static inline std::pair<GlyphData, GlyphPage*> glyphDataAndPageForNonCJKCharacterWithGlyphOrientation(UChar32 character, NonCJKGlyphOrientation orientation, GlyphData& data, GlyphPage* page, unsigned pageNumber)
{
if (orientation == NonCJKGlyphOrientationUpright || shouldIgnoreRotation(character)) {
RefPtr<SimpleFontData> uprightFontData = data.fontData->uprightOrientationFontData();
GlyphPageTreeNode* uprightNode = GlyphPageTreeNode::getRootChild(uprightFontData.get(), pageNumber);
GlyphPage* uprightPage = uprightNode->page();
if (uprightPage) {
GlyphData uprightData = uprightPage->glyphDataForCharacter(character);
// If the glyphs are the same, then we know we can just use the horizontal glyph rotated vertically to be upright.
if (data.glyph == uprightData.glyph)
return std::make_pair(data, page);
// The glyphs are distinct, meaning that the font has a vertical-right glyph baked into it. We can't use that
// glyph, so we fall back to the upright data and use the horizontal glyph.
if (uprightData.fontData)
return std::make_pair(uprightData, uprightPage);
}
} else if (orientation == NonCJKGlyphOrientationVerticalRight) {
RefPtr<SimpleFontData> verticalRightFontData = data.fontData->verticalRightOrientationFontData();
GlyphPageTreeNode* verticalRightNode = GlyphPageTreeNode::getRootChild(verticalRightFontData.get(), pageNumber);
GlyphPage* verticalRightPage = verticalRightNode->page();
if (verticalRightPage) {
GlyphData verticalRightData = verticalRightPage->glyphDataForCharacter(character);
// If the glyphs are distinct, we will make the assumption that the font has a vertical-right glyph baked
// into it.
if (data.glyph != verticalRightData.glyph)
return std::make_pair(data, page);
// The glyphs are identical, meaning that we should just use the horizontal glyph.
if (verticalRightData.fontData)
return std::make_pair(verticalRightData, verticalRightPage);
}
}
return std::make_pair(data, page);
}
void SimpleFontData::platformInit()
{
FS_FIXED ascender = 0;
FS_FIXED descender = 0;
FS_FIXED leading = 0;
FsAscDescLeadSource source;
FS_LONG result;
if (m_platformData.size() > 0) {
// FIXME: hack! FS_get_ascender_descender_leading() returns ERR_NO_CURRENT_SFNT when size is 0, even though we called FS_set_scale and m_platformData.font()->cur_sfnt is not 0
result = FS_get_ascender_descender_leading(m_platformData.font(), &ascender, &descender, &leading, &source);
ASSERT_UNUSED(result, result == SUCCESS);
}
m_fontMetrics.setAscent(FS_ROUND(ascender));
m_fontMetrics.setDescent(FS_ROUND(descender));
m_fontMetrics.setLineGap(iTypeFixedToFloat(leading));
m_fontMetrics.setLineSpacing(lroundf(m_fontMetrics.ascent()) + lroundf(m_fontMetrics.descent()) + lroundf(m_fontMetrics.lineGap()));
FONT_METRICS metrics;
result = FS_font_metrics(m_platformData.font(), &metrics);
ASSERT_UNUSED(result, result == SUCCESS);
// m_fontMetrics.setUnitsPerEm(FS_get_design_units(m_platformData().font()));
m_fontMetrics.setUnitsPerEm(metrics.unitsPerEm);
FS_USHORT xRange = metrics.font_bbox.xMax - metrics.font_bbox.xMin;
m_maxCharWidth = roundf((xRange * roundf(m_platformData.size())) / metrics.unitsPerEm);
TTF_OS2 os2;
if (FS_get_table_structure(m_platformData.font(), TAG_OS2, &os2) == SUCCESS && os2.sxHeight && os2.xAvgCharWidth) {
FS_USHORT yppem = m_platformData.font()->lpm;
m_fontMetrics.setXHeight(static_cast<float>(os2.sxHeight) * yppem / metrics.unitsPerEm);
m_avgCharWidth = static_cast<float>(os2.xAvgCharWidth) * yppem / metrics.unitsPerEm;
} else {
// HACK
m_fontMetrics.setXHeight(m_fontMetrics.ascent() * 0.56);
m_fontMetrics.setHasXHeight(false);
m_avgCharWidth = m_fontMetrics.xHeight();
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (glyphPageZero) {
static const UChar32 xChar = 'x';
const Glyph xGlyph = glyphPageZero->glyphDataForCharacter(xChar).glyph;
if (xGlyph) {
// In widthForGlyph(), xGlyph will be compared with
// m_zeroWidthSpaceGlyph, which isn't initialized yet here.
// Initialize it with zero to make sure widthForGlyph() returns
// the right width.
m_zeroWidthSpaceGlyph = 0;
m_avgCharWidth = widthForGlyph(xGlyph);
}
}
}
if (m_platformData.orientation() == Vertical && !isTextOrientationFallback())
m_hasVerticalGlyphs = FS_get_table(m_platformData.font(), openTypeTag('v', 'h', 'e', 'a'), TBL_QUERY, 0)
|| FS_get_table(m_platformData.font(), openTypeTag('V', 'O', 'R', 'G'), TBL_QUERY, 0);
}
FontData::FontData(const FontPlatformData& f)
: m_font(f)
, m_treatAsFixedPitch(false)
, m_smallCapsFontData(0)
{
platformInit();
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (!glyphPageZero) {
LOG_ERROR("Failed to get glyph page zero.");
m_spaceGlyph = 0;
m_spaceWidth = 0;
m_adjustedSpaceWidth = 0;
determinePitch();
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
return;
}
// Nasty hack to determine if we should round or ceil space widths.
// If the font is monospace or fake monospace we ceil to ensure that
// every character and the space are the same width. Otherwise we round.
m_spaceGlyph = glyphPageZero->glyphDataForCharacter(' ').glyph;
float width = widthForGlyph(m_spaceGlyph);
m_spaceWidth = width;
determinePitch();
m_adjustedSpaceWidth = m_treatAsFixedPitch ? ceilf(width) : roundf(width);
// Force the glyph for ZERO WIDTH SPACE to have zero width, unless it is shared with SPACE.
// Helvetica is an example of a non-zero width ZERO WIDTH SPACE glyph.
// See <http://bugs.webkit.org/show_bug.cgi?id=13178>
// Ask for the glyph for 0 to avoid paging in ZERO WIDTH SPACE. Control characters, including 0,
// are mapped to the ZERO WIDTH SPACE glyph.
Glyph zeroWidthSpaceGlyph = glyphPageZero->glyphDataForCharacter(0).glyph;
if (zeroWidthSpaceGlyph) {
if (zeroWidthSpaceGlyph != m_spaceGlyph)
m_glyphToWidthMap.setWidthForGlyph(zeroWidthSpaceGlyph, 0);
else
LOG_ERROR("Font maps SPACE and ZERO WIDTH SPACE to the same glyph. Glyph width not overridden.");
}
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
}
static inline std::pair<GlyphData, GlyphPage*> glyphDataAndPageForCJKCharacterWithoutSyntheticItalic(UChar32 character, GlyphData& data, GlyphPage* page, unsigned pageNumber)
{
RefPtr<SimpleFontData> nonItalicFontData = data.fontData->nonSyntheticItalicFontData();
GlyphPageTreeNode* nonItalicNode = GlyphPageTreeNode::getRootChild(nonItalicFontData.get(), pageNumber);
GlyphPage* nonItalicPage = nonItalicNode->page();
if (nonItalicPage) {
GlyphData nonItalicData = nonItalicPage->glyphDataForCharacter(character);
if (nonItalicData.fontData)
return std::make_pair(nonItalicData, nonItalicPage);
}
return std::make_pair(data, page);
}
void SimpleFontData::platformInit()
{
m_syntheticBoldOffset = m_platformData.syntheticBold() ? 1.0f : 0.f;
m_scriptCache = 0;
m_scriptFontProperties = 0;
m_isSystemFont = false;
if (m_platformData.useGDI())
return initGDIFont();
CGFontRef font = m_platformData.cgFont();
int iAscent = CGFontGetAscent(font);
int iDescent = CGFontGetDescent(font);
int iLineGap = CGFontGetLeading(font);
unsigned unitsPerEm = CGFontGetUnitsPerEm(font);
float pointSize = m_platformData.size();
float fAscent = scaleEmToUnits(iAscent, unitsPerEm) * pointSize;
float fDescent = -scaleEmToUnits(iDescent, unitsPerEm) * pointSize;
float fLineGap = scaleEmToUnits(iLineGap, unitsPerEm) * pointSize;
if (!isCustomFont()) {
HDC dc = GetDC(0);
HGDIOBJ oldFont = SelectObject(dc, m_platformData.hfont());
int faceLength = GetTextFace(dc, 0, 0);
Vector<WCHAR> faceName(faceLength);
GetTextFace(dc, faceLength, faceName.data());
m_isSystemFont = !wcscmp(faceName.data(), L"Lucida Grande");
SelectObject(dc, oldFont);
ReleaseDC(0, dc);
fAscent = ascentConsideringMacAscentHack(faceName.data(), fAscent, fDescent);
}
m_fontMetrics.setAscent(fAscent);
m_fontMetrics.setDescent(fDescent);
m_fontMetrics.setLineGap(fLineGap);
m_fontMetrics.setLineSpacing(lroundf(fAscent) + lroundf(fDescent) + lroundf(fLineGap));
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
Glyph xGlyph = glyphPageZero ? glyphPageZero->glyphDataForCharacter('x').glyph : 0;
if (xGlyph) {
// Measure the actual character "x", since it's possible for it to extend below the baseline, and we need the
// reported x-height to only include the portion of the glyph that is above the baseline.
CGRect xBox;
CGFontGetGlyphBBoxes(font, &xGlyph, 1, &xBox);
m_fontMetrics.setXHeight(scaleEmToUnits(CGRectGetMaxY(xBox), unitsPerEm) * pointSize);
} else {
int iXHeight = CGFontGetXHeight(font);
m_fontMetrics.setXHeight(scaleEmToUnits(iXHeight, unitsPerEm) * pointSize);
}
m_fontMetrics.setUnitsPerEm(unitsPerEm);
}
void SimpleFontData::platformInit()
{
SkPaint paint;
SkPaint::FontMetrics metrics;
m_font.setupPaint(&paint);
paint.getFontMetrics(&metrics);
// Beware those who step here: This code is designed to match Win32 font
// metrics *exactly*.
if (metrics.fVDMXMetricsValid) {
m_ascent = metrics.fVDMXAscent;
m_descent = metrics.fVDMXDescent;
} else {
m_ascent = SkScalarRound(-metrics.fAscent);
m_descent = SkScalarRound(metrics.fHeight) - m_ascent;
}
if (metrics.fXHeight)
m_xHeight = metrics.fXHeight;
else {
// hack taken from the Windows port
m_xHeight = static_cast<float>(m_ascent) * 0.56;
}
m_lineGap = SkScalarRound(metrics.fLeading);
m_lineSpacing = m_ascent + m_descent + m_lineGap;
// In WebKit/WebCore/platform/graphics/SimpleFontData.cpp, m_spaceWidth is
// calculated for us, but we need to calculate m_maxCharWidth and
// m_avgCharWidth in order for text entry widgets to be sized correctly.
m_maxCharWidth = SkScalarRound(metrics.fXRange * SkScalarRound(m_font.size()));
if (metrics.fAvgCharWidth)
m_avgCharWidth = SkScalarRound(metrics.fAvgCharWidth);
else {
m_avgCharWidth = m_xHeight;
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (glyphPageZero) {
static const UChar32 x_char = 'x';
const Glyph xGlyph = glyphPageZero->glyphDataForCharacter(x_char).glyph;
if (xGlyph)
m_avgCharWidth = widthForGlyph(xGlyph);
}
}
}
void SimpleFontData::platformGlyphInit()
{
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (!glyphPageZero) {
LOG_ERROR("Failed to get glyph page zero.");
m_spaceGlyph = 0;
m_spaceWidth = 0;
determinePitch();
m_zeroWidthSpaceGlyph = 0;
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
return;
}
m_zeroWidthSpaceGlyph = glyphPageZero->glyphDataForCharacter(0).glyph;
// Nasty hack to determine if we should round or ceil space widths.
// If the font is monospace or fake monospace we ceil to ensure that
// every character and the space are the same width. Otherwise we round.
m_spaceGlyph = glyphPageZero->glyphDataForCharacter(' ').glyph;
float width = widthForGlyph(m_spaceGlyph);
m_spaceWidth = width;
determinePitch();
// Force the glyph for ZERO WIDTH SPACE to have zero width, unless it is shared with SPACE.
// Helvetica is an example of a non-zero width ZERO WIDTH SPACE glyph.
// See <http://bugs.webkit.org/show_bug.cgi?id=13178>
// Ask for the glyph for 0 to avoid paging in ZERO WIDTH SPACE. Control characters, including 0,
// are mapped to the ZERO WIDTH SPACE glyph.
if (m_zeroWidthSpaceGlyph == m_spaceGlyph) {
m_zeroWidthSpaceGlyph = 0;
LOG_ERROR("Font maps SPACE and ZERO WIDTH SPACE to the same glyph. Glyph width will not be overridden.");
}
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
}
// Estimates of avgCharWidth and maxCharWidth for platforms that don't support accessing these values from the font.
void SimpleFontData::initCharWidths()
{
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
// Treat the width of a '0' as the avgCharWidth.
if (m_avgCharWidth <= 0.f && glyphPageZero) {
static const UChar32 digitZeroChar = '0';
Glyph digitZeroGlyph = glyphPageZero->glyphDataForCharacter(digitZeroChar).glyph;
if (digitZeroGlyph)
m_avgCharWidth = widthForGlyph(digitZeroGlyph);
}
// If we can't retrieve the width of a '0', fall back to the x height.
if (m_avgCharWidth <= 0.f)
m_avgCharWidth = m_fontMetrics.xHeight();
if (m_maxCharWidth <= 0.f)
m_maxCharWidth = max(m_avgCharWidth, m_fontMetrics.floatAscent());
}
void SimpleFontData::platformInit()
{
if (!m_platformData.size()) {
m_fontMetrics.reset();
m_avgCharWidth = 0;
m_maxCharWidth = 0;
return;
}
SkPaint paint;
SkPaint::FontMetrics metrics;
m_platformData.setupPaint(&paint);
paint.getFontMetrics(&metrics);
const SkFontID fontID = m_platformData.uniqueID();
static const uint32_t vdmxTag = SkSetFourByteTag('V', 'D', 'M', 'X');
int pixelSize = m_platformData.size() + 0.5;
int vdmxAscent, vdmxDescent;
bool isVDMXValid = false;
size_t vdmxSize = SkFontHost::GetTableSize(fontID, vdmxTag);
if (vdmxSize && vdmxSize < maxVDMXTableSize) {
uint8_t* vdmxTable = (uint8_t*) fastMalloc(vdmxSize);
if (vdmxTable
&& SkFontHost::GetTableData(fontID, vdmxTag, 0, vdmxSize, vdmxTable) == vdmxSize
&& parseVDMX(&vdmxAscent, &vdmxDescent, vdmxTable, vdmxSize, pixelSize))
isVDMXValid = true;
fastFree(vdmxTable);
}
float ascent;
float descent;
// Beware those who step here: This code is designed to match Win32 font
// metrics *exactly*.
if (isVDMXValid) {
ascent = vdmxAscent;
descent = -vdmxDescent;
} else {
SkScalar height = -metrics.fAscent + metrics.fDescent + metrics.fLeading;
ascent = SkScalarRound(-metrics.fAscent);
descent = SkScalarRound(height) - ascent;
}
m_fontMetrics.setAscent(ascent);
m_fontMetrics.setDescent(descent);
float xHeight;
if (metrics.fXHeight)
xHeight = metrics.fXHeight;
else {
// hack taken from the Windows port
xHeight = ascent * 0.56f;
}
float lineGap = SkScalarToFloat(metrics.fLeading);
m_fontMetrics.setLineGap(lineGap);
m_fontMetrics.setXHeight(xHeight);
m_fontMetrics.setLineSpacing(lroundf(ascent) + lroundf(descent) + lroundf(lineGap));
if (platformData().orientation() == Vertical && !isTextOrientationFallback()) {
static const uint32_t vheaTag = SkSetFourByteTag('v', 'h', 'e', 'a');
static const uint32_t vorgTag = SkSetFourByteTag('V', 'O', 'R', 'G');
size_t vheaSize = SkFontHost::GetTableSize(fontID, vheaTag);
size_t vorgSize = SkFontHost::GetTableSize(fontID, vorgTag);
if ((vheaSize > 0) || (vorgSize > 0))
m_hasVerticalGlyphs = true;
}
// In WebKit/WebCore/platform/graphics/SimpleFontData.cpp, m_spaceWidth is
// calculated for us, but we need to calculate m_maxCharWidth and
// m_avgCharWidth in order for text entry widgets to be sized correctly.
SkScalar xRange = metrics.fXMax - metrics.fXMin;
m_maxCharWidth = SkScalarRound(xRange * SkScalarRound(m_platformData.size()));
if (metrics.fAvgCharWidth)
m_avgCharWidth = SkScalarRound(metrics.fAvgCharWidth);
else {
m_avgCharWidth = xHeight;
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (glyphPageZero) {
static const UChar32 x_char = 'x';
const Glyph xGlyph = glyphPageZero->glyphDataForCharacter(x_char).glyph;
if (xGlyph)
m_avgCharWidth = widthForGlyph(xGlyph);
}
}
}
const GlyphData& Font::glyphDataForCharacter(UChar32 c, bool mirror, bool forceSmallCaps) const
{
bool useSmallCapsFont = forceSmallCaps;
if (m_fontDescription.smallCaps()) {
UChar32 upperC = Unicode::toUpper(c);
if (upperC != c) {
c = upperC;
useSmallCapsFont = true;
}
}
if (mirror)
c = mirroredChar(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_pages.get(pageNumber) : m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(fontDataAt(0), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
GlyphPage* page;
if (!useSmallCapsFont) {
// Fastest loop, for the common case (not small caps).
while (true) {
page = node->page();
if (page) {
const GlyphData& data = page->glyphDataForCharacter(c);
if (data.fontData)
return data;
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
} else {
while (true) {
page = node->page();
if (page) {
const GlyphData& data = page->glyphDataForCharacter(c);
if (data.fontData) {
// The smallCapsFontData function should not normally return 0.
// But if it does, we will just render the capital letter big.
const SimpleFontData* smallCapsFontData = data.fontData->smallCapsFontData(m_fontDescription);
if (!smallCapsFontData)
return data;
GlyphPageTreeNode* smallCapsNode = GlyphPageTreeNode::getRootChild(smallCapsFontData, pageNumber);
const GlyphPage* smallCapsPage = smallCapsNode->page();
if (smallCapsPage) {
const GlyphData& data = smallCapsPage->glyphDataForCharacter(c);
if (data.fontData)
return data;
}
// Do not attempt system fallback off the smallCapsFontData. This is the very unlikely case that
// a font has the lowercase character but the small caps font does not have its uppercase version.
return smallCapsFontData->missingGlyphData();
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
}
ASSERT(page);
ASSERT(node->isSystemFallback());
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
UChar codeUnits[2];
int codeUnitsLength;
if (c <= 0xFFFF) {
UChar c16 = c;
if (Font::treatAsSpace(c16))
codeUnits[0] = ' ';
else if (Font::treatAsZeroWidthSpace(c16))
codeUnits[0] = zeroWidthSpace;
else
codeUnits[0] = c16;
codeUnitsLength = 1;
} else {
codeUnits[0] = U16_LEAD(c);
codeUnits[1] = U16_TRAIL(c);
codeUnitsLength = 2;
}
const SimpleFontData* characterFontData = FontCache::getFontDataForCharacters(*this, codeUnits, codeUnitsLength);
if (useSmallCapsFont)
characterFontData = characterFontData->smallCapsFontData(m_fontDescription);
if (characterFontData) {
// Got the fallback glyph and font.
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData, pageNumber)->page();
const GlyphData& data = fallbackPage && fallbackPage->glyphDataForCharacter(c).fontData ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
// Cache it so we don't have to do system fallback again next time.
if (!useSmallCapsFont)
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
return data;
}
// Even system fallback can fail; use the missing glyph in that case.
// FIXME: It would be nicer to use the missing glyph from the last resort font instead.
const GlyphData& data = primaryFont()->missingGlyphData();
if (!useSmallCapsFont)
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
return data;
}
// FIXME: It is unfortunate that this function needs to be passed the original cluster.
// It is only required for the platform's FontCache::getFontDataForCharacters(), and it means
// that this function is not correct if it transforms the character to uppercase and calls
// FontCache::getFontDataForCharacters() afterwards.
const GlyphData& Font::glyphDataForCharacter(UChar32 c, const UChar* cluster, unsigned clusterLength, bool mirror, bool attemptFontSubstitution) const
{
bool smallCaps = false;
if (m_fontDescription.smallCaps() && !Unicode::isUpper(c)) {
// Convert lowercase to upper.
UChar32 upperC = Unicode::toUpper(c);
if (upperC != c) {
c = upperC;
smallCaps = true;
}
}
if (mirror)
c = mirroredChar(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_pages.get(pageNumber) : m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(primaryFont(), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
if (!attemptFontSubstitution && node->level() != 1)
node = GlyphPageTreeNode::getRootChild(primaryFont(), pageNumber);
while (true) {
GlyphPage* page = node->page();
if (page) {
const GlyphData& data = page->glyphDataForCharacter(c);
if (data.glyph || !attemptFontSubstitution) {
if (!smallCaps)
return data; // We have a glyph for the character in question in the current page (or we've been told not to fall back).
const FontData* smallCapsFontData = data.fontData->smallCapsFontData(m_fontDescription);
if (!smallCapsFontData)
// This should not happen, but if it does, we will return a big cap.
return data;
GlyphPageTreeNode* smallCapsNode = GlyphPageTreeNode::getRootChild(smallCapsFontData, pageNumber);
GlyphPage* smallCapsPage = smallCapsNode->page();
if (smallCapsPage) {
const GlyphData& data = smallCapsPage->glyphDataForCharacter(c);
if (data.glyph || !attemptFontSubstitution)
return data;
}
// Not attempting system fallback off the smallCapsFontData. This is the very unlikely case that
// a font has the lowercase character but not its uppercase version.
return smallCapsFontData->missingGlyphData();
}
} else if (!attemptFontSubstitution) {
if (smallCaps) {
if (const FontData* smallCapsFontData = primaryFont()->smallCapsFontData(m_fontDescription))
return smallCapsFontData->missingGlyphData();
}
return primaryFont()->missingGlyphData();
}
if (node->isSystemFallback()) {
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
// Convert characters that shouldn't render to zero width spaces when asking what font is
// appropriate.
const FontData* characterFontData;
if (clusterLength == 1 && Font::treatAsZeroWidthSpace(cluster[0]))
#ifdef __OWB__
characterFontData = FontCache::getFontDataForCharacters(*this, &WebCore::zeroWidthSpace, 1);
#else
characterFontData = FontCache::getFontDataForCharacters(*this, &zeroWidthSpace, 1);
#endif //__OWB__
else
characterFontData = FontCache::getFontDataForCharacters(*this, cluster, clusterLength);
if (smallCaps)
characterFontData = characterFontData->smallCapsFontData(m_fontDescription);
if (characterFontData) {
// Got the fallback font, return the glyph page associated with
// it. We also store the FontData for the glyph in the fallback
// page for future use (it's lazily populated by us).
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData, pageNumber)->page();
const GlyphData& data = fallbackPage ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
if (!smallCaps)
page->setGlyphDataForCharacter(c, data.glyph, characterFontData);
return data;
}
// Even system fallback can fail.
// FIXME: Should the last resort font be used?
const GlyphData& data = primaryFont()->missingGlyphData();
if (!smallCaps && page)
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
return data;
}
// Proceed with the fallback list.
const FontData* fontData = fontDataAt(node->level());
node = node->getChild(fontData, pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
GlyphData Font::glyphDataForCharacter(UChar32 c, bool mirror, bool forceSmallCaps) const
{
ASSERT(isMainThread());
bool useSmallCapsFont = forceSmallCaps;
if (m_fontDescription.smallCaps()) {
UChar32 upperC = toUpper(c);
if (upperC != c) {
c = upperC;
useSmallCapsFont = true;
}
}
if (mirror)
c = mirroredChar(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_fontList->m_pages.get(pageNumber) : m_fontList->m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(fontDataAt(0), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
GlyphPage* page;
if (!useSmallCapsFont) {
// Fastest loop, for the common case (not small caps).
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData)
return data;
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
} else {
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData) {
// The smallCapsFontData function should not normally return 0.
// But if it does, we will just render the capital letter big.
const SimpleFontData* smallCapsFontData = data.fontData->smallCapsFontData(m_fontDescription);
if (!smallCapsFontData)
return data;
GlyphPageTreeNode* smallCapsNode = GlyphPageTreeNode::getRootChild(smallCapsFontData, pageNumber);
const GlyphPage* smallCapsPage = smallCapsNode->page();
if (smallCapsPage) {
GlyphData data = smallCapsPage->glyphDataForCharacter(c);
if (data.fontData)
return data;
}
// Do not attempt system fallback off the smallCapsFontData. This is the very unlikely case that
// a font has the lowercase character but the small caps font does not have its uppercase version.
return smallCapsFontData->missingGlyphData();
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
}
ASSERT(page);
ASSERT(node->isSystemFallback());
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
UChar codeUnits[2];
int codeUnitsLength;
if (c <= 0xFFFF) {
codeUnits[0] = Font::normalizeSpaces(c);
codeUnitsLength = 1;
} else {
codeUnits[0] = U16_LEAD(c);
codeUnits[1] = U16_TRAIL(c);
codeUnitsLength = 2;
}
const SimpleFontData* characterFontData = fontCache()->getFontDataForCharacters(*this, codeUnits, codeUnitsLength);
if (useSmallCapsFont && characterFontData)
characterFontData = characterFontData->smallCapsFontData(m_fontDescription);
if (characterFontData) {
// Got the fallback glyph and font.
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData, pageNumber)->page();
GlyphData data = fallbackPage && fallbackPage->fontDataForCharacter(c) ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
// Cache it so we don't have to do system fallback again next time.
if (!useSmallCapsFont) {
#if OS(WINCE)
// missingGlyphData returns a null character, which is not suitable for GDI to display.
// Also, sometimes we cannot map a font for the character on WINCE, but GDI can still
// display the character, probably because the font package is not installed correctly.
// So we just always set the glyph to be same as the character, and let GDI solve it.
page->setGlyphDataForCharacter(c, c, characterFontData);
return page->glyphDataForCharacter(c);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
#endif
}
return data;
}
// Even system fallback can fail; use the missing glyph in that case.
// FIXME: It would be nicer to use the missing glyph from the last resort font instead.
GlyphData data = primaryFont()->missingGlyphData();
if (!useSmallCapsFont) {
#if OS(WINCE)
// See comment about WINCE GDI handling near setGlyphDataForCharacter above.
page->setGlyphDataForCharacter(c, c, data.fontData);
return page->glyphDataForCharacter(c);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
#endif
}
return data;
}
SimpleFontData::SimpleFontData(const FontPlatformData& f, bool customFont, bool loading, SVGFontData* svgFontData)
: m_font(f)
, m_treatAsFixedPitch(false)
#if ENABLE(SVG_FONTS)
, m_svgFontData(svgFontData)
#endif
, m_isCustomFont(customFont)
, m_isLoading(loading)
, m_smallCapsFontData(0)
{
#if ENABLE(SVG_FONTS) && !PLATFORM(QT)
if (SVGFontFaceElement* svgFontFaceElement = svgFontData ? svgFontData->svgFontFaceElement() : 0) {
m_unitsPerEm = svgFontFaceElement->unitsPerEm();
double scale = f.size();
if (m_unitsPerEm)
scale /= m_unitsPerEm;
m_ascent = static_cast<int>(svgFontFaceElement->ascent() * scale);
m_descent = static_cast<int>(svgFontFaceElement->descent() * scale);
m_xHeight = static_cast<int>(svgFontFaceElement->xHeight() * scale);
m_lineGap = 0.1f * f.size();
m_lineSpacing = m_ascent + m_descent + m_lineGap;
m_spaceGlyph = 0;
m_spaceWidth = 0;
m_adjustedSpaceWidth = 0;
determinePitch();
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
return;
}
#endif
platformInit();
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (!glyphPageZero) {
LOG_ERROR("Failed to get glyph page zero.");
m_spaceGlyph = 0;
m_spaceWidth = 0;
m_adjustedSpaceWidth = 0;
determinePitch();
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
return;
}
// Nasty hack to determine if we should round or ceil space widths.
// If the font is monospace or fake monospace we ceil to ensure that
// every character and the space are the same width. Otherwise we round.
m_spaceGlyph = glyphPageZero->glyphDataForCharacter(' ').glyph;
float width = widthForGlyph(m_spaceGlyph);
m_spaceWidth = width;
determinePitch();
m_adjustedSpaceWidth = m_treatAsFixedPitch ? ceilf(width) : roundf(width);
// Force the glyph for ZERO WIDTH SPACE to have zero width, unless it is shared with SPACE.
// Helvetica is an example of a non-zero width ZERO WIDTH SPACE glyph.
// See <http://bugs.webkit.org/show_bug.cgi?id=13178>
// Ask for the glyph for 0 to avoid paging in ZERO WIDTH SPACE. Control characters, including 0,
// are mapped to the ZERO WIDTH SPACE glyph.
Glyph zeroWidthSpaceGlyph = glyphPageZero->glyphDataForCharacter(0).glyph;
if (zeroWidthSpaceGlyph) {
if (zeroWidthSpaceGlyph != m_spaceGlyph)
m_glyphToWidthMap.setWidthForGlyph(zeroWidthSpaceGlyph, 0);
else
LOG_ERROR("Font maps SPACE and ZERO WIDTH SPACE to the same glyph. Glyph width not overridden.");
}
m_missingGlyphData.fontData = this;
m_missingGlyphData.glyph = 0;
}
void SimpleFontData::platformInit()
{
m_syntheticBoldOffset = m_platformData.syntheticBold() ? 1.0f : 0.f;
m_scriptCache = 0;
m_scriptFontProperties = 0;
m_isSystemFont = false;
if (m_platformData.useGDI())
return initGDIFont();
CGFontRef font = m_platformData.cgFont();
int iAscent = CGFontGetAscent(font);
int iDescent = CGFontGetDescent(font);
int iLineGap = CGFontGetLeading(font);
unsigned unitsPerEm = CGFontGetUnitsPerEm(font);
float pointSize = m_platformData.size();
float fAscent = scaleEmToUnits(iAscent, unitsPerEm) * pointSize;
float fDescent = -scaleEmToUnits(iDescent, unitsPerEm) * pointSize;
float fLineGap = scaleEmToUnits(iLineGap, unitsPerEm) * pointSize;
if (!isCustomFont()) {
HDC dc = GetDC(0);
HGDIOBJ oldFont = SelectObject(dc, m_platformData.hfont());
int faceLength = GetTextFace(dc, 0, 0);
Vector<WCHAR> faceName(faceLength);
GetTextFace(dc, faceLength, faceName.data());
m_isSystemFont = !wcscmp(faceName.data(), L"Lucida Grande");
SelectObject(dc, oldFont);
ReleaseDC(0, dc);
if (shouldApplyMacAscentHack()) {
// This code comes from FontDataMac.mm. We only ever do this when running regression tests so that our metrics will match Mac.
// We need to adjust Times, Helvetica, and Courier to closely match the
// vertical metrics of their Microsoft counterparts that are the de facto
// web standard. The AppKit adjustment of 20% is too big and is
// incorrectly added to line spacing, so we use a 15% adjustment instead
// and add it to the ascent.
if (!wcscmp(faceName.data(), L"Times") || !wcscmp(faceName.data(), L"Helvetica") || !wcscmp(faceName.data(), L"Courier"))
fAscent += floorf(((fAscent + fDescent) * 0.15f) + 0.5f);
}
}
m_fontMetrics.setAscent(fAscent);
m_fontMetrics.setDescent(fDescent);
m_fontMetrics.setLineGap(fLineGap);
m_fontMetrics.setLineSpacing(lroundf(fAscent) + lroundf(fDescent) + lroundf(fLineGap));
// Measure the actual character "x", because AppKit synthesizes X height rather than getting it from the font.
// Unfortunately, NSFont will round this for us so we don't quite get the right value.
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
Glyph xGlyph = glyphPageZero ? glyphPageZero->glyphDataForCharacter('x').glyph : 0;
if (xGlyph) {
CGRect xBox;
CGFontGetGlyphBBoxes(font, &xGlyph, 1, &xBox);
// Use the maximum of either width or height because "x" is nearly square
// and web pages that foolishly use this metric for width will be laid out
// poorly if we return an accurate height. Classic case is Times 13 point,
// which has an "x" that is 7x6 pixels.
m_fontMetrics.setXHeight(scaleEmToUnits(max(CGRectGetMaxX(xBox), CGRectGetMaxY(xBox)), unitsPerEm) * pointSize);
} else {
int iXHeight = CGFontGetXHeight(font);
m_fontMetrics.setXHeight(scaleEmToUnits(iXHeight, unitsPerEm) * pointSize);
}
m_fontMetrics.setUnitsPerEm(unitsPerEm);
}
void SimpleFontData::platformInit()
{
if (!m_platformData.size()) {
m_fontMetrics.reset();
m_avgCharWidth = 0;
m_maxCharWidth = 0;
return;
}
SkPaint paint;
SkPaint::FontMetrics metrics;
m_platformData.setupPaint(&paint);
paint.getFontMetrics(&metrics);
const SkFontID fontID = m_platformData.uniqueID();
static const uint32_t vdmxTag = SkSetFourByteTag('V', 'D', 'M', 'X');
int pixelSize = m_platformData.size() + 0.5;
int vdmxAscent, vdmxDescent;
bool isVDMXValid = false;
size_t vdmxSize = SkFontHost::GetTableSize(fontID, vdmxTag);
if (vdmxSize && vdmxSize < maxVDMXTableSize) {
uint8_t* vdmxTable = (uint8_t*) fastMalloc(vdmxSize);
if (vdmxTable
&& SkFontHost::GetTableData(fontID, vdmxTag, 0, vdmxSize, vdmxTable) == vdmxSize
&& parseVDMX(&vdmxAscent, &vdmxDescent, vdmxTable, vdmxSize, pixelSize))
isVDMXValid = true;
fastFree(vdmxTable);
}
float ascent;
float descent;
// Beware those who step here: This code is designed to match Win32 font
// metrics *exactly* (except the adjustment of ascent/descent on Linux/Android).
if (isVDMXValid) {
ascent = vdmxAscent;
descent = -vdmxDescent;
} else {
SkScalar height = -metrics.fAscent + metrics.fDescent + metrics.fLeading;
ascent = SkScalarRound(-metrics.fAscent);
descent = SkScalarRound(height) - ascent;
#if OS(LINUX) || OS(ANDROID)
// When subpixel positioning is enabled, if the descent is rounded down, the descent part
// of the glyph may be truncated when displayed in a 'overflow: hidden' container.
// To avoid that, borrow 1 unit from the ascent when possible.
// FIXME: This can be removed if sub-pixel ascent/descent is supported.
if (platformData().fontRenderStyle().useSubpixelPositioning && descent < SkScalarToFloat(metrics.fDescent) && ascent >= 1) {
++descent;
--ascent;
}
#endif
}
m_fontMetrics.setAscent(ascent);
m_fontMetrics.setDescent(descent);
float xHeight;
if (metrics.fXHeight) {
xHeight = metrics.fXHeight;
m_fontMetrics.setXHeight(xHeight);
} else {
xHeight = ascent * 0.56; // Best guess from Windows font metrics.
m_fontMetrics.setXHeight(xHeight);
m_fontMetrics.setHasXHeight(false);
}
float lineGap = SkScalarToFloat(metrics.fLeading);
m_fontMetrics.setLineGap(lineGap);
m_fontMetrics.setLineSpacing(lroundf(ascent) + lroundf(descent) + lroundf(lineGap));
if (platformData().orientation() == Vertical && !isTextOrientationFallback()) {
static const uint32_t vheaTag = SkSetFourByteTag('v', 'h', 'e', 'a');
static const uint32_t vorgTag = SkSetFourByteTag('V', 'O', 'R', 'G');
size_t vheaSize = SkFontHost::GetTableSize(fontID, vheaTag);
size_t vorgSize = SkFontHost::GetTableSize(fontID, vorgTag);
if ((vheaSize > 0) || (vorgSize > 0))
m_hasVerticalGlyphs = true;
}
// In WebKit/WebCore/platform/graphics/SimpleFontData.cpp, m_spaceWidth is
// calculated for us, but we need to calculate m_maxCharWidth and
// m_avgCharWidth in order for text entry widgets to be sized correctly.
SkScalar xRange = metrics.fXMax - metrics.fXMin;
m_maxCharWidth = SkScalarRound(xRange * SkScalarRound(m_platformData.size()));
if (metrics.fAvgCharWidth)
m_avgCharWidth = SkScalarRound(metrics.fAvgCharWidth);
else {
m_avgCharWidth = xHeight;
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
if (glyphPageZero) {
static const UChar32 xChar = 'x';
const Glyph xGlyph = glyphPageZero->glyphDataForCharacter(xChar).glyph;
if (xGlyph) {
// In widthForGlyph(), xGlyph will be compared with
// m_zeroWidthSpaceGlyph, which isn't initialized yet here.
// Initialize it with zero to make sure widthForGlyph() returns
// the right width.
m_zeroWidthSpaceGlyph = 0;
m_avgCharWidth = widthForGlyph(xGlyph);
}
}
}
if (int unitsPerEm = paint.getTypeface()->getUnitsPerEm())
m_fontMetrics.setUnitsPerEm(unitsPerEm);
}
std::pair<GlyphData, GlyphPage*> FontGlyphs::glyphDataAndPageForCharacter(const FontDescription& description, UChar32 c, bool mirror, FontDataVariant variant) const
{
ASSERT(isMainThread());
if (variant == AutoVariant) {
if (description.smallCaps() && !primarySimpleFontData(description)->isSVGFont()) {
UChar32 upperC = u_toupper(c);
if (upperC != c) {
c = upperC;
variant = SmallCapsVariant;
} else
variant = NormalVariant;
} else
variant = NormalVariant;
}
if (mirror)
c = u_charMirror(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_pages.get(pageNumber) : m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(realizeFontDataAt(description, 0), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
GlyphPage* page = 0;
if (variant == NormalVariant) {
// Fastest loop, for the common case (normal variant).
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData && (data.fontData->platformData().orientation() == Horizontal || data.fontData->isTextOrientationFallback()))
return std::make_pair(data, page);
if (data.fontData) {
if (Font::isCJKIdeographOrSymbol(c)) {
if (!data.fontData->hasVerticalGlyphs()) {
// Use the broken ideograph font data. The broken ideograph font will use the horizontal width of glyphs
// to make sure you get a square (even for broken glyphs like symbols used for punctuation).
variant = BrokenIdeographVariant;
break;
}
#if PLATFORM(COCOA)
else if (data.fontData->platformData().syntheticOblique())
return glyphDataAndPageForCJKCharacterWithoutSyntheticItalic(c, data, page, pageNumber);
#endif
} else
return glyphDataAndPageForNonCJKCharacterWithGlyphOrientation(c, description.nonCJKGlyphOrientation(), data, page, pageNumber);
return std::make_pair(data, page);
}
if (node->isSystemFallback())
break;
}
node = node->getChild(realizeFontDataAt(description, node->level()), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
}
if (variant != NormalVariant) {
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData) {
// The variantFontData function should not normally return 0.
// But if it does, we will just render the capital letter big.
RefPtr<SimpleFontData> variantFontData = data.fontData->variantFontData(description, variant);
if (!variantFontData)
return std::make_pair(data, page);
GlyphPageTreeNode* variantNode = GlyphPageTreeNode::getRootChild(variantFontData.get(), pageNumber);
GlyphPage* variantPage = variantNode->page();
if (variantPage) {
GlyphData data = variantPage->glyphDataForCharacter(c);
if (data.fontData)
return std::make_pair(data, variantPage);
}
// Do not attempt system fallback off the variantFontData. This is the very unlikely case that
// a font has the lowercase character but the small caps font does not have its uppercase version.
return std::make_pair(variantFontData->missingGlyphData(), page);
}
if (node->isSystemFallback())
break;
}
node = node->getChild(realizeFontDataAt(description, node->level()), pageNumber);
if (pageNumber)
m_pages.set(pageNumber, node);
else
m_pageZero = node;
}
}
ASSERT(page);
ASSERT(node->isSystemFallback());
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
UChar codeUnits[2];
int codeUnitsLength;
if (c <= 0xFFFF) {
codeUnits[0] = Font::normalizeSpaces(c);
codeUnitsLength = 1;
} else {
codeUnits[0] = U16_LEAD(c);
codeUnits[1] = U16_TRAIL(c);
codeUnitsLength = 2;
}
const SimpleFontData* originalFontData = primaryFontData(description)->fontDataForCharacter(c);
RefPtr<SimpleFontData> characterFontData = fontCache().systemFallbackForCharacters(description, originalFontData, m_isForPlatformFont, codeUnits, codeUnitsLength);
if (characterFontData) {
if (characterFontData->platformData().orientation() == Vertical && !characterFontData->hasVerticalGlyphs() && Font::isCJKIdeographOrSymbol(c))
variant = BrokenIdeographVariant;
if (variant != NormalVariant)
characterFontData = characterFontData->variantFontData(description, variant);
}
if (characterFontData) {
// Got the fallback glyph and font.
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData.get(), pageNumber)->page();
GlyphData data = fallbackPage && fallbackPage->fontDataForCharacter(c) ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
// Cache it so we don't have to do system fallback again next time.
if (variant == NormalVariant) {
#if OS(WINCE)
// missingGlyphData returns a null character, which is not suitable for GDI to display.
// Also, sometimes we cannot map a font for the character on WINCE, but GDI can still
// display the character, probably because the font package is not installed correctly.
// So we just always set the glyph to be same as the character, and let GDI solve it.
page->setGlyphDataForCharacter(c, c, characterFontData.get());
characterFontData->setMaxGlyphPageTreeLevel(std::max(characterFontData->maxGlyphPageTreeLevel(), node->level()));
return std::make_pair(page->glyphDataForCharacter(c), page);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
data.fontData->setMaxGlyphPageTreeLevel(std::max(data.fontData->maxGlyphPageTreeLevel(), node->level()));
if (!Font::isCJKIdeographOrSymbol(c) && data.fontData->platformData().orientation() != Horizontal && !data.fontData->isTextOrientationFallback())
return glyphDataAndPageForNonCJKCharacterWithGlyphOrientation(c, description.nonCJKGlyphOrientation(), data, fallbackPage, pageNumber);
#endif
}
return std::make_pair(data, page);
}
// Even system fallback can fail; use the missing glyph in that case.
// FIXME: It would be nicer to use the missing glyph from the last resort font instead.
GlyphData data = primarySimpleFontData(description)->missingGlyphData();
if (variant == NormalVariant) {
#if OS(WINCE)
// See comment about WINCE GDI handling near setGlyphDataForCharacter above.
page->setGlyphDataForCharacter(c, c, data.fontData);
data.fontData->setMaxGlyphPageTreeLevel(std::max(data.fontData->maxGlyphPageTreeLevel(), node->level()));
return std::make_pair(page->glyphDataForCharacter(c), page);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
data.fontData->setMaxGlyphPageTreeLevel(std::max(data.fontData->maxGlyphPageTreeLevel(), node->level()));
#endif
}
return std::make_pair(data, page);
}
void SimpleFontData::platformInit()
{
m_syntheticBoldOffset = m_platformData.syntheticBold() ? 1.0f : 0.f;
m_scriptCache = 0;
m_scriptFontProperties = 0;
m_isSystemFont = false;
if (m_platformData.useGDI())
return initGDIFont();
CGFontRef font = m_platformData.cgFont();
int iAscent = CGFontGetAscent(font);
int iDescent = CGFontGetDescent(font);
int iLineGap = CGFontGetLeading(font);
unsigned unitsPerEm = CGFontGetUnitsPerEm(font);
float pointSize = m_platformData.size();
float fAscent = scaleEmToUnits(iAscent, unitsPerEm) * pointSize;
float fDescent = -scaleEmToUnits(iDescent, unitsPerEm) * pointSize;
float fLineGap = scaleEmToUnits(iLineGap, unitsPerEm) * pointSize;
if (!isCustomFont()) {
HDC dc = GetDC(0);
HGDIOBJ oldFont = SelectObject(dc, m_platformData.hfont());
int faceLength = GetTextFace(dc, 0, 0);
Vector<WCHAR> faceName(faceLength);
GetTextFace(dc, faceLength, faceName.data());
m_isSystemFont = !wcscmp(faceName.data(), L"Lucida Grande");
SelectObject(dc, oldFont);
ReleaseDC(0, dc);
if (shouldApplyMacAscentHack()) {
// This code comes from FontDataMac.mm. We only ever do this when running regression tests so that our metrics will match Mac.
// We need to adjust Times, Helvetica, and Courier to closely match the
// vertical metrics of their Microsoft counterparts that are the de facto
// web standard. The AppKit adjustment of 20% is too big and is
// incorrectly added to line spacing, so we use a 15% adjustment instead
// and add it to the ascent.
if (!wcscmp(faceName.data(), L"Times") || !wcscmp(faceName.data(), L"Helvetica") || !wcscmp(faceName.data(), L"Courier"))
fAscent += floorf(((fAscent + fDescent) * 0.15f) + 0.5f);
}
}
m_fontMetrics.setAscent(fAscent);
m_fontMetrics.setDescent(fDescent);
m_fontMetrics.setLineGap(fLineGap);
m_fontMetrics.setLineSpacing(lroundf(fAscent) + lroundf(fDescent) + lroundf(fLineGap));
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();
Glyph xGlyph = glyphPageZero ? glyphPageZero->glyphDataForCharacter('x').glyph : 0;
if (xGlyph) {
// Measure the actual character "x", since it's possible for it to extend below the baseline, and we need the
// reported x-height to only include the portion of the glyph that is above the baseline.
CGRect xBox;
CGFontGetGlyphBBoxes(font, &xGlyph, 1, &xBox);
m_fontMetrics.setXHeight(scaleEmToUnits(CGRectGetMaxY(xBox), unitsPerEm) * pointSize);
} else {
int iXHeight = CGFontGetXHeight(font);
m_fontMetrics.setXHeight(scaleEmToUnits(iXHeight, unitsPerEm) * pointSize);
}
m_fontMetrics.setUnitsPerEm(unitsPerEm);
}
std::pair<GlyphData, GlyphPage*> Font::glyphDataAndPageForCharacter(UChar32 c, bool mirror, FontDataVariant variant) const
{
ASSERT(isMainThread());
if (variant == AutoVariant) {
if (m_fontDescription.smallCaps() && !primaryFont()->isSVGFont()) {
UChar32 upperC = toUpper(c);
if (upperC != c) {
c = upperC;
variant = SmallCapsVariant;
} else {
variant = NormalVariant;
}
} else {
variant = NormalVariant;
}
}
if (mirror)
c = mirroredChar(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_fontFallbackList->m_pages.get(pageNumber) : m_fontFallbackList->m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(fontDataAt(0), pageNumber);
if (pageNumber)
m_fontFallbackList->m_pages.set(pageNumber, node);
else
m_fontFallbackList->m_pageZero = node;
}
GlyphPage* page = 0;
if (variant == NormalVariant) {
// Fastest loop, for the common case (normal variant).
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData && (data.fontData->platformData().orientation() == Horizontal || data.fontData->isTextOrientationFallback()))
return make_pair(data, page);
if (data.fontData) {
if (Character::isCJKIdeographOrSymbol(c)) {
if (!data.fontData->hasVerticalGlyphs()) {
// Use the broken ideograph font data. The broken ideograph font will use the horizontal width of glyphs
// to make sure you get a square (even for broken glyphs like symbols used for punctuation).
variant = BrokenIdeographVariant;
break;
}
} else {
return glyphDataAndPageForNonCJKCharacterWithGlyphOrientation(c, m_fontDescription.nonCJKGlyphOrientation(), data, page, pageNumber);
}
return make_pair(data, page);
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontFallbackList->m_pages.set(pageNumber, node);
else
m_fontFallbackList->m_pageZero = node;
}
}
if (variant != NormalVariant) {
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData) {
// The variantFontData function should not normally return 0.
// But if it does, we will just render the capital letter big.
RefPtr<SimpleFontData> variantFontData = data.fontData->variantFontData(m_fontDescription, variant);
if (!variantFontData)
return make_pair(data, page);
GlyphPageTreeNode* variantNode = GlyphPageTreeNode::getRootChild(variantFontData.get(), pageNumber);
GlyphPage* variantPage = variantNode->page();
if (variantPage) {
GlyphData data = variantPage->glyphDataForCharacter(c);
if (data.fontData)
return make_pair(data, variantPage);
}
// Do not attempt system fallback off the variantFontData. This is the very unlikely case that
// a font has the lowercase character but the small caps font does not have its uppercase version.
return make_pair(variantFontData->missingGlyphData(), page);
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontFallbackList->m_pages.set(pageNumber, node);
else
m_fontFallbackList->m_pageZero = node;
}
}
ASSERT(page);
ASSERT(node->isSystemFallback());
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
// FIXME: Unclear if this should normalizeSpaces above 0xFFFF.
// Doing so changes fast/text/international/plane2-diffs.html
UChar32 characterToRender = c;
if (characterToRender <= 0xFFFF)
characterToRender = Character::normalizeSpaces(characterToRender);
const SimpleFontData* fontDataToSubstitute = fontDataAt(0)->fontDataForCharacter(characterToRender);
RefPtr<SimpleFontData> characterFontData = FontCache::fontCache()->platformFallbackForCharacter(m_fontDescription, characterToRender, fontDataToSubstitute);
if (characterFontData) {
if (characterFontData->platformData().orientation() == Vertical && !characterFontData->hasVerticalGlyphs() && Character::isCJKIdeographOrSymbol(c))
variant = BrokenIdeographVariant;
if (variant != NormalVariant)
characterFontData = characterFontData->variantFontData(m_fontDescription, variant);
}
if (characterFontData) {
// Got the fallback glyph and font.
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData.get(), pageNumber)->page();
GlyphData data = fallbackPage && fallbackPage->fontDataForCharacter(c) ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
// Cache it so we don't have to do system fallback again next time.
if (variant == NormalVariant) {
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
data.fontData->setMaxGlyphPageTreeLevel(max(data.fontData->maxGlyphPageTreeLevel(), node->level()));
if (!Character::isCJKIdeographOrSymbol(c) && data.fontData->platformData().orientation() != Horizontal && !data.fontData->isTextOrientationFallback())
return glyphDataAndPageForNonCJKCharacterWithGlyphOrientation(c, m_fontDescription.nonCJKGlyphOrientation(), data, fallbackPage, pageNumber);
}
return make_pair(data, page);
}
// Even system fallback can fail; use the missing glyph in that case.
// FIXME: It would be nicer to use the missing glyph from the last resort font instead.
GlyphData data = primaryFont()->missingGlyphData();
if (variant == NormalVariant) {
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
data.fontData->setMaxGlyphPageTreeLevel(max(data.fontData->maxGlyphPageTreeLevel(), node->level()));
}
return make_pair(data, page);
}
void SVGFontData::initializeFontData(SimpleFontData* fontData, float fontSize)
{
ASSERT(fontData);
SVGFontFaceElement* svgFontFaceElement = this->svgFontFaceElement();
ASSERT(svgFontFaceElement);
SVGFontElement* svgFontElement = svgFontFaceElement->associatedFontElement();
ASSERT(svgFontElement);
GlyphData missingGlyphData;
missingGlyphData.fontData = fontData;
missingGlyphData.glyph = svgFontElement->missingGlyph();
fontData->setMissingGlyphData(missingGlyphData);
fontData->setZeroWidthSpaceGlyph(0);
fontData->determinePitch();
unsigned unitsPerEm = svgFontFaceElement->unitsPerEm();
float scale = scaleEmToUnits(fontSize, unitsPerEm);
float xHeight = svgFontFaceElement->xHeight() * scale;
float ascent = svgFontFaceElement->ascent() * scale;
float descent = svgFontFaceElement->descent() * scale;
float lineGap = 0.1f * fontSize;
GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(fontData, 0)->page();
if (!xHeight && glyphPageZero) {
// Fallback if x_heightAttr is not specified for the font element.
Glyph letterXGlyph = glyphPageZero->glyphDataForCharacter('x').glyph;
xHeight = letterXGlyph ? fontData->widthForGlyph(letterXGlyph) : 2 * ascent / 3;
}
FontMetrics& fontMetrics = fontData->fontMetrics();
fontMetrics.setUnitsPerEm(unitsPerEm);
fontMetrics.setAscent(ascent);
fontMetrics.setDescent(descent);
fontMetrics.setLineGap(lineGap);
fontMetrics.setLineSpacing(roundf(ascent) + roundf(descent) + roundf(lineGap));
fontMetrics.setXHeight(xHeight);
if (!glyphPageZero) {
fontData->setSpaceGlyph(0);
fontData->setSpaceWidths(0);
fontData->setAvgCharWidth(0);
fontData->setMaxCharWidth(ascent);
return;
}
// Calculate space width.
Glyph spaceGlyph = glyphPageZero->glyphDataForCharacter(' ').glyph;
fontData->setSpaceGlyph(spaceGlyph);
fontData->setSpaceWidths(fontData->widthForGlyph(spaceGlyph));
// Estimate average character width.
Glyph numeralZeroGlyph = glyphPageZero->glyphDataForCharacter('0').glyph;
fontData->setAvgCharWidth(numeralZeroGlyph ? fontData->widthForGlyph(numeralZeroGlyph) : fontData->spaceWidth());
// Estimate maximum character width.
Glyph letterWGlyph = glyphPageZero->glyphDataForCharacter('W').glyph;
fontData->setMaxCharWidth(letterWGlyph ? fontData->widthForGlyph(letterWGlyph) : ascent);
}
GlyphData Font::glyphDataForCharacter(UChar32 c, bool mirror, FontDataVariant variant) const
{
ASSERT(isMainThread());
if (variant == AutoVariant) {
if (m_fontDescription.smallCaps()) {
UChar32 upperC = toUpper(c);
if (upperC != c) {
c = upperC;
variant = SmallCapsVariant;
} else
variant = NormalVariant;
} else
variant = NormalVariant;
}
if (mirror)
c = mirroredChar(c);
unsigned pageNumber = (c / GlyphPage::size);
GlyphPageTreeNode* node = pageNumber ? m_fontList->m_pages.get(pageNumber) : m_fontList->m_pageZero;
if (!node) {
node = GlyphPageTreeNode::getRootChild(fontDataAt(0), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
GlyphPage* page;
if (variant == NormalVariant) {
// Fastest loop, for the common case (normal variant).
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData && (data.fontData->platformData().orientation() == Horizontal || data.fontData->isTextOrientationFallback()))
return data;
if (data.fontData) {
if (isCJKIdeographOrSymbol(c)) {
if (!data.fontData->hasVerticalGlyphs()) {
// Use the broken ideograph font data. The broken ideograph font will use the horizontal width of glyphs
// to make sure you get a square (even for broken glyphs like symbols used for punctuation).
const SimpleFontData* brokenIdeographFontData = data.fontData->brokenIdeographFontData();
GlyphPageTreeNode* brokenIdeographNode = GlyphPageTreeNode::getRootChild(brokenIdeographFontData, pageNumber);
const GlyphPage* brokenIdeographPage = brokenIdeographNode->page();
if (brokenIdeographPage) {
GlyphData brokenIdeographData = brokenIdeographPage->glyphDataForCharacter(c);
if (brokenIdeographData.fontData)
return brokenIdeographData;
}
// Shouldn't be possible to even reach this point.
ASSERT_NOT_REACHED();
}
} else {
if (m_fontDescription.textOrientation() == TextOrientationVerticalRight) {
const SimpleFontData* verticalRightFontData = data.fontData->verticalRightOrientationFontData();
GlyphPageTreeNode* verticalRightNode = GlyphPageTreeNode::getRootChild(verticalRightFontData, pageNumber);
const GlyphPage* verticalRightPage = verticalRightNode->page();
if (verticalRightPage) {
GlyphData verticalRightData = verticalRightPage->glyphDataForCharacter(c);
// If the glyphs are distinct, we will make the assumption that the font has a vertical-right glyph baked
// into it.
if (data.glyph != verticalRightData.glyph)
return data;
// The glyphs are identical, meaning that we should just use the horizontal glyph.
if (verticalRightData.fontData)
return verticalRightData;
}
} else if (m_fontDescription.textOrientation() == TextOrientationUpright) {
const SimpleFontData* uprightFontData = data.fontData->uprightOrientationFontData();
GlyphPageTreeNode* uprightNode = GlyphPageTreeNode::getRootChild(uprightFontData, pageNumber);
const GlyphPage* uprightPage = uprightNode->page();
if (uprightPage) {
GlyphData uprightData = uprightPage->glyphDataForCharacter(c);
// If the glyphs are the same, then we know we can just use the horizontal glyph rotated vertically to be upright.
if (data.glyph == uprightData.glyph)
return data;
// The glyphs are distinct, meaning that the font has a vertical-right glyph baked into it. We can't use that
// glyph, so we fall back to the upright data and use the horizontal glyph.
if (uprightData.fontData)
return uprightData;
}
}
// Shouldn't be possible to even reach this point.
ASSERT_NOT_REACHED();
}
return data;
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
} else {
while (true) {
page = node->page();
if (page) {
GlyphData data = page->glyphDataForCharacter(c);
if (data.fontData) {
// The variantFontData function should not normally return 0.
// But if it does, we will just render the capital letter big.
const SimpleFontData* variantFontData = data.fontData->variantFontData(m_fontDescription, variant);
if (!variantFontData)
return data;
GlyphPageTreeNode* variantNode = GlyphPageTreeNode::getRootChild(variantFontData, pageNumber);
const GlyphPage* variantPage = variantNode->page();
if (variantPage) {
GlyphData data = variantPage->glyphDataForCharacter(c);
if (data.fontData)
return data;
}
// Do not attempt system fallback off the variantFontData. This is the very unlikely case that
// a font has the lowercase character but the small caps font does not have its uppercase version.
return variantFontData->missingGlyphData();
}
if (node->isSystemFallback())
break;
}
// Proceed with the fallback list.
node = node->getChild(fontDataAt(node->level()), pageNumber);
if (pageNumber)
m_fontList->m_pages.set(pageNumber, node);
else
m_fontList->m_pageZero = node;
}
}
ASSERT(page);
ASSERT(node->isSystemFallback());
// System fallback is character-dependent. When we get here, we
// know that the character in question isn't in the system fallback
// font's glyph page. Try to lazily create it here.
UChar codeUnits[2];
int codeUnitsLength;
if (c <= 0xFFFF) {
codeUnits[0] = Font::normalizeSpaces(c);
codeUnitsLength = 1;
} else {
codeUnits[0] = U16_LEAD(c);
codeUnits[1] = U16_TRAIL(c);
codeUnitsLength = 2;
}
const SimpleFontData* characterFontData = fontCache()->getFontDataForCharacters(*this, codeUnits, codeUnitsLength);
if (variant != NormalVariant && characterFontData)
characterFontData = characterFontData->variantFontData(m_fontDescription, variant);
if (characterFontData) {
// Got the fallback glyph and font.
GlyphPage* fallbackPage = GlyphPageTreeNode::getRootChild(characterFontData, pageNumber)->page();
GlyphData data = fallbackPage && fallbackPage->fontDataForCharacter(c) ? fallbackPage->glyphDataForCharacter(c) : characterFontData->missingGlyphData();
// Cache it so we don't have to do system fallback again next time.
if (variant == NormalVariant) {
#if OS(WINCE)
// missingGlyphData returns a null character, which is not suitable for GDI to display.
// Also, sometimes we cannot map a font for the character on WINCE, but GDI can still
// display the character, probably because the font package is not installed correctly.
// So we just always set the glyph to be same as the character, and let GDI solve it.
page->setGlyphDataForCharacter(c, c, characterFontData);
return page->glyphDataForCharacter(c);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
#endif
}
return data;
}
// Even system fallback can fail; use the missing glyph in that case.
// FIXME: It would be nicer to use the missing glyph from the last resort font instead.
GlyphData data = primaryFont()->missingGlyphData();
if (variant == NormalVariant) {
#if OS(WINCE)
// See comment about WINCE GDI handling near setGlyphDataForCharacter above.
page->setGlyphDataForCharacter(c, c, data.fontData);
return page->glyphDataForCharacter(c);
#else
page->setGlyphDataForCharacter(c, data.glyph, data.fontData);
#endif
}
return data;
}
