#region Copyright & License Information /* * Copyright 2007-2011 The OpenRA Developers (see AUTHORS) * This file is part of OpenRA, which is free software. It is made * available to you under the terms of the GNU General Public License * as published by the Free Software Foundation. For more information, * see COPYING. */ #endregion using System; using System.Collections.Generic; using System.Diagnostics; using System.Linq; using OpenRA.FileFormats; using OpenRA.Support; using OpenRA.Traits; namespace OpenRA.Mods.RA.Move { public class PathFinderInfo : ITraitInfo { public object Create(ActorInitializer init) { return new PathFinder(init.world); } } public class PathFinder { readonly World world; public PathFinder(World world) { this.world = world; } class CachedPath { public CPos from; public CPos to; public List result; public int tick; public Actor actor; } List CachedPaths = new List(); const int MaxPathAge = 50; /* x 40ms ticks */ public List FindUnitPath(CPos from, CPos target, Actor self) { using (new PerfSample("Pathfinder")) { var cached = CachedPaths.FirstOrDefault(p => p.from == from && p.to == target && p.actor == self); if (cached != null) { Log.Write("debug", "Actor {0} asked for a path from {1} tick(s) ago", self.ActorID, world.FrameNumber - cached.tick); if (world.FrameNumber - cached.tick > MaxPathAge) CachedPaths.Remove(cached); return new List(cached.result); } var mi = self.Info.Traits.Get(); var pb = FindBidiPath( PathSearch.FromPoint(world, mi, self, target, from, true), PathSearch.FromPoint(world, mi, self, from, target, true).InReverse() ); CheckSanePath2(pb, from, target); CachedPaths.RemoveAll(p => world.FrameNumber - p.tick > MaxPathAge); CachedPaths.Add(new CachedPath { from = from, to = target, actor = self, result = pb, tick = world.FrameNumber }); return new List(pb); } } public List FindUnitPathToRange(CPos src, CPos target, int range, Actor self) { using (new PerfSample("Pathfinder")) { var mi = self.Info.Traits.Get(); var tilesInRange = world.FindTilesInCircle(target, range) .Where(t => mi.CanEnterCell(self.World, self, t, null, true, true)); var path = FindBidiPath( PathSearch.FromPoints(world, mi, self, tilesInRange, src, true), PathSearch.FromPoint(world, mi, self, src, target, true).InReverse() ); return path; } } public List FindPath(PathSearch search) { using (new PerfSample("Pathfinder")) { using (search) { List path = null; while (!search.queue.Empty) { var p = search.Expand(world); if (search.heuristic(p) == 0) { path = MakePath(search.cellInfo, p); break; } } var dbg = world.WorldActor.TraitOrDefault(); if (dbg != null) { dbg.AddLayer(search.considered.Select(p => new Pair(p, search.cellInfo[p.X, p.Y].MinCost)), search.maxCost, search.owner); } if (path != null) return path; } // no path exists return new List(0); } } static List MakePath(CellInfo[,] cellInfo, CPos destination) { var ret = new List(); CPos pathNode = destination; while (cellInfo[pathNode.X, pathNode.Y].Path != pathNode) { ret.Add(pathNode); pathNode = cellInfo[pathNode.X, pathNode.Y].Path; } ret.Add(pathNode); CheckSanePath(ret); return ret; } public List FindBidiPath( /* searches from both ends toward each other */ PathSearch fromSrc, PathSearch fromDest) { using (new PerfSample("Pathfinder")) { using (fromSrc) using (fromDest) { List path = null; while (!fromSrc.queue.Empty && !fromDest.queue.Empty) { /* make some progress on the first search */ var p = fromSrc.Expand(world); if (fromDest.cellInfo[p.X, p.Y].Seen && fromDest.cellInfo[p.X, p.Y].MinCost < float.PositiveInfinity) { path = MakeBidiPath(fromSrc, fromDest, p); break; } /* make some progress on the second search */ var q = fromDest.Expand(world); if (fromSrc.cellInfo[q.X, q.Y].Seen && fromSrc.cellInfo[q.X, q.Y].MinCost < float.PositiveInfinity) { path = MakeBidiPath(fromSrc, fromDest, q); break; } } var dbg = world.WorldActor.TraitOrDefault(); if (dbg != null) { dbg.AddLayer(fromSrc.considered.Select(p => new Pair(p, fromSrc.cellInfo[p.X, p.Y].MinCost)), fromSrc.maxCost, fromSrc.owner); dbg.AddLayer(fromDest.considered.Select(p => new Pair(p, fromDest.cellInfo[p.X, p.Y].MinCost)), fromDest.maxCost, fromDest.owner); } if (path != null) return path; } return new List(0); } } static List MakeBidiPath(PathSearch a, PathSearch b, CPos p) { var ca = a.cellInfo; var cb = b.cellInfo; var ret = new List(); var q = p; while (ca[q.X, q.Y].Path != q) { ret.Add(q); q = ca[q.X, q.Y].Path; } ret.Add(q); ret.Reverse(); q = p; while (cb[q.X, q.Y].Path != q) { q = cb[q.X, q.Y].Path; ret.Add(q); } CheckSanePath(ret); return ret; } [Conditional("SANITY_CHECKS")] static void CheckSanePath(List path) { if (path.Count == 0) return; var prev = path[0]; for (int i = 0; i < path.Count; i++) { var d = path[i] - prev; if (Math.Abs(d.X) > 1 || Math.Abs(d.Y) > 1) throw new InvalidOperationException("(PathFinder) path sanity check failed"); prev = path[i]; } } [Conditional("SANITY_CHECKS")] static void CheckSanePath2(List path, CPos src, CPos dest) { if (path.Count == 0) return; if (path[0] != dest) throw new InvalidOperationException("(PathFinder) sanity check failed: doesn't go to dest"); if (path[path.Count - 1] != src) throw new InvalidOperationException("(PathFinder) sanity check failed: doesn't come from src"); } } public struct CellInfo { public int MinCost; public CPos Path; public bool Seen; public CellInfo(int minCost, CPos path, bool seen) { MinCost = minCost; Path = path; Seen = seen; } } public struct PathDistance : IComparable { public int EstTotal; public CPos Location; public PathDistance(int estTotal, CPos location) { EstTotal = estTotal; Location = location; } public int CompareTo(PathDistance other) { return Math.Sign(EstTotal - other.EstTotal); } } }