private final Class _cl;
private final Class[] _inner;
+ private final Method[] _allMethods;
public AnnotationGrammarBindingResolver() {
this(MetaGrammarBindings.class);
public AnnotationGrammarBindingResolver(Class c) {
this._cl = c;
- this._inner = c.getDeclaredClasses();
+ ArrayList<Class> alc = new ArrayList<Class>();
+ ArrayList<Method> alm = new ArrayList<Method>();
+ add(c, alc, alm);
+ this._inner = (Class[])alc.toArray(new Class[0]);
+ this._allMethods = (Method[])alm.toArray(new Method[0]);
}
- public AnnotationGrammarBindingResolver(Class c, Class[] inner) {
- this._cl = c;
- this._inner = inner;
- }
-
- public Object repeatTag() {
- return new Tree.ArrayBuildingTreeFunctor<Object>();
- }
+ public Object repeatTag() { return new Tree.ArrayBuildingTreeFunctor<Object>(); }
public Sequence tryResolveTag(String tag, String nonTerminalName, Element[] els, Object[] labels, boolean[] drops) {
MetaGrammar.Production p = new MetaGrammar.Production(tag, nonTerminalName, els, labels, drops);
if (labels != null && labels.length > 0 && "numeric".equals(labels[0]))
System.out.println("here! ");
- for(Method m : _cl.getMethods())
+ for(Method m : _allMethods)
if (new MetaGrammar.Target(m).isCompatible(p))
return new MetaGrammar.Target(m).makeSequence(p);
for(Class c : _inner)
return Sequence.rewritingSequence(tag, els, labels, drops);
}
}
+
+ // helper
+
+ private static void add(Class cl, ArrayList<Class> alc, ArrayList<Method> alm) {
+ for(Method m : cl.getDeclaredMethods())
+ alm.add(m);
+ for(Class c : cl.getDeclaredClasses()) {
+ alc.add(c);
+ add(c, alc, alm);
+ }
+ if (cl.getSuperclass() != Object.class)
+ add(cl.getSuperclass(), alc, alm);
+ }
+
}