/**
* Function called when an audio device is plugged or unplugged.
*
* @param event The property change event which may concern the audio device.
*/
public void propertyChange(PropertyChangeEvent event) {
if (DeviceConfiguration.PROP_AUDIO_SYSTEM_DEVICES.equals(event.getPropertyName())) {
NotificationService notificationService = getNotificationService();
if (notificationService != null) {
// Registers only once to the popup message notification
// handler.
if (!isRegisteredToPopupMessageListener) {
isRegisteredToPopupMessageListener = true;
managePopupMessageListenerRegistration(true);
}
// Fires the popup notification.
ResourceManagementService resources = NeomediaActivator.getResources();
Map<String, Object> extras = new HashMap<String, Object>();
extras.put(NotificationData.POPUP_MESSAGE_HANDLER_TAG_EXTRA, this);
notificationService.fireNotification(
DEVICE_CONFIGURATION_HAS_CHANGED,
resources.getI18NString("impl.media.configform" + ".AUDIO_DEVICE_CONFIG_CHANGED"),
resources.getI18NString(
"impl.media.configform" + ".AUDIO_DEVICE_CONFIG_MANAGMENT_CLICK"),
null,
extras);
}
}
}
private void addTagToMethod(
Map<String, MethodInfo> methods, String tagText, MethodTagType tagType) {
MethodInfo mi = methods.get(methodName);
if (mi == null) {
mi = new MethodInfo();
methods.put(methodName, mi);
}
if (tagType == MethodTagType.OMIT_FROM_UI) {
mi.omitFromUI = true;
return;
}
String[] tagParts =
Iterables.toArray(
Splitter.on(WHITESPACE_PATTERN)
.trimResults()
.omitEmptyStrings()
.limit(2)
.split(tagText),
String.class);
if (tagParts.length == 2) {
if (tagType == MethodTagType.DESCRIPTION) {
mi.descriptions.put(tagParts[0], tagParts[1]);
} else {
mi.useSchemas.put(tagParts[0], tagParts[1]);
}
}
}
/**
* Set the object to be edited.
*
* @param value The object to be edited.
*/
public void setObject(Object value) {
if (!(_type.isInstance(value))) {
throw new IllegalArgumentException(value.getClass() + " is not of type " + _type);
}
_value = value;
// Disable event generation.
_squelchChangeEvents = true;
// Iterate over each property, doing a lookup on the associated editor
// and setting the editor's value to the value of the property.
Iterator it = _prop2Editor.keySet().iterator();
while (it.hasNext()) {
PropertyDescriptor desc = (PropertyDescriptor) it.next();
PropertyEditor editor = (PropertyEditor) _prop2Editor.get(desc);
Method reader = desc.getReadMethod();
if (reader != null) {
try {
Object val = reader.invoke(_value, null);
editor.setValue(val);
} catch (IllegalAccessException ex) {
ex.printStackTrace();
} catch (InvocationTargetException ex) {
ex.getTargetException().printStackTrace();
}
}
}
// Enable event generation.
_squelchChangeEvents = false;
}
/**
* @param source
* @param oldScalarMap The previous ScalarMap of the ScalarMapAdapter. May be <code>null</code>.
* @return The controlling ScalarMapAdapter of the display.
* @throws RemoteException
* @throws VisADException
*/
protected final synchronized ScalarMapAdapter accept(
ScalarMapAdapter source, ScalarMap oldScalarMap) throws VisADException, RemoteException {
ScalarMapAdapter adapter;
if (oldScalarMap != null) {
adapter = (ScalarMapAdapter) map.get(oldScalarMap);
if ((adapter != null) && (adapter == source)) {
map.remove(oldScalarMap);
changed = true;
}
}
ScalarMap newScalarMap = source.getScalarMap();
adapter = (ScalarMapAdapter) map.get(newScalarMap);
if (adapter != null) {
source.duplicate(adapter);
} else {
adapter = source;
map.put(newScalarMap, source);
changed = true;
}
if (changed) {
updater.update();
}
return adapter;
}
private VirtualMachine connect(String bndlPrefix, AttachingConnector connector, Map args)
throws DebuggerException {
if (bndlPrefix != null) {
if (connector.transport().name().equals("dt_shmem")) {
Argument a = (Argument) args.get("name");
if (a == null) println(bundle.getString(bndlPrefix + "_shmem_noargs"), ERR_OUT);
else
println(
new MessageFormat(bundle.getString(bndlPrefix + "_shmem"))
.format(new Object[] {a.value()}),
ERR_OUT);
} else if (connector.transport().name().equals("dt_socket")) {
Argument name = (Argument) args.get("hostname");
Argument port = (Argument) args.get("port");
if ((name == null) || (port == null))
println(bundle.getString(bndlPrefix + "_socket_noargs"), ERR_OUT);
else
println(
new MessageFormat(bundle.getString(bndlPrefix + "_socket"))
.format(new Object[] {name.value(), port.value()}),
ERR_OUT);
} else println(bundle.getString(bndlPrefix), ERR_OUT);
}
// launch VM
try { // S ystem.out.println ("attach to:" + ac + " : " + password); // NOI18N
return connector.attach(args);
} catch (Exception e) {
finishDebugger();
throw new DebuggerException(
new MessageFormat(bundle.getString("EXC_While_connecting_to_debuggee"))
.format(new Object[] {e.toString()}),
e);
}
}
private void showExternalDownloadItems() {
final Map<String, FcpPersistentGet> items = persistentQueue.getDownloadRequests();
for (final FcpPersistentGet downloadRequest : items.values()) {
if (!downloadModelItems.containsKey(downloadRequest.getIdentifier())) {
addExternalItem(downloadRequest);
}
}
}
public static void setEntity(ConcreteAgent ent, Map attributes) {
Map currentMap =
(Map)
RenderComponentManager.retrieveIDs("ConcreteAgent", ent.getPrefs(attributes).getView());
current = ent.getPrefs(attributes).getView();
if (ent != null
&& currentMap.get("_attributes_") != null
&& currentMap.get("_attributes_") instanceof ingenias.editor.rendererxml.AttributesPanel) {
((ingenias.editor.rendererxml.AttributesPanel) currentMap.get("_attributes_")).setEntity(ent);
}
if (currentMap.get("Id") != null) {
if (ent != null && ent.getId() != null) {
if (currentMap.get("Id") instanceof javax.swing.JLabel) {
((javax.swing.JLabel) (currentMap).get("Id")).setText(ent.getId().toString());
} else {
if (currentMap.get("Id") instanceof javax.swing.text.JTextComponent)
((javax.swing.text.JTextComponent) (currentMap).get("Id"))
.setText(ent.getId().toString());
}
} else {
if (currentMap.get("Id") instanceof javax.swing.JLabel)
((javax.swing.JLabel) (currentMap).get("Id")).setText("");
else {
if (!(currentMap.get("Id") instanceof ingenias.editor.rendererxml.CollectionPanel))
((javax.swing.text.JTextComponent) (currentMap).get("Id")).setText("");
}
}
}
}
/**
* Remove an adapter
*
* @param adapter adapter to remove
*/
public final synchronized void remove(ScalarMapAdapter adapter) {
adapter.removePropertyChangeListener(adapter.SCALAR_MAP, listener);
ScalarMap scalarMap = adapter.getScalarMap();
ScalarMapAdapter source = (ScalarMapAdapter) map.get(scalarMap);
if ((source != null) && (source == adapter)) {
map.remove(scalarMap);
changed = true;
updater.update();
}
}
public Set<String> getOperatorClasses(String parent, String searchTerm)
throws ClassNotFoundException {
if (CollectionUtils.isEmpty(operatorClassNames)) {
loadOperatorClass();
}
if (parent == null) {
parent = Operator.class.getName();
} else {
if (!typeGraph.isAncestor(Operator.class.getName(), parent)) {
throw new IllegalArgumentException("Argument must be a subclass of Operator class");
}
}
Set<String> filteredClass =
Sets.filter(
operatorClassNames,
new Predicate<String>() {
@Override
public boolean apply(String className) {
OperatorClassInfo oci = classInfo.get(className);
return oci == null || !oci.tags.containsKey("@omitFromUI");
}
});
if (searchTerm == null && parent.equals(Operator.class.getName())) {
return filteredClass;
}
if (searchTerm != null) {
searchTerm = searchTerm.toLowerCase();
}
Set<String> result = new HashSet<String>();
for (String clazz : filteredClass) {
if (parent.equals(Operator.class.getName()) || typeGraph.isAncestor(parent, clazz)) {
if (searchTerm == null) {
result.add(clazz);
} else {
if (clazz.toLowerCase().contains(searchTerm)) {
result.add(clazz);
} else {
OperatorClassInfo oci = classInfo.get(clazz);
if (oci != null) {
if (oci.comment != null && oci.comment.toLowerCase().contains(searchTerm)) {
result.add(clazz);
} else {
for (Map.Entry<String, String> entry : oci.tags.entrySet()) {
if (entry.getValue().toLowerCase().contains(searchTerm)) {
result.add(clazz);
break;
}
}
}
}
}
}
}
}
return result;
}
/**
* Closes given {@link #transportManagers} of this <tt>Conference</tt> and removes corresponding
* channel bundle.
*/
void closeTransportManager(TransportManager transportManager) {
synchronized (transportManagers) {
for (Iterator<IceUdpTransportManager> i = transportManagers.values().iterator();
i.hasNext(); ) {
if (i.next() == transportManager) {
i.remove();
// Presumably, we have a single association for
// transportManager.
break;
}
}
// Close manager
try {
transportManager.close();
} catch (Throwable t) {
logger.warn(
"Failed to close an IceUdpTransportManager of" + " conference " + getID() + "!", t);
// The whole point of explicitly closing the
// transportManagers of this Conference is to prevent memory
// leaks. Hence, it does not make sense to possibly leave
// TransportManagers open because a TransportManager has
// failed to close.
if (t instanceof InterruptedException) Thread.currentThread().interrupt();
else if (t instanceof ThreadDeath) throw (ThreadDeath) t;
}
}
}
/**
* 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;
}
/** Returns DebuggerInfo. */
public DebuggerInfo getDebuggerInfo() {
int i, k = tfParams.length;
for (i = 0; i < k; i++) {
Argument a = (Argument) args.get(tfParams[i].getName());
a.setValue(tfParams[i].getText());
}
return new RemoteDebuggerInfo(ac, args);
}
@Override
public Image getIcon(final int iconType) {
Image icon = img.get(iconType);
if (icon != null) return icon;
// try to get a special icon
icon = BeanSupport.getBeanIcon(component.getBeanClass(), iconType);
if (icon == null) {
final String className = component.getBeanClass().getName();
final String classDetails =
(String) component.getAuxValue(RADComponent.AUX_VALUE_CLASS_DETAILS);
if (!iconsInitialized) {
// getIconForClass invokes getNodes(true) which cannot be called in Mutex
EventQueue.invokeLater(
new Runnable() {
@Override
public void run() {
Image icon = PaletteUtils.getIconForClass(className, classDetails, iconType, true);
iconsInitialized = true;
if (icon != null) {
img.put(iconType, icon);
fireIconChange();
}
}
});
} else {
icon = PaletteUtils.getIconForClass(className, classDetails, iconType, false);
}
if (icon == null) {
// get icon from BeanInfo
java.beans.BeanInfo bi = component.getBeanInfo();
if (bi != null) {
icon = bi.getIcon(iconType);
}
if (icon == null) {
// use default icon
icon = super.getIcon(iconType);
}
}
}
img.put(iconType, icon);
return icon;
}
/**
* This method restores the width of the specified column to its previous width.
*
* @param column The column to restore.
*/
private void restoreColumn(int column) {
TableColumn tableColumn = table.getColumnModel().getColumn(column);
Integer width = columnSizes.get(tableColumn);
if (width != null) {
table.getTableHeader().setResizingColumn(tableColumn);
tableColumn.setWidth(width.intValue());
}
}
/**
* Returns, the <tt>TransportManager</tt> instance for the channel-bundle with ID
* <tt>channelBundleId</tt>. If no instance exists and <tt>create</tt> is <tt>true</tt>, one will
* be created.
*
* @param channelBundleId the ID of the channel-bundle for which to return the
* <tt>TransportManager</tt>.
* @param create whether to create a new instance, if one doesn't exist.
* @return the <tt>TransportManager</tt> instance for the channel-bundle with ID
* <tt>channelBundleId</tt>.
*/
IceUdpTransportManager getTransportManager(String channelBundleId, boolean create) {
IceUdpTransportManager transportManager;
synchronized (transportManagers) {
transportManager = transportManagers.get(channelBundleId);
if (transportManager == null && create && !isExpired()) {
try {
// FIXME: the initiator is hard-coded
// We assume rtcp-mux when bundle is used, so we make only
// one component.
transportManager = new IceUdpTransportManager(this, true, 1);
} catch (IOException ioe) {
throw new UndeclaredThrowableException(ioe);
}
transportManagers.put(channelBundleId, transportManager);
}
}
return transportManager;
}
/**
* Adds the channel-bundles of this <tt>Conference</tt> as
* <tt>ColibriConferenceIQ.ChannelBundle</tt> instances in <tt>iq</tt>.
*
* @param iq the <tt>ColibriConferenceIQ</tt> in which to describe.
*/
void describeChannelBundles(ColibriConferenceIQ iq) {
synchronized (transportManagers) {
for (Map.Entry<String, IceUdpTransportManager> entry : transportManagers.entrySet()) {
ColibriConferenceIQ.ChannelBundle responseBundleIQ =
new ColibriConferenceIQ.ChannelBundle(entry.getKey());
entry.getValue().describe(responseBundleIQ);
iq.addChannelBundle(responseBundleIQ);
}
}
}
/** Closes the {@link #transportManagers} of this <tt>Conference</tt>. */
private void closeTransportManagers() {
synchronized (transportManagers) {
for (Iterator<IceUdpTransportManager> i = transportManagers.values().iterator();
i.hasNext(); ) {
IceUdpTransportManager transportManager = i.next();
i.remove();
closeTransportManager(transportManager);
}
}
}
private void putFieldDescription(CompactFieldNode field, JSONObject port, TypeGraphVertex tgv)
throws JSONException {
OperatorClassInfo oci = classInfo.get(tgv.typeName);
if (oci != null) {
String fieldDesc = oci.fields.get(field.getName());
if (fieldDesc != null) {
port.put("description", fieldDesc);
return;
}
}
for (TypeGraphVertex ancestor : tgv.getAncestors()) {
putFieldDescription(field, port, ancestor);
}
}
private OperatorClassInfo getOperatorClassWithGetterSetter(
TypeGraphVertex tgv, String setterName, String getterName) {
OperatorClassInfo oci = classInfo.get(tgv.typeName);
if (oci != null
&& (oci.getMethods.containsKey(getterName) || oci.setMethods.containsKey(setterName))) {
return oci;
} else {
if (tgv.getAncestors() != null) {
for (TypeGraphVertex ancestor : tgv.getAncestors()) {
return getOperatorClassWithGetterSetter(ancestor, setterName, getterName);
}
}
}
return null;
}
/*
* Update the TableColumn with the newly calculated width
*/
private void updateTableColumn(int column, int width) {
final TableColumn tableColumn = table.getColumnModel().getColumn(column);
if (!tableColumn.getResizable()) return;
width += spacing;
// Don't shrink the column width
if (isOnlyAdjustLarger) {
width = Math.max(width, tableColumn.getPreferredWidth());
}
columnSizes.put(tableColumn, new Integer(tableColumn.getWidth()));
table.getTableHeader().setResizingColumn(tableColumn);
tableColumn.setWidth(width);
}
public static void setEntity(WFResponsable ent) {
Map currentMap =
(Map) RenderComponentManager.retrieveIDs("WFResponsable", ent.getPrefs().getView());
if (currentMap.get("Label") != null) {
if (ent != null && ent.getLabel() != null) {
if (currentMap.get("Label") instanceof javax.swing.JLabel) {
((javax.swing.JLabel) (currentMap).get("Label")).setText(ent.getLabel().toString());
} else {
if (currentMap.get("Label") instanceof javax.swing.text.JTextComponent)
((javax.swing.text.JTextComponent) (currentMap).get("Label"))
.setText(ent.getLabel().toString());
}
} else {
if (currentMap.get("Label") instanceof javax.swing.JLabel)
((javax.swing.JLabel) (currentMap).get("Label")).setText("");
else {
if (!(currentMap.get("Label") instanceof ingenias.editor.rendererxml.CollectionPanel))
((javax.swing.text.JTextComponent) (currentMap).get("Label")).setText("");
}
}
}
}
public static void setEntity(Plan ent, Map attributes) {
Map currentMap =
(Map) RenderComponentManager.retrieveIDs("Plan", ent.getPrefs(attributes).getView());
current = ent.getPrefs(attributes).getView();
if (ent != null
&& currentMap.get("_attributes_") != null
&& currentMap.get("_attributes_") instanceof ingenias.editor.rendererxml.AttributesPanel) {
((ingenias.editor.rendererxml.AttributesPanel) currentMap.get("_attributes_")).setEntity(ent);
}
if (currentMap.get("Tasks") != null
&& currentMap.get("Tasks") instanceof ingenias.editor.rendererxml.CollectionPanel) {
try {
((ingenias.editor.rendererxml.CollectionPanel) currentMap.get("Tasks"))
.setCollection("Tasks", ent.Tasks, ent.Tasks.getType());
} catch (IllegalArgumentException ex) {
ex.printStackTrace();
} catch (IllegalAccessException ex) {
ex.printStackTrace();
}
}
if (currentMap.get("Tasks") != null
&& currentMap.get("Tasks") instanceof ingenias.editor.rendererxml.CollectionPanel) {
try {
((ingenias.editor.rendererxml.CollectionPanel) currentMap.get("Tasks"))
.setCollection("Tasks", ent.Tasks, ent.Tasks.getType());
} catch (IllegalArgumentException ex) {
ex.printStackTrace();
} catch (IllegalAccessException ex) {
ex.printStackTrace();
}
}
if (currentMap.get("Tasks") != null) {
if (ent != null && ent.getTasks() != null) {
if (currentMap.get("Tasks") instanceof javax.swing.JLabel) {
((javax.swing.JLabel) (currentMap).get("Tasks")).setText(ent.getTasks().toString());
} else {
if (currentMap.get("Tasks") instanceof javax.swing.text.JTextComponent)
((javax.swing.text.JTextComponent) (currentMap).get("Tasks"))
.setText(ent.getTasks().toString());
}
} else {
if (currentMap.get("Tasks") instanceof javax.swing.JLabel)
((javax.swing.JLabel) (currentMap).get("Tasks")).setText("");
else {
if (!(currentMap.get("Tasks") instanceof ingenias.editor.rendererxml.CollectionPanel))
((javax.swing.text.JTextComponent) (currentMap).get("Tasks")).setText("");
}
}
}
if (currentMap.get("Id") != null) {
if (ent != null && ent.getId() != null) {
if (currentMap.get("Id") instanceof javax.swing.JLabel) {
((javax.swing.JLabel) (currentMap).get("Id")).setText(ent.getId().toString());
} else {
if (currentMap.get("Id") instanceof javax.swing.text.JTextComponent)
((javax.swing.text.JTextComponent) (currentMap).get("Id"))
.setText(ent.getId().toString());
}
} else {
if (currentMap.get("Id") instanceof javax.swing.JLabel)
((javax.swing.JLabel) (currentMap).get("Id")).setText("");
else {
if (!(currentMap.get("Id") instanceof ingenias.editor.rendererxml.CollectionPanel))
((javax.swing.text.JTextComponent) (currentMap).get("Id")).setText("");
}
}
}
}
public JComponent getConcreteSubComponent(String fieldname, Entity ent, Map map) {
Map<String, JComponent> currentMap =
(Map) RenderComponentManager.retrieveIDs("Plan", ent.getPrefs(map).getView());
return currentMap.get(fieldname);
}
private Object deserialize(Node node, boolean setProperty, boolean popBean) throws Exception {
Object object = null;
currentType = null;
currentNode = node;
currentName = node.getNodeName();
boolean isNull = false;
NamedNodeMap attrs = node.getAttributes();
String arrayType = null;
for (int i = 0; i < attrs.getLength(); i++) {
String nodeName = attrs.item(i).getNodeName();
String nodeValue = attrs.item(i).getNodeValue();
if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE))
currentType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString();
else if (nodeName.equals(
NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE))
arrayType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString();
else if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null"))
isNull = nodeValue.equals("true");
}
Class cls = null;
if (currentType != null) cls = getXsdTypeClass(currentType);
// Handle array, Vector, ArrayList, LinkedList, Hashtable,
// Properties, and HashMap data types
if ((cls != null)
&& ((cls == java.lang.reflect.Array.class)
|| (cls == Vector.class)
|| (cls == ArrayList.class)
|| (cls == LinkedList.class)
|| (cls == Hashtable.class)
|| (cls == Properties.class)
|| (cls == HashMap.class)
|| (cls == SortedMap.class))) {
parentNode = currentNode;
String name = node.getNodeName();
// Handle arrays
if (cls == java.lang.reflect.Array.class) {
int a = arrayType.indexOf("[");
int b = arrayType.indexOf("]");
String s = arrayType.substring(a + 1, b);
int arrayLen = Integer.valueOf(s).intValue();
arrayType = arrayType.substring(0, a);
// check if the array element is a standard Java class
Class arrayClass = getXsdTypeClass(arrayType);
// otherwise try to get the class of the bean
if (arrayClass == null)
arrayClass = getClassOfBean((ClassLoader) classLoaderStrategy, arrayType);
object = java.lang.reflect.Array.newInstance(arrayClass, arrayLen);
} else {
// Construct the list or map type
Constructor ct = cls.getConstructor((Class[]) null);
object = ct.newInstance((Object[]) null);
}
// deserialize the elements of the array, list, or map
NodeList childNodes = node.getChildNodes();
int arrayIndex = -1;
Node childNode = null;
Object nodeObj = null;
for (int i = 0; i < childNodes.getLength(); i++) {
childNode = childNodes.item(i);
if (childNode.getNodeType() == Node.ELEMENT_NODE) {
if ((cls == java.lang.reflect.Array.class)
|| (cls == Vector.class)
|| (cls == ArrayList.class)
|| (cls == LinkedList.class)) {
nodeObj = deserialize(childNode, false, true);
if (nodeObj != null) {
if (cls == java.lang.reflect.Array.class)
java.lang.reflect.Array.set(object, ++arrayIndex, nodeObj);
else ((List) object).add(nodeObj);
}
} else if ((cls == Hashtable.class)
|| (cls == Properties.class)
|| (cls == HashMap.class)
|| (cls == SortedMap.class)) {
if (childNode.getLocalName().equals("item")) {
NodeList htNodes = childNode.getChildNodes();
if (htNodes.getLength() == 2) {
Object hashKey = deserialize(htNodes.item(0), false, false);
Object hashValue = deserialize(htNodes.item(1), false, true);
((Map) object).put(hashKey, hashValue);
}
}
}
}
}
setBeanProperty(name, object);
// Handle everything else (primitives & POJOs)
} else {
// recurse on each of the child nodes
NodeList childNodes = node.getChildNodes();
if ((childNodes != null) && (childNodes.getLength() > 0)) {
for (int i = 0; i < childNodes.getLength(); i++) {
Node childNode = childNodes.item(i);
if (childNode.getNodeType() == Node.ELEMENT_NODE) {
if (currentType != null)
createObject(
node,
currentName,
currentPackage,
currentType,
childNode.getNodeValue(),
setProperty);
parentNode = node;
object = deserialize(childNode, true, true);
} else if ((childNode.getNodeType() == Node.TEXT_NODE) && (currentType != null)) {
object =
createObject(
node,
currentName,
currentPackage,
currentType,
childNode.getNodeValue(),
setProperty);
}
currentType = null;
}
} else {
if (!isNull)
object = createObject(node, currentName, currentPackage, currentType, null, setProperty);
}
if (node.getParentNode() != parentNode) {
parentNode = node.getParentNode();
if (popBean) {
Object bean = popBeanOffStack();
if (bean != null) object = bean;
}
}
}
return object;
}
/* PROTECTED METHODS */
protected void getBeanElements(
Element parentElement, String objectName, String objectType, Object bean)
throws IntrospectionException, IllegalAccessException {
if (objectName == null) {
// Get just the class name by lopping off the package name
StringBuffer sb = new StringBuffer(bean.getClass().getName());
sb.delete(0, sb.lastIndexOf(".") + 1);
objectName = sb.toString();
}
// Check if the bean is a standard Java object type or a byte[] (encoded as a base 64 array)
Element element = getStandardObjectElement(document, bean, objectName);
// If the body element object is null then the bean is not a standard Java object type
if (element != null) {
if (includeNullValues
|| !element
.getAttribute(
NamespaceConstants.NSPREFIX_SCHEMA_XSI
+ ":"
+ org.apache.axis.Constants.ATTR_TYPE)
.equals("anyType")) {
if (!includeTypeInfo) {
element.removeAttribute(
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + org.apache.axis.Constants.ATTR_TYPE);
element.removeAttribute(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null");
}
parentElement.appendChild(element);
}
} else {
// Analyze the bean
Class classOfBean = null;
if (bean != null) classOfBean = bean.getClass();
// If the object is an array, then serialize each of the beans in the array.
if ((classOfBean != null) && (classOfBean.isArray())) {
String[] arrayInfo = getXsdSoapArrayInfo(classOfBean.getCanonicalName(), nsPrefix);
int arrayLen = Array.getLength(bean);
StringBuffer arrayType = new StringBuffer(arrayInfo[1]);
arrayType.insert(arrayType.indexOf("[]") + 1, arrayLen);
if (objectName.charAt(objectName.length() - 1) == ';')
objectName =
new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString();
element = document.createElement(objectName);
parentElement.appendChild(element);
// Get the bean objects from the array and serialize each
for (int i = 0; i < arrayLen; i++) {
Object b = Array.get(bean, i);
if (b != null) {
String name = null;
if (objectName.charAt(objectName.length() - 1) == 's') {
name = formatName(objectName.substring(0, objectName.length() - 1));
}
getBeanElements(element, name, b.getClass().getName(), b);
} else {
// Array element is null, so don't include it and decrement the # elements in the array
int index = arrayType.indexOf("[");
arrayType.replace(index + 1, index + 2, String.valueOf(--arrayLen));
}
if (includeTypeInfo) {
element.setAttributeNS(
NamespaceConstants.NSURI_SCHEMA_XSI,
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":Array");
element.setAttributeNS(
NamespaceConstants.NSURI_SOAP_ENCODING,
NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE,
arrayInfo[0] + ":" + arrayType.toString());
}
}
} else {
int beanType = 0;
String beanName = null;
if (classOfBean != null) {
if (classOfBean == Vector.class) {
beanType = 1;
beanName = "Vector";
} else if (classOfBean == ArrayList.class) {
beanType = 2;
beanName = "ArrayList";
} else if (classOfBean == LinkedList.class) {
beanType = 3;
beanName = "LinkedList";
} else if (classOfBean == Hashtable.class) {
beanType = 4;
beanName = "Hashtable";
} else if (classOfBean == Properties.class) {
beanType = 5;
beanName = "Properties";
} else if ((classOfBean == HashMap.class) || (classOfBean == SortedMap.class)) {
beanType = 6;
beanName = "Map";
}
}
if (beanType > 0) {
String prefix = null;
if ((beanType == 1) || (beanType == 5))
prefix = NamespaceConstants.NSPREFIX_SOAP_ENCODING;
if (beanType == 6) prefix = Constants.NS_PREFIX_XMLSOAP;
else prefix = DEFAULT_NS_PREFIX;
element = document.createElement(objectName);
if (includeTypeInfo) {
element.setAttributeNS(
NamespaceConstants.NSURI_SCHEMA_XSI,
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
prefix + ":" + beanName);
if (bean == null)
element.setAttributeNS(
NamespaceConstants.NSURI_SCHEMA_XSI,
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null",
"true");
}
parentElement.appendChild(element);
if ((beanType >= 1) && (beanType <= 3)) {
AbstractCollection collection = (AbstractCollection) bean;
// Get the bean objects from the vector and serialize each
Iterator it = collection.iterator();
while (it.hasNext()) {
Object b = it.next();
String name = null;
if (b != null) {
if (objectName.charAt(objectName.length() - 1) == 's') {
name = formatName(objectName.substring(0, objectName.length() - 1));
} else name = "item";
}
getBeanElements(element, name, b.getClass().getName(), b);
}
} else if ((beanType == 4) || (beanType == 5)) {
Hashtable hashtable = (Hashtable) bean;
// Get the bean objects from the hashtable or properties and serialize each
Enumeration en = hashtable.keys();
while (en.hasMoreElements()) {
Object key = en.nextElement();
String keyClassName = key.getClass().getName();
Object value = hashtable.get(key);
String beanClassName = null;
if (value != null) beanClassName = value.getClass().getName();
Element itemElement = document.createElement("item");
element.appendChild(itemElement);
getBeanElements(itemElement, "key", keyClassName, key);
getBeanElements(itemElement, "value", beanClassName, value);
}
} else if (beanType == 6) {
Map map = null;
if (classOfBean == HashMap.class) map = (HashMap) bean;
else if (classOfBean == SortedMap.class) map = (SortedMap) bean;
// Get the bean objects from the hashmap and serialize each
Set set = map.keySet();
Iterator it = set.iterator();
while (it.hasNext()) {
Object key = it.next();
String keyClassName = key.getClass().getName();
Object value = map.get(key);
String beanClassName = null;
if (value != null) beanClassName = value.getClass().getName();
Element itemElement = document.createElement("item");
element.appendChild(itemElement);
getBeanElements(itemElement, "key", keyClassName, key);
getBeanElements(itemElement, "value", beanClassName, value);
}
}
} else {
// Create a parent element for this bean's properties
if (objectName.charAt(objectName.length() - 1) == ';')
objectName =
new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString();
objectName = formatName(objectName);
element = document.createElement(objectName);
parentElement.appendChild(element);
if (includeTypeInfo) {
StringBuffer className = new StringBuffer(objectType);
element.setAttributeNS(
NamespaceConstants.NSURI_SCHEMA_XSI,
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
nsPrefix + ":" + className.delete(0, className.lastIndexOf(".") + 1).toString());
}
if (classOfBean != null) {
// Get an array of property descriptors
BeanInfo bi = Introspector.getBeanInfo(classOfBean);
PropertyDescriptor[] pds = bi.getPropertyDescriptors();
// For each property of the bean, get a SOAPBodyElement that
// represents the individual property. Append that SOAPBodyElement
// to the class name element of the SOAP body.
for (int i = 0; i < pds.length; i++) {
PropertyDescriptor pd = pds[i];
getBeanElementProperties(element, bean, pd);
}
} else {
if (includeTypeInfo)
element.setAttributeNS(
NamespaceConstants.NSURI_SCHEMA_XSI,
NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null",
"true");
}
}
}
}
}
/**
* Creates an SCAudioClip from the given URI and adds it to the list of available audio-s.
*
* @param uri the path where the audio file could be found
* @param playback use or not the playback device.
* @return a newly created <tt>SCAudioClip</tt> from <tt>uri</tt>
*/
public SCAudioClip createAudio(String uri, boolean playback) {
SCAudioClip audio;
synchronized (audiosSyncRoot) {
final AudioKey key = new AudioKey(uri, playback);
/*
* While we want to reuse the SCAudioClip instances, they may be
* used by a single user at a time. That's why we'll forget about
* them while they are in use and we'll reclaim them when they are
* no longer in use.
*/
audio = (audios == null) ? null : audios.remove(key);
if (audio == null) {
try {
AudioSystem audioSystem = getDeviceConfiguration().getAudioSystem();
if (audioSystem == null) {
audio = new JavaSoundClipImpl(uri, this);
} else if (NoneAudioSystem.LOCATOR_PROTOCOL.equalsIgnoreCase(
audioSystem.getLocatorProtocol())) {
audio = null;
} else {
audio = new AudioSystemClipImpl(uri, this, audioSystem, playback);
}
} catch (Throwable t) {
if (t instanceof ThreadDeath) throw (ThreadDeath) t;
else {
/*
* Could not initialize a new SCAudioClip instance to be
* played.
*/
return null;
}
}
}
/*
* Make sure that the SCAudioClip will be reclaimed for reuse when
* it is no longer in use.
*/
if (audio != null) {
if (audios == null) audios = new HashMap<AudioKey, SCAudioClip>();
/*
* We have to return in the Map which was active at the time the
* SCAudioClip was initialized because it may have become
* invalid if the playback or notify audio device changed.
*/
final Map<AudioKey, SCAudioClip> finalAudios = audios;
final SCAudioClip finalAudio = audio;
audio =
new SCAudioClip() {
/**
* Evaluates a specific <tt>loopCondition</tt> as defined by {@link
* SCAudioClip#play(int,Callable)}.
*
* @param loopCondition the <tt>Callable<Boolean></tt> which represents the
* <tt>loopCondition</tt> to be evaluated
* @return {@link Boolean#FALSE} if <tt>loopCondition</tt> is <tt>null</tt>;
* otherwise, the value returned by invoking {@link Callable#call()} on the
* specified <tt>loopCondition</tt>
* @throws Exception if the specified <tt>loopCondition</tt> throws an
* <tt>Exception</tt>
*/
private Boolean evaluateLoopCondition(Callable<Boolean> loopCondition)
throws Exception {
/*
* SCAudioClip.play(int,Callable<Boolean>) is
* documented to play the SCAudioClip once only if
* the loopCondition is null. The same will be
* accomplished by returning Boolean.FALSE.
*/
return (loopCondition == null) ? Boolean.FALSE : loopCondition.call();
}
/**
* {@inheritDoc}
*
* <p>Returns the wrapped <tt>SCAudioClip</tt> into the cache from it has earlier been
* retrieved in order to allow its reuse.
*/
@Override
protected void finalize() throws Throwable {
try {
synchronized (audios) {
finalAudios.put(key, finalAudio);
}
} finally {
super.finalize();
}
}
public void play() {
/*
* SCAudioClip.play() is documented to behave as if
* loopInterval is negative and/or loopCondition is
* null. We have to take care that this instance
* does not get garbage collected until the
* finalAudio finishes playing so we will delegate
* to this instance's implementation of
* SCAudioClip.play(int,Callable<Boolean>) instead
* of to the finalAudio's.
*/
play(-1, null);
}
public void play(int loopInterval, final Callable<Boolean> finalLoopCondition) {
/*
* We have to make sure that this instance does not
* get garbage collected before the finalAudio
* finishes playing. The argument loopCondition of
* the method
* SCAudioClip.play(int,Callable<Boolean>) will
* live/be referenced during that time so we will
* use it to hold on to this instance.
*/
Callable<Boolean> loopCondition =
new Callable<Boolean>() {
public Boolean call() throws Exception {
return evaluateLoopCondition(finalLoopCondition);
}
};
finalAudio.play(loopInterval, loopCondition);
}
public void stop() {
finalAudio.stop();
}
/**
* Determines whether this audio is started i.e. a <tt>play</tt> method was invoked
* and no subsequent <tt>stop</tt> has been invoked yet.
*
* @return <tt>true</tt> if this audio is started; otherwise, <tt>false</tt>
*/
public boolean isStarted() {
return finalAudio.isStarted();
}
};
}
}
return audio;
}
private void refresh(int index) {
GridBagConstraints c = new GridBagConstraints();
// No connector ................
if (acs.size() == 0) {
add(new JLabel(bundle.getString("CTL_No_Connector")), c);
return;
}
// Connector switch ................
if (acs.size() > 1) {
c.insets = new Insets(0, 0, 3, 3);
add(new JLabel(bundle.getString("CTL_Connector")), c);
cbConnectors = new JComboBox();
int i, k = acs.size();
for (i = 0; i < k; i++) {
AttachingConnector ac = (AttachingConnector) acs.get(i);
int jj = ac.name().lastIndexOf('.');
String s = (jj < 0) ? ac.name() : ac.name().substring(jj + 1);
cbConnectors.addItem(s + " (" + ac.description() + ")");
}
c = new GridBagConstraints();
c.insets = new Insets(0, 3, 3, 0);
c.weightx = 1.0;
c.fill = java.awt.GridBagConstraints.HORIZONTAL;
c.gridwidth = 0;
cbConnectors.setSelectedIndex(index);
cbConnectors.setActionCommand("SwitchMe!");
cbConnectors.addActionListener(this);
add(cbConnectors, c);
}
ac = (AttachingConnector) acs.get(index);
// Transport ................
c = new GridBagConstraints();
c.insets = new Insets(3, 0, 0, 3);
add(new JLabel(bundle.getString("CTL_Transport")), c);
JTextField tfTransport = new JTextField(ac.transport().name());
tfTransport.setEnabled(false);
c = new GridBagConstraints();
c.gridwidth = 0;
c.insets = new Insets(3, 3, 0, 0);
c.fill = java.awt.GridBagConstraints.HORIZONTAL;
c.weightx = 1.0;
add(tfTransport, c);
// Other params ................
args = ac.defaultArguments();
tfParams = new JTextField[args.size()];
Iterator it = args.keySet().iterator();
int i = 0;
while (it.hasNext()) {
String name = (String) it.next();
Argument a = (Argument) args.get(name);
c = new GridBagConstraints();
c.insets = new Insets(6, 0, 0, 3);
c.anchor = GridBagConstraints.WEST;
add(new JLabel(a.label() + ": "), c);
JTextField tfParam = new JTextField(a.value());
tfParams[i++] = tfParam;
tfParam.setName(name);
c = new GridBagConstraints();
c.gridwidth = 0;
c.insets = new Insets(6, 3, 0, 0);
c.fill = java.awt.GridBagConstraints.HORIZONTAL;
c.weightx = 1.0;
add(tfParam, c);
}
c = new GridBagConstraints();
c.weighty = 1.0;
JPanel p = new JPanel();
p.setPreferredSize(new Dimension(1, 1));
add(p, c);
}
private VirtualMachine launch(DebuggerInfo info) throws DebuggerException {
// create process & read password for local debugging
// create main class & arguments ...............................................
StringBuffer sb = new StringBuffer();
sb.append(mainClassName);
String[] infoArgs = info.getArguments();
int i, k = infoArgs.length;
for (i = 0; i < k; i++) sb.append(" \"").append(infoArgs[i]).append('"'); // NOI18N
String main = new String(sb);
// create connector ..............................................................
VirtualMachineManager vmm = Bootstrap.virtualMachineManager();
java.util.List lcs = vmm.launchingConnectors();
k = lcs.size();
for (i = 0; i < k; i++)
if (((LaunchingConnector) lcs.get(i)).name().indexOf("RawCommandLineLaunch") >= 0) // NOI18N
break;
if (i == k) {
finishDebugger();
throw new DebuggerException(
new MessageFormat(bundle.getString("EXC_Cannot_find_launcher"))
.format(
new Object[] {
"RawCommandLineLaunch" // NOI18N
}));
}
LaunchingConnector lc = (LaunchingConnector) lcs.get(i);
String transport = lc.transport().name();
// create commandLine & NbProcessDescriptor ..............................
NbProcessDescriptor debugerProcess;
if (info instanceof ProcessDebuggerInfo)
debugerProcess = ((ProcessDebuggerInfo) info).getDebuggerProcess();
else debugerProcess = ProcessDebuggerType.DEFAULT_DEBUGGER_PROCESS;
// generate password
String password;
if (transport.equals("dt_shmem")) { // NOI18N
connector = getAttachingConnectorFor("dt_shmem");
password = generatePassword();
args = connector.defaultArguments();
((Argument) args.get("name")).setValue(password);
} else {
try {
java.net.ServerSocket ss = new java.net.ServerSocket(0);
password = "" + ss.getLocalPort(); // NOI18N
ss.close();
} catch (java.io.IOException e) {
finishDebugger();
throw new DebuggerException(
new MessageFormat(bundle.getString("EXC_Cannot_find_empty_local_port"))
.format(new Object[] {e.toString()}));
}
connector = getAttachingConnectorFor("dt_socket");
args = connector.defaultArguments();
((Argument) args.get("port")).setValue(password);
}
HashMap map =
Utils.processDebuggerInfo(
info,
"-Xdebug -Xnoagent -Xrunjdwp:transport="
+ // NOI18N
transport
+ ",address="
+ // NOI18N
password
+ ",suspend=y ", // NOI18N
main);
MapFormat format = new MapFormat(map);
String commandLine =
format.format(
debugerProcess.getProcessName()
+ " "
+ // NOI18N
debugerProcess.getArguments());
println(commandLine, ERR_OUT);
/*
We mus wait on process start to connect...
try {
process = debugerProcess.exec (format);
} catch (java.io.IOException exc) {
finishDebugger ();
throw new DebuggerException (
new MessageFormat (bundle.getString ("EXC_While_create_debuggee")).
format (new Object[] {
debugerProcess.getProcessName (),
exc.toString ()
}),
exc
);
}
return connect (
null,
connector,
args
);*/
/* S ystem.out.println ("attaching: ");
Utils.showConnectors (vmm.attachingConnectors ());
S ystem.out.println ("launching: ");
Utils.showConnectors (vmm.launchingConnectors ());
S ystem.out.println ("listening: ");
Utils.showConnectors (vmm.listeningConnectors ());*/
// set debugger-start arguments
Map params = lc.defaultArguments();
((Argument) params.get("command"))
.setValue( // NOI18N
commandLine);
((Argument) params.get("address"))
.setValue( // NOI18N
password);
// launch VM
try {
return lc.launch(params);
} catch (VMStartException exc) {
showOutput(process = exc.process(), ERR_OUT, ERR_OUT);
finishDebugger();
throw new DebuggerException(
new MessageFormat(bundle.getString("EXC_While_create_debuggee"))
.format(
new Object[] {format.format(debugerProcess.getProcessName()), exc.toString()}),
exc);
} catch (Exception exc) {
finishDebugger();
throw new DebuggerException(
new MessageFormat(bundle.getString("EXC_While_create_debuggee"))
.format(
new Object[] {format.format(debugerProcess.getProcessName()), exc.toString()}),
exc);
}
}
/** {@inheritDoc} */
@Override
public void setProperty(String propertyName, Object value) {
if (value == null) properties.remove(propertyName);
else properties.put(propertyName, value);
}
/** {@inheritDoc} */
@Override
public Object getProperty(String propertyName) {
return properties.get(propertyName);
}
