Source/JavaScriptCore/runtime/ButterflyInlines.h - external/github.com/WebKit/webkit - Git at Google

 /*
  * Copyright (C) 2012-2019 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

 #include "ArrayStorageInlines.h"
 #include "Butterfly.h"
 #include "JSObject.h"
 #include "Structure.h"
 #include "VM.h"

 namespace JSC {

 template<typename T>
 const typename ContiguousData<T>::Data ContiguousData<T>::at(const JSCell* owner, size_t index) const
 {
     ASSERT(index < m_length);
     return Data(m_data[index], owner->indexingMode());
 }

 template<typename T>
 typename ContiguousData<T>::Data ContiguousData<T>::at(const JSCell* owner, size_t index)
 {
     ASSERT(index < m_length);
     return Data(m_data[index], owner->indexingMode());
 }

 ALWAYS_INLINE unsigned Butterfly::availableContiguousVectorLength(size_t propertyCapacity, unsigned vectorLength)
 {
     size_t cellSize = totalSize(0, propertyCapacity, true, sizeof(EncodedJSValue) * vectorLength);
     cellSize = MarkedSpace::optimalSizeFor(cellSize);
     vectorLength = (cellSize - totalSize(0, propertyCapacity, true, 0)) / sizeof(EncodedJSValue);
     return vectorLength;
 }

 ALWAYS_INLINE unsigned Butterfly::availableContiguousVectorLength(Structure* structure, unsigned vectorLength)
 {
     return availableContiguousVectorLength(structure ? structure->outOfLineCapacity() : 0, vectorLength);
 }

 ALWAYS_INLINE unsigned Butterfly::optimalContiguousVectorLength(size_t propertyCapacity, unsigned vectorLength)
 {
     if (!vectorLength)
         vectorLength = BASE_CONTIGUOUS_VECTOR_LEN_EMPTY;
     else
         vectorLength = std::max(BASE_CONTIGUOUS_VECTOR_LEN, vectorLength);
     return availableContiguousVectorLength(propertyCapacity, vectorLength);
 }

 ALWAYS_INLINE unsigned Butterfly::optimalContiguousVectorLength(Structure* structure, unsigned vectorLength)
 {
     return optimalContiguousVectorLength(structure ? structure->outOfLineCapacity() : 0, vectorLength);
 }

 inline Butterfly* Butterfly::tryCreateUninitialized(VM& vm, JSObject*, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, size_t indexingPayloadSizeInBytes, GCDeferralContext* deferralContext)
 {
     size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
     void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, deferralContext, AllocationFailureMode::ReturnNull);
     if (UNLIKELY(!base))
         return nullptr;

     Butterfly* result = fromBase(base, preCapacity, propertyCapacity);

     return result;
 }

 inline Butterfly* Butterfly::createUninitialized(VM& vm, JSObject*, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, size_t indexingPayloadSizeInBytes)
 {
     size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
     void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, nullptr, AllocationFailureMode::Assert);
     Butterfly* result = fromBase(base, preCapacity, propertyCapacity);

     return result;
 }

 inline Butterfly* Butterfly::tryCreate(VM& vm, JSObject*, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, const IndexingHeader& indexingHeader, size_t indexingPayloadSizeInBytes)
 {
     size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
     void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, nullptr, AllocationFailureMode::ReturnNull);
     if (!base)
         return nullptr;
     Butterfly* result = fromBase(base, preCapacity, propertyCapacity);
     if (hasIndexingHeader)
         *result->indexingHeader() = indexingHeader;
     gcSafeZeroMemory(result->propertyStorage() - propertyCapacity, propertyCapacity * sizeof(EncodedJSValue));
     return result;
 }

 inline Butterfly* Butterfly::create(VM& vm, JSObject* intendedOwner, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, const IndexingHeader& indexingHeader, size_t indexingPayloadSizeInBytes)
 {
     Butterfly* result = tryCreate(vm, intendedOwner, preCapacity, propertyCapacity, hasIndexingHeader, indexingHeader, indexingPayloadSizeInBytes);

     RELEASE_ASSERT(result);
     return result;
 }

 inline Butterfly* Butterfly::create(VM& vm, JSObject* intendedOwner, Structure* structure)
 {
     return create(
         vm, intendedOwner, 0, structure->outOfLineCapacity(),
         structure->hasIndexingHeader(intendedOwner), IndexingHeader(), 0);
 }

 inline void* Butterfly::base(Structure* structure)
 {
     return base(indexingHeader()->preCapacity(structure), structure->outOfLineCapacity());
 }

 inline Butterfly* Butterfly::createOrGrowPropertyStorage(
     Butterfly* oldButterfly, VM& vm, JSObject* intendedOwner, Structure* structure, size_t oldPropertyCapacity, size_t newPropertyCapacity)
 {
     RELEASE_ASSERT(newPropertyCapacity > oldPropertyCapacity);
     if (!oldButterfly)
         return create(vm, intendedOwner, 0, newPropertyCapacity, false, IndexingHeader(), 0);

     size_t preCapacity = oldButterfly->indexingHeader()->preCapacity(structure);
     size_t indexingPayloadSizeInBytes = oldButterfly->indexingHeader()->indexingPayloadSizeInBytes(structure);
     bool hasIndexingHeader = structure->hasIndexingHeader(intendedOwner);
     Butterfly* result = createUninitialized(vm, intendedOwner, preCapacity, newPropertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
     gcSafeMemcpy(
         result->propertyStorage() - oldPropertyCapacity,
         oldButterfly->propertyStorage() - oldPropertyCapacity,
         totalSize(0, oldPropertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes));
     gcSafeZeroMemory(
         result->propertyStorage() - newPropertyCapacity,
         (newPropertyCapacity - oldPropertyCapacity) * sizeof(EncodedJSValue));
     return result;
 }

 inline Butterfly* Butterfly::createOrGrowArrayRight(
     Butterfly* oldButterfly, VM& vm, JSObject* intendedOwner, Structure* oldStructure,
     size_t propertyCapacity, bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
     size_t newIndexingPayloadSizeInBytes)
 {
     if (!oldButterfly) {
         return create(
             vm, intendedOwner, 0, propertyCapacity, true, IndexingHeader(),
             newIndexingPayloadSizeInBytes);
     }
     return oldButterfly->growArrayRight(
         vm, intendedOwner, oldStructure, propertyCapacity, hadIndexingHeader,
         oldIndexingPayloadSizeInBytes, newIndexingPayloadSizeInBytes);
 }

 inline Butterfly* Butterfly::growArrayRight(
     VM& vm, JSObject* intendedOwner, Structure* oldStructure, size_t propertyCapacity,
     bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
     size_t newIndexingPayloadSizeInBytes)
 {
     ASSERT_UNUSED(oldStructure, !indexingHeader()->preCapacity(oldStructure));
     ASSERT_UNUSED(intendedOwner, hadIndexingHeader == oldStructure->hasIndexingHeader(intendedOwner));
     void* theBase = base(0, propertyCapacity);
     size_t oldSize = totalSize(0, propertyCapacity, hadIndexingHeader, oldIndexingPayloadSizeInBytes);
     size_t newSize = totalSize(0, propertyCapacity, true, newIndexingPayloadSizeInBytes);
     void* newBase = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, newSize, nullptr, AllocationFailureMode::ReturnNull);
     if (!newBase)
         return nullptr;
     // FIXME: This probably shouldn't be a memcpy.
     gcSafeMemcpy(static_cast<JSValue*>(newBase), static_cast<JSValue*>(theBase), oldSize);
     return fromBase(newBase, 0, propertyCapacity);
 }

 inline Butterfly* Butterfly::growArrayRight(
     VM& vm, JSObject* intendedOwner, Structure* oldStructure,
     size_t newIndexingPayloadSizeInBytes)
 {
     return growArrayRight(
         vm, intendedOwner, oldStructure, oldStructure->outOfLineCapacity(),
         oldStructure->hasIndexingHeader(intendedOwner),
         indexingHeader()->indexingPayloadSizeInBytes(oldStructure),
         newIndexingPayloadSizeInBytes);
 }

 inline Butterfly* Butterfly::reallocArrayRightIfPossible(
     VM& vm, GCDeferralContext& deferralContext, JSObject* intendedOwner, Structure* oldStructure, size_t propertyCapacity,
     bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
     size_t newIndexingPayloadSizeInBytes)
 {
     ASSERT_UNUSED(oldStructure, !indexingHeader()->preCapacity(oldStructure));
     ASSERT_UNUSED(intendedOwner, hadIndexingHeader == oldStructure->hasIndexingHeader(intendedOwner));

     void* theBase = base(0, propertyCapacity);
     size_t oldSize = totalSize(0, propertyCapacity, hadIndexingHeader, oldIndexingPayloadSizeInBytes);
     size_t newSize = totalSize(0, propertyCapacity, true, newIndexingPayloadSizeInBytes);
     ASSERT(newSize >= oldSize);

     // We can eagerly destroy butterfly backed by PreciseAllocation if (1) concurrent collector is not active and (2) the butterfly does not contain any property storage.
     // This is because during deallocation concurrent collector can access butterfly and DFG concurrent compilers accesses properties.
     // Objects with no properties are common in arrays, and we are focusing on very large array crafted by repeating Array#push, so... that's fine!
     bool canRealloc = !propertyCapacity && !vm.heap.mutatorShouldBeFenced() && bitwise_cast<HeapCell*>(theBase)->isPreciseAllocation();
     if (canRealloc) {
         void* newBase = vm.jsValueGigacageAuxiliarySpace.reallocatePreciseAllocationNonVirtual(vm, bitwise_cast<HeapCell*>(theBase), newSize, &deferralContext, AllocationFailureMode::ReturnNull);
         if (!newBase)
             return nullptr;
         return fromBase(newBase, 0, propertyCapacity);
     }

     void* newBase = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, newSize, &deferralContext, AllocationFailureMode::ReturnNull);
     if (!newBase)
         return nullptr;
     gcSafeMemcpy(static_cast<JSValue*>(newBase), static_cast<JSValue*>(theBase), oldSize);
     return fromBase(newBase, 0, propertyCapacity);
 }

 inline Butterfly* Butterfly::resizeArray(
     VM& vm, JSObject* intendedOwner, size_t propertyCapacity, bool oldHasIndexingHeader,
     size_t oldIndexingPayloadSizeInBytes, size_t newPreCapacity, bool newHasIndexingHeader,
     size_t newIndexingPayloadSizeInBytes)
 {
     Butterfly* result = createUninitialized(vm, intendedOwner, newPreCapacity, propertyCapacity, newHasIndexingHeader, newIndexingPayloadSizeInBytes);
     // FIXME: This could be made much more efficient if we used the property size,
     // not the capacity.
     void* to = result->propertyStorage() - propertyCapacity;
     void* from = propertyStorage() - propertyCapacity;
     size_t size = std::min(
         totalSize(0, propertyCapacity, oldHasIndexingHeader, oldIndexingPayloadSizeInBytes),
         totalSize(0, propertyCapacity, newHasIndexingHeader, newIndexingPayloadSizeInBytes));
     gcSafeMemcpy(static_cast<JSValue*>(to), static_cast<JSValue*>(from), size);
     return result;
 }

 inline Butterfly* Butterfly::resizeArray(
     VM& vm, JSObject* intendedOwner, Structure* structure, size_t newPreCapacity,
     size_t newIndexingPayloadSizeInBytes)
 {
     bool hasIndexingHeader = structure->hasIndexingHeader(intendedOwner);
     return resizeArray(
         vm, intendedOwner, structure->outOfLineCapacity(), hasIndexingHeader,
         indexingHeader()->indexingPayloadSizeInBytes(structure), newPreCapacity,
         hasIndexingHeader, newIndexingPayloadSizeInBytes);
 }

 inline Butterfly* Butterfly::unshift(Structure* structure, size_t numberOfSlots)
 {
     ASSERT(hasAnyArrayStorage(structure->indexingType()));
     ASSERT(numberOfSlots <= indexingHeader()->preCapacity(structure));
     unsigned propertyCapacity = structure->outOfLineCapacity();
     // FIXME: It would probably be wise to rewrite this as a loop since (1) we know in which
     // direction we're moving memory so we don't need the extra check of memmove and (2) we're
     // moving a small amount of memory in the common case so the throughput of memmove won't
     // amortize the overhead of calling it. And no, we cannot rely on the C++ compiler to
     // inline memmove (particularly since the size argument is likely to be variable), nor can
     // we rely on the compiler to recognize the ordering of the pointer arguments (since
     // propertyCapacity is variable and could cause wrap-around as far as the compiler knows).
     gcSafeMemmove(
         propertyStorage() - numberOfSlots - propertyCapacity,
         propertyStorage() - propertyCapacity,
         sizeof(EncodedJSValue) * propertyCapacity + sizeof(IndexingHeader) + ArrayStorage::sizeFor(0));
     return IndexingHeader::fromEndOf(propertyStorage() - numberOfSlots)->butterfly();
 }

 inline Butterfly* Butterfly::shift(Structure* structure, size_t numberOfSlots)
 {
     ASSERT(hasAnyArrayStorage(structure->indexingType()));
     unsigned propertyCapacity = structure->outOfLineCapacity();
     // FIXME: See comment in unshift(), above.
     gcSafeMemmove(
         propertyStorage() - propertyCapacity + numberOfSlots,
         propertyStorage() - propertyCapacity,
         sizeof(EncodedJSValue) * propertyCapacity + sizeof(IndexingHeader) + ArrayStorage::sizeFor(0));
     return IndexingHeader::fromEndOf(propertyStorage() + numberOfSlots)->butterfly();
 }

 } // namespace JSC
	/*
	* Copyright (C) 2012-2019 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

	#include "ArrayStorageInlines.h"
	#include "Butterfly.h"
	#include "JSObject.h"
	#include "Structure.h"
	#include "VM.h"

	namespace JSC {

	template<typename T>
	const typename ContiguousData<T>::Data ContiguousData<T>::at(const JSCell* owner, size_t index) const
	{
	ASSERT(index < m_length);
	return Data(m_data[index], owner->indexingMode());
	}

	template<typename T>
	typename ContiguousData<T>::Data ContiguousData<T>::at(const JSCell* owner, size_t index)
	{
	ASSERT(index < m_length);
	return Data(m_data[index], owner->indexingMode());
	}

	ALWAYS_INLINE unsigned Butterfly::availableContiguousVectorLength(size_t propertyCapacity, unsigned vectorLength)
	{
	size_t cellSize = totalSize(0, propertyCapacity, true, sizeof(EncodedJSValue) * vectorLength);
	cellSize = MarkedSpace::optimalSizeFor(cellSize);
	vectorLength = (cellSize - totalSize(0, propertyCapacity, true, 0)) / sizeof(EncodedJSValue);
	return vectorLength;
	}

	ALWAYS_INLINE unsigned Butterfly::availableContiguousVectorLength(Structure* structure, unsigned vectorLength)
	{
	return availableContiguousVectorLength(structure ? structure->outOfLineCapacity() : 0, vectorLength);
	}

	ALWAYS_INLINE unsigned Butterfly::optimalContiguousVectorLength(size_t propertyCapacity, unsigned vectorLength)
	{
	if (!vectorLength)
	vectorLength = BASE_CONTIGUOUS_VECTOR_LEN_EMPTY;
	else
	vectorLength = std::max(BASE_CONTIGUOUS_VECTOR_LEN, vectorLength);
	return availableContiguousVectorLength(propertyCapacity, vectorLength);
	}

	ALWAYS_INLINE unsigned Butterfly::optimalContiguousVectorLength(Structure* structure, unsigned vectorLength)
	{
	return optimalContiguousVectorLength(structure ? structure->outOfLineCapacity() : 0, vectorLength);
	}

	inline Butterfly* Butterfly::tryCreateUninitialized(VM& vm, JSObject, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, size_t indexingPayloadSizeInBytes, GCDeferralContext deferralContext)
	{
	size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
	void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, deferralContext, AllocationFailureMode::ReturnNull);
	if (UNLIKELY(!base))
	return nullptr;

	Butterfly* result = fromBase(base, preCapacity, propertyCapacity);

	return result;
	}

	inline Butterfly* Butterfly::createUninitialized(VM& vm, JSObject*, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, size_t indexingPayloadSizeInBytes)
	{
	size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
	void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, nullptr, AllocationFailureMode::Assert);
	Butterfly* result = fromBase(base, preCapacity, propertyCapacity);

	return result;
	}

	inline Butterfly* Butterfly::tryCreate(VM& vm, JSObject*, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, const IndexingHeader& indexingHeader, size_t indexingPayloadSizeInBytes)
	{
	size_t size = totalSize(preCapacity, propertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
	void* base = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, size, nullptr, AllocationFailureMode::ReturnNull);
	if (!base)
	return nullptr;
	Butterfly* result = fromBase(base, preCapacity, propertyCapacity);
	if (hasIndexingHeader)
	*result->indexingHeader() = indexingHeader;
	gcSafeZeroMemory(result->propertyStorage() - propertyCapacity, propertyCapacity * sizeof(EncodedJSValue));
	return result;
	}

	inline Butterfly* Butterfly::create(VM& vm, JSObject* intendedOwner, size_t preCapacity, size_t propertyCapacity, bool hasIndexingHeader, const IndexingHeader& indexingHeader, size_t indexingPayloadSizeInBytes)
	{
	Butterfly* result = tryCreate(vm, intendedOwner, preCapacity, propertyCapacity, hasIndexingHeader, indexingHeader, indexingPayloadSizeInBytes);

	RELEASE_ASSERT(result);
	return result;
	}

	inline Butterfly* Butterfly::create(VM& vm, JSObject* intendedOwner, Structure* structure)
	{
	return create(
	vm, intendedOwner, 0, structure->outOfLineCapacity(),
	structure->hasIndexingHeader(intendedOwner), IndexingHeader(), 0);
	}

	inline void* Butterfly::base(Structure* structure)
	{
	return base(indexingHeader()->preCapacity(structure), structure->outOfLineCapacity());
	}

	inline Butterfly* Butterfly::createOrGrowPropertyStorage(
	Butterfly* oldButterfly, VM& vm, JSObject* intendedOwner, Structure* structure, size_t oldPropertyCapacity, size_t newPropertyCapacity)
	{
	RELEASE_ASSERT(newPropertyCapacity > oldPropertyCapacity);
	if (!oldButterfly)
	return create(vm, intendedOwner, 0, newPropertyCapacity, false, IndexingHeader(), 0);

	size_t preCapacity = oldButterfly->indexingHeader()->preCapacity(structure);
	size_t indexingPayloadSizeInBytes = oldButterfly->indexingHeader()->indexingPayloadSizeInBytes(structure);
	bool hasIndexingHeader = structure->hasIndexingHeader(intendedOwner);
	Butterfly* result = createUninitialized(vm, intendedOwner, preCapacity, newPropertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes);
	gcSafeMemcpy(
	result->propertyStorage() - oldPropertyCapacity,
	oldButterfly->propertyStorage() - oldPropertyCapacity,
	totalSize(0, oldPropertyCapacity, hasIndexingHeader, indexingPayloadSizeInBytes));
	gcSafeZeroMemory(
	result->propertyStorage() - newPropertyCapacity,
	(newPropertyCapacity - oldPropertyCapacity) * sizeof(EncodedJSValue));
	return result;
	}

	inline Butterfly* Butterfly::createOrGrowArrayRight(
	Butterfly* oldButterfly, VM& vm, JSObject* intendedOwner, Structure* oldStructure,
	size_t propertyCapacity, bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
	size_t newIndexingPayloadSizeInBytes)
	{
	if (!oldButterfly) {
	return create(
	vm, intendedOwner, 0, propertyCapacity, true, IndexingHeader(),
	newIndexingPayloadSizeInBytes);
	}
	return oldButterfly->growArrayRight(
	vm, intendedOwner, oldStructure, propertyCapacity, hadIndexingHeader,
	oldIndexingPayloadSizeInBytes, newIndexingPayloadSizeInBytes);
	}

	inline Butterfly* Butterfly::growArrayRight(
	VM& vm, JSObject* intendedOwner, Structure* oldStructure, size_t propertyCapacity,
	bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
	size_t newIndexingPayloadSizeInBytes)
	{
	ASSERT_UNUSED(oldStructure, !indexingHeader()->preCapacity(oldStructure));
	ASSERT_UNUSED(intendedOwner, hadIndexingHeader == oldStructure->hasIndexingHeader(intendedOwner));
	void* theBase = base(0, propertyCapacity);
	size_t oldSize = totalSize(0, propertyCapacity, hadIndexingHeader, oldIndexingPayloadSizeInBytes);
	size_t newSize = totalSize(0, propertyCapacity, true, newIndexingPayloadSizeInBytes);
	void* newBase = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, newSize, nullptr, AllocationFailureMode::ReturnNull);
	if (!newBase)
	return nullptr;
	// FIXME: This probably shouldn't be a memcpy.
	gcSafeMemcpy(static_cast<JSValue>(newBase), static_cast<JSValue>(theBase), oldSize);
	return fromBase(newBase, 0, propertyCapacity);
	}

	inline Butterfly* Butterfly::growArrayRight(
	VM& vm, JSObject* intendedOwner, Structure* oldStructure,
	size_t newIndexingPayloadSizeInBytes)
	{
	return growArrayRight(
	vm, intendedOwner, oldStructure, oldStructure->outOfLineCapacity(),
	oldStructure->hasIndexingHeader(intendedOwner),
	indexingHeader()->indexingPayloadSizeInBytes(oldStructure),
	newIndexingPayloadSizeInBytes);
	}

	inline Butterfly* Butterfly::reallocArrayRightIfPossible(
	VM& vm, GCDeferralContext& deferralContext, JSObject* intendedOwner, Structure* oldStructure, size_t propertyCapacity,
	bool hadIndexingHeader, size_t oldIndexingPayloadSizeInBytes,
	size_t newIndexingPayloadSizeInBytes)
	{
	ASSERT_UNUSED(oldStructure, !indexingHeader()->preCapacity(oldStructure));
	ASSERT_UNUSED(intendedOwner, hadIndexingHeader == oldStructure->hasIndexingHeader(intendedOwner));

	void* theBase = base(0, propertyCapacity);
	size_t oldSize = totalSize(0, propertyCapacity, hadIndexingHeader, oldIndexingPayloadSizeInBytes);
	size_t newSize = totalSize(0, propertyCapacity, true, newIndexingPayloadSizeInBytes);
	ASSERT(newSize >= oldSize);

	// We can eagerly destroy butterfly backed by PreciseAllocation if (1) concurrent collector is not active and (2) the butterfly does not contain any property storage.
	// This is because during deallocation concurrent collector can access butterfly and DFG concurrent compilers accesses properties.
	// Objects with no properties are common in arrays, and we are focusing on very large array crafted by repeating Array#push, so... that's fine!
	bool canRealloc = !propertyCapacity && !vm.heap.mutatorShouldBeFenced() && bitwise_cast<HeapCell*>(theBase)->isPreciseAllocation();
	if (canRealloc) {
	void* newBase = vm.jsValueGigacageAuxiliarySpace.reallocatePreciseAllocationNonVirtual(vm, bitwise_cast<HeapCell*>(theBase), newSize, &deferralContext, AllocationFailureMode::ReturnNull);
	if (!newBase)
	return nullptr;
	return fromBase(newBase, 0, propertyCapacity);
	}

	void* newBase = vm.jsValueGigacageAuxiliarySpace.allocateNonVirtual(vm, newSize, &deferralContext, AllocationFailureMode::ReturnNull);
	if (!newBase)
	return nullptr;
	gcSafeMemcpy(static_cast<JSValue>(newBase), static_cast<JSValue>(theBase), oldSize);
	return fromBase(newBase, 0, propertyCapacity);
	}

	inline Butterfly* Butterfly::resizeArray(
	VM& vm, JSObject* intendedOwner, size_t propertyCapacity, bool oldHasIndexingHeader,
	size_t oldIndexingPayloadSizeInBytes, size_t newPreCapacity, bool newHasIndexingHeader,
	size_t newIndexingPayloadSizeInBytes)
	{
	Butterfly* result = createUninitialized(vm, intendedOwner, newPreCapacity, propertyCapacity, newHasIndexingHeader, newIndexingPayloadSizeInBytes);
	// FIXME: This could be made much more efficient if we used the property size,
	// not the capacity.
	void* to = result->propertyStorage() - propertyCapacity;
	void* from = propertyStorage() - propertyCapacity;
	size_t size = std::min(
	totalSize(0, propertyCapacity, oldHasIndexingHeader, oldIndexingPayloadSizeInBytes),
	totalSize(0, propertyCapacity, newHasIndexingHeader, newIndexingPayloadSizeInBytes));
	gcSafeMemcpy(static_cast<JSValue>(to), static_cast<JSValue>(from), size);
	return result;
	}

	inline Butterfly* Butterfly::resizeArray(
	VM& vm, JSObject* intendedOwner, Structure* structure, size_t newPreCapacity,
	size_t newIndexingPayloadSizeInBytes)
	{
	bool hasIndexingHeader = structure->hasIndexingHeader(intendedOwner);
	return resizeArray(
	vm, intendedOwner, structure->outOfLineCapacity(), hasIndexingHeader,
	indexingHeader()->indexingPayloadSizeInBytes(structure), newPreCapacity,
	hasIndexingHeader, newIndexingPayloadSizeInBytes);
	}

	inline Butterfly* Butterfly::unshift(Structure* structure, size_t numberOfSlots)
	{
	ASSERT(hasAnyArrayStorage(structure->indexingType()));
	ASSERT(numberOfSlots <= indexingHeader()->preCapacity(structure));
	unsigned propertyCapacity = structure->outOfLineCapacity();
	// FIXME: It would probably be wise to rewrite this as a loop since (1) we know in which
	// direction we're moving memory so we don't need the extra check of memmove and (2) we're
	// moving a small amount of memory in the common case so the throughput of memmove won't
	// amortize the overhead of calling it. And no, we cannot rely on the C++ compiler to
	// inline memmove (particularly since the size argument is likely to be variable), nor can
	// we rely on the compiler to recognize the ordering of the pointer arguments (since
	// propertyCapacity is variable and could cause wrap-around as far as the compiler knows).
	gcSafeMemmove(
	propertyStorage() - numberOfSlots - propertyCapacity,
	propertyStorage() - propertyCapacity,
	sizeof(EncodedJSValue) * propertyCapacity + sizeof(IndexingHeader) + ArrayStorage::sizeFor(0));
	return IndexingHeader::fromEndOf(propertyStorage() - numberOfSlots)->butterfly();
	}

	inline Butterfly* Butterfly::shift(Structure* structure, size_t numberOfSlots)
	{
	ASSERT(hasAnyArrayStorage(structure->indexingType()));
	unsigned propertyCapacity = structure->outOfLineCapacity();
	// FIXME: See comment in unshift(), above.
	gcSafeMemmove(
	propertyStorage() - propertyCapacity + numberOfSlots,
	propertyStorage() - propertyCapacity,
	sizeof(EncodedJSValue) * propertyCapacity + sizeof(IndexingHeader) + ArrayStorage::sizeFor(0));
	return IndexingHeader::fromEndOf(propertyStorage() + numberOfSlots)->butterfly();
	}

	} // namespace JSC