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|
// Copyright 2016 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/cpdf_cidfont.h"
#include <algorithm>
#include <limits>
#include <vector>
#include "core/fpdfapi/cmaps/cmap_int.h"
#include "core/fpdfapi/cpdf_modulemgr.h"
#include "core/fpdfapi/font/cfx_cttgsubtable.h"
#include "core/fpdfapi/font/cpdf_cid2unicodemap.h"
#include "core/fpdfapi/font/cpdf_cmap.h"
#include "core/fpdfapi/font/cpdf_cmapparser.h"
#include "core/fpdfapi/font/cpdf_fontencoding.h"
#include "core/fpdfapi/page/cpdf_pagemodule.h"
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_stream_acc.h"
#include "third_party/base/numerics/safe_math.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/span.h"
#include "third_party/base/stl_util.h"
namespace {
const uint16_t g_CharsetCPs[CIDSET_NUM_SETS] = {0, 936, 950, 932, 949, 1200};
const struct CIDTransform {
uint16_t cid;
uint8_t a;
uint8_t b;
uint8_t c;
uint8_t d;
uint8_t e;
uint8_t f;
} g_Japan1_VertCIDs[] = {
{97, 129, 0, 0, 127, 55, 0}, {7887, 127, 0, 0, 127, 76, 89},
{7888, 127, 0, 0, 127, 79, 94}, {7889, 0, 129, 127, 0, 17, 127},
{7890, 0, 129, 127, 0, 17, 127}, {7891, 0, 129, 127, 0, 17, 127},
{7892, 0, 129, 127, 0, 17, 127}, {7893, 0, 129, 127, 0, 17, 127},
{7894, 0, 129, 127, 0, 17, 127}, {7895, 0, 129, 127, 0, 17, 127},
{7896, 0, 129, 127, 0, 17, 127}, {7897, 0, 129, 127, 0, 17, 127},
{7898, 0, 129, 127, 0, 17, 127}, {7899, 0, 129, 127, 0, 17, 104},
{7900, 0, 129, 127, 0, 17, 127}, {7901, 0, 129, 127, 0, 17, 104},
{7902, 0, 129, 127, 0, 17, 127}, {7903, 0, 129, 127, 0, 17, 127},
{7904, 0, 129, 127, 0, 17, 127}, {7905, 0, 129, 127, 0, 17, 114},
{7906, 0, 129, 127, 0, 17, 127}, {7907, 0, 129, 127, 0, 17, 127},
{7908, 0, 129, 127, 0, 17, 127}, {7909, 0, 129, 127, 0, 17, 127},
{7910, 0, 129, 127, 0, 17, 127}, {7911, 0, 129, 127, 0, 17, 127},
{7912, 0, 129, 127, 0, 17, 127}, {7913, 0, 129, 127, 0, 17, 127},
{7914, 0, 129, 127, 0, 17, 127}, {7915, 0, 129, 127, 0, 17, 114},
{7916, 0, 129, 127, 0, 17, 127}, {7917, 0, 129, 127, 0, 17, 127},
{7918, 127, 0, 0, 127, 18, 25}, {7919, 127, 0, 0, 127, 18, 25},
{7920, 127, 0, 0, 127, 18, 25}, {7921, 127, 0, 0, 127, 18, 25},
{7922, 127, 0, 0, 127, 18, 25}, {7923, 127, 0, 0, 127, 18, 25},
{7924, 127, 0, 0, 127, 18, 25}, {7925, 127, 0, 0, 127, 18, 25},
{7926, 127, 0, 0, 127, 18, 25}, {7927, 127, 0, 0, 127, 18, 25},
{7928, 127, 0, 0, 127, 18, 25}, {7929, 127, 0, 0, 127, 18, 25},
{7930, 127, 0, 0, 127, 18, 25}, {7931, 127, 0, 0, 127, 18, 25},
{7932, 127, 0, 0, 127, 18, 25}, {7933, 127, 0, 0, 127, 18, 25},
{7934, 127, 0, 0, 127, 18, 25}, {7935, 127, 0, 0, 127, 18, 25},
{7936, 127, 0, 0, 127, 18, 25}, {7937, 127, 0, 0, 127, 18, 25},
{7938, 127, 0, 0, 127, 18, 25}, {7939, 127, 0, 0, 127, 18, 25},
{8720, 0, 129, 127, 0, 19, 102}, {8721, 0, 129, 127, 0, 13, 127},
{8722, 0, 129, 127, 0, 19, 108}, {8723, 0, 129, 127, 0, 19, 102},
{8724, 0, 129, 127, 0, 19, 102}, {8725, 0, 129, 127, 0, 19, 102},
{8726, 0, 129, 127, 0, 19, 102}, {8727, 0, 129, 127, 0, 19, 102},
{8728, 0, 129, 127, 0, 19, 114}, {8729, 0, 129, 127, 0, 19, 114},
{8730, 0, 129, 127, 0, 38, 108}, {8731, 0, 129, 127, 0, 13, 108},
{8732, 0, 129, 127, 0, 19, 108}, {8733, 0, 129, 127, 0, 19, 108},
{8734, 0, 129, 127, 0, 19, 108}, {8735, 0, 129, 127, 0, 19, 108},
{8736, 0, 129, 127, 0, 19, 102}, {8737, 0, 129, 127, 0, 19, 102},
{8738, 0, 129, 127, 0, 19, 102}, {8739, 0, 129, 127, 0, 19, 102},
{8740, 0, 129, 127, 0, 19, 102}, {8741, 0, 129, 127, 0, 19, 102},
{8742, 0, 129, 127, 0, 19, 102}, {8743, 0, 129, 127, 0, 19, 102},
{8744, 0, 129, 127, 0, 19, 102}, {8745, 0, 129, 127, 0, 19, 102},
{8746, 0, 129, 127, 0, 19, 114}, {8747, 0, 129, 127, 0, 19, 114},
{8748, 0, 129, 127, 0, 19, 102}, {8749, 0, 129, 127, 0, 19, 102},
{8750, 0, 129, 127, 0, 19, 102}, {8751, 0, 129, 127, 0, 19, 102},
{8752, 0, 129, 127, 0, 19, 102}, {8753, 0, 129, 127, 0, 19, 102},
{8754, 0, 129, 127, 0, 19, 102}, {8755, 0, 129, 127, 0, 19, 102},
{8756, 0, 129, 127, 0, 19, 102}, {8757, 0, 129, 127, 0, 19, 102},
{8758, 0, 129, 127, 0, 19, 102}, {8759, 0, 129, 127, 0, 19, 102},
{8760, 0, 129, 127, 0, 19, 102}, {8761, 0, 129, 127, 0, 19, 102},
{8762, 0, 129, 127, 0, 19, 102}, {8763, 0, 129, 127, 0, 19, 102},
{8764, 0, 129, 127, 0, 19, 102}, {8765, 0, 129, 127, 0, 19, 102},
{8766, 0, 129, 127, 0, 19, 102}, {8767, 0, 129, 127, 0, 19, 102},
{8768, 0, 129, 127, 0, 19, 102}, {8769, 0, 129, 127, 0, 19, 102},
{8770, 0, 129, 127, 0, 19, 102}, {8771, 0, 129, 127, 0, 19, 102},
{8772, 0, 129, 127, 0, 19, 102}, {8773, 0, 129, 127, 0, 19, 102},
{8774, 0, 129, 127, 0, 19, 102}, {8775, 0, 129, 127, 0, 19, 102},
{8776, 0, 129, 127, 0, 19, 102}, {8777, 0, 129, 127, 0, 19, 102},
{8778, 0, 129, 127, 0, 19, 102}, {8779, 0, 129, 127, 0, 19, 114},
{8780, 0, 129, 127, 0, 19, 108}, {8781, 0, 129, 127, 0, 19, 114},
{8782, 0, 129, 127, 0, 13, 114}, {8783, 0, 129, 127, 0, 19, 108},
{8784, 0, 129, 127, 0, 13, 114}, {8785, 0, 129, 127, 0, 19, 108},
{8786, 0, 129, 127, 0, 19, 108}, {8787, 0, 129, 127, 0, 19, 108},
{8788, 0, 129, 127, 0, 19, 108}, {8789, 0, 129, 127, 0, 19, 108},
{8790, 0, 129, 127, 0, 19, 108}, {8791, 0, 129, 127, 0, 19, 108},
{8792, 0, 129, 127, 0, 19, 108}, {8793, 0, 129, 127, 0, 19, 108},
{8794, 0, 129, 127, 0, 19, 108}, {8795, 0, 129, 127, 0, 19, 108},
{8796, 0, 129, 127, 0, 19, 108}, {8797, 0, 129, 127, 0, 19, 108},
{8798, 0, 129, 127, 0, 19, 108}, {8799, 0, 129, 127, 0, 19, 108},
{8800, 0, 129, 127, 0, 19, 108}, {8801, 0, 129, 127, 0, 19, 108},
{8802, 0, 129, 127, 0, 19, 108}, {8803, 0, 129, 127, 0, 19, 108},
{8804, 0, 129, 127, 0, 19, 108}, {8805, 0, 129, 127, 0, 19, 108},
{8806, 0, 129, 127, 0, 19, 108}, {8807, 0, 129, 127, 0, 19, 108},
{8808, 0, 129, 127, 0, 19, 108}, {8809, 0, 129, 127, 0, 19, 108},
{8810, 0, 129, 127, 0, 19, 108}, {8811, 0, 129, 127, 0, 19, 114},
{8812, 0, 129, 127, 0, 19, 102}, {8813, 0, 129, 127, 0, 19, 114},
{8814, 0, 129, 127, 0, 76, 102}, {8815, 0, 129, 127, 0, 13, 121},
{8816, 0, 129, 127, 0, 19, 114}, {8817, 0, 129, 127, 0, 19, 127},
{8818, 0, 129, 127, 0, 19, 114}, {8819, 0, 129, 127, 0, 218, 108},
};
// Boundary values to avoid integer overflow when multiplied by 1000.
constexpr long kMinCBox = -2147483;
constexpr long kMaxCBox = 2147483;
// Boundary value to avoid integer overflow when adding 1/64th of the value.
constexpr int kMaxRectTop = 2114445437;
CPDF_FontGlobals* GetFontGlobals() {
return CPDF_ModuleMgr::Get()->GetPageModule()->GetFontGlobals();
}
#if _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
bool IsValidEmbeddedCharcodeFromUnicodeCharset(CIDSet charset) {
switch (charset) {
case CIDSET_GB1:
case CIDSET_CNS1:
case CIDSET_JAPAN1:
case CIDSET_KOREA1:
return true;
default:
return false;
}
}
wchar_t EmbeddedUnicodeFromCharcode(const FXCMAP_CMap* pEmbedMap,
CIDSet charset,
uint32_t charcode) {
if (!IsValidEmbeddedCharcodeFromUnicodeCharset(charset))
return 0;
uint16_t cid = FPDFAPI_CIDFromCharCode(pEmbedMap, charcode);
if (!cid)
return 0;
pdfium::span<const uint16_t> map =
GetFontGlobals()->GetEmbeddedToUnicode(charset);
return cid < map.size() ? map[cid] : 0;
}
uint32_t EmbeddedCharcodeFromUnicode(const FXCMAP_CMap* pEmbedMap,
CIDSet charset,
wchar_t unicode) {
if (!IsValidEmbeddedCharcodeFromUnicodeCharset(charset))
return 0;
pdfium::span<const uint16_t> map =
GetFontGlobals()->GetEmbeddedToUnicode(charset);
for (uint32_t i = 0; i < map.size(); ++i) {
if (map[i] == unicode) {
uint32_t charCode = FPDFAPI_CharCodeFromCID(pEmbedMap, i);
if (charCode)
return charCode;
}
}
return 0;
}
#endif // _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
void FT_UseCIDCharmap(FXFT_Face face, int coding) {
int encoding;
switch (coding) {
case CIDCODING_GB:
encoding = FXFT_ENCODING_GB2312;
break;
case CIDCODING_BIG5:
encoding = FXFT_ENCODING_BIG5;
break;
case CIDCODING_JIS:
encoding = FXFT_ENCODING_SJIS;
break;
case CIDCODING_KOREA:
encoding = FXFT_ENCODING_JOHAB;
break;
default:
encoding = FXFT_ENCODING_UNICODE;
}
int err = FXFT_Select_Charmap(face, encoding);
if (err)
err = FXFT_Select_Charmap(face, FXFT_ENCODING_UNICODE);
if (err && FXFT_Get_Face_Charmaps(face))
FXFT_Set_Charmap(face, *FXFT_Get_Face_Charmaps(face));
}
bool IsMetricForCID(const uint32_t* pEntry, uint16_t CID) {
return pEntry[0] <= CID && pEntry[1] >= CID;
}
} // namespace
CPDF_CIDFont::CPDF_CIDFont(CPDF_Document* pDocument, CPDF_Dictionary* pFontDict)
: CPDF_Font(pDocument, pFontDict) {
for (size_t i = 0; i < FX_ArraySize(m_CharBBox); ++i)
m_CharBBox[i] = FX_RECT(-1, -1, -1, -1);
}
CPDF_CIDFont::~CPDF_CIDFont() {}
bool CPDF_CIDFont::IsCIDFont() const {
return true;
}
const CPDF_CIDFont* CPDF_CIDFont::AsCIDFont() const {
return this;
}
CPDF_CIDFont* CPDF_CIDFont::AsCIDFont() {
return this;
}
uint16_t CPDF_CIDFont::CIDFromCharCode(uint32_t charcode) const {
return m_pCMap ? m_pCMap->CIDFromCharCode(charcode)
: static_cast<uint16_t>(charcode);
}
bool CPDF_CIDFont::IsVertWriting() const {
return m_pCMap && m_pCMap->IsVertWriting();
}
WideString CPDF_CIDFont::UnicodeFromCharCode(uint32_t charcode) const {
WideString str = CPDF_Font::UnicodeFromCharCode(charcode);
if (!str.IsEmpty())
return str;
wchar_t ret = GetUnicodeFromCharCode(charcode);
return ret ? ret : WideString();
}
wchar_t CPDF_CIDFont::GetUnicodeFromCharCode(uint32_t charcode) const {
switch (m_pCMap->GetCoding()) {
case CIDCODING_UCS2:
case CIDCODING_UTF16:
return static_cast<wchar_t>(charcode);
case CIDCODING_CID:
if (!m_pCID2UnicodeMap || !m_pCID2UnicodeMap->IsLoaded())
return 0;
return m_pCID2UnicodeMap->UnicodeFromCID(static_cast<uint16_t>(charcode));
}
if (m_pCID2UnicodeMap && m_pCID2UnicodeMap->IsLoaded() && m_pCMap->IsLoaded())
return m_pCID2UnicodeMap->UnicodeFromCID(CIDFromCharCode(charcode));
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
wchar_t unicode;
int charsize = 1;
if (charcode > 255) {
charcode = (charcode % 256) * 256 + (charcode / 256);
charsize = 2;
}
int ret = FXSYS_MultiByteToWideChar(g_CharsetCPs[m_pCMap->GetCoding()], 0,
reinterpret_cast<const char*>(&charcode),
charsize, &unicode, 1);
return ret == 1 ? unicode : 0;
#else
if (!m_pCMap->GetEmbedMap())
return 0;
return EmbeddedUnicodeFromCharcode(m_pCMap->GetEmbedMap(),
m_pCMap->GetCharset(), charcode);
#endif
}
uint32_t CPDF_CIDFont::CharCodeFromUnicode(wchar_t unicode) const {
uint32_t charcode = CPDF_Font::CharCodeFromUnicode(unicode);
if (charcode)
return charcode;
switch (m_pCMap->GetCoding()) {
case CIDCODING_UNKNOWN:
return 0;
case CIDCODING_UCS2:
case CIDCODING_UTF16:
return unicode;
case CIDCODING_CID: {
if (!m_pCID2UnicodeMap || !m_pCID2UnicodeMap->IsLoaded())
return 0;
uint32_t CID = 0;
while (CID < 65536) {
wchar_t this_unicode =
m_pCID2UnicodeMap->UnicodeFromCID(static_cast<uint16_t>(CID));
if (this_unicode == unicode)
return CID;
CID++;
}
break;
}
}
if (unicode < 0x80)
return static_cast<uint32_t>(unicode);
if (m_pCMap->GetCoding() == CIDCODING_CID)
return 0;
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
uint8_t buffer[32];
int ret = FXSYS_WideCharToMultiByte(
g_CharsetCPs[m_pCMap->GetCoding()], 0, &unicode, 1,
reinterpret_cast<char*>(buffer), 4, nullptr, nullptr);
if (ret == 1)
return buffer[0];
if (ret == 2)
return buffer[0] * 256 + buffer[1];
#else
if (m_pCMap->GetEmbedMap()) {
return EmbeddedCharcodeFromUnicode(m_pCMap->GetEmbedMap(),
m_pCMap->GetCharset(), unicode);
}
#endif
return 0;
}
bool CPDF_CIDFont::Load() {
if (m_pFontDict->GetStringFor("Subtype") == "TrueType") {
LoadGB2312();
return true;
}
const CPDF_Array* pFonts = m_pFontDict->GetArrayFor("DescendantFonts");
if (!pFonts || pFonts->GetCount() != 1)
return false;
const CPDF_Dictionary* pCIDFontDict = pFonts->GetDictAt(0);
if (!pCIDFontDict)
return false;
m_BaseFont = pCIDFontDict->GetStringFor("BaseFont");
if ((m_BaseFont.Compare("CourierStd") == 0 ||
m_BaseFont.Compare("CourierStd-Bold") == 0 ||
m_BaseFont.Compare("CourierStd-BoldOblique") == 0 ||
m_BaseFont.Compare("CourierStd-Oblique") == 0) &&
!IsEmbedded()) {
m_bAdobeCourierStd = true;
}
const CPDF_Dictionary* pFontDesc = pCIDFontDict->GetDictFor("FontDescriptor");
if (pFontDesc)
LoadFontDescriptor(pFontDesc);
CPDF_Object* pEncoding = m_pFontDict->GetDirectObjectFor("Encoding");
if (!pEncoding)
return false;
ByteString subtype = pCIDFontDict->GetStringFor("Subtype");
m_bType1 = (subtype == "CIDFontType0");
CPDF_CMapManager* manager = GetFontGlobals()->GetCMapManager();
if (pEncoding->IsName()) {
ByteString cmap = pEncoding->GetString();
bool bPromptCJK = m_pFontFile && m_bType1;
m_pCMap = manager->GetPredefinedCMap(cmap, bPromptCJK);
if (!m_pCMap)
return false;
} else if (CPDF_Stream* pStream = pEncoding->AsStream()) {
auto pAcc = pdfium::MakeRetain<CPDF_StreamAcc>(pStream);
pAcc->LoadAllDataFiltered();
m_pCMap = pdfium::MakeRetain<CPDF_CMap>();
m_pCMap->LoadEmbedded(pAcc->GetSpan());
} else {
return false;
}
m_Charset = m_pCMap->GetCharset();
if (m_Charset == CIDSET_UNKNOWN) {
const CPDF_Dictionary* pCIDInfo = pCIDFontDict->GetDictFor("CIDSystemInfo");
if (pCIDInfo) {
m_Charset = CPDF_CMapParser::CharsetFromOrdering(
pCIDInfo->GetStringFor("Ordering").AsStringView());
}
}
if (m_Charset != CIDSET_UNKNOWN) {
bool bPromptCJK = !m_pFontFile && (m_pCMap->GetCoding() == CIDCODING_CID ||
pCIDFontDict->KeyExist("W"));
m_pCID2UnicodeMap = manager->GetCID2UnicodeMap(m_Charset, bPromptCJK);
}
if (m_Font.GetFace()) {
if (m_bType1)
FXFT_Select_Charmap(m_Font.GetFace(), FXFT_ENCODING_UNICODE);
else
FT_UseCIDCharmap(m_Font.GetFace(), m_pCMap->GetCoding());
}
m_DefaultWidth = pCIDFontDict->GetIntegerFor("DW", 1000);
const CPDF_Array* pWidthArray = pCIDFontDict->GetArrayFor("W");
if (pWidthArray)
LoadMetricsArray(pWidthArray, &m_WidthList, 1);
if (!IsEmbedded())
LoadSubstFont();
const CPDF_Object* pmap = pCIDFontDict->GetDirectObjectFor("CIDToGIDMap");
if (pmap) {
if (const CPDF_Stream* pStream = pmap->AsStream()) {
m_pStreamAcc = pdfium::MakeRetain<CPDF_StreamAcc>(pStream);
m_pStreamAcc->LoadAllDataFiltered();
} else if (m_pFontFile && pmap->GetString() == "Identity") {
m_bCIDIsGID = true;
}
}
CheckFontMetrics();
if (IsVertWriting()) {
pWidthArray = pCIDFontDict->GetArrayFor("W2");
if (pWidthArray)
LoadMetricsArray(pWidthArray, &m_VertMetrics, 3);
const CPDF_Array* pDefaultArray = pCIDFontDict->GetArrayFor("DW2");
if (pDefaultArray) {
m_DefaultVY = pDefaultArray->GetIntegerAt(0);
m_DefaultW1 = pDefaultArray->GetIntegerAt(1);
}
}
return true;
}
FX_RECT CPDF_CIDFont::GetCharBBox(uint32_t charcode) {
if (charcode < 256 && m_CharBBox[charcode].right != -1)
return m_CharBBox[charcode];
FX_RECT rect;
bool bVert = false;
int glyph_index = GlyphFromCharCode(charcode, &bVert);
FXFT_Face face = m_Font.GetFace();
if (face) {
if (FXFT_Is_Face_Tricky(face)) {
int err = FXFT_Load_Glyph(face, glyph_index,
FXFT_LOAD_IGNORE_GLOBAL_ADVANCE_WIDTH);
if (!err) {
FXFT_Glyph glyph;
err = FXFT_Get_Glyph(((FXFT_Face)face)->glyph, &glyph);
if (!err) {
FXFT_BBox cbox;
FXFT_Glyph_Get_CBox(glyph, FXFT_GLYPH_BBOX_PIXELS, &cbox);
cbox.xMin = pdfium::clamp(cbox.xMin, kMinCBox, kMaxCBox);
cbox.xMax = pdfium::clamp(cbox.xMax, kMinCBox, kMaxCBox);
cbox.yMin = pdfium::clamp(cbox.yMin, kMinCBox, kMaxCBox);
cbox.yMax = pdfium::clamp(cbox.yMax, kMinCBox, kMaxCBox);
int pixel_size_x = ((FXFT_Face)face)->size->metrics.x_ppem;
int pixel_size_y = ((FXFT_Face)face)->size->metrics.y_ppem;
if (pixel_size_x == 0 || pixel_size_y == 0) {
rect = FX_RECT(cbox.xMin, cbox.yMax, cbox.xMax, cbox.yMin);
} else {
rect = FX_RECT(cbox.xMin * 1000 / pixel_size_x,
cbox.yMax * 1000 / pixel_size_y,
cbox.xMax * 1000 / pixel_size_x,
cbox.yMin * 1000 / pixel_size_y);
}
rect.top = std::min(rect.top,
static_cast<int>(FXFT_Get_Face_Ascender(face)));
rect.bottom = std::max(
rect.bottom, static_cast<int>(FXFT_Get_Face_Descender(face)));
FXFT_Done_Glyph(glyph);
}
}
} else {
int err = FXFT_Load_Glyph(face, glyph_index, FXFT_LOAD_NO_SCALE);
if (err == 0) {
rect = FX_RECT(TT2PDF(FXFT_Get_Glyph_HoriBearingX(face), face),
TT2PDF(FXFT_Get_Glyph_HoriBearingY(face), face),
TT2PDF(FXFT_Get_Glyph_HoriBearingX(face) +
FXFT_Get_Glyph_Width(face),
face),
TT2PDF(FXFT_Get_Glyph_HoriBearingY(face) -
FXFT_Get_Glyph_Height(face),
face));
if (rect.top <= kMaxRectTop)
rect.top += rect.top / 64;
else
rect.top = std::numeric_limits<int>::max();
}
}
}
if (!m_pFontFile && m_Charset == CIDSET_JAPAN1) {
uint16_t CID = CIDFromCharCode(charcode);
const uint8_t* pTransform = GetCIDTransform(CID);
if (pTransform && !bVert) {
CFX_Matrix matrix(CIDTransformToFloat(pTransform[0]),
CIDTransformToFloat(pTransform[1]),
CIDTransformToFloat(pTransform[2]),
CIDTransformToFloat(pTransform[3]),
CIDTransformToFloat(pTransform[4]) * 1000,
CIDTransformToFloat(pTransform[5]) * 1000);
rect = matrix.TransformRect(CFX_FloatRect(rect)).GetOuterRect();
}
}
if (charcode < 256)
m_CharBBox[charcode] = rect;
return rect;
}
uint32_t CPDF_CIDFont::GetCharWidthF(uint32_t charcode) {
if (charcode < 0x80 && m_bAnsiWidthsFixed)
return (charcode >= 32 && charcode < 127) ? 500 : 0;
uint16_t cid = CIDFromCharCode(charcode);
size_t size = m_WidthList.size();
const uint32_t* pList = m_WidthList.data();
for (size_t i = 0; i < size; i += 3) {
const uint32_t* pEntry = pList + i;
if (IsMetricForCID(pEntry, cid))
return pEntry[2];
}
return m_DefaultWidth;
}
short CPDF_CIDFont::GetVertWidth(uint16_t CID) const {
size_t vertsize = m_VertMetrics.size() / 5;
if (vertsize) {
const uint32_t* pTable = m_VertMetrics.data();
for (size_t i = 0; i < vertsize; i++) {
const uint32_t* pEntry = pTable + (i * 5);
if (IsMetricForCID(pEntry, CID))
return static_cast<short>(pEntry[2]);
}
}
return m_DefaultW1;
}
void CPDF_CIDFont::GetVertOrigin(uint16_t CID, short& vx, short& vy) const {
size_t vertsize = m_VertMetrics.size() / 5;
if (vertsize) {
const uint32_t* pTable = m_VertMetrics.data();
for (size_t i = 0; i < vertsize; i++) {
const uint32_t* pEntry = pTable + (i * 5);
if (IsMetricForCID(pEntry, CID)) {
vx = static_cast<short>(pEntry[3]);
vy = static_cast<short>(pEntry[4]);
return;
}
}
}
uint32_t dwWidth = m_DefaultWidth;
size_t size = m_WidthList.size();
const uint32_t* pList = m_WidthList.data();
for (size_t i = 0; i < size; i += 3) {
const uint32_t* pEntry = pList + i;
if (IsMetricForCID(pEntry, CID)) {
dwWidth = pEntry[2];
break;
}
}
vx = static_cast<short>(dwWidth) / 2;
vy = m_DefaultVY;
}
int CPDF_CIDFont::GetGlyphIndex(uint32_t unicode, bool* pVertGlyph) {
if (pVertGlyph)
*pVertGlyph = false;
FXFT_Face face = m_Font.GetFace();
int index = FXFT_Get_Char_Index(face, unicode);
if (unicode == 0x2502)
return index;
if (!index || !IsVertWriting())
return index;
if (m_pTTGSUBTable)
return GetVerticalGlyph(index, pVertGlyph);
if (!m_Font.GetSubData()) {
unsigned long length = 0;
int error = FXFT_Load_Sfnt_Table(face, FT_MAKE_TAG('G', 'S', 'U', 'B'), 0,
nullptr, &length);
if (!error)
m_Font.SetSubData(FX_Alloc(uint8_t, length));
}
int error = FXFT_Load_Sfnt_Table(face, FT_MAKE_TAG('G', 'S', 'U', 'B'), 0,
m_Font.GetSubData(), nullptr);
if (error || !m_Font.GetSubData())
return index;
m_pTTGSUBTable = pdfium::MakeUnique<CFX_CTTGSUBTable>(m_Font.GetSubData());
return GetVerticalGlyph(index, pVertGlyph);
}
int CPDF_CIDFont::GetVerticalGlyph(int index, bool* pVertGlyph) {
uint32_t vindex = m_pTTGSUBTable->GetVerticalGlyph(index);
if (!vindex)
return index;
index = vindex;
if (pVertGlyph)
*pVertGlyph = true;
return index;
}
int CPDF_CIDFont::GlyphFromCharCode(uint32_t charcode, bool* pVertGlyph) {
if (pVertGlyph)
*pVertGlyph = false;
if (!m_pFontFile && !m_pStreamAcc) {
uint16_t cid = CIDFromCharCode(charcode);
wchar_t unicode = 0;
if (m_bCIDIsGID) {
#if _FX_PLATFORM_ != _FX_PLATFORM_APPLE_
return cid;
#else
if (FontStyleIsSymbolic(m_Flags))
return cid;
WideString uni_str = UnicodeFromCharCode(charcode);
if (uni_str.IsEmpty())
return cid;
unicode = uni_str[0];
#endif
} else {
if (cid && m_pCID2UnicodeMap && m_pCID2UnicodeMap->IsLoaded())
unicode = m_pCID2UnicodeMap->UnicodeFromCID(cid);
if (unicode == 0)
unicode = GetUnicodeFromCharCode(charcode);
if (unicode == 0) {
WideString unicode_str = UnicodeFromCharCode(charcode);
if (!unicode_str.IsEmpty())
unicode = unicode_str[0];
}
}
FXFT_Face face = m_Font.GetFace();
if (unicode == 0) {
if (!m_bAdobeCourierStd)
return charcode ? static_cast<int>(charcode) : -1;
charcode += 31;
bool bMSUnicode = FT_UseTTCharmap(face, 3, 1);
bool bMacRoman = !bMSUnicode && FT_UseTTCharmap(face, 1, 0);
int iBaseEncoding = PDFFONT_ENCODING_STANDARD;
if (bMSUnicode)
iBaseEncoding = PDFFONT_ENCODING_WINANSI;
else if (bMacRoman)
iBaseEncoding = PDFFONT_ENCODING_MACROMAN;
const char* name =
GetAdobeCharName(iBaseEncoding, std::vector<ByteString>(), charcode);
if (!name)
return charcode ? static_cast<int>(charcode) : -1;
int index = 0;
uint16_t name_unicode = PDF_UnicodeFromAdobeName(name);
if (!name_unicode)
return charcode ? static_cast<int>(charcode) : -1;
if (iBaseEncoding == PDFFONT_ENCODING_STANDARD)
return FXFT_Get_Char_Index(face, name_unicode);
if (iBaseEncoding == PDFFONT_ENCODING_WINANSI) {
index = FXFT_Get_Char_Index(face, name_unicode);
} else {
ASSERT(iBaseEncoding == PDFFONT_ENCODING_MACROMAN);
uint32_t maccode =
FT_CharCodeFromUnicode(FXFT_ENCODING_APPLE_ROMAN, name_unicode);
index = maccode ? FXFT_Get_Char_Index(face, maccode)
: FXFT_Get_Name_Index(face, name);
}
if (index == 0 || index == 0xffff)
return charcode ? static_cast<int>(charcode) : -1;
return index;
}
if (m_Charset == CIDSET_JAPAN1) {
if (unicode == '\\') {
unicode = '/';
#if _FX_PLATFORM_ != _FX_PLATFORM_APPLE_
} else if (unicode == 0xa5) {
unicode = 0x5c;
#endif
}
}
if (!face)
return unicode;
int err = FXFT_Select_Charmap(face, FXFT_ENCODING_UNICODE);
if (err) {
int i;
for (i = 0; i < FXFT_Get_Face_CharmapCount(face); i++) {
uint32_t ret = FT_CharCodeFromUnicode(
FXFT_Get_Charmap_Encoding(FXFT_Get_Face_Charmaps(face)[i]),
static_cast<wchar_t>(charcode));
if (ret == 0)
continue;
FXFT_Set_Charmap(face, FXFT_Get_Face_Charmaps(face)[i]);
unicode = static_cast<wchar_t>(ret);
break;
}
if (i == FXFT_Get_Face_CharmapCount(face) && i) {
FXFT_Set_Charmap(face, FXFT_Get_Face_Charmaps(face)[0]);
unicode = static_cast<wchar_t>(charcode);
}
}
if (FXFT_Get_Face_Charmap(face)) {
int index = GetGlyphIndex(unicode, pVertGlyph);
return index != 0 ? index : -1;
}
return unicode;
}
if (!m_Font.GetFace())
return -1;
uint16_t cid = CIDFromCharCode(charcode);
if (!m_pStreamAcc) {
if (m_bType1)
return cid;
if (m_pFontFile && m_pCMap->IsDirectCharcodeToCIDTableIsEmpty())
return cid;
if (m_pCMap->GetCoding() == CIDCODING_UNKNOWN ||
!FXFT_Get_Face_Charmap(m_Font.GetFace())) {
return cid;
}
if (FXFT_Get_Charmap_Encoding(FXFT_Get_Face_Charmap(m_Font.GetFace())) ==
FXFT_ENCODING_UNICODE) {
WideString unicode_str = UnicodeFromCharCode(charcode);
if (unicode_str.IsEmpty())
return -1;
charcode = unicode_str[0];
}
return GetGlyphIndex(charcode, pVertGlyph);
}
uint32_t byte_pos = cid * 2;
if (byte_pos + 2 > m_pStreamAcc->GetSize())
return -1;
const uint8_t* pdata = m_pStreamAcc->GetData() + byte_pos;
return pdata[0] * 256 + pdata[1];
}
uint32_t CPDF_CIDFont::GetNextChar(const ByteStringView& pString,
size_t* pOffset) const {
return m_pCMap->GetNextChar(pString, pOffset);
}
int CPDF_CIDFont::GetCharSize(uint32_t charcode) const {
return m_pCMap->GetCharSize(charcode);
}
size_t CPDF_CIDFont::CountChar(const ByteStringView& pString) const {
return m_pCMap->CountChar(pString);
}
int CPDF_CIDFont::AppendChar(char* str, uint32_t charcode) const {
return m_pCMap->AppendChar(str, charcode);
}
bool CPDF_CIDFont::IsUnicodeCompatible() const {
if (m_pCID2UnicodeMap && m_pCID2UnicodeMap->IsLoaded() && m_pCMap->IsLoaded())
return true;
return m_pCMap->GetCoding() != CIDCODING_UNKNOWN;
}
void CPDF_CIDFont::LoadSubstFont() {
pdfium::base::CheckedNumeric<int> safeStemV(m_StemV);
safeStemV *= 5;
m_Font.LoadSubst(m_BaseFont, !m_bType1, m_Flags,
safeStemV.ValueOrDefault(FXFONT_FW_NORMAL), m_ItalicAngle,
g_CharsetCPs[m_Charset], IsVertWriting());
}
void CPDF_CIDFont::LoadMetricsArray(const CPDF_Array* pArray,
std::vector<uint32_t>* result,
int nElements) {
int width_status = 0;
int iCurElement = 0;
uint32_t first_code = 0;
uint32_t last_code = 0;
for (size_t i = 0; i < pArray->GetCount(); i++) {
const CPDF_Object* pObj = pArray->GetDirectObjectAt(i);
if (!pObj)
continue;
if (const CPDF_Array* pObjArray = pObj->AsArray()) {
if (width_status != 1)
return;
if (first_code >
std::numeric_limits<uint32_t>::max() - pObjArray->GetCount()) {
width_status = 0;
continue;
}
for (size_t j = 0; j < pObjArray->GetCount(); j += nElements) {
result->push_back(first_code);
result->push_back(first_code);
for (int k = 0; k < nElements; k++)
result->push_back(pObjArray->GetIntegerAt(j + k));
first_code++;
}
width_status = 0;
} else {
if (width_status == 0) {
first_code = pObj->GetInteger();
width_status = 1;
} else if (width_status == 1) {
last_code = pObj->GetInteger();
width_status = 2;
iCurElement = 0;
} else {
if (!iCurElement) {
result->push_back(first_code);
result->push_back(last_code);
}
result->push_back(pObj->GetInteger());
iCurElement++;
if (iCurElement == nElements)
width_status = 0;
}
}
}
}
// static
float CPDF_CIDFont::CIDTransformToFloat(uint8_t ch) {
return (ch < 128 ? ch : ch - 255) * (1.0f / 127);
}
void CPDF_CIDFont::LoadGB2312() {
m_BaseFont = m_pFontDict->GetStringFor("BaseFont");
const CPDF_Dictionary* pFontDesc = m_pFontDict->GetDictFor("FontDescriptor");
if (pFontDesc)
LoadFontDescriptor(pFontDesc);
m_Charset = CIDSET_GB1;
CPDF_CMapManager* manager = GetFontGlobals()->GetCMapManager();
m_pCMap = manager->GetPredefinedCMap("GBK-EUC-H", false);
m_pCID2UnicodeMap = manager->GetCID2UnicodeMap(m_Charset, false);
if (!IsEmbedded())
LoadSubstFont();
CheckFontMetrics();
m_bAnsiWidthsFixed = true;
}
const uint8_t* CPDF_CIDFont::GetCIDTransform(uint16_t CID) const {
if (m_Charset != CIDSET_JAPAN1 || m_pFontFile)
return nullptr;
const auto* pEnd = g_Japan1_VertCIDs + FX_ArraySize(g_Japan1_VertCIDs);
const auto* pTransform = std::lower_bound(
g_Japan1_VertCIDs, pEnd, CID,
[](const CIDTransform& entry, uint16_t cid) { return entry.cid < cid; });
return (pTransform < pEnd && CID == pTransform->cid) ? &pTransform->a
: nullptr;
}
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