public void computeImports() throws CoreException { // some existing imports may valid and can be preserved Vector preservedImports = new Vector(fImports.size()); // new imports ArrayList newImports = new ArrayList(); IPluginModelBase model = null; for (int i = 0; i < fPlugins.size(); i++) { IFeaturePlugin fp = (IFeaturePlugin) fPlugins.get(i); ModelEntry entry = PluginRegistry.findEntry(fp.getId()); if (entry == null) continue; IPluginModelBase[] models = entry.getActiveModels(); for (int j = 0; j < models.length; j++) { IPluginModelBase m = models[j]; if (fp.getVersion().equals(m.getPluginBase().getVersion()) || fp.getVersion().equals("0.0.0")) // $NON-NLS-1$ model = m; } if (model != null) { addPluginImports(preservedImports, newImports, model.getPluginBase()); if (model.isFragmentModel()) { BundleDescription desc = model.getBundleDescription(); if (desc == null) continue; HostSpecification hostSpec = desc.getHost(); String id = hostSpec.getName(); String version = null; int match = IMatchRules.NONE; VersionRange versionRange = hostSpec.getVersionRange(); if (!(versionRange == null || VersionRange.emptyRange.equals(versionRange))) { version = versionRange.getMinimum() != null ? versionRange.getMinimum().toString() : null; match = PluginBase.getMatchRule(versionRange); } addNewDependency(id, version, match, preservedImports, newImports); } } } // preserve imports of features for (int i = 0; i < fImports.size(); i++) { IFeatureImport iimport = (IFeatureImport) fImports.get(i); if (iimport.getType() == IFeatureImport.FEATURE) preservedImports.add(iimport); } // removed = old - preserved Vector removedImports = ((Vector) fImports.clone()); removedImports.removeAll(preservedImports); // perform remove fImports = preservedImports; if (removedImports.size() > 0) { fireStructureChanged( (IFeatureImport[]) removedImports.toArray(new IFeatureImport[removedImports.size()]), IModelChangedEvent.REMOVE); } // perform add if (newImports.size() > 0) { fImports.addAll(newImports); fireStructureChanged( (IFeatureImport[]) newImports.toArray(new IFeatureImport[newImports.size()]), IModelChangedEvent.INSERT); } }
/** * Uses the feature model to determine the set of features required by the given list of checked * features * * @param allFeatures list of all features to search requirements in * @param checkedFeatures list of features to get requirements for * @return list of features to be checked */ private Object[] getRequiredFeatures( final IFeatureModel[] allFeatures, final Object[] checkedFeatures) { ArrayList required = new ArrayList(); for (int j = 0; j < checkedFeatures.length; j++) { if (checkedFeatures[j] instanceof IFeatureModel) { getFeatureDependencies((IFeatureModel) checkedFeatures[j], allFeatures, required); } } return required.toArray(); }
public Object[] getElements(Object inputElement) { // model = (ISite) inputElement; ArrayList<IWritable> result = new ArrayList<IWritable>(); ISiteCategoryDefinition[] catDefs = fModel.getSite().getCategoryDefinitions(); for (int i = 0; i < catDefs.length; i++) { result.add(catDefs[i]); } ISiteFeature[] features = fModel.getSite().getFeatures(); for (int i = 0; i < features.length; i++) { if (features[i].getCategories().length == 0) result.add(new SiteFeatureAdapter(null, features[i])); } return result.toArray(); }
private ISiteFeature[] getFeaturesFromSelection(IStructuredSelection sel) { if (sel.isEmpty()) return new ISiteFeature[0]; if (cachedSelection == sel) return cachedFeatures; cachedSelection = sel; ArrayList<ISiteFeature> features = new ArrayList<ISiteFeature>(sel.size()); Iterator<?> iterator = sel.iterator(); while (iterator.hasNext()) { Object next = iterator.next(); if (next instanceof SiteFeatureAdapter) { if ((((SiteFeatureAdapter) next).feature) != null) { features.add(((SiteFeatureAdapter) next).feature); } } } cachedFeatures = features.toArray(new ISiteFeature[features.size()]); return cachedFeatures; }