SPIRV-Tools/test/OperandCapabilities.cpp
David Neto d02f68ae79 Update to 1.0 Rev 2 work-in-progress headers
Updated readme.

Note: The header advertises itself as Rev 1, but contains
many (all?) the updates intended for Rev 2.  We might need
to update one more time before SPIR-V 1.0 Rev2 is published.

Regenerated syntax tables for 1.0.

Changed names:
  InputTriangles -> Triangles
  InputQuads -> Quads
  InputIsolines -> Isolines
  WorkgroupLocal -> Workgroup
  WorkgroupGlobal -> CrossWorkgroup
  PrivateGlobal -> Private
  (Dim) InputTarget -> SubpassData
  WorkgroupLocalMemoryMask -> WorkgroupMemoryMask
  WorkgroupGlobalMemoryMask -> CrossWorkgroupMemoryMask
  AsyncGroupCopy -> GroupAsyncCopy
  WaitGroupEvents -> GroupWaitEvents

Remove:
  IndependentForwardProgress capability
  Smooth decoration
  FragColor BuiltIn
  WorkgroupLinearId in favour of LocalInvocationId
  ImageSRGBWrite capability
  Special OpenCL image instructions

Add:
  image channel data type UnormInt101010_2
  AcquireReleaseMask

InputTargetIndex updates:
  InputTargetIndex -> InputAttachmentIndex
  InputAttachmentIndex depends on InputAttachment capability,
  and it takes a literal number argument.

Capability StorageImageExtendedFormats updates:
  Enum value changed from 26 to 49. (Changes position in tables).
  Replaces AdvancedImageFormat capability.

OpenCL source language -> OpenCL_C, OpenCL_CPP
2015-11-12 09:43:12 -05:00

617 lines
32 KiB
C++

// Copyright (c) 2015 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.
// Test capability dependencies for enums.
#include "UnitSPIRV.h"
namespace {
// A test case for mapping an enum to a capability mask.
struct EnumCapabilityCase {
spv_operand_type_t type;
uint32_t value;
uint64_t expected_mask;
};
using EnumCapabilityTest = ::testing::TestWithParam<EnumCapabilityCase>;
TEST_P(EnumCapabilityTest, Sample) {
spv_operand_table operandTable;
ASSERT_EQ(SPV_SUCCESS, spvOperandTableGet(&operandTable));
spv_operand_desc entry;
ASSERT_EQ(SPV_SUCCESS,
spvOperandTableValueLookup(operandTable, GetParam().type,
GetParam().value, &entry));
EXPECT_EQ(GetParam().expected_mask, entry->capabilities);
}
#define CASE0(TYPE, VALUE) \
{ SPV_OPERAND_TYPE_##TYPE, uint32_t(Spv##VALUE), 0 }
#define CASE1(TYPE, VALUE, CAP) \
{ \
SPV_OPERAND_TYPE_##TYPE, uint32_t(Spv##VALUE), \
SPV_CAPABILITY_AS_MASK(SpvCapability##CAP) \
}
#define CASE2(TYPE, VALUE, CAP1, CAP2) \
{ \
SPV_OPERAND_TYPE_##TYPE, uint32_t(Spv##VALUE), \
(SPV_CAPABILITY_AS_MASK(SpvCapability##CAP1) | \
SPV_CAPABILITY_AS_MASK(SpvCapability##CAP2)) \
}
// See SPIR-V Section 3.3 Execution Model
INSTANTIATE_TEST_CASE_P(
ExecutionModel, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(EXECUTION_MODEL, ExecutionModelVertex, Shader),
CASE1(EXECUTION_MODEL, ExecutionModelTessellationControl, Tessellation),
CASE1(EXECUTION_MODEL, ExecutionModelTessellationEvaluation,
Tessellation),
CASE1(EXECUTION_MODEL, ExecutionModelGeometry, Geometry),
CASE1(EXECUTION_MODEL, ExecutionModelFragment, Shader),
CASE1(EXECUTION_MODEL, ExecutionModelGLCompute, Shader),
CASE1(EXECUTION_MODEL, ExecutionModelKernel, Kernel),
}));
// See SPIR-V Section 3.4 Addressing Model
INSTANTIATE_TEST_CASE_P(
AddressingModel, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(ADDRESSING_MODEL, AddressingModelLogical),
CASE1(ADDRESSING_MODEL, AddressingModelPhysical32, Addresses),
CASE1(ADDRESSING_MODEL, AddressingModelPhysical64, Addresses),
}));
// See SPIR-V Section 3.5 Memory Model
INSTANTIATE_TEST_CASE_P(MemoryModel, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(MEMORY_MODEL, MemoryModelSimple, Shader),
CASE1(MEMORY_MODEL, MemoryModelGLSL450, Shader),
CASE1(MEMORY_MODEL, MemoryModelOpenCL, Kernel),
}));
// See SPIR-V Section 3.6 Execution Mode
INSTANTIATE_TEST_CASE_P(
ExecutionMode, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(EXECUTION_MODE, ExecutionModeInvocations, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeSpacingEqual, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeSpacingFractionalEven, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeSpacingFractionalOdd, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeVertexOrderCw, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeVertexOrderCcw, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModePixelCenterInteger, Shader),
CASE1(EXECUTION_MODE, ExecutionModeOriginUpperLeft, Shader),
CASE1(EXECUTION_MODE, ExecutionModeOriginLowerLeft, Shader),
CASE1(EXECUTION_MODE, ExecutionModeEarlyFragmentTests, Shader),
CASE1(EXECUTION_MODE, ExecutionModePointMode, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeXfb, TransformFeedback),
CASE1(EXECUTION_MODE, ExecutionModeDepthReplacing, Shader),
CASE1(EXECUTION_MODE, ExecutionModeDepthGreater, Shader),
CASE1(EXECUTION_MODE, ExecutionModeDepthLess, Shader),
CASE1(EXECUTION_MODE, ExecutionModeDepthUnchanged, Shader),
CASE0(EXECUTION_MODE, ExecutionModeLocalSize),
CASE1(EXECUTION_MODE, ExecutionModeLocalSizeHint, Kernel),
CASE1(EXECUTION_MODE, ExecutionModeInputPoints, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeInputLines, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeInputLinesAdjacency, Geometry),
CASE2(EXECUTION_MODE, ExecutionModeTriangles, Geometry, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeInputTrianglesAdjacency, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeQuads, Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeIsolines, Tessellation),
CASE2(EXECUTION_MODE, ExecutionModeOutputVertices, Geometry,
Tessellation),
CASE1(EXECUTION_MODE, ExecutionModeOutputPoints, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeOutputLineStrip, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeOutputTriangleStrip, Geometry),
CASE1(EXECUTION_MODE, ExecutionModeVecTypeHint, Kernel),
CASE1(EXECUTION_MODE, ExecutionModeContractionOff, Kernel),
}));
// See SPIR-V Section 3.7 Storage Class
INSTANTIATE_TEST_CASE_P(
StorageClass, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(STORAGE_CLASS, StorageClassUniformConstant),
CASE1(STORAGE_CLASS, StorageClassInput, Shader),
CASE1(STORAGE_CLASS, StorageClassUniform, Shader),
CASE1(STORAGE_CLASS, StorageClassOutput, Shader),
CASE0(STORAGE_CLASS, StorageClassWorkgroup),
CASE0(STORAGE_CLASS, StorageClassCrossWorkgroup),
CASE1(STORAGE_CLASS, StorageClassPrivate, Shader),
CASE0(STORAGE_CLASS, StorageClassFunction),
CASE1(STORAGE_CLASS, StorageClassGeneric, Kernel),
CASE1(STORAGE_CLASS, StorageClassPushConstant, Shader),
CASE1(STORAGE_CLASS, StorageClassAtomicCounter, AtomicStorage),
CASE0(STORAGE_CLASS, StorageClassImage),
}));
// See SPIR-V Section 3.8 Dim
INSTANTIATE_TEST_CASE_P(
Dim, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(DIMENSIONALITY, Dim1D, Sampled1D), CASE0(DIMENSIONALITY, Dim2D),
CASE0(DIMENSIONALITY, Dim3D), CASE1(DIMENSIONALITY, DimCube, Shader),
CASE1(DIMENSIONALITY, DimRect, SampledRect),
CASE1(DIMENSIONALITY, DimBuffer, SampledBuffer),
CASE1(DIMENSIONALITY, DimSubpassData, InputAttachment),
}));
// See SPIR-V Section 3.9 Sampler Addressing Mode
INSTANTIATE_TEST_CASE_P(
SamplerAddressingMode, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(SAMPLER_ADDRESSING_MODE, SamplerAddressingModeNone, Kernel),
CASE1(SAMPLER_ADDRESSING_MODE, SamplerAddressingModeClampToEdge,
Kernel),
CASE1(SAMPLER_ADDRESSING_MODE, SamplerAddressingModeClamp, Kernel),
CASE1(SAMPLER_ADDRESSING_MODE, SamplerAddressingModeRepeat, Kernel),
CASE1(SAMPLER_ADDRESSING_MODE, SamplerAddressingModeRepeatMirrored,
Kernel),
}));
// See SPIR-V Section 3.10 Sampler Filter Mode
INSTANTIATE_TEST_CASE_P(
SamplerFilterMode, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(SAMPLER_FILTER_MODE, SamplerFilterModeNearest, Kernel),
CASE1(SAMPLER_FILTER_MODE, SamplerFilterModeLinear, Kernel),
}));
// See SPIR-V Section 3.11 Image Format
INSTANTIATE_TEST_CASE_P(
ImageFormat, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(SAMPLER_IMAGE_FORMAT, ImageFormatUnknown),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba32f, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba16f, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR32f, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba8, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba8Snorm, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg32f, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg16f, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR11fG11fB10f, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR16f, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba16, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgb10A2, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg16, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg8, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR16, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR8, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba16Snorm, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg16Snorm, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg8Snorm, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR16Snorm, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR8Snorm, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba32i, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba16i, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba8i, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR32i, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg32i, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg16i, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg8i, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR16i, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR8i, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba32ui, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba16ui, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba8ui, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgba8ui, Shader),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRgb10a2ui, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg32ui, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg16ui, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatRg8ui, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR16ui, StorageImageExtendedFormats),
CASE1(SAMPLER_IMAGE_FORMAT, ImageFormatR8ui, StorageImageExtendedFormats),
}));
// See SPIR-V Section 3.12 Image Channel Order
INSTANTIATE_TEST_CASE_P(
ImageChannelOrder, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderR, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderA, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRG, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRA, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRGB, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRGBA, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderBGRA, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderARGB, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderIntensity, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderLuminance, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRx, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRGx, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderRGBx, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderDepth, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrderDepthStencil, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrdersRGB, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrdersRGBx, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrdersRGBA, Kernel),
CASE1(IMAGE_CHANNEL_ORDER, ImageChannelOrdersBGRA, Kernel),
}));
// See SPIR-V Section 3.13 Image Channel Data Type
INSTANTIATE_TEST_CASE_P(
ImageChannelDataType, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeSnormInt8, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeSnormInt16, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormInt8, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormInt16, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormShort565,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormShort555,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormInt101010,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeSignedInt8, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeSignedInt16, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeSignedInt32, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnsignedInt8,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnsignedInt16,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnsignedInt32,
Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeHalfFloat, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeFloat, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormInt24, Kernel),
CASE1(IMAGE_CHANNEL_DATA_TYPE, ImageChannelDataTypeUnormInt101010_2, Kernel),
}));
// See SPIR-V Section 3.14 Image Operands
INSTANTIATE_TEST_CASE_P(
ImageOperands, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(OPTIONAL_IMAGE, ImageOperandsMaskNone),
CASE1(OPTIONAL_IMAGE, ImageOperandsBiasMask, Shader),
CASE0(OPTIONAL_IMAGE, ImageOperandsLodMask),
CASE0(OPTIONAL_IMAGE, ImageOperandsGradMask),
CASE0(OPTIONAL_IMAGE, ImageOperandsConstOffsetMask),
CASE1(OPTIONAL_IMAGE, ImageOperandsOffsetMask, ImageGatherExtended),
CASE0(OPTIONAL_IMAGE, ImageOperandsConstOffsetsMask),
CASE0(OPTIONAL_IMAGE, ImageOperandsSampleMask),
CASE1(OPTIONAL_IMAGE, ImageOperandsMinLodMask, MinLod),
}));
// See SPIR-V Section 3.15 FP Fast Math Mode
INSTANTIATE_TEST_CASE_P(
FPFastMathMode, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(FP_FAST_MATH_MODE, FPFastMathModeMaskNone),
CASE1(FP_FAST_MATH_MODE, FPFastMathModeNotNaNMask, Kernel),
CASE1(FP_FAST_MATH_MODE, FPFastMathModeNotInfMask, Kernel),
CASE1(FP_FAST_MATH_MODE, FPFastMathModeNSZMask, Kernel),
CASE1(FP_FAST_MATH_MODE, FPFastMathModeAllowRecipMask, Kernel),
CASE1(FP_FAST_MATH_MODE, FPFastMathModeFastMask, Kernel),
}));
// See SPIR-V Section 3.16 FP Rounding Mode
INSTANTIATE_TEST_CASE_P(FPRoundingMode, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(FP_ROUNDING_MODE, FPRoundingModeRTE, Kernel),
CASE1(FP_ROUNDING_MODE, FPRoundingModeRTZ, Kernel),
CASE1(FP_ROUNDING_MODE, FPRoundingModeRTP, Kernel),
CASE1(FP_ROUNDING_MODE, FPRoundingModeRTN, Kernel),
}));
// See SPIR-V Section 3.17 Linkage Type
INSTANTIATE_TEST_CASE_P(LinkageType, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(LINKAGE_TYPE, LinkageTypeExport, Linkage),
CASE1(LINKAGE_TYPE, LinkageTypeImport, Linkage),
}));
// See SPIR-V Section 3.18 Access Qualifier
INSTANTIATE_TEST_CASE_P(
AccessQualifier, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(ACCESS_QUALIFIER, AccessQualifierReadOnly, Kernel),
CASE1(ACCESS_QUALIFIER, AccessQualifierWriteOnly, Kernel),
CASE1(ACCESS_QUALIFIER, AccessQualifierReadWrite, Kernel),
}));
// See SPIR-V Section 3.19 Function Parameter Attribute
INSTANTIATE_TEST_CASE_P(FunctionParameterAttribute, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeZext, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeSext, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeByVal, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeSret, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeNoAlias, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeNoCapture, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeNoWrite, Kernel),
CASE1(FUNCTION_PARAMETER_ATTRIBUTE,
FunctionParameterAttributeNoReadWrite,
Kernel),
}));
// See SPIR-V Section 3.20 Decoration
INSTANTIATE_TEST_CASE_P(
Decoration, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(DECORATION, DecorationRelaxedPrecision, Shader),
CASE1(DECORATION, DecorationSpecId, Shader),
CASE1(DECORATION, DecorationBlock, Shader),
CASE1(DECORATION, DecorationBufferBlock, Shader),
CASE1(DECORATION, DecorationRowMajor, Matrix),
CASE1(DECORATION, DecorationColMajor, Matrix),
CASE1(DECORATION, DecorationArrayStride, Shader),
CASE1(DECORATION, DecorationMatrixStride, Shader),
CASE1(DECORATION, DecorationGLSLShared, Shader),
CASE1(DECORATION, DecorationGLSLPacked, Shader),
CASE1(DECORATION, DecorationCPacked, Kernel),
CASE1(DECORATION, DecorationBuiltIn, Shader),
// Value 12 placeholder
CASE1(DECORATION, DecorationNoPerspective, Shader),
CASE1(DECORATION, DecorationFlat, Shader),
CASE1(DECORATION, DecorationPatch, Tessellation),
CASE1(DECORATION, DecorationCentroid, Shader),
CASE1(DECORATION, DecorationSample, Shader),
CASE1(DECORATION, DecorationInvariant, Shader),
CASE0(DECORATION, DecorationRestrict),
CASE0(DECORATION, DecorationAliased),
CASE0(DECORATION, DecorationVolatile),
CASE1(DECORATION, DecorationConstant, Kernel),
CASE0(DECORATION, DecorationCoherent),
CASE0(DECORATION, DecorationNonWritable),
CASE0(DECORATION, DecorationNonReadable),
CASE1(DECORATION, DecorationUniform, Shader),
// Value 27 is an intentional gap in the spec numbering.
CASE1(DECORATION, DecorationSaturatedConversion, Kernel),
CASE1(DECORATION, DecorationStream, Geometry),
CASE1(DECORATION, DecorationLocation, Shader),
CASE1(DECORATION, DecorationComponent, Shader),
CASE1(DECORATION, DecorationIndex, Shader),
CASE1(DECORATION, DecorationBinding, Shader),
CASE1(DECORATION, DecorationDescriptorSet, Shader),
CASE0(DECORATION, DecorationOffset),
CASE1(DECORATION, DecorationXfbBuffer, TransformFeedback),
CASE1(DECORATION, DecorationXfbStride, TransformFeedback),
CASE1(DECORATION, DecorationFuncParamAttr, Kernel),
CASE1(DECORATION, DecorationFPRoundingMode, Kernel),
CASE1(DECORATION, DecorationFPFastMathMode, Kernel),
CASE1(DECORATION, DecorationLinkageAttributes, Linkage),
CASE1(DECORATION, DecorationNoContraction, Shader),
CASE1(DECORATION, DecorationInputAttachmentIndex, InputAttachment),
CASE1(DECORATION, DecorationAlignment, Kernel),
}));
// See SPIR-V Section 3.21 BuiltIn
INSTANTIATE_TEST_CASE_P(
BuiltIn, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(BUILT_IN, BuiltInPosition, Shader),
CASE1(BUILT_IN, BuiltInPointSize, Shader),
// 2 is an intentional gap in the spec numbering.
CASE1(BUILT_IN, BuiltInClipDistance, Shader),
CASE1(BUILT_IN, BuiltInCullDistance, Shader),
CASE1(BUILT_IN, BuiltInVertexId, Shader),
CASE1(BUILT_IN, BuiltInInstanceId, Shader),
CASE2(BUILT_IN, BuiltInPrimitiveId, Geometry, Tessellation),
CASE2(BUILT_IN, BuiltInInvocationId, Geometry, Tessellation),
CASE1(BUILT_IN, BuiltInLayer, Geometry),
CASE1(BUILT_IN, BuiltInViewportIndex, Geometry),
CASE1(BUILT_IN, BuiltInTessLevelOuter, Tessellation),
CASE1(BUILT_IN, BuiltInTessLevelInner, Tessellation),
CASE1(BUILT_IN, BuiltInTessCoord, Tessellation),
CASE1(BUILT_IN, BuiltInPatchVertices, Tessellation),
CASE1(BUILT_IN, BuiltInFragCoord, Shader),
CASE1(BUILT_IN, BuiltInPointCoord, Shader),
CASE1(BUILT_IN, BuiltInFrontFacing, Shader),
CASE1(BUILT_IN, BuiltInSampleId, Shader),
CASE1(BUILT_IN, BuiltInSamplePosition, Shader),
CASE1(BUILT_IN, BuiltInSampleMask, Shader),
// Value 21 intentionally missing
CASE1(BUILT_IN, BuiltInFragDepth, Shader),
CASE1(BUILT_IN, BuiltInHelperInvocation, Shader),
CASE0(BUILT_IN, BuiltInNumWorkgroups),
CASE0(BUILT_IN, BuiltInWorkgroupSize),
CASE0(BUILT_IN, BuiltInWorkgroupId),
CASE0(BUILT_IN, BuiltInLocalInvocationId),
CASE0(BUILT_IN, BuiltInGlobalInvocationId),
CASE1(BUILT_IN, BuiltInLocalInvocationIndex, Shader),
CASE1(BUILT_IN, BuiltInWorkDim, Kernel),
CASE1(BUILT_IN, BuiltInGlobalSize, Kernel),
CASE1(BUILT_IN, BuiltInEnqueuedWorkgroupSize, Kernel),
CASE1(BUILT_IN, BuiltInGlobalOffset, Kernel),
CASE1(BUILT_IN, BuiltInGlobalLinearId, Kernel),
// Value 35 intentionally missing
CASE1(BUILT_IN, BuiltInSubgroupSize, Kernel),
CASE1(BUILT_IN, BuiltInSubgroupMaxSize, Kernel),
CASE1(BUILT_IN, BuiltInNumSubgroups, Kernel),
CASE1(BUILT_IN, BuiltInNumEnqueuedSubgroups, Kernel),
CASE1(BUILT_IN, BuiltInSubgroupId, Kernel),
CASE1(BUILT_IN, BuiltInSubgroupLocalInvocationId, Kernel),
CASE1(BUILT_IN, BuiltInVertexIndex, Shader),
CASE1(BUILT_IN, BuiltInInstanceIndex, Shader),
}));
// See SPIR-V Section 3.22 Selection Control
INSTANTIATE_TEST_CASE_P(
SelectionControl, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(SELECTION_CONTROL, SelectionControlMaskNone),
CASE0(SELECTION_CONTROL, SelectionControlFlattenMask),
CASE0(SELECTION_CONTROL, SelectionControlDontFlattenMask),
}));
// See SPIR-V Section 3.23 Loop Control
INSTANTIATE_TEST_CASE_P(LoopControl, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(LOOP_CONTROL, LoopControlMaskNone),
CASE0(LOOP_CONTROL, LoopControlUnrollMask),
CASE0(LOOP_CONTROL, LoopControlDontUnrollMask),
}));
// See SPIR-V Section 3.24 Function Control
INSTANTIATE_TEST_CASE_P(FunctionControl, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(FUNCTION_CONTROL, FunctionControlMaskNone),
CASE0(FUNCTION_CONTROL, FunctionControlInlineMask),
CASE0(FUNCTION_CONTROL,
FunctionControlDontInlineMask),
CASE0(FUNCTION_CONTROL, FunctionControlPureMask),
CASE0(FUNCTION_CONTROL, FunctionControlConstMask),
}));
// See SPIR-V Section 3.25 Memory Semantics <id>
INSTANTIATE_TEST_CASE_P(
MemorySemantics, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(MEMORY_SEMANTICS, MemorySemanticsMaskNone),
CASE0(MEMORY_SEMANTICS, MemorySemanticsAcquireMask),
CASE0(MEMORY_SEMANTICS, MemorySemanticsReleaseMask),
CASE0(MEMORY_SEMANTICS, MemorySemanticsAcquireReleaseMask),
CASE0(MEMORY_SEMANTICS, MemorySemanticsSequentiallyConsistentMask),
CASE1(MEMORY_SEMANTICS, MemorySemanticsUniformMemoryMask, Shader),
CASE0(MEMORY_SEMANTICS, MemorySemanticsSubgroupMemoryMask),
CASE0(MEMORY_SEMANTICS, MemorySemanticsWorkgroupMemoryMask),
CASE0(MEMORY_SEMANTICS, MemorySemanticsCrossWorkgroupMemoryMask),
CASE1(MEMORY_SEMANTICS, MemorySemanticsAtomicCounterMemoryMask, Shader),
CASE0(MEMORY_SEMANTICS, MemorySemanticsImageMemoryMask),
}));
// See SPIR-V Section 3.26 Memory Access
INSTANTIATE_TEST_CASE_P(
MemoryAccess, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(OPTIONAL_MEMORY_ACCESS, MemoryAccessMaskNone),
CASE0(OPTIONAL_MEMORY_ACCESS, MemoryAccessVolatileMask),
CASE0(OPTIONAL_MEMORY_ACCESS, MemoryAccessAlignedMask),
CASE0(OPTIONAL_MEMORY_ACCESS, MemoryAccessNontemporalMask),
}));
// See SPIR-V Section 3.27 Scope <id>
INSTANTIATE_TEST_CASE_P(Scope, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(EXECUTION_SCOPE, ScopeCrossDevice),
CASE0(EXECUTION_SCOPE, ScopeDevice),
CASE0(EXECUTION_SCOPE, ScopeWorkgroup),
CASE0(EXECUTION_SCOPE, ScopeSubgroup),
CASE0(EXECUTION_SCOPE, ScopeInvocation),
}));
// See SPIR-V Section 3.28 Group Operation
INSTANTIATE_TEST_CASE_P(
GroupOperation, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(GROUP_OPERATION, GroupOperationReduce, Kernel),
CASE1(GROUP_OPERATION, GroupOperationInclusiveScan, Kernel),
CASE1(GROUP_OPERATION, GroupOperationExclusiveScan, Kernel),
}));
// See SPIR-V Section 3.29 Kernel Enqueue Flags
INSTANTIATE_TEST_CASE_P(
KernelEnqueueFlags, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE1(KERNEL_ENQ_FLAGS, KernelEnqueueFlagsNoWait, Kernel),
CASE1(KERNEL_ENQ_FLAGS, KernelEnqueueFlagsWaitKernel, Kernel),
CASE1(KERNEL_ENQ_FLAGS, KernelEnqueueFlagsWaitWorkGroup, Kernel),
}));
// See SPIR-V Section 3.30 Kernel Profiling Info
INSTANTIATE_TEST_CASE_P(KernelProfilingInfo, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(KERNEL_PROFILING_INFO,
KernelProfilingInfoMaskNone),
CASE1(KERNEL_PROFILING_INFO,
KernelProfilingInfoCmdExecTimeMask, Kernel),
}));
// See SPIR-V Section 3.31 Capability
INSTANTIATE_TEST_CASE_P(
Capability, EnumCapabilityTest,
::testing::ValuesIn(std::vector<EnumCapabilityCase>{
CASE0(CAPABILITY, CapabilityMatrix),
CASE1(CAPABILITY, CapabilityShader, Matrix),
CASE1(CAPABILITY, CapabilityGeometry, Shader),
CASE1(CAPABILITY, CapabilityTessellation, Shader),
CASE0(CAPABILITY, CapabilityAddresses),
CASE0(CAPABILITY, CapabilityLinkage),
CASE0(CAPABILITY, CapabilityKernel),
CASE1(CAPABILITY, CapabilityVector16, Kernel),
CASE1(CAPABILITY, CapabilityFloat16Buffer, Kernel),
CASE1(CAPABILITY, CapabilityFloat16, Float16Buffer),
CASE0(CAPABILITY, CapabilityFloat64),
CASE0(CAPABILITY, CapabilityInt64),
CASE1(CAPABILITY, CapabilityInt64Atomics, Int64),
CASE1(CAPABILITY, CapabilityImageBasic, Kernel),
CASE1(CAPABILITY, CapabilityImageReadWrite, Kernel),
CASE1(CAPABILITY, CapabilityImageMipmap, Kernel),
// Value 16 intentionally missing.
CASE1(CAPABILITY, CapabilityPipes, Kernel),
CASE0(CAPABILITY, CapabilityGroups),
CASE1(CAPABILITY, CapabilityDeviceEnqueue, Kernel),
CASE1(CAPABILITY, CapabilityLiteralSampler, Kernel),
CASE1(CAPABILITY, CapabilityAtomicStorage, Shader),
CASE0(CAPABILITY, CapabilityInt16),
CASE1(CAPABILITY, CapabilityTessellationPointSize, Tessellation),
CASE1(CAPABILITY, CapabilityGeometryPointSize, Geometry),
CASE1(CAPABILITY, CapabilityImageGatherExtended, Shader),
// Value 26 intentionally missing.
CASE1(CAPABILITY, CapabilityStorageImageMultisample, Shader),
CASE1(CAPABILITY, CapabilityUniformBufferArrayDynamicIndexing, Shader),
CASE1(CAPABILITY, CapabilitySampledImageArrayDynamicIndexing, Shader),
CASE1(CAPABILITY, CapabilityStorageBufferArrayDynamicIndexing, Shader),
CASE1(CAPABILITY, CapabilityStorageImageArrayDynamicIndexing, Shader),
CASE1(CAPABILITY, CapabilityClipDistance, Shader),
CASE1(CAPABILITY, CapabilityCullDistance, Shader),
CASE1(CAPABILITY, CapabilityImageCubeArray, SampledCubeArray),
CASE1(CAPABILITY, CapabilitySampleRateShading, Shader),
CASE1(CAPABILITY, CapabilityImageRect, SampledRect),
CASE1(CAPABILITY, CapabilitySampledRect, Shader),
CASE1(CAPABILITY, CapabilityGenericPointer, Addresses),
CASE1(CAPABILITY, CapabilityInt8, Kernel),
CASE1(CAPABILITY, CapabilityInputAttachment, Shader),
CASE1(CAPABILITY, CapabilitySparseResidency, Shader),
CASE1(CAPABILITY, CapabilityMinLod, Shader),
CASE1(CAPABILITY, CapabilitySampled1D, Shader),
CASE1(CAPABILITY, CapabilityImage1D, Sampled1D),
CASE1(CAPABILITY, CapabilitySampledCubeArray, Shader),
CASE1(CAPABILITY, CapabilitySampledBuffer, Shader),
CASE1(CAPABILITY, CapabilityImageBuffer, SampledBuffer),
CASE1(CAPABILITY, CapabilityImageMSArray, Shader),
CASE1(CAPABILITY, CapabilityStorageImageExtendedFormats, Shader),
CASE1(CAPABILITY, CapabilityImageQuery, Shader),
CASE1(CAPABILITY, CapabilityDerivativeControl, Shader),
CASE1(CAPABILITY, CapabilityInterpolationFunction, Shader),
CASE1(CAPABILITY, CapabilityTransformFeedback, Shader),
}));
#undef CASE0
#undef CASE1
#undef CASE2
} // anonymous namespace