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// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only
#ifndef QV4PROPERTYDESCRIPTOR_H
#define QV4PROPERTYDESCRIPTOR_H
//
// W A R N I N G
// -------------
//
// This file is not part of the Qt API. It exists purely as an
// implementation detail. This header file may change from version to
// version without notice, or even be removed.
//
// We mean it.
//
#include "qv4global_p.h"
#include "qv4value_p.h"
QT_BEGIN_NAMESPACE
namespace QV4 {
struct FunctionObject;
struct Property {
Value value;
Value set;
// Section 8.10
inline void fullyPopulated(PropertyAttributes *attrs) {
if (!attrs->hasType()) {
value = Value::undefinedValue();
}
if (attrs->type() == PropertyAttributes::Accessor) {
attrs->clearWritable();
if (value.isEmpty())
value = Value::undefinedValue();
if (set.isEmpty())
set = Value::undefinedValue();
}
attrs->resolve();
}
// ES8: 6.2.5.6
void completed(PropertyAttributes *attrs) {
if (value.isEmpty())
value = Encode::undefined();
if (attrs->isGeneric() || attrs->isData()) {
attrs->setType(PropertyAttributes::Data);
if (!attrs->hasWritable())
attrs->setWritable(false);
} else {
if (set.isEmpty())
set = Encode::undefined();
}
if (!attrs->hasEnumerable())
attrs->setEnumerable(false);
if (!attrs->hasConfigurable())
attrs->setConfigurable(false);
}
inline bool isSubset(const PropertyAttributes &attrs, const Property *other, PropertyAttributes otherAttrs) const;
inline void merge(PropertyAttributes &attrs, const Property *other, PropertyAttributes otherAttrs);
inline Heap::FunctionObject *getter() const { return reinterpret_cast<Heap::FunctionObject *>(value.heapObject()); }
inline Heap::FunctionObject *setter() const { return reinterpret_cast<Heap::FunctionObject *>(set.heapObject()); }
inline void setGetter(FunctionObject *g) { value = reinterpret_cast<Managed *>(g); }
inline void setSetter(FunctionObject *s) { set = (s ? reinterpret_cast<Managed *>(s) : nullptr); }
void copy(const Property *other, PropertyAttributes attrs) {
value = other->value;
if (attrs.isAccessor())
set = other->set;
}
// ES8, section 9.1.6.2/9,.1.6.3
bool isCompatible(PropertyAttributes &attrs, const Property *other, PropertyAttributes otherAttrs) const {
if (otherAttrs.isEmpty())
return true;
if (!attrs.isConfigurable()) {
if (otherAttrs.hasConfigurable() && otherAttrs.isConfigurable())
return false;
if (otherAttrs.hasEnumerable() && otherAttrs.isEnumerable() != attrs.isEnumerable())
return false;
}
if (otherAttrs.isGeneric())
return true;
if (attrs.isData() != otherAttrs.isData()) {
if (!attrs.isConfigurable())
return false;
} else if (attrs.isData() && otherAttrs.isData()) {
if (!attrs.isConfigurable() && !attrs.isWritable()) {
if (otherAttrs.hasWritable() && otherAttrs.isWritable())
return false;
if (!other->value.isEmpty() && !value.sameValue(other->value))
return false;
}
} else if (attrs.isAccessor() && otherAttrs.isAccessor()) {
if (!attrs.isConfigurable()) {
if (!other->value.isEmpty() && !value.sameValue(other->value))
return false;
if (!other->set.isEmpty() && !set.sameValue(other->set))
return false;
}
}
return true;
}
explicit Property() { value = Encode::undefined(); set = Value::fromHeapObject(nullptr); }
Property(Heap::FunctionObject *getter, Heap::FunctionObject *setter) {
value.setM(reinterpret_cast<Heap::Base *>(getter));
set.setM(reinterpret_cast<Heap::Base *>(setter));
}
private:
Q_DISABLE_COPY(Property)
};
inline bool Property::isSubset(const PropertyAttributes &attrs, const Property *other, PropertyAttributes otherAttrs) const
{
if (attrs.type() != PropertyAttributes::Generic && attrs.type() != otherAttrs.type())
return false;
if (attrs.hasEnumerable() && attrs.isEnumerable() != otherAttrs.isEnumerable())
return false;
if (attrs.hasConfigurable() && attrs.isConfigurable() != otherAttrs.isConfigurable())
return false;
if (attrs.hasWritable() && attrs.isWritable() != otherAttrs.isWritable())
return false;
if (attrs.type() == PropertyAttributes::Data && !value.sameValue(other->value))
return false;
if (attrs.type() == PropertyAttributes::Accessor) {
if (value.heapObject() != other->value.heapObject())
return false;
if (set.heapObject() != other->set.heapObject())
return false;
}
return true;
}
inline void Property::merge(PropertyAttributes &attrs, const Property *other, PropertyAttributes otherAttrs)
{
if (otherAttrs.hasEnumerable())
attrs.setEnumerable(otherAttrs.isEnumerable());
if (otherAttrs.hasConfigurable())
attrs.setConfigurable(otherAttrs.isConfigurable());
if (otherAttrs.hasWritable())
attrs.setWritable(otherAttrs.isWritable());
if (otherAttrs.type() == PropertyAttributes::Accessor) {
attrs.setType(PropertyAttributes::Accessor);
if (!other->value.isEmpty())
value = other->value;
if (!other->set.isEmpty())
set = other->set;
} else if (otherAttrs.type() == PropertyAttributes::Data){
attrs.setType(PropertyAttributes::Data);
value = other->value;
}
}
struct PropertyIndex {
Heap::Base *base;
Value *slot;
void set(EngineBase *e, Value newVal) {
WriteBarrier::write(e, base, slot->data_ptr(), newVal.asReturnedValue());
}
const Value *operator->() const { return slot; }
const Value &operator*() const { return *slot; }
bool isNull() const { return !slot; }
};
}
QT_END_NAMESPACE
#endif
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