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Create Kruskal Minimum Spanning.py #2493

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102 changes: 102 additions & 0 deletions Data Structures/Greedy Algorithm/Kruskal Minimum Spanning.py
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from collections import defaultdict



class Graph:

def __init__(self, vertices):
self.V = vertices # No. of vertices
self.graph = [] # default dictionary
# to store graph

# function to add an edge to graph
def addEdge(self, u, v, w):
self.graph.append([u, v, w])

# A utility function to find set of an element i
# (uses path compression technique)
def find(self, parent, i):
if parent[i] == i:
return i
return self.find(parent, parent[i])

# A function that does union of two sets of x and y
# (uses union by rank)
def union(self, parent, rank, x, y):
xroot = self.find(parent, x)
yroot = self.find(parent, y)

# Attach smaller rank tree under root of
# high rank tree (Union by Rank)
if rank[xroot] < rank[yroot]:
parent[xroot] = yroot
elif rank[xroot] > rank[yroot]:
parent[yroot] = xroot

# If ranks are same, then make one as root
# and increment its rank by one
else:
parent[yroot] = xroot
rank[xroot] += 1

# The main function to construct MST using Kruskal's
# algorithm
def KruskalMST(self):

result = [] # This will store the resultant MST

# An index variable, used for sorted edges
i = 0

# An index variable, used for result[]
e = 0

# Step 1: Sort all the edges in
# non-decreasing order of their
# weight. If we are not allowed to change the
# given graph, we can create a copy of graph
self.graph = sorted(self.graph,
key=lambda item: item[2])

parent = []
rank = []

# Create V subsets with single elements
for node in range(self.V):
parent.append(node)
rank.append(0)

# Number of edges to be taken is equal to V-1
while e < self.V - 1:

# Step 2: Pick the smallest edge and increment
# the index for next iteration
u, v, w = self.graph[i]
i = i + 1
x = self.find(parent, u)
y = self.find(parent, v)


if x != y:
e = e + 1
result.append([u, v, w])
self.union(parent, rank, x, y)
# Else discard the edge

minimumCost = 0
print ("Edges in the constructed MST")
for u, v, weight in result:
minimumCost += weight
print("%d -- %d == %d" % (u, v, weight))
print("Minimum Spanning Tree" , minimumCost)

# Driver code
g = Graph(4)
g.addEdge(0, 1, 10)
g.addEdge(0, 2, 6)
g.addEdge(0, 3, 5)
g.addEdge(1, 3, 15)
g.addEdge(2, 3, 4)

g.KruskalMST()