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/*
* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
* Copyright (C) 2003, 2007, 2008, 2009 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 JSArray_h
#define JSArray_h
#include "JSObject.h"
#define CHECK_ARRAY_CONSISTENCY 0
namespace JSC {
typedef HashMap<unsigned, WriteBarrier<Unknown> > SparseArrayValueMap;
// This struct holds the actual data values of an array. A JSArray object points to it's contained ArrayStorage
// struct by pointing to m_vector. To access the contained ArrayStorage struct, use the getStorage() and
// setStorage() methods. It is important to note that there may be space before the ArrayStorage that
// is used to quick unshift / shift operation. The actual allocated pointer is available by using:
// getStorage() - m_indexBias * sizeof(JSValue)
struct ArrayStorage {
unsigned m_length; // The "length" property on the array
unsigned m_numValuesInVector;
SparseArrayValueMap* m_sparseValueMap;
void* subclassData; // A JSArray subclass can use this to fill the vector lazily.
void* m_allocBase; // Pointer to base address returned by malloc(). Keeping this pointer does eliminate false positives from the leak detector.
size_t reportedMapCapacity;
#if CHECK_ARRAY_CONSISTENCY
bool m_inCompactInitialization;
#endif
WriteBarrier<Unknown> m_vector[1];
};
// The CreateCompact creation mode is used for fast construction of arrays
// whose size and contents are known at time of creation.
//
// There are two obligations when using this mode:
//
// - uncheckedSetIndex() must be used when initializing the array.
// - setLength() must be called after initialization.
enum ArrayCreationMode { CreateCompact, CreateInitialized };
class JSArray : public JSNonFinalObject {
friend class JIT;
friend class Walker;
public:
enum VPtrStealingHackType { VPtrStealingHack };
JSArray(VPtrStealingHackType);
explicit JSArray(NonNullPassRefPtr<Structure>);
JSArray(NonNullPassRefPtr<Structure>, unsigned initialLength, ArrayCreationMode);
JSArray(JSGlobalData&, NonNullPassRefPtr<Structure>, const ArgList& initialValues);
virtual ~JSArray();
virtual bool getOwnPropertySlot(ExecState*, const Identifier& propertyName, PropertySlot&);
virtual bool getOwnPropertySlot(ExecState*, unsigned propertyName, PropertySlot&);
virtual bool getOwnPropertyDescriptor(ExecState*, const Identifier&, PropertyDescriptor&);
virtual void put(ExecState*, unsigned propertyName, JSValue); // FIXME: Make protected and add setItem.
static JS_EXPORTDATA const ClassInfo s_info;
unsigned length() const { return m_storage->m_length; }
void setLength(unsigned); // OK to use on new arrays, but not if it might be a RegExpMatchArray.
void sort(ExecState*);
void sort(ExecState*, JSValue compareFunction, CallType, const CallData&);
void sortNumeric(ExecState*, JSValue compareFunction, CallType, const CallData&);
void push(ExecState*, JSValue);
JSValue pop();
void shiftCount(ExecState*, int count);
void unshiftCount(ExecState*, int count);
bool canGetIndex(unsigned i) { return i < m_vectorLength && m_storage->m_vector[i]; }
JSValue getIndex(unsigned i)
{
ASSERT(canGetIndex(i));
return m_storage->m_vector[i].get();
}
bool canSetIndex(unsigned i) { return i < m_vectorLength; }
void setIndex(JSGlobalData& globalData, unsigned i, JSValue v)
{
ASSERT(canSetIndex(i));
WriteBarrier<Unknown>& x = m_storage->m_vector[i];
if (!x) {
ArrayStorage *storage = m_storage;
++storage->m_numValuesInVector;
if (i >= storage->m_length)
storage->m_length = i + 1;
}
x.set(globalData, this, v);
}
void uncheckedSetIndex(JSGlobalData& globalData, unsigned i, JSValue v)
{
ASSERT(canSetIndex(i));
ArrayStorage *storage = m_storage;
#if CHECK_ARRAY_CONSISTENCY
ASSERT(storage->m_inCompactInitialization);
#endif
storage->m_vector[i].set(globalData, this, v);
}
void fillArgList(ExecState*, MarkedArgumentBuffer&);
void copyToRegisters(ExecState*, Register*, uint32_t);
static PassRefPtr<Structure> createStructure(JSValue prototype)
{
return Structure::create(prototype, TypeInfo(ObjectType, StructureFlags), AnonymousSlotCount, &s_info);
}
inline void markChildrenDirect(MarkStack& markStack);
protected:
static const unsigned StructureFlags = OverridesGetOwnPropertySlot | OverridesMarkChildren | OverridesGetPropertyNames | JSObject::StructureFlags;
virtual void put(ExecState*, const Identifier& propertyName, JSValue, PutPropertySlot&);
virtual bool deleteProperty(ExecState*, const Identifier& propertyName);
virtual bool deleteProperty(ExecState*, unsigned propertyName);
virtual void getOwnPropertyNames(ExecState*, PropertyNameArray&, EnumerationMode mode = ExcludeDontEnumProperties);
virtual void markChildren(MarkStack&);
void* subclassData() const;
void setSubclassData(void*);
private:
bool getOwnPropertySlotSlowCase(ExecState*, unsigned propertyName, PropertySlot&);
void putSlowCase(ExecState*, unsigned propertyName, JSValue);
unsigned getNewVectorLength(unsigned desiredLength);
bool increaseVectorLength(unsigned newLength);
bool increaseVectorPrefixLength(unsigned newLength);
unsigned compactForSorting();
enum ConsistencyCheckType { NormalConsistencyCheck, DestructorConsistencyCheck, SortConsistencyCheck };
void checkConsistency(ConsistencyCheckType = NormalConsistencyCheck);
unsigned m_vectorLength; // The valid length of m_vector
int m_indexBias; // The number of JSValue sized blocks before ArrayStorage.
ArrayStorage *m_storage;
};
JSArray* asArray(JSValue);
inline JSArray* asArray(JSCell* cell)
{
ASSERT(cell->inherits(&JSArray::s_info));
return static_cast<JSArray*>(cell);
}
inline JSArray* asArray(JSValue value)
{
return asArray(value.asCell());
}
inline bool isJSArray(JSGlobalData* globalData, JSValue v)
{
return v.isCell() && v.asCell()->vptr() == globalData->jsArrayVPtr;
}
inline bool isJSArray(JSGlobalData* globalData, JSCell* cell) { return cell->vptr() == globalData->jsArrayVPtr; }
inline void JSArray::markChildrenDirect(MarkStack& markStack)
{
JSObject::markChildrenDirect(markStack);
ArrayStorage* storage = m_storage;
unsigned usedVectorLength = std::min(storage->m_length, m_vectorLength);
markStack.appendValues(storage->m_vector, usedVectorLength, MayContainNullValues);
if (SparseArrayValueMap* map = storage->m_sparseValueMap) {
SparseArrayValueMap::iterator end = map->end();
for (SparseArrayValueMap::iterator it = map->begin(); it != end; ++it)
markStack.append(&it->second);
}
}
inline void MarkStack::markChildren(JSCell* cell)
{
ASSERT(Heap::isMarked(cell));
if (!cell->structure()->typeInfo().overridesMarkChildren()) {
#ifdef NDEBUG
asObject(cell)->markChildrenDirect(*this);
#else
ASSERT(!m_isCheckingForDefaultMarkViolation);
m_isCheckingForDefaultMarkViolation = true;
cell->markChildren(*this);
ASSERT(m_isCheckingForDefaultMarkViolation);
m_isCheckingForDefaultMarkViolation = false;
#endif
return;
}
if (cell->vptr() == m_jsArrayVPtr) {
asArray(cell)->markChildrenDirect(*this);
return;
}
cell->markChildren(*this);
}
inline void MarkStack::drain()
{
#if !ASSERT_DISABLED
ASSERT(!m_isDraining);
m_isDraining = true;
#endif
while (!m_markSets.isEmpty() || !m_values.isEmpty()) {
while (!m_markSets.isEmpty() && m_values.size() < 50) {
ASSERT(!m_markSets.isEmpty());
MarkSet& current = m_markSets.last();
ASSERT(current.m_values);
JSValue* end = current.m_end;
ASSERT(current.m_values);
ASSERT(current.m_values != end);
findNextUnmarkedNullValue:
ASSERT(current.m_values != end);
JSValue value = *current.m_values;
current.m_values++;
JSCell* cell;
if (!value || !value.isCell() || Heap::testAndSetMarked(cell = value.asCell())) {
if (current.m_values == end) {
m_markSets.removeLast();
continue;
}
goto findNextUnmarkedNullValue;
}
if (cell->structure()->typeInfo().type() < CompoundType) {
if (current.m_values == end) {
m_markSets.removeLast();
continue;
}
goto findNextUnmarkedNullValue;
}
if (current.m_values == end)
m_markSets.removeLast();
markChildren(cell);
}
while (!m_values.isEmpty())
markChildren(m_values.removeLast());
}
#if !ASSERT_DISABLED
m_isDraining = false;
#endif
}
// Rule from ECMA 15.2 about what an array index is.
// Must exactly match string form of an unsigned integer, and be less than 2^32 - 1.
inline unsigned Identifier::toArrayIndex(bool& ok) const
{
unsigned i = toUInt32(ok);
if (ok && i >= 0xFFFFFFFFU)
ok = false;
return i;
}
} // namespace JSC
#endif // JSArray_h
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