private void purgeTemporaryEntryPoints() {
for (RefElement entryPoint : myTemporaryEntryPoints) {
((RefElementImpl) entryPoint).setEntry(false);
}
myTemporaryEntryPoints.clear();
}
@Override
public void disconnected(boolean onError) {
final XMPPConnection connection = myFacade.getConnection();
LOG.info("Jabber disconnected: " + connection.getUser());
connection.removePacketListener(mySubscribeListener);
mySubscribeListener = null;
connection.removePacketListener(myMessageListener);
myMessageListener = null;
final Roster roster = connection.getRoster();
if (roster != null) {
roster.removeRosterListener(myRosterListener);
}
myRosterListener = null;
myIDEtalkUsers.clear();
myUser2Presence.clear();
myUser2Thread.clear();
if (onError && reconnectEnabledAndNotStarted()) {
LOG.warn(getMsg("jabber.server.was.disconnected", myReconnectTimeout / 1000));
myReconnectProcess = myIdeFacade.runOnPooledThread(new MyReconnectRunnable());
}
}
public void clear() {
for (EditorWindow window : myWindows) {
window.dispose();
}
removeAll();
myWindows.clear();
setCurrentWindow(null);
repaint(); // revalidate doesn't repaint correctly after "Close All"
}
private void selectionChanged() {
myBackSlashPressed.clear();
UIUtil.invokeLaterIfNeeded(
new Runnable() {
@Override
public void run() {
updateEditorsFromProperties();
}
});
}
@TestOnly
public void dropAllUnsavedDocuments() {
if (!ApplicationManager.getApplication().isUnitTestMode()) {
throw new RuntimeException("This method is only for test mode!");
}
ApplicationManager.getApplication().assertWriteAccessAllowed();
if (!myUnsavedDocuments.isEmpty()) {
myUnsavedDocuments.clear();
fireUnsavedDocumentsDropped();
}
}
/** @throws BasicException */
@Override
public void loadCatalog() throws BasicException {
m_jProducts.removeAll();
m_productsset.clear();
m_categoriesset.clear();
// Load the taxes logic
taxeslogic = new TaxesLogic(m_dlSales.getTaxList().list());
buildProductPanel();
}
public void resetListOfExpandedNodes() {
expandedNodes.clear();
for (int i = 1; i < getTree().getRowCount(); i++) {
if (getTree().isExpanded(i)) {
Object o = getTree().getPathForRow(i).getLastPathComponent();
if (o instanceof Config) {
expandedNodes.add(o);
}
}
}
}
public void disposeUIResources() {
myState.getProportions().saveSplitterProportions(myWholePanel);
myAutoScrollHandler.cancelAllRequests();
myDetails.disposeUIResources();
myInitializedConfigurables.clear();
clearChildren();
final String key = getComponentStateKey();
final MasterDetailsStateService stateService = getStateService();
if (key != null && stateService != null) {
stateService.setComponentState(key, getState());
}
myCurrentConfigurable = null;
}
private void updateFileIconLater(VirtualFile file) {
myFilesToUpdateIconsFor.add(file);
myIconUpdaterAlarm.cancelAllRequests();
myIconUpdaterAlarm.addRequest(
() -> {
if (myManager.getProject().isDisposed()) return;
for (VirtualFile file1 : myFilesToUpdateIconsFor) {
updateFileIconImmediately(file1);
}
myFilesToUpdateIconsFor.clear();
},
200,
ModalityState.stateForComponent(this));
}
public void apply() throws ConfigurationException {
if (!myModifiedModificators.isEmpty()) {
mySdkSettingsWereModified.run();
}
for (SdkModificator modificator : myModifiedModificators) {
/* This should always be true barring bug elsewhere, log error on else? */
if (modificator.isWritable()) {
modificator.commitChanges();
}
}
myModificators.clear();
myModifiedModificators.clear();
mySdkListChanged = false;
final Sdk sdk = getSelectedSdk();
myShowMoreCallback.consume(sdk);
PyPackageManagers.getInstance().clearCache(sdk);
Disposer.dispose(getDisposable());
}
private void collectGroupingRules() {
for (BreakpointPanelProvider provider : myBreakpointsPanelProviders) {
provider.createBreakpointsGroupingRules(myRulesAvailable);
}
myRulesEnabled.clear();
XBreakpointsDialogState settings = (getBreakpointManager()).getBreakpointsDialogSettings();
for (XBreakpointGroupingRule rule : myRulesAvailable) {
if (rule.isAlwaysEnabled()
|| (settings != null && settings.getSelectedGroupingRules().contains(rule.getId()))) {
myRulesEnabled.add(rule);
}
}
for (XBreakpointGroupingRule rule : myRulesAvailable) {
if (!rule.isAlwaysEnabled()) {
myToggleRuleActions.add(new ToggleBreakpointGroupingRuleEnabledAction(rule));
}
}
}
@TestOnly
public void clearUncommittedDocuments() {
myUncommittedDocuments.clear();
mySynchronizer.cleanupForNextTest();
}
public void clear() {
removeAll();
myWindows.clear();
setCurrentWindow(null);
repaint(); // revalidate doesn't repaint correctly after "Close All"
}
public DISCARD resetIgnoredMembers() {
ignoredMembers.clear();
return this;
}
/**
* Linear forward search algorithm
*
* @param p
* @param algorithm
* @param targetVars
* @param _computeAll
* @return
*/
private boolean linearForwardSearch(
PlanningContext context, EvaluationAlgorithm algorithm, boolean _computeAll) {
/*
* while iterating through hashset, items cant be removed from/added to
* that set. Theyre collected into these sets and added/removedall
* together after iteration is finished
*/
Set<Var> newVars = new LinkedHashSet<Var>();
Set<Var> relOutputs = new LinkedHashSet<Var>();
Set<Var> removableVars = new LinkedHashSet<Var>();
boolean changed = true;
if (isLinearLoggingOn())
logger.debug(
"------Starting linear planning with (sub)goals: "
+ context.getRemainingGoals()
+ "--------");
if (isLinearLoggingOn()) logger.debug("Algorithm " + algorithm);
int counter = 1;
while ((!_computeAll && changed && !context.getRemainingGoals().isEmpty())
|| (changed && _computeAll)) {
if (isLinearLoggingOn()) logger.debug("----Iteration " + counter + " ----");
counter++;
changed = false;
// iterate through all knownvars
if (isLinearLoggingOn()) logger.debug("Known:" + context.getKnownVars());
for (Var var : context.getKnownVars()) {
if (isLinearLoggingOn()) logger.debug("Current Known: " + var);
// Check the relations of all components
for (Rel rel : var.getRels()) {
if (isLinearLoggingOn()) logger.debug("And its rel: " + rel);
if (context.isAvailableRel(rel)) {
context.removeUnknownInput(rel, var);
if (isLinearLoggingOn()) logger.debug("problem contains it " + rel);
removableVars.add(var);
if (context.isRelReadyToUse(rel) && rel.getType() != RelType.TYPE_METHOD_WITH_SUBTASK) {
if (isLinearLoggingOn()) logger.debug("rel is ready to be used " + rel);
boolean relIsNeeded = false;
if (isLinearLoggingOn()) logger.debug("its outputs " + rel.getOutputs());
for (Var relVar : rel.getOutputs()) {
if (!context.getFoundVars().contains(relVar)) {
relIsNeeded = true;
}
}
if (rel.getOutputs().isEmpty()) {
relIsNeeded = true;
}
if (isLinearLoggingOn()) logger.debug("relIsNeeded " + relIsNeeded);
if (relIsNeeded) {
if (isLinearLoggingOn()) logger.debug("needed rel: " + rel);
if (!rel.getOutputs().isEmpty()) {
relOutputs.clear();
unfoldVarsToSet(rel.getOutputs(), relOutputs);
newVars.addAll(relOutputs);
context.getFoundVars().addAll(relOutputs);
}
algorithm.addRel(rel);
if (isLinearLoggingOn()) logger.debug("algorithm " + algorithm);
}
context.removeRel(rel);
changed = true;
}
}
}
}
// remove targets if they have already been found
for (Iterator<Var> targetIter = context.getRemainingGoals().iterator();
targetIter.hasNext(); ) {
Var targetVar = targetIter.next();
if (context.getFoundVars().contains(targetVar)) {
targetIter.remove();
}
}
if (isLinearLoggingOn()) logger.debug("foundvars " + context.getFoundVars());
context.getKnownVars().addAll(newVars);
context.getKnownVars().removeAll(removableVars);
newVars.clear();
}
if (isLinearLoggingOn()) logger.debug("algorithm " + algorithm);
if (!_computeAll) {
Optimizer.optimize(context, algorithm);
if (isLinearLoggingOn()) logger.debug("optimized algorithm " + algorithm);
}
if (isLinearLoggingOn()) logger.debug("\n---!!!Finished linear planning!!!---\n");
return context.getRemainingGoals().isEmpty()
|| context.getFoundVars().containsAll(context.getAllGoals());
}
