/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SKSL_CONTEXT #define SKSL_CONTEXT #include "ir/SkSLType.h" #include "ir/SkSLExpression.h" namespace SkSL { /** * Contains compiler-wide objects, which currently means the core types. */ class Context { public: Context() : fInvalid_Type(new Type("<INVALID>")) , fVoid_Type(new Type("void")) , fDouble_Type(new Type("double", Type::kFloat_NumberKind, 4)) , fDouble2_Type(new Type("double2", *fDouble_Type, 2)) , fDouble3_Type(new Type("double3", *fDouble_Type, 3)) , fDouble4_Type(new Type("double4", *fDouble_Type, 4)) , fFloat_Type(new Type("float", Type::kFloat_NumberKind, 3)) , fFloat2_Type(new Type("float2", *fFloat_Type, 2)) , fFloat3_Type(new Type("float3", *fFloat_Type, 3)) , fFloat4_Type(new Type("float4", *fFloat_Type, 4)) , fHalf_Type(new Type("half", Type::kFloat_NumberKind, 2)) , fHalf2_Type(new Type("half2", *fHalf_Type, 2)) , fHalf3_Type(new Type("half3", *fHalf_Type, 3)) , fHalf4_Type(new Type("half4", *fHalf_Type, 4)) , fUInt_Type(new Type("uint", Type::kUnsigned_NumberKind, 1)) , fUInt2_Type(new Type("uint2", *fUInt_Type, 2)) , fUInt3_Type(new Type("uint3", *fUInt_Type, 3)) , fUInt4_Type(new Type("uint4", *fUInt_Type, 4)) , fInt_Type(new Type("int", Type::kSigned_NumberKind, 1)) , fInt2_Type(new Type("int2", *fInt_Type, 2)) , fInt3_Type(new Type("int3", *fInt_Type, 3)) , fInt4_Type(new Type("int4", *fInt_Type, 4)) , fUShort_Type(new Type("ushort", Type::kUnsigned_NumberKind, 0)) , fUShort2_Type(new Type("ushort2", *fUShort_Type, 2)) , fUShort3_Type(new Type("ushort3", *fUShort_Type, 3)) , fUShort4_Type(new Type("ushort4", *fUShort_Type, 4)) , fShort_Type(new Type("short", Type::kSigned_NumberKind, 0)) , fShort2_Type(new Type("short2", *fShort_Type, 2)) , fShort3_Type(new Type("short3", *fShort_Type, 3)) , fShort4_Type(new Type("short4", *fShort_Type, 4)) , fUByte_Type(new Type("ubyte", Type::kUnsigned_NumberKind, 0)) , fUByte2_Type(new Type("ubyte2", *fUByte_Type, 2)) , fUByte3_Type(new Type("ubyte3", *fUByte_Type, 3)) , fUByte4_Type(new Type("ubyte4", *fUByte_Type, 4)) , fByte_Type(new Type("byte", Type::kSigned_NumberKind, 0)) , fByte2_Type(new Type("byte2", *fByte_Type, 2)) , fByte3_Type(new Type("byte3", *fByte_Type, 3)) , fByte4_Type(new Type("byte4", *fByte_Type, 4)) , fBool_Type(new Type("bool", Type::kNonnumeric_NumberKind, -1)) , fBool2_Type(new Type("bool2", *fBool_Type, 2)) , fBool3_Type(new Type("bool3", *fBool_Type, 3)) , fBool4_Type(new Type("bool4", *fBool_Type, 4)) , fFloat2x2_Type(new Type("float2x2", *fFloat_Type, 2, 2)) , fFloat2x3_Type(new Type("float2x3", *fFloat_Type, 2, 3)) , fFloat2x4_Type(new Type("float2x4", *fFloat_Type, 2, 4)) , fFloat3x2_Type(new Type("float3x2", *fFloat_Type, 3, 2)) , fFloat3x3_Type(new Type("float3x3", *fFloat_Type, 3, 3)) , fFloat3x4_Type(new Type("float3x4", *fFloat_Type, 3, 4)) , fFloat4x2_Type(new Type("float4x2", *fFloat_Type, 4, 2)) , fFloat4x3_Type(new Type("float4x3", *fFloat_Type, 4, 3)) , fFloat4x4_Type(new Type("float4x4", *fFloat_Type, 4, 4)) , fHalf2x2_Type(new Type("half2x2", *fHalf_Type, 2, 2)) , fHalf2x3_Type(new Type("half2x3", *fHalf_Type, 2, 3)) , fHalf2x4_Type(new Type("half2x4", *fHalf_Type, 2, 4)) , fHalf3x2_Type(new Type("half3x2", *fHalf_Type, 3, 2)) , fHalf3x3_Type(new Type("half3x3", *fHalf_Type, 3, 3)) , fHalf3x4_Type(new Type("half3x4", *fHalf_Type, 3, 4)) , fHalf4x2_Type(new Type("half4x2", *fHalf_Type, 4, 2)) , fHalf4x3_Type(new Type("half4x3", *fHalf_Type, 4, 3)) , fHalf4x4_Type(new Type("half4x4", *fHalf_Type, 4, 4)) , fDouble2x2_Type(new Type("double2x2", *fDouble_Type, 2, 2)) , fDouble2x3_Type(new Type("double2x3", *fDouble_Type, 2, 3)) , fDouble2x4_Type(new Type("double2x4", *fDouble_Type, 2, 4)) , fDouble3x2_Type(new Type("double3x2", *fDouble_Type, 3, 2)) , fDouble3x3_Type(new Type("double3x3", *fDouble_Type, 3, 3)) , fDouble3x4_Type(new Type("double3x4", *fDouble_Type, 3, 4)) , fDouble4x2_Type(new Type("double4x2", *fDouble_Type, 4, 2)) , fDouble4x3_Type(new Type("double4x3", *fDouble_Type, 4, 3)) , fDouble4x4_Type(new Type("double4x4", *fDouble_Type, 4, 4)) , fSampler1D_Type(new Type("sampler1D", SpvDim1D, false, false, false, true)) , fSampler2D_Type(new Type("sampler2D", SpvDim2D, false, false, false, true)) , fSampler3D_Type(new Type("sampler3D", SpvDim3D, false, false, false, true)) , fSamplerExternalOES_Type(new Type("samplerExternalOES", SpvDim2D, false, false, false, true)) , fSamplerCube_Type(new Type("samplerCube", SpvDimCube, false, false, false, true)) , fSampler2DRect_Type(new Type("sampler2DRect", SpvDimRect, false, false, false, true)) , fSampler1DArray_Type(new Type("sampler1DArray")) , fSampler2DArray_Type(new Type("sampler2DArray")) , fSamplerCubeArray_Type(new Type("samplerCubeArray")) , fSamplerBuffer_Type(new Type("samplerBuffer", SpvDimBuffer, false, false, false, true)) , fSampler2DMS_Type(new Type("sampler2DMS")) , fSampler2DMSArray_Type(new Type("sampler2DMSArray")) , fSampler1DShadow_Type(new Type("sampler1DShadow")) , fSampler2DShadow_Type(new Type("sampler2DShadow")) , fSamplerCubeShadow_Type(new Type("samplerCubeShadow")) , fSampler2DRectShadow_Type(new Type("sampler2DRectShadow")) , fSampler1DArrayShadow_Type(new Type("sampler1DArrayShadow")) , fSampler2DArrayShadow_Type(new Type("sampler2DArrayShadow")) , fSamplerCubeArrayShadow_Type(new Type("samplerCubeArrayShadow")) // Related to below FIXME, gsampler*s don't currently expand to cover integer case. , fISampler2D_Type(new Type("isampler2D", SpvDim2D, false, false, false, true)) // FIXME express these as "gimage2D" that expand to image2D, iimage2D, and uimage2D. , fImage2D_Type(new Type("image2D", SpvDim2D, false, false, false, true)) , fIImage2D_Type(new Type("iimage2D", SpvDim2D, false, false, false, true)) // FIXME express these as "gsubpassInput" that expand to subpassInput, isubpassInput, // and usubpassInput. , fSubpassInput_Type(new Type("subpassInput", SpvDimSubpassData, false, false, false, false)) , fSubpassInputMS_Type(new Type("subpassInputMS", SpvDimSubpassData, false, false, true, false)) // FIXME figure out what we're supposed to do with the gsampler et al. types) , fGSampler1D_Type(new Type("$gsampler1D", static_type(*fSampler1D_Type))) , fGSampler2D_Type(new Type("$gsampler2D", static_type(*fSampler2D_Type))) , fGSampler3D_Type(new Type("$gsampler3D", static_type(*fSampler3D_Type))) , fGSamplerCube_Type(new Type("$gsamplerCube", static_type(*fSamplerCube_Type))) , fGSampler2DRect_Type(new Type("$gsampler2DRect", static_type(*fSampler2DRect_Type))) , fGSampler1DArray_Type(new Type("$gsampler1DArray", static_type(*fSampler1DArray_Type))) , fGSampler2DArray_Type(new Type("$gsampler2DArray", static_type(*fSampler2DArray_Type))) , fGSamplerCubeArray_Type(new Type("$gsamplerCubeArray", static_type(*fSamplerCubeArray_Type))) , fGSamplerBuffer_Type(new Type("$gsamplerBuffer", static_type(*fSamplerBuffer_Type))) , fGSampler2DMS_Type(new Type("$gsampler2DMS", static_type(*fSampler2DMS_Type))) , fGSampler2DMSArray_Type(new Type("$gsampler2DMSArray", static_type(*fSampler2DMSArray_Type))) , fGSampler2DArrayShadow_Type(new Type("$gsampler2DArrayShadow", static_type(*fSampler2DArrayShadow_Type))) , fGSamplerCubeArrayShadow_Type(new Type("$gsamplerCubeArrayShadow", static_type(*fSamplerCubeArrayShadow_Type))) , fGenType_Type(new Type("$genType", { fFloat_Type.get(), fFloat2_Type.get(), fFloat3_Type.get(), fFloat4_Type.get() })) , fGenHType_Type(new Type("$genHType", { fHalf_Type.get(), fHalf2_Type.get(), fHalf3_Type.get(), fHalf4_Type.get() })) , fGenDType_Type(new Type("$genDType", { fDouble_Type.get(), fDouble2_Type.get(), fDouble3_Type.get(), fDouble4_Type.get() })) , fGenIType_Type(new Type("$genIType", { fInt_Type.get(), fInt2_Type.get(), fInt3_Type.get(), fInt4_Type.get() })) , fGenUType_Type(new Type("$genUType", { fUInt_Type.get(), fUInt2_Type.get(), fUInt3_Type.get(), fUInt4_Type.get() })) , fGenBType_Type(new Type("$genBType", { fBool_Type.get(), fBool2_Type.get(), fBool3_Type.get(), fBool4_Type.get() })) , fMat_Type(new Type("$mat", { fFloat2x2_Type.get(), fFloat2x3_Type.get(), fFloat2x4_Type.get(), fFloat3x2_Type.get(), fFloat3x3_Type.get(), fFloat3x4_Type.get(), fFloat4x2_Type.get(), fFloat4x3_Type.get(), fFloat4x4_Type.get(), fHalf2x2_Type.get(), fHalf2x3_Type.get(), fHalf2x4_Type.get(), fHalf3x2_Type.get(), fHalf3x3_Type.get(), fHalf3x4_Type.get(), fHalf4x2_Type.get(), fHalf4x3_Type.get(), fHalf4x4_Type.get(), fDouble2x2_Type.get(), fDouble2x3_Type.get(), fDouble2x4_Type.get(), fDouble3x2_Type.get(), fDouble3x3_Type.get(), fDouble3x4_Type.get(), fDouble4x2_Type.get(), fDouble4x3_Type.get(), fDouble4x4_Type.get() })) , fVec_Type(new Type("$vec", { fInvalid_Type.get(), fFloat2_Type.get(), fFloat3_Type.get(), fFloat4_Type.get() })) , fGVec_Type(new Type("$gvec")) , fGVec2_Type(new Type("$gfloat2")) , fGVec3_Type(new Type("$gfloat3")) , fGVec4_Type(new Type("$gfloat4", static_type(*fFloat4_Type))) , fHVec_Type(new Type("$hvec", { fInvalid_Type.get(), fHalf2_Type.get(), fHalf3_Type.get(), fHalf4_Type.get() })) , fDVec_Type(new Type("$dvec", { fInvalid_Type.get(), fDouble2_Type.get(), fDouble3_Type.get(), fDouble4_Type.get() })) , fIVec_Type(new Type("$ivec", { fInvalid_Type.get(), fInt2_Type.get(), fInt3_Type.get(), fInt4_Type.get() })) , fUVec_Type(new Type("$uvec", { fInvalid_Type.get(), fUInt2_Type.get(), fUInt3_Type.get(), fUInt4_Type.get() })) , fSVec_Type(new Type("$svec", { fInvalid_Type.get(), fShort2_Type.get(), fShort3_Type.get(), fShort4_Type.get() })) , fUSVec_Type(new Type("$usvec", { fInvalid_Type.get(), fUShort2_Type.get(), fUShort3_Type.get(), fUShort4_Type.get() })) , fByteVec_Type(new Type("$bytevec", { fInvalid_Type.get(), fByte2_Type.get(), fByte3_Type.get(), fByte4_Type.get() })) , fUByteVec_Type(new Type("$ubytevec", { fInvalid_Type.get(), fUByte2_Type.get(), fUByte3_Type.get(), fUByte4_Type.get() })) , fBVec_Type(new Type("$bvec", { fInvalid_Type.get(), fBool2_Type.get(), fBool3_Type.get(), fBool4_Type.get() })) , fSkCaps_Type(new Type("$sk_Caps")) , fSkArgs_Type(new Type("$sk_Args")) , fFragmentProcessor_Type(fp_type(fInt_Type.get(), fBool_Type.get())) , fSkRasterPipeline_Type(new Type("SkRasterPipeline")) , fDefined_Expression(new Defined(*fInvalid_Type)) {} static std::vector<const Type*> static_type(const Type& t) { return { &t, &t, &t, &t }; } const std::unique_ptr<Type> fInvalid_Type; const std::unique_ptr<Type> fVoid_Type; const std::unique_ptr<Type> fDouble_Type; const std::unique_ptr<Type> fDouble2_Type; const std::unique_ptr<Type> fDouble3_Type; const std::unique_ptr<Type> fDouble4_Type; const std::unique_ptr<Type> fFloat_Type; const std::unique_ptr<Type> fFloat2_Type; const std::unique_ptr<Type> fFloat3_Type; const std::unique_ptr<Type> fFloat4_Type; const std::unique_ptr<Type> fHalf_Type; const std::unique_ptr<Type> fHalf2_Type; const std::unique_ptr<Type> fHalf3_Type; const std::unique_ptr<Type> fHalf4_Type; const std::unique_ptr<Type> fUInt_Type; const std::unique_ptr<Type> fUInt2_Type; const std::unique_ptr<Type> fUInt3_Type; const std::unique_ptr<Type> fUInt4_Type; const std::unique_ptr<Type> fInt_Type; const std::unique_ptr<Type> fInt2_Type; const std::unique_ptr<Type> fInt3_Type; const std::unique_ptr<Type> fInt4_Type; const std::unique_ptr<Type> fUShort_Type; const std::unique_ptr<Type> fUShort2_Type; const std::unique_ptr<Type> fUShort3_Type; const std::unique_ptr<Type> fUShort4_Type; const std::unique_ptr<Type> fShort_Type; const std::unique_ptr<Type> fShort2_Type; const std::unique_ptr<Type> fShort3_Type; const std::unique_ptr<Type> fShort4_Type; const std::unique_ptr<Type> fUByte_Type; const std::unique_ptr<Type> fUByte2_Type; const std::unique_ptr<Type> fUByte3_Type; const std::unique_ptr<Type> fUByte4_Type; const std::unique_ptr<Type> fByte_Type; const std::unique_ptr<Type> fByte2_Type; const std::unique_ptr<Type> fByte3_Type; const std::unique_ptr<Type> fByte4_Type; const std::unique_ptr<Type> fBool_Type; const std::unique_ptr<Type> fBool2_Type; const std::unique_ptr<Type> fBool3_Type; const std::unique_ptr<Type> fBool4_Type; const std::unique_ptr<Type> fFloat2x2_Type; const std::unique_ptr<Type> fFloat2x3_Type; const std::unique_ptr<Type> fFloat2x4_Type; const std::unique_ptr<Type> fFloat3x2_Type; const std::unique_ptr<Type> fFloat3x3_Type; const std::unique_ptr<Type> fFloat3x4_Type; const std::unique_ptr<Type> fFloat4x2_Type; const std::unique_ptr<Type> fFloat4x3_Type; const std::unique_ptr<Type> fFloat4x4_Type; const std::unique_ptr<Type> fHalf2x2_Type; const std::unique_ptr<Type> fHalf2x3_Type; const std::unique_ptr<Type> fHalf2x4_Type; const std::unique_ptr<Type> fHalf3x2_Type; const std::unique_ptr<Type> fHalf3x3_Type; const std::unique_ptr<Type> fHalf3x4_Type; const std::unique_ptr<Type> fHalf4x2_Type; const std::unique_ptr<Type> fHalf4x3_Type; const std::unique_ptr<Type> fHalf4x4_Type; const std::unique_ptr<Type> fDouble2x2_Type; const std::unique_ptr<Type> fDouble2x3_Type; const std::unique_ptr<Type> fDouble2x4_Type; const std::unique_ptr<Type> fDouble3x2_Type; const std::unique_ptr<Type> fDouble3x3_Type; const std::unique_ptr<Type> fDouble3x4_Type; const std::unique_ptr<Type> fDouble4x2_Type; const std::unique_ptr<Type> fDouble4x3_Type; const std::unique_ptr<Type> fDouble4x4_Type; const std::unique_ptr<Type> fSampler1D_Type; const std::unique_ptr<Type> fSampler2D_Type; const std::unique_ptr<Type> fSampler3D_Type; const std::unique_ptr<Type> fSamplerExternalOES_Type; const std::unique_ptr<Type> fSamplerCube_Type; const std::unique_ptr<Type> fSampler2DRect_Type; const std::unique_ptr<Type> fSampler1DArray_Type; const std::unique_ptr<Type> fSampler2DArray_Type; const std::unique_ptr<Type> fSamplerCubeArray_Type; const std::unique_ptr<Type> fSamplerBuffer_Type; const std::unique_ptr<Type> fSampler2DMS_Type; const std::unique_ptr<Type> fSampler2DMSArray_Type; const std::unique_ptr<Type> fSampler1DShadow_Type; const std::unique_ptr<Type> fSampler2DShadow_Type; const std::unique_ptr<Type> fSamplerCubeShadow_Type; const std::unique_ptr<Type> fSampler2DRectShadow_Type; const std::unique_ptr<Type> fSampler1DArrayShadow_Type; const std::unique_ptr<Type> fSampler2DArrayShadow_Type; const std::unique_ptr<Type> fSamplerCubeArrayShadow_Type; const std::unique_ptr<Type> fISampler2D_Type; const std::unique_ptr<Type> fImage2D_Type; const std::unique_ptr<Type> fIImage2D_Type; const std::unique_ptr<Type> fSubpassInput_Type; const std::unique_ptr<Type> fSubpassInputMS_Type; const std::unique_ptr<Type> fGSampler1D_Type; const std::unique_ptr<Type> fGSampler2D_Type; const std::unique_ptr<Type> fGSampler3D_Type; const std::unique_ptr<Type> fGSamplerCube_Type; const std::unique_ptr<Type> fGSampler2DRect_Type; const std::unique_ptr<Type> fGSampler1DArray_Type; const std::unique_ptr<Type> fGSampler2DArray_Type; const std::unique_ptr<Type> fGSamplerCubeArray_Type; const std::unique_ptr<Type> fGSamplerBuffer_Type; const std::unique_ptr<Type> fGSampler2DMS_Type; const std::unique_ptr<Type> fGSampler2DMSArray_Type; const std::unique_ptr<Type> fGSampler2DArrayShadow_Type; const std::unique_ptr<Type> fGSamplerCubeArrayShadow_Type; const std::unique_ptr<Type> fGenType_Type; const std::unique_ptr<Type> fGenHType_Type; const std::unique_ptr<Type> fGenDType_Type; const std::unique_ptr<Type> fGenIType_Type; const std::unique_ptr<Type> fGenUType_Type; const std::unique_ptr<Type> fGenBType_Type; const std::unique_ptr<Type> fMat_Type; const std::unique_ptr<Type> fVec_Type; const std::unique_ptr<Type> fGVec_Type; const std::unique_ptr<Type> fGVec2_Type; const std::unique_ptr<Type> fGVec3_Type; const std::unique_ptr<Type> fGVec4_Type; const std::unique_ptr<Type> fHVec_Type; const std::unique_ptr<Type> fDVec_Type; const std::unique_ptr<Type> fIVec_Type; const std::unique_ptr<Type> fUVec_Type; const std::unique_ptr<Type> fSVec_Type; const std::unique_ptr<Type> fUSVec_Type; const std::unique_ptr<Type> fByteVec_Type; const std::unique_ptr<Type> fUByteVec_Type; const std::unique_ptr<Type> fBVec_Type; const std::unique_ptr<Type> fSkCaps_Type; const std::unique_ptr<Type> fSkArgs_Type; const std::unique_ptr<Type> fFragmentProcessor_Type; const std::unique_ptr<Type> fSkRasterPipeline_Type; // dummy expression used to mark that a variable has a value during dataflow analysis (when it // could have several different values, or the analyzer is otherwise unable to assign it a // specific expression) const std::unique_ptr<Expression> fDefined_Expression; private: class Defined : public Expression { public: Defined(const Type& type) : INHERITED(-1, kDefined_Kind, type) {} bool hasSideEffects() const override { return false; } String description() const override { return "<defined>"; } std::unique_ptr<Expression> clone() const override { return std::unique_ptr<Expression>(new Defined(fType)); } typedef Expression INHERITED; }; static std::unique_ptr<Type> fp_type(const Type* intType, const Type* boolType) { // Build fields for FragmentProcessors, which should parallel the // C++ API for GrFragmentProcessor. Modifiers mods(Layout(), Modifiers::kConst_Flag); std::vector<Type::Field> fields = { Type::Field(mods, "numTextureSamplers", intType), Type::Field(mods, "numCoordTransforms", intType), Type::Field(mods, "numChildProcessors", intType), Type::Field(mods, "usesLocalCoords", boolType), Type::Field(mods, "compatibleWithCoverageAsAlpha", boolType), Type::Field(mods, "preservesOpaqueInput", boolType), Type::Field(mods, "hasConstantOutputForConstantInput", boolType) }; return std::unique_ptr<Type>(new Type("fragmentProcessor", fields)); } }; } // namespace #endif