// Copyright 2021 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/tint/resolver/resolver.h" #include "gtest/gtest.h" #include "src/tint/resolver/resolver_test_helper.h" #include "src/tint/sem/expression.h" #include "src/tint/sem/for_loop_statement.h" #include "src/tint/sem/if_statement.h" #include "src/tint/sem/switch_statement.h" using namespace tint::number_suffixes; // NOLINT namespace tint::resolver { namespace { class ResolverBehaviorTest : public ResolverTest { protected: void SetUp() override { // Create a function called 'DiscardOrNext' which returns an i32, and has // the behavior of {Discard, Return}, which when called, will have the // behavior {Discard, Next}. Func("DiscardOrNext", {}, ty.i32(), { If(true, Block(Discard())), Return(1_i), }); } }; TEST_F(ResolverBehaviorTest, ExprBinaryOp_LHS) { auto* stmt = Decl(Var("lhs", ty.i32(), Add(Call("DiscardOrNext"), 1_i))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, ExprBinaryOp_RHS) { auto* stmt = Decl(Var("lhs", ty.i32(), Add(1_i, Call("DiscardOrNext")))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, ExprBitcastOp) { auto* stmt = Decl(Var("lhs", ty.u32(), Bitcast(Call("DiscardOrNext")))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, ExprIndex_Arr) { Func("ArrayDiscardOrNext", {}, ty.array(), { If(true, Block(Discard())), Return(Construct(ty.array())), }); auto* stmt = Decl(Var("lhs", ty.i32(), IndexAccessor(Call("ArrayDiscardOrNext"), 1_i))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, ExprIndex_Idx) { auto* stmt = Decl(Var("lhs", ty.i32(), IndexAccessor("arr", Call("DiscardOrNext")))); WrapInFunction(Decl(Var("arr", ty.array())), // stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, ExprUnaryOp) { auto* stmt = Decl(Var("lhs", ty.i32(), create(ast::UnaryOp::kComplement, Call("DiscardOrNext")))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtAssign) { auto* stmt = Assign("lhs", "rhs"); WrapInFunction(Decl(Var("lhs", ty.i32())), // Decl(Var("rhs", ty.i32())), // stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtAssign_LHSDiscardOrNext) { auto* stmt = Assign(IndexAccessor("lhs", Call("DiscardOrNext")), 1_i); WrapInFunction(Decl(Var("lhs", ty.array())), // stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtAssign_RHSDiscardOrNext) { auto* stmt = Assign("lhs", Call("DiscardOrNext")); WrapInFunction(Decl(Var("lhs", ty.i32())), // stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtBlockEmpty) { auto* stmt = Block(); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtBlockSingleStmt) { auto* stmt = Block(Discard()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtCallReturn) { Func("f", {}, ty.void_(), {Return()}); auto* stmt = CallStmt(Call("f")); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtCallFuncDiscard) { Func("f", {}, ty.void_(), {Discard()}); auto* stmt = CallStmt(Call("f")); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtCallFuncMayDiscard) { auto* stmt = For(Decl(Var("v", ty.i32(), Call("DiscardOrNext"))), nullptr, nullptr, Block(Break())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtBreak) { auto* stmt = Break(); WrapInFunction(Loop(Block(stmt))); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kBreak); } TEST_F(ResolverBehaviorTest, StmtContinue) { auto* stmt = Continue(); WrapInFunction(Loop(Block(If(true, Block(Break())), // stmt))); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kContinue); } TEST_F(ResolverBehaviorTest, StmtDiscard) { auto* stmt = Discard(); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtForLoopEmpty_NoExit) { auto* stmt = For(Source{{12, 34}}, nullptr, nullptr, nullptr, Block()); WrapInFunction(stmt); EXPECT_FALSE(r()->Resolve()); EXPECT_EQ(r()->error(), "12:34 error: for-loop does not exit"); } TEST_F(ResolverBehaviorTest, StmtForLoopBreak) { auto* stmt = For(nullptr, nullptr, nullptr, Block(Break())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtForLoopContinue_NoExit) { auto* stmt = For(Source{{12, 34}}, nullptr, nullptr, nullptr, Block(Continue())); WrapInFunction(stmt); EXPECT_FALSE(r()->Resolve()); EXPECT_EQ(r()->error(), "12:34 error: for-loop does not exit"); } TEST_F(ResolverBehaviorTest, StmtForLoopDiscard) { auto* stmt = For(nullptr, nullptr, nullptr, Block(Discard())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtForLoopReturn) { auto* stmt = For(nullptr, nullptr, nullptr, Block(Return())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kReturn); } TEST_F(ResolverBehaviorTest, StmtForLoopBreak_InitCallFuncMayDiscard) { auto* stmt = For(Decl(Var("v", ty.i32(), Call("DiscardOrNext"))), nullptr, nullptr, Block(Break())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtForLoopEmpty_InitCallFuncMayDiscard) { auto* stmt = For(Decl(Var("v", ty.i32(), Call("DiscardOrNext"))), nullptr, nullptr, Block()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtForLoopEmpty_CondTrue) { auto* stmt = For(nullptr, true, nullptr, Block()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtForLoopEmpty_CondCallFuncMayDiscard) { auto* stmt = For(nullptr, Equal(Call("DiscardOrNext"), 1_i), nullptr, Block()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtIfTrue_ThenEmptyBlock) { auto* stmt = If(true, Block()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtIfTrue_ThenDiscard) { auto* stmt = If(true, Block(Discard())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtIfTrue_ThenEmptyBlock_ElseDiscard) { auto* stmt = If(true, Block(), Else(Block(Discard()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtIfTrue_ThenDiscard_ElseDiscard) { auto* stmt = If(true, Block(Discard()), Else(Block(Discard()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtIfCallFuncMayDiscard_ThenEmptyBlock) { auto* stmt = If(Equal(Call("DiscardOrNext"), 1_i), Block()); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtIfTrue_ThenEmptyBlock_ElseCallFuncMayDiscard) { auto* stmt = If(true, Block(), // Else(If(Equal(Call("DiscardOrNext"), 1_i), Block()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtLetDecl) { auto* stmt = Decl(Let("v", ty.i32(), Expr(1_i))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtLetDecl_RHSDiscardOrNext) { auto* stmt = Decl(Let("lhs", ty.i32(), Call("DiscardOrNext"))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtLoopEmpty_NoExit) { auto* stmt = Loop(Source{{12, 34}}, Block()); WrapInFunction(stmt); EXPECT_FALSE(r()->Resolve()); EXPECT_EQ(r()->error(), "12:34 error: loop does not exit"); } TEST_F(ResolverBehaviorTest, StmtLoopBreak) { auto* stmt = Loop(Block(Break())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtLoopContinue_NoExit) { auto* stmt = Loop(Source{{12, 34}}, Block(Continue())); WrapInFunction(stmt); EXPECT_FALSE(r()->Resolve()); EXPECT_EQ(r()->error(), "12:34 error: loop does not exit"); } TEST_F(ResolverBehaviorTest, StmtLoopDiscard) { auto* stmt = Loop(Block(Discard())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtLoopReturn) { auto* stmt = Loop(Block(Return())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kReturn); } TEST_F(ResolverBehaviorTest, StmtLoopEmpty_ContEmpty_NoExit) { auto* stmt = Loop(Source{{12, 34}}, Block(), Block()); WrapInFunction(stmt); EXPECT_FALSE(r()->Resolve()); EXPECT_EQ(r()->error(), "12:34 error: loop does not exit"); } TEST_F(ResolverBehaviorTest, StmtLoopEmpty_ContIfTrueBreak) { auto* stmt = Loop(Block(), Block(If(true, Block(Break())))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtReturn) { auto* stmt = Return(); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kReturn); } TEST_F(ResolverBehaviorTest, StmtReturn_DiscardOrNext) { auto* stmt = Return(Call("DiscardOrNext")); Func("F", {}, ty.i32(), {stmt}); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kReturn, sem::Behavior::kDiscard)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondTrue_DefaultEmpty) { auto* stmt = Switch(1_i, DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_DefaultEmpty) { auto* stmt = Switch(1_i, DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_DefaultDiscard) { auto* stmt = Switch(1_i, DefaultCase(Block(Discard()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_DefaultReturn) { auto* stmt = Switch(1_i, DefaultCase(Block(Return()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kReturn); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Empty_DefaultEmpty) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block()), DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Empty_DefaultDiscard) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block()), DefaultCase(Block(Discard()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kNext, sem::Behavior::kDiscard)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Empty_DefaultReturn) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block()), DefaultCase(Block(Return()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kNext, sem::Behavior::kReturn)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Discard_DefaultEmpty) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block(Discard())), DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Discard_DefaultDiscard) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block(Discard())), DefaultCase(Block(Discard()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kDiscard); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Discard_DefaultReturn) { auto* stmt = Switch(1_i, Case(Expr(0_i), Block(Discard())), DefaultCase(Block(Return()))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kReturn)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondLiteral_Case0Discard_Case1Return_DefaultEmpty) { auto* stmt = Switch(1_i, // Case(Expr(0_i), Block(Discard())), // Case(Expr(1_i), Block(Return())), // DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext, sem::Behavior::kReturn)); } TEST_F(ResolverBehaviorTest, StmtSwitch_CondCallFuncMayDiscard_DefaultEmpty) { auto* stmt = Switch(Call("DiscardOrNext"), DefaultCase(Block())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } TEST_F(ResolverBehaviorTest, StmtVarDecl) { auto* stmt = Decl(Var("v", ty.i32())); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behavior::kNext); } TEST_F(ResolverBehaviorTest, StmtVarDecl_RHSDiscardOrNext) { auto* stmt = Decl(Var("lhs", ty.i32(), Call("DiscardOrNext"))); WrapInFunction(stmt); ASSERT_TRUE(r()->Resolve()) << r()->error(); auto* sem = Sem().Get(stmt); EXPECT_EQ(sem->Behaviors(), sem::Behaviors(sem::Behavior::kDiscard, sem::Behavior::kNext)); } } // namespace } // namespace tint::resolver