/* * Copyright (C) 2014 The Android Open Source Project * * 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 "base/arena_allocator.h" #include "builder.h" #include "code_generator.h" #include "dex/dex_file.h" #include "dex/dex_instruction.h" #include "driver/compiler_options.h" #include "nodes.h" #include "optimizing_unit_test.h" #include "prepare_for_register_allocation.h" #include "ssa_liveness_analysis.h" namespace art { class LiveRangesTest : public OptimizingUnitTest { public: HGraph* BuildGraph(const std::vector& data); }; HGraph* LiveRangesTest::BuildGraph(const std::vector& data) { HGraph* graph = CreateCFG(data); // Suspend checks implementation may change in the future, and this test relies // on how instructions are ordered. RemoveSuspendChecks(graph); // `Inline` conditions into ifs. PrepareForRegisterAllocation(graph, *compiler_options_).Run(); return graph; } TEST_F(LiveRangesTest, CFG1) { /* * Test the following snippet: * return 0; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: goto * | * 8: return * | * 12: exit */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::RETURN); HGraph* graph = BuildGraph(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); LiveInterval* interval = liveness.GetInstructionFromSsaIndex(0)->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); // Last use is the return instruction. ASSERT_EQ(8u, range->GetEnd()); HBasicBlock* block = graph->GetBlocks()[1]; ASSERT_TRUE(block->GetLastInstruction()->IsReturn()); ASSERT_EQ(8u, block->GetLastInstruction()->GetLifetimePosition()); ASSERT_TRUE(range->GetNext() == nullptr); } TEST_F(LiveRangesTest, CFG2) { /* * Test the following snippet: * var a = 0; * if (0 == 0) { * } else { * } * return a; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: goto * | * 8: equal * 10: if * / \ * 14: goto 18: goto * \ / * 22: return * | * 26: exit */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 3, Instruction::GOTO | 0x100, Instruction::RETURN | 0 << 8); HGraph* graph = BuildGraph(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); LiveInterval* interval = liveness.GetInstructionFromSsaIndex(0)->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); // Last use is the return instruction. ASSERT_EQ(22u, range->GetEnd()); HBasicBlock* block = graph->GetBlocks()[3]; ASSERT_TRUE(block->GetLastInstruction()->IsReturn()); ASSERT_EQ(22u, block->GetLastInstruction()->GetLifetimePosition()); ASSERT_TRUE(range->GetNext() == nullptr); } TEST_F(LiveRangesTest, CFG3) { /* * Test the following snippet: * var a = 0; * if (0 == 0) { * } else { * a = 4; * } * return a; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: constant4 * 6: goto * | * 10: equal * 12: if * / \ * 16: goto 20: goto * \ / * 22: phi * 24: return * | * 28: exit */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 3, Instruction::CONST_4 | 4 << 12 | 0, Instruction::RETURN | 0 << 8); HGraph* graph = BuildGraph(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); // Test for the 4 constant. LiveInterval* interval = liveness.GetInstructionFromSsaIndex(1)->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(4u, range->GetStart()); // Last use is the phi at the return block so instruction is live until // the end of the then block. ASSERT_EQ(18u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the 0 constant. interval = liveness.GetInstructionFromSsaIndex(0)->GetLiveInterval(); // The then branch is a hole for this constant, therefore its interval has 2 ranges. // First range starts from the definition and ends at the if block. range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); // 14 is the end of the if block. ASSERT_EQ(14u, range->GetEnd()); // Second range is the else block. range = range->GetNext(); ASSERT_EQ(18u, range->GetStart()); // Last use is the phi at the return block. ASSERT_EQ(22u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the phi. interval = liveness.GetInstructionFromSsaIndex(2)->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(22u, liveness.GetInstructionFromSsaIndex(2)->GetLifetimePosition()); ASSERT_EQ(22u, range->GetStart()); ASSERT_EQ(24u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); } TEST_F(LiveRangesTest, Loop1) { /* * Test the following snippet: * var a = 0; * while (a == a) { * a = 4; * } * return 5; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: constant5 * 6: constant4 * 8: goto * | * 12: goto * | * 14: phi * 16: equal * 18: if +++++ * | \ + * | 22: goto * | * 26: return * | * 30: exit */ const std::vector data = TWO_REGISTERS_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 4, Instruction::CONST_4 | 4 << 12 | 0, Instruction::GOTO | 0xFD00, Instruction::CONST_4 | 5 << 12 | 1 << 8, Instruction::RETURN | 1 << 8); HGraph* graph = BuildGraph(data); RemoveSuspendChecks(graph); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); // Test for the 0 constant. LiveInterval* interval = graph->GetIntConstant(0)->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); // Last use is the loop phi so instruction is live until // the end of the pre loop header. ASSERT_EQ(14u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the 4 constant. interval = graph->GetIntConstant(4)->GetLiveInterval(); range = interval->GetFirstRange(); // The instruction is live until the end of the loop. ASSERT_EQ(6u, range->GetStart()); ASSERT_EQ(24u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the 5 constant. interval = graph->GetIntConstant(5)->GetLiveInterval(); range = interval->GetFirstRange(); // The instruction is live until the return instruction after the loop. ASSERT_EQ(4u, range->GetStart()); ASSERT_EQ(26u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the phi. interval = liveness.GetInstructionFromSsaIndex(3)->GetLiveInterval(); range = interval->GetFirstRange(); // Instruction is input of non-materialized Equal and hence live until If. ASSERT_EQ(14u, range->GetStart()); ASSERT_EQ(19u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); } TEST_F(LiveRangesTest, Loop2) { /* * Test the following snippet: * var a = 0; * while (a == a) { * a = a + a; * } * return a; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: goto * | * 8: goto * | * 10: phi * 12: equal * 14: if +++++ * | \ + * | 18: add * | 20: goto * | * 24: return * | * 28: exit * * We want to make sure the phi at 10 has a lifetime hole after the add at 20. */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 6, Instruction::ADD_INT, 0, 0, Instruction::GOTO | 0xFB00, Instruction::RETURN | 0 << 8); HGraph* graph = BuildGraph(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); // Test for the 0 constant. HIntConstant* constant = liveness.GetInstructionFromSsaIndex(0)->AsIntConstant(); LiveInterval* interval = constant->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); // Last use is the loop phi so instruction is live until // the end of the pre loop header. ASSERT_EQ(10u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the loop phi. HPhi* phi = liveness.GetInstructionFromSsaIndex(1)->AsPhi(); interval = phi->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(10u, range->GetStart()); ASSERT_EQ(19u, range->GetEnd()); range = range->GetNext(); ASSERT_TRUE(range != nullptr); ASSERT_EQ(22u, range->GetStart()); ASSERT_EQ(24u, range->GetEnd()); // Test for the add instruction. HAdd* add = liveness.GetInstructionFromSsaIndex(2)->AsAdd(); interval = add->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(18u, range->GetStart()); ASSERT_EQ(22u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); } TEST_F(LiveRangesTest, CFG4) { /* * Test the following snippet: * var a = 0; * var b = 4; * if (a == a) { * a = b + a; * } else { * a = b + a * } * return b; * * Which becomes the following graph (numbered by lifetime position): * 2: constant0 * 4: constant4 * 6: goto * | * 10: equal * 12: if * / \ * 16: add 22: add * 18: goto 24: goto * \ / * 26: phi * 28: return * | * 32: exit * * We want to make sure the constant0 has a lifetime hole after the 16: add. */ const std::vector data = TWO_REGISTERS_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::CONST_4 | 4 << 12 | 1 << 8, Instruction::IF_EQ, 5, Instruction::ADD_INT, 1 << 8, Instruction::GOTO | 0x300, Instruction::ADD_INT, 1 << 8, Instruction::RETURN); HGraph* graph = BuildGraph(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); // Test for the 0 constant. LiveInterval* interval = liveness.GetInstructionFromSsaIndex(0)->GetLiveInterval(); LiveRange* range = interval->GetFirstRange(); ASSERT_EQ(2u, range->GetStart()); ASSERT_EQ(17u, range->GetEnd()); range = range->GetNext(); ASSERT_TRUE(range != nullptr); ASSERT_EQ(20u, range->GetStart()); ASSERT_EQ(23u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the 4 constant. interval = liveness.GetInstructionFromSsaIndex(1)->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(4u, range->GetStart()); ASSERT_EQ(17u, range->GetEnd()); range = range->GetNext(); ASSERT_EQ(20u, range->GetStart()); ASSERT_EQ(23u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the first add. HAdd* add = liveness.GetInstructionFromSsaIndex(2)->AsAdd(); interval = add->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(16u, range->GetStart()); ASSERT_EQ(20u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); // Test for the second add. add = liveness.GetInstructionFromSsaIndex(3)->AsAdd(); interval = add->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(22u, range->GetStart()); ASSERT_EQ(26u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); HPhi* phi = liveness.GetInstructionFromSsaIndex(4)->AsPhi(); ASSERT_TRUE(phi->GetUses().HasExactlyOneElement()); interval = phi->GetLiveInterval(); range = interval->GetFirstRange(); ASSERT_EQ(26u, range->GetStart()); ASSERT_EQ(28u, range->GetEnd()); ASSERT_TRUE(range->GetNext() == nullptr); } } // namespace art