2023-03-13 23:36:25 +01:00
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#!/usr/bin/env python3
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2023-03-13 23:31:20 +01:00
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2023-03-14 12:44:57 +01:00
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def memoize(f):
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cache = dict()
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def memf(*args):
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key = tuple(args)
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if key not in cache:
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cache[key] = f(*args)
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return cache[key]
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return memf
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2023-03-13 23:31:20 +01:00
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class Graph(dict):
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nodes = dict.keys
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def add_node(self, a):
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if a not in self:
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self[a] = []
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def add_edge(self, a, b):
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self.add_node(a)
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self.add_node(b)
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self[a].append(b)
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self[b].append(a)
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def nodes_of(self, a):
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return self[a]
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def rm_loops(self):
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for a in self.keys():
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for i, b in enumerate(self.nodes_of(a)):
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if a == b:
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del self[a][i]
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def min_path(self, a, b):
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weights = dict()
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visited = set()
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node, w = a, 0
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while node != b:
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for c in self[node]:
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if c in visited:
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continue
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if c in weights and weights[c] <= w + 1:
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continue
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weights[c] = w + 1
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node, w = min(weights.items() , key=lambda x: x[1])
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del weights[node]
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visited.add(node)
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return w
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def min_paths(self, a):
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weights = dict()
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visited = set()
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visited.add(a)
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node, w = a, 0
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while len(visited) != len(self):
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for c in self[node]:
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if c in visited:
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continue
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if c in weights and weights[c] <= w + 1:
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continue
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weights[c] = w + 1
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node, w = min(filter(lambda x: x[0] not in visited, weights.items()) , key=lambda x: x[1])
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visited.add(node)
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return weights
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class WeightedGraph(Graph):
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def nodes_of(self, a):
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return [b for b, _ in self[a]]
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def add_edge(self, a, b, w):
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self[a].append((b, w))
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self[b].append((a, w))
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def min_path(self, a, b):
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weights = dict()
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visited = set()
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node, w = a, 0
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while node != b:
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for c, edge_w in self[node]:
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if c in visited:
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continue
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if c in weights and weights[c] <= w + edge_w:
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continue
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weights[c] = w + edge_w
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node, w = min(weights.items() , key=lambda x: x[1])
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del weights[node]
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visited.add(node)
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return w
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