src/gpu/graphite/render/VerticesRenderStep.cpp - skia - Git at Google

 /*
  * 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/VerticesRenderStep.h"

 #include "src/core/SkSLTypeShared.h"
 #include "src/core/SkVertState.h"
 #include "src/core/SkVerticesPriv.h"
 #include "src/gpu/graphite/DrawParams.h"
 #include "src/gpu/graphite/DrawTypes.h"
 #include "src/gpu/graphite/DrawWriter.h"
 #include "src/gpu/graphite/PipelineData.h"
 #include "src/gpu/graphite/render/CommonDepthStencilSettings.h"

 namespace skgpu::graphite {

 namespace {

 static constexpr Attribute kPositionAttr =
         {"position", VertexAttribType::kFloat2, SkSLType::kFloat2};
 static constexpr Attribute kTexCoordAttr =
         {"texCoords", VertexAttribType::kFloat2, SkSLType::kFloat2};
 static constexpr Attribute kColorAttr =
         {"vertColor", VertexAttribType::kUByte4_norm, SkSLType::kHalf4};
 static constexpr Attribute kSsboIndexAttr =
         {"ssboIndex", VertexAttribType::kInt, SkSLType::kInt};

 static constexpr Attribute kAttributePositionOnly[] =
         {kPositionAttr, kSsboIndexAttr};
 static constexpr Attribute kAttributeColor[] =
         {kPositionAttr, kColorAttr, kSsboIndexAttr};
 static constexpr Attribute kAttributeTexCoords[] =
         {kPositionAttr, kTexCoordAttr, kSsboIndexAttr};
 static constexpr Attribute kAttributeColorAndTexCoords[] =
         {kPositionAttr, kColorAttr, kTexCoordAttr, kSsboIndexAttr};

 static constexpr SkSpan<const Attribute> kAttributes[4] = {
         kAttributePositionOnly,
         kAttributeColor,
         kAttributeTexCoords,
         kAttributeColorAndTexCoords,
     };

 static constexpr Varying kVaryingColor[] =
         {{"color", SkSLType::kHalf4}};

 static constexpr SkSpan<const Varying> kVaryings[2] = {
         /*none*/  {},
         /*color*/ kVaryingColor
     };

 std::string variant_name(PrimitiveType type, bool hasColor, bool hasTexCoords) {
     SkASSERT(type == PrimitiveType::kTriangles || type == PrimitiveType::kTriangleStrip);
     std::string name = (type == PrimitiveType::kTriangles ? "tris" : "tristrips");
     if (hasColor) {
         name += "-color";
     }
     if (hasTexCoords) {
         name += "-texCoords";
     }
     return name;
 }

 }  // namespace

 VerticesRenderStep::VerticesRenderStep(PrimitiveType type, bool hasColor, bool hasTexCoords)
         : RenderStep("VerticesRenderStep",
                      variant_name(type, hasColor, hasTexCoords),
                      hasColor ? Flags::kEmitsPrimitiveColor | Flags::kPerformsShading
                               : Flags::kPerformsShading,
                      /*uniforms=*/{{"localToDevice", SkSLType::kFloat4x4},
                                    {"depth", SkSLType::kFloat}},
                      type,
                      kDirectDepthGEqualPass,
                      /*vertexAttrs=*/  kAttributes[2*hasTexCoords + hasColor],
                      /*instanceAttrs=*/{},
                      /*varyings=*/     kVaryings[hasColor])
         , fHasColor(hasColor)
         , fHasTexCoords(hasTexCoords) {}

 VerticesRenderStep::~VerticesRenderStep() {}

 std::string VerticesRenderStep::vertexSkSL() const {
     if (fHasColor && fHasTexCoords) {
         return R"(
             color = half4(vertColor.bgr * vertColor.a, vertColor.a);
             float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
             devPosition.z = depth;
             stepLocalCoords = texCoords;
         )";
     } else if (fHasTexCoords) {
         return R"(
             float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
             devPosition.z = depth;
             stepLocalCoords = texCoords;
         )";
     } else if (fHasColor) {
         return R"(
             color = half4(vertColor.bgr * vertColor.a, vertColor.a);
             float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
             devPosition.z = depth;
             stepLocalCoords = position;
         )";
     } else {
         return R"(
             float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
             devPosition.z = depth;
             stepLocalCoords = position;
         )";
     }
 }

 const char* VerticesRenderStep::fragmentColorSkSL() const {
     if (fHasColor) {
         return "primitiveColor = color;\n";
     } else {
         return "";
     }
 }

 void VerticesRenderStep::writeVertices(DrawWriter* writer,
                                        const DrawParams& params,
                                        int ssboIndex) const {
     SkVerticesPriv info(params.geometry().vertices()->priv());
     const int vertexCount = info.vertexCount();
     const int indexCount = info.indexCount();
     const SkPoint* positions = info.positions();
     const uint16_t* indices = info.indices();
     const SkColor* colors = info.colors();
     const SkPoint* texCoords = info.texCoords();

     // This should always be the case if the Renderer was chosen appropriately, but the vertex
     // writing loop is set up in such a way that if the shader expects color or tex coords and they
     // are missing, it will just read 0s, so release builds are safe.
     SkASSERT(fHasColor == SkToBool(colors));
     SkASSERT(fHasTexCoords == SkToBool(texCoords));

     // TODO: We could access the writer's DrawBufferManager and upload the SkVertices index buffer
     // but that would require we manually manage the VertexWriter for interleaving the position,
     // color, and tex coord arrays together. This wouldn't be so bad if we let ::Vertices() take
     // a CPU index buffer that indexes into the accumulated vertex data (and handles offsetting for
     // merged drawIndexed calls), or if we could bind multiple attribute sources and copy the
     // position/color/texCoord data separately in bulk w/o using an Appender.
     DrawWriter::Vertices verts{*writer};
     verts.reserve(indices ? indexCount : vertexCount);

     VertState state(vertexCount, indices, indexCount);
     VertState::Proc vertProc = state.chooseProc(info.mode());
     while (vertProc(&state)) {
         verts.append(3) << positions[state.f0]
                         << VertexWriter::If(fHasColor, colors ? colors[state.f0]
                                                               : SK_ColorTRANSPARENT)
                         << VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f0]
                                                                      : SkPoint{0.f, 0.f})
                         << ssboIndex
                         << positions[state.f1]
                         << VertexWriter::If(fHasColor, colors ? colors[state.f1]
                                                               : SK_ColorTRANSPARENT)
                         << VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f1]
                                                                      : SkPoint{0.f, 0.f})
                         << ssboIndex
                         << positions[state.f2]
                         << VertexWriter::If(fHasColor, colors ? colors[state.f2]
                                                               : SK_ColorTRANSPARENT)
                         << VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f2]
                                                                      : SkPoint{0.f, 0.f})
                         << ssboIndex;
     }
 }

 void VerticesRenderStep::writeUniformsAndTextures(const DrawParams& params,
                                                   PipelineDataGatherer* gatherer) const {
     // Vertices are transformed on the GPU. Store PaintDepth as a uniform to avoid copying the
     // same depth for each vertex.
     SkDEBUGCODE(UniformExpectationsValidator uev(gatherer, this->uniforms());)
     gatherer->write(params.transform());
     gatherer->write(params.order().depthAsFloat());
 }

 }  // namespace skgpu::graphite
	/*
	* 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/VerticesRenderStep.h"

	#include "src/core/SkSLTypeShared.h"
	#include "src/core/SkVertState.h"
	#include "src/core/SkVerticesPriv.h"
	#include "src/gpu/graphite/DrawParams.h"
	#include "src/gpu/graphite/DrawTypes.h"
	#include "src/gpu/graphite/DrawWriter.h"
	#include "src/gpu/graphite/PipelineData.h"
	#include "src/gpu/graphite/render/CommonDepthStencilSettings.h"

	namespace skgpu::graphite {

	namespace {

	static constexpr Attribute kPositionAttr =
	{"position", VertexAttribType::kFloat2, SkSLType::kFloat2};
	static constexpr Attribute kTexCoordAttr =
	{"texCoords", VertexAttribType::kFloat2, SkSLType::kFloat2};
	static constexpr Attribute kColorAttr =
	{"vertColor", VertexAttribType::kUByte4_norm, SkSLType::kHalf4};
	static constexpr Attribute kSsboIndexAttr =
	{"ssboIndex", VertexAttribType::kInt, SkSLType::kInt};

	static constexpr Attribute kAttributePositionOnly[] =
	{kPositionAttr, kSsboIndexAttr};
	static constexpr Attribute kAttributeColor[] =
	{kPositionAttr, kColorAttr, kSsboIndexAttr};
	static constexpr Attribute kAttributeTexCoords[] =
	{kPositionAttr, kTexCoordAttr, kSsboIndexAttr};
	static constexpr Attribute kAttributeColorAndTexCoords[] =
	{kPositionAttr, kColorAttr, kTexCoordAttr, kSsboIndexAttr};

	static constexpr SkSpan<const Attribute> kAttributes[4] = {
	kAttributePositionOnly,
	kAttributeColor,
	kAttributeTexCoords,
	kAttributeColorAndTexCoords,
	};

	static constexpr Varying kVaryingColor[] =
	{{"color", SkSLType::kHalf4}};

	static constexpr SkSpan<const Varying> kVaryings[2] = {
	/none/ {},
	/color/ kVaryingColor
	};

	std::string variant_name(PrimitiveType type, bool hasColor, bool hasTexCoords) {
	SkASSERT(type == PrimitiveType::kTriangles \|\| type == PrimitiveType::kTriangleStrip);
	std::string name = (type == PrimitiveType::kTriangles ? "tris" : "tristrips");
	if (hasColor) {
	name += "-color";
	}
	if (hasTexCoords) {
	name += "-texCoords";
	}
	return name;
	}

	} // namespace

	VerticesRenderStep::VerticesRenderStep(PrimitiveType type, bool hasColor, bool hasTexCoords)
	: RenderStep("VerticesRenderStep",
	variant_name(type, hasColor, hasTexCoords),
	hasColor ? Flags::kEmitsPrimitiveColor \| Flags::kPerformsShading
	: Flags::kPerformsShading,
	/uniforms=/{{"localToDevice", SkSLType::kFloat4x4},
	{"depth", SkSLType::kFloat}},
	type,
	kDirectDepthGEqualPass,
	/vertexAttrs=/ kAttributes[2*hasTexCoords + hasColor],
	/instanceAttrs=/{},
	/varyings=/ kVaryings[hasColor])
	, fHasColor(hasColor)
	, fHasTexCoords(hasTexCoords) {}

	VerticesRenderStep::~VerticesRenderStep() {}

	std::string VerticesRenderStep::vertexSkSL() const {
	if (fHasColor && fHasTexCoords) {
	return R"(
	color = half4(vertColor.bgr * vertColor.a, vertColor.a);
	float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
	devPosition.z = depth;
	stepLocalCoords = texCoords;
	)";
	} else if (fHasTexCoords) {
	return R"(
	float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
	devPosition.z = depth;
	stepLocalCoords = texCoords;
	)";
	} else if (fHasColor) {
	return R"(
	color = half4(vertColor.bgr * vertColor.a, vertColor.a);
	float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
	devPosition.z = depth;
	stepLocalCoords = position;
	)";
	} else {
	return R"(
	float4 devPosition = localToDevice * float4(position, 0.0, 1.0);
	devPosition.z = depth;
	stepLocalCoords = position;
	)";
	}
	}

	const char* VerticesRenderStep::fragmentColorSkSL() const {
	if (fHasColor) {
	return "primitiveColor = color;\n";
	} else {
	return "";
	}
	}

	void VerticesRenderStep::writeVertices(DrawWriter* writer,
	const DrawParams& params,
	int ssboIndex) const {
	SkVerticesPriv info(params.geometry().vertices()->priv());
	const int vertexCount = info.vertexCount();
	const int indexCount = info.indexCount();
	const SkPoint* positions = info.positions();
	const uint16_t* indices = info.indices();
	const SkColor* colors = info.colors();
	const SkPoint* texCoords = info.texCoords();

	// This should always be the case if the Renderer was chosen appropriately, but the vertex
	// writing loop is set up in such a way that if the shader expects color or tex coords and they
	// are missing, it will just read 0s, so release builds are safe.
	SkASSERT(fHasColor == SkToBool(colors));
	SkASSERT(fHasTexCoords == SkToBool(texCoords));

	// TODO: We could access the writer's DrawBufferManager and upload the SkVertices index buffer
	// but that would require we manually manage the VertexWriter for interleaving the position,
	// color, and tex coord arrays together. This wouldn't be so bad if we let ::Vertices() take
	// a CPU index buffer that indexes into the accumulated vertex data (and handles offsetting for
	// merged drawIndexed calls), or if we could bind multiple attribute sources and copy the
	// position/color/texCoord data separately in bulk w/o using an Appender.
	DrawWriter::Vertices verts{*writer};
	verts.reserve(indices ? indexCount : vertexCount);

	VertState state(vertexCount, indices, indexCount);
	VertState::Proc vertProc = state.chooseProc(info.mode());
	while (vertProc(&state)) {
	verts.append(3) << positions[state.f0]
	<< VertexWriter::If(fHasColor, colors ? colors[state.f0]
	: SK_ColorTRANSPARENT)
	<< VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f0]
	: SkPoint{0.f, 0.f})
	<< ssboIndex
	<< positions[state.f1]
	<< VertexWriter::If(fHasColor, colors ? colors[state.f1]
	: SK_ColorTRANSPARENT)
	<< VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f1]
	: SkPoint{0.f, 0.f})
	<< ssboIndex
	<< positions[state.f2]
	<< VertexWriter::If(fHasColor, colors ? colors[state.f2]
	: SK_ColorTRANSPARENT)
	<< VertexWriter::If(fHasTexCoords, texCoords ? texCoords[state.f2]
	: SkPoint{0.f, 0.f})
	<< ssboIndex;
	}
	}

	void VerticesRenderStep::writeUniformsAndTextures(const DrawParams& params,
	PipelineDataGatherer* gatherer) const {
	// Vertices are transformed on the GPU. Store PaintDepth as a uniform to avoid copying the
	// same depth for each vertex.
	SkDEBUGCODE(UniformExpectationsValidator uev(gatherer, this->uniforms());)
	gatherer->write(params.transform());
	gatherer->write(params.order().depthAsFloat());
	}

	} // namespace skgpu::graphite