Blame - src/gpu/ccpr/GrCCPRCoverageProcessor.cpp - platform/external/skqp

2017-07-14 15:17:41 -0600

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/*

*

* Use of this source code is governed by a BSD-style license that can be

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* found in the LICENSE file.

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*/

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#include "GrCCPRCoverageProcessor.h"

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Robert Phillips

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#include "GrRenderTargetProxy.h"

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#include "ccpr/GrCCPRTriangleProcessor.h"

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#include "ccpr/GrCCPRQuadraticProcessor.h"

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#include "ccpr/GrCCPRCubicProcessor.h"

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#include "glsl/GrGLSLFragmentShaderBuilder.h"

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#include "glsl/GrGLSLGeometryShaderBuilder.h"

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#include "glsl/GrGLSLProgramBuilder.h"

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#include "glsl/GrGLSLVertexShaderBuilder.h"

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const char* GrCCPRCoverageProcessor::GetProcessorName(Mode mode) {

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switch (mode) {

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case Mode::kTriangleHulls:

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return "GrCCPRTriangleHullAndEdgeProcessor (hulls)";

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case Mode::kTriangleEdges:

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return "GrCCPRTriangleHullAndEdgeProcessor (edges)";

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case Mode::kCombinedTriangleHullsAndEdges:

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return "GrCCPRTriangleHullAndEdgeProcessor (combined hulls & edges)";

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case Mode::kTriangleCorners:

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return "GrCCPRTriangleCornerProcessor";

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case Mode::kQuadraticHulls:

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return "GrCCPRQuadraticHullProcessor";

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case Mode::kQuadraticCorners:

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return "GrCCPRQuadraticCornerProcessor";

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case Mode::kSerpentineHulls:

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return "GrCCPRCubicHullProcessor (serpentine)";

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case Mode::kLoopHulls:

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return "GrCCPRCubicHullProcessor (loop)";

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case Mode::kSerpentineCorners:

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return "GrCCPRCubicCornerProcessor (serpentine)";

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case Mode::kLoopCorners:

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return "GrCCPRCubicCornerProcessor (loop)";

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}

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SK_ABORT("Unexpected ccpr coverage processor mode.");

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return nullptr;

}

GrCCPRCoverageProcessor::GrCCPRCoverageProcessor(Mode mode, GrBuffer* pointsBuffer)

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: fMode(mode)

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, fInstanceAttrib(this->addInstanceAttrib("instance", InstanceArrayFormat(mode),

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kHigh_GrSLPrecision)) {

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fPointsBufferAccess.reset(kRG_float_GrPixelConfig, pointsBuffer, kVertex_GrShaderFlag);

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this->addBufferAccess(&fPointsBufferAccess);

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this->setWillUseGeoShader();

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this->initClassID<GrCCPRCoverageProcessor>();

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}

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void GrCCPRCoverageProcessor::getGLSLProcessorKey(const GrShaderCaps&,

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GrProcessorKeyBuilder* b) const {

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b->add32(int(fMode));

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}

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GrGLSLPrimitiveProcessor* GrCCPRCoverageProcessor::createGLSLInstance(const GrShaderCaps&) const {

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switch (fMode) {

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using GeometryType = GrCCPRTriangleHullAndEdgeProcessor::GeometryType;

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case Mode::kTriangleHulls:

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return new GrCCPRTriangleHullAndEdgeProcessor(GeometryType::kHulls);

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case Mode::kTriangleEdges:

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return new GrCCPRTriangleHullAndEdgeProcessor(GeometryType::kEdges);

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case Mode::kCombinedTriangleHullsAndEdges:

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return new GrCCPRTriangleHullAndEdgeProcessor(GeometryType::kHullsAndEdges);

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case Mode::kTriangleCorners:

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return new GrCCPRTriangleCornerProcessor();

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case Mode::kQuadraticHulls:

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return new GrCCPRQuadraticHullProcessor();

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case Mode::kQuadraticCorners:

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return new GrCCPRQuadraticCornerProcessor();

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case Mode::kSerpentineHulls:

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return new GrCCPRCubicHullProcessor(GrCCPRCubicProcessor::CubicType::kSerpentine);

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case Mode::kLoopHulls:

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return new GrCCPRCubicHullProcessor(GrCCPRCubicProcessor::CubicType::kLoop);

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case Mode::kSerpentineCorners:

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return new GrCCPRCubicCornerProcessor(GrCCPRCubicProcessor::CubicType::kSerpentine);

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case Mode::kLoopCorners:

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return new GrCCPRCubicCornerProcessor(GrCCPRCubicProcessor::CubicType::kLoop);

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}

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SK_ABORT("Unexpected ccpr coverage processor mode.");

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return nullptr;

}

using PrimitiveProcessor = GrCCPRCoverageProcessor::PrimitiveProcessor;

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void PrimitiveProcessor::onEmitCode(EmitArgs& args, GrGPArgs* gpArgs) {

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const GrCCPRCoverageProcessor& proc = args.fGP.cast<GrCCPRCoverageProcessor>();

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GrGLSLVaryingHandler* varyingHandler = args.fVaryingHandler;

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switch (fCoverageType) {

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case CoverageType::kOne:

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case CoverageType::kShader:

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varyingHandler->addFlatVarying("wind", &fFragWind, kLow_GrSLPrecision);

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break;

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case CoverageType::kInterpolated:

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varyingHandler->addVarying("coverage_times_wind", &fFragCoverageTimesWind,

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kMedium_GrSLPrecision);

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break;

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}

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this->resetVaryings(varyingHandler);

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varyingHandler->emitAttributes(proc);

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this->emitVertexShader(proc, args.fVertBuilder, args.fTexelBuffers[0], args.fRTAdjustName,

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gpArgs);

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this->emitGeometryShader(proc, args.fGeomBuilder, args.fRTAdjustName);

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this->emitCoverage(proc, args.fFragBuilder, args.fOutputColor, args.fOutputCoverage);

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SkASSERT(!args.fFPCoordTransformHandler->nextCoordTransform());

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}

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void PrimitiveProcessor::emitVertexShader(const GrCCPRCoverageProcessor& proc,

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GrGLSLVertexBuilder* v,

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const TexelBufferHandle& pointsBuffer,

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const char* rtAdjust, GrGPArgs* gpArgs) const {

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v->codeAppendf("int packedoffset = %s[%i];", proc.instanceAttrib(), proc.atlasOffsetIdx());

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v->codeAppend ("highp float2 atlasoffset = float2((packedoffset<<16) >> 16, "

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"packedoffset >> 16);");

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this->onEmitVertexShader(proc, v, pointsBuffer, "atlasoffset", rtAdjust, gpArgs);

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}

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void PrimitiveProcessor::emitGeometryShader(const GrCCPRCoverageProcessor& proc,

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GrGLSLGeometryBuilder* g, const char* rtAdjust) const {

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g->declareGlobal(fGeomWind);

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this->emitWind(g, rtAdjust, fGeomWind.c_str());

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SkString emitVertexFn;

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SkSTArray<2, GrShaderVar> emitArgs;

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const char* position = emitArgs.emplace_back("position", kVec2f_GrSLType,

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GrShaderVar::kNonArray,

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kHigh_GrSLPrecision).c_str();

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const char* coverage = emitArgs.emplace_back("coverage", kFloat_GrSLType,

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GrShaderVar::kNonArray,

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kHigh_GrSLPrecision).c_str();

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g->emitFunction(kVoid_GrSLType, "emitVertex", emitArgs.count(), emitArgs.begin(), [&]() {

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SkString fnBody;

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this->emitPerVertexGeometryCode(&fnBody, position, coverage, fGeomWind.c_str());

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if (fFragWind.gsOut()) {

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fnBody.appendf("%s = %s;", fFragWind.gsOut(), fGeomWind.c_str());

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}

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if (fFragCoverageTimesWind.gsOut()) {

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fnBody.appendf("%s = %s * %s;",

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fFragCoverageTimesWind.gsOut(), coverage, fGeomWind.c_str());

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}

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fnBody.append ("gl_Position = float4(position, 0, 1);");

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fnBody.append ("EmitVertex();");

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return fnBody;

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}().c_str(), &emitVertexFn);

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g->codeAppendf("highp float2 bloat = %f * abs(%s.xz);", kAABloatRadius, rtAdjust);

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#ifdef SK_DEBUG

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if (proc.debugVisualizations()) {

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g->codeAppendf("bloat *= %f;", GrCCPRCoverageProcessor::kDebugBloat);

}

#endif

return this->onEmitGeometryShader(g, emitVertexFn.c_str(), fGeomWind.c_str(), rtAdjust);

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}

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int PrimitiveProcessor::emitHullGeometry(GrGLSLGeometryBuilder* g, const char* emitVertexFn,

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const char* polygonPts, int numSides,

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const char* wedgeIdx, const char* midpoint) const {

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SkASSERT(numSides >= 3);

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if (!midpoint) {

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g->codeAppendf("highp float2 midpoint = %s * float%i(%f);",

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polygonPts, numSides, 1.0 / numSides);

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midpoint = "midpoint";

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}

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g->codeAppendf("int previdx = (%s + %i) %% %i, "

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"nextidx = (%s + 1) %% %i;",

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wedgeIdx, numSides - 1, numSides, wedgeIdx, numSides);

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g->codeAppendf("highp float2 self = %s[%s];"

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"highp int leftidx = %s > 0 ? previdx : nextidx;"

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"highp int rightidx = %s > 0 ? nextidx : previdx;",

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polygonPts, wedgeIdx, fGeomWind.c_str(), fGeomWind.c_str());

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// Which quadrant does the vector from self -> right fall into?

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g->codeAppendf("highp float2 right = %s[rightidx];", polygonPts);

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if (3 == numSides) {

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// TODO: evaluate perf gains.

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g->codeAppend ("highp float2 qsr = sign(right - self);");

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} else {

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SkASSERT(4 == numSides);

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g->codeAppendf("highp float2 diag = %s[(%s + 2) %% 4];", polygonPts, wedgeIdx);

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g->codeAppend ("highp float2 qsr = sign((right != self ? right : diag) - self);");

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}

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// Which quadrant does the vector from left -> self fall into?

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g->codeAppendf("highp float2 qls = sign(self - %s[leftidx]);", polygonPts);

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// d2 just helps us reduce triangle counts with orthogonal, axis-aligned lines.

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// TODO: evaluate perf gains.

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const char* dr2 = "dr";

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if (3 == numSides) {

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// TODO: evaluate perf gains.

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g->codeAppend ("highp float2 dr = float2(qsr.y != 0 ? +qsr.y : +qsr.x, "

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"qsr.x != 0 ? -qsr.x : +qsr.y);");

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g->codeAppend ("highp float2 dr2 = float2(qsr.y != 0 ? +qsr.y : -qsr.x, "

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"qsr.x != 0 ? -qsr.x : -qsr.y);");

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g->codeAppend ("highp float2 dl = float2(qls.y != 0 ? +qls.y : +qls.x, "

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"qls.x != 0 ? -qls.x : +qls.y);");

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dr2 = "dr2";

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} else {

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g->codeAppend ("highp float2 dr = float2(qsr.y != 0 ? +qsr.y : 1, "

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"qsr.x != 0 ? -qsr.x : 1);");

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g->codeAppend ("highp float2 dl = (qls == float2(0)) ? dr : "

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"float2(qls.y != 0 ? +qls.y : 1, qls.x != 0 ? -qls.x : 1);");

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}

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g->codeAppendf("bool2 dnotequal = notEqual(%s, dl);", dr2);

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// Emit one third of what is the convex hull of pixel-size boxes centered on the vertices.

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// Each invocation emits a different third.

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g->codeAppendf("%s(right + bloat * dr, 1);", emitVertexFn);

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g->codeAppendf("%s(%s, 1);", emitVertexFn, midpoint);

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g->codeAppendf("%s(self + bloat * %s, 1);", emitVertexFn, dr2);

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g->codeAppend ("if (any(dnotequal)) {");

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g->codeAppendf( "%s(self + bloat * dl, 1);", emitVertexFn);

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g->codeAppend ("}");

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g->codeAppend ("if (all(dnotequal)) {");

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g->codeAppendf( "%s(self + bloat * float2(-dl.y, dl.x), 1);", emitVertexFn);

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g->codeAppend ("}");

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g->codeAppend ("EndPrimitive();");

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return 5;

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}

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int PrimitiveProcessor::emitEdgeGeometry(GrGLSLGeometryBuilder* g, const char* emitVertexFn,

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const char* leftPt, const char* rightPt,

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const char* distanceEquation) const {

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if (!distanceEquation) {

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this->emitEdgeDistanceEquation(g, leftPt, rightPt, "highp float3 edge_distance_equation");

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distanceEquation = "edge_distance_equation";

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}

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// qlr is defined in emitEdgeDistanceEquation.

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g->codeAppendf("highp float2x2 endpts = float2x2(%s - bloat * qlr, %s + bloat * qlr);",

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leftPt, rightPt);

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g->codeAppendf("mediump float2 endpts_coverage = %s.xy * endpts + %s.z;",

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distanceEquation, distanceEquation);

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// d1 is defined in emitEdgeDistanceEquation.

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g->codeAppend ("highp float2 d2 = d1;");

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g->codeAppend ("bool aligned = qlr.x == 0 || qlr.y == 0;");

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g->codeAppend ("if (aligned) {");

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g->codeAppend ( "d1 -= qlr;");

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g->codeAppend ( "d2 += qlr;");

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g->codeAppend ("}");

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// Emit the convex hull of 2 pixel-size boxes centered on the endpoints of the edge. Each

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// invocation emits a different edge. Emit negative coverage that subtracts the appropiate

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// amount back out from the hull we drew above.

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g->codeAppend ("if (!aligned) {");

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g->codeAppendf( "%s(endpts[0], endpts_coverage[0]);", emitVertexFn);

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g->codeAppend ("}");

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g->codeAppendf("%s(%s + bloat * d1, -1);", emitVertexFn, leftPt);

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g->codeAppendf("%s(%s - bloat * d2, 0);", emitVertexFn, leftPt);

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g->codeAppendf("%s(%s + bloat * d2, -1);", emitVertexFn, rightPt);

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g->codeAppendf("%s(%s - bloat * d1, 0);", emitVertexFn, rightPt);

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g->codeAppend ("if (!aligned) {");

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g->codeAppendf( "%s(endpts[1], endpts_coverage[1]);", emitVertexFn);

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g->codeAppend ("}");

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g->codeAppend ("EndPrimitive();");

return 6;

}

void PrimitiveProcessor::emitEdgeDistanceEquation(GrGLSLGeometryBuilder* g,

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const char* leftPt, const char* rightPt,

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const char* outputDistanceEquation) const {

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// Which quadrant does the vector from left -> right fall into?

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g->codeAppendf("highp float2 qlr = sign(%s - %s);", rightPt, leftPt);

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g->codeAppend ("highp float2 d1 = float2(qlr.y, -qlr.x);");

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g->codeAppendf("highp float2 n = float2(%s.y - %s.y, %s.x - %s.x);",

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rightPt, leftPt, leftPt, rightPt);

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g->codeAppendf("highp float2 kk = n * float2x2(%s + bloat * d1, %s - bloat * d1);",

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leftPt, leftPt);

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// Clamp for when n=0. wind=0 when n=0 so as long as we don't get Inf or NaN we are fine.

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g->codeAppendf("highp float scale = 1 / max(kk[0] - kk[1], 1e-30);");

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g->codeAppendf("%s = float3(-n, kk[1]) * scale;", outputDistanceEquation);

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}

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int PrimitiveProcessor::emitCornerGeometry(GrGLSLGeometryBuilder* g, const char* emitVertexFn,

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const char* pt) const {

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g->codeAppendf("%s(%s + float2(-bloat.x, -bloat.y), 1);", emitVertexFn, pt);

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g->codeAppendf("%s(%s + float2(-bloat.x, +bloat.y), 1);", emitVertexFn, pt);

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g->codeAppendf("%s(%s + float2(+bloat.x, -bloat.y), 1);", emitVertexFn, pt);

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g->codeAppendf("%s(%s + float2(+bloat.x, +bloat.y), 1);", emitVertexFn, pt);

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g->codeAppend ("EndPrimitive();");

return 4;

}

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void PrimitiveProcessor::emitCoverage(const GrCCPRCoverageProcessor& proc, GrGLSLFragmentBuilder* f,

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const char* outputColor, const char* outputCoverage) const {

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switch (fCoverageType) {

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case CoverageType::kOne:

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f->codeAppendf("%s.a = %s;", outputColor, fFragWind.fsIn());

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break;

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case CoverageType::kInterpolated:

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f->codeAppendf("%s.a = %s;", outputColor, fFragCoverageTimesWind.fsIn());

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break;

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case CoverageType::kShader:

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f->codeAppendf("mediump float coverage = 0;");

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this->emitShaderCoverage(f, "coverage");

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f->codeAppendf("%s.a = coverage * %s;", outputColor, fFragWind.fsIn());

break;

}

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f->codeAppendf("%s = float4(1);", outputCoverage);

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#ifdef SK_DEBUG

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if (proc.debugVisualizations()) {

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f->codeAppendf("%s = float4(-%s.a, %s.a, 0, 1);", outputColor, outputColor, outputColor);

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}

#endif

}

int PrimitiveProcessor::defineSoftSampleLocations(GrGLSLFragmentBuilder* f,

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const char* samplesName) const {

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// Standard DX11 sample locations.

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#if defined(SK_BUILD_FOR_ANDROID) || defined(SK_BUILD_FOR_IOS)

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f->defineConstant("highp float2[8]", samplesName, "float2[8]("

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"float2(+1, -3)/16, float2(-1, +3)/16, float2(+5, +1)/16, float2(-3, -5)/16, "

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"float2(-5, +5)/16, float2(-7, -1)/16, float2(+3, +7)/16, float2(+7, -7)/16."

Chris Dalton

2017-07-14 15:17:41 -0600

[diff] [blame]

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")");

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return 8;

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#else

Brian Salomon

2017-08-17 11:07:59 -0400

[diff] [blame]

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f->defineConstant("highp float2[16]", samplesName, "float2[16]("

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"float2(+1, +1)/16, float2(-1, -3)/16, float2(-3, +2)/16, float2(+4, -1)/16, "

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"float2(-5, -2)/16, float2(+2, +5)/16, float2(+5, +3)/16, float2(+3, -5)/16, "

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"float2(-2, +6)/16, float2( 0, -7)/16, float2(-4, -6)/16, float2(-6, +4)/16, "

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"float2(-8, 0)/16, float2(+7, -4)/16, float2(+6, +7)/16, float2(-7, -8)/16."

Chris Dalton

2017-07-14 15:17:41 -0600

[diff] [blame]

")");

return 16;

#endif

}

#ifdef SK_DEBUG

#include "GrRenderTarget.h"

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Robert Phillips

2890fbf

2017-07-26 15:48:41 -0400

[diff] [blame]

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void GrCCPRCoverageProcessor::Validate(GrRenderTargetProxy* atlasProxy) {

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SkASSERT(kAtlasOrigin == atlasProxy->origin());

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SkASSERT(GrPixelConfigIsAlphaOnly(atlasProxy->config()));

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SkASSERT(GrPixelConfigIsFloatingPoint(atlasProxy->config()));

Chris Dalton