// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/compiler/js-graph.h" #include "src/compiler/linkage.h" #include "src/compiler/liveness-analyzer.h" #include "src/compiler/node-matchers.h" #include "src/compiler/state-values-utils.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/compiler/node-test-utils.h" using testing::MakeMatcher; using testing::MatcherInterface; using testing::MatchResultListener; using testing::StringMatchResultListener; namespace v8 { namespace internal { namespace compiler { class LivenessAnalysisTest : public GraphTest { public: explicit LivenessAnalysisTest(int locals_count = 4) : locals_count_(locals_count), machine_(zone(), kRepWord32), javascript_(zone()), jsgraph_(isolate(), graph(), common(), &javascript_, &machine_), analyzer_(locals_count, zone()), empty_values_(graph()->NewNode(common()->StateValues(0), 0, nullptr)), next_checkpoint_id_(0), current_block_(nullptr) {} protected: JSGraph* jsgraph() { return &jsgraph_; } LivenessAnalyzer* analyzer() { return &analyzer_; } void Run() { StateValuesCache cache(jsgraph()); NonLiveFrameStateSlotReplacer replacer(&cache, jsgraph()->UndefinedConstant(), analyzer()->local_count(), zone()); analyzer()->Run(&replacer); } Node* Checkpoint() { int ast_num = next_checkpoint_id_++; int first_const = intconst_from_bailout_id(ast_num, locals_count_); const Operator* locals_op = common()->StateValues(locals_count_); ZoneVector local_inputs(locals_count_, nullptr, zone()); for (int i = 0; i < locals_count_; i++) { local_inputs[i] = jsgraph()->Int32Constant(i + first_const); } Node* locals = graph()->NewNode(locals_op, locals_count_, &local_inputs.front()); const Operator* op = common()->FrameState( JS_FRAME, BailoutId(ast_num), OutputFrameStateCombine::Ignore()); Node* result = graph()->NewNode(op, empty_values_, locals, empty_values_, jsgraph()->UndefinedConstant(), jsgraph()->UndefinedConstant()); current_block_->Checkpoint(result); return result; } void Bind(int var) { current_block()->Bind(var); } void Lookup(int var) { current_block()->Lookup(var); } class CheckpointMatcher : public MatcherInterface { public: explicit CheckpointMatcher(const char* liveness, Node* empty_values, int locals_count, Node* replacement) : liveness_(liveness), empty_values_(empty_values), locals_count_(locals_count), replacement_(replacement) {} void DescribeTo(std::ostream* os) const override { *os << "is a frame state with '" << liveness_ << "' liveness, empty " "parameters and empty expression stack"; } bool MatchAndExplain(Node* frame_state, MatchResultListener* listener) const override { if (frame_state == NULL) { *listener << "which is NULL"; return false; } DCHECK(frame_state->opcode() == IrOpcode::kFrameState); FrameStateCallInfo state_info = OpParameter(frame_state); int ast_num = state_info.bailout_id().ToInt(); int first_const = intconst_from_bailout_id(ast_num, locals_count_); if (empty_values_ != frame_state->InputAt(0)) { *listener << "whose parameters are " << frame_state->InputAt(0) << " but should have been " << empty_values_ << " (empty)"; return false; } if (empty_values_ != frame_state->InputAt(2)) { *listener << "whose expression stack is " << frame_state->InputAt(2) << " but should have been " << empty_values_ << " (empty)"; return false; } StateValuesAccess locals(frame_state->InputAt(1)); if (locals_count_ != static_cast(locals.size())) { *listener << "whose number of locals is " << locals.size() << " but should have been " << locals_count_; return false; } int i = 0; for (StateValuesAccess::TypedNode value : locals) { if (liveness_[i] == 'L') { StringMatchResultListener value_listener; if (value.node == replacement_) { *listener << "whose local #" << i << " was " << value.node->opcode() << " but should have been 'undefined'"; return false; } else if (!IsInt32Constant(first_const + i) .MatchAndExplain(value.node, &value_listener)) { *listener << "whose local #" << i << " does not match"; if (value_listener.str() != "") { *listener << ", " << value_listener.str(); } return false; } } else if (liveness_[i] == '.') { if (value.node != replacement_) { *listener << "whose local #" << i << " is " << value.node << " but should have been " << replacement_ << " (undefined)"; return false; } } else { UNREACHABLE(); } i++; } return true; } private: const char* liveness_; Node* empty_values_; int locals_count_; Node* replacement_; }; Matcher IsCheckpointModuloLiveness(const char* liveness) { return MakeMatcher(new CheckpointMatcher(liveness, empty_values_, locals_count_, jsgraph()->UndefinedConstant())); } LivenessAnalyzerBlock* current_block() { return current_block_; } void set_current_block(LivenessAnalyzerBlock* block) { current_block_ = block; } private: static int intconst_from_bailout_id(int ast_num, int locals_count) { return (locals_count + 1) * ast_num + 1; } int locals_count_; MachineOperatorBuilder machine_; JSOperatorBuilder javascript_; JSGraph jsgraph_; LivenessAnalyzer analyzer_; Node* empty_values_; int next_checkpoint_id_; LivenessAnalyzerBlock* current_block_; }; TEST_F(LivenessAnalysisTest, EmptyBlock) { set_current_block(analyzer()->NewBlock()); Node* c1 = Checkpoint(); Run(); // Nothing is live. EXPECT_THAT(c1, IsCheckpointModuloLiveness("....")); } TEST_F(LivenessAnalysisTest, SimpleLookup) { set_current_block(analyzer()->NewBlock()); Node* c1 = Checkpoint(); Lookup(1); Node* c2 = Checkpoint(); Run(); EXPECT_THAT(c1, IsCheckpointModuloLiveness(".L..")); EXPECT_THAT(c2, IsCheckpointModuloLiveness("....")); } TEST_F(LivenessAnalysisTest, DiamondLookups) { // Start block. LivenessAnalyzerBlock* start = analyzer()->NewBlock(); set_current_block(start); Node* c1_start = Checkpoint(); // First branch. LivenessAnalyzerBlock* b1 = analyzer()->NewBlock(start); set_current_block(b1); Node* c1_b1 = Checkpoint(); Lookup(1); Node* c2_b1 = Checkpoint(); Lookup(3); Node* c3_b1 = Checkpoint(); // Second branch. LivenessAnalyzerBlock* b2 = analyzer()->NewBlock(start); set_current_block(b2); Node* c1_b2 = Checkpoint(); Lookup(3); Node* c2_b2 = Checkpoint(); Lookup(2); Node* c3_b2 = Checkpoint(); // Merge block. LivenessAnalyzerBlock* m = analyzer()->NewBlock(b1); m->AddPredecessor(b2); set_current_block(m); Node* c1_m = Checkpoint(); Lookup(0); Node* c2_m = Checkpoint(); Run(); EXPECT_THAT(c1_start, IsCheckpointModuloLiveness("LLLL")); EXPECT_THAT(c1_b1, IsCheckpointModuloLiveness("LL.L")); EXPECT_THAT(c2_b1, IsCheckpointModuloLiveness("L..L")); EXPECT_THAT(c3_b1, IsCheckpointModuloLiveness("L...")); EXPECT_THAT(c1_b2, IsCheckpointModuloLiveness("L.LL")); EXPECT_THAT(c2_b2, IsCheckpointModuloLiveness("L.L.")); EXPECT_THAT(c3_b2, IsCheckpointModuloLiveness("L...")); EXPECT_THAT(c1_m, IsCheckpointModuloLiveness("L...")); EXPECT_THAT(c2_m, IsCheckpointModuloLiveness("....")); } TEST_F(LivenessAnalysisTest, DiamondLookupsAndBinds) { // Start block. LivenessAnalyzerBlock* start = analyzer()->NewBlock(); set_current_block(start); Node* c1_start = Checkpoint(); Bind(0); Node* c2_start = Checkpoint(); // First branch. LivenessAnalyzerBlock* b1 = analyzer()->NewBlock(start); set_current_block(b1); Node* c1_b1 = Checkpoint(); Bind(2); Bind(1); Node* c2_b1 = Checkpoint(); Bind(3); Node* c3_b1 = Checkpoint(); // Second branch. LivenessAnalyzerBlock* b2 = analyzer()->NewBlock(start); set_current_block(b2); Node* c1_b2 = Checkpoint(); Lookup(2); Node* c2_b2 = Checkpoint(); Bind(2); Bind(3); Node* c3_b2 = Checkpoint(); // Merge block. LivenessAnalyzerBlock* m = analyzer()->NewBlock(b1); m->AddPredecessor(b2); set_current_block(m); Node* c1_m = Checkpoint(); Lookup(0); Lookup(1); Lookup(2); Lookup(3); Node* c2_m = Checkpoint(); Run(); EXPECT_THAT(c1_start, IsCheckpointModuloLiveness(".LL.")); EXPECT_THAT(c2_start, IsCheckpointModuloLiveness("LLL.")); EXPECT_THAT(c1_b1, IsCheckpointModuloLiveness("L...")); EXPECT_THAT(c2_b1, IsCheckpointModuloLiveness("LLL.")); EXPECT_THAT(c3_b1, IsCheckpointModuloLiveness("LLLL")); EXPECT_THAT(c1_b2, IsCheckpointModuloLiveness("LLL.")); EXPECT_THAT(c2_b2, IsCheckpointModuloLiveness("LL..")); EXPECT_THAT(c3_b2, IsCheckpointModuloLiveness("LLLL")); EXPECT_THAT(c1_m, IsCheckpointModuloLiveness("LLLL")); EXPECT_THAT(c2_m, IsCheckpointModuloLiveness("....")); } TEST_F(LivenessAnalysisTest, SimpleLoop) { // Start block. LivenessAnalyzerBlock* start = analyzer()->NewBlock(); set_current_block(start); Node* c1_start = Checkpoint(); Bind(0); Bind(1); Bind(2); Bind(3); Node* c2_start = Checkpoint(); // Loop header block. LivenessAnalyzerBlock* header = analyzer()->NewBlock(start); set_current_block(header); Node* c1_header = Checkpoint(); Lookup(0); Bind(2); Node* c2_header = Checkpoint(); // Inside-loop block. LivenessAnalyzerBlock* in_loop = analyzer()->NewBlock(header); set_current_block(in_loop); Node* c1_in_loop = Checkpoint(); Bind(0); Lookup(3); Node* c2_in_loop = Checkpoint(); // Add back edge. header->AddPredecessor(in_loop); // After-loop block. LivenessAnalyzerBlock* end = analyzer()->NewBlock(header); set_current_block(end); Node* c1_end = Checkpoint(); Lookup(1); Lookup(2); Node* c2_end = Checkpoint(); Run(); EXPECT_THAT(c1_start, IsCheckpointModuloLiveness("....")); EXPECT_THAT(c2_start, IsCheckpointModuloLiveness("LL.L")); EXPECT_THAT(c1_header, IsCheckpointModuloLiveness("LL.L")); EXPECT_THAT(c2_header, IsCheckpointModuloLiveness(".LLL")); EXPECT_THAT(c1_in_loop, IsCheckpointModuloLiveness(".L.L")); EXPECT_THAT(c2_in_loop, IsCheckpointModuloLiveness("LL.L")); EXPECT_THAT(c1_end, IsCheckpointModuloLiveness(".LL.")); EXPECT_THAT(c2_end, IsCheckpointModuloLiveness("....")); } } // namespace compiler } // namespace internal } // namespace v8