Day 22: A Long Walk

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FAQ

  • hades
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    11 months ago

    Python

    from .solver import Solver
    
    
    def _directions_from(char: str) -> list[tuple[int, int]]:
      if char == '.':
        return [(0, 1), (0, -1), (1, 0), (-1, 0)]
      if char == 'v':
        return [(1, 0)]
      if char == '^':
        return [(-1, 0)]
      if char == '<':
        return [(0, -1)]
      if char == '>':
        return [(0, 1)]
      raise ValueError(f'unknown char: {char}')
    
    class Day23(Solver):
      lines: list[str]
    
      def __init__(self):
        super().__init__(23)
    
      def presolve(self, input: str):
        self.lines = input.splitlines()
    
      def _find_longest(self, current: tuple[int, int], visited: set[tuple[int, int]]) -> int|None:
        i, j = current
        if i == len(self.lines) - 1:
          return 0
        visited.add(current)
        options = []
        for di, dj in _directions_from(self.lines[i][j]):
          ni, nj = i + di, j + dj
          if ni < 0 or ni >= len(self.lines) or nj < 0 or nj >= len(self.lines[0]):
            continue
          if self.lines[ni][nj] == '#':
            continue
          if (ni, nj) in visited:
            continue
          result = self._find_longest((ni, nj), visited)
          if result is not None:
            options.append(result)
        visited.remove(current)
        if options:
          return max(options) + 1
        return None
    
      def solve_first_star(self) -> int:
        start_i = 0
        start_j = self.lines[0].find('.')
        result = self._find_longest((start_i, start_j), set())
        assert result
        return result
    
      def _find_longest_2(self, current: tuple[int, int],
                          connections: dict[tuple[int, int], list[tuple[int, int, int]]],
                          visited: set[tuple[int, int]]) -> int|None:
        i, j = current
        if i == len(self.lines) - 1:
          return 0
        visited.add(current)
        options = []
        for ni, nj, length in connections[(i, j)]:
          if (ni, nj) in visited:
            continue
          result = self._find_longest_2((ni, nj), connections, visited)
          if result is not None:
            options.append(result + length)
        visited.remove(current)
        if options:
          return max(options)
        return None
    
      def solve_second_star(self) -> int:
        start_i = 0
        start_j = self.lines[0].find('.')
    
        stack = [(start_i, start_j)]
        connections = {}
        visited = set()
        while stack:
          edge_i, edge_j = stack.pop()
          i, j = edge_i, edge_j
          path_length = 0
          options = []
          connections[(edge_i, edge_j)] = []
          while True:
            options = []
            path_length += 1
            visited.add((i, j))
            for di, dj in ((0, 1), (0, -1), (1, 0), (-1, 0)):
              ni, nj = i + di, j + dj
              if ni < 0 or ni >= len(self.lines) or nj < 0 or nj >= len(self.lines[0]):
                continue
              if self.lines[ni][nj] == '#':
                continue
              if (ni, nj) in visited:
                continue
              options.append((ni, nj))
            if len(options) == 1:
              i, j = options[0]
            else:
              connections[(edge_i, edge_j)].append((i, j, path_length - 1))
              break
          connections[(i, j)] = [(ni, nj, 1) for ni, nj in options]
          stack.extend(options)
    
        connections_pairs = list(connections.items())
        for (i, j), connected_nodes in connections_pairs:
          for (ni, nj, d) in connected_nodes:
            if (ni, nj) not in connections:
              connections[(ni, nj)] = [(i, j, d)]
            elif (i, j, d) not in connections[(ni, nj)]:
              connections[(ni, nj)].append((i, j, d))
    
        result = self._find_longest_2((start_i, start_j), connections, set())
        assert result
        return result