// Copyright 2022 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/ir/test_helper.h" #include "src/tint/ast/case_selector.h" #include "src/tint/ast/int_literal_expression.h" namespace tint::ir { namespace { using namespace tint::number_suffixes; // NOLINT using IR_BuilderImplTest = TestHelper; TEST_F(IR_BuilderImplTest, Func) { // func -> start -> end Func("f", utils::Empty, ty.void_(), utils::Empty); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); ASSERT_EQ(0u, m.entry_points.Length()); ASSERT_EQ(1u, m.functions.Length()); auto* f = m.functions[0]; EXPECT_NE(f->start_target, nullptr); EXPECT_NE(f->end_target, nullptr); EXPECT_EQ(1u, f->start_target->inbound_branches.Length()); EXPECT_EQ(1u, f->end_target->inbound_branches.Length()); EXPECT_EQ(f->start_target->branch_target, f->end_target); } TEST_F(IR_BuilderImplTest, EntryPoint) { Func("f", utils::Empty, ty.void_(), utils::Empty, utils::Vector{Stage(ast::PipelineStage::kFragment)}); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); ASSERT_EQ(1u, m.entry_points.Length()); EXPECT_EQ(m.functions[0], m.entry_points[0]); } TEST_F(IR_BuilderImplTest, IfStatement) { // func -> start -> if -> true block // -> false block // // [true block] -> if merge // [false block] -> if merge // [if merge] -> func end // auto* ast_if = If(true, Block(), Else(Block())); WrapInFunction(ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); EXPECT_TRUE(ir_if->Is()); auto* flow = ir_if->As(); ASSERT_NE(flow->true_target, nullptr); ASSERT_NE(flow->false_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->false_target->inbound_branches.Length()); EXPECT_EQ(2u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->true_target->branch_target, flow->merge_target); EXPECT_EQ(flow->false_target->branch_target, flow->merge_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); // Check condition ASSERT_TRUE(flow->condition->Is()); auto* instr = flow->condition->As(); ASSERT_TRUE(instr->IsBool()); EXPECT_TRUE(instr->AsBool()); } TEST_F(IR_BuilderImplTest, IfStatement_TrueReturns) { // func -> start -> if -> true block // -> false block // // [true block] -> func end // [false block] -> if merge // [if merge] -> func end // auto* ast_if = If(true, Block(Return())); WrapInFunction(ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); EXPECT_TRUE(ir_if->Is()); auto* flow = ir_if->As(); ASSERT_NE(flow->true_target, nullptr); ASSERT_NE(flow->false_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(2u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->true_target->branch_target, func->end_target); EXPECT_EQ(flow->false_target->branch_target, flow->merge_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, IfStatement_FalseReturns) { // func -> start -> if -> true block // -> false block // // [true block] -> if merge // [false block] -> func end // [if merge] -> func end // auto* ast_if = If(true, Block(), Else(Block(Return()))); WrapInFunction(ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); EXPECT_TRUE(ir_if->Is()); auto* flow = ir_if->As(); ASSERT_NE(flow->true_target, nullptr); ASSERT_NE(flow->false_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(2u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->true_target->branch_target, flow->merge_target); EXPECT_EQ(flow->false_target->branch_target, func->end_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, IfStatement_BothReturn) { // func -> start -> if -> true block // -> false block // // [true block] -> func end // [false block] -> func end // [if merge] -> nullptr // auto* ast_if = If(true, Block(Return()), Else(Block(Return()))); WrapInFunction(ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); EXPECT_TRUE(ir_if->Is()); auto* flow = ir_if->As(); ASSERT_NE(flow->true_target, nullptr); ASSERT_NE(flow->false_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->false_target->inbound_branches.Length()); EXPECT_EQ(0u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(2u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->true_target->branch_target, func->end_target); EXPECT_EQ(flow->false_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, IfStatement_JumpChainToMerge) { // if (true) { // loop { // break; // } // } // // func -> start -> if true // -> if false // // [if true] -> loop // [if false] -> if merge // [if merge] -> func end // [loop] -> loop start // [loop start] -> loop merge // [loop continuing] -> loop start // [loop merge] -> if merge // auto* ast_loop = Loop(Block(Break())); auto* ast_if = If(true, Block(ast_loop)); WrapInFunction(ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); EXPECT_TRUE(ir_if->Is()); auto* if_flow = ir_if->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(func->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, loop_flow); EXPECT_EQ(loop_flow->start_target->branch_target, loop_flow->merge_target); EXPECT_EQ(loop_flow->merge_target->branch_target, if_flow->merge_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, loop_flow->start_target); EXPECT_EQ(if_flow->false_target->branch_target, if_flow->merge_target); EXPECT_EQ(if_flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Loop_WithBreak) { // func -> start -> loop -> loop start -> loop merge -> func end // // [continuing] -> loop start // auto* ast_loop = Loop(Block(Break())); WrapInFunction(ast_loop); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* flow = ir_loop->As(); ASSERT_NE(flow->start_target, nullptr); ASSERT_NE(flow->continuing_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(2u, flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->continuing_target->branch_target, flow->start_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Loop_WithContinue) { // func -> start -> loop -> loop start -> if -> true block // -> false block // // [if true] -> loop merge // [if false] -> if merge // [if merge] -> loop continuing // [loop continuing] -> loop start // [loop merge] -> func end // auto* ast_if = If(true, Block(Break())); auto* ast_loop = Loop(Block(ast_if, Continue())); WrapInFunction(ast_loop); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); ASSERT_TRUE(ir_if->Is()); auto* if_flow = ir_if->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, loop_flow); EXPECT_EQ(loop_flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, loop_flow->merge_target); EXPECT_EQ(if_flow->false_target->branch_target, if_flow->merge_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, loop_flow->start_target); EXPECT_EQ(loop_flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Loop_WithContinuing_BreakIf) { // func -> start -> loop -> loop start -> continuing // // [loop continuing] -> if -> true branch // -> false branch // [if true] -> loop merge // [if false] -> if merge // [if merge] -> loop start // [loop merge] -> func end // auto* ast_break_if = BreakIf(true); auto* ast_loop = Loop(Block(), Block(ast_break_if)); WrapInFunction(ast_loop); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); auto* ir_break_if = b.FlowNodeForAstNode(ast_break_if); ASSERT_NE(ir_break_if, nullptr); ASSERT_TRUE(ir_break_if->Is()); auto* break_if_flow = ir_break_if->As(); ASSERT_NE(break_if_flow->true_target, nullptr); ASSERT_NE(break_if_flow->false_target, nullptr); ASSERT_NE(break_if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, break_if_flow->inbound_branches.Length()); EXPECT_EQ(1u, break_if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, break_if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, break_if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, loop_flow); EXPECT_EQ(loop_flow->start_target->branch_target, loop_flow->continuing_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, break_if_flow); EXPECT_EQ(break_if_flow->true_target->branch_target, loop_flow->merge_target); EXPECT_EQ(break_if_flow->false_target->branch_target, break_if_flow->merge_target); EXPECT_EQ(break_if_flow->merge_target->branch_target, loop_flow->start_target); EXPECT_EQ(loop_flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Loop_WithReturn) { // func -> start -> loop -> loop start -> if -> true block // -> false block // // [if true] -> func end // [if false] -> if merge // [if merge] -> loop continuing // [loop continuing] -> loop start // [loop merge] -> nullptr // auto* ast_if = If(true, Block(Return())); auto* ast_loop = Loop(Block(ast_if, Continue())); WrapInFunction(ast_loop); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); ASSERT_TRUE(ir_if->Is()); auto* if_flow = ir_if->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(loop_flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, func->end_target); EXPECT_EQ(if_flow->false_target->branch_target, if_flow->merge_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, loop_flow->start_target); EXPECT_EQ(func->start_target->branch_target, ir_loop); EXPECT_EQ(loop_flow->merge_target->branch_target, nullptr); // Check condition ASSERT_TRUE(if_flow->condition->Is()); auto* instr = if_flow->condition->As(); ASSERT_TRUE(instr->IsBool()); EXPECT_TRUE(instr->AsBool()); } TEST_F(IR_BuilderImplTest, Loop_WithOnlyReturn) { // { // loop { // return; // continue; // } // if true { return; } // } // // func -> start -> loop -> loop start -> return -> func end // // [loop continuing] -> loop start // [loop merge] -> nullptr // // Note, the continue; is here is a dead call, so we won't emit a branch to the continuing block // so the inbound_branches will be zero for continuing. // // The `if` after the `loop` is also eliminated as there is no control-flow path reaching the // block. auto* ast_loop = Loop(Block(Return(), Continue())); WrapInFunction(ast_loop, If(true, Block(Return()))); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(loop_flow->start_target->branch_target, func->end_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, loop_flow->start_target); EXPECT_EQ(func->start_target->branch_target, ir_loop); } TEST_F(IR_BuilderImplTest, Loop_WithOnlyReturn_ContinuingBreakIf) { // { // loop { // return; // continuing { // break if true; // } // } // if (true) { return; } // } // // func -> start -> loop -> loop start -> return -> func end // // [loop continuing] -> break if true // -> break if false // [break if true] -> loop merge // [break if false] -> if merge // [break if merge] -> loop start // [loop merge] -> nullptr // // In this case, the continuing block is dead code, but we don't really know that when parsing // so we end up with a branch into the loop merge target. The loop merge can tell it's dead code // so we can drop the if ater the loop. auto* ast_break_if = BreakIf(true); auto* ast_loop = Loop(Block(Return()), Block(ast_break_if)); auto* ast_if = If(true, Block(Return())); WrapInFunction(Block(ast_loop, ast_if)); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); auto* ir_if = b.FlowNodeForAstNode(ast_if); EXPECT_EQ(ir_if, nullptr); auto* ir_break_if = b.FlowNodeForAstNode(ast_break_if); ASSERT_NE(ir_break_if, nullptr); EXPECT_TRUE(ir_break_if->Is()); auto* break_if_flow = ir_break_if->As(); ASSERT_NE(break_if_flow->true_target, nullptr); ASSERT_NE(break_if_flow->false_target, nullptr); ASSERT_NE(break_if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); // This is 1 because only the loop branch happens. The subsequent if return is dead code. EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(loop_flow->start_target->branch_target, func->end_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, break_if_flow); EXPECT_EQ(func->start_target->branch_target, ir_loop); } TEST_F(IR_BuilderImplTest, Loop_WithIf_BothBranchesBreak) { // func -> start -> loop -> loop start -> if -> true branch // -> false branch // // [if true] -> loop merge // [if false] -> loop merge // [if merge] -> nullptr // [loop continuing] -> loop start // [loop merge] -> func end // auto* ast_if = If(true, Block(Break()), Else(Block(Break()))); auto* ast_loop = Loop(Block(ast_if, Continue())); WrapInFunction(ast_loop); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop = b.FlowNodeForAstNode(ast_loop); ASSERT_NE(ir_loop, nullptr); EXPECT_TRUE(ir_loop->Is()); auto* loop_flow = ir_loop->As(); ASSERT_NE(loop_flow->start_target, nullptr); ASSERT_NE(loop_flow->continuing_target, nullptr); ASSERT_NE(loop_flow->merge_target, nullptr); auto* ir_if = b.FlowNodeForAstNode(ast_if); ASSERT_NE(ir_if, nullptr); ASSERT_TRUE(ir_if->Is()); auto* if_flow = ir_if->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(0u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); // Note, the `continue` is dead code because both if branches go out of loop, so it just gets // dropped. EXPECT_EQ(func->start_target->branch_target, loop_flow); EXPECT_EQ(loop_flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, loop_flow->merge_target); EXPECT_EQ(if_flow->false_target->branch_target, loop_flow->merge_target); EXPECT_EQ(loop_flow->continuing_target->branch_target, loop_flow->start_target); EXPECT_EQ(loop_flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Loop_Nested) { // loop { // loop_a // loop { // loop_b // if (true) { break; } // if_a // if (true) { continue; } // if_b // continuing { // loop { // loop_c // break; // } // // loop { // loop_d // continuing { // break if (true); // if_c // } // } // } // } // if (true) { break; } // if_d // } // // func -> start -> loop_a -> loop_a start // // [loop_a start] -> loop_b // [loop_b start] -> if_a // [if_a true] -> loop_b merge // [if_a false] -> if_a merge // [if_a merge] -> if_b // [if_b true] -> loop_b continuing // [if_b false] -> if_b merge // [if_b merge] -> loop_b continug // [loop_b continuing] -> loop_c // [loop_c start] -> loop_c merge // [loop_c continuing] -> loop_c start // [loop_c merge] -> loop_d // [loop_d start] -> loop_d continuing // [loop_d continuing] -> if_c // [if_c true] -> loop_d merge // [if_c false] -> if_c merge // [if c merge] -> loop_d start // [loop_d merge] -> loop_b start // [loop_b merge] -> if_d // [if_d true] -> loop_a merge // [if_d false] -> if_d merge // [if_d merge] -> loop_a continuing // [loop_a continuing] -> loop_a start // [loop_a merge] -> func end // auto* ast_if_a = If(true, Block(Break())); auto* ast_if_b = If(true, Block(Continue())); auto* ast_if_c = BreakIf(true); auto* ast_if_d = If(true, Block(Break())); auto* ast_loop_d = Loop(Block(), Block(ast_if_c)); auto* ast_loop_c = Loop(Block(Break())); auto* ast_loop_b = Loop(Block(ast_if_a, ast_if_b), Block(ast_loop_c, ast_loop_d)); auto* ast_loop_a = Loop(Block(ast_loop_b, ast_if_d)); WrapInFunction(ast_loop_a); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_loop_a = b.FlowNodeForAstNode(ast_loop_a); ASSERT_NE(ir_loop_a, nullptr); EXPECT_TRUE(ir_loop_a->Is()); auto* loop_flow_a = ir_loop_a->As(); ASSERT_NE(loop_flow_a->start_target, nullptr); ASSERT_NE(loop_flow_a->continuing_target, nullptr); ASSERT_NE(loop_flow_a->merge_target, nullptr); auto* ir_loop_b = b.FlowNodeForAstNode(ast_loop_b); ASSERT_NE(ir_loop_b, nullptr); EXPECT_TRUE(ir_loop_b->Is()); auto* loop_flow_b = ir_loop_b->As(); ASSERT_NE(loop_flow_b->start_target, nullptr); ASSERT_NE(loop_flow_b->continuing_target, nullptr); ASSERT_NE(loop_flow_b->merge_target, nullptr); auto* ir_loop_c = b.FlowNodeForAstNode(ast_loop_c); ASSERT_NE(ir_loop_c, nullptr); EXPECT_TRUE(ir_loop_c->Is()); auto* loop_flow_c = ir_loop_c->As(); ASSERT_NE(loop_flow_c->start_target, nullptr); ASSERT_NE(loop_flow_c->continuing_target, nullptr); ASSERT_NE(loop_flow_c->merge_target, nullptr); auto* ir_loop_d = b.FlowNodeForAstNode(ast_loop_d); ASSERT_NE(ir_loop_d, nullptr); EXPECT_TRUE(ir_loop_d->Is()); auto* loop_flow_d = ir_loop_d->As(); ASSERT_NE(loop_flow_d->start_target, nullptr); ASSERT_NE(loop_flow_d->continuing_target, nullptr); ASSERT_NE(loop_flow_d->merge_target, nullptr); auto* ir_if_a = b.FlowNodeForAstNode(ast_if_a); ASSERT_NE(ir_if_a, nullptr); EXPECT_TRUE(ir_if_a->Is()); auto* if_flow_a = ir_if_a->As(); ASSERT_NE(if_flow_a->true_target, nullptr); ASSERT_NE(if_flow_a->false_target, nullptr); ASSERT_NE(if_flow_a->merge_target, nullptr); auto* ir_if_b = b.FlowNodeForAstNode(ast_if_b); ASSERT_NE(ir_if_b, nullptr); EXPECT_TRUE(ir_if_b->Is()); auto* if_flow_b = ir_if_b->As(); ASSERT_NE(if_flow_b->true_target, nullptr); ASSERT_NE(if_flow_b->false_target, nullptr); ASSERT_NE(if_flow_b->merge_target, nullptr); auto* ir_if_c = b.FlowNodeForAstNode(ast_if_c); ASSERT_NE(ir_if_c, nullptr); EXPECT_TRUE(ir_if_c->Is()); auto* if_flow_c = ir_if_c->As(); ASSERT_NE(if_flow_c->true_target, nullptr); ASSERT_NE(if_flow_c->false_target, nullptr); ASSERT_NE(if_flow_c->merge_target, nullptr); auto* ir_if_d = b.FlowNodeForAstNode(ast_if_d); ASSERT_NE(ir_if_d, nullptr); EXPECT_TRUE(ir_if_d->Is()); auto* if_flow_d = ir_if_d->As(); ASSERT_NE(if_flow_d->true_target, nullptr); ASSERT_NE(if_flow_d->false_target, nullptr); ASSERT_NE(if_flow_d->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, loop_flow_a->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow_a->start_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_a->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_a->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_b->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow_b->start_target->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow_b->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_b->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_c->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow_c->start_target->inbound_branches.Length()); EXPECT_EQ(0u, loop_flow_c->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_c->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_d->inbound_branches.Length()); EXPECT_EQ(2u, loop_flow_d->start_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_d->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, loop_flow_d->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_a->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_a->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_a->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_a->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_b->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_b->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_b->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_b->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_c->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_c->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_c->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_c->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_d->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_d->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_d->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow_d->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->start_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, loop_flow_a); EXPECT_EQ(loop_flow_a->start_target->branch_target, loop_flow_b); EXPECT_EQ(loop_flow_b->start_target->branch_target, if_flow_a); EXPECT_EQ(if_flow_a->true_target->branch_target, loop_flow_b->merge_target); EXPECT_EQ(if_flow_a->false_target->branch_target, if_flow_a->merge_target); EXPECT_EQ(if_flow_a->merge_target->branch_target, if_flow_b); EXPECT_EQ(if_flow_b->true_target->branch_target, loop_flow_b->continuing_target); EXPECT_EQ(if_flow_b->false_target->branch_target, if_flow_b->merge_target); EXPECT_EQ(if_flow_b->merge_target->branch_target, loop_flow_b->continuing_target); EXPECT_EQ(loop_flow_b->continuing_target->branch_target, loop_flow_c); EXPECT_EQ(loop_flow_c->start_target->branch_target, loop_flow_c->merge_target); EXPECT_EQ(loop_flow_c->continuing_target->branch_target, loop_flow_c->start_target); EXPECT_EQ(loop_flow_c->merge_target->branch_target, loop_flow_d); EXPECT_EQ(loop_flow_d->start_target->branch_target, loop_flow_d->continuing_target); EXPECT_EQ(loop_flow_d->continuing_target->branch_target, if_flow_c); EXPECT_EQ(if_flow_c->true_target->branch_target, loop_flow_d->merge_target); EXPECT_EQ(if_flow_c->false_target->branch_target, if_flow_c->merge_target); EXPECT_EQ(if_flow_c->merge_target->branch_target, loop_flow_d->start_target); EXPECT_EQ(loop_flow_d->merge_target->branch_target, loop_flow_b->start_target); EXPECT_EQ(loop_flow_b->merge_target->branch_target, if_flow_d); EXPECT_EQ(if_flow_d->true_target->branch_target, loop_flow_a->merge_target); EXPECT_EQ(if_flow_d->false_target->branch_target, if_flow_d->merge_target); EXPECT_EQ(if_flow_d->merge_target->branch_target, loop_flow_a->continuing_target); EXPECT_EQ(loop_flow_a->continuing_target->branch_target, loop_flow_a->start_target); EXPECT_EQ(loop_flow_a->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, While) { // { // while false { // } // } // // func -> while -> loop_start -> if true // -> if false // // [if true] -> if merge // [if false] -> while merge // [if merge] -> loop continuing // [loop continuing] -> loop start // [while merge] -> func end // auto* ast_while = While(false, Block()); WrapInFunction(ast_while); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_while = b.FlowNodeForAstNode(ast_while); ASSERT_NE(ir_while, nullptr); ASSERT_TRUE(ir_while->Is()); auto* flow = ir_while->As(); ASSERT_NE(flow->start_target, nullptr); ASSERT_NE(flow->continuing_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_NE(flow->start_target->branch_target, nullptr); ASSERT_TRUE(flow->start_target->branch_target->Is()); auto* if_flow = flow->start_target->branch_target->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(2u, flow->start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, if_flow->merge_target); EXPECT_EQ(if_flow->false_target->branch_target, flow->merge_target); EXPECT_EQ(if_flow->merge_target->branch_target, flow->continuing_target); EXPECT_EQ(flow->continuing_target->branch_target, flow->start_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); // Check condition ASSERT_TRUE(if_flow->condition->Is()); auto* instr = if_flow->condition->As(); ASSERT_TRUE(instr->IsBool()); EXPECT_FALSE(instr->AsBool()); } TEST_F(IR_BuilderImplTest, While_Return) { // { // while true { // return; // } // } // // func -> while -> if true // if false // // [if true] -> if merge // [if false] -> while merge // [if merge] -> func end // [while merge] -> func end // auto* ast_while = While(true, Block(Return())); WrapInFunction(ast_while); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_while = b.FlowNodeForAstNode(ast_while); ASSERT_NE(ir_while, nullptr); ASSERT_TRUE(ir_while->Is()); auto* flow = ir_while->As(); ASSERT_NE(flow->start_target, nullptr); ASSERT_NE(flow->continuing_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_NE(flow->start_target->branch_target, nullptr); ASSERT_TRUE(flow->start_target->branch_target->Is()); auto* if_flow = flow->start_target->branch_target->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(2u, func->end_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(2u, flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, if_flow->merge_target); EXPECT_EQ(if_flow->false_target->branch_target, flow->merge_target); EXPECT_EQ(if_flow->merge_target->branch_target, func->end_target); EXPECT_EQ(flow->continuing_target->branch_target, flow->start_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } // TODO(dsinclair): Enable when variable declarations and increment are supported TEST_F(IR_BuilderImplTest, DISABLED_For) { // for(var i: 0; i < 10; i++) { // } // // func -> loop -> loop start -> if true // -> if false // // [if true] -> if merge // [if false] -> loop merge // [if merge] -> loop continuing // [loop continuing] -> loop start // [loop merge] -> func end // auto* ast_for = For(Decl(Var("i", ty.i32())), LessThan("i", 10_a), Increment("i"), Block()); WrapInFunction(ast_for); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_for = b.FlowNodeForAstNode(ast_for); ASSERT_NE(ir_for, nullptr); ASSERT_TRUE(ir_for->Is()); auto* flow = ir_for->As(); ASSERT_NE(flow->start_target, nullptr); ASSERT_NE(flow->continuing_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_NE(flow->start_target->branch_target, nullptr); ASSERT_TRUE(flow->start_target->branch_target->Is()); auto* if_flow = flow->start_target->branch_target->As(); ASSERT_NE(if_flow->true_target, nullptr); ASSERT_NE(if_flow->false_target, nullptr); ASSERT_NE(if_flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(2u, flow->start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->true_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->false_target->inbound_branches.Length()); EXPECT_EQ(1u, if_flow->merge_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, flow); EXPECT_EQ(flow->start_target->branch_target, if_flow); EXPECT_EQ(if_flow->true_target->branch_target, if_flow->merge_target); EXPECT_EQ(if_flow->false_target->branch_target, flow->merge_target); EXPECT_EQ(if_flow->merge_target->branch_target, flow->continuing_target); EXPECT_EQ(flow->continuing_target->branch_target, flow->start_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); // Check condition ASSERT_TRUE(if_flow->condition->Is()); auto* instr = if_flow->condition->As(); ASSERT_TRUE(instr->IsBool()); EXPECT_FALSE(instr->AsBool()); } TEST_F(IR_BuilderImplTest, For_NoInitCondOrContinuing) { // for (;;) { // break; // } // // func -> loop -> loop start -> loop merge -> func end // auto* ast_for = For(nullptr, nullptr, nullptr, Block(Break())); WrapInFunction(ast_for); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_for = b.FlowNodeForAstNode(ast_for); ASSERT_NE(ir_for, nullptr); ASSERT_TRUE(ir_for->Is()); auto* flow = ir_for->As(); ASSERT_NE(flow->start_target, nullptr); ASSERT_NE(flow->continuing_target, nullptr); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(2u, flow->start_target->inbound_branches.Length()); EXPECT_EQ(0u, flow->continuing_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(flow->start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->continuing_target->branch_target, flow->start_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Switch) { // func -> switch -> case 1 // -> case 2 // -> default // // [case 1] -> switch merge // [case 2] -> switch merge // [default] -> switch merge // [switch merge] -> func end // auto* ast_switch = Switch( 1_i, utils::Vector{Case(utils::Vector{CaseSelector(0_i)}, Block()), Case(utils::Vector{CaseSelector(1_i)}, Block()), DefaultCase(Block())}); WrapInFunction(ast_switch); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_switch = b.FlowNodeForAstNode(ast_switch); ASSERT_NE(ir_switch, nullptr); ASSERT_TRUE(ir_switch->Is()); auto* flow = ir_switch->As(); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(3u, flow->cases.Length()); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; ASSERT_EQ(1u, flow->cases[0].selectors.Length()); ASSERT_TRUE(flow->cases[0].selectors[0]->expr->Is()); EXPECT_EQ(0_i, flow->cases[0].selectors[0]->expr->As()->value); ASSERT_EQ(1u, flow->cases[1].selectors.Length()); ASSERT_TRUE(flow->cases[1].selectors[0]->expr->Is()); EXPECT_EQ(1_i, flow->cases[1].selectors[0]->expr->As()->value); ASSERT_EQ(1u, flow->cases[2].selectors.Length()); EXPECT_TRUE(flow->cases[2].selectors[0]->IsDefault()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[0].start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[1].start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[2].start_target->inbound_branches.Length()); EXPECT_EQ(3u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, ir_switch); EXPECT_EQ(flow->cases[0].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->cases[1].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->cases[2].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); // Check condition ASSERT_TRUE(flow->condition->Is()); auto* instr = flow->condition->As(); ASSERT_TRUE(instr->IsI32()); EXPECT_EQ(1_i, instr->AsI32()); } TEST_F(IR_BuilderImplTest, Switch_OnlyDefault) { // func -> switch -> default -> switch merge -> func end // auto* ast_switch = Switch(1_i, utils::Vector{DefaultCase(Block())}); WrapInFunction(ast_switch); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_switch = b.FlowNodeForAstNode(ast_switch); ASSERT_NE(ir_switch, nullptr); ASSERT_TRUE(ir_switch->Is()); auto* flow = ir_switch->As(); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(1u, flow->cases.Length()); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; ASSERT_EQ(1u, flow->cases[0].selectors.Length()); EXPECT_TRUE(flow->cases[0].selectors[0]->IsDefault()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[0].start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, ir_switch); EXPECT_EQ(flow->cases[0].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Switch_WithBreak) { // { // switch(1) { // case 0: { // break; // if true { return;} // Dead code // } // default: {} // } // } // // func -> switch -> case 1 // -> default // // [case 1] -> switch merge // [default] -> switch merge // [switch merge] -> func end auto* ast_switch = Switch(1_i, utils::Vector{Case(utils::Vector{CaseSelector(0_i)}, Block(Break(), If(true, Block(Return())))), DefaultCase(Block())}); WrapInFunction(ast_switch); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); auto* ir_switch = b.FlowNodeForAstNode(ast_switch); ASSERT_NE(ir_switch, nullptr); ASSERT_TRUE(ir_switch->Is()); auto* flow = ir_switch->As(); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(2u, flow->cases.Length()); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; ASSERT_EQ(1u, flow->cases[0].selectors.Length()); ASSERT_TRUE(flow->cases[0].selectors[0]->expr->Is()); EXPECT_EQ(0_i, flow->cases[0].selectors[0]->expr->As()->value); ASSERT_EQ(1u, flow->cases[1].selectors.Length()); EXPECT_TRUE(flow->cases[1].selectors[0]->IsDefault()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[0].start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[1].start_target->inbound_branches.Length()); EXPECT_EQ(2u, flow->merge_target->inbound_branches.Length()); // This is 1 because the if is dead-code eliminated and the return doesn't happen. EXPECT_EQ(1u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, ir_switch); EXPECT_EQ(flow->cases[0].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->cases[1].start_target->branch_target, flow->merge_target); EXPECT_EQ(flow->merge_target->branch_target, func->end_target); } TEST_F(IR_BuilderImplTest, Switch_AllReturn) { // { // switch(1) { // case 0: { // return; // } // default: { // return; // } // } // if true { return; } // Dead code // } // // func -> switch -> case 1 // -> default // // [case 1] -> func end // [default] -> func end // [switch merge] -> nullptr // auto* ast_switch = Switch(1_i, utils::Vector{Case(utils::Vector{CaseSelector(0_i)}, Block(Return())), DefaultCase(Block(Return()))}); auto* ast_if = If(true, Block(Return())); WrapInFunction(ast_switch, ast_if); auto& b = CreateBuilder(); auto r = b.Build(); ASSERT_TRUE(r) << b.error(); auto m = r.Move(); ASSERT_EQ(b.FlowNodeForAstNode(ast_if), nullptr); auto* ir_switch = b.FlowNodeForAstNode(ast_switch); ASSERT_NE(ir_switch, nullptr); ASSERT_TRUE(ir_switch->Is()); auto* flow = ir_switch->As(); ASSERT_NE(flow->merge_target, nullptr); ASSERT_EQ(2u, flow->cases.Length()); ASSERT_EQ(1u, m.functions.Length()); auto* func = m.functions[0]; ASSERT_EQ(1u, flow->cases[0].selectors.Length()); ASSERT_TRUE(flow->cases[0].selectors[0]->expr->Is()); EXPECT_EQ(0_i, flow->cases[0].selectors[0]->expr->As()->value); ASSERT_EQ(1u, flow->cases[1].selectors.Length()); EXPECT_TRUE(flow->cases[1].selectors[0]->IsDefault()); EXPECT_EQ(1u, flow->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[0].start_target->inbound_branches.Length()); EXPECT_EQ(1u, flow->cases[1].start_target->inbound_branches.Length()); EXPECT_EQ(0u, flow->merge_target->inbound_branches.Length()); EXPECT_EQ(2u, func->end_target->inbound_branches.Length()); EXPECT_EQ(func->start_target->branch_target, ir_switch); EXPECT_EQ(flow->cases[0].start_target->branch_target, func->end_target); EXPECT_EQ(flow->cases[1].start_target->branch_target, func->end_target); EXPECT_EQ(flow->merge_target->branch_target, nullptr); } TEST_F(IR_BuilderImplTest, EmitLiteral_Bool_True) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(true)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsBool()); EXPECT_TRUE(val->AsBool()); } TEST_F(IR_BuilderImplTest, EmitLiteral_Bool_False) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(false)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsBool()); EXPECT_FALSE(val->AsBool()); } TEST_F(IR_BuilderImplTest, EmitLiteral_F32) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(1.2_f)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsF32()); EXPECT_EQ(1.2_f, val->AsF32()); } TEST_F(IR_BuilderImplTest, EmitLiteral_F16) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(1.2_h)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsF16()); EXPECT_EQ(1.2_h, val->AsF16()); } TEST_F(IR_BuilderImplTest, EmitLiteral_I32) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(-2_i)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsI32()); EXPECT_EQ(-2_i, val->AsI32()); } TEST_F(IR_BuilderImplTest, EmitLiteral_U32) { auto& b = CreateEmptyBuilder(); auto r = b.EmitLiteral(Expr(2_u)); ASSERT_TRUE(r); ASSERT_TRUE(r.Get()->Is()); auto* val = r.Get()->As(); EXPECT_TRUE(val->IsU32()); EXPECT_EQ(2_u, val->AsU32()); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Add) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Add(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 + 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Subtract) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Sub(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 - 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Multiply) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Mul(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 * 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Div) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Div(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 / 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Modulo) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Mod(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 % 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_And) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(And(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 & 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Or) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Or(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 | 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Xor) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Xor(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 ^ 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LogicalAnd) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(LogicalAnd(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 && 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LogicalOr) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(LogicalOr(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 || 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Eqaul) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Equal(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 == 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_NotEqual) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(NotEqual(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 != 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LessThan) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(LessThan(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 < 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_GreaterThan) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(GreaterThan(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 > 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LessThanEqual) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(LessThanEqual(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 <= 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_GreaterThanEqual) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(GreaterThanEqual(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 >= 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_ShiftLeft) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Shl(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 << 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_ShiftRight) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(Shr(3_u, 4_u)); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 >> 4 )"); } TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Compound) { auto& b = CreateEmptyBuilder(); auto r = b.EmitExpression(LogicalOr( // LessThan(1_u, Add(Shr(3_u, 4_u), 9_u)), GreaterThan(2.5_f, Div(6.7_f, Mul(2.3_f, 5.5_f))))); ASSERT_TRUE(r); Disassembler d; d.EmitBlockInstructions(b.current_flow_block); EXPECT_EQ(d.AsString(), R"(%1 = 3 >> 4 %2 = %1 + 9 %3 = 1 < %2 %4 = 2.300000 * 5.500000 %5 = 6.700000 / %4 %6 = 2.500000 > %5 %7 = %3 || %6 )"); } } // namespace } // namespace tint::ir