protected String getTargetOS(InstanceSpecification node) { Target target = UMLUtil.getStereotypeApplication(node, Target.class); if (target == null) { // get information from node referenced by the instance target = UMLUtil.getStereotypeApplication(DepUtils.getClassifier(node), Target.class); } if (target != null) { OperatingSystem os = target.getUsedOS(); if (os != null) { return os.getBase_Class().getName(); } } return null; }
/** * Is this property a DataFlow Port * * @param port * @return is this a DataFlow port ? */ public static Boolean isDataFlowPort(Port port) { DataFlowPort dfp = UMLUtil.getStereotypeApplication(port, DataFlowPort.class); if (dfp == null) { return false; } return true; }
/** * Checks if is correct graphical view. * * @param connectorEnd a connector end * @param view a view * @return <code>true</code> if the view represents the role of the connector AND if the view is * encapsulated as required by the nested path of the connector end */ protected boolean isCorrectGraphicalView(final ConnectorEnd connectorEnd, final View view) { final NestedConnectorEnd nestedConnectorEnd = org.eclipse.uml2.uml.util.UMLUtil.getStereotypeApplication( connectorEnd, NestedConnectorEnd.class); final Property partWithPort = connectorEnd.getPartWithPort(); // final ConnectableElement role = end.getRole(); // 1. we get the top view of this view with the same semantic element View localView = getTopViewWithSameSemanticElement(view); // 2. we verify the part with port if (partWithPort != null) { View parent = getTopViewWithSameSemanticElement(ViewUtil.getViewContainer(localView)); if (parent.getElement() != partWithPort) { return false; } } // 3. we verify the nested path if (nestedConnectorEnd != null && nestedConnectorEnd.getPropertyPath().size() > 0) { View parent = view; final List<Property> paths = nestedConnectorEnd.getPropertyPath(); for (int i = paths.size() - 1; i >= 0; i--) { final Property currentProperty = paths.get(i); parent = getTopViewWithSameSemanticElement(ViewUtil.getViewContainer(parent)); if (parent.getElement() != currentProperty) { return false; } } } return true; }
/** * Tell if the ActivityPartition is a AllocateActivityPartition implementation * * @param ActivityPartition * @return * @generated */ protected Boolean isAllocateActivityPartitionFromActivityPartition( ActivityPartition activityPartition_) { if (UMLUtil.getStereotypeApplication(activityPartition_, AllocateActivityPartition.class) != null) { return true; } return false; }
public static Boolean hasNativeImplementation(org.eclipse.uml2.uml.Class c) { org.eclipse.papyrus.RobotML.System sys = org.eclipse.uml2.uml.util.UMLUtil.getStereotypeApplication( c, org.eclipse.papyrus.RobotML.System.class); if (sys == null) { return false; } return sys.isNative(); }
public static int getOutputPortBufferSize(Port p) { org.eclipse.papyrus.RobotML.DataFlowPort dfp = org.eclipse.uml2.uml.util.UMLUtil.getStereotypeApplication( p, org.eclipse.papyrus.RobotML.DataFlowPort.class); if (dfp == null) { return 0; } return dfp.getBufferSize(); }
public static String getNativeComponentNameForComponent(org.eclipse.uml2.uml.Class c) { org.eclipse.papyrus.RobotML.System sys = org.eclipse.uml2.uml.util.UMLUtil.getStereotypeApplication( c, org.eclipse.papyrus.RobotML.System.class); if (sys == null) { return null; } return sys.getLibraryComponentName(); }
/** * Bind C++ const initializer * * @param operation * @param actual * @throws TransformationException */ public static void bindOperation(Operation operation, Classifier actual) throws TransformationException { // perform binding in case of C++ initializer ConstInit cppConstInit = UMLUtil.getStereotypeApplication(operation, ConstInit.class); if (cppConstInit != null) { // TODO: specific to C++ String init = cppConstInit.getInitialisation(); String newInit = AcceleoDriverWrapper.bind(init, actual); cppConstInit.setInitialisation(newInit); } }
public boolean matches(EObject eObject) { boolean isMatch = false; if (eObject instanceof Comment) { Comment element = (Comment) eObject; if (UMLUtil.getStereotypeApplication(element, Rationale.class) != null) { isMatch = true; } } return isMatch; }
public boolean matches(EObject eObject) { boolean isMatch = false; if (eObject instanceof Dependency) { Dependency element = (Dependency) eObject; if (UMLUtil.getStereotypeApplication(element, Conform.class) != null) { isMatch = true; } } return isMatch; }
/** * For DataFlow ports: is it an Output Port ? * * @param port * @return false if the port is not a DataFlowPort or not an input/output port. */ public static Boolean isAnInputOutputPort(Port port) { try { DataFlowPort dfp = UMLUtil.getStereotypeApplication(port, DataFlowPort.class); if (dfp == null) { return false; } if (dfp.getDirection() == DataFlowDirectionKind.INOUT) { return true; } return false; } catch (Exception e) { java.lang.System.out.println("EXCEPTION caught:" + e.toString()); } return false; }
/** * For RobotML ServicePorts: is the port a "Required" port? * * @param port * @return false if the port is not a ServicePort or not a "Required" ServicePort. */ public static Boolean isARequiredPort(Port port) { try { ServicePort sp = UMLUtil.getStereotypeApplication(port, ServicePort.class); if (sp == null) { return false; } if (sp.getKind() == ServiceFlowKind.REQUIRED) { return true; } return false; } catch (Exception e) { java.lang.System.out.println("EXCEPTION caught:" + e.toString()); } return false; }
public boolean matches(EObject eObject) { boolean isFlowPort_NA = false; if (eObject instanceof Port) { Port port = (Port) eObject; FlowPort flowPort = UMLUtil.getStereotypeApplication(port, FlowPort.class); if ((flowPort != null) && (!flowPort.isAtomic())) { isFlowPort_NA = true; } } return isFlowPort_NA; }
/** * * <!-- begin-user-doc --> * <!-- end-user-doc --> * * @generated NOT */ @Override public EList<FeatureModel> getTechnicalFeatureModel() { EList<FeatureModel> results = new BasicEList<FeatureModel>(); FeatureModel adlFeatureModel = null; if (getBase_NamedElement() != null) { Iterator<Element> it = getBase_NamedElement().getOwnedElements().iterator(); while (it.hasNext()) { Element element = it.next(); adlFeatureModel = UMLUtil.getStereotypeApplication(element, FeatureModel.class); if (adlFeatureModel != null) { results.add(adlFeatureModel); } } } return new BasicInternalEList<FeatureModel>( FeatureModel.class, results.size(), results.toArray()); }
/** {@inheritDoc} */ public boolean matches(EObject eObject) { boolean isMatch = false; if ((eObject instanceof Property) && !(eObject instanceof Port)) { Property element = (Property) eObject; // The property is necessary a composition and has a type if ((element.getType() != null) && (element.getAggregation() == AggregationKind.COMPOSITE_LITERAL)) { // Moreover its type has to be a Block if (UMLUtil.getStereotypeApplication(element.getType(), Block.class) != null) { isMatch = true; } } } return isMatch; }
/** {@inheritDoc} */ @Override protected Diagram doCreateDiagram( Resource diagramResource, EObject owner, EObject element, ViewPrototype prototype, String name) { // Start of user code Custom diagram creation Diagram diagram = null; org.eclipse.uml2.uml.Class cOwner = (org.eclipse.uml2.uml.Class) element; Block block = UMLUtil.getStereotypeApplication(cOwner, Block.class); if (block != null) { canvasDomainElement = (EObject) element; Package owningPackage = ((Element) element).getNearestPackage(); diagram = super.doCreateDiagram(diagramResource, owner, owningPackage, prototype, name); } return diagram; // End of user code }
/** * Bind a named element. Besides of binding the passed element, this operation will bind all * elements that are referenced (required) by the passed element. * * <p>In consequence, typically only a small part of a package template is actually created within * the bound package. We call this mechanism lazy instantiation/binding * * @param copier Source and target model * @param namedElement A member within the package template which should be bound, i.e. for which * template instantiation should be performed. * @param binding The binding between the bound package and the package template * @param args Acceleo arguments */ @SuppressWarnings("unchecked") public <T extends NamedElement> T bindNamedElement(T namedElement) throws TransformationException { if (namedElement == null) { // user should never see this exception throw new TransformationException(Messages.TemplateInstantiation_TemplateIsNull); } Package boundPackage = (Package) binding.getBoundElement(); EList<Namespace> path = TemplateUtils.relativePathWithMerge(namedElement, packageTemplate); Template template = UMLUtil.getStereotypeApplication(namedElement, Template.class); BindingHelper helper = (template != null) ? template.getHelper() : null; /* if((templateKind == TemplateKind.ACCUMULATE) || (templateKind == TemplateKind.LATE_EVALUATION)) { // TODO: not very clean yet path = TemplateUtils.relativePathWithMerge(namedElement, copy.source); if(path == null) { // element is imported path = namedElement.allNamespaces(); } boundPackage = copy.target; // CreationUtils.getAndCreate // (sat.target, "accumulate"); } */ if (path != null) { // register owning package template (template can be defined in // multiple packages) Element owner = TemplateUtils.getTemplateOwner(namedElement, signature); if (owner != null) { // note that we might overwrite an existing value copier.put(owner, boundPackage); } } else { // element is not part of the package template referenced by the // binding if (namedElement instanceof TemplateableElement) { // check whether the referenced element is part of another // package template, // (for which we allow for implicit binding with the first // template parameter) TemplateSignature signatureOfNE = TemplateUtils.getSignature((TemplateableElement) namedElement); if ((signatureOfNE != null) && (signature != signatureOfNE)) { TemplateBinding subBinding = TemplateUtils.getSubBinding( copier.target, (TemplateableElement) namedElement, binding); TemplateInstantiation ti = new TemplateInstantiation(copier, subBinding, args); NamedElement ret = ti.bindNamedElement(namedElement); return (T) ret; } } // => nothing to do with respect to template instantiation, but // since the template is potentially instantiated in another model, // the referenced element might need to be copied. return copier.getCopy(namedElement); } // element is contained in the template package, examine whether it // already exists in the // bound package. NamedElement existingMember = (NamedElement) copier.get(namedElement); /* if((existingMember != null) && (templateKind != TemplateKind.ACCUMULATE)) { // element is already existing (and thus bound), nothing to do // additional check, whether the ACCUMULATE information is unset) // however: if the element is a package, existence is not sufficient // since it might have been created via getAndCreate above //if(namedElement instanceof Package) { // bindPackage((Package)namedElement); //} return (T)existingMember; } */ if (existingMember == null) { FilterTemplate.getInstance().setActive(false); T copiedElement = copier.getCopy(namedElement); FilterTemplate.getInstance().setActive(true); copier.setPackageTemplate(null, null); return copiedElement; } return (T) existingMember; }
/** * Is this property a Service Port * * @param port * @return is this a service port ? */ public static Boolean isServicePort(Port port) { ServicePort serviceport = UMLUtil.getStereotypeApplication(port, ServicePort.class); return serviceport != null; }
/** * Tell if the Abstraction is a Allocate implementation * * @param Abstraction * @return * @generated */ protected Boolean isAllocateFromAbstraction(Abstraction abstraction_) { if (UMLUtil.getStereotypeApplication(abstraction_, Allocate.class) != null) { return true; } return false; }
/** * Tell if the NamedElement is a Allocated implementation * * @param NamedElement * @return * @generated */ protected Boolean isAllocatedFromNamedElement(NamedElement namedElement_) { if (UMLUtil.getStereotypeApplication(namedElement_, Allocated.class) != null) { return true; } return false; }