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(); } }
/** * Set the display for the data * * @param isEmpty true if the data is null * @throws RemoteException Java RMI error * @throws VisADException problem creating VisAD object */ public synchronized void setDisplay(boolean isEmpty) throws VisADException, RemoteException { if (isEmpty) { for (Iterator iter = extantDatums.iterator(); iter.hasNext(); ) { ((DataAdapter) iter.next()).addTo(); } } else { for (Iterator iter = obsoleteDatums.iterator(); iter.hasNext(); ) { ((DataAdapter) iter.next()).removeFrom(); } } obsoleteDatums.clear(); for (Iterator iter = changedDatums.iterator(); iter.hasNext(); ) { DataAdapter adapter = (DataAdapter) iter.next(); adapter.addTo(); iter.remove(); extantDatums.add(adapter); } for (Iterator iter = newDatums.iterator(); iter.hasNext(); ) { DataAdapter adapter = (DataAdapter) iter.next(); adapter.addTo(); iter.remove(); extantDatums.add(adapter); // Add listener now so fewest notifications. adapter.addPropertyChangeListener(adapter.CONSTANT_MAP, listener); } changed = false; }
/** * This method is the access point to the planning procedure. Initially, it adds all variables * from axioms to the set of found vars, then does the linear planning. If lp does not solve the * problem and there are subtasks, goal-driven recursive planning with backtracking is invoked. * Planning is performed until no new variables are introduced into the algorithm. */ public EvaluationAlgorithm invokePlaning(Problem problem, boolean _computeAll) { long startTime = System.currentTimeMillis(); computeAll = _computeAll; EvaluationAlgorithm algorithm = new EvaluationAlgorithm(); PlanningContext context = problem.getCurrentContext(); // add all axioms at the beginning of an algorithm Collection<Var> flattened = new HashSet<Var>(); for (Iterator<Rel> axiomIter = problem.getAxioms().iterator(); axiomIter.hasNext(); ) { Rel rel = axiomIter.next(); unfoldVarsToSet(rel.getOutputs(), flattened); // do not overwrite values of variables that come via args of compute() or as inputs of // independent subtasks if (!problem.getAssumptions().containsAll(flattened) // do not overwrite values of already known variables. // typically this is the case when a value of a variable // is given in a scheme via a properties window // && !problem.getKnownVars().containsAll( flattened ) ) { algorithm.addRel(rel); } axiomIter.remove(); context.getKnownVars().addAll(flattened); flattened.clear(); } context.getFoundVars().addAll(context.getKnownVars()); // remove all known vars with no relations for (Iterator<Var> varIter = context.getKnownVars().iterator(); varIter.hasNext(); ) { if (varIter.next().getRels().isEmpty()) { varIter.remove(); } } // start planning if (problem.getRelsWithSubtasks().isEmpty() && linearForwardSearch(context, algorithm, computeAll)) { if (isLinearLoggingOn()) logger.debug("Problem solved without subtasks"); } else if (!problem.getRelsWithSubtasks().isEmpty() && subtaskPlanning(problem, algorithm)) { if (isLinearLoggingOn()) logger.debug("Problem solved with subtasks"); } else if (!computeAll) { if (isLinearLoggingOn()) logger.debug("Problem not solved"); } if (!nested) { logger.info("Planning time: " + (System.currentTimeMillis() - startTime) + "ms."); } return algorithm; }
private void updateEditorView() { editorPane.setText(""); numParameters = 0; try { java.util.List elements = editableTemplate.getPrintfElements(); for (Iterator it = elements.iterator(); it.hasNext(); ) { PrintfUtil.PrintfElement el = (PrintfUtil.PrintfElement) it.next(); if (el.getFormat().equals(PrintfUtil.PrintfElement.FORMAT_NONE)) { appendText(el.getElement(), PLAIN_ATTR); } else { insertParameter( (ConfigParamDescr) paramKeys.get(el.getElement()), el.getFormat(), editorPane.getDocument().getLength()); } } } catch (Exception ex) { JOptionPane.showMessageDialog( this, "Invalid Format: " + ex.getMessage(), "Invalid Printf Format", JOptionPane.ERROR_MESSAGE); selectedPane = 1; printfTabPane.setSelectedIndex(selectedPane); updatePane(selectedPane); } }
public void updateConnectionStatus(boolean connected) { if (connected == true) { headerPanel.setLogoutText(); loginMenuItem.setText("Logout"); } else { headerPanel.setLoginText(); loginMenuItem.setText("Login..."); } mainCommandPanel.updateConnectionStatus(connected); propertiePanel.updateConnectionStatus(connected); cmdConsole.updateConnectionStatus(connected); Iterator iterator = plugins.iterator(); PluginPanel updatePluginPanel = null; while (iterator.hasNext()) { updatePluginPanel = (PluginPanel) iterator.next(); updatePluginPanel.updateConnectionStatus(connected); } if (connected == true) { int selected = tabbedPane.getSelectedIndex(); if (selected >= 2) { ((PluginPanel) pluginPanelMap.get("" + selected)).activated(); } } }
private void broadcast() { Iterator i = _listeners.iterator(); ChangeEvent event = new ChangeEvent(this); while (i.hasNext()) { ((ChangeListener) (i.next())).stateChanged(event); } }
private boolean calculateWithValidValues() { Iterator it = metaProperties.iterator(); while (it.hasNext()) { MetaProperty m = (MetaProperty) it.next(); if (m.hasValidValues()) return true; } return false; }
InstanceListModel(ASDGrammar grammar, String word) { ArrayList instanceList = grammar.lookupWord(word); for (Iterator it = instanceList.iterator(); it.hasNext(); ) { ASDGrammarNode n = (ASDGrammarNode) it.next(); String instance = (String) n.instance(); this.addElement(instance); } }
/** * Set the display. * * @throws RemoteException Java RMI error * @throws VisADException problem creating VisAD object */ protected synchronized void setDisplay() throws VisADException, RemoteException { for (Iterator iter = map.values().iterator(); iter.hasNext(); ) { ((ScalarMapAdapter) iter.next()).setDisplay(); } changed = false; }
/** highlight a route (maybe to show it's in use...) */ public void highlightRoute(String src, String dst) { Iterator i = rows.iterator(); while (i.hasNext()) { Map temp = (Map) i.next(); if (temp.get("Address").equals(dst) && temp.get("Pivot").equals(src)) { temp.put("Active", Boolean.TRUE); } } }
void assertSorted(String expected) { Iterator<String> keys = mySortedParent.keySet().iterator(); StringBuilder result = new StringBuilder(); while (keys.hasNext()) { String each = keys.next(); result.append(each); int count = mySortedParent.get(each); if (count > 1) { result.append(" (").append(count).append(")"); } if (keys.hasNext()) { result.append("\n"); } } Assert.assertEquals(expected, result.toString()); mySortedParent.clear(); }
public static void makeGroupsAndAlignments( View dup, View original, WordCollection collection, boolean copy) throws DatabaseException { // loop through entries Map groups = new HashMap(); List entries = collection.getEntries(); for (Iterator it = entries.iterator(); it.hasNext(); ) { // groups are unique to each entry groups.clear(); Entry entry = (Entry) it.next(); // loop through alignments List alignments = original.getAlignments(entry); for (Iterator it2 = alignments.iterator(); it2.hasNext(); ) { Alignment alignment = (Alignment) it2.next(); Group group = (copy) ? alignment.getGroup() : null; // get or create duplicate group String name = (group == null) ? "?" : group.getName(); Group dupGroup = (Group) groups.get(name); if (dupGroup == null) { dupGroup = dup.makeGroup(entry); dupGroup.setName(name); dupGroup.setDone(false); dupGroup.save(); groups.put(dupGroup.getName(), dupGroup); } // create duplicate alignment Alignment dupAlignment = dup.makeAlignment(alignment.getDatum()); dupAlignment.setName(alignment.getName()); dupAlignment.setGroup(dupGroup); if (copy) { dupAlignment.setVector(alignment.getVector()); dupAlignment.setMetathesis1(alignment.getMetathesis1()); dupAlignment.setLength1(alignment.getLength1()); dupAlignment.setMetathesis2(alignment.getMetathesis2()); dupAlignment.setLength2(alignment.getLength2()); dupAlignment.setObservations(alignment.getObservations()); } dupAlignment.save(); } } }
/** show the meterpreter routes . :) */ public void setRoutes(Route[] routes) { Iterator i = rows.iterator(); while (i.hasNext()) { Map temp = (Map) i.next(); for (int x = 0; x < routes.length; x++) { Route r = routes[x]; if (r.shouldRoute(temp.get("Address") + "")) temp.put("Pivot", r.getGateway()); } } }
public void actionPerformed(ActionEvent e) { JMenuItem jmi = (JMenuItem) e.getSource(); Iterator marks = mediator.getMarkerModel().getMarkersWithLabel(jmi.getText()); if (marks.hasNext()) { ChronicleMarker marker = (ChronicleMarker) marks.next(); Instant to = marker.getWhen(); Instant from = mediator.getMajorMoment(); viper.api.impl.Util.shiftDescriptors(new Descriptor[] {desc}, from, to); } }
/** * Loads the list of enabled and disabled encryption protocols with their priority. * * @param enabledEncryptionProtocols The list of enabled encryption protocol available for this * account. * @param disabledEncryptionProtocols The list of disabled encryption protocol available for this * account. */ private void loadEncryptionProtocols( Map<String, Integer> encryptionProtocols, Map<String, Boolean> encryptionProtocolStatus) { int nbEncryptionProtocols = ENCRYPTION_PROTOCOLS.length; String[] encryptions = new String[nbEncryptionProtocols]; boolean[] selectedEncryptions = new boolean[nbEncryptionProtocols]; // Load stored values. int prefixeLength = ProtocolProviderFactory.ENCRYPTION_PROTOCOL.length() + 1; String encryptionProtocolPropertyName; String name; int index; boolean enabled; Iterator<String> encryptionProtocolNames = encryptionProtocols.keySet().iterator(); while (encryptionProtocolNames.hasNext()) { encryptionProtocolPropertyName = encryptionProtocolNames.next(); index = encryptionProtocols.get(encryptionProtocolPropertyName); // If the property is set. if (index != -1) { name = encryptionProtocolPropertyName.substring(prefixeLength); if (isExistingEncryptionProtocol(name)) { enabled = encryptionProtocolStatus.get( ProtocolProviderFactory.ENCRYPTION_PROTOCOL_STATUS + "." + name); encryptions[index] = name; selectedEncryptions[index] = enabled; } } } // Load default values. String encryptionProtocol; boolean set; int j = 0; for (int i = 0; i < ENCRYPTION_PROTOCOLS.length; ++i) { encryptionProtocol = ENCRYPTION_PROTOCOLS[i]; // Specify a default value only if there is no specific value set. if (!encryptionProtocols.containsKey( ProtocolProviderFactory.ENCRYPTION_PROTOCOL + "." + encryptionProtocol)) { set = false; // Search for the first empty element. while (j < encryptions.length && !set) { if (encryptions[j] == null) { encryptions[j] = encryptionProtocol; // By default only ZRTP is set to true. selectedEncryptions[j] = encryptionProtocol.equals("ZRTP"); set = true; } ++j; } } } this.encryptionConfigurationTableModel.init(encryptions, selectedEncryptions); }
public String[] genUDPMenu() { String[] menu = new String[ctxt.userDefinedProperties.size()]; Iterator udpIter = ctxt.userDefinedProperties.keySet().iterator(); String item; int ndex = 0; while (udpIter.hasNext()) { item = (String) udpIter.next(); menu[ndex++] = item; } return menu; } // end of method genUDPMenu()
public void actionPerformed(ActionEvent e) { Iterator toInterp = Collections.singleton(desc).iterator(); JMenuItem jmi = (JMenuItem) e.getSource(); Iterator marks = mediator.getMarkerModel().getMarkersWithLabel(jmi.getText()); if (marks.hasNext()) { ChronicleMarker marker = (ChronicleMarker) marks.next(); Instant to = marker.getWhen(); Instant from = mediator.getMajorMoment(); mediator.getPropagator().interpolateDescriptors(toInterp, from, to); } }
private void initMatches() { matchesKeys.put(STRING_LITERAL, ""); matchesKeys.put("Any number", "[0-9]+"); matchesKeys.put("Anything", ".*"); matchesKeys.put("Start", "^"); matchesKeys.put("End", "$"); matchesKeys.put("Single path component", "[^/]+"); for (Iterator it = matchesKeys.keySet().iterator(); it.hasNext(); ) { matchComboBox.addItem(it.next()); } }
public void appendTo(Element el) { Document doc = el.getOwnerDocument(); Element p = doc.createElement("profile"); p.setAttribute("name", name); Iterator<String> it = ids.iterator(); while (it.hasNext()) { Element child = doc.createElement("enable"); child.setAttribute("id", it.next()); p.appendChild(child); } el.appendChild(p); }
public void setValue(Object value) { String list = ""; if (((List) value).isEmpty()) { list = " "; _undefineButton.setEnabled(false); } else { for (Iterator it = ((List) value).iterator(); it.hasNext(); ) { String gc = (String) it.next(); list += (list.equals("")) ? gc : ", " + gc; } _undefineButton.setEnabled(true); } _text.setText(list); }
/** * Implements ChangeListener.stateChanged. Enables the hangup button if ones selects a tab in the * main tabbed pane that contains a call panel. */ public void stateChanged(ChangeEvent e) { this.updateButtonsStateAccordingToSelectedPanel(); Component selectedPanel = mainFrame.getSelectedTab(); if (selectedPanel == null || !(selectedPanel instanceof CallPanel)) { Iterator callPanels = activeCalls.values().iterator(); while (callPanels.hasNext()) { CallPanel callPanel = (CallPanel) callPanels.next(); callPanel.removeDialogs(); } } }
private void lookupViewComboAction(ActionEvent e) { ObjEntityView fieldLookupView = objEntityViewField.getLookup().getLookupObjEntityView(); ObjEntityView selectedLookupView = (ObjEntityView) lookupViewCombo.getSelectedItem(); if (selectedLookupView != fieldLookupView) { objEntityViewField.getLookup().setLookupObjEntityView(selectedLookupView); dataViewTreeModel.fieldChanged(objEntityViewField); dataMapTreeModel.fieldChanged(objEntityViewField); fieldsTableModel.fireTableCellUpdated( objEntityViewField.getObjEntityView().getIndexOfObjEntityViewField(objEntityViewField), 4); } if (selectedLookupView != null) { ObjEntityViewField nullField = null; java.util.List lookupFields = new ArrayList(); lookupFields.add(nullField); lookupFields.addAll(selectedLookupView.getObjEntityViewFields()); DefaultComboBoxModel lookupFieldsDefaultModel = new DefaultComboBoxModel(lookupFields.toArray()); lookupFieldCombo.setModel(lookupFieldsDefaultModel); ObjEntityViewField fieldLookupField = objEntityViewField.getLookup().getLookupField(); if (fieldLookupField != null) { boolean flagSetSelectedItem = false; for (Iterator itr = lookupFields.iterator(); itr.hasNext(); ) { ObjEntityViewField field = (ObjEntityViewField) itr.next(); if ((field != null) && (fieldLookupField.getName().equals(field.getName()))) { lookupFieldCombo.setSelectedItem(fieldLookupField); flagSetSelectedItem = true; break; } } if (!flagSetSelectedItem) { lookupFieldCombo.setSelectedIndex(0); } } else { lookupFieldCombo.setSelectedIndex(0); } } else { ObjEntityViewField nullField = null; ObjEntityViewField[] fields = new ObjEntityViewField[] {nullField}; DefaultComboBoxModel fieldsModel = new DefaultComboBoxModel(fields); lookupFieldCombo.setModel(fieldsModel); lookupFieldCombo.setSelectedIndex(0); } }
private void move(ASDEditNode eNode, MouseEvent e) { eNode.getContext().remove(eNode); eNode.getContext().add(eNode, 0); int newX = eNode.getX() + e.getX(); int newY = eNode.getY() + e.getY(); eNode.setLocation(newX, newY); // inherited from java.awt.Component ASDGrammarNode gNode = eNode.getGrammarNode(); gNode.setXCoordinate((short) newX); gNode.setYCoordinate((short) newY); RightLabel rightLabel = eNode.getRightLabel(); if (rightLabel != null) { eNode.getContext().remove(rightLabel); eNode.getContext().add(rightLabel, 0); rightLabel.setLocation( newX + eNode.getWidth() + RightLabel.SEPARATION, newY + eNode.getInsets().top); } ASDDigraphNode dNode = eNode.getDigraphNode(); Iterator it; for (it = dNode.getInEdges().iterator(); it.hasNext(); ) ((ASDDigraphEdge) it.next()).getEditEdge().setDefaultCoordinates(); for (it = dNode.getOutEdges().iterator(); it.hasNext(); ) ((ASDDigraphEdge) it.next()).getEditEdge().setDefaultCoordinates(); }
/** * Find a new name that isn't among the used names. * * @param prefix * @param usedNames * @return */ public static String unusedName(String prefix, Iterator usedNames) { SortedSet u = new TreeSet(); while (usedNames.hasNext()) { String curr = (String) usedNames.next(); if (curr.startsWith(prefix)) { String postfix = curr.substring(prefix.length()); u.add(postfix); } } int count = 0; while (u.contains(String.valueOf(count))) { count++; } return prefix + count; }
WordListModel(ASDGrammar grammar) { Set entrySet = grammar.lexicon().entrySet(); ArrayList words = new ArrayList(entrySet.size()); for (Iterator it = entrySet.iterator(); it.hasNext(); ) { Map.Entry e = (Map.Entry) it.next(); String word = (String) e.getKey(); words.add(word); } Object[] wordArray = words.toArray(); if (words.size() > 1) // Arrays.sort(wordArray); Arrays.sort(wordArray, new WordComparator()); for (int j = 0; j < wordArray.length; j++) { this.addElement((String) wordArray[j]); } }
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 void mouseDragged(MouseEvent e) { if (!e.isShiftDown()) // normal drag move(this, e); else // drag entire connected component { ArrayList connectedNodes = dNode.connectedNodes(); if (connectedNodes.size() == 0) move(this, e); else for (Iterator it = connectedNodes.iterator(); it.hasNext(); ) { ASDDigraphNode dNode2 = (ASDDigraphNode) it.next(); ASDEditNode eNode2 = dNode2.getEditNode(); move(eNode2, e); } } getEditor().setGrammarChanged(true); getContext().repaint(); }
public void run() { ProtocolProviderService pps = call.getProtocolProvider(); Iterator participants = call.getCallParticipants(); while (participants.hasNext()) { CallParticipant participant = (CallParticipant) participants.next(); OperationSetBasicTelephony telephony = mainFrame.getTelephonyOpSet(pps); try { telephony.answerCallParticipant(participant); } catch (OperationFailedException e) { logger.error( "Could not answer to : " + participant + " caused by the following exception: " + e); } } }
/** * Creates an {@link OtrContactMenu} for each {@link Contact} contained in the * <tt>metaContact</tt>. * * @param metaContact The {@link MetaContact} this {@link OtrMetaContactMenu} refers to. */ private void createOtrContactMenus(MetaContact metaContact) { JMenu menu = getMenu(); // Remove any existing OtrContactMenu items. menu.removeAll(); // Create the new OtrContactMenu items. if (metaContact != null) { Iterator<Contact> contacts = metaContact.getContacts(); if (metaContact.getContactCount() == 1) { new OtrContactMenu(contacts.next(), inMacOSXScreenMenuBar, menu, false); } else while (contacts.hasNext()) { new OtrContactMenu(contacts.next(), inMacOSXScreenMenuBar, menu, true); } } }
private void objRelationshipComboAction(ActionEvent e) { ObjRelationship selectedObjRelationship = (ObjRelationship) objRelationshipCombo.getSelectedItem(); ObjRelationship fieldObjRelationship = objEntityViewField.getObjRelationship(); if (selectedObjRelationship != fieldObjRelationship) { objEntityViewField.setObjRelationship(selectedObjRelationship); } if (selectedObjRelationship != null) { ObjEntity targetObjEntity = selectedObjRelationship.getTargetObjEntity(); ObjEntityView nullView = null; java.util.List lookupViews = new ArrayList(); lookupViews.add(nullView); lookupViews.addAll(targetObjEntity.getObjEntityViews()); DefaultComboBoxModel lookupViewModel = new DefaultComboBoxModel(lookupViews.toArray()); lookupViewCombo.setModel(lookupViewModel); ObjEntityView fieldLookupView = objEntityViewField.getLookup().getLookupObjEntityView(); if (fieldLookupView != null) { boolean flagSetSelectedItem = false; for (Iterator itr = lookupViews.iterator(); itr.hasNext(); ) { ObjEntityView view = (ObjEntityView) itr.next(); if (fieldLookupView == view) { lookupViewCombo.setSelectedItem(fieldLookupView); flagSetSelectedItem = true; break; } } if (!flagSetSelectedItem) { lookupViewCombo.setSelectedIndex(0); } } else { lookupViewCombo.setSelectedIndex(0); } } else { ObjEntityView nullView = null; ObjEntityView[] views = new ObjEntityView[] {nullView}; DefaultComboBoxModel viewsModel = new DefaultComboBoxModel(views); lookupViewCombo.setModel(viewsModel); lookupViewCombo.setSelectedIndex(0); } }