// 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/ast/workgroup_attribute.h" #include "src/reader/wgsl/parser_impl_test_helper.h" namespace tint { namespace reader { namespace wgsl { namespace { TEST_F(ParserImplTest, FunctionDecl) { auto p = parser("fn main(a : i32, b : f32) { return; }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); EXPECT_FALSE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_FALSE(p->has_error()) << p->error(); EXPECT_FALSE(f.errored); EXPECT_TRUE(f.matched); ASSERT_NE(f.value, nullptr); EXPECT_EQ(f->symbol, p->builder().Symbols().Get("main")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); ASSERT_EQ(f->params.size(), 2u); EXPECT_EQ(f->params[0]->symbol, p->builder().Symbols().Get("a")); EXPECT_EQ(f->params[1]->symbol, p->builder().Symbols().Get("b")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); auto* body = f->body; ASSERT_EQ(body->statements.size(), 1u); EXPECT_TRUE(body->statements[0]->Is()); } TEST_F(ParserImplTest, FunctionDecl_AttributeList) { auto p = parser("@workgroup_size(2, 3, 4) fn main() { return; }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); ASSERT_TRUE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_FALSE(p->has_error()) << p->error(); EXPECT_FALSE(f.errored); EXPECT_TRUE(f.matched); ASSERT_NE(f.value, nullptr); EXPECT_EQ(f->symbol, p->builder().Symbols().Get("main")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); ASSERT_EQ(f->params.size(), 0u); auto& attributes = f->attributes; ASSERT_EQ(attributes.size(), 1u); ASSERT_TRUE(attributes[0]->Is()); auto values = attributes[0]->As()->Values(); ASSERT_TRUE(values[0]->Is()); EXPECT_EQ(values[0]->As()->ValueAsU32(), 2u); ASSERT_TRUE(values[1]->Is()); EXPECT_EQ(values[1]->As()->ValueAsU32(), 3u); ASSERT_TRUE(values[2]->Is()); EXPECT_EQ(values[2]->As()->ValueAsU32(), 4u); auto* body = f->body; ASSERT_EQ(body->statements.size(), 1u); EXPECT_TRUE(body->statements[0]->Is()); } TEST_F(ParserImplTest, FunctionDecl_AttributeList_MultipleEntries) { auto p = parser(R"( @workgroup_size(2, 3, 4) @stage(compute) fn main() { return; })"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); ASSERT_TRUE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_FALSE(p->has_error()) << p->error(); EXPECT_FALSE(f.errored); EXPECT_TRUE(f.matched); ASSERT_NE(f.value, nullptr); EXPECT_EQ(f->symbol, p->builder().Symbols().Get("main")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); ASSERT_EQ(f->params.size(), 0u); auto& attributes = f->attributes; ASSERT_EQ(attributes.size(), 2u); ASSERT_TRUE(attributes[0]->Is()); auto values = attributes[0]->As()->Values(); ASSERT_TRUE(values[0]->Is()); EXPECT_EQ(values[0]->As()->ValueAsU32(), 2u); ASSERT_TRUE(values[1]->Is()); EXPECT_EQ(values[1]->As()->ValueAsU32(), 3u); ASSERT_TRUE(values[2]->Is()); EXPECT_EQ(values[2]->As()->ValueAsU32(), 4u); ASSERT_TRUE(attributes[1]->Is()); EXPECT_EQ(attributes[1]->As()->stage, ast::PipelineStage::kCompute); auto* body = f->body; ASSERT_EQ(body->statements.size(), 1u); EXPECT_TRUE(body->statements[0]->Is()); } TEST_F(ParserImplTest, FunctionDecl_AttributeList_MultipleLists) { auto p = parser(R"( @workgroup_size(2, 3, 4) @stage(compute) fn main() { return; })"); auto attributes = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attributes.errored); ASSERT_TRUE(attributes.matched); auto f = p->function_decl(attributes.value); EXPECT_FALSE(p->has_error()) << p->error(); EXPECT_FALSE(f.errored); EXPECT_TRUE(f.matched); ASSERT_NE(f.value, nullptr); EXPECT_EQ(f->symbol, p->builder().Symbols().Get("main")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); ASSERT_EQ(f->params.size(), 0u); auto& attrs = f->attributes; ASSERT_EQ(attrs.size(), 2u); ASSERT_TRUE(attrs[0]->Is()); auto values = attrs[0]->As()->Values(); ASSERT_TRUE(values[0]->Is()); EXPECT_EQ(values[0]->As()->ValueAsU32(), 2u); ASSERT_TRUE(values[1]->Is()); EXPECT_EQ(values[1]->As()->ValueAsU32(), 3u); ASSERT_TRUE(values[2]->Is()); EXPECT_EQ(values[2]->As()->ValueAsU32(), 4u); ASSERT_TRUE(attrs[1]->Is()); EXPECT_EQ(attrs[1]->As()->stage, ast::PipelineStage::kCompute); auto* body = f->body; ASSERT_EQ(body->statements.size(), 1u); EXPECT_TRUE(body->statements[0]->Is()); } TEST_F(ParserImplTest, FunctionDecl_ReturnTypeAttributeList) { auto p = parser("fn main() -> @location(1) f32 { return 1.0; }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); EXPECT_FALSE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_FALSE(p->has_error()) << p->error(); EXPECT_FALSE(f.errored); EXPECT_TRUE(f.matched); ASSERT_NE(f.value, nullptr); EXPECT_EQ(f->symbol, p->builder().Symbols().Get("main")); ASSERT_NE(f->return_type, nullptr); EXPECT_TRUE(f->return_type->Is()); ASSERT_EQ(f->params.size(), 0u); auto& attributes = f->attributes; EXPECT_EQ(attributes.size(), 0u); auto& ret_type_attributes = f->return_type_attributes; ASSERT_EQ(ret_type_attributes.size(), 1u); auto* loc = ret_type_attributes[0]->As(); ASSERT_TRUE(loc != nullptr); EXPECT_EQ(loc->value, 1u); auto* body = f->body; ASSERT_EQ(body->statements.size(), 1u); EXPECT_TRUE(body->statements[0]->Is()); } TEST_F(ParserImplTest, FunctionDecl_InvalidHeader) { auto p = parser("fn main() -> { }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); EXPECT_FALSE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_TRUE(f.errored); EXPECT_FALSE(f.matched); EXPECT_TRUE(p->has_error()); EXPECT_EQ(f.value, nullptr); EXPECT_EQ(p->error(), "1:14: unable to determine function return type"); } TEST_F(ParserImplTest, FunctionDecl_InvalidBody) { auto p = parser("fn main() { return }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); EXPECT_FALSE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_TRUE(f.errored); EXPECT_FALSE(f.matched); EXPECT_TRUE(p->has_error()); EXPECT_EQ(f.value, nullptr); EXPECT_EQ(p->error(), "1:20: expected ';' for return statement"); } TEST_F(ParserImplTest, FunctionDecl_MissingLeftBrace) { auto p = parser("fn main() return; }"); auto attrs = p->attribute_list(); EXPECT_FALSE(p->has_error()) << p->error(); ASSERT_FALSE(attrs.errored); EXPECT_FALSE(attrs.matched); auto f = p->function_decl(attrs.value); EXPECT_TRUE(f.errored); EXPECT_FALSE(f.matched); EXPECT_TRUE(p->has_error()); EXPECT_EQ(f.value, nullptr); EXPECT_EQ(p->error(), "1:11: expected '{'"); } } // namespace } // namespace wgsl } // namespace reader } // namespace tint