/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrDistanceFieldTextContext.h" #include "GrAtlas.h" #include "SkColorFilter.h" #include "GrDrawTarget.h" #include "GrDrawTargetCaps.h" #include "GrFontScaler.h" #include "SkGlyphCache.h" #include "GrGpu.h" #include "GrIndexBuffer.h" #include "GrStrokeInfo.h" #include "GrTextStrike.h" #include "GrTextStrike_impl.h" #include "SkDistanceFieldGen.h" #include "SkDraw.h" #include "SkGpuDevice.h" #include "SkPath.h" #include "SkRTConf.h" #include "SkStrokeRec.h" #include "effects/GrDistanceFieldTextureEffect.h" static const int kGlyphCoordsAttributeIndex = 1; static const int kSmallDFFontSize = 32; static const int kSmallDFFontLimit = 32; static const int kMediumDFFontSize = 64; static const int kMediumDFFontLimit = 64; static const int kLargeDFFontSize = 128; SK_CONF_DECLARE(bool, c_DumpFontCache, "gpu.dumpFontCache", false, "Dump the contents of the font cache before every purge."); GrDistanceFieldTextContext::GrDistanceFieldTextContext(GrContext* context, const SkDeviceProperties& properties, bool enable) : GrTextContext(context, properties) { #if SK_FORCE_DISTANCEFIELD_FONTS fEnableDFRendering = true; #else fEnableDFRendering = enable; #endif fStrike = NULL; fGammaTexture = NULL; fCurrTexture = NULL; fCurrVertex = 0; fVertices = NULL; fMaxVertices = 0; } GrDistanceFieldTextContext::~GrDistanceFieldTextContext() { this->flushGlyphs(); SkSafeSetNull(fGammaTexture); } bool GrDistanceFieldTextContext::canDraw(const SkPaint& paint) { if (!fEnableDFRendering && !paint.isDistanceFieldTextTEMP()) { return false; } // rasterizers and mask filters modify alpha, which doesn't // translate well to distance if (paint.getRasterizer() || paint.getMaskFilter() || !fContext->getTextTarget()->caps()->shaderDerivativeSupport()) { return false; } // TODO: add some stroking support if (paint.getStyle() != SkPaint::kFill_Style) { return false; } // TODO: choose an appropriate maximum scale for distance fields and // enable perspective if (SkDraw::ShouldDrawTextAsPaths(paint, fContext->getMatrix())) { return false; } // distance fields cannot represent color fonts SkScalerContext::Rec rec; SkScalerContext::MakeRec(paint, &fDeviceProperties, NULL, &rec); return rec.getFormat() != SkMask::kARGB32_Format; } static inline GrColor skcolor_to_grcolor_nopremultiply(SkColor c) { unsigned r = SkColorGetR(c); unsigned g = SkColorGetG(c); unsigned b = SkColorGetB(c); return GrColorPackRGBA(r, g, b, 0xff); } void GrDistanceFieldTextContext::flushGlyphs() { if (NULL == fDrawTarget) { return; } GrDrawState* drawState = fDrawTarget->drawState(); GrDrawState::AutoRestoreEffects are(drawState); drawState->setFromPaint(fPaint, fContext->getMatrix(), fContext->getRenderTarget()); if (fCurrVertex > 0) { fContext->getFontCache()->updateTextures(); // setup our sampler state for our text texture/atlas SkASSERT(SkIsAlign4(fCurrVertex)); SkASSERT(fCurrTexture); GrTextureParams params(SkShader::kRepeat_TileMode, GrTextureParams::kBilerp_FilterMode); GrTextureParams gammaParams(SkShader::kClamp_TileMode, GrTextureParams::kNone_FilterMode); // Effects could be stored with one of the cache objects (atlas?) SkColor filteredColor; SkColorFilter* colorFilter = fSkPaint.getColorFilter(); if (NULL != colorFilter) { filteredColor = colorFilter->filterColor(fSkPaint.getColor()); } else { filteredColor = fSkPaint.getColor(); } if (fUseLCDText) { GrColor colorNoPreMul = skcolor_to_grcolor_nopremultiply(filteredColor); bool useBGR = SkDeviceProperties::Geometry::kBGR_Layout == fDeviceProperties.fGeometry.getLayout(); drawState->addCoverageEffect(GrDistanceFieldLCDTextureEffect::Create( fCurrTexture, params, fGammaTexture, gammaParams, colorNoPreMul, fContext->getMatrix().rectStaysRect() && fContext->getMatrix().isSimilarity(), useBGR), kGlyphCoordsAttributeIndex)->unref(); if (kOne_GrBlendCoeff != fPaint.getSrcBlendCoeff() || kISA_GrBlendCoeff != fPaint.getDstBlendCoeff() || fPaint.numColorStages()) { GrPrintf("LCD Text will not draw correctly.\n"); } // We don't use the GrPaint's color in this case because it's been premultiplied by // alpha. Instead we feed in a non-premultiplied color, and multiply its alpha by // the mask texture color. The end result is that we get // mask*paintAlpha*paintColor + (1-mask*paintAlpha)*dstColor int a = SkColorGetA(fSkPaint.getColor()); // paintAlpha drawState->setColor(SkColorSetARGB(a, a, a, a)); // paintColor drawState->setBlendConstant(colorNoPreMul); drawState->setBlendFunc(kConstC_GrBlendCoeff, kISC_GrBlendCoeff); } else { #ifdef SK_GAMMA_APPLY_TO_A8 U8CPU lum = SkColorSpaceLuminance::computeLuminance(fDeviceProperties.fGamma, filteredColor); drawState->addCoverageEffect(GrDistanceFieldTextureEffect::Create( fCurrTexture, params, fGammaTexture, gammaParams, lum/255.f, fContext->getMatrix().isSimilarity()), kGlyphCoordsAttributeIndex)->unref(); #else drawState->addCoverageEffect(GrDistanceFieldTextureEffect::Create( fCurrTexture, params, fContext->getMatrix().isSimilarity()), kGlyphCoordsAttributeIndex)->unref(); #endif // set back to normal in case we took LCD path previously. drawState->setBlendFunc(fPaint.getSrcBlendCoeff(), fPaint.getDstBlendCoeff()); drawState->setColor(fPaint.getColor()); } int nGlyphs = fCurrVertex / 4; fDrawTarget->setIndexSourceToBuffer(fContext->getQuadIndexBuffer()); fDrawTarget->drawIndexedInstances(kTriangles_GrPrimitiveType, nGlyphs, 4, 6); fDrawTarget->resetVertexSource(); fVertices = NULL; fMaxVertices = 0; fCurrVertex = 0; SkSafeSetNull(fCurrTexture); } } namespace { // position + texture coord extern const GrVertexAttrib gTextVertexAttribs[] = { {kVec2f_GrVertexAttribType, 0, kPosition_GrVertexAttribBinding}, {kVec2f_GrVertexAttribType, sizeof(SkPoint), kEffect_GrVertexAttribBinding} }; }; void GrDistanceFieldTextContext::drawPackedGlyph(GrGlyph::PackedID packed, SkFixed vx, SkFixed vy, GrFontScaler* scaler) { if (NULL == fDrawTarget) { return; } if (NULL == fStrike) { fStrike = fContext->getFontCache()->getStrike(scaler, true); } GrGlyph* glyph = fStrike->getGlyph(packed, scaler); if (NULL == glyph || glyph->fBounds.isEmpty()) { return; } SkScalar sx = SkFixedToScalar(vx); SkScalar sy = SkFixedToScalar(vy); /* // not valid, need to find a different solution for this vx += SkIntToFixed(glyph->fBounds.fLeft); vy += SkIntToFixed(glyph->fBounds.fTop); // keep them as ints until we've done the clip-test GrFixed width = glyph->fBounds.width(); GrFixed height = glyph->fBounds.height(); // check if we clipped out if (true || NULL == glyph->fPlot) { int x = vx >> 16; int y = vy >> 16; if (fClipRect.quickReject(x, y, x + width, y + height)) { // SkCLZ(3); // so we can set a break-point in the debugger return; } } */ if (NULL == glyph->fPlot) { if (fStrike->addGlyphToAtlas(glyph, scaler)) { goto HAS_ATLAS; } // try to clear out an unused plot before we flush if (fContext->getFontCache()->freeUnusedPlot(fStrike) && fStrike->addGlyphToAtlas(glyph, scaler)) { goto HAS_ATLAS; } if (c_DumpFontCache) { #ifdef SK_DEVELOPER fContext->getFontCache()->dump(); #endif } // before we purge the cache, we must flush any accumulated draws this->flushGlyphs(); fContext->flush(); // we should have an unused plot now if (fContext->getFontCache()->freeUnusedPlot(fStrike) && fStrike->addGlyphToAtlas(glyph, scaler)) { goto HAS_ATLAS; } if (NULL == glyph->fPath) { SkPath* path = SkNEW(SkPath); if (!scaler->getGlyphPath(glyph->glyphID(), path)) { // flag the glyph as being dead? delete path; return; } glyph->fPath = path; } GrContext::AutoMatrix am; SkMatrix ctm; ctm.setScale(fTextRatio, fTextRatio); ctm.postTranslate(sx, sy); GrPaint tmpPaint(fPaint); am.setPreConcat(fContext, ctm, &tmpPaint); GrStrokeInfo strokeInfo(SkStrokeRec::kFill_InitStyle); fContext->drawPath(tmpPaint, *glyph->fPath, strokeInfo); return; } HAS_ATLAS: SkASSERT(glyph->fPlot); GrDrawTarget::DrawToken drawToken = fDrawTarget->getCurrentDrawToken(); glyph->fPlot->setDrawToken(drawToken); GrTexture* texture = glyph->fPlot->texture(); SkASSERT(texture); if (fCurrTexture != texture || fCurrVertex + 4 > fMaxVertices) { this->flushGlyphs(); fCurrTexture = texture; fCurrTexture->ref(); } if (NULL == fVertices) { // If we need to reserve vertices allow the draw target to suggest // a number of verts to reserve and whether to perform a flush. fMaxVertices = kMinRequestedVerts; fDrawTarget->drawState()->setVertexAttribs( SK_ARRAY_COUNT(gTextVertexAttribs)); bool flush = fDrawTarget->geometryHints(&fMaxVertices, NULL); if (flush) { this->flushGlyphs(); fContext->flush(); fDrawTarget->drawState()->setVertexAttribs( SK_ARRAY_COUNT(gTextVertexAttribs)); } fMaxVertices = kDefaultRequestedVerts; // ignore return, no point in flushing again. fDrawTarget->geometryHints(&fMaxVertices, NULL); int maxQuadVertices = 4 * fContext->getQuadIndexBuffer()->maxQuads(); if (fMaxVertices < kMinRequestedVerts) { fMaxVertices = kDefaultRequestedVerts; } else if (fMaxVertices > maxQuadVertices) { // don't exceed the limit of the index buffer fMaxVertices = maxQuadVertices; } bool success = fDrawTarget->reserveVertexAndIndexSpace(fMaxVertices, 0, GrTCast(&fVertices), NULL); GrAlwaysAssert(success); SkASSERT(2*sizeof(SkPoint) == fDrawTarget->getDrawState().getVertexSize()); } SkScalar dx = SkIntToScalar(glyph->fBounds.fLeft + SK_DistanceFieldInset); SkScalar dy = SkIntToScalar(glyph->fBounds.fTop + SK_DistanceFieldInset); SkScalar width = SkIntToScalar(glyph->fBounds.width() - 2*SK_DistanceFieldInset); SkScalar height = SkIntToScalar(glyph->fBounds.height() - 2*SK_DistanceFieldInset); SkScalar scale = fTextRatio; dx *= scale; dy *= scale; sx += dx; sy += dy; width *= scale; height *= scale; SkFixed tx = SkIntToFixed(glyph->fAtlasLocation.fX + SK_DistanceFieldInset); SkFixed ty = SkIntToFixed(glyph->fAtlasLocation.fY + SK_DistanceFieldInset); SkFixed tw = SkIntToFixed(glyph->fBounds.width() - 2*SK_DistanceFieldInset); SkFixed th = SkIntToFixed(glyph->fBounds.height() - 2*SK_DistanceFieldInset); static const size_t kVertexSize = 2 * sizeof(SkPoint); fVertices[2*fCurrVertex].setRectFan(sx, sy, sx + width, sy + height, kVertexSize); fVertices[2*fCurrVertex+1].setRectFan(SkFixedToFloat(texture->normalizeFixedX(tx)), SkFixedToFloat(texture->normalizeFixedY(ty)), SkFixedToFloat(texture->normalizeFixedX(tx + tw)), SkFixedToFloat(texture->normalizeFixedY(ty + th)), kVertexSize); fCurrVertex += 4; } inline void GrDistanceFieldTextContext::init(const GrPaint& paint, const SkPaint& skPaint) { GrTextContext::init(paint, skPaint); fStrike = NULL; fCurrTexture = NULL; fCurrVertex = 0; fVertices = NULL; fMaxVertices = 0; if (fSkPaint.getTextSize() <= kSmallDFFontLimit) { fTextRatio = fSkPaint.getTextSize()/kSmallDFFontSize; fSkPaint.setTextSize(SkIntToScalar(kSmallDFFontSize)); } else if (fSkPaint.getTextSize() <= kMediumDFFontLimit) { fTextRatio = fSkPaint.getTextSize()/kMediumDFFontSize; fSkPaint.setTextSize(SkIntToScalar(kMediumDFFontSize)); } else { fTextRatio = fSkPaint.getTextSize()/kLargeDFFontSize; fSkPaint.setTextSize(SkIntToScalar(kLargeDFFontSize)); } fUseLCDText = fSkPaint.isLCDRenderText(); fSkPaint.setLCDRenderText(false); fSkPaint.setAutohinted(false); fSkPaint.setHinting(SkPaint::kNormal_Hinting); fSkPaint.setSubpixelText(true); } inline void GrDistanceFieldTextContext::finish() { flushGlyphs(); GrTextContext::finish(); } static void setup_gamma_texture(GrContext* context, const SkGlyphCache* cache, const SkDeviceProperties& deviceProperties, GrTexture** gammaTexture) { if (NULL == *gammaTexture) { int width, height; size_t size; #ifdef SK_GAMMA_CONTRAST SkScalar contrast = SK_GAMMA_CONTRAST; #else SkScalar contrast = 0.5f; #endif SkScalar paintGamma = deviceProperties.fGamma; SkScalar deviceGamma = deviceProperties.fGamma; size = SkScalerContext::GetGammaLUTSize(contrast, paintGamma, deviceGamma, &width, &height); SkAutoTArray data((int)size); SkScalerContext::GetGammaLUTData(contrast, paintGamma, deviceGamma, data.get()); // TODO: Update this to use the cache rather than directly creating a texture. GrTextureDesc desc; desc.fFlags = kDynamicUpdate_GrTextureFlagBit; desc.fWidth = width; desc.fHeight = height; desc.fConfig = kAlpha_8_GrPixelConfig; *gammaTexture = context->getGpu()->createTexture(desc, NULL, 0); if (NULL == *gammaTexture) { return; } context->writeTexturePixels(*gammaTexture, 0, 0, width, height, (*gammaTexture)->config(), data.get(), 0, GrContext::kDontFlush_PixelOpsFlag); } } void GrDistanceFieldTextContext::drawText(const GrPaint& paint, const SkPaint& skPaint, const char text[], size_t byteLength, SkScalar x, SkScalar y) { SkASSERT(byteLength == 0 || text != NULL); // nothing to draw or can't draw if (text == NULL || byteLength == 0 /* no raster clip? || fRC->isEmpty()*/ || fSkPaint.getRasterizer()) { return; } this->init(paint, skPaint); SkScalar sizeRatio = fTextRatio; SkDrawCacheProc glyphCacheProc = fSkPaint.getDrawCacheProc(); SkAutoGlyphCacheNoGamma autoCache(fSkPaint, &fDeviceProperties, NULL); SkGlyphCache* cache = autoCache.getCache(); GrFontScaler* fontScaler = GetGrFontScaler(cache); setup_gamma_texture(fContext, cache, fDeviceProperties, &fGammaTexture); // need to measure first // TODO - generate positions and pre-load cache as well? const char* stop = text + byteLength; if (fSkPaint.getTextAlign() != SkPaint::kLeft_Align) { SkFixed stopX = 0; SkFixed stopY = 0; const char* textPtr = text; while (textPtr < stop) { // don't need x, y here, since all subpixel variants will have the // same advance const SkGlyph& glyph = glyphCacheProc(cache, &textPtr, 0, 0); stopX += glyph.fAdvanceX; stopY += glyph.fAdvanceY; } SkASSERT(textPtr == stop); SkScalar alignX = SkFixedToScalar(stopX)*sizeRatio; SkScalar alignY = SkFixedToScalar(stopY)*sizeRatio; if (fSkPaint.getTextAlign() == SkPaint::kCenter_Align) { alignX = SkScalarHalf(alignX); alignY = SkScalarHalf(alignY); } x -= alignX; y -= alignY; } SkFixed fx = SkScalarToFixed(x); SkFixed fy = SkScalarToFixed(y); SkFixed fixedScale = SkScalarToFixed(sizeRatio); while (text < stop) { const SkGlyph& glyph = glyphCacheProc(cache, &text, 0, 0); if (glyph.fWidth) { this->drawPackedGlyph(GrGlyph::Pack(glyph.getGlyphID(), glyph.getSubXFixed(), glyph.getSubYFixed()), fx, fy, fontScaler); } fx += SkFixedMul_portable(glyph.fAdvanceX, fixedScale); fy += SkFixedMul_portable(glyph.fAdvanceY, fixedScale); } this->finish(); } void GrDistanceFieldTextContext::drawPosText(const GrPaint& paint, const SkPaint& skPaint, const char text[], size_t byteLength, const SkScalar pos[], SkScalar constY, int scalarsPerPosition) { SkASSERT(byteLength == 0 || text != NULL); SkASSERT(1 == scalarsPerPosition || 2 == scalarsPerPosition); // nothing to draw if (text == NULL || byteLength == 0 /* no raster clip? || fRC->isEmpty()*/) { return; } this->init(paint, skPaint); SkDrawCacheProc glyphCacheProc = fSkPaint.getDrawCacheProc(); SkAutoGlyphCacheNoGamma autoCache(fSkPaint, &fDeviceProperties, NULL); SkGlyphCache* cache = autoCache.getCache(); GrFontScaler* fontScaler = GetGrFontScaler(cache); setup_gamma_texture(fContext, cache, fDeviceProperties, &fGammaTexture); const char* stop = text + byteLength; if (SkPaint::kLeft_Align == fSkPaint.getTextAlign()) { while (text < stop) { // the last 2 parameters are ignored const SkGlyph& glyph = glyphCacheProc(cache, &text, 0, 0); if (glyph.fWidth) { SkScalar x = pos[0]; SkScalar y = scalarsPerPosition == 1 ? constY : pos[1]; this->drawPackedGlyph(GrGlyph::Pack(glyph.getGlyphID(), glyph.getSubXFixed(), glyph.getSubYFixed()), SkScalarToFixed(x), SkScalarToFixed(y), fontScaler); } pos += scalarsPerPosition; } } else { int alignShift = SkPaint::kCenter_Align == fSkPaint.getTextAlign() ? 1 : 0; while (text < stop) { // the last 2 parameters are ignored const SkGlyph& glyph = glyphCacheProc(cache, &text, 0, 0); if (glyph.fWidth) { SkScalar x = pos[0]; SkScalar y = scalarsPerPosition == 1 ? constY : pos[1]; this->drawPackedGlyph(GrGlyph::Pack(glyph.getGlyphID(), glyph.getSubXFixed(), glyph.getSubYFixed()), SkScalarToFixed(x) - (glyph.fAdvanceX >> alignShift), SkScalarToFixed(y) - (glyph.fAdvanceY >> alignShift), fontScaler); } pos += scalarsPerPosition; } } this->finish(); }