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Merge pull request #161 from arpanjain97/master

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Add shortest path algorithms
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Harshil 2017-11-03 16:05:02 +05:30 committed by GitHub
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52
data_structures/Graph/BellmanFord.py Normal file
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def printDist(dist, V):
print("\nVertex Distance")
for i in range(V):
if dist[i] != float('inf') :
print(i,"\t",int(dist[i]),end = "\t")
else:
print(i,"\t","INF",end="\t")
print();
def BellmanFord(graph, V, E, src):
mdist=[float('inf') for i in range(V)]
mdist[src] = 0.0;
for i in range(V-1):
for j in range(V):
u = graph[j]["src"]
v = graph[j]["dst"]
w = graph[j]["weight"]
if mdist[u] != float('inf') and mdist[u] + w < mdist[v]:
mdist[v] = mdist[u] + w
for j in range(V):
u = graph[j]["src"]
v = graph[j]["dst"]
w = graph[j]["weight"]
if mdist[u] != float('inf') and mdist[u] + w < mdist[v]:
print("Negative cycle found. Solution not possible.")
return
printDist(mdist, V)
#MAIN
V = int(input("Enter number of vertices: "));
E = int(input("Enter number of edges: "));
graph = [dict() for j in range(E)]
for i in range(V):
graph[i][i] = 0.0;
for i in range(E):
print("\nEdge ",i+1)
src = int(input("Enter source:"))
dst = int(input("Enter destination:"))
weight = float(input("Enter weight:"))
graph[i] = {"src": src,"dst": dst, "weight": weight}
gsrc = int(input("\nEnter shortest path source:"))
BellmanFord(graph, V, E, gsrc)

56
data_structures/Graph/Dijkstra.py Normal file
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def printDist(dist, V):
print("\nVertex Distance")
for i in range(V):
if dist[i] != float('inf') :
print(i,"\t",int(dist[i]),end = "\t")
else:
print(i,"\t","INF",end="\t")
print();
def minDist(mdist, vset, V):
minVal = float('inf')
minInd = -1
for i in range(V):
if (not vset[i]) and mdist[i] < minVal :
minInd = i
minVal = mdist[i]
return minInd
def Dijkstra(graph, V, src):
mdist=[float('inf') for i in range(V)]
vset = [False for i in range(V)]
mdist[src] = 0.0;
for i in range(V-1):
u = minDist(mdist, vset, V)
vset[u] = True;
for v in range(V):
if (not vset[v]) and graph[u][v]!=float('inf') and mdist[u] + graph[u][v] < mdist[v]:
mdist[v] = mdist[u] + graph[u][v]
printDist(mdist, V)
#MAIN
V = int(input("Enter number of vertices: "));
E = int(input("Enter number of edges: "));
graph = [[float('inf') for i in range(V)] for j in range(V)]
for i in range(V):
graph[i][i] = 0.0;
for i in range(E):
print("\nEdge ",i+1)
src = int(input("Enter source:"))
dst = int(input("Enter destination:"))
weight = float(input("Enter weight:"))
graph[src][dst] = weight;
gsrc = int(input("\nEnter shortest path source:"))
Dijkstra(graph, V, gsrc)

47
data_structures/Graph/FloydWarshall.py Normal file
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def printDist(dist, V):
print("\nThe shortest path matrix using Floyd Warshall algorithm\n")
for i in range(V):
for j in range(V):
if dist[i][j] != float('inf') :
print(int(dist[i][j]),end = "\t")
else:
print("INF",end="\t")
print();
def FloydWarshall(graph, V):
dist=[[float('inf') for i in range(V)] for j in range(V)]
for i in range(V):
for j in range(V):
dist[i][j] = graph[i][j]
for k in range(V):
for i in range(V):
for j in range(V):
if dist[i][k]!=float('inf') and dist[k][j]!=float('inf') and dist[i][k]+dist[k][j] < dist[i][j]:
dist[i][j] = dist[i][k] + dist[k][j]
printDist(dist, V)
#MAIN
V = int(input("Enter number of vertices: "));
E = int(input("Enter number of edges: "));
graph = [[float('inf') for i in range(V)] for j in range(V)]
for i in range(V):
graph[i][i] = 0.0;
for i in range(E):
print("\nEdge ",i+1)
src = int(input("Enter source:"))
dst = int(input("Enter destination:"))
weight = float(input("Enter weight:"))
graph[src][dst] = weight;
FloydWarshall(graph, V)