The TreeTraverser.java Java example source code
/*
* Copyright (C) 2012 The Guava Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.common.collect;
import static com.google.common.base.Preconditions.checkNotNull;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.Queue;
/**
* Views elements of a type {@code T} as nodes in a tree, and provides methods to traverse the trees
* induced by this traverser.
*
* <p>For example, the tree {@code
*
* h
* / | \
* / e \
* d g
* /|\ |
* / | \ f
* a b c
* }</pre>
*
* can be iterated over in preorder (hdabcegf), postorder (abcdefgh), or breadth-first order
* (hdegabc).
*
* <p>Null nodes are strictly forbidden.
*
* @author Louis Wasserman
*/
public abstract class TreeTraverser<T> {
/**
* Returns the children of the specified node. Must not contain null.
*/
public abstract Iterable<T> children(T root);
/**
* Returns an unmodifiable iterable over the nodes in a tree structure, using pre-order
* traversal. That is, each node's subtrees are traversed after the node itself is returned.
*
* <p>No guarantees are made about the behavior of the traversal when nodes change while
* iteration is in progress or when the iterators generated by {@link #children} are advanced.
*/
public final FluentIterable<T> preOrderTraversal(final T root) {
checkNotNull(root);
return new FluentIterable<T>() {
@Override
public UnmodifiableIterator<T> iterator() {
return preOrderIterator(root);
}
};
}
// overridden in BinaryTreeTraverser
UnmodifiableIterator<T> preOrderIterator(T root) {
return new PreOrderIterator(root);
}
private final class PreOrderIterator extends UnmodifiableIterator<T> {
private final LinkedList<Iterator stack;
PreOrderIterator(T root) {
this.stack = Lists.newLinkedList();
stack.addLast(Iterators.singletonIterator(checkNotNull(root)));
}
@Override
public boolean hasNext() {
return !stack.isEmpty();
}
@Override
public T next() {
Iterator<T> itr = stack.getLast(); // throws NSEE if empty
T result = checkNotNull(itr.next());
if (!itr.hasNext()) {
stack.removeLast();
}
Iterator<T> childItr = children(result).iterator();
if (childItr.hasNext()) {
stack.addLast(childItr);
}
return result;
}
}
/**
* Returns an unmodifiable iterable over the nodes in a tree structure, using post-order
* traversal. That is, each node's subtrees are traversed before the node itself is returned.
*
* <p>No guarantees are made about the behavior of the traversal when nodes change while
* iteration is in progress or when the iterators generated by {@link #children} are advanced.
*/
public final FluentIterable<T> postOrderTraversal(final T root) {
checkNotNull(root);
return new FluentIterable<T>() {
@Override
public UnmodifiableIterator<T> iterator() {
return postOrderIterator(root);
}
};
}
// overridden in BinaryTreeTraverser
UnmodifiableIterator<T> postOrderIterator(T root) {
return new PostOrderIterator(root);
}
private static final class PostOrderNode<T> {
final T root;
final Iterator<T> childIterator;
PostOrderNode(T root, Iterator<T> childIterator) {
this.root = checkNotNull(root);
this.childIterator = checkNotNull(childIterator);
}
}
private final class PostOrderIterator extends AbstractIterator<T> {
private final LinkedList<PostOrderNode stack;
PostOrderIterator(T root) {
this.stack = Lists.newLinkedList();
stack.addLast(expand(root));
}
@Override
protected T computeNext() {
while (!stack.isEmpty()) {
PostOrderNode<T> top = stack.getLast();
if (top.childIterator.hasNext()) {
T child = top.childIterator.next();
stack.addLast(expand(child));
} else {
stack.removeLast();
return top.root;
}
}
return endOfData();
}
private PostOrderNode<T> expand(T t) {
return new PostOrderNode<T>(t, children(t).iterator());
}
}
/**
* Returns an unmodifiable iterable over the nodes in a tree structure, using breadth-first
* traversal. That is, all the nodes of depth 0 are returned, then depth 1, then 2, and so on.
*
* <p>No guarantees are made about the behavior of the traversal when nodes change while
* iteration is in progress or when the iterators generated by {@link #children} are advanced.
*/
public final FluentIterable<T> breadthFirstTraversal(final T root) {
checkNotNull(root);
return new FluentIterable<T>() {
@Override
public UnmodifiableIterator<T> iterator() {
return new BreadthFirstIterator(root);
}
};
}
private final class BreadthFirstIterator extends UnmodifiableIterator<T>
implements PeekingIterator<T> {
private final Queue<T> queue;
BreadthFirstIterator(T root) {
this.queue = Lists.newLinkedList();
queue.add(checkNotNull(root));
}
@Override
public boolean hasNext() {
return !queue.isEmpty();
}
@Override
public T peek() {
return queue.element();
}
@Override
public T next() {
T result = queue.remove();
for (T child : children(result)) {
queue.add(checkNotNull(child));
}
return result;
}
}
}
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