/* * 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 #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 "graph_visualizer.h" #include "nodes.h" #include "optimizing_unit_test.h" #include "pretty_printer.h" #include "ssa_liveness_analysis.h" namespace art { class LinearizeTest : public OptimizingUnitTest { protected: template void TestCode(const std::vector& data, const uint32_t (&expected_order)[number_of_blocks]); }; template void LinearizeTest::TestCode(const std::vector& data, const uint32_t (&expected_order)[number_of_blocks]) { HGraph* graph = CreateCFG(data); std::unique_ptr codegen = CodeGenerator::Create(graph, *compiler_options_); SsaLivenessAnalysis liveness(graph, codegen.get(), GetScopedAllocator()); liveness.Analyze(); ASSERT_EQ(graph->GetLinearOrder().size(), number_of_blocks); for (size_t i = 0; i < number_of_blocks; ++i) { ASSERT_EQ(graph->GetLinearOrder()[i]->GetBlockId(), expected_order[i]); } } TEST_F(LinearizeTest, CFG1) { // Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 ++++++ // / \ + // Block5 Block7 + // | | + // Block6 Block3 + // + / \ + // Block4 Block8 const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 5, Instruction::IF_EQ, 0xFFFE, Instruction::GOTO | 0xFE00, Instruction::RETURN_VOID); const uint32_t blocks[] = {0, 1, 2, 7, 3, 4, 8, 5, 6}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG2) { // Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 ++++++ // / \ + // Block3 Block7 + // | | + // Block6 Block4 + // + / \ + // Block5 Block8 const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 3, Instruction::RETURN_VOID, Instruction::IF_EQ, 0xFFFD, Instruction::GOTO | 0xFE00); const uint32_t blocks[] = {0, 1, 2, 7, 4, 5, 8, 3, 6}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG3) { // Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 ++++++ // / \ + // Block3 Block8 + // | | + // Block7 Block5 + // / + \ + // Block6 + Block9 // | + // Block4 ++ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 4, Instruction::RETURN_VOID, Instruction::GOTO | 0x0100, Instruction::IF_EQ, 0xFFFC, Instruction::GOTO | 0xFD00); const uint32_t blocks[] = {0, 1, 2, 8, 5, 6, 4, 9, 3, 7}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG4) { /* Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 // / + \ // Block6 + Block8 // | + | // Block7 + Block3 +++++++ // + / \ + // Block9 Block10 + // | + // Block4 + // + / \ + // Block5 Block11 */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 7, Instruction::IF_EQ, 0xFFFE, Instruction::IF_EQ, 0xFFFE, Instruction::GOTO | 0xFE00, Instruction::RETURN_VOID); const uint32_t blocks[] = {0, 1, 2, 8, 3, 10, 4, 5, 11, 9, 6, 7}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG5) { /* Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 // / + \ // Block3 + Block8 // | + | // Block7 + Block4 +++++++ // + / \ + // Block9 Block10 + // | + // Block5 + // +/ \ + // Block6 Block11 */ const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::IF_EQ, 3, Instruction::RETURN_VOID, Instruction::IF_EQ, 0xFFFD, Instruction::IF_EQ, 0xFFFE, Instruction::GOTO | 0xFE00); const uint32_t blocks[] = {0, 1, 2, 8, 4, 10, 5, 6, 11, 9, 3, 7}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG6) { // Block0 // | // Block1 // | // Block2 ++++++++++++++ // | + // Block3 + // / \ + // Block8 Block4 + // | / \ + // Block5 <- Block9 Block6 + // | // Block7 const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::GOTO | 0x0100, Instruction::IF_EQ, 0x0004, Instruction::IF_EQ, 0x0003, Instruction::RETURN_VOID, Instruction::GOTO | 0xFA00); const uint32_t blocks[] = {0, 1, 2, 3, 4, 6, 9, 8, 5, 7}; TestCode(data, blocks); } TEST_F(LinearizeTest, CFG7) { // Structure of this graph (+ are back edges) // Block0 // | // Block1 // | // Block2 ++++++++ // | + // Block3 + // / \ + // Block4 Block8 + // / \ | + // Block5 Block9 - Block6 + // | // Block7 // const std::vector data = ONE_REGISTER_CODE_ITEM( Instruction::CONST_4 | 0 | 0, Instruction::GOTO | 0x0100, Instruction::IF_EQ, 0x0005, Instruction::IF_EQ, 0x0003, Instruction::RETURN_VOID, Instruction::GOTO | 0xFA00); const uint32_t blocks[] = {0, 1, 2, 3, 4, 9, 8, 6, 5, 7}; TestCode(data, blocks); } } // namespace art