# Disjoint-Set forests in Python alternate implementation

I'm implementing a disjoint set system in Python, but I've hit a wall. I'm using a tree implementation for the system and am implementing Find(), Merge() and Create() functions for the system.

I am implementing a rank system and path compression for efficiency.

The catch is that these functions must take the set of disjoint sets as a parameter, making traversing hard.

``````class Node(object):
def __init__(self, value):
self.parent = self
self.value = value
self.rank = 0

def Create(values):
l = [Node(value) for value in values]
return l
``````

The Create function takes in a list of values and returns a list of singular Nodes containing the appropriate data.

I'm thinking the Merge function would look similar to this,

``````def Merge(set, value1, value2):
value1Root = Find(set, value1)
value2Root = Find(set, value2)
if value1Root == value2Root:
return
if value1Root.rank < value2Root.rank:
value1Root.parent = value2Root
elif value1Root.rank > value2Root.rank:
value2Root.parent = value1Root
else:
value2Root.parent = value1Root
value1Root.rank += 1
``````

but I'm not sure how to implement the Find() function since it is required to take the list of Nodes and a value (not just a node) as the parameters. Find(set, value) would be the prototype.

I understand how to implement path compression when a Node is taken as a parameter for Find(x), but this method is throwing me off.

Any help would be greatly appreciated. Thank you.

Edited for clarification.

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Clearly `merge` function should be applied to pair of nodes.

So `find` function should take single node parameter and look like this:

``````def find(node):
if node.parent != node:
node.parent = find(node.parent)
return node.parent
``````

Also wikipedia has pseudocode that is easily translatable to python.

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Thank you. I do know how this implementation should work with nodes passed as parameters, however, this implementation requires the parameters be the values that are being searched for and merged. –  Christian Benincasa Feb 28 '12 at 19:59

The implementation of this data structure becomes simpler when you realize that the operations union and find can also be implemented as methods of a disjoint set forest class, rather than on the individual disjoint sets.

If you can read C++, then have a look at my take on the data structure; it hides the actual sets from the outside world, representing them only as numeric indices in the API. In Python, it would be something like

``````class DisjSets(object):
def __init__(self, n):
self._parent = range(n)
self._rank = [0] * n

def find(self, i):
if self._parent[i] == i:
return i
else:
self._parent[i] = self.find(self._parent[i])
return self._parent[i]

def union(self, i, j):
root_i = self.find(i)
root_j = self.find(j)
if root_i != root_j:
if self._rank[root_i] < self._rank[root_j]:
self._parent[root_i] = root_j
elif self._rank[root_i] > self._rank[root_j]:
self._parent[root_j] = root_i
else:
self._parent[root_i] = root_j
self._rank[root_j] += 1
``````

(Not tested.)

If you choose not to follow this path, the client of your code will indeed have to have knowledge of `Node`s and `Find` must take a `Node` argument.

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