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I am familiar with Java Collection Framework which contains basic interfaces: Collection and Map. I am wondering why the Framework doesn't contain structures as Tree and Graph which are basic collections. Both can be regarded as sub types of Collection.

By the way, I know TreeSet is implemented by Red-Black Tree underlying. However, the TreeSet is not a Tree but a Set, so there's no real Tree in the framework.

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"Why doesn't X do Y" is rarely going to have a proper answer. – skaffman Feb 12 '11 at 14:39
TreeSet is actually Tree with unique keys, which is also Set. – Xorty Feb 12 '11 at 15:34
what about TreeMap? – bestsss Feb 13 '11 at 2:18
@Lu, it's the other way around :) TreeSet uses TreeMap. I mean what you need exactly to have as interface. – bestsss Feb 13 '11 at 2:53
@bestsss: you're right, TreeSet uses TreeMap. My previous comment was deleted. – 卢声远 Shengyuan Lu Feb 13 '11 at 2:56
up vote 12 down vote accepted

I am wondering why the Framework doesn't contain structures as Tree and Graph which are basic collections. Both can be regarded as sub types of Collection.

No one can give a definitive answer except the people that took part in designing the collection API, but here are two educated guesses...

  1. A Collection represents "a collection of objects". They can be ordered or unordered, allow duplicates or not, give guarantees about iteration order or not and so on. But none of them go beyond the scope of being "a collection of objects".

    Map has keys and values, but conceptually they are not very different from a list. They are just indexed by objects rather than integers.

    A tree or a graph is more than a collection. In mathematics it's often expressed as a pair: (V, E) where V and E represents a collection of vertices and edges respectively. In other words, it's a collection plus a relation over the objects in the collection.

  2. The reason for not including a Pair class in the Java API is because fields such as left/right or first/second doesn't convey any meaning of what the object represents. It's much clearer to create a new class with fields such as real/imaginary for a complex number, or firstName/lastName for a full name.

    If you have a Person class and each person has some friends (which form a graph), then put a List<Person> friends field in the person class, or create a FriendRelation class. That conveys more information than graph methods such as getNeighborsOf(V vertex), vertexSet(), addEdge(V vertex1, V vertex2), ...

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I strongly disagree: Collections framework holds different structures for organizing groups of objects not only lists and sets, for instance Map, which makes an object correspond another, making pairs. In the case of a Set there's no organization; on a List, there's an order; on a LinkedList, there's a forward and back order; on a Map, there's a matching... in a Tree, there would a hierarchy; and in a Graph, there would any kind of relation. – Yago Méndez Vidal Dec 27 '12 at 13:58
Even with the so heavy edition 2 years later, this answer is still very unaccurate: Not all the structures in the Collections Framework implement Collection, for instance Map does not, and is still in the framework. If you look at the documentation of the framework… you'll see that that's not the reason, as the presence of maps demonstrate. And, as stated in some other answers, there's actually an implementation in the hierarchy of the standard API as it is Swing TreeModel. – Yago Méndez Vidal Jun 9 '13 at 21:05
Answer rewritten. – aioobe Nov 30 '14 at 19:44

The java.util package contains data structures to organize data of any kind. It deals basically with abstract data structures (like List, Set, Map) which are defined via their methods and behavior (e.g. a Set does contain no elements twice, a List maintains order and allows duplicates, etc.).

You as a developer are free to choose which implementation of these data structures are best suited for the kind of data you deal with (HashSet vs. TreeSet / LinkedList vs. ArrayList / etc.). For example for Sets and Maps you may choose between hash-based implementations and tree-based implementations, which may or may not be suited for what you want to do (in most cases a hash-based implementation will be the best choice, while sometimes, when order is important, a tree may be better suited for your needs - See also HashSet vs TreeSet (here at Stackoverflow)).

If you are thinking of a Tree as a special kind of Graph (which it is), then you’re interested in specific properties which apply to graphs, not to collections in general (which, essentially, are lists, and are in turn used to implement things like graphs).

As mentioned in this thread, if you’re interested in modeling Graphs, there are plenty of choices for Graph libraries. Personally I can recommend JGraphT.

I don’t know why there is no graph library within the JDK (and I don’t know whether that’s a good thing to ask?), but I guess Sun decided to leave this to developers, since most applications that require graphs also require very unique implementations.

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This is a very good answer. Yet, in java even HashMap is a tree-based impl. of a hashtable. So are Linked/Concurrent versions. IdentityHashMap is linear probe, though. I can't really imagine a standard graph structure and its uses. – bestsss Feb 13 '11 at 2:23
I'm baffled as to why this post has 9 upvotes. The title of the question is "Why Java Collection Framework doesn't contain Tree and Graph" and this post avoids answering the question completely. The concluding paragraph even says "I don't know why there is no graph library within the JDK". – aioobe Nov 30 '14 at 19:53

I suspect that the answer is that it is a combination of two things:

  • A generic tree or graph interface would be "feature poor".
  • It is easier and more efficient to implement a tree or graph using fields to represent child and (if you need them) parent pointers.

Note that neither Apache commons or Google commons have generic graph or tree support. However, I did come across a couple of generic tree/graph hierarchies:

  • The jsfcompounds project on JavaNet has the "com.truchsess.util" graph and tree framework.
  • The OpenJGraph project (inactive) on SourceForge includes tree and graph libraries.
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I am afraid the answer is: it's too troublesome to design and maintain a generic tree structure and interfaces (see answer to this post). Most users will need the performance of tree-based implementations of lists and sets, but will not be concerned with the internals, so most of them are hidden.

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Hmm I've recently made my own generic tree structure and it is really ease to use. You can make like: Tree<Person> and specify comparator for tree or let tree use default since its T extends Comparable<? super T> – Xorty Feb 12 '11 at 15:31
I guess guys at Sun decided that tree was not a top priority feature. Just like lots of other "useful" feature that are omitted, e.g. Bag type, map/reduce/collect methods for collections, etc. I personally, have used TreeSet and TreeMap plenty of times but never needed a tree interface, a Set and Map interfaces always sufficed. If you need the features, 3rd party library is the way to go. – rodion Feb 12 '11 at 16:21
A big user and fan of the Map and MultiMap in C++ STL, I'm quite surprised it's absent from vanilla Java. Wow. – RocketRoy May 5 '14 at 23:36

There is an interface for trees - javax.swing.tree.TreeModel, which in fact works for arbitrary directed graphs (with a distinguished "root" node). It does not implement the Collection interface, though (since Swing is a bit older than the collection framework, and it is not really clear that being a collection would really be appropriate here). (One implementation of TreeModel is DefaultTreeModel, which uses a tree build from TreeNode objects, which is itself an interface implementable by users.)

Another type of trees are given by the XML-DOM frameworks. Some specific use trees (or mostly "tree nodes") are defined by, java.awt.Component (and subclasses), the Compiler tree API (com.sun.source.tree.*), the Doclet API (com.sun.javadoc.*), the Reflection API (java.lang.Class), the language model API (javax.lang.**).

If you compare these API

The problem is, there is no clear general-purpose useful interface for trees - what should such a tree be able to do? Is a tree simply a collection of other trees (those one level lower), or simply a pointer to the root node, where each node itself contains more nodes? Or is a tree a collection of all the nodes? Or a collection of all the contents of all the nodes? Do all nodes have to have "content", or only the leaf nodes? If a tree were a collection of some content elements (and not the nodes itself), how should an iterator behave? What would be the size of a tree?

Here is a proposal for a tree node (or in fact it could be a general directed graph node, if not for the parent-pointer) interface:

 * A general interface for a tree node.
 * @param <N> the concrete node type.
public interface Node<N extends Node<N>> {

    * equivalent to {@link #children children()}.{@link Collection#isEmpty isEmpty()}.
    * @returns true, if this is a leaf node, else false.
   public boolean isLeaf();

    * returns a collection of all children of this node.
    * This collection can be changed, if this node is mutable.
   public Collection<N> children();
    * returns the parent of this node.
    * @return null, if this is the root node, or the node does not know its parent, or has multiple parents.
   public N parent();

 * a tree node with content objects.
 * @param <N> the concrete node type
 * @param <C> the type of the content of this node.
public interface ContentNode<C,N extends ContentNode<C,N>>
          extends Node<N>
    * returns the content of this node, if any.
   public C content();

Would this be enough for all types of trees, for example the ones listed above? I don't think so.

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I have added slight modifications of these interfaces to my github repository. – Paŭlo Ebermann Mar 4 '11 at 21:36

The main problem with graphs (and more concretely trees, as you know, a special case where there's a one only root, there can be no loops and all nodes are connected) is that each item in that supposed collection should be hold in another structure: the node. It's tough to make standard that kind of treatment as it requires a double layer of "containers".

If anyone ever happens to work with the TreeModel for JTree would notice that is almost impossible to avoid the fact that there are TreeNodes behind (inside?) and you have to manipulate both, nodes and trees.

Anyway, I agree that the structure would be useful but it's very hard to make it standard, just notice that, for instance, neither Apache Commons Collections nor Google Guava, two big collection extensions for the API, don't have them either.

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