Day 14: Parabolic Reflector Dish

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  • @mykl
    link
    4
    edit-2
    1 year ago

    Dart

    Big lump of code. I built a general slide function which ended up being tricksy in order to visit rocks in the correct order, but it works.

    int hash(List> rocks) =>
        (rocks.map((e) => e.join('')).join('\n')).hashCode;
    
    /// Slide rocks in the given (vert, horz) direction.
    List> slide(List> rocks, (int, int) dir) {
      // Work out in which order to check rocks for most efficient movement.
      var rrange = 0.to(rocks.length);
      var crange = 0.to(rocks.first.length);
      var starts = [
        for (var r in (dir.$1 == 1) ? rrange.reversed : rrange)
          for (var c in ((dir.$2 == 1) ? crange.reversed : crange)
              .where((c) => rocks[r][c] == 'O'))
            (r, c)
      ];
    
      for (var (r, c) in starts) {
        var dest = (r, c);
        var next = (dest.$1 + dir.$1, dest.$2 + dir.$2);
        while (next.$1.between(0, rocks.length - 1) &&
            next.$2.between(0, rocks.first.length - 1) &&
            rocks[next.$1][next.$2] == '.') {
          dest = next;
          next = (dest.$1 + dir.$1, dest.$2 + dir.$2);
        }
        if (dest != (r, c)) {
          rocks[r][c] = '.';
          rocks[dest.$1][dest.$2] = 'O';
        }
      }
      return rocks;
    }
    
    List> oneCycle(List> rocks) =>
        [(-1, 0), (0, -1), (1, 0), (0, 1)].fold(rocks, (s, t) => slide(s, t));
    
    spin(List> rocks, {int target = 1}) {
      var cycle = 1;
      var seen = {};
      while (cycle != target) {
        rocks = oneCycle(rocks);
        var h = hash(rocks);
        if (seen.containsKey(h)) {
          var diff = cycle - seen[h]!;
          var count = (target - cycle) ~/ diff;
          cycle += count * diff;
          seen = {};
        } else {
          seen[h] = cycle;
          cycle += 1;
        }
      }
      return weighting(rocks);
    }
    
    parse(List lines) => lines.map((e) => e.split('').toList()).toList();
    
    weighting(List> rocks) => 0
        .to(rocks.length)
        .map((r) => rocks[r].count((e) => e == 'O') * (rocks.length - r))
        .sum;
    
    part1(List lines) => weighting(slide(parse(lines), (-1, 0)));
    
    part2(List lines) => spin(parse(lines), target: 1000000000);