src/tint/lang/spirv/writer/function_test.cc - tint - Git at Google

 // Copyright 2023 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.

 // GEN_BUILD:CONDITION(tint_build_ir)

 #include "src/tint/lang/spirv/writer/common/helper_test.h"

 namespace tint::spirv::writer {
 namespace {

 using namespace tint::core::fluent_types;     // NOLINT
 using namespace tint::core::number_suffixes;  // NOLINT

 TEST_F(SpirvWriterTest, Function_Empty) {
     auto* func = b.Function("foo", ty.void_());
     b.Append(func->Block(), [&] {  //
         b.Return(func);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
         %foo = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 // Test that we do not emit the same function type more than once.
 TEST_F(SpirvWriterTest, Function_DeduplicateType) {
     auto* func_a = b.Function("func_a", ty.void_());
     b.Append(func_a->Block(), [&] {  //
         b.Return(func_a);
     });
     auto* func_b = b.Function("func_b", ty.void_());
     b.Append(func_b->Block(), [&] {  //
         b.Return(func_b);
     });
     auto* func_c = b.Function("func_c", ty.void_());
     b.Append(func_c->Block(), [&] {  //
         b.Return(func_c);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
                ; Types, variables and constants
        %void = OpTypeVoid
           %3 = OpTypeFunction %void

                ; Function func_a
      %func_a = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd

                ; Function func_b
      %func_b = OpFunction %void None %3
           %6 = OpLabel
                OpReturn
                OpFunctionEnd

                ; Function func_c
      %func_c = OpFunction %void None %3
           %8 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_EntryPoint_Compute) {
     auto* func =
         b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{32, 4, 1}});
     b.Append(func->Block(), [&] {  //
         b.Return(func);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
                OpEntryPoint GLCompute %main "main"
                OpExecutionMode %main LocalSize 32 4 1

                ; Debug Information
                OpName %main "main"  ; id %1

                ; Types, variables and constants
        %void = OpTypeVoid
           %3 = OpTypeFunction %void

                ; Function main
        %main = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_EntryPoint_Fragment) {
     auto* func = b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kFragment);
     b.Append(func->Block(), [&] {  //
         b.Return(func);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
                OpEntryPoint Fragment %main "main"
                OpExecutionMode %main OriginUpperLeft

                ; Debug Information
                OpName %main "main"  ; id %1

                ; Types, variables and constants
        %void = OpTypeVoid
           %3 = OpTypeFunction %void

                ; Function main
        %main = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_EntryPoint_Vertex) {
     auto* func = b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kVertex);
     b.Append(func->Block(), [&] {  //
         b.Return(func);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
                OpEntryPoint Vertex %main "main"

                ; Debug Information
                OpName %main "main"  ; id %1

                ; Types, variables and constants
        %void = OpTypeVoid
           %3 = OpTypeFunction %void

                ; Function main
        %main = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_EntryPoint_Multiple) {
     auto* f1 =
         b.Function("main1", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{32, 4, 1}});
     b.Append(f1->Block(), [&] {  //
         b.Return(f1);
     });

     auto* f2 =
         b.Function("main2", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{8, 2, 16}});
     b.Append(f2->Block(), [&] {  //
         b.Return(f2);
     });

     auto* f3 = b.Function("main3", ty.void_(), core::ir::Function::PipelineStage::kFragment);
     b.Append(f3->Block(), [&] {  //
         b.Return(f3);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
                OpEntryPoint GLCompute %main1 "main1"
                OpEntryPoint GLCompute %main2 "main2"
                OpEntryPoint Fragment %main3 "main3"
                OpExecutionMode %main1 LocalSize 32 4 1
                OpExecutionMode %main2 LocalSize 8 2 16
                OpExecutionMode %main3 OriginUpperLeft

                ; Debug Information
                OpName %main1 "main1"  ; id %1
                OpName %main2 "main2"  ; id %5
                OpName %main3 "main3"  ; id %7

                ; Types, variables and constants
        %void = OpTypeVoid
           %3 = OpTypeFunction %void

                ; Function main1
       %main1 = OpFunction %void None %3
           %4 = OpLabel
                OpReturn
                OpFunctionEnd

                ; Function main2
       %main2 = OpFunction %void None %3
           %6 = OpLabel
                OpReturn
                OpFunctionEnd

                ; Function main3
       %main3 = OpFunction %void None %3
           %8 = OpLabel
                OpReturn
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_ReturnValue) {
     auto* func = b.Function("foo", ty.i32());
     b.Append(func->Block(), [&] {  //
         b.Return(func, 42_i);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
           %3 = OpTypeFunction %int
      %int_42 = OpConstant %int 42
        %void = OpTypeVoid
           %8 = OpTypeFunction %void

                ; Function foo
         %foo = OpFunction %int None %3
           %4 = OpLabel
                OpReturnValue %int_42
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_Parameters) {
     auto* i32 = ty.i32();
     auto* x = b.FunctionParam("x", i32);
     auto* y = b.FunctionParam("y", i32);
     auto* func = b.Function("foo", i32);
     func->SetParams({x, y});

     b.Append(func->Block(), [&] {
         auto* result = b.Add(i32, x, y);
         b.Return(func, result);
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
           %5 = OpTypeFunction %int %int %int
        %void = OpTypeVoid
          %10 = OpTypeFunction %void

                ; Function foo
         %foo = OpFunction %int None %5
           %x = OpFunctionParameter %int
           %y = OpFunctionParameter %int
           %6 = OpLabel
           %7 = OpIAdd %int %x %y
                OpReturnValue %7
                OpFunctionEnd
 )");
 }

 TEST_F(SpirvWriterTest, Function_Call) {
     auto* i32 = ty.i32();
     auto* x = b.FunctionParam("x", i32);
     auto* y = b.FunctionParam("y", i32);
     auto* foo = b.Function("foo", i32);
     foo->SetParams({x, y});

     b.Append(foo->Block(), [&] {
         auto* result = b.Add(i32, x, y);
         b.Return(foo, result);
     });

     auto* bar = b.Function("bar", ty.void_());
     b.Append(bar->Block(), [&] {
         auto* result = b.Call(i32, foo, 2_i, 3_i);
         b.Return(bar);
         mod.SetName(result, "result");
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%result = OpFunctionCall %int %foo %int_2 %int_3");
 }

 TEST_F(SpirvWriterTest, Function_Call_Void) {
     auto* foo = b.Function("foo", ty.void_());
     b.Append(foo->Block(), [&] {  //
         b.Return(foo);
     });

     auto* bar = b.Function("bar", ty.void_());
     b.Append(bar->Block(), [&] {
         auto* result = b.Call(ty.void_(), foo);
         b.Return(bar);
         mod.SetName(result, "result");
     });

     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%result = OpFunctionCall %void %foo");
 }

 }  // namespace
 }  // namespace tint::spirv::writer
	// Copyright 2023 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.

	// GEN_BUILD:CONDITION(tint_build_ir)

	#include "src/tint/lang/spirv/writer/common/helper_test.h"

	namespace tint::spirv::writer {
	namespace {

	using namespace tint::core::fluent_types; // NOLINT
	using namespace tint::core::number_suffixes; // NOLINT

	TEST_F(SpirvWriterTest, Function_Empty) {
	auto* func = b.Function("foo", ty.void_());
	b.Append(func->Block(), [&] { //
	b.Return(func);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%foo = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	// Test that we do not emit the same function type more than once.
	TEST_F(SpirvWriterTest, Function_DeduplicateType) {
	auto* func_a = b.Function("func_a", ty.void_());
	b.Append(func_a->Block(), [&] { //
	b.Return(func_a);
	});
	auto* func_b = b.Function("func_b", ty.void_());
	b.Append(func_b->Block(), [&] { //
	b.Return(func_b);
	});
	auto* func_c = b.Function("func_c", ty.void_());
	b.Append(func_c->Block(), [&] { //
	b.Return(func_c);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	; Types, variables and constants
	%void = OpTypeVoid
	%3 = OpTypeFunction %void

	; Function func_a
	%func_a = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd

	; Function func_b
	%func_b = OpFunction %void None %3
	%6 = OpLabel
	OpReturn
	OpFunctionEnd

	; Function func_c
	%func_c = OpFunction %void None %3
	%8 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_EntryPoint_Compute) {
	auto* func =
	b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{32, 4, 1}});
	b.Append(func->Block(), [&] { //
	b.Return(func);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	OpEntryPoint GLCompute %main "main"
	OpExecutionMode %main LocalSize 32 4 1

	; Debug Information
	OpName %main "main" ; id %1

	; Types, variables and constants
	%void = OpTypeVoid
	%3 = OpTypeFunction %void

	; Function main
	%main = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_EntryPoint_Fragment) {
	auto* func = b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kFragment);
	b.Append(func->Block(), [&] { //
	b.Return(func);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	OpEntryPoint Fragment %main "main"
	OpExecutionMode %main OriginUpperLeft

	; Debug Information
	OpName %main "main" ; id %1

	; Types, variables and constants
	%void = OpTypeVoid
	%3 = OpTypeFunction %void

	; Function main
	%main = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_EntryPoint_Vertex) {
	auto* func = b.Function("main", ty.void_(), core::ir::Function::PipelineStage::kVertex);
	b.Append(func->Block(), [&] { //
	b.Return(func);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	OpEntryPoint Vertex %main "main"

	; Debug Information
	OpName %main "main" ; id %1

	; Types, variables and constants
	%void = OpTypeVoid
	%3 = OpTypeFunction %void

	; Function main
	%main = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_EntryPoint_Multiple) {
	auto* f1 =
	b.Function("main1", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{32, 4, 1}});
	b.Append(f1->Block(), [&] { //
	b.Return(f1);
	});

	auto* f2 =
	b.Function("main2", ty.void_(), core::ir::Function::PipelineStage::kCompute, {{8, 2, 16}});
	b.Append(f2->Block(), [&] { //
	b.Return(f2);
	});

	auto* f3 = b.Function("main3", ty.void_(), core::ir::Function::PipelineStage::kFragment);
	b.Append(f3->Block(), [&] { //
	b.Return(f3);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	OpEntryPoint GLCompute %main1 "main1"
	OpEntryPoint GLCompute %main2 "main2"
	OpEntryPoint Fragment %main3 "main3"
	OpExecutionMode %main1 LocalSize 32 4 1
	OpExecutionMode %main2 LocalSize 8 2 16
	OpExecutionMode %main3 OriginUpperLeft

	; Debug Information
	OpName %main1 "main1" ; id %1
	OpName %main2 "main2" ; id %5
	OpName %main3 "main3" ; id %7

	; Types, variables and constants
	%void = OpTypeVoid
	%3 = OpTypeFunction %void

	; Function main1
	%main1 = OpFunction %void None %3
	%4 = OpLabel
	OpReturn
	OpFunctionEnd

	; Function main2
	%main2 = OpFunction %void None %3
	%6 = OpLabel
	OpReturn
	OpFunctionEnd

	; Function main3
	%main3 = OpFunction %void None %3
	%8 = OpLabel
	OpReturn
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_ReturnValue) {
	auto* func = b.Function("foo", ty.i32());
	b.Append(func->Block(), [&] { //
	b.Return(func, 42_i);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%3 = OpTypeFunction %int
	%int_42 = OpConstant %int 42
	%void = OpTypeVoid
	%8 = OpTypeFunction %void

	; Function foo
	%foo = OpFunction %int None %3
	%4 = OpLabel
	OpReturnValue %int_42
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_Parameters) {
	auto* i32 = ty.i32();
	auto* x = b.FunctionParam("x", i32);
	auto* y = b.FunctionParam("y", i32);
	auto* func = b.Function("foo", i32);
	func->SetParams({x, y});

	b.Append(func->Block(), [&] {
	auto* result = b.Add(i32, x, y);
	b.Return(func, result);
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%5 = OpTypeFunction %int %int %int
	%void = OpTypeVoid
	%10 = OpTypeFunction %void

	; Function foo
	%foo = OpFunction %int None %5
	%x = OpFunctionParameter %int
	%y = OpFunctionParameter %int
	%6 = OpLabel
	%7 = OpIAdd %int %x %y
	OpReturnValue %7
	OpFunctionEnd
	)");
	}

	TEST_F(SpirvWriterTest, Function_Call) {
	auto* i32 = ty.i32();
	auto* x = b.FunctionParam("x", i32);
	auto* y = b.FunctionParam("y", i32);
	auto* foo = b.Function("foo", i32);
	foo->SetParams({x, y});

	b.Append(foo->Block(), [&] {
	auto* result = b.Add(i32, x, y);
	b.Return(foo, result);
	});

	auto* bar = b.Function("bar", ty.void_());
	b.Append(bar->Block(), [&] {
	auto* result = b.Call(i32, foo, 2_i, 3_i);
	b.Return(bar);
	mod.SetName(result, "result");
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%result = OpFunctionCall %int %foo %int_2 %int_3");
	}

	TEST_F(SpirvWriterTest, Function_Call_Void) {
	auto* foo = b.Function("foo", ty.void_());
	b.Append(foo->Block(), [&] { //
	b.Return(foo);
	});

	auto* bar = b.Function("bar", ty.void_());
	b.Append(bar->Block(), [&] {
	auto* result = b.Call(ty.void_(), foo);
	b.Return(bar);
	mod.SetName(result, "result");
	});

	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%result = OpFunctionCall %void %foo");
	}

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