package edu.berkeley.sbp;
import edu.berkeley.sbp.*;
-import edu.berkeley.sbp.*;
+import edu.berkeley.sbp.Sequence.Position;
import edu.berkeley.sbp.util.*;
import java.io.*;
import java.util.*;
/** assume that this forest contains exactly one tree and return it; otherwise throw an exception */
public final Tree<T> expand1() throws Ambiguous, ParseFailed {
- Iterator<Tree<T>> it = expand(true).iterator();
- if (!it.hasNext()) throw new ParseFailed();
- return it.next();
+ try {
+ Iterator<Tree<T>> it = expand(true).iterator();
+ if (!it.hasNext()) throw new ParseFailed();
+ return it.next();
+ } catch (InnerAmbiguous ia) { throw new Ambiguous(ia.f); }
}
/** expand this forest into a set of trees */
public HashSet<Tree<T>> expand(boolean toss) {
+ //if (toss) scan();
final HashSetTreeConsumer<T> ret = new HashSetTreeConsumer<T>();
visit(new TreeMaker2<T>(toss, ret), null, null);
- if (toss && ret.size() > 1) throw new Ambiguous(this);
+ if (toss && ret.size() > 1) throw new InnerAmbiguous(this);
return ret;
}
+ private static class InnerAmbiguous extends RuntimeException {
+ public final Forest<?> f;
+ public InnerAmbiguous(Forest<?> f) { this.f = f; }
+ }
+
public static interface TreeConsumer<T> {
public void addTree(Tree<T> t);
}
public void addTree(Tree<T> t) { super.add(t); }
}
- static <T> Forest<T> singleton(Input.Location loc) { return create(loc, null, new Forest[] { }, false, true); }
- static <T> Forest<T> singleton(Input.Location loc, Forest<T> body) { return create(loc, null, new Forest[] { body }, false, true); }
- static <T> Forest<T> leaf(Input.Location loc, T tag) { return create(loc, tag, null, false, false); }
- public static <T> Forest<T> create(Input.Location loc, T tag, Forest<T>[] tokens, boolean unwrap, boolean singleton) {
- return new MyBody<T>(loc, tag, tokens, unwrap, singleton);
+ static <T> Forest<T> singleton(Input.Location loc, Position p) {
+ return create(loc, null, new Forest[] { }, false, true, p); }
+ static <T> Forest<T> singleton(Input.Location loc, Forest<T> body, Position p) {
+ return create(loc, null, new Forest[] { body }, false, true, p); }
+ static <T> Forest<T> leaf(Input.Location loc, T tag, Position p) { return create(loc, tag, null, false, false, p); }
+
+ public static <T> Forest<T> create(Input.Location loc, T tag, Forest<T>[] tokens, boolean unwrap, boolean singleton, Position p) {
+ return new MyBody<T>(loc, tag, tokens, unwrap, singleton, p);
}
// Body //////////////////////////////////////////////////////////////////////////////
private final Forest<T>[] tokens;
private final boolean unwrap;
private final boolean singleton;
+ private final Sequence.Position reduction;
- private MyBody(Input.Location loc, T tag, Forest<T>[] tokens, boolean unwrap, boolean singleton) {
+ private MyBody(Input.Location loc, T tag, Forest<T>[] tokens, boolean unwrap, boolean singleton, Position reduction) {
this.location = loc;
this.tag = tag;
this.tokens = tokens==null ? emptyForestArray : new Forest[tokens.length];
if (tokens != null) for(int i=0; i<tokens.length; i++) if (tokens[i]==null) throw new Error(i+"");
this.unwrap = unwrap;
this.singleton = singleton;
+ this.reduction = reduction;
}
public void expand(final int i, final TreeMaker<T> h) {
} else {
tokens[i].visit(new TreeMaker<T>(h.toss) {
public void start(T head, Input.Location loc) { }
- public void child(Tree<T> t) { toks.add(t); }
+ public void addTree(Tree<T> t) { toks.add(t); }
public void finish(T head, Input.Location loc) {
int old = h.toks.size();
- h.child(new Tree<T>(loc, head, toks.toArray(tree_hint)));
+ h.addTree(new Tree<T>(loc, head, toks.toArray(tree_hint)));
expand(i+1, h);
while(h.toks.size() > old) h.toks.remove(h.toks.size()-1);
}
public TreeMaker2(boolean toss, TreeConsumer<T> tc) { super(toss); this.tc = tc; }
public void finish(T head, Input.Location loc) { tc.addTree(new Tree<T>(loc, head, toks.toArray(tree_hint)));; }
public void start(T head, Input.Location loc) { }
- public void child(Tree<T> t) { toks.add(t); }
+ public void addTree(Tree<T> t) { toks.add(t); }
}
- private static abstract class TreeMaker<T> implements Invokable<Forest.Body<T>,Boolean,Integer> {
+ private static abstract class TreeMaker<T> implements Invokable<Forest.Body<T>,Boolean,Integer>, TreeConsumer<T> {
public ArrayList<Tree<T>> toks = new ArrayList<Tree<T>>();
private boolean toss;
protected T head;
public TreeMaker(boolean toss) { this.toss = toss; }
public abstract void start(T head, Input.Location loc);
public abstract void finish(T head, Input.Location loc);
- public abstract void child(Tree<T> t);
+ public abstract void addTree(Tree<T> t);
public void invoke(Forest.Body<T> bod, Boolean o, Integer i) {
if (i==null) {
ArrayList<Tree<T>> toks = this.toks;