| /* |
| * Copyright (C) 2013-2021 Apple Inc. All rights reserved. |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions |
| * are met: |
| * 1. Redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer. |
| * 2. Redistributions in binary form must reproduce the above copyright |
| * notice, this list of conditions and the following disclaimer in the |
| * documentation and/or other materials provided with the distribution. |
| * |
| * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY |
| * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR |
| * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR |
| * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, |
| * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, |
| * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR |
| * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY |
| * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| */ |
| |
| #pragma once |
| |
| #if ENABLE(DFG_JIT) |
| |
| #include "DFGGraph.h" |
| |
| namespace JSC { namespace DFG { |
| |
| // This phase is used to determine if a node can safely run at a new location. |
| // It is important to note that returning false does not mean it's definitely |
| // wrong to run the node at the new location. In other words, returning false |
| // does not imply moving the node would be invalid only that this phase could |
| // not prove it is valid. Thus, it is always ok to return false. |
| |
| template<typename AbstractStateType> |
| class SafeToExecuteEdge { |
| public: |
| SafeToExecuteEdge(AbstractStateType& state) |
| : m_state(state) |
| { |
| } |
| |
| void operator()(Node*, Edge edge) |
| { |
| m_maySeeEmptyChild |= !!(m_state.forNode(edge).m_type & SpecEmpty); |
| |
| switch (edge.useKind()) { |
| case UntypedUse: |
| case Int32Use: |
| case DoubleRepUse: |
| case DoubleRepRealUse: |
| case Int52RepUse: |
| case NumberUse: |
| case RealNumberUse: |
| case BooleanUse: |
| case CellUse: |
| case CellOrOtherUse: |
| case ObjectUse: |
| case ArrayUse: |
| case FunctionUse: |
| case FinalObjectUse: |
| case RegExpObjectUse: |
| case PromiseObjectUse: |
| case ProxyObjectUse: |
| case DerivedArrayUse: |
| case DateObjectUse: |
| case MapObjectUse: |
| case SetObjectUse: |
| case WeakMapObjectUse: |
| case WeakSetObjectUse: |
| case DataViewObjectUse: |
| case ObjectOrOtherUse: |
| case StringIdentUse: |
| case StringUse: |
| case StringOrOtherUse: |
| case SymbolUse: |
| case AnyBigIntUse: |
| case HeapBigIntUse: |
| case BigInt32Use: |
| case StringObjectUse: |
| case StringOrStringObjectUse: |
| case NotStringVarUse: |
| case NotSymbolUse: |
| case NotCellUse: |
| case NotCellNorBigIntUse: |
| case OtherUse: |
| case MiscUse: |
| case AnyIntUse: |
| case DoubleRepAnyIntUse: |
| case NotDoubleUse: |
| case NeitherDoubleNorHeapBigIntNorStringUse: |
| case NeitherDoubleNorHeapBigIntUse: |
| return; |
| |
| case KnownInt32Use: |
| if (m_state.forNode(edge).m_type & ~SpecInt32Only) |
| m_result = false; |
| return; |
| |
| case KnownBooleanUse: |
| if (m_state.forNode(edge).m_type & ~SpecBoolean) |
| m_result = false; |
| return; |
| |
| case KnownCellUse: |
| if (m_state.forNode(edge).m_type & ~SpecCell) |
| m_result = false; |
| return; |
| |
| case KnownStringUse: |
| if (m_state.forNode(edge).m_type & ~SpecString) |
| m_result = false; |
| return; |
| |
| case KnownPrimitiveUse: |
| if (m_state.forNode(edge).m_type & ~(SpecHeapTop & ~SpecObject)) |
| m_result = false; |
| return; |
| |
| case KnownOtherUse: |
| if (m_state.forNode(edge).m_type & ~SpecOther) |
| m_result = false; |
| return; |
| |
| case LastUseKind: |
| RELEASE_ASSERT_NOT_REACHED(); |
| break; |
| } |
| RELEASE_ASSERT_NOT_REACHED(); |
| } |
| |
| bool result() const { return m_result; } |
| bool maySeeEmptyChild() const { return m_maySeeEmptyChild; } |
| private: |
| AbstractStateType& m_state; |
| bool m_result { true }; |
| bool m_maySeeEmptyChild { false }; |
| }; |
| |
| // Determines if it's safe to execute a node within the given abstract state. This may |
| // return false conservatively. If it returns true, then you can hoist the given node |
| // up to the given point and expect that it will not crash. It also guarantees that the |
| // node will not produce a malformed JSValue or object pointer when executed in the |
| // given state. But this doesn't guarantee that the node will produce the result you |
| // wanted. For example, you may have a GetByOffset from a prototype that only makes |
| // semantic sense if you've also checked that some nearer prototype doesn't also have |
| // a property of the same name. This could still return true even if that check hadn't |
| // been performed in the given abstract state. That's fine though: the load can still |
| // safely execute before that check, so long as that check continues to guard any |
| // user-observable things done to the loaded value. |
| template<typename AbstractStateType> |
| bool safeToExecute(AbstractStateType& state, Graph& graph, Node* node, bool ignoreEmptyChildren = false) |
| { |
| SafeToExecuteEdge<AbstractStateType> safeToExecuteEdge(state); |
| DFG_NODE_DO_TO_CHILDREN(graph, node, safeToExecuteEdge); |
| if (!safeToExecuteEdge.result()) |
| return false; |
| |
| if (!ignoreEmptyChildren && safeToExecuteEdge.maySeeEmptyChild()) { |
| // We conservatively assume if the empty value flows into a node, |
| // it might not be able to handle it (e.g, crash). In general, the bytecode generator |
| // emits code in such a way that most node types don't need to worry about the empty value |
| // because they will never see it. However, code motion has to consider the empty |
| // value so it does not insert/move nodes to a place where they will crash. E.g, the |
| // type check hoisting phase needs to insert CheckStructureOrEmpty instead of CheckStructure |
| // for hoisted structure checks because it can not guarantee that a particular local is not |
| // the empty value. |
| switch (node->op()) { |
| case CheckNotEmpty: |
| case CheckStructureOrEmpty: |
| case CheckArrayOrEmpty: |
| break; |
| default: |
| return false; |
| } |
| } |
| |
| // NOTE: This can lie when it comes to effectful nodes, because it knows that they aren't going to |
| // get hoisted anyway. Sometimes this is convenient so we can avoid branching on some internal |
| // state of the node (like what some child's UseKind might be). However, nodes that are obviously |
| // always effectful, we return false for, to make auditing the "return true" cases easier. |
| |
| switch (node->op()) { |
| case JSConstant: |
| case DoubleConstant: |
| case Int52Constant: |
| case LazyJSConstant: |
| case Identity: |
| case IdentityWithProfile: |
| case GetCallee: |
| case GetArgumentCountIncludingThis: |
| case GetRestLength: |
| case GetLocal: |
| case GetStack: |
| case ExitOK: |
| case Phantom: |
| case ArithBitNot: |
| case ArithBitAnd: |
| case ArithBitOr: |
| case ArithBitXor: |
| case ArithBitLShift: |
| case ArithBitRShift: |
| case BitURShift: |
| case ValueToInt32: |
| case UInt32ToNumber: |
| case DoubleAsInt32: |
| case ArithAdd: |
| case ArithClz32: |
| case ArithSub: |
| case ArithNegate: |
| case ArithMul: |
| case ArithDiv: |
| case ArithMod: |
| case ArithAbs: |
| case ArithMin: |
| case ArithMax: |
| case ArithPow: |
| case ArithSqrt: |
| case ArithFRound: |
| case ArithRound: |
| case ArithFloor: |
| case ArithCeil: |
| case ArithTrunc: |
| case ArithUnary: |
| case CheckStructure: |
| case CheckStructureOrEmpty: |
| case GetExecutable: |
| case CheckJSCast: |
| case CheckNotJSCast: |
| case CheckArray: |
| case CheckArrayOrEmpty: |
| case GetScope: |
| case SkipScope: |
| case GetGlobalObject: |
| case GetGlobalThis: |
| case GetClosureVar: |
| case GetGlobalVar: |
| case GetGlobalLexicalVariable: |
| case CheckIsConstant: |
| case CheckNotEmpty: |
| case AssertNotEmpty: |
| case CheckIdent: |
| case CompareLess: |
| case CompareLessEq: |
| case CompareGreater: |
| case CompareGreaterEq: |
| case CompareBelow: |
| case CompareBelowEq: |
| case CompareEq: |
| case CompareStrictEq: |
| case CompareEqPtr: |
| case SameValue: |
| case CheckTypeInfoFlags: |
| case ParseInt: |
| case OverridesHasInstance: |
| case IsEmpty: |
| case TypeOfIsUndefined: |
| case TypeOfIsObject: |
| case TypeOfIsFunction: |
| case IsUndefinedOrNull: |
| case IsBoolean: |
| case IsNumber: |
| case IsBigInt: |
| case NumberIsInteger: |
| case IsObject: |
| case IsCallable: |
| case IsConstructor: |
| case IsCellWithType: |
| case IsTypedArrayView: |
| case TypeOf: |
| case ToBoolean: |
| case LogicalNot: |
| case ToString: |
| case FunctionToString: |
| case NumberToStringWithValidRadixConstant: |
| case StrCat: |
| case CallStringConstructor: |
| case MakeRope: |
| case GetFromArguments: |
| case GetArgument: |
| case StringFromCharCode: |
| case ExtractOSREntryLocal: |
| case ExtractCatchLocal: |
| case AssertInBounds: |
| case CheckInBounds: |
| case CheckInBoundsInt52: |
| case ConstantStoragePointer: |
| case Check: |
| case CheckVarargs: |
| case ValueRep: |
| case DoubleRep: |
| case Int52Rep: |
| case BooleanToNumber: |
| case FiatInt52: |
| case HasIndexedProperty: |
| case CheckStructureImmediate: |
| case GetMyArgumentByVal: |
| case GetMyArgumentByValOutOfBounds: |
| case GetPrototypeOf: |
| case GetRegExpObjectLastIndex: |
| case MapHash: |
| case NormalizeMapKey: |
| case StringSlice: |
| case ToLowerCase: |
| case GetMapBucket: |
| case GetMapBucketHead: |
| case GetMapBucketNext: |
| case LoadKeyFromMapBucket: |
| case LoadValueFromMapBucket: |
| case ExtractValueFromWeakMapGet: |
| case WeakMapGet: |
| case AtomicsIsLockFree: |
| case MatchStructure: |
| case DateGetInt32OrNaN: |
| case DateGetTime: |
| case DataViewGetInt: |
| case DataViewGetFloat: |
| case ResolveRope: |
| return true; |
| |
| case GetButterfly: |
| return state.forNode(node->child1()).isType(SpecObject); |
| |
| case ArraySlice: |
| case ArrayIndexOf: { |
| // You could plausibly move this code around as long as you proved the |
| // incoming array base structure is an original array at the hoisted location. |
| // Instead of doing that extra work, we just conservatively return false. |
| return false; |
| } |
| |
| case GetGetter: |
| case GetSetter: { |
| if (!state.forNode(node->child1()).isType(SpecCell)) |
| return false; |
| StructureAbstractValue& value = state.forNode(node->child1()).m_structure; |
| if (value.isInfinite() || value.size() != 1) |
| return false; |
| |
| return value[0].get() == graph.m_vm.getterSetterStructure; |
| } |
| |
| case BottomValue: |
| // If in doubt, assume that this isn't safe to execute, just because we have no way of |
| // compiling this node. |
| return false; |
| |
| case StoreBarrier: |
| case FencedStoreBarrier: |
| case PutStructure: |
| case NukeStructureAndSetButterfly: |
| // We conservatively assume that these cannot be put anywhere, which forces the compiler to |
| // keep them exactly where they were. This is sort of overkill since the clobberize effects |
| // already force these things to be ordered precisely. I'm just not confident enough in my |
| // effect based memory model to rely solely on that right now. |
| return false; |
| |
| case FilterCallLinkStatus: |
| case FilterGetByStatus: |
| case FilterPutByStatus: |
| case FilterInByStatus: |
| case FilterDeleteByStatus: |
| case FilterCheckPrivateBrandStatus: |
| case FilterSetPrivateBrandStatus: |
| // We don't want these to be moved anywhere other than where we put them, since we want them |
| // to capture "profiling" at the point in control flow here the user put them. |
| return false; |
| |
| case EnumeratorGetByVal: |
| case GetByVal: |
| case GetIndexedPropertyStorage: |
| case GetArrayLength: |
| case GetTypedArrayLengthAsInt52: |
| case GetVectorLength: |
| case ArrayPop: |
| case StringCharAt: |
| case StringCharCodeAt: |
| case StringCodePointAt: |
| return node->arrayMode().alreadyChecked(graph, node, state.forNode(graph.child(node, 0))); |
| |
| case ArrayPush: |
| return node->arrayMode().alreadyChecked(graph, node, state.forNode(graph.varArgChild(node, 1))); |
| |
| case CheckDetached: |
| case GetTypedArrayByteOffset: |
| case GetTypedArrayByteOffsetAsInt52: |
| return !(state.forNode(node->child1()).m_type & ~(SpecTypedArrayView)); |
| |
| case PutByValDirect: |
| case PutByVal: |
| case PutByValAlias: |
| return node->arrayMode().modeForPut().alreadyChecked( |
| graph, node, state.forNode(graph.varArgChild(node, 0))); |
| |
| case AllocatePropertyStorage: |
| case ReallocatePropertyStorage: |
| return state.forNode(node->child1()).m_structure.isSubsetOf( |
| RegisteredStructureSet(node->transition()->previous)); |
| |
| case GetGetterSetterByOffset: { |
| // If it's an inline property, we need to make sure it's a cell before trusting what the structure set tells us. |
| if (node->child1().node() == node->child2().node() && !state.forNode(node->child2()).isType(SpecCell)) |
| return false; |
| |
| StorageAccessData& data = node->storageAccessData(); |
| auto* uid = graph.identifiers()[data.identifierNumber]; |
| PropertyOffset desiredOffset = data.offset; |
| StructureAbstractValue& value = state.forNode(node->child2()).m_structure; |
| if (value.isInfinite()) |
| return false; |
| for (unsigned i = value.size(); i--;) { |
| Structure* thisStructure = value[i].get(); |
| if (thisStructure->isUncacheableDictionary()) |
| return false; |
| unsigned attributes = 0; |
| PropertyOffset checkOffset = thisStructure->getConcurrently(uid, attributes); |
| if (checkOffset != desiredOffset || !(attributes & PropertyAttribute::Accessor)) |
| return false; |
| } |
| return true; |
| } |
| |
| case GetByOffset: |
| case PutByOffset: { |
| // If it's an inline property, we need to make sure it's a cell before trusting what the structure set tells us. |
| if (node->child1().node() == node->child2().node() && !state.forNode(node->child2()).isType(SpecCell)) |
| return false; |
| |
| StorageAccessData& data = node->storageAccessData(); |
| PropertyOffset offset = data.offset; |
| // Graph::isSafeToLoad() is all about proofs derived from PropertyConditions. Those don't |
| // know anything about inferred types. But if we have a proof derived from watching a |
| // structure that has a type proof, then the next case below will deal with it. |
| if (state.structureClobberState() == StructuresAreWatched) { |
| if (JSObject* knownBase = node->child2()->dynamicCastConstant<JSObject*>()) { |
| if (graph.isSafeToLoad(knownBase, offset)) |
| return true; |
| } |
| } |
| |
| StructureAbstractValue& value = state.forNode(node->child2()).m_structure; |
| if (value.isInfinite()) |
| return false; |
| for (unsigned i = value.size(); i--;) { |
| Structure* thisStructure = value[i].get(); |
| if (thisStructure->isUncacheableDictionary()) |
| return false; |
| if (!thisStructure->isValidOffset(offset)) |
| return false; |
| } |
| return true; |
| } |
| |
| case MultiGetByOffset: { |
| // We can't always guarantee that the MultiGetByOffset is safe to execute if it |
| // contains loads from prototypes. If the load requires a check in IR, which is rare, then |
| // we currently claim that we don't know if it's safe to execute because finding that |
| // check in the abstract state would be hard. If the load requires watchpoints, we just |
| // check if we're not in a clobbered state (i.e. in between a side effect and an |
| // invalidation point). |
| for (const MultiGetByOffsetCase& getCase : node->multiGetByOffsetData().cases) { |
| GetByOffsetMethod method = getCase.method(); |
| switch (method.kind()) { |
| case GetByOffsetMethod::Invalid: |
| RELEASE_ASSERT_NOT_REACHED(); |
| break; |
| case GetByOffsetMethod::Constant: // OK because constants are always safe to execute. |
| case GetByOffsetMethod::Load: // OK because the MultiGetByOffset has its own checks for loading from self. |
| break; |
| case GetByOffsetMethod::LoadFromPrototype: |
| // Only OK if the state isn't clobbered. That's almost always the case. |
| if (state.structureClobberState() != StructuresAreWatched) |
| return false; |
| if (!graph.isSafeToLoad(method.prototype()->cast<JSObject*>(), method.offset())) |
| return false; |
| break; |
| } |
| } |
| return true; |
| } |
| |
| case CallDOMGetter: |
| case CallDOM: { |
| Node* thisNode = node->child1().node(); |
| StructureAbstractValue& structures = state.forNode(thisNode).m_structure; |
| if (!structures.isFinite()) |
| return false; |
| bool isSafe = true; |
| const ClassInfo* classInfo = node->requiredDOMJITClassInfo(); |
| structures.forEach([&] (RegisteredStructure structure) { |
| isSafe &= structure->classInfoForCells()->isSubClassOf(classInfo); |
| }); |
| return isSafe; |
| } |
| |
| case EnumeratorNextUpdateIndexAndMode: |
| // These technically don't have effects but they'll only ever follow a EnumeratorNextUpdateIndexAndMode so we might as well return false. |
| case EnumeratorNextExtractMode: |
| case EnumeratorNextExtractIndex: |
| case EnumeratorNextUpdatePropertyName: |
| case ToThis: |
| case CreateThis: |
| case CreatePromise: |
| case CreateGenerator: |
| case CreateAsyncGenerator: |
| case ObjectAssign: |
| case ObjectCreate: |
| case ObjectKeys: |
| case ObjectGetOwnPropertyNames: |
| case SetLocal: |
| case SetCallee: |
| case PutStack: |
| case KillStack: |
| case MovHint: |
| case Upsilon: |
| case Phi: |
| case Flush: |
| case SetArgumentDefinitely: |
| case SetArgumentMaybe: |
| case SetArgumentCountIncludingThis: |
| case PhantomLocal: |
| case DeleteById: |
| case DeleteByVal: |
| case GetById: |
| case GetByIdWithThis: |
| case GetByValWithThis: |
| case GetByIdFlush: |
| case GetByIdDirect: |
| case GetByIdDirectFlush: |
| case PutById: |
| case PutByIdFlush: |
| case PutByIdWithThis: |
| case PutByValWithThis: |
| case PutByIdDirect: |
| case PutGetterById: |
| case PutSetterById: |
| case PutGetterSetterById: |
| case PutGetterByVal: |
| case PutSetterByVal: |
| case PutPrivateName: |
| case PutPrivateNameById: |
| case GetPrivateName: |
| case GetPrivateNameById: |
| case CheckPrivateBrand: |
| case SetPrivateBrand: |
| case DefineDataProperty: |
| case DefineAccessorProperty: |
| case Arrayify: |
| case ArrayifyToStructure: |
| case PutClosureVar: |
| case PutGlobalVariable: |
| case CheckBadValue: |
| case RegExpExec: |
| case RegExpExecNonGlobalOrSticky: |
| case RegExpTest: |
| case RegExpTestInline: |
| case RegExpMatchFast: |
| case RegExpMatchFastGlobal: |
| case Call: |
| case DirectCall: |
| case TailCallInlinedCaller: |
| case DirectTailCallInlinedCaller: |
| case Construct: |
| case DirectConstruct: |
| case CallVarargs: |
| case CallEval: |
| case TailCallVarargsInlinedCaller: |
| case TailCallForwardVarargsInlinedCaller: |
| case ConstructVarargs: |
| case VarargsLength: |
| case LoadVarargs: |
| case CallForwardVarargs: |
| case ConstructForwardVarargs: |
| case NewObject: |
| case NewGenerator: |
| case NewAsyncGenerator: |
| case NewArray: |
| case NewArrayWithSize: |
| case NewArrayBuffer: |
| case NewArrayWithSpread: |
| case NewInternalFieldObject: |
| case Spread: |
| case NewRegexp: |
| case NewSymbol: |
| case ProfileType: |
| case ProfileControlFlow: |
| case InstanceOf: |
| case InstanceOfCustom: |
| case CallObjectConstructor: |
| case ToPrimitive: |
| case ToPropertyKey: |
| case ToNumber: |
| case ToNumeric: |
| case ToObject: |
| case CallNumberConstructor: |
| case NumberToStringWithRadix: |
| case SetFunctionName: |
| case NewStringObject: |
| case InByVal: |
| case InById: |
| case EnumeratorInByVal: |
| case EnumeratorHasOwnProperty: |
| case HasPrivateName: |
| case HasPrivateBrand: |
| case HasOwnProperty: |
| case PushWithScope: |
| case CreateActivation: |
| case CreateDirectArguments: |
| case CreateScopedArguments: |
| case CreateClonedArguments: |
| case CreateArgumentsButterfly: |
| case PutToArguments: |
| case NewFunction: |
| case NewGeneratorFunction: |
| case NewAsyncGeneratorFunction: |
| case NewAsyncFunction: |
| case Jump: |
| case Branch: |
| case Switch: |
| case EntrySwitch: |
| case Return: |
| case TailCall: |
| case DirectTailCall: |
| case TailCallVarargs: |
| case TailCallForwardVarargs: |
| case Throw: |
| case ThrowStaticError: |
| case CountExecution: |
| case SuperSamplerBegin: |
| case SuperSamplerEnd: |
| case ForceOSRExit: |
| case CPUIntrinsic: |
| case CheckTraps: |
| case LogShadowChickenPrologue: |
| case LogShadowChickenTail: |
| case NewTypedArray: |
| case Unreachable: |
| case ClearCatchLocals: |
| case CheckTierUpInLoop: |
| case CheckTierUpAtReturn: |
| case CheckTierUpAndOSREnter: |
| case LoopHint: |
| case InvalidationPoint: |
| case NotifyWrite: |
| case MultiPutByOffset: |
| case MultiDeleteByOffset: |
| case GetPropertyEnumerator: |
| case PhantomNewObject: |
| case PhantomNewFunction: |
| case PhantomNewGeneratorFunction: |
| case PhantomNewAsyncGeneratorFunction: |
| case PhantomNewAsyncFunction: |
| case PhantomNewInternalFieldObject: |
| case PhantomCreateActivation: |
| case PhantomNewRegexp: |
| case PutHint: |
| case MaterializeNewObject: |
| case MaterializeCreateActivation: |
| case MaterializeNewInternalFieldObject: |
| case PhantomDirectArguments: |
| case PhantomCreateRest: |
| case PhantomSpread: |
| case PhantomNewArrayWithSpread: |
| case PhantomNewArrayBuffer: |
| case PhantomClonedArguments: |
| case ForwardVarargs: |
| case CreateRest: |
| case SetRegExpObjectLastIndex: |
| case RecordRegExpCachedResult: |
| case GetDynamicVar: |
| case PutDynamicVar: |
| case ResolveScopeForHoistingFuncDeclInEval: |
| case ResolveScope: |
| case StringValueOf: |
| case WeakSetAdd: |
| case WeakMapSet: |
| case AtomicsAdd: |
| case AtomicsAnd: |
| case AtomicsCompareExchange: |
| case AtomicsExchange: |
| case AtomicsLoad: |
| case AtomicsOr: |
| case AtomicsStore: |
| case AtomicsSub: |
| case AtomicsXor: |
| case InitializeEntrypointArguments: |
| case ValueNegate: |
| case GetInternalField: |
| case PutInternalField: |
| case DataViewSet: |
| case SetAdd: |
| case MapSet: |
| case StringReplaceRegExp: |
| case StringReplace: |
| case ArithRandom: |
| case ArithIMul: |
| case TryGetById: |
| return false; |
| |
| case Inc: |
| case Dec: |
| return node->child1().useKind() != UntypedUse; |
| |
| case ValueBitAnd: |
| case ValueBitXor: |
| case ValueBitOr: |
| case ValueBitLShift: |
| case ValueBitRShift: |
| case ValueAdd: |
| case ValueSub: |
| case ValueMul: |
| case ValueDiv: |
| case ValueMod: |
| case ValuePow: |
| return node->isBinaryUseKind(AnyBigIntUse) || node->isBinaryUseKind(BigInt32Use) || node->isBinaryUseKind(HeapBigIntUse); |
| |
| case ValueBitNot: |
| return node->child1().useKind() == AnyBigIntUse || node->child1().useKind() == BigInt32Use || node->child1().useKind() == HeapBigIntUse; |
| |
| case LastNodeType: |
| RELEASE_ASSERT_NOT_REACHED(); |
| return false; |
| } |
| |
| RELEASE_ASSERT_NOT_REACHED(); |
| return false; |
| } |
| |
| } } // namespace JSC::DFG |
| |
| #endif // ENABLE(DFG_JIT) |