src/writer/hlsl/generator_impl_type_test.cc - tint - Git at Google

 // Copyright 2020 The Tint Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "gmock/gmock.h"
 #include "src/ast/call_statement.h"
 #include "src/ast/stage_decoration.h"
 #include "src/ast/struct_block_decoration.h"
 #include "src/sem/depth_texture_type.h"
 #include "src/sem/multisampled_texture_type.h"
 #include "src/sem/sampled_texture_type.h"
 #include "src/sem/sampler_type.h"
 #include "src/sem/storage_texture_type.h"
 #include "src/writer/hlsl/test_helper.h"

 namespace tint {
 namespace writer {
 namespace hlsl {
 namespace {

 using ::testing::HasSubstr;

 using HlslGeneratorImplTest_Type = TestHelper;

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Array) {
   auto* arr = ty.array<bool, 4>();
   Global("G", arr, ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
                            ast::Access::kReadWrite, "ary"))
       << gen.error();
   EXPECT_EQ(out.str(), "bool ary[4]");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_ArrayOfArray) {
   auto* arr = ty.array(ty.array<bool, 4>(), 5);
   Global("G", arr, ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
                            ast::Access::kReadWrite, "ary"))
       << gen.error();
   EXPECT_EQ(out.str(), "bool ary[5][4]");
 }

 // TODO(dsinclair): Is this possible? What order should it output in?
 TEST_F(HlslGeneratorImplTest_Type,
        DISABLED_EmitType_ArrayOfArrayOfRuntimeArray) {
   auto* arr = ty.array(ty.array(ty.array<bool, 4>(), 5), 0);
   Global("G", arr, ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
                            ast::Access::kReadWrite, "ary"))
       << gen.error();
   EXPECT_EQ(out.str(), "bool ary[5][4][1]");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_ArrayOfArrayOfArray) {
   auto* arr = ty.array(ty.array(ty.array<bool, 4>(), 5), 6);
   Global("G", arr, ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
                            ast::Access::kReadWrite, "ary"))
       << gen.error();
   EXPECT_EQ(out.str(), "bool ary[6][5][4]");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Array_WithoutName) {
   auto* arr = ty.array<bool, 4>();
   Global("G", arr, ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "bool[4]");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Bool) {
   auto* bool_ = create<sem::Bool>();

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, bool_, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "bool");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_F32) {
   auto* f32 = create<sem::F32>();

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, f32, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "float");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_I32) {
   auto* i32 = create<sem::I32>();

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, i32, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "int");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Matrix) {
   auto* f32 = create<sem::F32>();
   auto* vec3 = create<sem::Vector>(f32, 3);
   auto* mat2x3 = create<sem::Matrix>(vec3, 2);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, mat2x3, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "float2x3");
 }

 // TODO(dsinclair): How to annotate as workgroup?
 TEST_F(HlslGeneratorImplTest_Type, DISABLED_EmitType_Pointer) {
   auto* f32 = create<sem::F32>();
   auto* p = create<sem::Pointer>(f32, ast::StorageClass::kWorkgroup,
                                  ast::Access::kReadWrite);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, p, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "float*");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_StructDecl) {
   auto* s = Structure("S", {
                                Member("a", ty.i32()),
                                Member("b", ty.f32()),
                            });
   Global("g", ty.Of(s), ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   TextGenerator::TextBuffer buf;
   auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
   ASSERT_TRUE(gen.EmitStructType(&buf, sem_s)) << gen.error();
   EXPECT_EQ(buf.String(), R"(struct S {
   int a;
   float b;
 };
 )");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_StructDecl_OmittedIfStorageBuffer) {
   auto* s = Structure("S",
                       {
                           Member("a", ty.i32()),
                           Member("b", ty.f32()),
                       },
                       {create<ast::StructBlockDecoration>()});
   Global("g", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
          ast::DecorationList{
              create<ast::BindingDecoration>(0),
              create<ast::GroupDecoration>(0),
          });

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_EQ(gen.result(), "RWByteAddressBuffer g : register(u0, space0);\n");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct) {
   auto* s = Structure("S", {
                                Member("a", ty.i32()),
                                Member("b", ty.f32()),
                            });
   Global("g", ty.Of(s), ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, sem_s, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "S");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct_NameCollision) {
   auto* s = Structure("S", {
                                Member("double", ty.i32()),
                                Member("float", ty.f32()),
                            });
   Global("g", ty.Of(s), ast::StorageClass::kPrivate);

   GeneratorImpl& gen = SanitizeAndBuild();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr(R"(struct S {
   int tint_symbol;
   float tint_symbol_1;
 };
 )"));
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct_WithOffsetAttributes) {
   auto* s = Structure("S",
                       {
                           Member("a", ty.i32(), {MemberOffset(0)}),
                           Member("b", ty.f32(), {MemberOffset(8)}),
                       },
                       {create<ast::StructBlockDecoration>()});
   Global("g", ty.Of(s), ast::StorageClass::kPrivate);

   GeneratorImpl& gen = Build();

   TextGenerator::TextBuffer buf;
   auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
   ASSERT_TRUE(gen.EmitStructType(&buf, sem_s)) << gen.error();
   EXPECT_EQ(buf.String(), R"(struct S {
   int a;
   float b;
 };
 )");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_U32) {
   auto* u32 = create<sem::U32>();

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, u32, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "uint");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Vector) {
   auto* f32 = create<sem::F32>();
   auto* vec3 = create<sem::Vector>(f32, 3);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, vec3, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "float3");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitType_Void) {
   auto* void_ = create<sem::Void>();

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, void_, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "void");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitSampler) {
   auto* sampler = create<sem::Sampler>(ast::SamplerKind::kSampler);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, sampler, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "SamplerState");
 }

 TEST_F(HlslGeneratorImplTest_Type, EmitSamplerComparison) {
   auto* sampler = create<sem::Sampler>(ast::SamplerKind::kComparisonSampler);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, sampler, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "SamplerComparisonState");
 }

 struct HlslDepthTextureData {
   ast::TextureDimension dim;
   std::string result;
 };
 inline std::ostream& operator<<(std::ostream& out, HlslDepthTextureData data) {
   out << data.dim;
   return out;
 }
 using HlslDepthTexturesTest = TestParamHelper<HlslDepthTextureData>;
 TEST_P(HlslDepthTexturesTest, Emit) {
   auto params = GetParam();

   auto* t = ty.depth_texture(params.dim);

   Global("tex", t,
          ast::DecorationList{
              create<ast::BindingDecoration>(1),
              create<ast::GroupDecoration>(2),
          });

   Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
        {Stage(ast::PipelineStage::kFragment)});

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr(params.result));
 }
 INSTANTIATE_TEST_SUITE_P(
     HlslGeneratorImplTest_Type,
     HlslDepthTexturesTest,
     testing::Values(
         HlslDepthTextureData{ast::TextureDimension::k2d,
                              "Texture2D tex : register(t1, space2);"},
         HlslDepthTextureData{ast::TextureDimension::k2dArray,
                              "Texture2DArray tex : register(t1, space2);"},
         HlslDepthTextureData{ast::TextureDimension::kCube,
                              "TextureCube tex : register(t1, space2);"},
         HlslDepthTextureData{ast::TextureDimension::kCubeArray,
                              "TextureCubeArray tex : register(t1, space2);"}));

 using HlslDepthMultisampledTexturesTest = TestHelper;
 TEST_F(HlslDepthMultisampledTexturesTest, Emit) {
   auto* t = ty.depth_multisampled_texture(ast::TextureDimension::k2d);

   Global("tex", t,
          ast::DecorationList{
              create<ast::BindingDecoration>(1),
              create<ast::GroupDecoration>(2),
          });

   Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
        {Stage(ast::PipelineStage::kFragment)});

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(),
               HasSubstr("Texture2DMS<float4> tex : register(t1, space2);"));
 }

 enum class TextureDataType { F32, U32, I32 };
 struct HlslSampledTextureData {
   ast::TextureDimension dim;
   TextureDataType datatype;
   std::string result;
 };
 inline std::ostream& operator<<(std::ostream& out,
                                 HlslSampledTextureData data) {
   out << data.dim;
   return out;
 }
 using HlslSampledTexturesTest = TestParamHelper<HlslSampledTextureData>;
 TEST_P(HlslSampledTexturesTest, Emit) {
   auto params = GetParam();

   ast::Type* datatype = nullptr;
   switch (params.datatype) {
     case TextureDataType::F32:
       datatype = ty.f32();
       break;
     case TextureDataType::U32:
       datatype = ty.u32();
       break;
     case TextureDataType::I32:
       datatype = ty.i32();
       break;
   }
   auto* t = ty.sampled_texture(params.dim, datatype);

   Global("tex", t,
          ast::DecorationList{
              create<ast::BindingDecoration>(1),
              create<ast::GroupDecoration>(2),
          });

   Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
        {Stage(ast::PipelineStage::kFragment)});

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr(params.result));
 }
 INSTANTIATE_TEST_SUITE_P(
     HlslGeneratorImplTest_Type,
     HlslSampledTexturesTest,
     testing::Values(
         HlslSampledTextureData{
             ast::TextureDimension::k1d,
             TextureDataType::F32,
             "Texture1D<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2d,
             TextureDataType::F32,
             "Texture2D<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2dArray,
             TextureDataType::F32,
             "Texture2DArray<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k3d,
             TextureDataType::F32,
             "Texture3D<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCube,
             TextureDataType::F32,
             "TextureCube<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCubeArray,
             TextureDataType::F32,
             "TextureCubeArray<float4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k1d,
             TextureDataType::U32,
             "Texture1D<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2d,
             TextureDataType::U32,
             "Texture2D<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2dArray,
             TextureDataType::U32,
             "Texture2DArray<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k3d,
             TextureDataType::U32,
             "Texture3D<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCube,
             TextureDataType::U32,
             "TextureCube<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCubeArray,
             TextureDataType::U32,
             "TextureCubeArray<uint4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k1d,
             TextureDataType::I32,
             "Texture1D<int4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2d,
             TextureDataType::I32,
             "Texture2D<int4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k2dArray,
             TextureDataType::I32,
             "Texture2DArray<int4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::k3d,
             TextureDataType::I32,
             "Texture3D<int4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCube,
             TextureDataType::I32,
             "TextureCube<int4> tex : register(t1, space2);",
         },
         HlslSampledTextureData{
             ast::TextureDimension::kCubeArray,
             TextureDataType::I32,
             "TextureCubeArray<int4> tex : register(t1, space2);",
         }));

 TEST_F(HlslGeneratorImplTest_Type, EmitMultisampledTexture) {
   auto* f32 = create<sem::F32>();
   auto* s = create<sem::MultisampledTexture>(ast::TextureDimension::k2d, f32);

   GeneratorImpl& gen = Build();

   std::stringstream out;
   ASSERT_TRUE(gen.EmitType(out, s, ast::StorageClass::kNone,
                            ast::Access::kReadWrite, ""))
       << gen.error();
   EXPECT_EQ(out.str(), "Texture2DMS<float4>");
 }

 struct HlslStorageTextureData {
   ast::TextureDimension dim;
   ast::ImageFormat imgfmt;
   bool ro;
   std::string result;
 };
 inline std::ostream& operator<<(std::ostream& out,
                                 HlslStorageTextureData data) {
   out << data.dim << (data.ro ? "ReadOnly" : "WriteOnly");
   return out;
 }
 using HlslStorageTexturesTest = TestParamHelper<HlslStorageTextureData>;
 TEST_P(HlslStorageTexturesTest, Emit) {
   auto params = GetParam();

   auto* t =
       ty.storage_texture(params.dim, params.imgfmt,
                          params.ro ? ast::Access::kRead : ast::Access::kWrite);

   Global("tex", t,
          ast::DecorationList{
              create<ast::BindingDecoration>(1),
              create<ast::GroupDecoration>(2),
          });

   Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
        {Stage(ast::PipelineStage::kFragment)});

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr(params.result));
 }
 INSTANTIATE_TEST_SUITE_P(
     HlslGeneratorImplTest_Type,
     HlslStorageTexturesTest,
     testing::Values(
         HlslStorageTextureData{ast::TextureDimension::k1d,
                                ast::ImageFormat::kRgba8Unorm, true,
                                "Texture1D<float4> tex : register(t1, space2);"},
         HlslStorageTextureData{ast::TextureDimension::k2d,
                                ast::ImageFormat::kRgba16Float, true,
                                "Texture2D<float4> tex : register(t1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Float, true,
             "Texture2DArray<float4> tex : register(t1, space2);"},
         HlslStorageTextureData{ast::TextureDimension::k3d,
                                ast::ImageFormat::kRg32Float, true,
                                "Texture3D<float4> tex : register(t1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k1d, ast::ImageFormat::kRgba32Float, false,
             "RWTexture1D<float4> tex : register(u1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k2d, ast::ImageFormat::kRgba16Uint, false,
             "RWTexture2D<uint4> tex : register(u1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Uint, false,
             "RWTexture2DArray<uint4> tex : register(u1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k3d, ast::ImageFormat::kRg32Uint, false,
             "RWTexture3D<uint4> tex : register(u1, space2);"},
         HlslStorageTextureData{ast::TextureDimension::k1d,
                                ast::ImageFormat::kRgba32Uint, true,
                                "Texture1D<uint4> tex : register(t1, space2);"},
         HlslStorageTextureData{ast::TextureDimension::k2d,
                                ast::ImageFormat::kRgba16Sint, true,
                                "Texture2D<int4> tex : register(t1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Sint, true,
             "Texture2DArray<int4> tex : register(t1, space2);"},
         HlslStorageTextureData{ast::TextureDimension::k3d,
                                ast::ImageFormat::kRg32Sint, true,
                                "Texture3D<int4> tex : register(t1, space2);"},
         HlslStorageTextureData{
             ast::TextureDimension::k1d, ast::ImageFormat::kRgba32Sint, false,
             "RWTexture1D<int4> tex : register(u1, space2);"}));

 }  // namespace
 }  // namespace hlsl
 }  // namespace writer
 }  // namespace tint
	// Copyright 2020 The Tint Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "gmock/gmock.h"
	#include "src/ast/call_statement.h"
	#include "src/ast/stage_decoration.h"
	#include "src/ast/struct_block_decoration.h"
	#include "src/sem/depth_texture_type.h"
	#include "src/sem/multisampled_texture_type.h"
	#include "src/sem/sampled_texture_type.h"
	#include "src/sem/sampler_type.h"
	#include "src/sem/storage_texture_type.h"
	#include "src/writer/hlsl/test_helper.h"

	namespace tint {
	namespace writer {
	namespace hlsl {
	namespace {

	using ::testing::HasSubstr;

	using HlslGeneratorImplTest_Type = TestHelper;

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Array) {
	auto* arr = ty.array<bool, 4>();
	Global("G", arr, ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
	ast::Access::kReadWrite, "ary"))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool ary[4]");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_ArrayOfArray) {
	auto* arr = ty.array(ty.array<bool, 4>(), 5);
	Global("G", arr, ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
	ast::Access::kReadWrite, "ary"))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool ary[5][4]");
	}

	// TODO(dsinclair): Is this possible? What order should it output in?
	TEST_F(HlslGeneratorImplTest_Type,
	DISABLED_EmitType_ArrayOfArrayOfRuntimeArray) {
	auto* arr = ty.array(ty.array(ty.array<bool, 4>(), 5), 0);
	Global("G", arr, ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
	ast::Access::kReadWrite, "ary"))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool ary[5][4][1]");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_ArrayOfArrayOfArray) {
	auto* arr = ty.array(ty.array(ty.array<bool, 4>(), 5), 6);
	Global("G", arr, ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
	ast::Access::kReadWrite, "ary"))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool ary[6][5][4]");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Array_WithoutName) {
	auto* arr = ty.array<bool, 4>();
	Global("G", arr, ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, program->TypeOf(arr), ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool[4]");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Bool) {
	auto* bool_ = create<sem::Bool>();

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, bool_, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "bool");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_F32) {
	auto* f32 = create<sem::F32>();

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, f32, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "float");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_I32) {
	auto* i32 = create<sem::I32>();

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, i32, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "int");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Matrix) {
	auto* f32 = create<sem::F32>();
	auto* vec3 = create<sem::Vector>(f32, 3);
	auto* mat2x3 = create<sem::Matrix>(vec3, 2);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, mat2x3, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "float2x3");
	}

	// TODO(dsinclair): How to annotate as workgroup?
	TEST_F(HlslGeneratorImplTest_Type, DISABLED_EmitType_Pointer) {
	auto* f32 = create<sem::F32>();
	auto* p = create<sem::Pointer>(f32, ast::StorageClass::kWorkgroup,
	ast::Access::kReadWrite);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, p, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "float*");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_StructDecl) {
	auto* s = Structure("S", {
	Member("a", ty.i32()),
	Member("b", ty.f32()),
	});
	Global("g", ty.Of(s), ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	TextGenerator::TextBuffer buf;
	auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
	ASSERT_TRUE(gen.EmitStructType(&buf, sem_s)) << gen.error();
	EXPECT_EQ(buf.String(), R"(struct S {
	int a;
	float b;
	};
	)");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_StructDecl_OmittedIfStorageBuffer) {
	auto* s = Structure("S",
	{
	Member("a", ty.i32()),
	Member("b", ty.f32()),
	},
	{create<ast::StructBlockDecoration>()});
	Global("g", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
	ast::DecorationList{
	create<ast::BindingDecoration>(0),
	create<ast::GroupDecoration>(0),
	});

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_EQ(gen.result(), "RWByteAddressBuffer g : register(u0, space0);\n");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct) {
	auto* s = Structure("S", {
	Member("a", ty.i32()),
	Member("b", ty.f32()),
	});
	Global("g", ty.Of(s), ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, sem_s, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "S");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct_NameCollision) {
	auto* s = Structure("S", {
	Member("double", ty.i32()),
	Member("float", ty.f32()),
	});
	Global("g", ty.Of(s), ast::StorageClass::kPrivate);

	GeneratorImpl& gen = SanitizeAndBuild();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr(R"(struct S {
	int tint_symbol;
	float tint_symbol_1;
	};
	)"));
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Struct_WithOffsetAttributes) {
	auto* s = Structure("S",
	{
	Member("a", ty.i32(), {MemberOffset(0)}),
	Member("b", ty.f32(), {MemberOffset(8)}),
	},
	{create<ast::StructBlockDecoration>()});
	Global("g", ty.Of(s), ast::StorageClass::kPrivate);

	GeneratorImpl& gen = Build();

	TextGenerator::TextBuffer buf;
	auto* sem_s = program->TypeOf(s)->As<sem::Struct>();
	ASSERT_TRUE(gen.EmitStructType(&buf, sem_s)) << gen.error();
	EXPECT_EQ(buf.String(), R"(struct S {
	int a;
	float b;
	};
	)");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_U32) {
	auto* u32 = create<sem::U32>();

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, u32, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "uint");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Vector) {
	auto* f32 = create<sem::F32>();
	auto* vec3 = create<sem::Vector>(f32, 3);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, vec3, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "float3");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitType_Void) {
	auto* void_ = create<sem::Void>();

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, void_, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "void");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitSampler) {
	auto* sampler = create<sem::Sampler>(ast::SamplerKind::kSampler);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, sampler, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "SamplerState");
	}

	TEST_F(HlslGeneratorImplTest_Type, EmitSamplerComparison) {
	auto* sampler = create<sem::Sampler>(ast::SamplerKind::kComparisonSampler);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, sampler, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "SamplerComparisonState");
	}

	struct HlslDepthTextureData {
	ast::TextureDimension dim;
	std::string result;
	};
	inline std::ostream& operator<<(std::ostream& out, HlslDepthTextureData data) {
	out << data.dim;
	return out;
	}
	using HlslDepthTexturesTest = TestParamHelper<HlslDepthTextureData>;
	TEST_P(HlslDepthTexturesTest, Emit) {
	auto params = GetParam();

	auto* t = ty.depth_texture(params.dim);

	Global("tex", t,
	ast::DecorationList{
	create<ast::BindingDecoration>(1),
	create<ast::GroupDecoration>(2),
	});

	Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
	{Stage(ast::PipelineStage::kFragment)});

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr(params.result));
	}
	INSTANTIATE_TEST_SUITE_P(
	HlslGeneratorImplTest_Type,
	HlslDepthTexturesTest,
	testing::Values(
	HlslDepthTextureData{ast::TextureDimension::k2d,
	"Texture2D tex : register(t1, space2);"},
	HlslDepthTextureData{ast::TextureDimension::k2dArray,
	"Texture2DArray tex : register(t1, space2);"},
	HlslDepthTextureData{ast::TextureDimension::kCube,
	"TextureCube tex : register(t1, space2);"},
	HlslDepthTextureData{ast::TextureDimension::kCubeArray,
	"TextureCubeArray tex : register(t1, space2);"}));

	using HlslDepthMultisampledTexturesTest = TestHelper;
	TEST_F(HlslDepthMultisampledTexturesTest, Emit) {
	auto* t = ty.depth_multisampled_texture(ast::TextureDimension::k2d);

	Global("tex", t,
	ast::DecorationList{
	create<ast::BindingDecoration>(1),
	create<ast::GroupDecoration>(2),
	});

	Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
	{Stage(ast::PipelineStage::kFragment)});

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(),
	HasSubstr("Texture2DMS<float4> tex : register(t1, space2);"));
	}

	enum class TextureDataType { F32, U32, I32 };
	struct HlslSampledTextureData {
	ast::TextureDimension dim;
	TextureDataType datatype;
	std::string result;
	};
	inline std::ostream& operator<<(std::ostream& out,
	HlslSampledTextureData data) {
	out << data.dim;
	return out;
	}
	using HlslSampledTexturesTest = TestParamHelper<HlslSampledTextureData>;
	TEST_P(HlslSampledTexturesTest, Emit) {
	auto params = GetParam();

	ast::Type* datatype = nullptr;
	switch (params.datatype) {
	case TextureDataType::F32:
	datatype = ty.f32();
	break;
	case TextureDataType::U32:
	datatype = ty.u32();
	break;
	case TextureDataType::I32:
	datatype = ty.i32();
	break;
	}
	auto* t = ty.sampled_texture(params.dim, datatype);

	Global("tex", t,
	ast::DecorationList{
	create<ast::BindingDecoration>(1),
	create<ast::GroupDecoration>(2),
	});

	Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
	{Stage(ast::PipelineStage::kFragment)});

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr(params.result));
	}
	INSTANTIATE_TEST_SUITE_P(
	HlslGeneratorImplTest_Type,
	HlslSampledTexturesTest,
	testing::Values(
	HlslSampledTextureData{
	ast::TextureDimension::k1d,
	TextureDataType::F32,
	"Texture1D<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2d,
	TextureDataType::F32,
	"Texture2D<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2dArray,
	TextureDataType::F32,
	"Texture2DArray<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k3d,
	TextureDataType::F32,
	"Texture3D<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCube,
	TextureDataType::F32,
	"TextureCube<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCubeArray,
	TextureDataType::F32,
	"TextureCubeArray<float4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k1d,
	TextureDataType::U32,
	"Texture1D<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2d,
	TextureDataType::U32,
	"Texture2D<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2dArray,
	TextureDataType::U32,
	"Texture2DArray<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k3d,
	TextureDataType::U32,
	"Texture3D<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCube,
	TextureDataType::U32,
	"TextureCube<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCubeArray,
	TextureDataType::U32,
	"TextureCubeArray<uint4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k1d,
	TextureDataType::I32,
	"Texture1D<int4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2d,
	TextureDataType::I32,
	"Texture2D<int4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k2dArray,
	TextureDataType::I32,
	"Texture2DArray<int4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::k3d,
	TextureDataType::I32,
	"Texture3D<int4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCube,
	TextureDataType::I32,
	"TextureCube<int4> tex : register(t1, space2);",
	},
	HlslSampledTextureData{
	ast::TextureDimension::kCubeArray,
	TextureDataType::I32,
	"TextureCubeArray<int4> tex : register(t1, space2);",
	}));

	TEST_F(HlslGeneratorImplTest_Type, EmitMultisampledTexture) {
	auto* f32 = create<sem::F32>();
	auto* s = create<sem::MultisampledTexture>(ast::TextureDimension::k2d, f32);

	GeneratorImpl& gen = Build();

	std::stringstream out;
	ASSERT_TRUE(gen.EmitType(out, s, ast::StorageClass::kNone,
	ast::Access::kReadWrite, ""))
	<< gen.error();
	EXPECT_EQ(out.str(), "Texture2DMS<float4>");
	}

	struct HlslStorageTextureData {
	ast::TextureDimension dim;
	ast::ImageFormat imgfmt;
	bool ro;
	std::string result;
	};
	inline std::ostream& operator<<(std::ostream& out,
	HlslStorageTextureData data) {
	out << data.dim << (data.ro ? "ReadOnly" : "WriteOnly");
	return out;
	}
	using HlslStorageTexturesTest = TestParamHelper<HlslStorageTextureData>;
	TEST_P(HlslStorageTexturesTest, Emit) {
	auto params = GetParam();

	auto* t =
	ty.storage_texture(params.dim, params.imgfmt,
	params.ro ? ast::Access::kRead : ast::Access::kWrite);

	Global("tex", t,
	ast::DecorationList{
	create<ast::BindingDecoration>(1),
	create<ast::GroupDecoration>(2),
	});

	Func("main", {}, ty.void_(), {Ignore(Call("textureDimensions", "tex"))},
	{Stage(ast::PipelineStage::kFragment)});

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr(params.result));
	}
	INSTANTIATE_TEST_SUITE_P(
	HlslGeneratorImplTest_Type,
	HlslStorageTexturesTest,
	testing::Values(
	HlslStorageTextureData{ast::TextureDimension::k1d,
	ast::ImageFormat::kRgba8Unorm, true,
	"Texture1D<float4> tex : register(t1, space2);"},
	HlslStorageTextureData{ast::TextureDimension::k2d,
	ast::ImageFormat::kRgba16Float, true,
	"Texture2D<float4> tex : register(t1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Float, true,
	"Texture2DArray<float4> tex : register(t1, space2);"},
	HlslStorageTextureData{ast::TextureDimension::k3d,
	ast::ImageFormat::kRg32Float, true,
	"Texture3D<float4> tex : register(t1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k1d, ast::ImageFormat::kRgba32Float, false,
	"RWTexture1D<float4> tex : register(u1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k2d, ast::ImageFormat::kRgba16Uint, false,
	"RWTexture2D<uint4> tex : register(u1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Uint, false,
	"RWTexture2DArray<uint4> tex : register(u1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k3d, ast::ImageFormat::kRg32Uint, false,
	"RWTexture3D<uint4> tex : register(u1, space2);"},
	HlslStorageTextureData{ast::TextureDimension::k1d,
	ast::ImageFormat::kRgba32Uint, true,
	"Texture1D<uint4> tex : register(t1, space2);"},
	HlslStorageTextureData{ast::TextureDimension::k2d,
	ast::ImageFormat::kRgba16Sint, true,
	"Texture2D<int4> tex : register(t1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k2dArray, ast::ImageFormat::kR32Sint, true,
	"Texture2DArray<int4> tex : register(t1, space2);"},
	HlslStorageTextureData{ast::TextureDimension::k3d,
	ast::ImageFormat::kRg32Sint, true,
	"Texture3D<int4> tex : register(t1, space2);"},
	HlslStorageTextureData{
	ast::TextureDimension::k1d, ast::ImageFormat::kRgba32Sint, false,
	"RWTexture1D<int4> tex : register(u1, space2);"}));

	} // namespace
	} // namespace hlsl
	} // namespace writer
	} // namespace tint