// 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/v8.h" #include "test/cctest/cctest.h" #include "src/compiler/code-generator.h" #include "src/compiler/common-operator.h" #include "src/compiler/graph.h" #include "src/compiler/instruction-selector.h" #include "src/compiler/machine-operator.h" #include "src/compiler/node.h" #include "src/compiler/operator.h" #include "src/compiler/raw-machine-assembler.h" #include "src/compiler/register-allocator.h" #include "src/compiler/schedule.h" #include "src/ast-numbering.h" #include "src/full-codegen.h" #include "src/parser.h" #include "src/rewriter.h" #include "test/cctest/compiler/c-signature.h" #include "test/cctest/compiler/function-tester.h" using namespace v8::internal; using namespace v8::internal::compiler; #if V8_TURBOFAN_TARGET typedef RawMachineAssembler::Label MLabel; static Handle NewFunction(const char* source) { return v8::Utils::OpenHandle( *v8::Handle::Cast(CompileRun(source))); } class DeoptCodegenTester { public: explicit DeoptCodegenTester(HandleAndZoneScope* scope, const char* src) : scope_(scope), function(NewFunction(src)), info(function, scope->main_zone()), bailout_id(-1) { CHECK(Parser::Parse(&info)); info.SetOptimizing(BailoutId::None(), Handle(function->code())); CHECK(Compiler::Analyze(&info)); CHECK(Compiler::EnsureDeoptimizationSupport(&info)); DCHECK(info.shared_info()->has_deoptimization_support()); graph = new (scope_->main_zone()) Graph(scope_->main_zone()); } virtual ~DeoptCodegenTester() { delete code; } void GenerateCodeFromSchedule(Schedule* schedule) { OFStream os(stdout); if (FLAG_trace_turbo) { os << *schedule; } // Initialize the codegen and generate code. Linkage* linkage = new (scope_->main_zone()) Linkage(info.zone(), &info); code = new v8::internal::compiler::InstructionSequence(scope_->main_zone(), graph, schedule); SourcePositionTable source_positions(graph); InstructionSelector selector(scope_->main_zone(), linkage, code, schedule, &source_positions); selector.SelectInstructions(); if (FLAG_trace_turbo) { os << "----- Instruction sequence before register allocation -----\n" << *code; } Frame frame; RegisterAllocator allocator(scope_->main_zone(), &frame, code); CHECK(allocator.Allocate()); if (FLAG_trace_turbo) { os << "----- Instruction sequence after register allocation -----\n" << *code; } compiler::CodeGenerator generator(&frame, linkage, code, &info); result_code = generator.GenerateCode(); #ifdef OBJECT_PRINT if (FLAG_print_opt_code || FLAG_trace_turbo) { result_code->Print(); } #endif } Zone* zone() { return scope_->main_zone(); } HandleAndZoneScope* scope_; Handle function; CompilationInfo info; BailoutId bailout_id; Handle result_code; v8::internal::compiler::InstructionSequence* code; Graph* graph; }; class TrivialDeoptCodegenTester : public DeoptCodegenTester { public: explicit TrivialDeoptCodegenTester(HandleAndZoneScope* scope) : DeoptCodegenTester(scope, "function foo() { deopt(); return 42; }; foo") {} void GenerateCode() { GenerateCodeFromSchedule(BuildGraphAndSchedule(graph)); } Schedule* BuildGraphAndSchedule(Graph* graph) { CommonOperatorBuilder common(zone()); // Manually construct a schedule for the function below: // function foo() { // deopt(); // } CSignature1 sig; RawMachineAssembler m(graph, &sig); Handle deopt_function = NewFunction("function deopt() { %DeoptimizeFunction(foo); }; deopt"); Unique deopt_fun_constant = Unique::CreateUninitialized(deopt_function); Node* deopt_fun_node = m.NewNode(common.HeapConstant(deopt_fun_constant)); Handle caller_context(function->context(), CcTest::i_isolate()); Unique caller_context_constant = Unique::CreateUninitialized(caller_context); Node* caller_context_node = m.NewNode(common.HeapConstant(caller_context_constant)); bailout_id = GetCallBailoutId(); Node* parameters = m.NewNode(common.StateValues(1), m.UndefinedConstant()); Node* locals = m.NewNode(common.StateValues(0)); Node* stack = m.NewNode(common.StateValues(0)); Node* state_node = m.NewNode( common.FrameState(JS_FRAME, bailout_id, OutputFrameStateCombine::Ignore()), parameters, locals, stack, caller_context_node, m.UndefinedConstant()); Handle context(deopt_function->context(), CcTest::i_isolate()); Unique context_constant = Unique::CreateUninitialized(context); Node* context_node = m.NewNode(common.HeapConstant(context_constant)); m.CallJS0(deopt_fun_node, m.UndefinedConstant(), context_node, state_node); m.Return(m.UndefinedConstant()); // Schedule the graph: Schedule* schedule = m.Export(); return schedule; } BailoutId GetCallBailoutId() { ZoneList* body = info.function()->body(); for (int i = 0; i < body->length(); i++) { if (body->at(i)->IsExpressionStatement() && body->at(i)->AsExpressionStatement()->expression()->IsCall()) { return body->at(i)->AsExpressionStatement()->expression()->id(); } } CHECK(false); return BailoutId(-1); } }; TEST(TurboTrivialDeoptCodegen) { HandleAndZoneScope scope; InitializedHandleScope handles; FLAG_allow_natives_syntax = true; FLAG_turbo_deoptimization = true; TrivialDeoptCodegenTester t(&scope); t.GenerateCode(); DeoptimizationInputData* data = DeoptimizationInputData::cast(t.result_code->deoptimization_data()); // TODO(jarin) Find a way to test the safepoint. // Check that we deoptimize to the right AST id. CHECK_EQ(1, data->DeoptCount()); CHECK_EQ(t.bailout_id.ToInt(), data->AstId(0).ToInt()); } TEST(TurboTrivialDeoptCodegenAndRun) { HandleAndZoneScope scope; InitializedHandleScope handles; FLAG_allow_natives_syntax = true; FLAG_turbo_deoptimization = true; TrivialDeoptCodegenTester t(&scope); t.GenerateCode(); t.function->ReplaceCode(*t.result_code); t.info.context()->native_context()->AddOptimizedCode(*t.result_code); Isolate* isolate = scope.main_isolate(); Handle result; bool has_pending_exception = !Execution::Call(isolate, t.function, isolate->factory()->undefined_value(), 0, NULL, false).ToHandle(&result); CHECK(!has_pending_exception); CHECK(result->SameValue(Smi::FromInt(42))); } class TrivialRuntimeDeoptCodegenTester : public DeoptCodegenTester { public: explicit TrivialRuntimeDeoptCodegenTester(HandleAndZoneScope* scope) : DeoptCodegenTester( scope, "function foo() { %DeoptimizeFunction(foo); return 42; }; foo") {} void GenerateCode() { GenerateCodeFromSchedule(BuildGraphAndSchedule(graph)); } Schedule* BuildGraphAndSchedule(Graph* graph) { CommonOperatorBuilder common(zone()); // Manually construct a schedule for the function below: // function foo() { // %DeoptimizeFunction(foo); // } CSignature1 sig; RawMachineAssembler m(graph, &sig); Unique this_fun_constant = Unique::CreateUninitialized(function); Node* this_fun_node = m.NewNode(common.HeapConstant(this_fun_constant)); Handle context(function->context(), CcTest::i_isolate()); Unique context_constant = Unique::CreateUninitialized(context); Node* context_node = m.NewNode(common.HeapConstant(context_constant)); bailout_id = GetCallBailoutId(); Node* parameters = m.NewNode(common.StateValues(1), m.UndefinedConstant()); Node* locals = m.NewNode(common.StateValues(0)); Node* stack = m.NewNode(common.StateValues(0)); Node* state_node = m.NewNode( common.FrameState(JS_FRAME, bailout_id, OutputFrameStateCombine::Ignore()), parameters, locals, stack, context_node, m.UndefinedConstant()); m.CallRuntime1(Runtime::kDeoptimizeFunction, this_fun_node, context_node, state_node); m.Return(m.UndefinedConstant()); // Schedule the graph: Schedule* schedule = m.Export(); return schedule; } BailoutId GetCallBailoutId() { ZoneList* body = info.function()->body(); for (int i = 0; i < body->length(); i++) { if (body->at(i)->IsExpressionStatement() && body->at(i)->AsExpressionStatement()->expression()->IsCallRuntime()) { return body->at(i)->AsExpressionStatement()->expression()->id(); } } CHECK(false); return BailoutId(-1); } }; TEST(TurboTrivialRuntimeDeoptCodegenAndRun) { HandleAndZoneScope scope; InitializedHandleScope handles; FLAG_allow_natives_syntax = true; FLAG_turbo_deoptimization = true; TrivialRuntimeDeoptCodegenTester t(&scope); t.GenerateCode(); t.function->ReplaceCode(*t.result_code); t.info.context()->native_context()->AddOptimizedCode(*t.result_code); Isolate* isolate = scope.main_isolate(); Handle result; bool has_pending_exception = !Execution::Call(isolate, t.function, isolate->factory()->undefined_value(), 0, NULL, false).ToHandle(&result); CHECK(!has_pending_exception); CHECK(result->SameValue(Smi::FromInt(42))); } #endif