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webkit / WebKit / Safari-3-branch / . / JavaScriptCore / kjs / array_object.cpp
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// -*- c-basic-offset: 2 -*-
/*
* This file is part of the KDE libraries
* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
* Copyright (C) 2003, 2007 Apple Inc. All rights reserved.
* Copyright (C) 2003 Peter Kelly (pmk@post.com)
* Copyright (C) 2006 Alexey Proskuryakov (ap@nypop.com)
*
* 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
*
*/
#include "config.h"
#include "array_object.h"
#include "array_object.lut.h"
#include "error_object.h"
#include "lookup.h"
#include "operations.h"
#include "PropertyNameArray.h"
#include <wtf/HashSet.h>
#include <stdio.h>
using namespace KJS;
// ------------------------------ ArrayInstance -----------------------------
const unsigned sparseArrayCutoff = 10000;
const ClassInfo ArrayInstance::info = {"Array", 0, 0, 0};
static inline JSValue** allocateStorage(size_t capacity)
{
if (capacity == 0)
return 0;
// store capacity in extra space before the beginning of the storage array to save space
JSValue** storage = static_cast<JSValue**>(fastCalloc(capacity + 1, sizeof(JSValue *))) + 1;
storage[-1] = reinterpret_cast<JSValue*>(capacity);
return storage;
}
static inline void reallocateStorage(JSValue**& storage, size_t newCapacity)
{
if (!storage) {
storage = allocateStorage(newCapacity);
return;
}
// store capacity in extra space before the beginning of the storage array to save space
storage = static_cast<JSValue**>(fastRealloc(storage - 1, (newCapacity + 1) * sizeof (JSValue*))) + 1;
storage[-1] = reinterpret_cast<JSValue*>(newCapacity);
}
static inline void freeStorage(JSValue** storage)
{
if (storage)
fastFree(storage - 1);
}
ArrayInstance::ArrayInstance(JSObject *proto, unsigned initialLength)
: JSObject(proto)
, length(initialLength)
, storageLength(initialLength < sparseArrayCutoff ? initialLength : 0)
, storage(allocateStorage(storageLength))
{
Collector::reportExtraMemoryCost(storageLength * sizeof(JSValue*));
}
ArrayInstance::ArrayInstance(JSObject *proto, const List &list)
: JSObject(proto)
, length(list.size())
, storageLength(length)
, storage(allocateStorage(storageLength))
{
ListIterator it = list.begin();
unsigned l = length;
for (unsigned i = 0; i < l; ++i) {
storage[i] = it++;
}
// When the array is created non-empty its cells are filled so it's really no worse than
// a property map. Therefore don't report extra memory cost.
}
ArrayInstance::~ArrayInstance()
{
freeStorage(storage);
}
JSValue* ArrayInstance::getItem(unsigned i) const
{
if (i >= length)
return jsUndefined();
JSValue* val = (i < storageLength) ?
storage[i] :
getDirect(Identifier::from(i));
return val ? val : jsUndefined();
}
JSValue *ArrayInstance::lengthGetter(ExecState*, JSObject*, const Identifier&, const PropertySlot& slot)
{
return jsNumber(static_cast<ArrayInstance *>(slot.slotBase())->length);
}
bool ArrayInstance::getOwnPropertySlot(ExecState* exec, const Identifier& propertyName, PropertySlot& slot)
{
if (propertyName == exec->propertyNames().length) {
slot.setCustom(this, lengthGetter);
return true;
}
bool ok;
unsigned index = propertyName.toArrayIndex(&ok);
if (ok) {
if (index >= length)
return false;
if (index < storageLength) {
JSValue *v = storage[index];
if (!v)
return false;
slot.setValueSlot(this, &storage[index]);
return true;
}
}
return JSObject::getOwnPropertySlot(exec, propertyName, slot);
}
bool ArrayInstance::getOwnPropertySlot(ExecState *exec, unsigned index, PropertySlot& slot)
{
if (index > MAX_ARRAY_INDEX)
return getOwnPropertySlot(exec, Identifier::from(index), slot);
if (index >= length)
return false;
if (index < storageLength) {
JSValue *v = storage[index];
if (!v)
return false;
slot.setValueSlot(this, &storage[index]);
return true;
}
return JSObject::getOwnPropertySlot(exec, index, slot);
}
// Special implementation of [[Put]] - see ECMA 15.4.5.1
void ArrayInstance::put(ExecState* exec, const Identifier& propertyName, JSValue* value, int attr)
{
if (propertyName == exec->propertyNames().length) {
unsigned int newLen = value->toUInt32(exec);
if (value->toNumber(exec) != double(newLen)) {
throwError(exec, RangeError, "Invalid array length.");
return;
}
setLength(newLen, exec);
return;
}
bool ok;
unsigned index = propertyName.toArrayIndex(&ok);
if (ok) {
put(exec, index, value, attr);
return;
}
JSObject::put(exec, propertyName, value, attr);
}
void ArrayInstance::put(ExecState *exec, unsigned index, JSValue *value, int attr)
{
//0xFFFF FFFF is a bit weird --- it should be treated as a non-array index, even when
//it's a string
if (index > MAX_ARRAY_INDEX) {
put(exec, Identifier::from(index), value, attr);
return;
}
if (index < sparseArrayCutoff && index >= storageLength) {
resizeStorage(index + 1);
}
if (index >= length) {
length = index + 1;
}
if (index < storageLength) {
storage[index] = value;
return;
}
assert(index >= sparseArrayCutoff);
JSObject::put(exec, Identifier::from(index), value, attr);
}
bool ArrayInstance::deleteProperty(ExecState* exec, const Identifier &propertyName)
{
if (propertyName == exec->propertyNames().length)
return false;
bool ok;
uint32_t index = propertyName.toArrayIndex(&ok);
if (ok) {
if (index >= length)
return true;
if (index < storageLength) {
storage[index] = 0;
return true;
}
}
return JSObject::deleteProperty(exec, propertyName);
}
bool ArrayInstance::deleteProperty(ExecState *exec, unsigned index)
{
if (index > MAX_ARRAY_INDEX)
return deleteProperty(exec, Identifier::from(index));
if (index >= length)
return true;
if (index < storageLength) {
storage[index] = 0;
return true;
}
return JSObject::deleteProperty(exec, Identifier::from(index));
}
void ArrayInstance::getPropertyNames(ExecState* exec, PropertyNameArray& propertyNames)
{
// avoid fetching this every time through the loop
JSValue* undefined = jsUndefined();
for (unsigned i = 0; i < storageLength; ++i) {
JSValue* value = storage[i];
if (value && value != undefined)
propertyNames.add(Identifier::from(i));
}
JSObject::getPropertyNames(exec, propertyNames);
}
void ArrayInstance::resizeStorage(unsigned newLength)
{
if (newLength < storageLength) {
memset(storage + newLength, 0, sizeof(JSValue *) * (storageLength - newLength));
}
size_t cap = capacity();
if (newLength > cap) {
unsigned newCapacity;
if (newLength > sparseArrayCutoff) {
newCapacity = newLength;
} else {
newCapacity = (newLength * 3 + 1) / 2;
if (newCapacity > sparseArrayCutoff) {
newCapacity = sparseArrayCutoff;
}
}
reallocateStorage(storage, newCapacity);
memset(storage + cap, 0, sizeof(JSValue*) * (newCapacity - cap));
}
storageLength = newLength;
}
void ArrayInstance::setLength(unsigned newLength, ExecState *exec)
{
if (newLength <= storageLength) {
resizeStorage(newLength);
}
if (newLength < length) {
PropertyNameArray sparseProperties;
_prop.getSparseArrayPropertyNames(sparseProperties);
PropertyNameArrayIterator end = sparseProperties.end();
for (PropertyNameArrayIterator it = sparseProperties.begin(); it != end; ++it) {
Identifier name = *it;
bool ok;
unsigned index = name.toArrayIndex(&ok);
if (ok && index > newLength)
deleteProperty(exec, name);
}
}
length = newLength;
}
void ArrayInstance::mark()
{
JSObject::mark();
unsigned l = storageLength;
for (unsigned i = 0; i < l; ++i) {
JSValue *imp = storage[i];
if (imp && !imp->marked())
imp->mark();
}
}
static ExecState* execForCompareByStringForQSort = 0;
static int compareByStringForQSort(const void *a, const void *b)
{
ExecState *exec = execForCompareByStringForQSort;
JSValue *va = *(JSValue **)a;
JSValue *vb = *(JSValue **)b;
if (va->isUndefined()) {
return vb->isUndefined() ? 0 : 1;
}
if (vb->isUndefined()) {
return -1;
}
return compare(va->toString(exec), vb->toString(exec));
}
void ArrayInstance::sort(ExecState* exec)
{
size_t lengthNotIncludingUndefined = compactForSorting();
ExecState* oldExec = execForCompareByStringForQSort;
execForCompareByStringForQSort = exec;
#if HAVE(MERGESORT)
// mergesort usually does fewer compares, so it is actually faster than qsort for JS sorts.
// however, becuase it requires extra copies of the storage buffer, don't use it for very
// large arrays
// FIXME: for sorting by string value, the fastest thing would actually be to convert all the
// values to string once up front, and then use a radix sort. That would be O(N) rather than
// O(N log N).
if (lengthNotIncludingUndefined < sparseArrayCutoff) {
JSValue** storageCopy = allocateStorage(capacity());
memcpy(storageCopy, storage, capacity() * sizeof(JSValue*));
mergesort(storageCopy, lengthNotIncludingUndefined, sizeof(JSValue *), compareByStringForQSort);
freeStorage(storage);
storage = storageCopy;
execForCompareByStringForQSort = oldExec;
return;
}
#endif
qsort(storage, lengthNotIncludingUndefined, sizeof(JSValue*), compareByStringForQSort);
execForCompareByStringForQSort = oldExec;
}
struct CompareWithCompareFunctionArguments {
CompareWithCompareFunctionArguments(ExecState *e, JSObject *cf)
: exec(e)
, compareFunction(cf)
, globalObject(e->dynamicInterpreter()->globalObject())
{
arguments.append(jsUndefined());
arguments.append(jsUndefined());
}
ExecState *exec;
JSObject *compareFunction;
List arguments;
JSObject *globalObject;
};
static CompareWithCompareFunctionArguments* compareWithCompareFunctionArguments = 0;
static int compareWithCompareFunctionForQSort(const void *a, const void *b)
{
CompareWithCompareFunctionArguments *args = compareWithCompareFunctionArguments;
JSValue *va = *(JSValue **)a;
JSValue *vb = *(JSValue **)b;
if (va->isUndefined()) {
return vb->isUndefined() ? 0 : 1;
}
if (vb->isUndefined()) {
return -1;
}
args->arguments.clear();
args->arguments.append(va);
args->arguments.append(vb);
double compareResult = args->compareFunction->call
(args->exec, args->globalObject, args->arguments)->toNumber(args->exec);
return compareResult < 0 ? -1 : compareResult > 0 ? 1 : 0;
}
void ArrayInstance::sort(ExecState* exec, JSObject* compareFunction)
{
size_t lengthNotIncludingUndefined = compactForSorting();
CompareWithCompareFunctionArguments* oldArgs = compareWithCompareFunctionArguments;
CompareWithCompareFunctionArguments args(exec, compareFunction);
compareWithCompareFunctionArguments = &args;
#if HAVE(MERGESORT)
// mergesort usually does fewer compares, so it is actually faster than qsort for JS sorts.
// however, becuase it requires extra copies of the storage buffer, don't use it for very
// large arrays
// FIXME: a tree sort using a perfectly balanced tree (e.g. an AVL tree) could do an even
// better job of minimizing compares
if (lengthNotIncludingUndefined < sparseArrayCutoff) {
JSValue** storageCopy = allocateStorage(capacity());
memcpy(storageCopy, storage, capacity() * sizeof(JSValue*));
mergesort(storageCopy, lengthNotIncludingUndefined, sizeof(JSValue *), compareWithCompareFunctionForQSort);
freeStorage(storage);
storage = storageCopy;
compareWithCompareFunctionArguments = oldArgs;
return;
}
#endif
qsort(storage, lengthNotIncludingUndefined, sizeof(JSValue*), compareWithCompareFunctionForQSort);
compareWithCompareFunctionArguments = oldArgs;
}
unsigned ArrayInstance::compactForSorting()
{
JSValue *undefined = jsUndefined();
unsigned o = 0;
for (unsigned i = 0; i != storageLength; ++i) {
JSValue *v = storage[i];
if (v && v != undefined) {
if (o != i)
storage[o] = v;
o++;
}
}
PropertyNameArray sparseProperties;
_prop.getSparseArrayPropertyNames(sparseProperties);
unsigned newLength = o + sparseProperties.size();
if (newLength > storageLength)
resizeStorage(newLength);
PropertyNameArrayIterator end = sparseProperties.end();
for (PropertyNameArrayIterator it = sparseProperties.begin(); it != end; ++it) {
Identifier name = *it;
storage[o] = getDirect(name);
_prop.remove(name);
o++;
}
if (newLength != storageLength)
memset(storage + o, 0, sizeof(JSValue *) * (storageLength - o));
return o;
}
// ------------------------------ ArrayPrototype ----------------------------
const ClassInfo ArrayPrototype::info = {"Array", &ArrayInstance::info, &arrayTable, 0};
/* Source for array_object.lut.h
@begin arrayTable 16
toString ArrayProtoFunc::ToString DontEnum|Function 0
toLocaleString ArrayProtoFunc::ToLocaleString DontEnum|Function 0
concat ArrayProtoFunc::Concat DontEnum|Function 1
join ArrayProtoFunc::Join DontEnum|Function 1
pop ArrayProtoFunc::Pop DontEnum|Function 0
push ArrayProtoFunc::Push DontEnum|Function 1
reverse ArrayProtoFunc::Reverse DontEnum|Function 0
shift ArrayProtoFunc::Shift DontEnum|Function 0
slice ArrayProtoFunc::Slice DontEnum|Function 2
sort ArrayProtoFunc::Sort DontEnum|Function 1
splice ArrayProtoFunc::Splice DontEnum|Function 2
unshift ArrayProtoFunc::UnShift DontEnum|Function 1
every ArrayProtoFunc::Every DontEnum|Function 1
forEach ArrayProtoFunc::ForEach DontEnum|Function 1
some ArrayProtoFunc::Some DontEnum|Function 1
indexOf ArrayProtoFunc::IndexOf DontEnum|Function 1
lastIndexOf ArrayProtoFunc::LastIndexOf DontEnum|Function 1
filter ArrayProtoFunc::Filter DontEnum|Function 1
map ArrayProtoFunc::Map DontEnum|Function 1
@end
*/
// ECMA 15.4.4
ArrayPrototype::ArrayPrototype(ExecState*, ObjectPrototype* objProto)
: ArrayInstance(objProto, 0)
{
}
bool ArrayPrototype::getOwnPropertySlot(ExecState* exec, const Identifier& propertyName, PropertySlot& slot)
{
return getStaticFunctionSlot<ArrayProtoFunc, ArrayInstance>(exec, &arrayTable, this, propertyName, slot);
}
// ------------------------------ ArrayProtoFunc ----------------------------
ArrayProtoFunc::ArrayProtoFunc(ExecState* exec, int i, int len, const Identifier& name)
: InternalFunctionImp(static_cast<FunctionPrototype*>
(exec->lexicalInterpreter()->builtinFunctionPrototype()), name)
, id(i)
{
put(exec, exec->propertyNames().length, jsNumber(len), DontDelete | ReadOnly | DontEnum);
}
static JSValue *getProperty(ExecState *exec, JSObject *obj, unsigned index)
{
PropertySlot slot;
if (!obj->getPropertySlot(exec, index, slot))
return NULL;
return slot.getValue(exec, obj, index);
}
// ECMA 15.4.4
JSValue* ArrayProtoFunc::callAsFunction(ExecState* exec, JSObject* thisObj, const List& args)
{
unsigned length = thisObj->get(exec, exec->propertyNames().length)->toUInt32(exec);
JSValue *result = 0; // work around gcc 4.0 bug in uninitialized variable warning
switch (id) {
case ToLocaleString:
case ToString:
if (!thisObj->inherits(&ArrayInstance::info))
return throwError(exec, TypeError);
// fall through
case Join: {
static HashSet<JSObject*> visitedElems;
if (visitedElems.contains(thisObj))
return jsString("");
UString separator = ",";
UString str = "";
visitedElems.add(thisObj);
if (id == Join && !args[0]->isUndefined())
separator = args[0]->toString(exec);
for (unsigned int k = 0; k < length; k++) {
if (k >= 1)
str += separator;
if (str.isNull()) {
JSObject *error = Error::create(exec, GeneralError, "Out of memory");
exec->setException(error);
break;
}
JSValue* element = thisObj->get(exec, k);
if (element->isUndefinedOrNull())
continue;
bool fallback = false;
if (id == ToLocaleString) {
JSObject* o = element->toObject(exec);
JSValue* conversionFunction = o->get(exec, exec->propertyNames().toLocaleString);
if (conversionFunction->isObject() && static_cast<JSObject*>(conversionFunction)->implementsCall())
str += static_cast<JSObject*>(conversionFunction)->call(exec, o, List())->toString(exec);
else
// try toString() fallback
fallback = true;
}
if (id == ToString || id == Join || fallback)
str += element->toString(exec);
if (str.isNull()) {
JSObject *error = Error::create(exec, GeneralError, "Out of memory");
exec->setException(error);
}
if (exec->hadException())
break;
}
visitedElems.remove(thisObj);
result = jsString(str);
break;
}
case Concat: {
JSObject *arr = static_cast<JSObject *>(exec->lexicalInterpreter()->builtinArray()->construct(exec,List::empty()));
int n = 0;
JSValue *curArg = thisObj;
JSObject *curObj = static_cast<JSObject *>(thisObj);
ListIterator it = args.begin();
for (;;) {
if (curArg->isObject() &&
curObj->inherits(&ArrayInstance::info)) {
unsigned int k = 0;
// Older versions tried to optimize out getting the length of thisObj
// by checking for n != 0, but that doesn't work if thisObj is an empty array.
length = curObj->get(exec, exec->propertyNames().length)->toUInt32(exec);
while (k < length) {
if (JSValue *v = getProperty(exec, curObj, k))
arr->put(exec, n, v);
n++;
k++;
}
} else {
arr->put(exec, n, curArg);
n++;
}
if (it == args.end())
break;
curArg = *it;
curObj = static_cast<JSObject *>(it++); // may be 0
}
arr->put(exec, exec->propertyNames().length, jsNumber(n), DontEnum | DontDelete);
result = arr;
break;
}
case Pop:{
if (length == 0) {
thisObj->put(exec, exec->propertyNames().length, jsNumber(length), DontEnum | DontDelete);
result = jsUndefined();
} else {
result = thisObj->get(exec, length - 1);
thisObj->put(exec, exec->propertyNames().length, jsNumber(length - 1), DontEnum | DontDelete);
}
break;
}
case Push: {
for (int n = 0; n < args.size(); n++)
thisObj->put(exec, length + n, args[n]);
length += args.size();
thisObj->put(exec, exec->propertyNames().length, jsNumber(length), DontEnum | DontDelete);
result = jsNumber(length);
break;
}
case Reverse: {
unsigned int middle = length / 2;
for (unsigned int k = 0; k < middle; k++) {
unsigned lk1 = length - k - 1;
JSValue *obj2 = getProperty(exec, thisObj, lk1);
JSValue *obj = getProperty(exec, thisObj, k);
if (obj2)
thisObj->put(exec, k, obj2);
else
thisObj->deleteProperty(exec, k);
if (obj)
thisObj->put(exec, lk1, obj);
else
thisObj->deleteProperty(exec, lk1);
}
result = thisObj;
break;
}
case Shift: {
if (length == 0) {
thisObj->put(exec, exec->propertyNames().length, jsNumber(length), DontEnum | DontDelete);
result = jsUndefined();
} else {
result = thisObj->get(exec, 0);
for(unsigned int k = 1; k < length; k++) {
if (JSValue *obj = getProperty(exec, thisObj, k))
thisObj->put(exec, k-1, obj);
else
thisObj->deleteProperty(exec, k-1);
}
thisObj->deleteProperty(exec, length - 1);
thisObj->put(exec, exec->propertyNames().length, jsNumber(length - 1), DontEnum | DontDelete);
}
break;
}
case Slice: {
// http://developer.netscape.com/docs/manuals/js/client/jsref/array.htm#1193713 or 15.4.4.10
// We return a new array
JSObject *resObj = static_cast<JSObject *>(exec->lexicalInterpreter()->builtinArray()->construct(exec,List::empty()));
result = resObj;
double begin = 0;
if (!args[0]->isUndefined()) {
begin = args[0]->toInteger(exec);
if (begin >= 0) { // false for NaN
if (begin > length)
begin = length;
} else {
begin += length;
if (!(begin >= 0)) // true for NaN
begin = 0;
}
}
double end = length;
if (!args[1]->isUndefined()) {
end = args[1]->toInteger(exec);
if (end < 0) { // false for NaN
end += length;
if (end < 0)
end = 0;
} else {
if (!(end <= length)) // true for NaN
end = length;
}
}
//printf( "Slicing from %d to %d \n", begin, end );
int n = 0;
int b = static_cast<int>(begin);
int e = static_cast<int>(end);
for(int k = b; k < e; k++, n++) {
if (JSValue *v = getProperty(exec, thisObj, k))
resObj->put(exec, n, v);
}
resObj->put(exec, exec->propertyNames().length, jsNumber(n), DontEnum | DontDelete);
break;
}
case Sort:{
#if 0
printf("KJS Array::Sort length=%d\n", length);
for ( unsigned int i = 0 ; i<length ; ++i )
printf("KJS Array::Sort: %d: %s\n", i, thisObj->get(exec, i)->toString(exec).ascii() );
#endif
JSObject *sortFunction = NULL;
if (!args[0]->isUndefined())
{
sortFunction = args[0]->toObject(exec);
if (!sortFunction->implementsCall())
sortFunction = NULL;
}
if (thisObj->classInfo() == &ArrayInstance::info) {
if (sortFunction)
((ArrayInstance *)thisObj)->sort(exec, sortFunction);
else
((ArrayInstance *)thisObj)->sort(exec);
result = thisObj;
break;
}
if (length == 0) {
thisObj->put(exec, exec->propertyNames().length, jsNumber(0), DontEnum | DontDelete);
result = thisObj;
break;
}
// "Min" sort. Not the fastest, but definitely less code than heapsort
// or quicksort, and much less swapping than bubblesort/insertionsort.
for ( unsigned int i = 0 ; i<length-1 ; ++i )
{
JSValue *iObj = thisObj->get(exec,i);
unsigned int themin = i;
JSValue *minObj = iObj;
for ( unsigned int j = i+1 ; j<length ; ++j )
{
JSValue *jObj = thisObj->get(exec,j);
double cmp;
if (jObj->isUndefined()) {
cmp = 1; // don't check minObj because there's no need to differentiate == (0) from > (1)
} else if (minObj->isUndefined()) {
cmp = -1;
} else if (sortFunction) {
List l;
l.append(jObj);
l.append(minObj);
cmp = sortFunction->call(exec, exec->dynamicInterpreter()->globalObject(), l)->toNumber(exec);
} else {
cmp = (jObj->toString(exec) < minObj->toString(exec)) ? -1 : 1;
}
if ( cmp < 0 )
{
themin = j;
minObj = jObj;
}
}
// Swap themin and i
if ( themin > i )
{
//printf("KJS Array::Sort: swapping %d and %d\n", i, themin );
thisObj->put( exec, i, minObj );
thisObj->put( exec, themin, iObj );
}
}
#if 0
printf("KJS Array::Sort -- Resulting array:\n");
for ( unsigned int i = 0 ; i<length ; ++i )
printf("KJS Array::Sort: %d: %s\n", i, thisObj->get(exec, i)->toString(exec).ascii() );
#endif
result = thisObj;
break;
}
case Splice: {
// 15.4.4.12 - oh boy this is huge
JSObject *resObj = static_cast<JSObject *>(exec->lexicalInterpreter()->builtinArray()->construct(exec,List::empty()));
result = resObj;
int begin = args[0]->toUInt32(exec);
if ( begin < 0 )
begin = maxInt( begin + length, 0 );
else
begin = minInt( begin, length );
unsigned int deleteCount = minInt( maxInt( args[1]->toUInt32(exec), 0 ), length - begin );
//printf( "Splicing from %d, deleteCount=%d \n", begin, deleteCount );
for(unsigned int k = 0; k < deleteCount; k++) {
if (JSValue *v = getProperty(exec, thisObj, k+begin))
resObj->put(exec, k, v);
}
resObj->put(exec, exec->propertyNames().length, jsNumber(deleteCount), DontEnum | DontDelete);
unsigned int additionalArgs = maxInt( args.size() - 2, 0 );
if ( additionalArgs != deleteCount )
{
if ( additionalArgs < deleteCount )
{
for ( unsigned int k = begin; k < length - deleteCount; ++k )
{
if (JSValue *v = getProperty(exec, thisObj, k+deleteCount))
thisObj->put(exec, k+additionalArgs, v);
else
thisObj->deleteProperty(exec, k+additionalArgs);
}
for ( unsigned int k = length ; k > length - deleteCount + additionalArgs; --k )
thisObj->deleteProperty(exec, k-1);
}
else
{
for ( unsigned int k = length - deleteCount; (int)k > begin; --k )
{
if (JSValue *obj = getProperty(exec, thisObj, k + deleteCount - 1))
thisObj->put(exec, k + additionalArgs - 1, obj);
else
thisObj->deleteProperty(exec, k+additionalArgs-1);
}
}
}
for ( unsigned int k = 0; k < additionalArgs; ++k )
{
thisObj->put(exec, k+begin, args[k+2]);
}
thisObj->put(exec, exec->propertyNames().length, jsNumber(length - deleteCount + additionalArgs), DontEnum | DontDelete);
break;
}
case UnShift: { // 15.4.4.13
unsigned int nrArgs = args.size();
for ( unsigned int k = length; k > 0; --k )
{
if (JSValue *v = getProperty(exec, thisObj, k - 1))
thisObj->put(exec, k+nrArgs-1, v);
else
thisObj->deleteProperty(exec, k+nrArgs-1);
}
for ( unsigned int k = 0; k < nrArgs; ++k )
thisObj->put(exec, k, args[k]);
result = jsNumber(length + nrArgs);
thisObj->put(exec, exec->propertyNames().length, result, DontEnum | DontDelete);
break;
}
case Filter:
case Map: {
JSObject *eachFunction = args[0]->toObject(exec);
if (!eachFunction->implementsCall())
return throwError(exec, TypeError);
JSObject *applyThis = args[1]->isUndefinedOrNull() ? exec->dynamicInterpreter()->globalObject() : args[1]->toObject(exec);
JSObject *resultArray;
if (id == Filter)
resultArray = static_cast<JSObject *>(exec->lexicalInterpreter()->builtinArray()->construct(exec, List::empty()));
else {
List args;
args.append(jsNumber(length));
resultArray = static_cast<JSObject *>(exec->lexicalInterpreter()->builtinArray()->construct(exec, args));
}
unsigned filterIndex = 0;
for (unsigned k = 0; k < length && !exec->hadException(); ++k) {
PropertySlot slot;
if (!thisObj->getPropertySlot(exec, k, slot))
continue;
JSValue *v = slot.getValue(exec, thisObj, k);
List eachArguments;
eachArguments.append(v);
eachArguments.append(jsNumber(k));
eachArguments.append(thisObj);
JSValue *result = eachFunction->call(exec, applyThis, eachArguments);
if (id == Map)
resultArray->put(exec, k, result);
else if (result->toBoolean(exec))
resultArray->put(exec, filterIndex++, v);
}
return resultArray;
}
case Every:
case ForEach:
case Some: {
//Documentation for these three is available at:
//http://developer-test.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Objects:Array:every
//http://developer-test.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Objects:Array:forEach
//http://developer-test.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Objects:Array:some
JSObject *eachFunction = args[0]->toObject(exec);
if (!eachFunction->implementsCall())
return throwError(exec, TypeError);
JSObject *applyThis = args[1]->isUndefinedOrNull() ? exec->dynamicInterpreter()->globalObject() : args[1]->toObject(exec);
if (id == Some || id == Every)
result = jsBoolean(id == Every);
else
result = jsUndefined();
for (unsigned k = 0; k < length && !exec->hadException(); ++k) {
PropertySlot slot;
if (!thisObj->getPropertySlot(exec, k, slot))
continue;
List eachArguments;
eachArguments.append(slot.getValue(exec, thisObj, k));
eachArguments.append(jsNumber(k));
eachArguments.append(thisObj);
bool predicateResult = eachFunction->call(exec, applyThis, eachArguments)->toBoolean(exec);
if (id == Every && !predicateResult) {
result = jsBoolean(false);
break;
}
if (id == Some && predicateResult) {
result = jsBoolean(true);
break;
}
}
break;
}
case IndexOf: {
// JavaScript 1.5 Extension by Mozilla
// Documentation: http://developer.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Global_Objects:Array:indexOf
unsigned index = 0;
double d = args[1]->toInteger(exec);
if (d < 0)
d += length;
if (d > 0) {
if (d > length)
index = length;
else
index = static_cast<unsigned>(d);
}
JSValue* searchElement = args[0];
for (; index < length; ++index) {
JSValue* e = getProperty(exec, thisObj, index);
if (!e)
continue;
if (strictEqual(exec, searchElement, e))
return jsNumber(index);
}
return jsNumber(-1);
}
case LastIndexOf: {
// JavaScript 1.6 Extension by Mozilla
// Documentation: http://developer.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Global_Objects:Array:lastIndexOf
int index = length - 1;
double d = args[1]->toInteger(exec);
if (d < 0) {
d += length;
if (d < 0)
return jsNumber(-1);
}
if (d < length)
index = static_cast<int>(d);
JSValue* searchElement = args[0];
for (; index >= 0; --index) {
JSValue* e = getProperty(exec, thisObj, index);
if (!e)
continue;
if (strictEqual(exec, searchElement, e))
return jsNumber(index);
}
return jsNumber(-1);
}
default:
assert(0);
result = 0;
break;
}
return result;
}
// ------------------------------ ArrayObjectImp -------------------------------
ArrayObjectImp::ArrayObjectImp(ExecState *exec,
FunctionPrototype *funcProto,
ArrayPrototype *arrayProto)
: InternalFunctionImp(funcProto)
{
// ECMA 15.4.3.1 Array.prototype
put(exec, exec->propertyNames().prototype, arrayProto, DontEnum|DontDelete|ReadOnly);
// no. of arguments for constructor
put(exec, exec->propertyNames().length, jsNumber(1), ReadOnly|DontDelete|DontEnum);
}
bool ArrayObjectImp::implementsConstruct() const
{
return true;
}
// ECMA 15.4.2
JSObject *ArrayObjectImp::construct(ExecState *exec, const List &args)
{
// a single numeric argument denotes the array size (!)
if (args.size() == 1 && args[0]->isNumber()) {
uint32_t n = args[0]->toUInt32(exec);
if (n != args[0]->toNumber(exec))
return throwError(exec, RangeError, "Array size is not a small enough positive integer.");
return new ArrayInstance(exec->lexicalInterpreter()->builtinArrayPrototype(), n);
}
// otherwise the array is constructed with the arguments in it
return new ArrayInstance(exec->lexicalInterpreter()->builtinArrayPrototype(), args);
}
// ECMA 15.6.1
JSValue *ArrayObjectImp::callAsFunction(ExecState *exec, JSObject *, const List &args)
{
// equivalent to 'new Array(....)'
return construct(exec,args);
}