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pdfium / pdfium / refs/heads/chromium/3364 / . / core / fxge / cfx_fontmapper.cpp
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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/fxge/cfx_fontmapper.h"
#include <algorithm>
#include <memory>
#include <sstream>
#include <tuple>
#include <utility>
#include <vector>
#include "core/fxcrt/fx_codepage.h"
#include "core/fxge/cfx_fontmgr.h"
#include "core/fxge/cfx_substfont.h"
#include "core/fxge/fx_font.h"
#include "core/fxge/systemfontinfo_iface.h"
#include "third_party/base/stl_util.h"
namespace {
const int kNumStandardFonts = 14;
const char* const g_Base14FontNames[kNumStandardFonts] = {
"Courier",
"Courier-Bold",
"Courier-BoldOblique",
"Courier-Oblique",
"Helvetica",
"Helvetica-Bold",
"Helvetica-BoldOblique",
"Helvetica-Oblique",
"Times-Roman",
"Times-Bold",
"Times-BoldItalic",
"Times-Italic",
"Symbol",
"ZapfDingbats",
};
const struct AltFontName {
const char* m_pName;
int m_Index;
} g_AltFontNames[] = {
{"Arial", 4},
{"Arial,Bold", 5},
{"Arial,BoldItalic", 6},
{"Arial,Italic", 7},
{"Arial-Bold", 5},
{"Arial-BoldItalic", 6},
{"Arial-BoldItalicMT", 6},
{"Arial-BoldMT", 5},
{"Arial-Italic", 7},
{"Arial-ItalicMT", 7},
{"ArialBold", 5},
{"ArialBoldItalic", 6},
{"ArialItalic", 7},
{"ArialMT", 4},
{"ArialMT,Bold", 5},
{"ArialMT,BoldItalic", 6},
{"ArialMT,Italic", 7},
{"ArialRoundedMTBold", 5},
{"Courier", 0},
{"Courier,Bold", 1},
{"Courier,BoldItalic", 2},
{"Courier,Italic", 3},
{"Courier-Bold", 1},
{"Courier-BoldOblique", 2},
{"Courier-Oblique", 3},
{"CourierBold", 1},
{"CourierBoldItalic", 2},
{"CourierItalic", 3},
{"CourierNew", 0},
{"CourierNew,Bold", 1},
{"CourierNew,BoldItalic", 2},
{"CourierNew,Italic", 3},
{"CourierNew-Bold", 1},
{"CourierNew-BoldItalic", 2},
{"CourierNew-Italic", 3},
{"CourierNewBold", 1},
{"CourierNewBoldItalic", 2},
{"CourierNewItalic", 3},
{"CourierNewPS-BoldItalicMT", 2},
{"CourierNewPS-BoldMT", 1},
{"CourierNewPS-ItalicMT", 3},
{"CourierNewPSMT", 0},
{"CourierStd", 0},
{"CourierStd-Bold", 1},
{"CourierStd-BoldOblique", 2},
{"CourierStd-Oblique", 3},
{"Helvetica", 4},
{"Helvetica,Bold", 5},
{"Helvetica,BoldItalic", 6},
{"Helvetica,Italic", 7},
{"Helvetica-Bold", 5},
{"Helvetica-BoldItalic", 6},
{"Helvetica-BoldOblique", 6},
{"Helvetica-Italic", 7},
{"Helvetica-Oblique", 7},
{"HelveticaBold", 5},
{"HelveticaBoldItalic", 6},
{"HelveticaItalic", 7},
{"Symbol", 12},
{"SymbolMT", 12},
{"Times-Bold", 9},
{"Times-BoldItalic", 10},
{"Times-Italic", 11},
{"Times-Roman", 8},
{"TimesBold", 9},
{"TimesBoldItalic", 10},
{"TimesItalic", 11},
{"TimesNewRoman", 8},
{"TimesNewRoman,Bold", 9},
{"TimesNewRoman,BoldItalic", 10},
{"TimesNewRoman,Italic", 11},
{"TimesNewRoman-Bold", 9},
{"TimesNewRoman-BoldItalic", 10},
{"TimesNewRoman-Italic", 11},
{"TimesNewRomanBold", 9},
{"TimesNewRomanBoldItalic", 10},
{"TimesNewRomanItalic", 11},
{"TimesNewRomanPS", 8},
{"TimesNewRomanPS-Bold", 9},
{"TimesNewRomanPS-BoldItalic", 10},
{"TimesNewRomanPS-BoldItalicMT", 10},
{"TimesNewRomanPS-BoldMT", 9},
{"TimesNewRomanPS-Italic", 11},
{"TimesNewRomanPS-ItalicMT", 11},
{"TimesNewRomanPSMT", 8},
{"TimesNewRomanPSMT,Bold", 9},
{"TimesNewRomanPSMT,BoldItalic", 10},
{"TimesNewRomanPSMT,Italic", 11},
{"ZapfDingbats", 13},
};
const struct AltFontFamily {
const char* m_pFontName;
const char* m_pFontFamily;
} g_AltFontFamilies[] = {
{"AGaramondPro", "Adobe Garamond Pro"},
{"BankGothicBT-Medium", "BankGothic Md BT"},
{"ForteMT", "Forte"},
};
const struct CODEPAGE_MAP {
uint16_t codepage;
uint8_t charset;
} g_Codepage2CharsetTable[] = {
{0, 1}, {42, 2}, {437, 254}, {850, 255}, {874, 222},
{932, 128}, {936, 134}, {949, 129}, {950, 136}, {1250, 238},
{1251, 204}, {1252, 0}, {1253, 161}, {1254, 162}, {1255, 177},
{1256, 178}, {1257, 186}, {1258, 163}, {1361, 130}, {10000, 77},
{10001, 78}, {10002, 81}, {10003, 79}, {10004, 84}, {10005, 83},
{10006, 85}, {10007, 89}, {10008, 80}, {10021, 87}, {10029, 88},
{10081, 86},
};
ByteString TT_NormalizeName(const char* family) {
ByteString norm(family);
norm.Remove(' ');
norm.Remove('-');
norm.Remove(',');
auto pos = norm.Find('+');
if (pos.has_value() && pos.value() != 0)
norm = norm.Left(pos.value());
norm.MakeLower();
return norm;
}
uint8_t GetCharsetFromCodePage(uint16_t codepage) {
const CODEPAGE_MAP* pEnd =
g_Codepage2CharsetTable + FX_ArraySize(g_Codepage2CharsetTable);
const CODEPAGE_MAP* pCharmap =
std::lower_bound(g_Codepage2CharsetTable, pEnd, codepage,
[](const CODEPAGE_MAP& charset, uint16_t page) {
return charset.codepage < page;
});
if (pCharmap < pEnd && codepage == pCharmap->codepage)
return pCharmap->charset;
return FX_CHARSET_Default;
}
void GetFontFamily(uint32_t nStyle, ByteString* fontName) {
if (fontName->Contains("Script")) {
if (FontStyleIsBold(nStyle))
*fontName = "ScriptMTBold";
else if (fontName->Contains("Palace"))
*fontName = "PalaceScriptMT";
else if (fontName->Contains("French"))
*fontName = "FrenchScriptMT";
else if (fontName->Contains("FreeStyle"))
*fontName = "FreeStyleScript";
return;
}
for (const auto& alternate : g_AltFontFamilies) {
if (fontName->Contains(alternate.m_pFontName)) {
*fontName = alternate.m_pFontFamily;
return;
}
}
}
ByteString ParseStyle(const char* pStyle, int iLen, int iIndex) {
std::ostringstream buf;
if (!iLen || iLen <= iIndex)
return ByteString(buf);
while (iIndex < iLen) {
if (pStyle[iIndex] == ',')
break;
buf << pStyle[iIndex];
++iIndex;
}
return ByteString(buf);
}
const struct FX_FontStyle {
const char* name;
size_t len;
uint32_t style;
} g_FontStyles[] = {
{"Bold", 4, FXFONT_BOLD},
{"Italic", 6, FXFONT_ITALIC},
{"BoldItalic", 10, FXFONT_BOLD | FXFONT_ITALIC},
{"Reg", 3, FXFONT_NORMAL},
{"Regular", 7, FXFONT_NORMAL},
};
// <exists, index, length>
std::tuple<bool, uint32_t, size_t> GetStyleType(const ByteString& bsStyle,
bool bReverse) {
if (bsStyle.IsEmpty())
return std::make_tuple(false, FXFONT_NORMAL, 0);
for (int i = FX_ArraySize(g_FontStyles) - 1; i >= 0; --i) {
const FX_FontStyle* pStyle = g_FontStyles + i;
if (!pStyle || pStyle->len > bsStyle.GetLength())
continue;
if (bReverse) {
if (bsStyle.Right(pStyle->len).Compare(pStyle->name) == 0)
return std::make_tuple(true, pStyle->style, pStyle->len);
} else {
if (bsStyle.Left(pStyle->len).Compare(pStyle->name) == 0)
return std::make_tuple(true, pStyle->style, pStyle->len);
}
}
return std::make_tuple(false, FXFONT_NORMAL, 0);
}
bool CheckSupportThirdPartFont(const ByteString& name, int* PitchFamily) {
if (name != "MyriadPro")
return false;
*PitchFamily &= ~FXFONT_FF_ROMAN;
return true;
}
void UpdatePitchFamily(uint32_t flags, int* PitchFamily) {
if (FontStyleIsSerif(flags))
*PitchFamily |= FXFONT_FF_ROMAN;
if (FontStyleIsScript(flags))
*PitchFamily |= FXFONT_FF_SCRIPT;
if (FontStyleIsFixedPitch(flags))
*PitchFamily |= FXFONT_FF_FIXEDPITCH;
}
} // namespace
CFX_FontMapper::CFX_FontMapper(CFX_FontMgr* mgr)
: m_bListLoaded(false), m_pFontMgr(mgr) {
m_MMFaces[0] = nullptr;
m_MMFaces[1] = nullptr;
memset(m_FoxitFaces, 0, sizeof(m_FoxitFaces));
}
CFX_FontMapper::~CFX_FontMapper() {
for (size_t i = 0; i < FX_ArraySize(m_FoxitFaces); ++i) {
if (m_FoxitFaces[i])
FXFT_Done_Face(m_FoxitFaces[i]);
}
if (m_MMFaces[0])
FXFT_Done_Face(m_MMFaces[0]);
if (m_MMFaces[1])
FXFT_Done_Face(m_MMFaces[1]);
}
void CFX_FontMapper::SetSystemFontInfo(
std::unique_ptr<SystemFontInfoIface> pFontInfo) {
if (!pFontInfo)
return;
m_pFontInfo = std::move(pFontInfo);
}
ByteString CFX_FontMapper::GetPSNameFromTT(void* hFont) {
if (!m_pFontInfo)
return ByteString();
uint32_t size = m_pFontInfo->GetFontData(hFont, kTableNAME, nullptr, 0);
if (!size)
return ByteString();
std::vector<uint8_t> buffer(size);
uint8_t* buffer_ptr = buffer.data();
uint32_t bytes_read =
m_pFontInfo->GetFontData(hFont, kTableNAME, buffer_ptr, size);
return bytes_read == size ? GetNameFromTT(buffer_ptr, bytes_read, 6)
: ByteString();
}
void CFX_FontMapper::AddInstalledFont(const ByteString& name, int charset) {
if (!m_pFontInfo)
return;
m_FaceArray.push_back({name, static_cast<uint32_t>(charset)});
if (name == m_LastFamily)
return;
bool bLocalized = std::any_of(name.begin(), name.end(), [](const char& c) {
return static_cast<uint8_t>(c) > 0x80;
});
if (bLocalized) {
void* hFont = m_pFontInfo->GetFont(name.c_str());
if (!hFont) {
hFont = m_pFontInfo->MapFont(0, 0, FX_CHARSET_Default, 0, name.c_str());
if (!hFont)
return;
}
ByteString new_name = GetPSNameFromTT(hFont);
if (!new_name.IsEmpty())
m_LocalizedTTFonts.push_back(std::make_pair(new_name, name));
m_pFontInfo->DeleteFont(hFont);
}
m_InstalledTTFonts.push_back(name);
m_LastFamily = name;
}
void CFX_FontMapper::LoadInstalledFonts() {
if (!m_pFontInfo || m_bListLoaded)
return;
m_pFontInfo->EnumFontList(this);
m_bListLoaded = true;
}
ByteString CFX_FontMapper::MatchInstalledFonts(const ByteString& norm_name) {
LoadInstalledFonts();
int i;
for (i = pdfium::CollectionSize<int>(m_InstalledTTFonts) - 1; i >= 0; i--) {
ByteString norm1 = TT_NormalizeName(m_InstalledTTFonts[i].c_str());
if (norm1 == norm_name)
return m_InstalledTTFonts[i];
}
for (i = pdfium::CollectionSize<int>(m_LocalizedTTFonts) - 1; i >= 0; i--) {
ByteString norm1 = TT_NormalizeName(m_LocalizedTTFonts[i].first.c_str());
if (norm1 == norm_name)
return m_LocalizedTTFonts[i].second;
}
return ByteString();
}
FXFT_Face CFX_FontMapper::UseInternalSubst(CFX_SubstFont* pSubstFont,
int iBaseFont,
int italic_angle,
int weight,
int pitch_family) {
if (iBaseFont < kNumStandardFonts) {
if (m_FoxitFaces[iBaseFont])
return m_FoxitFaces[iBaseFont];
const uint8_t* pFontData = nullptr;
uint32_t size = 0;
if (m_pFontMgr->GetBuiltinFont(iBaseFont, &pFontData, &size)) {
m_FoxitFaces[iBaseFont] = m_pFontMgr->GetFixedFace(pFontData, size, 0);
return m_FoxitFaces[iBaseFont];
}
}
pSubstFont->m_bFlagMM = true;
pSubstFont->m_ItalicAngle = italic_angle;
if (weight)
pSubstFont->m_Weight = weight;
if (FontFamilyIsRoman(pitch_family)) {
pSubstFont->m_Weight = pSubstFont->m_Weight * 4 / 5;
pSubstFont->m_Family = "Chrome Serif";
if (m_MMFaces[1])
return m_MMFaces[1];
const uint8_t* pFontData = nullptr;
uint32_t size = 0;
m_pFontMgr->GetBuiltinFont(14, &pFontData, &size);
m_MMFaces[1] = m_pFontMgr->GetFixedFace(pFontData, size, 0);
return m_MMFaces[1];
}
pSubstFont->m_Family = "Chrome Sans";
if (m_MMFaces[0])
return m_MMFaces[0];
const uint8_t* pFontData = nullptr;
uint32_t size = 0;
m_pFontMgr->GetBuiltinFont(15, &pFontData, &size);
m_MMFaces[0] = m_pFontMgr->GetFixedFace(pFontData, size, 0);
return m_MMFaces[0];
}
FXFT_Face CFX_FontMapper::FindSubstFont(const ByteString& name,
bool bTrueType,
uint32_t flags,
int weight,
int italic_angle,
int WindowCP,
CFX_SubstFont* pSubstFont) {
if (weight == 0)
weight = FXFONT_FW_NORMAL;
if (!(flags & FXFONT_USEEXTERNATTR)) {
weight = FXFONT_FW_NORMAL;
italic_angle = 0;
}
ByteString SubstName = name;
SubstName.Remove(' ');
if (bTrueType && name.GetLength() > 0 && name[0] == '@')
SubstName = name.Right(name.GetLength() - 1);
PDF_GetStandardFontName(&SubstName);
if (SubstName == "Symbol" && !bTrueType) {
pSubstFont->m_Family = "Chrome Symbol";
pSubstFont->m_Charset = FX_CHARSET_Symbol;
return UseInternalSubst(pSubstFont, 12, italic_angle, weight, 0);
}
if (SubstName == "ZapfDingbats") {
pSubstFont->m_Family = "Chrome Dingbats";
pSubstFont->m_Charset = FX_CHARSET_Symbol;
return UseInternalSubst(pSubstFont, 13, italic_angle, weight, 0);
}
int iBaseFont = 0;
ByteString family;
ByteString style;
bool bHasComma = false;
bool bHasHyphen = false;
auto pos = SubstName.Find(",", 0);
if (pos.has_value()) {
family = SubstName.Left(pos.value());
PDF_GetStandardFontName(&family);
style = SubstName.Right(SubstName.GetLength() - (pos.value() + 1));
bHasComma = true;
} else {
family = SubstName;
}
for (; iBaseFont < 12; iBaseFont++) {
if (family == ByteStringView(g_Base14FontNames[iBaseFont]))
break;
}
int PitchFamily = 0;
bool bItalic = false;
uint32_t nStyle = FXFONT_NORMAL;
bool bStyleAvail = false;
if (iBaseFont < 12) {
if ((iBaseFont % 4) == 1 || (iBaseFont % 4) == 2)
nStyle |= FXFONT_BOLD;
if ((iBaseFont % 4) / 2)
nStyle |= FXFONT_ITALIC;
if (iBaseFont < 4)
PitchFamily |= FXFONT_FF_FIXEDPITCH;
if (iBaseFont >= 8)
PitchFamily |= FXFONT_FF_ROMAN;
} else {
iBaseFont = kNumStandardFonts;
if (!bHasComma) {
pos = family.ReverseFind('-');
if (pos.has_value()) {
style = family.Right(family.GetLength() - (pos.value() + 1));
family = family.Left(pos.value());
bHasHyphen = true;
}
}
if (!bHasHyphen) {
int nLen = family.GetLength();
bool hasStyleType;
uint32_t styleType;
size_t len;
std::tie(hasStyleType, styleType, len) = GetStyleType(family, true);
if (hasStyleType) {
family = family.Left(nLen - len);
nStyle |= styleType;
}
}
UpdatePitchFamily(flags, &PitchFamily);
}
int old_weight = weight;
if (FontStyleIsBold(nStyle))
weight = FXFONT_FW_BOLD;
if (!style.IsEmpty()) {
int nLen = style.GetLength();
const char* pStyle = style.c_str();
int i = 0;
bool bFirstItem = true;
ByteString buf;
while (i < nLen) {
buf = ParseStyle(pStyle, nLen, i);
bool hasStyleType;
uint32_t styleType;
size_t len;
std::tie(hasStyleType, styleType, len) = GetStyleType(buf, false);
if ((i && !bStyleAvail) || (!i && !hasStyleType)) {
family = SubstName;
iBaseFont = kNumStandardFonts;
break;
}
if (hasStyleType)
bStyleAvail = true;
if (FontStyleIsBold(styleType)) {
// If we're already bold, then we're double bold, use special weight.
if (FontStyleIsBold(nStyle)) {
weight = FXFONT_FW_BOLD_BOLD;
} else {
weight = FXFONT_FW_BOLD;
nStyle |= FXFONT_BOLD;
}
bFirstItem = false;
}
if (FontStyleIsItalic(styleType) && FontStyleIsBold(styleType)) {
nStyle |= FXFONT_ITALIC;
} else if (FontStyleIsItalic(styleType)) {
if (bFirstItem) {
nStyle |= FXFONT_ITALIC;
} else {
family = SubstName;
iBaseFont = kNumStandardFonts;
}
break;
}
i += buf.GetLength() + 1;
}
}
if (FontStyleIsItalic(nStyle))
bItalic = true;
int Charset = FX_CHARSET_ANSI;
if (WindowCP)
Charset = GetCharsetFromCodePage(WindowCP);
else if (iBaseFont == kNumStandardFonts && FontStyleIsSymbolic(flags))
Charset = FX_CHARSET_Symbol;
bool bCJK = (Charset == FX_CHARSET_ShiftJIS ||
Charset == FX_CHARSET_ChineseSimplified ||
Charset == FX_CHARSET_Hangul ||
Charset == FX_CHARSET_ChineseTraditional);
if (!m_pFontInfo) {
return UseInternalSubst(pSubstFont, iBaseFont, italic_angle, old_weight,
PitchFamily);
}
GetFontFamily(nStyle, &family);
ByteString match = MatchInstalledFonts(TT_NormalizeName(family.c_str()));
if (match.IsEmpty() && family != SubstName &&
(!bHasComma && (!bHasHyphen || (bHasHyphen && !bStyleAvail)))) {
match = MatchInstalledFonts(TT_NormalizeName(SubstName.c_str()));
}
if (match.IsEmpty() && iBaseFont >= kNumStandardFonts) {
if (!bCJK) {
if (!CheckSupportThirdPartFont(family, &PitchFamily)) {
bItalic = italic_angle != 0;
weight = old_weight;
}
#if _FX_PLATFORM_ == _FX_PLATFORM_LINUX_
const char* narrow_family = "LiberationSansNarrow";
#elif _FX_PLATFORM_ == _FX_PLATFORM_ANDROID_
const char* narrow_family = "RobotoCondensed";
#else
const char* narrow_family = "ArialNarrow";
#endif // _FX_PLATFORM_ == _FX_PLATFORM_LINUX_
auto pos = SubstName.Find("Narrow");
if (pos.has_value() && pos.value() != 0)
family = narrow_family;
pos = SubstName.Find("Condensed");
if (pos.has_value() && pos.value() != 0)
family = narrow_family;
} else {
pSubstFont->m_bSubstCJK = true;
if (nStyle)
pSubstFont->m_WeightCJK = nStyle ? weight : FXFONT_FW_NORMAL;
if (FontStyleIsItalic(nStyle))
pSubstFont->m_bItalicCJK = true;
}
} else {
italic_angle = 0;
}
if (!match.IsEmpty() || iBaseFont < kNumStandardFonts) {
if (!match.IsEmpty())
family = match;
if (iBaseFont < kNumStandardFonts) {
if (nStyle && !(iBaseFont % 4)) {
if (FontStyleIsBold(nStyle) && FontStyleIsItalic(nStyle))
iBaseFont += 2;
else if (FontStyleIsBold(nStyle))
iBaseFont += 1;
else if (FontStyleIsItalic(nStyle))
iBaseFont += 3;
}
family = g_Base14FontNames[iBaseFont];
}
} else if (FontStyleIsItalic(flags)) {
bItalic = true;
}
void* hFont = m_pFontInfo->MapFont(weight, bItalic, Charset, PitchFamily,
family.c_str());
if (!hFont) {
#ifdef PDF_ENABLE_XFA
if (flags & FXFONT_EXACTMATCH)
return nullptr;
#endif // PDF_ENABLE_XFA
if (bCJK) {
bItalic = italic_angle != 0;
weight = old_weight;
}
if (!match.IsEmpty()) {
hFont = m_pFontInfo->GetFont(match.c_str());
if (!hFont) {
return UseInternalSubst(pSubstFont, iBaseFont, italic_angle, old_weight,
PitchFamily);
}
} else {
if (Charset == FX_CHARSET_Symbol) {
#if _FX_PLATFORM_ == _FX_PLATFORM_APPLE_ || \
_FX_PLATFORM_ == _FX_PLATFORM_ANDROID_
if (SubstName == "Symbol") {
pSubstFont->m_Family = "Chrome Symbol";
pSubstFont->m_Charset = FX_CHARSET_Symbol;
return UseInternalSubst(pSubstFont, 12, italic_angle, old_weight,
PitchFamily);
}
#endif
return FindSubstFont(family, bTrueType, flags & ~FXFONT_SYMBOLIC,
weight, italic_angle, 0, pSubstFont);
}
if (Charset == FX_CHARSET_ANSI) {
return UseInternalSubst(pSubstFont, iBaseFont, italic_angle, old_weight,
PitchFamily);
}
auto it =
std::find_if(m_FaceArray.begin(), m_FaceArray.end(),
[Charset](const FaceData& face) {
return face.charset == static_cast<uint32_t>(Charset);
});
if (it == m_FaceArray.end()) {
return UseInternalSubst(pSubstFont, iBaseFont, italic_angle, old_weight,
PitchFamily);
}
hFont = m_pFontInfo->GetFont(it->name.c_str());
}
}
if (!hFont)
return nullptr;
m_pFontInfo->GetFaceName(hFont, &SubstName);
if (Charset == FX_CHARSET_Default)
m_pFontInfo->GetFontCharset(hFont, &Charset);
uint32_t ttc_size = m_pFontInfo->GetFontData(hFont, kTableTTCF, nullptr, 0);
uint32_t font_size = m_pFontInfo->GetFontData(hFont, 0, nullptr, 0);
if (font_size == 0 && ttc_size == 0) {
m_pFontInfo->DeleteFont(hFont);
return nullptr;
}
FXFT_Face face = nullptr;
if (ttc_size)
face = GetCachedTTCFace(hFont, kTableTTCF, ttc_size, font_size);
else
face = GetCachedFace(hFont, SubstName, weight, bItalic, font_size);
if (!face) {
m_pFontInfo->DeleteFont(hFont);
return nullptr;
}
pSubstFont->m_Family = SubstName;
pSubstFont->m_Charset = Charset;
bool bNeedUpdateWeight = false;
if (FXFT_Is_Face_Bold(face))
bNeedUpdateWeight = weight != FXFONT_FW_BOLD;
else
bNeedUpdateWeight = weight != FXFONT_FW_NORMAL;
if (bNeedUpdateWeight)
pSubstFont->m_Weight = weight;
if (bItalic && !FXFT_Is_Face_Italic(face)) {
if (italic_angle == 0)
italic_angle = -12;
else if (abs(italic_angle) < 5)
italic_angle = 0;
pSubstFont->m_ItalicAngle = italic_angle;
}
m_pFontInfo->DeleteFont(hFont);
return face;
}
#ifdef PDF_ENABLE_XFA
FXFT_Face CFX_FontMapper::FindSubstFontByUnicode(uint32_t dwUnicode,
uint32_t flags,
int weight,
int italic_angle) {
if (!m_pFontInfo)
return nullptr;
bool bItalic = (flags & FXFONT_ITALIC) != 0;
int PitchFamily = 0;
UpdatePitchFamily(flags, &PitchFamily);
void* hFont =
m_pFontInfo->MapFontByUnicode(dwUnicode, weight, bItalic, PitchFamily);
if (!hFont)
return nullptr;
uint32_t ttc_size = m_pFontInfo->GetFontData(hFont, 0x74746366, nullptr, 0);
uint32_t font_size = m_pFontInfo->GetFontData(hFont, 0, nullptr, 0);
if (font_size == 0 && ttc_size == 0) {
m_pFontInfo->DeleteFont(hFont);
return nullptr;
}
FXFT_Face face = nullptr;
if (ttc_size) {
face = GetCachedTTCFace(hFont, 0x74746366, ttc_size, font_size);
} else {
ByteString SubstName;
m_pFontInfo->GetFaceName(hFont, &SubstName);
face = GetCachedFace(hFont, SubstName, weight, bItalic, font_size);
}
m_pFontInfo->DeleteFont(hFont);
return face;
}
#endif // PDF_ENABLE_XFA
int CFX_FontMapper::GetFaceSize() const {
return pdfium::CollectionSize<int>(m_FaceArray);
}
bool CFX_FontMapper::IsBuiltinFace(const FXFT_Face face) const {
for (size_t i = 0; i < MM_FACE_COUNT; ++i) {
if (m_MMFaces[i] == face)
return true;
}
for (size_t i = 0; i < FOXIT_FACE_COUNT; ++i) {
if (m_FoxitFaces[i] == face)
return true;
}
return false;
}
FXFT_Face CFX_FontMapper::GetCachedTTCFace(void* hFont,
const uint32_t tableTTCF,
uint32_t ttc_size,
uint32_t font_size) {
uint8_t buffer[1024];
m_pFontInfo->GetFontData(hFont, tableTTCF, buffer, FX_ArraySize(buffer));
uint32_t* pBuffer = reinterpret_cast<uint32_t*>(buffer);
uint32_t checksum = 0;
for (int i = 0; i < 256; i++)
checksum += pBuffer[i];
uint8_t* pFontData;
FXFT_Face face = m_pFontMgr->GetCachedTTCFace(
ttc_size, checksum, ttc_size - font_size, &pFontData);
if (!face) {
pFontData = FX_Alloc(uint8_t, ttc_size);
m_pFontInfo->GetFontData(hFont, tableTTCF, pFontData, ttc_size);
face = m_pFontMgr->AddCachedTTCFace(ttc_size, checksum, pFontData, ttc_size,
ttc_size - font_size);
}
return face;
}
FXFT_Face CFX_FontMapper::GetCachedFace(void* hFont,
ByteString SubstName,
int weight,
bool bItalic,
uint32_t font_size) {
uint8_t* pFontData;
FXFT_Face face =
m_pFontMgr->GetCachedFace(SubstName, weight, bItalic, &pFontData);
if (!face) {
pFontData = FX_Alloc(uint8_t, font_size);
m_pFontInfo->GetFontData(hFont, 0, pFontData, font_size);
face =
m_pFontMgr->AddCachedFace(SubstName, weight, bItalic, pFontData,
font_size, m_pFontInfo->GetFaceIndex(hFont));
}
return face;
}
int PDF_GetStandardFontName(ByteString* name) {
const auto* end = std::end(g_AltFontNames);
const auto* found =
std::lower_bound(std::begin(g_AltFontNames), end, name->c_str(),
[](const AltFontName& element, const char* name) {
return FXSYS_stricmp(element.m_pName, name) < 0;
});
if (found == end || FXSYS_stricmp(found->m_pName, name->c_str()))
return -1;
*name = g_Base14FontNames[found->m_Index];
return found->m_Index;
}