from typing import List, Union, Tuple, Set, Self from dataclasses import dataclass type Point = Tuple[int, int] TURN = { # (-1,0) > (0, 1) -> (1, 0) -> (0, -1) (-1, 0): (0, 1), (0, 1): (1, 0), (1, 0): (0, -1), (0, -1): (-1, 0), } @dataclass class Map: fields: List[List[bool]] position: Point direction: Point max_y: int = 0 max_x: int = 0 def __post_init__(self): self.max_y = len(self.fields) self.max_x = len(self.fields[0]) def next_step(self): return ( self.position[0] + self.direction[0], self.position[1] + self.direction[1], ) def get(self, point: Point) -> Union[bool, None]: y, x = point try: return self.fields[y][x] except IndexError: return None def walk(self): visited: Set[Point] = set() while True: visited.add(self.position) next_step = self.next_step() content = self.get(next_step) if content is None: # Exited map break if content: # Turn self.direction = TURN[self.direction] next_step = self.next_step() self.position = next_step return len(visited) @staticmethod def parse(raw: str) -> Self: fields = [[f == "#" for f in line] for line in raw.splitlines()] # Find init position = (0, 0) direction = (-1, 0) # Up for y, line in enumerate(raw.splitlines()): for x, f in enumerate(line): if f == "^": print(f"FOUND! {x} {y}") position = (y, x) return Map(fields, position, direction) def solve(raw: str) -> int: # Part 1 part1 = 0 part2 = 0 m = Map.parse(raw) part1 = m.walk() return (part1, part2) # Test with open("./2024/06/test.txt", "r") as f: result = solve(f.read().strip()) print(result) # Input with open("./2024/06/input.txt", "r") as f: result = solve(f.read().strip()) print(result)