// Copyright (c) 2015-2016 The Khronos Group Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Validation tests for Logical Layout #include #include #include #include #include #include "source/assembly_grammar.h" #include "test_fixture.h" #include "unit_spirv.h" #include "val_fixtures.h" namespace { using spvtest::ScopedContext; using std::get; using std::make_pair; using std::ostringstream; using std::pair; using std::string; using std::tuple; using std::vector; using testing::Combine; using testing::HasSubstr; using testing::Values; using testing::ValuesIn; // Parameter for validation test fixtures. The first string is a capability // name that will begin the assembly under test, the second the remainder // assembly, and the vector at the end determines whether the test expects // success or failure. See below for details and convenience methods to access // each one. // // The assembly to test is composed from a variable top line and a fixed // remainder. The top line will be an OpCapability instruction, while the // remainder will be some assembly text that succeeds or fails to assemble // depending on which capability was chosen. For instance, the following will // succeed: // // OpCapability Pipes ; implies Kernel // OpLifetimeStop %1 0 ; requires Kernel // // and the following will fail: // // OpCapability Kernel // %1 = OpTypeNamedBarrier ; requires NamedBarrier // // So how does the test parameter capture which capabilities should cause // success and which shouldn't? The answer is in the last element: it's a // vector of capabilities that make the remainder assembly succeed. So if the // first-line capability exists in that vector, success is expected; otherwise, // failure is expected in the tests. // // We will use testing::Combine() to vary the first line: when we combine // AllCapabilities() with a single remainder assembly, we generate enough test // cases to try the assembly with every possible capability that could be // declared. However, Combine() only produces tuples -- it cannot produce, say, // a struct. Therefore, this type must be a tuple. using CapTestParameter = tuple>>; const string& Capability(const CapTestParameter& p) { return get<0>(p); } const string& Remainder(const CapTestParameter& p) { return get<1>(p).first; } const vector& MustSucceed(const CapTestParameter& p) { return get<1>(p).second; } // Creates assembly to test from p. string MakeAssembly(const CapTestParameter& p) { ostringstream ss; const string& capability = Capability(p); if (!capability.empty()) { ss << "OpCapability " << capability << "\n"; } ss << Remainder(p); return ss.str(); } // Expected validation result for p. spv_result_t ExpectedResult(const CapTestParameter& p) { const auto& caps = MustSucceed(p); auto found = find(begin(caps), end(caps), Capability(p)); return (found == end(caps)) ? SPV_ERROR_INVALID_CAPABILITY : SPV_SUCCESS; } // Assembles using v1.0, unless the parameter's capability requires v1.1. using ValidateCapability = spvtest::ValidateBase; // Always assembles using v1.1. using ValidateCapabilityV11 = spvtest::ValidateBase; // Always assembles using Vulkan 1.0. // TODO(dneto): Refactor all these tests to scale better across environments. using ValidateCapabilityVulkan10 = spvtest::ValidateBase; // Always assembles using OpenGL 4.0. using ValidateCapabilityOpenGL40 = spvtest::ValidateBase; TEST_F(ValidateCapability, Default) { const char str[] = R"( OpCapability Kernel OpCapability Linkage OpCapability Matrix OpMemoryModel Logical OpenCL %f32 = OpTypeFloat 32 %vec3 = OpTypeVector %f32 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", "MultiViewport", "SubgroupDispatch", "NamedBarrier", "PipeStorage"}; return *r; } const vector& AllSpirV10Capabilities() { 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", "MultiViewport"}; return *r; } const vector& AllVulkan10Capabilities() { static const auto r = new vector{ "", "Matrix", "Shader", "InputAttachment", "Sampled1D", "Image1D", "SampledBuffer", "ImageBuffer", "ImageQuery", "DerivativeControl", "Geometry", "Tessellation", "Float64", "Int64", "Int16", "TessellationPointSize", "GeometryPointSize", "ImageGatherExtended", "StorageImageMultisample", "UniformBufferArrayDynamicIndexing", "SampledImageArrayDynamicIndexing", "StorageBufferArrayDynamicIndexing", "StorageImageArrayDynamicIndexing", "ClipDistance", "CullDistance", "ImageCubeArray", "SampleRateShading", "SparseResidency", "MinLod", "SampledCubeArray", "ImageMSArray", "StorageImageExtendedFormats", "InterpolationFunction", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat", "MultiViewport"}; 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", "SampledCubeArray", "ImageMSArray", "StorageImageExtendedFormats", "ImageQuery", "DerivativeControl", "InterpolationFunction", "TransformFeedback", "GeometryStreams", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat", "MultiViewport"}; 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", "SampledCubeArray", "ImageMSArray", "StorageImageExtendedFormats", "ImageQuery", "DerivativeControl", "InterpolationFunction", "TransformFeedback", "GeometryStreams", "StorageImageReadWithoutFormat", "StorageImageWriteWithoutFormat", "MultiViewport"}; 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", "MultiViewport"}; return *r; } const vector& GeometryTessellationDependencies() { static const auto r = new vector{ "Tessellation", "TessellationPointSize", "Geometry", "GeometryPointSize", "GeometryStreams", "MultiViewport"}; return *r; } // Returns the names of capabilities that directly depend on Kernel, // plus itself. const vector& KernelDependencies() { static const auto r = new vector{ "Kernel", "Vector16", "Float16Buffer", "ImageBasic", "ImageReadWrite", "ImageMipmap", "Pipes", "DeviceEnqueue", "LiteralSampler", "Int8", "SubgroupDispatch", "NamedBarrier", "PipeStorage"}; 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; } const char kOpenCLMemoryModel[] = \ " OpCapability Kernel" " OpMemoryModel Logical OpenCL "; const char kGLSL450MemoryModel[] = \ " OpCapability Shader" " OpMemoryModel Logical GLSL450 "; const char kVoidFVoid[] = \ " %void = OpTypeVoid" " %void_f = OpTypeFunction %void" " %func = OpFunction %void None %void_f" " %label = OpLabel" " OpReturn" " OpFunctionEnd "; const char kVoidFVoid2[] = \ " %void_f = OpTypeFunction %voidt" " %func = OpFunction %voidt None %void_f" " %label = OpLabel" " OpReturn" " OpFunctionEnd "; INSTANTIATE_TEST_CASE_P(ExecutionModel, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint TessellationControl %func \"shader\"" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint TessellationEvaluation %func \"shader\"" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Geometry %func \"shader\"" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Fragment %func \"shader\"" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint GLCompute %func \"shader\"" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Kernel %func \"shader\"" + string(kVoidFVoid), KernelDependencies()) )),); INSTANTIATE_TEST_CASE_P(AddressingAndMemoryModel, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" OpCapability Shader" " OpMemoryModel Logical Simple" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AllCapabilities()), make_pair(" OpCapability Shader" " OpMemoryModel Logical GLSL450" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AllCapabilities()), make_pair(" OpCapability Kernel" " OpMemoryModel Logical OpenCL" " OpEntryPoint Kernel %func \"compute\"" + string(kVoidFVoid), AllCapabilities()), make_pair(" OpCapability Shader" " OpMemoryModel Physical32 Simple" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical32 GLSL450" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AddressesDependencies()), make_pair(" OpCapability Kernel" " OpMemoryModel Physical32 OpenCL" " OpEntryPoint Kernel %func \"compute\"" + string(kVoidFVoid), AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical64 Simple" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AddressesDependencies()), make_pair(" OpCapability Shader" " OpMemoryModel Physical64 GLSL450" " OpEntryPoint Vertex %func \"shader\"" + string(kVoidFVoid), AddressesDependencies()), make_pair(" OpCapability Kernel" " OpMemoryModel Physical64 OpenCL" " OpEntryPoint Kernel %func \"compute\"" + string(kVoidFVoid), AddressesDependencies()) )),); INSTANTIATE_TEST_CASE_P(ExecutionMode, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func Invocations 42" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func SpacingEqual" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func SpacingFractionalEven" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func SpacingFractionalOdd" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func VertexOrderCw" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func VertexOrderCcw" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func PixelCenterInteger" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func OriginUpperLeft" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func OriginLowerLeft" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func EarlyFragmentTests" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func PointMode" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func Xfb" + string(kVoidFVoid), vector{"TransformFeedback"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func DepthReplacing" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func DepthGreater" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func DepthLess" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" " "OpExecutionMode %func DepthUnchanged" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func LocalSize 42 42 42" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func LocalSizeHint 42 42 42" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func InputPoints" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func InputLines" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func InputLinesAdjacency" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func Triangles" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func Triangles" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func InputTrianglesAdjacency" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func Quads" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func Isolines" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func OutputVertices 42" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint TessellationControl %func \"shader\" " "OpExecutionMode %func OutputVertices 42" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func OutputPoints" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func OutputLineStrip" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Geometry %func \"shader\" " "OpExecutionMode %func OutputTriangleStrip" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func VecTypeHint 2" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func ContractionOff" + string(kVoidFVoid), KernelDependencies()))),); // clang-format on INSTANTIATE_TEST_CASE_P( ExecutionModeV11, ValidateCapabilityV11, Combine(ValuesIn(AllCapabilities()), Values(make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func SubgroupSize 1" + string(kVoidFVoid), vector{"SubgroupDispatch"}), make_pair( string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"shader\" " "OpExecutionMode %func SubgroupsPerWorkgroup 65535" + string(kVoidFVoid), vector{"SubgroupDispatch"}))), ); // clang-format off INSTANTIATE_TEST_CASE_P(StorageClass, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer UniformConstant %intt\n" " %var = OpVariable %ptrt UniformConstant\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Kernel %func \"compute\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Input %intt" " %var = OpVariable %ptrt Input\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Uniform %intt\n" " %var = OpVariable %ptrt Uniform\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Output %intt\n" " %var = OpVariable %ptrt Output\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Workgroup %intt\n" " %var = OpVariable %ptrt Workgroup\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer CrossWorkgroup %intt\n" " %var = OpVariable %ptrt CrossWorkgroup\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Kernel %func \"compute\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Private %intt\n" " %var = OpVariable %ptrt Private\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + " OpEntryPoint Kernel %func \"compute\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer PushConstant %intt\n" " %var = OpVariable %ptrt PushConstant\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer AtomicCounter %intt\n" " %var = OpVariable %ptrt AtomicCounter\n" + string(kVoidFVoid), vector{"AtomicStorage"}), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" + " %intt = OpTypeInt 32 0\n" " %ptrt = OpTypePointer Image %intt\n" " %var = OpVariable %ptrt Image\n" + string(kVoidFVoid), AllCapabilities()) )),); INSTANTIATE_TEST_CASE_P(Dim, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 1D 0 0 0 0 Unknown" + string(kVoidFVoid2), Sampled1DDependencies()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 2D 0 0 0 0 Unknown" + string(kVoidFVoid2), AllCapabilities()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt 3D 0 0 0 0 Unknown" + string(kVoidFVoid2), AllCapabilities()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Cube 0 0 0 0 Unknown" + string(kVoidFVoid2), ShaderDependencies()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Rect 0 0 0 0 Unknown" + string(kVoidFVoid2), SampledRectDependencies()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt Buffer 0 0 0 0 Unknown" + string(kVoidFVoid2), SampledBufferDependencies()), make_pair(" OpCapability ImageBasic" + string(kOpenCLMemoryModel) + string(" OpEntryPoint Kernel %func \"compute\"") + " %voidt = OpTypeVoid" " %imgt = OpTypeImage %voidt SubpassData 0 0 0 2 Unknown" + string(kVoidFVoid2), 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(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" " %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert None 1 Nearest" + string(kVoidFVoid), vector{"LiteralSampler"}), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" " %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert ClampToEdge 1 Nearest" + string(kVoidFVoid), vector{"LiteralSampler"}), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" " %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert Clamp 1 Nearest" + string(kVoidFVoid), vector{"LiteralSampler"}), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" " %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert Repeat 1 Nearest" + string(kVoidFVoid), vector{"LiteralSampler"}), make_pair(string(kGLSL450MemoryModel) + " OpEntryPoint Vertex %func \"shader\"" " %samplert = OpTypeSampler" " %sampler = OpConstantSampler %samplert RepeatMirrored 1 Nearest" + string(kVoidFVoid), 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(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt RelaxedPrecision\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Block\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt BufferBlock\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt RowMajor\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), MatrixDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt ColMajor\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), MatrixDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt ArrayStride 1\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt MatrixStride 1\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), MatrixDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt GLSLShared\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt GLSLPacked\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt CPacked\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt NoPerspective\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Flat\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Patch\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Centroid\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Sample\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"SampleRateShading"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Invariant\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Restrict\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Aliased\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Volatile\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt Constant\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Coherent\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt NonWritable\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt NonReadable\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Uniform\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt SaturatedConversion\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Stream 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"GeometryStreams"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Location 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Component 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Index 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Binding 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt DescriptorSet 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt Offset 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt XfbBuffer 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"TransformFeedback"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt XfbStride 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"TransformFeedback"}), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt FuncParamAttr Zext\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt FPFastMathMode Fast\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt LinkageAttributes \"other\" Import\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"Linkage"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt NoContraction\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %intt InputAttachmentIndex 0\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"InputAttachment"}), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %intt Alignment 4\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()) )),); // clang-format on INSTANTIATE_TEST_CASE_P( DecorationSpecId, ValidateCapability, Combine(ValuesIn(AllSpirV10Capabilities()), Values(make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %1 SpecId 1\n" "%intt = OpTypeInt 32 0\n" "%1 = OpSpecConstant %intt 0\n" + string(kVoidFVoid), ShaderDependencies()))), ); INSTANTIATE_TEST_CASE_P( DecorationV11, ValidateCapabilityV11, Combine(ValuesIn(AllCapabilities()), Values(make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %p MaxByteOffset 0 " "%i32 = OpTypeInt 32 0 " "%pi32 = OpTypePointer Workgroup %i32 " "%p = OpVariable %pi32 Workgroup " + string(kVoidFVoid), AddressesDependencies()), // Trying to test OpDecorate here, but if this fails due to // incorrect OpMemoryModel validation, that must also be // fixed. make_pair(string("OpMemoryModel Logical OpenCL " "OpEntryPoint Kernel %func \"compute\" \n" "OpDecorate %1 SpecId 1 " "%intt = OpTypeInt 32 0 " "%1 = OpSpecConstant %intt 0") + string(kVoidFVoid), KernelDependencies()), make_pair(string("OpMemoryModel Logical Simple " "OpEntryPoint Vertex %func \"shader\" \n" "OpDecorate %1 SpecId 1 " "%intt = OpTypeInt 32 0 " "%1 = OpSpecConstant %intt 0") + string(kVoidFVoid), ShaderDependencies()))), ); // clang-format off INSTANTIATE_TEST_CASE_P(BuiltIn, ValidateCapability, Combine( ValuesIn(AllCapabilities()), Values( make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn Position\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), // Just mentioning PointSize, ClipDistance, or CullDistance as a BuiltIn does // not trigger the requirement for the associated capability. // See https://github.com/KhronosGroup/SPIRV-Tools/issues/365 make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn PointSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn ClipDistance\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn CullDistance\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn VertexId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn InstanceId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn PrimitiveId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), GeometryTessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn InvocationId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), GeometryTessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn Layer\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), GeometryDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn ViewportIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"MultiViewport"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn TessLevelOuter\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn TessLevelInner\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn TessCoord\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn PatchVertices\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), TessellationDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn FragCoord\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn PointCoord\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn FrontFacing\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn SampleId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"SampleRateShading"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn SamplePosition\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), vector{"SampleRateShading"}), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn SampleMask\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn FragDepth\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn HelperInvocation\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn VertexIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn InstanceIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn NumWorkgroups\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn WorkgroupSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn WorkgroupId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn LocalInvocationId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn GlobalInvocationId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn LocalInvocationIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllCapabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn WorkDim\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn GlobalSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn EnqueuedWorkgroupSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn GlobalOffset\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn GlobalLinearId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn SubgroupSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn SubgroupMaxSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn NumSubgroups\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn NumEnqueuedSubgroups\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn SubgroupId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn SubgroupLocalInvocationId\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), KernelDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn VertexIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()), make_pair(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "OpDecorate %intt BuiltIn InstanceIndex\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), ShaderDependencies()) )),); // Ensure that mere mention of PointSize, ClipDistance, or CullDistance as // BuiltIns does not trigger the requirement for the associated // capability. // See https://github.com/KhronosGroup/SPIRV-Tools/issues/365 INSTANTIATE_TEST_CASE_P(BuiltIn, ValidateCapabilityVulkan10, Combine( // All capabilities to try. ValuesIn(AllSpirV10Capabilities()), Values( make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpMemberDecorate %block 0 BuiltIn PointSize\n" "%f32 = OpTypeFloat 32\n" "%block = OpTypeStruct %f32\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), // Capabilities which should succeed. AllVulkan10Capabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpMemberDecorate %block 0 BuiltIn ClipDistance\n" "%f32 = OpTypeFloat 32\n" "%intt = OpTypeInt 32 0\n" "%intt_4 = OpConstant %intt 4\n" "%f32arr4 = OpTypeArray %f32 %intt_4\n" "%block = OpTypeStruct %f32arr4\n" + string(kVoidFVoid), AllVulkan10Capabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" "OpMemberDecorate %block 0 BuiltIn CullDistance\n" "%f32 = OpTypeFloat 32\n" "%intt = OpTypeInt 32 0\n" "%intt_4 = OpConstant %intt 4\n" "%f32arr4 = OpTypeArray %f32 %intt_4\n" "%block = OpTypeStruct %f32arr4\n" + string(kVoidFVoid), AllVulkan10Capabilities()) )),); INSTANTIATE_TEST_CASE_P(BuiltIn, ValidateCapabilityOpenGL40, Combine( // OpenGL 4.0 is based on SPIR-V 1.0 ValuesIn(AllSpirV10Capabilities()), Values( make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn PointSize\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllSpirV10Capabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn ClipDistance\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllSpirV10Capabilities()), make_pair(string(kGLSL450MemoryModel) + "OpEntryPoint Vertex %func \"shader\" \n" + "OpDecorate %intt BuiltIn CullDistance\n" "%intt = OpTypeInt 32 0\n" + string(kVoidFVoid), AllSpirV10Capabilities()) )),); // 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(string(kOpenCLMemoryModel) + "OpEntryPoint Kernel %func \"compute\" \n" + "%f32 = OpTypeFloat 32\n" "%vec3 = OpTypeVector %f32 3\n" "%mat33 = OpTypeMatrix %vec3 3\n" + string(kVoidFVoid), MatrixDependencies()))),); // clang-format on #if 0 // TODO(atgoo@github.com) The following test is not valid as it generates // invalid combinations of images, instructions and image operands. // // 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) { ostringstream ss; // clang-format off ss << R"( OpCapability Kernel OpCapability Linkage OpMemoryModel Logical OpenCL %i32 = OpTypeInt 32 0 %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()))), ); #endif // TODO(umar): Instruction capability checks // True if capability exists in env. bool Exists(const std::string& capability, spv_target_env env) { spv_operand_desc dummy; return SPV_SUCCESS == libspirv::AssemblyGrammar(ScopedContext(env).context) .lookupOperand(SPV_OPERAND_TYPE_CAPABILITY, capability.c_str(), capability.size(), &dummy); } TEST_P(ValidateCapability, Capability) { const string capability = Capability(GetParam()); spv_target_env env = (capability.empty() || Exists(capability, SPV_ENV_UNIVERSAL_1_0)) ? SPV_ENV_UNIVERSAL_1_0 : SPV_ENV_UNIVERSAL_1_1; const string test_code = MakeAssembly(GetParam()); CompileSuccessfully(test_code, env); ASSERT_EQ(ExpectedResult(GetParam()), ValidateInstructions(env)) << "target env: " << spvTargetEnvDescription(env) << "\ntest code:\n" << test_code; } TEST_P(ValidateCapabilityV11, Capability) { const string test_code = MakeAssembly(GetParam()); CompileSuccessfully(test_code, SPV_ENV_UNIVERSAL_1_1); ASSERT_EQ(ExpectedResult(GetParam()), ValidateInstructions(SPV_ENV_UNIVERSAL_1_1)) << test_code; } TEST_P(ValidateCapabilityVulkan10, Capability) { const string test_code = MakeAssembly(GetParam()); CompileSuccessfully(test_code, SPV_ENV_VULKAN_1_0); ASSERT_EQ(ExpectedResult(GetParam()), ValidateInstructions(SPV_ENV_VULKAN_1_0)) << test_code; } TEST_P(ValidateCapabilityOpenGL40, Capability) { const string test_code = MakeAssembly(GetParam()); CompileSuccessfully(test_code, SPV_ENV_OPENGL_4_0); ASSERT_EQ(ExpectedResult(GetParam()), ValidateInstructions(SPV_ENV_OPENGL_4_0)) << test_code; } TEST_F(ValidateCapability, SemanticsIdIsAnIdNotALiteral) { // From https://github.com/KhronosGroup/SPIRV-Tools/issues/248 // The validator was interpreting the memory semantics ID number // as the value to be checked rather than an ID that references // another value to be checked. // In this case a raw ID of 64 was mistaken to mean a literal // semantic value of UniformMemory, which would require the Shader // capability. const char str[] = R"( OpCapability Kernel OpCapability Linkage OpMemoryModel Logical OpenCL ; %i32 has ID 1 %i32 = OpTypeInt 32 0 %tf = OpTypeFunction %i32 %pi32 = OpTypePointer CrossWorkgroup %i32 %var = OpVariable %pi32 CrossWorkgroup %c = OpConstant %i32 100 %scope = OpConstant %i32 1 ; Device scope ; Fake an instruction with 64 as the result id. ; !64 = OpConstantNull %i32 !0x3002e !1 !64 %f = OpFunction %i32 None %tf %l = OpLabel %result = OpAtomicIAdd %i32 %var %scope !64 %c OpReturnValue %result OpFunctionEnd )"; CompileSuccessfully(str); // Since we are forcing usage of 64, the "id bound" in the binary header // must be overwritten so that 64 is considered within bound. // ID Bound is at index 3 of the binary. Set it to 65. OverwriteAssembledBinary(3, 65); ASSERT_EQ(SPV_SUCCESS, ValidateInstructions()); } TEST_F(ValidateCapability, IntSignednessKernelGood) { const std::string spirv = R"( OpCapability Kernel OpCapability Linkage OpMemoryModel Logical OpenCL %i32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions()); } TEST_F(ValidateCapability, IntSignednessKernelBad) { const std::string spirv = R"( OpCapability Kernel OpCapability Linkage OpMemoryModel Logical OpenCL %i32 = OpTypeInt 32 1 )"; CompileSuccessfully(spirv); EXPECT_EQ(SPV_ERROR_INVALID_BINARY, ValidateInstructions()); EXPECT_THAT(getDiagnosticString(), HasSubstr("The Signedness in OpTypeInt must always be 0 when " "Kernel capability is used.")); } TEST_F(ValidateCapability, IntSignednessShaderGood) { const std::string spirv = R"( OpCapability Shader OpCapability Linkage OpMemoryModel Logical GLSL450 %u32 = OpTypeInt 32 0 %i32 = OpTypeInt 32 1 )"; CompileSuccessfully(spirv); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions()); } TEST_F(ValidateCapability, NonVulkan10Capability) { const std::string spirv = R"( OpCapability Shader OpCapability Linkage OpMemoryModel Logical GLSL450 %u32 = OpTypeInt 32 0 %i32 = OpTypeInt 32 1 )"; CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_VULKAN_1_0)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Linkage is not allowed by Vulkan 1.0")); } TEST_F(ValidateCapability, Vulkan10EnabledByExtension) { const std::string spirv = R"( OpCapability Shader OpCapability DrawParameters OpExtension "SPV_KHR_shader_draw_parameters" OpMemoryModel Logical GLSL450 OpEntryPoint Vertex %func "shader" OpMemberDecorate %block 0 BuiltIn PointSize %f32 = OpTypeFloat 32 %block = OpTypeStruct %f32 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_0); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_VULKAN_1_0)); } TEST_F(ValidateCapability, Vulkan10NotEnabledByExtension) { const std::string spirv = R"( OpCapability Shader OpCapability DrawParameters OpMemoryModel Logical GLSL450 OpEntryPoint Vertex %func "shader" OpDecorate %intt BuiltIn PointSize %intt = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_VULKAN_1_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_VULKAN_1_0)); EXPECT_THAT( getDiagnosticString(), HasSubstr("Capability DrawParameters is not allowed by Vulkan 1.0")); } TEST_F(ValidateCapability, NonOpenCL12FullCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Pipes OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_1_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_1_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr("Capability Pipes is not allowed by OpenCL 1.2 Full Profile")); } TEST_F(ValidateCapability, OpenCL12FullEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_1_2); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_1_2)); } TEST_F(ValidateCapability, OpenCL12FullNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_1_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_1_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr( "Capability Sampled1D is not allowed by OpenCL 1.2 Full Profile")); } TEST_F(ValidateCapability, NonOpenCL12EmbeddedCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Int64 OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_1_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_1_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr( "Capability Int64 is not allowed by OpenCL 1.2 Embedded Profile")); } TEST_F(ValidateCapability, OpenCL12EmbeddedEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_1_2); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_1_2)); } TEST_F(ValidateCapability, OpenCL12EmbeddedNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_1_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_1_2)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Sampled1D is not allowed by OpenCL 1.2 " "Embedded Profile")); } TEST_F(ValidateCapability, OpenCL20FullCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Pipes OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_0); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_2_0)); } TEST_F(ValidateCapability, NonOpenCL20FullCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Matrix OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_2_0)); EXPECT_THAT( getDiagnosticString(), HasSubstr( "Capability Matrix is not allowed by OpenCL 2.0/2.1 Full Profile")); } TEST_F(ValidateCapability, OpenCL20FullEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_0); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_2_0)); } TEST_F(ValidateCapability, OpenCL20FullNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_2_0)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Sampled1D is not allowed by OpenCL 2.0/2.1 " "Full Profile")); } TEST_F(ValidateCapability, NonOpenCL20EmbeddedCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Int64 OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_0)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Int64 is not allowed by OpenCL 2.0/2.1 " "Embedded Profile")); } TEST_F(ValidateCapability, OpenCL20EmbeddedEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_0); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_0)); } TEST_F(ValidateCapability, OpenCL20EmbeddedNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_0); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_0)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Sampled1D is not allowed by OpenCL 2.0/2.1 " "Embedded Profile")); } TEST_F(ValidateCapability, OpenCL22FullCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability PipeStorage OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_2); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_2_2)); } TEST_F(ValidateCapability, NonOpenCL22FullCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Matrix OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_2_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr("Capability Matrix is not allowed by OpenCL 2.2 Full Profile")); } TEST_F(ValidateCapability, OpenCL22FullEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_2); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_2_2)); } TEST_F(ValidateCapability, OpenCL22FullNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_2_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_2_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr( "Capability Sampled1D is not allowed by OpenCL 2.2 Full Profile")); } TEST_F(ValidateCapability, NonOpenCL22EmbeddedCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Int64 OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )"; CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_2)); EXPECT_THAT( getDiagnosticString(), HasSubstr( "Capability Int64 is not allowed by OpenCL 2.2 Embedded Profile")); } TEST_F(ValidateCapability, OpenCL22EmbeddedEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability ImageBasic OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_2); EXPECT_EQ(SPV_SUCCESS, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_2)); } TEST_F(ValidateCapability, OpenCL22EmbeddedNotEnabledByCapability) { const std::string spirv = R"( OpCapability Kernel OpCapability Addresses OpCapability Linkage OpCapability Sampled1D OpMemoryModel Physical64 OpenCL %u32 = OpTypeInt 32 0 )" + string(kVoidFVoid); CompileSuccessfully(spirv, SPV_ENV_OPENCL_EMBEDDED_2_2); EXPECT_EQ(SPV_ERROR_INVALID_CAPABILITY, ValidateInstructions(SPV_ENV_OPENCL_EMBEDDED_2_2)); EXPECT_THAT(getDiagnosticString(), HasSubstr("Capability Sampled1D is not allowed by OpenCL 2.2 " "Embedded Profile")); } } // namespace