From 24062ea43a39e92f44dddcc2cf96eb450924f3e5 Mon Sep 17 00:00:00 2001 From: Bruno BELANYI Date: Mon, 9 Dec 2019 16:17:34 +0100 Subject: [PATCH] 2019: d06: ex2: add solution --- 2019/d06/ex2/ex2.py | 86 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 86 insertions(+) create mode 100755 2019/d06/ex2/ex2.py diff --git a/2019/d06/ex2/ex2.py b/2019/d06/ex2/ex2.py new file mode 100755 index 0000000..427fc3f --- /dev/null +++ b/2019/d06/ex2/ex2.py @@ -0,0 +1,86 @@ +#!/usr/bin/env python + +import sys +from dataclasses import dataclass, field +from typing import Dict, List, Optional + + +@dataclass +class OrbitGraph: + name: str + children: List["OrbitGraph"] = field(default_factory=list) + + +def make_orbits(description: List[str]) -> OrbitGraph: + orbits: Dict[str, OrbitGraph] = {} + + def find_or_add(name: str) -> OrbitGraph: + if name in orbits: + return orbits[name] + orbit = OrbitGraph(name) + orbits[name] = orbit + return orbit + + for l in description: + parent, child = map(find_or_add, map(lambda x: x.strip(), l.split(")"))) + parent.children.append(child) + + return orbits["COM"] # Assume common root is named 'COM' + + +def count_orbits_hop(root: OrbitGraph) -> int: + nodes: List[OrbitGraph] = [] + + def ind_node(node: OrbitGraph) -> int: + return nodes.index(node) + + def fill_nodes(root: OrbitGraph) -> None: + nodes.append(root) + for child in root.children: + fill_nodes(child) + + fill_nodes(root) + n = len(nodes) + dist: List[List[int]] = [[2 * n] * len(nodes) for __ in range(len(nodes))] + next_nodes: List[List[Optional[OrbitGraph]]] = [[None] * n for __ in range(n)] + + def fill_mat(root: OrbitGraph) -> None: + # From root to itself + dist[ind_node(root)][ind_node(root)] = 0 + next_nodes[ind_node(root)][ind_node(root)] = root + for child in root.children: + # From root to child + dist[ind_node(root)][ind_node(child)] = 1 + next_nodes[ind_node(root)][ind_node(child)] = child + # The other way + dist[ind_node(child)][ind_node(root)] = 1 + next_nodes[ind_node(child)][ind_node(root)] = root + # Do it again + fill_mat(child) + + fill_mat(root) + + for k in range(n): + print(f"{k} / {n} rounds") + for i in range(n): + for j in range(n): + new_dist = dist[i][k] + dist[k][j] + if dist[i][j] > new_dist: + dist[i][j] = new_dist + next_nodes[i][j] = next_nodes[i][k] + + useful_indices: Dict[str, int] = {} + for index, node in enumerate(nodes): + if node.name in ("YOU", "SAN"): + useful_indices[node.name] = index + return ( + dist[useful_indices["YOU"]][useful_indices["SAN"]] - 2 + ) # Because we are in orbit + + +def main() -> None: + print(count_orbits_hop(make_orbits(sys.stdin.readlines()))) + + +if __name__ == "__main__": + main()