gecko/js/src/jsobjinlines.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sw=4 et tw=99:
*
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* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef jsobjinlines_h___
#define jsobjinlines_h___
#include <new>
#include "jsapi.h"
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#include "jsarray.h"
#include "jsbool.h"
#include "jscntxt.h"
#include "jsfun.h"
#include "jsiter.h"
#include "jslock.h"
#include "jsnum.h"
#include "jsobj.h"
#include "jsprobes.h"
#include "jspropertytree.h"
#include "jsproxy.h"
#include "jsscope.h"
#include "jsstr.h"
#include "jstypedarray.h"
#include "jsxml.h"
#include "jswrapper.h"
#include "gc/Barrier.h"
#include "gc/Marking.h"
#include "js/TemplateLib.h"
#include "vm/BooleanObject.h"
#include "vm/GlobalObject.h"
#include "vm/NumberObject.h"
#include "vm/RegExpStatics.h"
#include "vm/StringObject.h"
#include "jsatominlines.h"
#include "jsfuninlines.h"
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#include "jsgcinlines.h"
#include "jsinferinlines.h"
#include "jsscopeinlines.h"
#include "jsscriptinlines.h"
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#include "gc/Barrier-inl.h"
#include "vm/ObjectImpl-inl.h"
#include "vm/RegExpStatics-inl.h"
#include "vm/String-inl.h"
inline bool
JSObject::enumerate(JSContext *cx, JSIterateOp iterop, js::Value *statep, jsid *idp)
{
JSNewEnumerateOp op = getOps()->enumerate;
return (op ? op : JS_EnumerateState)(cx, js::RootedObject(cx, this), iterop, statep, idp);
}
inline bool
JSObject::defaultValue(JSContext *cx, JSType hint, js::Value *vp)
{
js::RootedObject self(cx, this);
JSConvertOp op = getClass()->convert;
bool ok;
if (op == JS_ConvertStub)
ok = js::DefaultValue(cx, self, hint, vp);
else
ok = op(cx, self, hint, vp);
JS_ASSERT_IF(ok, vp->isPrimitive());
return ok;
}
inline JSType
JSObject::typeOf(JSContext *cx)
{
js::TypeOfOp op = getOps()->typeOf;
return (op ? op : js::baseops::TypeOf)(cx, js::RootedObject(cx, this));
}
inline JSObject *
JSObject::thisObject(JSContext *cx)
{
JSObjectOp op = getOps()->thisObject;
return op ? op(cx, js::RootedObject(cx, this)) : this;
}
inline JSBool
JSObject::setGeneric(JSContext *cx, js::HandleId id, js::Value *vp, JSBool strict)
{
if (getOps()->setGeneric)
return nonNativeSetProperty(cx, id, vp, strict);
return js::baseops::SetPropertyHelper(cx,
js::RootedObject(cx, this),
id, 0, vp, strict);
}
inline JSBool
JSObject::setProperty(JSContext *cx, js::PropertyName *name, js::Value *vp, JSBool strict)
{
return setGeneric(cx, js::RootedId(cx, js::NameToId(name)), vp, strict);
}
inline JSBool
JSObject::setElement(JSContext *cx, uint32_t index, js::Value *vp, JSBool strict)
{
if (getOps()->setElement)
return nonNativeSetElement(cx, index, vp, strict);
return js::baseops::SetElementHelper(cx, js::RootedObject(cx, this), index, 0, vp, strict);
}
inline JSBool
JSObject::setSpecial(JSContext *cx, js::SpecialId sid, js::Value *vp, JSBool strict)
{
return setGeneric(cx, js::RootedId(cx, SPECIALID_TO_JSID(sid)), vp, strict);
}
inline JSBool
JSObject::setGenericAttributes(JSContext *cx, js::HandleId id, unsigned *attrsp)
{
js::types::MarkTypePropertyConfigured(cx, this, id);
js::GenericAttributesOp op = getOps()->setGenericAttributes;
return (op ? op : js::baseops::SetAttributes)(cx, js::RootedObject(cx, this), id, attrsp);
}
inline JSBool
JSObject::setPropertyAttributes(JSContext *cx, js::PropertyName *name, unsigned *attrsp)
{
return setGenericAttributes(cx, js::RootedId(cx, js::NameToId(name)), attrsp);
}
inline JSBool
JSObject::setElementAttributes(JSContext *cx, uint32_t index, unsigned *attrsp)
{
js::ElementAttributesOp op = getOps()->setElementAttributes;
return (op ? op : js::baseops::SetElementAttributes)(cx, js::RootedObject(cx, this), index, attrsp);
}
inline JSBool
JSObject::setSpecialAttributes(JSContext *cx, js::SpecialId sid, unsigned *attrsp)
{
return setGenericAttributes(cx, js::RootedId(cx, SPECIALID_TO_JSID(sid)), attrsp);
}
inline bool
JSObject::changePropertyAttributes(JSContext *cx, js::Shape *shape, unsigned attrs)
{
return !!changeProperty(cx, shape, attrs, 0, shape->getter(), shape->setter());
}
inline JSBool
JSObject::getGeneric(JSContext *cx, js::HandleObject receiver, js::HandleId id, js::Value *vp)
{
js::RootedObject self(cx, this);
js::GenericIdOp op = getOps()->getGeneric;
if (op) {
if (!op(cx, self, receiver, id, vp))
return false;
} else {
if (!js::baseops::GetProperty(cx, self, receiver, id, vp))
return false;
}
return true;
}
inline JSBool
JSObject::getProperty(JSContext *cx, js::HandleObject receiver, js::PropertyName *name, js::Value *vp)
{
return getGeneric(cx, receiver, js::RootedId(cx, js::NameToId(name)), vp);
}
inline JSBool
JSObject::getGeneric(JSContext *cx, js::HandleId id, js::Value *vp)
{
return getGeneric(cx, js::RootedObject(cx, this), id, vp);
}
inline JSBool
JSObject::getProperty(JSContext *cx, js::PropertyName *name, js::Value *vp)
{
return getGeneric(cx, js::RootedId(cx, js::NameToId(name)), vp);
}
inline bool
JSObject::deleteProperty(JSContext *cx, js::HandlePropertyName name, js::Value *rval, bool strict)
{
jsid id = js::NameToId(name);
js::types::AddTypePropertyId(cx, this, id, js::types::Type::UndefinedType());
js::types::MarkTypePropertyConfigured(cx, this, id);
js::DeletePropertyOp op = getOps()->deleteProperty;
return (op ? op : js::baseops::DeleteProperty)(cx, js::RootedObject(cx, this), name, rval, strict);
}
inline bool
JSObject::deleteElement(JSContext *cx, uint32_t index, js::Value *rval, bool strict)
{
js::RootedObject self(cx, this);
jsid id;
if (!js::IndexToId(cx, index, &id))
return false;
js::types::AddTypePropertyId(cx, self, id, js::types::Type::UndefinedType());
js::types::MarkTypePropertyConfigured(cx, self, id);
js::DeleteElementOp op = self->getOps()->deleteElement;
return (op ? op : js::baseops::DeleteElement)(cx, self, index, rval, strict);
}
inline bool
JSObject::deleteSpecial(JSContext *cx, js::HandleSpecialId sid, js::Value *rval, bool strict)
{
jsid id = SPECIALID_TO_JSID(sid);
js::types::AddTypePropertyId(cx, this, id, js::types::Type::UndefinedType());
js::types::MarkTypePropertyConfigured(cx, this, id);
js::DeleteSpecialOp op = getOps()->deleteSpecial;
return (op ? op : js::baseops::DeleteSpecial)(cx, js::RootedObject(cx, this), sid, rval, strict);
}
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inline void
JSObject::finalize(js::FreeOp *fop)
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{
js::Probes::finalizeObject(this);
if (!fop->onBackgroundThread()) {
/*
* Finalize obj first, in case it needs map and slots. Objects with
* finalize hooks are not finalized in the background, as the class is
* stored in the object's shape, which may have already been destroyed.
*/
js::Class *clasp = getClass();
if (clasp->finalize)
clasp->finalize(fop, this);
}
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finish(fop);
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}
inline JSObject *
JSObject::getParent() const
{
return lastProperty()->getObjectParent();
}
inline JSObject *
JSObject::enclosingScope()
{
return isScope()
? &asScope().enclosingScope()
: isDebugScope()
? &asDebugScope().enclosingScope()
: getParent();
}
inline bool
JSObject::isFixedSlot(size_t slot)
{
JS_ASSERT(!isDenseArray());
return slot < numFixedSlots();
}
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inline size_t
JSObject::dynamicSlotIndex(size_t slot)
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{
JS_ASSERT(!isDenseArray() && slot >= numFixedSlots());
return slot - numFixedSlots();
}
inline void
JSObject::setLastPropertyInfallible(const js::Shape *shape)
{
JS_ASSERT(!shape->inDictionary());
JS_ASSERT(shape->compartment() == compartment());
JS_ASSERT(!inDictionaryMode());
JS_ASSERT(slotSpan() == shape->slotSpan());
JS_ASSERT(numFixedSlots() == shape->numFixedSlots());
shape_ = const_cast<js::Shape *>(shape);
}
inline void
JSObject::removeLastProperty(JSContext *cx)
{
JS_ASSERT(canRemoveLastProperty());
JS_ALWAYS_TRUE(setLastProperty(cx, lastProperty()->previous()));
}
inline bool
JSObject::canRemoveLastProperty()
{
/*
* Check that the information about the object stored in the last
* property's base shape is consistent with that stored in the previous
* shape. If not consistent, then the last property cannot be removed as it
* will induce a change in the object itself, and the object must be
* converted to dictionary mode instead. See BaseShape comment in jsscope.h
*/
JS_ASSERT(!inDictionaryMode());
const js::Shape *previous = lastProperty()->previous();
return previous->getObjectParent() == lastProperty()->getObjectParent()
&& previous->getObjectFlags() == lastProperty()->getObjectFlags();
}
inline const js::HeapSlot *
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JSObject::getRawSlots()
{
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JS_ASSERT(isGlobal());
return slots;
}
inline const js::Value &
JSObject::getReservedSlot(unsigned index) const
{
JS_ASSERT(index < JSSLOT_FREE(getClass()));
return getSlot(index);
}
inline js::HeapSlot &
JSObject::getReservedSlotRef(unsigned index)
{
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JS_ASSERT(index < JSSLOT_FREE(getClass()));
return getSlotRef(index);
}
inline void
JSObject::setReservedSlot(unsigned index, const js::Value &v)
{
JS_ASSERT(index < JSSLOT_FREE(getClass()));
setSlot(index, v);
}
inline void
JSObject::initReservedSlot(unsigned index, const js::Value &v)
{
JS_ASSERT(index < JSSLOT_FREE(getClass()));
initSlot(index, v);
}
inline void
JSObject::prepareSlotRangeForOverwrite(size_t start, size_t end)
{
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for (size_t i = start; i < end; i++)
getSlotAddressUnchecked(i)->js::HeapSlot::~HeapSlot();
}
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inline void
JSObject::prepareElementRangeForOverwrite(size_t start, size_t end)
{
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JS_ASSERT(isDenseArray());
JS_ASSERT(end <= getDenseArrayInitializedLength());
for (size_t i = start; i < end; i++)
elements[i].js::HeapSlot::~HeapSlot();
}
inline uint32_t
JSObject::getArrayLength() const
{
JS_ASSERT(isArray());
return getElementsHeader()->length;
}
inline void
JSObject::setArrayLength(JSContext *cx, uint32_t length)
{
JS_ASSERT(isArray());
if (length > INT32_MAX) {
/*
* Mark the type of this object as possibly not a dense array, per the
* requirements of OBJECT_FLAG_NON_DENSE_ARRAY.
*/
js::types::MarkTypeObjectFlags(cx, this,
js::types::OBJECT_FLAG_NON_PACKED_ARRAY |
js::types::OBJECT_FLAG_NON_DENSE_ARRAY);
jsid lengthId = js::NameToId(cx->runtime->atomState.lengthAtom);
js::types::AddTypePropertyId(cx, this, lengthId,
js::types::Type::DoubleType());
}
getElementsHeader()->length = length;
}
inline void
JSObject::setDenseArrayLength(uint32_t length)
{
/* Variant of setArrayLength for use on dense arrays where the length cannot overflow int32. */
JS_ASSERT(isDenseArray());
JS_ASSERT(length <= INT32_MAX);
getElementsHeader()->length = length;
}
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inline void
JSObject::setDenseArrayInitializedLength(uint32_t length)
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{
JS_ASSERT(isDenseArray());
JS_ASSERT(length <= getDenseArrayCapacity());
prepareElementRangeForOverwrite(length, getElementsHeader()->initializedLength);
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getElementsHeader()->initializedLength = length;
}
inline uint32_t
JSObject::getDenseArrayCapacity()
{
JS_ASSERT(isDenseArray());
return getElementsHeader()->capacity;
}
inline bool
JSObject::ensureElements(JSContext *cx, uint32_t capacity)
{
if (capacity > getDenseArrayCapacity())
return growElements(cx, capacity);
return true;
}
inline void
JSObject::setDenseArrayElement(unsigned idx, const js::Value &val)
{
JS_ASSERT(isDenseArray() && idx < getDenseArrayInitializedLength());
elements[idx].set(this, idx, val);
}
inline void
JSObject::initDenseArrayElement(unsigned idx, const js::Value &val)
{
JS_ASSERT(isDenseArray() && idx < getDenseArrayInitializedLength());
elements[idx].init(this, idx, val);
}
inline void
JSObject::setDenseArrayElementWithType(JSContext *cx, unsigned idx, const js::Value &val)
{
js::types::AddTypePropertyId(cx, this, JSID_VOID, val);
setDenseArrayElement(idx, val);
}
inline void
JSObject::initDenseArrayElementWithType(JSContext *cx, unsigned idx, const js::Value &val)
{
js::types::AddTypePropertyId(cx, this, JSID_VOID, val);
initDenseArrayElement(idx, val);
}
inline void
JSObject::copyDenseArrayElements(unsigned dstStart, const js::Value *src, unsigned count)
{
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JS_ASSERT(dstStart + count <= getDenseArrayCapacity());
JSCompartment *comp = compartment();
for (unsigned i = 0; i < count; ++i)
elements[dstStart + i].set(comp, this, dstStart + i, src[i]);
}
inline void
JSObject::initDenseArrayElements(unsigned dstStart, const js::Value *src, unsigned count)
{
JS_ASSERT(dstStart + count <= getDenseArrayCapacity());
JSCompartment *comp = compartment();
for (unsigned i = 0; i < count; ++i)
elements[dstStart + i].init(comp, this, dstStart + i, src[i]);
}
inline void
JSObject::moveDenseArrayElements(unsigned dstStart, unsigned srcStart, unsigned count)
{
JS_ASSERT(dstStart + count <= getDenseArrayCapacity());
JS_ASSERT(srcStart + count <= getDenseArrayInitializedLength());
/*
* Using memmove here would skip write barriers. Also, we need to consider
* an array containing [A, B, C], in the following situation:
*
* 1. Incremental GC marks slot 0 of array (i.e., A), then returns to JS code.
* 2. JS code moves slots 1..2 into slots 0..1, so it contains [B, C, C].
* 3. Incremental GC finishes by marking slots 1 and 2 (i.e., C).
*
* Since normal marking never happens on B, it is very important that the
* write barrier is invoked here on B, despite the fact that it exists in
* the array before and after the move.
*/
JSCompartment *comp = compartment();
if (comp->needsBarrier()) {
if (dstStart < srcStart) {
js::HeapSlot *dst = elements + dstStart;
js::HeapSlot *src = elements + srcStart;
for (unsigned i = 0; i < count; i++, dst++, src++)
dst->set(comp, this, dst - elements, *src);
} else {
js::HeapSlot *dst = elements + dstStart + count - 1;
js::HeapSlot *src = elements + srcStart + count - 1;
for (unsigned i = 0; i < count; i++, dst--, src--)
dst->set(comp, this, dst - elements, *src);
}
} else {
memmove(elements + dstStart, elements + srcStart, count * sizeof(js::HeapSlot));
SlotRangeWriteBarrierPost(comp, this, dstStart, count);
}
}
inline void
JSObject::moveDenseArrayElementsUnbarriered(unsigned dstStart, unsigned srcStart, unsigned count)
{
JS_ASSERT(!compartment()->needsBarrier());
JS_ASSERT(dstStart + count <= getDenseArrayCapacity());
JS_ASSERT(srcStart + count <= getDenseArrayCapacity());
memmove(elements + dstStart, elements + srcStart, count * sizeof(js::Value));
}
inline bool
JSObject::denseArrayHasInlineSlots() const
{
JS_ASSERT(isDenseArray());
return elements == fixedElements();
}
namespace js {
/*
* Any name atom for a function which will be added as a DeclEnv object to the
* scope chain above call objects for fun.
*/
static inline JSAtom *
CallObjectLambdaName(JSFunction *fun)
{
return (fun->flags & JSFUN_LAMBDA) ? fun->atom.get() : NULL;
}
} /* namespace js */
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inline const js::Value &
JSObject::getDateUTCTime() const
{
JS_ASSERT(isDate());
return getFixedSlot(JSSLOT_DATE_UTC_TIME);
}
inline void
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JSObject::setDateUTCTime(const js::Value &time)
{
JS_ASSERT(isDate());
setFixedSlot(JSSLOT_DATE_UTC_TIME, time);
}
inline js::NativeIterator *
JSObject::getNativeIterator() const
{
return (js::NativeIterator *) getPrivate();
}
inline void
JSObject::setNativeIterator(js::NativeIterator *ni)
{
setPrivate(ni);
}
#if JS_HAS_XML_SUPPORT
inline JSLinearString *
JSObject::getNamePrefix() const
{
JS_ASSERT(isNamespace() || isQName());
const js::Value &v = getSlot(JSSLOT_NAME_PREFIX);
return !v.isUndefined() ? &v.toString()->asLinear() : NULL;
}
inline jsval
JSObject::getNamePrefixVal() const
{
JS_ASSERT(isNamespace() || isQName());
return getSlot(JSSLOT_NAME_PREFIX);
}
inline void
JSObject::setNamePrefix(JSLinearString *prefix)
{
JS_ASSERT(isNamespace() || isQName());
setSlot(JSSLOT_NAME_PREFIX, prefix ? js::StringValue(prefix) : js::UndefinedValue());
}
inline void
JSObject::clearNamePrefix()
{
JS_ASSERT(isNamespace() || isQName());
setSlot(JSSLOT_NAME_PREFIX, js::UndefinedValue());
}
inline JSLinearString *
JSObject::getNameURI() const
{
JS_ASSERT(isNamespace() || isQName());
const js::Value &v = getSlot(JSSLOT_NAME_URI);
return !v.isUndefined() ? &v.toString()->asLinear() : NULL;
}
inline jsval
JSObject::getNameURIVal() const
{
JS_ASSERT(isNamespace() || isQName());
return getSlot(JSSLOT_NAME_URI);
}
inline void
JSObject::setNameURI(JSLinearString *uri)
{
JS_ASSERT(isNamespace() || isQName());
setSlot(JSSLOT_NAME_URI, uri ? js::StringValue(uri) : js::UndefinedValue());
}
inline jsval
JSObject::getNamespaceDeclared() const
{
JS_ASSERT(isNamespace());
return getSlot(JSSLOT_NAMESPACE_DECLARED);
}
inline void
JSObject::setNamespaceDeclared(jsval decl)
{
JS_ASSERT(isNamespace());
setSlot(JSSLOT_NAMESPACE_DECLARED, decl);
}
inline JSAtom *
JSObject::getQNameLocalName() const
{
JS_ASSERT(isQName());
const js::Value &v = getSlot(JSSLOT_QNAME_LOCAL_NAME);
return !v.isUndefined() ? &v.toString()->asAtom() : NULL;
}
inline jsval
JSObject::getQNameLocalNameVal() const
{
JS_ASSERT(isQName());
return getSlot(JSSLOT_QNAME_LOCAL_NAME);
}
inline void
JSObject::setQNameLocalName(JSAtom *name)
{
JS_ASSERT(isQName());
setSlot(JSSLOT_QNAME_LOCAL_NAME, name ? js::StringValue(name) : js::UndefinedValue());
}
#endif
inline bool
JSObject::setSingletonType(JSContext *cx)
{
if (!cx->typeInferenceEnabled())
return true;
JS_ASSERT(!hasLazyType());
JS_ASSERT_IF(getProto(), type() == getProto()->getNewType(cx, NULL));
js::types::TypeObject *type = cx->compartment->getLazyType(cx, getProto());
if (!type)
return false;
type_ = type;
return true;
}
inline js::types::TypeObject *
JSObject::getType(JSContext *cx)
{
if (hasLazyType())
makeLazyType(cx);
return type_;
}
inline bool
JSObject::clearType(JSContext *cx)
{
JS_ASSERT(!hasSingletonType());
js::types::TypeObject *type = cx->compartment->getEmptyType(cx);
if (!type)
return false;
type_ = type;
return true;
}
inline void
JSObject::setType(js::types::TypeObject *newType)
{
#ifdef DEBUG
JS_ASSERT(newType);
for (JSObject *obj = newType->proto; obj; obj = obj->getProto())
JS_ASSERT(obj != this);
#endif
JS_ASSERT_IF(hasSpecialEquality(),
newType->hasAnyFlags(js::types::OBJECT_FLAG_SPECIAL_EQUALITY));
JS_ASSERT(!hasSingletonType());
type_ = newType;
}
inline bool JSObject::setIteratedSingleton(JSContext *cx)
{
return setFlag(cx, js::BaseShape::ITERATED_SINGLETON);
}
inline bool JSObject::isSystem() const
{
return lastProperty()->hasObjectFlag(js::BaseShape::SYSTEM);
}
inline bool JSObject::setSystem(JSContext *cx)
{
return setFlag(cx, js::BaseShape::SYSTEM);
}
inline bool JSObject::setDelegate(JSContext *cx)
{
return setFlag(cx, js::BaseShape::DELEGATE, GENERATE_SHAPE);
}
inline bool JSObject::isVarObj()
{
if (isDebugScope())
return asDebugScope().scope().isVarObj();
return lastProperty()->hasObjectFlag(js::BaseShape::VAROBJ);
}
inline bool JSObject::setVarObj(JSContext *cx)
{
return setFlag(cx, js::BaseShape::VAROBJ);
}
inline bool JSObject::setWatched(JSContext *cx)
{
return setFlag(cx, js::BaseShape::WATCHED, GENERATE_SHAPE);
}
inline bool JSObject::hasUncacheableProto() const
{
return lastProperty()->hasObjectFlag(js::BaseShape::UNCACHEABLE_PROTO);
}
inline bool JSObject::setUncacheableProto(JSContext *cx)
{
return setFlag(cx, js::BaseShape::UNCACHEABLE_PROTO, GENERATE_SHAPE);
}
inline bool JSObject::isBoundFunction() const
{
return lastProperty()->hasObjectFlag(js::BaseShape::BOUND_FUNCTION);
}
inline bool JSObject::isIndexed() const
{
return lastProperty()->hasObjectFlag(js::BaseShape::INDEXED);
}
inline bool JSObject::watched() const
{
return lastProperty()->hasObjectFlag(js::BaseShape::WATCHED);
}
inline bool JSObject::hasSpecialEquality() const
{
return !!getClass()->ext.equality;
}
inline bool JSObject::isArguments() const { return isNormalArguments() || isStrictArguments(); }
inline bool JSObject::isArrayBuffer() const { return hasClass(&js::ArrayBufferClass); }
inline bool JSObject::isBlock() const { return hasClass(&js::BlockClass); }
inline bool JSObject::isBoolean() const { return hasClass(&js::BooleanClass); }
inline bool JSObject::isCall() const { return hasClass(&js::CallClass); }
inline bool JSObject::isClonedBlock() const { return isBlock() && !!getProto(); }
inline bool JSObject::isDataView() const { return hasClass(&js::DataViewClass); }
inline bool JSObject::isDate() const { return hasClass(&js::DateClass); }
inline bool JSObject::isDeclEnv() const { return hasClass(&js::DeclEnvClass); }
inline bool JSObject::isElementIterator() const { return hasClass(&js::ElementIteratorClass); }
inline bool JSObject::isError() const { return hasClass(&js::ErrorClass); }
inline bool JSObject::isFunction() const { return hasClass(&js::FunctionClass); }
inline bool JSObject::isFunctionProxy() const { return hasClass(&js::FunctionProxyClass); }
inline bool JSObject::isGenerator() const { return hasClass(&js::GeneratorClass); }
inline bool JSObject::isIterator() const { return hasClass(&js::IteratorClass); }
inline bool JSObject::isNestedScope() const { return isBlock() || isWith(); }
inline bool JSObject::isNormalArguments() const { return hasClass(&js::NormalArgumentsObjectClass); }
inline bool JSObject::isNumber() const { return hasClass(&js::NumberClass); }
inline bool JSObject::isObject() const { return hasClass(&js::ObjectClass); }
inline bool JSObject::isPrimitive() const { return isNumber() || isString() || isBoolean(); }
inline bool JSObject::isRegExp() const { return hasClass(&js::RegExpClass); }
inline bool JSObject::isRegExpStatics() const { return hasClass(&js::RegExpStaticsClass); }
inline bool JSObject::isScope() const { return isCall() || isDeclEnv() || isNestedScope(); }
inline bool JSObject::isStaticBlock() const { return isBlock() && !getProto(); }
inline bool JSObject::isStopIteration() const { return hasClass(&js::StopIterationClass); }
inline bool JSObject::isStrictArguments() const { return hasClass(&js::StrictArgumentsObjectClass); }
inline bool JSObject::isString() const { return hasClass(&js::StringClass); }
inline bool JSObject::isTypedArray() const { return IsTypedArrayClass(getClass()); }
inline bool JSObject::isWeakMap() const { return hasClass(&js::WeakMapClass); }
inline bool JSObject::isWith() const { return hasClass(&js::WithClass); }
inline bool
JSObject::isDebugScope() const
{
extern bool js_IsDebugScopeSlow(const JSObject *obj);
return getClass() == &js::ObjectProxyClass && js_IsDebugScopeSlow(this);
}
#if JS_HAS_XML_SUPPORT
inline bool JSObject::isNamespace() const { return hasClass(&js::NamespaceClass); }
inline bool JSObject::isXML() const { return hasClass(&js::XMLClass); }
inline bool
JSObject::isXMLId() const
{
return hasClass(&js::QNameClass)
|| hasClass(&js::AttributeNameClass)
|| hasClass(&js::AnyNameClass);
}
inline bool
JSObject::isQName() const
{
return hasClass(&js::QNameClass)
|| hasClass(&js::AttributeNameClass)
|| hasClass(&js::AnyNameClass);
}
#endif /* JS_HAS_XML_SUPPORT */
/* static */ inline JSObject *
JSObject::create(JSContext *cx, js::gc::AllocKind kind,
js::HandleShape shape, js::HandleTypeObject type, js::HeapSlot *slots)
{
/*
* Callers must use dynamicSlotsCount to size the initial slot array of the
* object. We can't check the allocated capacity of the dynamic slots, but
* make sure their presence is consistent with the shape.
*/
JS_ASSERT(shape && type);
JS_ASSERT(!!dynamicSlotsCount(shape->numFixedSlots(), shape->slotSpan()) == !!slots);
JS_ASSERT(js::gc::GetGCKindSlots(kind, shape->getObjectClass()) == shape->numFixedSlots());
JSObject *obj = js_NewGCObject(cx, kind);
if (!obj)
return NULL;
obj->shape_.init(shape);
obj->type_.init(type);
obj->slots = slots;
obj->elements = js::emptyObjectElements;
const js::Class *clasp = shape->getObjectClass();
if (clasp->hasPrivate())
obj->privateRef(shape->numFixedSlots()) = NULL;
size_t span = shape->slotSpan();
if (span && clasp != &js::ArrayBufferClass)
obj->initializeSlotRange(0, span);
return obj;
}
/* static */ inline JSObject *
JSObject::createDenseArray(JSContext *cx, js::gc::AllocKind kind,
js::HandleShape shape, js::HandleTypeObject type,
uint32_t length)
{
JS_ASSERT(shape && type);
JS_ASSERT(shape->getObjectClass() == &js::ArrayClass);
/*
* Dense arrays are non-native, and never have properties to store.
* The number of fixed slots in the shape of such objects is zero.
*/
JS_ASSERT(shape->numFixedSlots() == 0);
/*
* The array initially stores its elements inline, there must be enough
* space for an elements header.
*/
JS_ASSERT(js::gc::GetGCKindSlots(kind) >= js::ObjectElements::VALUES_PER_HEADER);
uint32_t capacity = js::gc::GetGCKindSlots(kind) - js::ObjectElements::VALUES_PER_HEADER;
JSObject *obj = js_NewGCObject(cx, kind);
if (!obj) {
js_ReportOutOfMemory(cx);
return NULL;
}
obj->shape_.init(shape);
obj->type_.init(type);
obj->slots = NULL;
obj->setFixedElements();
new (obj->getElementsHeader()) js::ObjectElements(capacity, length);
return obj;
}
inline void
JSObject::finish(js::FreeOp *fop)
{
if (hasDynamicSlots())
fop->free_(slots);
if (hasDynamicElements())
fop->free_(getElementsHeader());
}
inline bool
JSObject::hasProperty(JSContext *cx, js::HandleId id, bool *foundp, unsigned flags)
{
JSObject *pobj;
JSProperty *prop;
JSAutoResolveFlags rf(cx, flags);
if (!lookupGeneric(cx, id, &pobj, &prop))
return false;
*foundp = !!prop;
return true;
}
inline bool
JSObject::isCallable()
{
return isFunction() || getClass()->call;
}
inline JSPrincipals *
JSObject::principals(JSContext *cx)
{
if (JSObjectPrincipalsFinder find = cx->runtime->securityCallbacks->findObjectPrincipals)
return find(this);
return cx->compartment ? cx->compartment->principals : NULL;
}
inline void
JSObject::nativeSetSlot(unsigned slot, const js::Value &value)
{
JS_ASSERT(isNative());
JS_ASSERT(slot < slotSpan());
return setSlot(slot, value);
}
inline void
JSObject::nativeSetSlotWithType(JSContext *cx, const js::Shape *shape, const js::Value &value)
{
nativeSetSlot(shape->slot(), value);
js::types::AddTypePropertyId(cx, this, shape->propid(), value);
}
inline bool
JSObject::nativeContains(JSContext *cx, jsid id)
{
return nativeLookup(cx, id) != NULL;
}
inline bool
JSObject::nativeContains(JSContext *cx, const js::Shape &shape)
{
return nativeLookup(cx, shape.propid()) == &shape;
}
inline bool
JSObject::nativeEmpty() const
{
return lastProperty()->isEmptyShape();
}
inline uint32_t
JSObject::propertyCount() const
{
return lastProperty()->entryCount();
}
inline bool
JSObject::hasShapeTable() const
{
return lastProperty()->hasTable();
}
inline size_t
JSObject::computedSizeOfThisSlotsElements() const
{
size_t n = sizeOfThis();
if (hasDynamicSlots())
n += numDynamicSlots() * sizeof(js::Value);
if (hasDynamicElements())
n += (js::ObjectElements::VALUES_PER_HEADER + getElementsHeader()->capacity) *
sizeof(js::Value);
return n;
}
inline void
JSObject::sizeOfExcludingThis(JSMallocSizeOfFun mallocSizeOf,
size_t *slotsSize, size_t *elementsSize,
size_t *miscSize) const
{
*slotsSize = 0;
if (hasDynamicSlots()) {
*slotsSize += mallocSizeOf(slots);
}
*elementsSize = 0;
if (hasDynamicElements()) {
*elementsSize += mallocSizeOf(getElementsHeader());
}
/* Other things may be measured in the future if DMD indicates it is worthwhile. */
*miscSize = 0;
if (isArguments()) {
*miscSize += asArguments().sizeOfMisc(mallocSizeOf);
} else if (isRegExpStatics()) {
*miscSize += js::SizeOfRegExpStaticsData(this, mallocSizeOf);
}
}
inline JSBool
JSObject::lookupGeneric(JSContext *cx, js::HandleId id, JSObject **objp, JSProperty **propp)
{
js::RootedObject self(cx, this);
js::LookupGenericOp op = getOps()->lookupGeneric;
if (op)
return op(cx, self, id, objp, propp);
return js::baseops::LookupProperty(cx, self, id, objp, propp);
}
inline JSBool
JSObject::lookupProperty(JSContext *cx, js::PropertyName *name, JSObject **objp, JSProperty **propp)
{
return lookupGeneric(cx, js::RootedId(cx, js::NameToId(name)), objp, propp);
}
inline JSBool
JSObject::defineGeneric(JSContext *cx, js::HandleId id, const js::Value &value,
JSPropertyOp getter /* = JS_PropertyStub */,
JSStrictPropertyOp setter /* = JS_StrictPropertyStub */,
unsigned attrs /* = JSPROP_ENUMERATE */)
{
js::RootedObject self(cx, this);
JS_ASSERT(!(attrs & JSPROP_NATIVE_ACCESSORS));
js::DefineGenericOp op = getOps()->defineGeneric;
return (op ? op : js::baseops::DefineProperty)(cx, self, id, &value, getter, setter, attrs);
}
inline JSBool
JSObject::defineProperty(JSContext *cx, js::PropertyName *name, const js::Value &value,
JSPropertyOp getter /* = JS_PropertyStub */,
JSStrictPropertyOp setter /* = JS_StrictPropertyStub */,
unsigned attrs /* = JSPROP_ENUMERATE */)
{
return defineGeneric(cx, js::RootedId(cx, js::NameToId(name)), value, getter, setter, attrs);
}
inline JSBool
JSObject::defineElement(JSContext *cx, uint32_t index, const js::Value &value,
JSPropertyOp getter /* = JS_PropertyStub */,
JSStrictPropertyOp setter /* = JS_StrictPropertyStub */,
unsigned attrs /* = JSPROP_ENUMERATE */)
{
js::RootedObject self(cx, this);
js::DefineElementOp op = getOps()->defineElement;
return (op ? op : js::baseops::DefineElement)(cx, self, index, &value, getter, setter, attrs);
}
inline JSBool
JSObject::defineSpecial(JSContext *cx, js::SpecialId sid, const js::Value &value,
JSPropertyOp getter /* = JS_PropertyStub */,
JSStrictPropertyOp setter /* = JS_StrictPropertyStub */,
unsigned attrs /* = JSPROP_ENUMERATE */)
{
return defineGeneric(cx, js::RootedId(cx, SPECIALID_TO_JSID(sid)), value, getter, setter, attrs);
}
inline JSBool
JSObject::lookupElement(JSContext *cx, uint32_t index, JSObject **objp, JSProperty **propp)
{
js::RootedObject self(cx, this);
js::LookupElementOp op = getOps()->lookupElement;
return (op ? op : js::baseops::LookupElement)(cx, self, index, objp, propp);
}
inline JSBool
JSObject::lookupSpecial(JSContext *cx, js::SpecialId sid, JSObject **objp, JSProperty **propp)
{
return lookupGeneric(cx, js::RootedId(cx, SPECIALID_TO_JSID(sid)), objp, propp);
}
inline JSBool
JSObject::getElement(JSContext *cx, js::HandleObject receiver, uint32_t index, js::Value *vp)
{
js::RootedObject self(cx, this);
js::ElementIdOp op = getOps()->getElement;
if (op)
return op(cx, self, receiver, index, vp);
js::RootedId id(cx);
if (!js::IndexToId(cx, index, id.address()))
return false;
return self->getGeneric(cx, receiver, id, vp);
}
inline JSBool
JSObject::getElement(JSContext *cx, uint32_t index, js::Value *vp)
{
return getElement(cx, js::RootedObject(cx, this), index, vp);
}
inline JSBool
JSObject::getElementIfPresent(JSContext *cx, js::HandleObject receiver, uint32_t index, js::Value *vp,
bool *present)
{
js::RootedObject self(cx, this);
js::ElementIfPresentOp op = getOps()->getElementIfPresent;
if (op)
return op(cx, self, receiver, index, vp, present);
/*
* For now, do the index-to-id conversion just once, then use
* lookupGeneric/getGeneric. Once lookupElement and getElement stop both
* doing index-to-id conversions, we can use those here.
*/
js::RootedId id(cx);
if (!js::IndexToId(cx, index, id.address()))
return false;
JSObject *obj2;
JSProperty *prop;
if (!self->lookupGeneric(cx, id, &obj2, &prop))
return false;
if (!prop) {
*present = false;
js::Debug_SetValueRangeToCrashOnTouch(vp, 1);
return true;
}
*present = true;
return self->getGeneric(cx, receiver, id, vp);
}
inline JSBool
JSObject::getSpecial(JSContext *cx, js::HandleObject receiver, js::SpecialId sid, js::Value *vp)
{
return getGeneric(cx, receiver, js::RootedId(cx, SPECIALID_TO_JSID(sid)), vp);
}
inline JSBool
JSObject::getGenericAttributes(JSContext *cx, js::HandleId id, unsigned *attrsp)
{
js::GenericAttributesOp op = getOps()->getGenericAttributes;
return (op ? op : js::baseops::GetAttributes)(cx, js::RootedObject(cx, this), id, attrsp);
}
inline JSBool
JSObject::getPropertyAttributes(JSContext *cx, js::PropertyName *name, unsigned *attrsp)
{
return getGenericAttributes(cx, js::RootedId(cx, js::NameToId(name)), attrsp);
}
inline JSBool
JSObject::getElementAttributes(JSContext *cx, uint32_t index, unsigned *attrsp)
{
js::RootedId id(cx);
if (!js::IndexToId(cx, index, id.address()))
return false;
return getGenericAttributes(cx, id, attrsp);
}
inline JSBool
JSObject::getSpecialAttributes(JSContext *cx, js::SpecialId sid, unsigned *attrsp)
{
return getGenericAttributes(cx, js::RootedId(cx, SPECIALID_TO_JSID(sid)), attrsp);
}
inline bool
JSObject::isProxy() const
{
return js::IsProxy(this);
}
inline bool
JSObject::isCrossCompartmentWrapper() const
{
return js::IsCrossCompartmentWrapper(this);
}
inline bool
JSObject::isWrapper() const
{
return js::IsWrapper(this);
}
inline js::GlobalObject &
JSObject::global() const
{
JSObject *obj = const_cast<JSObject *>(this);
while (JSObject *parent = obj->getParent())
obj = parent;
return obj->asGlobal();
}
static inline bool
js_IsCallable(const js::Value &v)
{
return v.isObject() && v.toObject().isCallable();
}
namespace js {
inline JSObject *
GetInnerObject(JSContext *cx, HandleObject obj)
{
if (JSObjectOp op = obj->getClass()->ext.innerObject)
return op(cx, obj);
return obj;
}
inline JSObject *
GetOuterObject(JSContext *cx, HandleObject obj)
{
if (JSObjectOp op = obj->getClass()->ext.outerObject)
return op(cx, obj);
return obj;
}
#if JS_HAS_XML_SUPPORT
/*
* Methods to test whether an object or a value is of type "xml" (per typeof).
*/
#define VALUE_IS_XML(v) ((v).isObject() && (v).toObject().isXML())
static inline bool
IsXML(const js::Value &v)
{
return v.isObject() && v.toObject().isXML();
}
#else
#define VALUE_IS_XML(v) false
#endif /* JS_HAS_XML_SUPPORT */
static inline bool
IsStopIteration(const js::Value &v)
{
return v.isObject() && v.toObject().isStopIteration();
}
/* ES5 9.1 ToPrimitive(input). */
static JS_ALWAYS_INLINE bool
ToPrimitive(JSContext *cx, Value *vp)
{
if (vp->isPrimitive())
return true;
return vp->toObject().defaultValue(cx, JSTYPE_VOID, vp);
}
/* ES5 9.1 ToPrimitive(input, PreferredType). */
static JS_ALWAYS_INLINE bool
ToPrimitive(JSContext *cx, JSType preferredType, Value *vp)
{
JS_ASSERT(preferredType != JSTYPE_VOID); /* Use the other ToPrimitive! */
if (vp->isPrimitive())
return true;
return vp->toObject().defaultValue(cx, preferredType, vp);
}
/*
* Return true if this is a compiler-created internal function accessed by
* its own object. Such a function object must not be accessible to script
* or embedding code.
*/
inline bool
IsInternalFunctionObject(JSObject *funobj)
{
JSFunction *fun = funobj->toFunction();
return (fun->flags & JSFUN_LAMBDA) && !funobj->getParent();
}
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class AutoPropDescArrayRooter : private AutoGCRooter
{
public:
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AutoPropDescArrayRooter(JSContext *cx)
: AutoGCRooter(cx, DESCRIPTORS), descriptors(cx), skip(cx, &descriptors)
{ }
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PropDesc *append() {
if (!descriptors.append(PropDesc()))
return NULL;
return &descriptors.back();
}
bool reserve(size_t n) {
return descriptors.reserve(n);
}
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PropDesc& operator[](size_t i) {
JS_ASSERT(i < descriptors.length());
return descriptors[i];
}
friend void AutoGCRooter::trace(JSTracer *trc);
private:
2010-07-14 23:19:36 -07:00
PropDescArray descriptors;
SkipRoot skip;
};
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class AutoPropertyDescriptorRooter : private AutoGCRooter, public PropertyDescriptor
{
SkipRoot skip;
AutoPropertyDescriptorRooter *thisDuringConstruction() { return this; }
public:
AutoPropertyDescriptorRooter(JSContext *cx)
: AutoGCRooter(cx, DESCRIPTOR), skip(cx, thisDuringConstruction())
{
obj = NULL;
attrs = 0;
getter = (PropertyOp) NULL;
setter = (StrictPropertyOp) NULL;
2010-07-14 23:19:36 -07:00
value.setUndefined();
}
AutoPropertyDescriptorRooter(JSContext *cx, PropertyDescriptor *desc)
: AutoGCRooter(cx, DESCRIPTOR), skip(cx, thisDuringConstruction())
{
obj = desc->obj;
attrs = desc->attrs;
getter = desc->getter;
setter = desc->setter;
value = desc->value;
}
friend void AutoGCRooter::trace(JSTracer *trc);
};
inline void
NewObjectCache::copyCachedToObject(JSObject *dst, JSObject *src)
{
js_memcpy(dst, src, dst->sizeOfThis());
#ifdef JSGC_GENERATIONAL
Shape::writeBarrierPost(dst->shape_, &dst->shape_);
types::TypeObject::writeBarrierPost(dst->type_, &dst->type_);
#endif
}
static inline bool
CanBeFinalizedInBackground(gc::AllocKind kind, Class *clasp)
{
JS_ASSERT(kind <= gc::FINALIZE_OBJECT_LAST);
/* If the class has no finalizer or a finalizer that is safe to call on
* a different thread, we change the finalize kind. For example,
* FINALIZE_OBJECT0 calls the finalizer on the main thread,
* FINALIZE_OBJECT0_BACKGROUND calls the finalizer on the gcHelperThread.
* IsBackgroundAllocKind is called to prevent recursively incrementing
* the finalize kind; kind may already be a background finalize kind.
*/
return (!gc::IsBackgroundAllocKind(kind) && !clasp->finalize);
}
/*
* Make an object with the specified prototype. If parent is null, it will
* default to the prototype's global if the prototype is non-null.
*/
JSObject *
NewObjectWithGivenProto(JSContext *cx, js::Class *clasp, JSObject *proto, JSObject *parent,
gc::AllocKind kind);
inline JSObject *
NewObjectWithGivenProto(JSContext *cx, js::Class *clasp, JSObject *proto, JSObject *parent)
{
gc::AllocKind kind = gc::GetGCObjectKind(clasp);
return NewObjectWithGivenProto(cx, clasp, proto, parent, kind);
}
inline JSProtoKey
GetClassProtoKey(js::Class *clasp)
{
JSProtoKey key = JSCLASS_CACHED_PROTO_KEY(clasp);
if (key != JSProto_Null)
return key;
if (clasp->flags & JSCLASS_IS_ANONYMOUS)
return JSProto_Object;
return JSProto_Null;
}
inline bool
FindProto(JSContext *cx, js::Class *clasp, HandleObject parent, JSObject **proto)
{
JSProtoKey protoKey = GetClassProtoKey(clasp);
if (!js_GetClassPrototype(cx, parent, protoKey, proto, clasp))
return false;
if (!(*proto) && !js_GetClassPrototype(cx, parent, JSProto_Object, proto))
return false;
return true;
}
/*
* Make an object with the prototype set according to the specified prototype or class:
*
* if proto is non-null:
* use the specified proto
* for a built-in class:
* use the memoized original value of the class constructor .prototype
* property object
* else if available
* the current value of .prototype
* else
* Object.prototype.
*
* The class prototype will be fetched from the parent's global. If global is
* null, the context's active global will be used, and the resulting object's
* parent will be that global.
*/
JSObject *
NewObjectWithClassProto(JSContext *cx, js::Class *clasp, JSObject *proto, JSObject *parent,
gc::AllocKind kind);
inline JSObject *
NewObjectWithClassProto(JSContext *cx, js::Class *clasp, JSObject *proto, JSObject *parent)
{
gc::AllocKind kind = gc::GetGCObjectKind(clasp);
return NewObjectWithClassProto(cx, clasp, proto, parent, kind);
}
/*
* Create a native instance of the given class with parent and proto set
* according to the context's active global.
*/
inline JSObject *
NewBuiltinClassInstance(JSContext *cx, Class *clasp, gc::AllocKind kind)
{
return NewObjectWithClassProto(cx, clasp, NULL, NULL, kind);
}
inline JSObject *
NewBuiltinClassInstance(JSContext *cx, Class *clasp)
{
gc::AllocKind kind = gc::GetGCObjectKind(clasp);
return NewBuiltinClassInstance(cx, clasp, kind);
}
inline GlobalObject *
GetCurrentGlobal(JSContext *cx)
{
JSObject *scopeChain = (cx->hasfp()) ? cx->fp()->scopeChain() : cx->globalObject;
return scopeChain ? &scopeChain->global() : NULL;
}
bool
FindClassPrototype(JSContext *cx, JSObject *scope, JSProtoKey protoKey, JSObject **protop,
Class *clasp);
/*
* Create a plain object with the specified type. This bypasses getNewType to
* avoid losing creation site information for objects made by scripted 'new'.
*/
JSObject *
NewObjectWithType(JSContext *cx, HandleTypeObject type, JSObject *parent, gc::AllocKind kind);
/* Make an object with pregenerated shape from a NEWOBJECT bytecode. */
static inline JSObject *
CopyInitializerObject(JSContext *cx, HandleObject baseobj)
{
JS_ASSERT(baseobj->getClass() == &ObjectClass);
JS_ASSERT(!baseobj->inDictionaryMode());
gc::AllocKind kind = gc::GetGCObjectFixedSlotsKind(baseobj->numFixedSlots());
kind = gc::GetBackgroundAllocKind(kind);
JS_ASSERT(kind == baseobj->getAllocKind());
JSObject *obj = NewBuiltinClassInstance(cx, &ObjectClass, kind);
if (!obj)
return NULL;
if (!obj->setLastProperty(cx, baseobj->lastProperty()))
return NULL;
return obj;
}
JSObject *
NewReshapedObject(JSContext *cx, HandleTypeObject type, JSObject *parent,
gc::AllocKind kind, const Shape *shape);
/*
* As for gc::GetGCObjectKind, where numSlots is a guess at the final size of
* the object, zero if the final size is unknown. This should only be used for
* objects that do not require any fixed slots.
*/
static inline gc::AllocKind
GuessObjectGCKind(size_t numSlots)
{
if (numSlots)
return gc::GetGCObjectKind(numSlots);
return gc::FINALIZE_OBJECT4;
}
static inline gc::AllocKind
GuessArrayGCKind(size_t numSlots)
{
if (numSlots)
return gc::GetGCArrayKind(numSlots);
return gc::FINALIZE_OBJECT8;
}
/*
* Get the GC kind to use for scripted 'new' on the given class.
* FIXME bug 547327: estimate the size from the allocation site.
*/
static inline gc::AllocKind
NewObjectGCKind(JSContext *cx, js::Class *clasp)
{
if (clasp == &ArrayClass || clasp == &SlowArrayClass)
return gc::FINALIZE_OBJECT8;
if (clasp == &FunctionClass)
return gc::FINALIZE_OBJECT2;
return gc::FINALIZE_OBJECT4;
}
/*
* Fill slots with the initial slot array to use for a newborn object which
* may or may not need dynamic slots.
*/
inline bool
PreallocateObjectDynamicSlots(JSContext *cx, Shape *shape, HeapSlot **slots)
{
if (size_t count = JSObject::dynamicSlotsCount(shape->numFixedSlots(), shape->slotSpan())) {
*slots = (HeapSlot *) cx->malloc_(count * sizeof(HeapSlot));
if (!*slots)
return false;
Debug_SetSlotRangeToCrashOnTouch(*slots, count);
return true;
}
*slots = NULL;
return true;
}
inline bool
DefineConstructorAndPrototype(JSContext *cx, GlobalObject *global,
JSProtoKey key, JSObject *ctor, JSObject *proto)
{
JS_ASSERT(!global->nativeEmpty()); /* reserved slots already allocated */
JS_ASSERT(ctor);
JS_ASSERT(proto);
jsid id = NameToId(cx->runtime->atomState.classAtoms[key]);
JS_ASSERT(!global->nativeLookupNoAllocation(cx, id));
/* Set these first in case AddTypePropertyId looks for this class. */
global->setSlot(key, ObjectValue(*ctor));
global->setSlot(key + JSProto_LIMIT, ObjectValue(*proto));
global->setSlot(key + JSProto_LIMIT * 2, ObjectValue(*ctor));
types::AddTypePropertyId(cx, global, id, ObjectValue(*ctor));
if (!global->addDataProperty(cx, id, key + JSProto_LIMIT * 2, 0)) {
global->setSlot(key, UndefinedValue());
global->setSlot(key + JSProto_LIMIT, UndefinedValue());
global->setSlot(key + JSProto_LIMIT * 2, UndefinedValue());
return false;
}
return true;
}
inline bool
ObjectClassIs(JSObject &obj, ESClassValue classValue, JSContext *cx)
{
if (JS_UNLIKELY(obj.isProxy()))
return Proxy::objectClassIs(&obj, classValue, cx);
switch (classValue) {
case ESClass_Array: return obj.isArray();
case ESClass_Number: return obj.isNumber();
case ESClass_String: return obj.isString();
case ESClass_Boolean: return obj.isBoolean();
case ESClass_RegExp: return obj.isRegExp();
case ESClass_ArrayBuffer: return obj.isArrayBuffer();
}
JS_NOT_REACHED("bad classValue");
return false;
}
inline bool
IsObjectWithClass(const Value &v, ESClassValue classValue, JSContext *cx)
{
if (!v.isObject())
return false;
return ObjectClassIs(v.toObject(), classValue, cx);
}
static JS_ALWAYS_INLINE bool
ValueIsSpecial(JSObject *obj, Value *propval, SpecialId *sidp, JSContext *cx)
{
#if JS_HAS_XML_SUPPORT
if (!propval->isObject())
return false;
if (obj->isXML()) {
*sidp = SpecialId(propval->toObject());
return true;
}
JSObject &propobj = propval->toObject();
JSAtom *name;
if (propobj.isQName() && GetLocalNameFromFunctionQName(&propobj, &name, cx)) {
propval->setString(name);
return false;
}
#endif
return false;
}
JSObject *
DefineConstructorAndPrototype(JSContext *cx, HandleObject obj, JSProtoKey key, HandleAtom atom,
JSObject *protoProto, Class *clasp,
Native constructor, unsigned nargs,
JSPropertySpec *ps, JSFunctionSpec *fs,
JSPropertySpec *static_ps, JSFunctionSpec *static_fs,
JSObject **ctorp = NULL,
gc::AllocKind ctorKind = JSFunction::FinalizeKind);
} /* namespace js */
extern JSObject *
js_InitClass(JSContext *cx, js::HandleObject obj, JSObject *parent_proto,
js::Class *clasp, JSNative constructor, unsigned nargs,
JSPropertySpec *ps, JSFunctionSpec *fs,
JSPropertySpec *static_ps, JSFunctionSpec *static_fs,
JSObject **ctorp = NULL,
js::gc::AllocKind ctorKind = JSFunction::FinalizeKind);
/*
* js_PurgeScopeChain does nothing if obj is not itself a prototype or parent
* scope, else it reshapes the scope and prototype chains it links. It calls
* js_PurgeScopeChainHelper, which asserts that obj is flagged as a delegate
* (i.e., obj has ever been on a prototype or parent chain).
*/
extern bool
js_PurgeScopeChainHelper(JSContext *cx, JSObject *obj, jsid id);
inline bool
js_PurgeScopeChain(JSContext *cx, JSObject *obj, jsid id)
{
if (obj->isDelegate())
return js_PurgeScopeChainHelper(cx, obj, id);
return true;
}
inline void
js::DestroyIdArray(FreeOp *fop, JSIdArray *ida)
{
fop->free_(ida);
}
#endif /* jsobjinlines_h___ */