Ejemplo n.º 1
0
void QQmlListAccessor::setList(const QVariant &v, QQmlEngine *engine)
{
    d = v;

    // An incoming JS array as model is treated as a variant list, so we need to
    // convert it first with toVariant().
    if (d.userType() == qMetaTypeId<QJSValue>())
        d = d.value<QJSValue>().toVariant();

    QQmlEnginePrivate *enginePrivate = engine?QQmlEnginePrivate::get(engine):0;

    if (!d.isValid()) {
        m_type = Invalid;
    } else if (d.userType() == QVariant::StringList) {
        m_type = StringList;
    } else if (d.userType() == QMetaType::QVariantList) {
        m_type = VariantList;
    } else if (d.canConvert(QVariant::Int)) {
        m_type = Integer;
    } else if ((!enginePrivate && QQmlMetaType::isQObject(d.userType())) ||
               (enginePrivate && enginePrivate->isQObject(d.userType()))) {
        QObject *data = enginePrivate?enginePrivate->toQObject(d):QQmlMetaType::toQObject(d);
        d = QVariant::fromValue(data);
        m_type = Instance;
    } else if (d.userType() == qMetaTypeId<QQmlListReference>()) {
        m_type = ListProperty;
    } else {
        m_type = Instance;
    }
}
Ejemplo n.º 2
0
// Parts of this function mirror code in QQmlExpressionPrivate::value() and v8value().
// Changes made here may need to be made there and vice versa.
void QQmlBoundSignalExpression::evaluate(void **a)
{
    Q_ASSERT (context() && engine());

    if (!expressionFunctionValid())
        return;

    QQmlEnginePrivate *ep = QQmlEnginePrivate::get(engine());
    QV4::Scope scope(ep->v4engine());

    ep->referenceScarceResources(); // "hold" scarce resources in memory during evaluation.

    QVarLengthArray<int, 9> dummy;
    //TODO: lookup via signal index rather than method index as an optimization
    int methodIndex = QMetaObjectPrivate::signal(m_target->metaObject(), m_index).methodIndex();
    int *argsTypes = QQmlMetaObject(m_target).methodParameterTypes(methodIndex, dummy, 0);
    int argCount = argsTypes ? *argsTypes : 0;

    QV4::ScopedCallData callData(scope, argCount);
    for (int ii = 0; ii < argCount; ++ii) {
        int type = argsTypes[ii + 1];
        //### ideally we would use metaTypeToJS, however it currently gives different results
        //    for several cases (such as QVariant type and QObject-derived types)
        //args[ii] = engine->metaTypeToJS(type, a[ii + 1]);
        if (type == QMetaType::QVariant) {
            callData->args[ii] = scope.engine->fromVariant(*((QVariant *)a[ii + 1]));
        } else if (type == QMetaType::Int) {
            //### optimization. Can go away if we switch to metaTypeToJS, or be expanded otherwise
            callData->args[ii] = QV4::Primitive::fromInt32(*reinterpret_cast<const int*>(a[ii + 1]));
        } else if (type == qMetaTypeId<QQmlV4Handle>()) {
            callData->args[ii] = *reinterpret_cast<QQmlV4Handle *>(a[ii + 1]);
        } else if (ep->isQObject(type)) {
            if (!*reinterpret_cast<void* const *>(a[ii + 1]))
                callData->args[ii] = QV4::Primitive::nullValue();
            else
                callData->args[ii] = QV4::QObjectWrapper::wrap(ep->v4engine(), *reinterpret_cast<QObject* const *>(a[ii + 1]));
        } else {
            callData->args[ii] = scope.engine->fromVariant(QVariant(type, a[ii + 1]));
        }
    }

    QQmlJavaScriptExpression::evaluate(callData, 0);

    ep->dereferenceScarceResources(); // "release" scarce resources if top-level expression evaluation is complete.
}
// Parts of this function mirror code in QQmlExpressionPrivate::value() and v8value().
// Changes made here may need to be made there and vice versa.
void QQmlBoundSignalExpression::evaluate(void **a)
{
    Q_ASSERT (context() && engine());

    if (invalidParameterName())
        return;

    QQmlEnginePrivate *ep = QQmlEnginePrivate::get(engine());
    QV4::Scope scope(ep->v4engine());

    ep->referenceScarceResources(); // "hold" scarce resources in memory during evaluation.
    {
        if (!expressionFunctionValid()) {
            Q_ASSERT(!m_extra.isNull());
            QString expression;

            // Add some leading whitespace to account for the binding's column offset.
            // It's 2 off because a, we start counting at 1 and b, the '(' below is not counted.
            expression.fill(QChar(QChar::Space), qMax(m_extra->m_sourceLocation.column, (quint16)2) - 2);
            expression += QStringLiteral("(function ");
            expression += m_extra->m_handlerName;
            expression += QLatin1Char('(');

            if (m_extra->m_parameterString.isEmpty()) {
                QString error;
                //TODO: look at using the property cache here (as in the compiler)
                //      for further optimization
                QMetaMethod signal = QMetaObjectPrivate::signal(m_target->metaObject(), m_index);
                expression += QQmlPropertyCache::signalParameterStringForJS(engine(), signal.parameterNames(), &error);

                if (!error.isEmpty()) {
                    qmlInfo(scopeObject()) << error;
                    setInvalidParameterName(true);
                    ep->dereferenceScarceResources();
                    return;
                }
            } else
                expression += m_extra->m_parameterString;

            expression += QStringLiteral(") { ");
            expression += m_extra->m_expression;
            expression += QStringLiteral(" })");

            m_extra->m_expression.clear();
            m_extra->m_handlerName.clear();
            m_extra->m_parameterString.clear();

            m_v8function = evalFunction(context(), scopeObject(), expression,
                                        m_extra->m_sourceLocation.sourceFile, m_extra->m_sourceLocation.line, &m_extra->m_v8qmlscope);

            if (m_v8function.isNullOrUndefined()) {
                ep->dereferenceScarceResources();
                return; // could not evaluate function.  Not valid.
            }

            setExpressionFunctionValid(true);
        }

        QV8Engine *engine = ep->v8engine();
        QVarLengthArray<int, 9> dummy;
        //TODO: lookup via signal index rather than method index as an optimization
        int methodIndex = QMetaObjectPrivate::signal(m_target->metaObject(), m_index).methodIndex();
        int *argsTypes = QQmlPropertyCache::methodParameterTypes(m_target, methodIndex, dummy, 0);
        int argCount = argsTypes ? *argsTypes : 0;

        QV4::ScopedValue f(scope, m_v8function.value());
        QV4::ScopedCallData callData(scope, argCount);
        for (int ii = 0; ii < argCount; ++ii) {
            int type = argsTypes[ii + 1];
            //### ideally we would use metaTypeToJS, however it currently gives different results
            //    for several cases (such as QVariant type and QObject-derived types)
            //args[ii] = engine->metaTypeToJS(type, a[ii + 1]);
            if (type == QMetaType::QVariant) {
                callData->args[ii] = engine->fromVariant(*((QVariant *)a[ii + 1]));
            } else if (type == QMetaType::Int) {
                //### optimization. Can go away if we switch to metaTypeToJS, or be expanded otherwise
                callData->args[ii] = QV4::Primitive::fromInt32(*reinterpret_cast<const int*>(a[ii + 1]));
            } else if (type == qMetaTypeId<QQmlV4Handle>()) {
                callData->args[ii] = *reinterpret_cast<QQmlV4Handle *>(a[ii + 1]);
            } else if (ep->isQObject(type)) {
                if (!*reinterpret_cast<void* const *>(a[ii + 1]))
                    callData->args[ii] = QV4::Primitive::nullValue();
                else
                    callData->args[ii] = QV4::QObjectWrapper::wrap(ep->v4engine(), *reinterpret_cast<QObject* const *>(a[ii + 1]));
            } else {
                callData->args[ii] = engine->fromVariant(QVariant(type, a[ii + 1]));
            }
        }

        QQmlJavaScriptExpression::evaluate(context(), f, callData, 0);
    }
    ep->dereferenceScarceResources(); // "release" scarce resources if top-level expression evaluation is complete.
}
Ejemplo n.º 4
0
// Parts of this function mirror code in QQmlExpressionPrivate::value() and v8value().
// Changes made here may need to be made there and vice versa.
void QQmlBoundSignalExpression::evaluate(void **a)
{
    Q_ASSERT (context() && engine());

    if (m_invalidParameterName)
        return;

    QQmlEnginePrivate *ep = QQmlEnginePrivate::get(engine());

    ep->referenceScarceResources(); // "hold" scarce resources in memory during evaluation.
    {
        v8::HandleScope handle_scope;
        v8::Context::Scope context_scope(ep->v8engine()->context());
        if (!m_expressionFunctionValid) {

            //TODO: look at using the property cache here (as in the compiler)
            //      for further optimization
            QMetaMethod signal = QMetaObjectPrivate::signal(m_target->metaObject(), m_index);
            QQmlRewrite::RewriteSignalHandler rewriter;

            QString expression;
            bool ok = true;

            if (m_expressionFunctionRewritten) {
                expression = QString::fromUtf8(m_expressionUtf8);

                //if we need parameters, and the rewrite doesn't include them,
                //create and insert the parameter string now
                if (m_parameterCountForJS == -1 && signal.parameterCount()) {
                    const QString &parameters = rewriter.createParameterString(signal.parameterNames(),
                                                ep->v8engine()->illegalNames());
                    int index = expression.indexOf(QLatin1Char('('), 1);
                    Q_ASSERT(index > -1);
                    expression.insert(index + 1, parameters);

                    setParameterCountForJS(rewriter.parameterCountForJS());
                }

                m_expressionUtf8.clear();
            } else {
                //expression is still in its original form, so perform a full rewrite
                expression = rewriter(m_expression, QString()/*no name hint available*/, &ok,
                                      signal.parameterNames(),
                                      ep->v8engine()->illegalNames());
                setParameterCountForJS(rewriter.parameterCountForJS());
                m_expression.clear();
            }

            if (rewriter.hasParameterError()) {
                qmlInfo(scopeObject()) << rewriter.parameterError();
                m_invalidParameterName = true;
                ep->dereferenceScarceResources();
                return;
            }

            if (ok) {
                m_v8function = evalFunction(context(), scopeObject(), expression,
                                            m_fileName, m_line, &m_v8qmlscope);
            }

            if (m_v8function.IsEmpty() || m_v8function->IsNull()) {
                ep->dereferenceScarceResources();
                return; // could not evaluate function.  Not valid.
            }

            setUseSharedContext(false);
            m_expressionFunctionValid = true;
        }

        if (!hasParameterInfo()) {
            QQmlJavaScriptExpression::evaluate(context(), m_v8function, 0);
        } else {
            QV8Engine *engine = ep->v8engine();
            QVarLengthArray<int, 9> dummy;
            //TODO: lookup via signal index rather than method index as an optimization
            int methodIndex = QMetaObjectPrivate::signal(m_target->metaObject(), m_index).methodIndex();
            int *argsTypes = QQmlPropertyCache::methodParameterTypes(m_target, methodIndex, dummy, 0);
            int argCount = argsTypes ? m_parameterCountForJS : 0;

            QVarLengthArray<v8::Handle<v8::Value>, 9> args(argCount);

            for (int ii = 0; ii < argCount; ++ii) {
                int type = argsTypes[ii + 1];
                //### ideally we would use metaTypeToJS, however it currently gives different results
                //    for several cases (such as QVariant type and QObject-derived types)
                //args[ii] = engine->metaTypeToJS(type, a[ii + 1]);
                if (type == QMetaType::QVariant) {
                    args[ii] = engine->fromVariant(*((QVariant *)a[ii + 1]));
                } else if (type == QMetaType::Int) {
                    //### optimization. Can go away if we switch to metaTypeToJS, or be expanded otherwise
                    args[ii] = v8::Integer::New(*reinterpret_cast<const int*>(a[ii + 1]));
                } else if (type == qMetaTypeId<QQmlV8Handle>()) {
                    args[ii] = reinterpret_cast<QQmlV8Handle *>(a[ii + 1])->toHandle();
                } else if (ep->isQObject(type)) {
                    if (!*reinterpret_cast<void* const *>(a[ii + 1]))
                        args[ii] = v8::Null();
                    else
                        args[ii] = engine->newQObject(*reinterpret_cast<QObject* const *>(a[ii + 1]));
                } else {
                    args[ii] = engine->fromVariant(QVariant(type, a[ii + 1]));
                }
            }

            QQmlJavaScriptExpression::evaluate(context(), m_v8function, argCount, args.data(), 0);
        }
    }
    ep->dereferenceScarceResources(); // "release" scarce resources if top-level expression evaluation is complete.
}