src/writer/spirv/builder_function_decoration_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 <string>

 #include "gtest/gtest.h"
 #include "spirv/unified1/spirv.h"
 #include "spirv/unified1/spirv.hpp11"
 #include "src/ast/assignment_statement.h"
 #include "src/ast/function.h"
 #include "src/ast/identifier_expression.h"
 #include "src/ast/pipeline_stage.h"
 #include "src/ast/stage_decoration.h"
 #include "src/ast/type/f32_type.h"
 #include "src/ast/type/void_type.h"
 #include "src/ast/variable.h"
 #include "src/ast/workgroup_decoration.h"
 #include "src/type_determiner.h"
 #include "src/writer/spirv/builder.h"
 #include "src/writer/spirv/spv_dump.h"
 #include "src/writer/spirv/test_helper.h"

 namespace tint {
 namespace writer {
 namespace spirv {
 namespace {

 using BuilderTest = TestHelper;

 TEST_F(BuilderTest, FunctionDecoration_Stage) {
   ast::type::Void void_type;

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
       });

   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
   EXPECT_EQ(DumpInstructions(b.entry_points()),
             R"(OpEntryPoint Vertex %3 "main"
 )");
 }

 struct FunctionStageData {
   ast::PipelineStage stage;
   SpvExecutionModel model;
 };
 inline std::ostream& operator<<(std::ostream& out, FunctionStageData data) {
   out << data.stage;
   return out;
 }
 using FunctionDecoration_StageTest = TestParamHelper<FunctionStageData>;
 TEST_P(FunctionDecoration_StageTest, Emit) {
   auto params = GetParam();

   ast::type::Void void_type;

   ast::Function func(Source{}, mod->RegisterSymbol("main"), "main", {},
                      &void_type, create<ast::BlockStatement>(Source{}),
                      ast::FunctionDecorationList{
                          create<ast::StageDecoration>(params.stage, Source{}),
                      });

   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

   auto preamble = b.entry_points();
   ASSERT_GE(preamble.size(), 1u);
   EXPECT_EQ(preamble[0].opcode(), spv::Op::OpEntryPoint);

   ASSERT_GE(preamble[0].operands().size(), 3u);
   EXPECT_EQ(preamble[0].operands()[0].to_i(), params.model);
 }
 INSTANTIATE_TEST_SUITE_P(
     BuilderTest,
     FunctionDecoration_StageTest,
     testing::Values(FunctionStageData{ast::PipelineStage::kVertex,
                                       SpvExecutionModelVertex},
                     FunctionStageData{ast::PipelineStage::kFragment,
                                       SpvExecutionModelFragment},
                     FunctionStageData{ast::PipelineStage::kCompute,
                                       SpvExecutionModelGLCompute}));

 TEST_F(BuilderTest, FunctionDecoration_Stage_WithUnusedInterfaceIds) {
   ast::type::F32 f32;
   ast::type::Void void_type;

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
       });

   auto* v_in =
       create<ast::Variable>(Source{},                        // source
                             "my_in",                         // name
                             ast::StorageClass::kInput,       // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations
   auto* v_out =
       create<ast::Variable>(Source{},                        // source
                             "my_out",                        // name
                             ast::StorageClass::kOutput,      // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations
   auto* v_wg =
       create<ast::Variable>(Source{},                        // source
                             "my_wg",                         // name
                             ast::StorageClass::kWorkgroup,   // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations

   EXPECT_TRUE(b.GenerateGlobalVariable(v_in)) << b.error();
   EXPECT_TRUE(b.GenerateGlobalVariable(v_out)) << b.error();
   EXPECT_TRUE(b.GenerateGlobalVariable(v_wg)) << b.error();

   mod->AddGlobalVariable(v_in);
   mod->AddGlobalVariable(v_out);
   mod->AddGlobalVariable(v_wg);

   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
   EXPECT_EQ(DumpInstructions(b.debug()), R"(OpName %1 "my_in"
 OpName %4 "my_out"
 OpName %7 "my_wg"
 OpName %11 "main"
 )");
   EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
 %2 = OpTypePointer Input %3
 %1 = OpVariable %2 Input
 %5 = OpTypePointer Output %3
 %6 = OpConstantNull %3
 %4 = OpVariable %5 Output %6
 %8 = OpTypePointer Workgroup %3
 %7 = OpVariable %8 Workgroup
 %10 = OpTypeVoid
 %9 = OpTypeFunction %10
 )");
   EXPECT_EQ(DumpInstructions(b.entry_points()),
             R"(OpEntryPoint Vertex %11 "main"
 )");
 }

 TEST_F(BuilderTest, FunctionDecoration_Stage_WithUsedInterfaceIds) {
   ast::type::F32 f32;
   ast::type::Void void_type;

   auto* body = create<ast::BlockStatement>(Source{});
   body->append(create<ast::AssignmentStatement>(
       Source{},
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_out"),
                                         "my_out"),
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_in"),
                                         "my_in")));
   body->append(create<ast::AssignmentStatement>(
       Source{},
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_wg"),
                                         "my_wg"),
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_wg"),
                                         "my_wg")));
   // Add duplicate usages so we show they don't get output multiple times.
   body->append(create<ast::AssignmentStatement>(
       Source{},
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_out"),
                                         "my_out"),
       create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_in"),
                                         "my_in")));

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type, body,
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
       });

   auto* v_in =
       create<ast::Variable>(Source{},                        // source
                             "my_in",                         // name
                             ast::StorageClass::kInput,       // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations
   auto* v_out =
       create<ast::Variable>(Source{},                        // source
                             "my_out",                        // name
                             ast::StorageClass::kOutput,      // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations
   auto* v_wg =
       create<ast::Variable>(Source{},                        // source
                             "my_wg",                         // name
                             ast::StorageClass::kWorkgroup,   // storage_class
                             &f32,                            // type
                             false,                           // is_const
                             nullptr,                         // constructor
                             ast::VariableDecorationList{});  // decorations

   td.RegisterVariableForTesting(v_in);
   td.RegisterVariableForTesting(v_out);
   td.RegisterVariableForTesting(v_wg);

   ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();

   EXPECT_TRUE(b.GenerateGlobalVariable(v_in)) << b.error();
   EXPECT_TRUE(b.GenerateGlobalVariable(v_out)) << b.error();
   EXPECT_TRUE(b.GenerateGlobalVariable(v_wg)) << b.error();

   mod->AddGlobalVariable(v_in);
   mod->AddGlobalVariable(v_out);
   mod->AddGlobalVariable(v_wg);

   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
   EXPECT_EQ(DumpInstructions(b.debug()), R"(OpName %1 "my_in"
 OpName %4 "my_out"
 OpName %7 "my_wg"
 OpName %11 "main"
 )");
   EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
 %2 = OpTypePointer Input %3
 %1 = OpVariable %2 Input
 %5 = OpTypePointer Output %3
 %6 = OpConstantNull %3
 %4 = OpVariable %5 Output %6
 %8 = OpTypePointer Workgroup %3
 %7 = OpVariable %8 Workgroup
 %10 = OpTypeVoid
 %9 = OpTypeFunction %10
 )");
   EXPECT_EQ(DumpInstructions(b.entry_points()),
             R"(OpEntryPoint Vertex %11 "main" %4 %1
 )");
 }

 TEST_F(BuilderTest, FunctionDecoration_ExecutionMode_Fragment_OriginUpperLeft) {
   ast::type::Void void_type;

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
       });

   ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
   EXPECT_EQ(DumpInstructions(b.execution_modes()),
             R"(OpExecutionMode %3 OriginUpperLeft
 )");
 }

 TEST_F(BuilderTest, FunctionDecoration_WorkgroupSize_Default) {
   ast::type::Void void_type;

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kCompute, Source{}),
       });

   ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
   EXPECT_EQ(DumpInstructions(b.execution_modes()),
             R"(OpExecutionMode %3 LocalSize 1 1 1
 )");
 }

 TEST_F(BuilderTest, FunctionDecoration_WorkgroupSize) {
   ast::type::Void void_type;

   ast::Function func(
       Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::WorkgroupDecoration>(2u, 4u, 6u, Source{}),
           create<ast::StageDecoration>(ast::PipelineStage::kCompute, Source{}),
       });

   ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
   EXPECT_EQ(DumpInstructions(b.execution_modes()),
             R"(OpExecutionMode %3 LocalSize 2 4 6
 )");
 }

 TEST_F(BuilderTest, FunctionDecoration_ExecutionMode_MultipleFragment) {
   ast::type::Void void_type;

   ast::Function func1(
       Source{}, mod->RegisterSymbol("main1"), "main1", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
       });

   ast::Function func2(
       Source{}, mod->RegisterSymbol("main2"), "main2", {}, &void_type,
       create<ast::BlockStatement>(Source{}),
       ast::FunctionDecorationList{
           create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
       });

   ASSERT_TRUE(b.GenerateFunction(&func1)) << b.error();
   ASSERT_TRUE(b.GenerateFunction(&func2)) << b.error();
   EXPECT_EQ(DumpBuilder(b),
             R"(OpEntryPoint Fragment %3 "main1"
 OpEntryPoint Fragment %5 "main2"
 OpExecutionMode %3 OriginUpperLeft
 OpExecutionMode %5 OriginUpperLeft
 OpName %3 "main1"
 OpName %5 "main2"
 %2 = OpTypeVoid
 %1 = OpTypeFunction %2
 %3 = OpFunction %2 None %1
 %4 = OpLabel
 OpReturn
 OpFunctionEnd
 %5 = OpFunction %2 None %1
 %6 = OpLabel
 OpReturn
 OpFunctionEnd
 )");
 }

 }  // namespace
 }  // namespace spirv
 }  // 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 <string>

	#include "gtest/gtest.h"
	#include "spirv/unified1/spirv.h"
	#include "spirv/unified1/spirv.hpp11"
	#include "src/ast/assignment_statement.h"
	#include "src/ast/function.h"
	#include "src/ast/identifier_expression.h"
	#include "src/ast/pipeline_stage.h"
	#include "src/ast/stage_decoration.h"
	#include "src/ast/type/f32_type.h"
	#include "src/ast/type/void_type.h"
	#include "src/ast/variable.h"
	#include "src/ast/workgroup_decoration.h"
	#include "src/type_determiner.h"
	#include "src/writer/spirv/builder.h"
	#include "src/writer/spirv/spv_dump.h"
	#include "src/writer/spirv/test_helper.h"

	namespace tint {
	namespace writer {
	namespace spirv {
	namespace {

	using BuilderTest = TestHelper;

	TEST_F(BuilderTest, FunctionDecoration_Stage) {
	ast::type::Void void_type;

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
	});

	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
	EXPECT_EQ(DumpInstructions(b.entry_points()),
	R"(OpEntryPoint Vertex %3 "main"
	)");
	}

	struct FunctionStageData {
	ast::PipelineStage stage;
	SpvExecutionModel model;
	};
	inline std::ostream& operator<<(std::ostream& out, FunctionStageData data) {
	out << data.stage;
	return out;
	}
	using FunctionDecoration_StageTest = TestParamHelper<FunctionStageData>;
	TEST_P(FunctionDecoration_StageTest, Emit) {
	auto params = GetParam();

	ast::type::Void void_type;

	ast::Function func(Source{}, mod->RegisterSymbol("main"), "main", {},
	&void_type, create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(params.stage, Source{}),
	});

	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

	auto preamble = b.entry_points();
	ASSERT_GE(preamble.size(), 1u);
	EXPECT_EQ(preamble[0].opcode(), spv::Op::OpEntryPoint);

	ASSERT_GE(preamble[0].operands().size(), 3u);
	EXPECT_EQ(preamble[0].operands()[0].to_i(), params.model);
	}
	INSTANTIATE_TEST_SUITE_P(
	BuilderTest,
	FunctionDecoration_StageTest,
	testing::Values(FunctionStageData{ast::PipelineStage::kVertex,
	SpvExecutionModelVertex},
	FunctionStageData{ast::PipelineStage::kFragment,
	SpvExecutionModelFragment},
	FunctionStageData{ast::PipelineStage::kCompute,
	SpvExecutionModelGLCompute}));

	TEST_F(BuilderTest, FunctionDecoration_Stage_WithUnusedInterfaceIds) {
	ast::type::F32 f32;
	ast::type::Void void_type;

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
	});

	auto* v_in =
	create<ast::Variable>(Source{}, // source
	"my_in", // name
	ast::StorageClass::kInput, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations
	auto* v_out =
	create<ast::Variable>(Source{}, // source
	"my_out", // name
	ast::StorageClass::kOutput, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations
	auto* v_wg =
	create<ast::Variable>(Source{}, // source
	"my_wg", // name
	ast::StorageClass::kWorkgroup, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations

	EXPECT_TRUE(b.GenerateGlobalVariable(v_in)) << b.error();
	EXPECT_TRUE(b.GenerateGlobalVariable(v_out)) << b.error();
	EXPECT_TRUE(b.GenerateGlobalVariable(v_wg)) << b.error();

	mod->AddGlobalVariable(v_in);
	mod->AddGlobalVariable(v_out);
	mod->AddGlobalVariable(v_wg);

	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
	EXPECT_EQ(DumpInstructions(b.debug()), R"(OpName %1 "my_in"
	OpName %4 "my_out"
	OpName %7 "my_wg"
	OpName %11 "main"
	)");
	EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
	%2 = OpTypePointer Input %3
	%1 = OpVariable %2 Input
	%5 = OpTypePointer Output %3
	%6 = OpConstantNull %3
	%4 = OpVariable %5 Output %6
	%8 = OpTypePointer Workgroup %3
	%7 = OpVariable %8 Workgroup
	%10 = OpTypeVoid
	%9 = OpTypeFunction %10
	)");
	EXPECT_EQ(DumpInstructions(b.entry_points()),
	R"(OpEntryPoint Vertex %11 "main"
	)");
	}

	TEST_F(BuilderTest, FunctionDecoration_Stage_WithUsedInterfaceIds) {
	ast::type::F32 f32;
	ast::type::Void void_type;

	auto* body = create<ast::BlockStatement>(Source{});
	body->append(create<ast::AssignmentStatement>(
	Source{},
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_out"),
	"my_out"),
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_in"),
	"my_in")));
	body->append(create<ast::AssignmentStatement>(
	Source{},
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_wg"),
	"my_wg"),
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_wg"),
	"my_wg")));
	// Add duplicate usages so we show they don't get output multiple times.
	body->append(create<ast::AssignmentStatement>(
	Source{},
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_out"),
	"my_out"),
	create<ast::IdentifierExpression>(Source{}, mod->RegisterSymbol("my_in"),
	"my_in")));

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type, body,
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kVertex, Source{}),
	});

	auto* v_in =
	create<ast::Variable>(Source{}, // source
	"my_in", // name
	ast::StorageClass::kInput, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations
	auto* v_out =
	create<ast::Variable>(Source{}, // source
	"my_out", // name
	ast::StorageClass::kOutput, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations
	auto* v_wg =
	create<ast::Variable>(Source{}, // source
	"my_wg", // name
	ast::StorageClass::kWorkgroup, // storage_class
	&f32, // type
	false, // is_const
	nullptr, // constructor
	ast::VariableDecorationList{}); // decorations

	td.RegisterVariableForTesting(v_in);
	td.RegisterVariableForTesting(v_out);
	td.RegisterVariableForTesting(v_wg);

	ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();

	EXPECT_TRUE(b.GenerateGlobalVariable(v_in)) << b.error();
	EXPECT_TRUE(b.GenerateGlobalVariable(v_out)) << b.error();
	EXPECT_TRUE(b.GenerateGlobalVariable(v_wg)) << b.error();

	mod->AddGlobalVariable(v_in);
	mod->AddGlobalVariable(v_out);
	mod->AddGlobalVariable(v_wg);

	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();
	EXPECT_EQ(DumpInstructions(b.debug()), R"(OpName %1 "my_in"
	OpName %4 "my_out"
	OpName %7 "my_wg"
	OpName %11 "main"
	)");
	EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
	%2 = OpTypePointer Input %3
	%1 = OpVariable %2 Input
	%5 = OpTypePointer Output %3
	%6 = OpConstantNull %3
	%4 = OpVariable %5 Output %6
	%8 = OpTypePointer Workgroup %3
	%7 = OpVariable %8 Workgroup
	%10 = OpTypeVoid
	%9 = OpTypeFunction %10
	)");
	EXPECT_EQ(DumpInstructions(b.entry_points()),
	R"(OpEntryPoint Vertex %11 "main" %4 %1
	)");
	}

	TEST_F(BuilderTest, FunctionDecoration_ExecutionMode_Fragment_OriginUpperLeft) {
	ast::type::Void void_type;

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
	});

	ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
	EXPECT_EQ(DumpInstructions(b.execution_modes()),
	R"(OpExecutionMode %3 OriginUpperLeft
	)");
	}

	TEST_F(BuilderTest, FunctionDecoration_WorkgroupSize_Default) {
	ast::type::Void void_type;

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kCompute, Source{}),
	});

	ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
	EXPECT_EQ(DumpInstructions(b.execution_modes()),
	R"(OpExecutionMode %3 LocalSize 1 1 1
	)");
	}

	TEST_F(BuilderTest, FunctionDecoration_WorkgroupSize) {
	ast::type::Void void_type;

	ast::Function func(
	Source{}, mod->RegisterSymbol("main"), "main", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::WorkgroupDecoration>(2u, 4u, 6u, Source{}),
	create<ast::StageDecoration>(ast::PipelineStage::kCompute, Source{}),
	});

	ASSERT_TRUE(b.GenerateExecutionModes(&func, 3)) << b.error();
	EXPECT_EQ(DumpInstructions(b.execution_modes()),
	R"(OpExecutionMode %3 LocalSize 2 4 6
	)");
	}

	TEST_F(BuilderTest, FunctionDecoration_ExecutionMode_MultipleFragment) {
	ast::type::Void void_type;

	ast::Function func1(
	Source{}, mod->RegisterSymbol("main1"), "main1", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
	});

	ast::Function func2(
	Source{}, mod->RegisterSymbol("main2"), "main2", {}, &void_type,
	create<ast::BlockStatement>(Source{}),
	ast::FunctionDecorationList{
	create<ast::StageDecoration>(ast::PipelineStage::kFragment, Source{}),
	});

	ASSERT_TRUE(b.GenerateFunction(&func1)) << b.error();
	ASSERT_TRUE(b.GenerateFunction(&func2)) << b.error();
	EXPECT_EQ(DumpBuilder(b),
	R"(OpEntryPoint Fragment %3 "main1"
	OpEntryPoint Fragment %5 "main2"
	OpExecutionMode %3 OriginUpperLeft
	OpExecutionMode %5 OriginUpperLeft
	OpName %3 "main1"
	OpName %5 "main2"
	%2 = OpTypeVoid
	%1 = OpTypeFunction %2
	%3 = OpFunction %2 None %1
	%4 = OpLabel
	OpReturn
	OpFunctionEnd
	%5 = OpFunction %2 None %1
	%6 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	} // namespace
	} // namespace spirv
	} // namespace writer
	} // namespace tint