src/tint/lang/spirv/writer/ast_printer/assign_test.cc - dawn - 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 "gtest/gtest-spi.h"
 #include "src/tint/lang/spirv/writer/ast_printer/test_helper.h"
 #include "src/tint/lang/spirv/writer/spv_dump.h"

 namespace tint::spirv::writer {
 namespace {

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

 using SpirvASTPrinterTest = TestHelper;

 TEST_F(SpirvASTPrinterTest, Assign_Var) {
     auto* v = GlobalVar("var", ty.f32(), builtin::AddressSpace::kPrivate);

     auto* assign = Assign("var", 1_f);

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%3 = OpTypeFloat 32
 %2 = OpTypePointer Private %3
 %4 = OpConstantNull %3
 %1 = OpVariable %2 Private %4
 %5 = OpConstant %3 1
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(OpStore %1 %5
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Var_OutsideFunction_IsError) {
     EXPECT_FATAL_FAILURE(
         {
             ProgramBuilder pb;

             auto* v = pb.GlobalVar("var", pb.ty.f32(), builtin::AddressSpace::kPrivate);

             auto* assign = pb.Assign("var", pb.Expr(1_f));

             pb.WrapInFunction(assign);

             auto program = std::make_unique<Program>(std::move(pb));
             auto b = std::make_unique<Builder>(program.get());

             b->GenerateGlobalVariable(v);
             b->GenerateAssignStatement(assign);
         },
         "trying to add SPIR-V instruction 62 outside a function");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Var_ZeroInitializer) {
     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* val = Call<vec3<f32>>();
     auto* assign = Assign("var", val);

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(OpStore %1 %5
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Var_Complex_InitializerNestedVector) {
     auto* init = Call<vec3<f32>>(Call<vec2<f32>>(1_f, 2_f), 3_f);

     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* assign = Assign("var", init);

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 %6 = OpConstant %4 1
 %7 = OpConstant %4 2
 %8 = OpConstant %4 3
 %9 = OpConstantComposite %3 %6 %7 %8
 )");
     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(OpStore %1 %9
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Var_Complex_Initializer) {
     auto* init = Call<vec3<f32>>(1_f, 2_f, 3_f);

     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* assign = Assign("var", init);

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 %6 = OpConstant %4 1
 %7 = OpConstant %4 2
 %8 = OpConstant %4 3
 %9 = OpConstantComposite %3 %6 %7 %8
 )");
     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(OpStore %1 %9
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_StructMember) {
     // my_struct {
     //   a : f32
     //   b : f32
     // }
     // var ident : my_struct
     // ident.b = 4.0;

     auto* s = Structure("my_struct", utils::Vector{
                                          Member("a", ty.f32()),
                                          Member("b", ty.f32()),
                                      });

     auto* v = Var("ident", ty.Of(s));

     auto* assign = Assign(MemberAccessor("ident", "b"), Expr(4_f));

     WrapInFunction(v, assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateFunctionVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeStruct %4 %4
 %2 = OpTypePointer Function %3
 %5 = OpConstantNull %3
 %6 = OpTypeInt 32 0
 %7 = OpConstant %6 1
 %8 = OpTypePointer Function %4
 %10 = OpConstant %4 4
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(%9 = OpAccessChain %8 %1 %7
 OpStore %9 %10
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Vector) {
     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* val = Call<vec3<f32>>(1_f, 1_f, 3_f);
     auto* assign = Assign("var", val);

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 %6 = OpConstant %4 1
 %7 = OpConstant %4 3
 %8 = OpConstantComposite %3 %6 %6 %7
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(OpStore %1 %8
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Vector_MemberByName) {
     // var.y = 1

     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* assign = Assign(MemberAccessor("var", "y"), Expr(1_f));

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 %6 = OpTypeInt 32 0
 %7 = OpConstant %6 1
 %8 = OpTypePointer Private %4
 %10 = OpConstant %4 1
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(%9 = OpAccessChain %8 %1 %7
 OpStore %9 %10
 )");
 }

 TEST_F(SpirvASTPrinterTest, Assign_Vector_MemberByIndex) {
     // var[1] = 1

     auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

     auto* assign = Assign(IndexAccessor("var", 1_i), Expr(1_f));

     WrapInFunction(assign);

     Builder& b = Build();

     b.PushFunctionForTesting();
     EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
     ASSERT_FALSE(b.has_error()) << b.Diagnostics();

     EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
     EXPECT_FALSE(b.has_error());

     EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
 %3 = OpTypeVector %4 3
 %2 = OpTypePointer Private %3
 %5 = OpConstantNull %3
 %1 = OpVariable %2 Private %5
 %6 = OpTypeInt 32 1
 %7 = OpConstant %6 1
 %8 = OpTypePointer Private %4
 %10 = OpConstant %4 1
 )");

     EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
               R"(%9 = OpAccessChain %8 %1 %7
 OpStore %9 %10
 )");
 }

 }  // namespace
 }  // namespace tint::spirv::writer
	// 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 "gtest/gtest-spi.h"
	#include "src/tint/lang/spirv/writer/ast_printer/test_helper.h"
	#include "src/tint/lang/spirv/writer/spv_dump.h"

	namespace tint::spirv::writer {
	namespace {

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

	using SpirvASTPrinterTest = TestHelper;

	TEST_F(SpirvASTPrinterTest, Assign_Var) {
	auto* v = GlobalVar("var", ty.f32(), builtin::AddressSpace::kPrivate);

	auto* assign = Assign("var", 1_f);

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%3 = OpTypeFloat 32
	%2 = OpTypePointer Private %3
	%4 = OpConstantNull %3
	%1 = OpVariable %2 Private %4
	%5 = OpConstant %3 1
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(OpStore %1 %5
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Var_OutsideFunction_IsError) {
	EXPECT_FATAL_FAILURE(
	{
	ProgramBuilder pb;

	auto* v = pb.GlobalVar("var", pb.ty.f32(), builtin::AddressSpace::kPrivate);

	auto* assign = pb.Assign("var", pb.Expr(1_f));

	pb.WrapInFunction(assign);

	auto program = std::make_unique<Program>(std::move(pb));
	auto b = std::make_unique<Builder>(program.get());

	b->GenerateGlobalVariable(v);
	b->GenerateAssignStatement(assign);
	},
	"trying to add SPIR-V instruction 62 outside a function");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Var_ZeroInitializer) {
	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* val = Call<vec3<f32>>();
	auto* assign = Assign("var", val);

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(OpStore %1 %5
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Var_Complex_InitializerNestedVector) {
	auto* init = Call<vec3<f32>>(Call<vec2<f32>>(1_f, 2_f), 3_f);

	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* assign = Assign("var", init);

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	%6 = OpConstant %4 1
	%7 = OpConstant %4 2
	%8 = OpConstant %4 3
	%9 = OpConstantComposite %3 %6 %7 %8
	)");
	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(OpStore %1 %9
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Var_Complex_Initializer) {
	auto* init = Call<vec3<f32>>(1_f, 2_f, 3_f);

	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* assign = Assign("var", init);

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	%6 = OpConstant %4 1
	%7 = OpConstant %4 2
	%8 = OpConstant %4 3
	%9 = OpConstantComposite %3 %6 %7 %8
	)");
	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(OpStore %1 %9
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_StructMember) {
	// my_struct {
	// a : f32
	// b : f32
	// }
	// var ident : my_struct
	// ident.b = 4.0;

	auto* s = Structure("my_struct", utils::Vector{
	Member("a", ty.f32()),
	Member("b", ty.f32()),
	});

	auto* v = Var("ident", ty.Of(s));

	auto* assign = Assign(MemberAccessor("ident", "b"), Expr(4_f));

	WrapInFunction(v, assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateFunctionVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeStruct %4 %4
	%2 = OpTypePointer Function %3
	%5 = OpConstantNull %3
	%6 = OpTypeInt 32 0
	%7 = OpConstant %6 1
	%8 = OpTypePointer Function %4
	%10 = OpConstant %4 4
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(%9 = OpAccessChain %8 %1 %7
	OpStore %9 %10
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Vector) {
	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* val = Call<vec3<f32>>(1_f, 1_f, 3_f);
	auto* assign = Assign("var", val);

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	%6 = OpConstant %4 1
	%7 = OpConstant %4 3
	%8 = OpConstantComposite %3 %6 %6 %7
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(OpStore %1 %8
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Vector_MemberByName) {
	// var.y = 1

	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* assign = Assign(MemberAccessor("var", "y"), Expr(1_f));

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	%6 = OpTypeInt 32 0
	%7 = OpConstant %6 1
	%8 = OpTypePointer Private %4
	%10 = OpConstant %4 1
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(%9 = OpAccessChain %8 %1 %7
	OpStore %9 %10
	)");
	}

	TEST_F(SpirvASTPrinterTest, Assign_Vector_MemberByIndex) {
	// var[1] = 1

	auto* v = GlobalVar("var", ty.vec3<f32>(), builtin::AddressSpace::kPrivate);

	auto* assign = Assign(IndexAccessor("var", 1_i), Expr(1_f));

	WrapInFunction(assign);

	Builder& b = Build();

	b.PushFunctionForTesting();
	EXPECT_TRUE(b.GenerateGlobalVariable(v)) << b.Diagnostics();
	ASSERT_FALSE(b.has_error()) << b.Diagnostics();

	EXPECT_TRUE(b.GenerateAssignStatement(assign)) << b.Diagnostics();
	EXPECT_FALSE(b.has_error());

	EXPECT_EQ(DumpInstructions(b.Module().Types()), R"(%4 = OpTypeFloat 32
	%3 = OpTypeVector %4 3
	%2 = OpTypePointer Private %3
	%5 = OpConstantNull %3
	%1 = OpVariable %2 Private %5
	%6 = OpTypeInt 32 1
	%7 = OpConstant %6 1
	%8 = OpTypePointer Private %4
	%10 = OpConstant %4 1
	)");

	EXPECT_EQ(DumpInstructions(b.CurrentFunction().instructions()),
	R"(%9 = OpAccessChain %8 %1 %7
	OpStore %9 %10
	)");
	}

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