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// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "core/fpdfapi/font/cfx_cttgsubtable.h"
#include <utility>
#include "core/fxcrt/fx_system.h"
#include "core/fxcrt/stl_util.h"
#include "core/fxge/cfx_fontmapper.h"
namespace {
bool IsVerticalFeatureTag(uint32_t tag) {
static constexpr uint32_t kTags[] = {
CFX_FontMapper::MakeTag('v', 'r', 't', '2'),
CFX_FontMapper::MakeTag('v', 'e', 'r', 't'),
};
return tag == kTags[0] || tag == kTags[1];
}
} // namespace
CFX_CTTGSUBTable::CFX_CTTGSUBTable(FT_Bytes gsub) {
if (!LoadGSUBTable(gsub))
return;
for (const TScriptRecord& script : ScriptList) {
for (const auto& record : script.LangSysRecords) {
for (uint16_t index : record.FeatureIndices) {
if (IsVerticalFeatureTag(FeatureList[index].FeatureTag))
m_featureSet.insert(index);
}
}
}
if (!m_featureSet.empty())
return;
int i = 0;
for (const TFeatureRecord& feature : FeatureList) {
if (IsVerticalFeatureTag(feature.FeatureTag))
m_featureSet.insert(i);
++i;
}
}
CFX_CTTGSUBTable::~CFX_CTTGSUBTable() = default;
bool CFX_CTTGSUBTable::LoadGSUBTable(FT_Bytes gsub) {
if (FXSYS_UINT32_GET_MSBFIRST(gsub) != 0x00010000)
return false;
return Parse(&gsub[FXSYS_UINT16_GET_MSBFIRST(gsub + 4)],
&gsub[FXSYS_UINT16_GET_MSBFIRST(gsub + 6)],
&gsub[FXSYS_UINT16_GET_MSBFIRST(gsub + 8)]);
}
uint32_t CFX_CTTGSUBTable::GetVerticalGlyph(uint32_t glyphnum) const {
for (uint32_t item : m_featureSet) {
absl::optional<uint32_t> result =
GetVerticalGlyphSub(FeatureList[item], glyphnum);
if (result.has_value())
return result.value();
}
return 0;
}
absl::optional<uint32_t> CFX_CTTGSUBTable::GetVerticalGlyphSub(
const TFeatureRecord& feature,
uint32_t glyphnum) const {
for (int index : feature.LookupListIndices) {
if (!fxcrt::IndexInBounds(LookupList, index))
continue;
if (LookupList[index].LookupType != 1)
continue;
absl::optional<uint32_t> result =
GetVerticalGlyphSub2(LookupList[index], glyphnum);
if (result.has_value())
return result.value();
}
return absl::nullopt;
}
absl::optional<uint32_t> CFX_CTTGSUBTable::GetVerticalGlyphSub2(
const TLookup& lookup,
uint32_t glyphnum) const {
for (const auto& subTable : lookup.SubTables) {
switch (subTable->SubstFormat) {
case 1: {
auto* tbl1 = static_cast<TSubTable1*>(subTable.get());
if (GetCoverageIndex(tbl1->Coverage.get(), glyphnum) >= 0) {
return glyphnum + tbl1->DeltaGlyphID;
}
break;
}
case 2: {
auto* tbl2 = static_cast<TSubTable2*>(subTable.get());
int index = GetCoverageIndex(tbl2->Coverage.get(), glyphnum);
if (fxcrt::IndexInBounds(tbl2->Substitutes, index)) {
return tbl2->Substitutes[index];
}
break;
}
}
}
return absl::nullopt;
}
int CFX_CTTGSUBTable::GetCoverageIndex(TCoverageFormatBase* Coverage,
uint32_t g) const {
if (!Coverage)
return -1;
switch (Coverage->CoverageFormat) {
case 1: {
int i = 0;
TCoverageFormat1* c1 = static_cast<TCoverageFormat1*>(Coverage);
for (const auto& glyph : c1->GlyphArray) {
if (static_cast<uint32_t>(glyph) == g)
return i;
++i;
}
return -1;
}
case 2: {
TCoverageFormat2* c2 = static_cast<TCoverageFormat2*>(Coverage);
for (const auto& rangeRec : c2->RangeRecords) {
uint32_t s = rangeRec.Start;
uint32_t e = rangeRec.End;
uint32_t si = rangeRec.StartCoverageIndex;
if (s <= g && g <= e)
return si + g - s;
}
return -1;
}
}
return -1;
}
uint8_t CFX_CTTGSUBTable::GetUInt8(FT_Bytes& p) const {
uint8_t ret = p[0];
p += 1;
return ret;
}
int16_t CFX_CTTGSUBTable::GetInt16(FT_Bytes& p) const {
uint16_t ret = FXSYS_UINT16_GET_MSBFIRST(p);
p += 2;
return *(int16_t*)&ret;
}
uint16_t CFX_CTTGSUBTable::GetUInt16(FT_Bytes& p) const {
uint16_t ret = FXSYS_UINT16_GET_MSBFIRST(p);
p += 2;
return ret;
}
int32_t CFX_CTTGSUBTable::GetInt32(FT_Bytes& p) const {
uint32_t ret = FXSYS_UINT32_GET_MSBFIRST(p);
p += 4;
return *(int32_t*)&ret;
}
uint32_t CFX_CTTGSUBTable::GetUInt32(FT_Bytes& p) const {
uint32_t ret = FXSYS_UINT32_GET_MSBFIRST(p);
p += 4;
return ret;
}
bool CFX_CTTGSUBTable::Parse(FT_Bytes scriptlist,
FT_Bytes featurelist,
FT_Bytes lookuplist) {
ParseScriptList(scriptlist);
ParseFeatureList(featurelist);
ParseLookupList(lookuplist);
return true;
}
void CFX_CTTGSUBTable::ParseScriptList(FT_Bytes raw) {
FT_Bytes sp = raw;
ScriptList = std::vector<TScriptRecord>(GetUInt16(sp));
for (auto& scriptRec : ScriptList) {
scriptRec.ScriptTag = GetUInt32(sp);
ParseScript(&raw[GetUInt16(sp)], &scriptRec);
}
}
void CFX_CTTGSUBTable::ParseScript(FT_Bytes raw, TScriptRecord* rec) {
FT_Bytes sp = raw;
rec->DefaultLangSys = GetUInt16(sp);
rec->LangSysRecords = std::vector<TLangSysRecord>(GetUInt16(sp));
for (auto& sysRecord : rec->LangSysRecords) {
sysRecord.LangSysTag = GetUInt32(sp);
ParseLangSys(&raw[GetUInt16(sp)], &sysRecord);
}
}
void CFX_CTTGSUBTable::ParseLangSys(FT_Bytes raw, TLangSysRecord* rec) {
FT_Bytes sp = raw;
rec->LookupOrder = GetUInt16(sp);
rec->ReqFeatureIndex = GetUInt16(sp);
rec->FeatureIndices =
std::vector<uint16_t, FxAllocAllocator<uint16_t>>(GetUInt16(sp));
for (auto& element : rec->FeatureIndices)
element = GetUInt16(sp);
}
void CFX_CTTGSUBTable::ParseFeatureList(FT_Bytes raw) {
FT_Bytes sp = raw;
FeatureList = std::vector<TFeatureRecord>(GetUInt16(sp));
for (auto& featureRec : FeatureList) {
featureRec.FeatureTag = GetUInt32(sp);
ParseFeature(&raw[GetUInt16(sp)], &featureRec);
}
}
void CFX_CTTGSUBTable::ParseFeature(FT_Bytes raw, TFeatureRecord* rec) {
FT_Bytes sp = raw;
rec->FeatureParams = GetUInt16(sp);
rec->LookupListIndices =
std::vector<uint16_t, FxAllocAllocator<uint16_t>>(GetUInt16(sp));
for (auto& listIndex : rec->LookupListIndices)
listIndex = GetUInt16(sp);
}
void CFX_CTTGSUBTable::ParseLookupList(FT_Bytes raw) {
FT_Bytes sp = raw;
LookupList = std::vector<TLookup>(GetUInt16(sp));
for (auto& lookup : LookupList)
ParseLookup(&raw[GetUInt16(sp)], &lookup);
}
void CFX_CTTGSUBTable::ParseLookup(FT_Bytes raw, TLookup* rec) {
FT_Bytes sp = raw;
rec->LookupType = GetUInt16(sp);
rec->LookupFlag = GetUInt16(sp);
rec->SubTables = std::vector<std::unique_ptr<TSubTableBase>>(GetUInt16(sp));
if (rec->LookupType != 1)
return;
for (auto& subTable : rec->SubTables)
subTable = ParseSingleSubst(&raw[GetUInt16(sp)]);
}
std::unique_ptr<CFX_CTTGSUBTable::TCoverageFormatBase>
CFX_CTTGSUBTable::ParseCoverage(FT_Bytes raw) {
FT_Bytes sp = raw;
uint16_t format = GetUInt16(sp);
if (format == 1)
return ParseCoverageFormat1(raw);
if (format == 2)
return ParseCoverageFormat2(raw);
return nullptr;
}
std::unique_ptr<CFX_CTTGSUBTable::TCoverageFormat1>
CFX_CTTGSUBTable::ParseCoverageFormat1(FT_Bytes raw) {
FT_Bytes sp = raw;
(void)GetUInt16(sp);
auto rec = std::make_unique<TCoverageFormat1>(GetUInt16(sp));
for (auto& glyph : rec->GlyphArray)
glyph = GetUInt16(sp);
return rec;
}
std::unique_ptr<CFX_CTTGSUBTable::TCoverageFormat2>
CFX_CTTGSUBTable::ParseCoverageFormat2(FT_Bytes raw) {
FT_Bytes sp = raw;
(void)GetUInt16(sp);
auto rec = std::make_unique<TCoverageFormat2>(GetUInt16(sp));
for (auto& rangeRec : rec->RangeRecords) {
rangeRec.Start = GetUInt16(sp);
rangeRec.End = GetUInt16(sp);
rangeRec.StartCoverageIndex = GetUInt16(sp);
}
return rec;
}
std::unique_ptr<CFX_CTTGSUBTable::TSubTableBase>
CFX_CTTGSUBTable::ParseSingleSubst(FT_Bytes raw) {
FT_Bytes sp = raw;
uint16_t format = GetUInt16(sp);
if (format == 1)
return ParseSingleSubstFormat1(raw);
if (format == 2)
return ParseSingleSubstFormat2(raw);
return nullptr;
}
std::unique_ptr<CFX_CTTGSUBTable::TSubTable1>
CFX_CTTGSUBTable::ParseSingleSubstFormat1(FT_Bytes raw) {
FT_Bytes sp = raw;
GetUInt16(sp);
uint16_t offset = GetUInt16(sp);
auto rec = std::make_unique<TSubTable1>();
rec->Coverage = ParseCoverage(&raw[offset]);
rec->DeltaGlyphID = GetInt16(sp);
return rec;
}
std::unique_ptr<CFX_CTTGSUBTable::TSubTable2>
CFX_CTTGSUBTable::ParseSingleSubstFormat2(FT_Bytes raw) {
FT_Bytes sp = raw;
(void)GetUInt16(sp);
uint16_t offset = GetUInt16(sp);
auto rec = std::make_unique<TSubTable2>();
rec->Coverage = ParseCoverage(&raw[offset]);
rec->Substitutes =
std::vector<uint16_t, FxAllocAllocator<uint16_t>>(GetUInt16(sp));
for (auto& substitute : rec->Substitutes)
substitute = GetUInt16(sp);
return rec;
}
CFX_CTTGSUBTable::TLangSysRecord::TLangSysRecord() = default;
CFX_CTTGSUBTable::TLangSysRecord::~TLangSysRecord() = default;
CFX_CTTGSUBTable::TScriptRecord::TScriptRecord() = default;
CFX_CTTGSUBTable::TScriptRecord::~TScriptRecord() = default;
CFX_CTTGSUBTable::TFeatureRecord::TFeatureRecord() = default;
CFX_CTTGSUBTable::TFeatureRecord::~TFeatureRecord() = default;
CFX_CTTGSUBTable::TRangeRecord::TRangeRecord() = default;
CFX_CTTGSUBTable::TCoverageFormat1::TCoverageFormat1(size_t initial_size)
: TCoverageFormatBase(1), GlyphArray(initial_size) {}
CFX_CTTGSUBTable::TCoverageFormat1::~TCoverageFormat1() = default;
CFX_CTTGSUBTable::TCoverageFormat2::TCoverageFormat2(size_t initial_size)
: TCoverageFormatBase(2), RangeRecords(initial_size) {}
CFX_CTTGSUBTable::TCoverageFormat2::~TCoverageFormat2() = default;
CFX_CTTGSUBTable::TDevice::TDevice() = default;
CFX_CTTGSUBTable::TSubTableBase::TSubTableBase(uint16_t format)
: SubstFormat(format) {}
CFX_CTTGSUBTable::TSubTableBase::~TSubTableBase() = default;
CFX_CTTGSUBTable::TSubTable1::TSubTable1() : TSubTableBase(1) {}
CFX_CTTGSUBTable::TSubTable1::~TSubTable1() = default;
CFX_CTTGSUBTable::TSubTable2::TSubTable2() : TSubTableBase(2) {}
CFX_CTTGSUBTable::TSubTable2::~TSubTable2() = default;
CFX_CTTGSUBTable::TLookup::TLookup() = default;
CFX_CTTGSUBTable::TLookup::~TLookup() = default;