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dijkstra.py
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dijkstra.py
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"""
Dijktra's shortest path algorithm. Finds the path and distance from source to target.
To add an edge between vertex a and b with distance dist:
graph[a].append((b, dist)) and graph[b].append((a, dist)).
"""
import heapq
def dijkstra(graph, source, target):
"""
Finds the shortest path and shortest distance from source to target
:param graph: Dictionary linking the vertices using list of tuples
:param source: The vertex to start the path.
:param target: The vertex to end the path.
:return: shortest path and distance from source to target
"""
INF = float('Inf')
predecessors = {x: x for x in graph}
distances = {x: INF for x in graph}
distances[source] = 0
temp = []
heapq.heappush(temp, [source, distances[source]])
while temp:
u = heapq.heappop(temp)
u_dist = u[1]
u_idx = u[0]
if u_dist == distances[u_idx]:
for v in graph[u_idx]:
v_idx = v[0]
u2v = v[1]
if distances[u_idx] + u2v < distances[v_idx]:
distances[v_idx] = distances[u_idx] + u2v
heapq.heappush(temp, [v_idx, distances[v_idx]])
predecessors[v_idx] = u_idx
if distances[target] == INF:
return None, None
else:
path = []
vertex = target
while True:
path.append(str(vertex))
if vertex == predecessors[vertex]:
break
vertex = predecessors[vertex]
return path[::-1], distances[target]
def main():
"""
driver function to test the dijkstra's algorithm
"""
graph = {'s': [('a', 2), ('b', 1)],
'a': [('s', 3), ('b', 4), ('c', 8)],
'b': [('s', 4), ('a', 2), ('d', 2)],
'c': [('a', 2), ('d', 7), ('t', 4)],
'd': [('b', 1), ('c', 11), ('t', 5)],
't': [('c', 3), ('d', 5)]
}
source = 'a'
target = 't'
path, cost = dijkstra(graph, source, target)
print('The path from ' + source + ' to ' + target + ' :')
if path is None or cost is None:
print('does not exist')
else:
print(str(path) + ' with cost: ' + str(cost))
if __name__ == "__main__":
main()