/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtDeclarative module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "private/qdeclarativevme_p.h" #include "private/qdeclarativecompiler_p.h" #include "private/qdeclarativeboundsignal_p.h" #include "private/qdeclarativestringconverters_p.h" #include "private/qmetaobjectbuilder_p.h" #include "private/qdeclarativedata_p.h" #include "qdeclarative.h" #include "private/qdeclarativecustomparser_p.h" #include "qdeclarativeengine.h" #include "qdeclarativecontext.h" #include "qdeclarativecomponent.h" #include "private/qdeclarativebinding_p.h" #include "private/qdeclarativeengine_p.h" #include "private/qdeclarativecomponent_p.h" #include "private/qdeclarativevmemetaobject_p.h" #include "private/qdeclarativebinding_p_p.h" #include "private/qdeclarativecontext_p.h" #include "private/qdeclarativecompiledbindings_p.h" #include "private/qdeclarativeglobal_p.h" #include "qdeclarativescriptstring.h" #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE // A simple stack wrapper around QVarLengthArray template class QDeclarativeVMEStack : private QVarLengthArray { private: typedef QVarLengthArray VLA; int _index; public: inline QDeclarativeVMEStack(); inline bool isEmpty() const; inline const T &top() const; inline void push(const T &o); inline T pop(); inline int count() const; inline const T &at(int index) const; }; // We do this so we can forward declare the type in the qdeclarativevme_p.h header class QDeclarativeVMEObjectStack : public QDeclarativeVMEStack {}; QDeclarativeVME::QDeclarativeVME() { } #define VME_EXCEPTION(desc) \ { \ QDeclarativeError error; \ error.setDescription(desc.trimmed()); \ error.setLine(instr.line); \ error.setUrl(comp->url); \ vmeErrors << error; \ break; \ } struct ListInstance { ListInstance() : type(0) {} ListInstance(int t) : type(t) {} int type; QDeclarativeListProperty qListProperty; }; Q_DECLARE_TYPEINFO(ListInstance, Q_PRIMITIVE_TYPE | Q_MOVABLE_TYPE); QObject *QDeclarativeVME::run(QDeclarativeContextData *ctxt, QDeclarativeCompiledData *comp, int start, int count, const QBitField &bindingSkipList) { QDeclarativeVMEObjectStack stack; if (start == -1) start = 0; if (count == -1) count = comp->bytecode.count(); return run(stack, ctxt, comp, start, count, bindingSkipList); } void QDeclarativeVME::runDeferred(QObject *object) { QDeclarativeData *data = QDeclarativeData::get(object); if (!data || !data->context || !data->deferredComponent) return; QDeclarativeContextData *ctxt = data->context; QDeclarativeCompiledData *comp = data->deferredComponent; int start = data->deferredIdx + 1; int count = data->deferredComponent->bytecode.at(data->deferredIdx).defer.deferCount; QDeclarativeVMEObjectStack stack; stack.push(object); run(stack, ctxt, comp, start, count, QBitField()); } inline bool fastHasBinding(QObject *o, int index) { QDeclarativeData *ddata = static_cast(QObjectPrivate::get(o)->declarativeData); return ddata && (ddata->bindingBitsSize > index) && (ddata->bindingBits[index / 32] & (1 << (index % 32))); } static void removeBindingOnProperty(QObject *o, int index) { QDeclarativeAbstractBinding *binding = QDeclarativePropertyPrivate::setBinding(o, index, -1, 0); if (binding) binding->destroy(); } #define CLEAN_PROPERTY(o, index) if (fastHasBinding(o, index)) removeBindingOnProperty(o, index) QObject *QDeclarativeVME::run(QDeclarativeVMEObjectStack &stack, QDeclarativeContextData *ctxt, QDeclarativeCompiledData *comp, int start, int count, const QBitField &bindingSkipList) { Q_ASSERT(comp); Q_ASSERT(ctxt); const QList &types = comp->types; const QList &primitives = comp->primitives; const QList &datas = comp->datas; const QList &customTypeData = comp->customTypeData; const QList &intData = comp->intData; const QList &floatData = comp->floatData; const QList &propertyCaches = comp->propertyCaches; const QList &scripts = comp->scripts; const QList &urls = comp->urls; QDeclarativeEnginePrivate::SimpleList bindValues; QDeclarativeEnginePrivate::SimpleList parserStatus; QDeclarativeVMEStack qliststack; vmeErrors.clear(); QDeclarativeEnginePrivate *ep = QDeclarativeEnginePrivate::get(ctxt->engine); int status = -1; //for dbus QDeclarativePropertyPrivate::WriteFlags flags = QDeclarativePropertyPrivate::BypassInterceptor | QDeclarativePropertyPrivate::RemoveBindingOnAliasWrite; for (int ii = start; !isError() && ii < (start + count); ++ii) { const QDeclarativeInstruction &instr = comp->bytecode.at(ii); switch(instr.type) { case QDeclarativeInstruction::Init: { if (instr.init.bindingsSize) bindValues = QDeclarativeEnginePrivate::SimpleList(instr.init.bindingsSize); if (instr.init.parserStatusSize) parserStatus = QDeclarativeEnginePrivate::SimpleList(instr.init.parserStatusSize); if (instr.init.contextCache != -1) ctxt->setIdPropertyData(comp->contextCaches.at(instr.init.contextCache)); if (instr.init.compiledBinding != -1) ctxt->optimizedBindings = new QDeclarativeCompiledBindings(datas.at(instr.init.compiledBinding).constData(), ctxt); } break; case QDeclarativeInstruction::CreateObject: { QBitField bindings; if (instr.create.bindingBits != -1) { const QByteArray &bits = datas.at(instr.create.bindingBits); bindings = QBitField((const quint32*)bits.constData(), bits.size() * 8); } if (stack.isEmpty()) bindings = bindings.united(bindingSkipList); QObject *o = types.at(instr.create.type).createInstance(ctxt, bindings, &vmeErrors); if (!o) { VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Unable to create object of type %1").arg(QString::fromLatin1(types.at(instr.create.type).className))); } QDeclarativeData *ddata = QDeclarativeData::get(o); Q_ASSERT(ddata); if (stack.isEmpty()) { if (ddata->context) { Q_ASSERT(ddata->context != ctxt); Q_ASSERT(ddata->outerContext); Q_ASSERT(ddata->outerContext != ctxt); QDeclarativeContextData *c = ddata->context; while (c->linkedContext) c = c->linkedContext; c->linkedContext = ctxt; } else { ctxt->addObject(o); } ddata->ownContext = true; } else if (!ddata->context) { ctxt->addObject(o); } ddata->setImplicitDestructible(); ddata->outerContext = ctxt; ddata->lineNumber = instr.line; ddata->columnNumber = instr.create.column; if (instr.create.data != -1) { QDeclarativeCustomParser *customParser = types.at(instr.create.type).type->customParser(); customParser->setCustomData(o, datas.at(instr.create.data)); } if (!stack.isEmpty()) { QObject *parent = stack.top(); if (o->isWidgetType()) { QWidget *widget = static_cast(o); if (parent->isWidgetType()) { QWidget *parentWidget = static_cast(parent); widget->setParent(parentWidget); } else { // TODO: parent might be a layout } } else { QDeclarative_setParent_noEvent(o, parent); } } stack.push(o); } break; case QDeclarativeInstruction::CreateSimpleObject: { QObject *o = (QObject *)operator new(instr.createSimple.typeSize + sizeof(QDeclarativeData)); ::memset(o, 0, instr.createSimple.typeSize + sizeof(QDeclarativeData)); instr.createSimple.create(o); QDeclarativeData *ddata = (QDeclarativeData *)(((const char *)o) + instr.createSimple.typeSize); const QDeclarativeCompiledData::TypeReference &ref = types.at(instr.createSimple.type); if (!ddata->propertyCache && ref.typePropertyCache) { ddata->propertyCache = ref.typePropertyCache; ddata->propertyCache->addref(); } ddata->lineNumber = instr.line; ddata->columnNumber = instr.createSimple.column; QObjectPrivate::get(o)->declarativeData = ddata; ddata->context = ddata->outerContext = ctxt; ddata->nextContextObject = ctxt->contextObjects; if (ddata->nextContextObject) ddata->nextContextObject->prevContextObject = &ddata->nextContextObject; ddata->prevContextObject = &ctxt->contextObjects; ctxt->contextObjects = ddata; QObject *parent = stack.top(); QDeclarative_setParent_noEvent(o, parent); stack.push(o); } break; case QDeclarativeInstruction::SetId: { QObject *target = stack.top(); ctxt->setIdProperty(instr.setId.index, target); } break; case QDeclarativeInstruction::SetDefault: { ctxt->contextObject = stack.top(); } break; case QDeclarativeInstruction::CreateComponent: { QDeclarativeComponent *qcomp = new QDeclarativeComponent(ctxt->engine, comp, ii + 1, instr.createComponent.count, stack.isEmpty() ? 0 : stack.top()); QDeclarativeData *ddata = QDeclarativeData::get(qcomp, true); Q_ASSERT(ddata); ctxt->addObject(qcomp); if (stack.isEmpty()) ddata->ownContext = true; ddata->setImplicitDestructible(); ddata->outerContext = ctxt; ddata->lineNumber = instr.line; ddata->columnNumber = instr.create.column; QDeclarativeComponentPrivate::get(qcomp)->creationContext = ctxt; stack.push(qcomp); ii += instr.createComponent.count; } break; case QDeclarativeInstruction::StoreMetaObject: { QObject *target = stack.top(); QMetaObject mo; const QByteArray &metadata = datas.at(instr.storeMeta.data); QMetaObjectBuilder::fromRelocatableData(&mo, 0, metadata); const QDeclarativeVMEMetaData *data = (const QDeclarativeVMEMetaData *)datas.at(instr.storeMeta.aliasData).constData(); (void)new QDeclarativeVMEMetaObject(target, &mo, data, comp); if (instr.storeMeta.propertyCache != -1) { QDeclarativeData *ddata = QDeclarativeData::get(target, true); if (ddata->propertyCache) ddata->propertyCache->release(); ddata->propertyCache = propertyCaches.at(instr.storeMeta.propertyCache); ddata->propertyCache->addref(); } } break; case QDeclarativeInstruction::StoreVariant: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeString.propertyIndex); // XXX - can be more efficient QVariant v = QDeclarativeStringConverters::variantFromString(primitives.at(instr.storeString.value)); void *a[] = { &v, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeString.propertyIndex, a); } break; case QDeclarativeInstruction::StoreVariantInteger: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeString.propertyIndex); QVariant v(instr.storeInteger.value); void *a[] = { &v, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeString.propertyIndex, a); } break; case QDeclarativeInstruction::StoreVariantDouble: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeString.propertyIndex); QVariant v(instr.storeDouble.value); void *a[] = { &v, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeString.propertyIndex, a); } break; case QDeclarativeInstruction::StoreVariantBool: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeString.propertyIndex); QVariant v(instr.storeBool.value); void *a[] = { &v, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeString.propertyIndex, a); } break; case QDeclarativeInstruction::StoreString: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeString.propertyIndex); void *a[] = { (void *)&primitives.at(instr.storeString.value), 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeString.propertyIndex, a); } break; case QDeclarativeInstruction::StoreUrl: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeUrl.propertyIndex); void *a[] = { (void *)&urls.at(instr.storeUrl.value), 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeUrl.propertyIndex, a); } break; case QDeclarativeInstruction::StoreFloat: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeFloat.propertyIndex); float f = instr.storeFloat.value; void *a[] = { &f, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeFloat.propertyIndex, a); } break; case QDeclarativeInstruction::StoreDouble: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeDouble.propertyIndex); double d = instr.storeDouble.value; void *a[] = { &d, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeDouble.propertyIndex, a); } break; case QDeclarativeInstruction::StoreBool: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeBool.propertyIndex); void *a[] = { (void *)&instr.storeBool.value, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeBool.propertyIndex, a); } break; case QDeclarativeInstruction::StoreInteger: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeInteger.propertyIndex); void *a[] = { (void *)&instr.storeInteger.value, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeInteger.propertyIndex, a); } break; case QDeclarativeInstruction::StoreColor: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeColor.propertyIndex); QColor c = QColor::fromRgba(instr.storeColor.value); void *a[] = { &c, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeColor.propertyIndex, a); } break; case QDeclarativeInstruction::StoreDate: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeDate.propertyIndex); QDate d = QDate::fromJulianDay(instr.storeDate.value); void *a[] = { &d, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeDate.propertyIndex, a); } break; case QDeclarativeInstruction::StoreTime: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeTime.propertyIndex); QTime t; t.setHMS(intData.at(instr.storeTime.valueIndex), intData.at(instr.storeTime.valueIndex+1), intData.at(instr.storeTime.valueIndex+2), intData.at(instr.storeTime.valueIndex+3)); void *a[] = { &t, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeTime.propertyIndex, a); } break; case QDeclarativeInstruction::StoreDateTime: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeDateTime.propertyIndex); QTime t; t.setHMS(intData.at(instr.storeDateTime.valueIndex+1), intData.at(instr.storeDateTime.valueIndex+2), intData.at(instr.storeDateTime.valueIndex+3), intData.at(instr.storeDateTime.valueIndex+4)); QDateTime dt(QDate::fromJulianDay(intData.at(instr.storeDateTime.valueIndex)), t); void *a[] = { &dt, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeDateTime.propertyIndex, a); } break; case QDeclarativeInstruction::StorePoint: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRealPair.propertyIndex); QPoint p = QPointF(floatData.at(instr.storeRealPair.valueIndex), floatData.at(instr.storeRealPair.valueIndex+1)).toPoint(); void *a[] = { &p, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRealPair.propertyIndex, a); } break; case QDeclarativeInstruction::StorePointF: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRealPair.propertyIndex); QPointF p(floatData.at(instr.storeRealPair.valueIndex), floatData.at(instr.storeRealPair.valueIndex+1)); void *a[] = { &p, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRealPair.propertyIndex, a); } break; case QDeclarativeInstruction::StoreSize: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRealPair.propertyIndex); QSize p = QSizeF(floatData.at(instr.storeRealPair.valueIndex), floatData.at(instr.storeRealPair.valueIndex+1)).toSize(); void *a[] = { &p, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRealPair.propertyIndex, a); } break; case QDeclarativeInstruction::StoreSizeF: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRealPair.propertyIndex); QSizeF s(floatData.at(instr.storeRealPair.valueIndex), floatData.at(instr.storeRealPair.valueIndex+1)); void *a[] = { &s, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRealPair.propertyIndex, a); } break; case QDeclarativeInstruction::StoreRect: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRect.propertyIndex); QRect r = QRectF(floatData.at(instr.storeRect.valueIndex), floatData.at(instr.storeRect.valueIndex+1), floatData.at(instr.storeRect.valueIndex+2), floatData.at(instr.storeRect.valueIndex+3)).toRect(); void *a[] = { &r, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRect.propertyIndex, a); } break; case QDeclarativeInstruction::StoreRectF: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeRect.propertyIndex); QRectF r(floatData.at(instr.storeRect.valueIndex), floatData.at(instr.storeRect.valueIndex+1), floatData.at(instr.storeRect.valueIndex+2), floatData.at(instr.storeRect.valueIndex+3)); void *a[] = { &r, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeRect.propertyIndex, a); } break; case QDeclarativeInstruction::StoreVector3D: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeVector3D.propertyIndex); QVector3D p(floatData.at(instr.storeVector3D.valueIndex), floatData.at(instr.storeVector3D.valueIndex+1), floatData.at(instr.storeVector3D.valueIndex+2)); void *a[] = { &p, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeVector3D.propertyIndex, a); } break; case QDeclarativeInstruction::StoreObject: { QObject *assignObj = stack.pop(); QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeObject.propertyIndex); void *a[] = { (void *)&assignObj, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeObject.propertyIndex, a); } break; case QDeclarativeInstruction::AssignCustomType: { QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.assignCustomType.propertyIndex); QDeclarativeCompiledData::CustomTypeData data = customTypeData.at(instr.assignCustomType.valueIndex); const QString &primitive = primitives.at(data.index); QDeclarativeMetaType::StringConverter converter = QDeclarativeMetaType::customStringConverter(data.type); QVariant v = (*converter)(primitive); QMetaProperty prop = target->metaObject()->property(instr.assignCustomType.propertyIndex); if (v.isNull() || ((int)prop.type() != data.type && prop.userType() != data.type)) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot assign value %1 to property %2").arg(primitive).arg(QString::fromUtf8(prop.name()))); void *a[] = { (void *)v.data(), 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.assignCustomType.propertyIndex, a); } break; case QDeclarativeInstruction::AssignSignalObject: { // XXX optimize QObject *assign = stack.pop(); QObject *target = stack.top(); int sigIdx = instr.assignSignalObject.signal; const QByteArray &pr = datas.at(sigIdx); QDeclarativeProperty prop(target, QString::fromUtf8(pr)); if (prop.type() & QDeclarativeProperty::SignalProperty) { QMetaMethod method = QDeclarativeMetaType::defaultMethod(assign); if (method.signature() == 0) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot assign object type %1 with no default method").arg(QString::fromLatin1(assign->metaObject()->className()))); if (!QMetaObject::checkConnectArgs(prop.method().signature(), method.signature())) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot connect mismatched signal/slot %1 %vs. %2").arg(QString::fromLatin1(method.signature())).arg(QString::fromLatin1(prop.method().signature()))); QDeclarativePropertyPrivate::connect(target, prop.index(), assign, method.methodIndex()); } else { VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot assign an object to signal property %1").arg(QString::fromUtf8(pr))); } } break; case QDeclarativeInstruction::StoreSignal: { QObject *target = stack.top(); QObject *context = stack.at(stack.count() - 1 - instr.storeSignal.context); QMetaMethod signal = target->metaObject()->method(instr.storeSignal.signalIndex); QDeclarativeBoundSignal *bs = new QDeclarativeBoundSignal(target, signal, target); QDeclarativeExpression *expr = new QDeclarativeExpression(ctxt, context, primitives.at(instr.storeSignal.value)); expr->setSourceLocation(comp->name, instr.line); static_cast(QObjectPrivate::get(expr))->name = datas.at(instr.storeSignal.name); bs->setExpression(expr); } break; case QDeclarativeInstruction::StoreImportedScript: { ctxt->addImportedScript(scripts.at(instr.storeScript.value)); } break; case QDeclarativeInstruction::StoreScriptString: { QObject *target = stack.top(); QObject *scope = stack.at(stack.count() - 1 - instr.storeScriptString.scope); QDeclarativeScriptString ss; ss.setContext(ctxt->asQDeclarativeContext()); ss.setScopeObject(scope); ss.setScript(primitives.at(instr.storeScriptString.value)); void *a[] = { &ss, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeScriptString.propertyIndex, a); } break; case QDeclarativeInstruction::BeginObject: { QObject *target = stack.top(); QDeclarativeParserStatus *status = reinterpret_cast(reinterpret_cast(target) + instr.begin.castValue); parserStatus.append(status); status->d = &parserStatus.values[parserStatus.count - 1]; status->classBegin(); } break; case QDeclarativeInstruction::StoreBinding: case QDeclarativeInstruction::StoreBindingOnAlias: { QObject *target = stack.at(stack.count() - 1 - instr.assignBinding.owner); QObject *context = stack.at(stack.count() - 1 - instr.assignBinding.context); QDeclarativeProperty mp = QDeclarativePropertyPrivate::restore(datas.at(instr.assignBinding.property), target, ctxt); int coreIndex = mp.index(); if ((stack.count() - instr.assignBinding.owner) == 1 && bindingSkipList.testBit(coreIndex)) break; QDeclarativeBinding *bind = new QDeclarativeBinding((void *)datas.at(instr.assignBinding.value).constData(), comp, context, ctxt, comp->name, instr.line, 0); bindValues.append(bind); bind->m_mePtr = &bindValues.values[bindValues.count - 1]; bind->setTarget(mp); if (instr.type == QDeclarativeInstruction::StoreBindingOnAlias) { QDeclarativeAbstractBinding *old = QDeclarativePropertyPrivate::setBindingNoEnable(target, coreIndex, QDeclarativePropertyPrivate::valueTypeCoreIndex(mp), bind); if (old) { old->destroy(); } } else { bind->addToObject(target, QDeclarativePropertyPrivate::bindingIndex(mp)); } } break; case QDeclarativeInstruction::StoreCompiledBinding: { QObject *target = stack.at(stack.count() - 1 - instr.assignBinding.owner); QObject *scope = stack.at(stack.count() - 1 - instr.assignBinding.context); int property = instr.assignBinding.property; if (stack.count() == 1 && bindingSkipList.testBit(property & 0xFFFF)) break; QDeclarativeAbstractBinding *binding = ctxt->optimizedBindings->configBinding(instr.assignBinding.value, target, scope, property); bindValues.append(binding); binding->m_mePtr = &bindValues.values[bindValues.count - 1]; binding->addToObject(target, property); } break; case QDeclarativeInstruction::StoreValueSource: { QObject *obj = stack.pop(); QDeclarativePropertyValueSource *vs = reinterpret_cast(reinterpret_cast(obj) + instr.assignValueSource.castValue); QObject *target = stack.at(stack.count() - 1 - instr.assignValueSource.owner); QDeclarativeProperty prop = QDeclarativePropertyPrivate::restore(datas.at(instr.assignValueSource.property), target, ctxt); obj->setParent(target); vs->setTarget(prop); } break; case QDeclarativeInstruction::StoreValueInterceptor: { QObject *obj = stack.pop(); QDeclarativePropertyValueInterceptor *vi = reinterpret_cast(reinterpret_cast(obj) + instr.assignValueInterceptor.castValue); QObject *target = stack.at(stack.count() - 1 - instr.assignValueInterceptor.owner); QDeclarativeProperty prop = QDeclarativePropertyPrivate::restore(datas.at(instr.assignValueInterceptor.property), target, ctxt); obj->setParent(target); vi->setTarget(prop); QDeclarativeVMEMetaObject *mo = static_cast((QMetaObject*)target->metaObject()); mo->registerInterceptor(prop.index(), QDeclarativePropertyPrivate::valueTypeCoreIndex(prop), vi); } break; case QDeclarativeInstruction::StoreObjectQList: { QObject *assign = stack.pop(); const ListInstance &list = qliststack.top(); list.qListProperty.append((QDeclarativeListProperty*)&list.qListProperty, assign); } break; case QDeclarativeInstruction::AssignObjectList: { // This is only used for assigning interfaces QObject *assign = stack.pop(); const ListInstance &list = qliststack.top(); int type = list.type; void *ptr = 0; const char *iid = QDeclarativeMetaType::interfaceIId(type); if (iid) ptr = assign->qt_metacast(iid); if (!ptr) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot assign object to list")); list.qListProperty.append((QDeclarativeListProperty*)&list.qListProperty, ptr); } break; case QDeclarativeInstruction::StoreVariantObject: { QObject *assign = stack.pop(); QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeObject.propertyIndex); QVariant v = QVariant::fromValue(assign); void *a[] = { &v, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, instr.storeObject.propertyIndex, a); } break; case QDeclarativeInstruction::StoreInterface: { QObject *assign = stack.pop(); QObject *target = stack.top(); CLEAN_PROPERTY(target, instr.storeObject.propertyIndex); int coreIdx = instr.storeObject.propertyIndex; QMetaProperty prop = target->metaObject()->property(coreIdx); int t = prop.userType(); const char *iid = QDeclarativeMetaType::interfaceIId(t); bool ok = false; if (iid) { void *ptr = assign->qt_metacast(iid); if (ptr) { void *a[] = { &ptr, 0, &status, &flags }; QMetaObject::metacall(target, QMetaObject::WriteProperty, coreIdx, a); ok = true; } } if (!ok) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot assign object to interface property")); } break; case QDeclarativeInstruction::FetchAttached: { QObject *target = stack.top(); QObject *qmlObject = qmlAttachedPropertiesObjectById(instr.fetchAttached.id, target); if (!qmlObject) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Unable to create attached object")); stack.push(qmlObject); } break; case QDeclarativeInstruction::FetchQList: { QObject *target = stack.top(); qliststack.push(ListInstance(instr.fetchQmlList.type)); void *a[1]; a[0] = (void *)&(qliststack.top().qListProperty); QMetaObject::metacall(target, QMetaObject::ReadProperty, instr.fetchQmlList.property, a); } break; case QDeclarativeInstruction::FetchObject: { QObject *target = stack.top(); QObject *obj = 0; // NOTE: This assumes a cast to QObject does not alter the // object pointer void *a[1]; a[0] = &obj; QMetaObject::metacall(target, QMetaObject::ReadProperty, instr.fetch.property, a); if (!obj) VME_EXCEPTION(QCoreApplication::translate("QDeclarativeVME","Cannot set properties on %1 as it is null").arg(QString::fromUtf8(target->metaObject()->property(instr.fetch.property).name()))); stack.push(obj); } break; case QDeclarativeInstruction::PopQList: { qliststack.pop(); } break; case QDeclarativeInstruction::Defer: { if (instr.defer.deferCount) { QObject *target = stack.top(); QDeclarativeData *data = QDeclarativeData::get(target, true); comp->addref(); data->deferredComponent = comp; data->deferredIdx = ii; ii += instr.defer.deferCount; } } break; case QDeclarativeInstruction::PopFetchedObject: { stack.pop(); } break; case QDeclarativeInstruction::FetchValueType: { QObject *target = stack.top(); if (instr.fetchValue.bindingSkipList != 0) { // Possibly need to clear bindings QDeclarativeData *targetData = QDeclarativeData::get(target); if (targetData) { QDeclarativeAbstractBinding *binding = QDeclarativePropertyPrivate::binding(target, instr.fetchValue.property, -1); if (binding && binding->bindingType() != QDeclarativeAbstractBinding::ValueTypeProxy) { QDeclarativePropertyPrivate::setBinding(target, instr.fetchValue.property, -1, 0); binding->destroy(); } else if (binding) { QDeclarativeValueTypeProxyBinding *proxy = static_cast(binding); proxy->removeBindings(instr.fetchValue.bindingSkipList); } } } QDeclarativeValueType *valueHandler = ep->valueTypes[instr.fetchValue.type]; valueHandler->read(target, instr.fetchValue.property); stack.push(valueHandler); } break; case QDeclarativeInstruction::PopValueType: { QDeclarativeValueType *valueHandler = static_cast(stack.pop()); QObject *target = stack.top(); valueHandler->write(target, instr.fetchValue.property, QDeclarativePropertyPrivate::BypassInterceptor); } break; default: qFatal("QDeclarativeCompiledData: Internal error - unknown instruction %d", instr.type); break; } } if (isError()) { if (!stack.isEmpty()) { delete stack.at(0); // ### What about failures in deferred creation? } else { ctxt->destroy(); } QDeclarativeEnginePrivate::clear(bindValues); QDeclarativeEnginePrivate::clear(parserStatus); return 0; } if (bindValues.count) ep->bindValues << bindValues; else if (bindValues.values) bindValues.clear(); if (parserStatus.count) ep->parserStatus << parserStatus; else if (parserStatus.values) parserStatus.clear(); Q_ASSERT(stack.count() == 1); return stack.top(); } bool QDeclarativeVME::isError() const { return !vmeErrors.isEmpty(); } QList QDeclarativeVME::errors() const { return vmeErrors; } QObject * QDeclarativeCompiledData::TypeReference::createInstance(QDeclarativeContextData *ctxt, const QBitField &bindings, QList *errors) const { if (type) { QObject *rv = 0; void *memory = 0; type->create(&rv, &memory, sizeof(QDeclarativeData)); QDeclarativeData *ddata = new (memory) QDeclarativeData; ddata->ownMemory = false; QObjectPrivate::get(rv)->declarativeData = ddata; if (typePropertyCache && !ddata->propertyCache) { ddata->propertyCache = typePropertyCache; ddata->propertyCache->addref(); } return rv; } else { Q_ASSERT(component); return QDeclarativeComponentPrivate::begin(ctxt, 0, component, -1, -1, 0, errors, bindings); } } template QDeclarativeVMEStack::QDeclarativeVMEStack() : _index(-1) { } template bool QDeclarativeVMEStack::isEmpty() const { return _index == -1; } template const T &QDeclarativeVMEStack::top() const { return at(_index); } template void QDeclarativeVMEStack::push(const T &o) { _index++; Q_ASSERT(_index <= VLA::size()); if (_index == VLA::size()) append(o); else VLA::data()[_index] = o; } template T QDeclarativeVMEStack::pop() { Q_ASSERT(_index >= 0); --_index; return VLA::data()[_index + 1]; } template int QDeclarativeVMEStack::count() const { return _index + 1; } template const T &QDeclarativeVMEStack::at(int index) const { return VLA::data()[index]; } QT_END_NAMESPACE