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159 lines
4.7 KiB
Python
159 lines
4.7 KiB
Python
from typing import Dict, List, Set, Tuple
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from dataclasses import dataclass
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from collections import defaultdict
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from enum import Enum
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@dataclass(frozen=True)
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class Vec2d:
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x: int
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y: int
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def __add__(self, other):
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return Vec2d(self.x + other.x, self.y + other.y)
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class Direction(Enum):
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NORTH = Vec2d(0, -1) # [0, 0] is the top-left corner, so y increases going downwards
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SOUTH = Vec2d(0, 1)
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EAST = Vec2d(1, 0)
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WEST = Vec2d(-1, 0)
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"""
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| is a vertical pipe connecting north and south.
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- is a horizontal pipe connecting east and west.
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L is a 90-degree bend connecting north and east.
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J is a 90-degree bend connecting north and west.
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7 is a 90-degree bend connecting south and west.
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F is a 90-degree bend connecting south and east.
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. is ground; there is no pipe in this tile.
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S is the starting position of the animal; there is a pipe on this tile, but your sketch doesn't show what shape the pipe has.
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"""
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PIPES = {
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"|": (Direction.SOUTH, Direction.NORTH),
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"-": (Direction.EAST, Direction.WEST),
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"L": (Direction.NORTH, Direction.EAST),
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"J": (Direction.NORTH, Direction.WEST),
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"7": (Direction.SOUTH, Direction.WEST),
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"F": (Direction.SOUTH,Direction.EAST),
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}
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PIPES_REVERSE_LOOKUP = {v: k for k,v in PIPES.items()}
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def find_start_position(grid: List[str]) -> Vec2d:
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for y, row in enumerate(grid):
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for x, c in enumerate(row):
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if c == "S":
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return Vec2d(x, y)
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raise RuntimeError("The start position was not found")
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def update_start_symbol(grid: List[str], start_pos: Vec2d):
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"""
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Updates the map by replacing the start symbol "S" with its actual corresponding pipe
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"""
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# check which neighbors are connected to the start position
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connections = []
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north = start_pos + Direction.NORTH.value
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south = start_pos + Direction.SOUTH.value
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east = start_pos + Direction.EAST.value
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west = start_pos + Direction.WEST.value
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if grid[north.y][north.x] in "|7F":
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connections.append(Direction.NORTH)
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if grid[south.y][south.x] in "|LJ":
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connections.append(Direction.SOUTH)
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if grid[east.y][east.x] in "-7J":
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connections.append(Direction.EAST)
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if grid[west.y][west.x] in "-LF":
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connections.append(Direction.WEST)
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print("Start symbol has the following connections: ", connections)
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assert len(connections) == 2, "start symbol has invalid connections"
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pipe = PIPES_REVERSE_LOOKUP[tuple(connections)]
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print(f"Start symbol is a {pipe} pipe")
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# replace it in the grid accordingly
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grid[start_pos.y] = grid[start_pos.y].replace("S", pipe)
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def parse_graph(grid: List[str]) -> Dict[Vec2d, List[Vec2d]]:
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graph = defaultdict(list)
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for y, row in enumerate(grid):
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for x, pipe in enumerate(row):
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pos = Vec2d(x, y)
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if pipe in PIPES:
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for direction in PIPES[pipe]:
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next_pos = pos + direction.value
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graph[pos].append(next_pos)
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return graph
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def traverse_graph(graph, start_pos) -> Tuple[int, Set[Vec2d]]:
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"""
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traverse the graph using BFS, return the path and the
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find the length of the longest path in the graph
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"""
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queue = [(start_pos, 0)] # (pos, distance from start)
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max_dist = 0
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visited = {start_pos}
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while queue != []:
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cur, dist = queue.pop(0)
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max_dist = max(max_dist, dist)
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for next_pos in graph[cur]:
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if next_pos not in visited:
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visited.add(next_pos)
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queue.append((next_pos, dist+1))
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return max_dist, visited
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def count_enclosed_tiles(grid, edges):
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"""
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count the number of enclosed tiles in the loop by casting a ray on each row
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and counting the number of intersections with the edges of the loop
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"""
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enclosed_count = 0
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for y, row in enumerate(grid):
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crossings = 0
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for x, pipe in enumerate(row):
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pos = Vec2d(x, y)
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if pos in edges:
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if pipe in "L|J":
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crossings += 1
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elif crossings % 2 == 1:
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enclosed_count += 1
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return enclosed_count
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def main(grid):
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rows, cols = len(grid), len(grid[0])
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start_pos = find_start_position(grid)
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print("Start pos ", start_pos)
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update_start_symbol(grid, start_pos)
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graph = parse_graph(grid)
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max_dist, visited = traverse_graph(graph, start_pos)
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print("Part 1: ", max_dist)
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# visited edges are the ones that are part of the loop
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inside_count = count_enclosed_tiles(grid, visited)
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print("Part 2: ", inside_count)
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if __name__ == "__main__":
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import sys
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infile = sys.argv[1]
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with open(infile) as f:
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lines = [l.rstrip() for l in f.readlines()]
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main(lines)
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