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Which is the best data structure that can be used to implement Binary Tree in Python?

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British Summer Time ? Binary Search Tree ? –  High Performance Mark Apr 8 '10 at 8:29

5 Answers 5

up vote 13 down vote accepted

I would go for 2 custom classes Tree and Node like in this small example.

Recipe 286239: Binary ordered tree (Python)

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Refer to the detailed and well explained with example in : http://www.laurentluce.com/posts/binary-search-tree-library-in-python/

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Could you expand upon this answer? –  Ben Aug 17 '13 at 0:51
That's a really great reference. –  Newb Feb 13 at 18:28
+1. Simpler and better reference than the actual answer. –  Trein Feb 26 at 19:50
Technically, this doesn't answer the question. This explains a binary search tree, not a binary tree. –  AdriVelaz Oct 5 at 17:27
Please see AdriVelaz comment, this is not a Binary Tree. –  mateor Oct 12 at 2:52
# simple binary tree
# in this implementation, a node is inserted between an existing node and the root

class BinaryTree():

    def __init__(self,rootid):
      self.left = None
      self.right = None
      self.rootid = rootid

    def getLeftChild(self):
        return self.left
    def getRightChild(self):
        return self.right
    def setNodeValue(self,value):
        self.rootid = value
    def getNodeValue(self):
        return self.rootid

    def insertRight(self,newNode):
        if self.right == None:
            self.right = BinaryTree(newNode)
            tree = BinaryTree(newNode)
            tree.right = self.right
            self.right = tree

    def insertLeft(self,newNode):
        if self.left == None:
            self.left = BinaryTree(newNode)
            tree = BinaryTree(newNode)
            self.left = tree
            tree.left = self.left

def printTree(tree):
        if tree != None:

# test tree

def testTree():
    myTree = BinaryTree("Maud")

Read more about it Here:-This is a very simple implementation of a binary tree.

This is a nice tutorial with questions in between

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It's nice that you posted an answer that actually includes an answer, rather than just a link. –  drs Dec 18 at 20:36
import random

class TreeNode:
    def __init__(self, key):
        self.key = key
        self.left = None
        self.right = None
        self.p = None

class BinaryTree:
    def __init__(self):
        self.root = None

    def length(self):
        return self.size

    def inorder(self, node):
        if node == None:
            return None
            print node.key,

    def search(self, k):
        node = self.root
        while node != None:
            if node.key == k:
                return node
            if node.key > k:
                node = node.left
                node = node.right
        return None

    def minimum(self, node):
        x = None
        while node.left != None:
            x = node.left
            node = node.left
        return x

    def maximum(self, node):
        x = None
        while node.right != None:
            x = node.right
            node = node.right
        return x

    def successor(self, node):
        parent = None
        if node.right != None:
            return self.minimum(node.right)
        parent = node.p
        while parent != None and node == parent.right:
            node = parent
            parent = parent.p
        return parent

    def predecessor(self, node):
        parent = None
        if node.left != None:
            return self.maximum(node.left)
        parent = node.p
        while parent != None and node == parent.left:
            node = parent
            parent = parent.p
        return parent

    def insert(self, k):
        t = TreeNode(k)
        parent = None
        node = self.root
        while node != None:
            parent = node
            if node.key > t.key:
                node = node.left
                node = node.right
        t.p = parent
        if parent == None:
            self.root = t
        elif t.key < parent.key:
            parent.left = t
            parent.right = t
        return t

    def delete(self, node):
        if node.left == None:
            self.transplant(node, node.right)
        elif node.right == None:
            self.transplant(node, node.left)
            succ = self.minimum(node.right)
            if succ.p != node:
                self.transplant(succ, succ.right)
                succ.right = node.right
                succ.right.p = succ
            self.transplant(node, succ)
            succ.left = node.left
            succ.left.p = succ

    def transplant(self, node, newnode):
        if node.p == None:
            self.root = newnode
        elif node == node.p.left:
            node.p.left = newnode
            node.p.right = newnode
        if newnode != None:
            newnode.p = node.p
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After running this, the new nodes z, y, x, w, u, v sometimes could be assign, sometimes would has bugs, like this: print u.key AttributeError: 'NoneType' object has no attribute 'key' I wonder how to fix it up, thanks –  water0 Nov 15 at 1:05

A very quick 'n dirty way of implementing a binary tree using lists. Not the most efficient, nor does it handle nil values all too well. But it's very transparent (at least to me):

def _add(node, v):
    new = [v, [], []]
    if node:
        left, right = node[1:]
        if not left:
        elif not right:
            add(left, v)

def binary_tree(s):
    root = []
    for e in s:
        _add(root, e)
    return root

def traverse(n, order):
    if n:
        v = n[0]
        if order == 'pre':
            yield v
        for left in traverse(n[1], order):
            yield left
        if order == 'in':
            yield v
        for right in traverse(n[2], order):
            yield right
        if order == 'post':
            yield v

Constructing a tree from an iterable:

 >>> t = binary_tree('A B C D E'.split())
 >>> print t
 ['A', ['B', ['D', [], []], ['E', [], []]], ['C', [], []]]

Traversing a tree:

 >>> list(traverse(t, 'pre')), list(traverse(t, 'in')), list(traverse(t, 'post'))
 (['A', 'B', 'D', 'E', 'C'],
  ['D', 'B', 'E', 'A', 'C'],
  ['D', 'E', 'B', 'C', 'A'])
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