118 lines
3.2 KiB
Python
Executable file
118 lines
3.2 KiB
Python
Executable file
#!/usr/bin/env python
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import enum
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import heapq
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import sys
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from typing import Iterator, NamedTuple
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class Point(NamedTuple):
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x: int
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y: int
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class ParsedMaze(NamedTuple):
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start: Point
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end: Point
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blocks: set[Point]
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class Direction(enum.IntEnum):
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EAST = enum.auto()
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WEST = enum.auto()
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NORTH = enum.auto()
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SOUTH = enum.auto()
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def rotations(self) -> tuple["Direction", "Direction"]:
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match self:
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case Direction.EAST | Direction.WEST:
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return (Direction.NORTH, Direction.SOUTH)
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case Direction.NORTH | Direction.SOUTH:
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return (Direction.EAST, Direction.WEST)
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def step(self, p: Point) -> Point:
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dx: int
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dy: int
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match self:
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case Direction.EAST:
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dx, dy = 0, 1
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case Direction.WEST:
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dx, dy = 0, -1
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case Direction.NORTH:
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dx, dy = -1, 0
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case Direction.SOUTH:
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dx, dy = 1, 0
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return Point(p.x + dx, p.y + dy)
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Node = tuple[Point, Direction]
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def solve(input: str) -> int:
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def parse(input: list[str]) -> ParsedMaze:
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start: Point | None = None
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end: Point | None = None
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blocks: set[Point] = set()
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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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p = Point(x, y)
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if c == "S":
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start = p
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elif c == "E":
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end = p
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elif c == "#":
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blocks.add(p)
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else:
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assert False # Sanity check
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assert start is not None # Sanity check
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assert end is not None # Sanity check
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return ParsedMaze(start, end, blocks)
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def djikstra(start: Point, end: Point, blocks: set[Point]) -> int:
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def next_moves(
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pos: Point,
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dir: Direction,
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) -> Iterator[tuple[int, Point, Direction]]:
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transitions = [(1, dir.step(pos), dir)]
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for new_dir in dir.rotations():
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transitions.append((1000, pos, new_dir))
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for cost, pos, dir in transitions:
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if pos in blocks:
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continue
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yield cost, pos, dir
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# Priority queue of (distance, point, direction)
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queue = [(0, start, Direction.EAST)]
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seen: set[Node] = set()
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while len(queue) > 0:
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cost, p, dir = heapq.heappop(queue)
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if p == end:
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return cost
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# We must have seen (p, dir) with a smaller distance before
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if (p, dir) in seen:
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continue
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# First time encountering (p, dir), must be the smallest distance to it
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seen.add((p, dir))
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# Add all neighbours to be visited
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for n_cost, n, n_dir in next_moves(p, dir):
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heapq.heappush(queue, (cost + n_cost, n, n_dir))
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assert False # Sanity check
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start, end, blocks = parse(input.splitlines())
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return djikstra(start, end, blocks)
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def main() -> None:
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input = sys.stdin.read()
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print(solve(input))
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if __name__ == "__main__":
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main()
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