// Copyright 2018 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 #include "src/codegen/tick-counter.h" #include "src/compiler/compilation-dependencies.h" #include "src/compiler/feedback-source.h" #include "src/compiler/js-call-reducer.h" #include "src/compiler/js-graph.h" #include "src/compiler/simplified-operator.h" #include "src/execution/isolate.h" #include "src/execution/protectors.h" #include "src/heap/factory.h" #include "src/objects/feedback-vector.h" #include "test/unittests/compiler/graph-unittest.h" #include "test/unittests/compiler/node-test-utils.h" namespace v8 { namespace internal { namespace compiler { class JSCallReducerTest : public TypedGraphTest { public: JSCallReducerTest() : TypedGraphTest(3), javascript_(zone()), deps_(broker(), zone()) { } ~JSCallReducerTest() override = default; protected: Reduction Reduce(Node* node) { MachineOperatorBuilder machine(zone()); SimplifiedOperatorBuilder simplified(zone()); JSGraph jsgraph(isolate(), graph(), common(), javascript(), &simplified, &machine); GraphReducer graph_reducer(zone(), graph(), tick_counter(), broker()); JSCallReducer reducer(&graph_reducer, &jsgraph, broker(), zone(), JSCallReducer::kNoFlags, &deps_); return reducer.Reduce(node); } JSOperatorBuilder* javascript() { return &javascript_; } Node* GlobalFunction(const char* name) { Handle f = Handle::cast( Object::GetProperty( isolate(), isolate()->global_object(), isolate()->factory()->NewStringFromAsciiChecked(name)) .ToHandleChecked()); return HeapConstant(f); } Node* MathFunction(const std::string& name) { Handle m = JSObject::GetProperty( isolate(), isolate()->global_object(), isolate()->factory()->NewStringFromAsciiChecked("Math")) .ToHandleChecked(); Handle f = Handle::cast( Object::GetProperty( isolate(), m, isolate()->factory()->NewStringFromAsciiChecked(name.c_str())) .ToHandleChecked()); return HeapConstant(f); } Node* StringFunction(const char* name) { Handle m = JSObject::GetProperty( isolate(), isolate()->global_object(), isolate()->factory()->NewStringFromAsciiChecked("String")) .ToHandleChecked(); Handle f = Handle::cast( Object::GetProperty( isolate(), m, isolate()->factory()->NewStringFromAsciiChecked(name)) .ToHandleChecked()); return HeapConstant(f); } Node* NumberFunction(const char* name) { Handle m = JSObject::GetProperty( isolate(), isolate()->global_object(), isolate()->factory()->NewStringFromAsciiChecked("Number")) .ToHandleChecked(); Handle f = Handle::cast( Object::GetProperty( isolate(), m, isolate()->factory()->NewStringFromAsciiChecked(name)) .ToHandleChecked()); return HeapConstant(f); } std::string op_name_for(const char* fnc) { std::string string_fnc(fnc); char initial = std::toupper(fnc[0]); return std::string("Number") + initial + string_fnc.substr(1, std::string::npos); } const Operator* Call(int arity) { FeedbackVectorSpec spec(zone()); spec.AddCallICSlot(); Handle metadata = FeedbackMetadata::New(isolate(), &spec); Handle shared = isolate()->factory()->NewSharedFunctionInfoForBuiltin( isolate()->factory()->empty_string(), Builtins::kIllegal); // Set the raw feedback metadata to circumvent checks that we are not // overwriting existing metadata. shared->set_raw_outer_scope_info_or_feedback_metadata(*metadata); Handle closure_feedback_cell_array = ClosureFeedbackCellArray::New(isolate(), shared); IsCompiledScope is_compiled_scope(shared->is_compiled_scope(isolate())); Handle vector = FeedbackVector::New( isolate(), shared, closure_feedback_cell_array, &is_compiled_scope); FeedbackSource feedback(vector, FeedbackSlot(0)); return javascript()->Call(JSCallNode::ArityForArgc(arity), CallFrequency(), feedback, ConvertReceiverMode::kAny, SpeculationMode::kAllowSpeculation, CallFeedbackRelation::kRelated); } private: JSOperatorBuilder javascript_; CompilationDependencies deps_; }; TEST_F(JSCallReducerTest, PromiseConstructorNoArgs) { Node* promise = HeapConstant(handle(native_context()->promise_function(), isolate())); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* construct = graph()->NewNode( javascript()->Construct(JSConstructNode::ArityForArgc(0)), promise, promise, feedback, context, frame_state, effect, control); Reduction r = Reduce(construct); ASSERT_FALSE(r.Changed()); } TEST_F(JSCallReducerTest, PromiseConstructorSubclass) { Node* promise = HeapConstant(handle(native_context()->promise_function(), isolate())); Node* new_target = HeapConstant(handle(native_context()->array_function(), isolate())); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* executor = UndefinedConstant(); Node* construct = graph()->NewNode( javascript()->Construct(JSConstructNode::ArityForArgc(1)), promise, new_target, executor, feedback, context, frame_state, effect, control); Reduction r = Reduce(construct); ASSERT_FALSE(r.Changed()); } TEST_F(JSCallReducerTest, PromiseConstructorBasic) { Node* promise = HeapConstant(handle(native_context()->promise_function(), isolate())); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* executor = UndefinedConstant(); Node* construct = graph()->NewNode( javascript()->Construct(JSConstructNode::ArityForArgc(1)), promise, promise, executor, feedback, context, frame_state, effect, control); Reduction r = Reduce(construct); ASSERT_TRUE(r.Changed()); } // Exactly the same as PromiseConstructorBasic which expects a reduction, // except that we invalidate the protector cell. TEST_F(JSCallReducerTest, PromiseConstructorWithHook) { Node* promise = HeapConstant(handle(native_context()->promise_function(), isolate())); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* executor = UndefinedConstant(); Node* construct = graph()->NewNode( javascript()->Construct(JSConstructNode::ArityForArgc(1)), promise, promise, executor, feedback, context, frame_state, effect, control); Protectors::InvalidatePromiseHook(isolate()); Reduction r = Reduce(construct); ASSERT_FALSE(r.Changed()); } // ----------------------------------------------------------------------------- // Math unaries namespace { const char* kMathUnaries[] = { "abs", "acos", "acosh", "asin", "asinh", "atan", "cbrt", "ceil", "cos", "cosh", "exp", "expm1", "floor", "fround", "log", "log1p", "log10", "log2", "round", "sign", "sin", "sinh", "sqrt", "tan", "tanh", "trunc"}; } // namespace TEST_F(JSCallReducerTest, MathUnaryWithNumber) { TRACED_FOREACH(const char*, fnc, kMathUnaries) { Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* jsfunction = MathFunction(fnc); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), jsfunction, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(std::string(IrOpcode::Mnemonic(r.replacement()->opcode())), op_name_for(fnc)); } } // ----------------------------------------------------------------------------- // Math binaries namespace { const char* kMathBinaries[] = {"atan2", "pow"}; } // namespace TEST_F(JSCallReducerTest, MathBinaryWithNumber) { TRACED_FOREACH(const char*, fnc, kMathBinaries) { Node* jsfunction = MathFunction(fnc); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* p1 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(2), jsfunction, UndefinedConstant(), p0, p1, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(std::string(IrOpcode::Mnemonic(r.replacement()->opcode())), op_name_for(fnc)); } } // ----------------------------------------------------------------------------- // Math.clz32 TEST_F(JSCallReducerTest, MathClz32WithUnsigned32) { Node* jsfunction = MathFunction("clz32"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Unsigned32(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), jsfunction, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberClz32(IsNumberToUint32(IsSpeculativeToNumber(p0)))); } TEST_F(JSCallReducerTest, MathClz32WithUnsigned32NoArg) { Node* jsfunction = MathFunction("clz32"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(0), jsfunction, UndefinedConstant(), feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberConstant(32)); } // ----------------------------------------------------------------------------- // Math.imul TEST_F(JSCallReducerTest, MathImulWithUnsigned32) { Node* jsfunction = MathFunction("imul"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Unsigned32(), 0); Node* p1 = Parameter(Type::Unsigned32(), 1); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(2), jsfunction, UndefinedConstant(), p0, p1, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(std::string(IrOpcode::Mnemonic(r.replacement()->opcode())), op_name_for("imul")); } // ----------------------------------------------------------------------------- // Math.min TEST_F(JSCallReducerTest, MathMinWithNoArguments) { Node* jsfunction = MathFunction("min"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(0), jsfunction, UndefinedConstant(), feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberConstant(V8_INFINITY)); } TEST_F(JSCallReducerTest, MathMinWithNumber) { Node* jsfunction = MathFunction("min"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), jsfunction, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsSpeculativeToNumber(p0)); } TEST_F(JSCallReducerTest, MathMinWithTwoArguments) { Node* jsfunction = MathFunction("min"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* p1 = Parameter(Type::Any(), 1); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(2), jsfunction, UndefinedConstant(), p0, p1, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberMin(IsSpeculativeToNumber(p0), IsSpeculativeToNumber(p1))); } // ----------------------------------------------------------------------------- // Math.max TEST_F(JSCallReducerTest, MathMaxWithNoArguments) { Node* jsfunction = MathFunction("max"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(0), jsfunction, UndefinedConstant(), feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberConstant(-V8_INFINITY)); } TEST_F(JSCallReducerTest, MathMaxWithNumber) { Node* jsfunction = MathFunction("max"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), jsfunction, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsSpeculativeToNumber(p0)); } TEST_F(JSCallReducerTest, MathMaxWithTwoArguments) { Node* jsfunction = MathFunction("max"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* p1 = Parameter(Type::Any(), 1); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(2), jsfunction, UndefinedConstant(), p0, p1, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberMax(IsSpeculativeToNumber(p0), IsSpeculativeToNumber(p1))); } // ----------------------------------------------------------------------------- // String.fromCharCode TEST_F(JSCallReducerTest, StringFromSingleCharCodeWithNumber) { Node* function = StringFunction("fromCharCode"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsStringFromSingleCharCode(IsSpeculativeToNumber(p0))); } TEST_F(JSCallReducerTest, StringFromSingleCharCodeWithPlainPrimitive) { Node* function = StringFunction("fromCharCode"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::PlainPrimitive(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsStringFromSingleCharCode(IsSpeculativeToNumber(p0))); } // ----------------------------------------------------------------------------- // Number.isFinite TEST_F(JSCallReducerTest, NumberIsFinite) { Node* function = NumberFunction("isFinite"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsObjectIsFiniteNumber(p0)); } // ----------------------------------------------------------------------------- // Number.isInteger TEST_F(JSCallReducerTest, NumberIsIntegerWithNumber) { Node* function = NumberFunction("isInteger"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsObjectIsInteger(p0)); } // ----------------------------------------------------------------------------- // Number.isNaN TEST_F(JSCallReducerTest, NumberIsNaNWithNumber) { Node* function = NumberFunction("isNaN"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsObjectIsNaN(p0)); } // ----------------------------------------------------------------------------- // Number.isSafeInteger TEST_F(JSCallReducerTest, NumberIsSafeIntegerWithIntegral32) { Node* function = NumberFunction("isSafeInteger"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsObjectIsSafeInteger(p0)); } // ----------------------------------------------------------------------------- // isFinite TEST_F(JSCallReducerTest, GlobalIsFiniteWithNumber) { Node* function = GlobalFunction("isFinite"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberIsFinite(IsSpeculativeToNumber(p0))); } // ----------------------------------------------------------------------------- // isNaN TEST_F(JSCallReducerTest, GlobalIsNaN) { Node* function = GlobalFunction("isNaN"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(1), function, UndefinedConstant(), p0, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsNumberIsNaN(IsSpeculativeToNumber(p0))); } // ----------------------------------------------------------------------------- // Number.parseInt TEST_F(JSCallReducerTest, NumberParseInt) { Node* function = NumberFunction("parseInt"); Node* effect = graph()->start(); Node* control = graph()->start(); Node* context = UndefinedConstant(); Node* frame_state = graph()->start(); Node* p0 = Parameter(Type::Any(), 0); Node* p1 = Parameter(Type::Any(), 1); Node* feedback = UndefinedConstant(); Node* call = graph()->NewNode(Call(2), function, UndefinedConstant(), p0, p1, feedback, context, frame_state, effect, control); Reduction r = Reduce(call); ASSERT_TRUE(r.Changed()); EXPECT_THAT(r.replacement(), IsJSParseInt(p0, p1)); } } // namespace compiler } // namespace internal } // namespace v8