import edu.berkeley.sbp.chr.*;
import edu.berkeley.sbp.util.*;
-public class ReflectiveGrammar extends MetaGrammar {
-
+public class ReflectiveGrammar /*extends MetaGrammar*/ {
+ /*
final Class baseClass;
public ReflectiveGrammar(Class baseClass) { this.baseClass = baseClass; }
public Object convertLabel(String label) { return new ClassMark(label); }
+ public Object repeatTag() { return arrayMark; }
+
+ private static class ArrayMark { }
+ private static final ArrayMark arrayMark = new ArrayMark();
private static class ClassMark {
public final String clazz;
public Object build(Tree<Object> t) throws Exception { return buildHead(t, null); }
public Object buildHead(Tree<Object> t, Class c) throws Exception {
- System.out.println("buildHead " + (c==null?null:c.getName()) + " " + t);
+ //System.out.println("buildHead " + (c==null?null:c.getName()) + " " + t);
Object h = t.head();
- if (h != null && h instanceof ClassMark) return buildBody(t, Class.forName(baseClass.getName()+"$"+((ClassMark)h).clazz));
+ if (h != null && h instanceof ClassMark) {
+ String clazz = ReflectiveWalker.mangle(((ClassMark)h).clazz);
+ Class c2 = (c!=null && c.getName().endsWith("$"+clazz)) ? c : Reflection.forNameOrNull(baseClass.getName()+"$"+clazz);
+ if (c2!=null) return buildBody(t, c2);
+ for(Method m : baseClass.getMethods()) {
+ if (!m.getName().equals(clazz)) continue;
+ Object[] o = new Object[m.getParameterTypes().length];
+ for(int i=0; i<o.length; i++)
+ o[i] = i>=t.numChildren() ? null : buildHead(t.child(i), m.getParameterTypes()[i]);
+ return m.invoke(null, o);
+ }
+ throw new RuntimeException("couldn't figure out what to invoke for ClassMark " + clazz);
+ } else if (h==arrayMark && c==null) {
+ c = Object[].class;
+ }
if (c.isArray()) {
Object[] ret = new Object[t.numChildren()];
for(int i=0; i<ret.length; i++)
ret[i] = buildHead(t.child(i), c.getComponentType());
return Reflection.lub(ret);
}
- if (h==null) return buildBody(t, c);
-
if (c==String.class) return stringify(t);
- if (c==int.class) return new Integer(stringify(t));
+ if (c==int.class) { String s = stringify(t); if (s==null||"".equals(s)) return new Integer(0); return new Integer(s); }
+ if (h==null) return buildBody(t, c);
- if (t.numChildren() > 0) throw new RuntimeException("can't buildHead() on a tree with children when the head is of type " + h.getClass().getName());
+ if (t.numChildren() > 0)
+ throw new RuntimeException("can't buildHead() on a tree with children when the head is of type " +
+ h.getClass().getName() + "(c=="+(c==null?"null":c.getName())+")");
return h;
}
public Object buildBody(Tree<Object> t, Class c) throws Exception {
- System.out.println("buildBody " + (c==null?null:c.getName()) + " " + t);
+ //System.out.println("buildBody " + (c==null?null:c.getName()) + " " + t);
c = resolveClass(t, c);
+ if (c==null) return buildHead(t, null);
Object o = c.newInstance();
Field[] f = c.getFields();
OUTER: for(int i=0; i<t.numChildren(); i++) {
Object label = t.label(i);
Field field = null;
- if (label!=null) try { field = c.getField(label+""); } catch (NoSuchFieldException _) { }
+ if (label!=null) field = Reflection.getField(c, label+"");
if (field==null && label != null)
for(Method m : c.getMethods())
if (m.getName().equals(label)) {
m.invoke(o, new Object[] { buildHead(t.child(i), m.getParameterTypes()[0]) });
continue OUTER;
}
- if (field==null) System.err.println("warning: skipping field " + label + " ("+i+") on class " + c.getName());
+ if (field==null && label==null) {
+ field = Reflection.getField(c, 0);
+ }
+ if (field==null) {
+ System.err.println("warning: skipping field " + label + " ("+i+") on class " + c.getName());
+ System.err.println(" tree: " + t);
+ }
else {
Object tgt = Reflection.rebuild(buildHead(t.child(i), field.getType()), field.getType());
- if (tgt instanceof Object[]) tgt = Reflection.lub(tgt);
- System.err.println("setting field " + field.getName() + " on " + c.getName() + " to " + tgt);
+ //if (tgt instanceof Object[]) tgt = Reflection.lub(tgt);
+ //System.err.println("setting field " + field.getName() + " on " + c.getName() + " to " + tgt);
try {
field.set(o, tgt);
} catch (Exception e) {
public Class resolveClass(Tree<Object> t, Class c) throws Exception {
if (c==null) return null;
- System.out.println("resolving " + c.getName());
+ if (c==int.class) return c;
+ if (c==String.class) return c;
+ //System.out.println("resolving " + c.getName());
if (Reflection.isConcrete(c)) return c;
Class ret = null;
Class[] subs = (Class[])c.getField("subclasses").get(null);
OUTER: for(int i=0; i<subs.length; i++) {
- System.err.println("trying " + subs[i].getName());
+ //System.err.println("trying " + subs[i].getName());
for(int j=0; j<t.numChildren(); j++)
if (Reflection.getField(subs[i], t.label(j)+"")==null) {
- System.err.println("skipping due to " + t.label(j));
+ //System.err.println("skipping due to " + t.label(j));
continue OUTER;
}
if (ret != null)
throw new RuntimeException("couldn't decide between two classes:\n " + subs[i].getName() + "\n " + ret.getName());
ret = subs[i];
}
+ if (t.head()==null) return null;
if (ret==null) throw new RuntimeException("couldn't find a class to match tree: " + t);
return ret;
}
-
+ */
}