path: root/Source/WebCore/platform/graphics/chromium/FontCacheChromiumWin.cpp

/*
 * Copyright (C) 2006, 2007 Apple Computer, Inc.
 * Copyright (c) 2006, 2007, 2008, 2009 Google Inc. All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 * 
 *     * Redistributions of source code must retain the above copyright
 * notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above
 * copyright notice, this list of conditions and the following disclaimer
 * in the documentation and/or other materials provided with the
 * distribution.
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 * contributors may be used to endorse or promote products derived from
 * this software without specific prior written permission.
 * 
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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 */

#include "config.h"
#include "FontCache.h"

#include "ChromiumBridge.h"
#include "Font.h"
#include "FontUtilsChromiumWin.h"
#include "HashMap.h"
#include "HashSet.h"
#include "SimpleFontData.h"
#include <unicode/uniset.h>
#include <wtf/text/StringHash.h>

#include <windows.h>
#include <objidl.h>
#include <mlang.h>

using std::min;

namespace WebCore
{

// FIXME: consider adding to WebKit String class
static bool charactersAreAllASCII(const String& s)
{
    return WTF::charactersAreAllASCII(s.characters(), s.length());
}

// When asked for a CJK font with a native name under a non-CJK locale or
// asked for a CJK font with a Romanized name under a CJK locale,
// |GetTextFace| (after |CreateFont*|) returns a 'bogus' value (e.g. Arial).
// This is not consistent with what MSDN says !!
// Therefore, before we call |CreateFont*|, we have to map a Romanized name to 
// the corresponding native name under a CJK locale and vice versa 
// under a non-CJK locale.
// See the corresponding gecko bugs at 
// https://bugzilla.mozilla.org/show_bug.cgi?id=373952
// https://bugzilla.mozilla.org/show_bug.cgi?id=231426
static bool LookupAltName(const String& name, String& altName)
{
    struct FontCodepage {
        WCHAR* name;
        int codePage;
    };

    struct NamePair {
        WCHAR* name;
        FontCodepage altNameCodepage;
    };

    const int japaneseCodepage = 932;
    const int simplifiedChineseCodepage = 936;
    const int koreanCodepage = 949;
    const int traditionalChineseCodepage = 950;

    // FIXME(jungshik) : This list probably covers 99% of cases.
    // To cover the remaining 1% and cut down the file size,
    // consider accessing 'NAME' table of a truetype font
    // using |GetFontData| and caching the mapping.
    // In the table below, the ASCII keys are all lower-cased for
    // case-insensitive matching.
    static const NamePair namePairs[] = {
        // ＭＳ Ｐゴシック, MS PGothic
        {L"\xFF2D\xFF33 \xFF30\x30B4\x30B7\x30C3\x30AF", {L"MS PGothic", japaneseCodepage}},
        {L"ms pgothic", {L"\xFF2D\xFF33 \xFF30\x30B4\x30B7\x30C3\x30AF", japaneseCodepage}},
        // ＭＳ Ｐ明朝, MS PMincho
        {L"\xFF2D\xFF33 \xFF30\x660E\x671D", {L"MS PMincho", japaneseCodepage}},
        {L"ms pmincho", {L"\xFF2D\xFF33 \xFF30\x660E\x671D", japaneseCodepage}},
        // ＭＳゴシック, MS Gothic
        {L"\xFF2D\xFF33 \x30B4\x30B7\x30C3\x30AF", {L"MS Gothic", japaneseCodepage}},
        {L"ms gothic", {L"\xFF2D\xFF33 \x30B4\x30B7\x30C3\x30AF", japaneseCodepage}},
        // ＭＳ 明朝, MS Mincho
        {L"\xFF2D\xFF33 \x660E\x671D", {L"MS Mincho", japaneseCodepage}},
        {L"ms mincho", {L"\xFF2D\xFF33 \x660E\x671D", japaneseCodepage}},
        // メイリオ, Meiryo
        {L"\x30E1\x30A4\x30EA\x30AA", {L"Meiryo", japaneseCodepage}},
        {L"meiryo", {L"\x30E1\x30A4\x30EA\x30AA", japaneseCodepage}},
        // 바탕, Batang
        {L"\xBC14\xD0D5", {L"Batang", koreanCodepage}},
        {L"batang", {L"\xBC14\xD0D5", koreanCodepage}},
        // 바탕체, Batangche
        {L"\xBC14\xD0D5\xCCB4", {L"Batangche", koreanCodepage}},
        {L"batangche", {L"\xBC14\xD0D5\xCCB4", koreanCodepage}},
        // 굴림, Gulim
        {L"\xAD74\xB9BC", {L"Gulim", koreanCodepage}},
        {L"gulim", {L"\xAD74\xB9BC", koreanCodepage}},
        // 굴림체, Gulimche
        {L"\xAD74\xB9BC\xCCB4", {L"Gulimche", koreanCodepage}},
        {L"gulimche", {L"\xAD74\xB9BC\xCCB4", koreanCodepage}},
        // 돋움, Dotum
        {L"\xB3CB\xC6C0", {L"Dotum", koreanCodepage}},
        {L"dotum", {L"\xB3CB\xC6C0", koreanCodepage}},
        // 돋움체, Dotumche
        {L"\xB3CB\xC6C0\xCCB4", {L"Dotumche", koreanCodepage}},
        {L"dotumche", {L"\xB3CB\xC6C0\xCCB4", koreanCodepage}},
        // 궁서, Gungsuh
        {L"\xAD81\xC11C", {L"Gungsuh", koreanCodepage}},
        {L"gungsuh", {L"\xAD81\xC11C", koreanCodepage}},
        // 궁서체, Gungsuhche
        {L"\xAD81\xC11C\xCCB4", {L"Gungsuhche", koreanCodepage}},
        {L"gungsuhche", {L"\xAD81\xC11C\xCCB4", koreanCodepage}},
        // 맑은 고딕, Malgun Gothic
        {L"\xB9D1\xC740 \xACE0\xB515", {L"Malgun Gothic", koreanCodepage}},
        {L"malgun gothic", {L"\xB9D1\xC740 \xACE0\xB515", koreanCodepage}},
        // 宋体, SimSun
        {L"\x5B8B\x4F53", {L"SimSun", simplifiedChineseCodepage}},
        {L"simsun", {L"\x5B8B\x4F53", simplifiedChineseCodepage}},
        // 宋体-ExtB, SimSun-ExtB
        {L"\x5B8B\x4F53-ExtB", {L"SimSun-ExtB", simplifiedChineseCodepage}},
        {L"simsun-extb", {L"\x5B8B\x4F53-extb", simplifiedChineseCodepage}},
        // 黑体, SimHei
        {L"\x9ED1\x4F53", {L"SimHei", simplifiedChineseCodepage}},
        {L"simhei", {L"\x9ED1\x4F53", simplifiedChineseCodepage}},
        // 新宋体, NSimSun
        {L"\x65B0\x5B8B\x4F53", {L"NSimSun", simplifiedChineseCodepage}},
        {L"nsimsun", {L"\x65B0\x5B8B\x4F53", simplifiedChineseCodepage}},
        // 微软雅黑, Microsoft Yahei
        {L"\x5FAE\x8F6F\x96C5\x9ED1", {L"Microsoft Yahei", simplifiedChineseCodepage}},
        {L"microsoft yahei", {L"\x5FAE\x8F6F\x96C5\x9ED1", simplifiedChineseCodepage}},
        // 仿宋, FangSong
        {L"\x4EFF\x5B8B",  {L"FangSong", simplifiedChineseCodepage}},
        {L"fangsong", {L"\x4EFF\x5B8B", simplifiedChineseCodepage}},
        // 楷体, KaiTi
        {L"\x6977\x4F53", {L"KaiTi", simplifiedChineseCodepage}},
        {L"kaiti", {L"\x6977\x4F53", simplifiedChineseCodepage}},
        // 仿宋_GB2312, FangSong_GB2312
        {L"\x4EFF\x5B8B_GB2312",  {L"FangSong_GB2312", simplifiedChineseCodepage}},
        {L"fangsong_gb2312", {L"\x4EFF\x5B8B_gb2312", simplifiedChineseCodepage}},
        // 楷体_GB2312, KaiTi_GB2312
        {L"\x6977\x4F53", {L"KaiTi_GB2312", simplifiedChineseCodepage}},
        {L"kaiti_gb2312", {L"\x6977\x4F53_gb2312", simplifiedChineseCodepage}},
        // 新細明體, PMingLiu
        {L"\x65B0\x7D30\x660E\x9AD4", {L"PMingLiu", traditionalChineseCodepage}},
        {L"pmingliu", {L"\x65B0\x7D30\x660E\x9AD4", traditionalChineseCodepage}},
        // 新細明體-ExtB, PMingLiu-ExtB
        {L"\x65B0\x7D30\x660E\x9AD4-ExtB", {L"PMingLiu-ExtB", traditionalChineseCodepage}},
        {L"pmingliu-extb", {L"\x65B0\x7D30\x660E\x9AD4-extb", traditionalChineseCodepage}},
        // 細明體, MingLiu
        {L"\x7D30\x660E\x9AD4", {L"MingLiu", traditionalChineseCodepage}},
        {L"mingliu", {L"\x7D30\x660E\x9AD4", traditionalChineseCodepage}},
        // 細明體-ExtB, MingLiu-ExtB
        {L"\x7D30\x660E\x9AD4-ExtB", {L"MingLiu-ExtB", traditionalChineseCodepage}},
        {L"mingliu-extb", {L"x65B0\x7D30\x660E\x9AD4-extb", traditionalChineseCodepage}},
        // 微軟正黑體, Microsoft JhengHei
        {L"\x5FAE\x8EDF\x6B63\x9ED1\x9AD4", {L"Microsoft JhengHei", traditionalChineseCodepage}},
        {L"microsoft jhengHei", {L"\x5FAE\x8EDF\x6B63\x9ED1\x9AD4", traditionalChineseCodepage}},
        // 標楷體, DFKai-SB
        {L"\x6A19\x6977\x9AD4", {L"DFKai-SB", traditionalChineseCodepage}},
        {L"dfkai-sb", {L"\x6A19\x6977\x9AD4", traditionalChineseCodepage}},
        // WenQuanYi Zen Hei
        {L"\x6587\x6cc9\x9a5b\x6b63\x9ed1", {L"WenQuanYi Zen Hei", traditionalChineseCodepage}},
        {L"wenquanyi zen hei", {L"\x6587\x6cc9\x9a5b\x6b63\x9ed1", traditionalChineseCodepage}},
        // WenQuanYi Zen Hei
        {L"\x6587\x6cc9\x9a7f\x6b63\x9ed1", {L"WenQuanYi Zen Hei", simplifiedChineseCodepage}},
        {L"wenquanyi zen hei", {L"\x6587\x6cc9\x9a7f\x6b63\x9ed1", simplifiedChineseCodepage}},
        // AR PL ShanHeiSun Uni,
        {L"\x6587\x9f0e\x0050\x004c\x7d30\x4e0a\x6d77\x5b8b\x0055\x006e\x0069",
         {L"AR PL ShanHeiSun Uni", traditionalChineseCodepage}},
        {L"ar pl shanheisun uni",
         {L"\x6587\x9f0e\x0050\x004c\x7d30\x4e0a\x6d77\x5b8b\x0055\x006e\x0069", traditionalChineseCodepage}},
        // AR PL ShanHeiSun Uni,
        {L"\x6587\x9f0e\x0050\x004c\x7ec6\x4e0a\x6d77\x5b8b\x0055\x006e\x0069",
         {L"AR PL ShanHeiSun Uni", simplifiedChineseCodepage}},
        {L"ar pl shanheisun uni",
         {L"\x6587\x9f0e\x0050\x004c\x7ec6\x4e0a\x6d77\x5b8b\x0055\x006e\x0069", simplifiedChineseCodepage}},
        // AR PL ZenKai Uni
        // Traditional Chinese and Simplified Chinese names are
        // identical.
        {L"\x6587\x0050\x004C\x4E2D\x6977\x0055\x006E\x0069", {L"AR PL ZenKai Uni", traditionalChineseCodepage}},
        {L"ar pl zenkai uni", {L"\x6587\x0050\x004C\x4E2D\x6977\x0055\x006E\x0069", traditionalChineseCodepage}},
        {L"\x6587\x0050\x004C\x4E2D\x6977\x0055\x006E\x0069", {L"AR PL ZenKai Uni", simplifiedChineseCodepage}},
        {L"ar pl zenkai uni", {L"\x6587\x0050\x004C\x4E2D\x6977\x0055\x006E\x0069", simplifiedChineseCodepage}},
    };

    typedef HashMap<String, const FontCodepage*> NameMap;
    static NameMap* fontNameMap = 0;

    if (!fontNameMap) {
        fontNameMap = new NameMap;
        for (size_t i = 0; i < WTF_ARRAY_LENGTH(namePairs); ++i)
            fontNameMap->set(String(namePairs[i].name), &(namePairs[i].altNameCodepage));
    }

    bool isAscii = false; 
    String n;
    // use |lower| only for ASCII names 
    // For non-ASCII names, we don't want to invoke an expensive 
    // and unnecessary |lower|. 
    if (charactersAreAllASCII(name)) {
        isAscii = true;
        n = name.lower();
    } else
        n = name;

    NameMap::iterator iter = fontNameMap->find(n);
    if (iter == fontNameMap->end())
        return false;

    static int systemCp = ::GetACP();
    int fontCp = iter->second->codePage;

    if ((isAscii && systemCp == fontCp) || (!isAscii && systemCp != fontCp)) {
        altName = String(iter->second->name);
        return true;
    }

    return false;
}

static HFONT createFontIndirectAndGetWinName(const String& family, LOGFONT* winfont, String* winName)
{
    int len = min(static_cast<int>(family.length()), LF_FACESIZE - 1);
    memcpy(winfont->lfFaceName, family.characters(), len * sizeof(WORD));
    winfont->lfFaceName[len] = '\0';

    HFONT hfont = CreateFontIndirect(winfont);
    if (!hfont)
        return 0;

    HDC dc = GetDC(0);
    HGDIOBJ oldFont = static_cast<HFONT>(SelectObject(dc, hfont));
    WCHAR name[LF_FACESIZE];
    unsigned resultLength = GetTextFace(dc, LF_FACESIZE, name);
    if (resultLength > 0)
        resultLength--; // ignore the null terminator

    SelectObject(dc, oldFont);
    ReleaseDC(0, dc);
    *winName = String(name, resultLength);
    return hfont;
}

// This maps font family names to their repertoires of supported Unicode
// characters. Because it's family names rather than font faces we use
// as keys, there might be edge cases where one face of a font family
// has a different repertoire from another face of the same family. 
typedef HashMap<const wchar_t*, icu::UnicodeSet*> FontCmapCache;

static bool fontContainsCharacter(const FontPlatformData* fontData,
                                  const wchar_t* family, UChar32 character)
{
    // FIXME: For non-BMP characters, GetFontUnicodeRanges is of
    // no use. We have to read directly from the cmap table of a font.
    // Return true for now.
    if (character > 0xFFFF)
        return true;

    // This cache is just leaked on shutdown.
    static FontCmapCache* fontCmapCache = 0;
    if (!fontCmapCache)
        fontCmapCache = new FontCmapCache;

    HashMap<const wchar_t*, icu::UnicodeSet*>::iterator it = fontCmapCache->find(family);
    if (it != fontCmapCache->end()) 
        return it->second->contains(character);
    
    HFONT hfont = fontData->hfont(); 
    HDC hdc = GetDC(0);
    HGDIOBJ oldFont = static_cast<HFONT>(SelectObject(hdc, hfont));
    int count = GetFontUnicodeRanges(hdc, 0);
    if (count == 0 && ChromiumBridge::ensureFontLoaded(hfont))
        count = GetFontUnicodeRanges(hdc, 0);
    if (count == 0) {
        LOG_ERROR("Unable to get the font unicode range after second attempt");
        SelectObject(hdc, oldFont);
        ReleaseDC(0, hdc);
        return true;
    }

    static Vector<char, 512> glyphsetBuffer;
    glyphsetBuffer.resize(GetFontUnicodeRanges(hdc, 0));
    GLYPHSET* glyphset = reinterpret_cast<GLYPHSET*>(glyphsetBuffer.data());
    // In addition, refering to the OS/2 table and converting the codepage list
    // to the coverage map might be faster. 
    count = GetFontUnicodeRanges(hdc, glyphset);
    ASSERT(count > 0);
    SelectObject(hdc, oldFont);
    ReleaseDC(0, hdc);

    // FIXME: consider doing either of the following two:
    // 1) port back ICU 4.0's faster look-up code for UnicodeSet
    // 2) port Mozilla's CompressedCharMap or gfxSparseBitset
    unsigned i = 0;
    icu::UnicodeSet* cmap = new icu::UnicodeSet;
    while (i < glyphset->cRanges) {
        WCHAR start = glyphset->ranges[i].wcLow; 
        cmap->add(start, start + glyphset->ranges[i].cGlyphs - 1);
        i++;
    }
    cmap->freeze();
    // We don't lowercase |family| because all of them are under our control
    // and they're already lowercased. 
    fontCmapCache->set(family, cmap); 
    return cmap->contains(character);
}

// Tries the given font and save it |outFontFamilyName| if it succeeds.
static SimpleFontData* fontDataFromDescriptionAndLogFont(FontCache* fontCache, const FontDescription& fontDescription, const LOGFONT& font, wchar_t* outFontFamilyName)
{
    SimpleFontData* fontData = fontCache->getCachedFontData(fontDescription, font.lfFaceName);
    if (fontData)
        memcpy(outFontFamilyName, font.lfFaceName, sizeof(font.lfFaceName));
    return fontData;
}

static LONG toGDIFontWeight(FontWeight fontWeight)
{
    static LONG gdiFontWeights[] = {
        FW_THIN, // FontWeight100
        FW_EXTRALIGHT, // FontWeight200
        FW_LIGHT, // FontWeight300
        FW_NORMAL, // FontWeight400
        FW_MEDIUM, // FontWeight500
        FW_SEMIBOLD, // FontWeight600
        FW_BOLD, // FontWeight700
        FW_EXTRABOLD, // FontWeight800
        FW_HEAVY // FontWeight900
    };
    return gdiFontWeights[fontWeight];
}

static void FillLogFont(const FontDescription& fontDescription, LOGFONT* winfont)
{
    // The size here looks unusual.  The negative number is intentional.
    // Unlike WebKit trunk, we don't multiply the size by 32.  That seems to be
    // some kind of artifact of their CG backend, or something.
    winfont->lfHeight = -fontDescription.computedPixelSize();
    winfont->lfWidth = 0;
    winfont->lfEscapement = 0;
    winfont->lfOrientation = 0;
    winfont->lfUnderline = false;
    winfont->lfStrikeOut = false;
    winfont->lfCharSet = DEFAULT_CHARSET;
    winfont->lfOutPrecision = OUT_TT_ONLY_PRECIS;
    winfont->lfQuality = ChromiumBridge::layoutTestMode() ? NONANTIALIASED_QUALITY : DEFAULT_QUALITY; // Honor user's desktop settings.
    winfont->lfPitchAndFamily = DEFAULT_PITCH | FF_DONTCARE;
    winfont->lfItalic = fontDescription.italic();
    winfont->lfWeight = toGDIFontWeight(fontDescription.weight());
}

struct TraitsInFamilyProcData {
    TraitsInFamilyProcData(const AtomicString& familyName)
        : m_familyName(familyName)
    {
    }

    const AtomicString& m_familyName;
    HashSet<unsigned> m_traitsMasks;
};

static int CALLBACK traitsInFamilyEnumProc(CONST LOGFONT* logFont, CONST TEXTMETRIC* metrics, DWORD fontType, LPARAM lParam)
{
    TraitsInFamilyProcData* procData = reinterpret_cast<TraitsInFamilyProcData*>(lParam);

    unsigned traitsMask = 0;
    traitsMask |= logFont->lfItalic ? FontStyleItalicMask : FontStyleNormalMask;
    traitsMask |= FontVariantNormalMask;
    LONG weight = logFont->lfWeight;
    traitsMask |= weight == FW_THIN ? FontWeight100Mask :
        weight == FW_EXTRALIGHT ? FontWeight200Mask :
        weight == FW_LIGHT ? FontWeight300Mask :
        weight == FW_NORMAL ? FontWeight400Mask :
        weight == FW_MEDIUM ? FontWeight500Mask :
        weight == FW_SEMIBOLD ? FontWeight600Mask :
        weight == FW_BOLD ? FontWeight700Mask :
        weight == FW_EXTRABOLD ? FontWeight800Mask :
                                 FontWeight900Mask;
    procData->m_traitsMasks.add(traitsMask);
    return 1;
}

void FontCache::platformInit()
{
    // Not needed on Windows.
}

// Given the desired base font, this will create a SimpleFontData for a specific
// font that can be used to render the given range of characters.
const SimpleFontData* FontCache::getFontDataForCharacters(const Font& font, const UChar* characters, int length)
{
    // FIXME: Consider passing fontDescription.dominantScript()
    // to GetFallbackFamily here.
    FontDescription fontDescription = font.fontDescription();
    UChar32 c;
    UScriptCode script;
    const wchar_t* family = getFallbackFamily(characters, length,
        fontDescription.genericFamily(), &c, &script);
    FontPlatformData* data = 0;
    if (family)
        data = getCachedFontPlatformData(font.fontDescription(),  AtomicString(family, wcslen(family)), false); 

    // Last resort font list : PanUnicode. CJK fonts have a pretty
    // large repertoire. Eventually, we need to scan all the fonts
    // on the system to have a Firefox-like coverage.
    // Make sure that all of them are lowercased.
    const static wchar_t* const cjkFonts[] = {
        L"arial unicode ms",
        L"ms pgothic",
        L"simsun",
        L"gulim",
        L"pmingliu",
        L"wenquanyi zen hei", // partial CJK Ext. A coverage but more
                              // widely known to Chinese users.
        L"ar pl shanheisun uni",
        L"ar pl zenkai uni",
        L"han nom a",  // Complete CJK Ext. A coverage
        L"code2000",   // Complete CJK Ext. A coverage
        // CJK Ext. B fonts are not listed here because it's of no use
        // with our current non-BMP character handling because we use
        // Uniscribe for it and that code path does not go through here.
    };

    const static wchar_t* const commonFonts[] = {
        L"tahoma",
        L"arial unicode ms",
        L"lucida sans unicode",
        L"microsoft sans serif",
        L"palatino linotype",
        // Six fonts below (and code2000 at the end) are not from MS, but
        // once installed, cover a very wide range of characters.
        L"dejavu serif",
        L"dejavu sasns",
        L"freeserif",
        L"freesans",
        L"gentium",
        L"gentiumalt",
        L"ms pgothic",
        L"simsun",
        L"gulim",
        L"pmingliu",
        L"code2000",
    };

    const wchar_t* const* panUniFonts = 0;
    int numFonts = 0;
    if (script == USCRIPT_HAN) {
        panUniFonts = cjkFonts;
        numFonts = WTF_ARRAY_LENGTH(cjkFonts);
    } else {
        panUniFonts = commonFonts;
        numFonts = WTF_ARRAY_LENGTH(commonFonts);
    }
    // Font returned from GetFallbackFamily may not cover |characters|
    // because it's based on script to font mapping. This problem is
    // critical enough for non-Latin scripts (especially Han) to
    // warrant an additional (real coverage) check with fontCotainsCharacter.
    int i;
    for (i = 0; (!data || !fontContainsCharacter(data, family, c)) && i < numFonts; ++i) {
        family = panUniFonts[i]; 
        data = getCachedFontPlatformData(font.fontDescription(), AtomicString(family, wcslen(family)));
    }
    // When i-th font (0-base) in |panUniFonts| contains a character and
    // we get out of the loop, |i| will be |i + 1|. That is, if only the
    // last font in the array covers the character, |i| will be numFonts.
    // So, we have to use '<=" rather than '<' to see if we found a font
    // covering the character.
    if (i <= numFonts) 
       return getCachedFontData(data);

    return 0;

}

SimpleFontData* FontCache::getSimilarFontPlatformData(const Font& font)
{
    return 0;
}

SimpleFontData* FontCache::getLastResortFallbackFont(const FontDescription& description)
{
    FontDescription::GenericFamilyType generic = description.genericFamily();

    // FIXME: Would be even better to somehow get the user's default font here.
    // For now we'll pick the default that the user would get without changing
    // any prefs.
    static AtomicString timesStr("Times New Roman");
    static AtomicString courierStr("Courier New");
    static AtomicString arialStr("Arial");

    AtomicString& fontStr = timesStr;
    if (generic == FontDescription::SansSerifFamily)
        fontStr = arialStr;
    else if (generic == FontDescription::MonospaceFamily)
        fontStr = courierStr;

    SimpleFontData* simpleFont = getCachedFontData(description, fontStr);
    if (simpleFont)
        return simpleFont;

    // Fall back to system fonts as Win Safari does because this function must
    // return a valid font. Once we find a valid system font, we save its name
    // to a static variable and use it to prevent trying system fonts again.
    static wchar_t fallbackFontName[LF_FACESIZE] = {0};
    if (fallbackFontName[0])
        return getCachedFontData(description, fallbackFontName);

    // Fall back to the DEFAULT_GUI_FONT if no known Unicode fonts are available.
    if (HFONT defaultGUIFont = static_cast<HFONT>(GetStockObject(DEFAULT_GUI_FONT))) {
        LOGFONT defaultGUILogFont;
        GetObject(defaultGUIFont, sizeof(defaultGUILogFont), &defaultGUILogFont);
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, defaultGUILogFont, fallbackFontName))
            return simpleFont;
    }

    // Fall back to Non-client metrics fonts.
    NONCLIENTMETRICS nonClientMetrics = {0};
    nonClientMetrics.cbSize = sizeof(nonClientMetrics);
    if (SystemParametersInfo(SPI_GETNONCLIENTMETRICS, sizeof(nonClientMetrics), &nonClientMetrics, 0)) {
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, nonClientMetrics.lfMessageFont, fallbackFontName))
            return simpleFont;
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, nonClientMetrics.lfMenuFont, fallbackFontName))
            return simpleFont;
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, nonClientMetrics.lfStatusFont, fallbackFontName))
            return simpleFont;
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, nonClientMetrics.lfCaptionFont, fallbackFontName))
            return simpleFont;
        if (simpleFont = fontDataFromDescriptionAndLogFont(this, description, nonClientMetrics.lfSmCaptionFont, fallbackFontName))
            return simpleFont;
    }

    ASSERT_NOT_REACHED();
    return 0;
}

void FontCache::getTraitsInFamily(const AtomicString& familyName, Vector<unsigned>& traitsMasks)
{
    HDC hdc = GetDC(0);

    LOGFONT logFont;
    logFont.lfCharSet = DEFAULT_CHARSET;
    unsigned familyLength = min(familyName.length(), static_cast<unsigned>(LF_FACESIZE - 1));
    memcpy(logFont.lfFaceName, familyName.characters(), familyLength * sizeof(UChar));
    logFont.lfFaceName[familyLength] = 0;
    logFont.lfPitchAndFamily = 0;

    TraitsInFamilyProcData procData(familyName);
    EnumFontFamiliesEx(hdc, &logFont, traitsInFamilyEnumProc, reinterpret_cast<LPARAM>(&procData), 0);
    copyToVector(procData.m_traitsMasks, traitsMasks);

    ReleaseDC(0, hdc);
}

FontPlatformData* FontCache::createFontPlatformData(const FontDescription& fontDescription, const AtomicString& family)
{
    LOGFONT winfont = {0};
    FillLogFont(fontDescription, &winfont);

    // Windows will always give us a valid pointer here, even if the face name 
    // is non-existent.  We have to double-check and see if the family name was 
    // really used.
    String winName;
    HFONT hfont = createFontIndirectAndGetWinName(family, &winfont, &winName);
    if (!hfont)
        return 0;

    // FIXME: Do we need to use predefined fonts "guaranteed" to exist
    // when we're running in layout-test mode?
    if (!equalIgnoringCase(family, winName)) {
        // For CJK fonts with both English and native names, 
        // GetTextFace returns a native name under the font's "locale"
        // and an English name under other locales regardless of 
        // lfFaceName field of LOGFONT. As a result, we need to check
        // if a font has an alternate name. If there is, we need to
        // compare it with what's requested in the first place.
        String altName;
        if (!LookupAltName(family, altName) || 
            !equalIgnoringCase(altName, winName)) {
            DeleteObject(hfont);
            return 0;
        }
    }

    return new FontPlatformData(hfont,
                                fontDescription.computedPixelSize());
}

}