// look up and apply coarts for given rels to each sign in result
private void applyCoarts(List<String> coartRels, Collection<Sign> result) {
List<Sign> inputSigns = new ArrayList<Sign>(result);
result.clear();
List<Sign> outputSigns = new ArrayList<Sign>(inputSigns.size());
// for each rel, lookup coarts and apply to input signs, storing results in output signs
for (Iterator<String> it = coartRels.iterator(); it.hasNext(); ) {
String rel = it.next();
Collection<String> preds = (Collection<String>) _coartRelsToPreds.get(rel);
if (preds == null) continue; // not expected
Collection<Sign> coartResult = getSignsFromRelAndPreds(rel, preds);
if (coartResult == null) continue;
for (Iterator<Sign> it2 = coartResult.iterator(); it2.hasNext(); ) {
Sign coartSign = it2.next();
// apply to each input
for (int j = 0; j < inputSigns.size(); j++) {
Sign sign = inputSigns.get(j);
grammar.rules.applyCoart(sign, coartSign, outputSigns);
}
}
// switch output to input for next iteration
inputSigns.clear();
inputSigns.addAll(outputSigns);
outputSigns.clear();
}
// add results back
result.addAll(inputSigns);
}
// look up and apply coarts for w to each sign in result
@SuppressWarnings("unchecked")
private void applyCoarts(Word w, SignHash result) throws LexException {
List<Sign> inputSigns = new ArrayList<Sign>(result.asSignSet());
result.clear();
List<Sign> outputSigns = new ArrayList<Sign>(inputSigns.size());
// for each surface attr, lookup coarts and apply to input signs, storing results in output
// signs
for (Iterator<Pair<String, String>> it = w.getSurfaceAttrValPairs(); it.hasNext(); ) {
Pair<String, String> p = it.next();
String attr = (String) p.a;
if (!_indexedCoartAttrs.contains(attr)) continue;
String val = (String) p.b;
Word coartWord = Word.createWord(attr, val);
SignHash coartResult = getSignsFromWord(coartWord, null, null, null);
for (Iterator<Sign> it2 = coartResult.iterator(); it2.hasNext(); ) {
Sign coartSign = it2.next();
// apply to each input
for (int j = 0; j < inputSigns.size(); j++) {
Sign sign = inputSigns.get(j);
grammar.rules.applyCoart(sign, coartSign, outputSigns);
}
}
// switch output to input for next iteration
inputSigns.clear();
inputSigns.addAll(outputSigns);
outputSigns.clear();
}
// add results back
result.addAll(inputSigns);
}
public Element getLookupElement() {
Element e = new Element("lookup");
if (saveErrors.size() != 0) {
saveErrors.clear();
}
ObjEntityView view = objEntityViewField.getObjEntityView();
DataView dataView = view.getDataView();
String fieldPath =
"<b>"
+ dataView.getName()
+ "."
+ view.getName()
+ "."
+ objEntityViewField.getName()
+ "</b><br>";
if (lookupObjEntityView != null) {
e.setAttribute(new Attribute("obj-entity-view-name", lookupObjEntityView.getName()));
} else {
e.setAttribute(new Attribute("obj-entity-view-name", ""));
saveErrors.add(fieldPath + "lookup hasn't attribute \"obj-entity-view-name\"<br><br>");
}
if (lookupField != null) {
e.setAttribute(new Attribute("field-name", lookupField.getName()));
} else {
e.setAttribute(new Attribute("field-name", ""));
saveErrors.add(fieldPath + "lookup hasn't attribute \"field-name\"<br><br>");
}
e.addContent("");
return e;
}
/**
* This will take the supplied <code>{@link Element}</code> and transfer its namespaces to the
* global namespace storage.
*
* @param element <code>Element</code> to read namespaces from.
*/
private void transferNamespaces(Element element) {
Iterator i = declaredNamespaces.iterator();
while (i.hasNext()) {
Namespace ns = (Namespace) i.next();
if (ns != element.getNamespace()) {
element.addNamespaceDeclaration(ns);
}
}
declaredNamespaces.clear();
}
