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Why does the C++ STL not provide any "tree" containers, and what's the best thing to use instead?

I want to store a hierarchy of objects as a tree, rather than use a tree as a performance enhancement...

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if it's you the one downvoting all the right answers just seconds of being posted, i suggest to either try to understand them, or rephrase your question. –  Javier Oct 15 '08 at 19:03
Who voted down all those good answers? –  Loki Astari Oct 15 '08 at 19:04
Not guilty! Someone else has just downvoted my question! –  Roddy Oct 15 '08 at 20:30
I need a tree to store a representation of a hierarchy. –  Roddy Nov 18 '08 at 9:20
I'm with the guy who down voted the "correct" answers, which seems to be; "Trees are useless". There are important if obscure uses of trees. –  Joe Soul-bringer Dec 22 '09 at 2:08

12 Answers 12

up vote 120 down vote accepted

There are two reasons you could want to use a tree:

You want to mirror the problem using a tree-like structure:
For this we have boost graph library

Or you want a container that has tree like access characteristics For this we have

Basically the characteristics of these two containers is such that they practically have to be implemented using trees (though this is not actually a requirement).

See also this question: C tree Implementation

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Thanks. Succint and helpful! –  Roddy Oct 15 '08 at 20:34
There are many, many reasons to use a tree, even if these are the most common. Most common !equal all. –  Joe Soul-bringer Dec 22 '09 at 2:06
A third major reason to want a tree is for an always-sorted list with fast insertion/removal, but for that there is std:multiset. –  VoidStar Feb 26 '12 at 10:09
Hi I am trying to implement k-array tree whose output is in the form of adjacent matrix using Java. Input parameters are k=number of child for each node and d= depth of tree. given this parameter I am to generate adjacent matrix of the tree. I saw github and was not able to follow.can you please guide me to implement this? –  Learner Jul 24 '13 at 11:24
@Learner: As I don't remember Java. Then no. Asking requests in comments (or open ended generic questions) is unlikely to get you help. You may find codereview.stackexchange.com useful when you have finished. –  Loki Astari Jul 24 '13 at 14:35

Probably for the same reason that there is no tree container in boost. There are many ways to implement such a container, and there is no good way to satisfy everyone who would use it.

Some issues to consider:
- Are the number of children for a node fixed or variable?
- How much overhead per node? - ie, do you need parent pointers, sibling pointers, etc.
- What algorithms to provide? - different iterators, search algorithms, etc.

In the end, the problem ends up being that a tree container that would be useful enough to everyone, would be too heavyweight to satisfy most of the people using it. If you are looking for something powerful, Boost Graph Library is essentially a superset of what a tree library could be used for.

Here are some other generic tree implementations:
- Kasper Peeters' tree.hh
- Adobe's forest
- core::tree

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And code.google.com/p/treetree (Apache 2.0 license) –  hplbsh Aug 6 '10 at 15:09
"...no good way to satisfy everyone..." Except that since stl::map, stl::multimap, and stl::set are based on stl's rb_tree, it should satisfy just as many cases as those basic types do. –  Catskul May 6 '11 at 18:06
Considering there's no way to retrieve the children of a node of a std::map, I wouldn't call those tree containers. Those are associative containers that are commonly implemented as trees. Big difference. –  Mooing Duck Sep 30 '13 at 4:53
I agree with Mooing Duck, how would you implement a breadth first search on a std::map? It's going to be terribly expensive –  Marco A. Feb 24 '14 at 15:34
I started using Kasper Peeters' tree.hh, however after reviewing the licensing for GPLv3, or any other GPL version, it would contaminate our commercial software. I would recommend looking at treetree provided in the comment by @hplbsh if you need a structure for commercial purposes. –  Jake88 Feb 24 '14 at 16:34

The STL's philosophy is that you choose a container based on guarantees and not based on how the container is implemented. For example, your choice of container may be based on a need for fast lookups. For all you care, the container may be implemented as a unidirectional list -- as long as searching is very fast you'd be happy. That's because you're not touching the internals anyhow, you're using iterators or member functions for the access. Your code is not bound to how the container is implemented but to how fast it is, or whether it has a fixed and defined ordering, or whether it is efficient on space, and so on.

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I don't think he's talking about container implementations, he's talking about an actual tree container itself. –  Mooing Duck Sep 30 '13 at 4:55

"I want to store a hierarchy of objects as a tree"

C++11 has come and gone and they still didn't see a need to provide a std::tree, although the idea did come up (see here). Maybe the reason they haven't added this is that it is trivially easy to build your own on top of the existing containers. For example...

template< typename T >
struct tree_node
   T t;
   std::vector<tree_node> children;

A simple traversal would use recursion...

template< typename T >
void tree_node<T>::walk_depth_first() const
   for ( auto & n: children ) n.walk_depth_first();

If you want to maintain a hierarchy and you want it to work with STL algorithms, then things may get complicated. You could build your own iterators and achieve some compatibility, however many of the algorithms simply don't make any sense for a hierarchy (anything that changes the order of a range, for example). Even defining a range within a hierarchy could be a messy business.

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If the project can allow for the the children of a tree_node to be sorted, then using a std::set<> in place of the std::vector<> and then adding an operator<() to the tree_node object will greatly improve 'search' performance of an 'T'-like object. –  J Jorgenson Oct 9 '13 at 19:04
It turns out that they were lazy and actually made your first example Undefined Behavior. –  Mehrdad Aug 12 '14 at 7:03

If you are looking for a RB-tree implementation, then stl_tree.h might be appropriate for you too.

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Strangely this is the only response that actually answers the original question. –  Catskul May 6 '11 at 18:01
Considering he wants a "Heiarchy", It seems safe to assume that anything with "balancing" is the wrong answer. –  Mooing Duck Sep 30 '13 at 4:55
"This is an internal header file, included by other library headers. You should not attempt to use it directly." –  Dan Feb 23 at 0:57

the std::map is based on a red black tree. You can also use other containers to help you implement your own types of trees.

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It usually uses red-black trees (Its not required to do so). –  Loki Astari Oct 15 '08 at 19:11
GCC uses a tree to implement map. Anyone wanna look at their VC include directory to see what microsoft uses? –  J.J. Oct 15 '08 at 21:12
// Red-black tree class, designed for use in implementing STL // associative containers (set, multiset, map, and multimap). Grabbed that from my stl_tree.h file. –  J.J. Oct 15 '08 at 21:15

In a way, std::map is a tree (it is required to have the same performance characteristics as a balanced binary tree) but it doesn't expose other tree functionality. The likely reasoning behind not including a real tree data structure was probably just a matter of not including everything in the stl. The stl can be looked as a framework to use in implementing your own algorithms and data structures.

In general, if there's a basic library functionality that you want, that's not in the stl, the fix is to look at BOOST.

Otherwise, there's a bunch of libraries out there, depending on the needs of your tree.

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All STL container are externally represented as "sequences" with one iteration mechanism. Trees don't follow this idiom.

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A tree data structure could provide preorder, inorder or postorder traversal via iterators. In fact this is what std::map does. –  Andrew Tomazos Sep 23 '12 at 4:46
Yes and no ... it depends on what you mean by "tree". std::map is internally implemented as btree, but externally it appears as a sorted SEQUENCE of PAIRS. Given whatever element you can universally ask who is before and who is after. A general tree structures containing elements each of which contains other does not impose any sorting or direction. You can define iterators that walk a tree structure in many ways (sallow|deep first|last ...) but once you did it, an std::tree container must return one of them from a begin function. And there is no obvious reason to return one or another. –  Emilio Garavaglia Sep 23 '12 at 13:41
A std::map is generally represented by a balanced binary search tree, not a B-tree. The same argument you have made could apply to std::unordered_set, it has no natural order, yet presents begin and end iterators. The requirement of begin and end is just that it iterates all elements in some deterministic order, not that there has to be a natural one. preorder is a perfectly valid iteration order for a tree. –  Andrew Tomazos Sep 23 '12 at 14:22
The implication of your answer is that there is no stl n-tree data structure because it is doesn't have a "sequence" interface. This is simply incorrect. –  Andrew Tomazos Sep 23 '12 at 18:11
@EmiloGaravaglia: As evidenced by std::unordered_set, which has no "unique way" of iterating its members (in fact the iteration order is pseudo-random and implementation defined), but is still an stl container - this disproves your point. Iterating over each element in a container is still a useful operation, even if the order is undefined. –  Andrew Tomazos Sep 25 '12 at 3:10

Because the STL is not an "everything" library. It contains, essentially, the minimum structures needed to build things.

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Binary trees are an extremely basic functionality, and in fact, more basic than other containers since types like std::map, std::multimap, and stl::set. Since those types are based on them, you would expect the underlying type to be exposed. –  Catskul May 6 '11 at 18:04
I don't think the OP is asking for a binary tree, he's asking for a tree to store a hierarchy. –  Mooing Duck Sep 30 '13 at 5:00

This one looks promising and seems to be what you're looking for: http://tree.phi-sci.com/

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IMO, an omission. But I think there is good reason not to include a Tree structure in the STL. There is a lot of logic in maintaining a tree, which is best written as member functions into the base TreeNode object. When TreeNode is wrapped up in an STL header, it just gets messier.

For example:

template <typename T>
struct TreeNode
  T* DATA ; // data of type T to be stored at this TreeNode

  vector< TreeNode<T>* > children ;

  // insertion logic for if an insert is asked of me.
  // may append to children, or may pass off to one of the child nodes
  void insert( T* newData ) ;

} ;

template <typename T>
struct Tree
  TreeNode<T>* root;

  // TREE LEVEL functions
  void clear() { delete root ; root=0; }

  void insert( T* data ) { if(root)root->insert(data); } 
} ;
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That's a lot of owning raw pointers you have there, many of which have no need of being pointers at all. –  Mooing Duck Sep 30 '13 at 5:02

All STL containers can be used with iterators. You can't have an iterator an a tree, because you don't have ''one right'' way do go through the tree.

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But you can say BFS or DFS is the correct way. Or support both of them. Or any other you can imagine. Jut tell the user what it is. –  tomas789 Oct 21 '13 at 7:36
in std::map there is tree iterator. –  Jai 1 hour ago

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