src/writer/spirv/builder_call_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 <memory>

 #include "gtest/gtest.h"
 #include "src/ast/binary_expression.h"
 #include "src/ast/call_expression.h"
 #include "src/ast/call_statement.h"
 #include "src/ast/float_literal.h"
 #include "src/ast/identifier_expression.h"
 #include "src/ast/return_statement.h"
 #include "src/ast/scalar_constructor_expression.h"
 #include "src/ast/sint_literal.h"
 #include "src/ast/type/f32_type.h"
 #include "src/ast/type/i32_type.h"
 #include "src/ast/type/void_type.h"
 #include "src/context.h"
 #include "src/type_determiner.h"
 #include "src/writer/spirv/builder.h"
 #include "src/writer/spirv/spv_dump.h"

 namespace tint {
 namespace writer {
 namespace spirv {
 namespace {

 using BuilderTest = testing::Test;

 TEST_F(BuilderTest, Expression_Call) {
   ast::type::F32Type f32;
   ast::type::VoidType void_type;

   ast::VariableList func_params;
   func_params.push_back(
       std::make_unique<ast::Variable>("a", ast::StorageClass::kFunction, &f32));
   func_params.push_back(
       std::make_unique<ast::Variable>("b", ast::StorageClass::kFunction, &f32));

   ast::Function a_func("a_func", std::move(func_params), &f32);

   auto body = std::make_unique<ast::BlockStatement>();
   body->append(std::make_unique<ast::ReturnStatement>(
       std::make_unique<ast::BinaryExpression>(
           ast::BinaryOp::kAdd, std::make_unique<ast::IdentifierExpression>("a"),
           std::make_unique<ast::IdentifierExpression>("b"))));
   a_func.set_body(std::move(body));

   ast::Function func("main", {}, &void_type);

   ast::ExpressionList call_params;
   call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
       std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
   call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
       std::make_unique<ast::FloatLiteral>(&f32, 1.f)));

   ast::CallExpression expr(
       std::make_unique<ast::IdentifierExpression>("a_func"),
       std::move(call_params));

   Context ctx;
   ast::Module mod;
   TypeDeterminer td(&ctx, &mod);
   ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();
   ASSERT_TRUE(td.DetermineFunction(&a_func)) << td.error();
   ASSERT_TRUE(td.DetermineResultType(&expr)) << td.error();

   Builder b(&mod);
   ASSERT_TRUE(b.GenerateFunction(&a_func)) << b.error();
   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

   EXPECT_EQ(b.GenerateCallExpression(&expr), 14u) << b.error();
   EXPECT_EQ(DumpBuilder(b), R"(OpName %3 "a_func"
 OpName %4 "a"
 OpName %5 "b"
 OpName %12 "main"
 %2 = OpTypeFloat 32
 %1 = OpTypeFunction %2 %2 %2
 %11 = OpTypeVoid
 %10 = OpTypeFunction %11
 %15 = OpConstant %2 1
 %3 = OpFunction %2 None %1
 %4 = OpFunctionParameter %2
 %5 = OpFunctionParameter %2
 %6 = OpLabel
 %7 = OpLoad %2 %4
 %8 = OpLoad %2 %5
 %9 = OpFAdd %2 %7 %8
 OpReturnValue %9
 OpFunctionEnd
 %12 = OpFunction %11 None %10
 %13 = OpLabel
 %14 = OpFunctionCall %2 %3 %15 %15
 OpFunctionEnd
 )");
 }

 TEST_F(BuilderTest, Statement_Call) {
   ast::type::F32Type f32;
   ast::type::VoidType void_type;

   ast::VariableList func_params;
   func_params.push_back(
       std::make_unique<ast::Variable>("a", ast::StorageClass::kFunction, &f32));
   func_params.push_back(
       std::make_unique<ast::Variable>("b", ast::StorageClass::kFunction, &f32));

   ast::Function a_func("a_func", std::move(func_params), &void_type);

   auto body = std::make_unique<ast::BlockStatement>();
   body->append(std::make_unique<ast::ReturnStatement>(
       std::make_unique<ast::BinaryExpression>(
           ast::BinaryOp::kAdd, std::make_unique<ast::IdentifierExpression>("a"),
           std::make_unique<ast::IdentifierExpression>("b"))));
   a_func.set_body(std::move(body));

   ast::Function func("main", {}, &void_type);

   ast::ExpressionList call_params;
   call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
       std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
   call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
       std::make_unique<ast::FloatLiteral>(&f32, 1.f)));

   ast::CallStatement expr(std::make_unique<ast::CallExpression>(
       std::make_unique<ast::IdentifierExpression>("a_func"),
       std::move(call_params)));

   Context ctx;
   ast::Module mod;
   TypeDeterminer td(&ctx, &mod);
   ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();
   ASSERT_TRUE(td.DetermineFunction(&a_func)) << td.error();
   ASSERT_TRUE(td.DetermineResultType(&expr)) << td.error();

   Builder b(&mod);
   ASSERT_TRUE(b.GenerateFunction(&a_func)) << b.error();
   ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

   EXPECT_TRUE(b.GenerateStatement(&expr)) << b.error();
   EXPECT_EQ(DumpBuilder(b), R"(OpName %4 "a_func"
 OpName %5 "a"
 OpName %6 "b"
 OpName %12 "main"
 %2 = OpTypeVoid
 %3 = OpTypeFloat 32
 %1 = OpTypeFunction %2 %3 %3
 %11 = OpTypeFunction %2
 %15 = OpConstant %3 1
 %4 = OpFunction %2 None %1
 %5 = OpFunctionParameter %3
 %6 = OpFunctionParameter %3
 %7 = OpLabel
 %8 = OpLoad %3 %5
 %9 = OpLoad %3 %6
 %10 = OpFAdd %3 %8 %9
 OpReturnValue %10
 OpFunctionEnd
 %12 = OpFunction %2 None %11
 %13 = OpLabel
 %14 = OpFunctionCall %2 %4 %15 %15
 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 <memory>

	#include "gtest/gtest.h"
	#include "src/ast/binary_expression.h"
	#include "src/ast/call_expression.h"
	#include "src/ast/call_statement.h"
	#include "src/ast/float_literal.h"
	#include "src/ast/identifier_expression.h"
	#include "src/ast/return_statement.h"
	#include "src/ast/scalar_constructor_expression.h"
	#include "src/ast/sint_literal.h"
	#include "src/ast/type/f32_type.h"
	#include "src/ast/type/i32_type.h"
	#include "src/ast/type/void_type.h"
	#include "src/context.h"
	#include "src/type_determiner.h"
	#include "src/writer/spirv/builder.h"
	#include "src/writer/spirv/spv_dump.h"

	namespace tint {
	namespace writer {
	namespace spirv {
	namespace {

	using BuilderTest = testing::Test;

	TEST_F(BuilderTest, Expression_Call) {
	ast::type::F32Type f32;
	ast::type::VoidType void_type;

	ast::VariableList func_params;
	func_params.push_back(
	std::make_unique<ast::Variable>("a", ast::StorageClass::kFunction, &f32));
	func_params.push_back(
	std::make_unique<ast::Variable>("b", ast::StorageClass::kFunction, &f32));

	ast::Function a_func("a_func", std::move(func_params), &f32);

	auto body = std::make_unique<ast::BlockStatement>();
	body->append(std::make_unique<ast::ReturnStatement>(
	std::make_unique<ast::BinaryExpression>(
	ast::BinaryOp::kAdd, std::make_unique<ast::IdentifierExpression>("a"),
	std::make_unique<ast::IdentifierExpression>("b"))));
	a_func.set_body(std::move(body));

	ast::Function func("main", {}, &void_type);

	ast::ExpressionList call_params;
	call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
	std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
	call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
	std::make_unique<ast::FloatLiteral>(&f32, 1.f)));

	ast::CallExpression expr(
	std::make_unique<ast::IdentifierExpression>("a_func"),
	std::move(call_params));

	Context ctx;
	ast::Module mod;
	TypeDeterminer td(&ctx, &mod);
	ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();
	ASSERT_TRUE(td.DetermineFunction(&a_func)) << td.error();
	ASSERT_TRUE(td.DetermineResultType(&expr)) << td.error();

	Builder b(&mod);
	ASSERT_TRUE(b.GenerateFunction(&a_func)) << b.error();
	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

	EXPECT_EQ(b.GenerateCallExpression(&expr), 14u) << b.error();
	EXPECT_EQ(DumpBuilder(b), R"(OpName %3 "a_func"
	OpName %4 "a"
	OpName %5 "b"
	OpName %12 "main"
	%2 = OpTypeFloat 32
	%1 = OpTypeFunction %2 %2 %2
	%11 = OpTypeVoid
	%10 = OpTypeFunction %11
	%15 = OpConstant %2 1
	%3 = OpFunction %2 None %1
	%4 = OpFunctionParameter %2
	%5 = OpFunctionParameter %2
	%6 = OpLabel
	%7 = OpLoad %2 %4
	%8 = OpLoad %2 %5
	%9 = OpFAdd %2 %7 %8
	OpReturnValue %9
	OpFunctionEnd
	%12 = OpFunction %11 None %10
	%13 = OpLabel
	%14 = OpFunctionCall %2 %3 %15 %15
	OpFunctionEnd
	)");
	}

	TEST_F(BuilderTest, Statement_Call) {
	ast::type::F32Type f32;
	ast::type::VoidType void_type;

	ast::VariableList func_params;
	func_params.push_back(
	std::make_unique<ast::Variable>("a", ast::StorageClass::kFunction, &f32));
	func_params.push_back(
	std::make_unique<ast::Variable>("b", ast::StorageClass::kFunction, &f32));

	ast::Function a_func("a_func", std::move(func_params), &void_type);

	auto body = std::make_unique<ast::BlockStatement>();
	body->append(std::make_unique<ast::ReturnStatement>(
	std::make_unique<ast::BinaryExpression>(
	ast::BinaryOp::kAdd, std::make_unique<ast::IdentifierExpression>("a"),
	std::make_unique<ast::IdentifierExpression>("b"))));
	a_func.set_body(std::move(body));

	ast::Function func("main", {}, &void_type);

	ast::ExpressionList call_params;
	call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
	std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
	call_params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
	std::make_unique<ast::FloatLiteral>(&f32, 1.f)));

	ast::CallStatement expr(std::make_unique<ast::CallExpression>(
	std::make_unique<ast::IdentifierExpression>("a_func"),
	std::move(call_params)));

	Context ctx;
	ast::Module mod;
	TypeDeterminer td(&ctx, &mod);
	ASSERT_TRUE(td.DetermineFunction(&func)) << td.error();
	ASSERT_TRUE(td.DetermineFunction(&a_func)) << td.error();
	ASSERT_TRUE(td.DetermineResultType(&expr)) << td.error();

	Builder b(&mod);
	ASSERT_TRUE(b.GenerateFunction(&a_func)) << b.error();
	ASSERT_TRUE(b.GenerateFunction(&func)) << b.error();

	EXPECT_TRUE(b.GenerateStatement(&expr)) << b.error();
	EXPECT_EQ(DumpBuilder(b), R"(OpName %4 "a_func"
	OpName %5 "a"
	OpName %6 "b"
	OpName %12 "main"
	%2 = OpTypeVoid
	%3 = OpTypeFloat 32
	%1 = OpTypeFunction %2 %3 %3
	%11 = OpTypeFunction %2
	%15 = OpConstant %3 1
	%4 = OpFunction %2 None %1
	%5 = OpFunctionParameter %3
	%6 = OpFunctionParameter %3
	%7 = OpLabel
	%8 = OpLoad %3 %5
	%9 = OpLoad %3 %6
	%10 = OpFAdd %3 %8 %9
	OpReturnValue %10
	OpFunctionEnd
	%12 = OpFunction %2 None %11
	%13 = OpLabel
	%14 = OpFunctionCall %2 %4 %15 %15
	OpFunctionEnd
	)");
	}

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