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bin_search_tree.py
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bin_search_tree.py
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#!/usr/bin/env python
# encoding: utf-8
"""
Implementation of a binary search tree
"""
from functools import total_ordering
import random
import pydot
@total_ordering
class Node(object):
def __init__(self, key, parent = None, l = None, r = None):
self.key = key
self.parent = parent
self.l = l
self.r = r
def __lt__(self, other):
return self.key < other.key
def __eq__(self, other):
if not isinstance(other, Node):
return False
return self.key == other.key
def __repr__(self):
return "Node(%r,%s,%s,%s)" % (self.key,
self.parent.key if self.parent else None,
self.l.key if self.l else None,
self.r.key if self.r else None)
@property
def pydot_node(self):
return pydot.Node(self.key, color="#cecece", fontcolor="#cecece")
class BinarySearchTree(object):
def __init__(self, iter = [], node_klass = Node):
self._root = None
self._node_klass = node_klass
for i in iter:
self.insert(i)
# Search a node
def _search(self, node, key):
if node is None: return None
if node.key == key: return node
return self._search(node.l, key) if key < node.key else \
self._search(node.r, key)
# Inserting
def insert(self, key):
if not self._root:
self._root = self._node_klass(key)
else:
self._insert(self._root, key)
return self._root
def _insert(self, node, key):
if key <= node.key:
if node.l is None:
node.l = self._node_klass(key, node)
self._just_inserted(node.l)
else:
self._insert(node.l, key)
else:
if node.r is None:
node.r = self._node_klass(key, node)
self._just_inserted(node.r)
else:
self._insert(node.r, key)
return node
def _just_inserted(self, node):
pass # no work needs to be done after insertion for BST
# Deleting
def delete(self, k):
n = self._search(self._root, k)
if not n: return
self._delete_node(n)
def _delete_leaf(self, n):
if n.parent.l == n:
n.parent.l = None
else:
n.parent.r = None
def _delete_node_with_one_child(self, n):
child = n.l or n.r
if n.parent.l == n:
n.parent.l = child
if n.parent.r == n:
n.parent.r = child
child.parent = n.parent
def _biggest_succ(self, node):
if node.r:
return self._biggest_succ(node.r)
return node
def _smallest_succ(self, node):
if node.l:
return self._smallest_succ(node.l)
return node
def _delete_node_with_two_childs(self, n):
child = self._smallest_succ(n.r) if random.choice((0,1)) == 0 \
else self._biggest_succ(n.l)
n.key = child.key
self._delete_node(child)
def _delete_node(self, n):
if n.l is None and n.r is None:
self._delete_leaf(n)
elif n.l is None or n.r is None:
self._delete_node_with_one_child(n)
else:
self._delete_node_with_two_childs(n)
def __iter__(self):
def _do_yields(node):
if node.l:
for k in _do_yields(node.l):
yield k
yield node.key
if node.r:
for k in _do_yields(node.r):
yield k
if self._root:
for k in _do_yields(self._root):
yield k
def plot(self, fn):
import os.path
df = pydot.Dot(bgcolor="#ffffff00")
def _add_dummy_node(node, appendix):
dn = str(node.key) + appendix
df.add_node(pydot.Node(dn, label="", shape="point", color="white"))
df.add_edge(pydot.Edge(node.key, dn, color="#cecece"))
def _plot_node(node):
df.add_node(node.pydot_node)
if node.l:
_plot_node(node.l)
df.add_edge(pydot.Edge(node.key, node.l.key, color="#cecece"))
else:
_add_dummy_node(node, '_l')
if node.r:
_plot_node(node.r)
df.add_edge(pydot.Edge(node.key, node.r.key, color="#cecece"))
else:
_add_dummy_node(node, '_r')
if self._root:
_plot_node(self._root)
ft = os.path.splitext(fn)[1].replace(".","_")
df.__getattribute__("write"+ ft)(fn)