static void writeObjects(
String elt,
XMLWriter writer,
java.util.List<ObjectDescriptor> objects,
java.util.List<PropertyDescriptor> properties)
throws java.io.IOException {
for (ObjectDescriptor p : objects) {
java.util.List<String[]> attributes = new java.util.LinkedList<String[]>();
String strId = Ice.Util.identityToString(p.id);
attributes.add(createAttribute("identity", strId));
if (p.type.length() > 0) {
attributes.add(createAttribute("type", p.type));
}
if (properties != null) {
String prop = lookupName(strId, properties);
if (prop != null) {
attributes.add(createAttribute("property", prop));
}
}
writer.writeElement(elt, attributes);
}
}
static void writePropertySet(
XMLWriter writer,
String id,
String idAttrName,
PropertySetDescriptor psd,
java.util.List<AdapterDescriptor> adapters,
String[] logs)
throws java.io.IOException {
if (id.length() == 0 && psd.references.length == 0 && psd.properties.size() == 0) {
return;
}
//
// We don't show the .Endpoint of adapters,
// since they already appear in the Adapter descriptors
//
java.util.Set<String> hiddenPropertyNames = new java.util.HashSet<String>();
java.util.Set<String> hiddenPropertyValues = new java.util.HashSet<String>();
if (adapters != null) {
for (AdapterDescriptor p : adapters) {
hiddenPropertyNames.add(p.name + ".Endpoints");
for (ObjectDescriptor q : p.objects) {
hiddenPropertyValues.add(Ice.Util.identityToString(q.id));
}
for (ObjectDescriptor q : p.allocatables) {
hiddenPropertyValues.add(Ice.Util.identityToString(q.id));
}
}
}
if (logs != null) {
for (String log : logs) {
hiddenPropertyValues.add(log);
}
}
java.util.List<String[]> attributes = new java.util.LinkedList<String[]>();
if (id.length() > 0) {
attributes.add(createAttribute(idAttrName, id));
}
if (psd.references.length == 0 && psd.properties.size() == 0) {
writer.writeElement("properties", attributes);
} else {
writer.writeStartTag("properties", attributes);
for (String ref : psd.references) {
attributes.clear();
attributes.add(createAttribute("refid", ref));
writer.writeElement("properties", attributes);
}
for (PropertyDescriptor p : psd.properties) {
if (hiddenPropertyNames.contains(p.name)) {
//
// We hide only the first occurence
//
hiddenPropertyNames.remove(p.name);
} else if (hiddenPropertyValues.contains(p.value)) {
hiddenPropertyValues.remove(p.value);
} else {
attributes.clear();
attributes.add(createAttribute("name", p.name));
attributes.add(createAttribute("value", p.value));
writer.writeElement("property", attributes);
}
}
writer.writeEndTag("properties");
}
}
public void setProperties(
java.util.List<PropertyDescriptor> properties,
java.util.List<AdapterDescriptor> adapters,
String[] logs,
Utils.Resolver resolver,
boolean editable) {
_editable = editable;
//
// We don't show the .Endpoint and .PublishedEndpoints of adapters,
// since they already appear in the Adapter pages
//
java.util.Set<String> hiddenPropertyNames = new java.util.HashSet<String>();
//
// We also hide properties whose value match an object or allocatable
//
java.util.Set<String> hiddenPropertyValues = new java.util.HashSet<String>();
_hiddenProperties.clear();
if (adapters != null) {
//
// Note that we don't substitute *on purpose*, i.e. the names or values
// must match before substitution.
//
for (AdapterDescriptor p : adapters) {
hiddenPropertyNames.add(p.name + ".Endpoints");
hiddenPropertyNames.add(p.name + ".PublishedEndpoints");
hiddenPropertyNames.add(p.name + ".ProxyOptions");
for (ObjectDescriptor q : p.objects) {
hiddenPropertyValues.add(Ice.Util.identityToString(q.id));
}
for (ObjectDescriptor q : p.allocatables) {
hiddenPropertyValues.add(Ice.Util.identityToString(q.id));
}
}
}
if (logs != null) {
for (String log : logs) {
hiddenPropertyValues.add(log);
}
}
//
// Transform list into vector of vectors
//
java.util.Vector<java.util.Vector<String>> vector =
new java.util.Vector<java.util.Vector<String>>(properties.size());
for (PropertyDescriptor p : properties) {
if (hiddenPropertyNames.contains(p.name)) {
//
// We keep them at the top of the list
//
if (_editable) {
_hiddenProperties.add(p);
}
//
// We hide only the first occurence
//
hiddenPropertyNames.remove(p.name);
} else if (hiddenPropertyValues.contains(p.value)) {
//
// We keep them at the top of the list
//
if (_editable) {
_hiddenProperties.add(p);
}
//
// We hide only the first occurence
//
hiddenPropertyValues.remove(p.value);
} else {
java.util.Vector<String> row = new java.util.Vector<String>(2);
row.add(Utils.substitute(p.name, resolver));
row.add(Utils.substitute(p.value, resolver));
vector.add(row);
}
}
if (_editable) {
java.util.Vector<String> newRow = new java.util.Vector<String>(2);
newRow.add("");
newRow.add("");
vector.add(newRow);
}
_model =
new DefaultTableModel(vector, _columnNames) {
@Override
public boolean isCellEditable(int row, int column) {
return _editable;
}
};
_model.addTableModelListener(
new TableModelListener() {
@Override
public void tableChanged(TableModelEvent e) {
if (_editable) {
Object lastKey = _model.getValueAt(_model.getRowCount() - 1, 0);
if (lastKey != null && !lastKey.equals("")) {
_model.addRow(new Object[] {"", ""});
}
_editor.updated();
}
}
});
setModel(_model);
setCellSelectionEnabled(_editable);
setOpaque(_editable);
setPreferredScrollableViewportSize(getPreferredSize());
DefaultTableCellRenderer cr = (DefaultTableCellRenderer) getDefaultRenderer(String.class);
cr.setOpaque(_editable);
}