// 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 #include #include #include "build/build_config.h" #include "core/fxcrt/cfx_memorystream.h" #include "core/fxcrt/fx_codepage.h" #include "core/fxcrt/fx_memory_wrappers.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 "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 !defined(OS_WIN) #include "xfa/fgas/font/cfx_fontsourceenum_file.h" #endif namespace { bool VerifyUnicode(const RetainPtr& pFont, wchar_t wcUnicode) { RetainPtr pFace = pFont->GetDevFont()->GetFace(); if (!pFace) return false; FXFT_FaceRec* pFaceRec = pFace->GetRec(); FT_CharMap charmap = FXFT_Get_Face_Charmap(pFaceRec); if (FXFT_Select_Charmap(pFaceRec, FT_ENCODING_UNICODE) != 0) return false; if (FT_Get_Char_Index(pFaceRec, wcUnicode) == 0) { FT_Set_Charmap(pFaceRec, charmap); return false; } return true; } } // namespace #if defined(OS_WIN) 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& fonts) { const FX_FONTDESCRIPTOR* pBestFont = nullptr; int32_t iBestSimilar = 0; for (const auto& font : fonts) { if (FontStyleIsForceBold(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*>(lParam)->push_back(font); return 1; } std::deque EnumGdiFonts(const wchar_t* pwsFaceName, wchar_t wUnicode) { std::deque 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; } RetainPtr CFGAS_FontMgr::GetFontByUnicodeImpl( wchar_t wUnicode, uint32_t dwFontStyles, const wchar_t* pszFontFamily, uint32_t dwHash, uint16_t wCodePage, uint16_t wBitField) { 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 pFont = CFGAS_GEFont::LoadFont(pFontFace, dwFontStyles, newCodePage, this); if (!pFont) return nullptr; pFont->SetLogicalFontStyle(dwFontStyles); if (!VerifyUnicode(pFont, wUnicode)) { m_FailedUnicodesSet.insert(wUnicode); return nullptr; } m_Hash2Fonts[dwHash].push_back(pFont); return pFont; } 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 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 // defined(OS_WIN) namespace { 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(i); } return static_cast(-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(p[0] << 8 | p[1]); } extern "C" { unsigned long ftStreamRead(FXFT_StreamRec* stream, unsigned long offset, unsigned char* buffer, unsigned long count) { if (count == 0) return 0; IFX_SeekableReadStream* pFile = static_cast(stream->descriptor.pointer); if (!pFile->ReadBlockAtOffset(buffer, offset, count)) return 0; return count; } void ftStreamClose(FXFT_StreamRec* stream) {} } // extern "C" // TODO(thestig): Pass in |name_table| as a std::vector? std::vector GetNames(const uint8_t* name_table) { std::vector 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_FaceRec* pFace, uint32_t* USB, uint32_t* CSB) { TT_OS2* pOS2 = static_cast(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_FaceRec* pFace) { uint32_t flags = 0; if (FXFT_Is_Face_Bold(pFace)) flags |= FXFONT_FORCE_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(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 CreateFontStream( CFX_FontMapper* pFontMapper, uint32_t index) { size_t dwFileSize = 0; std::unique_ptr pBuffer = pFontMapper->RawBytesForIndex(index, &dwFileSize); if (!pBuffer) return nullptr; return pdfium::MakeRetain(std::move(pBuffer), dwFileSize); } RetainPtr CreateFontStream( const ByteString& bsFaceName) { CFX_FontMgr* pFontMgr = CFX_GEModule::Get()->GetFontMgr(); CFX_FontMapper* pFontMapper = pFontMgr->GetBuiltinMapper(); pFontMapper->LoadInstalledFonts(); for (int32_t i = 0; i < pFontMapper->GetFaceSize(); ++i) { if (pFontMapper->GetFaceName(i) == bsFaceName) return CreateFontStream(pFontMapper, i); } return nullptr; } RetainPtr LoadFace( const RetainPtr& pFontStream, int32_t iFaceIndex) { if (!pFontStream) return nullptr; CFX_FontMgr* pFontMgr = CFX_GEModule::Get()->GetFontMgr(); FXFT_LibraryRec* 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_StreamRec* ftStream = static_cast(ft_scalloc(sizeof(FXFT_StreamRec), 1)); memset(ftStream, 0, sizeof(FXFT_StreamRec)); ftStream->base = nullptr; ftStream->descriptor.pointer = static_cast(pFontStream.Get()); ftStream->pos = 0; ftStream->size = static_cast(pFontStream->GetSize()); ftStream->read = ftStreamRead; ftStream->close = ftStreamClose; FT_Open_Args ftArgs; memset(&ftArgs, 0, sizeof(FT_Open_Args)); ftArgs.flags |= FT_OPEN_STREAM; ftArgs.stream = ftStream; RetainPtr pFace = CFX_Face::Open(library, &ftArgs, iFaceIndex); if (!pFace) { ft_sfree(ftStream); return nullptr; } FT_Set_Pixel_Sizes(pFace->GetRec(), 0, 64); return pFace; } bool VerifyUnicodeForFontDescriptor(CFX_FontDescriptor* pDesc, wchar_t wcUnicode) { RetainPtr pFileRead = CreateFontStream(pDesc->m_wsFaceName.ToUTF8()); if (!pFileRead) return false; RetainPtr pFace = LoadFace(pFileRead, pDesc->m_nFaceIndex); if (!pFace) return false; FT_Error retCharmap = FXFT_Select_Charmap(pFace->GetRec(), FT_ENCODING_UNICODE); FT_Error retIndex = FT_Get_Char_Index(pFace->GetRec(), wcUnicode); if (FXFT_Get_Face_External_Stream(pFace->GetRec())) FXFT_Clear_Face_External_Stream(pFace->GetRec()); 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 (FontStyleIsForceBold(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(-1) : FX_GetCodePageBit(wCodePage); if (wBit != static_cast(-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(999) : FX_GetUnicodeBit(wcUnicode); if (wBit != static_cast(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() {} CFGAS_FontMgr::CFGAS_FontMgr() : m_pFontSource(pdfium::MakeUnique()) {} CFGAS_FontMgr::~CFGAS_FontMgr() {} bool CFGAS_FontMgr::EnumFontsFromFontMapper() { CFX_FontMapper* pFontMapper = CFX_GEModule::Get()->GetFontMgr()->GetBuiltinMapper(); pFontMapper->LoadInstalledFonts(); for (int32_t i = 0; i < pFontMapper->GetFaceSize(); ++i) { RetainPtr pFontStream = CreateFontStream(pFontMapper, i); if (!pFontStream) continue; WideString wsFaceName = WideString::FromDefANSI(pFontMapper->GetFaceName(i).AsStringView()); RegisterFaces(pFontStream, &wsFaceName); } return !m_InstalledFonts.empty(); } bool CFGAS_FontMgr::EnumFontsFromFiles() { m_pFontSource->GetNext(); while (m_pFontSource->HasNext()) { RetainPtr stream = m_pFontSource->GetStream(); if (stream) RegisterFaces(stream, nullptr); m_pFontSource->GetNext(); } return !m_InstalledFonts.empty(); } bool CFGAS_FontMgr::EnumFonts() { return EnumFontsFromFontMapper() || EnumFontsFromFiles(); } RetainPtr CFGAS_FontMgr::GetFontByUnicodeImpl( wchar_t wUnicode, uint32_t dwFontStyles, const wchar_t* pszFontFamily, uint32_t dwHash, uint16_t wCodePage, uint16_t /* wBitField */) { std::vector* sortedFontInfos = m_Hash2CandidateList[dwHash].get(); if (!sortedFontInfos) { auto pNewFonts = pdfium::MakeUnique>(); 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 pFont = LoadFontInternal(pDesc->m_wsFaceName, pDesc->m_nFaceIndex); if (!pFont) continue; pFont->SetLogicalFontStyle(dwFontStyles); m_Hash2Fonts[dwHash].push_back(pFont); return pFont; } if (!pszFontFamily) m_FailedUnicodesSet.insert(wUnicode); return nullptr; } RetainPtr CFGAS_FontMgr::LoadFontInternal( const WideString& wsFaceName, int32_t iFaceIndex) { RetainPtr pFontStream = CreateFontStream(wsFaceName.ToUTF8()); if (!pFontStream) return nullptr; auto pInternalFont = pdfium::MakeUnique(); if (!pInternalFont->LoadFile(pFontStream, iFaceIndex)) return nullptr; RetainPtr pFont = CFGAS_GEFont::LoadFont(std::move(pInternalFont), this); if (!pFont) return nullptr; m_IFXFont2FileRead[pFont] = pFontStream; return pFont; } void CFGAS_FontMgr::MatchFonts( std::vector* 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(RetainPtr pFace, const WideString* pFaceName) { if ((pFace->GetRec()->face_flags & FT_FACE_FLAG_SCALABLE) == 0) return; auto pFont = pdfium::MakeUnique(); pFont->m_dwFontStyles |= GetFlags(pFace->GetRec()); GetUSBCSB(pFace->GetRec(), pFont->m_dwUsb, pFont->m_dwCsb); FT_ULong dwTag; FT_ENC_TAG(dwTag, 'n', 'a', 'm', 'e'); std::vector table; unsigned long nLength = 0; unsigned int error = FT_Load_Sfnt_Table(pFace->GetRec(), dwTag, 0, nullptr, &nLength); if (error == 0 && nLength != 0) { table.resize(nLength); if (FT_Load_Sfnt_Table(pFace->GetRec(), dwTag, 0, table.data(), nullptr)) table.clear(); } pFont->m_wsFamilyNames = GetNames(table.empty() ? nullptr : table.data()); pFont->m_wsFamilyNames.push_back( WideString::FromUTF8(pFace->GetRec()->family_name)); pFont->m_wsFaceName = pFaceName ? *pFaceName : WideString::FromDefANSI(FT_Get_Postscript_Name(pFace->GetRec())); pFont->m_nFaceIndex = pFace->GetRec()->face_index; m_InstalledFonts.push_back(std::move(pFont)); } void CFGAS_FontMgr::RegisterFaces( const RetainPtr& pFontStream, const WideString* pFaceName) { int32_t index = 0; int32_t num_faces = 0; do { RetainPtr 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->GetRec()->num_faces; RegisterFace(pFace, pFaceName); if (FXFT_Get_Face_External_Stream(pFace->GetRec())) FXFT_Clear_Face_External_Stream(pFace->GetRec()); } while (index < num_faces); } #endif // defined(OS_WIN) RetainPtr 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 defined(OS_WIN) 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 pFont = CFGAS_GEFont::LoadFont(pFD->wsFontFace, dwFontStyles, wCodePage, this); #else // defined(OS_WIN) std::vector* sortedFontInfos = m_Hash2CandidateList[dwHash].get(); if (!sortedFontInfos) { auto pNewFonts = pdfium::MakeUnique>(); 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 pFont = LoadFontInternal(pDesc->m_wsFaceName, pDesc->m_nFaceIndex); #endif // defined(OS_WIN) if (!pFont) return nullptr; pFont->SetLogicalFontStyle(dwFontStyles); pFontVector->push_back(pFont); return pFont; } RetainPtr CFGAS_FontMgr::GetFontByUnicode( wchar_t wUnicode, uint32_t dwFontStyles, const wchar_t* pszFontFamily) { if (pdfium::ContainsKey(m_FailedUnicodesSet, wUnicode)) return nullptr; 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>& fonts = m_Hash2Fonts[dwHash]; for (auto& pFont : fonts) { if (VerifyUnicode(pFont, wUnicode)) return pFont; } return GetFontByUnicodeImpl(wUnicode, dwFontStyles, pszFontFamily, dwHash, wCodePage, wBitField); } RetainPtr CFGAS_FontMgr::LoadFont(const wchar_t* pszFontFamily, uint32_t dwFontStyles, uint16_t wCodePage) { #if defined(OS_WIN) ByteString bsHash = ByteString::Format("%d, %d", wCodePage, dwFontStyles); bsHash += FX_UTF8Encode(WideStringView(pszFontFamily)); uint32_t dwHash = FX_HashCode_GetA(bsHash.AsStringView(), false); std::vector>* 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 pFont = CFGAS_GEFont::LoadFont(pFD->wsFontFace, dwFontStyles, wCodePage, this); if (!pFont) return nullptr; pFont->SetLogicalFontStyle(dwFontStyles); pFontArray->push_back(pFont); return pFont; #else // defined(OS_WIN) return GetFontByCodePage(wCodePage, dwFontStyles, pszFontFamily); #endif // defined(OS_WIN) } void CFGAS_FontMgr::RemoveFont(const RetainPtr& pEFont) { if (!pEFont) return; #if !defined(OS_WIN) m_IFXFont2FileRead.erase(pEFont); #endif 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); } }