0L, SEEK_SET); int r; int count =0; while((r = fgetc(fFile)) != EOF) { chksum += r; count ++; } return (le_uint32) chksum; // cast to signed } le_int32 PortableFontInstance::getAscent() const { return fAscent; } le_int32 PortableFontInstance::getDescent() const { return fDescent; } le_int32 PortableFontInstance::getLeading() const { return fLeading; } // We really want to inherit this method from the superclass, but some compilers // issue a warning if we don't implement it... LEGlyphID PortableFontInstance::mapCharToGlyph(LEUnicode32 ch, const LECharMapper *mapper, le_bool filterZeroWidth) const { return LEFontInstance::mapCharToGlyph(ch, mapper, filterZeroWidth); } // We really want to inherit this method from the superclass, but some compilers // issue a warning if we don't implement it... LEGlyphID PortableFontInstance::mapCharToGlyph(LEUnicode32 ch, const LECharMapper *mapper) const { return LEFontInstance::mapCharToGlyph(ch, mapper); } LEGlyphID PortableFontInstance::mapCharToGlyph(LEUnicode32 ch) const { return fCMAPMapper->unicodeToGlyph(ch); } float PortableFontInstance::getXPixelsPerEm() const { return fPointSize; } float PortableFontInstance::getYPixelsPerEm() const { return fPointSize; } float PortableFontInstance::getScaleFactorX() const { return 1.0; } float PortableFontInstance::getScaleFactorY() const { return 1.0; }