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dawn-cmake/src/reader/wgsl/parser_impl_const_expr_test.cc
James Price 3189bf02e6 reader/wgsl: Allow trailing commas in lists 
Also allows empty constexpr type constructors.

Fixed: tint:739
Change-Id: Ic4729c13b6ac538491d5d1d3c7960e78fac80127
Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/49443
Commit-Queue: James Price <jrprice@google.com>
Auto-Submit: James Price <jrprice@google.com>
Kokoro: Kokoro <noreply+kokoro@google.com>
Reviewed-by: Ben Clayton <bclayton@google.com>
2021-04-29 15:56:54 +00:00

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// 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 "src/reader/wgsl/parser_impl_test_helper.h"
namespace tint {
namespace reader {
namespace wgsl {
namespace {
TEST_F(ParserImplTest, ConstExpr_TypeDecl) {
auto p = parser("vec2<f32>(1., 2.)");
auto e = p->expect_const_expr();
ASSERT_FALSE(p->has_error()) << p->error();
ASSERT_FALSE(e.errored);
ASSERT_TRUE(e->Is<ast::ConstructorExpression>());
ASSERT_TRUE(e->Is<ast::TypeConstructorExpression>());
auto* t = e->As<ast::TypeConstructorExpression>();
ASSERT_TRUE(t->type()->Is<sem::Vector>());
EXPECT_EQ(t->type()->As<sem::Vector>()->size(), 2u);
ASSERT_EQ(t->values().size(), 2u);
auto& v = t->values();
ASSERT_TRUE(v[0]->Is<ast::ConstructorExpression>());
ASSERT_TRUE(v[0]->Is<ast::ScalarConstructorExpression>());
auto* c = v[0]->As<ast::ScalarConstructorExpression>();
ASSERT_TRUE(c->literal()->Is<ast::FloatLiteral>());
EXPECT_FLOAT_EQ(c->literal()->As<ast::FloatLiteral>()->value(), 1.);
ASSERT_TRUE(v[1]->Is<ast::ConstructorExpression>());
ASSERT_TRUE(v[1]->Is<ast::ScalarConstructorExpression>());
c = v[1]->As<ast::ScalarConstructorExpression>();
ASSERT_TRUE(c->literal()->Is<ast::FloatLiteral>());
EXPECT_FLOAT_EQ(c->literal()->As<ast::FloatLiteral>()->value(), 2.);
}
TEST_F(ParserImplTest, ConstExpr_TypeDecl_Empty) {
auto p = parser("vec2<f32>()");
auto e = p->expect_const_expr();
ASSERT_FALSE(p->has_error()) << p->error();
ASSERT_FALSE(e.errored);
ASSERT_TRUE(e->Is<ast::ConstructorExpression>());
ASSERT_TRUE(e->Is<ast::TypeConstructorExpression>());
auto* t = e->As<ast::TypeConstructorExpression>();
ASSERT_TRUE(t->type()->Is<sem::Vector>());
EXPECT_EQ(t->type()->As<sem::Vector>()->size(), 2u);
ASSERT_EQ(t->values().size(), 0u);
}
TEST_F(ParserImplTest, ConstExpr_TypeDecl_TrailingComma) {
auto p = parser("vec2<f32>(1., 2.,)");
auto e = p->expect_const_expr();
ASSERT_FALSE(p->has_error()) << p->error();
ASSERT_FALSE(e.errored);
ASSERT_TRUE(e->Is<ast::ConstructorExpression>());
ASSERT_TRUE(e->Is<ast::TypeConstructorExpression>());
auto* t = e->As<ast::TypeConstructorExpression>();
ASSERT_TRUE(t->type()->Is<sem::Vector>());
EXPECT_EQ(t->type()->As<sem::Vector>()->size(), 2u);
ASSERT_EQ(t->values().size(), 2u);
ASSERT_TRUE(t->values()[0]->Is<ast::ScalarConstructorExpression>());
ASSERT_TRUE(t->values()[1]->Is<ast::ScalarConstructorExpression>());
}
TEST_F(ParserImplTest, ConstExpr_TypeDecl_MissingRightParen) {
auto p = parser("vec2<f32>(1., 2.");
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:17: expected ')' for type constructor");
}
TEST_F(ParserImplTest, ConstExpr_TypeDecl_MissingLeftParen) {
auto p = parser("vec2<f32> 1., 2.)");
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:11: expected '(' for type constructor");
}
TEST_F(ParserImplTest, ConstExpr_TypeDecl_MissingComma) {
auto p = parser("vec2<f32>(1. 2.");
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:14: expected ')' for type constructor");
}
TEST_F(ParserImplTest, ConstExpr_InvalidExpr) {
auto p = parser("vec2<f32>(1., if(a) {})");
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:15: unable to parse constant literal");
}
TEST_F(ParserImplTest, ConstExpr_ConstLiteral) {
auto p = parser("true");
auto e = p->expect_const_expr();
ASSERT_FALSE(p->has_error()) << p->error();
ASSERT_FALSE(e.errored);
ASSERT_NE(e.value, nullptr);
ASSERT_TRUE(e->Is<ast::ConstructorExpression>());
ASSERT_TRUE(e->Is<ast::ScalarConstructorExpression>());
auto* c = e->As<ast::ScalarConstructorExpression>();
ASSERT_TRUE(c->literal()->Is<ast::BoolLiteral>());
EXPECT_TRUE(c->literal()->As<ast::BoolLiteral>()->IsTrue());
}
TEST_F(ParserImplTest, ConstExpr_ConstLiteral_Invalid) {
auto p = parser("invalid");
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:1: unknown constructed type 'invalid'");
}
TEST_F(ParserImplTest, ConstExpr_Recursion) {
std::stringstream out;
for (size_t i = 0; i < 200; i++) {
out << "f32(";
}
out << "1.0";
for (size_t i = 0; i < 200; i++) {
out << ")";
}
auto p = parser(out.str());
auto e = p->expect_const_expr();
ASSERT_TRUE(p->has_error());
ASSERT_TRUE(e.errored);
ASSERT_EQ(e.value, nullptr);
EXPECT_EQ(p->error(), "1:517: maximum parser recursive depth reached");
}
} // namespace
} // namespace wgsl
} // namespace reader
} // namespace tint
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