2023: d25: ex1: add solution
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125
2023/d25/ex1/ex1.py
Executable file
125
2023/d25/ex1/ex1.py
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#!/usr/bin/env python
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import copy
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import random
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import sys
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from collections import Counter, defaultdict
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from typing import cast
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Graph = dict[str, Counter[str]]
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def solve(input: list[str]) -> int:
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def parse(input: list[str]) -> Graph:
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res: Graph = defaultdict(Counter)
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for line in input:
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node, destinations = line.split(": ")
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for dest in destinations.split():
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res[node][dest] = 1
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res[dest][node] = 1
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return res
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def contract_edge(graph: Graph, s: str, t: str) -> None:
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assert s != t # Sanity check
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assert s in graph # Sanity check
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assert t in graph # Sanity check
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# Merge the edges
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graph[s] += graph[t]
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# Don't count the potential t-s edge
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del graph[s][s]
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# Remove t from the graph
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for other in graph[t].keys():
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del graph[other][t]
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del graph[t]
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# Update the neighbours values
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for other, v in graph[s].items():
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graph[other][s] = v
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# Stoer-Wagner algorithm
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def min_cut_exact(graph: Graph) -> tuple[set[str], set[str]]:
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def phase(graph: Graph) -> tuple[str, str, int]:
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assert len(graph) >= 2 # Sanity check
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candidates = set(graph.keys())
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start = candidates.pop()
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found = [start]
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cut_weight: list[int] = []
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while candidates:
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(weight, node) = max(
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(sum(graph[node][other] for other in found), node)
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for node in candidates
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)
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candidates.discard(node)
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found.append(node)
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cut_weight.append(weight)
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return found[-2], found[-1], cut_weight[-1]
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partition: set[str] = set()
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g = copy.deepcopy(graph)
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# Initialize our best weight/parition
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best_weight = cast(int, float("inf"))
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best_partition = set(partition)
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while len(g) > 1:
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s, t, w = phase(g)
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partition.add(t)
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contract_edge(g, s, t)
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if w < best_weight:
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best_weight = w
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best_partition = set(partition)
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return best_partition, graph.keys() - best_partition
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def min_cut_karger(graph: Graph, target: int) -> tuple[set[str], set[str]]:
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assert len(graph) >= 2 # Sanity check
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original_edges = [
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(source, dest)
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for source, destinations in graph.items()
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for dest in destinations
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if source < dest
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]
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while True:
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g = copy.deepcopy(graph)
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contracted = {v: v for v in graph}
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while len(g) > 2:
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s, t = (contracted[v] for v in random.choice(original_edges))
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if s == t:
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continue
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contract_edge(g, s, t)
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# Hacky union-find-ish algorithm, for laziness
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for k, v in contracted.items():
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if v != t:
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continue
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contracted[k] = s
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# Pick a partition at random here
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node = next(iter(g))
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# Check that we met our target
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if g[node].total() > target:
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continue
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partition = {n for n, parent in contracted.items() if parent == node}
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return partition, graph.keys() - partition
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graph = parse(input)
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# The exact algorithm is very slow on big graphs, at which point Karger's algorithm is better
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if len(graph) < 100:
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left, right = min_cut_exact(graph)
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else:
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left, right = min_cut_karger(graph, 3)
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return len(left) * len(right)
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def main() -> None:
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input = sys.stdin.read().splitlines()
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print(solve(input))
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if __name__ == "__main__":
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main()
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