public Collection<StructuredType> getAllBindableElements(ServiceDTO dto) { // Collect all entities and dtos Collection<StructuredType> bindableElements = new ArrayList<StructuredType>(); // First, get all semantic resources in session Collection<Resource> semanticResources = EcoreService.getAllSemanticResourcesInSession(dto); for (Resource resource : semanticResources) { TreeIterator<EObject> iterator = EcoreUtil.getAllContents(resource, true); while (iterator.hasNext()) { EObject eObject = (EObject) iterator.next(); if (eObject instanceof ServiceDTO || eObject instanceof Entity) { if (!eObject.equals(dto)) { bindableElements.add((StructuredType) eObject); } } else if (!(eObject instanceof Root || eObject instanceof Block || eObject instanceof org.obeonetwork.dsl.overview.Root || eObject instanceof System || eObject instanceof DTORegistry || eObject instanceof Category)) { iterator.prune(); } } } return bindableElements; }
protected List<EPackageInfo> createEPackageInfosFromGenModel( URI genModelURI, Resource genModelResource) { // ResourceSet resourceSet = createResourceSet(genModelURI); // Resource resource = resourceSet.getResource(genModelURI, true); List<EPackageInfo> ePackageInfos = Lists.newArrayList(); for (TreeIterator<EObject> i = genModelResource.getAllContents(); i.hasNext(); ) { EObject next = i.next(); if (next instanceof GenPackage) { GenPackage genPackage = (GenPackage) next; EPackage ePackage = genPackage.getEcorePackage(); URI importURI; if (ePackage.eResource() == null) { importURI = URI.createURI(ePackage.getNsURI()); } else { importURI = ePackage.eResource().getURI(); } EPackageInfo ePackageInfo = new EPackageInfo( ePackage, importURI, genModelURI, genPackage.getQualifiedPackageInterfaceName(), genPackage.getGenModel().getModelPluginID()); ePackageInfos.add(ePackageInfo); } else if (!(next instanceof GenModel)) { i.prune(); } } return ePackageInfos; }
private Collection<StructuredType> getAllStructuredTypes(EObject any) { // Collect all structured types Collection<StructuredType> structuredTypes = new ArrayList<StructuredType>(); // First, get all semantic resources in session Collection<Resource> semanticResources = getAllSemanticResourcesInSession(any); for (Resource resource : semanticResources) { TreeIterator<EObject> iterator = EcoreUtil.getAllContents(resource, true); while (iterator.hasNext()) { EObject eObject = (EObject) iterator.next(); if (eObject instanceof StructuredType) { structuredTypes.add((StructuredType) eObject); } else { if (!(eObject instanceof TypesDefinition || eObject instanceof NamespacesContainer || isOverviewRootInstance(eObject))) { iterator.prune(); } } } } return structuredTypes; }
@SuppressWarnings("unchecked") protected void createEntryExitPoints(Diagram subdiagram) { TreeIterator<EObject> eAllContents = subdiagram.eAllContents(); List<Edge> entryPointsToCreate = new ArrayList<Edge>(); List<Edge> exitPointstoCreate = new ArrayList<Edge>(); while (eAllContents.hasNext()) { EObject next = eAllContents.next(); if (next instanceof View) { EList<Edge> targetEdges = ((View) next).getTargetEdges(); for (Edge edge : targetEdges) { if (!EcoreUtil.isAncestor(subdiagram, edge.getSource())) entryPointsToCreate.add(edge); } EList<Edge> sourceEdges = ((View) next).getSourceEdges(); for (Edge edge : sourceEdges) { if (!EcoreUtil.isAncestor(subdiagram, edge.getTarget())) exitPointstoCreate.add(edge); } } } for (Edge edge : entryPointsToCreate) { createEntryPoint(edge, subdiagram); } for (Edge edge : exitPointstoCreate) { createExitPoint(edge, subdiagram); } }
@Check(CheckType.FAST) public void checkValueReferenedBeforeDefined(Scope scope) { EList<Declaration> declarations = scope.getDeclarations(); Set<QualifiedName> defined = Sets.newHashSet(); for (Declaration declaration : declarations) { if (declaration instanceof VariableDefinition) { VariableDefinition definition = (VariableDefinition) declaration; if (!definition.isConst()) return; Expression initialValue = definition.getInitialValue(); List<Expression> toCheck = Lists.newArrayList(initialValue); TreeIterator<EObject> eAllContents = initialValue.eAllContents(); while (eAllContents.hasNext()) { EObject next = eAllContents.next(); if (next instanceof Expression) toCheck.add((Expression) next); } for (Expression expression : toCheck) { EObject referencedObject = null; if (expression instanceof FeatureCall) referencedObject = ((FeatureCall) expression).getFeature(); else if (expression instanceof ElementReferenceExpression) referencedObject = ((ElementReferenceExpression) expression).getReference(); if (referencedObject instanceof VariableDefinition) { if (!defined.contains(nameProvider.getFullyQualifiedName(referencedObject))) error( REFERENCE_CONSTANT_BEFORE_DEFINED, definition, StextPackage.Literals.VARIABLE_DEFINITION__INITIAL_VALUE); } } defined.add(nameProvider.getFullyQualifiedName(definition)); } } }
@Override public String toString() { List<ITextSegment> list = toTokenAndGapList(); if (list.isEmpty()) return "(empty)"; Multimap<IHiddenRegion, IEObjectRegion> hiddens = LinkedListMultimap.create(); List<String> errors = Lists.newArrayList(); ITextRegionAccess access = list.get(0).getTextRegionAccess(); TreeIterator<EObject> all = EcoreUtil2.eAll(access.regionForRootEObject().getSemanticElement()); while (all.hasNext()) { EObject element = all.next(); IEObjectRegion obj = access.regionForEObject(element); if (obj == null) continue; IHiddenRegion previous = obj.getPreviousHiddenRegion(); IHiddenRegion next = obj.getNextHiddenRegion(); if (previous == null) errors.add("ERROR: " + EmfFormatter.objPath(element) + " has no leading HiddenRegion."); else hiddens.put(previous, obj); if (previous != next) { if (next == null) errors.add("ERROR: " + EmfFormatter.objPath(element) + " has no trailing HiddenRegion."); else hiddens.put(next, obj); } } TextRegionListToString result = new TextRegionListToString(); if (!hideColumnExplanation) { result.add("Columns: 1:offset 2:length 3:kind 4: text 5:grammarElement", false); result.add("Kind: H=IHiddenRegion S=ISemanticRegion B/E=IEObjectRegion", false); result.add("", false); } for (String error : errors) result.add(error, false); int indentation = 0; for (ITextSegment region : list) { List<IEObjectRegion> previous = Lists.newArrayList(); List<IEObjectRegion> next = Lists.newArrayList(); List<String> middle = Lists.newArrayList(toString(region)); if (region instanceof IHiddenRegion) { Collection<IEObjectRegion> found = hiddens.get((IHiddenRegion) region); for (IEObjectRegion obj : found) { boolean p = obj.getNextHiddenRegion().equals(region); boolean n = obj.getPreviousHiddenRegion().equals(region); if (p && n) middle.add(EMPTY_TITLE + "Semantic " + toString(obj)); else if (p) previous.add(obj); else if (n) next.add(obj); } Collections.sort(previous, AstRegionComparator.CHILDREN_FIRST); Collections.sort(next, AstRegionComparator.CONTAINER_FIRST); } for (IEObjectRegion obj : previous) { indentation--; result.add(indent(indentation) + EOBJECT_END_PADDED + toString(obj)); } String indent = indent(indentation); result.add(region, indent + Joiner.on("\n").join(middle).replace("\n", "\n" + indent)); for (IEObjectRegion obj : next) { result.add(indent(indentation) + EOBJECT_BEGIN_PADDED + toString(obj)); indentation++; } } return result.toString(); }
protected void fillRequirements(RequirementSource requirementSource) throws Exception { requirementSource.clearContent(); Collection<MappingElement> mapping = requirementSource.getMappings(); ResourceSet resourceSet = new ResourceSetImpl(); String repositoryUri = requirementSource.getRepositoryUri(); Resource resource = resourceSet.getResource(URI.createPlatformResourceURI(repositoryUri, true), true); OCLEvaluator evaluator = ZigguratOCLPlugin.compileOCL( resourceSet, URI.createPlatformResourceURI(bean.getOclUri(), true)); TreeIterator<EObject> contents = resource.getAllContents(); Collection<IRequirementType> requirementTypes = bean.getDataPackage().getRequirementTypes(); while (contents.hasNext()) { EObject eObject = contents.next(); for (IRequirementType reqType : requirementTypes) { if (OCLUtilities.isDataType(evaluator, eObject, reqType)) { AbstractElement requirement = createRequirement(evaluator, mapping, eObject, reqType); dataManager.addElementsToSource(requirementSource, requirement); } } } }
// // Create the ResultValidatableNode,ResultConstrainingNode cross-linkage for all // validateableObject,constraint pairs. // protected void createResults(@NonNull Set<Resource> resources) { for (Resource resource : resources) { System.out.println("createResults " + resource.getURI()); System.out.println(resource); for (TreeIterator<EObject> tit = resource.getAllContents(); tit.hasNext(); ) { @SuppressWarnings("null") @NonNull EObject eObject = tit.next(); EClass eClass = eObject.eClass(); EAnnotation eAnnotation = eClass.getEAnnotation("http://www.eclipse.org/uml2/2.0.0/UML"); if ((eAnnotation != null) && (eAnnotation.getReferences().size() > 0)) { // Stereotype application EObject umlClass = eAnnotation.getReferences().get(0); if (umlClass != null) { createResultNodes(eObject, getURI(umlClass)); // eClass = null; } } else if (eClass != null) { for (@SuppressWarnings("null") @NonNull URI aType : getTypeClosure(eClass)) { // System.out.println(" ... " + getLabel(eObject) + " " + getLabel(aType)); createResultNodes(eObject, aType); } } } } }
/** * Gather the resources of the specified type that match the current pattern string. * * @param resources resources that match */ private void getMatchingResources(final ArrayList resources) { for (TreeIterator iterator = resourceSet.getAllContents(); iterator.hasNext(); ) { Object object = iterator.next(); if (typeClass.isAssignableFrom(object.getClass()) && match(((ENamedElement) object).getName())) resources.add(object); } }
/** @since 2.3 */ protected void validateGrammar(Grammar grammar) { validateAllImports(grammar); EValidator validator = EValidator.Registry.INSTANCE.getEValidator(XtextPackage.eINSTANCE); if (validator != null) { DiagnosticChain chain = new DiagnosticChain() { @Override public void add(Diagnostic diagnostic) { if (diagnostic.getSeverity() == Diagnostic.ERROR) { if (diagnostic.getException() == null) throw new IllegalStateException(diagnostic.getMessage()); else throw new IllegalStateException( diagnostic.getMessage(), diagnostic.getException()); } } @Override public void addAll(Diagnostic diagnostic) { add(diagnostic); } @Override public void merge(Diagnostic diagnostic) { throw new UnsupportedOperationException(); } }; validator.validate(grammar, chain, null); TreeIterator<EObject> iterator = grammar.eAllContents(); while (iterator.hasNext()) validator.validate(iterator.next(), chain, new HashMap<Object, Object>()); } }
@Override public boolean canDelete(IDeleteContext context) { // Participant bands in a ChoreographyTask only be "deleted" (from the model) // if there are no other references to the participant; but they can be "removed" // (from the ChoreographyTask's participantRef list) at any time. // @see RemoveChoreographyParticipantFeature PictogramElement pe = context.getPictogramElement(); if (ChoreographyUtil.isChoreographyParticipantBand(pe)) { int referenceCount = 0; Participant participant = BusinessObjectUtil.getFirstElementOfType(pe, Participant.class); Definitions definitions = ModelUtil.getDefinitions(participant); TreeIterator<EObject> iter = definitions.eAllContents(); while (iter.hasNext()) { EObject o = iter.next(); for (EReference reference : o.eClass().getEAllReferences()) { if (!reference.isContainment() && !(o instanceof DiagramElement)) { if (reference.isMany()) { List list = (List) o.eGet(reference); for (Object referencedObject : list) { if (referencedObject == participant) ++referenceCount; } } else { Object referencedObject = o.eGet(reference); if (referencedObject == participant) ++referenceCount; } } } } return referenceCount <= 1; } return true; }
private static int numberOfStatusObjects( org.eclipse.epp.internal.logging.aeri.ui.model.Status status) { final AtomicInteger counter = new AtomicInteger(); ModelSwitch<AtomicInteger> visitor = new ModelSwitch<AtomicInteger>() { @Override public AtomicInteger caseStatus( org.eclipse.epp.internal.logging.aeri.ui.model.Status object) { counter.incrementAndGet(); return counter; } @Override public AtomicInteger caseThrowable(Throwable object) { return counter; } }; visitor.doSwitch(status); for (TreeIterator<EObject> it = getAllContents(status, true); it.hasNext(); ) { visitor.doSwitch(it.next()); } return counter.get(); }
public void enrich(EObject model, Element e) { String defaultNamespace = e.getAttribute("base"); sigNodeMap = createMapping(theoryXPath, e, "name"); viewNodeMap = createMapping(viewXPath, e, "name"); sigObjMap = new HashMap<String, EObject>(); viewObjMap = new HashMap<String, EObject>(); TreeIterator<EObject> iter = model.eAllContents(); while (iter.hasNext()) { EObject obj = iter.next(); if (obj instanceof signatureDeclaration) { signatureDeclaration sig = (signatureDeclaration) obj; if (sigNodeMap.containsKey(sig.getSigName())) { sigObjMap.put(sig.getSigName(), obj); Element elem = sigNodeMap.get(sig.getSigName()); String bs = defaultNamespace; if (elem.hasAttribute("base")) bs = elem.getAttribute("base"); sig.setFullURI(bs + "?" + sig.getSigName()); syncConstructs(sig.getDefs().getConstucts(), elem); } } if (obj instanceof viewDeclaration) { viewDeclaration view = (viewDeclaration) obj; if (viewNodeMap.containsKey(view.getViewID())) { Element elem = sigNodeMap.get(view.getViewID()); viewObjMap.put(view.getViewID(), obj); String bs = defaultNamespace; if (elem.hasAttribute("base")) bs = elem.getAttribute("base"); view.setFullURI(bs + "?" + view.getViewID()); syncConstructs(view.getViewDefs().getConstucts(), elem); } } } }
public void testMappedEObjectMetrics() throws IOException { UMLData umlData = new UMLData(2000); Resource leftUML = umlData.getLeftUML(); final Metric<EObject> metric = new EObjectFullMetric(); FastMap<EObject> fastMap = new FastMap<EObject>(3) { @Override protected double distance(EObject target1, EObject target2) { return metric.distance(target1, target2); } }; TreeIterator<EObject> it = leftUML.getAllContents(); while (it.hasNext()) { EObject object = it.next(); fastMap.add(object); } ; Space<EObject> space = new TreeBackedSpace<EObject>(); fastMap.map(true, space); List<double[]> coordinates = new ArrayList<double[]>(); int count = 0; for (EObject object : space) { if (++count % 100 == 0) coordinates.add(space.getCoordinates(object)); } checkNormalized(coordinates, EuclideanMetric.INSTANCE); checkSymmetric(coordinates, EuclideanMetric.INSTANCE); }
protected void printAdapters() { walk(this); for (TreeIterator<Mapping> mappings = treeIterator(); mappings.hasNext(); ) { for (EObject eObject : mappings.next().getMappedObjects()) { walk(eObject); } } }
private EObject getEObjectByID(String id) { TreeIterator<EObject> eAllContents = resourceLoader.getResource().getAllContents(); while (eAllContents.hasNext()) { EObject next = eAllContents.next(); if (EcoreUtil.getIdentification(next).equals(id)) return next; } throw new WebApplicationException(Response.Status.NOT_FOUND); }
@Requires(IRepositoryConfig.CAPABILITY_AUDITING) public void testReloadingRevisions() throws Exception { final String RESOURCE_NAME = "resource"; Set<CDOID> ids = new HashSet<CDOID>(); long timeStampOfHoleCommit; CDOSession initialSession = openSession(); { // create model history CDOTransaction openTransaction = initialSession.openTransaction(); CDOResource resource = openTransaction.getOrCreateResource(getResourcePath(RESOURCE_NAME)); // creating initial commit Company createdCompany = getModel1Factory().createCompany(); createdCompany.setName("CompanyTesting"); createdCompany.setCity("City"); createdCompany.setStreet("Street"); resource.getContents().add(createdCompany); openTransaction.commit(); // collect id's for (TreeIterator<EObject> allContents = resource.getAllContents(); allContents.hasNext(); ) { CDOObject next = CDOUtil.getCDOObject(allContents.next()); ids.add(next.cdoID()); } // making holes - detaching List<EObject> contents = new ArrayList<EObject>(resource.getContents()); for (int i = 0; i < contents.size(); i++) { EcoreUtil.delete(contents.get(i), true); } timeStampOfHoleCommit = openTransaction.commit().getTimeStamp(); } // check when locally cached elements are availabe checkRevisionsOnGivenSession(ids, timeStampOfHoleCommit, 2, initialSession); // turn of revision download by timestamp checkRevisionsOnGivenSession(ids, -1, 2, initialSession); initialSession.close(); checkRevisions(ids, timeStampOfHoleCommit, 2); // turn of revision download by timestamp checkRevisions(ids, -1, 2); // clear caches clearCache(getRepository().getRevisionManager()); checkRevisions(ids, timeStampOfHoleCommit, 2); // turn of revision download by timestamp clearCache(getRepository().getRevisionManager()); checkRevisions(ids, -1, 2); }
private boolean isChildOrSibling(Vertex source, Vertex target) { TreeIterator<EObject> iter = source.getParentRegion().eAllContents(); while (iter.hasNext()) { if (target == iter.next()) { return true; } } return false; }
private int internalGetSize() { int resourceSize = 0; TreeIterator<EObject> iterator = getAllContents(); while (iterator.hasNext()) { iterator.next(); resourceSize++; } return resourceSize; }
public Model getModelElement() { if (modelElement == null && getUMLModelResource() != null) { TreeIterator<EObject> elements = getUMLModelResource().getAllContents(); while (elements.hasNext()) { EObject element = elements.next(); if (element instanceof Model) return (Model) element; } } return modelElement; }
private static void getAllKeywords(Set<String> kws, AbstractRule parserRule) { for (TreeIterator<EObject> tit = parserRule.eAllContents(); tit.hasNext(); ) { Object ele = tit.next(); if (ele instanceof Keyword) { kws.add(((Keyword) ele).getValue()); } else if (ele instanceof RuleCall) { getAllKeywords(kws, ((RuleCall) ele).getRule()); } } }
/** * Take care that widgets reference in the content existing BDAttributes * * @see org.eclipse.emf.edit.command.OverrideableCommand#doExecute() */ public void doExecute() { // replace all copied BDAttributes thru ther origials for (TreeIterator i = EcoreUtil.getAllContents(collection); i.hasNext(); ) { EObject next = (EObject) i.next(); if (next instanceof IBDAttachable) { AddIBDAttachableHelper.replaceBDAttribute((IBDAttachable) next, owner); } } super.doExecute(); }
public void dispose() { comparison = null; for (ResourceSet rs : resourceSets) { EList<Resource> resources = rs.getResources(); for (Resource resource : resources) { TreeIterator<EObject> allContents = EcoreUtil.getAllProperContents(resource, false); while (allContents.hasNext()) { final EObject next = allContents.next(); next.eAdapters().clear(); } resource.eAdapters().clear(); } rs.getResources().clear(); rs.eAdapters().clear(); } resourceSets = null; Job cleanJob = new Job("ClearWorkspace") { @Override protected IStatus run(IProgressMonitor monitor) { try { // Close & delete projects from workspace IProject[] projects = ResourcesPlugin.getWorkspace().getRoot().getProjects(); for (IProject project : projects) { project.close(new NullProgressMonitor()); project.delete(false, new NullProgressMonitor()); } } catch (CoreException e) { Throwables.propagate(e); } return Status.OK_STATUS; } }; cleanJob.schedule(); try { cleanJob.join(); } catch (InterruptedException e) { Throwables.propagate(e); } if (repository != null) { repository.close(); repository = null; } for (Runnable disposer : disposers) { disposer.run(); } disposers.clear(); // Delete repository from temp directory GitUtil.deleteRepo(repoFile); }
protected List<Type> getChoiceOfValues(org.eclipse.uml2.uml.Package package_) { List<Type> choiceOfValues = new ArrayList<Type>(); Resource eResource = package_.eResource(); ResourceSet resourceSet = eResource == null ? null : eResource.getResourceSet(); if (resourceSet != null) { try { resourceSet.getResource(URI.createURI(UMLResource.UML_PRIMITIVE_TYPES_LIBRARY_URI), true); } catch (Exception e) { // ignore } try { resourceSet.getResource(URI.createURI(UMLResource.JAVA_PRIMITIVE_TYPES_LIBRARY_URI), true); } catch (Exception e) { // ignore } try { resourceSet.getResource(URI.createURI(UMLResource.ECORE_PRIMITIVE_TYPES_LIBRARY_URI), true); } catch (Exception e) { // ignore } try { resourceSet.getResource(URI.createURI(UMLResource.XML_PRIMITIVE_TYPES_LIBRARY_URI), true); } catch (Exception e) { // ignore } } if (eResource != null) { EList<NamedElement> members = package_.getMembers(); TreeIterator<?> allContents = resourceSet == null ? eResource.getAllContents() : resourceSet.getAllContents(); while (allContents.hasNext()) { Object object = allContents.next(); if (object instanceof Type && !members.contains(object)) { Type type = (Type) object; if (type.getNearestPackage().makesVisible(type)) { choiceOfValues.add(type); } } } } Collections.<Type>sort(choiceOfValues, new TextComparator<Type>()); return choiceOfValues; }
private long computeMaxWidgetId() { long maxId = 0; for (TreeIterator<Widget> i = getAllDirectWidgets(); i.hasNext(); ) { Widget widget = i.next(); Long id = widget.getId(); if (id != null) maxId = Math.max(maxId, id.longValue()); } return maxId; }
@Lock(LockType.WRITE) private EObject getEObjectByID(String type, String id) { TreeIterator<EObject> eAllContents = resourceLoader.getResource().getAllContents(); while (eAllContents.hasNext()) { EObject next = eAllContents.next(); if (next.eClass().getInstanceTypeName().equals(type) && EcoreUtil.getID(next) != null && EcoreUtil.getID(next).equals(id)) return next; } throw new WebApplicationException(Response.Status.NOT_FOUND); }
private <T extends EObject> T getFirstElement(Resource sessionResource, Class<T> type) { T result = null; TreeIterator<EObject> allContents = sessionResource.getAllContents(); while (allContents.hasNext() && result == null) { EObject next = allContents.next(); if (type.isInstance(next)) { result = type.cast(next); } } return result; }
public static List<Expression> getAllExpressions(ThingMLElement self, Class clazz) { List<Expression> result = new ArrayList<Expression>(); TreeIterator<EObject> it = self.eAllContents(); while (it.hasNext()) { EObject o = it.next(); if (clazz.isInstance(o)) result.add((Expression) o); } if (clazz.isInstance(self)) result.add((Expression) self); return result; }
/** * Retrieves all children, direct and indirect, and returns them as a set. The <code>amountOfWork * </code> for the progress monitor is also computed in this method. * * @param root the root EObject of the hierarchy * @return all direct and indirect contents of <code>root</code> */ protected static Set<EObject> getAllChildren(EObject root) { TreeIterator<EObject> allContents = root.eAllContents(); Set<EObject> result = new LinkedHashSet<EObject>(); while (allContents.hasNext()) { result.add(allContents.next()); // count every element three times: once for deletion, // once for setting attributes, once for setting references amountOfWork += 3; } return result; }
@SuppressWarnings("unchecked") public <T> List<T> getAll(final Class<T> class1) { ArrayList<T> l = new ArrayList<T>(); TreeIterator<EObject> contents = resource.getAllContents(); for (; contents.hasNext(); ) { Object t = contents.next(); if (class1.isInstance(t)) { l.add((T) t); } } return l; }