Source/JavaScriptCore/heap/Heap.h - third_party/webkit - Git at Google

 /*
  *  Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
  *  Copyright (C) 2001 Peter Kelly (pmk@post.com)
  *  Copyright (C) 2003-2009, 2013-2016 Apple Inc. All rights reserved.
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Lesser General Public
  *  License as published by the Free Software Foundation; either
  *  version 2 of the License, or (at your option) any later version.
  *
  *  This library is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  *  Lesser General Public License for more details.
  *
  *  You should have received a copy of the GNU Lesser General Public
  *  License along with this library; if not, write to the Free Software
  *  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
  *
  */

 #ifndef Heap_h
 #define Heap_h

 #include "ArrayBuffer.h"
 #include "GCIncomingRefCountedSet.h"
 #include "HandleSet.h"
 #include "HandleStack.h"
 #include "HeapObserver.h"
 #include "HeapOperation.h"
 #include "ListableHandler.h"
 #include "MachineStackMarker.h"
 #include "MarkedAllocator.h"
 #include "MarkedBlock.h"
 #include "MarkedBlockSet.h"
 #include "MarkedSpace.h"
 #include "Options.h"
 #include "SlotVisitor.h"
 #include "StructureIDTable.h"
 #include "TinyBloomFilter.h"
 #include "UnconditionalFinalizer.h"
 #include "WeakHandleOwner.h"
 #include "WeakReferenceHarvester.h"
 #include "WriteBarrierBuffer.h"
 #include "WriteBarrierSupport.h"
 #include <wtf/HashCountedSet.h>
 #include <wtf/HashSet.h>
 #include <wtf/ParallelHelperPool.h>

 namespace JSC {

 class AllocationScope;
 class CodeBlock;
 class CodeBlockSet;
 class EdenGCActivityCallback;
 class ExecutableBase;
 class FullGCActivityCallback;
 class GCActivityCallback;
 class GCAwareJITStubRoutine;
 class Heap;
 class HeapProfiler;
 class HeapRootVisitor;
 class HeapVerifier;
 class IncrementalSweeper;
 class JITStubRoutine;
 class JITStubRoutineSet;
 class JSCell;
 class JSValue;
 class LLIntOffsetsExtractor;
 class MarkedArgumentBuffer;
 class VM;

 namespace DFG {
 class SpeculativeJIT;
 class Worklist;
 }

 static void* const zombifiedBits = reinterpret_cast<void*>(static_cast<uintptr_t>(0xdeadbeef));

 typedef HashCountedSet<JSCell*> ProtectCountSet;
 typedef HashCountedSet<const char*> TypeCountSet;

 enum HeapType { SmallHeap, LargeHeap };

 class HeapUtil;

 class Heap {
     WTF_MAKE_NONCOPYABLE(Heap);
 public:
     friend class JIT;
     friend class DFG::SpeculativeJIT;
     static Heap* heap(const JSValue); // 0 for immediate values
     static Heap* heap(const HeapCell*);

     // This constant determines how many blocks we iterate between checks of our
     // deadline when calling Heap::isPagedOut. Decreasing it will cause us to detect
     // overstepping our deadline more quickly, while increasing it will cause
     // our scan to run faster.
     static const unsigned s_timeCheckResolution = 16;

     static bool isMarked(const void*);
     static bool isMarkedConcurrently(const void*);
     static bool testAndSetMarked(HeapVersion, const void*);

     static size_t cellSize(const void*);

     void writeBarrier(const JSCell*);
     void writeBarrier(const JSCell*, JSValue);
     void writeBarrier(const JSCell*, JSCell*);

     WriteBarrierBuffer& writeBarrierBuffer() { return m_writeBarrierBuffer; }
     void flushWriteBarrierBuffer(JSCell*);

     Heap(VM*, HeapType);
     ~Heap();
     void lastChanceToFinalize();
     void releaseDelayedReleasedObjects();

     VM* vm() const { return m_vm; }
     MarkedSpace& objectSpace() { return m_objectSpace; }
     MachineThreads& machineThreads() { return m_machineThreads; }

     const SlotVisitor& slotVisitor() const { return m_slotVisitor; }

     JS_EXPORT_PRIVATE GCActivityCallback* fullActivityCallback();
     JS_EXPORT_PRIVATE GCActivityCallback* edenActivityCallback();
     JS_EXPORT_PRIVATE void setFullActivityCallback(PassRefPtr<FullGCActivityCallback>);
     JS_EXPORT_PRIVATE void setEdenActivityCallback(PassRefPtr<EdenGCActivityCallback>);
     JS_EXPORT_PRIVATE void setGarbageCollectionTimerEnabled(bool);

     JS_EXPORT_PRIVATE IncrementalSweeper* sweeper();
     JS_EXPORT_PRIVATE void setIncrementalSweeper(std::unique_ptr<IncrementalSweeper>);

     void addObserver(HeapObserver* observer) { m_observers.append(observer); }
     void removeObserver(HeapObserver* observer) { m_observers.removeFirst(observer); }

     // true if collection is in progress
     bool isCollecting();
     HeapOperation operationInProgress() { return m_operationInProgress; }
     // true if an allocation or collection is in progress
     bool isBusy();
     MarkedSpace::Subspace& subspaceForObjectWithoutDestructor() { return m_objectSpace.subspaceForObjectsWithoutDestructor(); }
     MarkedSpace::Subspace& subspaceForObjectDestructor() { return m_objectSpace.subspaceForObjectsWithDestructor(); }
     MarkedSpace::Subspace& subspaceForAuxiliaryData() { return m_objectSpace.subspaceForAuxiliaryData(); }
     template<typename ClassType> MarkedSpace::Subspace& subspaceForObjectOfType();
     MarkedAllocator* allocatorForObjectWithoutDestructor(size_t bytes) { return m_objectSpace.allocatorFor(bytes); }
     MarkedAllocator* allocatorForObjectWithDestructor(size_t bytes) { return m_objectSpace.destructorAllocatorFor(bytes); }
     template<typename ClassType> MarkedAllocator* allocatorForObjectOfType(size_t bytes);
     MarkedAllocator* allocatorForAuxiliaryData(size_t bytes) { return m_objectSpace.auxiliaryAllocatorFor(bytes); }
     void* allocateAuxiliary(JSCell* intendedOwner, size_t);
     void* tryAllocateAuxiliary(JSCell* intendedOwner, size_t);
     void* tryReallocateAuxiliary(JSCell* intendedOwner, void* oldBase, size_t oldSize, size_t newSize);
     void ascribeOwner(JSCell* intendedOwner, void*);

     typedef void (*Finalizer)(JSCell*);
     JS_EXPORT_PRIVATE void addFinalizer(JSCell*, Finalizer);
     void addExecutable(ExecutableBase*);

     void notifyIsSafeToCollect() { m_isSafeToCollect = true; }
     bool isSafeToCollect() const { return m_isSafeToCollect; }

     JS_EXPORT_PRIVATE bool isHeapSnapshotting() const;

     JS_EXPORT_PRIVATE void collectAllGarbageIfNotDoneRecently();
     JS_EXPORT_PRIVATE void collectAllGarbage();

     bool shouldCollect();
     JS_EXPORT_PRIVATE void collect(HeapOperation collectionType = AnyCollection);
     bool collectIfNecessaryOrDefer(); // Returns true if it did collect.
     void collectAccordingToDeferGCProbability();

     void completeAllJITPlans();

     // Use this API to report non-GC memory referenced by GC objects. Be sure to
     // call both of these functions: Calling only one may trigger catastropic
     // memory growth.
     void reportExtraMemoryAllocated(size_t);
     void reportExtraMemoryVisited(JSCell*, size_t);

 #if ENABLE(RESOURCE_USAGE)
     // Use this API to report the subset of extra memory that lives outside this process.
     void reportExternalMemoryVisited(JSCell*, size_t);
     size_t externalMemorySize() { return m_externalMemorySize; }
 #endif

     // Use this API to report non-GC memory if you can't use the better API above.
     void deprecatedReportExtraMemory(size_t);

     JS_EXPORT_PRIVATE void reportAbandonedObjectGraph();

     JS_EXPORT_PRIVATE void protect(JSValue);
     JS_EXPORT_PRIVATE bool unprotect(JSValue); // True when the protect count drops to 0.

     JS_EXPORT_PRIVATE size_t extraMemorySize(); // Non-GC memory referenced by GC objects.
     JS_EXPORT_PRIVATE size_t size();
     JS_EXPORT_PRIVATE size_t capacity();
     JS_EXPORT_PRIVATE size_t objectCount();
     JS_EXPORT_PRIVATE size_t globalObjectCount();
     JS_EXPORT_PRIVATE size_t protectedObjectCount();
     JS_EXPORT_PRIVATE size_t protectedGlobalObjectCount();
     JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> protectedObjectTypeCounts();
     JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> objectTypeCounts();

     HashSet<MarkedArgumentBuffer*>& markListSet();

     template<typename Functor> void forEachProtectedCell(const Functor&);
     template<typename Functor> void forEachCodeBlock(const Functor&);

     HandleSet* handleSet() { return &m_handleSet; }
     HandleStack* handleStack() { return &m_handleStack; }

     void willStartIterating();
     void didFinishIterating();

     double lastFullGCLength() const { return m_lastFullGCLength; }
     double lastEdenGCLength() const { return m_lastEdenGCLength; }
     void increaseLastFullGCLength(double amount) { m_lastFullGCLength += amount; }

     size_t sizeBeforeLastEdenCollection() const { return m_sizeBeforeLastEdenCollect; }
     size_t sizeAfterLastEdenCollection() const { return m_sizeAfterLastEdenCollect; }
     size_t sizeBeforeLastFullCollection() const { return m_sizeBeforeLastFullCollect; }
     size_t sizeAfterLastFullCollection() const { return m_sizeAfterLastFullCollect; }

     void deleteAllCodeBlocks();
     void deleteAllUnlinkedCodeBlocks();

     void didAllocate(size_t);
     bool isPagedOut(double deadline);

     const JITStubRoutineSet& jitStubRoutines() { return *m_jitStubRoutines; }

     void addReference(JSCell*, ArrayBuffer*);

     bool isDeferred() const { return !!m_deferralDepth || !Options::useGC(); }

     StructureIDTable& structureIDTable() { return m_structureIDTable; }

     CodeBlockSet& codeBlockSet() { return *m_codeBlocks; }

 #if USE(FOUNDATION)
     template<typename T> void releaseSoon(RetainPtr<T>&&);
 #endif

     static bool isZombified(JSCell* cell) { return *(void**)cell == zombifiedBits; }

     void registerWeakGCMap(void* weakGCMap, std::function<void()> pruningCallback);
     void unregisterWeakGCMap(void* weakGCMap);

     void addLogicallyEmptyWeakBlock(WeakBlock*);

 #if ENABLE(RESOURCE_USAGE)
     size_t blockBytesAllocated() const { return m_blockBytesAllocated; }
 #endif

     void didAllocateBlock(size_t capacity);
     void didFreeBlock(size_t capacity);

 private:
     friend class AllocationScope;
     friend class CodeBlock;
     friend class DeferGC;
     friend class DeferGCForAWhile;
     friend class GCAwareJITStubRoutine;
     friend class GCLogging;
     friend class GCThread;
     friend class HandleSet;
     friend class HeapUtil;
     friend class HeapVerifier;
     friend class JITStubRoutine;
     friend class LLIntOffsetsExtractor;
     friend class MarkedSpace;
     friend class MarkedAllocator;
     friend class MarkedBlock;
     friend class SlotVisitor;
     friend class IncrementalSweeper;
     friend class HeapStatistics;
     friend class VM;
     friend class WeakSet;
     template<typename T> friend void* allocateCell(Heap&);
     template<typename T> friend void* allocateCell(Heap&, size_t);

     void collectWithoutAnySweep(HeapOperation collectionType = AnyCollection);

     void* allocateWithDestructor(size_t); // For use with objects with destructors.
     void* allocateWithoutDestructor(size_t); // For use with objects without destructors.
     template<typename ClassType> void* allocateObjectOfType(size_t); // Chooses one of the methods above based on type.

     static const size_t minExtraMemory = 256;

     class FinalizerOwner : public WeakHandleOwner {
         void finalize(Handle<Unknown>, void* context) override;
     };

     JS_EXPORT_PRIVATE bool isValidAllocation(size_t);
     JS_EXPORT_PRIVATE void reportExtraMemoryAllocatedSlowCase(size_t);
     JS_EXPORT_PRIVATE void deprecatedReportExtraMemorySlowCase(size_t);

     void collectImpl(HeapOperation, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);

     void suspendCompilerThreads();
     void willStartCollection(HeapOperation collectionType);
     void flushOldStructureIDTables();
     void flushWriteBarrierBuffer();
     void stopAllocation();
     void prepareForMarking();

     void markRoots(double gcStartTime, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);
     void gatherStackRoots(ConservativeRoots&, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);
     void gatherJSStackRoots(ConservativeRoots&);
     void gatherScratchBufferRoots(ConservativeRoots&);
     void beginMarking();
     void visitExternalRememberedSet();
     void visitSmallStrings();
     void visitConservativeRoots(ConservativeRoots&);
     void visitCompilerWorklistWeakReferences();
     void removeDeadCompilerWorklistEntries();
     void visitProtectedObjects(HeapRootVisitor&);
     void visitArgumentBuffers(HeapRootVisitor&);
     void visitException(HeapRootVisitor&);
     void visitStrongHandles(HeapRootVisitor&);
     void visitHandleStack(HeapRootVisitor&);
     void visitSamplingProfiler();
     void visitShadowChicken();
     void traceCodeBlocksAndJITStubRoutines();
     void visitWeakHandles(HeapRootVisitor&);
     void updateObjectCounts(double gcStartTime);
     void endMarking();

     void reapWeakHandles();
     void pruneStaleEntriesFromWeakGCMaps();
     void sweepArrayBuffers();
     void snapshotUnswept();
     void deleteSourceProviderCaches();
     void notifyIncrementalSweeper();
     void writeBarrierCurrentlyExecutingCodeBlocks();
     void prepareForAllocation();
     void harvestWeakReferences();
     void finalizeUnconditionalFinalizers();
     void clearUnmarkedExecutables();
     void deleteUnmarkedCompiledCode();
     JS_EXPORT_PRIVATE void addToRememberedSet(const JSCell*);
     void updateAllocationLimits();
     void didFinishCollection(double gcStartTime);
     void resumeCompilerThreads();
     void zombifyDeadObjects();
     void gatherExtraHeapSnapshotData(HeapProfiler&);
     void removeDeadHeapSnapshotNodes(HeapProfiler&);
     void sweepLargeAllocations();

     void sweepAllLogicallyEmptyWeakBlocks();
     bool sweepNextLogicallyEmptyWeakBlock();

     bool shouldDoFullCollection(HeapOperation requestedCollectionType) const;

     void incrementDeferralDepth();
     void decrementDeferralDepth();
     void decrementDeferralDepthAndGCIfNeeded();

     size_t threadVisitCount();
     size_t threadBytesVisited();

     void forEachCodeBlockImpl(const ScopedLambda<bool(CodeBlock*)>&);

     const HeapType m_heapType;
     const size_t m_ramSize;
     const size_t m_minBytesPerCycle;
     size_t m_sizeAfterLastCollect;
     size_t m_sizeAfterLastFullCollect;
     size_t m_sizeBeforeLastFullCollect;
     size_t m_sizeAfterLastEdenCollect;
     size_t m_sizeBeforeLastEdenCollect;

     size_t m_bytesAllocatedThisCycle;
     size_t m_bytesAbandonedSinceLastFullCollect;
     size_t m_maxEdenSize;
     size_t m_maxHeapSize;
     bool m_shouldDoFullCollection;
     size_t m_totalBytesVisited;
     size_t m_totalBytesVisitedThisCycle;

     HeapOperation m_operationInProgress;
     StructureIDTable m_structureIDTable;
     MarkedSpace m_objectSpace;
     GCIncomingRefCountedSet<ArrayBuffer> m_arrayBuffers;
     size_t m_extraMemorySize;
     size_t m_deprecatedExtraMemorySize;

     HashSet<const JSCell*> m_copyingRememberedSet;

     ProtectCountSet m_protectedValues;
     std::unique_ptr<HashSet<MarkedArgumentBuffer*>> m_markListSet;

     MachineThreads m_machineThreads;

     SlotVisitor m_slotVisitor;

     // We pool the slot visitors used by parallel marking threads. It's useful to be able to
     // enumerate over them, and it's useful to have them cache some small amount of memory from
     // one GC to the next. GC marking threads claim these at the start of marking, and return
     // them at the end.
     Vector<std::unique_ptr<SlotVisitor>> m_parallelSlotVisitors;
     Vector<SlotVisitor*> m_availableParallelSlotVisitors;
     Lock m_parallelSlotVisitorLock;

     HandleSet m_handleSet;
     HandleStack m_handleStack;
     std::unique_ptr<CodeBlockSet> m_codeBlocks;
     std::unique_ptr<JITStubRoutineSet> m_jitStubRoutines;
     FinalizerOwner m_finalizerOwner;

     bool m_isSafeToCollect;

     WriteBarrierBuffer m_writeBarrierBuffer;

     VM* m_vm;
     double m_lastFullGCLength;
     double m_lastEdenGCLength;

     Vector<ExecutableBase*> m_executables;

     Vector<WeakBlock*> m_logicallyEmptyWeakBlocks;
     size_t m_indexOfNextLogicallyEmptyWeakBlockToSweep { WTF::notFound };

     RefPtr<FullGCActivityCallback> m_fullActivityCallback;
     RefPtr<GCActivityCallback> m_edenActivityCallback;
     std::unique_ptr<IncrementalSweeper> m_sweeper;

     Vector<HeapObserver*> m_observers;

     unsigned m_deferralDepth;
     Vector<DFG::Worklist*> m_suspendedCompilerWorklists;

     std::unique_ptr<HeapVerifier> m_verifier;

 #if USE(FOUNDATION)
     Vector<RetainPtr<CFTypeRef>> m_delayedReleaseObjects;
     unsigned m_delayedReleaseRecursionCount;
 #endif

     HashMap<void*, std::function<void()>> m_weakGCMaps;

     Lock m_markingMutex;
     Condition m_markingConditionVariable;
     MarkStackArray m_sharedMarkStack;
     unsigned m_numberOfActiveParallelMarkers { 0 };
     unsigned m_numberOfWaitingParallelMarkers { 0 };
     bool m_parallelMarkersShouldExit { false };

     Lock m_opaqueRootsMutex;
     HashSet<void*> m_opaqueRoots;

     static const size_t s_blockFragmentLength = 32;

     ListableHandler<WeakReferenceHarvester>::List m_weakReferenceHarvesters;
     ListableHandler<UnconditionalFinalizer>::List m_unconditionalFinalizers;

     ParallelHelperClient m_helperClient;

 #if ENABLE(RESOURCE_USAGE)
     size_t m_blockBytesAllocated { 0 };
     size_t m_externalMemorySize { 0 };
 #endif
 };

 } // namespace JSC

 #endif // Heap_h
	/*
	* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
	* Copyright (C) 2001 Peter Kelly (pmk@post.com)
	* Copyright (C) 2003-2009, 2013-2016 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
	*
	*/

	#ifndef Heap_h
	#define Heap_h

	#include "ArrayBuffer.h"
	#include "GCIncomingRefCountedSet.h"
	#include "HandleSet.h"
	#include "HandleStack.h"
	#include "HeapObserver.h"
	#include "HeapOperation.h"
	#include "ListableHandler.h"
	#include "MachineStackMarker.h"
	#include "MarkedAllocator.h"
	#include "MarkedBlock.h"
	#include "MarkedBlockSet.h"
	#include "MarkedSpace.h"
	#include "Options.h"
	#include "SlotVisitor.h"
	#include "StructureIDTable.h"
	#include "TinyBloomFilter.h"
	#include "UnconditionalFinalizer.h"
	#include "WeakHandleOwner.h"
	#include "WeakReferenceHarvester.h"
	#include "WriteBarrierBuffer.h"
	#include "WriteBarrierSupport.h"
	#include <wtf/HashCountedSet.h>
	#include <wtf/HashSet.h>
	#include <wtf/ParallelHelperPool.h>

	namespace JSC {

	class AllocationScope;
	class CodeBlock;
	class CodeBlockSet;
	class EdenGCActivityCallback;
	class ExecutableBase;
	class FullGCActivityCallback;
	class GCActivityCallback;
	class GCAwareJITStubRoutine;
	class Heap;
	class HeapProfiler;
	class HeapRootVisitor;
	class HeapVerifier;
	class IncrementalSweeper;
	class JITStubRoutine;
	class JITStubRoutineSet;
	class JSCell;
	class JSValue;
	class LLIntOffsetsExtractor;
	class MarkedArgumentBuffer;
	class VM;

	namespace DFG {
	class SpeculativeJIT;
	class Worklist;
	}

	static void* const zombifiedBits = reinterpret_cast<void*>(static_cast<uintptr_t>(0xdeadbeef));

	typedef HashCountedSet<JSCell*> ProtectCountSet;
	typedef HashCountedSet<const char*> TypeCountSet;

	enum HeapType { SmallHeap, LargeHeap };

	class HeapUtil;

	class Heap {
	WTF_MAKE_NONCOPYABLE(Heap);
	public:
	friend class JIT;
	friend class DFG::SpeculativeJIT;
	static Heap* heap(const JSValue); // 0 for immediate values
	static Heap* heap(const HeapCell*);

	// This constant determines how many blocks we iterate between checks of our
	// deadline when calling Heap::isPagedOut. Decreasing it will cause us to detect
	// overstepping our deadline more quickly, while increasing it will cause
	// our scan to run faster.
	static const unsigned s_timeCheckResolution = 16;

	static bool isMarked(const void*);
	static bool isMarkedConcurrently(const void*);
	static bool testAndSetMarked(HeapVersion, const void*);

	static size_t cellSize(const void*);

	void writeBarrier(const JSCell*);
	void writeBarrier(const JSCell*, JSValue);
	void writeBarrier(const JSCell, JSCell);

	WriteBarrierBuffer& writeBarrierBuffer() { return m_writeBarrierBuffer; }
	void flushWriteBarrierBuffer(JSCell*);

	Heap(VM*, HeapType);
	~Heap();
	void lastChanceToFinalize();
	void releaseDelayedReleasedObjects();

	VM* vm() const { return m_vm; }
	MarkedSpace& objectSpace() { return m_objectSpace; }
	MachineThreads& machineThreads() { return m_machineThreads; }

	const SlotVisitor& slotVisitor() const { return m_slotVisitor; }

	JS_EXPORT_PRIVATE GCActivityCallback* fullActivityCallback();
	JS_EXPORT_PRIVATE GCActivityCallback* edenActivityCallback();
	JS_EXPORT_PRIVATE void setFullActivityCallback(PassRefPtr<FullGCActivityCallback>);
	JS_EXPORT_PRIVATE void setEdenActivityCallback(PassRefPtr<EdenGCActivityCallback>);
	JS_EXPORT_PRIVATE void setGarbageCollectionTimerEnabled(bool);

	JS_EXPORT_PRIVATE IncrementalSweeper* sweeper();
	JS_EXPORT_PRIVATE void setIncrementalSweeper(std::unique_ptr<IncrementalSweeper>);

	void addObserver(HeapObserver* observer) { m_observers.append(observer); }
	void removeObserver(HeapObserver* observer) { m_observers.removeFirst(observer); }

	// true if collection is in progress
	bool isCollecting();
	HeapOperation operationInProgress() { return m_operationInProgress; }
	// true if an allocation or collection is in progress
	bool isBusy();
	MarkedSpace::Subspace& subspaceForObjectWithoutDestructor() { return m_objectSpace.subspaceForObjectsWithoutDestructor(); }
	MarkedSpace::Subspace& subspaceForObjectDestructor() { return m_objectSpace.subspaceForObjectsWithDestructor(); }
	MarkedSpace::Subspace& subspaceForAuxiliaryData() { return m_objectSpace.subspaceForAuxiliaryData(); }
	template<typename ClassType> MarkedSpace::Subspace& subspaceForObjectOfType();
	MarkedAllocator* allocatorForObjectWithoutDestructor(size_t bytes) { return m_objectSpace.allocatorFor(bytes); }
	MarkedAllocator* allocatorForObjectWithDestructor(size_t bytes) { return m_objectSpace.destructorAllocatorFor(bytes); }
	template<typename ClassType> MarkedAllocator* allocatorForObjectOfType(size_t bytes);
	MarkedAllocator* allocatorForAuxiliaryData(size_t bytes) { return m_objectSpace.auxiliaryAllocatorFor(bytes); }
	void* allocateAuxiliary(JSCell* intendedOwner, size_t);
	void* tryAllocateAuxiliary(JSCell* intendedOwner, size_t);
	void* tryReallocateAuxiliary(JSCell* intendedOwner, void* oldBase, size_t oldSize, size_t newSize);
	void ascribeOwner(JSCell* intendedOwner, void*);

	typedef void (Finalizer)(JSCell);
	JS_EXPORT_PRIVATE void addFinalizer(JSCell*, Finalizer);
	void addExecutable(ExecutableBase*);

	void notifyIsSafeToCollect() { m_isSafeToCollect = true; }
	bool isSafeToCollect() const { return m_isSafeToCollect; }

	JS_EXPORT_PRIVATE bool isHeapSnapshotting() const;

	JS_EXPORT_PRIVATE void collectAllGarbageIfNotDoneRecently();
	JS_EXPORT_PRIVATE void collectAllGarbage();

	bool shouldCollect();
	JS_EXPORT_PRIVATE void collect(HeapOperation collectionType = AnyCollection);
	bool collectIfNecessaryOrDefer(); // Returns true if it did collect.
	void collectAccordingToDeferGCProbability();

	void completeAllJITPlans();

	// Use this API to report non-GC memory referenced by GC objects. Be sure to
	// call both of these functions: Calling only one may trigger catastropic
	// memory growth.
	void reportExtraMemoryAllocated(size_t);
	void reportExtraMemoryVisited(JSCell*, size_t);

	#if ENABLE(RESOURCE_USAGE)
	// Use this API to report the subset of extra memory that lives outside this process.
	void reportExternalMemoryVisited(JSCell*, size_t);
	size_t externalMemorySize() { return m_externalMemorySize; }
	#endif

	// Use this API to report non-GC memory if you can't use the better API above.
	void deprecatedReportExtraMemory(size_t);

	JS_EXPORT_PRIVATE void reportAbandonedObjectGraph();

	JS_EXPORT_PRIVATE void protect(JSValue);
	JS_EXPORT_PRIVATE bool unprotect(JSValue); // True when the protect count drops to 0.

	JS_EXPORT_PRIVATE size_t extraMemorySize(); // Non-GC memory referenced by GC objects.
	JS_EXPORT_PRIVATE size_t size();
	JS_EXPORT_PRIVATE size_t capacity();
	JS_EXPORT_PRIVATE size_t objectCount();
	JS_EXPORT_PRIVATE size_t globalObjectCount();
	JS_EXPORT_PRIVATE size_t protectedObjectCount();
	JS_EXPORT_PRIVATE size_t protectedGlobalObjectCount();
	JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> protectedObjectTypeCounts();
	JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> objectTypeCounts();

	HashSet<MarkedArgumentBuffer*>& markListSet();

	template<typename Functor> void forEachProtectedCell(const Functor&);
	template<typename Functor> void forEachCodeBlock(const Functor&);

	HandleSet* handleSet() { return &m_handleSet; }
	HandleStack* handleStack() { return &m_handleStack; }

	void willStartIterating();
	void didFinishIterating();

	double lastFullGCLength() const { return m_lastFullGCLength; }
	double lastEdenGCLength() const { return m_lastEdenGCLength; }
	void increaseLastFullGCLength(double amount) { m_lastFullGCLength += amount; }

	size_t sizeBeforeLastEdenCollection() const { return m_sizeBeforeLastEdenCollect; }
	size_t sizeAfterLastEdenCollection() const { return m_sizeAfterLastEdenCollect; }
	size_t sizeBeforeLastFullCollection() const { return m_sizeBeforeLastFullCollect; }
	size_t sizeAfterLastFullCollection() const { return m_sizeAfterLastFullCollect; }

	void deleteAllCodeBlocks();
	void deleteAllUnlinkedCodeBlocks();

	void didAllocate(size_t);
	bool isPagedOut(double deadline);

	const JITStubRoutineSet& jitStubRoutines() { return *m_jitStubRoutines; }

	void addReference(JSCell, ArrayBuffer);

	bool isDeferred() const { return !!m_deferralDepth \|\| !Options::useGC(); }

	StructureIDTable& structureIDTable() { return m_structureIDTable; }

	CodeBlockSet& codeBlockSet() { return *m_codeBlocks; }

	#if USE(FOUNDATION)
	template<typename T> void releaseSoon(RetainPtr<T>&&);
	#endif

	static bool isZombified(JSCell* cell) { return (void*)cell == zombifiedBits; }

	void registerWeakGCMap(void* weakGCMap, std::function<void()> pruningCallback);
	void unregisterWeakGCMap(void* weakGCMap);

	void addLogicallyEmptyWeakBlock(WeakBlock*);

	#if ENABLE(RESOURCE_USAGE)
	size_t blockBytesAllocated() const { return m_blockBytesAllocated; }
	#endif

	void didAllocateBlock(size_t capacity);
	void didFreeBlock(size_t capacity);

	private:
	friend class AllocationScope;
	friend class CodeBlock;
	friend class DeferGC;
	friend class DeferGCForAWhile;
	friend class GCAwareJITStubRoutine;
	friend class GCLogging;
	friend class GCThread;
	friend class HandleSet;
	friend class HeapUtil;
	friend class HeapVerifier;
	friend class JITStubRoutine;
	friend class LLIntOffsetsExtractor;
	friend class MarkedSpace;
	friend class MarkedAllocator;
	friend class MarkedBlock;
	friend class SlotVisitor;
	friend class IncrementalSweeper;
	friend class HeapStatistics;
	friend class VM;
	friend class WeakSet;
	template<typename T> friend void* allocateCell(Heap&);
	template<typename T> friend void* allocateCell(Heap&, size_t);

	void collectWithoutAnySweep(HeapOperation collectionType = AnyCollection);

	void* allocateWithDestructor(size_t); // For use with objects with destructors.
	void* allocateWithoutDestructor(size_t); // For use with objects without destructors.
	template<typename ClassType> void* allocateObjectOfType(size_t); // Chooses one of the methods above based on type.

	static const size_t minExtraMemory = 256;

	class FinalizerOwner : public WeakHandleOwner {
	void finalize(Handle<Unknown>, void* context) override;
	};

	JS_EXPORT_PRIVATE bool isValidAllocation(size_t);
	JS_EXPORT_PRIVATE void reportExtraMemoryAllocatedSlowCase(size_t);
	JS_EXPORT_PRIVATE void deprecatedReportExtraMemorySlowCase(size_t);

	void collectImpl(HeapOperation, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);

	void suspendCompilerThreads();
	void willStartCollection(HeapOperation collectionType);
	void flushOldStructureIDTables();
	void flushWriteBarrierBuffer();
	void stopAllocation();
	void prepareForMarking();

	void markRoots(double gcStartTime, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);
	void gatherStackRoots(ConservativeRoots&, void* stackOrigin, void* stackTop, MachineThreads::RegisterState&);
	void gatherJSStackRoots(ConservativeRoots&);
	void gatherScratchBufferRoots(ConservativeRoots&);
	void beginMarking();
	void visitExternalRememberedSet();
	void visitSmallStrings();
	void visitConservativeRoots(ConservativeRoots&);
	void visitCompilerWorklistWeakReferences();
	void removeDeadCompilerWorklistEntries();
	void visitProtectedObjects(HeapRootVisitor&);
	void visitArgumentBuffers(HeapRootVisitor&);
	void visitException(HeapRootVisitor&);
	void visitStrongHandles(HeapRootVisitor&);
	void visitHandleStack(HeapRootVisitor&);
	void visitSamplingProfiler();
	void visitShadowChicken();
	void traceCodeBlocksAndJITStubRoutines();
	void visitWeakHandles(HeapRootVisitor&);
	void updateObjectCounts(double gcStartTime);
	void endMarking();

	void reapWeakHandles();
	void pruneStaleEntriesFromWeakGCMaps();
	void sweepArrayBuffers();
	void snapshotUnswept();
	void deleteSourceProviderCaches();
	void notifyIncrementalSweeper();
	void writeBarrierCurrentlyExecutingCodeBlocks();
	void prepareForAllocation();
	void harvestWeakReferences();
	void finalizeUnconditionalFinalizers();
	void clearUnmarkedExecutables();
	void deleteUnmarkedCompiledCode();
	JS_EXPORT_PRIVATE void addToRememberedSet(const JSCell*);
	void updateAllocationLimits();
	void didFinishCollection(double gcStartTime);
	void resumeCompilerThreads();
	void zombifyDeadObjects();
	void gatherExtraHeapSnapshotData(HeapProfiler&);
	void removeDeadHeapSnapshotNodes(HeapProfiler&);
	void sweepLargeAllocations();

	void sweepAllLogicallyEmptyWeakBlocks();
	bool sweepNextLogicallyEmptyWeakBlock();

	bool shouldDoFullCollection(HeapOperation requestedCollectionType) const;

	void incrementDeferralDepth();
	void decrementDeferralDepth();
	void decrementDeferralDepthAndGCIfNeeded();

	size_t threadVisitCount();
	size_t threadBytesVisited();

	void forEachCodeBlockImpl(const ScopedLambda<bool(CodeBlock*)>&);

	const HeapType m_heapType;
	const size_t m_ramSize;
	const size_t m_minBytesPerCycle;
	size_t m_sizeAfterLastCollect;
	size_t m_sizeAfterLastFullCollect;
	size_t m_sizeBeforeLastFullCollect;
	size_t m_sizeAfterLastEdenCollect;
	size_t m_sizeBeforeLastEdenCollect;

	size_t m_bytesAllocatedThisCycle;
	size_t m_bytesAbandonedSinceLastFullCollect;
	size_t m_maxEdenSize;
	size_t m_maxHeapSize;
	bool m_shouldDoFullCollection;
	size_t m_totalBytesVisited;
	size_t m_totalBytesVisitedThisCycle;

	HeapOperation m_operationInProgress;
	StructureIDTable m_structureIDTable;
	MarkedSpace m_objectSpace;
	GCIncomingRefCountedSet<ArrayBuffer> m_arrayBuffers;
	size_t m_extraMemorySize;
	size_t m_deprecatedExtraMemorySize;

	HashSet<const JSCell*> m_copyingRememberedSet;

	ProtectCountSet m_protectedValues;
	std::unique_ptr<HashSet<MarkedArgumentBuffer*>> m_markListSet;

	MachineThreads m_machineThreads;

	SlotVisitor m_slotVisitor;

	// We pool the slot visitors used by parallel marking threads. It's useful to be able to
	// enumerate over them, and it's useful to have them cache some small amount of memory from
	// one GC to the next. GC marking threads claim these at the start of marking, and return
	// them at the end.
	Vector<std::unique_ptr<SlotVisitor>> m_parallelSlotVisitors;
	Vector<SlotVisitor*> m_availableParallelSlotVisitors;
	Lock m_parallelSlotVisitorLock;

	HandleSet m_handleSet;
	HandleStack m_handleStack;
	std::unique_ptr<CodeBlockSet> m_codeBlocks;
	std::unique_ptr<JITStubRoutineSet> m_jitStubRoutines;
	FinalizerOwner m_finalizerOwner;

	bool m_isSafeToCollect;

	WriteBarrierBuffer m_writeBarrierBuffer;

	VM* m_vm;
	double m_lastFullGCLength;
	double m_lastEdenGCLength;

	Vector<ExecutableBase*> m_executables;

	Vector<WeakBlock*> m_logicallyEmptyWeakBlocks;
	size_t m_indexOfNextLogicallyEmptyWeakBlockToSweep { WTF::notFound };

	RefPtr<FullGCActivityCallback> m_fullActivityCallback;
	RefPtr<GCActivityCallback> m_edenActivityCallback;
	std::unique_ptr<IncrementalSweeper> m_sweeper;

	Vector<HeapObserver*> m_observers;

	unsigned m_deferralDepth;
	Vector<DFG::Worklist*> m_suspendedCompilerWorklists;

	std::unique_ptr<HeapVerifier> m_verifier;

	#if USE(FOUNDATION)
	Vector<RetainPtr<CFTypeRef>> m_delayedReleaseObjects;
	unsigned m_delayedReleaseRecursionCount;
	#endif

	HashMap<void*, std::function<void()>> m_weakGCMaps;

	Lock m_markingMutex;
	Condition m_markingConditionVariable;
	MarkStackArray m_sharedMarkStack;
	unsigned m_numberOfActiveParallelMarkers { 0 };
	unsigned m_numberOfWaitingParallelMarkers { 0 };
	bool m_parallelMarkersShouldExit { false };

	Lock m_opaqueRootsMutex;
	HashSet<void*> m_opaqueRoots;

	static const size_t s_blockFragmentLength = 32;

	ListableHandler<WeakReferenceHarvester>::List m_weakReferenceHarvesters;
	ListableHandler<UnconditionalFinalizer>::List m_unconditionalFinalizers;

	ParallelHelperClient m_helperClient;

	#if ENABLE(RESOURCE_USAGE)
	size_t m_blockBytesAllocated { 0 };
	size_t m_externalMemorySize { 0 };
	#endif
	};

	} // namespace JSC

	#endif // Heap_h