/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtQml module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL21$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. For further ** information use the contact form at http://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** As a special exception, The Qt Company gives you certain additional ** rights. These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qv4lookup_p.h" #include "qv4functionobject_p.h" #include "qv4scopedvalue_p.h" #include "qv4string_p.h" QT_BEGIN_NAMESPACE using namespace QV4; ReturnedValue Lookup::lookup(const Value &thisObject, Object *o, PropertyAttributes *attrs) { ExecutionEngine *engine = o->engine(); Identifier *name = engine->currentContext()->compilationUnit->runtimeStrings[nameIndex]->identifier; int i = 0; Heap::Object *obj = o->d(); while (i < Size && obj) { classList[i] = obj->internalClass; index = obj->internalClass->find(name); if (index != UINT_MAX) { level = i; *attrs = obj->internalClass->propertyData.at(index); return !attrs->isAccessor() ? obj->memberData->data[index].asReturnedValue() : Object::getValue(thisObject, obj->propertyAt(index), *attrs); } obj = obj->prototype; ++i; } level = Size; while (obj) { index = obj->internalClass->find(name); if (index != UINT_MAX) { *attrs = obj->internalClass->propertyData.at(index); return !attrs->isAccessor() ? obj->memberData->data[index].asReturnedValue() : Object::getValue(thisObject, obj->propertyAt(index), *attrs); } obj = obj->prototype; } return Primitive::emptyValue().asReturnedValue(); } ReturnedValue Lookup::lookup(const Object *thisObject, PropertyAttributes *attrs) { Heap::Object *obj = thisObject->d(); ExecutionEngine *engine = thisObject->engine(); Identifier *name = engine->currentContext()->compilationUnit->runtimeStrings[nameIndex]->identifier; int i = 0; while (i < Size && obj) { classList[i] = obj->internalClass; index = obj->internalClass->find(name); if (index != UINT_MAX) { level = i; *attrs = obj->internalClass->propertyData.at(index); return !attrs->isAccessor() ? obj->memberData->data[index].asReturnedValue() : thisObject->getValue(obj->propertyAt(index), *attrs); } obj = obj->prototype; ++i; } level = Size; while (obj) { index = obj->internalClass->find(name); if (index != UINT_MAX) { *attrs = obj->internalClass->propertyData.at(index); return !attrs->isAccessor() ? obj->memberData->data[index].asReturnedValue() : thisObject->getValue(obj->propertyAt(index), *attrs); } obj = obj->prototype; } return Primitive::emptyValue().asReturnedValue(); } ReturnedValue Lookup::indexedGetterGeneric(Lookup *l, const Value &object, const Value &index) { if (object.isObject() && index.asArrayIndex() < UINT_MAX) { l->indexedGetter = indexedGetterObjectInt; return indexedGetterObjectInt(l, object, index); } return indexedGetterFallback(l, object, index); } ReturnedValue Lookup::indexedGetterFallback(Lookup *l, const Value &object, const Value &index) { Q_UNUSED(l); Scope scope(l->engine); uint idx = index.asArrayIndex(); ScopedObject o(scope, object); if (!o) { if (idx < UINT_MAX) { if (const String *str = object.as()) { if (idx >= (uint)str->toQString().length()) { return Encode::undefined(); } const QString s = str->toQString().mid(idx, 1); return scope.engine->newString(s)->asReturnedValue(); } } if (object.isNullOrUndefined()) { QString message = QStringLiteral("Cannot read property '%1' of %2").arg(index.toQStringNoThrow()).arg(object.toQStringNoThrow()); return l->engine->throwTypeError(message); } o = RuntimeHelpers::convertToObject(scope.engine, object); if (!o) // type error return Encode::undefined(); } if (idx < UINT_MAX) { if (o->d()->arrayData && !o->d()->arrayData->attrs) { ScopedValue v(scope, Scoped(scope, o->arrayData())->get(idx)); if (!v->isEmpty()) return v->asReturnedValue(); } return o->getIndexed(idx); } ScopedString name(scope, index.toString(scope.engine)); if (scope.hasException()) return Encode::undefined(); return o->get(name); } ReturnedValue Lookup::indexedGetterObjectInt(Lookup *l, const Value &object, const Value &index) { uint idx = index.asArrayIndex(); if (idx == UINT_MAX || !object.isObject()) return indexedGetterGeneric(l, object, index); Object *o = object.objectValue(); if (o->d()->arrayData && o->d()->arrayData->type == Heap::ArrayData::Simple) { Heap::SimpleArrayData *s = o->d()->arrayData.cast(); if (idx < s->len) if (!s->data(idx).isEmpty()) return s->data(idx).asReturnedValue(); } return indexedGetterFallback(l, object, index); } void Lookup::indexedSetterGeneric(Lookup *l, const Value &object, const Value &index, const Value &v) { if (object.isObject()) { Object *o = object.objectValue(); if (o->d()->arrayData && o->d()->arrayData->type == Heap::ArrayData::Simple && index.asArrayIndex() < UINT_MAX) { l->indexedSetter = indexedSetterObjectInt; indexedSetterObjectInt(l, object, index, v); return; } } indexedSetterFallback(l, object, index, v); } void Lookup::indexedSetterFallback(Lookup *l, const Value &object, const Value &index, const Value &value) { Scope scope(l->engine); ScopedObject o(scope, object.toObject(scope.engine)); if (scope.engine->hasException) return; uint idx = index.asArrayIndex(); if (idx < UINT_MAX) { if (o->d()->arrayData && o->d()->arrayData->type == Heap::ArrayData::Simple) { Heap::SimpleArrayData *s = o->d()->arrayData.cast(); if (idx < s->len) { s->data(idx) = value; return; } } o->putIndexed(idx, value); return; } ScopedString name(scope, index.toString(scope.engine)); o->put(name, value); } void Lookup::indexedSetterObjectInt(Lookup *l, const Value &object, const Value &index, const Value &v) { uint idx = index.asArrayIndex(); if (idx == UINT_MAX || !object.isObject()) { indexedSetterGeneric(l, object, index, v); return; } Object *o = object.objectValue(); if (o->d()->arrayData && o->d()->arrayData->type == Heap::ArrayData::Simple) { Heap::SimpleArrayData *s = o->d()->arrayData.cast(); if (idx < s->len) { s->data(idx) = v; return; } } indexedSetterFallback(l, object, index, v); } ReturnedValue Lookup::getterGeneric(Lookup *l, ExecutionEngine *engine, const Value &object) { if (const Object *o = object.as()) return o->getLookup(l); Object *proto; switch (object.type()) { case Value::Undefined_Type: case Value::Null_Type: return engine->throwTypeError(); case Value::Boolean_Type: proto = engine->booleanPrototype(); break; case Value::Managed_Type: { Q_ASSERT(object.isString()); proto = engine->stringPrototype(); Scope scope(engine); ScopedString name(scope, engine->currentContext()->compilationUnit->runtimeStrings[l->nameIndex]); if (name->equals(engine->id_length())) { // special case, as the property is on the object itself l->getter = stringLengthGetter; return stringLengthGetter(l, engine, object); } break; } case Value::Integer_Type: default: // Number proto = engine->numberPrototype(); } PropertyAttributes attrs; ReturnedValue v = l->lookup(object, proto, &attrs); if (v != Primitive::emptyValue().asReturnedValue()) { l->type = object.type(); l->proto = proto; if (attrs.isData()) { if (l->level == 0) l->getter = Lookup::primitiveGetter0; else if (l->level == 1) l->getter = Lookup::primitiveGetter1; return v; } else { if (l->level == 0) l->getter = Lookup::primitiveGetterAccessor0; else if (l->level == 1) l->getter = Lookup::primitiveGetterAccessor1; return v; } } return Encode::undefined(); } ReturnedValue Lookup::getterTwoClasses(Lookup *l, ExecutionEngine *engine, const Value &object) { Lookup l1 = *l; if (l1.getter == Lookup::getter0 || l1.getter == Lookup::getter1) { if (const Object *o = object.as()) { ReturnedValue v = o->getLookup(l); Lookup l2 = *l; if (l2.getter == Lookup::getter0 || l2.getter == Lookup::getter1) { // if we have a getter0, make sure it comes first if (l2.getter == Lookup::getter0) qSwap(l1, l2); l->classList[0] = l1.classList[0]; l->classList[1] = l1.classList[1]; l->classList[2] = l2.classList[0]; l->classList[3] = l2.classList[1]; l->index = l1.index; l->index2 = l2.index; if (l1.getter == Lookup::getter0) { l->getter = (l2.getter == Lookup::getter0) ? Lookup::getter0getter0 : Lookup::getter0getter1; } else { Q_ASSERT(l1.getter == Lookup::getter1 && l2.getter == Lookup::getter1); l->getter = Lookup::getter1getter1; } return v; } } } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getterFallback(Lookup *l, ExecutionEngine *engine, const Value &object) { QV4::Scope scope(engine); QV4::ScopedObject o(scope, object.toObject(scope.engine)); if (!o) return Encode::undefined(); ScopedString name(scope, engine->currentContext()->compilationUnit->runtimeStrings[l->nameIndex]); return o->get(name); } ReturnedValue Lookup::getter0(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass()) return o->memberData()->data[l->index].asReturnedValue(); } return getterTwoClasses(l, engine, object); } ReturnedValue Lookup::getter1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index].asReturnedValue(); } return getterTwoClasses(l, engine, object); } ReturnedValue Lookup::getter2(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass()) { Heap::Object *p = o->prototype(); if (l->classList[1] == p->internalClass) { p = p->prototype; if (l->classList[2] == p->internalClass) return p->memberData->data[l->index].asReturnedValue(); } } } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getter0getter0(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass()) return o->memberData()->data[l->index].asReturnedValue(); if (l->classList[2] == o->internalClass()) return o->memberData()->data[l->index2].asReturnedValue(); } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getter0getter1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass()) return o->memberData()->data[l->index].asReturnedValue(); if (l->classList[2] == o->internalClass() && l->classList[3] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index2].asReturnedValue(); } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getter1getter1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index].asReturnedValue(); if (l->classList[2] == o->internalClass() && l->classList[3] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index2].asReturnedValue(); return getterFallback(l, engine, object); } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getterAccessor0(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Object *o = object.objectValue(); if (l->classList[0] == o->internalClass()) { Scope scope(o->engine()); ScopedFunctionObject getter(scope, o->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = object; return getter->call(callData); } } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getterAccessor1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Heap::Object *o = object.objectValue()->d(); if (l->classList[0] == o->internalClass && l->classList[1] == o->prototype->internalClass) { Scope scope(o->internalClass->engine); ScopedFunctionObject getter(scope, o->prototype->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = object; return getter->call(callData); } } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::getterAccessor2(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.isManaged()) { // we can safely cast to a QV4::Object here. If object is actually a string, // the internal class won't match Heap::Object *o = object.objectValue()->d(); if (l->classList[0] == o->internalClass) { o = o->prototype; if (l->classList[1] == o->internalClass) { o = o->prototype; if (l->classList[2] == o->internalClass) { Scope scope(o->internalClass->engine); ScopedFunctionObject getter(scope, o->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = object; return getter->call(callData); } } } } l->getter = getterFallback; return getterFallback(l, engine, object); } ReturnedValue Lookup::primitiveGetter0(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.type() == l->type) { Object *o = l->proto; if (l->classList[0] == o->internalClass()) return o->memberData()->data[l->index].asReturnedValue(); } l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::primitiveGetter1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.type() == l->type) { Object *o = l->proto; if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index].asReturnedValue(); } l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::primitiveGetterAccessor0(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.type() == l->type) { Object *o = l->proto; if (l->classList[0] == o->internalClass()) { Scope scope(o->engine()); ScopedFunctionObject getter(scope, o->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = object; return getter->call(callData); } } l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::primitiveGetterAccessor1(Lookup *l, ExecutionEngine *engine, const Value &object) { if (object.type() == l->type) { Object *o = l->proto; if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) { Scope scope(o->engine()); ScopedFunctionObject getter(scope, o->prototype()->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = object; return getter->call(callData); } } l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::stringLengthGetter(Lookup *l, ExecutionEngine *engine, const Value &object) { if (const String *s = object.as()) return Encode(s->d()->length()); l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::arrayLengthGetter(Lookup *l, ExecutionEngine *engine, const Value &object) { if (const ArrayObject *a = object.as()) return a->memberData()->data[Heap::ArrayObject::LengthPropertyIndex].asReturnedValue(); l->getter = getterGeneric; return getterGeneric(l, engine, object); } ReturnedValue Lookup::globalGetterGeneric(Lookup *l, ExecutionEngine *engine) { Object *o = engine->globalObject; PropertyAttributes attrs; ReturnedValue v = l->lookup(o, &attrs); if (v != Primitive::emptyValue().asReturnedValue()) { if (attrs.isData()) { if (l->level == 0) l->globalGetter = globalGetter0; else if (l->level == 1) l->globalGetter = globalGetter1; else if (l->level == 2) l->globalGetter = globalGetter2; return v; } else { if (l->level == 0) l->globalGetter = globalGetterAccessor0; else if (l->level == 1) l->globalGetter = globalGetterAccessor1; else if (l->level == 2) l->globalGetter = globalGetterAccessor2; return v; } } Scope scope(engine); ScopedString n(scope, engine->currentContext()->compilationUnit->runtimeStrings[l->nameIndex]); return engine->throwReferenceError(n); } ReturnedValue Lookup::globalGetter0(Lookup *l, ExecutionEngine *engine) { Object *o = engine->globalObject; if (l->classList[0] == o->internalClass()) return o->memberData()->data[l->index].asReturnedValue(); l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } ReturnedValue Lookup::globalGetter1(Lookup *l, ExecutionEngine *engine) { Object *o = engine->globalObject; if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) return o->prototype()->memberData->data[l->index].asReturnedValue(); l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } ReturnedValue Lookup::globalGetter2(Lookup *l, ExecutionEngine *engine) { Heap::Object *o = engine->globalObject->d(); if (l->classList[0] == o->internalClass) { o = o->prototype; if (l->classList[1] == o->internalClass) { o = o->prototype; if (l->classList[2] == o->internalClass) { return o->prototype->memberData->data[l->index].asReturnedValue(); } } } l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } ReturnedValue Lookup::globalGetterAccessor0(Lookup *l, ExecutionEngine *engine) { Object *o = engine->globalObject; if (l->classList[0] == o->internalClass()) { Scope scope(o->engine()); ScopedFunctionObject getter(scope, o->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = Primitive::undefinedValue(); return getter->call(callData); } l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } ReturnedValue Lookup::globalGetterAccessor1(Lookup *l, ExecutionEngine *engine) { Object *o = engine->globalObject; if (l->classList[0] == o->internalClass() && l->classList[1] == o->prototype()->internalClass) { Scope scope(o->engine()); ScopedFunctionObject getter(scope, o->prototype()->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = Primitive::undefinedValue(); return getter->call(callData); } l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } ReturnedValue Lookup::globalGetterAccessor2(Lookup *l, ExecutionEngine *engine) { Heap::Object *o = engine->globalObject->d(); if (l->classList[0] == o->internalClass) { o = o->prototype; if (l->classList[1] == o->internalClass) { o = o->prototype; if (l->classList[2] == o->internalClass) { Scope scope(o->internalClass->engine); ScopedFunctionObject getter(scope, o->propertyAt(l->index)->getter()); if (!getter) return Encode::undefined(); ScopedCallData callData(scope, 0); callData->thisObject = Primitive::undefinedValue(); return getter->call(callData); } } } l->globalGetter = globalGetterGeneric; return globalGetterGeneric(l, engine); } void Lookup::setterGeneric(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Scope scope(engine); ScopedObject o(scope, object); if (!o) { o = RuntimeHelpers::convertToObject(scope.engine, object); if (!o) // type error return; ScopedString name(scope, engine->currentContext()->compilationUnit->runtimeStrings[l->nameIndex]); o->put(name, value); return; } o->setLookup(l, value); } void Lookup::setterTwoClasses(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Lookup l1 = *l; if (Object *o = object.as()) { o->setLookup(l, value); if (l->setter == Lookup::setter0) { l->setter = setter0setter0; l->classList[1] = l1.classList[0]; l->index2 = l1.index; return; } } l->setter = setterFallback; setterFallback(l, engine, object, value); } void Lookup::setterFallback(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { QV4::Scope scope(engine); QV4::ScopedObject o(scope, object.toObject(scope.engine)); if (o) { ScopedString name(scope, engine->currentContext()->compilationUnit->runtimeStrings[l->nameIndex]); o->put(name, value); } } void Lookup::setter0(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Object *o = object.as(); if (o && o->internalClass() == l->classList[0]) { o->memberData()->data[l->index] = value; return; } setterTwoClasses(l, engine, object, value); } void Lookup::setterInsert0(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Object *o = object.as(); if (o && o->internalClass() == l->classList[0]) { if (!o->prototype()) { if (!o->memberData() || l->index >= o->memberData()->size) o->ensureMemberIndex(l->index); o->memberData()->data[l->index] = value; o->setInternalClass(l->classList[3]); return; } } l->setter = setterFallback; setterFallback(l, engine, object, value); } void Lookup::setterInsert1(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Object *o = object.as(); if (o && o->internalClass() == l->classList[0]) { Heap::Object *p = o->prototype(); if (p && p->internalClass == l->classList[1]) { if (!o->memberData() || l->index >= o->memberData()->size) o->ensureMemberIndex(l->index); o->memberData()->data[l->index] = value; o->setInternalClass(l->classList[3]); return; } } l->setter = setterFallback; setterFallback(l, engine, object, value); } void Lookup::setterInsert2(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Object *o = object.as(); if (o && o->internalClass() == l->classList[0]) { Heap::Object *p = o->prototype(); if (p && p->internalClass == l->classList[1]) { p = p->prototype; if (p && p->internalClass == l->classList[2]) { if (!o->memberData() || l->index >= o->memberData()->size) o->ensureMemberIndex(l->index); o->memberData()->data[l->index] = value; o->setInternalClass(l->classList[3]); return; } } } l->setter = setterFallback; setterFallback(l, engine, object, value); } void Lookup::setter0setter0(Lookup *l, ExecutionEngine *engine, Value &object, const Value &value) { Object *o = object.as(); if (o) { if (o->internalClass() == l->classList[0]) { o->memberData()->data[l->index] = value; return; } if (o->internalClass() == l->classList[1]) { o->memberData()->data[l->index2] = value; return; } } l->setter = setterFallback; setterFallback(l, engine, object, value); } QT_END_NAMESPACE