// 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/function.h" #include "src/ast/builtin_decoration.h" #include "src/ast/decorated_variable.h" #include "src/ast/discard_statement.h" #include "src/ast/location_decoration.h" #include "src/ast/pipeline_stage.h" #include "src/ast/test_helper.h" #include "src/ast/type/f32_type.h" #include "src/ast/type/i32_type.h" #include "src/ast/type/void_type.h" #include "src/ast/variable.h" #include "src/ast/workgroup_decoration.h" namespace tint { namespace ast { namespace { using FunctionTest = TestHelper; TEST_F(FunctionTest, Creation) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); auto* var = params[0]; Function f("func", params, &void_type, create()); EXPECT_EQ(f.name(), "func"); ASSERT_EQ(f.params().size(), 1u); EXPECT_EQ(f.return_type(), &void_type); EXPECT_EQ(f.params()[0], var); } TEST_F(FunctionTest, Creation_WithSource) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); Function f(Source{Source::Location{20, 2}}, "func", params, &void_type, create()); auto src = f.source(); EXPECT_EQ(src.range.begin.line, 20u); EXPECT_EQ(src.range.begin.column, 2u); } TEST_F(FunctionTest, AddDuplicateReferencedVariables) { type::Void void_type; type::I32 i32; Variable v("var", StorageClass::kInput, &i32); Function f("func", VariableList{}, &void_type, create()); f.add_referenced_module_variable(&v); ASSERT_EQ(f.referenced_module_variables().size(), 1u); EXPECT_EQ(f.referenced_module_variables()[0], &v); f.add_referenced_module_variable(&v); ASSERT_EQ(f.referenced_module_variables().size(), 1u); Variable v2("var2", StorageClass::kOutput, &i32); f.add_referenced_module_variable(&v2); ASSERT_EQ(f.referenced_module_variables().size(), 2u); EXPECT_EQ(f.referenced_module_variables()[1], &v2); } TEST_F(FunctionTest, GetReferenceLocations) { type::Void void_type; type::I32 i32; DecoratedVariable loc1(create("loc1", StorageClass::kInput, &i32)); loc1.set_decorations({create(0, Source{})}); DecoratedVariable loc2(create("loc2", StorageClass::kInput, &i32)); loc2.set_decorations({create(1, Source{})}); DecoratedVariable builtin1( create("builtin1", StorageClass::kInput, &i32)); builtin1.set_decorations( {create(Builtin::kPosition, Source{})}); DecoratedVariable builtin2( create("builtin2", StorageClass::kInput, &i32)); builtin2.set_decorations( {create(Builtin::kFragDepth, Source{})}); Function f("func", VariableList{}, &void_type, create()); f.add_referenced_module_variable(&loc1); f.add_referenced_module_variable(&builtin1); f.add_referenced_module_variable(&loc2); f.add_referenced_module_variable(&builtin2); ASSERT_EQ(f.referenced_module_variables().size(), 4u); auto ref_locs = f.referenced_location_variables(); ASSERT_EQ(ref_locs.size(), 2u); EXPECT_EQ(ref_locs[0].first, &loc1); EXPECT_EQ(ref_locs[0].second->value(), 0u); EXPECT_EQ(ref_locs[1].first, &loc2); EXPECT_EQ(ref_locs[1].second->value(), 1u); } TEST_F(FunctionTest, GetReferenceBuiltins) { type::Void void_type; type::I32 i32; DecoratedVariable loc1(create("loc1", StorageClass::kInput, &i32)); loc1.set_decorations({create(0, Source{})}); DecoratedVariable loc2(create("loc2", StorageClass::kInput, &i32)); loc2.set_decorations({create(1, Source{})}); DecoratedVariable builtin1( create("builtin1", StorageClass::kInput, &i32)); builtin1.set_decorations( {create(Builtin::kPosition, Source{})}); DecoratedVariable builtin2( create("builtin2", StorageClass::kInput, &i32)); builtin2.set_decorations( {create(Builtin::kFragDepth, Source{})}); Function f("func", VariableList{}, &void_type, create()); f.add_referenced_module_variable(&loc1); f.add_referenced_module_variable(&builtin1); f.add_referenced_module_variable(&loc2); f.add_referenced_module_variable(&builtin2); ASSERT_EQ(f.referenced_module_variables().size(), 4u); auto ref_locs = f.referenced_builtin_variables(); ASSERT_EQ(ref_locs.size(), 2u); EXPECT_EQ(ref_locs[0].first, &builtin1); EXPECT_EQ(ref_locs[0].second->value(), Builtin::kPosition); EXPECT_EQ(ref_locs[1].first, &builtin2); EXPECT_EQ(ref_locs[1].second->value(), Builtin::kFragDepth); } TEST_F(FunctionTest, AddDuplicateEntryPoints) { type::Void void_type; Function f("func", VariableList{}, &void_type, create()); f.add_ancestor_entry_point("main"); ASSERT_EQ(1u, f.ancestor_entry_points().size()); EXPECT_EQ("main", f.ancestor_entry_points()[0]); f.add_ancestor_entry_point("main"); ASSERT_EQ(1u, f.ancestor_entry_points().size()); EXPECT_EQ("main", f.ancestor_entry_points()[0]); } TEST_F(FunctionTest, IsValid) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); auto* block = create(); block->append(create()); Function f("func", params, &void_type, create()); f.set_body(block); EXPECT_TRUE(f.IsValid()); } TEST_F(FunctionTest, IsValid_EmptyName) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); Function f("", params, &void_type, create()); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, IsValid_MissingReturnType) { type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); Function f("func", params, nullptr, create()); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, IsValid_NullParam) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); params.push_back(nullptr); Function f("func", params, &void_type, create()); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, IsValid_InvalidParam) { type::Void void_type; VariableList params; params.push_back(create("var", StorageClass::kNone, nullptr)); Function f("func", params, &void_type, create()); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, IsValid_NullBodyStatement) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); auto* block = create(); block->append(create()); block->append(nullptr); Function f("func", params, &void_type, create()); f.set_body(block); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, IsValid_InvalidBodyStatement) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); auto* block = create(); block->append(create()); block->append(nullptr); Function f("func", params, &void_type, create()); f.set_body(block); EXPECT_FALSE(f.IsValid()); } TEST_F(FunctionTest, ToStr) { type::Void void_type; type::I32 i32; auto* block = create(); block->append(create()); Function f("func", {}, &void_type, create()); f.set_body(block); std::ostringstream out; f.to_str(out, 2); EXPECT_EQ(out.str(), R"( Function func -> __void () { Discard{} } )"); } TEST_F(FunctionTest, ToStr_WithDecoration) { type::Void void_type; type::I32 i32; auto* block = create(); block->append(create()); Function f("func", {}, &void_type, create()); f.set_body(block); f.add_decoration(create(2, 4, 6, Source{})); std::ostringstream out; f.to_str(out, 2); EXPECT_EQ(out.str(), R"( Function func -> __void WorkgroupDecoration{2 4 6} () { Discard{} } )"); } TEST_F(FunctionTest, ToStr_WithParams) { type::Void void_type; type::I32 i32; VariableList params; params.push_back(create("var", StorageClass::kNone, &i32)); auto* block = create(); block->append(create()); Function f("func", params, &void_type, create()); f.set_body(block); std::ostringstream out; f.to_str(out, 2); EXPECT_EQ(out.str(), R"( Function func -> __void ( Variable{ var none __i32 } ) { Discard{} } )"); } TEST_F(FunctionTest, TypeName) { type::Void void_type; Function f("func", {}, &void_type, create()); EXPECT_EQ(f.type_name(), "__func__void"); } TEST_F(FunctionTest, TypeName_WithParams) { type::Void void_type; type::I32 i32; type::F32 f32; VariableList params; params.push_back(create("var1", StorageClass::kNone, &i32)); params.push_back(create("var2", StorageClass::kNone, &f32)); Function f("func", params, &void_type, create()); EXPECT_EQ(f.type_name(), "__func__void__i32__f32"); } TEST_F(FunctionTest, GetLastStatement) { type::Void void_type; VariableList params; auto* body = create(); auto* stmt = create(); body->append(stmt); Function f("func", params, &void_type, create()); f.set_body(body); EXPECT_EQ(f.get_last_statement(), stmt); } TEST_F(FunctionTest, GetLastStatement_nullptr) { type::Void void_type; VariableList params; auto* body = create(); Function f("func", params, &void_type, create()); f.set_body(body); EXPECT_EQ(f.get_last_statement(), nullptr); } TEST_F(FunctionTest, WorkgroupSize_NoneSet) { type::Void void_type; Function f("f", {}, &void_type, create()); uint32_t x = 0; uint32_t y = 0; uint32_t z = 0; std::tie(x, y, z) = f.workgroup_size(); EXPECT_EQ(x, 1u); EXPECT_EQ(y, 1u); EXPECT_EQ(z, 1u); } TEST_F(FunctionTest, WorkgroupSize) { type::Void void_type; Function f("f", {}, &void_type, create()); f.add_decoration(create(2u, 4u, 6u, Source{})); uint32_t x = 0; uint32_t y = 0; uint32_t z = 0; std::tie(x, y, z) = f.workgroup_size(); EXPECT_EQ(x, 2u); EXPECT_EQ(y, 4u); EXPECT_EQ(z, 6u); } } // namespace } // namespace ast } // namespace tint