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I am looking for a good Tree data structure class. I have come across this package, but since I am relatively new to Python (not programming), I dont know if there are any better ones out there.

I'd like to hear from the Pythonistas on here - do you have a favorite tree script that you regularly use and would recommend?

[Edit]

To clarify, by 'Tree', I mean a simple unordered tree (Hmm, thats a bit of a recursive definition - but hopefully, that clarifies things somewhat). Regarding what I need the tree for (i.e. use case). I am reading tree data from a flat file and I need to build a tree from the data and traverse all nodes in the tree.

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12 Answers 12

up vote 19 down vote accepted

Roll your own. For example, just model your tree as list of list. You should detail your specific need before people can provide better recommendation.

In response to HelloGoodbye's question, this is a sample code to iterate a tree.

def walk(node):
    """ iterate tree in pre-order depth-first search order """
    yield node
    for child in node.children:
        for n in walk(child):
            yield n

One catch is this recursive implementation is O(n log n). It works fine for all trees I have to deal with. Maybe the subgenerator in Python 3 would help.

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How do you you loop over all elements in such a tree in a 'pythonic' way? –  HelloGoodbye Jan 30 at 12:31
    
Typically you iterate a tree using DFS or BFS. I usually implement a generator using DFS like def walk(tree): ... –  Wai Yip Tung Jan 30 at 17:53
    
What is DFS and BFS? These acronyms are new to me. –  HelloGoodbye Jan 30 at 22:33
    
DFS is depth-first search. It is used for tree traversals that are pre-order, in-order, or post-order. BFS is breadth-first search. It is used for tree traversals that are level-order. –  Dane White Jan 31 at 18:50
    
Added a sample code for DFS. –  Wai Yip Tung Jan 31 at 23:37

You can build a nice tree of dicts of dicts like this:

import collections

def Tree():
    return collections.defaultdict(Tree)

It might not be exactly what you want but it's quite useful! Values are saved only in the leaf nodes. Here is a little example of how it works:

>>> t = Tree()
>>> t
defaultdict(<function tree at 0x2142f50>, {})
>>> t[1] = "value"
>>> t[2][2] = "another value"
>>> t
defaultdict(<function tree at 0x2142f50>, {1: 'value', 2: defaultdict(<function tree at 0x2142f50>, {2: 'another value'})}) 

Edit: I don't know if I got the snippet from here but for more information just take a look at the gist https://gist.github.com/2012250

Edit2: Capitalize Tree. Now it looks more like a class.

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Nice, very pythonic! –  diegocaro Jul 23 '13 at 21:43
    
Wow,using defaultdict is a brilliant idea! –  laike9m Nov 22 '13 at 8:42
    
Great and I wall always using try except with setters. –  Jimmy Kane Feb 10 at 23:04

I found a module written by Brett Alistair Kromkamp which was not completed. I finished it and make it public on github and renamed it as treelib (original pyTree):

https://github.com/caesar0301/pyTree

May it help you....

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For a tree with ordered children, I'd usually do something kind of like this (though a little less generic, tailored to what I'm doing):

class TreeNode(list):

    def __init__(self, iterable=(), **attributes):
        self.attr = attributes
        list.__init__(self, iterable)

    def __repr__(self):
        return '%s(%s, %r)' % (type(self).__name__, list.__repr__(self),
            self.attr)

You could do something comparable with a dict or using DictMixin or it's more modern descendants if you want unordered children accessed by key.

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I came across this, I will probably be working with it for a project of mine and thought of sharing it here as well as I was in the exact same spot.

http://pythonhosted.org/ete2/tutorial/tutorial_trees.html

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Needs qt4, mysqldb :( –  Natim Aug 6 '13 at 14:44
1  
true, but they are optional dependencies for visualization and phylogenetic analysis. Tree instances should be fully functional –  jhc Mar 19 at 16:13
    
It needs several dependencies...but the biggest problem is the it does not display the parent of the sub-nodes. See the documentation. –  max May 27 at 19:30
    
node.up points to the parent of any subnode (pythonhosted.org/ete2/tutorial/…). Dependencies enable some optional features (as I said, mainly phylogenetics related), but the Tree object should work with a basic python installation. –  jhc Jun 19 at 19:02
1  
disclaimer: I wrote the pkg and documentation. There is more info at etetoolkit.org. Source code is at github.com/jhcepas/ete –  jhc Jun 19 at 19:17

Would BTrees help? They're part of the Zope Object Database code. Downloading the whole ZODB package is a bit of overkill, but I hope the BTrees module would be at least somewhat separable.

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Here's something I was working on.

class Tree:
    def __init__(self, value, *children):
        '''Singly linked tree, children do not know who their parent is.
        '''
        self.value = value
        self.children = tuple(children)

    @property
    def arguments(self):
        return (self.value,) + self.children

    def __eq__(self, tree):
        return self.arguments == tree.arguments

    def __repr__(self):
        argumentStr = ', '.join(map(repr, self.arguments))
        return '%s(%s)' % (self.__class__.__name__, argumentStr)

Use as such (numbers used as example values): t = Tree(1, Tree(2, Tree(4)), Tree(3, Tree(5)))

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Another good and easy to use implementation of trees in Python is pyTree: https://github.com/caesar0301/pyTree

pyTree also provides the posibility visualizing the tree:

Harry[harry]
|___ Jane[jane]
|    |___ Diane[diane]
|         |___ George[george]
|              |___ Jill[jill]
|         |___ Mary[mary]
|    |___ Mark[mark]
|___ Bill[bill]
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1  
A plus for trying to visualize the tree, even though the rendering was horrible. –  HelloGoodbye Jan 30 at 22:37

Building on the answer given above with the single line Tree using defaultdict, you can make it a class. This will allow you to set up defaults in a constructor and build on it in other ways.

class Tree(defaultdict):
    def __call__(self):
        return Tree(self)

    def __init__(self, parent):
        self.parent = parent
        self.default_factory = self

This example allows you to make a back reference so that each node can refer to its parent in the tree.

>>> t = Tree(None)
>>> t[0][1][2] = 3
>>> t
defaultdict(defaultdict(..., {...}), {0: defaultdict(defaultdict(..., {...}), {1: defaultdict(defaultdict(..., {...}), {2: 3})})})
>>> t[0][1].parent
defaultdict(defaultdict(..., {...}), {1: defaultdict(defaultdict(..., {...}), {2: 3})})
>>> t2 = t[0][1]
>>> t2
defaultdict(defaultdict(..., {...}), {2: 3})
>>> t2[2]
3

Next, you could even override __setattr__ on class Tree so that when reassigning the parent, it removes it as a child from that parent. Lots of cool stuff with this pattern.

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Parent is broken for t[0][1][2] in the above example. AttributeError: 'int' object has no attribute 'parent' –  oao Feb 1 at 2:36
    
@oao This is not broken. You're specifying t[0][1][2] = 3. Therefore t[0][1][2] is not going to be a defaultdict type, but a Number type (as defaultdict is used to make defaults for missing elements). If you want it to be a defaultdict, you need to use t[0][1][2] without the assignment. –  Sandy Chapman Feb 4 at 19:57

It might be worth writing your own tree wrapper based on an acyclic directed graph using the networkx library.

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Apart from "unordered" (which presumably means that you don't need to do an in-order traversal, and cuts out B-trees etc etc), you haven't told us much. What "pointers" (references to other nodes) does each node need? What attributes does each node need?

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I think, from my own experience on problems with more advanced data structures, that the most important thing you can do here, is to get a good knowledge on the general concept of tress as data structures. If you understand the basic mechanism behind the concept it will be quite easy to implement the solution that fits your problem. There are a lot of good sources out there describing the concept. What "saved" me years ago on this particular problem was section 2.3 in "The Art of Computer Programming".

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