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Is there a good available (standard Java) data structure to represent a tree in Java?

Specifically I need to represent the following:

  • The tree at any node can have an arbitrary number of children
  • Each node (after the root) is just a String (whose children are also Strings)
  • I need to be able to get all the children (some sort of list or array of Strings) given an input string representing a given node

Is there an available structure for this or do I need to create my own (if so implementation suggestions would be great).

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4  
As a helper to tree implementations below, you can use Guava TreeTraversal. –  Vitalii Fedorenko Aug 11 '13 at 20:42
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20 Answers 20

Here:

public class Tree<T> {
    private Node<T> root;

    public Tree(T rootData) {
        root = new Node<T>();
        root.data = rootData;
        root.children = new ArrayList<Node<T>>();
    }

    public static class Node<T> {
        private T data;
        private Node<T> parent;
        private List<Node<T>> children;
    }
}

That is a basic tree structure that can be used for String or any other object. It is fairly easy to implement simple trees to do what you need.

All you need to add are methods for add to, removing from, traversing, and constructors. The Node is the basic building block of the Tree.

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6  
You may want a parent field too if you want to get the path from a child node. –  Ultimate Gobblement Aug 19 '10 at 13:57
101  
Strictly speaking the Tree class is not necessary, because every Node can in itself be seen as a tree. –  Joachim Sauer Aug 19 '10 at 14:02
9  
@Joa, I like having a structure to contain the root. You can add methods to the tree class that make more sense to call on a tree rather than a single node. –  jjnguy Aug 19 '10 at 14:03
4  
@Justin: for example? That's an honest question: I can't think of a single method that makes sense on the whole tree that doesn't make sense on a sub-tree. –  Joachim Sauer Aug 19 '10 at 14:05
4  
I agree with @Joa that the Tree class is not necessary. I prefer to leave the recursive nature of trees explicit in code by not adding a separate Tree class and consistently using the Node class. Instead I name a variable 'tree' or 'root' if it needs to be clear that you are dealing with the root Node of a tree. –  jvdbogae Oct 9 '12 at 7:43
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there is actually a pretty good tree structure implemented in the JDK.

Have a look in javax.swing.tree TreeModel and TreeNode are designed to be used with the JTreePanel but they are in fact a pretty good tree implementation and there is nothing stopping you from using it with out a swing interface.

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3  
Yeah I used them in the past, and they will do everything you want from a tree. The only downside I can think of is the length of the names of their respective implementing classes: DefaultTreeModel and DefaultMutableTreeNode. Verbose, but not that its all that important I guess. –  Ultimate Gobblement Aug 19 '10 at 14:54
2  
Good way to cope with that is to create a couple of static methods newModel() and newNode() and then static import them. –  Gareth Davis Aug 23 '10 at 11:04
49  
I would avoid using Swing libraries on non-Swing-related functions. This is bad coding practice. You never know how Swing implements their trees, what their dependencies are and how this could change in the future. Swing is not a utility library but a UI library. –  jasop Jul 26 '12 at 5:50
21  
I think bad coding practice is a little harsh. –  Gareth Davis Jul 26 '12 at 8:07
15  
javax.swing.tree.TreeModel is a public interface (exactly like java.util.List) and it will not have incompatible changes. An added advantage is that you could easily debug/visualize your tree while developing. –  lbalazscs Aug 21 '12 at 12:38
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What about this? (BTW, no matter what I seem to try, I cannot paste code that the site's code formatter will process properly. Sorry about that.)

/*
 * Copyright 2007 Google Inc.
 *
 * 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.
 */

import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;

/**
  * @author ycoppel@google.com (Yohann Coppel)
  * 
  * @param <T>
  *          Object's type in the tree.
*/
public class Tree<T> {

  private T head;

  private ArrayList<Tree<T>> leafs = new ArrayList<Tree<T>>();

  private Tree<T> parent = null;

  private HashMap<T, Tree<T>> locate = new HashMap<T, Tree<T>>();

  public Tree(T head) {
    this.head = head;
    locate.put(head, this);
  }

  public void addLeaf(T root, T leaf) {
    if (locate.containsKey(root)) {
      locate.get(root).addLeaf(leaf);
    } else {
      addLeaf(root).addLeaf(leaf);
    }
  }

  public Tree<T> addLeaf(T leaf) {
    Tree<T> t = new Tree<T>(leaf);
    leafs.add(t);
    t.parent = this;
    t.locate = this.locate;
    locate.put(leaf, t);
    return t;
  }

  public Tree<T> setAsParent(T parentRoot) {
    Tree<T> t = new Tree<T>(parentRoot);
    t.leafs.add(this);
    this.parent = t;
    t.locate = this.locate;
    t.locate.put(head, this);
    t.locate.put(parentRoot, t);
    return t;
  }

  public T getHead() {
    return head;
  }

  public Tree<T> getTree(T element) {
    return locate.get(element);
  }

  public Tree<T> getParent() {
    return parent;
  }

  public Collection<T> getSuccessors(T root) {
    Collection<T> successors = new ArrayList<T>();
    Tree<T> tree = getTree(root);
    if (null != tree) {
      for (Tree<T> leaf : tree.leafs) {
        successors.add(leaf.head);
      }
    }
    return successors;
  }

  public Collection<Tree<T>> getSubTrees() {
    return leafs;
  }

  public static <T> Collection<T> getSuccessors(T of, Collection<Tree<T>> in) {
    for (Tree<T> tree : in) {
      if (tree.locate.containsKey(of)) {
        return tree.getSuccessors(of);
      }
    }
    return new ArrayList<T>();
  }

  @Override
  public String toString() {
    return printTree(0);
  }

  private static final int indent = 2;

  private String printTree(int increment) {
    String s = "";
    String inc = "";
    for (int i = 0; i < increment; ++i) {
      inc = inc + " ";
    }
    s = inc + head;
    for (Tree<T> child : leafs) {
      s += "\n" + child.printTree(increment + indent);
    }
    return s;
  }
}
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1  
How would DFS be implemented on a tree created using this class object? –  leba-lev Mar 7 '12 at 21:05
1  
How would removing a leaf be implemented using this class? –  ghedas Aug 5 '12 at 5:33
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Yet another tree structure:

public class TreeNode<T> implements Iterable<TreeNode<T>> {

    T data;
    TreeNode<T> parent;
    List<TreeNode<T>> children;

    public TreeNode(T data) {
        this.data = data;
        this.children = new LinkedList<TreeNode<T>>();
    }

    public TreeNode<T> addChild(T child) {
        TreeNode<T> childNode = new TreeNode<T>(child);
        childNode.parent = this;
        this.children.add(childNode);
        return childNode;
    }

    // other features ...

}

Sample usage:

TreeNode<String> root = new TreeNode<String>("root");
{
    TreeNode<String> node0 = root.addChild("node0");
    TreeNode<String> node1 = root.addChild("node1");
    TreeNode<String> node2 = root.addChild("node2");
    {
        TreeNode<String> node20 = node2.addChild(null);
        TreeNode<String> node21 = node2.addChild("node21");
        {
            TreeNode<String> node210 = node20.addChild("node210");
        }
    }
}

BONUS
See fully-fledged tree with:

  • iterator
  • searching
  • Java/C#

https://code.google.com/p/yet-another-tree-structure/

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Can you please have a look at this thread i am using the yet-another-tree-structure stackoverflow.com/questions/23027111/… –  dev_marshell08 Apr 12 at 6:55
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I wrote a little library that handles generic trees. It's much more lightweight than the swing stuff. I also have a maven project for it.

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I'll have a look on it @Vivin. Let me comment again afterward. Thanks –  swdev Sep 29 '11 at 16:01
    
@swdev What're you're comments now? –  Pureferret Jul 13 '12 at 7:53
    
@Pureferret Ah, sorry for that. Actually, I kinda forget what project that need that library. I am sorry, I can't answer it :) --Yeah, I really can't remember it... –  swdev Jul 14 '12 at 7:14
3  
I am using it now, works brilliantly. Had to change the source significantly for my own customizations, but it was a great starting point. Thanks Vivin! –  jasop Jul 26 '12 at 5:48
    
Both links are broken –  Paolo Fulgoni May 14 at 7:23
show 1 more comment
public class Tree {
    private List<Tree> Children = new LinkedList<Tree>();
    private Tree parent = null;
    private String data;

    public Tree(String data, Tree parent) {
        this.data = data;
        this.parent = parent;
    }
}

Obviously you can add utility methods to add/remove children.

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Along the same lines as Gareth's answer, check out DefaultMutableTreeNode. It's not generic, but otherwise seems to fit the bill. Even though it's in the javax.swing package, it doesn't depend on any AWT or Swing classes. In fact, the source code actually has the comment // ISSUE: this class depends on nothing in AWT -- move to java.util?

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You should start by defining what a tree is (for the domain), this is best done by defining the interface first. Not all trees structures are modifyable, being able to add and remove nodes should be an optional feature, so we make an extra interface for that.

There's no need to create node objects which hold the values, in fact I see this as a major design flaw and overhead in most tree implementations. If you look at Swing, the TreeModel is free of node classes (only DefaultTreeModel makes use of TreeNode), as they are not really needed.

public interface Tree <N extends Serializable> extends Serializable {
    public List<N> getRoots ();
    public N getParent (N node);
    public List<N> getChildren (N node);
}

public interface MutableTree <N extends Serializable> extends Tree<N> {
    public boolean add (N parent, N node);
    public boolean remove (N node, boolean cascade);
}

Given these interfaces, code that uses trees doesn't have to care much about how the tree is implemented. This allows you to use generic implementations as well as specialized ones, where you realize the tree by delegating functions to another API.
Example: File tree structure.

public class FileTree implements Tree<File> {

    @Override
    public List<File> getRoots () {
        return Arrays.asList(File.listRoots());
    }

    @Override
    public File getParent (File node) {
        return node.getParentFile();
    }

    @Override
    public List<File> getChildren (File node) {
        if (node == null) {
            return getRoots();
        }
        File[] children = node.listFiles();
        return children != null ? Arrays.asList(children) : new LinkedList<File>();
    }
}

And here's a simple generic (though not always performant) implementation of a mutable tree:

public class MappedTreeStructure <N extends Serializable> implements MutableTree<N> {

    public static void main (String[] args) {

        MutableTree<String> tree = new MappedTreeStructure<String>();
        tree.add("A", "B");
        tree.add("A", "C");
        tree.add("C", "D");
        tree.add("E", "F");
        System.out.println(tree);

    }

    private final Map<N, N> nodeParent = new HashMap<N, N>();
    private final LinkedHashSet<N> nodeList = new LinkedHashSet<N>();

    @Override
    public boolean add (N parent, N node) {

        boolean added = nodeList.add(node);
        nodeList.add(parent);
        if (added) {
            nodeParent.put(node, parent);
        }
        return added;
    }

    @Override
    public boolean remove (N node, boolean cascade) {
        if (!nodeList.contains(node)) {
            return false;
        }
        if (cascade) {
            for (N child : getChildren(node)) {
                remove(child, true);
            }
        } else {
            for (N child : getChildren(node)) {
                nodeParent.remove(child);
            }
        }
        nodeList.remove(node);
        return true;
    }

    @Override
    public List<N> getRoots () {
        return getChildren(null);
    }

    @Override
    public N getParent (N node) {
        return nodeParent.get(node);
    }

    @Override
    public List<N> getChildren (N node) {
        List<N> children = new LinkedList<N>();
        for (N n : nodeList) {
            N parent = nodeParent.get(n);
            if (node == null && parent == null) {
                children.add(n);
            } else if (node != null && parent != null && parent.equals(node)) {
                children.add(n);
            }
        }
        return children;
    }

    @Override
    public String toString () {
        StringBuilder builder = new StringBuilder();
        dumpNodeStructure(builder, null, "- ");
        return builder.toString();
    }

    private void dumpNodeStructure (StringBuilder builder, N node, String prefix) {
        if (node != null) {
            builder.append(prefix);
            builder.append(node.toString());
            builder.append('\n');
            prefix = "    " + prefix;
        }
        for (N child : getChildren(node)) {
            dumpNodeStructure(builder, child, prefix);
        }
    }
}
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You can use any XML API of Java as Document and Node..as XML is a tree structure with Strings

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excellent Idea, We could use in memory XML schema using dom4j + jaxen xpath to search nodes. –  Ben Rhouma Zied May 30 at 21:42
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No answer mentions over-simplified but working code, so here it is:

public class TreeNodeArray<T> {
    public T value;
    public final  java.util.List<TreeNodeArray<T>> kids =  new java.util.ArrayList<TreeNodeArray<T>>();
}
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There are a couple of tree data structures in Java, such as DefaultMutableTreeNode in JDK Swing, Tree in Stanford parser package, and other toy codes. But none of these are sufficient yet small enough for general purpose.

Java-tree project attempts to provide another general-purpose tree data structure in Java. The difference between this and others are

  • Totally free. You can use it anywhere (except in your homework :P)
  • Small but general enough. I put everything of the data structure in one class file, so it would be easy to copy/paste.
  • Not just a toys. I am aware of dozens of Java tree codes that can only handle binary trees or limited operations. This TreeNode is much more than that. It provides different ways of visiting nodes, such as preorder, postorder, breadthfirst, leaves, path to root, etc. Moreover, iterators are provided too for the sufficiency.
  • More utils will be added. I am willing to add more operations to make this project comprehensive, especially if you send a request through github.
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Here is a binary tree that you might want to adapt.

No one else mentioned using generics, so I will.

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that is because he said it only needs to hold Strings. –  jjnguy Aug 19 '10 at 15:05
6  
@Justin - Yeah, now....why would I want to write a data structure for such a narrow use case? Sometimes people need to step back and think about the bigger picture. This is one of those times. –  duffymo Aug 19 '10 at 22:16
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You can use the HashTree class included in Apache JMeter that is part of the Jakarta Project.

HashTree class is included in the package org.apache.jorphan.collections. Although this package is not released outside the JMeter project, you can get it easily:

1) Download the JMeter sources.

2) Create a new package.

3) Copy on it /src/jorphan/org/apache/jorphan/collections/ . All files except Data.java

4) Copy also /src/jorphan/org/apache/jorphan/util/JOrphanUtils.java

5) HashTree is ready to use.

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Since the question asks for an available data structure, a tree can be constructed from lists or arrays:

Object[] tree = new Object[2];
tree[0] = "Hello";
{
  Object[] subtree = new Object[2];
  subtree[0] = "Goodbye";
  subtree[1] = "";
  tree[1] = subtree;
}

instanceof can be used to determine whether an element is a subtree or a terminal node.

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Custom Tree implement of Tree without using the Collection framework. It contains different fundamental operation needed in Tree implementation.

class Node
{
int data;
Node left;
Node right;

public Node(int ddata, Node left, Node right)
{
    this.data = ddata;
    this.left = null;
    this.right =null;       
}

public void displayNode(Node n)
{
    System.out.print(n.data +" ");  
}
}

class BinaryTree
{
Node root;
public BinaryTree()
{
    this.root = null;
}
public void insertLeft(int parent,int leftvalue )
{
    Node n = find(root,parent);
    Node leftchild = new Node(leftvalue, null, null);
    n.left = leftchild;
}

public void insertRight(int parent, int rightvalue)
{
    Node n = find(root,parent);
    Node rightchild = new Node(rightvalue, null, null);
    n.right = rightchild;
}

public void insertRoot(int data)
{
    root = new Node(data, null, null);
}

public Node getRoot()
{
    return root;
}

public Node find(Node n,int key)
{       
    Node result = null;
    if (n == null)
        return null;
    if (n.data ==key)
        return n;
    if (n.left != null)
        result = find(n.left,key);
    if (result == null)
        result = find(n.right,key);
    return result;
} 

public int getheight(Node root)
{
    if(root == null)
        return  0;      
    return Math.max(getheight(root.left),getheight(root.right))+1; 
}

public void printTree(Node n)
{       
    if( n == null)
        return;
    printTree(n.left);
    n.displayNode(n);
    printTree(n.right);             
}
}
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Wrote this tree implementation once: https://github.com/jkee/gtree It's functional and easy to use. And it is deployed to Maven Central.

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Please check the below code, where I have used Tree data structures, without using Collection classes. The code may have bugs/improvements but please use this just for reference

package com.datastructure.tree;

public class BinaryTreeWithoutRecursion <T> {

    private TreeNode<T> root;


    public BinaryTreeWithoutRecursion (){
        root = null;
    }


    public void insert(T data){
        root =insert(root, data);

    }

    public TreeNode<T>  insert(TreeNode<T> node, T data ){

        TreeNode<T> newNode = new TreeNode<>();
        newNode.data = data;
        newNode.right = newNode.left = null;

        if(node==null){
            node = newNode;
            return node;
        }
        Queue<TreeNode<T>> queue = new Queue<TreeNode<T>>();
        queue.enque(node);
        while(!queue.isEmpty()){

            TreeNode<T> temp= queue.deque();
            if(temp.left!=null){
                queue.enque(temp.left);
            }else
            {
                temp.left = newNode;

                queue =null;
                return node;
            }
            if(temp.right!=null){
                queue.enque(temp.right);
            }else
            {
                temp.right = newNode;
                queue =null;
                return node;
            }
        }
        queue=null;
        return node; 


    }

    public void inOrderPrint(TreeNode<T> root){
        if(root!=null){

            inOrderPrint(root.left);
            System.out.println(root.data);
            inOrderPrint(root.right);
        }

    }

    public void postOrderPrint(TreeNode<T> root){
        if(root!=null){

            postOrderPrint(root.left);

            postOrderPrint(root.right);
            System.out.println(root.data);
        }

    }

    public void preOrderPrint(){
        preOrderPrint(root);
    }


    public void inOrderPrint(){
        inOrderPrint(root);
    }

    public void postOrderPrint(){
        inOrderPrint(root);
    }


    public void preOrderPrint(TreeNode<T> root){
        if(root!=null){
            System.out.println(root.data);
            preOrderPrint(root.left);
            preOrderPrint(root.right);
        }

    }

    /**
     * @param args
     */
    public static void main(String[] args) {
        // TODO Auto-generated method stub
        BinaryTreeWithoutRecursion <Integer> ls=  new BinaryTreeWithoutRecursion <>();
        ls.insert(1);
        ls.insert(2);
        ls.insert(3);
        ls.insert(4);
        ls.insert(5);
        ls.insert(6);
        ls.insert(7);
        //ls.preOrderPrint();
        ls.inOrderPrint();
        //ls.postOrderPrint();

    }

}
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For example :

import java.util.ArrayList;
import java.util.List;



/**
 * 
 * @author X2
 *
 * @param <T>
 */
public class HisTree<T> 
{
    private Node<T> root;

    public HisTree(T rootData) 
    {
        root = new Node<T>();
        root.setData(rootData);
        root.setChildren(new ArrayList<Node<T>>());
    }

}

class Node<T> 
{

    private T data;
    private Node<T> parent;
    private List<Node<T>> children;

    public T getData() {
        return data;
    }
    public void setData(T data) {
        this.data = data;
    }
    public Node<T> getParent() {
        return parent;
    }
    public void setParent(Node<T> parent) {
        this.parent = parent;
    }
    public List<Node<T>> getChildren() {
        return children;
    }
    public void setChildren(List<Node<T>> children) {
        this.children = children;
    }
}
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Commons Collections implementation: http://commons.apache.org/collections/api-release/org/apache/commons/collections/list/TreeList.html

Java JDK TreeMap: http://download.oracle.com/javase/6/docs/api/java/util/TreeMap.html

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7  
These are list and map implemented with a tree data structure, but not a tree ADT itself. –  prasopes Sep 8 '11 at 11:42
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