dawn-cmake/src/ast/intrinsic_texture_helper_te...

261 lines
8.6 KiB
C
Raw Normal View History

// Copyright 2020 The Tint Authors.
//
// 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.
#ifndef SRC_AST_INTRINSIC_TEXTURE_HELPER_TEST_H_
#define SRC_AST_INTRINSIC_TEXTURE_HELPER_TEST_H_
#include <vector>
#include "src/ast/access_control.h"
#include "src/program_builder.h"
#include "src/type/storage_texture_type.h"
namespace tint {
namespace ast {
namespace intrinsic {
namespace test {
enum class TextureKind { kRegular, kDepth, kMultisampled, kStorage };
enum class TextureDataType { kF32, kU32, kI32 };
std::ostream& operator<<(std::ostream& out, const TextureKind& kind);
std::ostream& operator<<(std::ostream& out, const TextureDataType& ty);
/// Non-exhaustive list of valid texture overloads
enum class ValidTextureOverload {
kDimensions1d,
kDimensions2d,
kDimensions2dLevel,
kDimensions2dArray,
kDimensions2dArrayLevel,
kDimensions3d,
kDimensions3dLevel,
kDimensionsCube,
kDimensionsCubeLevel,
kDimensionsCubeArray,
kDimensionsCubeArrayLevel,
kDimensionsMultisampled2d,
kDimensionsMultisampled2dArray,
kDimensionsDepth2d,
kDimensionsDepth2dLevel,
kDimensionsDepth2dArray,
kDimensionsDepth2dArrayLevel,
kDimensionsDepthCube,
kDimensionsDepthCubeLevel,
kDimensionsDepthCubeArray,
kDimensionsDepthCubeArrayLevel,
kDimensionsStorageRO1d,
kDimensionsStorageRO2d,
kDimensionsStorageRO2dArray,
kDimensionsStorageRO3d,
kDimensionsStorageWO1d,
kDimensionsStorageWO2d,
kDimensionsStorageWO2dArray,
kDimensionsStorageWO3d,
kNumLayers2dArray,
kNumLayersCubeArray,
kNumLayersMultisampled2dArray,
kNumLayersDepth2dArray,
kNumLayersDepthCubeArray,
kNumLayersStorageWO2dArray,
kNumLevels2d,
kNumLevels2dArray,
kNumLevels3d,
kNumLevelsCube,
kNumLevelsCubeArray,
kNumLevelsDepth2d,
kNumLevelsDepth2dArray,
kNumLevelsDepthCube,
kNumLevelsDepthCubeArray,
kNumSamplesMultisampled2d,
kNumSamplesMultisampled2dArray,
kSample1dF32,
kSample2dF32,
kSample2dOffsetF32,
kSample2dArrayF32,
kSample2dArrayOffsetF32,
kSample3dF32,
kSample3dOffsetF32,
kSampleCubeF32,
kSampleCubeArrayF32,
kSampleDepth2dF32,
kSampleDepth2dOffsetF32,
kSampleDepth2dArrayF32,
kSampleDepth2dArrayOffsetF32,
kSampleDepthCubeF32,
kSampleDepthCubeArrayF32,
kSampleBias2dF32,
kSampleBias2dOffsetF32,
kSampleBias2dArrayF32,
kSampleBias2dArrayOffsetF32,
kSampleBias3dF32,
kSampleBias3dOffsetF32,
kSampleBiasCubeF32,
kSampleBiasCubeArrayF32,
kSampleLevel2dF32,
kSampleLevel2dOffsetF32,
kSampleLevel2dArrayF32,
kSampleLevel2dArrayOffsetF32,
kSampleLevel3dF32,
kSampleLevel3dOffsetF32,
kSampleLevelCubeF32,
kSampleLevelCubeArrayF32,
kSampleLevelDepth2dF32,
kSampleLevelDepth2dOffsetF32,
kSampleLevelDepth2dArrayF32,
kSampleLevelDepth2dArrayOffsetF32,
kSampleLevelDepthCubeF32,
kSampleLevelDepthCubeArrayF32,
kSampleGrad2dF32,
kSampleGrad2dOffsetF32,
kSampleGrad2dArrayF32,
kSampleGrad2dArrayOffsetF32,
kSampleGrad3dF32,
kSampleGrad3dOffsetF32,
kSampleGradCubeF32,
kSampleGradCubeArrayF32,
kSampleCompareDepth2dF32,
kSampleCompareDepth2dOffsetF32,
kSampleCompareDepth2dArrayF32,
kSampleCompareDepth2dArrayOffsetF32,
kSampleCompareDepthCubeF32,
kSampleCompareDepthCubeArrayF32,
kLoad1dLevelF32,
kLoad1dLevelU32,
kLoad1dLevelI32,
kLoad2dLevelF32,
kLoad2dLevelU32,
kLoad2dLevelI32,
kLoad2dArrayLevelF32,
kLoad2dArrayLevelU32,
kLoad2dArrayLevelI32,
kLoad3dLevelF32,
kLoad3dLevelU32,
kLoad3dLevelI32,
kLoadMultisampled2dF32,
kLoadMultisampled2dU32,
kLoadMultisampled2dI32,
kLoadMultisampled2dArrayF32,
kLoadMultisampled2dArrayU32,
kLoadMultisampled2dArrayI32,
kLoadDepth2dLevelF32,
kLoadDepth2dArrayLevelF32,
kLoadStorageRO1dRgba32float, // Not permutated for all texel formats
kLoadStorageRO2dRgba8unorm,
kLoadStorageRO2dRgba8snorm,
kLoadStorageRO2dRgba8uint,
kLoadStorageRO2dRgba8sint,
kLoadStorageRO2dRgba16uint,
kLoadStorageRO2dRgba16sint,
kLoadStorageRO2dRgba16float,
kLoadStorageRO2dR32uint,
kLoadStorageRO2dR32sint,
kLoadStorageRO2dR32float,
kLoadStorageRO2dRg32uint,
kLoadStorageRO2dRg32sint,
kLoadStorageRO2dRg32float,
kLoadStorageRO2dRgba32uint,
kLoadStorageRO2dRgba32sint,
kLoadStorageRO2dRgba32float,
kLoadStorageRO2dArrayRgba32float, // Not permutated for all texel formats
kLoadStorageRO3dRgba32float, // Not permutated for all texel formats
kStoreWO1dRgba32float, // Not permutated for all texel formats
kStoreWO2dRgba32float, // Not permutated for all texel formats
kStoreWO2dArrayRgba32float, // Not permutated for all texel formats
kStoreWO3dRgba32float, // Not permutated for all texel formats
};
/// Describes a texture intrinsic overload
struct TextureOverloadCase {
/// Constructor for textureSample...() functions
TextureOverloadCase(ValidTextureOverload,
const char*,
TextureKind,
sem::SamplerKind,
sem::TextureDimension,
TextureDataType,
const char*,
std::function<ExpressionList(ProgramBuilder*)>);
/// Constructor for textureLoad() functions with non-storage textures
TextureOverloadCase(ValidTextureOverload,
const char*,
TextureKind,
sem::TextureDimension,
TextureDataType,
const char*,
std::function<ExpressionList(ProgramBuilder*)>);
/// Constructor for textureLoad() with storage textures
TextureOverloadCase(ValidTextureOverload,
const char*,
AccessControl,
sem::ImageFormat,
sem::TextureDimension,
TextureDataType,
const char*,
std::function<ExpressionList(ProgramBuilder*)>);
/// Copy constructor
TextureOverloadCase(const TextureOverloadCase&);
/// Destructor
~TextureOverloadCase();
/// @return a vector containing a large number (non-exhaustive) of valid
/// texture overloads.
static std::vector<TextureOverloadCase> ValidCases();
/// @param builder the AST builder used for the test
/// @returns the vector component type of the texture function return value
sem::Type* resultVectorComponentType(ProgramBuilder* builder) const;
/// @param builder the AST builder used for the test
Simplify usage of the TypeDeterminer in tests Make private all TypeDeterminer::DetermineXXX() methods, forcing all tests to use the root-level TypeDeterminer::Determine() method. Remove TypeDeterminer::RegisterVariableForTesting(). The main use for calling the TypeDeterminer::DetermineXXX() methods was to perform type determination on a partial AST. This was messy and often resulting in multiple calls into TypeDeterminer. Most tests already perform a full TypeDeterminer::Determine() call when the program is built, so many of these were redundant. The exposure of these internal methods for testing also makes refactoring the TypeDeterminer extremely difficult. Add a number of ProgramBuilder helper methods for attaching the partial AST in these tests to the root of the AST, greatly simplifying the use of the TypeDeterminer: * ProgramBuilder::Global() and ProgramBuilder::GlobalConst() are helpers that register the variable returned by ProgramBuilder::Var() and ProgramBuilder::Const(), respectively. * ProgramBuilder::WrapInFunction() is a variadic function that accepts variables, expressions and statements, attaching these to the root of the AST via a dummy function. Most test classes now no longer use their own TypeDeterminer, and instead properly depend on the automatic type determination performed at Program build time. Bug: tint:390 Change-Id: Ie901890420c5de170cdf2a7aaef9b96fc3bebd60 Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/40062 Commit-Queue: Ben Clayton <bclayton@google.com> Reviewed-by: David Neto <dneto@google.com>
2021-02-03 17:19:59 +00:00
/// @returns a variable holding the test texture, automatically registered as
/// a global variable.
ast::Variable* buildTextureVariable(ProgramBuilder* builder) const;
/// @param builder the AST builder used for the test
Simplify usage of the TypeDeterminer in tests Make private all TypeDeterminer::DetermineXXX() methods, forcing all tests to use the root-level TypeDeterminer::Determine() method. Remove TypeDeterminer::RegisterVariableForTesting(). The main use for calling the TypeDeterminer::DetermineXXX() methods was to perform type determination on a partial AST. This was messy and often resulting in multiple calls into TypeDeterminer. Most tests already perform a full TypeDeterminer::Determine() call when the program is built, so many of these were redundant. The exposure of these internal methods for testing also makes refactoring the TypeDeterminer extremely difficult. Add a number of ProgramBuilder helper methods for attaching the partial AST in these tests to the root of the AST, greatly simplifying the use of the TypeDeterminer: * ProgramBuilder::Global() and ProgramBuilder::GlobalConst() are helpers that register the variable returned by ProgramBuilder::Var() and ProgramBuilder::Const(), respectively. * ProgramBuilder::WrapInFunction() is a variadic function that accepts variables, expressions and statements, attaching these to the root of the AST via a dummy function. Most test classes now no longer use their own TypeDeterminer, and instead properly depend on the automatic type determination performed at Program build time. Bug: tint:390 Change-Id: Ie901890420c5de170cdf2a7aaef9b96fc3bebd60 Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/40062 Commit-Queue: Ben Clayton <bclayton@google.com> Reviewed-by: David Neto <dneto@google.com>
2021-02-03 17:19:59 +00:00
/// @returns a Variable holding the test sampler, automatically registered as
/// a global variable.
ast::Variable* buildSamplerVariable(ProgramBuilder* builder) const;
/// The enumerator for this overload
ValidTextureOverload const overload;
/// A human readable description of the overload
const char* const description;
/// The texture kind for the texture parameter
TextureKind const texture_kind;
/// The sampler kind for the sampler parameter
/// Used only when texture_kind is not kStorage
sem::SamplerKind const sampler_kind = sem::SamplerKind::kSampler;
/// The access control for the storage texture
/// Used only when texture_kind is kStorage
AccessControl const access_control = AccessControl::kReadWrite;
/// The image format for the storage texture
/// Used only when texture_kind is kStorage
sem::ImageFormat const image_format = sem::ImageFormat::kNone;
/// The dimensions of the texture parameter
sem::TextureDimension const texture_dimension;
/// The data type of the texture parameter
TextureDataType const texture_data_type;
/// Name of the function. e.g. `textureSample`, `textureSampleGrad`, etc
const char* const function;
/// A function that builds the AST arguments for the overload
std::function<ExpressionList(ProgramBuilder*)> const args;
};
std::ostream& operator<<(std::ostream& out, const TextureOverloadCase& data);
} // namespace test
} // namespace intrinsic
} // namespace ast
} // namespace tint
#endif // SRC_AST_INTRINSIC_TEXTURE_HELPER_TEST_H_