Example #1
0
    /**
     * Iterate over the attributes of the given PetalNode and for each recognized
     * attribute do the following:
     *   - invoke createListItem()
     *   - fill common properties such as name, unique ID, visibility, etc. into
     *     the new UMLClassifierListItem
     *   - invoke insertAtParent() with the new classifier list item as the argument
     * This is the user entry point.
     */
    void read(const PetalNode *node, const QString& name)
    {
        PetalNode *attributes = node->findAttribute(m_attributeTag).node;
        if (attributes == NULL) {
#ifdef VERBOSE_DEBUGGING
            uDebug() << "read(" << name << "): no " << m_attributeTag << " found";
#endif
            return;
        }
        PetalNode::NameValueList attributeList = attributes->attributes();
        for (int i = 0; i < attributeList.count(); ++i) {
            PetalNode *attNode = attributeList[i].second.node;
            QStringList initialArgs = attNode->initialArgs();
            if (attNode->name() != m_elementName) {
                uDebug() << "read(" << name << "): expecting " << m_elementName
                         << ", " << "found " << initialArgs[0];
                continue;
            }
            UMLObject *item = createListItem();
            if (initialArgs.count() > 1)
                item->setName(clean(initialArgs[1]));
            item->setID(quid(attNode));
            QString quidref = quidu(attNode);
            QString type = clean(attNode->findAttribute(m_itemTypeDesignator).string);
            setTypeReferences(item, quidref, type);
            transferVisibility(attNode, item);
            QString doc = attNode->findAttribute("documentation").string;
            if (! doc.isEmpty())
                item->setDoc(doc);
            insertAtParent(attNode, item);
        }
    }
Example #2
0
QDebug operator<<(QDebug _out, const PetalNode::NameValueList &p)
{
    Indenter out(_out.nospace(), "PetalNode::NameValueList");
    for (int i = 0; i < p.count(); ++i) {
        out << i << ": " << p[i];
    }
    return out;
}
Example #3
0
/**
 * This is really an auxiliary method for loadFromMDL() but is kept in a
 * separate file to reflect that it is not coupled with the parser
 * (other than by the PetalNode.)
 *
 * @param root   the root of the tree
 * @return  true for success.
 */
bool petalTree2Uml(PetalNode *root)
{
    if (root == NULL) {
        uError() << "petalTree2Uml: root is NULL";
        return false;
    }
    if (root->name() != "Design") {
        uError() << "petalTree2Uml: expecting root name Design";
        return false;
    }
    //*************************** import  Logical View ********************************
    PetalNode *root_category = root->findAttribute("root_category").node;
    if (root_category == NULL) {
        uError() << "petalTree2Uml: cannot find root_category";
        return false;
    }
    if (root_category->name() != "Class_Category") {
        uError() << "petalTree2Uml: expecting root_category object Class_Category";
        return false;
    }
    PetalNode *logical_models = root_category->findAttribute("logical_models").node;
    if (logical_models == NULL) {
        uError() << "petalTree2Uml: cannot find logical_models";
        return false;
    }
    UMLDoc *umldoc = UMLApp::app()->document();
    umldoc->setCurrentRoot(Uml::ModelType::Logical);
    Import_Utils::assignUniqueIdOnCreation(false);
    PetalNode::NameValueList atts = logical_models->attributes();
    for (int i = 0; i < atts.count(); ++i) {
        umbrellify(atts[i].second.node);
    }

    // Shorthand for UMLApp::app()->listView()
    UMLListView *lv = UMLApp::app()->listView();

    //*************************** import Use Case View ********************************
    umldoc->setCurrentRoot(Uml::ModelType::UseCase);
    importView(root, "root_usecase_package", "logical_models", lv->theUseCaseView());

    //*************************** import Component View *******************************
    umldoc->setCurrentRoot(Uml::ModelType::Component);
    importView(root, "root_subsystem", "physical_models", lv->theComponentView());

    //*************************** import Deployment View ******************************
    umldoc->setCurrentRoot(Uml::ModelType::Deployment);
    importView(root, "process_structure", "ProcsNDevs", lv->theDeploymentView());

    //***************************       wrap up        ********************************
    umldoc->setCurrentRoot(Uml::ModelType::Logical);
    Import_Utils::assignUniqueIdOnCreation(true);
    umldoc->resolveTypes();
    return true;
}
Example #4
0
/**
 * Auxiliary function for UseCase/Component/Deployment view import
 */
bool importView(PetalNode *root, const QString& rootName,
                const QString& modelsName, UMLListViewItem *lvParent) 
{
    PetalNode *viewRoot = root->findAttribute(rootName).node;
    if (viewRoot == NULL) {
        uDebug() << "importView: cannot find " << rootName;
        return false;
    }
    PetalNode *models = viewRoot->findAttribute(modelsName).node;
    if (models == NULL) {
        uError() << "importView: cannot find " << modelsName
                 << " of " << rootName;
        return false;
    }
    PetalNode::NameValueList atts = models->attributes();
    for (int i = 0; i < atts.count(); ++i) {
        umbrellify(atts[i].second.node, modelsName, lvParent);
    }
    return true;
}
Example #5
0
/**
 * Create an Umbrello object from a PetalNode of the UseCase, Component,
 * or Deployment View.
 *
 * @return   True for success.
 *           Given a PetalNode for which the mapping to Umbrello is not yet
 *           implemented umbrellify() is a no-op but also returns true.
 */
bool umbrellify(PetalNode *node, const QString& modelsName, UMLListViewItem *parent)
{
    if (node == NULL) {
        uError() << "umbrellify(" << modelsName << "): node is NULL";
        return false;
    }
    QStringList args = node->initialArgs();
    QString objType = args[0];
    QString name = clean(args[1]);
    Uml::IDType id = quid(node);
    UMLObject *obj = NULL;
    UMLListViewItem *item = NULL;

    if (objType == "Class_Category") {
        UMLListViewItem::ListViewType lvType = folderType(parent);
        item = new UMLListViewItem( parent, name, lvType, id );
    } else if (objType == "Class") {
        QString stereotype = clean(node->findAttribute("stereotype").string);
        if (stereotype == "Actor") {
            UMLActor *act = new UMLActor(name, id);
            item = new UMLListViewItem(parent, name, UMLListViewItem::lvt_Actor, act);
            obj = act;
        } else {
            uDebug() << "umbrellify(" << name << "): handling of Class stereotype "
                << stereotype << " is not yet implemented";
        }
    } else if (objType == "UseCase") {
        UMLUseCase *uc = new UMLUseCase(name, id);
        item = new UMLListViewItem(parent, name, UMLListViewItem::lvt_UseCase, uc);
        obj = uc;
    } else if (objType == "SubSystem") {
        UMLComponent *comp = new UMLComponent(name, id);
        item = new UMLListViewItem(parent, name, UMLListViewItem::lvt_Component, comp);
        obj = comp;
    } else if (objType == "Processor" || objType == "Device") {
        UMLNode *un = new UMLNode(name, id);
        un->setStereotype(objType.toLower());
        item = new UMLListViewItem(parent, name, UMLListViewItem::lvt_Node, un);
        obj = un;
    } else {
        uDebug() << "umbrellify: object type " << objType
                 << " is not yet implemented";
        return true;
    }
    PetalNode *models = node->findAttribute(modelsName).node;
    if (models) {
        PetalNode::NameValueList atts = models->attributes();
        for (int i = 0; i < atts.count(); ++i) {
            if (! umbrellify(atts[i].second.node, modelsName, item))
                return false;
        }
    }
    if (obj) {
        QString doc = node->findAttribute("documentation").string;
        if (! doc.isEmpty())
            obj->setDoc(doc);
        UMLDoc *theDocument = UMLApp::app()->document();
        theDocument->addUMLObject(obj);
    }
    return true;
}
Example #6
0
/**
 * Create an Umbrello object from a PetalNode of the Logical View.
 *
 * @return   True for success.
 *           Given a PetalNode for which the mapping to Umbrello is not yet
 *           implemented umbrellify() is a no-op but also returns true.
 */
bool umbrellify(PetalNode *node, UMLPackage *parentPkg = NULL)
{
    if (node == NULL) {
        uError() << "umbrellify: node is NULL";
        return false;
    }
    QStringList args = node->initialArgs();
    QString objType = args[0];
    QString name = clean(args[1]);
    Uml::IDType id = quid(node);

    if (objType == "Class_Category") {
        UMLObject *o = Import_Utils::createUMLObject(UMLObject::ot_Package, name, parentPkg);
        o->setID(id);
        PetalNode *logical_models = node->findAttribute("logical_models").node;
        if (logical_models) {
            UMLPackage *localParent = static_cast<UMLPackage*>(o);
            PetalNode::NameValueList atts = logical_models->attributes();
            for (int i = 0; i < atts.count(); ++i) {
                umbrellify(atts[i].second.node, localParent);
            }
        } else if (!handleControlledUnit(node, name, id, parentPkg)) {
            uDebug() << "umbrellify: handling of " << objType << " " << name
                << " is not yet implemented";
        }

    } else if (objType == "Class") {
        UMLObject *o = Import_Utils::createUMLObject(UMLObject::ot_Class, name, parentPkg);
        o->setID(id);
        UMLClassifier *c = static_cast<UMLClassifier*>(o);
        // set stereotype
        QString stereotype = clean(node->findAttribute("stereotype").string);
        if (!stereotype.isEmpty()) {
            if (stereotype.toLower() == "interface")
                c->setBaseType(UMLObject::ot_Interface);
            else
                c->setStereotype(stereotype);
        }
        // insert attributes
        AttributesReader attReader(c);
        attReader.read(node, c->name());
        // insert operations
        OperationsReader opReader(c);
        opReader.read(node, c->name());
        // insert generalizations
        SuperclassesReader superReader(c);
        superReader.read(node, c->name());
        // insert realizations
        RealizationsReader realReader(c);
        realReader.read(node, c->name());

    } else if (objType == "Association") {
        PetalNode *roles = node->findAttribute("roles").node;
        if (node == NULL) {
            uError() << "umbrellify: cannot find roles of Association";
            return false;
        }
        UMLAssociation *assoc = new UMLAssociation(Uml::AssociationType::UniAssociation);
        PetalNode::NameValueList roleList = roles->attributes();
        for (uint i = 0; i <= 1; ++i) {
            PetalNode *roleNode = roleList[i].second.node;
            if (roleNode == NULL) {
                uError() << "umbrellify: roleNode of Association is NULL";
                return false;
            }
            if (roleNode->name() != "Role") {
                uDebug() << "umbrellify(" << name << "): expecting Role, found \""
                         << roleNode->name();
                continue;
            }
            // index 0 corresponds to Umbrello roleB
            // index 1 corresponds to Umbrello roleA
            UMLRole *role = assoc->getUMLRole((Uml::Role_Type) !i);
            QStringList initialArgs = roleNode->initialArgs();
            if (initialArgs.count() > 1) {
                QString roleName = clean(initialArgs[1]);
                if (! roleName.startsWith(QLatin1String("$UNNAMED")))
                    role->setName(roleName);
            }
            role->setID(quid(roleNode));
            QString quidref = quidu(roleNode);
            QString type = clean(roleNode->findAttribute("supplier").string);
            if (!quidref.isEmpty()) {
                role->setSecondaryId(quidref);
            }
            if (!type.isEmpty()) {
                role->setSecondaryFallback(type);
            }
            QString label = clean(roleNode->findAttribute("label").string);
            if (!label.isEmpty()) {
                role->setName(label);
            }
            QString client_cardinality = clean(roleNode->findAttribute("client_cardinality").string);
            if (!client_cardinality.isEmpty()) {
                role->setMultiplicity(client_cardinality);
            }
            QString is_navigable = clean(roleNode->findAttribute("is_navigable").string);
            if (is_navigable == "FALSE") {
                assoc->setAssociationType(Uml::AssociationType::Association);
            }
            QString is_aggregate = clean(roleNode->findAttribute("is_aggregate").string);
            if (is_aggregate == "TRUE") {
                assoc->setAssociationType(Uml::AssociationType::Aggregation);
            }
            QString containment = clean(roleNode->findAttribute("Containment").string);
            if (containment == "By Value") {
                assoc->setAssociationType(Uml::AssociationType::Composition);
            }
            QString doc = roleNode->findAttribute("documentation").string;
            if (! doc.isEmpty())
                role->setDoc(doc);
        }
        UMLApp::app()->document()->addAssociation(assoc);

    } else {
        uDebug() << "umbrellify: object type " << objType
                 << " is not yet implemented";
    }
    return true;
}