/**
* Returns the destination of a relation. The destination of a relation is defined as the
* modelelement that receives this relation. If there are more then 1 destinations, only the first
* is returned. If there is no destination, null is returned. Examples of sources include
* classifiers that are types to associationends, usecases that are bases to extend and include
* relations and so on. In the case of an association, the destination is defined as the type of
* the second element in the connections list.
*
* @param relation
* @return MModelElement
*/
public MModelElement getDestination(MRelationship relation) {
if (relation instanceof MAssociation) {
MAssociation assoc = (MAssociation) relation;
List conns = assoc.getConnections();
if (conns.size() <= 1) return null;
return ((MAssociationEnd) conns.get(1)).getType();
}
if (relation instanceof MGeneralization) {
MGeneralization gen = (MGeneralization) relation;
return gen.getChild();
}
if (relation instanceof MDependency) {
MDependency dep = (MDependency) relation;
Collection col = dep.getClients();
if (col.isEmpty()) return null;
return (MModelElement) (col.toArray())[0];
}
if (relation instanceof MFlow) {
MFlow flow = (MFlow) relation;
Collection col = flow.getTargets();
if (col.isEmpty()) return null;
return (MModelElement) (col.toArray())[0];
}
if (relation instanceof MExtend) {
MExtend extend = (MExtend) relation;
return extend.getBase();
}
if (relation instanceof MInclude) {
MInclude include = (MInclude) relation;
return include.getAddition();
}
return null;
}
public void gotoOther() {
Object target = getTarget();
if (target instanceof MAssociationEnd) {
MAssociationEnd end = (MAssociationEnd) target;
MAssociation assoc = end.getAssociation();
Collection connections = assoc.getConnections();
Iterator iter = connections.iterator();
Object other = null;
Object item = null;
//
// always go to the one before match or to end
//
while (iter.hasNext()) {
item = iter.next();
if (item == end) {
if (other != null) {
navigateTo(other);
return;
}
} else {
other = item;
}
}
//
// if previous end was the first, then navigate to the last
navigateTo(other);
}
}
/**
* Returns the source of a relation. The source of a relation is defined as the modelelement that
* propagates this relation. If there are more then 1 sources, only the first is returned. If
* there is no source, null is returned. Examples of sources include classifiers that are types to
* associationends, usecases that are bases to extend and include relations and so on.
*
* @param relation
* @return MModelElement
*/
public MModelElement getSource(MRelationship relation) {
if (relation instanceof MAssociation) {
MAssociation assoc = (MAssociation) relation;
List conns = assoc.getConnections();
if (conns.isEmpty()) return null;
return ((MAssociationEnd) conns.get(0)).getType();
}
if (relation instanceof MGeneralization) {
MGeneralization gen = (MGeneralization) relation;
return gen.getParent();
}
if (relation instanceof MDependency) {
MDependency dep = (MDependency) relation;
Collection col = dep.getSuppliers();
if (col.isEmpty()) return null;
return (MModelElement) (col.toArray())[0];
}
if (relation instanceof MFlow) {
MFlow flow = (MFlow) relation;
Collection col = flow.getSources();
if (col.isEmpty()) return null;
return (MModelElement) (col.toArray())[0];
}
if (relation instanceof MExtend) {
MExtend extend = (MExtend) relation;
return extend.getExtension(); // we have to follow the arrows..
}
if (relation instanceof MInclude) {
MInclude include = (MInclude) relation;
return include.getBase();
}
return null;
}
protected MNamespace getDisplayNamespace(Object target) {
MNamespace ns = null;
if (target instanceof MAssociationEnd) {
MAssociationEnd end = (MAssociationEnd) target;
MAssociation assoc = end.getAssociation();
if (assoc != null) {
ns = assoc.getNamespace();
}
}
return ns;
}
/**
* Gets the associations between the classifiers from and to. Returns null if from or to is null
* or if there is no association between them.
*
* @param from
* @param to
* @return MAssociation
*/
public Collection getAssociations(MClassifier from, MClassifier to) {
Set ret = new HashSet();
if (from == null || to == null) return ret;
Iterator it = from.getAssociationEnds().iterator();
while (it.hasNext()) {
MAssociationEnd end = (MAssociationEnd) it.next();
MAssociation assoc = end.getAssociation();
Iterator it2 = assoc.getConnections().iterator();
while (it2.hasNext()) {
MAssociationEnd end2 = (MAssociationEnd) it2.next();
if (end2.getType() == to) {
ret.add(assoc);
}
}
}
return ret;
}
/**
* Gets all classifiers that are associated to the given classifier (have an association
* relationship with the classifier).
*
* @param classifier
* @return Collection
*/
public Collection getAssociatedClassifiers(MClassifier classifier) {
if (classifier == null) return new ArrayList();
List list = new ArrayList();
Iterator it = classifier.getAssociationEnds().iterator();
while (it.hasNext()) {
MAssociationEnd end = (MAssociationEnd) it.next();
MAssociation assoc = end.getAssociation();
Iterator it2 = assoc.getConnections().iterator();
while (it2.hasNext()) {
MAssociationEnd end2 = (MAssociationEnd) it2.next();
if (end2 != end) {
list.add(end2.getType());
}
}
}
return list;
}
/**
* Returns the associationend between some classifier type and some associaton assoc.
*
* @param type
* @param assoc
* @return MAssociationEnd
*/
public MAssociationEnd getAssociationEnd(MClassifier type, MAssociation assoc) {
if (type == null || assoc == null) return null;
Iterator it = type.getAssociationEnds().iterator();
while (it.hasNext()) {
MAssociationEnd end = (MAssociationEnd) it.next();
if (assoc.getConnections().contains(end)) return end;
}
return null;
}
/**
* Deletes the association end. If the associationend's owner (the association) has one
* associationend left after this delete, it is also deleted.
*/
public void removeElement() {
MAssociationEnd end = (MAssociationEnd) getTarget();
MAssociation assoc = end.getAssociation();
Collection ends = assoc.getConnections();
if (ends.size() > 2) {
Iterator it =
ProjectBrowser.TheInstance.getProject()
.findFigsForMember(end.getAssociation())
.iterator();
while (it.hasNext()) {
// should do here something if the association end is shown
}
UmlFactory.getFactory().delete(end);
navigateTo(assoc);
} else {
ProjectBrowser.TheInstance.setDetailsTarget(assoc);
ActionRemoveFromModel.SINGLETON.actionPerformed(new ActionEvent(this, 0, null));
}
}
/** Return a Fig that can be used to represent the given edge */
public FigEdge getFigEdgeFor(GraphModel gm, Layer lay, Object edge) {
if (edge instanceof MDependency) {
MDependency dep = (MDependency) edge;
FigDependency depFig = new FigDependency(dep);
MModelElement supplier = (MModelElement) ((dep.getSuppliers().toArray())[0]);
MModelElement client = (MModelElement) ((dep.getClients().toArray())[0]);
FigNode supFN = (FigNode) lay.presentationFor(supplier);
FigNode cliFN = (FigNode) lay.presentationFor(client);
depFig.setSourcePortFig(cliFN);
depFig.setSourceFigNode(cliFN);
depFig.setDestPortFig(supFN);
depFig.setDestFigNode(supFN);
depFig.getFig().setLayer(lay);
depFig.getFig().setDashed(true);
return depFig;
}
if (edge instanceof MAssociation) {
MAssociation asc = (MAssociation) edge;
FigAssociation ascFig = new FigAssociation(asc, lay);
Collection connections = asc.getConnections();
if (connections == null) System.out.println("null connections....");
Object[] connArray = connections.toArray();
MAssociationEnd fromEnd = (MAssociationEnd) connArray[0];
MClassifier fromCls = (MClassifier) fromEnd.getType();
MAssociationEnd toEnd = (MAssociationEnd) connArray[1];
MClassifier toCls = (MClassifier) toEnd.getType();
FigNode fromFN = (FigNode) lay.presentationFor(fromCls);
FigNode toFN = (FigNode) lay.presentationFor(toCls);
ascFig.setSourcePortFig(fromFN);
ascFig.setSourceFigNode(fromFN);
ascFig.setDestPortFig(toFN);
ascFig.setDestFigNode(toFN);
ascFig.getFig().setLayer(lay);
return ascFig;
}
return null;
}
public Enumeration gen(Object o) {
Vector res = new Vector();
if (!(o instanceof MClassifier)) return res.elements();
MClassifier cls = (MClassifier) o;
Vector ends = new Vector(cls.getAssociationEnds());
if (ends == null) return res.elements();
Iterator enum = ends.iterator();
while (enum.hasNext()) {
MAssociationEnd ae = (MAssociationEnd) enum.next();
if (MAggregationKind.COMPOSITE.equals(ae.getAggregation())) {
MAssociation asc = ae.getAssociation();
List conn = asc.getConnections();
if (conn == null || conn.size() != 2) continue;
Object otherEnd = (ae == conn.get(0)) ?
conn.get(1) : conn.get(0);
MClassifier componentClass = ((MAssociationEnd)otherEnd).getType();
res.add(componentClass);
}
}
return res.elements();
}
public Vector getChildren(Object parent) {
if (!(parent instanceof MClass)) return null;
Vector res = new Vector();
Vector ends = new Vector(((MClass)parent).getAssociationEnds());
if (ends == null) return null;
java.util.Enumeration enum = ends.elements();
while (enum.hasMoreElements()) {
MAssociationEnd ae = (MAssociationEnd) enum.nextElement();
MAssociation asc = ae.getAssociation();
Vector allEnds = new Vector( asc.getConnections());
MAssociationEnd otherEnd = null;
if (ae == allEnds.elementAt(0))
otherEnd = (MAssociationEnd) allEnds.elementAt(1);
if (ae == allEnds.elementAt(1))
otherEnd = (MAssociationEnd) allEnds.elementAt(0);
if (otherEnd == null) continue;
if (!otherEnd.isNavigable()) continue;
if (res.contains(otherEnd.getType())) continue;
res.addElement(otherEnd.getType());
// needs-more-work: handle n-way Associations
}
return res;
}
private boolean isValidNamespace(MAssociation assoc, MNamespace ns) {
Iterator it = assoc.getConnections().iterator();
List namespaces = new ArrayList();
while (it.hasNext()) {
MAssociationEnd end = (MAssociationEnd) it.next();
namespaces.add(end.getType().getNamespace());
}
it = namespaces.iterator();
while (it.hasNext()) {
MNamespace ns1 = (MNamespace) it.next();
if (it.hasNext()) {
MNamespace ns2 = (MNamespace) it.next();
if (ns == getFirstSharedNamespace(ns1, ns2)) return true;
}
}
return false;
}