2023: d10: ex1: add solution
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155
2023/d10/ex1/ex1.py
Executable file
155
2023/d10/ex1/ex1.py
Executable file
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#!/usr/bin/env python
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import sys
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from collections.abc import Iterator
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from enum import Enum, StrEnum
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from typing import NamedTuple, Optional
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class Point(NamedTuple):
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x: int
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y: int
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class Direction(Enum):
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NORTH = Point(-1, 0)
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SOUTH = Point(1, 0)
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WEST = Point(0, -1)
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EAST = Point(0, 1)
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def apply(self, pos: "Point") -> "Point":
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dx, dy = self.value
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return Point(pos.x + dx, pos.y + dy)
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class Pipe(StrEnum):
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VERTICAL = "|"
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HORIZONTAL = "-"
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NE_BEND = "L"
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NW_BEND = "J"
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SW_BEND = "7"
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SE_BEND = "F"
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@classmethod
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def from_connection(cls, connections: dict[Direction, bool]) -> "Pipe":
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assert sum(connections.values()) == 2 # Sanity check
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if connections.get(Direction.NORTH, False):
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if connections.get(Direction.SOUTH, False):
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return cls.VERTICAL
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if connections.get(Direction.EAST, False):
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return cls.NE_BEND
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if connections.get(Direction.WEST, False):
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return cls.NW_BEND
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if connections.get(Direction.SOUTH, False):
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if connections.get(Direction.WEST, False):
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return cls.SW_BEND
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if connections.get(Direction.EAST, False):
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return cls.SE_BEND
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assert connections[Direction.WEST] and connections[Direction.EAST]
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return cls.HORIZONTAL
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def neighbours(self, pos: Point) -> Iterator[Point]:
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deltas: tuple[Direction, Direction]
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match self:
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case self.VERTICAL:
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deltas = (Direction.NORTH, Direction.SOUTH)
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case self.HORIZONTAL:
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deltas = (Direction.WEST, Direction.EAST)
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case self.NE_BEND:
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deltas = (Direction.NORTH, Direction.EAST)
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case self.NW_BEND:
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deltas = (Direction.NORTH, Direction.WEST)
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case self.SW_BEND:
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deltas = (Direction.SOUTH, Direction.WEST)
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case self.SE_BEND:
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deltas = (Direction.SOUTH, Direction.EAST)
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for dir in deltas:
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yield dir.apply(pos)
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def go_through(self, pos: Point, prev: Point) -> Point:
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for dest in self.neighbours(pos):
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if dest == prev:
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continue
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return dest
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assert False # Sanity check
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Pipes = dict[Point, Pipe]
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def solve(input: list[str]) -> int:
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def parse(input: list[str]) -> tuple[Point, Pipes]:
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start: Optional[Point] = None
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pipes: Pipes = {}
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for x, line in enumerate(input):
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for y, c in enumerate(line):
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if c == ".":
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continue
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if c == "S":
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start = Point(x, y)
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continue
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pipes[Point(x, y)] = Pipe(c)
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assert start is not None # Sanity check
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return start, pipes
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def iter_pipe(cur: Point, start: Point, pipes: Pipes) -> Iterator[Point]:
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prev = start
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while True:
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if cur == start:
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break
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if cur not in pipes:
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break
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# Check that the receiving pipe is connected to previous one
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if prev not in pipes[cur].neighbours(cur):
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return
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yield cur
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cur, prev = pipes[cur].go_through(cur, prev), cur
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# Yield the loop element
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if cur == start:
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yield cur
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# Return the possible pipes that start can be
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def resolve_start(start: Point, pipes: Pipes) -> Pipe:
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# Returns the direction which closes the loop, if there is one
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def explore(dir: Direction) -> Optional[Direction]:
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points = list(iter_pipe(dir.apply(start), start, pipes))
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if len(points) == 0:
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return None
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penultimate, last = points[-2], points[-1]
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if last != start:
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return None
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return Direction(Point(penultimate.x - last.x, penultimate.y - last.y))
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res: set[Pipe] = set()
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for dir in Direction:
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if (resulting_dir := explore(dir)) is None:
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continue
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res.add(Pipe.from_connection({dir: True, resulting_dir: True}))
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assert len(res) == 1 # Instructions say there is exactly one loop
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return res.pop()
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def compute_dist(start: Point, pipes: Pipes) -> dict[Point, int]:
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res = {start: 0}
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for n in pipes[start].neighbours(start):
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for d, p in enumerate(iter_pipe(n, start, pipes), start=1):
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res[p] = min(d, res.get(p, d))
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return res
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start, pipes = parse(input)
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pipes[start] = resolve_start(start, pipes)
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return max(compute_dist(start, pipes).values())
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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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