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// Copyright 2020 The Dawn & Tint Authors
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "gmock/gmock.h"
#include "src/tint/lang/core/fluent_types.h"
#include "src/tint/lang/core/type/depth_texture.h"
#include "src/tint/lang/core/type/external_texture.h"
#include "src/tint/lang/core/type/multisampled_texture.h"
#include "src/tint/lang/core/type/sampled_texture.h"
#include "src/tint/lang/core/type/texture_dimension.h"
#include "src/tint/lang/wgsl/ast/call_statement.h"
#include "src/tint/lang/wgsl/ast/disable_validation_attribute.h"
#include "src/tint/lang/wgsl/ast/id_attribute.h"
#include "src/tint/lang/wgsl/ast/stage_attribute.h"
#include "src/tint/lang/wgsl/ast/workgroup_attribute.h"
#include "src/tint/lang/wgsl/inspector/entry_point.h"
#include "src/tint/lang/wgsl/inspector/inspector.h"
#include "src/tint/lang/wgsl/inspector/inspector_builder_test.h"
#include "src/tint/lang/wgsl/inspector/inspector_runner_test.h"
#include "src/tint/lang/wgsl/program/program_builder.h"
#include "src/tint/lang/wgsl/sem/variable.h"
using namespace tint::core::number_suffixes; // NOLINT
using namespace tint::core::fluent_types; // NOLINT
namespace tint::inspector {
namespace {
// All the tests that descend from InspectorBuilder are expected to define their test state via
// building up the AST through InspectorBuilder and then generate the program with ::Build. The
// returned Inspector from ::Build can then be used to test expectations.
//
// All the tests that descend from InspectorRunner are expected to define their test state via a
// WGSL shader, which will be parsed to generate a Program and Inspector in ::Initialize. The
// returned Inspector from ::Initialize can then be used to test expectations.
class InspectorGetEntryPointTest : public InspectorBuilder, public testing::Test {};
typedef std::tuple<inspector::ComponentType, inspector::CompositionType>
InspectorGetEntryPointComponentAndCompositionTestParams;
class InspectorGetEntryPointComponentAndCompositionTest
: public InspectorBuilder,
public testing::TestWithParam<InspectorGetEntryPointComponentAndCompositionTestParams> {};
struct InspectorGetEntryPointInterpolateTestParams {
core::InterpolationType in_type;
core::InterpolationSampling in_sampling;
inspector::InterpolationType out_type;
inspector::InterpolationSampling out_sampling;
};
class InspectorGetEntryPointInterpolateTest
: public InspectorBuilder,
public testing::TestWithParam<InspectorGetEntryPointInterpolateTestParams> {};
class InspectorGetOverrideDefaultValuesTest : public InspectorBuilder, public testing::Test {};
class InspectorGetConstantNameToIdMapTest : public InspectorBuilder, public testing::Test {};
class InspectorGetResourceBindingsTest : public InspectorBuilder, public testing::Test {};
class InspectorGetUniformBufferResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetStorageBufferResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetReadOnlyStorageBufferResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetSamplerResourceBindingsTest : public InspectorBuilder, public testing::Test {};
class InspectorGetComparisonSamplerResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetSampledTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetSampledArrayTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
struct GetSampledTextureTestParams {
core::type::TextureDimension type_dim;
inspector::ResourceBinding::TextureDimension inspector_dim;
inspector::ResourceBinding::SampledKind sampled_kind;
};
class InspectorGetSampledTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetSampledTextureTestParams> {};
class InspectorGetSampledArrayTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetSampledTextureTestParams> {};
class InspectorGetMultisampledTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetMultisampledArrayTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
typedef GetSampledTextureTestParams GetMultisampledTextureTestParams;
class InspectorGetMultisampledArrayTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetMultisampledTextureTestParams> {};
class InspectorGetMultisampledTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetMultisampledTextureTestParams> {};
class InspectorGetStorageTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
struct GetDepthTextureTestParams {
core::type::TextureDimension type_dim;
inspector::ResourceBinding::TextureDimension inspector_dim;
};
class InspectorGetDepthTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetDepthTextureTestParams> {};
class InspectorGetDepthMultisampledTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
typedef std::tuple<core::type::TextureDimension, ResourceBinding::TextureDimension> DimensionParams;
typedef std::tuple<core::TexelFormat, ResourceBinding::TexelFormat, ResourceBinding::SampledKind>
TexelFormatParams;
typedef std::tuple<DimensionParams, TexelFormatParams, core::Access> GetStorageTextureTestParams;
class InspectorGetStorageTextureResourceBindingsTestWithParam
: public InspectorBuilder,
public testing::TestWithParam<GetStorageTextureTestParams> {};
class InspectorGetExternalTextureResourceBindingsTest : public InspectorBuilder,
public testing::Test {};
class InspectorGetSamplerTextureUsesTest : public InspectorRunner, public testing::Test {};
class InspectorGetUsedExtensionNamesTest : public InspectorRunner, public testing::Test {};
class InspectorGetEnableDirectivesTest : public InspectorRunner, public testing::Test {};
// This is a catch all for shaders that have demonstrated regressions/crashes in
// the wild.
class InspectorRegressionTest : public InspectorRunner, public testing::Test {};
TEST_F(InspectorGetEntryPointTest, NoFunctions) {
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(0u, result.size());
}
TEST_F(InspectorGetEntryPointTest, NoEntryPoints) {
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(0u, result.size());
}
TEST_F(InspectorGetEntryPointTest, OneEntryPoint) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
// TODO(dsinclair): Update to run the namer transform when available.
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ("foo", result[0].name);
EXPECT_EQ("foo", result[0].remapped_name);
EXPECT_EQ(PipelineStage::kFragment, result[0].stage);
}
TEST_F(InspectorGetEntryPointTest, MultipleEntryPoints) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
MakeEmptyBodyFunction("bar", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
// TODO(dsinclair): Update to run the namer transform when available.
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(2u, result.size());
EXPECT_EQ("foo", result[0].name);
EXPECT_EQ("foo", result[0].remapped_name);
EXPECT_EQ(PipelineStage::kFragment, result[0].stage);
EXPECT_EQ("bar", result[1].name);
EXPECT_EQ("bar", result[1].remapped_name);
EXPECT_EQ(PipelineStage::kCompute, result[1].stage);
}
TEST_F(InspectorGetEntryPointTest, MixFunctionsAndEntryPoints) {
MakeEmptyBodyFunction("func", tint::Empty);
MakeCallerBodyFunction("foo", Vector{std::string("func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
MakeCallerBodyFunction("bar", Vector{std::string("func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
// TODO(dsinclair): Update to run the namer transform when available.
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
EXPECT_FALSE(inspector.has_error());
ASSERT_EQ(2u, result.size());
EXPECT_EQ("foo", result[0].name);
EXPECT_EQ("foo", result[0].remapped_name);
EXPECT_EQ(PipelineStage::kCompute, result[0].stage);
EXPECT_EQ("bar", result[1].name);
EXPECT_EQ("bar", result[1].remapped_name);
EXPECT_EQ(PipelineStage::kFragment, result[1].stage);
}
TEST_F(InspectorGetEntryPointTest, DefaultWorkgroupSize) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(8_i, 2_i, 1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
auto workgroup_size = result[0].workgroup_size;
ASSERT_TRUE(workgroup_size.has_value());
EXPECT_EQ(8u, workgroup_size->x);
EXPECT_EQ(2u, workgroup_size->y);
EXPECT_EQ(1u, workgroup_size->z);
}
// Test that push_constant_size is zero if there are no push constants.
TEST_F(InspectorGetEntryPointTest, PushConstantSizeNone) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].push_constant_size);
}
// Test that push_constant_size is 4 (bytes) if there is a single F32 push constant.
TEST_F(InspectorGetEntryPointTest, PushConstantSizeOneWord) {
Enable(wgsl::Extension::kChromiumExperimentalPushConstant);
GlobalVar("pc", core::AddressSpace::kPushConstant, ty.f32());
MakePlainGlobalReferenceBodyFunction("foo", "pc", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(4u, result[0].push_constant_size);
}
// Test that push_constant_size is 12 (bytes) if there is a struct containing one
// each of i32, f32 and u32.
TEST_F(InspectorGetEntryPointTest, PushConstantSizeThreeWords) {
Enable(wgsl::Extension::kChromiumExperimentalPushConstant);
auto* pc_struct_type =
MakeStructType("PushConstantStruct", Vector{ty.i32(), ty.f32(), ty.u32()});
GlobalVar("pc", core::AddressSpace::kPushConstant, ty.Of(pc_struct_type));
MakePlainGlobalReferenceBodyFunction("foo", "pc", ty.Of(pc_struct_type),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(12u, result[0].push_constant_size);
}
// Test that push_constant_size is 4 (bytes) if there are two push constants,
// one used by the entry point containing an f32, and one unused by the entry
// point containing a struct of size 12 bytes.
TEST_F(InspectorGetEntryPointTest, PushConstantSizeTwoConstants) {
Enable(wgsl::Extension::kChromiumExperimentalPushConstant);
auto* unused_struct_type =
MakeStructType("PushConstantStruct", Vector{ty.i32(), ty.f32(), ty.u32()});
GlobalVar("unused", core::AddressSpace::kPushConstant, ty.Of(unused_struct_type));
GlobalVar("pc", core::AddressSpace::kPushConstant, ty.f32());
MakePlainGlobalReferenceBodyFunction("foo", "pc", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
// Check that the result only includes the single f32 push constant.
EXPECT_EQ(4u, result[0].push_constant_size);
}
TEST_F(InspectorGetEntryPointTest, NonDefaultWorkgroupSize) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(8_i, 2_i, 1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
auto workgroup_size = result[0].workgroup_size;
ASSERT_TRUE(workgroup_size.has_value());
EXPECT_EQ(8u, workgroup_size->x);
EXPECT_EQ(2u, workgroup_size->y);
EXPECT_EQ(1u, workgroup_size->z);
}
TEST_F(InspectorGetEntryPointTest, WorkgroupStorageSizeEmpty) {
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].workgroup_storage_size);
}
TEST_F(InspectorGetEntryPointTest, WorkgroupStorageSizeSimple) {
AddWorkgroupStorage("wg_f32", ty.f32());
MakePlainGlobalReferenceBodyFunction("f32_func", "wg_f32", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("f32_func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(16u, result[0].workgroup_storage_size);
}
TEST_F(InspectorGetEntryPointTest, WorkgroupStorageSizeCompoundTypes) {
// This struct should occupy 68 bytes. 4 from the i32 field, and another 64
// from the 4-element array with 16-byte stride.
auto* wg_struct_type = MakeStructType("WgStruct", Vector{
ty.i32(),
ty.array<i32, 4>(Vector{
Stride(16),
}),
});
AddWorkgroupStorage("wg_struct_var", ty.Of(wg_struct_type));
MakeStructVariableReferenceBodyFunction("wg_struct_func", "wg_struct_var",
Vector{
MemberInfo{0, ty.i32()},
});
// Plus another 4 bytes from this other workgroup-class f32.
AddWorkgroupStorage("wg_f32", ty.f32());
MakePlainGlobalReferenceBodyFunction("f32_func", "wg_f32", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("wg_struct_func"), "f32_func"},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(96u, result[0].workgroup_storage_size);
}
TEST_F(InspectorGetEntryPointTest, WorkgroupStorageSizeAlignmentPadding) {
// vec3<f32> has an alignment of 16 but a size of 12. We leverage this to test
// that our padded size calculation for workgroup storage is accurate.
AddWorkgroupStorage("wg_vec3", ty.vec3<f32>());
MakePlainGlobalReferenceBodyFunction("wg_func", "wg_vec3", ty.vec3<f32>(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("wg_func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(16u, result[0].workgroup_storage_size);
}
TEST_F(InspectorGetEntryPointTest, WorkgroupStorageSizeStructAlignment) {
// Per WGSL spec, a struct's size is the offset its last member plus the size
// of its last member, rounded up to the alignment of its largest member. So
// here the struct is expected to occupy 1024 bytes of workgroup storage.
const auto* wg_struct_type = MakeStructTypeFromMembers(
"WgStruct", Vector{
MakeStructMember(0, ty.f32(), Vector{MemberAlign(1024_i)}),
});
AddWorkgroupStorage("wg_struct_var", ty.Of(wg_struct_type));
MakeStructVariableReferenceBodyFunction("wg_struct_func", "wg_struct_var",
Vector{
MemberInfo{0, ty.f32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("wg_struct_func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(1024u, result[0].workgroup_storage_size);
}
TEST_F(InspectorGetEntryPointTest, NoInOutVariables) {
MakeEmptyBodyFunction("func", tint::Empty);
MakeCallerBodyFunction("foo", Vector{std::string("func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].input_variables.size());
EXPECT_EQ(0u, result[0].output_variables.size());
}
TEST_P(InspectorGetEntryPointComponentAndCompositionTest, Test) {
ComponentType component;
CompositionType composition;
std::tie(component, composition) = GetParam();
std::function<ast::Type()> tint_type = GetTypeFunction(component, composition);
if (component == ComponentType::kF16) {
Enable(wgsl::Extension::kF16);
}
auto* in_var = Param("in_var", tint_type(),
Vector{
Location(0_u),
Flat(),
});
Func("foo", Vector{in_var}, tint_type(),
Vector{
Return("in_var"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Location(0_u),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].input_variables.size());
EXPECT_EQ("in_var", result[0].input_variables[0].name);
EXPECT_EQ("in_var", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(component, result[0].input_variables[0].component_type);
ASSERT_EQ(1u, result[0].output_variables.size());
EXPECT_EQ("<retval>", result[0].output_variables[0].name);
EXPECT_EQ("", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(component, result[0].output_variables[0].component_type);
}
INSTANTIATE_TEST_SUITE_P(InspectorGetEntryPointTest,
InspectorGetEntryPointComponentAndCompositionTest,
testing::Combine(testing::Values(ComponentType::kF32,
ComponentType::kI32,
ComponentType::kU32,
ComponentType::kF16),
testing::Values(CompositionType::kScalar,
CompositionType::kVec2,
CompositionType::kVec3,
CompositionType::kVec4)));
TEST_F(InspectorGetEntryPointTest, MultipleInOutVariables) {
Enable(wgsl::Extension::kChromiumExperimentalFramebufferFetch);
auto* in_var0 = Param("in_var0", ty.u32(),
Vector{
Location(0_u),
Flat(),
});
auto* in_var1 = Param("in_var1", ty.u32(),
Vector{
Location(1_u),
Flat(),
});
auto* in_var4 = Param("in_var4", ty.u32(),
Vector{
Color(2_u),
});
Func("foo", Vector{in_var0, in_var1, in_var4}, ty.u32(),
Vector{
Return("in_var0"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Location(0_u),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(3u, result[0].input_variables.size());
EXPECT_EQ("in_var0", result[0].input_variables[0].name);
EXPECT_EQ("in_var0", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(std::nullopt, result[0].input_variables[0].attributes.color);
EXPECT_EQ(InterpolationType::kFlat, result[0].input_variables[0].interpolation_type);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[0].component_type);
EXPECT_EQ("in_var1", result[0].input_variables[1].name);
EXPECT_EQ("in_var1", result[0].input_variables[1].variable_name);
EXPECT_EQ(1u, result[0].input_variables[1].attributes.location);
EXPECT_EQ(std::nullopt, result[0].input_variables[1].attributes.color);
EXPECT_EQ(InterpolationType::kFlat, result[0].input_variables[1].interpolation_type);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[1].component_type);
EXPECT_EQ("in_var4", result[0].input_variables[2].name);
EXPECT_EQ("in_var4", result[0].input_variables[2].variable_name);
EXPECT_EQ(std::nullopt, result[0].input_variables[2].attributes.location);
EXPECT_EQ(2u, result[0].input_variables[2].attributes.color);
EXPECT_EQ(InterpolationType::kFlat, result[0].input_variables[2].interpolation_type);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[2].component_type);
ASSERT_EQ(1u, result[0].output_variables.size());
EXPECT_EQ("<retval>", result[0].output_variables[0].name);
EXPECT_EQ("", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(std::nullopt, result[0].output_variables[0].attributes.color);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[0].component_type);
}
TEST_F(InspectorGetEntryPointTest, MultipleEntryPointsInOutVariables) {
auto* in_var_foo = Param("in_var_foo", ty.u32(),
Vector{
Location(0_u),
Flat(),
});
Func("foo", Vector{in_var_foo}, ty.u32(),
Vector{
Return("in_var_foo"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Location(0_u),
});
auto* in_var_bar = Param("in_var_bar", ty.u32(),
Vector{
Location(0_u),
Flat(),
});
Func("bar", Vector{in_var_bar}, ty.u32(),
Vector{
Return("in_var_bar"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Location(1_u),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(2u, result.size());
ASSERT_EQ(1u, result[0].input_variables.size());
EXPECT_EQ("in_var_foo", result[0].input_variables[0].name);
EXPECT_EQ("in_var_foo", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(InterpolationType::kFlat, result[0].input_variables[0].interpolation_type);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[0].component_type);
ASSERT_EQ(1u, result[0].output_variables.size());
EXPECT_EQ("<retval>", result[0].output_variables[0].name);
EXPECT_EQ("", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[0].component_type);
ASSERT_EQ(1u, result[1].input_variables.size());
EXPECT_EQ("in_var_bar", result[1].input_variables[0].name);
EXPECT_EQ("in_var_bar", result[1].input_variables[0].variable_name);
EXPECT_EQ(0u, result[1].input_variables[0].attributes.location);
EXPECT_EQ(InterpolationType::kFlat, result[1].input_variables[0].interpolation_type);
EXPECT_EQ(ComponentType::kU32, result[1].input_variables[0].component_type);
ASSERT_EQ(1u, result[1].output_variables.size());
EXPECT_EQ("<retval>", result[1].output_variables[0].name);
EXPECT_EQ("", result[1].output_variables[0].variable_name);
EXPECT_EQ(1u, result[1].output_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[1].output_variables[0].component_type);
}
TEST_F(InspectorGetEntryPointTest, BuiltInsNotStageVariables) {
auto* in_var0 = Param("in_var0", ty.u32(),
Vector{
Builtin(core::BuiltinValue::kSampleIndex),
});
auto* in_var1 = Param("in_var1", ty.f32(),
Vector{
Location(0_u),
});
Func("foo", Vector{in_var0, in_var1}, ty.f32(),
Vector{
Return("in_var1"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Builtin(core::BuiltinValue::kFragDepth),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].input_variables.size());
EXPECT_EQ("in_var1", result[0].input_variables[0].name);
EXPECT_EQ("in_var1", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kF32, result[0].input_variables[0].component_type);
ASSERT_EQ(0u, result[0].output_variables.size());
}
TEST_F(InspectorGetEntryPointTest, InOutStruct) {
auto* interface = MakeInOutStruct("interface", Vector{
InOutInfo{"a", 0u},
InOutInfo{"b", 1u},
});
Func("foo",
Vector{
Param("param", ty.Of(interface)),
},
ty.Of(interface),
Vector{
Return("param"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].input_variables.size());
EXPECT_EQ("param.a", result[0].input_variables[0].name);
EXPECT_EQ("a", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[0].component_type);
EXPECT_EQ("param.b", result[0].input_variables[1].name);
EXPECT_EQ("b", result[0].input_variables[1].variable_name);
EXPECT_EQ(1u, result[0].input_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[1].component_type);
ASSERT_EQ(2u, result[0].output_variables.size());
EXPECT_EQ("<retval>.a", result[0].output_variables[0].name);
EXPECT_EQ("a", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[0].component_type);
EXPECT_EQ("<retval>.b", result[0].output_variables[1].name);
EXPECT_EQ("b", result[0].output_variables[1].variable_name);
EXPECT_EQ(1u, result[0].output_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[1].component_type);
}
TEST_F(InspectorGetEntryPointTest, MultipleEntryPointsInOutSharedStruct) {
auto* interface = MakeInOutStruct("interface", Vector{
InOutInfo{"a", 0u},
InOutInfo{"b", 1u},
});
Func("foo", tint::Empty, ty.Of(interface),
Vector{
Return(Call(ty.Of(interface))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Func("bar", Vector{Param("param", ty.Of(interface))}, ty.void_(), tint::Empty,
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(2u, result.size());
ASSERT_EQ(0u, result[0].input_variables.size());
ASSERT_EQ(2u, result[0].output_variables.size());
EXPECT_EQ("<retval>.a", result[0].output_variables[0].name);
EXPECT_EQ("a", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[0].component_type);
EXPECT_EQ("<retval>.b", result[0].output_variables[1].name);
EXPECT_EQ("b", result[0].output_variables[1].variable_name);
EXPECT_EQ(1u, result[0].output_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[1].component_type);
ASSERT_EQ(2u, result[1].input_variables.size());
EXPECT_EQ("param.a", result[1].input_variables[0].name);
EXPECT_EQ("a", result[1].input_variables[0].variable_name);
EXPECT_EQ(0u, result[1].input_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[1].input_variables[0].component_type);
EXPECT_EQ("param.b", result[1].input_variables[1].name);
EXPECT_EQ("b", result[1].input_variables[1].variable_name);
EXPECT_EQ(1u, result[1].input_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[1].input_variables[1].component_type);
ASSERT_EQ(0u, result[1].output_variables.size());
}
TEST_F(InspectorGetEntryPointTest, MixInOutVariablesAndStruct) {
auto* struct_a = MakeInOutStruct("struct_a", Vector{
InOutInfo{"a", 0u},
InOutInfo{"b", 1u},
});
auto* struct_b = MakeInOutStruct("struct_b", Vector{
InOutInfo{"a", 2u},
});
Func("foo",
Vector{
Param("param_a", ty.Of(struct_a)),
Param("param_b", ty.Of(struct_b)),
Param("param_c", ty.f32(), Vector{Location(3_u)}),
Param("param_d", ty.f32(), Vector{Location(4_u)}),
},
ty.Of(struct_a),
Vector{
Return("param_a"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(5u, result[0].input_variables.size());
EXPECT_EQ("param_a.a", result[0].input_variables[0].name);
EXPECT_EQ("a", result[0].input_variables[0].variable_name);
EXPECT_EQ(0u, result[0].input_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[0].component_type);
EXPECT_EQ("param_a.b", result[0].input_variables[1].name);
EXPECT_EQ("b", result[0].input_variables[1].variable_name);
EXPECT_EQ(1u, result[0].input_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[1].component_type);
EXPECT_EQ("param_b.a", result[0].input_variables[2].name);
EXPECT_EQ("a", result[0].input_variables[2].variable_name);
EXPECT_EQ(2u, result[0].input_variables[2].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].input_variables[2].component_type);
EXPECT_EQ("param_c", result[0].input_variables[3].name);
EXPECT_EQ("param_c", result[0].input_variables[3].variable_name);
EXPECT_EQ(3u, result[0].input_variables[3].attributes.location);
EXPECT_EQ(ComponentType::kF32, result[0].input_variables[3].component_type);
EXPECT_EQ("param_d", result[0].input_variables[4].name);
EXPECT_EQ("param_d", result[0].input_variables[4].variable_name);
EXPECT_EQ(4u, result[0].input_variables[4].attributes.location);
EXPECT_EQ(ComponentType::kF32, result[0].input_variables[4].component_type);
ASSERT_EQ(2u, result[0].output_variables.size());
EXPECT_EQ("<retval>.a", result[0].output_variables[0].name);
EXPECT_EQ("a", result[0].output_variables[0].variable_name);
EXPECT_EQ(0u, result[0].output_variables[0].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[0].component_type);
EXPECT_EQ("<retval>.b", result[0].output_variables[1].name);
EXPECT_EQ("b", result[0].output_variables[1].variable_name);
EXPECT_EQ(1u, result[0].output_variables[1].attributes.location);
EXPECT_EQ(ComponentType::kU32, result[0].output_variables[1].component_type);
}
TEST_F(InspectorGetEntryPointTest, OverrideUnreferenced) {
Override("foo", ty.f32());
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].overrides.size());
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByEntryPoint) {
Override("foo", ty.f32());
MakePlainGlobalReferenceBodyFunction("ep_func", "foo", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByCallee) {
Override("foo", ty.f32());
MakePlainGlobalReferenceBodyFunction("callee_func", "foo", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("callee_func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
}
TEST_F(InspectorGetEntryPointTest, OverrideSomeReferenced) {
Override("foo", ty.f32(), Id(1_a));
Override("bar", ty.f32(), Id(2_a));
MakePlainGlobalReferenceBodyFunction("callee_func", "foo", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("callee_func")},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
EXPECT_EQ(1, result[0].overrides[0].id.value);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedIndirectly) {
Override("foo", ty.f32());
Override("bar", ty.f32(), Mul(2_a, "foo"));
MakePlainGlobalReferenceBodyFunction("ep_func", "bar", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("bar", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
EXPECT_EQ("foo", result[0].overrides[1].name);
EXPECT_FALSE(result[0].overrides[1].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedIndirectly_ViaPrivateInitializer) {
Override("foo", ty.f32());
GlobalVar("bar", core::AddressSpace::kPrivate, ty.f32(), Mul(2_a, "foo"));
MakePlainGlobalReferenceBodyFunction("ep_func", "bar", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
EXPECT_FALSE(result[0].overrides[0].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedIndirectly_MultipleEntryPoints) {
Override("foo1", ty.f32());
Override("bar1", ty.f32(), Mul(2_a, "foo1"));
MakePlainGlobalReferenceBodyFunction("ep_func1", "bar1", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Override("foo2", ty.f32());
Override("bar2", ty.f32(), Mul(2_a, "foo2"));
MakePlainGlobalReferenceBodyFunction("ep_func2", "bar2", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(2u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("bar1", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
EXPECT_EQ("foo1", result[0].overrides[1].name);
EXPECT_FALSE(result[0].overrides[1].is_initialized);
ASSERT_EQ(2u, result[1].overrides.size());
EXPECT_EQ("bar2", result[1].overrides[0].name);
EXPECT_TRUE(result[1].overrides[0].is_initialized);
EXPECT_EQ("foo2", result[1].overrides[1].name);
EXPECT_FALSE(result[1].overrides[1].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByAttribute) {
Override("wgsize", ty.u32());
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize("wgsize"),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("wgsize", result[0].overrides[0].name);
EXPECT_FALSE(result[0].overrides[0].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByAttributeIndirectly) {
Override("foo", ty.u32());
Override("bar", ty.u32(), Mul(2_a, "foo"));
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(Mul(2_a, Expr("bar"))),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("bar", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
EXPECT_EQ("foo", result[0].overrides[1].name);
EXPECT_FALSE(result[0].overrides[1].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByArraySize) {
Override("size", ty.u32());
GlobalVar("v", core::AddressSpace::kWorkgroup, ty.array(ty.f32(), "size"));
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), IndexAccessor("v", 0_a)),
},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("size", result[0].overrides[0].name);
EXPECT_FALSE(result[0].overrides[0].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByArraySizeIndirectly) {
Override("foo", ty.u32());
Override("bar", ty.u32(), Mul(2_a, "foo"));
GlobalVar("v", core::AddressSpace::kWorkgroup, ty.array(ty.f32(), Mul(2_a, Expr("bar"))));
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), IndexAccessor("v", 0_a)),
},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("bar", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
EXPECT_EQ("foo", result[0].overrides[1].name);
EXPECT_FALSE(result[0].overrides[1].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideReferencedByArraySizeViaAlias) {
Override("foo", ty.u32());
Override("bar", ty.u32(), Expr("foo"));
Alias("MyArray", ty.array(ty.f32(), Mul(2_a, Expr("bar"))));
Override("zoo", ty.u32());
Alias("MyArrayUnused", ty.array(ty.f32(), Mul(2_a, Expr("zoo"))));
GlobalVar("v", core::AddressSpace::kWorkgroup, ty("MyArray"));
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), IndexAccessor("v", 0_a)),
},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("bar", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
EXPECT_EQ("foo", result[0].overrides[1].name);
EXPECT_FALSE(result[0].overrides[1].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideTypes) {
Enable(wgsl::Extension::kF16);
Override("bool_var", ty.bool_());
Override("float_var", ty.f32());
Override("u32_var", ty.u32());
Override("i32_var", ty.i32());
Override("f16_var", ty.f16());
MakePlainGlobalReferenceBodyFunction("bool_func", "bool_var", ty.bool_(), tint::Empty);
MakePlainGlobalReferenceBodyFunction("float_func", "float_var", ty.f32(), tint::Empty);
MakePlainGlobalReferenceBodyFunction("u32_func", "u32_var", ty.u32(), tint::Empty);
MakePlainGlobalReferenceBodyFunction("i32_func", "i32_var", ty.i32(), tint::Empty);
MakePlainGlobalReferenceBodyFunction("f16_func", "f16_var", ty.f16(), tint::Empty);
MakeCallerBodyFunction(
"ep_func",
Vector{std::string("bool_func"), "float_func", "u32_func", "i32_func", "f16_func"},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(5u, result[0].overrides.size());
EXPECT_EQ("bool_var", result[0].overrides[0].name);
EXPECT_EQ(inspector::Override::Type::kBool, result[0].overrides[0].type);
EXPECT_EQ("float_var", result[0].overrides[1].name);
EXPECT_EQ(inspector::Override::Type::kFloat32, result[0].overrides[1].type);
EXPECT_EQ("u32_var", result[0].overrides[2].name);
EXPECT_EQ(inspector::Override::Type::kUint32, result[0].overrides[2].type);
EXPECT_EQ("i32_var", result[0].overrides[3].name);
EXPECT_EQ(inspector::Override::Type::kInt32, result[0].overrides[3].type);
EXPECT_EQ("f16_var", result[0].overrides[4].name);
EXPECT_EQ(inspector::Override::Type::kFloat16, result[0].overrides[4].type);
}
TEST_F(InspectorGetEntryPointTest, OverrideInitialized) {
Override("foo", ty.f32(), Expr(0_f));
MakePlainGlobalReferenceBodyFunction("ep_func", "foo", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
EXPECT_TRUE(result[0].overrides[0].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideUninitialized) {
Override("foo", ty.f32());
MakePlainGlobalReferenceBodyFunction("ep_func", "foo", ty.f32(),
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].overrides.size());
EXPECT_EQ("foo", result[0].overrides[0].name);
EXPECT_FALSE(result[0].overrides[0].is_initialized);
}
TEST_F(InspectorGetEntryPointTest, OverrideNumericIDSpecified) {
Override("foo_no_id", ty.f32());
Override("foo_id", ty.f32(), Id(1234_a));
MakePlainGlobalReferenceBodyFunction("no_id_func", "foo_no_id", ty.f32(), tint::Empty);
MakePlainGlobalReferenceBodyFunction("id_func", "foo_id", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("no_id_func"), "id_func"},
Vector{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1_i),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(2u, result[0].overrides.size());
EXPECT_EQ("foo_no_id", result[0].overrides[0].name);
EXPECT_EQ("foo_id", result[0].overrides[1].name);
EXPECT_EQ(1234, result[0].overrides[1].id.value);
EXPECT_FALSE(result[0].overrides[0].is_id_specified);
EXPECT_TRUE(result[0].overrides[1].is_id_specified);
}
TEST_F(InspectorGetEntryPointTest, NonOverrideSkipped) {
auto* foo_struct_type = MakeUniformBufferType("foo_type", Vector{
ty.i32(),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].overrides.size());
}
TEST_F(InspectorGetEntryPointTest, BuiltinNotReferenced) {
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_FALSE(result[0].input_sample_mask_used);
EXPECT_FALSE(result[0].output_sample_mask_used);
EXPECT_FALSE(result[0].input_position_used);
EXPECT_FALSE(result[0].front_facing_used);
EXPECT_FALSE(result[0].sample_index_used);
EXPECT_FALSE(result[0].num_workgroups_used);
EXPECT_FALSE(result[0].frag_depth_used);
}
TEST_F(InspectorGetEntryPointTest, InputSampleMaskSimpleReferenced) {
auto* in_var = Param("in_var", ty.u32(),
Vector{
Builtin(core::BuiltinValue::kSampleMask),
});
Func("ep_func", Vector{in_var}, ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].input_sample_mask_used);
}
TEST_F(InspectorGetEntryPointTest, InputSampleMaskStructReferenced) {
Vector members{
Member("inner_position", ty.u32(), Vector{Builtin(core::BuiltinValue::kSampleMask)}),
};
Structure("in_struct", members);
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].input_sample_mask_used);
}
TEST_F(InspectorGetEntryPointTest, OutputSampleMaskSimpleReferenced) {
Func("ep_func",
Vector{
Param("in_var", ty.u32(), Vector{Builtin(core::BuiltinValue::kSampleMask)}),
},
ty.u32(),
Vector{
Return("in_var"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Builtin(core::BuiltinValue::kSampleMask),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].output_sample_mask_used);
}
TEST_F(InspectorGetEntryPointTest, OutputSampleMaskStructReferenced) {
Structure("out_struct", Vector{
Member("inner_sample_mask", ty.u32(),
Vector{Builtin(core::BuiltinValue::kSampleMask)}),
});
Func("ep_func", tint::Empty, ty("out_struct"),
Vector{
Decl(Var("out_var", ty("out_struct"))),
Return("out_var"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].output_sample_mask_used);
}
TEST_F(InspectorGetEntryPointTest, InputPositionSimpleReferenced) {
Func("ep_func",
Vector{
Param("in_var", ty.vec4<f32>(), Vector{Builtin(core::BuiltinValue::kPosition)}),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].input_position_used);
}
TEST_F(InspectorGetEntryPointTest, InputPositionStructReferenced) {
Structure("in_struct", Vector{
Member("inner_position", ty.vec4<f32>(),
Vector{Builtin(core::BuiltinValue::kPosition)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].input_position_used);
}
TEST_F(InspectorGetEntryPointTest, FrontFacingSimpleReferenced) {
Func("ep_func",
Vector{
Param("in_var", ty.bool_(), Vector{Builtin(core::BuiltinValue::kFrontFacing)}),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].front_facing_used);
}
TEST_F(InspectorGetEntryPointTest, FrontFacingStructReferenced) {
Structure("in_struct", Vector{
Member("inner_position", ty.bool_(),
Vector{Builtin(core::BuiltinValue::kFrontFacing)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].front_facing_used);
}
TEST_F(InspectorGetEntryPointTest, SampleIndexSimpleReferenced) {
Func("ep_func",
Vector{
Param("in_var", ty.u32(), Vector{Builtin(core::BuiltinValue::kSampleIndex)}),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].sample_index_used);
}
TEST_F(InspectorGetEntryPointTest, SampleIndexStructReferenced) {
Structure("in_struct", Vector{
Member("inner_position", ty.u32(),
Vector{Builtin(core::BuiltinValue::kSampleIndex)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].sample_index_used);
}
TEST_F(InspectorGetEntryPointTest, NumWorkgroupsSimpleReferenced) {
Func("ep_func",
Vector{
Param("in_var", ty.vec3<u32>(), Vector{Builtin(core::BuiltinValue::kNumWorkgroups)}),
},
ty.void_(),
Vector{
Return(),
},
Vector{Stage(ast::PipelineStage::kCompute), WorkgroupSize(1_i)}, tint::Empty);
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].num_workgroups_used);
}
TEST_F(InspectorGetEntryPointTest, NumWorkgroupsStructReferenced) {
Structure("in_struct", Vector{
Member("inner_position", ty.vec3<u32>(),
Vector{Builtin(core::BuiltinValue::kNumWorkgroups)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{Stage(ast::PipelineStage::kCompute), WorkgroupSize(1_i)}, tint::Empty);
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].num_workgroups_used);
}
TEST_F(InspectorGetEntryPointTest, FragDepthSimpleReferenced) {
Func("ep_func", {}, ty.f32(),
Vector{
Return(Expr(0_f)),
},
Vector{
Stage(ast::PipelineStage::kFragment),
},
Vector{
Builtin(core::BuiltinValue::kFragDepth),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].frag_depth_used);
}
TEST_F(InspectorGetEntryPointTest, FragDepthStructReferenced) {
Structure("out_struct", Vector{
Member("inner_frag_depth", ty.f32(),
Vector{Builtin(core::BuiltinValue::kFragDepth)}),
});
Func("ep_func", tint::Empty, ty("out_struct"),
Vector{
Decl(Var("out_var", ty("out_struct"))),
Return("out_var"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
EXPECT_TRUE(result[0].frag_depth_used);
}
TEST_F(InspectorGetEntryPointTest, ImplicitInterpolate) {
Structure("in_struct", Vector{
Member("struct_inner", ty.f32(), Vector{Location(0_a)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].input_variables.size());
EXPECT_EQ(InterpolationType::kPerspective, result[0].input_variables[0].interpolation_type);
EXPECT_EQ(InterpolationSampling::kCenter, result[0].input_variables[0].interpolation_sampling);
}
TEST_F(InspectorGetEntryPointTest, PixelLocalMemberDefault) {
// @fragment fn foo() {}
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].pixel_local_members.size());
}
TEST_F(InspectorGetEntryPointTest, PixelLocalMemberTypes) {
// enable chromium_experimental_pixel_local;
// struct Ure {
// toto : u32;
// titi : f32;
// tata: i32;
// tonton : u32; // Check having the same type multiple times
// }
// var<pixel_local> pls : Ure;
// @fragment fn foo() { _ = pls; }
Enable(wgsl::Extension::kChromiumExperimentalPixelLocal);
Structure("Ure", Vector{
Member("toto", ty.u32()),
Member("titi", ty.f32()),
Member("tata", ty.i32()),
Member("tonton", ty.u32()),
});
GlobalVar("pls", core::AddressSpace::kPixelLocal, ty("Ure"));
Func("foo", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), "pls"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(4u, result[0].pixel_local_members.size());
ASSERT_EQ(PixelLocalMemberType::kU32, result[0].pixel_local_members[0]);
ASSERT_EQ(PixelLocalMemberType::kF32, result[0].pixel_local_members[1]);
ASSERT_EQ(PixelLocalMemberType::kI32, result[0].pixel_local_members[2]);
ASSERT_EQ(PixelLocalMemberType::kU32, result[0].pixel_local_members[3]);
}
TEST_P(InspectorGetEntryPointInterpolateTest, Test) {
auto& params = GetParam();
Structure("in_struct",
Vector{
Member("struct_inner", ty.f32(),
Vector{Interpolate(params.in_type, params.in_sampling), Location(0_a)}),
});
Func("ep_func",
Vector{
Param("in_var", ty("in_struct"), tint::Empty),
},
ty.void_(),
Vector{
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetEntryPoints();
ASSERT_EQ(1u, result.size());
ASSERT_EQ(1u, result[0].input_variables.size());
EXPECT_EQ(params.out_type, result[0].input_variables[0].interpolation_type);
EXPECT_EQ(params.out_sampling, result[0].input_variables[0].interpolation_sampling);
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetEntryPointTest,
InspectorGetEntryPointInterpolateTest,
testing::Values(
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kPerspective, core::InterpolationSampling::kCenter,
InterpolationType::kPerspective, InterpolationSampling::kCenter},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kPerspective, core::InterpolationSampling::kCentroid,
InterpolationType::kPerspective, InterpolationSampling::kCentroid},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kPerspective, core::InterpolationSampling::kSample,
InterpolationType::kPerspective, InterpolationSampling::kSample},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kPerspective, core::InterpolationSampling::kUndefined,
InterpolationType::kPerspective, InterpolationSampling::kCenter},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kLinear, core::InterpolationSampling::kCenter,
InterpolationType::kLinear, InterpolationSampling::kCenter},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kLinear, core::InterpolationSampling::kCentroid,
InterpolationType::kLinear, InterpolationSampling::kCentroid},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kLinear, core::InterpolationSampling::kSample,
InterpolationType::kLinear, InterpolationSampling::kSample},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kLinear, core::InterpolationSampling::kUndefined,
InterpolationType::kLinear, InterpolationSampling::kCenter},
InspectorGetEntryPointInterpolateTestParams{
core::InterpolationType::kFlat, core::InterpolationSampling::kUndefined,
InterpolationType::kFlat, InterpolationSampling::kNone}));
TEST_F(InspectorGetOverrideDefaultValuesTest, Bool) {
GlobalConst("C", Expr(true));
Override("a", ty.bool_(), Id(1_a));
Override("b", ty.bool_(), Expr(true), Id(20_a));
Override("c", Expr(false), Id(300_a));
Override("d", Or(true, false), Id(400_a));
Override("e", Expr("C"), Id(500_a));
Inspector& inspector = Build();
auto result = inspector.GetOverrideDefaultValues();
ASSERT_EQ(5u, result.size());
ASSERT_TRUE(result.find(OverrideId{1}) != result.end());
EXPECT_TRUE(result[OverrideId{1}].IsNull());
ASSERT_TRUE(result.find(OverrideId{20}) != result.end());
EXPECT_TRUE(result[OverrideId{20}].IsBool());
EXPECT_TRUE(result[OverrideId{20}].AsBool());
ASSERT_TRUE(result.find(OverrideId{300}) != result.end());
EXPECT_TRUE(result[OverrideId{300}].IsBool());
EXPECT_FALSE(result[OverrideId{300}].AsBool());
ASSERT_TRUE(result.find(OverrideId{400}) != result.end());
EXPECT_TRUE(result[OverrideId{400}].IsBool());
EXPECT_TRUE(result[OverrideId{400}].AsBool());
ASSERT_TRUE(result.find(OverrideId{500}) != result.end());
EXPECT_TRUE(result[OverrideId{500}].IsBool());
EXPECT_TRUE(result[OverrideId{500}].AsBool());
}
TEST_F(InspectorGetOverrideDefaultValuesTest, U32) {
GlobalConst("C", Expr(100_u));
Override("a", ty.u32(), Id(1_a));
Override("b", ty.u32(), Expr(42_u), Id(20_a));
Override("c", ty.u32(), Expr(42_a), Id(30_a));
Override("d", ty.u32(), Add(42_a, 10_a), Id(40_a));
Override("e", Add(42_a, 10_u), Id(50_a));
Override("f", Expr("C"), Id(60_a));
Inspector& inspector = Build();
auto result = inspector.GetOverrideDefaultValues();
ASSERT_EQ(6u, result.size());
ASSERT_TRUE(result.find(OverrideId{1}) != result.end());
EXPECT_TRUE(result[OverrideId{1}].IsNull());
ASSERT_TRUE(result.find(OverrideId{20}) != result.end());
EXPECT_TRUE(result[OverrideId{20}].IsU32());
EXPECT_EQ(42u, result[OverrideId{20}].AsU32());
ASSERT_TRUE(result.find(OverrideId{30}) != result.end());
EXPECT_TRUE(result[OverrideId{30}].IsU32());
EXPECT_EQ(42u, result[OverrideId{30}].AsU32());
ASSERT_TRUE(result.find(OverrideId{40}) != result.end());
EXPECT_TRUE(result[OverrideId{40}].IsU32());
EXPECT_EQ(52u, result[OverrideId{40}].AsU32());
ASSERT_TRUE(result.find(OverrideId{50}) != result.end());
EXPECT_TRUE(result[OverrideId{50}].IsU32());
EXPECT_EQ(52u, result[OverrideId{50}].AsU32());
ASSERT_TRUE(result.find(OverrideId{60}) != result.end());
EXPECT_TRUE(result[OverrideId{60}].IsU32());
EXPECT_EQ(100u, result[OverrideId{60}].AsU32());
}
TEST_F(InspectorGetOverrideDefaultValuesTest, I32) {
GlobalConst("C", Expr(100_a));
Override("a", ty.i32(), Id(1_a));
Override("b", ty.i32(), Expr(-42_i), Id(20_a));
Override("c", ty.i32(), Expr(42_i), Id(300_a));
Override("d", Expr(42_a), Id(400_a));
Override("e", Add(42_a, 7_a), Id(500_a));
Override("f", Expr("C"), Id(6000_a));
Inspector& inspector = Build();
auto result = inspector.GetOverrideDefaultValues();
ASSERT_EQ(6u, result.size());
ASSERT_TRUE(result.find(OverrideId{1}) != result.end());
EXPECT_TRUE(result[OverrideId{1}].IsNull());
ASSERT_TRUE(result.find(OverrideId{20}) != result.end());
EXPECT_TRUE(result[OverrideId{20}].IsI32());
EXPECT_EQ(-42, result[OverrideId{20}].AsI32());
ASSERT_TRUE(result.find(OverrideId{300}) != result.end());
EXPECT_TRUE(result[OverrideId{300}].IsI32());
EXPECT_EQ(42, result[OverrideId{300}].AsI32());
ASSERT_TRUE(result.find(OverrideId{400}) != result.end());
EXPECT_TRUE(result[OverrideId{400}].IsI32());
EXPECT_EQ(42, result[OverrideId{400}].AsI32());
ASSERT_TRUE(result.find(OverrideId{500}) != result.end());
EXPECT_TRUE(result[OverrideId{500}].IsI32());
EXPECT_EQ(49, result[OverrideId{500}].AsI32());
ASSERT_TRUE(result.find(OverrideId{6000}) != result.end());
EXPECT_TRUE(result[OverrideId{6000}].IsI32());
EXPECT_EQ(100, result[OverrideId{6000}].AsI32());
}
TEST_F(InspectorGetOverrideDefaultValuesTest, F32) {
Override("a", ty.f32(), Id(1_a));
Override("b", ty.f32(), Expr(0_f), Id(20_a));
Override("c", ty.f32(), Expr(-10_f), Id(300_a));
Override("d", Expr(15_f), Id(4000_a));
Override("3", Expr(42.0_a), Id(5000_a));
Override("e", ty.f32(), Mul(15_f, 10_a), Id(6000_a));
Inspector& inspector = Build();
auto result = inspector.GetOverrideDefaultValues();
ASSERT_EQ(6u, result.size());
ASSERT_TRUE(result.find(OverrideId{1}) != result.end());
EXPECT_TRUE(result[OverrideId{1}].IsNull());
ASSERT_TRUE(result.find(OverrideId{20}) != result.end());
EXPECT_TRUE(result[OverrideId{20}].IsFloat());
EXPECT_FLOAT_EQ(0.0f, result[OverrideId{20}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{300}) != result.end());
EXPECT_TRUE(result[OverrideId{300}].IsFloat());
EXPECT_FLOAT_EQ(-10.0f, result[OverrideId{300}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{4000}) != result.end());
EXPECT_TRUE(result[OverrideId{4000}].IsFloat());
EXPECT_FLOAT_EQ(15.0f, result[OverrideId{4000}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{5000}) != result.end());
EXPECT_TRUE(result[OverrideId{5000}].IsFloat());
EXPECT_FLOAT_EQ(42.0f, result[OverrideId{5000}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{6000}) != result.end());
EXPECT_TRUE(result[OverrideId{6000}].IsFloat());
EXPECT_FLOAT_EQ(150.0f, result[OverrideId{6000}].AsFloat());
}
TEST_F(InspectorGetOverrideDefaultValuesTest, F16) {
Enable(wgsl::Extension::kF16);
Override("a", ty.f16(), Id(1_a));
Override("b", ty.f16(), Expr(0_h), Id(20_a));
Override("c", ty.f16(), Expr(-10_h), Id(300_a));
Override("d", Expr(15_h), Id(4000_a));
Override("3", Expr(42.0_h), Id(5000_a));
Override("e", ty.f16(), Mul(15_h, 10_a), Id(6000_a));
Inspector& inspector = Build();
auto result = inspector.GetOverrideDefaultValues();
ASSERT_EQ(6u, result.size());
ASSERT_TRUE(result.find(OverrideId{1}) != result.end());
EXPECT_TRUE(result[OverrideId{1}].IsNull());
ASSERT_TRUE(result.find(OverrideId{20}) != result.end());
// Default value of f16 override is also stored as float scalar.
EXPECT_TRUE(result[OverrideId{20}].IsFloat());
EXPECT_FLOAT_EQ(0.0f, result[OverrideId{20}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{300}) != result.end());
EXPECT_TRUE(result[OverrideId{300}].IsFloat());
EXPECT_FLOAT_EQ(-10.0f, result[OverrideId{300}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{4000}) != result.end());
EXPECT_TRUE(result[OverrideId{4000}].IsFloat());
EXPECT_FLOAT_EQ(15.0f, result[OverrideId{4000}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{5000}) != result.end());
EXPECT_TRUE(result[OverrideId{5000}].IsFloat());
EXPECT_FLOAT_EQ(42.0f, result[OverrideId{5000}].AsFloat());
ASSERT_TRUE(result.find(OverrideId{6000}) != result.end());
EXPECT_TRUE(result[OverrideId{6000}].IsFloat());
EXPECT_FLOAT_EQ(150.0f, result[OverrideId{6000}].AsFloat());
}
TEST_F(InspectorGetConstantNameToIdMapTest, WithAndWithoutIds) {
Override("v1", ty.f32(), Id(1_a));
Override("v20", ty.f32(), Id(20_a));
Override("v300", ty.f32(), Id(300_a));
auto* a = Override("a", ty.f32());
auto* b = Override("b", ty.f32());
auto* c = Override("c", ty.f32());
Inspector& inspector = Build();
auto result = inspector.GetNamedOverrideIds();
ASSERT_EQ(6u, result.size());
ASSERT_TRUE(result.count("v1"));
EXPECT_EQ(result["v1"].value, 1u);
ASSERT_TRUE(result.count("v20"));
EXPECT_EQ(result["v20"].value, 20u);
ASSERT_TRUE(result.count("v300"));
EXPECT_EQ(result["v300"].value, 300u);
ASSERT_TRUE(result.count("a"));
ASSERT_TRUE(program_->Sem().Get(a));
EXPECT_EQ(result["a"], program_->Sem().Get(a)->Attributes().override_id);
ASSERT_TRUE(result.count("b"));
ASSERT_TRUE(program_->Sem().Get(b));
EXPECT_EQ(result["b"], program_->Sem().Get(b)->Attributes().override_id);
ASSERT_TRUE(result.count("c"));
ASSERT_TRUE(program_->Sem().Get(c));
EXPECT_EQ(result["c"], program_->Sem().Get(c)->Attributes().override_id);
}
TEST_F(InspectorGetResourceBindingsTest, Empty) {
MakeCallerBodyFunction("ep_func", tint::Empty,
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetResourceBindingsTest, Simple) {
auto* ub_struct_type = MakeUniformBufferType("ub_type", Vector{
ty.i32(),
});
AddUniformBuffer("ub_var", ty.Of(ub_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "ub_var",
Vector{
MemberInfo{0, ty.i32()},
});
auto sb = MakeStorageBufferTypes("sb_type", Vector{
ty.i32(),
});
AddStorageBuffer("sb_var", sb(), core::Access::kReadWrite, 1, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "sb_var",
Vector{
MemberInfo{0, ty.i32()},
});
auto ro_sb = MakeStorageBufferTypes("rosb_type", Vector{
ty.i32(),
});
AddStorageBuffer("rosb_var", ro_sb(), core::Access::kRead, 1, 1);
MakeStructVariableReferenceBodyFunction("rosb_func", "rosb_var",
Vector{
MemberInfo{0, ty.i32()},
});
auto s_texture_type = ty.sampled_texture(core::type::TextureDimension::k1d, ty.f32());
AddResource("s_texture", s_texture_type, 2, 0);
AddSampler("s_var", 3, 0);
AddGlobalVariable("s_coords", ty.f32());
MakeSamplerReferenceBodyFunction("s_func", "s_texture", "s_var", "s_coords", ty.f32(),
tint::Empty);
auto cs_depth_texture_type = ty.depth_texture(core::type::TextureDimension::k2d);
AddResource("cs_texture", cs_depth_texture_type, 3, 1);
AddComparisonSampler("cs_var", 3, 2);
AddGlobalVariable("cs_coords", ty.vec2<f32>());
AddGlobalVariable("cs_depth", ty.f32());
MakeComparisonSamplerReferenceBodyFunction("cs_func", "cs_texture", "cs_var", "cs_coords",
"cs_depth", ty.f32(), tint::Empty);
auto depth_ms_texture_type = ty.depth_multisampled_texture(core::type::TextureDimension::k2d);
AddResource("depth_ms_texture", depth_ms_texture_type, 3, 3);
Func("depth_ms_func", tint::Empty, ty.void_(),
Vector{
Ignore("depth_ms_texture"),
});
auto st_type = MakeStorageTextureTypes(core::type::TextureDimension::k2d,
core::TexelFormat::kR32Uint, core::Access::kWrite);
AddStorageTexture("st_var", st_type, 4, 0);
MakeStorageTextureBodyFunction("st_func", "st_var", ty.vec2<u32>(), tint::Empty);
MakeCallerBodyFunction("ep_func",
Vector{
std::string("ub_func"),
std::string("sb_func"),
std::string("rosb_func"),
std::string("s_func"),
std::string("cs_func"),
std::string("depth_ms_func"),
std::string("st_func"),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(9u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[1].resource_type);
EXPECT_EQ(1u, result[1].bind_group);
EXPECT_EQ(0u, result[1].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[2].resource_type);
EXPECT_EQ(1u, result[2].bind_group);
EXPECT_EQ(1u, result[2].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kSampler, result[3].resource_type);
EXPECT_EQ(3u, result[3].bind_group);
EXPECT_EQ(0u, result[3].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kComparisonSampler, result[4].resource_type);
EXPECT_EQ(3u, result[4].bind_group);
EXPECT_EQ(2u, result[4].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kSampledTexture, result[5].resource_type);
EXPECT_EQ(2u, result[5].bind_group);
EXPECT_EQ(0u, result[5].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kWriteOnlyStorageTexture, result[6].resource_type);
EXPECT_EQ(4u, result[6].bind_group);
EXPECT_EQ(0u, result[6].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kDepthTexture, result[7].resource_type);
EXPECT_EQ(3u, result[7].bind_group);
EXPECT_EQ(1u, result[7].binding);
EXPECT_EQ(ResourceBinding::ResourceType::kDepthMultisampledTexture, result[8].resource_type);
EXPECT_EQ(3u, result[8].bind_group);
EXPECT_EQ(3u, result[8].binding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, MissingEntryPoint) {
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_TRUE(inspector.has_error());
std::string error = inspector.error();
EXPECT_TRUE(error.find("not found") != std::string::npos);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, NonEntryPointFunc) {
auto* foo_struct_type = MakeUniformBufferType("foo_type", Vector{
ty.i32(),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ub_func");
std::string error = inspector.error();
EXPECT_TRUE(error.find("not an entry point") != std::string::npos);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, Simple_NonStruct) {
AddUniformBuffer("foo_ub", ty.i32(), 0, 0);
MakePlainGlobalReferenceBodyFunction("ub_func", "foo_ub", ty.i32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(4u, result[0].size);
EXPECT_EQ(4u, result[0].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, Simple_Struct) {
auto* foo_struct_type = MakeUniformBufferType("foo_type", Vector{
ty.i32(),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(4u, result[0].size);
EXPECT_EQ(4u, result[0].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, MultipleMembers) {
auto* foo_struct_type = MakeUniformBufferType("foo_type", Vector{
ty.i32(),
ty.u32(),
ty.f32(),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.i32()},
MemberInfo{1, ty.u32()},
MemberInfo{2, ty.f32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, ContainingPadding) {
auto* foo_struct_type = MakeUniformBufferType("foo_type", Vector{
ty.vec3<f32>(),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.vec3<f32>()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(16u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, NonStructVec3) {
AddUniformBuffer("foo_ub", ty.vec3<f32>(), 0, 0);
MakePlainGlobalReferenceBodyFunction("ub_func", "foo_ub", ty.vec3<f32>(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, MultipleUniformBuffers) {
auto* ub_struct_type = MakeUniformBufferType("ub_type", Vector{
ty.i32(),
ty.u32(),
ty.f32(),
});
AddUniformBuffer("ub_foo", ty.Of(ub_struct_type), 0, 0);
AddUniformBuffer("ub_bar", ty.Of(ub_struct_type), 0, 1);
AddUniformBuffer("ub_baz", ty.Of(ub_struct_type), 2, 0);
auto AddReferenceFunc = [this](const std::string& func_name, const std::string& var_name) {
MakeStructVariableReferenceBodyFunction(func_name, var_name,
Vector{
MemberInfo{0, ty.i32()},
MemberInfo{1, ty.u32()},
MemberInfo{2, ty.f32()},
});
};
AddReferenceFunc("ub_foo_func", "ub_foo");
AddReferenceFunc("ub_bar_func", "ub_bar");
AddReferenceFunc("ub_baz_func", "ub_baz");
auto FuncCall = [&](const std::string& callee) { return CallStmt(Call(callee)); };
Func("ep_func", tint::Empty, ty.void_(),
Vector{
FuncCall("ub_foo_func"),
FuncCall("ub_bar_func"),
FuncCall("ub_baz_func"),
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(3u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[1].resource_type);
EXPECT_EQ(0u, result[1].bind_group);
EXPECT_EQ(1u, result[1].binding);
EXPECT_EQ(12u, result[1].size);
EXPECT_EQ(12u, result[1].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[2].resource_type);
EXPECT_EQ(2u, result[2].bind_group);
EXPECT_EQ(0u, result[2].binding);
EXPECT_EQ(12u, result[2].size);
EXPECT_EQ(12u, result[2].size_no_padding);
}
TEST_F(InspectorGetUniformBufferResourceBindingsTest, ContainingArray) {
// Manually create uniform buffer to make sure it had a valid layout (array
// with elem stride of 16, and that is 16-byte aligned within the struct)
auto* foo_struct_type = Structure("foo_type", Vector{
Member("0i32", ty.i32()),
Member("b",
ty.array<u32, 4>(Vector{
Stride(16),
}),
Vector{
MemberAlign(16_i),
}),
});
AddUniformBuffer("foo_ub", ty.Of(foo_struct_type), 0, 0);
MakeStructVariableReferenceBodyFunction("ub_func", "foo_ub",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetUniformBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kUniformBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(80u, result[0].size);
EXPECT_EQ(80u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, Simple_NonStruct) {
AddStorageBuffer("foo_sb", ty.i32(), core::Access::kReadWrite, 0, 0);
MakePlainGlobalReferenceBodyFunction("sb_func", "foo_sb", ty.i32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(4u, result[0].size);
EXPECT_EQ(4u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, Simple_Struct) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(4u, result[0].size);
EXPECT_EQ(4u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, MultipleMembers) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
ty.u32(),
ty.f32(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
MemberInfo{1, ty.u32()},
MemberInfo{2, ty.f32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, MultipleStorageBuffers) {
auto sb_struct_type = MakeStorageBufferTypes("sb_type", Vector{
ty.i32(),
ty.u32(),
ty.f32(),
});
AddStorageBuffer("sb_foo", sb_struct_type(), core::Access::kReadWrite, 0, 0);
AddStorageBuffer("sb_bar", sb_struct_type(), core::Access::kReadWrite, 0, 1);
AddStorageBuffer("sb_baz", sb_struct_type(), core::Access::kReadWrite, 2, 0);
auto AddReferenceFunc = [this](const std::string& func_name, const std::string& var_name) {
MakeStructVariableReferenceBodyFunction(func_name, var_name,
Vector{
MemberInfo{0, ty.i32()},
MemberInfo{1, ty.u32()},
MemberInfo{2, ty.f32()},
});
};
AddReferenceFunc("sb_foo_func", "sb_foo");
AddReferenceFunc("sb_bar_func", "sb_bar");
AddReferenceFunc("sb_baz_func", "sb_baz");
auto FuncCall = [&](const std::string& callee) { return CallStmt(Call(callee)); };
Func("ep_func", tint::Empty, ty.void_(),
Vector{
FuncCall("sb_foo_func"),
FuncCall("sb_bar_func"),
FuncCall("sb_baz_func"),
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(3u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[1].resource_type);
EXPECT_EQ(0u, result[1].bind_group);
EXPECT_EQ(1u, result[1].binding);
EXPECT_EQ(12u, result[1].size);
EXPECT_EQ(12u, result[1].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[2].resource_type);
EXPECT_EQ(2u, result[2].bind_group);
EXPECT_EQ(0u, result[2].binding);
EXPECT_EQ(12u, result[2].size);
EXPECT_EQ(12u, result[2].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, ContainingArray) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
ty.array<u32, 4>(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(20u, result[0].size);
EXPECT_EQ(20u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, ContainingRuntimeArray) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
ty.array<u32>(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(8u, result[0].size);
EXPECT_EQ(8u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, ContainingPadding) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.vec3<f32>(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.vec3<f32>()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(16u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, NonStructVec3) {
AddStorageBuffer("foo_ub", ty.vec3<f32>(), core::Access::kReadWrite, 0, 0);
MakePlainGlobalReferenceBodyFunction("ub_func", "foo_ub", ty.vec3<f32>(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("ub_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
}
TEST_F(InspectorGetStorageBufferResourceBindingsTest, SkipReadOnly) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kRead, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetReadOnlyStorageBufferResourceBindingsTest, Simple) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kRead, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetReadOnlyStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(4u, result[0].size);
EXPECT_EQ(4u, result[0].size_no_padding);
}
TEST_F(InspectorGetReadOnlyStorageBufferResourceBindingsTest, MultipleStorageBuffers) {
auto sb_struct_type = MakeStorageBufferTypes("sb_type", Vector{
ty.i32(),
ty.u32(),
ty.f32(),
});
AddStorageBuffer("sb_foo", sb_struct_type(), core::Access::kRead, 0, 0);
AddStorageBuffer("sb_bar", sb_struct_type(), core::Access::kRead, 0, 1);
AddStorageBuffer("sb_baz", sb_struct_type(), core::Access::kRead, 2, 0);
auto AddReferenceFunc = [this](const std::string& func_name, const std::string& var_name) {
MakeStructVariableReferenceBodyFunction(func_name, var_name,
Vector{
MemberInfo{0, ty.i32()},
MemberInfo{1, ty.u32()},
MemberInfo{2, ty.f32()},
});
};
AddReferenceFunc("sb_foo_func", "sb_foo");
AddReferenceFunc("sb_bar_func", "sb_bar");
AddReferenceFunc("sb_baz_func", "sb_baz");
auto FuncCall = [&](const std::string& callee) { return CallStmt(Call(callee)); };
Func("ep_func", tint::Empty, ty.void_(),
Vector{
FuncCall("sb_foo_func"),
FuncCall("sb_bar_func"),
FuncCall("sb_baz_func"),
Return(),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetReadOnlyStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(3u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(12u, result[0].size);
EXPECT_EQ(12u, result[0].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[1].resource_type);
EXPECT_EQ(0u, result[1].bind_group);
EXPECT_EQ(1u, result[1].binding);
EXPECT_EQ(12u, result[1].size);
EXPECT_EQ(12u, result[1].size_no_padding);
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[2].resource_type);
EXPECT_EQ(2u, result[2].bind_group);
EXPECT_EQ(0u, result[2].binding);
EXPECT_EQ(12u, result[2].size);
EXPECT_EQ(12u, result[2].size_no_padding);
}
TEST_F(InspectorGetReadOnlyStorageBufferResourceBindingsTest, ContainingArray) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
ty.array<u32, 4>(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kRead, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetReadOnlyStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(20u, result[0].size);
EXPECT_EQ(20u, result[0].size_no_padding);
}
TEST_F(InspectorGetReadOnlyStorageBufferResourceBindingsTest, ContainingRuntimeArray) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
ty.array<u32>(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kRead, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetReadOnlyStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kReadOnlyStorageBuffer, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(8u, result[0].size);
EXPECT_EQ(8u, result[0].size_no_padding);
}
TEST_F(InspectorGetReadOnlyStorageBufferResourceBindingsTest, SkipNonReadOnly) {
auto foo_struct_type = MakeStorageBufferTypes("foo_type", Vector{
ty.i32(),
});
AddStorageBuffer("foo_sb", foo_struct_type(), core::Access::kReadWrite, 0, 0);
MakeStructVariableReferenceBodyFunction("sb_func", "foo_sb",
Vector{
MemberInfo{0, ty.i32()},
});
MakeCallerBodyFunction("ep_func", Vector{std::string("sb_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetReadOnlyStorageBufferResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetSamplerResourceBindingsTest, Simple) {
auto sampled_texture_type = ty.sampled_texture(core::type::TextureDimension::k1d, ty.f32());
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.f32());
MakeSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kSampler, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(1u, result[0].binding);
}
TEST_F(InspectorGetSamplerResourceBindingsTest, NoSampler) {
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetSamplerResourceBindingsTest, InFunction) {
auto sampled_texture_type = ty.sampled_texture(core::type::TextureDimension::k1d, ty.f32());
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.f32());
MakeSamplerReferenceBodyFunction("foo_func", "foo_texture", "foo_sampler", "foo_coords",
ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("foo_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kSampler, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(1u, result[0].binding);
}
TEST_F(InspectorGetSamplerResourceBindingsTest, UnknownEntryPoint) {
auto sampled_texture_type = ty.sampled_texture(core::type::TextureDimension::k1d, ty.f32());
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.f32());
MakeSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("foo");
ASSERT_TRUE(inspector.has_error()) << inspector.error();
}
TEST_F(InspectorGetSamplerResourceBindingsTest, SkipsComparisonSamplers) {
auto depth_texture_type = ty.depth_texture(core::type::TextureDimension::k2d);
AddResource("foo_texture", depth_texture_type, 0, 0);
AddComparisonSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.vec2<f32>());
AddGlobalVariable("foo_depth", ty.f32());
MakeComparisonSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords",
"foo_depth", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetComparisonSamplerResourceBindingsTest, Simple) {
auto depth_texture_type = ty.depth_texture(core::type::TextureDimension::k2d);
AddResource("foo_texture", depth_texture_type, 0, 0);
AddComparisonSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.vec2<f32>());
AddGlobalVariable("foo_depth", ty.f32());
MakeComparisonSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords",
"foo_depth", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetComparisonSamplerResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kComparisonSampler, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(1u, result[0].binding);
}
TEST_F(InspectorGetComparisonSamplerResourceBindingsTest, NoSampler) {
MakeEmptyBodyFunction("ep_func", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetComparisonSamplerResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetComparisonSamplerResourceBindingsTest, InFunction) {
auto depth_texture_type = ty.depth_texture(core::type::TextureDimension::k2d);
AddResource("foo_texture", depth_texture_type, 0, 0);
AddComparisonSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.vec2<f32>());
AddGlobalVariable("foo_depth", ty.f32());
MakeComparisonSamplerReferenceBodyFunction("foo_func", "foo_texture", "foo_sampler",
"foo_coords", "foo_depth", ty.f32(), tint::Empty);
MakeCallerBodyFunction("ep_func", Vector{std::string("foo_func")},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetComparisonSamplerResourceBindings("ep_func");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kComparisonSampler, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(1u, result[0].binding);
}
TEST_F(InspectorGetComparisonSamplerResourceBindingsTest, UnknownEntryPoint) {
auto depth_texture_type = ty.depth_texture(core::type::TextureDimension::k2d);
AddResource("foo_texture", depth_texture_type, 0, 0);
AddComparisonSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.vec2<f32>());
AddGlobalVariable("foo_depth", ty.f32());
MakeComparisonSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords",
"foo_depth", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSamplerResourceBindings("foo");
ASSERT_TRUE(inspector.has_error()) << inspector.error();
}
TEST_F(InspectorGetComparisonSamplerResourceBindingsTest, SkipsSamplers) {
auto sampled_texture_type = ty.sampled_texture(core::type::TextureDimension::k1d, ty.f32());
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
AddGlobalVariable("foo_coords", ty.f32());
MakeSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords", ty.f32(),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetComparisonSamplerResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.size());
}
TEST_F(InspectorGetSampledTextureResourceBindingsTest, Empty) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSampledTextureResourceBindings("foo");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(0u, result.size());
}
TEST_P(InspectorGetSampledTextureResourceBindingsTestWithParam, textureSample) {
ast::Type sampled_texture_type =
ty.sampled_texture(GetParam().type_dim, GetBaseType(GetParam().sampled_kind));
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
ast::Type coord_type = GetCoordsType(GetParam().type_dim, ty.f32());
AddGlobalVariable("foo_coords", coord_type);
MakeSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords",
GetBaseType(GetParam().sampled_kind),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kSampledTexture, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(GetParam().inspector_dim, result[0].dim);
EXPECT_EQ(GetParam().sampled_kind, result[0].sampled_kind);
// Prove that sampled and multi-sampled bindings are accounted
// for separately.
auto multisampled_result = inspector.GetMultisampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_TRUE(multisampled_result.empty());
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetSampledTextureResourceBindingsTest,
InspectorGetSampledTextureResourceBindingsTestWithParam,
testing::Values(GetSampledTextureTestParams{core::type::TextureDimension::k1d,
inspector::ResourceBinding::TextureDimension::k1d,
inspector::ResourceBinding::SampledKind::kFloat},
GetSampledTextureTestParams{core::type::TextureDimension::k2d,
inspector::ResourceBinding::TextureDimension::k2d,
inspector::ResourceBinding::SampledKind::kFloat},
GetSampledTextureTestParams{core::type::TextureDimension::k3d,
inspector::ResourceBinding::TextureDimension::k3d,
inspector::ResourceBinding::SampledKind::kFloat},
GetSampledTextureTestParams{core::type::TextureDimension::kCube,
inspector::ResourceBinding::TextureDimension::kCube,
inspector::ResourceBinding::SampledKind::kFloat}));
TEST_P(InspectorGetSampledArrayTextureResourceBindingsTestWithParam, textureSample) {
ast::Type sampled_texture_type =
ty.sampled_texture(GetParam().type_dim, GetBaseType(GetParam().sampled_kind));
AddResource("foo_texture", sampled_texture_type, 0, 0);
AddSampler("foo_sampler", 0, 1);
ast::Type coord_type = GetCoordsType(GetParam().type_dim, ty.f32());
AddGlobalVariable("foo_coords", coord_type);
AddGlobalVariable("foo_array_index", ty.i32());
MakeSamplerReferenceBodyFunction("ep", "foo_texture", "foo_sampler", "foo_coords",
"foo_array_index", GetBaseType(GetParam().sampled_kind),
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kSampledTexture, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(GetParam().inspector_dim, result[0].dim);
EXPECT_EQ(GetParam().sampled_kind, result[0].sampled_kind);
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetSampledArrayTextureResourceBindingsTest,
InspectorGetSampledArrayTextureResourceBindingsTestWithParam,
testing::Values(
GetSampledTextureTestParams{core::type::TextureDimension::k2dArray,
inspector::ResourceBinding::TextureDimension::k2dArray,
inspector::ResourceBinding::SampledKind::kFloat},
GetSampledTextureTestParams{core::type::TextureDimension::kCubeArray,
inspector::ResourceBinding::TextureDimension::kCubeArray,
inspector::ResourceBinding::SampledKind::kFloat}));
TEST_P(InspectorGetMultisampledTextureResourceBindingsTestWithParam, textureLoad) {
ast::Type multisampled_texture_type =
ty.multisampled_texture(GetParam().type_dim, GetBaseType(GetParam().sampled_kind));
AddResource("foo_texture", multisampled_texture_type, 0, 0);
ast::Type coord_type = GetCoordsType(GetParam().type_dim, ty.i32());
AddGlobalVariable("foo_coords", coord_type);
AddGlobalVariable("foo_sample_index", ty.i32());
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), Call("textureLoad", "foo_texture", "foo_coords", "foo_sample_index")),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetMultisampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(ResourceBinding::ResourceType::kMultisampledTexture, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(GetParam().inspector_dim, result[0].dim);
EXPECT_EQ(GetParam().sampled_kind, result[0].sampled_kind);
// Prove that sampled and multi-sampled bindings are accounted
// for separately.
auto single_sampled_result = inspector.GetSampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_TRUE(single_sampled_result.empty());
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetMultisampledTextureResourceBindingsTest,
InspectorGetMultisampledTextureResourceBindingsTestWithParam,
testing::Values(
GetMultisampledTextureTestParams{core::type::TextureDimension::k2d,
inspector::ResourceBinding::TextureDimension::k2d,
inspector::ResourceBinding::SampledKind::kFloat},
GetMultisampledTextureTestParams{core::type::TextureDimension::k2d,
inspector::ResourceBinding::TextureDimension::k2d,
inspector::ResourceBinding::SampledKind::kSInt},
GetMultisampledTextureTestParams{core::type::TextureDimension::k2d,
inspector::ResourceBinding::TextureDimension::k2d,
inspector::ResourceBinding::SampledKind::kUInt}));
TEST_F(InspectorGetMultisampledArrayTextureResourceBindingsTest, Empty) {
MakeEmptyBodyFunction("foo", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetSampledTextureResourceBindings("foo");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(0u, result.size());
}
TEST_F(InspectorGetStorageTextureResourceBindingsTest, Empty) {
MakeEmptyBodyFunction("ep", Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(0u, result.size());
}
TEST_P(InspectorGetStorageTextureResourceBindingsTestWithParam, Simple) {
DimensionParams dim_params;
TexelFormatParams format_params;
core::Access access;
std::tie(dim_params, format_params, access) = GetParam();
core::type::TextureDimension dim;
ResourceBinding::TextureDimension expected_dim;
std::tie(dim, expected_dim) = dim_params;
core::TexelFormat format;
ResourceBinding::TexelFormat expected_format;
ResourceBinding::SampledKind expected_kind;
std::tie(format, expected_format, expected_kind) = format_params;
ResourceBinding::ResourceType expectedResourceType;
switch (access) {
case core::Access::kWrite:
expectedResourceType = ResourceBinding::ResourceType::kWriteOnlyStorageTexture;
break;
case core::Access::kRead:
expectedResourceType = ResourceBinding::ResourceType::kReadOnlyStorageTexture;
break;
case core::Access::kReadWrite:
expectedResourceType = ResourceBinding::ResourceType::kReadWriteStorageTexture;
break;
case core::Access::kUndefined:
ASSERT_TRUE(false);
break;
}
ast::Type st_type = MakeStorageTextureTypes(dim, format, access);
AddStorageTexture("st_var", st_type, 0, 0);
ast::Type dim_type;
switch (dim) {
case core::type::TextureDimension::k1d:
dim_type = ty.u32();
break;
case core::type::TextureDimension::k2d:
case core::type::TextureDimension::k2dArray:
dim_type = ty.vec2<u32>();
break;
case core::type::TextureDimension::k3d:
dim_type = ty.vec3<u32>();
break;
default:
break;
}
ASSERT_FALSE(dim_type == nullptr);
MakeStorageTextureBodyFunction("ep", "st_var", dim_type,
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetStorageTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.size());
EXPECT_EQ(expectedResourceType, result[0].resource_type);
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(expected_dim, result[0].dim);
EXPECT_EQ(expected_format, result[0].image_format);
EXPECT_EQ(expected_kind, result[0].sampled_kind);
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetStorageTextureResourceBindingsTest,
InspectorGetStorageTextureResourceBindingsTestWithParam,
testing::Combine(
testing::Values(std::make_tuple(core::type::TextureDimension::k1d,
ResourceBinding::TextureDimension::k1d),
std::make_tuple(core::type::TextureDimension::k2d,
ResourceBinding::TextureDimension::k2d),
std::make_tuple(core::type::TextureDimension::k2dArray,
ResourceBinding::TextureDimension::k2dArray),
std::make_tuple(core::type::TextureDimension::k3d,
ResourceBinding::TextureDimension::k3d)),
testing::Values(std::make_tuple(core::TexelFormat::kR32Float,
ResourceBinding::TexelFormat::kR32Float,
ResourceBinding::SampledKind::kFloat),
std::make_tuple(core::TexelFormat::kR32Sint,
ResourceBinding::TexelFormat::kR32Sint,
ResourceBinding::SampledKind::kSInt),
std::make_tuple(core::TexelFormat::kR32Uint,
ResourceBinding::TexelFormat::kR32Uint,
ResourceBinding::SampledKind::kUInt),
std::make_tuple(core::TexelFormat::kRg32Float,
ResourceBinding::TexelFormat::kRg32Float,
ResourceBinding::SampledKind::kFloat),
std::make_tuple(core::TexelFormat::kRg32Sint,
ResourceBinding::TexelFormat::kRg32Sint,
ResourceBinding::SampledKind::kSInt),
std::make_tuple(core::TexelFormat::kRg32Uint,
ResourceBinding::TexelFormat::kRg32Uint,
ResourceBinding::SampledKind::kUInt),
std::make_tuple(core::TexelFormat::kRgba16Float,
ResourceBinding::TexelFormat::kRgba16Float,
ResourceBinding::SampledKind::kFloat),
std::make_tuple(core::TexelFormat::kRgba16Sint,
ResourceBinding::TexelFormat::kRgba16Sint,
ResourceBinding::SampledKind::kSInt),
std::make_tuple(core::TexelFormat::kRgba16Uint,
ResourceBinding::TexelFormat::kRgba16Uint,
ResourceBinding::SampledKind::kUInt),
std::make_tuple(core::TexelFormat::kRgba32Float,
ResourceBinding::TexelFormat::kRgba32Float,
ResourceBinding::SampledKind::kFloat),
std::make_tuple(core::TexelFormat::kRgba32Sint,
ResourceBinding::TexelFormat::kRgba32Sint,
ResourceBinding::SampledKind::kSInt),
std::make_tuple(core::TexelFormat::kRgba32Uint,
ResourceBinding::TexelFormat::kRgba32Uint,
ResourceBinding::SampledKind::kUInt),
std::make_tuple(core::TexelFormat::kRgba8Sint,
ResourceBinding::TexelFormat::kRgba8Sint,
ResourceBinding::SampledKind::kSInt),
std::make_tuple(core::TexelFormat::kRgba8Snorm,
ResourceBinding::TexelFormat::kRgba8Snorm,
ResourceBinding::SampledKind::kFloat),
std::make_tuple(core::TexelFormat::kRgba8Uint,
ResourceBinding::TexelFormat::kRgba8Uint,
ResourceBinding::SampledKind::kUInt),
std::make_tuple(core::TexelFormat::kRgba8Unorm,
ResourceBinding::TexelFormat::kRgba8Unorm,
ResourceBinding::SampledKind::kFloat)),
testing::Values(core::Access::kRead, core::Access::kWrite, core::Access::kReadWrite)));
TEST_P(InspectorGetDepthTextureResourceBindingsTestWithParam, textureDimensions) {
auto depth_texture_type = ty.depth_texture(GetParam().type_dim);
AddResource("dt", depth_texture_type, 0, 0);
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), Call("textureDimensions", "dt")),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetDepthTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kDepthTexture, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(GetParam().inspector_dim, result[0].dim);
}
INSTANTIATE_TEST_SUITE_P(
InspectorGetDepthTextureResourceBindingsTest,
InspectorGetDepthTextureResourceBindingsTestWithParam,
testing::Values(
GetDepthTextureTestParams{core::type::TextureDimension::k2d,
inspector::ResourceBinding::TextureDimension::k2d},
GetDepthTextureTestParams{core::type::TextureDimension::k2dArray,
inspector::ResourceBinding::TextureDimension::k2dArray},
GetDepthTextureTestParams{core::type::TextureDimension::kCube,
inspector::ResourceBinding::TextureDimension::kCube},
GetDepthTextureTestParams{core::type::TextureDimension::kCubeArray,
inspector::ResourceBinding::TextureDimension::kCubeArray}));
TEST_F(InspectorGetDepthMultisampledTextureResourceBindingsTest, textureDimensions) {
auto depth_ms_texture_type = ty.depth_multisampled_texture(core::type::TextureDimension::k2d);
AddResource("tex", depth_ms_texture_type, 0, 0);
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), Call("textureDimensions", "tex")),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetDepthMultisampledTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kDepthMultisampledTexture, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
EXPECT_EQ(ResourceBinding::TextureDimension::k2d, result[0].dim);
}
TEST_F(InspectorGetExternalTextureResourceBindingsTest, Simple) {
auto external_texture_type = ty.external_texture();
AddResource("et", external_texture_type, 0, 0);
Func("ep", tint::Empty, ty.void_(),
Vector{
Assign(Phony(), Call("textureDimensions", "et")),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Inspector& inspector = Build();
auto result = inspector.GetExternalTextureResourceBindings("ep");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ(ResourceBinding::ResourceType::kExternalTexture, result[0].resource_type);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(0u, result[0].bind_group);
EXPECT_EQ(0u, result[0].binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, None) {
std::string shader = R"(
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(0u, result.Length());
}
TEST_F(InspectorGetSamplerTextureUsesTest, Simple) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return textureSample(myTexture, mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, UnknownEntryPoint) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return textureSample(myTexture, mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
inspector.GetSamplerTextureUses("foo");
ASSERT_TRUE(inspector.has_error()) << inspector.error();
}
TEST_F(InspectorGetSamplerTextureUsesTest, MultipleCalls) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return textureSample(myTexture, mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result_0 = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
auto result_1 = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
EXPECT_EQ((Vector<sem::SamplerTexturePair, 4>(result_0)),
(Vector<sem::SamplerTexturePair, 4>(result_1)));
}
TEST_F(InspectorGetSamplerTextureUsesTest, BothIndirect) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return textureSample(t, s, uv);
}
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return doSample(myTexture, mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, SamplerIndirect) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(s: sampler, uv: vec2<f32>) -> vec4<f32> {
return textureSample(myTexture, s, uv);
}
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return doSample(mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, TextureIndirect) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(t: texture_2d<f32>, uv: vec2<f32>) -> vec4<f32> {
return textureSample(t, mySampler, uv);
}
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return doSample(myTexture, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, NeitherIndirect) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(uv: vec2<f32>) -> vec4<f32> {
return textureSample(myTexture, mySampler, uv);
}
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return doSample(fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetSamplerTextureUses("main");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
TEST_F(InspectorGetSamplerTextureUsesTest, Complex) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return textureSample(t, s, uv);
}
fn X(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return doSample(t, s, uv);
}
fn Y(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return doSample(t, s, uv);
}
fn Z(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return X(t, s, uv) + Y(t, s, uv);
}
@fragment
fn via_call(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return Z(myTexture, mySampler, fragUV) * fragPosition;
}
@fragment
fn via_ptr(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return textureSample(myTexture, mySampler, fragUV) + fragPosition;
}
@fragment
fn direct(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return textureSample(myTexture, mySampler, fragUV) + fragPosition;
})";
Inspector& inspector = Initialize(shader);
{
auto result = inspector.GetSamplerTextureUses("via_call");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
{
auto result = inspector.GetSamplerTextureUses("via_ptr");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
{
auto result = inspector.GetSamplerTextureUses("direct");
ASSERT_FALSE(inspector.has_error()) << inspector.error();
ASSERT_EQ(1u, result.Length());
EXPECT_EQ(0u, result[0].sampler_binding_point.group);
EXPECT_EQ(1u, result[0].sampler_binding_point.binding);
EXPECT_EQ(0u, result[0].texture_binding_point.group);
EXPECT_EQ(2u, result[0].texture_binding_point.binding);
}
}
// Test calling GetUsedExtensionNames on a empty shader.
TEST_F(InspectorGetUsedExtensionNamesTest, Empty) {
std::string shader = "";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetUsedExtensionNames();
EXPECT_EQ(result.size(), 0u);
}
// Test calling GetUsedExtensionNames on a shader with no extension.
TEST_F(InspectorGetUsedExtensionNamesTest, None) {
std::string shader = R"(
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetUsedExtensionNames();
EXPECT_EQ(result.size(), 0u);
}
// Test calling GetUsedExtensionNames on a shader with valid extension.
TEST_F(InspectorGetUsedExtensionNamesTest, Simple) {
std::string shader = R"(
enable f16;
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetUsedExtensionNames();
EXPECT_EQ(result.size(), 1u);
EXPECT_EQ(result[0], "f16");
}
// Test calling GetUsedExtensionNames on a shader with a extension enabled for
// multiple times.
TEST_F(InspectorGetUsedExtensionNamesTest, Duplicated) {
std::string shader = R"(
enable f16;
enable f16;
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetUsedExtensionNames();
EXPECT_EQ(result.size(), 1u);
EXPECT_EQ(result[0], "f16");
}
// Test calling GetEnableDirectives on a empty shader.
TEST_F(InspectorGetEnableDirectivesTest, Empty) {
std::string shader = "";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetEnableDirectives();
EXPECT_EQ(result.size(), 0u);
}
// Test calling GetEnableDirectives on a shader with no extension.
TEST_F(InspectorGetEnableDirectivesTest, None) {
std::string shader = R"(
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetEnableDirectives();
EXPECT_EQ(result.size(), 0u);
}
// Test calling GetEnableDirectives on a shader with valid extension.
TEST_F(InspectorGetEnableDirectivesTest, Simple) {
std::string shader = R"(
enable f16;
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetEnableDirectives();
EXPECT_EQ(result.size(), 1u);
EXPECT_EQ(result[0].first, "f16");
EXPECT_EQ(result[0].second.range, (Source::Range{{2, 8}, {2, 11}}));
}
// Test calling GetEnableDirectives on a shader with a extension enabled for
// multiple times.
TEST_F(InspectorGetEnableDirectivesTest, Duplicated) {
std::string shader = R"(
enable f16;
enable f16;
@fragment
fn main() {
})";
Inspector& inspector = Initialize(shader);
auto result = inspector.GetEnableDirectives();
EXPECT_EQ(result.size(), 2u);
EXPECT_EQ(result[0].first, "f16");
EXPECT_EQ(result[0].second.range, (Source::Range{{2, 8}, {2, 11}}));
EXPECT_EQ(result[1].first, "f16");
EXPECT_EQ(result[1].second.range, (Source::Range{{4, 8}, {4, 11}}));
}
// Crash was occuring in ::GenerateSamplerTargets, when
// ::GetSamplerTextureUses was called.
TEST_F(InspectorRegressionTest, tint967) {
std::string shader = R"(
@group(0) @binding(1) var mySampler: sampler;
@group(0) @binding(2) var myTexture: texture_2d<f32>;
fn doSample(t: texture_2d<f32>, s: sampler, uv: vec2<f32>) -> vec4<f32> {
return textureSample(t, s, uv);
}
@fragment
fn main(@location(0) fragUV: vec2<f32>,
@location(1) fragPosition: vec4<f32>) -> @location(0) vec4<f32> {
return doSample(myTexture, mySampler, fragUV) * fragPosition;
})";
Inspector& inspector = Initialize(shader);
inspector.GetSamplerTextureUses("main");
}
class InspectorTextureTest : public InspectorRunner, public testing::Test {};
TEST_F(InspectorTextureTest, TextureLevelInEP) {
std::string shader = R"(
@group(2) @binding(3) var myTexture: texture_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num = textureNumLevels(myTexture);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
}
TEST_F(InspectorTextureTest, TextureLevelInEPNoDups) {
std::string shader = R"(
@group(0) @binding(0) var myTexture: texture_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureNumLevels(myTexture);
let num2 = textureNumLevels(myTexture);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
}
TEST_F(InspectorTextureTest, TextureLevelInEPMultiple) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_2d<f32>;
@group(1) @binding(2) var tex2: texture_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureNumLevels(tex1);
let num2 = textureNumLevels(tex2);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(2u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[1].type);
EXPECT_EQ(1u, info[1].group);
EXPECT_EQ(2u, info[1].binding);
}
TEST_F(InspectorTextureTest, TextureSamplesInEP) {
std::string shader = R"(
@group(2) @binding(3) var myTexture: texture_multisampled_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num = textureNumSamples(myTexture);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
}
TEST_F(InspectorTextureTest, TextureSamplesInEPNoDups) {
std::string shader = R"(
@group(0) @binding(0) var myTexture: texture_multisampled_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureNumSamples(myTexture);
let num2 = textureNumSamples(myTexture);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
}
TEST_F(InspectorTextureTest, TextureSamplesInEPMultiple) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_multisampled_2d<f32>;
@group(1) @binding(2) var tex2: texture_multisampled_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureNumSamples(tex1);
let num2 = textureNumSamples(tex2);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(2u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[1].type);
EXPECT_EQ(1u, info[1].group);
EXPECT_EQ(2u, info[1].binding);
}
TEST_F(InspectorTextureTest, TextureLoadInEP) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureLoad(tex1, vec2(0, 0), 0);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
}
TEST_F(InspectorTextureTest, TextureLoadMultisampledInEP) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_multisampled_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureLoad(tex1, vec2(0, 0), 0);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(1u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
}
TEST_F(InspectorTextureTest, TextureLoadMultipleInEP) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_2d<f32>;
@group(1) @binding(4) var tex2: texture_multisampled_2d<f32>;
@compute @workgroup_size(1)
fn main() {
let num1 = textureLoad(tex1, vec2(0, 0), 0);
let num2 = textureLoad(tex2, vec2(0, 0), 0);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(2u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[1].type);
EXPECT_EQ(1u, info[1].group);
EXPECT_EQ(4u, info[1].binding);
}
TEST_F(InspectorTextureTest, TextureInSubfunction) {
std::string shader = R"(
@group(2) @binding(3) var tex1: texture_2d<f32>;
@group(1) @binding(4) var tex2: texture_multisampled_2d<f32>;
@group(1) @binding(3) var tex3: texture_2d<f32>;
fn b(tx1: texture_2d<f32>, tx2: texture_multisampled_2d<f32>, tx3: texture_2d<f32>, tx4: texture_2d<f32>) {
let v1 = textureNumLevels(tx1);
let v2 = textureNumSamples(tx2);
let v3 = textureLoad(tx3, vec2(0, 0), 0);
let v4 = textureNumLevels(tx4);
}
fn a(tx1: texture_2d<f32>, tx2: texture_multisampled_2d<f32>, tx3: texture_2d<f32>) {
b(tx1, tx2, tx3, tx1);
}
@compute @workgroup_size(1)
fn main() {
a(tex1, tex2, tex3);
})";
Inspector& inspector = Initialize(shader);
auto info = inspector.GetTextureQueries("main");
ASSERT_EQ(3u, info.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[0].type);
EXPECT_EQ(2u, info[0].group);
EXPECT_EQ(3u, info[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info[1].type);
EXPECT_EQ(1u, info[1].group);
EXPECT_EQ(4u, info[1].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info[2].type);
EXPECT_EQ(1u, info[2].group);
EXPECT_EQ(3u, info[2].binding);
}
TEST_F(InspectorTextureTest, TextureMultipleEPs) {
std::string shader = R"(
@group(0) @binding(0) var<storage, read_write> dstBuf : array<u32>;
@group(0) @binding(1) var tex1 : texture_2d_array<f32>;
@group(0) @binding(4) var tex2 : texture_multisampled_2d<f32>;
@group(1) @binding(3) var tex3 : texture_2d_array<f32>;
@compute @workgroup_size(1, 1, 1) fn main1() {
dstBuf[0] = textureNumLayers(tex1);
dstBuf[1] = textureNumLevels(tex1);
dstBuf[2] = textureNumSamples(tex2);
dstBuf[3] = textureNumLevels(tex3);
}
@compute @workgroup_size(1, 1, 1) fn main2() {
dstBuf[0] = textureNumLayers(tex1);
dstBuf[1] = textureNumLevels(tex1);
dstBuf[2] = textureNumSamples(tex2);
}
)";
Inspector& inspector = Initialize(shader);
{
auto info1 = inspector.GetTextureQueries("main1");
ASSERT_EQ(3u, info1.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info1[0].type);
EXPECT_EQ(0u, info1[0].group);
EXPECT_EQ(1u, info1[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info1[1].type);
EXPECT_EQ(0u, info1[1].group);
EXPECT_EQ(4u, info1[1].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info1[2].type);
EXPECT_EQ(1u, info1[2].group);
EXPECT_EQ(3u, info1[2].binding);
}
{
auto info2 = inspector.GetTextureQueries("main2");
ASSERT_EQ(2u, info2.size());
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumLevels, info2[0].type);
EXPECT_EQ(0u, info2[0].group);
EXPECT_EQ(1u, info2[0].binding);
EXPECT_EQ(Inspector::TextureQueryType::kTextureNumSamples, info2[1].type);
EXPECT_EQ(0u, info2[1].group);
EXPECT_EQ(4u, info2[1].binding);
}
}
} // namespace
static std::ostream& operator<<(std::ostream& out, const Inspector::TextureQueryType& ty) {
switch (ty) {
case Inspector::TextureQueryType::kTextureNumLevels:
out << "textureNumLevels";
break;
case Inspector::TextureQueryType::kTextureNumSamples:
out << "textureNumSamples";
break;
}
return out;
}
} // namespace tint::inspector