use of org.osate.aadl2.ComponentPrototypeActual in project osate2 by osate.
the class ComponentPrototypeActualItemProvider method getText.
/**
* This returns the label text for the adapted class.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @generated
*/
public String getText(Object object) {
ComponentCategory labelValue = ((ComponentPrototypeActual) object).getCategory();
String label = labelValue == null ? null : labelValue.toString();
return label == null || label.length() == 0 ? getString("_UI_ComponentPrototypeActual_type") : getString("_UI_ComponentPrototypeActual_type") + " " + label;
}
use of org.osate.aadl2.ComponentPrototypeActual in project osate2 by osate.
the class InstanceUtil method getInstantiatedClassifier.
/**
* Get the component or feature group classifier that is instantiated by an
* instance object. Resolve prototypes if needed.
*
* @param iobj the instance object
* @param index the index of the instance object in an array
* @param classifierCache an optional cache of known instantiated
* classifiers, may be null
* @return the instantiated classifier together with bindings for anonymous
* classifiers
*/
public static InstantiatedClassifier getInstantiatedClassifier(InstanceObject iobj, int index, HashMap<InstanceObject, InstantiatedClassifier> classifierCache) {
InstantiatedClassifier ic = null;
if (classifierCache != null) {
final InstantiatedClassifier temp = classifierCache.get(iobj);
if (temp != null) {
return temp == InstantiatedClassifier.NULL ? null : temp;
}
}
if (iobj instanceof SystemInstance) {
ic = new InstantiatedClassifier(((SystemInstance) iobj).getComponentImplementation(), null);
}
if (ic == null) {
Classifier classifier = null;
EList<PrototypeBinding> prototypeBindings = null;
Prototype prototype = null;
if (iobj instanceof ComponentInstance) {
Subcomponent sub = ((ComponentInstance) iobj).getSubcomponent();
classifier = sub.getClassifier();
prototypeBindings = sub.getOwnedPrototypeBindings();
prototype = sub.getPrototype();
} else if (iobj instanceof FeatureInstance) {
FeatureType ft = ((FeatureGroup) ((FeatureInstance) iobj).getFeature()).getFeatureType();
classifier = (ft instanceof Classifier) ? (Classifier) ft : null;
prototype = (ft instanceof Prototype) ? (Prototype) ft : null;
} else {
return null;
}
if (classifier != null) {
ic = new InstantiatedClassifier(classifier, prototypeBindings);
}
// no classifier => try prototype
if (ic == null) {
if (prototype != null) {
// resolve prototype
if (prototype instanceof ComponentPrototype) {
ComponentPrototypeActual cpa = resolveComponentPrototype(prototype, iobj, classifierCache);
if (cpa != null) {
ic = new InstantiatedClassifier((ComponentClassifier) cpa.getSubcomponentType(), cpa.getBindings());
} else {
// ISSUE 986: If the constraining classifier is missing (null), then don't create an InstantiatedClassifier object
final ComponentClassifier cc = ((ComponentPrototype) prototype).getConstrainingClassifier();
if (cc != null) {
ic = new InstantiatedClassifier(cc, noBindings);
}
}
} else if (prototype instanceof FeatureGroupPrototype) {
FeatureGroupPrototypeActual fpa = resolveFeatureGroupPrototype(prototype, iobj, classifierCache);
if (fpa != null) {
ic = new InstantiatedClassifier((FeatureGroupType) fpa.getFeatureType(), fpa.getBindings());
} else {
ic = new InstantiatedClassifier(((FeatureGroupPrototype) prototype).getConstrainingFeatureGroupType(), noBindings);
}
}
}
}
}
if (classifierCache != null) {
classifierCache.put(iobj, ic == null ? InstantiatedClassifier.NULL : ic);
}
return ic;
}
use of org.osate.aadl2.ComponentPrototypeActual in project osate2 by osate.
the class FeatureReferenceBindingType method loadBindingData.
// Populate the model's data structure based on the specified bindings
protected void loadBindingData(final PrototypeBindingsModelNode parent, final Collection<PrototypeBinding> bindings) {
for (final PrototypeBinding b : bindings) {
// Create a new node for the binding
PrototypeBindingsModelNode newChild = new PrototypeBindingsModelNode(parent, b);
// Ignore null bindings
if (b == null) {
} else if (b instanceof ComponentPrototypeBinding) {
final List<ComponentPrototypeActual> actuals = ((ComponentPrototypeBinding) b).getActuals();
// If the actual specified multiple values, flag the model as having an unsupported value
if (actuals.size() == 1) {
final ComponentPrototypeActual actual = actuals.get(0);
if (actual != null) {
setNodeDataClassifier(newChild, actual.getSubcomponentType());
loadBindingData(newChild, actual.getBindings());
}
} else {
unsupportedValue = true;
return;
}
} else if (b instanceof FeatureGroupPrototypeBinding) {
final FeatureGroupPrototypeActual actual = ((FeatureGroupPrototypeBinding) b).getActual();
if (actual != null) {
setNodeDataClassifier(newChild, actual.getFeatureType());
loadBindingData(newChild, actual.getBindings());
}
} else if (b instanceof FeaturePrototypeBinding) {
final FeaturePrototypeActual actual = ((FeaturePrototypeBinding) b).getActual();
// Populate data based on the type of actual
if (actual == null) {
} else if (actual instanceof AccessSpecification) {
final AccessSpecification as = (AccessSpecification) actual;
data(newChild).direction = as.getKind();
data(newChild).type = new AccessSpecificationBindingType(as.getCategory());
setNodeDataClassifier(newChild, as.getClassifier());
} else if (actual instanceof FeaturePrototypeReference) {
final FeaturePrototypeReference fpr = (FeaturePrototypeReference) actual;
data(newChild).direction = fpr.getDirection();
data(newChild).type = new FeatureReferenceBindingType();
setNodeDataClassifier(newChild, fpr.getPrototype());
} else if (actual instanceof PortSpecification) {
final PortSpecification ps = (PortSpecification) actual;
data(newChild).direction = ps.getDirection();
data(newChild).type = new PortSpecificationBindingType(ps.getCategory());
setNodeDataClassifier(newChild, ps.getClassifier());
} else {
throw new RuntimeException("Unhandled feature prototype actual type: " + actual);
}
} else {
throw new RuntimeException("Unhandled prototype binding type: " + b);
}
}
}
use of org.osate.aadl2.ComponentPrototypeActual in project osate2 by osate.
the class Aadl2LinkingService method doGetLinkedObjects.
private List<EObject> doGetLinkedObjects(EObject context, EReference reference, INode node) throws IllegalNodeException {
NamedElement annex = AadlUtil.getContainingAnnex(context);
if (annex != null && !(reference == Aadl2Package.eINSTANCE.getModalElement_InMode())) {
String annexName = annex.getName();
if (annexName != null) {
if (annexlinkingserviceregistry == null) {
initAnnexLinkingServiceRegistry();
}
if (annexlinkingserviceregistry != null) {
AnnexLinkingService linkingservice = annexlinkingserviceregistry.getAnnexLinkingService(annexName);
if (linkingservice != null) {
return linkingservice.resolveAnnexReference(annexName, context, reference, node);
}
}
}
return Collections.<EObject>emptyList();
}
final EClass requiredType = reference.getEReferenceType();
if (requiredType == null) {
return Collections.<EObject>emptyList();
}
Aadl2Package.eINSTANCE.getPropertyType();
final EClass cl = Aadl2Package.eINSTANCE.getClassifier();
final EClass sct = Aadl2Package.eINSTANCE.getSubcomponentType();
final String name = getCrossRefNodeAsString(node);
if (sct.isSuperTypeOf(requiredType) || cl.isSuperTypeOf(requiredType)) {
// XXX: this code can be replicated in Aadl2LinkingService as it is called often in the core
// resolve classifier reference
EObject e = findClassifier(context, reference, name);
if (e != null) {
// the result satisfied the expected class
return Collections.singletonList(e);
}
if (!(context instanceof Generalization) && sct.isSuperTypeOf(requiredType)) {
// need to resolve prototype
Classifier containingClassifier = AadlUtil.getContainingClassifier(context);
/*
* This test was put here as a quick and dirty fix to a NullPointerException that was
* being thrown while typing up a component type renames statement. Need to figure out
* what we should really be doing for renames.
*/
if (containingClassifier != null) {
EObject res = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (Aadl2Package.eINSTANCE.getDataPrototype() == reference) {
if (res instanceof DataPrototype) {
return Collections.singletonList(res);
}
} else if (res instanceof ComponentPrototype) {
return Collections.singletonList(res);
}
}
}
return Collections.emptyList();
} else if (Aadl2Package.eINSTANCE.getFeatureClassifier().isSuperTypeOf(requiredType)) {
// prototype for feature or component, or data,bus,subprogram, subprogram group classifier
EObject e = findClassifier(context, reference, name);
if (Aadl2Util.isNull(e) && !(context instanceof Generalization) && !Aadl2Package.eINSTANCE.getComponentType().isSuperTypeOf(requiredType)) {
// look for prototype
e = AadlUtil.getContainingClassifier(context).findNamedElement(name);
// TODO-phf: this can be removed if the FeatureClassifier class handles it
if (!(e instanceof FeaturePrototype || e instanceof ComponentPrototype)) {
e = null;
}
}
if (e != null && requiredType.isSuperTypeOf(e.eClass())) {
return Collections.singletonList(e);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getFeaturePrototype() == requiredType) {
// look for prototype
EObject e = AadlUtil.getContainingClassifier(context).findNamedElement(name);
// TODO-phf: this can be removed if the FeatureClassifier class handles it
if (e instanceof FeaturePrototype) {
return Collections.singletonList(e);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getConnectionEnd() == requiredType) {
// resolve connection end
ConnectionEnd ce = null;
if (context.eContainer() instanceof ConnectedElement) {
ConnectedElement contextParent = (ConnectedElement) context.eContainer();
if (contextParent.getConnectionEnd() instanceof FeatureGroup) {
ce = findElementInContext(contextParent, (FeatureGroup) contextParent.getConnectionEnd(), name, ConnectionEnd.class);
}
} else {
ConnectedElement connectedElement = (ConnectedElement) context;
ce = findElementInContext(connectedElement, connectedElement.getContext(), name, ConnectionEnd.class);
}
if (ce != null) {
return Collections.singletonList((EObject) ce);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getTriggerPort() == requiredType) {
if (context instanceof ModeTransitionTrigger) {
ModeTransitionTrigger trigger = (ModeTransitionTrigger) context;
TriggerPort triggerPort = findElementInContext(trigger, trigger.getContext(), name, TriggerPort.class);
if (triggerPort != null) {
return Collections.singletonList((EObject) triggerPort);
}
}
return Collections.emptyList();
} else if (Aadl2Package.eINSTANCE.getPort().isSuperTypeOf(requiredType)) {
Classifier ns = AadlUtil.getContainingClassifier(context);
if (context instanceof Feature) {
// component being extended
if (ns.getExtended() != null) {
ns = ns.getExtended();
} else {
return Collections.emptyList();
}
// } else if (context instanceof ModeTransitionTrigger){
// // we are a mode transition trigger
// Context triggerContext = ((ModeTransitionTrigger)context).getContext();
// if (triggerContext instanceof Subcomponent){
// // look up the feature in the ComponentType
// ComponentType ct = ((Subcomponent)triggerContext).getComponentType();
// if (ct != null)
// ns = ct;
// }
// if (triggerContext instanceof FeatureGroup){
// // look up the feature in the FeaturegroupType
// FeatureGroupType ct = ((FeatureGroup)triggerContext).getFeatureGroupType();
// if (ct != null)
// ns = ct;
// }
}
EObject searchResult = AadlUtil.findNamedElementInList(ns.getAllFeatures(), name);
if (searchResult != null && searchResult instanceof Port) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getContext() == requiredType) {
// represents connection source/dest context as well as flowspec
// context
// also used in triggerport
EObject searchResult = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (searchResult instanceof Context) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getCallContext() == requiredType) {
EObject searchResult = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (searchResult != null && requiredType.isSuperTypeOf(searchResult.eClass())) {
return Collections.singletonList(searchResult);
}
searchResult = findClassifier(context, reference, name);
if (searchResult != null) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getCalledSubprogram() == requiredType) {
Classifier ns = AadlUtil.getContainingClassifier(context);
EObject searchResult;
if (!(context instanceof SubprogramCall) || (context instanceof SubprogramCall && ((SubprogramCall) context).getContext() == null)) {
// first check whether it is a reference to a classifier
searchResult = findClassifier(context, reference, name);
if (searchResult != null && requiredType.isSuperTypeOf(searchResult.eClass())) {
return Collections.singletonList(searchResult);
}
// if it was a qualified component type name it would have been found before
if (name.contains("::")) {
// Qualified classifier should have been found before
return Collections.<EObject>emptyList();
}
// no package qualifier. Look up in local name space, e.g., subprogram access feature or subprogram subcomponent
searchResult = ns.findNamedElement(name);
if (searchResult != null && requiredType.isSuperTypeOf(searchResult.eClass())) {
return Collections.singletonList(searchResult);
}
}
// lets first find it in its context
if (context instanceof SubprogramCall) {
// we have a context
// lets set it and find the called subprogram
SubprogramCall callSpec = (SubprogramCall) context;
CallContext callContext = callSpec.getContext();
if (callContext instanceof ComponentType) {
// first try to find subprogram implementation
ComponentType ct = (ComponentType) callContext;
String implname = ct.getQualifiedName() + "." + name;
searchResult = findClassifier(context, reference, implname);
if (searchResult != null && searchResult instanceof ComponentImplementation) {
return Collections.singletonList(searchResult);
}
ns = (ComponentType) callContext;
} else if (callContext instanceof SubprogramGroupSubcomponent) {
ns = ((SubprogramGroupSubcomponent) callContext).getComponentType();
if (Aadl2Util.isNull(ns)) {
return Collections.<EObject>emptyList();
}
} else if (callContext instanceof SubprogramGroupAccess && ((SubprogramGroupAccess) callContext).getKind() == AccessType.REQUIRES) {
SubprogramGroupSubcomponentType sst = ((SubprogramGroupAccess) callContext).getSubprogramGroupFeatureClassifier();
if (sst instanceof Classifier) {
ns = (Classifier) sst;
}
if (Aadl2Util.isNull(ns)) {
return Collections.<EObject>emptyList();
}
} else if (callContext instanceof FeatureGroup) {
ns = ((FeatureGroup) callContext).getFeatureGroupType();
if (Aadl2Util.isNull(ns)) {
return Collections.<EObject>emptyList();
}
}
searchResult = ns.findNamedElement(name);
if (!Aadl2Util.isNull(searchResult) && requiredType.isSuperTypeOf(searchResult.eClass())) {
return Collections.singletonList(searchResult);
}
// it might be a component implementation. The type is already recorded in the context
if (callContext instanceof SubprogramType) {
String contextName = ((SubprogramType) callContext).getName();
searchResult = findClassifier(context, reference, contextName + "." + name);
if (!Aadl2Util.isNull(searchResult)) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
}
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getPrototype() == requiredType) {
// if context prototype then find in extension source (refined)
// prototype binding as context
EObject searchResult = null;
Classifier ns = null;
if (context.eContainer() instanceof Subcomponent) {
Subcomponent sub = (Subcomponent) context.eContainer();
ns = sub.getAllClassifier();
if (!Aadl2Util.isNull(ns)) {
searchResult = ns.findNamedElement(name);
}
} else if (context.eContainer() instanceof ComponentPrototypeActual) {
ComponentPrototypeActual cpa = (ComponentPrototypeActual) context.eContainer();
SubcomponentType subT = cpa.getSubcomponentType();
if (subT instanceof ComponentClassifier) {
searchResult = ((ComponentClassifier) subT).findNamedElement(name);
}
} else if (context.eContainer() instanceof FeatureGroupPrototypeActual) {
FeatureGroupPrototypeActual cpa = (FeatureGroupPrototypeActual) context.eContainer();
FeatureType subT = cpa.getFeatureType();
if (subT instanceof FeatureGroupType) {
searchResult = ((FeatureGroupType) subT).findNamedElement(name);
}
} else if (context.eContainer() instanceof ComponentImplementationReference) {
ns = ((ComponentImplementationReference) context.eContainer()).getImplementation();
if (!Aadl2Util.isNull(ns)) {
searchResult = ns.findNamedElement(name);
}
} else {
// If resolving a prototype binding formal, don't resolve to a local prototype. Go to the generals.
// We could be in a prototype refinement. Go to the generals so that we don't resolve to context.
ns = AadlUtil.getContainingClassifier(context);
for (Iterator<Classifier> iter = ns.getGenerals().iterator(); searchResult == null && iter.hasNext(); ) {
searchResult = iter.next().findNamedElement(name);
}
}
if (!Aadl2Util.isNull(searchResult) && searchResult instanceof Prototype) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getFlowElement() == requiredType) {
// look for flow element in flow segment
FlowSegment fs = (FlowSegment) context;
FlowElement flowElement = findElementInContext(fs, fs.getContext(), name, FlowElement.class);
if (flowElement != null) {
return Collections.singletonList((EObject) flowElement);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getEndToEndFlowElement() == requiredType) {
// look for flow element in flow segment
EndToEndFlowSegment fs = (EndToEndFlowSegment) context;
EndToEndFlowElement flowElement = findElementInContext(fs, fs.getContext(), name, EndToEndFlowElement.class);
if (flowElement != null) {
return Collections.singletonList((EObject) flowElement);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getModeTransition() == requiredType) {
// referenced by in modes
EObject searchResult = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (searchResult != null && searchResult instanceof ModeTransition) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getModeFeature() == requiredType) {
// referenced by inmodes in connections and flows
EObject searchResult = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (searchResult != null && searchResult instanceof ModeFeature) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getFlowSpecification() == requiredType) {
// refined flow spec
// referenced by flow implementation
// also referenced in flow elements in impl and etef
Classifier ns = AadlUtil.getContainingClassifier(context);
if (context instanceof FlowSpecification) {
// we need to resolve a refinement
if (ns.getExtended() != null) {
ns = ns.getExtended();
} else {
return Collections.emptyList();
}
}
EObject searchResult = ns.findNamedElement(name);
if (searchResult != null && searchResult instanceof FlowSpecification) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getEndToEndFlow() == requiredType) {
// refined flow spec
// referenced by flow implementation
// also referenced in flow elements in impl and etef
Classifier ns = AadlUtil.getContainingClassifier(context);
if (context instanceof EndToEndFlow) {
// we need to resolve a refinement
if (ns.getExtended() != null) {
ns = ns.getExtended();
} else {
return Collections.emptyList();
}
}
EObject searchResult = ns.findNamedElement(name);
if (searchResult != null && searchResult instanceof EndToEndFlow) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getConnection() == requiredType) {
// refined to, flow elements
Classifier ns = AadlUtil.getContainingClassifier(context);
if (context instanceof Connection) {
// we need to resolve a refinement
if (ns.getExtended() != null) {
ns = ns.getExtended();
} else {
return Collections.emptyList();
}
}
EObject searchResult = ns.findNamedElement(name);
if (searchResult != null && searchResult instanceof Connection) {
return Collections.singletonList(searchResult);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getFeatureType() == requiredType) {
// feature group type or prototype
FeatureGroupType fgt = findFeatureGroupType(context, name, reference);
if (Aadl2Util.isNull(fgt)) {
// need to resolve prototype
EObject res = AadlUtil.getContainingClassifier(context).findNamedElement(name);
if (res instanceof FeatureGroupPrototype) {
return Collections.singletonList(res);
}
} else {
return Collections.singletonList((EObject) fgt);
}
return Collections.<EObject>emptyList();
} else if (Aadl2Package.eINSTANCE.getArraySizeProperty() == requiredType) {
// reference to a property constant or property
// look for property definition in property set
List<EObject> result = findPropertyDefinitionAsList(context, reference, name);
if (result.isEmpty()) {
result = findPropertyConstant(context, reference, name);
}
return result;
} else {
List<EObject> res = super.getLinkedObjects(context, reference, node);
return res;
}
}
Aggregations