/* * Copyright 2011 Google Inc. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "subsetter_impl.h" #include <string.h> #include <algorithm> #include <iterator> #include <map> #include <set> #include <unicode/unistr.h> #include "sfntly/table/bitmap/eblc_table.h" #include "sfntly/table/bitmap/ebdt_table.h" #include "sfntly/table/bitmap/index_sub_table.h" #include "sfntly/table/bitmap/index_sub_table_format1.h" #include "sfntly/table/bitmap/index_sub_table_format2.h" #include "sfntly/table/bitmap/index_sub_table_format3.h" #include "sfntly/table/bitmap/index_sub_table_format4.h" #include "sfntly/table/bitmap/index_sub_table_format5.h" #include "sfntly/table/core/name_table.h" #include "sfntly/tag.h" #include "sfntly/data/memory_byte_array.h" #include "sfntly/port/memory_input_stream.h" #include "sfntly/port/memory_output_stream.h" #if defined U_USING_ICU_NAMESPACE U_NAMESPACE_USE #endif namespace { using namespace sfntly; // The bitmap tables must be greater than 16KB to trigger bitmap subsetter. static const int BITMAP_SIZE_THRESHOLD = 16384; void ConstructName(UChar* name_part, UnicodeString* name, int32_t name_id) { switch (name_id) { case NameId::kFullFontName: *name = name_part; break; case NameId::kFontFamilyName: case NameId::kPreferredFamily: case NameId::kWWSFamilyName: { UnicodeString original = *name; *name = name_part; *name += original; break; } case NameId::kFontSubfamilyName: case NameId::kPreferredSubfamily: case NameId::kWWSSubfamilyName: *name += name_part; break; default: // This name part is not used to construct font name (e.g. copyright). // Simply ignore it. break; } } int32_t HashCode(int32_t platform_id, int32_t encoding_id, int32_t language_id, int32_t name_id) { int32_t result = platform_id << 24 | encoding_id << 16 | language_id << 8; if (name_id == NameId::kFullFontName) { result |= 0xff; } else if (name_id == NameId::kPreferredFamily || name_id == NameId::kPreferredSubfamily) { result |= 0xf; } else if (name_id == NameId::kWWSFamilyName || name_id == NameId::kWWSSubfamilyName) { result |= 1; } return result; } bool HasName(const char* font_name, Font* font) { UnicodeString font_string = UnicodeString::fromUTF8(font_name); if (font_string.isEmpty()) return false; UnicodeString regular_suffix = UnicodeString::fromUTF8(" Regular"); UnicodeString alt_font_string = font_string; alt_font_string += regular_suffix; typedef std::map<int32_t, UnicodeString> NameMap; NameMap names; NameTablePtr name_table = down_cast<NameTable*>(font->GetTable(Tag::name)); if (name_table == NULL) { return false; } for (int32_t i = 0; i < name_table->NameCount(); ++i) { switch (name_table->NameId(i)) { case NameId::kFontFamilyName: case NameId::kFontSubfamilyName: case NameId::kFullFontName: case NameId::kPreferredFamily: case NameId::kPreferredSubfamily: case NameId::kWWSFamilyName: case NameId::kWWSSubfamilyName: { UChar* name_part = name_table->Name(i); if (name_part == NULL) { continue; } int32_t hash_code = HashCode(name_table->PlatformId(i), name_table->EncodingId(i), name_table->LanguageId(i), name_table->NameId(i)); ConstructName(name_part, &(names[hash_code]), name_table->NameId(i)); delete[] name_part; break; } default: break; } } if (!names.empty()) { for (NameMap::iterator i = names.begin(), e = names.end(); i != e; ++i) { if (i->second.caseCompare(font_string, 0) == 0 || i->second.caseCompare(alt_font_string, 0) == 0) { return true; } } } return false; } Font* FindFont(const char* font_name, const FontArray& font_array) { if (font_array.empty() || font_array[0] == NULL) { return NULL; } if (font_name && strlen(font_name)) { for (FontArray::const_iterator i = font_array.begin(), e = font_array.end(); i != e; ++i) { if (HasName(font_name, i->p_)) { return i->p_; } } } return font_array[0].p_; } bool ResolveCompositeGlyphs(GlyphTable* glyph_table, LocaTable* loca_table, const unsigned int* glyph_ids, size_t glyph_count, IntegerSet* glyph_id_processed) { if (glyph_table == NULL || loca_table == NULL || glyph_ids == NULL || glyph_count == 0 || glyph_id_processed == NULL) { return false; } // Sort and uniquify glyph ids. IntegerSet glyph_id_remaining; glyph_id_remaining.insert(0); // Always include glyph id 0. for (size_t i = 0; i < glyph_count; ++i) { glyph_id_remaining.insert(glyph_ids[i]); } // Identify if any given glyph id maps to a composite glyph. If so, include // the glyphs referenced by that composite glyph. while (!glyph_id_remaining.empty()) { IntegerSet comp_glyph_id; for (IntegerSet::iterator i = glyph_id_remaining.begin(), e = glyph_id_remaining.end(); i != e; ++i) { if (*i < 0 || *i >= loca_table->num_glyphs()) { // Invalid glyph id, ignore. continue; } int32_t length = loca_table->GlyphLength(*i); if (length == 0) { // Empty glyph, ignore. continue; } int32_t offset = loca_table->GlyphOffset(*i); GlyphPtr glyph; glyph.Attach(glyph_table->GetGlyph(offset, length)); if (glyph == NULL) { // Error finding glyph, ignore. continue; } if (glyph->GlyphType() == GlyphType::kComposite) { Ptr<GlyphTable::CompositeGlyph> comp_glyph = down_cast<GlyphTable::CompositeGlyph*>(glyph.p_); for (int32_t j = 0; j < comp_glyph->NumGlyphs(); ++j) { int32_t glyph_id = comp_glyph->GlyphIndex(j); if (glyph_id_processed->find(glyph_id) == glyph_id_processed->end() && glyph_id_remaining.find(glyph_id) == glyph_id_remaining.end()) { comp_glyph_id.insert(comp_glyph->GlyphIndex(j)); } } } glyph_id_processed->insert(*i); } glyph_id_remaining.clear(); glyph_id_remaining = comp_glyph_id; } return true; } bool SetupGlyfBuilders(Font::Builder* font_builder, GlyphTable* glyph_table, LocaTable* loca_table, const IntegerSet& glyph_ids) { if (!font_builder || !glyph_table || !loca_table) { return false; } GlyphTableBuilderPtr glyph_table_builder = down_cast<GlyphTable::Builder*>(font_builder->NewTableBuilder(Tag::glyf)); LocaTableBuilderPtr loca_table_builder = down_cast<LocaTable::Builder*>(font_builder->NewTableBuilder(Tag::loca)); if (glyph_table_builder == NULL || loca_table_builder == NULL) { // Out of memory. return false; } // Extract glyphs and setup loca list. IntegerList loca_list; loca_list.resize(loca_table->num_glyphs()); loca_list.push_back(0); int32_t last_glyph_id = 0; int32_t last_offset = 0; GlyphTable::GlyphBuilderList* glyph_builders = glyph_table_builder->GlyphBuilders(); for (IntegerSet::const_iterator i = glyph_ids.begin(), e = glyph_ids.end(); i != e; ++i) { int32_t length = loca_table->GlyphLength(*i); int32_t offset = loca_table->GlyphOffset(*i); GlyphPtr glyph; glyph.Attach(glyph_table->GetGlyph(offset, length)); // Add glyph to new glyf table. ReadableFontDataPtr data = glyph->ReadFontData(); WritableFontDataPtr copy_data; copy_data.Attach(WritableFontData::CreateWritableFontData(data->Length())); data->CopyTo(copy_data); GlyphBuilderPtr glyph_builder; glyph_builder.Attach(glyph_table_builder->GlyphBuilder(copy_data)); glyph_builders->push_back(glyph_builder); // Configure loca list. for (int32_t j = last_glyph_id + 1; j <= *i; ++j) { loca_list[j] = last_offset; } last_offset += length; loca_list[*i + 1] = last_offset; last_glyph_id = *i; } for (int32_t j = last_glyph_id + 1; j <= loca_table->num_glyphs(); ++j) { loca_list[j] = last_offset; } loca_table_builder->SetLocaList(&loca_list); return true; } bool HasOverlap(int32_t range_begin, int32_t range_end, const IntegerSet& glyph_ids) { if (range_begin == range_end) { return glyph_ids.find(range_begin) != glyph_ids.end(); } else if (range_end > range_begin) { IntegerSet::const_iterator left = glyph_ids.lower_bound(range_begin); IntegerSet::const_iterator right = glyph_ids.lower_bound(range_end); return right != left; } return false; } // Initialize builder, returns false if glyph_id subset is not covered. // Not thread-safe, caller to ensure object life-time. bool InitializeBitmapBuilder(EbdtTable::Builder* ebdt, EblcTable::Builder* eblc, const IntegerSet& glyph_ids) { BitmapLocaList loca_list; BitmapSizeTableBuilderList* strikes = eblc->BitmapSizeBuilders(); // Note: Do not call eblc_builder->GenerateLocaList(&loca_list) and then // ebdt_builder->SetLoca(loca_list). For fonts like SimSun, there are // >28K glyphs inside, where a typical usage will be <1K glyphs. Doing // the calls improperly will result in creation of >100K objects that // will be destroyed immediately, inducing significant slowness. IntegerList removed_strikes; for (size_t i = 0; i < strikes->size(); i++) { if (!HasOverlap((*strikes)[i]->StartGlyphIndex(), (*strikes)[i]->EndGlyphIndex(), glyph_ids)) { removed_strikes.push_back(i); continue; } IndexSubTableBuilderList* index_builders = (*strikes)[i]->IndexSubTableBuilders(); IntegerList removed_indexes; BitmapGlyphInfoMap info_map; for (size_t j = 0; j < index_builders->size(); ++j) { if ((*index_builders)[j] == NULL) { // Subtable is malformed, let's just skip it. removed_indexes.push_back(j); continue; } int32_t first_glyph_id = (*index_builders)[j]->first_glyph_index(); int32_t last_glyph_id = (*index_builders)[j]->last_glyph_index(); if (!HasOverlap(first_glyph_id, last_glyph_id, glyph_ids)) { removed_indexes.push_back(j); continue; } for (IntegerSet::const_iterator gid = glyph_ids.begin(), gid_end = glyph_ids.end(); gid != gid_end; gid++) { if (*gid < first_glyph_id) { continue; } if (*gid > last_glyph_id) { break; } BitmapGlyphInfoPtr info; info.Attach((*index_builders)[j]->GlyphInfo(*gid)); if (info && info->length()) { // Do not include gid without bitmap info_map[*gid] = info; } } } if (!info_map.empty()) { loca_list.push_back(info_map); } else { removed_strikes.push_back(i); // Detected null entries. } // Remove unused index sub tables for (IntegerList::reverse_iterator j = removed_indexes.rbegin(), e = removed_indexes.rend(); j != e; j++) { index_builders->erase(index_builders->begin() + *j); } } if (removed_strikes.size() == strikes->size() || loca_list.empty()) { return false; } for (IntegerList::reverse_iterator i = removed_strikes.rbegin(), e = removed_strikes.rend(); i != e; i++) { strikes->erase(strikes->begin() + *i); } if (strikes->empty()) { // no glyph covered, can safely drop the builders. return false; } ebdt->SetLoca(&loca_list); ebdt->GlyphBuilders(); // Initialize the builder. return true; } void CopyBigGlyphMetrics(BigGlyphMetrics::Builder* source, BigGlyphMetrics::Builder* target) { target->SetHeight(static_cast<byte_t>(source->Height())); target->SetWidth(static_cast<byte_t>(source->Width())); target->SetHoriBearingX(static_cast<byte_t>(source->HoriBearingX())); target->SetHoriBearingY(static_cast<byte_t>(source->HoriBearingY())); target->SetHoriAdvance(static_cast<byte_t>(source->HoriAdvance())); target->SetVertBearingX(static_cast<byte_t>(source->VertBearingX())); target->SetVertBearingY(static_cast<byte_t>(source->VertBearingY())); target->SetVertAdvance(static_cast<byte_t>(source->VertAdvance())); } CALLER_ATTACH IndexSubTable::Builder* ConstructIndexFormat4(IndexSubTable::Builder* b, const BitmapGlyphInfoMap& loca, int32_t* image_data_offset) { IndexSubTableFormat4BuilderPtr builder4; builder4.Attach(IndexSubTableFormat4::Builder::CreateBuilder()); CodeOffsetPairBuilderList offset_pairs; size_t offset = 0; int32_t lower_bound = b->first_glyph_index(); int32_t upper_bound = b->last_glyph_index(); int32_t last_gid = -1; BitmapGlyphInfoMap::const_iterator i = loca.lower_bound(lower_bound); BitmapGlyphInfoMap::const_iterator end = loca.end(); if (i != end) { last_gid = i->first; builder4->set_first_glyph_index(last_gid); builder4->set_image_format(b->image_format()); builder4->set_image_data_offset(*image_data_offset); } for (; i != end; i++) { int32_t gid = i->first; if (gid > upper_bound) { break; } offset_pairs.push_back( IndexSubTableFormat4::CodeOffsetPairBuilder(gid, offset)); offset += i->second->length(); last_gid = gid; } offset_pairs.push_back( IndexSubTableFormat4::CodeOffsetPairBuilder(-1, offset)); builder4->set_last_glyph_index(last_gid); *image_data_offset += offset; builder4->SetOffsetArray(offset_pairs); return builder4.Detach(); } CALLER_ATTACH IndexSubTable::Builder* ConstructIndexFormat5(IndexSubTable::Builder* b, const BitmapGlyphInfoMap& loca, int32_t* image_data_offset) { IndexSubTableFormat5BuilderPtr new_builder; new_builder.Attach(IndexSubTableFormat5::Builder::CreateBuilder()); // Copy BigMetrics int32_t image_size = 0; if (b->index_format() == IndexSubTable::Format::FORMAT_2) { IndexSubTableFormat2BuilderPtr builder2 = down_cast<IndexSubTableFormat2::Builder*>(b); CopyBigGlyphMetrics(builder2->BigMetrics(), new_builder->BigMetrics()); image_size = builder2->ImageSize(); } else { IndexSubTableFormat5BuilderPtr builder5 = down_cast<IndexSubTableFormat5::Builder*>(b); BigGlyphMetricsBuilderPtr metrics_builder; CopyBigGlyphMetrics(builder5->BigMetrics(), new_builder->BigMetrics()); image_size = builder5->ImageSize(); } IntegerList* glyph_array = new_builder->GlyphArray(); size_t offset = 0; int32_t lower_bound = b->first_glyph_index(); int32_t upper_bound = b->last_glyph_index(); int32_t last_gid = -1; BitmapGlyphInfoMap::const_iterator i = loca.lower_bound(lower_bound); BitmapGlyphInfoMap::const_iterator end = loca.end(); if (i != end) { last_gid = i->first; new_builder->set_first_glyph_index(last_gid); new_builder->set_image_format(b->image_format()); new_builder->set_image_data_offset(*image_data_offset); new_builder->SetImageSize(image_size); } for (; i != end; i++) { int32_t gid = i->first; if (gid > upper_bound) { break; } glyph_array->push_back(gid); offset += i->second->length(); last_gid = gid; } new_builder->set_last_glyph_index(last_gid); *image_data_offset += offset; return new_builder.Detach(); } CALLER_ATTACH IndexSubTable::Builder* SubsetIndexSubTable(IndexSubTable::Builder* builder, const BitmapGlyphInfoMap& loca, int32_t* image_data_offset) { switch (builder->index_format()) { case IndexSubTable::Format::FORMAT_1: case IndexSubTable::Format::FORMAT_3: case IndexSubTable::Format::FORMAT_4: return ConstructIndexFormat4(builder, loca, image_data_offset); case IndexSubTable::Format::FORMAT_2: case IndexSubTable::Format::FORMAT_5: return ConstructIndexFormat5(builder, loca, image_data_offset); default: assert(false); break; } return NULL; } } namespace sfntly { // Not thread-safe, caller to ensure object life-time. void SubsetEBLC(EblcTable::Builder* eblc, const BitmapLocaList& new_loca) { BitmapSizeTableBuilderList* size_builders = eblc->BitmapSizeBuilders(); if (size_builders == NULL) { return; } int32_t image_data_offset = EbdtTable::Offset::kHeaderLength; for (size_t strike = 0; strike < size_builders->size(); ++strike) { IndexSubTableBuilderList* index_builders = (*size_builders)[strike]->IndexSubTableBuilders(); for (size_t index = 0; index < index_builders->size(); ++index) { IndexSubTable::Builder* new_builder_raw = SubsetIndexSubTable((*index_builders)[index], new_loca[strike], &image_data_offset); if (NULL != new_builder_raw) { (*index_builders)[index].Attach(new_builder_raw); } } } } // EBLC structure (from stuartg) // header // bitmapSizeTable[] // one per strike // holds strike metrics - sbitLineMetrics // holds info about indexSubTableArray // indexSubTableArray[][] // one per strike and then one per indexSubTable for that strike // holds info about the indexSubTable // the indexSubTable entries pointed to can be of different formats // indexSubTable // one per indexSubTableArray entry // tells how to get the glyphs // may hold the glyph metrics if they are uniform for all the glyphs in range // Please note that the structure can also be // {indexSubTableArray[], indexSubTables[]}[] // This way is also legal and in fact how Microsoft fonts are laid out. // // There is nothing that says that the indexSubTableArray entries and/or the // indexSubTable items need to be unique. They may be shared between strikes. // // EBDT structure: // header // glyphs // amorphous blob of data // different glyphs that are only able to be figured out from the EBLC table // may hold metrics - depends on the EBLC entry that pointed to them // Subsetting EBLC table (from arthurhsu) // Most pages use only a fraction (hundreds or less) glyphs out of a given font // (which can have >20K glyphs for CJK). It's safe to assume that the subset // font will have sparse bitmap glyphs. So we reconstruct the EBLC table as // format 4 or 5 here. enum BuildersToRemove { kRemoveNone, kRemoveBDAT, kRemoveBDATAndEBDT, kRemoveEBDT }; int SetupBitmapBuilders(Font* font, Font::Builder* font_builder, const IntegerSet& glyph_ids) { if (!font || !font_builder) { return false; } // Check if bitmap table exists. EbdtTablePtr ebdt_table = down_cast<EbdtTable*>(font->GetTable(Tag::EBDT)); EblcTablePtr eblc_table = down_cast<EblcTable*>(font->GetTable(Tag::EBLC)); bool use_ebdt = (ebdt_table != NULL && eblc_table != NULL); if (!use_ebdt) { ebdt_table = down_cast<EbdtTable*>(font->GetTable(Tag::bdat)); eblc_table = down_cast<EblcTable*>(font->GetTable(Tag::bloc)); if (ebdt_table == NULL || eblc_table == NULL) { return kRemoveNone; } } // If the bitmap table's size is too small, skip subsetting. if (ebdt_table->DataLength() + eblc_table->DataLength() < BITMAP_SIZE_THRESHOLD) { return use_ebdt ? kRemoveBDAT : kRemoveNone; } // Get the builders. EbdtTableBuilderPtr ebdt_table_builder = down_cast<EbdtTable::Builder*>( font_builder->NewTableBuilder(use_ebdt ? Tag::EBDT : Tag::bdat, ebdt_table->ReadFontData())); EblcTableBuilderPtr eblc_table_builder = down_cast<EblcTable::Builder*>( font_builder->NewTableBuilder(use_ebdt ? Tag::EBLC : Tag::bloc, eblc_table->ReadFontData())); if (ebdt_table_builder == NULL || eblc_table_builder == NULL) { // Out of memory. return use_ebdt ? kRemoveBDAT : kRemoveNone; } if (!InitializeBitmapBuilder(ebdt_table_builder, eblc_table_builder, glyph_ids)) { // Bitmap tables do not cover the glyphs in our subset. font_builder->RemoveTableBuilder(use_ebdt ? Tag::EBLC : Tag::bloc); font_builder->RemoveTableBuilder(use_ebdt ? Tag::EBDT : Tag::bdat); return use_ebdt ? kRemoveBDATAndEBDT : kRemoveEBDT; } BitmapLocaList new_loca; ebdt_table_builder->GenerateLocaList(&new_loca); SubsetEBLC(eblc_table_builder, new_loca); return use_ebdt ? kRemoveBDAT : kRemoveNone; } SubsetterImpl::SubsetterImpl() { } SubsetterImpl::~SubsetterImpl() { } bool SubsetterImpl::LoadFont(int font_index, const unsigned char* original_font, size_t font_size) { MemoryInputStream mis; mis.Attach(original_font, font_size); if (factory_ == NULL) { factory_.Attach(FontFactory::GetInstance()); } FontArray font_array; factory_->LoadFonts(&mis, &font_array); if (font_index < 0 || (size_t)font_index >= font_array.size()) { return false; } font_ = font_array[font_index].p_; return font_ != NULL; } bool SubsetterImpl::LoadFont(const char* font_name, const unsigned char* original_font, size_t font_size) { MemoryInputStream mis; mis.Attach(original_font, font_size); if (factory_ == NULL) { factory_.Attach(FontFactory::GetInstance()); } FontArray font_array; factory_->LoadFonts(&mis, &font_array); font_ = FindFont(font_name, font_array); if (font_ == NULL) { return false; } return true; } int SubsetterImpl::SubsetFont(const unsigned int* glyph_ids, size_t glyph_count, unsigned char** output_buffer) { if (factory_ == NULL || font_ == NULL) { return -1; } // Find glyf and loca table. GlyphTablePtr glyph_table = down_cast<GlyphTable*>(font_->GetTable(Tag::glyf)); LocaTablePtr loca_table = down_cast<LocaTable*>(font_->GetTable(Tag::loca)); if (glyph_table == NULL || loca_table == NULL) { // We are not able to subset the font. return 0; } IntegerSet glyph_id_processed; if (!ResolveCompositeGlyphs(glyph_table, loca_table, glyph_ids, glyph_count, &glyph_id_processed) || glyph_id_processed.empty()) { return 0; } FontPtr new_font; new_font.Attach(Subset(glyph_id_processed, glyph_table, loca_table)); if (new_font == NULL) { return 0; } MemoryOutputStream output_stream; factory_->SerializeFont(new_font, &output_stream); int length = static_cast<int>(output_stream.Size()); if (length > 0) { *output_buffer = new unsigned char[length]; memcpy(*output_buffer, output_stream.Get(), length); } return length; } // Long comments regarding TTF tables and PDF (from stuartg) // // According to PDF spec 1.4 (section 5.8), the following tables must be // present: // head, hhea, loca, maxp, cvt, prep, glyf, hmtx, fpgm // cmap if font is used with a simple font dict and not a CIDFont dict // // Other tables we need to keep for PDF rendering to support zoom in/out: // bdat, bloc, ebdt, eblc, ebsc, gasp // // Special table: // CFF - if you have this table then you shouldn't have a glyf table and this // is the table with all the glyphs. Shall skip subsetting completely // since sfntly is not capable of subsetting it for now. // post - extra info here for printing on PostScript printers but maybe not // enough to outweigh the space taken by the names // // Tables to break apart: // name - could throw away all but one language and one platform strings/ might // throw away some of the name entries // cmap - could strip out non-needed cmap subtables // - format 4 subtable can be subsetted as well using sfntly // // Graphite tables: // silf, glat, gloc, feat - should be okay to strip out // // Tables that can be discarded: // OS/2 - everything here is for layout and description of the font that is // elsewhere (some in the PDF objects) // BASE, GDEF, GSUB, GPOS, JSTF - all used for layout // kern - old style layout // DSIG - this will be invalid after subsetting // hdmx - layout // PCLT - metadata that's not needed // vmtx - layout // vhea - layout // VDMX // VORG - not used by TT/OT - used by CFF // hsty - would be surprised to see one of these - used on the Newton // AAT tables - mort, morx, feat, acnt, bsin, just, lcar, fdsc, fmtx, prop, // Zapf, opbd, trak, fvar, gvar, avar, cvar // - these are all layout tables and once layout happens are not // needed anymore // LTSH - layout CALLER_ATTACH Font* SubsetterImpl::Subset(const IntegerSet& glyph_ids, GlyphTable* glyf, LocaTable* loca) { // The const is initialized here to workaround VC bug of rendering all Tag::* // as 0. These tags represents the TTF tables that we will embed in subset // font. const int32_t TABLES_IN_SUBSET[] = { Tag::head, Tag::hhea, Tag::loca, Tag::maxp, Tag::cvt, Tag::prep, Tag::glyf, Tag::hmtx, Tag::fpgm, Tag::EBDT, Tag::EBLC, Tag::EBSC, Tag::bdat, Tag::bloc, Tag::bhed, Tag::cmap, // Keep here for future tagged PDF development. Tag::name, // Keep here due to legal concerns: copyright info inside. }; // Setup font builders we need. FontBuilderPtr font_builder; font_builder.Attach(factory_->NewFontBuilder()); IntegerSet remove_tags; if (SetupGlyfBuilders(font_builder, glyf, loca, glyph_ids)) { remove_tags.insert(Tag::glyf); remove_tags.insert(Tag::loca); } // For old Apple bitmap fonts, they have only bdats and bhed is identical // to head. As a result, we can't remove bdat tables for those fonts. int setup_result = SetupBitmapBuilders(font_, font_builder, glyph_ids); if (setup_result == kRemoveBDATAndEBDT || setup_result == kRemoveEBDT) { remove_tags.insert(Tag::EBDT); remove_tags.insert(Tag::EBLC); remove_tags.insert(Tag::EBSC); } if (setup_result == kRemoveBDAT || setup_result == kRemoveBDATAndEBDT) { remove_tags.insert(Tag::bdat); remove_tags.insert(Tag::bloc); remove_tags.insert(Tag::bhed); } IntegerSet allowed_tags; for (size_t i = 0; i < sizeof(TABLES_IN_SUBSET) / sizeof(int32_t); ++i) { allowed_tags.insert(TABLES_IN_SUBSET[i]); } IntegerSet result; std::set_difference(allowed_tags.begin(), allowed_tags.end(), remove_tags.begin(), remove_tags.end(), std::inserter(result, result.end())); allowed_tags = result; // Setup remaining builders. for (IntegerSet::iterator i = allowed_tags.begin(), e = allowed_tags.end(); i != e; ++i) { Table* table = font_->GetTable(*i); if (table) { font_builder->NewTableBuilder(*i, table->ReadFontData()); } } return font_builder->Build(); } } // namespace sfntly