Day 12: Garden Groups

Megathread guidelines

  • Keep top level comments as only solutions, if you want to say something other than a solution put it in a new post. (replies to comments can be whatever)
  • You can send code in code blocks by using three backticks, the code, and then three backticks or use something such as https://topaz.github.io/paste/ if you prefer sending it through a URL

FAQ

  • hades@lemm.ee
    link
    fedilink
    arrow-up
    3
    ·
    17 days ago

    C#

    public class Day12 : Solver
    {
      private string[] data;
      private int width, height;
      private Dictionary<int, long> perimeters = [];
      private Dictionary<int, long> areas = [];
      private Dictionary<int, long> sides = [];
      private int region_count;
    
      public void Presolve(string input) {
        data = input.Trim().Split("\n").ToArray();
        height = data.Length;
        width = data[0].Length;
        var graph_cc = MakeGraph(false);
        var cc = new ConnectedComponentsAlgorithm<Point, PointEdge>(graph_cc);
        cc.Compute();
        var graph_all = MakeGraph(true);
        Dictionary<(int Component, int Y), List<int>> x_sides = [];
        Dictionary<(int Component, int X), List<int>> y_sides = [];
        var search = new UndirectedBreadthFirstSearchAlgorithm<Point, PointEdge>(graph_all);
        search.SetRootVertex((0, 0));
        search.FinishVertex += vertex => {
          if (IsWithinBounds(vertex.Item1, vertex.Item2)) {
            int component = cc.Components[vertex];
            areas.TryAdd(component, 0L);
            areas[component] += 1;
          }
        };
        search.ExamineEdge += edge => {
          var (si, ti) = (IsWithinBounds(edge.Source), IsWithinBounds(edge.Target));
          bool border = si != ti || cc.Components[edge.Source] != cc.Components[edge.Target];
          if (si && border) {
            int component = cc.Components[edge.Source];
            perimeters.TryAdd(component, 0L);
            perimeters[component] += 1;
            if (edge.Source.Item1 == edge.Target.Item1) {
              int y = Math.Min(edge.Source.Item2, edge.Target.Item2);
              x_sides.TryAdd((component, y), []);
              x_sides[(component, y)].Add(edge.Source.Item2 > edge.Target.Item2 ? edge.Source.Item1 : -edge.Source.Item1 - 5);
            } else {
              int x = Math.Min(edge.Source.Item1, edge.Target.Item1);
              y_sides.TryAdd((component, x), []);
              y_sides[(component, x)].Add(edge.Source.Item1 > edge.Target.Item1 ? edge.Source.Item2 : -edge.Source.Item2 - 5);
            }
          }
        };
        search.Compute();
        region_count = cc.ComponentCount;
        foreach (var side_projection in x_sides) {
          side_projection.Value.Sort();
          sides.TryAdd(side_projection.Key.Component, 0);
          int last_x = int.MinValue;
          foreach (var x in side_projection.Value) {
            if (x != (last_x + 1)) sides[side_projection.Key.Component] += 1;
            last_x = x;
          }
        }
        foreach (var side_projection in y_sides) {
          side_projection.Value.Sort();
          sides.TryAdd(side_projection.Key.Component, 0);
          int last_y = int.MinValue;
          foreach (var y in side_projection.Value) {
            if (y != (last_y + 1)) sides[side_projection.Key.Component] += 1;
            last_y = y;
          }
        }
        foreach (var component in Enumerable.Range(0, region_count)) {
          if (!areas.ContainsKey(component)) continue;
        }
      }
    
      public string SolveFirst() =>
        Enumerable.Range(0, region_count)
          .Where(component => areas.ContainsKey(component))
          .Select(component => areas[component] * perimeters[component]).Sum().ToString();
    
      public string SolveSecond() =>
        Enumerable.Range(0, region_count)
          .Where(component => areas.ContainsKey(component))
          .Select(component => areas[component] * sides[component]).Sum().ToString();
    
      private record struct PointEdge(Point Source, Point Target): IEdge<Point>;
    
      private IUndirectedGraph<Point, PointEdge> MakeGraph(bool with_edges_between_plots)=>
        new DelegateUndirectedGraph<Point, PointEdge>(GetVertices(), with_edges_between_plots? GetAllEdges : GetEdgesWithoutBorders, false);
    
      private bool IsWithinBounds(int x, int y) => x >= 0 && x < width && y >= 0 && y < height;
      private bool IsWithinBounds(Point p) => IsWithinBounds(p.Item1, p.Item2);
    
      private readonly (int, int)[] directions = [(-1, 0), (0, -1), (1, 0), (0, 1)];
    
      private bool GetEdgesWithoutBorders(Point arg, out IEnumerable<PointEdge> result) {
        List<PointEdge> result_list = [];
        var (x, y) = arg;
        bool inside = IsWithinBounds(x, y);
        foreach (var (dx, dy) in directions) {
          var (ox, oy) = (x + dx, y + dy);
          if (!inside || !IsWithinBounds(ox, oy)) continue;
          if (data[y][x] == data[oy][ox]) result_list.Add(new(arg, (ox, oy)));
        }
        result = result_list;
        return true;
      }
    
      private bool GetAllEdges(Point arg, out IEnumerable<PointEdge> result) {
        List<PointEdge> result_list = [];
        var (x, y) = arg;
        foreach (var (dx, dy) in directions) {
          var (ox, oy) = (x + dx, y + dy);
          if (ox >= -1 && ox <= width && oy >= -1 && oy <= height) result_list.Add(new(arg, (ox, oy)));
        }
        result = result_list;
        return true;
      }
    
      private IEnumerable<(int, int)> GetVertices() => Enumerable.Range(-1, width + 2).SelectMany(x => Enumerable.Range(-1, height + 2).Select(y => (x, y)));
    }