Beispiel #1
0
void Font::platformGlyphInit()
{
    auto* glyphPageZero = glyphPage(0);
    if (!glyphPageZero) {
        determinePitch();
        return;
    }

    // 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.
    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;
    m_zeroGlyph = glyphPageZero->glyphDataForCharacter('0').glyph;
    m_fontMetrics.setZeroWidth(widthForGlyph(m_zeroGlyph));
    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> and Font::isZeroWidthSpaceGlyph()
    if (m_zeroWidthSpaceGlyph == m_spaceGlyph)
        m_zeroWidthSpaceGlyph = 0;
}
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);
}
Beispiel #3
0
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;
        m_zeroGlyph = 0;
        m_adjustedSpaceWidth = 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;
    m_zeroGlyph = glyphPageZero->glyphDataForCharacter('0').glyph;
    m_fontMetrics.setZeroWidth(widthForGlyph(m_zeroGlyph));
    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.
    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;
}
Beispiel #4
0
void SimpleFontData::platformGlyphInit() {
  SkTypeface* typeface = platformData().typeface();
  if (!typeface->countGlyphs()) {
    m_spaceGlyph = 0;
    m_spaceWidth = 0;
    m_zeroGlyph = 0;
    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 = glyphForCharacter(' ');
  float width = widthForGlyph(m_spaceGlyph);
  m_spaceWidth = width;
  m_zeroGlyph = glyphForCharacter('0');
  m_fontMetrics.setZeroWidth(widthForGlyph(m_zeroGlyph));

  m_missingGlyphData.fontData = this;
  m_missingGlyphData.glyph = 0;
}
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);
        }
    }
}
Beispiel #6
0
FontData::FontData(const FontPlatformData& f)
    : m_font(f)
    , m_treatAsFixedPitch(false)
    , m_smallCapsFontData(0)
{    
    platformInit();
    
    // 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 = GlyphPageTreeNode::getRootChild(this, 0)->page()->glyphDataForCharacter(' ').glyph;
    float width = widthForGlyph(m_spaceGlyph);
    m_spaceWidth = width;
    determinePitch();
    m_adjustedSpaceWidth = m_treatAsFixedPitch ? ceilf(width) : roundf(width);
    m_missingGlyphData.fontData = this;
    m_missingGlyphData.glyph = 0;
}
Beispiel #7
0
// Estimates of avgCharWidth and maxCharWidth for platforms that don't support accessing these values from the font.
void Font::initCharWidths()
{
    auto* glyphPageZero = glyphPage(0);

    // 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 = std::max(m_avgCharWidth, m_fontMetrics.floatAscent());
}
Beispiel #8
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());
}
Beispiel #9
0
void SimpleFontData::platformInit(bool subpixelAscentDescent) {
  if (!m_platformData.size()) {
    m_fontMetrics.reset();
    m_avgCharWidth = 0;
    m_maxCharWidth = 0;
    return;
  }

  SkPaint::FontMetrics metrics;

  m_platformData.setupPaint(&m_paint);
  m_paint.setTextEncoding(SkPaint::kGlyphID_TextEncoding);
  m_paint.getFontMetrics(&metrics);
  SkTypeface* face = m_paint.getTypeface();
  ASSERT(face);

  int vdmxAscent = 0, vdmxDescent = 0;
  bool isVDMXValid = false;

#if OS(LINUX) || OS(ANDROID)
  // Manually digging up VDMX metrics is only applicable when bytecode hinting
  // using FreeType.  With DirectWrite or CoreText, no bytecode hinting is ever
  // done.  This code should be pushed into FreeType (hinted font metrics).
  static const uint32_t vdmxTag = SkSetFourByteTag('V', 'D', 'M', 'X');
  int pixelSize = m_platformData.size() + 0.5;
  if (!m_paint.isAutohinted() &&
      (m_paint.getHinting() == SkPaint::kFull_Hinting ||
       m_paint.getHinting() == SkPaint::kNormal_Hinting)) {
    size_t vdmxSize = face->getTableSize(vdmxTag);
    if (vdmxSize && vdmxSize < maxVDMXTableSize) {
      uint8_t* vdmxTable = (uint8_t*)WTF::Partitions::fastMalloc(
          vdmxSize, WTF_HEAP_PROFILER_TYPE_NAME(SimpleFontData));
      if (vdmxTable &&
          face->getTableData(vdmxTag, 0, vdmxSize, vdmxTable) == vdmxSize &&
          parseVDMX(&vdmxAscent, &vdmxDescent, vdmxTable, vdmxSize, pixelSize))
        isVDMXValid = true;
      WTF::Partitions::fastFree(vdmxTable);
    }
  }
#endif

  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
  // - metrics.fAscent and .fDesscent are not rounded to int for tiny fonts
  if (isVDMXValid) {
    ascent = vdmxAscent;
    descent = -vdmxDescent;
  } else {
    // For tiny fonts, the rounding of fAscent and fDescent results in equal
    // baseline for different types of text baselines (crbug.com/338908).
    // Please see CanvasRenderingContext2D::getFontBaseline for the heuristic.
    if (subpixelAscentDescent &&
        (-metrics.fAscent < 3 || -metrics.fAscent + metrics.fDescent < 2)) {
      ascent = -metrics.fAscent;
      descent = metrics.fDescent;
    } else {
      ascent = SkScalarRoundToScalar(-metrics.fAscent);
      descent = SkScalarRoundToScalar(metrics.fDescent);
    }
#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().getFontRenderStyle().useSubpixelPositioning &&
        descent < SkScalarToFloat(metrics.fDescent) && ascent >= 1) {
      ++descent;
      --ascent;
    }
#endif
  }

#if OS(MACOSX)
  // We are preserving this ascent hack to match Safari's ascent adjustment
  // in their SimpleFontDataMac.mm, for details see crbug.com/445830.
  // 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.
  DEFINE_STATIC_LOCAL(AtomicString, timesName, ("Times"));
  DEFINE_STATIC_LOCAL(AtomicString, helveticaName, ("Helvetica"));
  DEFINE_STATIC_LOCAL(AtomicString, courierName, ("Courier"));
  String familyName = m_platformData.fontFamilyName();
  if (familyName == timesName || familyName == helveticaName ||
      familyName == courierName)
    ascent += floorf(((ascent + descent) * 0.15f) + 0.5f);
#endif

  m_fontMetrics.setAscent(ascent);
  m_fontMetrics.setDescent(descent);

  float xHeight;
  if (metrics.fXHeight) {
    xHeight = metrics.fXHeight;
#if OS(MACOSX)
    // Mac OS CTFontGetXHeight reports the bounding box height of x,
    // including parts extending below the baseline and apparently no x-height
    // value from the OS/2 table. However, the CSS ex unit
    // expects only parts above the baseline, hence measuring the glyph:
    // http://www.w3.org/TR/css3-values/#ex-unit
    const Glyph xGlyph = glyphForCharacter('x');
    if (xGlyph) {
      FloatRect glyphBounds(boundsForGlyph(xGlyph));
      // SkGlyph bounds, y down, based on rendering at (0,0).
      xHeight = -glyphBounds.y();
    }
#endif
    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().isVerticalAnyUpright() && !isTextOrientationFallback()) {
    static const uint32_t vheaTag = SkSetFourByteTag('v', 'h', 'e', 'a');
    static const uint32_t vorgTag = SkSetFourByteTag('V', 'O', 'R', 'G');
    size_t vheaSize = face->getTableSize(vheaTag);
    size_t vorgSize = face->getTableSize(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.
#if OS(WIN)
  m_maxCharWidth = SkScalarRoundToInt(metrics.fMaxCharWidth);

  // Older version of the DirectWrite API doesn't implement support for max
  // char width. Fall back on a multiple of the ascent. This is entirely
  // arbitrary but comes pretty close to the expected value in most cases.
  if (m_maxCharWidth < 1)
    m_maxCharWidth = ascent * 2;
#elif OS(MACOSX)
  // FIXME: The current avg/max character width calculation is not ideal,
  // it should check either the OS2 table or, better yet, query FontMetrics.
  // Sadly FontMetrics provides incorrect data on Mac at the moment.
  // https://crbug.com/420901
  m_maxCharWidth = std::max(m_avgCharWidth, m_fontMetrics.floatAscent());
#else
  // Better would be to rely on either fMaxCharWidth or fAveCharWidth.
  // skbug.com/3087
  m_maxCharWidth = SkScalarRoundToInt(metrics.fXMax - metrics.fXMin);

#endif

#if !OS(MACOSX)
  if (metrics.fAvgCharWidth) {
    m_avgCharWidth = SkScalarRoundToInt(metrics.fAvgCharWidth);
  } else {
#endif
    m_avgCharWidth = xHeight;
    const Glyph xGlyph = glyphForCharacter('x');
    if (xGlyph) {
      m_avgCharWidth = widthForGlyph(xGlyph);
    }
#if !OS(MACOSX)
  }
#endif

  if (int unitsPerEm = face->getUnitsPerEm())
    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*.
    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);
        }
    }
}
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);
  SkTypeface* face = paint.getTypeface();
  ASSERT(face);

  int vdmxAscent = 0, vdmxDescent = 0;
  bool isVDMXValid = false;

#if OS(LINUX) || OS(ANDROID)
  // Manually digging up VDMX metrics is only applicable when bytecode hinting
  // using FreeType. With GDI, the metrics will already have taken this into
  // account (as needed). With DirectWrite or CoreText, no bytecode hinting is
  // ever done. This code should be pushed into FreeType (hinted font metrics).
  static const uint32_t vdmxTag = SkSetFourByteTag('V', 'D', 'M', 'X');
  int pixelSize = m_platformData.size() + 0.5;
  if (!paint.isAutohinted() &&
      (paint.getHinting() == SkPaint::kFull_Hinting ||
       paint.getHinting() == SkPaint::kNormal_Hinting)) {
    size_t vdmxSize = face->getTableSize(vdmxTag);
    if (vdmxSize && vdmxSize < maxVDMXTableSize) {
      uint8_t* vdmxTable = (uint8_t*)fastMalloc(vdmxSize);
      if (vdmxTable &&
          face->getTableData(vdmxTag, 0, vdmxSize, vdmxTable) == vdmxSize &&
          parseVDMX(&vdmxAscent, &vdmxDescent, vdmxTable, vdmxSize, pixelSize))
        isVDMXValid = true;
      fastFree(vdmxTable);
    }
  }
#endif

  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 {
    ascent = SkScalarRoundToInt(-metrics.fAscent);
    descent = SkScalarRoundToInt(metrics.fDescent);
#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));

  SkScalar underlineThickness, underlinePosition;
  if (metrics.hasUnderlineThickness(&underlineThickness) &&
      metrics.hasUnderlinePosition(&underlinePosition)) {
    m_fontMetrics.setUnderlineThickness(SkScalarToFloat(underlineThickness));
    m_fontMetrics.setUnderlinePosition(SkScalarToFloat(-underlinePosition));
  }

  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 = face->getTableSize(vheaTag);
    size_t vorgSize = face->getTableSize(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.
  // FIXME: This seems incorrect and should probably use fMaxCharWidth as
  // the code path above.
  SkScalar xRange = metrics.fXMax - metrics.fXMin;
  m_maxCharWidth =
      SkScalarRoundToInt(xRange * SkScalarRoundToInt(m_platformData.size()));

  if (metrics.fAvgCharWidth)
    m_avgCharWidth = SkScalarRoundToInt(metrics.fAvgCharWidth);
  else {
    m_avgCharWidth = xHeight;

    GlyphPage* glyphPageZero = GlyphPageTreeNode::getRootChild(this, 0)->page();

    if (glyphPageZero) {
      static const UChar32 xChar = 'x';
      const Glyph xGlyph = glyphPageZero->glyphForCharacter(xChar);

      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 = face->getUnitsPerEm())
    m_fontMetrics.setUnitsPerEm(unitsPerEm);
}
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;
}
Beispiel #13
0
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);
}