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/*
* Copyright (C) 2017 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 "ssa_liveness_analysis.h"
#include "arch/instruction_set.h"
#include "arch/instruction_set_features.h"
#include "base/arena_allocator.h"
#include "base/arena_containers.h"
#include "code_generator.h"
#include "driver/compiler_options.h"
#include "nodes.h"
#include "optimizing_unit_test.h"
namespace art {
class SsaLivenessAnalysisTest : public OptimizingUnitTest {
public:
SsaLivenessAnalysisTest()
: graph_(CreateGraph()),
compiler_options_(),
instruction_set_(kRuntimeISA) {
std::string error_msg;
instruction_set_features_ =
InstructionSetFeatures::FromVariant(instruction_set_, "default", &error_msg);
codegen_ = CodeGenerator::Create(graph_,
instruction_set_,
*instruction_set_features_,
compiler_options_);
CHECK(codegen_ != nullptr) << instruction_set_ << " is not a supported target architecture.";
// Create entry block.
entry_ = new (GetAllocator()) HBasicBlock(graph_);
graph_->AddBlock(entry_);
graph_->SetEntryBlock(entry_);
}
protected:
HBasicBlock* CreateSuccessor(HBasicBlock* block) {
HGraph* graph = block->GetGraph();
HBasicBlock* successor = new (GetAllocator()) HBasicBlock(graph);
graph->AddBlock(successor);
block->AddSuccessor(successor);
return successor;
}
HGraph* graph_;
CompilerOptions compiler_options_;
InstructionSet instruction_set_;
std::unique_ptr<const InstructionSetFeatures> instruction_set_features_;
std::unique_ptr<CodeGenerator> codegen_;
HBasicBlock* entry_;
};
TEST_F(SsaLivenessAnalysisTest, TestReturnArg) {
HInstruction* arg = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(0), 0, DataType::Type::kInt32);
entry_->AddInstruction(arg);
HBasicBlock* block = CreateSuccessor(entry_);
HInstruction* ret = new (GetAllocator()) HReturn(arg);
block->AddInstruction(ret);
block->AddInstruction(new (GetAllocator()) HExit());
graph_->BuildDominatorTree();
SsaLivenessAnalysis ssa_analysis(graph_, codegen_.get(), GetScopedAllocator());
ssa_analysis.Analyze();
std::ostringstream arg_dump;
arg->GetLiveInterval()->Dump(arg_dump);
EXPECT_STREQ("ranges: { [2,6) }, uses: { 6 }, { } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
arg_dump.str().c_str());
}
TEST_F(SsaLivenessAnalysisTest, TestAput) {
HInstruction* array = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(0), 0, DataType::Type::kReference);
HInstruction* index = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(1), 1, DataType::Type::kInt32);
HInstruction* value = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(2), 2, DataType::Type::kInt32);
HInstruction* extra_arg1 = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(3), 3, DataType::Type::kInt32);
HInstruction* extra_arg2 = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(4), 4, DataType::Type::kReference);
HInstruction* const args[] = { array, index, value, extra_arg1, extra_arg2 };
for (HInstruction* insn : args) {
entry_->AddInstruction(insn);
}
HBasicBlock* block = CreateSuccessor(entry_);
HInstruction* null_check = new (GetAllocator()) HNullCheck(array, 0);
block->AddInstruction(null_check);
HEnvironment* null_check_env = new (GetAllocator()) HEnvironment(GetAllocator(),
/* number_of_vregs */ 5,
/* method */ nullptr,
/* dex_pc */ 0u,
null_check);
null_check_env->CopyFrom(ArrayRef<HInstruction* const>(args));
null_check->SetRawEnvironment(null_check_env);
HInstruction* length = new (GetAllocator()) HArrayLength(array, 0);
block->AddInstruction(length);
HInstruction* bounds_check = new (GetAllocator()) HBoundsCheck(index, length, /* dex_pc */ 0u);
block->AddInstruction(bounds_check);
HEnvironment* bounds_check_env = new (GetAllocator()) HEnvironment(GetAllocator(),
/* number_of_vregs */ 5,
/* method */ nullptr,
/* dex_pc */ 0u,
bounds_check);
bounds_check_env->CopyFrom(ArrayRef<HInstruction* const>(args));
bounds_check->SetRawEnvironment(bounds_check_env);
HInstruction* array_set =
new (GetAllocator()) HArraySet(array, index, value, DataType::Type::kInt32, /* dex_pc */ 0);
block->AddInstruction(array_set);
graph_->BuildDominatorTree();
SsaLivenessAnalysis ssa_analysis(graph_, codegen_.get(), GetScopedAllocator());
ssa_analysis.Analyze();
EXPECT_FALSE(graph_->IsDebuggable());
EXPECT_EQ(18u, bounds_check->GetLifetimePosition());
static const char* const expected[] = {
"ranges: { [2,21) }, uses: { 15 17 21 }, { 15 19 } is_fixed: 0, is_split: 0 is_low: 0 "
"is_high: 0",
"ranges: { [4,21) }, uses: { 19 21 }, { } is_fixed: 0, is_split: 0 is_low: 0 "
"is_high: 0",
"ranges: { [6,21) }, uses: { 21 }, { } is_fixed: 0, is_split: 0 is_low: 0 "
"is_high: 0",
// Environment uses do not keep the non-reference argument alive.
"ranges: { [8,10) }, uses: { }, { } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
// Environment uses keep the reference argument alive.
"ranges: { [10,19) }, uses: { }, { 15 19 } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
};
static_assert(arraysize(expected) == arraysize(args), "Array size check.");
size_t arg_index = 0u;
for (HInstruction* arg : args) {
std::ostringstream arg_dump;
arg->GetLiveInterval()->Dump(arg_dump);
EXPECT_STREQ(expected[arg_index], arg_dump.str().c_str()) << arg_index;
++arg_index;
}
}
TEST_F(SsaLivenessAnalysisTest, TestDeoptimize) {
HInstruction* array = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(0), 0, DataType::Type::kReference);
HInstruction* index = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(1), 1, DataType::Type::kInt32);
HInstruction* value = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(2), 2, DataType::Type::kInt32);
HInstruction* extra_arg1 = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(3), 3, DataType::Type::kInt32);
HInstruction* extra_arg2 = new (GetAllocator()) HParameterValue(
graph_->GetDexFile(), dex::TypeIndex(4), 4, DataType::Type::kReference);
HInstruction* const args[] = { array, index, value, extra_arg1, extra_arg2 };
for (HInstruction* insn : args) {
entry_->AddInstruction(insn);
}
HBasicBlock* block = CreateSuccessor(entry_);
HInstruction* null_check = new (GetAllocator()) HNullCheck(array, 0);
block->AddInstruction(null_check);
HEnvironment* null_check_env = new (GetAllocator()) HEnvironment(GetAllocator(),
/* number_of_vregs */ 5,
/* method */ nullptr,
/* dex_pc */ 0u,
null_check);
null_check_env->CopyFrom(ArrayRef<HInstruction* const>(args));
null_check->SetRawEnvironment(null_check_env);
HInstruction* length = new (GetAllocator()) HArrayLength(array, 0);
block->AddInstruction(length);
// Use HAboveOrEqual+HDeoptimize as the bounds check.
HInstruction* ae = new (GetAllocator()) HAboveOrEqual(index, length);
block->AddInstruction(ae);
HInstruction* deoptimize = new(GetAllocator()) HDeoptimize(
GetAllocator(), ae, DeoptimizationKind::kBlockBCE, /* dex_pc */ 0u);
block->AddInstruction(deoptimize);
HEnvironment* deoptimize_env = new (GetAllocator()) HEnvironment(GetAllocator(),
/* number_of_vregs */ 5,
/* method */ nullptr,
/* dex_pc */ 0u,
deoptimize);
deoptimize_env->CopyFrom(ArrayRef<HInstruction* const>(args));
deoptimize->SetRawEnvironment(deoptimize_env);
HInstruction* array_set =
new (GetAllocator()) HArraySet(array, index, value, DataType::Type::kInt32, /* dex_pc */ 0);
block->AddInstruction(array_set);
graph_->BuildDominatorTree();
SsaLivenessAnalysis ssa_analysis(graph_, codegen_.get(), GetScopedAllocator());
ssa_analysis.Analyze();
EXPECT_FALSE(graph_->IsDebuggable());
EXPECT_EQ(20u, deoptimize->GetLifetimePosition());
static const char* const expected[] = {
"ranges: { [2,23) }, uses: { 15 17 23 }, { 15 21 } is_fixed: 0, is_split: 0 is_low: 0 "
"is_high: 0",
"ranges: { [4,23) }, uses: { 19 23 }, { 21 } is_fixed: 0, is_split: 0 is_low: 0 "
"is_high: 0",
"ranges: { [6,23) }, uses: { 23 }, { 21 } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
// Environment use in HDeoptimize keeps even the non-reference argument alive.
"ranges: { [8,21) }, uses: { }, { 21 } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
// Environment uses keep the reference argument alive.
"ranges: { [10,21) }, uses: { }, { 15 21 } is_fixed: 0, is_split: 0 is_low: 0 is_high: 0",
};
static_assert(arraysize(expected) == arraysize(args), "Array size check.");
size_t arg_index = 0u;
for (HInstruction* arg : args) {
std::ostringstream arg_dump;
arg->GetLiveInterval()->Dump(arg_dump);
EXPECT_STREQ(expected[arg_index], arg_dump.str().c_str()) << arg_index;
++arg_index;
}
}
} // namespace art