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/*
* Copyright 2014 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "GrStencilAndCoverTextContext.h"
#include "GrAtlasTextContext.h"
#include "GrBitmapTextContext.h"
#include "GrDrawTarget.h"
#include "GrGpu.h"
#include "GrPath.h"
#include "GrPathRange.h"
#include "SkAutoKern.h"
#include "SkDraw.h"
#include "SkDrawProcs.h"
#include "SkGlyphCache.h"
#include "SkGpuDevice.h"
#include "SkPath.h"
#include "SkTextMapStateProc.h"
#include "SkTextFormatParams.h"
GrStencilAndCoverTextContext::GrStencilAndCoverTextContext(GrContext* context,
SkGpuDevice* gpuDevice,
const SkDeviceProperties& properties)
: GrTextContext(context, gpuDevice, properties)
, fStroke(SkStrokeRec::kFill_InitStyle)
, fQueuedGlyphCount(0)
, fFallbackGlyphsIdx(kGlyphBufferSize) {
}
GrStencilAndCoverTextContext*
GrStencilAndCoverTextContext::Create(GrContext* context, SkGpuDevice* gpuDevice,
const SkDeviceProperties& props) {
GrStencilAndCoverTextContext* textContext = SkNEW_ARGS(GrStencilAndCoverTextContext,
(context, gpuDevice, props));
#ifdef USE_BITMAP_TEXTBLOBS
textContext->fFallbackTextContext = GrAtlasTextContext::Create(context, gpuDevice, props);
#else
textContext->fFallbackTextContext = GrBitmapTextContext::Create(context, gpuDevice, props);
#endif
return textContext;
}
GrStencilAndCoverTextContext::~GrStencilAndCoverTextContext() {
}
bool GrStencilAndCoverTextContext::canDraw(const GrRenderTarget* rt,
const GrClip& clip,
const GrPaint& paint,
const SkPaint& skPaint,
const SkMatrix& viewMatrix) {
if (skPaint.getRasterizer()) {
return false;
}
if (skPaint.getMaskFilter()) {
return false;
}
if (skPaint.getPathEffect()) {
return false;
}
// No hairlines unless we can map the 1 px width to the object space.
if (skPaint.getStyle() == SkPaint::kStroke_Style
&& skPaint.getStrokeWidth() == 0
&& viewMatrix.hasPerspective()) {
return false;
}
// No color bitmap fonts.
SkScalerContext::Rec rec;
SkScalerContext::MakeRec(skPaint, &fDeviceProperties, NULL, &rec);
return rec.getFormat() != SkMask::kARGB32_Format;
}
void GrStencilAndCoverTextContext::onDrawText(GrRenderTarget* rt,
const GrClip& clip,
const GrPaint& paint,
const SkPaint& skPaint,
const SkMatrix& viewMatrix,
const char text[],
size_t byteLength,
SkScalar x, SkScalar y,
const SkIRect& regionClipBounds) {
SkASSERT(byteLength == 0 || text != NULL);
if (text == NULL || byteLength == 0 /*|| fRC->isEmpty()*/) {
return;
}
// This is the slow path, mainly used by Skia unit tests. The other
// backends (8888, gpu, ...) use device-space dependent glyph caches. In
// order to match the glyph positions that the other code paths produce, we
// must also use device-space dependent glyph cache. This has the
// side-effect that the glyph shape outline will be in device-space,
// too. This in turn has the side-effect that NVPR can not stroke the paths,
// as the stroke in NVPR is defined in object-space.
// NOTE: here we have following coincidence that works at the moment:
// - When using the device-space glyphs, the transforms we pass to NVPR
// instanced drawing are the global transforms, and the view transform is
// identity. NVPR can not use non-affine transforms in the instanced
// drawing. This is taken care of by SkDraw::ShouldDrawTextAsPaths since it
// will turn off the use of device-space glyphs when perspective transforms
// are in use.
this->init(rt, clip, paint, skPaint, byteLength, kMaxAccuracy_RenderMode, viewMatrix,
regionClipBounds);
// Transform our starting point.
if (fUsingDeviceSpaceGlyphs) {
SkPoint loc;
fContextInitialMatrix.mapXY(x, y, &loc);
x = loc.fX;
y = loc.fY;
}
SkDrawCacheProc glyphCacheProc = fSkPaint.getDrawCacheProc();
const char* stop = text + byteLength;
// Measure first if needed.
if (fSkPaint.getTextAlign() != SkPaint::kLeft_Align) {
SkFixed stopX = 0;
SkFixed stopY = 0;
const char* textPtr = text;
while (textPtr < stop) {
// We don't need x, y here, since all subpixel variants will have the
// same advance.
const SkGlyph& glyph = glyphCacheProc(fGlyphCache, &textPtr, 0, 0);
stopX += glyph.fAdvanceX;
stopY += glyph.fAdvanceY;
}
SkASSERT(textPtr == stop);
SkScalar alignX = SkFixedToScalar(stopX) * fTextRatio;
SkScalar alignY = SkFixedToScalar(stopY) * fTextRatio;
if (fSkPaint.getTextAlign() == SkPaint::kCenter_Align) {
alignX = SkScalarHalf(alignX);
alignY = SkScalarHalf(alignY);
}
x -= alignX;
y -= alignY;
}
SkAutoKern autokern;
SkFixed fixedSizeRatio = SkScalarToFixed(fTextRatio);
SkFixed fx = SkScalarToFixed(x);
SkFixed fy = SkScalarToFixed(y);
while (text < stop) {
const SkGlyph& glyph = glyphCacheProc(fGlyphCache, &text, 0, 0);
fx += SkFixedMul(autokern.adjust(glyph), fixedSizeRatio);
if (glyph.fWidth) {
this->appendGlyph(glyph, SkPoint::Make(SkFixedToScalar(fx), SkFixedToScalar(fy)));
}
fx += SkFixedMul(glyph.fAdvanceX, fixedSizeRatio);
fy += SkFixedMul(glyph.fAdvanceY, fixedSizeRatio);
}
this->finish();
}
void GrStencilAndCoverTextContext::onDrawPosText(GrRenderTarget* rt,
const GrClip& clip,
const GrPaint& paint,
const SkPaint& skPaint,
const SkMatrix& viewMatrix,
const char text[],
size_t byteLength,
const SkScalar pos[],
int scalarsPerPosition,
const SkPoint& offset,
const SkIRect& regionClipBounds) {
SkASSERT(byteLength == 0 || text != NULL);
SkASSERT(1 == scalarsPerPosition || 2 == scalarsPerPosition);
// nothing to draw
if (text == NULL || byteLength == 0/* || fRC->isEmpty()*/) {
return;
}
// This is the fast path. Here we do not bake in the device-transform to
// the glyph outline or the advances. This is because we do not need to
// position the glyphs at all, since the caller has done the positioning.
// The positioning is based on SkPaint::measureText of individual
// glyphs. That already uses glyph cache without device transforms. Device
// transform is not part of SkPaint::measureText API, and thus we use the
// same glyphs as what were measured.
this->init(rt, clip, paint, skPaint, byteLength, kMaxPerformance_RenderMode, viewMatrix,
regionClipBounds);
SkDrawCacheProc glyphCacheProc = fSkPaint.getDrawCacheProc();
const char* stop = text + byteLength;
SkTextMapStateProc tmsProc(SkMatrix::I(), offset, scalarsPerPosition);
SkTextAlignProc alignProc(fSkPaint.getTextAlign());
while (text < stop) {
const SkGlyph& glyph = glyphCacheProc(fGlyphCache, &text, 0, 0);
if (glyph.fWidth) {
SkPoint tmsLoc;
tmsProc(pos, &tmsLoc);
SkPoint loc;
alignProc(tmsLoc, glyph, &loc);
this->appendGlyph(glyph, loc);
}
pos += scalarsPerPosition;
}
this->finish();
}
static GrPathRange* get_gr_glyphs(GrContext* ctx,
const SkTypeface* typeface,
const SkDescriptor* desc,
const SkStrokeRec& stroke) {
static const GrUniqueKey::Domain kDomain = GrUniqueKey::GenerateDomain();
GrUniqueKey key;
GrUniqueKey::Builder builder(&key, kDomain, 4);
struct GlyphKey {
uint32_t fChecksum;
uint32_t fTypeface;
uint64_t fStroke;
};
GlyphKey* glyphKey = reinterpret_cast<GlyphKey*>(&builder[0]);
glyphKey->fChecksum = desc ? desc->getChecksum() : 0;
glyphKey->fTypeface = typeface ? typeface->uniqueID() : 0;
glyphKey->fStroke = GrPath::ComputeStrokeKey(stroke);
builder.finish();
SkAutoTUnref<GrPathRange> glyphs(
static_cast<GrPathRange*>(ctx->findAndRefCachedResource(key)));
if (NULL == glyphs || (NULL != desc && !glyphs->isEqualTo(*desc))) {
glyphs.reset(ctx->getGpu()->pathRendering()->createGlyphs(typeface, desc, stroke));
ctx->addResourceToCache(key, glyphs);
}
return glyphs.detach();
}
void GrStencilAndCoverTextContext::init(GrRenderTarget* rt,
const GrClip& clip,
const GrPaint& paint,
const SkPaint& skPaint,
size_t textByteLength,
RenderMode renderMode,
const SkMatrix& viewMatrix,
const SkIRect& regionClipBounds) {
GrTextContext::init(rt, clip, paint, skPaint, regionClipBounds);
fContextInitialMatrix = viewMatrix;
fViewMatrix = viewMatrix;
fLocalMatrix = SkMatrix::I();
const bool otherBackendsWillDrawAsPaths =
SkDraw::ShouldDrawTextAsPaths(skPaint, fContextInitialMatrix);
fUsingDeviceSpaceGlyphs = !otherBackendsWillDrawAsPaths &&
kMaxAccuracy_RenderMode == renderMode &&
SkToBool(fContextInitialMatrix.getType() &
(SkMatrix::kScale_Mask | SkMatrix::kAffine_Mask));
if (fUsingDeviceSpaceGlyphs) {
// SkDraw::ShouldDrawTextAsPaths takes care of perspective transforms.
SkASSERT(!fContextInitialMatrix.hasPerspective());
// The whole shape (including stroke) will be baked into the glyph outlines. Make
// NVPR just fill the baked shapes.
fStroke = SkStrokeRec(SkStrokeRec::kFill_InitStyle);
fTextRatio = fTextInverseRatio = 1.0f;
// Glyphs loaded by GPU path rendering have an inverted y-direction.
SkMatrix m;
m.setScale(1, -1);
fViewMatrix = m;
// Post-flip the initial matrix so we're left with just the flip after
// the paint preConcats the inverse.
m = fContextInitialMatrix;
m.postScale(1, -1);
if (!m.invert(&fLocalMatrix)) {
SkDebugf("Not invertible!\n");
return;
}
fGlyphCache = fSkPaint.detachCache(&fDeviceProperties, &fContextInitialMatrix,
true /*ignoreGamma*/);
fGlyphs = get_gr_glyphs(fContext, fGlyphCache->getScalerContext()->getTypeface(),
&fGlyphCache->getDescriptor(), fStroke);
} else {
// Don't bake strokes into the glyph outlines. We will stroke the glyphs
// using the GPU instead. This is the fast path.
fStroke = SkStrokeRec(fSkPaint);
fSkPaint.setStyle(SkPaint::kFill_Style);
if (fStroke.isHairlineStyle()) {
// Approximate hairline stroke.
SkScalar strokeWidth = SK_Scalar1 /
(SkVector::Make(fContextInitialMatrix.getScaleX(),
fContextInitialMatrix.getSkewY()).length());
fStroke.setStrokeStyle(strokeWidth, false /*strokeAndFill*/);
} else if (fSkPaint.isFakeBoldText() &&
#ifdef SK_USE_FREETYPE_EMBOLDEN
kMaxPerformance_RenderMode == renderMode &&
#endif
SkStrokeRec::kStroke_Style != fStroke.getStyle()) {
// Instead of baking fake bold into the glyph outlines, do it with the GPU stroke.
SkScalar fakeBoldScale = SkScalarInterpFunc(fSkPaint.getTextSize(),
kStdFakeBoldInterpKeys,
kStdFakeBoldInterpValues,
kStdFakeBoldInterpLength);
SkScalar extra = SkScalarMul(fSkPaint.getTextSize(), fakeBoldScale);
fStroke.setStrokeStyle(fStroke.needToApply() ? fStroke.getWidth() + extra : extra,
true /*strokeAndFill*/);
fSkPaint.setFakeBoldText(false);
}
bool canUseRawPaths;
if (otherBackendsWillDrawAsPaths || kMaxPerformance_RenderMode == renderMode) {
// We can draw the glyphs from canonically sized paths.
fTextRatio = fSkPaint.getTextSize() / SkPaint::kCanonicalTextSizeForPaths;
fTextInverseRatio = SkPaint::kCanonicalTextSizeForPaths / fSkPaint.getTextSize();
// Compensate for the glyphs being scaled by fTextRatio.
if (!fStroke.isFillStyle()) {
fStroke.setStrokeStyle(fStroke.getWidth() / fTextRatio,
SkStrokeRec::kStrokeAndFill_Style == fStroke.getStyle());
}
fSkPaint.setLinearText(true);
fSkPaint.setLCDRenderText(false);
fSkPaint.setAutohinted(false);
fSkPaint.setHinting(SkPaint::kNo_Hinting);
fSkPaint.setSubpixelText(true);
fSkPaint.setTextSize(SkIntToScalar(SkPaint::kCanonicalTextSizeForPaths));
canUseRawPaths = SK_Scalar1 == fSkPaint.getTextScaleX() &&
0 == fSkPaint.getTextSkewX() &&
!fSkPaint.isFakeBoldText() &&
!fSkPaint.isVerticalText();
} else {
fTextRatio = fTextInverseRatio = 1.0f;
canUseRawPaths = false;
}
SkMatrix textMatrix;
// Glyphs loaded by GPU path rendering have an inverted y-direction.
textMatrix.setScale(fTextRatio, -fTextRatio);
fViewMatrix.preConcat(textMatrix);
fLocalMatrix = textMatrix;
fGlyphCache = fSkPaint.detachCache(&fDeviceProperties, NULL, true /*ignoreGamma*/);
fGlyphs = canUseRawPaths ?
get_gr_glyphs(fContext, fSkPaint.getTypeface(), NULL, fStroke) :
get_gr_glyphs(fContext, fGlyphCache->getScalerContext()->getTypeface(),
&fGlyphCache->getDescriptor(), fStroke);
}
fStateRestore.set(&fPipelineBuilder);
fPipelineBuilder.setFromPaint(fPaint, fRenderTarget, fClip);
GR_STATIC_CONST_SAME_STENCIL(kStencilPass,
kZero_StencilOp,
kZero_StencilOp,
kNotEqual_StencilFunc,
0xffff,
0x0000,
0xffff);
*fPipelineBuilder.stencil() = kStencilPass;
SkASSERT(0 == fQueuedGlyphCount);
SkASSERT(kGlyphBufferSize == fFallbackGlyphsIdx);
}
bool GrStencilAndCoverTextContext::mapToFallbackContext(SkMatrix* inverse) {
// The current view matrix is flipped because GPU path rendering glyphs have an
// inverted y-direction. Unflip the view matrix for the fallback context. If using
// device-space glyphs, we'll also need to restore the original view matrix since
// we moved that transfomation into our local glyph cache for this scenario. Also
// track the inverse operation so the caller can unmap the paint and glyph positions.
if (fUsingDeviceSpaceGlyphs) {
fViewMatrix = fContextInitialMatrix;
if (!fContextInitialMatrix.invert(inverse)) {
return false;
}
inverse->preScale(1, -1);
} else {
inverse->setScale(1, -1);
const SkMatrix& unflip = *inverse; // unflip is equal to its own inverse.
fViewMatrix.preConcat(unflip);
}
return true;
}
inline void GrStencilAndCoverTextContext::appendGlyph(const SkGlyph& glyph, const SkPoint& pos) {
if (fQueuedGlyphCount >= fFallbackGlyphsIdx) {
SkASSERT(fQueuedGlyphCount == fFallbackGlyphsIdx);
this->flush();
}
// Stick the glyphs we can't draw at the end of the buffer, growing backwards.
int index = (SkMask::kARGB32_Format == glyph.fMaskFormat) ?
--fFallbackGlyphsIdx : fQueuedGlyphCount++;
fGlyphIndices[index] = glyph.getGlyphID();
fGlyphPositions[index].set(fTextInverseRatio * pos.x(), -fTextInverseRatio * pos.y());
}
static const SkScalar* get_xy_scalar_array(const SkPoint* pointArray) {
GR_STATIC_ASSERT(2 * sizeof(SkScalar) == sizeof(SkPoint));
GR_STATIC_ASSERT(0 == offsetof(SkPoint, fX));
return &pointArray[0].fX;
}
void GrStencilAndCoverTextContext::flush() {
if (fQueuedGlyphCount > 0) {
SkAutoTUnref<GrPathProcessor> pp(GrPathProcessor::Create(fPaint.getColor(),
fViewMatrix,
fLocalMatrix));
fDrawTarget->drawPaths(&fPipelineBuilder, pp, fGlyphs,
fGlyphIndices, GrPathRange::kU16_PathIndexType,
get_xy_scalar_array(fGlyphPositions),
GrPathRendering::kTranslate_PathTransformType,
fQueuedGlyphCount, GrPathRendering::kWinding_FillType);
fQueuedGlyphCount = 0;
}
if (fFallbackGlyphsIdx < kGlyphBufferSize) {
int fallbackGlyphCount = kGlyphBufferSize - fFallbackGlyphsIdx;
GrPaint paintFallback(fPaint);
SkPaint skPaintFallback(fSkPaint);
if (!fUsingDeviceSpaceGlyphs) {
fStroke.applyToPaint(&skPaintFallback);
}
skPaintFallback.setTextAlign(SkPaint::kLeft_Align); // Align has already been accounted for.
skPaintFallback.setTextEncoding(SkPaint::kGlyphID_TextEncoding);
SkMatrix inverse;
if (this->mapToFallbackContext(&inverse)) {
inverse.mapPoints(&fGlyphPositions[fFallbackGlyphsIdx], fallbackGlyphCount);
}
fFallbackTextContext->drawPosText(fRenderTarget, fClip, paintFallback, skPaintFallback,
fViewMatrix, (char*)&fGlyphIndices[fFallbackGlyphsIdx],
2 * fallbackGlyphCount,
get_xy_scalar_array(&fGlyphPositions[fFallbackGlyphsIdx]),
2, SkPoint::Make(0, 0), fRegionClipBounds);
fFallbackGlyphsIdx = kGlyphBufferSize;
}
}
void GrStencilAndCoverTextContext::finish() {
this->flush();
fGlyphs->unref();
fGlyphs = NULL;
SkGlyphCache::AttachCache(fGlyphCache);
fGlyphCache = NULL;
fPipelineBuilder.stencil()->setDisabled();
fStateRestore.set(NULL);
fViewMatrix = fContextInitialMatrix;
GrTextContext::finish();
}
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