/* * Copyright 2022 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/gpu/graphite/render/SDFTextRenderStep.h" #include "include/core/SkM44.h" #include "include/gpu/graphite/Recorder.h" #include "src/gpu/graphite/AtlasProvider.h" #include "src/gpu/graphite/ContextUtils.h" #include "src/gpu/graphite/DrawParams.h" #include "src/gpu/graphite/DrawWriter.h" #include "src/gpu/graphite/PipelineData.h" #include "src/gpu/graphite/RecorderPriv.h" #include "src/gpu/graphite/render/CommonDepthStencilSettings.h" #include "src/gpu/graphite/text/TextAtlasManager.h" #include "src/sksl/SkSLString.h" #include "src/text/gpu/DistanceFieldAdjustTable.h" #include "src/text/gpu/SubRunContainer.h" #include "src/text/gpu/VertexFiller.h" #if defined(SK_GAMMA_APPLY_TO_A8) #include "include/private/base/SkCPUTypes.h" #include "src/core/SkMaskGamma.h" #endif namespace skgpu::graphite { namespace { // We are expecting to sample from up to 4 textures constexpr int kNumSDFAtlasTextures = 4; } // namespace SDFTextRenderStep::SDFTextRenderStep() : RenderStep("SDFTextRenderStep", "", Flags::kPerformsShading | Flags::kHasTextures | Flags::kEmitsCoverage, /*uniforms=*/{{"subRunDeviceMatrix", SkSLType::kFloat4x4}, {"deviceToLocal", SkSLType::kFloat4x4}, {"atlasSizeInv", SkSLType::kFloat2}, {"gammaParams", SkSLType::kHalf2}}, PrimitiveType::kTriangleStrip, kDirectDepthGEqualPass, /*vertexAttrs=*/ {}, /*instanceAttrs=*/ {{"size", VertexAttribType::kUShort2, SkSLType::kUShort2}, {"uvPos", VertexAttribType::kUShort2, SkSLType::kUShort2}, {"xyPos", VertexAttribType::kFloat2, SkSLType::kFloat2}, {"indexAndFlags", VertexAttribType::kUShort2, SkSLType::kUShort2}, {"strikeToSourceScale", VertexAttribType::kFloat, SkSLType::kFloat}, {"depth", VertexAttribType::kFloat, SkSLType::kFloat}, {"ssboIndices", VertexAttribType::kUShort2, SkSLType::kUShort2}}, /*varyings=*/ {{"unormTexCoords", SkSLType::kFloat2}, {"textureCoords", SkSLType::kFloat2}, {"texIndex", SkSLType::kFloat}}) {} SDFTextRenderStep::~SDFTextRenderStep() {} std::string SDFTextRenderStep::vertexSkSL() const { // Returns the body of a vertex function, which must define a float4 devPosition variable and // must write to an already-defined float2 stepLocalCoords variable. return "texIndex = half(indexAndFlags.x);" "float4 devPosition = text_vertex_fn(float2(sk_VertexID >> 1, sk_VertexID & 1), " "subRunDeviceMatrix, " "deviceToLocal, " "atlasSizeInv, " "float2(size), " "float2(uvPos), " "xyPos, " "strikeToSourceScale, " "depth, " "textureCoords, " "unormTexCoords, " "stepLocalCoords);"; } std::string SDFTextRenderStep::texturesAndSamplersSkSL( const ResourceBindingRequirements& bindingReqs, int* nextBindingIndex) const { std::string result; for (unsigned int i = 0; i < kNumSDFAtlasTextures; ++i) { result += EmitSamplerLayout(bindingReqs, nextBindingIndex); SkSL::String::appendf(&result, " sampler2D sdf_atlas_%u;\n", i); } return result; } const char* SDFTextRenderStep::fragmentCoverageSkSL() const { // The returned SkSL must write its coverage into a 'half4 outputCoverage' variable (defined in // the calling code) with the actual coverage splatted out into all four channels. // TODO: To minimize the number of shaders generated this is the full affine shader. // For best performance it may be worth creating the uniform scale shader as well, // as that's the most common case. // TODO: Need to add 565 support. // TODO: Need aliased and possibly sRGB support. static_assert(kNumSDFAtlasTextures == 4); return "outputCoverage = sdf_text_coverage_fn(sample_indexed_atlas(textureCoords, " "int(texIndex), " "sdf_atlas_0, " "sdf_atlas_1, " "sdf_atlas_2, " "sdf_atlas_3).r, " "gammaParams, " "unormTexCoords);"; } void SDFTextRenderStep::writeVertices(DrawWriter* dw, const DrawParams& params, skvx::ushort2 ssboIndices) const { const SubRunData& subRunData = params.geometry().subRunData(); subRunData.subRun()->vertexFiller().fillInstanceData(dw, subRunData.startGlyphIndex(), subRunData.glyphCount(), subRunData.subRun()->instanceFlags(), ssboIndices, subRunData.subRun()->glyphs(), params.order().depthAsFloat()); } void SDFTextRenderStep::writeUniformsAndTextures(const DrawParams& params, PipelineDataGatherer* gatherer) const { SkDEBUGCODE(UniformExpectationsValidator uev(gatherer, this->uniforms());) const SubRunData& subRunData = params.geometry().subRunData(); unsigned int numProxies; Recorder* recorder = subRunData.recorder(); const sk_sp* proxies = recorder->priv().atlasProvider()->textAtlasManager()->getProxies( subRunData.subRun()->maskFormat(), &numProxies); SkASSERT(proxies && numProxies > 0); // write uniforms gatherer->write(params.transform().matrix()); // subRunDeviceMatrix gatherer->write(subRunData.deviceToLocal()); SkV2 atlasDimensionsInverse = {1.f/proxies[0]->dimensions().width(), 1.f/proxies[0]->dimensions().height()}; gatherer->write(atlasDimensionsInverse); float gammaAdjustment = 0; // TODO: generate LCD adjustment #if defined(SK_GAMMA_APPLY_TO_A8) auto dfAdjustTable = sktext::gpu::DistanceFieldAdjustTable::Get(); // TODO: don't do this for aliased text U8CPU lum = SkColorSpaceLuminance::computeLuminance(SK_GAMMA_EXPONENT, subRunData.luminanceColor()); gammaAdjustment = dfAdjustTable->getAdjustment(lum, subRunData.useGammaCorrectDistanceTable()); #endif SkV2 gammaParams = {gammaAdjustment, subRunData.useGammaCorrectDistanceTable() ? 1.f : 0.f}; gatherer->writeHalf(gammaParams); // write textures and samplers const SkSamplingOptions kSamplingOptions(SkFilterMode::kLinear); constexpr SkTileMode kTileModes[2] = { SkTileMode::kClamp, SkTileMode::kClamp }; for (unsigned int i = 0; i < numProxies; ++i) { gatherer->add(kSamplingOptions, kTileModes, proxies[i]); } // If the atlas has less than 4 active proxies we still need to set up samplers for the shader. for (unsigned int i = numProxies; i < kNumSDFAtlasTextures; ++i) { gatherer->add(kSamplingOptions, kTileModes, proxies[0]); } } } // namespace skgpu::graphite