DXR is a code search and navigation tool aimed at making sense of large projects. It supports full-text and regex searches as well as structural queries.

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Mercurial (a81015259a98)

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/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* ***** BEGIN LICENSE BLOCK *****
 * Version: MPL 1.1/GPL 2.0/LGPL 2.1
 *
 * The contents of this file are subject to the Mozilla Public License Version
 * 1.1 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 * http://www.mozilla.org/MPL/
 *
 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
 * for the specific language governing rights and limitations under the
 * License.
 *
 * The Original Code is Mozilla Foundation code.
 *
 * The Initial Developer of the Original Code is Mozilla Foundation.
 * Portions created by the Initial Developer are Copyright (C) 2005-2009
 * the Initial Developer. All Rights Reserved.
 *
 * Contributor(s):
 *   Stuart Parmenter <stuart@mozilla.com>
 *   Masayuki Nakano <masayuki@d-toybox.com>
 *   John Daggett <jdaggett@mozilla.com>
 *   Jonathan Kew <jfkthame@gmail.com>
 *
 * Alternatively, the contents of this file may be used under the terms of
 * either the GNU General Public License Version 2 or later (the "GPL"), or
 * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
 * in which case the provisions of the GPL or the LGPL are applicable instead
 * of those above. If you wish to allow use of your version of this file only
 * under the terms of either the GPL or the LGPL, and not to allow others to
 * use your version of this file under the terms of the MPL, indicate your
 * decision by deleting the provisions above and replace them with the notice
 * and other provisions required by the GPL or the LGPL. If you do not delete
 * the provisions above, a recipient may use your version of this file under
 * the terms of any one of the MPL, the GPL or the LGPL.
 *
 * ***** END LICENSE BLOCK ***** */

#ifdef MOZ_LOGGING
#define FORCE_PR_LOG /* Allow logging in the release build */
#endif
#include "prlog.h"

#include "nsServiceManagerUtils.h"
#include "nsReadableUtils.h"
#include "nsExpirationTracker.h"
#include "nsILanguageAtomService.h"

#include "gfxFont.h"
#include "gfxPlatform.h"
#include "gfxAtoms.h"

#include "prtypes.h"
#include "gfxTypes.h"
#include "nsAlgorithm.h"
#include "gfxContext.h"
#include "gfxFontMissingGlyphs.h"
#include "gfxUserFontSet.h"
#include "gfxPlatformFontList.h"
#include "gfxScriptItemizer.h"
#include "gfxUnicodeProperties.h"
#include "nsMathUtils.h"
#include "nsBidiUtils.h"
#include "nsUnicodeRange.h"
#include "nsCompressedCharMap.h"
#include "nsStyleConsts.h"
#include "mozilla/FloatingPoint.h"
#include "mozilla/Preferences.h"

#include "cairo.h"
#include "gfxFontTest.h"

#include "harfbuzz/hb-blob.h"

#include "nsCRT.h"

using namespace mozilla;

gfxFontCache *gfxFontCache::gGlobalCache = nsnull;

#ifdef DEBUG_roc
#define DEBUG_TEXT_RUN_STORAGE_METRICS
#endif

#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
static PRUint32 gTextRunStorageHighWaterMark = 0;
static PRUint32 gTextRunStorage = 0;
static PRUint32 gFontCount = 0;
static PRUint32 gGlyphExtentsCount = 0;
static PRUint32 gGlyphExtentsWidthsTotalSize = 0;
static PRUint32 gGlyphExtentsSetupEagerSimple = 0;
static PRUint32 gGlyphExtentsSetupEagerTight = 0;
static PRUint32 gGlyphExtentsSetupLazyTight = 0;
static PRUint32 gGlyphExtentsSetupFallBackToTight = 0;
#endif

gfxFontEntry::~gfxFontEntry() 
{
    delete mUserFontData;
}

bool gfxFontEntry::IsSymbolFont() 
{
    return mSymbolFont;
}

bool gfxFontEntry::TestCharacterMap(PRUint32 aCh)
{
    if (!mCmapInitialized) {
        ReadCMAP();
    }
    return mCharacterMap.test(aCh);
}

nsresult gfxFontEntry::InitializeUVSMap()
{
    // mUVSOffset will not be initialized
    // until cmap is initialized.
    if (!mCmapInitialized) {
        ReadCMAP();
    }

    if (!mUVSOffset) {
        return NS_ERROR_FAILURE;
    }

    if (!mUVSData) {
        const PRUint32 kCmapTag = TRUETYPE_TAG('c','m','a','p');
        AutoFallibleTArray<PRUint8,16384> buffer;
        if (GetFontTable(kCmapTag, buffer) != NS_OK) {
            mUVSOffset = 0; // don't bother to read the table again
            return NS_ERROR_FAILURE;
        }

        PRUint8* uvsData;
        nsresult rv = gfxFontUtils::ReadCMAPTableFormat14(
                          buffer.Elements() + mUVSOffset,
                          buffer.Length() - mUVSOffset,
                          uvsData);
        if (NS_FAILED(rv)) {
            mUVSOffset = 0; // don't bother to read the table again
            return rv;
        }

        mUVSData = uvsData;
    }

    return NS_OK;
}

PRUint16 gfxFontEntry::GetUVSGlyph(PRUint32 aCh, PRUint32 aVS)
{
    InitializeUVSMap();

    if (mUVSData) {
        return gfxFontUtils::MapUVSToGlyphFormat14(mUVSData, aCh, aVS);
    }

    return 0;
}

nsresult gfxFontEntry::ReadCMAP()
{
    mCmapInitialized = true;
    return NS_OK;
}

nsString gfxFontEntry::FamilyName() const
{
    NS_ASSERTION(mFamily, "orphaned font entry");
    if (mFamily) {
        return mFamily->Name();
    } else {
        return nsString();
    }
}

nsString
gfxFontEntry::RealFaceName()
{
    FallibleTArray<PRUint8> nameTable;
    nsresult rv = GetFontTable(TRUETYPE_TAG('n','a','m','e'), nameTable);
    if (NS_SUCCEEDED(rv)) {
        nsAutoString name;
        rv = gfxFontUtils::GetFullNameFromTable(nameTable, name);
        if (NS_SUCCEEDED(rv)) {
            return name;
        }
    }
    return Name();
}

already_AddRefed<gfxFont>
gfxFontEntry::FindOrMakeFont(const gfxFontStyle *aStyle, bool aNeedsBold)
{
    // the font entry name is the psname, not the family name
    nsRefPtr<gfxFont> font = gfxFontCache::GetCache()->Lookup(this, aStyle);

    if (!font) {
        gfxFont *newFont = CreateFontInstance(aStyle, aNeedsBold);
        if (!newFont)
            return nsnull;
        if (!newFont->Valid()) {
            delete newFont;
            return nsnull;
        }
        font = newFont;
        gfxFontCache::GetCache()->AddNew(font);
    }
    gfxFont *f = nsnull;
    font.swap(f);
    return f;
}

/**
 * FontTableBlobData
 *
 * See FontTableHashEntry for the general strategy.
 */

class gfxFontEntry::FontTableBlobData {
public:
    // Adopts the content of aBuffer.
    // Pass a non-null aHashEntry only if it should be cleared if/when this
    // FontTableBlobData is deleted.
    FontTableBlobData(FallibleTArray<PRUint8>& aBuffer,
                      FontTableHashEntry *aHashEntry)
        : mHashEntry(aHashEntry), mHashtable()
    {
        MOZ_COUNT_CTOR(FontTableBlobData);
        mTableData.SwapElements(aBuffer);
    }

    ~FontTableBlobData() {
        MOZ_COUNT_DTOR(FontTableBlobData);
        if (mHashEntry) {
            if (mHashtable) {
                mHashtable->RemoveEntry(mHashEntry->GetKey());
            } else {
                mHashEntry->Clear();
            }
        }
    }

    // Useful for creating blobs
    const char *GetTable() const
    {
        return reinterpret_cast<const char*>(mTableData.Elements());
    }
    PRUint32 GetTableLength() const { return mTableData.Length(); }

    // Tell this FontTableBlobData to remove the HashEntry when this is
    // destroyed.
    void ManageHashEntry(nsTHashtable<FontTableHashEntry> *aHashtable)
    {
        mHashtable = aHashtable;
    }

    // Disconnect from the HashEntry (because the blob has already been
    // removed from the hashtable).
    void ForgetHashEntry()
    {
        mHashEntry = nsnull;
    }

private:
    // The font table data block, owned (via adoption)
    FallibleTArray<PRUint8> mTableData;
    // The blob destroy function needs to know the hashtable entry,
    FontTableHashEntry *mHashEntry;
    // and the owning hashtable, so that it can remove the entry.
    nsTHashtable<FontTableHashEntry> *mHashtable;

    // not implemented
    FontTableBlobData(const FontTableBlobData&);
};

void
gfxFontEntry::FontTableHashEntry::SaveTable(FallibleTArray<PRUint8>& aTable)
{
    Clear();
    // adopts elements of aTable
    FontTableBlobData *data = new FontTableBlobData(aTable, nsnull);
    mBlob = hb_blob_create(data->GetTable(), data->GetTableLength(),
                           HB_MEMORY_MODE_READONLY,
                           DeleteFontTableBlobData, data);    
}

hb_blob_t *
gfxFontEntry::FontTableHashEntry::
ShareTableAndGetBlob(FallibleTArray<PRUint8>& aTable,
                     nsTHashtable<FontTableHashEntry> *aHashtable)
{
    Clear();
    // adopts elements of aTable
    mSharedBlobData = new FontTableBlobData(aTable, this);
    mBlob = hb_blob_create(mSharedBlobData->GetTable(),
                           mSharedBlobData->GetTableLength(),
                           HB_MEMORY_MODE_READONLY,
                           DeleteFontTableBlobData, mSharedBlobData);
    if (!mSharedBlobData) {
        // The FontTableBlobData was destroyed during hb_blob_create().
        // The (empty) blob is still be held in the hashtable with a strong
        // reference.
        return hb_blob_reference(mBlob);
    }

    // Tell the FontTableBlobData to remove this hash entry when destroyed.
    // The hashtable does not keep a strong reference.
    mSharedBlobData->ManageHashEntry(aHashtable);
    return mBlob;
}

void
gfxFontEntry::FontTableHashEntry::Clear()
{
    // If the FontTableBlobData is managing the hash entry, then the blob is
    // not owned by this HashEntry; otherwise there is strong reference to the
    // blob that must be removed.
    if (mSharedBlobData) {
        mSharedBlobData->ForgetHashEntry();
        mSharedBlobData = nsnull;
    } else if (mBlob) {
        hb_blob_destroy(mBlob);
    }
    mBlob = nsnull;
}

// a hb_destroy_func for hb_blob_create

/* static */ void
gfxFontEntry::FontTableHashEntry::DeleteFontTableBlobData(void *aBlobData)
{
    delete static_cast<FontTableBlobData*>(aBlobData);
}

hb_blob_t *
gfxFontEntry::FontTableHashEntry::GetBlob() const
{
    return hb_blob_reference(mBlob);
}

bool
gfxFontEntry::GetExistingFontTable(PRUint32 aTag, hb_blob_t **aBlob)
{
    if (!mFontTableCache.IsInitialized()) {
        // we do this here rather than on fontEntry construction
        // because not all shapers will access the table cache at all
        mFontTableCache.Init(10);
    }

    FontTableHashEntry *entry = mFontTableCache.GetEntry(aTag);
    if (!entry) {
        return false;
    }

    *aBlob = entry->GetBlob();
    return true;
}

hb_blob_t *
gfxFontEntry::ShareFontTableAndGetBlob(PRUint32 aTag,
                                       FallibleTArray<PRUint8>* aBuffer)
{
    if (NS_UNLIKELY(!mFontTableCache.IsInitialized())) {
        // we do this here rather than on fontEntry construction
        // because not all shapers will access the table cache at all
        mFontTableCache.Init(10);
    }

    FontTableHashEntry *entry = mFontTableCache.PutEntry(aTag);
    if (NS_UNLIKELY(!entry)) { // OOM
        return nsnull;
    }

    if (!aBuffer) {
        // ensure the entry is null
        entry->Clear();
        return nsnull;
    }

    return entry->ShareTableAndGetBlob(*aBuffer, &mFontTableCache);
}

//////////////////////////////////////////////////////////////////////////////
//
// class gfxFontFamily
//
//////////////////////////////////////////////////////////////////////////////

// we consider faces with mStandardFace == true to be "greater than" those with false,
// because during style matching, later entries will replace earlier ones
class FontEntryStandardFaceComparator {
  public:
    bool Equals(const nsRefPtr<gfxFontEntry>& a, const nsRefPtr<gfxFontEntry>& b) const {
        return a->mStandardFace == b->mStandardFace;
    }
    bool LessThan(const nsRefPtr<gfxFontEntry>& a, const nsRefPtr<gfxFontEntry>& b) const {
        return (a->mStandardFace == false && b->mStandardFace == true);
    }
};

void
gfxFontFamily::SortAvailableFonts()
{
    mAvailableFonts.Sort(FontEntryStandardFaceComparator());
}

bool
gfxFontFamily::HasOtherFamilyNames()
{
    // need to read in other family names to determine this
    if (!mOtherFamilyNamesInitialized) {
        ReadOtherFamilyNames(gfxPlatformFontList::PlatformFontList());  // sets mHasOtherFamilyNames
    }
    return mHasOtherFamilyNames;
}

gfxFontEntry*
gfxFontFamily::FindFontForStyle(const gfxFontStyle& aFontStyle, 
                                bool& aNeedsSyntheticBold)
{
    if (!mHasStyles)
        FindStyleVariations(); // collect faces for the family, if not already done

    NS_ASSERTION(mAvailableFonts.Length() > 0, "font family with no faces!");

    aNeedsSyntheticBold = false;

    PRInt8 baseWeight = aFontStyle.ComputeWeight();
    bool wantBold = baseWeight >= 6;

    // If the family has only one face, we simply return it; no further checking needed
    if (mAvailableFonts.Length() == 1) {
        gfxFontEntry *fe = mAvailableFonts[0];
        aNeedsSyntheticBold = wantBold && !fe->IsBold();
        return fe;
    }

    bool wantItalic = (aFontStyle.style & (FONT_STYLE_ITALIC | FONT_STYLE_OBLIQUE)) != 0;

    // Most families are "simple", having just Regular/Bold/Italic/BoldItalic,
    // or some subset of these. In this case, we have exactly 4 entries in mAvailableFonts,
    // stored in the above order; note that some of the entries may be NULL.
    // We can then pick the required entry based on whether the request is for
    // bold or non-bold, italic or non-italic, without running the more complex
    // matching algorithm used for larger families with many weights and/or widths.

    if (mIsSimpleFamily) {
        // Family has no more than the "standard" 4 faces, at fixed indexes;
        // calculate which one we want.
        // Note that we cannot simply return it as not all 4 faces are necessarily present.
        PRUint8 faceIndex = (wantItalic ? kItalicMask : 0) |
                            (wantBold ? kBoldMask : 0);

        // if the desired style is available, return it directly
        gfxFontEntry *fe = mAvailableFonts[faceIndex];
        if (fe) {
            // no need to set aNeedsSyntheticBold here as we matched the boldness request
            return fe;
        }

        // order to check fallback faces in a simple family, depending on requested style
        static const PRUint8 simpleFallbacks[4][3] = {
            { kBoldFaceIndex, kItalicFaceIndex, kBoldItalicFaceIndex },   // fallbacks for Regular
            { kRegularFaceIndex, kBoldItalicFaceIndex, kItalicFaceIndex },// Bold
            { kBoldItalicFaceIndex, kRegularFaceIndex, kBoldFaceIndex },  // Italic
            { kItalicFaceIndex, kBoldFaceIndex, kRegularFaceIndex }       // BoldItalic
        };
        const PRUint8 *order = simpleFallbacks[faceIndex];

        for (PRUint8 trial = 0; trial < 3; ++trial) {
            // check remaining faces in order of preference to find the first that actually exists
            fe = mAvailableFonts[order[trial]];
            if (fe) {
                aNeedsSyntheticBold = wantBold && !fe->IsBold();
                return fe;
            }
        }

        // this can't happen unless we have totally broken the font-list manager!
        NS_NOTREACHED("no face found in simple font family!");
        return nsnull;
    }

    // This is a large/rich font family, so we do full style- and weight-matching:
    // first collect a list of weights that are the best match for the requested
    // font-stretch and font-style, then pick the best weight match among those
    // available.

    gfxFontEntry *weightList[10] = { 0 };
    bool foundWeights = FindWeightsForStyle(weightList, wantItalic, aFontStyle.stretch);
    if (!foundWeights) {
        return nsnull;
    }

    // First find a match for the best weight
    PRInt8 matchBaseWeight = 0;
    PRInt8 i = baseWeight;

    // Need to special case when normal face doesn't exist but medium does.
    // In that case, use medium otherwise weights < 400
    if (baseWeight == 4 && !weightList[4]) {
        i = 5; // medium
    }

    // Loop through weights, since one exists loop will terminate
    PRInt8 direction = (baseWeight > 5) ? 1 : -1;
    for (; ; i += direction) {
        if (weightList[i]) {
            matchBaseWeight = i;
            break;
        }

        // If we've reached one side without finding a font,
        // start over and go the other direction until we find a match
        if (i == 1 || i == 9) {
            i = baseWeight;
            direction = -direction;
        }
    }

    NS_ASSERTION(matchBaseWeight != 0, 
                 "weight mapping should always find at least one font in a family");

    gfxFontEntry *matchFE = weightList[matchBaseWeight];

    NS_ASSERTION(matchFE,
                 "weight mapping should always find at least one font in a family");

    if (!matchFE->IsBold() && baseWeight >= 6)
    {
        aNeedsSyntheticBold = true;
    }

    return matchFE;
}

void
gfxFontFamily::CheckForSimpleFamily()
{
    PRUint32 count = mAvailableFonts.Length();
    if (count > 4 || count == 0) {
        return; // can't be "simple" if there are >4 faces;
                // if none then the family is unusable anyway
    }

    if (count == 1) {
        mIsSimpleFamily = true;
        return;
    }

    PRInt16 firstStretch = mAvailableFonts[0]->Stretch();

    gfxFontEntry *faces[4] = { 0 };
    for (PRUint8 i = 0; i < count; ++i) {
        gfxFontEntry *fe = mAvailableFonts[i];
        if (fe->Stretch() != firstStretch) {
            return; // font-stretch doesn't match, don't treat as simple family
        }
        PRUint8 faceIndex = (fe->IsItalic() ? kItalicMask : 0) |
                            (fe->Weight() >= 600 ? kBoldMask : 0);
        if (faces[faceIndex]) {
            return; // two faces resolve to the same slot; family isn't "simple"
        }
        faces[faceIndex] = fe;
    }

    // we have successfully slotted the available faces into the standard
    // 4-face framework
    mAvailableFonts.SetLength(4);
    for (PRUint8 i = 0; i < 4; ++i) {
        if (mAvailableFonts[i].get() != faces[i]) {
            mAvailableFonts[i].swap(faces[i]);
        }
    }

    mIsSimpleFamily = true;
}

static inline PRUint32
StyleDistance(gfxFontEntry *aFontEntry,
              bool anItalic, PRInt16 aStretch)
{
    // Compute a measure of the "distance" between the requested style
    // and the given fontEntry,
    // considering italicness and font-stretch but not weight.

    PRInt32 distance = 0;
    if (aStretch != aFontEntry->mStretch) {
        // stretch values are in the range -4 .. +4
        // if aStretch is positive, we prefer more-positive values;
        // if zero or negative, prefer more-negative
        if (aStretch > 0) {
            distance = (aFontEntry->mStretch - aStretch) * 2;
        } else {
            distance = (aStretch - aFontEntry->mStretch) * 2;
        }
        // if the computed "distance" here is negative, it means that
        // aFontEntry lies in the "non-preferred" direction from aStretch,
        // so we treat that as larger than any preferred-direction distance
        // (max possible is 8) by adding an extra 10 to the absolute value
        if (distance < 0) {
            distance = -distance + 10;
        }
    }
    if (aFontEntry->IsItalic() != anItalic) {
        distance += 1;
    }
    return PRUint32(distance);
}

bool
gfxFontFamily::FindWeightsForStyle(gfxFontEntry* aFontsForWeights[],
                                   bool anItalic, PRInt16 aStretch)
{
    PRUint32 foundWeights = 0;
    PRUint32 bestMatchDistance = 0xffffffff;

    for (PRUint32 i = 0; i < mAvailableFonts.Length(); i++) {
        // this is not called for "simple" families, and therefore it does not
        // need to check the mAvailableFonts entries for NULL
        gfxFontEntry *fe = mAvailableFonts[i];
        PRUint32 distance = StyleDistance(fe, anItalic, aStretch);
        if (distance <= bestMatchDistance) {
            PRInt8 wt = fe->mWeight / 100;
            NS_ASSERTION(wt >= 1 && wt < 10, "invalid weight in fontEntry");
            if (!aFontsForWeights[wt]) {
                // record this as a possible candidate for weight matching
                aFontsForWeights[wt] = fe;
                ++foundWeights;
            } else {
                PRUint32 prevDistance =
                    StyleDistance(aFontsForWeights[wt], anItalic, aStretch);
                if (prevDistance >= distance) {
                    // replacing a weight we already found,
                    // so don't increment foundWeights
                    aFontsForWeights[wt] = fe;
                }
            }
            bestMatchDistance = distance;
        }
    }

    NS_ASSERTION(foundWeights > 0, "Font family containing no faces?");

    if (foundWeights == 1) {
        // no need to cull entries if we only found one weight
        return true;
    }

    // we might have recorded some faces that were a partial style match, but later found
    // others that were closer; in this case, we need to cull the poorer matches from the
    // weight list we'll return
    for (PRUint32 i = 0; i < 10; ++i) {
        if (aFontsForWeights[i] &&
            StyleDistance(aFontsForWeights[i], anItalic, aStretch) > bestMatchDistance)
        {
            aFontsForWeights[i] = 0;
        }
    }

    return (foundWeights > 0);
}


void gfxFontFamily::LocalizedName(nsAString& aLocalizedName)
{
    // just return the primary name; subclasses should override
    aLocalizedName = mName;
}


void
gfxFontFamily::FindFontForChar(FontSearch *aMatchData)
{
    if (!mHasStyles)
        FindStyleVariations();

    // xxx - optimization point - keep a bit vector with the union of supported unicode ranges
    // by all fonts for this family and bail immediately if the character is not in any of
    // this family's cmaps

    // iterate over fonts
    PRUint32 numFonts = mAvailableFonts.Length();
    for (PRUint32 i = 0; i < numFonts; i++) {
        gfxFontEntry *fe = mAvailableFonts[i];

        // skip certain fonts during system fallback
        if (!fe || fe->SkipDuringSystemFallback())
            continue;

        PRInt32 rank = 0;

        if (fe->TestCharacterMap(aMatchData->mCh)) {
            rank += 20;
            aMatchData->mCount++;
#ifdef PR_LOGGING
            PRLogModuleInfo *log = gfxPlatform::GetLog(eGfxLog_textrun);
        
            if (NS_UNLIKELY(log)) {
                PRUint32 charRange = gfxFontUtils::CharRangeBit(aMatchData->mCh);
                PRUint32 unicodeRange = FindCharUnicodeRange(aMatchData->mCh);
                PRUint32 hbscript = gfxUnicodeProperties::GetScriptCode(aMatchData->mCh);
                PR_LOG(log, PR_LOG_DEBUG,\
                       ("(textrun-systemfallback-fonts) char: u+%6.6x "
                        "char-range: %d unicode-range: %d script: %d match: [%s]\n",
                        aMatchData->mCh,
                        charRange, unicodeRange, hbscript,
                        NS_ConvertUTF16toUTF8(fe->Name()).get()));
            }
#endif
        }

        // if we didn't match any characters don't bother wasting more time with this face.
        if (rank == 0)
            continue;
            
        // omitting from original windows code -- family name, lang group, pitch
        // not available in current FontEntry implementation

        if (aMatchData->mFontToMatch) { 
            const gfxFontStyle *style = aMatchData->mFontToMatch->GetStyle();
            
            // italics
            bool wantItalic =
                ((style->style & (FONT_STYLE_ITALIC | FONT_STYLE_OBLIQUE)) != 0);
            if (fe->IsItalic() == wantItalic) {
                rank += 5;
            }
            
            // weight
            PRInt32 targetWeight = style->ComputeWeight() * 100;

            PRInt32 entryWeight = fe->Weight();
            if (entryWeight == targetWeight) {
                rank += 5;
            } else {
                PRUint32 diffWeight = abs(entryWeight - targetWeight);
                if (diffWeight <= 100)  // favor faces close in weight
                    rank += 2;
            }
        } else {
            // if no font to match, prefer non-bold, non-italic fonts
            if (!fe->IsItalic()) {
                rank += 3;
            }
            if (!fe->IsBold()) {
                rank += 2;
            }
        }
        
        // xxx - add whether AAT font with morphing info for specific lang groups
        
        if (rank > aMatchData->mMatchRank
            || (rank == aMatchData->mMatchRank &&
                Compare(fe->Name(), aMatchData->mBestMatch->Name()) > 0)) 
        {
            aMatchData->mBestMatch = fe;
            aMatchData->mMatchRank = rank;
        }
    }
}

// returns true if other names were found, false otherwise
bool
gfxFontFamily::ReadOtherFamilyNamesForFace(gfxPlatformFontList *aPlatformFontList,
                                           FallibleTArray<PRUint8>& aNameTable,
                                           bool useFullName)
{
    const PRUint8 *nameData = aNameTable.Elements();
    PRUint32 dataLength = aNameTable.Length();
    const gfxFontUtils::NameHeader *nameHeader =
        reinterpret_cast<const gfxFontUtils::NameHeader*>(nameData);

    PRUint32 nameCount = nameHeader->count;
    if (nameCount * sizeof(gfxFontUtils::NameRecord) > dataLength) {
        NS_WARNING("invalid font (name records)");
        return false;
    }
    
    const gfxFontUtils::NameRecord *nameRecord =
        reinterpret_cast<const gfxFontUtils::NameRecord*>(nameData + sizeof(gfxFontUtils::NameHeader));
    PRUint32 stringsBase = PRUint32(nameHeader->stringOffset);

    bool foundNames = false;
    for (PRUint32 i = 0; i < nameCount; i++, nameRecord++) {
        PRUint32 nameLen = nameRecord->length;
        PRUint32 nameOff = nameRecord->offset;  // offset from base of string storage

        if (stringsBase + nameOff + nameLen > dataLength) {
            NS_WARNING("invalid font (name table strings)");
            return false;
        }

        PRUint16 nameID = nameRecord->nameID;
        if ((useFullName && nameID == gfxFontUtils::NAME_ID_FULL) ||
            (!useFullName && (nameID == gfxFontUtils::NAME_ID_FAMILY ||
                              nameID == gfxFontUtils::NAME_ID_PREFERRED_FAMILY))) {
            nsAutoString otherFamilyName;
            bool ok = gfxFontUtils::DecodeFontName(nameData + stringsBase + nameOff,
                                                     nameLen,
                                                     PRUint32(nameRecord->platformID),
                                                     PRUint32(nameRecord->encodingID),
                                                     PRUint32(nameRecord->languageID),
                                                     otherFamilyName);
            // add if not same as canonical family name
            if (ok && otherFamilyName != mName) {
                aPlatformFontList->AddOtherFamilyName(this, otherFamilyName);
                foundNames = true;
            }
        }
    }

    return foundNames;
}


void
gfxFontFamily::ReadOtherFamilyNames(gfxPlatformFontList *aPlatformFontList)
{
    if (mOtherFamilyNamesInitialized) 
        return;
    mOtherFamilyNamesInitialized = true;

    FindStyleVariations();

    // read in other family names for the first face in the list
    PRUint32 i, numFonts = mAvailableFonts.Length();
    const PRUint32 kNAME = TRUETYPE_TAG('n','a','m','e');
    AutoFallibleTArray<PRUint8,8192> buffer;

    for (i = 0; i < numFonts; ++i) {
        gfxFontEntry *fe = mAvailableFonts[i];
        if (!fe)
            continue;

        if (fe->GetFontTable(kNAME, buffer) != NS_OK)
            continue;

        mHasOtherFamilyNames = ReadOtherFamilyNamesForFace(aPlatformFontList,
                                                           buffer);
        break;
    }

    // read in other names for the first face in the list with the assumption
    // that if extra names don't exist in that face then they don't exist in
    // other faces for the same font
    if (!mHasOtherFamilyNames) 
        return;

    // read in names for all faces, needed to catch cases where fonts have
    // family names for individual weights (e.g. Hiragino Kaku Gothic Pro W6)
    for ( ; i < numFonts; i++) {
        gfxFontEntry *fe = mAvailableFonts[i];
        if (!fe)
            continue;

        if (fe->GetFontTable(kNAME, buffer) != NS_OK)
            continue;

        ReadOtherFamilyNamesForFace(aPlatformFontList, buffer);
    }
}

void
gfxFontFamily::ReadFaceNames(gfxPlatformFontList *aPlatformFontList, 
                             bool aNeedFullnamePostscriptNames)
{
    // if all needed names have already been read, skip
    if (mOtherFamilyNamesInitialized &&
        (mFaceNamesInitialized || !aNeedFullnamePostscriptNames))
        return;

    FindStyleVariations();

    PRUint32 i, numFonts = mAvailableFonts.Length();
    const PRUint32 kNAME = TRUETYPE_TAG('n','a','m','e');
    AutoFallibleTArray<PRUint8,8192> buffer;
    nsAutoString fullname, psname;

    bool firstTime = true, readAllFaces = false;
    for (i = 0; i < numFonts; ++i) {
        gfxFontEntry *fe = mAvailableFonts[i];
        if (!fe)
            continue;

        if (fe->GetFontTable(kNAME, buffer) != NS_OK)
            continue;

        if (aNeedFullnamePostscriptNames) {
            if (gfxFontUtils::ReadCanonicalName(
                    buffer, gfxFontUtils::NAME_ID_FULL, fullname) == NS_OK)
            {
                aPlatformFontList->AddFullname(fe, fullname);
            }

            if (gfxFontUtils::ReadCanonicalName(
                    buffer, gfxFontUtils::NAME_ID_POSTSCRIPT, psname) == NS_OK)
            {
                aPlatformFontList->AddPostscriptName(fe, psname);
            }
        }

       if (!mOtherFamilyNamesInitialized && (firstTime || readAllFaces)) {
           bool foundOtherName = ReadOtherFamilyNamesForFace(aPlatformFontList,
                                                               buffer);

           // if the first face has a different name, scan all faces, otherwise
           // assume the family doesn't have other names
           if (firstTime && foundOtherName) {
               mHasOtherFamilyNames = true;
               readAllFaces = true;
           }
           firstTime = false;
       }

       // if not reading in any more names, skip other faces
       if (!readAllFaces && !aNeedFullnamePostscriptNames)
           break;
    }

    mFaceNamesInitialized = true;
    mOtherFamilyNamesInitialized = true;
}


gfxFontEntry*
gfxFontFamily::FindFont(const nsAString& aPostscriptName)
{
    // find the font using a simple linear search
    PRUint32 numFonts = mAvailableFonts.Length();
    for (PRUint32 i = 0; i < numFonts; i++) {
        gfxFontEntry *fe = mAvailableFonts[i].get();
        if (fe && fe->Name() == aPostscriptName)
            return fe;
    }
    return nsnull;
}


nsresult
gfxFontCache::Init()
{
    NS_ASSERTION(!gGlobalCache, "Where did this come from?");
    gGlobalCache = new gfxFontCache();
    return gGlobalCache ? NS_OK : NS_ERROR_OUT_OF_MEMORY;
}

void
gfxFontCache::Shutdown()
{
    delete gGlobalCache;
    gGlobalCache = nsnull;

#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
    printf("Textrun storage high water mark=%d\n", gTextRunStorageHighWaterMark);
    printf("Total number of fonts=%d\n", gFontCount);
    printf("Total glyph extents allocated=%d (size %d)\n", gGlyphExtentsCount,
            int(gGlyphExtentsCount*sizeof(gfxGlyphExtents)));
    printf("Total glyph extents width-storage size allocated=%d\n", gGlyphExtentsWidthsTotalSize);
    printf("Number of simple glyph extents eagerly requested=%d\n", gGlyphExtentsSetupEagerSimple);
    printf("Number of tight glyph extents eagerly requested=%d\n", gGlyphExtentsSetupEagerTight);
    printf("Number of tight glyph extents lazily requested=%d\n", gGlyphExtentsSetupLazyTight);
    printf("Number of simple glyph extent setups that fell back to tight=%d\n", gGlyphExtentsSetupFallBackToTight);
#endif
}

bool
gfxFontCache::HashEntry::KeyEquals(const KeyTypePointer aKey) const
{
    return aKey->mFontEntry == mFont->GetFontEntry() &&
           aKey->mStyle->Equals(*mFont->GetStyle());
}

already_AddRefed<gfxFont>
gfxFontCache::Lookup(const gfxFontEntry *aFontEntry,
                     const gfxFontStyle *aStyle)
{
    Key key(aFontEntry, aStyle);
    HashEntry *entry = mFonts.GetEntry(key);
    if (!entry)
        return nsnull;

    gfxFont *font = entry->mFont;
    NS_ADDREF(font);
    return font;
}

void
gfxFontCache::AddNew(gfxFont *aFont)
{
    Key key(aFont->GetFontEntry(), aFont->GetStyle());
    HashEntry *entry = mFonts.PutEntry(key);
    if (!entry)
        return;
    gfxFont *oldFont = entry->mFont;
    entry->mFont = aFont;
    // Assert that we can find the entry we just put in (this fails if the key
    // has a NaN float value in it, e.g. 'sizeAdjust').
    MOZ_ASSERT(entry == mFonts.GetEntry(key));
    // If someone's asked us to replace an existing font entry, then that's a
    // bit weird, but let it happen, and expire the old font if it's not used.
    if (oldFont && oldFont->GetExpirationState()->IsTracked()) {
        // if oldFont == aFont, recount should be > 0,
        // so we shouldn't be here.
        NS_ASSERTION(aFont != oldFont, "new font is tracked for expiry!");
        NotifyExpired(oldFont);
    }
}

void
gfxFontCache::NotifyReleased(gfxFont *aFont)
{
    nsresult rv = AddObject(aFont);
    if (NS_FAILED(rv)) {
        // We couldn't track it for some reason. Kill it now.
        DestroyFont(aFont);
    }
    // Note that we might have fonts that aren't in the hashtable, perhaps because
    // of OOM adding to the hashtable or because someone did an AddNew where
    // we already had a font. These fonts are added to the expiration tracker
    // anyway, even though Lookup can't resurrect them. Eventually they will
    // expire and be deleted.
}

void
gfxFontCache::NotifyExpired(gfxFont *aFont)
{
    RemoveObject(aFont);
    DestroyFont(aFont);
}

void
gfxFontCache::DestroyFont(gfxFont *aFont)
{
    Key key(aFont->GetFontEntry(), aFont->GetStyle());
    HashEntry *entry = mFonts.GetEntry(key);
    if (entry && entry->mFont == aFont) {
        mFonts.RemoveEntry(key);
    }
    NS_ASSERTION(aFont->GetRefCount() == 0,
                 "Destroying with non-zero ref count!");
    delete aFont;
}

void
gfxFont::RunMetrics::CombineWith(const RunMetrics& aOther, bool aOtherIsOnLeft)
{
    mAscent = NS_MAX(mAscent, aOther.mAscent);
    mDescent = NS_MAX(mDescent, aOther.mDescent);
    if (aOtherIsOnLeft) {
        mBoundingBox =
            (mBoundingBox + gfxPoint(aOther.mAdvanceWidth, 0)).Union(aOther.mBoundingBox);
    } else {
        mBoundingBox =
            mBoundingBox.Union(aOther.mBoundingBox + gfxPoint(mAdvanceWidth, 0));
    }
    mAdvanceWidth += aOther.mAdvanceWidth;
}

gfxFont::gfxFont(gfxFontEntry *aFontEntry, const gfxFontStyle *aFontStyle,
                 AntialiasOption anAAOption) :
    mFontEntry(aFontEntry), mIsValid(true),
    mApplySyntheticBold(false),
    mStyle(*aFontStyle),
    mAdjustedSize(0.0),
    mFUnitsConvFactor(0.0f),
    mAntialiasOption(anAAOption),
    mPlatformShaper(nsnull),
    mHarfBuzzShaper(nsnull)
{
#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
    ++gFontCount;
#endif
}

gfxFont::~gfxFont()
{
    PRUint32 i;
    // We destroy the contents of mGlyphExtentsArray explicitly instead of
    // using nsAutoPtr because VC++ can't deal with nsTArrays of nsAutoPtrs
    // of classes that lack a proper copy constructor
    for (i = 0; i < mGlyphExtentsArray.Length(); ++i) {
        delete mGlyphExtentsArray[i];
    }
}

hb_blob_t *
gfxFont::GetFontTable(PRUint32 aTag) {
    hb_blob_t *blob;
    if (mFontEntry->GetExistingFontTable(aTag, &blob))
        return blob;

    FallibleTArray<PRUint8> buffer;
    bool haveTable = NS_SUCCEEDED(mFontEntry->GetFontTable(aTag, buffer));

    return mFontEntry->ShareFontTableAndGetBlob(aTag,
                                                haveTable ? &buffer : nsnull);
}

/**
 * A helper function in case we need to do any rounding or other
 * processing here.
 */
#define ToDeviceUnits(aAppUnits, aDevUnitsPerAppUnit) \
    (double(aAppUnits)*double(aDevUnitsPerAppUnit))

struct GlyphBuffer {
#define GLYPH_BUFFER_SIZE (2048/sizeof(cairo_glyph_t))
    cairo_glyph_t mGlyphBuffer[GLYPH_BUFFER_SIZE];
    unsigned int mNumGlyphs;

    GlyphBuffer()
        : mNumGlyphs(0) { }

    cairo_glyph_t *AppendGlyph() {
        return &mGlyphBuffer[mNumGlyphs++];
    }

    void Flush(cairo_t *aCR, bool aDrawToPath, bool aReverse,
               bool aFinish = false) {
        // Ensure there's enough room for a glyph to be added to the buffer
        if (!aFinish && mNumGlyphs < GLYPH_BUFFER_SIZE) {
            return;
        }

        if (aReverse) {
            for (PRUint32 i = 0; i < mNumGlyphs/2; ++i) {
                cairo_glyph_t tmp = mGlyphBuffer[i];
                mGlyphBuffer[i] = mGlyphBuffer[mNumGlyphs - 1 - i];
                mGlyphBuffer[mNumGlyphs - 1 - i] = tmp;
            }
        }
        if (aDrawToPath)
            cairo_glyph_path(aCR, mGlyphBuffer, mNumGlyphs);
        else
            cairo_show_glyphs(aCR, mGlyphBuffer, mNumGlyphs);

        mNumGlyphs = 0;
    }
#undef GLYPH_BUFFER_SIZE
};

// Bug 674909. When synthetic bolding text by drawing twice, need to
// render using a pixel offset in device pixels, otherwise text
// doesn't appear bolded, it appears as if a bad text shadow exists
// when a non-identity transform exists.  Use an offset factor so that
// the second draw occurs at a constant offset in device pixels.

static double
CalcXScale(gfxContext *aContext)
{
    // determine magnitude of a 1px x offset in device space
    gfxSize t = aContext->UserToDevice(gfxSize(1.0, 0.0));
    if (t.width == 1.0 && t.height == 0.0) {
        // short-circuit the most common case to avoid sqrt() and division
        return 1.0;
    }

    double m = sqrt(t.width * t.width + t.height * t.height);

    NS_ASSERTION(m != 0.0, "degenerate transform while synthetic bolding");
    if (m == 0.0) {
        return 0.0; // effectively disables offset
    }

    // scale factor so that offsets are 1px in device pixels
    return 1.0 / m;
}

void
gfxFont::Draw(gfxTextRun *aTextRun, PRUint32 aStart, PRUint32 aEnd,
              gfxContext *aContext, bool aDrawToPath, gfxPoint *aPt,
              Spacing *aSpacing)
{
    if (aStart >= aEnd)
        return;

    const gfxTextRun::CompressedGlyph *charGlyphs = aTextRun->GetCharacterGlyphs();
    const PRUint32 appUnitsPerDevUnit = aTextRun->GetAppUnitsPerDevUnit();
    const double devUnitsPerAppUnit = 1.0/double(appUnitsPerDevUnit);
    bool isRTL = aTextRun->IsRightToLeft();
    double direction = aTextRun->GetDirection();

    // synthetic-bold strikes are each offset one device pixel in run direction
    // (these values are only needed if IsSyntheticBold() is true)
    double synBoldOnePixelOffset;
    PRInt32 strikes;
    if (IsSyntheticBold()) {
        double xscale = CalcXScale(aContext);
        synBoldOnePixelOffset = direction * xscale;
        // use as many strikes as needed for the the increased advance
        strikes = NS_lroundf(GetSyntheticBoldOffset() / xscale);
    }

    PRUint32 i;
    // Current position in appunits
    double x = aPt->x;
    double y = aPt->y;

    bool success = SetupCairoFont(aContext);
    if (NS_UNLIKELY(!success))
        return;

    GlyphBuffer glyphs;
    cairo_glyph_t *glyph;
    cairo_t *cr = aContext->GetCairo();

    if (aSpacing) {
        x += direction*aSpacing[0].mBefore;
    }
    for (i = aStart; i < aEnd; ++i) {
        const gfxTextRun::CompressedGlyph *glyphData = &charGlyphs[i];
        if (glyphData->IsSimpleGlyph()) {
            glyph = glyphs.AppendGlyph();
            glyph->index = glyphData->GetSimpleGlyph();
            double advance = glyphData->GetSimpleAdvance();
            // Perhaps we should put a scale in the cairo context instead of
            // doing this scaling here...
            // Multiplying by the reciprocal may introduce tiny error here,
            // but we assume cairo is going to round coordinates at some stage
            // and this is faster
            double glyphX;
            if (isRTL) {
                x -= advance;
                glyphX = x;
            } else {
                glyphX = x;
                x += advance;
            }
            glyph->x = ToDeviceUnits(glyphX, devUnitsPerAppUnit);
            glyph->y = ToDeviceUnits(y, devUnitsPerAppUnit);
            glyphs.Flush(cr, aDrawToPath, isRTL);
            
            // synthetic bolding by multi-striking with 1-pixel offsets
            // at least once, more if there's room (large font sizes)
            if (IsSyntheticBold()) {
                double strikeOffset = synBoldOnePixelOffset;
                PRInt32 strikeCount = strikes;
                do {
                    cairo_glyph_t *doubleglyph;
                    doubleglyph = glyphs.AppendGlyph();
                    doubleglyph->index = glyph->index;
                    doubleglyph->x =
                        ToDeviceUnits(glyphX + strikeOffset * appUnitsPerDevUnit,
                                      devUnitsPerAppUnit);
                    doubleglyph->y = glyph->y;
                    strikeOffset += synBoldOnePixelOffset;
                    glyphs.Flush(cr, aDrawToPath, isRTL);
                } while (--strikeCount > 0);
            }
        } else {
            PRUint32 glyphCount = glyphData->GetGlyphCount();
            if (glyphCount > 0) {
                const gfxTextRun::DetailedGlyph *details =
                    aTextRun->GetDetailedGlyphs(i);
                NS_ASSERTION(details, "detailedGlyph should not be missing!");
                for (PRUint32 j = 0; j < glyphCount; ++j, ++details) {
                    double advance = details->mAdvance;
                    if (glyphData->IsMissing()) {
                        // default ignorable characters will have zero advance width.
                        // we don't have to draw the hexbox for them
                        if (!aDrawToPath && advance > 0) {
                            double glyphX = x;
                            if (isRTL) {
                                glyphX -= advance;
                            }
                            gfxPoint pt(ToDeviceUnits(glyphX, devUnitsPerAppUnit),
                                        ToDeviceUnits(y, devUnitsPerAppUnit));
                            gfxFloat advanceDevUnits = ToDeviceUnits(advance, devUnitsPerAppUnit);
                            gfxFloat height = GetMetrics().maxAscent;
                            gfxRect glyphRect(pt.x, pt.y - height, advanceDevUnits, height);
                            gfxFontMissingGlyphs::DrawMissingGlyph(aContext,
                                                                   glyphRect,
                                                                   details->mGlyphID);
                        }
                    } else {
                        glyph = glyphs.AppendGlyph();
                        glyph->index = details->mGlyphID;
                        double glyphX = x + details->mXOffset;
                        if (isRTL) {
                            glyphX -= advance;
                        }
                        glyph->x = ToDeviceUnits(glyphX, devUnitsPerAppUnit);
                        glyph->y = ToDeviceUnits(y + details->mYOffset, devUnitsPerAppUnit);
                        glyphs.Flush(cr, aDrawToPath, isRTL);

                        if (IsSyntheticBold()) {
                            double strikeOffset = synBoldOnePixelOffset;
                            PRInt32 strikeCount = strikes;
                            do {
                                cairo_glyph_t *doubleglyph;
                                doubleglyph = glyphs.AppendGlyph();
                                doubleglyph->index = glyph->index;
                                doubleglyph->x =
                                    ToDeviceUnits(glyphX + strikeOffset *
                                                      appUnitsPerDevUnit,
                                                  devUnitsPerAppUnit);
                                doubleglyph->y = glyph->y;
                                strikeOffset += synBoldOnePixelOffset;
                                glyphs.Flush(cr, aDrawToPath, isRTL);
                            } while (--strikeCount > 0);
                        }
                    }
                    x += direction*advance;
                }
            }
        }

        if (aSpacing) {
            double space = aSpacing[i - aStart].mAfter;
            if (i + 1 < aEnd) {
                space += aSpacing[i + 1 - aStart].mBefore;
            }
            x += direction*space;
        }
    }

    if (gfxFontTestStore::CurrentStore()) {
        /* This assumes that the tests won't have anything that results
         * in more than GLYPH_BUFFER_SIZE glyphs.  Do this before we
         * flush, since that'll blow away the num_glyphs.
         */
        gfxFontTestStore::CurrentStore()->AddItem(GetName(),
                                                  glyphs.mGlyphBuffer,
                                                  glyphs.mNumGlyphs);
    }

    // draw any remaining glyphs
    glyphs.Flush(cr, aDrawToPath, isRTL, true);

    *aPt = gfxPoint(x, y);
}

static void
UnionRange(gfxFloat aX, gfxFloat* aDestMin, gfxFloat* aDestMax)
{
    *aDestMin = NS_MIN(*aDestMin, aX);
    *aDestMax = NS_MAX(*aDestMax, aX);
}

// We get precise glyph extents if the textrun creator requested them, or
// if the font is a user font --- in which case the author may be relying
// on overflowing glyphs.
static bool
NeedsGlyphExtents(gfxFont *aFont, gfxTextRun *aTextRun)
{
    return (aTextRun->GetFlags() & gfxTextRunFactory::TEXT_NEED_BOUNDING_BOX) ||
        aFont->GetFontEntry()->IsUserFont();
}

static bool
NeedsGlyphExtents(gfxTextRun *aTextRun)
{
    if (aTextRun->GetFlags() & gfxTextRunFactory::TEXT_NEED_BOUNDING_BOX)
        return true;
    PRUint32 numRuns;
    const gfxTextRun::GlyphRun *glyphRuns = aTextRun->GetGlyphRuns(&numRuns);
    for (PRUint32 i = 0; i < numRuns; ++i) {
        if (glyphRuns[i].mFont->GetFontEntry()->IsUserFont())
            return true;
    }
    return false;
}

gfxFont::RunMetrics
gfxFont::Measure(gfxTextRun *aTextRun,
                 PRUint32 aStart, PRUint32 aEnd,
                 BoundingBoxType aBoundingBoxType,
                 gfxContext *aRefContext,
                 Spacing *aSpacing)
{
    // If aBoundingBoxType is TIGHT_HINTED_OUTLINE_EXTENTS
    // and the underlying cairo font may be antialiased,
    // we need to create a copy in order to avoid getting cached extents.
    // This is only used by MathML layout at present.
    if (aBoundingBoxType == TIGHT_HINTED_OUTLINE_EXTENTS &&
        mAntialiasOption != kAntialiasNone) {
        if (!mNonAAFont) {
            mNonAAFont = CopyWithAntialiasOption(kAntialiasNone);
        }
        // if font subclass doesn't implement CopyWithAntialiasOption(),
        // it will return null and we'll proceed to use the existing font
        if (mNonAAFont) {
            return mNonAAFont->Measure(aTextRun, aStart, aEnd,
                                       TIGHT_HINTED_OUTLINE_EXTENTS,
                                       aRefContext, aSpacing);
        }
    }

    const PRUint32 appUnitsPerDevUnit = aTextRun->GetAppUnitsPerDevUnit();
    // Current position in appunits
    const gfxFont::Metrics& fontMetrics = GetMetrics();

    RunMetrics metrics;
    metrics.mAscent = fontMetrics.maxAscent*appUnitsPerDevUnit;
    metrics.mDescent = fontMetrics.maxDescent*appUnitsPerDevUnit;
    if (aStart == aEnd) {
        // exit now before we look at aSpacing[0], which is undefined
        metrics.mBoundingBox = gfxRect(0, -metrics.mAscent, 0, metrics.mAscent + metrics.mDescent);
        return metrics;
    }

    gfxFloat advanceMin = 0, advanceMax = 0;
    const gfxTextRun::CompressedGlyph *charGlyphs = aTextRun->GetCharacterGlyphs();
    bool isRTL = aTextRun->IsRightToLeft();
    double direction = aTextRun->GetDirection();
    bool needsGlyphExtents = NeedsGlyphExtents(this, aTextRun);
    gfxGlyphExtents *extents =
        (aBoundingBoxType == LOOSE_INK_EXTENTS &&
            !needsGlyphExtents &&
            !aTextRun->HasDetailedGlyphs()) ? nsnull
        : GetOrCreateGlyphExtents(aTextRun->GetAppUnitsPerDevUnit());
    double x = 0;
    if (aSpacing) {
        x += direction*aSpacing[0].mBefore;
    }
    PRUint32 i;
    for (i = aStart; i < aEnd; ++i) {
        const gfxTextRun::CompressedGlyph *glyphData = &charGlyphs[i];
        if (glyphData->IsSimpleGlyph()) {
            double advance = glyphData->GetSimpleAdvance();
            // Only get the real glyph horizontal extent if we were asked
            // for the tight bounding box or we're in quality mode
            if ((aBoundingBoxType != LOOSE_INK_EXTENTS || needsGlyphExtents) &&
                extents) {
                PRUint32 glyphIndex = glyphData->GetSimpleGlyph();
                PRUint16 extentsWidth = extents->GetContainedGlyphWidthAppUnits(glyphIndex);
                if (extentsWidth != gfxGlyphExtents::INVALID_WIDTH &&
                    aBoundingBoxType == LOOSE_INK_EXTENTS) {
                    UnionRange(x, &advanceMin, &advanceMax);
                    UnionRange(x + direction*extentsWidth, &advanceMin, &advanceMax);
                } else {
                    gfxRect glyphRect;
                    if (!extents->GetTightGlyphExtentsAppUnits(this,
                            aRefContext, glyphIndex, &glyphRect)) {
                        glyphRect = gfxRect(0, metrics.mBoundingBox.Y(),
                            advance, metrics.mBoundingBox.Height());
                    }
                    if (isRTL) {
                        glyphRect -= gfxPoint(advance, 0);
                    }
                    glyphRect += gfxPoint(x, 0);
                    metrics.mBoundingBox = metrics.mBoundingBox.Union(glyphRect);
                }
            }
            x += direction*advance;
        } else {
            PRUint32 glyphCount = glyphData->GetGlyphCount();
            if (glyphCount > 0) {
                const gfxTextRun::DetailedGlyph *details =
                    aTextRun->GetDetailedGlyphs(i);
                NS_ASSERTION(details != nsnull,
                             "detaiedGlyph record should not be missing!");
                PRUint32 j;
                for (j = 0; j < glyphCount; ++j, ++details) {
                    PRUint32 glyphIndex = details->mGlyphID;
                    gfxPoint glyphPt(x + details->mXOffset, details->mYOffset);
                    double advance = details->mAdvance;
                    gfxRect glyphRect;
                    if (glyphData->IsMissing() || !extents ||
                        !extents->GetTightGlyphExtentsAppUnits(this,
                                aRefContext, glyphIndex, &glyphRect)) {
                        // We might have failed to get glyph extents due to
                        // OOM or something
                        glyphRect = gfxRect(0, -metrics.mAscent,
                            advance, metrics.mAscent + metrics.mDescent);
                    }
                    if (isRTL) {
                        glyphRect -= gfxPoint(advance, 0);
                    }
                    glyphRect += gfxPoint(x, 0);
                    metrics.mBoundingBox = metrics.mBoundingBox.Union(glyphRect);
                    x += direction*advance;
                }
            }
        }
        // Every other glyph type is ignored
        if (aSpacing) {
            double space = aSpacing[i - aStart].mAfter;
            if (i + 1 < aEnd) {
                space += aSpacing[i + 1 - aStart].mBefore;
            }
            x += direction*space;
        }
    }

    if (aBoundingBoxType == LOOSE_INK_EXTENTS) {
        UnionRange(x, &advanceMin, &advanceMax);
        gfxRect fontBox(advanceMin, -metrics.mAscent,
                        advanceMax - advanceMin, metrics.mAscent + metrics.mDescent);
        metrics.mBoundingBox = metrics.mBoundingBox.Union(fontBox);
    }
    if (isRTL) {
        metrics.mBoundingBox -= gfxPoint(x, 0);
    }

    metrics.mAdvanceWidth = x*direction;
    return metrics;
}

#define MAX_SHAPING_LENGTH  32760 // slightly less than 32K, trying to avoid
                                  // over-stressing platform shapers

#define BACKTRACK_LIMIT  1024 // If we can't find a space or a cluster start
                              // within 1K chars, just chop arbitrarily.
                              // Limiting backtrack here avoids pathological
                              // behavior on long runs with no whitespace.

bool
gfxFont::SplitAndInitTextRun(gfxContext *aContext,
                             gfxTextRun *aTextRun,
                             const PRUnichar *aString,
                             PRUint32 aRunStart,
                             PRUint32 aRunLength,
                             PRInt32 aRunScript)
{
    bool ok;

#ifdef PR_LOGGING
    PRLogModuleInfo *log = (mStyle.systemFont ?
                            gfxPlatform::GetLog(eGfxLog_textrunui) :
                            gfxPlatform::GetLog(eGfxLog_textrun));

    if (NS_UNLIKELY(log)) {
        nsCAutoString lang;
        mStyle.language->ToUTF8String(lang);
        PR_LOG(log, PR_LOG_DEBUG,\
               ("(%s-fontmatching) font: [%s] lang: %s script: %d len: %d "
                "TEXTRUN [%s] ENDTEXTRUN\n",
                (mStyle.systemFont ? "textrunui" : "textrun"),
                NS_ConvertUTF16toUTF8(GetName()).get(),
                lang.get(), aRunScript, aRunLength,
                NS_ConvertUTF16toUTF8(aString + aRunStart, aRunLength).get()));
    }
#endif

    do {
        // Because various shaping backends struggle with very long runs,
        // we look for appropriate break locations (preferring whitespace),
        // and shape sub-runs of no more than 32K characters at a time.
        // See bug 606714 (CoreText), and similar Uniscribe issues.
        // This loop always executes at least once, and "processes" up to
        // MAX_RUN_LENGTH_FOR_SHAPING characters, updating aRunStart and
        // aRunLength accordingly. It terminates when the entire run has
        // been processed, or when shaping fails.

        PRUint32 thisRunLength;
        ok = false;

        if (aRunLength <= MAX_SHAPING_LENGTH) {
            thisRunLength = aRunLength;
        } else {
            // We're splitting this font run because it's very long
            PRUint32 offset = aRunStart + MAX_SHAPING_LENGTH;
            PRUint32 clusterStart = 0;
            while (offset > aRunStart + MAX_SHAPING_LENGTH - BACKTRACK_LIMIT) {
                if (aTextRun->IsClusterStart(offset)) {
                    if (!clusterStart) {
                        clusterStart = offset;
                    }
                    if (aString[offset] == ' ' || aString[offset - 1] == ' ') {
                        break;
                    }
                }
                --offset;
            }
            
            if (offset > MAX_SHAPING_LENGTH - BACKTRACK_LIMIT) {
                // we found a space, so break the run there
                thisRunLength = offset - aRunStart;
            } else if (clusterStart != 0) {
                // didn't find a space, but we found a cluster start
                thisRunLength = clusterStart - aRunStart;
            } else {
                // otherwise we'll simply break at MAX_SHAPING_LENGTH chars,
                // which may interfere with shaping behavior (but in practice
                // only pathological cases will lack ANY whitespace or cluster
                // boundaries, so we don't really care; it won't affect any
                // "real" text)
                thisRunLength = MAX_SHAPING_LENGTH;
            }
        }

        ok = InitTextRun(aContext, aTextRun, aString,
                         aRunStart, thisRunLength, aRunScript);

        aRunStart += thisRunLength;
        aRunLength -= thisRunLength;
    } while (ok && aRunLength > 0);

    NS_WARN_IF_FALSE(ok, "shaper failed, expect scrambled or missing text");
    return ok;
}

bool
gfxFont::InitTextRun(gfxContext *aContext,
                     gfxTextRun *aTextRun,
                     const PRUnichar *aString,
                     PRUint32 aRunStart,
                     PRUint32 aRunLength,
                     PRInt32 aRunScript,
                     bool aPreferPlatformShaping)
{
    bool ok = false;

    if (mHarfBuzzShaper && !aPreferPlatformShaping) {
        if (gfxPlatform::GetPlatform()->UseHarfBuzzForScript(aRunScript)) {
            ok = mHarfBuzzShaper->InitTextRun(aContext, aTextRun, aString,
                                              aRunStart, aRunLength,
                                              aRunScript);
        }
    }

    if (!ok) {
        if (!mPlatformShaper) {
            CreatePlatformShaper();
            NS_ASSERTION(mPlatformShaper, "no platform shaper available!");
        }
        if (mPlatformShaper) {
            ok = mPlatformShaper->InitTextRun(aContext, aTextRun, aString,
                                              aRunStart, aRunLength,
                                              aRunScript);
        }
    }

    return ok;
}

gfxGlyphExtents *
gfxFont::GetOrCreateGlyphExtents(PRUint32 aAppUnitsPerDevUnit) {
    PRUint32 i;
    for (i = 0; i < mGlyphExtentsArray.Length(); ++i) {
        if (mGlyphExtentsArray[i]->GetAppUnitsPerDevUnit() == aAppUnitsPerDevUnit)
            return mGlyphExtentsArray[i];
    }
    gfxGlyphExtents *glyphExtents = new gfxGlyphExtents(aAppUnitsPerDevUnit);
    if (glyphExtents) {
        mGlyphExtentsArray.AppendElement(glyphExtents);
        // Initialize the extents of a space glyph, assuming that spaces don't
        // render anything!
        glyphExtents->SetContainedGlyphWidthAppUnits(GetSpaceGlyph(), 0);
    }
    return glyphExtents;
}

void
gfxFont::SetupGlyphExtents(gfxContext *aContext, PRUint32 aGlyphID, bool aNeedTight,
                           gfxGlyphExtents *aExtents)
{
    gfxMatrix matrix = aContext->CurrentMatrix();
    aContext->IdentityMatrix();
    cairo_glyph_t glyph;
    glyph.index = aGlyphID;
    glyph.x = 0;
    glyph.y = 0;
    cairo_text_extents_t extents;
    cairo_glyph_extents(aContext->GetCairo(), &glyph, 1, &extents);
    aContext->SetMatrix(matrix);

    const Metrics& fontMetrics = GetMetrics();
    PRUint32 appUnitsPerDevUnit = aExtents->GetAppUnitsPerDevUnit();
    if (!aNeedTight && extents.x_bearing >= 0 &&
        extents.y_bearing >= -fontMetrics.maxAscent &&
        extents.height + extents.y_bearing <= fontMetrics.maxDescent) {
        PRUint32 appUnitsWidth =
            PRUint32(ceil((extents.x_bearing + extents.width)*appUnitsPerDevUnit));
        if (appUnitsWidth < gfxGlyphExtents::INVALID_WIDTH) {
            aExtents->SetContainedGlyphWidthAppUnits(aGlyphID, PRUint16(appUnitsWidth));
            return;
        }
    }
#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
    if (!aNeedTight) {
        ++gGlyphExtentsSetupFallBackToTight;
    }
#endif

    double d2a = appUnitsPerDevUnit;
    gfxRect bounds(extents.x_bearing*d2a, extents.y_bearing*d2a,
                   extents.width*d2a, extents.height*d2a);
    aExtents->SetTightGlyphExtents(aGlyphID, bounds);
}

// Try to initialize font metrics by reading sfnt tables directly;
// set mIsValid=TRUE and return TRUE on success.
// Return FALSE if the gfxFontEntry subclass does not
// implement GetFontTable(), or for non-sfnt fonts where tables are
// not available.
bool
gfxFont::InitMetricsFromSfntTables(Metrics& aMetrics)
{
    mIsValid = false; // font is NOT valid in case of early return

    const PRUint32 kHeadTableTag = TRUETYPE_TAG('h','e','a','d');
    const PRUint32 kHheaTableTag = TRUETYPE_TAG('h','h','e','a');
    const PRUint32 kPostTableTag = TRUETYPE_TAG('p','o','s','t');
    const PRUint32 kOS_2TableTag = TRUETYPE_TAG('O','S','/','2');

    if (mFUnitsConvFactor == 0.0) {
        // If the conversion factor from FUnits is not yet set,
        // 'head' table is required; otherwise we cannot read any metrics
        // because we don't know unitsPerEm
        AutoFallibleTArray<PRUint8,sizeof(HeadTable)> headData;
        if (NS_FAILED(mFontEntry->GetFontTable(kHeadTableTag, headData)) ||
            headData.Length() < sizeof(HeadTable)) {
            return false; // no 'head' table -> not an sfnt
        }
        HeadTable *head = reinterpret_cast<HeadTable*>(headData.Elements());
        PRUint32 unitsPerEm = head->unitsPerEm;
        if (!unitsPerEm) {
            return true; // is an sfnt, but not valid
        }
        mFUnitsConvFactor = mAdjustedSize / unitsPerEm;
    }

    // 'hhea' table is required to get vertical extents
    AutoFallibleTArray<PRUint8,sizeof(HheaTable)> hheaData;
    if (NS_FAILED(mFontEntry->GetFontTable(kHheaTableTag, hheaData)) ||
        hheaData.Length() < sizeof(HheaTable)) {
        return false; // no 'hhea' table -> not an sfnt
    }
    HheaTable *hhea = reinterpret_cast<HheaTable*>(hheaData.Elements());

#define SET_UNSIGNED(field,src) aMetrics.field = PRUint16(src) * mFUnitsConvFactor
#define SET_SIGNED(field,src)   aMetrics.field = PRInt16(src) * mFUnitsConvFactor

    SET_UNSIGNED(maxAdvance, hhea->advanceWidthMax);
    SET_SIGNED(maxAscent, hhea->ascender);
    SET_SIGNED(maxDescent, -PRInt16(hhea->descender));
    SET_SIGNED(externalLeading, hhea->lineGap);

    // 'post' table is required for underline metrics
    AutoFallibleTArray<PRUint8,sizeof(PostTable)> postData;
    if (NS_FAILED(mFontEntry->GetFontTable(kPostTableTag, postData))) {
        return true; // no 'post' table -> sfnt is not valid
    }
    if (postData.Length() <
        offsetof(PostTable, underlineThickness) + sizeof(PRUint16)) {
        return true; // bad post table -> sfnt is not valid
    }
    PostTable *post = reinterpret_cast<PostTable*>(postData.Elements());

    SET_SIGNED(underlineOffset, post->underlinePosition);
    SET_UNSIGNED(underlineSize, post->underlineThickness);

    // 'OS/2' table is optional, if not found we'll estimate xHeight
    // and aveCharWidth by measuring glyphs
    AutoFallibleTArray<PRUint8,sizeof(OS2Table)> os2data;
    if (NS_SUCCEEDED(mFontEntry->GetFontTable(kOS_2TableTag, os2data))) {
        OS2Table *os2 = reinterpret_cast<OS2Table*>(os2data.Elements());

        if (os2data.Length() >= offsetof(OS2Table, sxHeight) +
                                sizeof(PRInt16) &&
            PRUint16(os2->version) >= 2) {
            // version 2 and later includes the x-height field
            SET_SIGNED(xHeight, os2->sxHeight);
            // NS_ABS because of negative xHeight seen in Kokonor (Tibetan) font
            aMetrics.xHeight = NS_ABS(aMetrics.xHeight);
        }
        // this should always be present
        if (os2data.Length() >= offsetof(OS2Table, yStrikeoutPosition) +
                                sizeof(PRInt16)) {
            SET_SIGNED(aveCharWidth, os2->xAvgCharWidth);
            SET_SIGNED(subscriptOffset, os2->ySubscriptYOffset);
            SET_SIGNED(superscriptOffset, os2->ySuperscriptYOffset);
            SET_SIGNED(strikeoutSize, os2->yStrikeoutSize);
            SET_SIGNED(strikeoutOffset, os2->yStrikeoutPosition);
        }
    }

    mIsValid = true;

    return true;
}

static double
RoundToNearestMultiple(double aValue, double aFraction)
{
    return floor(aValue/aFraction + 0.5) * aFraction;
}

void gfxFont::CalculateDerivedMetrics(Metrics& aMetrics)
{
    aMetrics.maxAscent =
        ceil(RoundToNearestMultiple(aMetrics.maxAscent, 1/1024.0));
    aMetrics.maxDescent =
        ceil(RoundToNearestMultiple(aMetrics.maxDescent, 1/1024.0));

    if (aMetrics.xHeight <= 0) {
        // only happens if we couldn't find either font metrics
        // or a char to measure;
        // pick an arbitrary value that's better than zero
        aMetrics.xHeight = aMetrics.maxAscent * DEFAULT_XHEIGHT_FACTOR;
    }

    aMetrics.maxHeight = aMetrics.maxAscent + aMetrics.maxDescent;

    if (aMetrics.maxHeight - aMetrics.emHeight > 0.0) {
        aMetrics.internalLeading = aMetrics.maxHeight - aMetrics.emHeight;
    } else {
        aMetrics.internalLeading = 0.0;
    }

    aMetrics.emAscent = aMetrics.maxAscent * aMetrics.emHeight
                            / aMetrics.maxHeight;
    aMetrics.emDescent = aMetrics.emHeight - aMetrics.emAscent;

    if (GetFontEntry()->IsFixedPitch()) {
        // Some Quartz fonts are fixed pitch, but there's some glyph with a bigger
        // advance than the average character width... this forces
        // those fonts to be recognized like fixed pitch fonts by layout.
        aMetrics.maxAdvance = aMetrics.aveCharWidth;
    }

    if (!aMetrics.subscriptOffset) {
        aMetrics.subscriptOffset = aMetrics.xHeight;
    }
    if (!aMetrics.superscriptOffset) {
        aMetrics.superscriptOffset = aMetrics.xHeight;
    }

    if (!aMetrics.strikeoutOffset) {
        aMetrics.strikeoutOffset = aMetrics.xHeight * 0.5;
    }
    if (!aMetrics.strikeoutSize) {
        aMetrics.strikeoutSize = aMetrics.underlineSize;
    }
}

void
gfxFont::SanitizeMetrics(gfxFont::Metrics *aMetrics, bool aIsBadUnderlineFont)
{
    // Even if this font size is zero, this font is created with non-zero size.
    // However, for layout and others, we should return the metrics of zero size font.
    if (mStyle.size == 0.0) {
        memset(aMetrics, 0, sizeof(gfxFont::Metrics));
        return;
    }

    // MS (P)Gothic and MS (P)Mincho are not having suitable values in their super script offset.
    // If the values are not suitable, we should use x-height instead of them.
    // See https://bugzilla.mozilla.org/show_bug.cgi?id=353632
    if (aMetrics->superscriptOffset <= 0 ||
        aMetrics->superscriptOffset >= aMetrics->maxAscent) {
        aMetrics->superscriptOffset = aMetrics->xHeight;
    }
    // And also checking the case of sub script offset. The old gfx for win has checked this too.
    if (aMetrics->subscriptOffset <= 0 ||
        aMetrics->subscriptOffset >= aMetrics->maxAscent) {
        aMetrics->subscriptOffset = aMetrics->xHeight;
    }

    aMetrics->underlineSize = NS_MAX(1.0, aMetrics->underlineSize);
    aMetrics->strikeoutSize = NS_MAX(1.0, aMetrics->strikeoutSize);

    aMetrics->underlineOffset = NS_MIN(aMetrics->underlineOffset, -1.0);

    if (aMetrics->maxAscent < 1.0) {
        // We cannot draw strikeout line and overline in the ascent...
        aMetrics->underlineSize = 0;
        aMetrics->underlineOffset = 0;
        aMetrics->strikeoutSize = 0;
        aMetrics->strikeoutOffset = 0;
        return;
    }

    /**
     * Some CJK fonts have bad underline offset. Therefore, if this is such font,
     * we need to lower the underline offset to bottom of *em* descent.
     * However, if this is system font, we should not do this for the rendering compatibility with
     * another application's UI on the platform.
     * XXX Should not use this hack if the font size is too small?
     *     Such text cannot be read, this might be used for tight CSS rendering? (E.g., Acid2)
     */
    if (!mStyle.systemFont && aIsBadUnderlineFont) {
        // First, we need 2 pixels between baseline and underline at least. Because many CJK characters
        // put their glyphs on the baseline, so, 1 pixel is too close for CJK characters.
        aMetrics->underlineOffset = NS_MIN(aMetrics->underlineOffset, -2.0);

        // Next, we put the underline to bottom of below of the descent space.
        if (aMetrics->internalLeading + aMetrics->externalLeading > aMetrics->underlineSize) {
            aMetrics->underlineOffset = NS_MIN(aMetrics->underlineOffset, -aMetrics->emDescent);
        } else {
            aMetrics->underlineOffset = NS_MIN(aMetrics->underlineOffset,
                                               aMetrics->underlineSize - aMetrics->emDescent);
        }
    }
    // If underline positioned is too far from the text, descent position is preferred so that underline
    // will stay within the boundary.
    else if (aMetrics->underlineSize - aMetrics->underlineOffset > aMetrics->maxDescent) {
        if (aMetrics->underlineSize > aMetrics->maxDescent)
            aMetrics->underlineSize = NS_MAX(aMetrics->maxDescent, 1.0);
        // The max underlineOffset is 1px (the min underlineSize is 1px, and min maxDescent is 0px.)
        aMetrics->underlineOffset = aMetrics->underlineSize - aMetrics->maxDescent;
    }

    // If strikeout line is overflowed from the ascent, the line should be resized and moved for
    // that being in the ascent space.
    // Note that the strikeoutOffset is *middle* of the strikeout line position.
    gfxFloat halfOfStrikeoutSize = floor(aMetrics->strikeoutSize / 2.0 + 0.5);
    if (halfOfStrikeoutSize + aMetrics->strikeoutOffset > aMetrics->maxAscent) {
        if (aMetrics->strikeoutSize > aMetrics->maxAscent) {
            aMetrics->strikeoutSize = NS_MAX(aMetrics->maxAscent, 1.0);
            halfOfStrikeoutSize = floor(aMetrics->strikeoutSize / 2.0 + 0.5);
        }
        gfxFloat ascent = floor(aMetrics->maxAscent + 0.5);
        aMetrics->strikeoutOffset = NS_MAX(halfOfStrikeoutSize, ascent / 2.0);
    }

    // If overline is larger than the ascent, the line should be resized.
    if (aMetrics->underlineSize > aMetrics->maxAscent) {
        aMetrics->underlineSize = aMetrics->maxAscent;
    }
}

gfxFloat
gfxFont::SynthesizeSpaceWidth(PRUint32 aCh)
{
    // return an appropriate width for various Unicode space characters
    // that we "fake" if they're not actually present in the font;
    // returns negative value if the char is not a known space.
    switch (aCh) {
    case 0x2000:                                 // en quad
    case 0x2002: return GetAdjustedSize() / 2;   // en space
    case 0x2001:                                 // em quad
    case 0x2003: return GetAdjustedSize();       // em space
    case 0x2004: return GetAdjustedSize() / 3;   // three-per-em space
    case 0x2005: return GetAdjustedSize() / 4;   // four-per-em space
    case 0x2006: return GetAdjustedSize() / 6;   // six-per-em space
    case 0x2007: return GetMetrics().zeroOrAveCharWidth; // figure space
    case 0x2008: return GetMetrics().spaceWidth; // punctuation space 
    case 0x2009: return GetAdjustedSize() / 5;   // thin space
    case 0x200a: return GetAdjustedSize() / 10;  // hair space
    case 0x202f: return GetAdjustedSize() / 5;   // narrow no-break space
    default: return -1.0;
    }
}

gfxGlyphExtents::~gfxGlyphExtents()
{
#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
    gGlyphExtentsWidthsTotalSize += mContainedGlyphWidths.ComputeSize();
    gGlyphExtentsCount++;
#endif
    MOZ_COUNT_DTOR(gfxGlyphExtents);
}

bool
gfxGlyphExtents::GetTightGlyphExtentsAppUnits(gfxFont *aFont,
    gfxContext *aContext, PRUint32 aGlyphID, gfxRect *aExtents)
{
    HashEntry *entry = mTightGlyphExtents.GetEntry(aGlyphID);
    if (!entry) {
        if (!aContext) {
            NS_WARNING("Could not get glyph extents (no aContext)");
            return false;
        }

        aFont->SetupCairoFont(aContext);
#ifdef DEBUG_TEXT_RUN_STORAGE_METRICS
        ++gGlyphExtentsSetupLazyTight;
#endif
        aFont->SetupGlyphExtents(aContext, aGlyphID, true, this);
        entry = mTightGlyphExtents.GetEntry(aGlyphID);
        if (!entry) {
            NS_WARNING("Could not get glyph extents");
            return false;
        }
    }

    *aExtents = gfxRect(entry->x, entry->y, entry->width, entry->height);
    return true;
}

gfxGlyphExtents::GlyphWidths::~GlyphWidths()
{
    PRUint32 i;
    for (i = 0; i < mBlocks.Length(); ++i) {
        PtrBits bits = mBlocks[i];
        if (bits && !(bits & 0x1)) {
            delete[] reinterpret_cast<PRUint16 *>(bits);
        }
    }
}

#ifdef DEBUG
PRUint32
gfxGlyphExtents::GlyphWidths::ComputeSize()
{
    PRUint32 i;
    PRUint32 size = mBlocks.Capacity()*sizeof(PtrBits);
    for (i = 0; i < mBlocks.Length(); ++i) {
        PtrBits bits = mBlocks[i];
        if (bits && !(bits & 0x1)) {
            size += BLOCK_SIZE*sizeof(PRUint16);
        }
    }
    return size;
}
#endif

void
gfxGlyphExtents::GlyphWidths::Set(PRUint32 aGlyphID, PRUint16 aWidth)
{
    PRUint32 block = aGlyphID >> BLOCK_SIZE_BITS;
    PRUint32 len = mBlocks.Length();
    if (block >= len) {
        PtrBits *elems = mBlocks.AppendElements(block + 1 - len);
        if (!elems)
            return;
        memset(elems, 0, sizeof(PtrBits)*(block + 1 - len));
    }

    PtrBits bits = mBlocks[block];
    PRUint32 glyphOffset = aGlyphID & (BLOCK_SIZE - 1);
    if (!bits) {
        mBlocks[block] = MakeSingle(glyphOffset, aWidth);
        return;
    }

    PRUint16 *newBlock;
    if (bits & 0x1) {
        // Expand the block to a real block. We could avoid this by checking
        // glyphOffset == GetGlyphOffset(bits), but that never happens so don't bother
        newBlock = new PRUint16[BLOCK_SIZE];
        if (!newBlock)
            return;
        PRUint32 i;
        for (i = 0; i < BLOCK_SIZE; ++i) {
            newBlock[i] = INVALID_WIDTH;
        }
        newBlock[GetGlyphOffset(bits)] = GetWidth(bits);
        mBlocks[block] = reinterpret_cast<PtrBits>(newBlock);
    } else {
        newBlock = reinterpret_cast<PRUint16 *>(bits);
    }
    newBlock[glyphOffset] = aWidth;
}

void
gfxGlyphExtents::SetTightGlyphExtents(PRUint32 aGlyphID, const gfxRect& aExtentsAppUnits)
{
    HashEntry *entry = mTightGlyphExtents.PutEntry(aGlyphID);
    if (!entry)
        return;
    entry->x = aExtentsAppUnits.X();
    entry->y = aExtentsAppUnits.Y();
    entry->width = aExtentsAppUnits.Width();
    entry->height = aExtentsAppUnits.Height();
}

gfxFontGroup::gfxFontGroup(const nsAString& aFamilies, const gfxFontStyle *aStyle, gfxUserFontSet *aUserFontSet)
    : mFamilies(aFamilies), mStyle(*aStyle), mUnderlineOffset(UNDERLINE_OFFSET_NOT_SET)
{
    mUserFontSet = nsnull;
    SetUserFontSet(aUserFontSet);

    mSkipDrawing = false;

    mPageLang = gfxPlatform::GetFontPrefLangFor(mStyle.language);
    BuildFontList();
}

void
gfxFontGroup::BuildFontList()
{
// "#if" to be removed once all platforms are moved to gfxPlatformFontList interface
// and subclasses of gfxFontGroup eliminated
#if defined(XP_MACOSX) || defined(XP_WIN) || defined(ANDROID)
    ForEachFont(FindPlatformFont, this);

    if (mFonts.Length() == 0) {
        bool needsBold;
        gfxPlatformFontList *pfl = gfxPlatformFontList::PlatformFontList();
        gfxFontEntry *defaultFont = pfl->GetDefaultFont(&mStyle, needsBold);
        NS_ASSERTION(defaultFont, "invalid default font returned by GetDefaultFont");

        if (defaultFont) {
            nsRefPtr<gfxFont> font = defaultFont->FindOrMakeFont(&mStyle,
                                                                 needsBold);
            if (font) {
                mFonts.AppendElement(font);
            }
        }

        if (mFonts.Length() == 0) {
            // Try for a "font of last resort...."
            // Because an empty font list would be Really Bad for later code
            // that assumes it will be able to get valid metrics for layout,
            // just look for the first usable font and put in the list.
            // (see bug 554544)
            nsAutoTArray<nsRefPtr<gfxFontFamily>,200> families;
            pfl->GetFontFamilyList(families);
            for (PRUint32 i = 0; i < families.Length(); ++i) {
                gfxFontEntry *fe = families[i]->FindFontForStyle(mStyle,
                                                                 needsBold);
                if (fe) {
                    nsRefPtr<gfxFont> font = fe->FindOrMakeFont(&mStyle,
                                                                needsBold);
                    if (font) {
                        mFonts.AppendElement(font);
                        break;
                    }
                }
            }
        }

        if (mFonts.Length() == 0) {
            // an empty font list at this point is fatal; we're not going to
            // be able to do even the most basic layout operations
            char msg[256]; // CHECK buffer length if revising message below
            sprintf(msg, "unable to find a usable font (%.220s)",
                    NS_ConvertUTF16toUTF8(mFamilies).get());
            NS_RUNTIMEABORT(msg);
        }
    }

    if (!mStyle.systemFont) {
        for (PRUint32 i = 0; i < mFonts.Length(); ++i) {
            gfxFont* font = mFonts[i];
            if (font->GetFontEntry()->mIsBadUnderlineFont) {
                gfxFloat first = mFonts[0]->GetMetrics().underlineOffset;
                gfxFloat bad = font->GetMetrics().underlineOffset;
                mUnderlineOffset = NS_MIN(first, bad);
                break;
            }
        }
    }
#endif
}

bool
gfxFontGroup::FindPlatformFont(const nsAString& aName,
                               const nsACString& aGenericName,
                               bool aUseFontSet,
                               void *aClosure)
{
    gfxFontGroup *fontGroup = static_cast<gfxFontGroup*>(aClosure);
    const gfxFontStyle *fontStyle = fontGroup->GetStyle();

    bool needsBold;
    gfxFontEntry *fe = nsnull;

    bool foundFamily = false;
    if (aUseFontSet) {
        // First, look up in the user font set...
        // If the fontSet matches the family, we must not look for a platform
        // font of the same name, even if we fail to actually get a fontEntry
        // here; we'll fall back to the next name in the CSS font-family list.
        gfxUserFontSet *fs = fontGroup->GetUserFontSet();
        if (fs) {
            // If the fontSet matches the family, but the font has not yet finished
            // loading (nor has its load timeout fired), the fontGroup should wait
            // for the download, and not actually draw its text yet.
            bool waitForUserFont = false;
            fe = fs->FindFontEntry(aName, *fontStyle, foundFamily,
                                   needsBold, waitForUserFont);
            if (!fe && waitForUserFont) {
                fontGroup->mSkipDrawing = true;
            }
        }
    }

    // Not known in the user font set ==> check system fonts
    if (!foundFamily) {
        fe = gfxPlatformFontList::PlatformFontList()->
            FindFontForFamily(aName, fontStyle, needsBold);
    }

    // add to the font group, unless it's already there
    if (fe && !fontGroup->HasFont(fe)) {
        nsRefPtr<gfxFont> font = fe->FindOrMakeFont(fontStyle, needsBold);
        if (font) {
            fontGroup->mFonts.AppendElement(font);
        }
    }

    return true;
}

bool
gfxFontGroup::HasFont(const gfxFontEntry *aFontEntry)
{
    for (PRUint32 i = 0; i < mFonts.Length(); ++i) {
        if (mFonts.ElementAt(i)->GetFontEntry() == aFontEntry)
            return true;
    }
    return false;
}

gfxFontGroup::~gfxFontGroup() {
    mFonts.Clear();
    SetUserFontSet(nsnull);
}

gfxFontGroup *
gfxFontGroup::Copy(const gfxFontStyle *aStyle)
{
    return new gfxFontGroup(mFamilies, aStyle, mUserFontSet);
}

bool 
gfxFontGroup::IsInvalidChar(PRUnichar ch) {
    if (ch >= 32) {
        return ch == 0x0085/*NEL*/ ||
            ((ch & 0xFF00) == 0x2000 /* Unicode control character */ &&
             (ch == 0x200B/*ZWSP*/ || ch == 0x2028/*LSEP*/ || ch == 0x2029/*PSEP*/ ||
              IS_BIDI_CONTROL_CHAR(ch)));
    }
    // We could just blacklist all control characters, but it seems better
    // to only blacklist the ones we know cause problems for native font
    // engines.
    return ch == 0x0B || ch == '\t' || ch == '\r' || ch == '\n' || ch == '\f' ||
        (ch >= 0x1c && ch <= 0x1f);
}

bool
gfxFontGroup::ForEachFont(FontCreationCallback fc,
                          void *closure)
{
    return ForEachFontInternal(mFamilies, mStyle.language,
                               true, true, true, fc, closure);
}

bool
gfxFontGroup::ForEachFont(const nsAString& aFamilies,
                          nsIAtom *aLanguage,
                          FontCreationCallback fc,
                          void *closure)
{
    return ForEachFontInternal(aFamilies, aLanguage,
                               false, true, true, fc, closure);
}

struct ResolveData {
    ResolveData(gfxFontGroup::FontCreationCallback aCallback,
                nsACString& aGenericFamily,
                bool aUseFontSet,
                void *aClosure) :
        mCallback(aCallback),
        mGenericFamily(aGenericFamily),
        mUseFontSet(aUseFontSet),
        mClosure(aClosure) {
    }
    gfxFontGroup::FontCreationCallback mCallback;
    nsCString mGenericFamily;
    bool mUseFontSet;
    void *mClosure;
};

bool
gfxFontGroup::ForEachFontInternal(const nsAString& aFamilies,
                                  nsIAtom *aLanguage,
                                  bool aResolveGeneric,
                                  bool aResolveFontName,
                                  bool aUseFontSet,
                                  FontCreationCallback fc,
                                  void *closure)
{
    const PRUnichar kSingleQuote  = PRUnichar('\'');
    const PRUnichar kDoubleQuote  = PRUnichar('\"');
    const PRUnichar kComma        = PRUnichar(',');

    nsIAtom *groupAtom = nsnull;
    nsCAutoString groupString;
    if (aLanguage) {
        if (!gLangService) {
            CallGetService(NS_LANGUAGEATOMSERVICE_CONTRACTID, &gLangService);
        }
        if (gLangService) {
            nsresult rv;
            groupAtom = gLangService->GetLanguageGroup(aLanguage, &rv);
        }
    }
    if (!groupAtom) {
        groupAtom = gfxAtoms::x_unicode;
    }
    groupAtom->ToUTF8String(groupString);

    nsPromiseFlatString families(aFamilies);
    const PRUnichar *p, *p_end;
    families.BeginReading(p);
    families.EndReading(p_end);
    nsAutoString family;
    nsCAutoString lcFamily;
    nsAutoString genericFamily;

    while (p < p_end) {
        while (nsCRT::IsAsciiSpace(*p) || *p == kComma)
            if (++p == p_end)
                return true;

        bool generic;
        if (*p == kSingleQuote || *p == kDoubleQuote) {
            // quoted font family
            PRUnichar quoteMark = *p;
            if (++p == p_end)
                return true;
            const PRUnichar *nameStart = p;

            // XXX What about CSS character escapes?
            while (*p != quoteMark)
                if (++p == p_end)
                    return true;

            family = Substring(nameStart, p);
            generic = false;
            genericFamily.SetIsVoid(true);

            while (++p != p_end && *p != kComma)
                /* nothing */ ;

        } else {
            // unquoted font family
            const PRUnichar *nameStart = p;
            while (++p != p_end && *p != kComma)
                /* nothing */ ;

            family = Substring(nameStart, p);
            family.CompressWhitespace(false, true);

            if (aResolveGeneric &&
                (family.LowerCaseEqualsLiteral("serif") ||
                 family.LowerCaseEqualsLiteral("sans-serif") ||
                 family.LowerCaseEqualsLiteral("monospace") ||
                 family.LowerCaseEqualsLiteral("cursive") ||
                 family.LowerCaseEqualsLiteral("fantasy")))
            {
                generic = true;

                ToLowerCase(NS_LossyConvertUTF16toASCII(family), lcFamily);

                nsCAutoString prefName("font.name.");
                prefName.Append(lcFamily);
                prefName.AppendLiteral(".");
                prefName.Append(groupString);

                nsAdoptingString value = Preferences::GetString(prefName.get());
                if (value) {
                    CopyASCIItoUTF16(lcFamily, genericFamily);
                    family = value;
                }
            } else {
                generic = false;
                genericFamily.SetIsVoid(true);
            }
        }

        NS_LossyConvertUTF16toASCII gf(genericFamily);
        if (generic) {
            ForEachFontInternal(family, groupAtom, false,
                                aResolveFontName, false,
                                fc, closure);
        } else if (!family.IsEmpty()) {
            if (aResolveFontName) {
                ResolveData data(fc, gf, aUseFontSet, closure);
                bool aborted = false, needsBold;
                nsresult rv = NS_OK;
                bool foundFamily = false;
                bool waitForUserFont = false;
                if (aUseFontSet && mUserFontSet &&
                    mUserFontSet->FindFontEntry(family, mStyle, foundFamily,
                                                needsBold, waitForUserFont))
                {
                    gfxFontGroup::FontResolverProc(family, &data);
                } else {
                    if (waitForUserFont) {
                        mSkipDrawing = true;
                    }
                    if (!foundFamily) {
                        gfxPlatform *pf = gfxPlatform::GetPlatform();
                        rv = pf->ResolveFontName(family,
                                                 gfxFontGroup::FontResolverProc,
                                                 &data, aborted);
                    }
                }
                if (NS_FAILED(rv) || aborted)
                    return false;
            }
            else {
                if (!fc(family, gf, aUseFontSet, closure))
                    return false;
            }
        }

        if (generic && aResolveGeneric) {
            nsCAutoString prefName("font.name-list.");
            prefName.Append(lcFamily);
            prefName.AppendLiteral(".");
            prefName.Append(groupString);
            nsAdoptingString value = Preferences::GetString(prefName.get());
            if (value) {
                ForEachFontInternal(value, groupAtom, false,
                                    aResolveFontName, false,
                                    fc, closure);
            }
        }

        ++p; // may advance past p_end
    }

    return true;
}

bool
gfxFontGroup::FontResolverProc(const nsAString& aName, void *aClosure)
{
    ResolveData *data = reinterpret_cast<ResolveData*>(aClosure);
    return (data->mCallback)(aName, data->mGenericFamily, data->mUseFontSet,
                             data->mClosure);
}

gfxTextRun *
gfxFontGroup::MakeEmptyTextRun(const Parameters *aParams, PRUint32 aFlags)
{
    aFlags |= TEXT_IS_8BIT | TEXT_IS_ASCII | TEXT_IS_PERSISTENT;
    return gfxTextRun::Create(aParams, nsnull, 0, this, aFlags);
}

gfxTextRun *
gfxFontGroup::MakeSpaceTextRun(const Parameters *aParams, PRUint32 aFlags)
{
    aFlags |= TEXT_IS_8BIT | TEXT_IS_ASCII | TEXT_IS_PERSISTENT;
    static const PRUint8 space = ' ';

    nsAutoPtr<gfxTextRun> textRun;
    textRun = gfxTextRun::Create(aParams, &space, 1, this, aFlags);
    if (!textRun)
        return nsnull;

    gfxFont *font = GetFontAt(0);
    if (NS_UNLIKELY(GetStyle()->size == 0)) {
        // Short-circuit for size-0 fonts, as Windows and ATSUI can't handle
        // them, and always create at least size 1 fonts, i.e. they still
        // render something for size 0 fonts.
        textRun->AddGlyphRun(font, gfxTextRange::kFontGroup, 0, false);
    }
    else {
        textRun->SetSpaceGlyph(font, aParams->mContext, 0);
    }
    // Note that the gfxGlyphExtents glyph bounds storage for the font will
    // always contain an entry for the font's space glyph, so we don't have
    // to call FetchGlyphExtents here.
    return textRun.forget();
}

#define UNICODE_LRO 0x202d
#define UNICODE_RLO 0x202e
#define UNICODE_PDF 0x202c

inline void
AppendDirectionalIndicatorStart(PRUint32 aFlags, nsAString& aString)
{
    static const PRUnichar overrides[2] = { UNICODE_LRO, UNICODE_RLO };
    aString.Append(overrides[(aFlags & gfxTextRunFactory::TEXT_IS_RTL) != 0]);    
    aString.Append(' ');
}

inline void
AppendDirectionalIndicatorEnd(bool aNeedDirection, nsAString& aString)
{
    // append a space (always, for consistent treatment of last char,
    // and a direction control if required (we skip this for 8-bit text,
    // which is known to be unidirectional LTR, unless the direction was
    // forced RTL via overrides)
    aString.Append(' ');
    if (!aNeedDirection)
        return;

    aString.Append('.');
    aString.Append(UNICODE_PDF);
}

gfxTextRun *
gfxFontGroup::MakeTextRun(const PRUint8 *aString, PRUint32 aLength,
                          const Parameters *aParams, PRUint32 aFlags)
{
    NS_ASSERTION(aLength > 0, "should use MakeEmptyTextRun for zero-length text");
    NS_ASSERTION(aFlags & TEXT_IS_8BIT, "should be marked 8bit");
    gfxTextRun *textRun = gfxTextRun::Create(aParams, aString, aLength, this, aFlags);
    if (!textRun)
        return nsnull;

    nsDependentCSubstring cString(reinterpret_cast<const char*>(aString),
                                  reinterpret_cast<const char*>(aString) + aLength);

    nsAutoString utf16;
    AppendASCIItoUTF16(cString, utf16);

    InitTextRun(aParams->mContext, textRun, utf16.get(), utf16.Length());

    textRun->FetchGlyphExtents(aParams->mContext);

    return textRun;
}

gfxTextRun *
gfxFontGroup::MakeTextRun(const PRUnichar *aString, PRUint32 aLength,
                          const Parameters *aParams, PRUint32 aFlags)
{
    NS_ASSERTION(aLength > 0, "should use MakeEmptyTextRun for zero-length text");
    gfxTextRun *textRun = gfxTextRun::Create(aParams, aString, aLength, this, aFlags);
    if (!textRun)
        return nsnull;

    gfxPlatform::GetPlatform()->SetupClusterBoundaries(textRun, aString);

    InitTextRun(aParams->mContext, textRun, aString, aLength);

    textRun->FetchGlyphExtents(aParams->mContext);

    return textRun;
}

void
gfxFontGroup::InitTextRun(gfxContext *aContext,
                          gfxTextRun *aTextRun,
                          const PRUnichar *aString,
                          PRUint32 aLength)
{
    // split into script runs so that script can potentially influence
    // the font matching process below
    gfxScriptItemizer scriptRuns(aString, aLength);

#ifdef PR_LOGGING
    PRLogModuleInfo *log = (mStyle.systemFont ?
                            gfxPlatform::GetLog(eGfxLog_textrunui) :
                            gfxPlatform::GetLog(eGfxLog_textrun));
#endif

    PRUint32 runStart = 0, runLimit = aLength;
    PRInt32 runScript = HB_SCRIPT_LATIN;
    while (scriptRuns.Next(runStart, runLimit, runScript)) {

#ifdef PR_LOGGING
        if (NS_UNLIKELY(log)) {
            nsCAutoString lang;
            mStyle.language->ToUTF8String(lang);
            PRUint32 runLen = runLimit - runStart;
            PR_LOG(log, PR_LOG_DEBUG,\
                   ("(%s) fontgroup: [%s] lang: %s script: %d len %d "
                    "weight: %d width: %d style: %s "
                    "TEXTRUN [%s] ENDTEXTRUN\n",
                    (mStyle.systemFont ? "textrunui" : "textrun"),
                    NS_ConvertUTF16toUTF8(mFamilies).get(),
                    lang.get(), runScript, runLen,
                    PRUint32(mStyle.weight), PRUint32(mStyle.stretch),
                    (mStyle.style & FONT_STYLE_ITALIC ? "italic" :
                    (mStyle.style & FONT_STYLE_OBLIQUE ? "oblique" :
                                                            "normal")),
                    NS_ConvertUTF16toUTF8(aString + runStart, runLen).get()));
        }
#endif

        InitScriptRun(aContext, aTextRun, aString, aLength,
                      runStart, runLimit, runScript);
    }

    // It's possible for CoreText to omit glyph runs if it decides they contain
    // only invisibles (e.g., U+FEFF, see reftest 474417-1). In this case, we
    // need to eliminate them from the glyph run array to avoid drawing "partial
    // ligatures" with the wrong font.
    // We don't do this during InitScriptRun (or gfxFont::InitTextRun) because
    // it will iterate back over all glyphruns in the textrun, which leads to
    // pathologically-bad perf in the case where a textrun contains many script
    // changes (see bug 680402) - we'd end up re-sanitizing all the earlier runs
    // every time a new script subrun is processed.
    aTextRun->SanitizeGlyphRuns();

    aTextRun->SortGlyphRuns();
}

void
gfxFontGroup::InitScriptRun(gfxContext *aContext,
                            gfxTextRun *aTextRun,
                            const PRUnichar *aString,
                            PRUint32 aTotalLength,
                            PRUint32 aScriptRunStart,
                            PRUint32 aScriptRunEnd,
                            PRInt32 aRunScript)
{
    gfxFont *mainFont = mFonts[0].get();

    PRUint32 runStart = aScriptRunStart;
    nsAutoTArray<gfxTextRange,3> fontRanges;
    ComputeRanges(fontRanges, aString,
                  aScriptRunStart, aScriptRunEnd, aRunScript);
    PRUint32 numRanges = fontRanges.Length();

    for (PRUint32 r = 0; r < numRanges; r++) {
        const gfxTextRange& range = fontRanges[r];
        PRUint32 matchedLength = range.Length();
        gfxFont *matchedFont = (range.font ? range.font.get() : nsnull);

        // create the glyph run for this range
        if (matchedFont) {
            aTextRun->AddGlyphRun(matchedFont, range.matchType,
                                  runStart, (matchedLength > 0));
        } else {
            aTextRun->AddGlyphRun(mainFont, gfxTextRange::kFontGroup,
                                  runStart, (matchedLength > 0));
        }
        if (matchedFont) {
            // do glyph layout and record the resulting positioned glyphs
            if (!matchedFont->SplitAndInitTextRun(aContext, aTextRun, aString,
                                                  runStart, matchedLength,
                                                  aRunScript)) {
                // glyph layout failed! treat as missing glyphs
                matchedFont = nsnull;
            }
        }
        if (!matchedFont) {
            for (PRUint32 index = runStart; index < runStart + matchedLength; index++) {
                // Record the char code so we can draw a box with the Unicode value
                PRUint32 ch = aString[index];
                if (NS_IS_HIGH_SURROGATE(ch) &&
                    index + 1 < aScriptRunEnd &&
                    NS_IS_LOW_SURROGATE(aString[index+1])) {
                    aTextRun->SetMissingGlyph(index,
                                              SURROGATE_TO_UCS4(aString[index],
                                                                aString[index+1]));
                    index++;
                } else {
                    gfxFloat wid = mainFont->SynthesizeSpaceWidth(ch);
                    if (wid >= 0.0) {
                        nscoord advance =
                            aTextRun->GetAppUnitsPerDevUnit() * floor(wid + 0.5);
                        gfxTextRun::CompressedGlyph g;
                        if (gfxTextRun::CompressedGlyph::IsSimpleAdvance(advance)) {
                            aTextRun->SetSimpleGlyph(index,
                                                     g.SetSimpleGlyph(advance,
                                                         mainFont->GetSpaceGlyph()));
                        } else {
                            gfxTextRun::DetailedGlyph detailedGlyph;
                            detailedGlyph.mGlyphID = mainFont->GetSpaceGlyph();
                            detailedGlyph.mAdvance = advance;
                            detailedGlyph.mXOffset = detailedGlyph.mYOffset = 0;
                            g.SetComplex(true, true, 1);
                            aTextRun->SetGlyphs(index,
                                                g, &detailedGlyph);
                        }
                    } else {
                        aTextRun->SetMissingGlyph(index, ch);
                    }
                }
            }
        }

        runStart += matchedLength;
    }
}


already_AddRefed<gfxFont>
gfxFontGro