using System; using System.Collections.Generic; using System.Text; using OpenRa.FileFormats; using OpenRa.DataStructures; using System.Windows.Forms; namespace OpenRa.Game { class PathFinder { public static PathFinder Instance; double[ , ] passableCost = new double[ 128, 128 ]; Map map; public PathFinder(Map map, TileSet tileSet) { this.map = map; for( int x = 0 ; x < 128 ; x++ ) for( int y = 0 ; y < 128 ; y++ ) passableCost[ x, y ] = ( map.IsInMap( x, y ) ) ? TerrainCosts.Cost( UnitMovementType.Wheel, tileSet.GetWalkability( map.MapTiles[ x, y ] ) ) : double.PositiveInfinity; } // returns estimate to destination, 0.0 is cell is dest public delegate double DestinationFunc( int2 cell ); public List FindUnitPath( World world, Unit unit, DestinationFunc estimator ) { int2 startLocation = unit.Location + map.Offset; CellInfo[ , ] cellInfo = new CellInfo[ 128, 128 ]; for( int x = 0 ; x < 128 ; x++ ) for( int y = 0 ; y < 128 ; y++ ) cellInfo[ x, y ] = new CellInfo( double.PositiveInfinity, new int2( x, y ), false ); return FindUnitPath( startLocation, estimator, map.Offset, cellInfo ); } List FindUnitPath( int2 startLocation, DestinationFunc estimator, int2 offset, CellInfo[,] cellInfo ) { PriorityQueue queue = new PriorityQueue(); queue.Add( new PathDistance( estimator( startLocation - offset ), startLocation ) ); cellInfo[ startLocation.X, startLocation.Y ].MinCost = 0; int seenCount = 0; int impassableCount = 0; while( !queue.Empty ) { PathDistance p = queue.Pop(); int2 here = p.Location; cellInfo[ here.X, here.Y ].Seen = true; if( estimator( here - offset ) == 0.0 ) { Log.Write( "{0}, {1}", seenCount, impassableCount ); return MakePath( cellInfo, here, offset ); } foreach( int2 d in directions ) { int2 newHere = here + d; if( cellInfo[ newHere.X, newHere.Y ].Seen ) { ++seenCount; continue; } if( passableCost[ newHere.X, newHere.Y ] == double.PositiveInfinity ) { ++impassableCount; continue; } double cellCost = ( ( d.X * d.Y != 0 ) ? 1.414213563 : 1.0 ) * passableCost[ newHere.X, newHere.Y ]; double newCost = cellInfo[ here.X, here.Y ].MinCost + cellCost; if( newCost >= cellInfo[ newHere.X, newHere.Y ].MinCost ) continue; cellInfo[ newHere.X, newHere.Y ].Path = here; cellInfo[ newHere.X, newHere.Y ].MinCost = newCost; queue.Add( new PathDistance( newCost + estimator( newHere - offset ), newHere ) ); } } // no path exists return new List(); } List MakePath( CellInfo[ , ] cellInfo, int2 destination, int2 offset ) { List ret = new List(); int2 pathNode = destination; while( cellInfo[ pathNode.X, pathNode.Y ].Path != pathNode ) { ret.Add( pathNode - offset ); pathNode = cellInfo[ pathNode.X, pathNode.Y ].Path; } Log.Write( "Path Length: {0}", ret.Count ); return ret; } static readonly int2[] directions = new int2[] { new int2( -1, -1 ), new int2( -1, 0 ), new int2( -1, 1 ), new int2( 0, -1 ), new int2( 0, 1 ), new int2( 1, -1 ), new int2( 1, 0 ), new int2( 1, 1 ), }; public static DestinationFunc DefaultEstimator( int2 destination ) { return delegate( int2 here ) { int2 d = ( here - destination ).Abs(); int diag = Math.Min( d.X, d.Y ); int straight = Math.Abs( d.X - d.Y ); return 1.5 * diag + straight; }; } } struct CellInfo { public double MinCost; public int2 Path; public bool Seen; public CellInfo( double minCost, int2 path, bool seen ) { MinCost = minCost; Path = path; Seen = seen; } } struct PathDistance : IComparable { public double EstTotal; public int2 Location; public PathDistance(double estTotal, int2 location) { EstTotal = estTotal; Location = location; } public int CompareTo(PathDistance other) { return Math.Sign(EstTotal - other.EstTotal); } } }