// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "core/fxcrt/include/fx_system.h" #if _FX_OS_ == _FX_ANDROID_ #define FPF_SKIAMATCHWEIGHT_NAME1 62 #define FPF_SKIAMATCHWEIGHT_NAME2 60 #define FPF_SKIAMATCHWEIGHT_1 16 #define FPF_SKIAMATCHWEIGHT_2 8 #include "core/fxcrt/include/fx_ext.h" #include "core/fxge/android/fpf_skiafont.h" #include "core/fxge/android/fpf_skiafontmgr.h" #include "core/include/fxge/fx_freetype.h" #ifdef __cplusplus extern "C" { #endif static unsigned long FPF_SkiaStream_Read(FXFT_Stream stream, unsigned long offset, unsigned char* buffer, unsigned long count) { IFX_FileRead* pFileRead = (IFX_FileRead*)stream->descriptor.pointer; if (!pFileRead) { return 0; } if (count > 0) { if (pFileRead->ReadBlock(buffer, (FX_FILESIZE)offset, (size_t)count) != count) { return 0; } } return count; } static void FPF_SkiaStream_Close(FXFT_Stream stream) {} #ifdef __cplusplus }; #endif struct FPF_SKIAFONTMAP { FX_DWORD dwFamily; FX_DWORD dwSubSt; }; static const FPF_SKIAFONTMAP g_SkiaFontmap[] = { {0x58c5083, 0xc8d2e345}, {0x5dfade2, 0xe1633081}, {0x684317d, 0xe1633081}, {0x14ee2d13, 0xc8d2e345}, {0x3918fe2d, 0xbbeeec72}, {0x3b98b31c, 0xe1633081}, {0x3d49f40e, 0xe1633081}, {0x432c41c5, 0xe1633081}, {0x491b6ad0, 0xe1633081}, {0x5612cab1, 0x59b9f8f1}, {0x779ce19d, 0xc8d2e345}, {0x7cc9510b, 0x59b9f8f1}, {0x83746053, 0xbbeeec72}, {0xaaa60c03, 0xbbeeec72}, {0xbf85ff26, 0xe1633081}, {0xc04fe601, 0xbbeeec72}, {0xca3812d5, 0x59b9f8f1}, {0xca383e15, 0x59b9f8f1}, {0xcad5eaf6, 0x59b9f8f1}, {0xcb7a04c8, 0xc8d2e345}, {0xfb4ce0de, 0xe1633081}, }; FX_DWORD FPF_SkiaGetSubstFont(FX_DWORD dwHash) { int32_t iStart = 0; int32_t iEnd = sizeof(g_SkiaFontmap) / sizeof(FPF_SKIAFONTMAP); while (iStart <= iEnd) { int32_t iMid = (iStart + iEnd) / 2; const FPF_SKIAFONTMAP* pItem = &g_SkiaFontmap[iMid]; if (dwHash < pItem->dwFamily) { iEnd = iMid - 1; } else if (dwHash > pItem->dwFamily) { iStart = iMid + 1; } else { return pItem->dwSubSt; } } return 0; } static const FPF_SKIAFONTMAP g_SkiaSansFontMap[] = { {0x58c5083, 0xd5b8d10f}, {0x14ee2d13, 0xd5b8d10f}, {0x779ce19d, 0xd5b8d10f}, {0xcb7a04c8, 0xd5b8d10f}, {0xfb4ce0de, 0xd5b8d10f}, }; FX_DWORD FPF_SkiaGetSansFont(FX_DWORD dwHash) { int32_t iStart = 0; int32_t iEnd = sizeof(g_SkiaSansFontMap) / sizeof(FPF_SKIAFONTMAP); while (iStart <= iEnd) { int32_t iMid = (iStart + iEnd) / 2; const FPF_SKIAFONTMAP* pItem = &g_SkiaSansFontMap[iMid]; if (dwHash < pItem->dwFamily) { iEnd = iMid - 1; } else if (dwHash > pItem->dwFamily) { iStart = iMid + 1; } else { return pItem->dwSubSt; } } return 0; } static uint32_t FPF_GetHashCode_StringA(const FX_CHAR* pStr, int32_t iLength, FX_BOOL bIgnoreCase = FALSE) { if (!pStr) { return 0; } if (iLength < 0) { iLength = FXSYS_strlen(pStr); } const FX_CHAR* pStrEnd = pStr + iLength; uint32_t uHashCode = 0; if (bIgnoreCase) { while (pStr < pStrEnd) { uHashCode = 31 * uHashCode + FXSYS_tolower(*pStr++); } } else { while (pStr < pStrEnd) { uHashCode = 31 * uHashCode + *pStr++; } } return uHashCode; } enum FPF_SKIACHARSET { FPF_SKIACHARSET_Ansi = 1 << 0, FPF_SKIACHARSET_Default = 1 << 1, FPF_SKIACHARSET_Symbol = 1 << 2, FPF_SKIACHARSET_ShiftJIS = 1 << 3, FPF_SKIACHARSET_Korean = 1 << 4, FPF_SKIACHARSET_Johab = 1 << 5, FPF_SKIACHARSET_GB2312 = 1 << 6, FPF_SKIACHARSET_BIG5 = 1 << 7, FPF_SKIACHARSET_Greek = 1 << 8, FPF_SKIACHARSET_Turkish = 1 << 9, FPF_SKIACHARSET_Vietnamese = 1 << 10, FPF_SKIACHARSET_Hebrew = 1 << 11, FPF_SKIACHARSET_Arabic = 1 << 12, FPF_SKIACHARSET_Baltic = 1 << 13, FPF_SKIACHARSET_Cyrillic = 1 << 14, FPF_SKIACHARSET_Thai = 1 << 15, FPF_SKIACHARSET_EeasternEuropean = 1 << 16, FPF_SKIACHARSET_PC = 1 << 17, FPF_SKIACHARSET_OEM = 1 << 18, }; static FX_DWORD FPF_SkiaGetCharset(uint8_t uCharset) { switch (uCharset) { case FXFONT_ANSI_CHARSET: return FPF_SKIACHARSET_Ansi; case FXFONT_DEFAULT_CHARSET: return FPF_SKIACHARSET_Default; case FXFONT_SYMBOL_CHARSET: return FPF_SKIACHARSET_Symbol; case FXFONT_SHIFTJIS_CHARSET: return FPF_SKIACHARSET_ShiftJIS; case FXFONT_HANGEUL_CHARSET: return FPF_SKIACHARSET_Korean; case FXFONT_GB2312_CHARSET: return FPF_SKIACHARSET_GB2312; case FXFONT_CHINESEBIG5_CHARSET: return FPF_SKIACHARSET_BIG5; case FXFONT_GREEK_CHARSET: return FPF_SKIACHARSET_Greek; case FXFONT_TURKISH_CHARSET: return FPF_SKIACHARSET_Turkish; case FXFONT_HEBREW_CHARSET: return FPF_SKIACHARSET_Hebrew; case FXFONT_ARABIC_CHARSET: return FPF_SKIACHARSET_Arabic; case FXFONT_BALTIC_CHARSET: return FPF_SKIACHARSET_Baltic; case FXFONT_RUSSIAN_CHARSET: return FPF_SKIACHARSET_Cyrillic; case FXFONT_THAI_CHARSET: return FPF_SKIACHARSET_Thai; case FXFONT_EASTEUROPE_CHARSET: return FPF_SKIACHARSET_EeasternEuropean; } return FPF_SKIACHARSET_Default; } static FX_DWORD FPF_SKIANormalizeFontName(const CFX_ByteStringC& bsfamily) { FX_DWORD dwHash = 0; int32_t iLength = bsfamily.GetLength(); const FX_CHAR* pBuffer = bsfamily.GetCStr(); for (int32_t i = 0; i < iLength; i++) { FX_CHAR ch = pBuffer[i]; if (ch == ' ' || ch == '-' || ch == ',') { continue; } dwHash = 31 * dwHash + FXSYS_tolower(ch); } return dwHash; } static FX_DWORD FPF_SKIAGetFamilyHash(const CFX_ByteStringC& bsFamily, FX_DWORD dwStyle, uint8_t uCharset) { CFX_ByteString bsFont(bsFamily); if (dwStyle & FXFONT_BOLD) { bsFont += "Bold"; } if (dwStyle & FXFONT_ITALIC) { bsFont += "Italic"; } if (dwStyle & FXFONT_SERIF) { bsFont += "Serif"; } bsFont += uCharset; return FPF_GetHashCode_StringA(bsFont.c_str(), bsFont.GetLength(), TRUE); } static FX_BOOL FPF_SkiaIsCJK(uint8_t uCharset) { return (uCharset == FXFONT_GB2312_CHARSET) || (uCharset == FXFONT_CHINESEBIG5_CHARSET) || (uCharset == FXFONT_HANGEUL_CHARSET) || (uCharset == FXFONT_SHIFTJIS_CHARSET); } static FX_BOOL FPF_SkiaMaybeSymbol(const CFX_ByteStringC& bsFacename) { CFX_ByteString bsName = bsFacename; bsName.MakeLower(); return bsName.Find("symbol") > -1; } static FX_BOOL FPF_SkiaMaybeArabic(const CFX_ByteStringC& bsFacename) { CFX_ByteString bsName = bsFacename; bsName.MakeLower(); return bsName.Find("arabic") > -1; } CFPF_SkiaFontMgr::CFPF_SkiaFontMgr() : m_bLoaded(FALSE), m_FTLibrary(NULL) {} CFPF_SkiaFontMgr::~CFPF_SkiaFontMgr() { for (const auto& pair : m_FamilyFonts) { if (pair.second) pair.second->Release(); } m_FamilyFonts.clear(); for (auto it = m_FontFaces.rbegin(); it != m_FontFaces.rend(); ++it) { delete *it; } m_FontFaces.clear(); if (m_FTLibrary) { FXFT_Done_FreeType(m_FTLibrary); } } FX_BOOL CFPF_SkiaFontMgr::InitFTLibrary() { if (!m_FTLibrary) { FXFT_Init_FreeType(&m_FTLibrary); } return m_FTLibrary != NULL; } void CFPF_SkiaFontMgr::LoadSystemFonts() { if (m_bLoaded) { return; } ScanPath("/system/fonts"); OutputSystemFonts(); m_bLoaded = TRUE; } void CFPF_SkiaFontMgr::LoadPrivateFont(IFX_FileRead* pFontFile) {} void CFPF_SkiaFontMgr::LoadPrivateFont(const CFX_ByteStringC& bsFileName) {} void CFPF_SkiaFontMgr::LoadPrivateFont(void* pBuffer, size_t szBuffer) {} IFPF_Font* CFPF_SkiaFontMgr::CreateFont(const CFX_ByteStringC& bsFamilyname, uint8_t uCharset, FX_DWORD dwStyle, FX_DWORD dwMatch) { FX_DWORD dwHash = FPF_SKIAGetFamilyHash(bsFamilyname, dwStyle, uCharset); auto it = m_FamilyFonts.find(dwHash); if (it != m_FamilyFonts.end() && it->second) return it->second->Retain(); FX_DWORD dwFaceName = FPF_SKIANormalizeFontName(bsFamilyname); FX_DWORD dwSubst = FPF_SkiaGetSubstFont(dwFaceName); FX_DWORD dwSubstSans = FPF_SkiaGetSansFont(dwFaceName); FX_BOOL bMaybeSymbol = FPF_SkiaMaybeSymbol(bsFamilyname); if (uCharset != FXFONT_ARABIC_CHARSET && FPF_SkiaMaybeArabic(bsFamilyname)) { uCharset = FXFONT_ARABIC_CHARSET; } else if (uCharset == FXFONT_ANSI_CHARSET && (dwMatch & FPF_MATCHFONT_REPLACEANSI)) { uCharset = FXFONT_DEFAULT_CHARSET; } int32_t nExpectVal = FPF_SKIAMATCHWEIGHT_NAME1 + FPF_SKIAMATCHWEIGHT_1 * 3 + FPF_SKIAMATCHWEIGHT_2 * 2; int32_t nItem = -1; int32_t nMax = -1; int32_t nGlyphNum = 0; for (auto it = m_FontFaces.rbegin(); it != m_FontFaces.rend(); ++it) { CFPF_SkiaPathFont* pFontDes = static_cast(*it); if (!(pFontDes->m_dwCharsets & FPF_SkiaGetCharset(uCharset))) { continue; } int32_t nFind = 0; FX_DWORD dwSysFontName = FPF_SKIANormalizeFontName(pFontDes->m_pFamily); if (dwFaceName == dwSysFontName) { nFind += FPF_SKIAMATCHWEIGHT_NAME1; } bool bMatchedName = (nFind == FPF_SKIAMATCHWEIGHT_NAME1); if ((dwStyle & FXFONT_BOLD) == (pFontDes->m_dwStyle & FXFONT_BOLD)) { nFind += FPF_SKIAMATCHWEIGHT_1; } if ((dwStyle & FXFONT_ITALIC) == (pFontDes->m_dwStyle & FXFONT_ITALIC)) { nFind += FPF_SKIAMATCHWEIGHT_1; } if ((dwStyle & FXFONT_FIXED_PITCH) == (pFontDes->m_dwStyle & FXFONT_FIXED_PITCH)) { nFind += FPF_SKIAMATCHWEIGHT_2; } if ((dwStyle & FXFONT_SERIF) == (pFontDes->m_dwStyle & FXFONT_SERIF)) { nFind += FPF_SKIAMATCHWEIGHT_1; } if ((dwStyle & FXFONT_SCRIPT) == (pFontDes->m_dwStyle & FXFONT_SCRIPT)) { nFind += FPF_SKIAMATCHWEIGHT_2; } if (dwSubst == dwSysFontName || dwSubstSans == dwSysFontName) { nFind += FPF_SKIAMATCHWEIGHT_NAME2; bMatchedName = true; } if (uCharset == FXFONT_DEFAULT_CHARSET || bMaybeSymbol) { if (nFind > nMax && bMatchedName) { nMax = nFind; nItem = it - m_FontFaces.rbegin(); } } else if (FPF_SkiaIsCJK(uCharset)) { if (bMatchedName || pFontDes->m_iGlyphNum > nGlyphNum) { nItem = it - m_FontFaces.rbegin(); nGlyphNum = pFontDes->m_iGlyphNum; } } else if (nFind > nMax) { nMax = nFind; nItem = it - m_FontFaces.rbegin(); } if (nExpectVal <= nFind) { nItem = it - m_FontFaces.rbegin(); break; } } if (nItem > -1) { CFPF_SkiaFontDescriptor* pFontDes = m_FontFaces[nItem]; CFPF_SkiaFont* pFont = new CFPF_SkiaFont; if (pFont->InitFont(this, pFontDes, bsFamilyname, dwStyle, uCharset)) { m_FamilyFonts[dwHash] = pFont; return pFont->Retain(); } pFont->Release(); } return NULL; } FXFT_Face CFPF_SkiaFontMgr::GetFontFace(IFX_FileRead* pFileRead, int32_t iFaceIndex) { if (!pFileRead) { return NULL; } if (pFileRead->GetSize() == 0) { return NULL; } if (iFaceIndex < 0) { return NULL; } FXFT_StreamRec streamRec; FXSYS_memset(&streamRec, 0, sizeof(FXFT_StreamRec)); streamRec.size = pFileRead->GetSize(); streamRec.descriptor.pointer = pFileRead; streamRec.read = FPF_SkiaStream_Read; streamRec.close = FPF_SkiaStream_Close; FXFT_Open_Args args; args.flags = FT_OPEN_STREAM; args.stream = &streamRec; FXFT_Face face; if (FXFT_Open_Face(m_FTLibrary, &args, iFaceIndex, &face)) { return NULL; } FXFT_Set_Pixel_Sizes(face, 0, 64); return face; } FXFT_Face CFPF_SkiaFontMgr::GetFontFace(const CFX_ByteStringC& bsFile, int32_t iFaceIndex) { if (bsFile.IsEmpty()) { return NULL; } if (iFaceIndex < 0) { return NULL; } FXFT_Open_Args args; args.flags = FT_OPEN_PATHNAME; args.pathname = (FT_String*)bsFile.GetCStr(); FXFT_Face face; if (FXFT_Open_Face(m_FTLibrary, &args, iFaceIndex, &face)) { return FALSE; } FXFT_Set_Pixel_Sizes(face, 0, 64); return face; } FXFT_Face CFPF_SkiaFontMgr::GetFontFace(const uint8_t* pBuffer, size_t szBuffer, int32_t iFaceIndex) { if (!pBuffer || szBuffer < 1) { return NULL; } if (iFaceIndex < 0) { return NULL; } FXFT_Open_Args args; args.flags = FT_OPEN_MEMORY; args.memory_base = pBuffer; args.memory_size = szBuffer; FXFT_Face face; if (FXFT_Open_Face(m_FTLibrary, &args, iFaceIndex, &face)) { return FALSE; } FXFT_Set_Pixel_Sizes(face, 0, 64); return face; } void CFPF_SkiaFontMgr::ScanPath(const CFX_ByteStringC& path) { void* handle = FX_OpenFolder(path.GetCStr()); if (!handle) { return; } CFX_ByteString filename; FX_BOOL bFolder = FALSE; while (FX_GetNextFile(handle, filename, bFolder)) { if (bFolder) { if (filename == "." || filename == "..") { continue; } } else { CFX_ByteString ext = filename.Right(4); ext.MakeLower(); if (ext != ".ttf" && ext != ".ttc" && ext != ".otf") { continue; } } CFX_ByteString fullpath = path; fullpath += "/"; fullpath += filename; if (bFolder) { ScanPath(fullpath); } else { ScanFile(fullpath); } } FX_CloseFolder(handle); } void CFPF_SkiaFontMgr::ScanFile(const CFX_ByteStringC& file) { FXFT_Face face = GetFontFace(file); if (face) { CFPF_SkiaPathFont* pFontDesc = new CFPF_SkiaPathFont; pFontDesc->SetPath(file.GetCStr()); ReportFace(face, pFontDesc); m_FontFaces.push_back(pFontDesc); FXFT_Done_Face(face); } } static const FX_DWORD g_FPFSkiaFontCharsets[] = { FPF_SKIACHARSET_Ansi, FPF_SKIACHARSET_EeasternEuropean, FPF_SKIACHARSET_Cyrillic, FPF_SKIACHARSET_Greek, FPF_SKIACHARSET_Turkish, FPF_SKIACHARSET_Hebrew, FPF_SKIACHARSET_Arabic, FPF_SKIACHARSET_Baltic, 0, 0, 0, 0, 0, 0, 0, 0, FPF_SKIACHARSET_Thai, FPF_SKIACHARSET_ShiftJIS, FPF_SKIACHARSET_GB2312, FPF_SKIACHARSET_Korean, FPF_SKIACHARSET_BIG5, FPF_SKIACHARSET_Johab, 0, 0, 0, 0, 0, 0, 0, 0, FPF_SKIACHARSET_OEM, FPF_SKIACHARSET_Symbol, }; static FX_DWORD FPF_SkiaGetFaceCharset(TT_OS2* pOS2) { FX_DWORD dwCharset = 0; if (pOS2) { for (int32_t i = 0; i < 32; i++) { if (pOS2->ulCodePageRange1 & (1 << i)) { dwCharset |= g_FPFSkiaFontCharsets[i]; } } } dwCharset |= FPF_SKIACHARSET_Default; return dwCharset; } void CFPF_SkiaFontMgr::ReportFace(FXFT_Face face, CFPF_SkiaFontDescriptor* pFontDesc) { if (!face || !pFontDesc) { return; } pFontDesc->SetFamily(FXFT_Get_Face_Family_Name(face)); if (FXFT_Is_Face_Bold(face)) { pFontDesc->m_dwStyle |= FXFONT_BOLD; } if (FXFT_Is_Face_Italic(face)) { pFontDesc->m_dwStyle |= FXFONT_ITALIC; } if (FT_IS_FIXED_WIDTH(face)) { pFontDesc->m_dwStyle |= FXFONT_FIXED_PITCH; } TT_OS2* pOS2 = (TT_OS2*)FT_Get_Sfnt_Table(face, ft_sfnt_os2); if (pOS2) { if (pOS2->ulCodePageRange1 & (1 << 31)) { pFontDesc->m_dwStyle |= FXFONT_SYMBOLIC; } if (pOS2->panose[0] == 2) { uint8_t uSerif = pOS2->panose[1]; if ((uSerif > 1 && uSerif < 10) || uSerif > 13) { pFontDesc->m_dwStyle |= FXFONT_SERIF; } } } if (pOS2 && (pOS2->ulCodePageRange1 & (1 << 31))) { pFontDesc->m_dwStyle |= FXFONT_SYMBOLIC; } pFontDesc->m_dwCharsets = FPF_SkiaGetFaceCharset(pOS2); pFontDesc->m_iFaceIndex = face->face_index; pFontDesc->m_iGlyphNum = face->num_glyphs; } void CFPF_SkiaFontMgr::OutputSystemFonts() {} #endif