sk_sp<SkFont> SkFont::Testing_CreateFromPaint(const SkPaint& paint) {
uint32_t flags = 0;
if (paint.isVerticalText()) {
flags |= kVertical_Flag;
}
if (paint.isEmbeddedBitmapText()) {
flags |= kEmbeddedBitmaps_Flag;
}
if (paint.getFlags() & SkPaint::kGenA8FromLCD_Flag) {
flags |= kGenA8FromLCD_Flag;
}
if (paint.isFakeBoldText()) {
flags |= kEmbolden_Flag;
}
if (SkPaint::kFull_Hinting == paint.getHinting()) {
flags |= kEnableByteCodeHints_Flag;
}
if (paint.isAutohinted()) {
flags |= kEnableAutoHints_Flag;
}
if (paint.isSubpixelText() || paint.isLinearText()) {
// this is our default
} else {
flags |= kUseNonlinearMetrics_Flag;
}
MaskType maskType = SkFont::kBW_MaskType;
if (paint.isAntiAlias()) {
maskType = paint.isLCDRenderText() ? kLCD_MaskType : kA8_MaskType;
}
return Make(sk_ref_sp(paint.getTypeface()), paint.getTextSize(), paint.getTextScaleX(),
paint.getTextSkewX(), maskType, flags);
}
bool SkBitmapDevice::filterTextFlags(const SkPaint& paint, TextFlags* flags) {
if (!paint.isLCDRenderText() || !paint.isAntiAlias()) {
// we're cool with the paint as is
return false;
}
if (kN32_SkColorType != fBitmap.colorType() ||
paint.getRasterizer() ||
paint.getPathEffect() ||
paint.isFakeBoldText() ||
paint.getStyle() != SkPaint::kFill_Style ||
!SkXfermode::IsMode(paint.getXfermode(), SkXfermode::kSrcOver_Mode)) {
// turn off lcd
flags->fFlags = paint.getFlags() & ~SkPaint::kLCDRenderText_Flag;
flags->fHinting = paint.getHinting();
return true;
}
// we're cool with the paint as is
return false;
}
PassRefPtr<JSONObject> LoggingCanvas::objectForSkPaint(const SkPaint& paint)
{
RefPtr<JSONObject> paintItem = JSONObject::create();
paintItem->setNumber("textSize", paint.getTextSize());
paintItem->setNumber("textScaleX", paint.getTextScaleX());
paintItem->setNumber("textSkewX", paint.getTextSkewX());
if (SkShader* shader = paint.getShader())
paintItem->setObject("shader", objectForSkShader(*shader));
paintItem->setString("color", stringForSkColor(paint.getColor()));
paintItem->setNumber("strokeWidth", paint.getStrokeWidth());
paintItem->setNumber("strokeMiter", paint.getStrokeMiter());
paintItem->setString("flags", stringForSkPaintFlags(paint));
paintItem->setString("filterLevel", filterQualityName(paint.getFilterQuality()));
paintItem->setString("textAlign", textAlignName(paint.getTextAlign()));
paintItem->setString("strokeCap", strokeCapName(paint.getStrokeCap()));
paintItem->setString("strokeJoin", strokeJoinName(paint.getStrokeJoin()));
paintItem->setString("styleName", styleName(paint.getStyle()));
paintItem->setString("textEncoding", textEncodingName(paint.getTextEncoding()));
paintItem->setString("hinting", hintingName(paint.getHinting()));
return paintItem.release();
}
bool SkDevice::filterTextFlags(const SkPaint& paint, TextFlags* flags) {
if (!paint.isLCDRenderText()) {
// we're cool with the paint as is
return false;
}
if (SkBitmap::kARGB_8888_Config != fBitmap.config() ||
paint.getShader() ||
paint.getXfermode() || // unless its srcover
paint.getMaskFilter() ||
paint.getRasterizer() ||
paint.getColorFilter() ||
paint.getPathEffect() ||
paint.isFakeBoldText() ||
paint.getStyle() != SkPaint::kFill_Style) {
// turn off lcd
flags->fFlags = paint.getFlags() & ~SkPaint::kLCDRenderText_Flag;
flags->fHinting = paint.getHinting();
return true;
}
// we're cool with the paint as is
return false;
}
/*
* Header:
* paint flags : 32
* non_def bits : 16
* xfermode enum : 8
* pad zeros : 8
*/
static void write_paint(SkWriteBuffer& writer, const SkPaint& paint, unsigned usage) {
uint32_t packedFlags = pack_paint_flags(paint.getFlags(), paint.getHinting(),
paint.getTextAlign(), paint.getFilterQuality(),
paint.getStyle(), paint.getStrokeCap(),
paint.getStrokeJoin(), paint.getTextEncoding());
writer.write32(packedFlags);
unsigned nondef = compute_nondef(paint, (PaintUsage)usage);
const uint8_t pad = 0;
writer.write32((nondef << 16) | ((unsigned)paint.getBlendMode() << 8) | pad);
CHECK_WRITE_SCALAR(writer, nondef, paint, TextSize);
CHECK_WRITE_SCALAR(writer, nondef, paint, TextScaleX);
CHECK_WRITE_SCALAR(writer, nondef, paint, TextSkewX);
CHECK_WRITE_SCALAR(writer, nondef, paint, StrokeWidth);
CHECK_WRITE_SCALAR(writer, nondef, paint, StrokeMiter);
if (nondef & kColor_NonDef) {
writer.write32(paint.getColor());
}
if (nondef & kTypeface_NonDef) {
// TODO: explore idea of writing bits indicating "use the prev (or prev N) face"
// e.g. 1-N bits is an index into a ring buffer of typefaces
SkTypeface* tf = paint.getTypeface();
SkASSERT(tf);
writer.writeTypeface(tf);
}
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, PathEffect);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, Shader);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, MaskFilter);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, ColorFilter);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, Rasterizer);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, ImageFilter);
CHECK_WRITE_FLATTENABLE(writer, nondef, paint, DrawLooper);
}
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);
}
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 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*)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).
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().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);
}
// Even with kEntirePaint_Bits, we always ensure that the master paint's
// text-encoding is respected, since that controls how we interpret the
// text/length parameters of a draw[Pos]Text call.
void SkLayerDrawLooper::ApplyInfo(SkPaint* dst, const SkPaint& src,
const LayerInfo& info) {
uint32_t mask = info.fFlagsMask;
dst->setFlags((dst->getFlags() & ~mask) | (src.getFlags() & mask));
dst->setColor(xferColor(src.getColor(), dst->getColor(), info.fColorMode));
BitFlags bits = info.fPaintBits;
SkPaint::TextEncoding encoding = dst->getTextEncoding();
if (0 == bits) {
return;
}
if (kEntirePaint_Bits == bits) {
// we've already computed these, so save it from the assignment
uint32_t f = dst->getFlags();
SkColor c = dst->getColor();
*dst = src;
dst->setFlags(f);
dst->setColor(c);
dst->setTextEncoding(encoding);
return;
}
if (bits & kStyle_Bit) {
dst->setStyle(src.getStyle());
dst->setStrokeWidth(src.getStrokeWidth());
dst->setStrokeMiter(src.getStrokeMiter());
dst->setStrokeCap(src.getStrokeCap());
dst->setStrokeJoin(src.getStrokeJoin());
}
if (bits & kTextSkewX_Bit) {
dst->setTextSkewX(src.getTextSkewX());
}
if (bits & kPathEffect_Bit) {
dst->setPathEffect(src.getPathEffect());
}
if (bits & kMaskFilter_Bit) {
dst->setMaskFilter(src.getMaskFilter());
}
if (bits & kShader_Bit) {
dst->setShader(src.getShader());
}
if (bits & kColorFilter_Bit) {
dst->setColorFilter(src.getColorFilter());
}
if (bits & kXfermode_Bit) {
dst->setXfermode(src.getXfermode());
}
// we don't override these
#if 0
dst->setTypeface(src.getTypeface());
dst->setTextSize(src.getTextSize());
dst->setTextScaleX(src.getTextScaleX());
dst->setRasterizer(src.getRasterizer());
dst->setLooper(src.getLooper());
dst->setTextEncoding(src.getTextEncoding());
dst->setHinting(src.getHinting());
#endif
}
static bool is_enable_bytecode_hints(const SkPaint& paint) {
return paint.getHinting() >= SkPaint::kFull_Hinting;
}
// Even with kEntirePaint_Bits, we always ensure that the master paint's
// text-encoding is respected, since that controls how we interpret the
// text/length parameters of a draw[Pos]Text call.
void SkLayerDrawLooper::LayerDrawLooperContext::ApplyInfo(
SkPaint* dst, const SkPaint& src, const LayerInfo& info) {
SkColor4f srcColor = src.getColor4f();
#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
// The framework may respect the alpha value on the original paint.
// Match this legacy behavior.
if (src.getAlpha() == 255) {
srcColor.fA = dst->getColor4f().fA;
}
#endif
dst->setColor4f(xferColor(srcColor, dst->getColor4f(), (SkBlendMode)info.fColorMode),
sk_srgb_singleton());
BitFlags bits = info.fPaintBits;
SkPaint::TextEncoding encoding = dst->getTextEncoding();
if (0 == bits) {
return;
}
if (kEntirePaint_Bits == bits) {
// we've already computed these, so save it from the assignment
uint32_t f = dst->getFlags();
SkColor4f c = dst->getColor4f();
*dst = src;
dst->setFlags(f);
dst->setColor4f(c, sk_srgb_singleton());
dst->setTextEncoding(encoding);
return;
}
if (bits & kStyle_Bit) {
dst->setStyle(src.getStyle());
dst->setStrokeWidth(src.getStrokeWidth());
dst->setStrokeMiter(src.getStrokeMiter());
dst->setStrokeCap(src.getStrokeCap());
dst->setStrokeJoin(src.getStrokeJoin());
}
if (bits & kTextSkewX_Bit) {
dst->setTextSkewX(src.getTextSkewX());
}
if (bits & kPathEffect_Bit) {
dst->setPathEffect(src.refPathEffect());
}
if (bits & kMaskFilter_Bit) {
dst->setMaskFilter(src.refMaskFilter());
}
if (bits & kShader_Bit) {
dst->setShader(src.refShader());
}
if (bits & kColorFilter_Bit) {
dst->setColorFilter(src.refColorFilter());
}
if (bits & kXfermode_Bit) {
dst->setBlendMode(src.getBlendMode());
}
// we don't override these
#if 0
dst->setTypeface(src.getTypeface());
dst->setTextSize(src.getTextSize());
dst->setTextScaleX(src.getTextScaleX());
dst->setRasterizer(src.getRasterizer());
dst->setLooper(src.getLooper());
dst->setTextEncoding(src.getTextEncoding());
dst->setHinting(src.getHinting());
#endif
}