// Copyright (c) 2015-2016 The Khronos Group Inc. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and/or associated documentation files (the // "Materials"), to deal in the Materials without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Materials, and to // permit persons to whom the Materials are furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Materials. // // MODIFICATIONS TO THIS FILE MAY MEAN IT NO LONGER ACCURATELY REFLECTS // KHRONOS STANDARDS. THE UNMODIFIED, NORMATIVE VERSIONS OF KHRONOS // SPECIFICATIONS AND HEADER INFORMATION ARE LOCATED AT // https://www.khronos.org/registry/ // // THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. // IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY // CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE // MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS. // Validation tests for Logical Layout #include #include "UnitSPIRV.h" #include "ValidateFixtures.h" #include #include #include #include namespace { using std::pair; using std::make_pair; using std::stringstream; using std::string; using std::tuple; using std::vector; using testing::Combine; using testing::Values; using testing::ValuesIn; using ValidateCapability = spvtest::ValidateBase>>, SPV_VALIDATE_INSTRUCTION_BIT>; TEST_F(ValidateCapability, Default) { const char str[] = R"( OpCapability Kernel OpCapability Matrix OpMemoryModel Logical OpenCL %intt = OpTypeInt 32 1 %vec3 = OpTypeVector %intt 3 %mat33 = OpTypeMatrix %vec3 3 )"; CompileSuccessfully(str); ASSERT_EQ(SPV_SUCCESS, ValidateInstructions()); } // clang-format off const vector& AllCapabilities() { static const auto r = new vector{ "", "Matrix", "Shader", "Geometry", "Tessellation", "Addresses", "Linkage", "Kernel", "Vector16", "Float16Buffer", "Float16", "Float64", "Int64", "Int64Atomics", "ImageBasic", "ImageReadWrite", "ImageMipmap", "Pipes", "Groups", "DeviceEnqueue", "LiteralSampler", "AtomicStorage", "Int16", "TessellationPointSize", "GeometryPointSize", "ImageGatherExtended", "StorageImageMultisample", "UniformBufferArrayDynamicIndexing", "SampledImageArrayDynamicIndexing", "StorageBufferArrayDynamicIndexing", "StorageImageArrayDynamicIndexing", "ClipDistance", "CullDistance", "ImageCubeArray", "SampleRateShading", "ImageRect", "SampledRect", "GenericPointer", "Int8", "InputAttachment", "SparseResidency", "MinLod", "Sampled1D", "Image1D", "SampledCubeArray", "SampledBuffer", "ImageBuffer", "ImageMSArray", "StorageImageExtendedFormats", "ImageQuery", "DerivativeControl", "InterpolationFunction", "TransformFeedback", "GeometryStreams", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat"}; return *r; } const vector& MatrixDependencies() { static const auto r = new vector{ "Matrix", "Shader", "Geometry", "Tessellation", "AtomicStorage", "TessellationPointSize", "GeometryPointSize", "ImageGatherExtended", "StorageImageMultisample", "UniformBufferArrayDynamicIndexing", "SampledImageArrayDynamicIndexing", "StorageBufferArrayDynamicIndexing", "StorageImageArrayDynamicIndexing", "ClipDistance", "CullDistance", "ImageCubeArray", "SampleRateShading", "ImageRect", "SampledRect", "InputAttachment", "SparseResidency", "MinLod", "Sampled1D", "Image1D", "SampledCubeArray", "SampledBuffer", "ImageMSArray", "ImageBuffer", "StorageImageExtendedFormats", "ImageQuery", "DerivativeControl", "InterpolationFunction", "TransformFeedback", "GeometryStreams", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat"}; return *r; } const vector& ShaderDependencies() { static const auto r = new vector{ "Shader", "Geometry", "Tessellation", "AtomicStorage", "TessellationPointSize", "GeometryPointSize", "ImageGatherExtended", "StorageImageMultisample", "UniformBufferArrayDynamicIndexing", "SampledImageArrayDynamicIndexing", "StorageBufferArrayDynamicIndexing", "StorageImageArrayDynamicIndexing", "ClipDistance", "CullDistance", "ImageCubeArray", "SampleRateShading", "ImageRect", "SampledRect", "InputAttachment", "SparseResidency", "MinLod", "Sampled1D", "Image1D", "SampledCubeArray", "SampledBuffer", "ImageMSArray", "ImageBuffer", "StorageImageExtendedFormats", "ImageQuery", "DerivativeControl", "InterpolationFunction", "TransformFeedback", "GeometryStreams", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat"}; return *r; } const vector& TessellationDependencies() { static const auto r = new vector{ "Tessellation", "TessellationPointSize"}; return *r; } const vector& GeometryDependencies() { static const auto r = new vector{ "Geometry", "GeometryPointSize", "GeometryStreams"}; return *r; } const vector& GeometryTessellationDependencies() { static const auto r = new vector{ "Tessellation", "TessellationPointSize", "Geometry", "GeometryPointSize", "GeometryStreams"}; return *r; } const vector& KernelDependencies() { static const auto r = new vector{ "Kernel", "Vector16", "Float16", "Float16Buffer", "ImageBasic", "ImageReadWrite", "ImageMipmap", "Pipes", "DeviceEnqueue", "LiteralSampler", "Int8"}; return *r; } const vector& AddressesDependencies() { static const auto r = new vector{ "Addresses", "GenericPointer"}; return *r; } const vector& Sampled1DDependencies() { static const auto r = new vector{ "Sampled1D", "Image1D"}; return *r; } const vector& SampledRectDependencies() { static const auto r = new vector{ "SampledRect", "ImageRect"}; return *r; } const vector& SampledBufferDependencies() { static const auto r = new vector{ "SampledBuffer", "ImageBuffer"}; return *r; } INSTANTIATE_TEST_CASE_P(ExecutionModel, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair("OpEntryPoint Vertex %func \"shader\" %var1 %var2\n", ShaderDependencies()), make_pair("OpEntryPoint TessellationControl %func \"shader\" %var1 %var2\n", TessellationDependencies()), make_pair("OpEntryPoint TessellationEvaluation %func \"shader\" %var1 %var2\n", TessellationDependencies()), make_pair("OpEntryPoint Geometry %func \"shader\" %var1 %var2\n", GeometryDependencies()), make_pair("OpEntryPoint Fragment %func \"shader\" %var1 %var2\n", ShaderDependencies()), make_pair("OpEntryPoint GLCompute %func \"shader\" %var1 %var2\n", ShaderDependencies()), make_pair("OpEntryPoint Kernel %func \"shader\" %var1 %var2\n", KernelDependencies()) ))); INSTANTIATE_TEST_CASE_P(AddressingAndMemoryModel, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" OpCapability Shader" " OpMemoryModel Logical Simple", AllCapabilities()), make_pair(" OpCapability Shader" " OpMemoryModel Logical GLSL450", AllCapabilities()), make_pair(" OpCapability Kernel" " OpMemoryModel Logical OpenCL", AllCapabilities()), make_pair(" OpCapability Shader" " OpMemoryModel Physical32 Simple", AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical32 GLSL450", AddressesDependencies()), make_pair(" OpCapability Kernel" " OpMemoryModel Physical32 OpenCL", AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical64 Simple", AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical64 GLSL450", AddressesDependencies()), make_pair(" OpCapability Kernel" " OpMemoryModel Physical64 OpenCL", AddressesDependencies()) ))); INSTANTIATE_TEST_CASE_P(ExecutionMode, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair("OpExecutionMode %func Invocations 42", GeometryDependencies()), make_pair("OpExecutionMode %func SpacingEqual", TessellationDependencies()), make_pair("OpExecutionMode %func SpacingFractionalEven", TessellationDependencies()), make_pair("OpExecutionMode %func SpacingFractionalOdd", TessellationDependencies()), make_pair("OpExecutionMode %func VertexOrderCw", TessellationDependencies()), make_pair("OpExecutionMode %func VertexOrderCcw", TessellationDependencies()), make_pair("OpExecutionMode %func PixelCenterInteger", ShaderDependencies()), make_pair("OpExecutionMode %func OriginUpperLeft", ShaderDependencies()), make_pair("OpExecutionMode %func OriginLowerLeft", ShaderDependencies()), make_pair("OpExecutionMode %func EarlyFragmentTests", ShaderDependencies()), make_pair("OpExecutionMode %func PointMode", TessellationDependencies()), make_pair("OpExecutionMode %func Xfb", vector{"TransformFeedback"}), make_pair("OpExecutionMode %func DepthReplacing", ShaderDependencies()), make_pair("OpExecutionMode %func DepthGreater", ShaderDependencies()), make_pair("OpExecutionMode %func DepthLess", ShaderDependencies()), make_pair("OpExecutionMode %func DepthUnchanged", ShaderDependencies()), make_pair("OpExecutionMode %func LocalSize 42 42 42", AllCapabilities()), make_pair("OpExecutionMode %func LocalSizeHint 42 42 42", KernelDependencies()), make_pair("OpExecutionMode %func InputPoints", GeometryDependencies()), make_pair("OpExecutionMode %func InputLines", GeometryDependencies()), make_pair("OpExecutionMode %func InputLinesAdjacency", GeometryDependencies()), make_pair("OpExecutionMode %func Triangles", GeometryTessellationDependencies()), make_pair("OpExecutionMode %func InputTrianglesAdjacency", GeometryDependencies()), make_pair("OpExecutionMode %func Quads", TessellationDependencies()), make_pair("OpExecutionMode %func Isolines", TessellationDependencies()), make_pair("OpExecutionMode %func OutputVertices 42", GeometryTessellationDependencies()), make_pair("OpExecutionMode %func OutputPoints", GeometryDependencies()), make_pair("OpExecutionMode %func OutputLineStrip", GeometryDependencies()), make_pair("OpExecutionMode %func OutputTriangleStrip", GeometryDependencies()), make_pair("OpExecutionMode %func VecTypeHint 2", KernelDependencies()), make_pair("OpExecutionMode %func ContractionOff", KernelDependencies()) ))); INSTANTIATE_TEST_CASE_P(StorageClass, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer UniformConstant %intt\n" " %var = OpVariable %ptrt UniformConstant\n", AllCapabilities()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Input %intt" " %var = OpVariable %ptrt Input\n", ShaderDependencies()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Uniform %intt\n" " %var = OpVariable %ptrt Uniform\n", ShaderDependencies()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Output %intt\n" " %var = OpVariable %ptrt Output\n", ShaderDependencies()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Workgroup %intt\n" " %var = OpVariable %ptrt Workgroup\n", AllCapabilities()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer CrossWorkgroup %intt\n" " %var = OpVariable %ptrt CrossWorkgroup\n", AllCapabilities()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Private %intt\n" " %var = OpVariable %ptrt Private\n", ShaderDependencies()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer PushConstant %intt\n" " %var = OpVariable %ptrt PushConstant\n", ShaderDependencies()), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer AtomicCounter %intt\n" " %var = OpVariable %ptrt AtomicCounter\n", vector{"AtomicStorage"}), make_pair(" %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Image %intt\n" " %var = OpVariable %ptrt Image\n", AllCapabilities()) ))); INSTANTIATE_TEST_CASE_P(Dim, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 1D 0 0 0 0 Unknown", Sampled1DDependencies()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 2D 0 0 0 0 Unknown", AllCapabilities()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 3D 0 0 0 0 Unknown", AllCapabilities()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Cube 0 0 0 0 Unknown", ShaderDependencies()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Rect 0 0 0 0 Unknown", SampledRectDependencies()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Buffer 0 0 0 0 Unknown", SampledBufferDependencies()), make_pair(" OpCapability ImageBasic" " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt SubpassData 0 0 0 2 Unknown", vector{"InputAttachment"}) ))); // NOTE: All Sampler Address Modes require kernel capabilities but the // OpConstantSampler requires LiteralSampler which depends on Kernel INSTANTIATE_TEST_CASE_P(SamplerAddressingMode, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert None 1 Nearest", vector{"LiteralSampler"}), make_pair(" %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert ClampToEdge 1 Nearest", vector{"LiteralSampler"}), make_pair(" %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert Clamp 1 Nearest", vector{"LiteralSampler"}), make_pair(" %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert Repeat 1 Nearest", vector{"LiteralSampler"}), make_pair(" %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert RepeatMirrored 1 Nearest", vector{"LiteralSampler"}) ))); //TODO(umar): Sampler Filter Mode //TODO(umar): Image Format //TODO(umar): Image Channel Order //TODO(umar): Image Channel Data Type //TODO(umar): Image Operands //TODO(umar): FP Fast Math Mode //TODO(umar): FP Rounding Mode //TODO(umar): Linkage Type //TODO(umar): Access Qualifier //TODO(umar): Function Parameter Attribute INSTANTIATE_TEST_CASE_P(Decoration, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair("OpDecorate %intt RelaxedPrecision\n", ShaderDependencies()), make_pair("OpDecorate %intt SpecId 1\n", ShaderDependencies()), make_pair("OpDecorate %intt Block\n", ShaderDependencies()), make_pair("OpDecorate %intt BufferBlock\n", ShaderDependencies()), make_pair("OpDecorate %intt RowMajor\n", MatrixDependencies()), make_pair("OpDecorate %intt ColMajor\n", MatrixDependencies()), make_pair("OpDecorate %intt ArrayStride 1\n", ShaderDependencies()), make_pair("OpDecorate %intt MatrixStride 1\n", ShaderDependencies()), make_pair("OpDecorate %intt GLSLShared\n", ShaderDependencies()), make_pair("OpDecorate %intt GLSLPacked\n", ShaderDependencies()), make_pair("OpDecorate %intt CPacked\n", KernelDependencies()), make_pair("OpDecorate %intt NoPerspective\n", ShaderDependencies()), make_pair("OpDecorate %intt Flat\n", ShaderDependencies()), make_pair("OpDecorate %intt Patch\n", TessellationDependencies()), make_pair("OpDecorate %intt Centroid\n", ShaderDependencies()), make_pair("OpDecorate %intt Sample\n", ShaderDependencies()), make_pair("OpDecorate %intt Invariant\n", ShaderDependencies()), make_pair("OpDecorate %intt Restrict\n", AllCapabilities()), make_pair("OpDecorate %intt Aliased\n", AllCapabilities()), make_pair("OpDecorate %intt Volatile\n", AllCapabilities()), make_pair("OpDecorate %intt Constant\n", KernelDependencies()), make_pair("OpDecorate %intt Coherent\n", AllCapabilities()), make_pair("OpDecorate %intt NonWritable\n", AllCapabilities()), make_pair("OpDecorate %intt NonReadable\n", AllCapabilities()), make_pair("OpDecorate %intt Uniform\n", ShaderDependencies()), make_pair("OpDecorate %intt SaturatedConversion\n", KernelDependencies()), make_pair("OpDecorate %intt Stream 0\n", vector{"GeometryStreams"}), make_pair("OpDecorate %intt Location 0\n", ShaderDependencies()), make_pair("OpDecorate %intt Component 0\n", ShaderDependencies()), make_pair("OpDecorate %intt Index 0\n", ShaderDependencies()), make_pair("OpDecorate %intt Binding 0\n", ShaderDependencies()), make_pair("OpDecorate %intt DescriptorSet 0\n", ShaderDependencies()), make_pair("OpDecorate %intt Offset 0\n", AllCapabilities()), make_pair("OpDecorate %intt XfbBuffer 0\n", vector{"TransformFeedback"}), make_pair("OpDecorate %intt XfbStride 0\n", vector{"TransformFeedback"}), make_pair("OpDecorate %intt FuncParamAttr Zext\n", KernelDependencies()), make_pair("OpDecorate %intt FPRoundingMode RTE\n", KernelDependencies()), make_pair("OpDecorate %intt FPFastMathMode Fast\n", KernelDependencies()), make_pair("OpDecorate %intt LinkageAttributes \"other\" Import\n", vector{"Linkage"}), make_pair("OpDecorate %intt NoContraction\n", ShaderDependencies()), make_pair("OpDecorate %intt InputAttachmentIndex 0\n", vector{"InputAttachment"}), make_pair("OpDecorate %intt Alignment 4\n", KernelDependencies()) ))); INSTANTIATE_TEST_CASE_P(BuiltIn, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair("OpDecorate %intt BuiltIn Position\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn PointSize\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn ClipDistance\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn CullDistance\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn VertexId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn InstanceId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn PrimitiveId\n", GeometryTessellationDependencies()), make_pair("OpDecorate %intt BuiltIn InvocationId\n", GeometryTessellationDependencies()), make_pair("OpDecorate %intt BuiltIn Layer\n", GeometryDependencies()), make_pair("OpDecorate %intt BuiltIn ViewportIndex\n", GeometryDependencies()), make_pair("OpDecorate %intt BuiltIn TessLevelOuter\n", TessellationDependencies()), make_pair("OpDecorate %intt BuiltIn TessLevelInner\n", TessellationDependencies()), make_pair("OpDecorate %intt BuiltIn TessCoord\n", TessellationDependencies()), make_pair("OpDecorate %intt BuiltIn PatchVertices\n", TessellationDependencies()), make_pair("OpDecorate %intt BuiltIn FragCoord\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn PointCoord\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn FrontFacing\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn SampleId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn SamplePosition\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn SampleMask\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn FragDepth\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn HelperInvocation\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn VertexIndex\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn InstanceIndex\n", ShaderDependencies()), // Though the remaining builtins don't require Shader, the BuiltIn keyword // itself currently does require it. make_pair("OpDecorate %intt BuiltIn NumWorkgroups\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn WorkgroupSize\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn WorkgroupId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn LocalInvocationId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn GlobalInvocationId\n", ShaderDependencies()), make_pair("OpDecorate %intt BuiltIn LocalInvocationIndex", ShaderDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn WorkDim\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn GlobalSize\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn EnqueuedWorkgroupSize\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn GlobalOffset\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn GlobalLinearId\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn SubgroupSize\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn SubgroupMaxSize\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn NumSubgroups\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn NumEnqueuedSubgroups\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn SubgroupId\n", KernelDependencies()), make_pair("OpCapability Shader\n" "OpDecorate %intt BuiltIn SubgroupLocalInvocationId\n", KernelDependencies()) ))); // TODO(umar): Selection Control // TODO(umar): Loop Control // TODO(umar): Function Control // TODO(umar): Memory Semantics // TODO(umar): Memory Access // TODO(umar): Scope // TODO(umar): Group Operation // TODO(umar): Kernel Enqueue Flags // TODO(umar): Kernel Profiling Flags INSTANTIATE_TEST_CASE_P(MatrixOp, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair( "%intt = OpTypeInt 32 1\n" "%vec3 = OpTypeVector %intt 3\n" "%mat33 = OpTypeMatrix %vec3 3\n", MatrixDependencies())))); // clang-format on // Creates assembly containing an OpImageFetch instruction using operands for // the image-operands part. The assembly defines constants %fzero and %izero // that can be used for operands where IDs are required. The assembly is valid, // apart from not declaring any capabilities required by the operands. string ImageOperandsTemplate(const string& operands) { stringstream ss; // clang-format off ss << R"( OpCapability Kernel OpMemoryModel Logical OpenCL %i32 = OpTypeInt 32 1 %f32 = OpTypeFloat 32 %v4i32 = OpTypeVector %i32 4 %timg = OpTypeImage %i32 2D 0 0 0 0 Unknown %pimg = OpTypePointer UniformConstant %timg %tfun = OpTypeFunction %i32 %vimg = OpVariable %pimg UniformConstant %izero = OpConstant %i32 0 %fzero = OpConstant %f32 0. %main = OpFunction %i32 None %tfun %lbl = OpLabel %img = OpLoad %timg %vimg %r1 = OpImageFetch %v4i32 %img %izero )" << operands << R"( OpReturnValue %izero OpFunctionEnd )"; // clang-format on return ss.str(); } INSTANTIATE_TEST_CASE_P( TwoImageOperandsMask, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values(make_pair(ImageOperandsTemplate("Bias|Lod %fzero %fzero"), ShaderDependencies()), make_pair(ImageOperandsTemplate("Lod|Offset %fzero %izero"), vector{"ImageGatherExtended"}), make_pair(ImageOperandsTemplate("Sample|MinLod %izero %fzero"), vector{"MinLod"}), make_pair(ImageOperandsTemplate("Lod|Sample %fzero %izero"), AllCapabilities())))); // TODO(umar): Instruction capability checks TEST_P(ValidateCapability, Capability) { string capability; pair> operation; std::tie(capability, operation) = GetParam(); stringstream ss; if (capability.empty() == false) { ss << "OpCapability " + capability + " "; } ss << operation.first; spv_result_t res = SPV_ERROR_INTERNAL; auto& valid_capabilities = operation.second; auto it = find(begin(valid_capabilities), end(valid_capabilities), capability); if (it != end(valid_capabilities)) { res = SPV_SUCCESS; } else { res = SPV_ERROR_INVALID_CAPABILITY; } CompileSuccessfully(ss.str()); ASSERT_EQ(res, ValidateInstructions()); } } // namespace anonymous