public void setSwingDataCollection(Collection<ICFSecurityISOCountryObj> value) {
final String S_ProcName = "setSwingDataCollection";
swingDataCollection = value;
if (swingDataCollection == null) {
arrayOfISOCountry = new ICFSecurityISOCountryObj[0];
} else {
int len = value.size();
arrayOfISOCountry = new ICFSecurityISOCountryObj[len];
Iterator<ICFSecurityISOCountryObj> iter = swingDataCollection.iterator();
int idx = 0;
while (iter.hasNext() && (idx < len)) {
arrayOfISOCountry[idx++] = iter.next();
}
if (idx < len) {
throw CFLib.getDefaultExceptionFactory()
.newRuntimeException(
getClass(),
S_ProcName,
"Collection iterator did not fully populate the array copy");
}
if (iter.hasNext()) {
throw CFLib.getDefaultExceptionFactory()
.newRuntimeException(
getClass(),
S_ProcName,
"Collection iterator had left over items when done populating array copy");
}
Arrays.sort(arrayOfISOCountry, compareISOCountryByQualName);
}
PickerTableModel tblDataModel = getDataModel();
if (tblDataModel != null) {
tblDataModel.fireTableDataChanged();
}
}
// Return a collection of common actions.
// Each action in the collection is a compound
// action. There is one compound action in the collection
// for each action which is common to all viewlets in the selection.
public Collection getCommonActions() {
Collection commonActions = new LinkedList();
Collection firstViewletsActions;
ViewletAction currentAction;
Iterator viewletsIterator;
Iterator firstViewletsActionsIterator;
Viewlet firstViewlet, currentViewlet;
List currentViewletActions;
boolean allContainAction;
if (isEmpty()) {
return (Collections.EMPTY_SET);
}
firstViewlet = (Viewlet) (iterator().next());
firstViewletsActions = firstViewlet.getActions();
firstViewletsActionsIterator = firstViewletsActions.iterator();
// for each currentAction in the first viewlet's actions
while (firstViewletsActionsIterator.hasNext()) {
currentAction = (ViewletAction) firstViewletsActionsIterator.next();
viewletsIterator = iterator();
allContainAction = true;
// test whether each viewlet has an action equals() to currentAction
while (viewletsIterator.hasNext() && allContainAction) {
currentViewlet = (Viewlet) viewletsIterator.next();
if (!currentViewlet.getActions().contains(currentAction)) {
allContainAction = false;
}
}
if (allContainAction) {
commonActions.add(currentAction.createCompoundAction(this));
}
}
return (commonActions);
}
protected void modelChanged() {
super.modelChanged();
MComponentInstance coi = (MComponentInstance) getOwner();
if (coi == null) return;
String nameStr = "";
if (coi.getName() != null) {
nameStr = coi.getName().trim();
}
// construct bases string (comma separated)
String baseStr = "";
Collection col = coi.getClassifiers();
if (col != null && col.size() > 0) {
Iterator it = col.iterator();
baseStr = ((MClassifier) it.next()).getName();
while (it.hasNext()) {
baseStr += ", " + ((MClassifier) it.next()).getName();
}
}
if (_readyToEdit) {
if (nameStr == "" && baseStr == "") _name.setText("");
else _name.setText(nameStr.trim() + " : " + baseStr);
}
Dimension nameMin = _name.getMinimumSize();
Rectangle r = getBounds();
setBounds(r.x, r.y, r.width, r.height);
updateStereotypeText();
}
/**
* Initializes custom contact action buttons.
*
* @param contactActionButtons the list of buttons to initialize
* @param gridX the X grid of the first button
* @param xBounds the x bounds of the first button
* @return the new grid X coordinate after adding all the buttons
*/
private int initGroupActionButtons(
Collection<SIPCommButton> contactActionButtons, int gridX, int xBounds) {
// Reinit the labels to take the whole horizontal space.
addLabels(gridX + contactActionButtons.size());
Iterator<SIPCommButton> actionsIter = contactActionButtons.iterator();
while (actionsIter.hasNext()) {
final SIPCommButton actionButton = actionsIter.next();
// We need to explicitly remove the buttons from the tooltip manager,
// because we're going to manager the tooltip ourselves in the
// DefaultTreeContactList class. We need to do this in order to have
// a different tooltip for every button and for non button area.
ToolTipManager.sharedInstance().unregisterComponent(actionButton);
if (customActionButtonsUIGroup == null)
customActionButtonsUIGroup = new LinkedList<JButton>();
customActionButtonsUIGroup.add(actionButton);
xBounds += addButton(actionButton, ++gridX, xBounds, false);
}
return gridX;
}
private boolean containInstance(Instance sel, Slot slot, Instance instance) {
if (itsInstance == null) return false;
Collection instances = sel.getOwnSlotValues(slot);
Iterator i = instances.iterator();
while (i.hasNext()) {
Instance tmpInstance = (Instance) i.next();
if (tmpInstance.equals(instance)) return true;
}
return false;
}
// This is used for Query test
public Collection search(Collection instances, Slot slot, String operation, Object obj) {
ArrayList resultInstances = new ArrayList();
Iterator i = instances.iterator();
String value = (String) (((Instance) obj).getBrowserText());
while (i.hasNext()) {
Instance instance = (Instance) i.next();
if (testInstance(getTestIndex(operation), instance, slot, value))
resultInstances.add(instance);
}
return resultInstances;
}
private TreeModel buildModel(Object[] resolvers) {
TreeModel fullModel = null;
DefaultMutableTreeNode top = new DefaultMutableTreeNode(Tr.t("root"));
try {
cpos = null;
for (Object resolver : resolvers) {
if (resolver instanceof ColorPository) {
cpos = (ColorPository) resolver;
GraphCellRenderer graphCellRenderer = new GraphCellRenderer(cpos);
colors.setCellRenderer(graphCellRenderer);
break;
}
}
Collection<ColorPository.ClassRecord> classes = cpos.getClasses();
String[] classNames = new String[classes.size()];
Iterator<ColorPository.ClassRecord> it = classes.iterator();
int count = 0;
while (it.hasNext()) {
classNames[count] = it.next().name;
count++;
}
Arrays.sort(classNames);
for (String className : classNames) {
ColorPository.ColorRecord[] colors = cpos.enumerateColors(className);
String[] colorNames = new String[colors.length];
for (int a = 0; a < colorNames.length; a++) {
colorNames[a] = colors[a].name;
}
Arrays.sort(colorNames);
DefaultMutableTreeNode tn = new DefaultMutableTreeNode(className);
top.add(tn);
for (String colorName : colorNames) {
tn.add(new DefaultMutableTreeNode(colorName));
}
}
fullModel = new DefaultTreeModel(top);
} catch (Exception e) {
fullModel = new DefaultTreeModel(new DefaultMutableTreeNode(Tr.t("root.failed")));
// e.printStackTrace();
}
return fullModel;
}
public Collection search() {
if (specification.getType() == null) return null;
String slotType = specification.getType();
if (!slotType.toLowerCase().equals("cls")) return null;
// Here we first test the function based on the simplest Instance cases
ArrayList resultInstances = new ArrayList();
Collection instances = itsInstances;
Iterator i = instances.iterator();
Slot slot = itsWidget.getKB().getSlot(specification.getName());
while (i.hasNext()) {
Instance instance = (Instance) i.next();
if (testInstance(getTestIndex(specification.getConstraint()), instance, slot))
resultInstances.add(instance);
}
return resultInstances;
}
