Day 18: Ram Run

Megathread guidelines

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FAQ

  • hades@lemm.ee
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    8 days ago

    C#

    using QuickGraph;
    using QuickGraph.Algorithms.ShortestPath;
    
    namespace aoc24;
    
    public class Day18 : Solver {
      private int width = 71, height = 71, bytes = 1024;
      private HashSet<(int, int)> fallen_bytes;
      private List<(int, int)> fallen_bytes_in_order;
      private record class Edge((int, int) Source, (int, int) Target) : IEdge<(int, int)>;
      private DelegateVertexAndEdgeListGraph<(int, int), Edge> MakeGraph() => new(GetAllVertices(), GetOutEdges);
    
      private readonly (int, int)[] directions = [(-1, 0), (0, 1), (1, 0), (0, -1)];
    
      private bool GetOutEdges((int, int) arg, out IEnumerable<Edge> result_enumerable) {
        List<Edge> result = [];
        foreach (var (dx, dy) in directions) {
          var (nx, ny) = (arg.Item1 + dx, arg.Item2 + dy);
          if (nx < 0 || ny < 0 || nx >= width || ny >= height) continue;
          if (fallen_bytes.Contains((nx, ny))) continue;
          result.Add(new(arg, (nx, ny)));
        }
        result_enumerable = result;
        return true;
      }
    
      private IEnumerable<(int, int)> GetAllVertices() {
        for (int i = 0; i < width; i++) {
          for (int j = 0; j < height; j++) {
            yield return (i, j);
          }
        }
      }
    
      public void Presolve(string input) {
        fallen_bytes_in_order = [..input.Trim().Split("\n")
          .Select(line => line.Split(","))
          .Select(pair => (int.Parse(pair[0]), int.Parse(pair[1])))];
        fallen_bytes = [.. fallen_bytes_in_order.Take(bytes)];
      }
    
      private double Solve() {
        var graph = MakeGraph();
        var search = new AStarShortestPathAlgorithm<(int, int), Edge>(graph, _ => 1, vtx => vtx.Item1 + vtx.Item2);
        search.SetRootVertex((0, 0));
        search.ExamineVertex += vertex => {
          if (vertex.Item1 == width - 1 && vertex.Item2 == width - 1) search.Abort();
        };
        search.Compute();
        return search.Distances[(width - 1, height - 1)];
      }
    
      public string SolveFirst() => Solve().ToString();
    
      public string SolveSecond() {
        foreach (var b in fallen_bytes_in_order[bytes..]) {
          fallen_bytes.Add(b);
          if (Solve() > width*height) return $"{b.Item1},{b.Item2}";
        }
        throw new Exception("solution not found");
      }
    }