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117 lines
3.7 KiB
Python
117 lines
3.7 KiB
Python
import sys
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from collections import defaultdict
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def PrimsAlgorithm(l): # noqa: E741
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nodePosition = []
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def get_position(vertex):
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return nodePosition[vertex]
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def set_position(vertex, pos):
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nodePosition[vertex] = pos
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def top_to_bottom(heap, start, size, positions):
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if start > size // 2 - 1:
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return
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else:
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if 2 * start + 2 >= size:
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m = 2 * start + 1
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else:
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if heap[2 * start + 1] < heap[2 * start + 2]:
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m = 2 * start + 1
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else:
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m = 2 * start + 2
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if heap[m] < heap[start]:
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temp, temp1 = heap[m], positions[m]
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heap[m], positions[m] = heap[start], positions[start]
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heap[start], positions[start] = temp, temp1
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temp = get_position(positions[m])
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set_position(positions[m], get_position(positions[start]))
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set_position(positions[start], temp)
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top_to_bottom(heap, m, size, positions)
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# Update function if value of any node in min-heap decreases
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def bottom_to_top(val, index, heap, position):
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temp = position[index]
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while index != 0:
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if index % 2 == 0:
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parent = int((index - 2) / 2)
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else:
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parent = int((index - 1) / 2)
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if val < heap[parent]:
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heap[index] = heap[parent]
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position[index] = position[parent]
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set_position(position[parent], index)
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else:
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heap[index] = val
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position[index] = temp
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set_position(temp, index)
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break
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index = parent
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else:
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heap[0] = val
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position[0] = temp
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set_position(temp, 0)
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def heapify(heap, positions):
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start = len(heap) // 2 - 1
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for i in range(start, -1, -1):
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top_to_bottom(heap, i, len(heap), positions)
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def deleteMinimum(heap, positions):
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temp = positions[0]
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heap[0] = sys.maxsize
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top_to_bottom(heap, 0, len(heap), positions)
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return temp
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visited = [0 for i in range(len(l))]
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Nbr_TV = [-1 for i in range(len(l))] # Neighboring Tree Vertex of selected vertex
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# Minimum Distance of explored vertex with neighboring vertex of partial tree
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# formed in graph
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Distance_TV = [] # Heap of Distance of vertices from their neighboring vertex
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Positions = []
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for x in range(len(l)):
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p = sys.maxsize
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Distance_TV.append(p)
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Positions.append(x)
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nodePosition.append(x)
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TreeEdges = []
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visited[0] = 1
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Distance_TV[0] = sys.maxsize
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for x in l[0]:
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Nbr_TV[x[0]] = 0
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Distance_TV[x[0]] = x[1]
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heapify(Distance_TV, Positions)
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for i in range(1, len(l)):
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vertex = deleteMinimum(Distance_TV, Positions)
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if visited[vertex] == 0:
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TreeEdges.append((Nbr_TV[vertex], vertex))
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visited[vertex] = 1
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for v in l[vertex]:
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if visited[v[0]] == 0 and v[1] < Distance_TV[get_position(v[0])]:
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Distance_TV[get_position(v[0])] = v[1]
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bottom_to_top(v[1], get_position(v[0]), Distance_TV, Positions)
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Nbr_TV[v[0]] = vertex
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return TreeEdges
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if __name__ == "__main__": # pragma: no cover
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# < --------- Prims Algorithm --------- >
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n = int(input("Enter number of vertices: ").strip())
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e = int(input("Enter number of edges: ").strip())
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adjlist = defaultdict(list)
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for x in range(e):
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l = [int(x) for x in input().strip().split()] # noqa: E741
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adjlist[l[0]].append([l[1], l[2]])
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adjlist[l[1]].append([l[0], l[2]])
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print(PrimsAlgorithm(adjlist))
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