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|
// Copyright 2015 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 "xfa/fgas/font/cfgas_fontmgr.h"
#include <algorithm>
#include <memory>
#include <utility>
#include "core/fxcrt/cfx_memorystream.h"
#include "core/fxcrt/fx_codepage.h"
#include "core/fxge/cfx_font.h"
#include "core/fxge/cfx_fontmapper.h"
#include "core/fxge/cfx_fontmgr.h"
#include "core/fxge/cfx_gemodule.h"
#include "core/fxge/fx_font.h"
#include "core/fxge/systemfontinfo_iface.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/stl_util.h"
#include "xfa/fgas/font/cfgas_gefont.h"
#include "xfa/fgas/font/fgas_fontutils.h"
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
namespace {
int32_t GetSimilarityScore(FX_FONTDESCRIPTOR const* pFont,
uint32_t dwFontStyles) {
int32_t iValue = 0;
if (FontStyleIsSymbolic(dwFontStyles) ==
FontStyleIsSymbolic(pFont->dwFontStyles)) {
iValue += 64;
}
if (FontStyleIsFixedPitch(dwFontStyles) ==
FontStyleIsFixedPitch(pFont->dwFontStyles)) {
iValue += 32;
}
if (FontStyleIsSerif(dwFontStyles) == FontStyleIsSerif(pFont->dwFontStyles))
iValue += 16;
if (FontStyleIsScript(dwFontStyles) == FontStyleIsScript(pFont->dwFontStyles))
iValue += 8;
return iValue;
}
const FX_FONTDESCRIPTOR* MatchDefaultFont(
FX_FONTMATCHPARAMS* pParams,
const std::deque<FX_FONTDESCRIPTOR>& fonts) {
const FX_FONTDESCRIPTOR* pBestFont = nullptr;
int32_t iBestSimilar = 0;
for (const auto& font : fonts) {
if (FontStyleIsBold(font.dwFontStyles) &&
FontStyleIsItalic(font.dwFontStyles)) {
continue;
}
if (pParams->pwsFamily) {
if (FXSYS_wcsicmp(pParams->pwsFamily, font.wsFontFace))
continue;
if (font.uCharSet == FX_CHARSET_Symbol)
return &font;
}
if (font.uCharSet == FX_CHARSET_Symbol)
continue;
if (pParams->wCodePage != 0xFFFF) {
if (FX_GetCodePageFromCharset(font.uCharSet) != pParams->wCodePage)
continue;
} else {
if (pParams->dwUSB < 128) {
uint32_t dwByte = pParams->dwUSB / 32;
uint32_t dwUSB = 1 << (pParams->dwUSB % 32);
if ((font.FontSignature.fsUsb[dwByte] & dwUSB) == 0)
continue;
}
}
if (pParams->matchParagraphStyle) {
if ((font.dwFontStyles & 0x0F) == (pParams->dwFontStyles & 0x0F))
return &font;
continue;
}
if (pParams->pwsFamily) {
if (FXSYS_wcsicmp(pParams->pwsFamily, font.wsFontFace) == 0)
return &font;
}
int32_t iSimilarValue = GetSimilarityScore(&font, pParams->dwFontStyles);
if (iBestSimilar < iSimilarValue) {
iBestSimilar = iSimilarValue;
pBestFont = &font;
}
}
return iBestSimilar < 1 ? nullptr : pBestFont;
}
uint32_t GetGdiFontStyles(const LOGFONTW& lf) {
uint32_t dwStyles = 0;
if ((lf.lfPitchAndFamily & 0x03) == FIXED_PITCH)
dwStyles |= FXFONT_FIXED_PITCH;
uint8_t nFamilies = lf.lfPitchAndFamily & 0xF0;
if (nFamilies == FF_ROMAN)
dwStyles |= FXFONT_SERIF;
if (nFamilies == FF_SCRIPT)
dwStyles |= FXFONT_SCRIPT;
if (lf.lfCharSet == SYMBOL_CHARSET)
dwStyles |= FXFONT_SYMBOLIC;
return dwStyles;
}
int32_t CALLBACK GdiFontEnumProc(ENUMLOGFONTEX* lpelfe,
NEWTEXTMETRICEX* lpntme,
DWORD dwFontType,
LPARAM lParam) {
if (dwFontType != TRUETYPE_FONTTYPE)
return 1;
const LOGFONTW& lf = ((LPENUMLOGFONTEXW)lpelfe)->elfLogFont;
if (lf.lfFaceName[0] == L'@')
return 1;
FX_FONTDESCRIPTOR font;
memset(&font, 0, sizeof(FX_FONTDESCRIPTOR));
font.uCharSet = lf.lfCharSet;
font.dwFontStyles = GetGdiFontStyles(lf);
FXSYS_wcsncpy(font.wsFontFace, (const wchar_t*)lf.lfFaceName, 31);
font.wsFontFace[31] = 0;
memcpy(&font.FontSignature, &lpntme->ntmFontSig, sizeof(lpntme->ntmFontSig));
reinterpret_cast<std::deque<FX_FONTDESCRIPTOR>*>(lParam)->push_back(font);
return 1;
}
std::deque<FX_FONTDESCRIPTOR> EnumGdiFonts(const wchar_t* pwsFaceName,
wchar_t wUnicode) {
std::deque<FX_FONTDESCRIPTOR> fonts;
LOGFONTW lfFind;
memset(&lfFind, 0, sizeof(lfFind));
lfFind.lfCharSet = DEFAULT_CHARSET;
if (pwsFaceName) {
FXSYS_wcsncpy(lfFind.lfFaceName, pwsFaceName, 31);
lfFind.lfFaceName[31] = 0;
}
HDC hDC = ::GetDC(nullptr);
EnumFontFamiliesExW(hDC, (LPLOGFONTW)&lfFind, (FONTENUMPROCW)GdiFontEnumProc,
(LPARAM)&fonts, 0);
::ReleaseDC(nullptr, hDC);
return fonts;
}
} // namespace
CFGAS_FontMgr::CFGAS_FontMgr() : m_FontFaces(EnumGdiFonts(nullptr, 0xFEFF)) {}
CFGAS_FontMgr::~CFGAS_FontMgr() = default;
bool CFGAS_FontMgr::EnumFonts() {
return true;
}
const FX_FONTDESCRIPTOR* CFGAS_FontMgr::FindFont(const wchar_t* pszFontFamily,
uint32_t dwFontStyles,
bool matchParagraphStyle,
uint16_t wCodePage,
uint32_t dwUSB,
wchar_t wUnicode) {
FX_FONTMATCHPARAMS params;
memset(¶ms, 0, sizeof(params));
params.dwUSB = dwUSB;
params.wUnicode = wUnicode;
params.wCodePage = wCodePage;
params.pwsFamily = pszFontFamily;
params.dwFontStyles = dwFontStyles;
params.matchParagraphStyle = matchParagraphStyle;
const FX_FONTDESCRIPTOR* pDesc = MatchDefaultFont(¶ms, m_FontFaces);
if (pDesc)
return pDesc;
if (!pszFontFamily)
return nullptr;
// Use a named object to store the returned value of EnumGdiFonts() instead
// of using a temporary object. This can prevent use-after-free issues since
// pDesc may point to one of std::deque object's elements.
std::deque<FX_FONTDESCRIPTOR> namedFonts =
EnumGdiFonts(pszFontFamily, wUnicode);
params.pwsFamily = nullptr;
pDesc = MatchDefaultFont(¶ms, namedFonts);
if (!pDesc)
return nullptr;
auto it = std::find(m_FontFaces.rbegin(), m_FontFaces.rend(), *pDesc);
if (it != m_FontFaces.rend())
return &*it;
m_FontFaces.push_back(*pDesc);
return &m_FontFaces.back();
}
#else // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
namespace {
constexpr const char* g_FontFolders[] = {
#if _FX_PLATFORM_ == _FX_PLATFORM_LINUX_
"/usr/share/fonts", "/usr/share/X11/fonts/Type1",
"/usr/share/X11/fonts/TTF", "/usr/local/share/fonts",
#elif _FX_PLATFORM_ == _FX_PLATFORM_APPLE_
"~/Library/Fonts", "/Library/Fonts", "/System/Library/Fonts",
#elif _FX_PLATFORM_ == _FX_PLATFORM_ANDROID_
"/system/fonts",
#endif
};
const uint16_t g_CodePages[] = {FX_CODEPAGE_MSWin_WesternEuropean,
FX_CODEPAGE_MSWin_EasternEuropean,
FX_CODEPAGE_MSWin_Cyrillic,
FX_CODEPAGE_MSWin_Greek,
FX_CODEPAGE_MSWin_Turkish,
FX_CODEPAGE_MSWin_Hebrew,
FX_CODEPAGE_MSWin_Arabic,
FX_CODEPAGE_MSWin_Baltic,
FX_CODEPAGE_MSWin_Vietnamese,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_MSDOS_Thai,
FX_CODEPAGE_ShiftJIS,
FX_CODEPAGE_ChineseSimplified,
FX_CODEPAGE_Hangul,
FX_CODEPAGE_ChineseTraditional,
FX_CODEPAGE_Johab,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_DefANSI,
FX_CODEPAGE_MSDOS_Greek2,
FX_CODEPAGE_MSDOS_Russian,
FX_CODEPAGE_MSDOS_Norwegian,
FX_CODEPAGE_MSDOS_Arabic,
FX_CODEPAGE_MSDOS_FrenchCanadian,
FX_CODEPAGE_MSDOS_Hebrew,
FX_CODEPAGE_MSDOS_Icelandic,
FX_CODEPAGE_MSDOS_Portuguese,
FX_CODEPAGE_MSDOS_Turkish,
FX_CODEPAGE_MSDOS_Cyrillic,
FX_CODEPAGE_MSDOS_EasternEuropean,
FX_CODEPAGE_MSDOS_Baltic,
FX_CODEPAGE_MSDOS_Greek1,
FX_CODEPAGE_Arabic_ASMO708,
FX_CODEPAGE_MSDOS_WesternEuropean,
FX_CODEPAGE_MSDOS_US};
uint16_t FX_GetCodePageBit(uint16_t wCodePage) {
for (size_t i = 0; i < FX_ArraySize(g_CodePages); ++i) {
if (g_CodePages[i] == wCodePage)
return static_cast<uint16_t>(i);
}
return static_cast<uint16_t>(-1);
}
uint16_t FX_GetUnicodeBit(wchar_t wcUnicode) {
const FGAS_FONTUSB* x = FGAS_GetUnicodeBitField(wcUnicode);
return x ? x->wBitField : 999;
}
inline uint8_t GetUInt8(const uint8_t* p) {
return p[0];
}
inline uint16_t GetUInt16(const uint8_t* p) {
return static_cast<uint16_t>(p[0] << 8 | p[1]);
}
constexpr wchar_t kFolderSeparator = L'/';
extern "C" {
unsigned long ftStreamRead(FXFT_Stream stream,
unsigned long offset,
unsigned char* buffer,
unsigned long count) {
if (count == 0)
return 0;
IFX_SeekableReadStream* pFile =
static_cast<IFX_SeekableReadStream*>(stream->descriptor.pointer);
if (!pFile->ReadBlock(buffer, offset, count))
return 0;
return count;
}
void ftStreamClose(FXFT_Stream stream) {}
}; // extern "C"
// TODO(thestig): Pass in |name_table| as a std::vector?
std::vector<WideString> GetNames(const uint8_t* name_table) {
std::vector<WideString> results;
if (!name_table)
return results;
const uint8_t* lpTable = name_table;
WideString wsFamily;
const uint8_t* sp = lpTable + 2;
const uint8_t* lpNameRecord = lpTable + 6;
uint16_t nNameCount = GetUInt16(sp);
const uint8_t* lpStr = lpTable + GetUInt16(sp + 2);
for (uint16_t j = 0; j < nNameCount; j++) {
uint16_t nNameID = GetUInt16(lpNameRecord + j * 12 + 6);
if (nNameID != 1)
continue;
uint16_t nPlatformID = GetUInt16(lpNameRecord + j * 12 + 0);
uint16_t nNameLength = GetUInt16(lpNameRecord + j * 12 + 8);
uint16_t nNameOffset = GetUInt16(lpNameRecord + j * 12 + 10);
wsFamily.clear();
if (nPlatformID != 1) {
for (uint16_t k = 0; k < nNameLength / 2; k++) {
wchar_t wcTemp = GetUInt16(lpStr + nNameOffset + k * 2);
wsFamily += wcTemp;
}
results.push_back(wsFamily);
continue;
}
for (uint16_t k = 0; k < nNameLength; k++) {
wchar_t wcTemp = GetUInt8(lpStr + nNameOffset + k);
wsFamily += wcTemp;
}
results.push_back(wsFamily);
}
return results;
}
void GetUSBCSB(FXFT_Face pFace, uint32_t* USB, uint32_t* CSB) {
TT_OS2* pOS2 = static_cast<TT_OS2*>(FT_Get_Sfnt_Table(pFace, ft_sfnt_os2));
if (!pOS2) {
USB[0] = 0;
USB[1] = 0;
USB[2] = 0;
USB[3] = 0;
CSB[0] = 0;
CSB[1] = 0;
return;
}
USB[0] = pOS2->ulUnicodeRange1;
USB[1] = pOS2->ulUnicodeRange2;
USB[2] = pOS2->ulUnicodeRange3;
USB[3] = pOS2->ulUnicodeRange4;
CSB[0] = pOS2->ulCodePageRange1;
CSB[1] = pOS2->ulCodePageRange2;
}
uint32_t GetFlags(FXFT_Face pFace) {
uint32_t flags = 0;
if (FXFT_Is_Face_Bold(pFace))
flags |= FXFONT_BOLD;
if (FXFT_Is_Face_Italic(pFace))
flags |= FXFONT_ITALIC;
if (FT_IS_FIXED_WIDTH(pFace))
flags |= FXFONT_FIXED_PITCH;
TT_OS2* pOS2 = static_cast<TT_OS2*>(FT_Get_Sfnt_Table(pFace, ft_sfnt_os2));
if (!pOS2)
return flags;
if (pOS2->ulCodePageRange1 & (1 << 31))
flags |= FXFONT_SYMBOLIC;
if (pOS2->panose[0] == 2) {
uint8_t uSerif = pOS2->panose[1];
if ((uSerif > 1 && uSerif < 10) || uSerif > 13)
flags |= FXFONT_SERIF;
}
return flags;
}
RetainPtr<IFX_SeekableReadStream> CreateFontStream(
CFX_FontMapper* pFontMapper,
SystemFontInfoIface* pSystemFontInfo,
uint32_t index) {
void* hFont = pSystemFontInfo->MapFont(
0, 0, FX_CHARSET_Default, 0, pFontMapper->GetFaceName(index).c_str());
if (!hFont)
return nullptr;
uint32_t dwFileSize = pSystemFontInfo->GetFontData(hFont, 0, nullptr, 0);
if (dwFileSize == 0)
return nullptr;
std::unique_ptr<uint8_t, FxFreeDeleter> pBuffer(
FX_Alloc(uint8_t, dwFileSize + 1));
dwFileSize =
pSystemFontInfo->GetFontData(hFont, 0, pBuffer.get(), dwFileSize);
return pdfium::MakeRetain<CFX_MemoryStream>(std::move(pBuffer), dwFileSize);
}
RetainPtr<IFX_SeekableReadStream> CreateFontStream(
const ByteString& bsFaceName) {
CFX_FontMgr* pFontMgr = CFX_GEModule::Get()->GetFontMgr();
CFX_FontMapper* pFontMapper = pFontMgr->GetBuiltinMapper();
if (!pFontMapper)
return nullptr;
SystemFontInfoIface* pSystemFontInfo = pFontMapper->GetSystemFontInfo();
if (!pSystemFontInfo)
return nullptr;
pSystemFontInfo->EnumFontList(pFontMapper);
for (int32_t i = 0; i < pFontMapper->GetFaceSize(); ++i) {
if (pFontMapper->GetFaceName(i) == bsFaceName)
return CreateFontStream(pFontMapper, pSystemFontInfo, i);
}
return nullptr;
}
FXFT_Face LoadFace(const RetainPtr<IFX_SeekableReadStream>& pFontStream,
int32_t iFaceIndex) {
if (!pFontStream)
return nullptr;
CFX_FontMgr* pFontMgr = CFX_GEModule::Get()->GetFontMgr();
pFontMgr->InitFTLibrary();
FXFT_Library library = pFontMgr->GetFTLibrary();
if (!library)
return nullptr;
// TODO(palmer): This memory will be freed with |ft_free| (which is |free|).
// Ultimately, we want to change this to:
// FXFT_Stream ftStream = FX_Alloc(FXFT_StreamRec, 1);
// https://bugs.chromium.org/p/pdfium/issues/detail?id=690
FXFT_Stream ftStream =
static_cast<FXFT_Stream>(ft_scalloc(sizeof(FXFT_StreamRec), 1));
memset(ftStream, 0, sizeof(FXFT_StreamRec));
ftStream->base = nullptr;
ftStream->descriptor.pointer = static_cast<void*>(pFontStream.Get());
ftStream->pos = 0;
ftStream->size = static_cast<unsigned long>(pFontStream->GetSize());
ftStream->read = ftStreamRead;
ftStream->close = ftStreamClose;
FXFT_Open_Args ftArgs;
memset(&ftArgs, 0, sizeof(FXFT_Open_Args));
ftArgs.flags |= FT_OPEN_STREAM;
ftArgs.stream = ftStream;
FXFT_Face pFace = nullptr;
if (FXFT_Open_Face(library, &ftArgs, iFaceIndex, &pFace)) {
ft_sfree(ftStream);
return nullptr;
}
FXFT_Set_Pixel_Sizes(pFace, 0, 64);
return pFace;
}
bool VerifyUnicodeForFontDescriptor(CFX_FontDescriptor* pDesc,
wchar_t wcUnicode) {
RetainPtr<IFX_SeekableReadStream> pFileRead =
CreateFontStream(pDesc->m_wsFaceName.UTF8Encode());
if (!pFileRead)
return false;
FXFT_Face pFace = LoadFace(pFileRead, pDesc->m_nFaceIndex);
if (!pFace)
return false;
FT_Error retCharmap = FXFT_Select_Charmap(pFace, FXFT_ENCODING_UNICODE);
FT_Error retIndex = FXFT_Get_Char_Index(pFace, wcUnicode);
if (FXFT_Get_Face_External_Stream(pFace))
FXFT_Clear_Face_External_Stream(pFace);
FXFT_Done_Face(pFace);
return !retCharmap && retIndex;
}
bool IsPartName(const WideString& name1, const WideString& name2) {
return name1.Contains(name2.AsStringView());
}
int32_t CalcPenalty(CFX_FontDescriptor* pInstalled,
uint16_t wCodePage,
uint32_t dwFontStyles,
const WideString& FontName,
wchar_t wcUnicode) {
int32_t nPenalty = 30000;
if (FontName.GetLength() != 0) {
if (FontName != pInstalled->m_wsFaceName) {
size_t i;
for (i = 0; i < pInstalled->m_wsFamilyNames.size(); ++i) {
if (pInstalled->m_wsFamilyNames[i] == FontName)
break;
}
if (i == pInstalled->m_wsFamilyNames.size())
nPenalty += 0xFFFF;
else
nPenalty -= 28000;
} else {
nPenalty -= 30000;
}
if (nPenalty == 30000 && !IsPartName(pInstalled->m_wsFaceName, FontName)) {
size_t i;
for (i = 0; i < pInstalled->m_wsFamilyNames.size(); i++) {
if (IsPartName(pInstalled->m_wsFamilyNames[i], FontName))
break;
}
if (i == pInstalled->m_wsFamilyNames.size())
nPenalty += 0xFFFF;
else
nPenalty -= 26000;
} else {
nPenalty -= 27000;
}
}
uint32_t dwStyleMask = pInstalled->m_dwFontStyles ^ dwFontStyles;
if (FontStyleIsBold(dwStyleMask))
nPenalty += 4500;
if (FontStyleIsFixedPitch(dwStyleMask))
nPenalty += 10000;
if (FontStyleIsItalic(dwStyleMask))
nPenalty += 10000;
if (FontStyleIsSerif(dwStyleMask))
nPenalty += 500;
if (FontStyleIsSymbolic(dwStyleMask))
nPenalty += 0xFFFF;
if (nPenalty >= 0xFFFF)
return 0xFFFF;
uint16_t wBit = (wCodePage == FX_CODEPAGE_DefANSI || wCodePage == 0xFFFF)
? static_cast<uint16_t>(-1)
: FX_GetCodePageBit(wCodePage);
if (wBit != static_cast<uint16_t>(-1)) {
ASSERT(wBit < 64);
if ((pInstalled->m_dwCsb[wBit / 32] & (1 << (wBit % 32))) == 0)
nPenalty += 0xFFFF;
else
nPenalty -= 60000;
}
wBit = (wcUnicode == 0 || wcUnicode == 0xFFFE) ? static_cast<uint16_t>(999)
: FX_GetUnicodeBit(wcUnicode);
if (wBit != static_cast<uint16_t>(999)) {
ASSERT(wBit < 128);
if ((pInstalled->m_dwUsb[wBit / 32] & (1 << (wBit % 32))) == 0)
nPenalty += 0xFFFF;
else
nPenalty -= 60000;
}
return nPenalty;
}
} // namespace
CFX_FontDescriptor::CFX_FontDescriptor()
: m_nFaceIndex(0), m_dwFontStyles(0), m_dwUsb(), m_dwCsb() {}
CFX_FontDescriptor::~CFX_FontDescriptor() {}
CFX_FontSourceEnum_File::CFX_FontSourceEnum_File() {
for (size_t i = 0; i < FX_ArraySize(g_FontFolders); ++i)
m_FolderPaths.push_back(g_FontFolders[i]);
}
CFX_FontSourceEnum_File::~CFX_FontSourceEnum_File() {}
ByteString CFX_FontSourceEnum_File::GetNextFile() {
FX_FileHandle* pCurHandle =
!m_FolderQueue.empty() ? m_FolderQueue.back().pFileHandle : nullptr;
if (!pCurHandle) {
if (m_FolderPaths.empty())
return "";
pCurHandle = FX_OpenFolder(m_FolderPaths.back().c_str());
HandleParentPath hpp;
hpp.pFileHandle = pCurHandle;
hpp.bsParentPath = m_FolderPaths.back();
m_FolderQueue.push_back(hpp);
}
ByteString bsName;
bool bFolder;
ByteString bsFolderSeparator = WideString(kFolderSeparator).ToDefANSI();
while (true) {
if (!FX_GetNextFile(pCurHandle, &bsName, &bFolder)) {
FX_CloseFolder(pCurHandle);
if (!m_FolderQueue.empty())
m_FolderQueue.pop_back();
if (m_FolderQueue.empty()) {
if (!m_FolderPaths.empty())
m_FolderPaths.pop_back();
return !m_FolderPaths.empty() ? GetNextFile() : "";
}
pCurHandle = m_FolderQueue.back().pFileHandle;
continue;
}
if (bsName == "." || bsName == "..")
continue;
if (bFolder) {
HandleParentPath hpp;
hpp.bsParentPath =
m_FolderQueue.back().bsParentPath + bsFolderSeparator + bsName;
hpp.pFileHandle = FX_OpenFolder(hpp.bsParentPath.c_str());
if (!hpp.pFileHandle)
continue;
m_FolderQueue.push_back(hpp);
pCurHandle = hpp.pFileHandle;
continue;
}
bsName = m_FolderQueue.back().bsParentPath + bsFolderSeparator + bsName;
break;
}
return bsName;
}
bool CFX_FontSourceEnum_File::HasStartPosition() {
m_wsNext = GetNextFile().UTF8Decode();
return !m_wsNext.IsEmpty();
}
std::pair<bool, RetainPtr<IFX_SeekableStream>>
CFX_FontSourceEnum_File::GetNext() {
if (m_wsNext.IsEmpty())
return {false, nullptr};
auto stream = IFX_SeekableStream::CreateFromFilename(m_wsNext.c_str(),
FX_FILEMODE_ReadOnly);
m_wsNext = GetNextFile().UTF8Decode();
return {true, stream};
}
CFGAS_FontMgr::CFGAS_FontMgr()
: m_pFontSource(pdfium::MakeUnique<CFX_FontSourceEnum_File>()) {}
CFGAS_FontMgr::~CFGAS_FontMgr() {}
bool CFGAS_FontMgr::EnumFontsFromFontMapper() {
CFX_FontMapper* pFontMapper =
CFX_GEModule::Get()->GetFontMgr()->GetBuiltinMapper();
if (!pFontMapper)
return false;
pFontMapper->LoadInstalledFonts();
SystemFontInfoIface* pSystemFontInfo = pFontMapper->GetSystemFontInfo();
if (!pSystemFontInfo)
return false;
pSystemFontInfo->EnumFontList(pFontMapper);
for (int32_t i = 0; i < pFontMapper->GetFaceSize(); ++i) {
RetainPtr<IFX_SeekableReadStream> pFontStream =
CreateFontStream(pFontMapper, pSystemFontInfo, i);
if (!pFontStream)
continue;
WideString wsFaceName =
WideString::FromLocal(pFontMapper->GetFaceName(i).AsStringView());
RegisterFaces(pFontStream, &wsFaceName);
}
return !m_InstalledFonts.empty();
}
bool CFGAS_FontMgr::EnumFontsFromFiles() {
CFX_GEModule::Get()->GetFontMgr()->InitFTLibrary();
if (!m_pFontSource->HasStartPosition())
return !m_InstalledFonts.empty();
bool has_next;
RetainPtr<IFX_SeekableStream> stream;
std::tie(has_next, stream) = m_pFontSource->GetNext();
while (has_next) {
if (stream)
RegisterFaces(stream, nullptr);
std::tie(has_next, stream) = m_pFontSource->GetNext();
}
return !m_InstalledFonts.empty();
}
bool CFGAS_FontMgr::EnumFonts() {
return EnumFontsFromFontMapper() || EnumFontsFromFiles();
}
RetainPtr<CFGAS_GEFont> CFGAS_FontMgr::LoadFont(const WideString& wsFaceName,
int32_t iFaceIndex,
int32_t* pFaceCount) {
CFX_FontMgr* pFontMgr = CFX_GEModule::Get()->GetFontMgr();
CFX_FontMapper* pFontMapper = pFontMgr->GetBuiltinMapper();
if (!pFontMapper)
return nullptr;
SystemFontInfoIface* pSystemFontInfo = pFontMapper->GetSystemFontInfo();
if (!pSystemFontInfo)
return nullptr;
RetainPtr<IFX_SeekableReadStream> pFontStream =
CreateFontStream(wsFaceName.UTF8Encode());
if (!pFontStream)
return nullptr;
auto pInternalFont = pdfium::MakeUnique<CFX_Font>();
if (!pInternalFont->LoadFile(pFontStream, iFaceIndex))
return nullptr;
RetainPtr<CFGAS_GEFont> pFont =
CFGAS_GEFont::LoadFont(std::move(pInternalFont), this);
if (!pFont)
return nullptr;
m_IFXFont2FileRead[pFont] = pFontStream;
if (pFaceCount)
*pFaceCount = pFont->GetDevFont()->GetFace()->num_faces;
return pFont;
}
void CFGAS_FontMgr::MatchFonts(
std::vector<CFX_FontDescriptorInfo>* pMatchedFonts,
uint16_t wCodePage,
uint32_t dwFontStyles,
const WideString& FontName,
wchar_t wcUnicode) {
pMatchedFonts->clear();
for (const auto& pFont : m_InstalledFonts) {
int32_t nPenalty =
CalcPenalty(pFont.get(), wCodePage, dwFontStyles, FontName, wcUnicode);
if (nPenalty >= 0xffff)
continue;
pMatchedFonts->push_back({pFont.get(), nPenalty});
if (pMatchedFonts->size() == 0xffff)
break;
}
std::sort(pMatchedFonts->begin(), pMatchedFonts->end());
}
void CFGAS_FontMgr::RegisterFace(FXFT_Face pFace, const WideString* pFaceName) {
if ((pFace->face_flags & FT_FACE_FLAG_SCALABLE) == 0)
return;
auto pFont = pdfium::MakeUnique<CFX_FontDescriptor>();
pFont->m_dwFontStyles |= GetFlags(pFace);
GetUSBCSB(pFace, pFont->m_dwUsb, pFont->m_dwCsb);
FT_ULong dwTag;
FT_ENC_TAG(dwTag, 'n', 'a', 'm', 'e');
std::vector<uint8_t> table;
unsigned long nLength = 0;
unsigned int error = FXFT_Load_Sfnt_Table(pFace, dwTag, 0, nullptr, &nLength);
if (error == 0 && nLength != 0) {
table.resize(nLength);
if (FXFT_Load_Sfnt_Table(pFace, dwTag, 0, table.data(), nullptr))
table.clear();
}
pFont->m_wsFamilyNames = GetNames(table.empty() ? nullptr : table.data());
pFont->m_wsFamilyNames.push_back(ByteString(pFace->family_name).UTF8Decode());
pFont->m_wsFaceName =
pFaceName ? *pFaceName
: WideString::FromLocal(FXFT_Get_Postscript_Name(pFace));
pFont->m_nFaceIndex = pFace->face_index;
m_InstalledFonts.push_back(std::move(pFont));
}
void CFGAS_FontMgr::RegisterFaces(
const RetainPtr<IFX_SeekableReadStream>& pFontStream,
const WideString* pFaceName) {
int32_t index = 0;
int32_t num_faces = 0;
do {
FXFT_Face pFace = LoadFace(pFontStream, index++);
if (!pFace)
continue;
// All faces keep number of faces. It can be retrieved from any one face.
if (num_faces == 0)
num_faces = pFace->num_faces;
RegisterFace(pFace, pFaceName);
if (FXFT_Get_Face_External_Stream(pFace))
FXFT_Clear_Face_External_Stream(pFace);
FXFT_Done_Face(pFace);
} while (index < num_faces);
}
#endif // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
namespace {
bool VerifyUnicode(const RetainPtr<CFGAS_GEFont>& pFont, wchar_t wcUnicode) {
if (!pFont)
return false;
FXFT_Face pFace = pFont->GetDevFont()->GetFace();
FXFT_CharMap charmap = FXFT_Get_Face_Charmap(pFace);
if (FXFT_Select_Charmap(pFace, FXFT_ENCODING_UNICODE) != 0)
return false;
if (FXFT_Get_Char_Index(pFace, wcUnicode) == 0) {
FXFT_Set_Charmap(pFace, charmap);
return false;
}
return true;
}
} // namespace
RetainPtr<CFGAS_GEFont> CFGAS_FontMgr::GetFontByCodePage(
uint16_t wCodePage,
uint32_t dwFontStyles,
const wchar_t* pszFontFamily) {
ByteString bsHash = ByteString::Format("%d, %d", wCodePage, dwFontStyles);
bsHash += FX_UTF8Encode(WideStringView(pszFontFamily));
uint32_t dwHash = FX_HashCode_GetA(bsHash.AsStringView(), false);
auto* pFontVector = &m_Hash2Fonts[dwHash];
if (!pFontVector->empty()) {
for (auto iter = pFontVector->begin(); iter != pFontVector->end(); ++iter) {
if (*iter != nullptr)
return *iter;
}
return nullptr;
}
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
const FX_FONTDESCRIPTOR* pFD =
FindFont(pszFontFamily, dwFontStyles, true, wCodePage, 999, 0);
if (!pFD)
pFD = FindFont(nullptr, dwFontStyles, true, wCodePage, 999, 0);
if (!pFD)
pFD = FindFont(nullptr, dwFontStyles, false, wCodePage, 999, 0);
if (!pFD)
return nullptr;
RetainPtr<CFGAS_GEFont> pFont =
CFGAS_GEFont::LoadFont(pFD->wsFontFace, dwFontStyles, wCodePage, this);
#else // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
std::vector<CFX_FontDescriptorInfo>* sortedFontInfos =
m_Hash2CandidateList[dwHash].get();
if (!sortedFontInfos) {
auto pNewFonts = pdfium::MakeUnique<std::vector<CFX_FontDescriptorInfo>>();
sortedFontInfos = pNewFonts.get();
MatchFonts(sortedFontInfos, wCodePage, dwFontStyles,
WideString(pszFontFamily), 0);
m_Hash2CandidateList[dwHash] = std::move(pNewFonts);
}
if (sortedFontInfos->empty())
return nullptr;
CFX_FontDescriptor* pDesc = (*sortedFontInfos)[0].pFont;
RetainPtr<CFGAS_GEFont> pFont =
LoadFont(pDesc->m_wsFaceName, pDesc->m_nFaceIndex, nullptr);
#endif // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
if (!pFont)
return nullptr;
pFont->SetLogicalFontStyle(dwFontStyles);
pFontVector->push_back(pFont);
return pFont;
}
RetainPtr<CFGAS_GEFont> CFGAS_FontMgr::GetFontByUnicode(
wchar_t wUnicode,
uint32_t dwFontStyles,
const wchar_t* pszFontFamily) {
#if _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
if (pdfium::ContainsKey(m_FailedUnicodesSet, wUnicode))
return nullptr;
#endif // _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
const FGAS_FONTUSB* x = FGAS_GetUnicodeBitField(wUnicode);
uint16_t wCodePage = x ? x->wCodePage : 0xFFFF;
uint16_t wBitField = x ? x->wBitField : 0x03E7;
ByteString bsHash;
if (wCodePage == 0xFFFF) {
bsHash =
ByteString::Format("%d, %d, %d", wCodePage, wBitField, dwFontStyles);
} else {
bsHash = ByteString::Format("%d, %d", wCodePage, dwFontStyles);
}
bsHash += FX_UTF8Encode(WideStringView(pszFontFamily));
uint32_t dwHash = FX_HashCode_GetA(bsHash.AsStringView(), false);
std::vector<RetainPtr<CFGAS_GEFont>>* pFonts = &m_Hash2Fonts[dwHash];
for (size_t i = 0; i < pFonts->size(); ++i) {
if (VerifyUnicode((*pFonts)[i], wUnicode))
return (*pFonts)[i];
}
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
const FX_FONTDESCRIPTOR* pFD = FindFont(pszFontFamily, dwFontStyles, false,
wCodePage, wBitField, wUnicode);
if (!pFD && pszFontFamily) {
pFD =
FindFont(nullptr, dwFontStyles, false, wCodePage, wBitField, wUnicode);
}
if (!pFD)
return nullptr;
uint16_t newCodePage = FX_GetCodePageFromCharset(pFD->uCharSet);
const wchar_t* pFontFace = pFD->wsFontFace;
RetainPtr<CFGAS_GEFont> pFont =
CFGAS_GEFont::LoadFont(pFontFace, dwFontStyles, newCodePage, this);
if (!pFont)
return nullptr;
pFont->SetLogicalFontStyle(dwFontStyles);
pFonts->push_back(pFont);
return pFont;
#else // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
std::vector<CFX_FontDescriptorInfo>* sortedFontInfos =
m_Hash2CandidateList[dwHash].get();
if (!sortedFontInfos) {
auto pNewFonts = pdfium::MakeUnique<std::vector<CFX_FontDescriptorInfo>>();
sortedFontInfos = pNewFonts.get();
MatchFonts(sortedFontInfos, wCodePage, dwFontStyles,
WideString(pszFontFamily), wUnicode);
m_Hash2CandidateList[dwHash] = std::move(pNewFonts);
}
for (const auto& info : *sortedFontInfos) {
CFX_FontDescriptor* pDesc = info.pFont;
if (!VerifyUnicodeForFontDescriptor(pDesc, wUnicode))
continue;
RetainPtr<CFGAS_GEFont> pFont =
LoadFont(pDesc->m_wsFaceName, pDesc->m_nFaceIndex, nullptr);
if (!pFont)
continue;
pFont->SetLogicalFontStyle(dwFontStyles);
pFonts->push_back(pFont);
return pFont;
}
if (!pszFontFamily)
m_FailedUnicodesSet.insert(wUnicode);
return nullptr;
#endif // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
}
RetainPtr<CFGAS_GEFont> CFGAS_FontMgr::LoadFont(const wchar_t* pszFontFamily,
uint32_t dwFontStyles,
uint16_t wCodePage) {
#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
ByteString bsHash = ByteString::Format("%d, %d", wCodePage, dwFontStyles);
bsHash += FX_UTF8Encode(WideStringView(pszFontFamily));
uint32_t dwHash = FX_HashCode_GetA(bsHash.AsStringView(), false);
std::vector<RetainPtr<CFGAS_GEFont>>* pFontArray = &m_Hash2Fonts[dwHash];
if (!pFontArray->empty())
return (*pFontArray)[0];
const FX_FONTDESCRIPTOR* pFD =
FindFont(pszFontFamily, dwFontStyles, true, wCodePage, 999, 0);
if (!pFD)
pFD = FindFont(pszFontFamily, dwFontStyles, false, wCodePage, 999, 0);
if (!pFD)
return nullptr;
RetainPtr<CFGAS_GEFont> pFont =
CFGAS_GEFont::LoadFont(pFD->wsFontFace, dwFontStyles, wCodePage, this);
if (!pFont)
return nullptr;
pFont->SetLogicalFontStyle(dwFontStyles);
pFontArray->push_back(pFont);
return pFont;
#else // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
return GetFontByCodePage(wCodePage, dwFontStyles, pszFontFamily);
#endif // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
}
void CFGAS_FontMgr::RemoveFont(const RetainPtr<CFGAS_GEFont>& pEFont) {
if (!pEFont)
return;
#if _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
m_IFXFont2FileRead.erase(pEFont);
#endif // _FX_PLATFORM_ != _FX_PLATFORM_WINDOWS_
auto iter = m_Hash2Fonts.begin();
while (iter != m_Hash2Fonts.end()) {
auto old_iter = iter++;
bool all_empty = true;
for (size_t i = 0; i < old_iter->second.size(); i++) {
if (old_iter->second[i] == pEFont)
old_iter->second[i].Reset();
else if (old_iter->second[i])
all_empty = false;
}
if (all_empty)
m_Hash2Fonts.erase(old_iter);
}
}
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