Source/JavaScriptCore/runtime/StructureInlines.h - WebKit - Git at Google

 /*
  * Copyright (C) 2013-2019 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 "JSArrayBufferView.h"
 #include "JSCJSValueInlines.h"
 #include "JSGlobalObject.h"
 #include "PropertyMapHashTable.h"
 #include "Structure.h"
 #include "StructureChain.h"
 #include "StructureRareDataInlines.h"
 #include <wtf/Threading.h>

 namespace JSC {

 inline Structure* Structure::create(VM& vm, JSGlobalObject* globalObject, JSValue prototype, const TypeInfo& typeInfo, const ClassInfo* classInfo, IndexingType indexingType, unsigned inlineCapacity)
 {
     ASSERT(vm.structureStructure);
     ASSERT(classInfo);
     if (auto* object = prototype.getObject()) {
         ASSERT(!object->anyObjectInChainMayInterceptIndexedAccesses(vm) || hasSlowPutArrayStorage(indexingType) || !hasIndexedProperties(indexingType));
         object->didBecomePrototype();
     }

     Structure* structure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm, globalObject, prototype, typeInfo, classInfo, indexingType, inlineCapacity);
     structure->finishCreation(vm);
     return structure;
 }

 inline Structure* Structure::createStructure(VM& vm)
 {
     ASSERT(!vm.structureStructure);
     Structure* structure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm);
     structure->finishCreation(vm, CreatingEarlyCell);
     return structure;
 }

 inline Structure* Structure::create(VM& vm, Structure* previous, DeferredStructureTransitionWatchpointFire* deferred)
 {
     ASSERT(vm.structureStructure);
     Structure* newStructure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm, previous, deferred);
     newStructure->finishCreation(vm, previous);
     return newStructure;
 }

 inline bool Structure::mayInterceptIndexedAccesses() const
 {
     if (indexingModeIncludingHistory() & MayHaveIndexedAccessors)
         return true;

     // Consider a scenario where object O (of global G1)'s prototype is set to A
     // (of global G2), and G2 is already having a bad time. If an object B with
     // indexed accessors is then set as the prototype of A:
     //      O -> A -> B
     // Then, O should be converted to SlowPutArrayStorage (because it now has an
     // object with indexed accessors in its prototype chain). But it won't be
     // converted because this conversion is done by JSGlobalObject::haveAbadTime(),
     // but G2 is already having a bad time. We solve this by conservatively
     // treating A as potentially having indexed accessors if its global is already
     // having a bad time. Hence, when A is set as O's prototype, O will be
     // converted to SlowPutArrayStorage.

     JSGlobalObject* globalObject = this->globalObject();
     if (!globalObject)
         return false;
     return globalObject->isHavingABadTime();
 }

 inline JSObject* Structure::storedPrototypeObject() const
 {
     ASSERT(hasMonoProto());
     JSValue value = m_prototype.get();
     if (value.isNull())
         return nullptr;
     return asObject(value);
 }

 inline Structure* Structure::storedPrototypeStructure() const
 {
     ASSERT(hasMonoProto());
     JSObject* object = storedPrototypeObject();
     if (!object)
         return nullptr;
     return object->structure();
 }

 ALWAYS_INLINE JSValue Structure::storedPrototype(const JSObject* object) const
 {
     ASSERT(isCompilationThread() || Thread::mayBeGCThread() || object->structure() == this);
     if (hasMonoProto())
         return storedPrototype();
     return object->getDirect(knownPolyProtoOffset);
 }

 ALWAYS_INLINE JSObject* Structure::storedPrototypeObject(const JSObject* object) const
 {
     ASSERT(isCompilationThread() || Thread::mayBeGCThread() || object->structure() == this);
     if (hasMonoProto())
         return storedPrototypeObject();
     JSValue proto = object->getDirect(knownPolyProtoOffset);
     if (proto.isNull())
         return nullptr;
     return asObject(proto);
 }

 ALWAYS_INLINE Structure* Structure::storedPrototypeStructure(const JSObject* object) const
 {
     if (JSObject* proto = storedPrototypeObject(object))
         return proto->structure();
     return nullptr;
 }

 ALWAYS_INLINE PropertyOffset Structure::get(VM& vm, PropertyName propertyName)
 {
     unsigned attributes;
     return get(vm, propertyName, attributes);
 }

 ALWAYS_INLINE PropertyOffset Structure::get(VM& vm, PropertyName propertyName, unsigned& attributes)
 {
     ASSERT(!isCompilationThread());
     ASSERT(structure(vm)->classInfo() == info());

     PropertyTable* propertyTable = ensurePropertyTableIfNotEmpty(vm);
     if (!propertyTable)
         return invalidOffset;

     PropertyMapEntry* entry = propertyTable->get(propertyName.uid());
     if (!entry)
         return invalidOffset;

     attributes = entry->attributes;
     return entry->offset;
 }

 template<typename Functor>
 void Structure::forEachPropertyConcurrently(const Functor& functor)
 {
     Vector<Structure*, 8> structures;
     Structure* structure;
     PropertyTable* table;

     findStructuresAndMapForMaterialization(structures, structure, table);

     if (table) {
         for (auto& entry : *table) {
             if (!functor(entry)) {
                 structure->m_lock.unlock();
                 return;
             }
         }
         structure->m_lock.unlock();
     }

     for (unsigned i = structures.size(); i--;) {
         structure = structures[i];
         if (!structure->m_nameInPrevious)
             continue;

         if (!functor(PropertyMapEntry(structure->m_nameInPrevious.get(), structure->m_offset, structure->attributesInPrevious())))
             return;
     }
 }

 template<typename Functor>
 void Structure::forEachProperty(VM& vm, const Functor& functor)
 {
     if (PropertyTable* table = ensurePropertyTableIfNotEmpty(vm)) {
         for (auto& entry : *table) {
             if (!functor(entry))
                 return;
         }
     }
 }

 inline PropertyOffset Structure::getConcurrently(UniquedStringImpl* uid)
 {
     unsigned attributesIgnored;
     return getConcurrently(uid, attributesIgnored);
 }

 inline bool Structure::hasIndexingHeader(const JSCell* cell) const
 {
     if (hasIndexedProperties(indexingType()))
         return true;

     if (!isTypedView(typedArrayTypeForType(m_blob.type())))
         return false;

     return jsCast<const JSArrayBufferView*>(cell)->mode() == WastefulTypedArray;
 }

 inline bool Structure::masqueradesAsUndefined(JSGlobalObject* lexicalGlobalObject)
 {
     return typeInfo().masqueradesAsUndefined() && globalObject() == lexicalGlobalObject;
 }

 inline bool Structure::transitivelyTransitionedFrom(Structure* structureToFind)
 {
     for (Structure* current = this; current; current = current->previousID()) {
         if (current == structureToFind)
             return true;
     }
     return false;
 }

 inline void Structure::setCachedOwnKeys(VM& vm, JSImmutableButterfly* ownKeys)
 {
     ensureRareData(vm)->setCachedOwnKeys(vm, ownKeys);
 }

 inline JSImmutableButterfly* Structure::cachedOwnKeys() const
 {
     if (!hasRareData())
         return nullptr;
     return rareData()->cachedOwnKeys();
 }

 inline JSImmutableButterfly* Structure::cachedOwnKeysIgnoringSentinel() const
 {
     if (!hasRareData())
         return nullptr;
     return rareData()->cachedOwnKeysIgnoringSentinel();
 }

 inline bool Structure::canCacheOwnKeys() const
 {
     if (isDictionary())
         return false;
     if (hasIndexedProperties(indexingType()))
         return false;
     if (typeInfo().overridesGetPropertyNames())
         return false;
     return true;
 }

 ALWAYS_INLINE JSValue prototypeForLookupPrimitiveImpl(JSGlobalObject* globalObject, const Structure* structure)
 {
     ASSERT(!structure->isObject());

     if (structure->typeInfo().type() == StringType)
         return globalObject->stringPrototype();

     if (structure->typeInfo().type() == BigIntType)
         return globalObject->bigIntPrototype();

     ASSERT(structure->typeInfo().type() == SymbolType);
     return globalObject->symbolPrototype();
 }

 inline JSValue Structure::prototypeForLookup(JSGlobalObject* globalObject) const
 {
     ASSERT(hasMonoProto());
     if (isObject())
         return storedPrototype();
     return prototypeForLookupPrimitiveImpl(globalObject, this);
 }

 inline JSValue Structure::prototypeForLookup(JSGlobalObject* globalObject, JSCell* base) const
 {
     ASSERT(base->structure() == this);
     if (isObject())
         return storedPrototype(asObject(base));
     return prototypeForLookupPrimitiveImpl(globalObject, this);
 }

 inline StructureChain* Structure::prototypeChain(VM& vm, JSGlobalObject* globalObject, JSObject* base) const
 {
     ASSERT(base->structure(vm) == this);
     // We cache our prototype chain so our clients can share it.
     if (!isValid(globalObject, m_cachedPrototypeChain.get(), base)) {
         JSValue prototype = prototypeForLookup(globalObject, base);
         m_cachedPrototypeChain.set(vm, this, StructureChain::create(vm, prototype.isNull() ? nullptr : asObject(prototype)));
     }
     return m_cachedPrototypeChain.get();
 }

 inline StructureChain* Structure::prototypeChain(JSGlobalObject* globalObject, JSObject* base) const
 {
     return prototypeChain(globalObject->vm(), globalObject, base);
 }

 inline bool Structure::isValid(JSGlobalObject* globalObject, StructureChain* cachedPrototypeChain, JSObject* base) const
 {
     if (!cachedPrototypeChain)
         return false;

     VM& vm = globalObject->vm();
     JSValue prototype = prototypeForLookup(globalObject, base);
     WriteBarrier<Structure>* cachedStructure = cachedPrototypeChain->head();
     while (*cachedStructure && !prototype.isNull()) {
         if (asObject(prototype)->structure(vm) != cachedStructure->get())
             return false;
         ++cachedStructure;
         prototype = asObject(prototype)->getPrototypeDirect(vm);
     }
     return prototype.isNull() && !*cachedStructure;
 }

 inline void Structure::didReplaceProperty(PropertyOffset offset)
 {
     if (LIKELY(!hasRareData()))
         return;
     StructureRareData::PropertyWatchpointMap* map = rareData()->m_replacementWatchpointSets.get();
     if (LIKELY(!map))
         return;
     WatchpointSet* set = map->get(offset);
     if (LIKELY(!set))
         return;
     set->fireAll(vm(), "Property did get replaced");
 }

 inline WatchpointSet* Structure::propertyReplacementWatchpointSet(PropertyOffset offset)
 {
     ConcurrentJSLocker locker(m_lock);
     if (!hasRareData())
         return nullptr;
     WTF::loadLoadFence();
     StructureRareData::PropertyWatchpointMap* map = rareData()->m_replacementWatchpointSets.get();
     if (!map)
         return nullptr;
     return map->get(offset);
 }

 template<typename DetailsFunc>
 ALWAYS_INLINE bool Structure::checkOffsetConsistency(PropertyTable* propertyTable, const DetailsFunc& detailsFunc) const
 {
     // We cannot reliably assert things about the property table in the concurrent
     // compilation thread. It is possible for the table to be stolen and then have
     // things added to it, which leads to the offsets being all messed up. We could
     // get around this by grabbing a lock here, but I think that would be overkill.
     if (isCompilationThread())
         return true;

     unsigned totalSize = propertyTable->propertyStorageSize();
     unsigned inlineOverflowAccordingToTotalSize = totalSize < m_inlineCapacity ? 0 : totalSize - m_inlineCapacity;

     auto fail = [&] (const char* description) {
         dataLog("Detected offset inconsistency: ", description, "!\n");
         dataLog("this = ", RawPointer(this), "\n");
         dataLog("m_offset = ", m_offset, "\n");
         dataLog("m_inlineCapacity = ", m_inlineCapacity, "\n");
         dataLog("propertyTable = ", RawPointer(propertyTable), "\n");
         dataLog("numberOfSlotsForLastOffset = ", numberOfSlotsForLastOffset(m_offset, m_inlineCapacity), "\n");
         dataLog("totalSize = ", totalSize, "\n");
         dataLog("inlineOverflowAccordingToTotalSize = ", inlineOverflowAccordingToTotalSize, "\n");
         dataLog("numberOfOutOfLineSlotsForLastOffset = ", numberOfOutOfLineSlotsForLastOffset(m_offset), "\n");
         detailsFunc();
         UNREACHABLE_FOR_PLATFORM();
     };

     if (numberOfSlotsForLastOffset(m_offset, m_inlineCapacity) != totalSize)
         fail("numberOfSlotsForLastOffset doesn't match totalSize");
     if (inlineOverflowAccordingToTotalSize != numberOfOutOfLineSlotsForLastOffset(m_offset))
         fail("inlineOverflowAccordingToTotalSize doesn't match numberOfOutOfLineSlotsForLastOffset");

     return true;
 }

 ALWAYS_INLINE bool Structure::checkOffsetConsistency() const
 {
     PropertyTable* propertyTable = propertyTableOrNull();

     if (!propertyTable) {
         ASSERT(!isPinnedPropertyTable());
         return true;
     }

     // We cannot reliably assert things about the property table in the concurrent
     // compilation thread. It is possible for the table to be stolen and then have
     // things added to it, which leads to the offsets being all messed up. We could
     // get around this by grabbing a lock here, but I think that would be overkill.
     if (isCompilationThread())
         return true;

     return checkOffsetConsistency(propertyTable, [] () { });
 }

 inline void Structure::checkConsistency()
 {
     checkOffsetConsistency();
 }

 inline size_t nextOutOfLineStorageCapacity(size_t currentCapacity)
 {
     if (!currentCapacity)
         return initialOutOfLineCapacity;
     return currentCapacity * outOfLineGrowthFactor;
 }

 inline void Structure::setObjectToStringValue(JSGlobalObject* globalObject, VM& vm, JSString* value, PropertySlot toStringTagSymbolSlot)
 {
     if (!hasRareData())
         allocateRareData(vm);
     rareData()->setObjectToStringValue(globalObject, vm, this, value, toStringTagSymbolSlot);
 }

 template<Structure::ShouldPin shouldPin, typename Func>
 inline PropertyOffset Structure::add(VM& vm, PropertyName propertyName, unsigned attributes, const Func& func)
 {
     PropertyTable* table = ensurePropertyTable(vm);

     GCSafeConcurrentJSLocker locker(m_lock, vm.heap);

     switch (shouldPin) {
     case ShouldPin::Yes:
         pin(locker, vm, table);
         break;
     case ShouldPin::No:
         setPropertyTable(vm, table);
         break;
     }

     ASSERT(!JSC::isValidOffset(get(vm, propertyName)));

     checkConsistency();
     if (attributes & PropertyAttribute::DontEnum || propertyName.isSymbol())
         setIsQuickPropertyAccessAllowedForEnumeration(false);
     if (propertyName == vm.propertyNames->underscoreProto)
         setHasUnderscoreProtoPropertyExcludingOriginalProto(true);

     auto rep = propertyName.uid();

     PropertyOffset newOffset = table->nextOffset(m_inlineCapacity);

     m_propertyHash = m_propertyHash ^ rep->existingSymbolAwareHash();

     PropertyOffset newLastOffset = m_offset;
     table->add(PropertyMapEntry(rep, newOffset, attributes), newLastOffset, PropertyTable::PropertyOffsetMayChange);

     func(locker, newOffset, newLastOffset);

     ASSERT(m_offset == newLastOffset);

     checkConsistency();
     return newOffset;
 }

 template<typename Func>
 inline PropertyOffset Structure::remove(PropertyName propertyName, const Func& func)
 {
     ConcurrentJSLocker locker(m_lock);

     checkConsistency();

     auto rep = propertyName.uid();

     // We ONLY remove from uncacheable dictionaries, which will have a pinned property table.
     // The only way for them not to have a table is if they are empty.
     PropertyTable* table = propertyTableOrNull();

     if (!table)
         return invalidOffset;

     PropertyTable::find_iterator position = table->find(rep);
     if (!position.first)
         return invalidOffset;

     PropertyOffset offset = position.first->offset;

     table->remove(position);
     table->addDeletedOffset(offset);

     checkConsistency();

     func(locker, offset);
     return offset;
 }

 template<typename Func>
 inline PropertyOffset Structure::addPropertyWithoutTransition(VM& vm, PropertyName propertyName, unsigned attributes, const Func& func)
 {
     return add<ShouldPin::Yes>(vm, propertyName, attributes, func);
 }

 template<typename Func>
 inline PropertyOffset Structure::removePropertyWithoutTransition(VM&, PropertyName propertyName, const Func& func)
 {
     ASSERT(isUncacheableDictionary());
     ASSERT(isPinnedPropertyTable());
     ASSERT(propertyTableOrNull());

     return remove(propertyName, func);
 }

 ALWAYS_INLINE void Structure::setPrototypeWithoutTransition(VM& vm, JSValue prototype)
 {
     ASSERT(isValidPrototype(prototype));
     m_prototype.set(vm, this, prototype);
 }

 ALWAYS_INLINE void Structure::setGlobalObject(VM& vm, JSGlobalObject* globalObject)
 {
     m_globalObject.set(vm, this, globalObject);
 }

 ALWAYS_INLINE void Structure::setPropertyTable(VM& vm, PropertyTable* table)
 {
     m_propertyTableUnsafe.setMayBeNull(vm, this, table);
 }

 ALWAYS_INLINE void Structure::setPreviousID(VM& vm, Structure* structure)
 {
     if (hasRareData())
         rareData()->setPreviousID(vm, structure);
     else
         m_previousOrRareData.set(vm, this, structure);
 }

 ALWAYS_INLINE bool Structure::shouldConvertToPolyProto(const Structure* a, const Structure* b)
 {
     if (!a || !b)
         return false;

     if (a == b)
         return false;

     if (a->propertyHash() != b->propertyHash())
         return false;

     // We only care about objects created via a constructor's to_this. These
     // all have Structures with rare data and a sharedPolyProtoWatchpoint.
     if (!a->hasRareData() || !b->hasRareData())
         return false;

     // We only care about Structure's generated from functions that share
     // the same executable.
     const Box<InlineWatchpointSet>& aInlineWatchpointSet = a->rareData()->sharedPolyProtoWatchpoint();
     const Box<InlineWatchpointSet>& bInlineWatchpointSet = b->rareData()->sharedPolyProtoWatchpoint();
     if (aInlineWatchpointSet.get() != bInlineWatchpointSet.get() || !aInlineWatchpointSet)
         return false;
     ASSERT(aInlineWatchpointSet && bInlineWatchpointSet && aInlineWatchpointSet.get() == bInlineWatchpointSet.get());

     if (a->hasPolyProto() || b->hasPolyProto())
         return false;

     if (a->storedPrototype() == b->storedPrototype())
         return false;

     VM& vm = a->vm();
     JSObject* aObj = a->storedPrototypeObject();
     JSObject* bObj = b->storedPrototypeObject();
     while (aObj && bObj) {
         a = aObj->structure(vm);
         b = bObj->structure(vm);

         if (a->propertyHash() != b->propertyHash())
             return false;

         aObj = a->storedPrototypeObject(aObj);
         bObj = b->storedPrototypeObject(bObj);
     }

     return !aObj && !bObj;
 }

 inline Structure* Structure::nonPropertyTransition(VM& vm, Structure* structure, NonPropertyTransition transitionKind)
 {
     IndexingType indexingModeIncludingHistory = newIndexingType(structure->indexingModeIncludingHistory(), transitionKind);

     if (changesIndexingType(transitionKind)) {
         if (JSGlobalObject* globalObject = structure->m_globalObject.get()) {
             if (globalObject->isOriginalArrayStructure(structure)) {
                 Structure* result = globalObject->originalArrayStructureForIndexingType(indexingModeIncludingHistory);
                 if (result->indexingModeIncludingHistory() == indexingModeIncludingHistory) {
                     structure->didTransitionFromThisStructure();
                     return result;
                 }
             }
         }
     }

     return nonPropertyTransitionSlow(vm, structure, transitionKind);
 }

 } // namespace JSC
	/*
	* Copyright (C) 2013-2019 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 "JSArrayBufferView.h"
	#include "JSCJSValueInlines.h"
	#include "JSGlobalObject.h"
	#include "PropertyMapHashTable.h"
	#include "Structure.h"
	#include "StructureChain.h"
	#include "StructureRareDataInlines.h"
	#include <wtf/Threading.h>

	namespace JSC {

	inline Structure* Structure::create(VM& vm, JSGlobalObject* globalObject, JSValue prototype, const TypeInfo& typeInfo, const ClassInfo* classInfo, IndexingType indexingType, unsigned inlineCapacity)
	{
	ASSERT(vm.structureStructure);
	ASSERT(classInfo);
	if (auto* object = prototype.getObject()) {
	ASSERT(!object->anyObjectInChainMayInterceptIndexedAccesses(vm) \|\| hasSlowPutArrayStorage(indexingType) \|\| !hasIndexedProperties(indexingType));
	object->didBecomePrototype();
	}

	Structure* structure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm, globalObject, prototype, typeInfo, classInfo, indexingType, inlineCapacity);
	structure->finishCreation(vm);
	return structure;
	}

	inline Structure* Structure::createStructure(VM& vm)
	{
	ASSERT(!vm.structureStructure);
	Structure* structure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm);
	structure->finishCreation(vm, CreatingEarlyCell);
	return structure;
	}

	inline Structure* Structure::create(VM& vm, Structure* previous, DeferredStructureTransitionWatchpointFire* deferred)
	{
	ASSERT(vm.structureStructure);
	Structure* newStructure = new (NotNull, allocateCell<Structure>(vm.heap)) Structure(vm, previous, deferred);
	newStructure->finishCreation(vm, previous);
	return newStructure;
	}

	inline bool Structure::mayInterceptIndexedAccesses() const
	{
	if (indexingModeIncludingHistory() & MayHaveIndexedAccessors)
	return true;

	// Consider a scenario where object O (of global G1)'s prototype is set to A
	// (of global G2), and G2 is already having a bad time. If an object B with
	// indexed accessors is then set as the prototype of A:
	// O -> A -> B
	// Then, O should be converted to SlowPutArrayStorage (because it now has an
	// object with indexed accessors in its prototype chain). But it won't be
	// converted because this conversion is done by JSGlobalObject::haveAbadTime(),
	// but G2 is already having a bad time. We solve this by conservatively
	// treating A as potentially having indexed accessors if its global is already
	// having a bad time. Hence, when A is set as O's prototype, O will be
	// converted to SlowPutArrayStorage.

	JSGlobalObject* globalObject = this->globalObject();
	if (!globalObject)
	return false;
	return globalObject->isHavingABadTime();
	}

	inline JSObject* Structure::storedPrototypeObject() const
	{
	ASSERT(hasMonoProto());
	JSValue value = m_prototype.get();
	if (value.isNull())
	return nullptr;
	return asObject(value);
	}

	inline Structure* Structure::storedPrototypeStructure() const
	{
	ASSERT(hasMonoProto());
	JSObject* object = storedPrototypeObject();
	if (!object)
	return nullptr;
	return object->structure();
	}

	ALWAYS_INLINE JSValue Structure::storedPrototype(const JSObject* object) const
	{
	ASSERT(isCompilationThread() \|\| Thread::mayBeGCThread() \|\| object->structure() == this);
	if (hasMonoProto())
	return storedPrototype();
	return object->getDirect(knownPolyProtoOffset);
	}

	ALWAYS_INLINE JSObject* Structure::storedPrototypeObject(const JSObject* object) const
	{
	ASSERT(isCompilationThread() \|\| Thread::mayBeGCThread() \|\| object->structure() == this);
	if (hasMonoProto())
	return storedPrototypeObject();
	JSValue proto = object->getDirect(knownPolyProtoOffset);
	if (proto.isNull())
	return nullptr;
	return asObject(proto);
	}

	ALWAYS_INLINE Structure* Structure::storedPrototypeStructure(const JSObject* object) const
	{
	if (JSObject* proto = storedPrototypeObject(object))
	return proto->structure();
	return nullptr;
	}

	ALWAYS_INLINE PropertyOffset Structure::get(VM& vm, PropertyName propertyName)
	{
	unsigned attributes;
	return get(vm, propertyName, attributes);
	}

	ALWAYS_INLINE PropertyOffset Structure::get(VM& vm, PropertyName propertyName, unsigned& attributes)
	{
	ASSERT(!isCompilationThread());
	ASSERT(structure(vm)->classInfo() == info());

	PropertyTable* propertyTable = ensurePropertyTableIfNotEmpty(vm);
	if (!propertyTable)
	return invalidOffset;

	PropertyMapEntry* entry = propertyTable->get(propertyName.uid());
	if (!entry)
	return invalidOffset;

	attributes = entry->attributes;
	return entry->offset;
	}

	template<typename Functor>
	void Structure::forEachPropertyConcurrently(const Functor& functor)
	{
	Vector<Structure*, 8> structures;
	Structure* structure;
	PropertyTable* table;

	findStructuresAndMapForMaterialization(structures, structure, table);

	if (table) {
	for (auto& entry : *table) {
	if (!functor(entry)) {
	structure->m_lock.unlock();
	return;
	}
	}
	structure->m_lock.unlock();
	}

	for (unsigned i = structures.size(); i--;) {
	structure = structures[i];
	if (!structure->m_nameInPrevious)
	continue;

	if (!functor(PropertyMapEntry(structure->m_nameInPrevious.get(), structure->m_offset, structure->attributesInPrevious())))
	return;
	}
	}

	template<typename Functor>
	void Structure::forEachProperty(VM& vm, const Functor& functor)
	{
	if (PropertyTable* table = ensurePropertyTableIfNotEmpty(vm)) {
	for (auto& entry : *table) {
	if (!functor(entry))
	return;
	}
	}
	}

	inline PropertyOffset Structure::getConcurrently(UniquedStringImpl* uid)
	{
	unsigned attributesIgnored;
	return getConcurrently(uid, attributesIgnored);
	}

	inline bool Structure::hasIndexingHeader(const JSCell* cell) const
	{
	if (hasIndexedProperties(indexingType()))
	return true;

	if (!isTypedView(typedArrayTypeForType(m_blob.type())))
	return false;

	return jsCast<const JSArrayBufferView*>(cell)->mode() == WastefulTypedArray;
	}

	inline bool Structure::masqueradesAsUndefined(JSGlobalObject* lexicalGlobalObject)
	{
	return typeInfo().masqueradesAsUndefined() && globalObject() == lexicalGlobalObject;
	}

	inline bool Structure::transitivelyTransitionedFrom(Structure* structureToFind)
	{
	for (Structure* current = this; current; current = current->previousID()) {
	if (current == structureToFind)
	return true;
	}
	return false;
	}

	inline void Structure::setCachedOwnKeys(VM& vm, JSImmutableButterfly* ownKeys)
	{
	ensureRareData(vm)->setCachedOwnKeys(vm, ownKeys);
	}

	inline JSImmutableButterfly* Structure::cachedOwnKeys() const
	{
	if (!hasRareData())
	return nullptr;
	return rareData()->cachedOwnKeys();
	}

	inline JSImmutableButterfly* Structure::cachedOwnKeysIgnoringSentinel() const
	{
	if (!hasRareData())
	return nullptr;
	return rareData()->cachedOwnKeysIgnoringSentinel();
	}

	inline bool Structure::canCacheOwnKeys() const
	{
	if (isDictionary())
	return false;
	if (hasIndexedProperties(indexingType()))
	return false;
	if (typeInfo().overridesGetPropertyNames())
	return false;
	return true;
	}

	ALWAYS_INLINE JSValue prototypeForLookupPrimitiveImpl(JSGlobalObject* globalObject, const Structure* structure)
	{
	ASSERT(!structure->isObject());

	if (structure->typeInfo().type() == StringType)
	return globalObject->stringPrototype();

	if (structure->typeInfo().type() == BigIntType)
	return globalObject->bigIntPrototype();

	ASSERT(structure->typeInfo().type() == SymbolType);
	return globalObject->symbolPrototype();
	}

	inline JSValue Structure::prototypeForLookup(JSGlobalObject* globalObject) const
	{
	ASSERT(hasMonoProto());
	if (isObject())
	return storedPrototype();
	return prototypeForLookupPrimitiveImpl(globalObject, this);
	}

	inline JSValue Structure::prototypeForLookup(JSGlobalObject* globalObject, JSCell* base) const
	{
	ASSERT(base->structure() == this);
	if (isObject())
	return storedPrototype(asObject(base));
	return prototypeForLookupPrimitiveImpl(globalObject, this);
	}

	inline StructureChain* Structure::prototypeChain(VM& vm, JSGlobalObject* globalObject, JSObject* base) const
	{
	ASSERT(base->structure(vm) == this);
	// We cache our prototype chain so our clients can share it.
	if (!isValid(globalObject, m_cachedPrototypeChain.get(), base)) {
	JSValue prototype = prototypeForLookup(globalObject, base);
	m_cachedPrototypeChain.set(vm, this, StructureChain::create(vm, prototype.isNull() ? nullptr : asObject(prototype)));
	}
	return m_cachedPrototypeChain.get();
	}

	inline StructureChain* Structure::prototypeChain(JSGlobalObject* globalObject, JSObject* base) const
	{
	return prototypeChain(globalObject->vm(), globalObject, base);
	}

	inline bool Structure::isValid(JSGlobalObject* globalObject, StructureChain* cachedPrototypeChain, JSObject* base) const
	{
	if (!cachedPrototypeChain)
	return false;

	VM& vm = globalObject->vm();
	JSValue prototype = prototypeForLookup(globalObject, base);
	WriteBarrier<Structure>* cachedStructure = cachedPrototypeChain->head();
	while (*cachedStructure && !prototype.isNull()) {
	if (asObject(prototype)->structure(vm) != cachedStructure->get())
	return false;
	++cachedStructure;
	prototype = asObject(prototype)->getPrototypeDirect(vm);
	}
	return prototype.isNull() && !*cachedStructure;
	}

	inline void Structure::didReplaceProperty(PropertyOffset offset)
	{
	if (LIKELY(!hasRareData()))
	return;
	StructureRareData::PropertyWatchpointMap* map = rareData()->m_replacementWatchpointSets.get();
	if (LIKELY(!map))
	return;
	WatchpointSet* set = map->get(offset);
	if (LIKELY(!set))
	return;
	set->fireAll(vm(), "Property did get replaced");
	}

	inline WatchpointSet* Structure::propertyReplacementWatchpointSet(PropertyOffset offset)
	{
	ConcurrentJSLocker locker(m_lock);
	if (!hasRareData())
	return nullptr;
	WTF::loadLoadFence();
	StructureRareData::PropertyWatchpointMap* map = rareData()->m_replacementWatchpointSets.get();
	if (!map)
	return nullptr;
	return map->get(offset);
	}

	template<typename DetailsFunc>
	ALWAYS_INLINE bool Structure::checkOffsetConsistency(PropertyTable* propertyTable, const DetailsFunc& detailsFunc) const
	{
	// We cannot reliably assert things about the property table in the concurrent
	// compilation thread. It is possible for the table to be stolen and then have
	// things added to it, which leads to the offsets being all messed up. We could
	// get around this by grabbing a lock here, but I think that would be overkill.
	if (isCompilationThread())
	return true;

	unsigned totalSize = propertyTable->propertyStorageSize();
	unsigned inlineOverflowAccordingToTotalSize = totalSize < m_inlineCapacity ? 0 : totalSize - m_inlineCapacity;

	auto fail = [&] (const char* description) {
	dataLog("Detected offset inconsistency: ", description, "!\n");
	dataLog("this = ", RawPointer(this), "\n");
	dataLog("m_offset = ", m_offset, "\n");
	dataLog("m_inlineCapacity = ", m_inlineCapacity, "\n");
	dataLog("propertyTable = ", RawPointer(propertyTable), "\n");
	dataLog("numberOfSlotsForLastOffset = ", numberOfSlotsForLastOffset(m_offset, m_inlineCapacity), "\n");
	dataLog("totalSize = ", totalSize, "\n");
	dataLog("inlineOverflowAccordingToTotalSize = ", inlineOverflowAccordingToTotalSize, "\n");
	dataLog("numberOfOutOfLineSlotsForLastOffset = ", numberOfOutOfLineSlotsForLastOffset(m_offset), "\n");
	detailsFunc();
	UNREACHABLE_FOR_PLATFORM();
	};

	if (numberOfSlotsForLastOffset(m_offset, m_inlineCapacity) != totalSize)
	fail("numberOfSlotsForLastOffset doesn't match totalSize");
	if (inlineOverflowAccordingToTotalSize != numberOfOutOfLineSlotsForLastOffset(m_offset))
	fail("inlineOverflowAccordingToTotalSize doesn't match numberOfOutOfLineSlotsForLastOffset");

	return true;
	}

	ALWAYS_INLINE bool Structure::checkOffsetConsistency() const
	{
	PropertyTable* propertyTable = propertyTableOrNull();

	if (!propertyTable) {
	ASSERT(!isPinnedPropertyTable());
	return true;
	}

	// We cannot reliably assert things about the property table in the concurrent
	// compilation thread. It is possible for the table to be stolen and then have
	// things added to it, which leads to the offsets being all messed up. We could
	// get around this by grabbing a lock here, but I think that would be overkill.
	if (isCompilationThread())
	return true;

	return checkOffsetConsistency(propertyTable, [] () { });
	}

	inline void Structure::checkConsistency()
	{
	checkOffsetConsistency();
	}

	inline size_t nextOutOfLineStorageCapacity(size_t currentCapacity)
	{
	if (!currentCapacity)
	return initialOutOfLineCapacity;
	return currentCapacity * outOfLineGrowthFactor;
	}

	inline void Structure::setObjectToStringValue(JSGlobalObject* globalObject, VM& vm, JSString* value, PropertySlot toStringTagSymbolSlot)
	{
	if (!hasRareData())
	allocateRareData(vm);
	rareData()->setObjectToStringValue(globalObject, vm, this, value, toStringTagSymbolSlot);
	}

	template<Structure::ShouldPin shouldPin, typename Func>
	inline PropertyOffset Structure::add(VM& vm, PropertyName propertyName, unsigned attributes, const Func& func)
	{
	PropertyTable* table = ensurePropertyTable(vm);

	GCSafeConcurrentJSLocker locker(m_lock, vm.heap);

	switch (shouldPin) {
	case ShouldPin::Yes:
	pin(locker, vm, table);
	break;
	case ShouldPin::No:
	setPropertyTable(vm, table);
	break;
	}

	ASSERT(!JSC::isValidOffset(get(vm, propertyName)));

	checkConsistency();
	if (attributes & PropertyAttribute::DontEnum \|\| propertyName.isSymbol())
	setIsQuickPropertyAccessAllowedForEnumeration(false);
	if (propertyName == vm.propertyNames->underscoreProto)
	setHasUnderscoreProtoPropertyExcludingOriginalProto(true);

	auto rep = propertyName.uid();

	PropertyOffset newOffset = table->nextOffset(m_inlineCapacity);

	m_propertyHash = m_propertyHash ^ rep->existingSymbolAwareHash();

	PropertyOffset newLastOffset = m_offset;
	table->add(PropertyMapEntry(rep, newOffset, attributes), newLastOffset, PropertyTable::PropertyOffsetMayChange);

	func(locker, newOffset, newLastOffset);

	ASSERT(m_offset == newLastOffset);

	checkConsistency();
	return newOffset;
	}

	template<typename Func>
	inline PropertyOffset Structure::remove(PropertyName propertyName, const Func& func)
	{
	ConcurrentJSLocker locker(m_lock);

	checkConsistency();

	auto rep = propertyName.uid();

	// We ONLY remove from uncacheable dictionaries, which will have a pinned property table.
	// The only way for them not to have a table is if they are empty.
	PropertyTable* table = propertyTableOrNull();

	if (!table)
	return invalidOffset;

	PropertyTable::find_iterator position = table->find(rep);
	if (!position.first)
	return invalidOffset;

	PropertyOffset offset = position.first->offset;

	table->remove(position);
	table->addDeletedOffset(offset);

	checkConsistency();

	func(locker, offset);
	return offset;
	}

	template<typename Func>
	inline PropertyOffset Structure::addPropertyWithoutTransition(VM& vm, PropertyName propertyName, unsigned attributes, const Func& func)
	{
	return add<ShouldPin::Yes>(vm, propertyName, attributes, func);
	}

	template<typename Func>
	inline PropertyOffset Structure::removePropertyWithoutTransition(VM&, PropertyName propertyName, const Func& func)
	{
	ASSERT(isUncacheableDictionary());
	ASSERT(isPinnedPropertyTable());
	ASSERT(propertyTableOrNull());

	return remove(propertyName, func);
	}

	ALWAYS_INLINE void Structure::setPrototypeWithoutTransition(VM& vm, JSValue prototype)
	{
	ASSERT(isValidPrototype(prototype));
	m_prototype.set(vm, this, prototype);
	}

	ALWAYS_INLINE void Structure::setGlobalObject(VM& vm, JSGlobalObject* globalObject)
	{
	m_globalObject.set(vm, this, globalObject);
	}

	ALWAYS_INLINE void Structure::setPropertyTable(VM& vm, PropertyTable* table)
	{
	m_propertyTableUnsafe.setMayBeNull(vm, this, table);
	}

	ALWAYS_INLINE void Structure::setPreviousID(VM& vm, Structure* structure)
	{
	if (hasRareData())
	rareData()->setPreviousID(vm, structure);
	else
	m_previousOrRareData.set(vm, this, structure);
	}

	ALWAYS_INLINE bool Structure::shouldConvertToPolyProto(const Structure* a, const Structure* b)
	{
	if (!a \|\| !b)
	return false;

	if (a == b)
	return false;

	if (a->propertyHash() != b->propertyHash())
	return false;

	// We only care about objects created via a constructor's to_this. These
	// all have Structures with rare data and a sharedPolyProtoWatchpoint.
	if (!a->hasRareData() \|\| !b->hasRareData())
	return false;

	// We only care about Structure's generated from functions that share
	// the same executable.
	const Box<InlineWatchpointSet>& aInlineWatchpointSet = a->rareData()->sharedPolyProtoWatchpoint();
	const Box<InlineWatchpointSet>& bInlineWatchpointSet = b->rareData()->sharedPolyProtoWatchpoint();
	if (aInlineWatchpointSet.get() != bInlineWatchpointSet.get() \|\| !aInlineWatchpointSet)
	return false;
	ASSERT(aInlineWatchpointSet && bInlineWatchpointSet && aInlineWatchpointSet.get() == bInlineWatchpointSet.get());

	if (a->hasPolyProto() \|\| b->hasPolyProto())
	return false;

	if (a->storedPrototype() == b->storedPrototype())
	return false;

	VM& vm = a->vm();
	JSObject* aObj = a->storedPrototypeObject();
	JSObject* bObj = b->storedPrototypeObject();
	while (aObj && bObj) {
	a = aObj->structure(vm);
	b = bObj->structure(vm);

	if (a->propertyHash() != b->propertyHash())
	return false;

	aObj = a->storedPrototypeObject(aObj);
	bObj = b->storedPrototypeObject(bObj);
	}

	return !aObj && !bObj;
	}

	inline Structure* Structure::nonPropertyTransition(VM& vm, Structure* structure, NonPropertyTransition transitionKind)
	{
	IndexingType indexingModeIncludingHistory = newIndexingType(structure->indexingModeIncludingHistory(), transitionKind);

	if (changesIndexingType(transitionKind)) {
	if (JSGlobalObject* globalObject = structure->m_globalObject.get()) {
	if (globalObject->isOriginalArrayStructure(structure)) {
	Structure* result = globalObject->originalArrayStructureForIndexingType(indexingModeIncludingHistory);
	if (result->indexingModeIncludingHistory() == indexingModeIncludingHistory) {
	structure->didTransitionFromThisStructure();
	return result;
	}
	}
	}
	}

	return nonPropertyTransitionSlow(vm, structure, transitionKind);
	}

	} // namespace JSC