| /* |
| * Copyright 2018 Google Inc. |
| * |
| * Use of this source code is governed by a BSD-style license that can be |
| * found in the LICENSE file. |
| */ |
| |
| #ifndef GrQuadPerEdgeAA_DEFINED |
| #define GrQuadPerEdgeAA_DEFINED |
| |
| #include "include/core/SkPoint.h" |
| #include "include/core/SkPoint3.h" |
| #include "include/private/GrTypesPriv.h" |
| #include "src/gpu/GrColor.h" |
| #include "src/gpu/GrGeometryProcessor.h" |
| #include "src/gpu/GrSamplerState.h" |
| #include "src/gpu/geometry/GrQuad.h" |
| #include "src/gpu/ops/GrMeshDrawOp.h" |
| #include "src/gpu/ops/GrTextureOp.h" |
| |
| class GrCaps; |
| class GrColorSpaceXform; |
| class GrShaderCaps; |
| |
| namespace GrQuadPerEdgeAA { |
| using Saturate = GrTextureOp::Saturate; |
| |
| enum class CoverageMode { kNone, kWithPosition, kWithColor }; |
| enum class Domain : bool { kNo = false, kYes = true }; |
| enum class ColorType { kNone, kByte, kHalf, kLast = kHalf }; |
| static const int kColorTypeCount = static_cast<int>(ColorType::kLast) + 1; |
| |
| enum class IndexBufferOption { |
| kPictureFramed, // geometrically AA'd -> 8 verts/quad + an index buffer |
| kIndexedRects, // non-AA'd but indexed -> 4 verts/quad + an index buffer |
| kTriStrips, // non-AA'd -> 4 verts/quad but no index buffer |
| kLast = kTriStrips |
| }; |
| static const int kIndexBufferOptionCount = static_cast<int>(IndexBufferOption::kLast) + 1; |
| |
| IndexBufferOption CalcIndexBufferOption(GrAAType aa, int numQuads); |
| |
| // Gets the minimum ColorType that can represent a color. |
| ColorType MinColorType(SkPMColor4f, GrClampType, const GrCaps&); |
| |
| // Specifies the vertex configuration for an op that renders per-edge AA quads. The vertex |
| // order (when enabled) is device position, color, local position, domain, aa edge equations. |
| // This order matches the constructor argument order of VertexSpec and is the order that |
| // GPAttributes maintains. If hasLocalCoords is false, then the local quad type can be ignored. |
| struct VertexSpec { |
| public: |
| VertexSpec() |
| : fDeviceQuadType(0) // kAxisAligned |
| , fLocalQuadType(0) // kAxisAligned |
| , fIndexBufferOption(0) // kPictureFramed |
| , fHasLocalCoords(false) |
| , fColorType(0) // kNone |
| , fHasDomain(false) |
| , fUsesCoverageAA(false) |
| , fCompatibleWithCoverageAsAlpha(false) |
| , fRequiresGeometryDomain(false) {} |
| |
| VertexSpec(GrQuad::Type deviceQuadType, ColorType colorType, GrQuad::Type localQuadType, |
| bool hasLocalCoords, Domain domain, GrAAType aa, bool coverageAsAlpha, |
| IndexBufferOption indexBufferOption) |
| : fDeviceQuadType(static_cast<unsigned>(deviceQuadType)) |
| , fLocalQuadType(static_cast<unsigned>(localQuadType)) |
| , fIndexBufferOption(static_cast<unsigned>(indexBufferOption)) |
| , fHasLocalCoords(hasLocalCoords) |
| , fColorType(static_cast<unsigned>(colorType)) |
| , fHasDomain(static_cast<unsigned>(domain)) |
| , fUsesCoverageAA(aa == GrAAType::kCoverage) |
| , fCompatibleWithCoverageAsAlpha(coverageAsAlpha) |
| , fRequiresGeometryDomain(aa == GrAAType::kCoverage && |
| deviceQuadType > GrQuad::Type::kRectilinear) { } |
| |
| GrQuad::Type deviceQuadType() const { return static_cast<GrQuad::Type>(fDeviceQuadType); } |
| GrQuad::Type localQuadType() const { return static_cast<GrQuad::Type>(fLocalQuadType); } |
| IndexBufferOption indexBufferOption() const { |
| return static_cast<IndexBufferOption>(fIndexBufferOption); |
| } |
| bool hasLocalCoords() const { return fHasLocalCoords; } |
| ColorType colorType() const { return static_cast<ColorType>(fColorType); } |
| bool hasVertexColors() const { return ColorType::kNone != this->colorType(); } |
| bool hasDomain() const { return fHasDomain; } |
| bool usesCoverageAA() const { return fUsesCoverageAA; } |
| bool compatibleWithCoverageAsAlpha() const { return fCompatibleWithCoverageAsAlpha; } |
| bool requiresGeometryDomain() const { return fRequiresGeometryDomain; } |
| // Will always be 2 or 3 |
| int deviceDimensionality() const; |
| // Will always be 0 if hasLocalCoords is false, otherwise will be 2 or 3 |
| int localDimensionality() const; |
| |
| int verticesPerQuad() const { return fUsesCoverageAA ? 8 : 4; } |
| |
| CoverageMode coverageMode() const; |
| size_t vertexSize() const; |
| |
| bool needsIndexBuffer() const { return this->indexBufferOption() != |
| IndexBufferOption::kTriStrips; } |
| |
| GrPrimitiveType primitiveType() const { |
| switch (this->indexBufferOption()) { |
| case IndexBufferOption::kPictureFramed: return GrPrimitiveType::kTriangles; |
| case IndexBufferOption::kIndexedRects: return GrPrimitiveType::kTriangles; |
| case IndexBufferOption::kTriStrips: return GrPrimitiveType::kTriangleStrip; |
| } |
| |
| SkUNREACHABLE; |
| } |
| |
| private: |
| static_assert(GrQuad::kTypeCount <= 4, "GrQuad::Type doesn't fit in 2 bits"); |
| static_assert(kColorTypeCount <= 4, "Color doesn't fit in 2 bits"); |
| static_assert(kIndexBufferOptionCount <= 4, "IndexBufferOption doesn't fit in 2 bits"); |
| |
| unsigned fDeviceQuadType: 2; |
| unsigned fLocalQuadType: 2; |
| unsigned fIndexBufferOption: 2; |
| unsigned fHasLocalCoords: 1; |
| unsigned fColorType : 2; |
| unsigned fHasDomain: 1; |
| unsigned fUsesCoverageAA: 1; |
| unsigned fCompatibleWithCoverageAsAlpha: 1; |
| // The geometry domain serves to clip off pixels touched by quads with sharp corners that |
| // would otherwise exceed the miter limit for the AA-outset geometry. |
| unsigned fRequiresGeometryDomain: 1; |
| }; |
| |
| sk_sp<GrGeometryProcessor> MakeProcessor(const VertexSpec& spec); |
| |
| sk_sp<GrGeometryProcessor> MakeTexturedProcessor( |
| const VertexSpec& spec, const GrShaderCaps& caps, const GrBackendFormat&, |
| const GrSamplerState& samplerState, const GrSwizzle& swizzle, |
| sk_sp<GrColorSpaceXform> textureColorSpaceXform, Saturate saturate); |
| |
| // Fill vertices with the vertex data needed to represent the given quad. The device position, |
| // local coords, vertex color, domain, and edge coefficients will be written and/or computed |
| // based on the configuration in the vertex spec; if that attribute is disabled in the spec, |
| // then its corresponding function argument is ignored. |
| // |
| // Tessellation is based on the quad type of the vertex spec, not the provided GrQuad's |
| // so that all quads in a batch are tessellated the same. |
| // |
| // Returns the advanced pointer in vertices. |
| void* Tessellate(void* vertices, const VertexSpec& spec, const GrQuad& deviceQuad, |
| const SkPMColor4f& color, const GrQuad& localQuad, const SkRect& domain, |
| GrQuadAAFlags aa); |
| |
| // This method will return the correct index buffer for the specified indexBufferOption. |
| // It will, correctly, return nullptr if the indexBufferOption is kTriStrips. |
| sk_sp<const GrBuffer> GetIndexBuffer(GrMeshDrawOp::Target*, IndexBufferOption); |
| |
| // This method will configure the vertex and index data of the provided 'mesh' to comply |
| // with the indexing method specified in the vertexSpec. It is up to the calling code |
| // to allocate and fill in the vertex data and acquire the correct indexBuffer if it is needed. |
| // |
| // @param runningQuadCount the number of quads already stored in 'vertexBuffer' and |
| // 'indexBuffer' e.g., different GrMeshes have already been placed in |
| // the buffers to allow dynamic state changes. |
| // @param quadCount the number of quads that will be drawn by the provided 'mesh'. |
| // A subsequent ConfigureMesh call would the use |
| // 'runningQuadCount' + 'quadCount' for its new 'runningQuadCount'. |
| void ConfigureMesh(GrMesh* mesh, const VertexSpec&, int runningQuadCount, int quadCount, |
| int maxVerts, sk_sp<const GrBuffer> vertexBuffer, |
| sk_sp<const GrBuffer> indexBuffer, int absVertBufferOffset); |
| |
| } // namespace GrQuadPerEdgeAA |
| |
| #endif // GrQuadPerEdgeAA_DEFINED |