src/reader/wgsl/parser_impl_multiplicative_expression_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 "gtest/gtest.h"
 #include "src/ast/binary_expression.h"
 #include "src/ast/bool_literal.h"
 #include "src/ast/identifier_expression.h"
 #include "src/ast/scalar_constructor_expression.h"
 #include "src/reader/wgsl/parser_impl.h"
 #include "src/reader/wgsl/parser_impl_test_helper.h"

 namespace tint {
 namespace reader {
 namespace wgsl {
 namespace {

 TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Multiply) {
   auto p = parser("a * true");
   auto e = p->multiplicative_expression();
   EXPECT_TRUE(e.matched);
   EXPECT_FALSE(e.errored);
   EXPECT_FALSE(p->has_error()) << p->error();
   ASSERT_NE(e.value, nullptr);

   ASSERT_TRUE(e->Is<ast::BinaryExpression>());
   auto* rel = e->As<ast::BinaryExpression>();
   EXPECT_EQ(ast::BinaryOp::kMultiply, rel->op());

   ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
   auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
   EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

   ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
   ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
   auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
   ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
   ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
 }

 TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Divide) {
   auto p = parser("a / true");
   auto e = p->multiplicative_expression();
   EXPECT_TRUE(e.matched);
   EXPECT_FALSE(e.errored);
   EXPECT_FALSE(p->has_error()) << p->error();
   ASSERT_NE(e.value, nullptr);

   ASSERT_TRUE(e->Is<ast::BinaryExpression>());
   auto* rel = e->As<ast::BinaryExpression>();
   EXPECT_EQ(ast::BinaryOp::kDivide, rel->op());

   ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
   auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
   EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

   ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
   ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
   auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
   ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
   ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
 }

 TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Modulo) {
   auto p = parser("a % true");
   auto e = p->multiplicative_expression();
   EXPECT_TRUE(e.matched);
   EXPECT_FALSE(e.errored);
   EXPECT_FALSE(p->has_error()) << p->error();
   ASSERT_NE(e.value, nullptr);

   ASSERT_TRUE(e->Is<ast::BinaryExpression>());
   auto* rel = e->As<ast::BinaryExpression>();
   EXPECT_EQ(ast::BinaryOp::kModulo, rel->op());

   ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
   auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
   EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

   ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
   ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
   auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
   ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
   ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
 }

 TEST_F(ParserImplTest, MultiplicativeExpression_InvalidLHS) {
   auto p = parser("if (a) {} * true");
   auto e = p->multiplicative_expression();
   EXPECT_FALSE(e.matched);
   EXPECT_FALSE(e.errored);
   EXPECT_FALSE(p->has_error()) << p->error();
   EXPECT_EQ(e.value, nullptr);
 }

 TEST_F(ParserImplTest, MultiplicativeExpression_InvalidRHS) {
   auto p = parser("true * if (a) {}");
   auto e = p->multiplicative_expression();
   EXPECT_FALSE(e.matched);
   EXPECT_TRUE(e.errored);
   EXPECT_EQ(e.value, nullptr);
   ASSERT_TRUE(p->has_error());
   EXPECT_EQ(p->error(), "1:8: unable to parse right side of * expression");
 }

 TEST_F(ParserImplTest, MultiplicativeExpression_NoOr_ReturnsLHS) {
   auto p = parser("a true");
   auto e = p->multiplicative_expression();
   EXPECT_TRUE(e.matched);
   EXPECT_FALSE(e.errored);
   EXPECT_FALSE(p->has_error()) << p->error();
   ASSERT_NE(e.value, nullptr);
   ASSERT_TRUE(e->Is<ast::IdentifierExpression>());
 }

 }  // namespace
 }  // namespace wgsl
 }  // namespace reader
 }  // 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 "gtest/gtest.h"
	#include "src/ast/binary_expression.h"
	#include "src/ast/bool_literal.h"
	#include "src/ast/identifier_expression.h"
	#include "src/ast/scalar_constructor_expression.h"
	#include "src/reader/wgsl/parser_impl.h"
	#include "src/reader/wgsl/parser_impl_test_helper.h"

	namespace tint {
	namespace reader {
	namespace wgsl {
	namespace {

	TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Multiply) {
	auto p = parser("a * true");
	auto e = p->multiplicative_expression();
	EXPECT_TRUE(e.matched);
	EXPECT_FALSE(e.errored);
	EXPECT_FALSE(p->has_error()) << p->error();
	ASSERT_NE(e.value, nullptr);

	ASSERT_TRUE(e->Is<ast::BinaryExpression>());
	auto* rel = e->As<ast::BinaryExpression>();
	EXPECT_EQ(ast::BinaryOp::kMultiply, rel->op());

	ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
	auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
	EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

	ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
	ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
	auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
	ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
	ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
	}

	TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Divide) {
	auto p = parser("a / true");
	auto e = p->multiplicative_expression();
	EXPECT_TRUE(e.matched);
	EXPECT_FALSE(e.errored);
	EXPECT_FALSE(p->has_error()) << p->error();
	ASSERT_NE(e.value, nullptr);

	ASSERT_TRUE(e->Is<ast::BinaryExpression>());
	auto* rel = e->As<ast::BinaryExpression>();
	EXPECT_EQ(ast::BinaryOp::kDivide, rel->op());

	ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
	auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
	EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

	ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
	ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
	auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
	ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
	ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
	}

	TEST_F(ParserImplTest, MultiplicativeExpression_Parses_Modulo) {
	auto p = parser("a % true");
	auto e = p->multiplicative_expression();
	EXPECT_TRUE(e.matched);
	EXPECT_FALSE(e.errored);
	EXPECT_FALSE(p->has_error()) << p->error();
	ASSERT_NE(e.value, nullptr);

	ASSERT_TRUE(e->Is<ast::BinaryExpression>());
	auto* rel = e->As<ast::BinaryExpression>();
	EXPECT_EQ(ast::BinaryOp::kModulo, rel->op());

	ASSERT_TRUE(rel->lhs()->Is<ast::IdentifierExpression>());
	auto* ident = rel->lhs()->As<ast::IdentifierExpression>();
	EXPECT_EQ(ident->symbol(), p->get_module().RegisterSymbol("a"));

	ASSERT_TRUE(rel->rhs()->Is<ast::ConstructorExpression>());
	ASSERT_TRUE(rel->rhs()->Is<ast::ScalarConstructorExpression>());
	auto* init = rel->rhs()->As<ast::ScalarConstructorExpression>();
	ASSERT_TRUE(init->literal()->Is<ast::BoolLiteral>());
	ASSERT_TRUE(init->literal()->As<ast::BoolLiteral>()->IsTrue());
	}

	TEST_F(ParserImplTest, MultiplicativeExpression_InvalidLHS) {
	auto p = parser("if (a) {} * true");
	auto e = p->multiplicative_expression();
	EXPECT_FALSE(e.matched);
	EXPECT_FALSE(e.errored);
	EXPECT_FALSE(p->has_error()) << p->error();
	EXPECT_EQ(e.value, nullptr);
	}

	TEST_F(ParserImplTest, MultiplicativeExpression_InvalidRHS) {
	auto p = parser("true * if (a) {}");
	auto e = p->multiplicative_expression();
	EXPECT_FALSE(e.matched);
	EXPECT_TRUE(e.errored);
	EXPECT_EQ(e.value, nullptr);
	ASSERT_TRUE(p->has_error());
	EXPECT_EQ(p->error(), "1:8: unable to parse right side of * expression");
	}

	TEST_F(ParserImplTest, MultiplicativeExpression_NoOr_ReturnsLHS) {
	auto p = parser("a true");
	auto e = p->multiplicative_expression();
	EXPECT_TRUE(e.matched);
	EXPECT_FALSE(e.errored);
	EXPECT_FALSE(p->has_error()) << p->error();
	ASSERT_NE(e.value, nullptr);
	ASSERT_TRUE(e->Is<ast::IdentifierExpression>());
	}

	} // namespace
	} // namespace wgsl
	} // namespace reader
	} // namespace tint