68 lines
1.7 KiB
Python
68 lines
1.7 KiB
Python
import numpy as np
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import networkx as nx
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import argparse
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parser = argparse.ArgumentParser(description='')
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parser.add_argument('-g', '--graph', dest='graph', action='store', default=None)
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args = parser.parse_args()
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if not args.graph:
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print("need a graph as input")
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exit()
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def read_graph(graph_file):
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with open(graph_file) as f:
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n = int(f.readline()) # pontok száma
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m = int(f.readline()) # élek száma
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A = [[0] * n for _ in range(n)] # táblázat, ahol az élek helyén 1 van, ammeg 0
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for _ in range(m):
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[u, v] = map(int, f.readline().split())
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A[u][v] = 1
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A[v][u] = 1
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G = nx.Graph(np.array(A))
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return G
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input_graph = read_graph(args.graph)
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def max_comp_size(G):
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return max([len(c) for c in nx.connected_components(G)])
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def run_random_once() -> list:
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del_list = []
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G = input_graph.copy()
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target = len(G.nodes) / 2
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while max_comp_size(G) > target:
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u = np.random.choice(G.nodes)
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if u not in del_list:
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del_list.append(u)
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G.remove_node(u)
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return del_list
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def remove_highest_kebab() -> list:
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del_list = []
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G = input_graph.copy()
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target = len(G.nodes) / 2
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while max_comp_size(G) > target:
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highest_node = None
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highest_node_deg = 0
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for node in G.nodes:
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if G.degree[node] > highest_node_deg:
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highest_node = node
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highest_node_deg = G.degree[node]
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del_list.append(highest_node)
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G.remove_node(highest_node)
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return del_list
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for kebab in remove_highest_kebab():
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print(kebab)
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