/* * @doc INTERNAL * * @module FONT.CPP -- font cache | * * Includes font cache, char width cache; * create logical font if not in cache, look up * character widths on an as needed basis (this * has been abstracted away into a separate class * so that different char width caching algos can * be tried.) * * Owner: * RichEdit 1.0 code: David R. Fulmer * Christian Fortini (initial conversion to C++) * Jon Matousek * * History: * 7/26/95 jonmat cleanup and reorganization, factored out * char width caching code into a separate class. * * Copyright (c) 1995-1998 Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_font.h" #include "_rtfconv.h" // Needed for GetCodePage #include "_uspi.h" #define CLIP_DFA_OVERRIDE 0x40 // Used to disable Korea & Taiwan font association #define FF_BIDI 7 ASSERTDATA // Corresponds to yHeightCharPtsMost in richedit.h #define yHeightCharMost 32760 // NOTE: this is global across all instances in the same process. static CFontCache *g_fc; static FONTINFO *g_pFontInfo = NULL; static LONG g_cFontInfo = 0; static LONG g_cFontInfoMax = 0; //Fonts automatically added to our font table const WCHAR *szArial = L"Arial"; // IFONT_ARIAL const WCHAR *szTimesNewRoman = L"Times New Roman"; // IFONT_TIMESNEWROMAN const WCHAR *szSymbol = L"Symbol"; // IFONT_SYMBOL const WCHAR *szSystem = L"System"; // IFONT_SYSTEM const int cfontsDflt = 4; //Other fonts that we do use, but aren't automatically added to our font table const WCHAR *szMicrosSansSerif = L"Microsoft Sans Serif"; const WCHAR *szMSSansSerif = L"MS Sans Serif"; const WCHAR *szMangal = L"Mangal"; const WCHAR *szLatha = L"Latha"; const WCHAR *szCordiaNew = L"Cordia New"; const WCHAR *szTahoma = L"Tahoma"; const WCHAR *szArialUnicode = L"Arial Unicode MS"; const WCHAR *szWingdings = L"Wingdings"; #define szFontOfChoice szArial /* * GetFontNameIndex(pFontName) * * @func * return index into global pszFontName table for fontname pFontName. * If fontname isn't in table, add it and return index. * * @rdesc * fontname index corresponding to pFontName * * @devnote * This uses a linear search, so the most common font names should be * up front. Internally, we use the fontname indices, so the search * isn't done that often. Note also that the fontname table only grows, * but this is probably OK for most clients. Else we need ref counting... */ SHORT GetFontNameIndex( const WCHAR *pFontName) { CLock Lock; // Wonder how much this slows things down... for(LONG i = 0; i < g_cFontInfo; i++) { // A hash could speed this up if perf turns out poor if(!wcscmp(pFontName, g_pFontInfo[i].szFontName)) return i; } if(g_cFontInfo + 1 >= g_cFontInfoMax) { // Note that PvReAlloc() reverts to PvAlloc() if g_pFontInfo is NULL FONTINFO *pFI = (FONTINFO *)PvReAlloc((LPVOID)g_pFontInfo, sizeof(FONTINFO) * (8 + g_cFontInfo)); if(!pFI) return IFONT_ARIAL; // Out of memory... // Initialize the structure ZeroMemory (&pFI[g_cFontInfo], 8 * sizeof(FONTINFO)); // attempts to fill them in if(!g_cFontInfoMax) // First allocation { Assert(IFONT_ARIAL == 0 && IFONT_TMSNEWRMN == 1 && IFONT_SYMBOL == 2 && IFONT_SYSTEM == 3); pFI[IFONT_ARIAL].szFontName = szArial; pFI[IFONT_TMSNEWRMN].szFontName = szTimesNewRoman; pFI[IFONT_SYMBOL].szFontName = szSymbol; pFI[IFONT_SYSTEM].szFontName = szSystem; g_cFontInfo = cfontsDflt; } g_pFontInfo = pFI; g_cFontInfoMax += 8; } LONG cb = (wcslen(pFontName) + 1)*sizeof(WCHAR); WCHAR * pch = (WCHAR *)PvAlloc(cb, GMEM_MOVEABLE); if(!pch) return IFONT_ARIAL; // Out of memory... g_pFontInfo[g_cFontInfo].szFontName = pch; CopyMemory((void *)pch, pFontName, cb); return g_cFontInfo++; } /* * GetFontName(iFont) * * @func * return fontname given by g_pFontInfo[iFont].szFontName. * * @rdesc * fontname corresponding to fontname index iFont */ const WCHAR *GetFontName( LONG iFont) { return (iFont < g_cFontInfo) ? g_pFontInfo[iFont].szFontName : NULL; } /* * SetFontLegitimateSize(iFont, fUIFont, iSize) * * @func * Set the legitimate size (readable smallest size to use) of a given font */ BOOL SetFontLegitimateSize( LONG iFont, BOOL fUIFont, BYTE bSize, int cpg) { if (iFont < g_cFontInfo) { // Far East wanted to do it per codepage. // // FUTURE: Bear in mind that this approach is bug-prone. Once there's // any new FE font created with different metric from the existing one. // Font scaling will not perform well or even broken for such font [wchao]. g_pFontInfo[iFont].ff.fScaleByCpg = W32->IsFECodePage(cpg); if (fUIFont) { if (!g_pFontInfo[iFont].bSizeUI) g_pFontInfo[iFont].bSizeUI = bSize; else // more than one legit size were updated per font, // We fallback to the codepage-driven approach. g_pFontInfo[iFont].ff.fScaleByCpg = g_pFontInfo[iFont].bSizeUI != bSize; } else { if (!g_pFontInfo[iFont].bSizeNonUI) g_pFontInfo[iFont].bSizeNonUI = bSize; else g_pFontInfo[iFont].ff.fScaleByCpg = g_pFontInfo[iFont].bSizeNonUI != bSize; } return TRUE; } return FALSE; } BYTE GetFontLegitimateSize( LONG iFont, BOOL fUIFont, int cpg) // requested size for given codepage { SHORT iDefFont; BYTE bDefPaf; BYTE yHeight = 0; if (iFont < g_cFontInfo && !g_pFontInfo[iFont].ff.fScaleByCpg) yHeight = fUIFont ? g_pFontInfo[iFont].bSizeUI : g_pFontInfo[iFont].bSizeNonUI; if (!yHeight && fc().GetInfoFlags(iFont).fNonBiDiAscii) { // non-BiDi ASCII font uses table font (of the same charset) legitimate height DWORD dwSig = GetFontSignatureFromFace(iFont) & ~((fASCII | fFE) >> 8); int cpg = GetCodePage(GetFirstAvailCharSet(dwSig)); W32->GetPreferredFontInfo(cpg, fUIFont ? true : false, iDefFont, yHeight, bDefPaf); SetFontLegitimateSize(iFont, fUIFont ? true : false, yHeight ? yHeight : fUIFont ? 8 : 10, cpg); } if (!yHeight) { if (fc().GetInfoFlags(iFont).fThaiDTP) { cpg = THAI_INDEX; fUIFont = FALSE; } W32->GetPreferredFontInfo(cpg, fUIFont ? true : false, iDefFont, yHeight, bDefPaf); } return yHeight ? yHeight : fUIFont ? 8 : 10; } /* * GetTextCharsetInfoPri(hdc, pFontSig, dwFlags) * * @func * Wrapper to GDI's GetTextCharsetInfo. This to handle BiDi old-style fonts */ UINT GetTextCharsetInfoPri( HDC hdc, FONTSIGNATURE* pFontSig, DWORD dwFlags) { OUTLINETEXTMETRICA otm; INT uCharSet = -1; if (pFontSig && GetOutlineTextMetricsA(hdc, sizeof(OUTLINETEXTMETRICA), &otm)) { ZeroMemory (pFontSig, sizeof(FONTSIGNATURE)); switch (otm.otmfsSelection & 0xFF00) { case 0xB200: // Arabic Simplified case 0xB300: // Arabic Traditional case 0xB400: // Arabic Old UDF uCharSet = ARABIC_CHARSET; break; case 0xB100: // Hebrew Old style uCharSet = HEBREW_CHARSET; } } if (uCharSet == -1) uCharSet = GetTextCharsetInfo(hdc, pFontSig, dwFlags); if (uCharSet == DEFAULT_CHARSET) uCharSet = ANSI_CHARSET; // never return ambiguous return (UINT)uCharSet; } /* * GetFontSignatureFromFace(iFont, DWORD* pdwFontSig) * * @func * Giving font signature matching the index of given facename. * This signature may not match the one in Cccs since this is the * signature of the font of given facename. The Cccs one is * per GDI realization. * * @rdesc * - font signature if pdwFontSig is NULL. * - If pdwFontSig != NULL. It's a boolean. * ZERO means returned signature is not sensible by following reasons * 1. Bad facename (junk like "!@#$" or name that doesnt exist in the system) * 2. Given face doesnt support even one valid ANSI codepage (symbol fonts i.e, Marlett) */ DWORD GetFontSignatureFromFace( int iFont, DWORD* pdwFontSig) { Assert((unsigned)iFont < (unsigned)g_cFontInfo); DWORD dwFontSig = g_pFontInfo[iFont].dwFontSig; FONTINFO_FLAGS ff; ff.wFlags = g_pFontInfo[iFont].ff.wFlags; if(!ff.fCached) { LOGFONT lf; HDC hdc = GetDC(NULL); WCHAR* pwchTag = lf.lfFaceName; int i = 0; ZeroMemory(&lf, sizeof(LOGFONT)); wcscpy(lf.lfFaceName, GetFontName(iFont)); // exclude Win95's tag name e.g. "Arial(Greek)" while (pwchTag[i] && pwchTag[i] != '(') i++; if(pwchTag[i] && i > 0) { while (i > 0 && pwchTag[i-1] == 0x20) i--; pwchTag[i] = 0; } lf.lfCharSet = DEFAULT_CHARSET; // obtain a charset supported by given facename // to force GDI gives facename priority over charset. W32->GetFacePriCharSet(hdc, &lf); HFONT hfont = CreateFontIndirect(&lf); if(hfont) { HFONT hfontOld = SelectFont(hdc, hfont); WCHAR szNewFaceName[LF_FACESIZE]; GetTextFace(hdc, LF_FACESIZE, szNewFaceName); if(!wcsicmp(szNewFaceName, lf.lfFaceName) || // Got it ((GetCharFlags(szNewFaceName[0]) & fFE) && // or Get back FE font name for English name (GetCharFlags(lf.lfFaceName[0]) & fASCII))) // because NT5 supports dual font names. { CHARSETINFO csi; // Try to get FONTSIGNATURE data UINT uCharSet = GetTextCharsetInfoPri(hdc, &(csi.fs), 0); DWORD dwUsb0 = W32->OnWin9x() ? 0 : csi.fs.fsUsb[0]; if ((csi.fs.fsCsb[0] | dwUsb0) || TranslateCharsetInfo((DWORD *)(DWORD_PTR)uCharSet, &csi, TCI_SRCCHARSET)) { CUniscribe* pusp; SCRIPT_CACHE sc = NULL; WORD wGlyph; dwFontSig = csi.fs.fsCsb[0]; // Also look at Unicode subrange if available // FUTURE: we may want to drive Unicode ranges with a // table approach, i.e., use for loop shifting dwUsb0 right // to convert each bit into an index into a table of BYTEs // that return the appropriate script index for rgCpgCharSet: // // for(LONG i = 0; dwUsb0; dwUsb0 >>= 1, i++) // { // static const BYTE iScript[32] = {...}; // if(dwUsb0 & 1) // dwFontSig |= W32->GetFontSigFromScript(iScript[i]); // } if (dwUsb0 & 0x00008000) dwFontSig |= fDEVANAGARI >> 8; if (dwUsb0 & 0x00100000) dwFontSig |= fTAMIL >> 8; if (dwUsb0 & 0x00000400) dwFontSig |= fARMENIAN >> 8; if (dwUsb0 & 0x04000000) dwFontSig |= fGEORGIAN >> 8; if((dwFontSig & fCOMPLEX_SCRIPT >> 8) && !(dwFontSig & fHILATIN1 >> 8) && (pusp = GetUniscribe())) { // signature says no Latin-1 support // Search for the 'a' and '0' glyph in the font to determine if the font // supports ASCII or European Digit. This is necessary to overcome // the font having incomplete font signature. // if (ScriptGetCMap(hdc, &sc, L"a", 1, 0, &wGlyph) == S_OK) dwFontSig |= fASCIIUPR >> 8; if (ScriptGetCMap(hdc, &sc, L"0", 1, 0, &wGlyph) == S_OK) dwFontSig |= fBELOWX40 >> 8; if (!IsBiDiCharSet(uCharSet) && (dwFontSig & (fASCII >> 8)) == fASCII >> 8) ff.fNonBiDiAscii = 1; // non-BiDi ASCII font ScriptFreeCache(&sc); } if (dwFontSig & fHILATIN1 >> 8) dwFontSig |= fASCII >> 8; // fLATIN1 has 3 bits // HACK for symbol font. We assign 0x04000(fSYMBOL >> 8) for Symbol font signature. if (uCharSet == SYMBOL_CHARSET && !(dwFontSig & 0x3fffffff)) dwFontSig |= fSYMBOL >> 8; } } else { ff.fBadFaceName = TRUE; } TEXTMETRIC tm; GetTextMetrics(hdc, &tm); ff.fTrueType = tm.tmPitchAndFamily & TMPF_TRUETYPE ? 1 : 0; ff.fBitmap = tm.tmPitchAndFamily & (TMPF_TRUETYPE | TMPF_VECTOR | TMPF_DEVICE) ? 0 : 1; if (!ff.fBadFaceName && dwFontSig & (fTHAI >> 8)) { // Some heuristic test on Thai fonts. // Most Thai fonts will fall to this category currently except for // Tahoma and Microsoft Sans Serif. ff.fThaiDTP = tm.tmDescent && tm.tmAscent/tm.tmDescent < 3; } SelectObject(hdc, hfontOld); SideAssert(DeleteObject(hfont)); } ReleaseDC(NULL, hdc); // Cache code pages supported by this font ff.fCached = TRUE; g_pFontInfo[iFont].dwFontSig = dwFontSig; g_pFontInfo[iFont].ff.wFlags = ff.wFlags; } if (!pdwFontSig) return dwFontSig; *pdwFontSig = dwFontSig; // Exclude bit 30-31 (as system reserved - NT masks 31 as symbol codepage) // 22-29 are reserved for alternate ANSI/OEM, as of now we use 21, 22 for Devanagari and Tamil return (DWORD)((dwFontSig & 0x3fffffff) && !ff.fBadFaceName); } /* * FreeFontNames() * * @func * Free fontnames given by g_pFontInfo[i].szFontName allocated by * GetFontNameIndex() as well as g_pFontInfo itself. */ void FreeFontNames() { for(LONG i = cfontsDflt; i < g_cFontInfo; i++) FreePv((LPVOID)g_pFontInfo[i].szFontName); FreePv(g_pFontInfo); g_pFontInfo = NULL; } SHORT g_iFontJapanese; SHORT g_iFontHangul; SHORT g_iFontBig5; SHORT g_iFontGB2312; /* * InitFontCache() * * @func * Initializes font cache. * * @devnote * This is exists so reinit.cpp doesn't have to know all about the * font cache. */ void InitFontCache() { g_fc = new CFontCache; g_fc->Init(); } /* * FreeFontCache() * * @mfunc * Frees font cache. * * @devnote * This is exists so reinit.cpp doesn't have to know all about the * font cache. */ void FreeFontCache() { delete g_fc; g_fc = NULL; FreeFontNames(); } /* * CFontCache & fc() * * @func * initialize the global g_fc. * @comm * current #defined to store 16 logical fonts and * respective character widths. * */ CFontCache & fc() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "fc"); return *g_fc; } FONTINFO_FLAGS CFontCache::GetInfoFlags(int ifont) { if (!g_pFontInfo[ifont].ff.fCached) GetFontSignatureFromFace(ifont); return g_pFontInfo[ifont].ff; } // =================================== CFontCache ==================================== /* * CFontCache::Init() * * @mfunc * Initializes font cache. * * @devnote * This is not a constructor because something bad seems to happen * if we try to construct a global object. */ void CFontCache::Init() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CFontCache::CFontCache"); _dwAgeNext = 0; } /* * CFontCache::MakeHashKey(pCF) * * @mfunc * Build a hash key for quick searches for a CCcs matching * the pCF. * Format: * iFont : 14 * Bold/Italic : 2 * Height : 16 * */ CCSHASHKEY CFontCache::MakeHashKey(const CCharFormat *pCF) { CCSHASHKEY ccshashkey; ccshashkey = pCF->_iFont | ((pCF->_dwEffects & 3) << 14); ccshashkey |= pCF->_yHeight << 16; return ccshashkey; } /* * CFontCache::GetCcs(pCF, dypInch, yPixelsPerInch) * * @mfunc * Search the font cache for a matching logical font and return it. * If a match is not found in the cache, create one. * * @rdesc * A logical font matching the given CHARFORMAT info. * * @devnote * The calling chain must be protected by a CLock, since this present * routine access the global (shared) FontCache facility. */ CCcs* CFontCache::GetCcs( const CCharFormat *const pCF, //@parm description of desired logical font const LONG dypInch, //@parm Y pixels per inch HDC hdc, //@parm HDC font is to be created for BOOL fForceTrueType) //@parm Force a TrueType font to be used { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CFontCache::GetCcs"); // display font const CCcs * const pccsMost = &_rgccs[FONTCACHESIZE - 1]; CCcs * pccs; CCSHASHKEY ccshashkey; int iccsHash; CCharFormat CF = *pCF; if (fForceTrueType) { //On Win '9x Thai/Vietnamese, you cannot force truetype fonts! Therefore, //we will force Tahoma if the font doesn't support the right charset. if (W32->OnWin9x()) { UINT acp = GetACP(); if (acp == 1258 || acp == 874) { DWORD fontsig = GetFontSignatureFromFace(CF._iFont); if (CF._bCharSet == THAI_CHARSET && ((fontsig & fTHAI >> 8) == 0) || CF._bCharSet == VIETNAMESE_CHARSET && ((fontsig & fVIETNAMESE >> 8) == 0) || !g_fc->GetInfoFlags(pCF->_iFont).fTrueType) { CF._iFont = GetFontNameIndex(szTahoma); } } } else if (!g_fc->GetInfoFlags(pCF->_iFont).fTrueType) CF._dwEffects |= CFE_TRUETYPEONLY; } if (hdc == NULL) hdc = W32->GetScreenDC(); // Change CF._yHeight in the case of sub/superscript if(CF._dwEffects & (CFE_SUPERSCRIPT | CFE_SUBSCRIPT)) CF._yHeight = 2*CF._yHeight/3; //Convert CCharFormat into logical units (round) CF._yHeight = (CF._yHeight * dypInch + LY_PER_INCH / 2) / LY_PER_INCH; if (CF._yHeight == 0) CF._yHeight = 1; ccshashkey = MakeHashKey(&CF); // Check our hash before going sequential. iccsHash = ccshashkey % CCSHASHSEARCHSIZE; if(ccshashkey == quickHashSearch[iccsHash].ccshashkey) { pccs = quickHashSearch[iccsHash].pccs; if(pccs && pccs->_fValid) { if(pccs->Compare(&CF, hdc)) goto matched; } } else //Setup this hash hint for next time quickHashSearch[iccsHash].ccshashkey = ccshashkey; // Sequentially search ccs for same character format for(pccs = &_rgccs[0]; pccs <= pccsMost; pccs++) { if(pccs->_ccshashkey == ccshashkey && pccs->_fValid) { if(!pccs->Compare(&CF, hdc)) continue; quickHashSearch[iccsHash].pccs = pccs; matched: //$ FUTURE: make this work even with wrap around of dwAgeNext // Mark as most recently used if it isn't already in use. if(pccs->_dwAge != _dwAgeNext - 1) pccs->_dwAge = _dwAgeNext++; pccs->_cRefs++; // bump up ref. count return pccs; } } // We did not find a match: init a new font cache. pccs = GrabInitNewCcs(&CF, hdc); quickHashSearch[iccsHash].pccs = pccs; pccs->_ccshashkey = ccshashkey; pccs->_fForceTrueType = (CF._dwEffects & CFE_TRUETYPEONLY) ? TRUE : FALSE; return pccs; } /* * CFontCache::GrabInitNewCcs(pCF) * * @mfunc * create a logical font and store it in our cache. * * @rdesc * New CCcs created */ CCcs* CFontCache::GrabInitNewCcs( const CCharFormat * const pCF, //@parm description of desired logical font HDC hdc) { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CFontCache::GrabInitNewCcs"); DWORD dwAgeOldest = 0xffffffff; CCcs * pccs; const CCcs * const pccsMost = &_rgccs[FONTCACHESIZE - 1]; CCcs * pccsOldest = NULL; // Look for unused entry and oldest in use entry for(pccs = &_rgccs[0]; pccs <= pccsMost && pccs->_fValid; pccs++) if(pccs->_cRefs == 0 && pccs->_dwAge < dwAgeOldest) { dwAgeOldest = pccs->_dwAge; pccsOldest = pccs; } if(pccs > pccsMost) // Didn't find an unused entry, use oldest entry { pccs = pccsOldest; if(!pccs) { AssertSz(FALSE, "CFontCache::GrabInitNewCcs oldest entry is NULL"); return NULL; } } // Initialize new CCcs pccs->_hdc = hdc; if(!pccs->Init(pCF)) return NULL; pccs->_cRefs++; return pccs; } // ============================= CCcs class =================================================== /* * BOOL CCcs::Init() * * @mfunc * Init one font cache object. The global font cache stores * individual CCcs objects. */ BOOL CCcs::Init ( const CCharFormat * const pCF) //@parm description of desired logical font { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::Init"); if(_fValid) Free(); // recycle already in-use fonts. if(MakeFont(pCF)) { _iFont = pCF->_iFont; _dwAge = g_fc->_dwAgeNext++; _fValid = TRUE; // successfully created a new font cache. } return _fValid; } /* * void CCcs::Free() * * @mfunc * Free any dynamic memory allocated by an individual font's cache. */ void CCcs::Free() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::Free"); Assert(_fValid); _widths.Free(); if(_hfont) DestroyFont(); if (_sc && g_pusp) ScriptFreeCache(&_sc); _fValid = FALSE; _cRefs = 0; } /* * CCcs::BestCharSet(bCharSet, bCharSetDefault) * * @mfunc * This function returns the best charset that the currently selected font * is capable of rendering. If the currently selected font cannot support * the requested charset, then the function returns bCharSetDefault, which * is generally taken from the charformat. * * @rdesc * The closest charset to bCharSet that can be rendered by the current * font. * * @devnote * Currently this function is only used with plain text, however I don't * believe there is any special reason it couldn't be used to improve * rendering of rich text as well. */ BYTE CCcs::BestCharSet(BYTE bCharSet, BYTE bCharSetDefault, int fFontMatching) { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::BestCharSet"); // Does desired charset match currently selected charset or is it // supported by the currently selected font? if((bCharSet != _bCharSet || !bCharSet) && (fFontMatching == MATCH_CURRENT_CHARSET || !(_dwFontSig & GetFontSig(bCharSet)))) { // If desired charset is not selected and we can't switch to it, // switch to fallback charset (probably from backing store). return bCharSetDefault; } // We already match desired charset, or it is supported by the font. // Either way, we can just return the requested charset. return bCharSet; } /* * CCcs::FillWidth (ch, dxp) * * @mfunc * Fill in this CCcs with metrics info for given device * * @rdesc * TRUE if OK, FALSE if failed */ BOOL CCcs::FillWidth( WCHAR ch, //@parm WCHAR character we need a width for. LONG &dxp) //@parm the width of the character { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::FillWidths"); AssertSz(_hfont, "CCcs::Fill - CCcs has no font"); HFONT hfontOld = SelectFont(_hdc, _hfont); BOOL fRes = _widths.FillWidth(_hdc, ch, _xOverhangAdjust, dxp, _wCodePage, _xAveCharWidth); SelectFont(_hdc, hfontOld); return fRes; } /* * BOOL CCcs::MakeFont(pCF) * * @mfunc * Wrapper, setup for CreateFontIndirect() to create the font to be * selected into the HDC. * * @devnote The pCF here is in logical units * * @rdesc * TRUE if OK, FALSE if allocation failure */ BOOL CCcs::MakeFont( const CCharFormat * const pCF) //@parm description of desired logical font { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::MakeFont"); LOGFONT lf; ZeroMemory(&lf, sizeof(lf)); _bCMDefault = pCF->_dwEffects & CFE_RUNISDBCS ? CVT_LOWBYTE : CVT_NONE; _yHeightRequest = pCF->_yHeight; _bCharSetRequest = pCF->_bCharSet; lf.lfHeight = -_yHeightRequest; if(pCF->_wWeight) _weight = pCF->_wWeight; else _weight = (pCF->_dwEffects & CFE_BOLD) ? FW_BOLD : FW_NORMAL; lf.lfWeight = _weight; lf.lfItalic = _fItalic = (pCF->_dwEffects & CFE_ITALIC) != 0; lf.lfCharSet = _bCMDefault == CVT_LOWBYTE ? ANSI_CHARSET : GetGdiCharSet(pCF->_bCharSet); lf.lfOutPrecision = OUT_DEFAULT_PRECIS; if (pCF->_dwEffects & CFE_TRUETYPEONLY) { lf.lfOutPrecision = OUT_TT_ONLY_PRECIS; if (!W32->OnWin9x() && g_fc->GetInfoFlags(pCF->_iFont).fTrueType) lf.lfOutPrecision = OUT_SCREEN_OUTLINE_PRECIS; } lf.lfClipPrecision = CLIP_DEFAULT_PRECIS | CLIP_DFA_OVERRIDE; lf.lfPitchAndFamily = _bPitchAndFamily = pCF->_bPitchAndFamily; // If family is virtual BiDi family (FF_BIDI), replace by FF_ROMAN if((lf.lfPitchAndFamily & 0xF0) == (FF_BIDI << 4)) lf.lfPitchAndFamily = (FF_ROMAN << 4) | (lf.lfPitchAndFamily & 0xF); // If the run is DBCS, that means the font's codepage is not available in // this system. Use the English ANSI codepage instead so we will display // ANSI characters correctly. NOTE: _wCodePage is only used for Win95. _wCodePage = (WORD)GetCodePage(lf.lfCharSet); wcscpy(lf.lfFaceName, GetFontName(pCF->_iFont)); // In BiDi system, always create ANSI bitmap font with system charset BYTE bSysCharSet = W32->GetSysCharSet(); if (IsBiDiCharSet(bSysCharSet) && lf.lfCharSet == ANSI_CHARSET && fc().GetInfoFlags(pCF->_iFont).fBitmap && !fc().GetInfoFlags(pCF->_iFont).fBadFaceName) lf.lfCharSet = bSysCharSet; // Reader! A bundle of spagghetti code lies ahead of you! // But go on boldly, for these spagghetti are seasoned with // lots of comments, and ... good luck to you... HFONT hfontOriginalCharset = NULL; BYTE bOriginalCharset = lf.lfCharSet; WCHAR szNewFaceName[LF_FACESIZE]; GetFontWithMetrics(&lf, szNewFaceName); if(0 != wcsicmp(szNewFaceName, lf.lfFaceName)) { BOOL fCorrectFont = FALSE; if(lf.lfCharSet == SYMBOL_CHARSET) { // #1. if the face changed, and the specified charset was SYMBOL, // but the face name exists and suports ANSI, we give preference // to the face name lf.lfCharSet = ANSI_CHARSET; hfontOriginalCharset = _hfont; GetFontWithMetrics(&lf, szNewFaceName); if(0 == wcsicmp(szNewFaceName, lf.lfFaceName)) // That's right, ANSI is the asnwer fCorrectFont = TRUE; else // No, fall back by default; the charset we got was right lf.lfCharSet = bOriginalCharset; } else if(lf.lfCharSet == DEFAULT_CHARSET && _bCharSet == DEFAULT_CHARSET) { // #2. If we got the "default" font back, we don't know what it means // (could be anything) so we veryfy that this guy's not SYMBOL // (symbol is never default, but the OS could be lying to us!!!) // we would like to veryfy more like whether it actually gave us // Japanese instead of ANSI and labeled it "default"... // but SYMBOL is the least we can do lf.lfCharSet = SYMBOL_CHARSET; wcscpy(lf.lfFaceName, szNewFaceName); hfontOriginalCharset = _hfont; GetFontWithMetrics(&lf, szNewFaceName); if(0 == wcsicmp(szNewFaceName, lf.lfFaceName)) // That's right, it IS symbol! // 'correct' the font to the 'true' one, // and we'll get fMappedToSymbol fCorrectFont = TRUE; // Always restore the charset name, we didn't want to // question the original choice of charset here lf.lfCharSet = bOriginalCharset; } else if(lf.lfCharSet == ARABIC_CHARSET || lf.lfCharSet == HEBREW_CHARSET) { DestroyFont(); wcscpy(lf.lfFaceName, szNewFaceName); GetFontWithMetrics(&lf, szNewFaceName); fCorrectFont = TRUE; } else if(_bConvertMode != CVT_LOWBYTE && IsFECharSet(lf.lfCharSet) && !OnWinNTFE() && !W32->OnWin9xFE()) { const WCHAR *pch = NULL; if(_bCharSet != lf.lfCharSet && W32->OnWin9x()) { // On Win95 when rendering to PS driver, we'll get something // other than what we asked. So try a known font we got from GDI switch (lf.lfCharSet) { case CHINESEBIG5_CHARSET: pch = GetFontName(g_iFontBig5); break; case SHIFTJIS_CHARSET: pch = GetFontName(g_iFontJapanese); break; case HANGEUL_CHARSET: pch = GetFontName(g_iFontHangul); break; case GB2312_CHARSET: pch = GetFontName(g_iFontGB2312); break; } } else // FE Font (from Lang pack) pch = szNewFaceName; // on a nonFEsystem if(pch) wcscpy(lf.lfFaceName, pch); hfontOriginalCharset = _hfont; GetFontWithMetrics(&lf, szNewFaceName); if(0 == wcsicmp(szNewFaceName, lf.lfFaceName)) { // That's right, it IS the FE font we want! // 'correct' the font to the 'true' one. fCorrectFont = TRUE; if(W32->OnWin9x()) { // Save up the GDI font names for later printing use switch(lf.lfCharSet) { case CHINESEBIG5_CHARSET: g_iFontBig5 = GetFontNameIndex(lf.lfFaceName); break; case SHIFTJIS_CHARSET: g_iFontJapanese = GetFontNameIndex(lf.lfFaceName); break; case HANGEUL_CHARSET: g_iFontHangul = GetFontNameIndex(lf.lfFaceName); break; case GB2312_CHARSET: g_iFontGB2312 = GetFontNameIndex(lf.lfFaceName); break; } } } } if(hfontOriginalCharset) { // Either keep old font or new one if(fCorrectFont) { SideAssert(DeleteObject(hfontOriginalCharset)); } else { // Fall back to original font DestroyFont(); _hfont = hfontOriginalCharset; GetMetrics(); } hfontOriginalCharset = NULL; } } RetryCreateFont: { // Could be that we just plain simply get mapped to symbol. // Avoid it BOOL fMappedToSymbol = (_bCharSet == SYMBOL_CHARSET && lf.lfCharSet != SYMBOL_CHARSET); BOOL fChangedCharset = (_bCharSet != lf.lfCharSet && lf.lfCharSet != DEFAULT_CHARSET); if(fChangedCharset || fMappedToSymbol) { // Here, the system did not preserve the font language or mapped // our non-symbol font onto a symbol font, which will look awful // when displayed. Giving us a symbol font when we asked for a // non-symbol font (default can never be symbol) is very bizarre // and means that either the font name is not known or the system // has gone complete nuts. The charset language takes priority // over the font name. Hence, I would argue that nothing can be // done to save the situation at this point, and we have to // delete the font name and retry. if (fChangedCharset && lf.lfCharSet == THAI_CHARSET && _bCharSet == ANSI_CHARSET) { // We have charset substitution entries in Thai platforms that // will substitute all the core fonts with THAI_CHARSET to // ANSI_CHARSET. This is because we dont have Thai in such fonts. // Here we'll internally substitute the core font to Thai default // font so it matches its underlying THAI_CHARSET request (wchao). SHORT iDefFont; BYTE yDefHeight; BYTE bDefPaf; W32->GetPreferredFontInfo(874, TRUE, iDefFont, (BYTE&)yDefHeight, bDefPaf); const WCHAR* szThaiDefault = GetFontName(iDefFont); if (szThaiDefault) { DestroyFont(); wcscpy(lf.lfFaceName, szThaiDefault); GetFontWithMetrics(&lf, szNewFaceName); goto GetOutOfHere; } } if(!wcsicmp(lf.lfFaceName, szFontOfChoice)) { // We've been here already; no font with an appropriate // charset is on the system. Try getting the ANSI one for // the original font name. Next time around, we'll null // out the name as well!! if (lf.lfCharSet == ANSI_CHARSET) { TRACEINFOSZ("Asking for ANSI ARIAL and not getting it?!"); // Those Win95 guys have definitely outbugged me goto GetOutOfHere; } DestroyFont(); wcscpy(lf.lfFaceName, GetFontName(pCF->_iFont)); lf.lfCharSet = ANSI_CHARSET; } else { DestroyFont(); wcscpy(lf.lfFaceName, szFontOfChoice); } GetFontWithMetrics(&lf, szNewFaceName); goto RetryCreateFont; } } GetOutOfHere: if (hfontOriginalCharset) SideAssert(DeleteObject(hfontOriginalCharset)); // If we're really really stuck, just get the system font and hope for the best. if(!_hfont) _hfont = W32->GetSystemFont(); Assert(_hfont); // Cache essential FONTSIGNATURE and GetFontLanguageInfo() information _dwFontSig = 0; if(_hfont) { CHARSETINFO csi; HFONT hfontOld = SelectFont(_hdc, _hfont); UINT uCharSet; // Try to get FONTSIGNATURE data uCharSet = GetTextCharsetInfo(_hdc, &(csi.fs), 0); if(!(csi.fs.fsCsb[0] | csi.fs.fsCsb[1] | csi.fs.fsUsb[0])) { // We should only get here if the font is non-TrueType; See // GetTextCharsetInfo() for details. In this case we use // TranslateCharsetInfo() to fill in the data for us. TranslateCharsetInfo((DWORD *)(DWORD_PTR)uCharSet, &csi, TCI_SRCCHARSET); } // Cache ANSI code pages supported by this font _dwFontSig = csi.fs.fsCsb[0]; SelectFont(_hdc, hfontOld); } return TRUE; } /* * HFONT CCcs::GetFontWithMetrics (szNewFaceName) * * @mfunc * Get metrics used by the measurer and renderer and the new face name. * * @rdesc * HFONT if successful */ HFONT CCcs::GetFontWithMetrics (LOGFONT *plf, WCHAR* szNewFaceName) { _hfont = CreateFontIndirect(plf); if(_hfont) GetMetrics(szNewFaceName); return (_hfont); } /* * CCcs::GetOffset(pCF, lZoomNumerator, lZoomDenominator, pyOffset, pyAdjust); * * @mfunc * Return the offset information for * * @rdesc * void * * @comm * Return the offset value (used in line height calculations) * and the amount to raise or lower the text because of superscript * or subscript considerations. */ void CCcs::GetOffset(const CCharFormat * const pCF, LONG dypInch, LONG *pyOffset, LONG *pyAdjust) { *pyOffset = 0; *pyAdjust = 0; if (pCF->_yOffset) *pyOffset = MulDiv(pCF->_yOffset, dypInch, LY_PER_INCH); if (pCF->_dwEffects & CFE_SUPERSCRIPT) *pyAdjust = _yOffsetSuperscript; else if (pCF->_dwEffects & CFE_SUBSCRIPT) *pyAdjust = _yOffsetSubscript; } /* * BOOL CCcs::GetMetrics() * * @mfunc * Get metrics used by the measurer and renderer. * * @rdesc * TRUE if successful * * @comm * These are in logical coordinates which are dependent * on the mapping mode and font selected into the hdc. */ BOOL CCcs::GetMetrics(WCHAR *szNewFaceName) { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::GetMetrics"); HFONT hfontOld; BOOL fRes = TRUE; TEXTMETRIC tm; if (szNewFaceName) *szNewFaceName = 0; AssertSz(_hfont, "No font has been created."); hfontOld = SelectFont(_hdc, _hfont); if(!hfontOld) { DestroyFont(); return FALSE; } if (szNewFaceName) GetTextFace(_hdc, LF_FACESIZE, szNewFaceName); if(!GetTextMetrics(_hdc, &tm)) { SelectFont(_hdc, hfontOld); DestroyFont(); return FALSE; } // the metrics, in logical units, dependent on the map mode and font. _yHeight = (SHORT) tm.tmHeight; _yDescent = (SHORT) tm.tmDescent; _xAveCharWidth = (SHORT) tm.tmAveCharWidth; _xOverhangAdjust= (SHORT) tm.tmOverhang; //FUTURE (keithcu) Get these metrics from the font. //FUTURE (keithcu) The height of the line if the font is superscript //should be the NORMAL height of the text. _yOffsetSuperscript = _yHeight * 2 / 5; _yOffsetSubscript = -_yDescent * 3 / 5; _xOverhang = 0; _xUnderhang = 0; if(_fItalic) { _xOverhang = SHORT((tm.tmAscent + 1) >> 2); _xUnderhang = SHORT((tm.tmDescent + 1) >> 2); } // if fix pitch, the tm bit is clear _fFixPitchFont = !(TMPF_FIXED_PITCH & tm.tmPitchAndFamily); _bCharSet = tm.tmCharSet; _fFECharSet = IsFECharSet(_bCharSet); // Use convert-mode proposed by CF, for which we are creating the font and // then tweak as necessary below. _bConvertMode = _bCMDefault; // If SYMBOL_CHARSET is used, use the A APIs with the low bytes of the // characters in the run if(_bCharSet == SYMBOL_CHARSET) _bConvertMode = CVT_LOWBYTE; else if (_bConvertMode == CVT_NONE) _bConvertMode = W32->DetermineConvertMode(_hdc, tm.tmCharSet ); W32->CalcUnderlineInfo(_hdc, this, &tm); SelectFont(_hdc, hfontOld); return fRes; } /* * CCcs::DestroyFont() * * @mfunc * Destroy font handle for this CCcs */ void CCcs::DestroyFont() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::DestroyFont"); // clear out any old font if(_hfont) { SideAssert(DeleteObject(_hfont)); _hfont = 0; } } /* * CCcs::Compare (pCF, lfHeight) * * @mfunc * Compares this font cache with the font properties of a * given CHARFORMAT * @devnote The pCF size here is in logical units * * @rdesc * FALSE iff did not match exactly. */ BOOL CCcs::Compare ( const CCharFormat * const pCF, //@parm Description of desired font HDC hdc) { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CCcs::Compare"); BOOL result = _iFont == pCF->_iFont && _yHeightRequest == pCF->_yHeight && (_bCharSetRequest == pCF->_bCharSet || _bCharSet == pCF->_bCharSet) && _weight == pCF->_wWeight && _fForceTrueType == ((pCF->_dwEffects & CFE_TRUETYPEONLY) ? TRUE : FALSE) && _fItalic == ((pCF->_dwEffects & CFE_ITALIC) != 0) && _hdc == hdc && _bPitchAndFamily == pCF->_bPitchAndFamily && (!(pCF->_dwEffects & CFE_RUNISDBCS) || _bConvertMode == CVT_LOWBYTE); return result; } // ========================= WidthCache by jonmat ========================= /* * CWidthCache::CheckWidth(ch, dxp) * * @mfunc * check to see if we have a width for a WCHAR character. * * @comm * Used prior to calling FillWidth(). Since FillWidth * may require selecting the map mode and font in the HDC, * checking here first saves time. * * @comm * Statistics are maintained to determine when to * expand the cache. The determination is made after a constant * number of calls in order to make calculations faster. * * @rdesc * returns TRUE if we have the width of the given WCHAR. */ BOOL CWidthCache::CheckWidth ( const WCHAR ch, //@parm char, can be Unicode, to check width for. LONG &dxp) //@parm Width of character { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::CheckWidth"); BOOL fExist; //30,000 FE characters all have the same width if (FLookasideCharacter(ch)) { FetchLookasideWidth(ch, dxp); return dxp != 0; } const CacheEntry * pWidthData = GetEntry ( ch ); fExist = (ch == pWidthData->ch // Have we fetched the width? && pWidthData->width); // only because we may have ch == 0. dxp = fExist ? pWidthData->width : 0; if(!_fMaxPerformance) // if we have not grown to the max... { _accesses++; if(!fExist) // Only interesting on collision. { if(0 == pWidthData->width) // Test width not ch, 0 is valid ch. { _cacheUsed++; // Used another entry. AssertSz( _cacheUsed <= _cacheSize+1, "huh?"); } else _collisions++; // We had a collision. if(_accesses >= PERFCHECKEPOCH) CheckPerformance(); // After some history, tune cache. } } #ifdef DEBUG // Continue to monitor performance else { _accesses++; if(!fExist) // Only interesting on collision. { if(0 == pWidthData->width) // Test width not ch, 0 is valid ch. { _cacheUsed++; // Used another entry. AssertSz( _cacheUsed <= _cacheSize+1, "huh?"); } else _collisions++; // We had a collision. } if(_accesses > PERFCHECKEPOCH) { _accesses = 0; _collisions = 0; } } #endif return fExist; } /* * CWidthCache::CheckPerformance() * * @mfunc * check performance and increase cache size if deemed necessary. * * @devnote * To calculate 25% collision rate, we make use of the fact that * we are only called once every 64 accesses. The inequality is * 100 * collisions / accesses >= 25. By converting from 100ths to * 8ths, the ineqaulity becomes (collisions << 3) / accesses >= 2. * Substituting 64 for accesses, this becomes (collisions >> 3) >= 2. */ void CWidthCache::CheckPerformance() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::CheckPerformance"); if(_fMaxPerformance) // Exit if already grown to our max. return; // Grow the cache when cacheSize > 0 && 75% utilized or approx 25% // collision rate if (_cacheSize > DEFAULTCACHESIZE && (_cacheSize >> 1) + (_cacheSize >> 2) < _cacheUsed || (_collisions >> COLLISION_SHIFT) >= 2) { GrowCache( &_pWidthCache, &_cacheSize, &_cacheUsed ); } _collisions = 0; // This prevents wraps but makes _accesses = 0; // calc a local rate, not global. if(_cacheSize >= maxCacheSize)// Note if we've max'ed out _fMaxPerformance = TRUE; AssertSz( _cacheSize <= maxCacheSize, "max must be 2^n-1"); AssertSz( _cacheUsed <= _cacheSize+1, "huh?"); } /* * CWidthCache::GrowCache(ppWidthCache, pCacheSize, pCacheUsed) * * @mfunc * Exponentially expand the size of the cache. * * @comm * The cache size must be of the form 2^n as we use a * logical & to get the hash MOD by storing 2^n-1 as * the size and using this as the modulo. * * @rdesc * Returns TRUE if we were able to allocate the new cache. * All in params are also out params. * */ BOOL CWidthCache::GrowCache( CacheEntry **ppWidthCache, //@parm cache INT * pCacheSize, //@parm cache's respective size. INT * pCacheUsed) //@parm cache's respective utilization. { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::GrowCache"); CacheEntry *pNewWidthCache, *pOldWidthCache, *pWidthData; INT j, newCacheSize, newCacheUsed; WCHAR ch; j = *pCacheSize; // Allocate cache of 2^n. newCacheSize = max ( INITIALCACHESIZE, (j << 1) + 1); pNewWidthCache = (CacheEntry *) PvAlloc( sizeof(CacheEntry) * (newCacheSize + 1 ), GMEM_ZEROINIT); if(pNewWidthCache) { newCacheUsed = 0; *pCacheSize = newCacheSize; // Update out params. pOldWidthCache = *ppWidthCache; *ppWidthCache = pNewWidthCache; for (; j >= 0; j--) // Move old cache info to new. { ch = pOldWidthCache[j].ch; if ( ch ) { pWidthData = &pNewWidthCache [ch & newCacheSize]; if ( 0 == pWidthData->ch ) newCacheUsed++; // Used another entry. pWidthData->ch = ch; pWidthData->width = pOldWidthCache[j].width; } } *pCacheUsed = newCacheUsed; // Update out param. // Free old cache. if (pOldWidthCache < &_defaultWidthCache[0] || pOldWidthCache >= &_defaultWidthCache[DEFAULTCACHESIZE+1]) { FreePv(pOldWidthCache); } } return NULL != pNewWidthCache; } /* * CWidthCache::FillWidth(hdc, ch, xOverhang, dxp) * * @mfunc * Call GetCharWidth() to obtain the width of the given char. * * @comm * The HDC must be setup with the mapping mode and proper font * selected *before* calling this routine. * * @rdesc * Returns TRUE if we were able to obtain the widths. */ BOOL CWidthCache::FillWidth( HDC hdc, //@parm Current HDC we want font info for. const WCHAR ch, //@parm Char to obtain width for. const SHORT xOverhang, //@parm Equivalent to GetTextMetrics() tmOverhang. LONG & dxp, //@parm Width of character UINT uiCodePage, //@parm code page for text INT iDefWidth) //@parm Default width to use if font calc's zero //width. (Handles Win95 problem). { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::FillWidth"); if (FLookasideCharacter(ch)) { SHORT *pdxp = IN_RANGE(0xAC00, ch, 0xD79F) ? &_dxpHangul : &_dxpHan; W32->REGetCharWidth(hdc, ch, pdxp, uiCodePage, xOverhang, iDefWidth); dxp = *pdxp; return TRUE; } CacheEntry * pWidthData = GetEntry (ch); W32->REGetCharWidth(hdc, ch, &pWidthData->width, uiCodePage, xOverhang, iDefWidth); pWidthData->ch = ch; dxp = pWidthData->width; return TRUE; } /* * CWidthCache::Free() * * @mfunc * Free any dynamic memory allocated by the width cache and prepare * it to be recycled. */ void CWidthCache::Free() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::Free"); _fMaxPerformance = FALSE; _dxpHangul = _dxpHan = 0; _cacheSize = DEFAULTCACHESIZE; _cacheUsed = 0; _collisions = 0; _accesses = 0; if(_pWidthCache != &_defaultWidthCache[0]) { FreePv(_pWidthCache); _pWidthCache = &_defaultWidthCache[0]; } ZeroMemory(_pWidthCache, sizeof(CacheEntry)*(DEFAULTCACHESIZE + 1)); } /* * CWidthCache::CWidthCache() * * @mfunc * Point the caches to the defaults. */ CWidthCache::CWidthCache() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::CWidthCache"); _pWidthCache = &_defaultWidthCache[0]; } /* * CWidthCache::~CWidthCache() * * @mfunc * Free any allocated caches. */ CWidthCache::~CWidthCache() { TRACEBEGIN(TRCSUBSYSFONT, TRCSCOPEINTERN, "CWidthCache::~CWidthCache"); if (_pWidthCache != &_defaultWidthCache[0]) FreePv(_pWidthCache); }