ai-project-idastar/IDAstar.cs

using System.Runtime.Versioning;

using System.Collections.ObjectModel;
using System.Collections;

[assembly: RequiresPreviewFeatures()]

namespace IdaStar
{

	public enum CellState {
        EMPTY,
        OBSTACLE,
        START,
        DESTINATION,
        PATH,
    }

    public static class CellStateUtil {
        public static CellState FromInput(this char c) => c switch
        {
            '#' => CellState.OBSTACLE,
            ' ' => CellState.EMPTY,
            'S' => CellState.START,
            'F' => CellState.DESTINATION,
            'P' => CellState.PATH,
            _ => throw new NotImplementedException(),
        };

		public static char ToInput(this CellState state) => state switch
		{
			CellState.EMPTY => ' ',
			CellState.OBSTACLE => '#',
			CellState.START => 'S',
			CellState.DESTINATION => 'F',
            CellState.PATH => 'P',
			_ => throw new NotImplementedException(),
		};

		public static List<List<CellState>> FromInput(this List<List<char>> board) {
			return board.Select((row) => row.Select((c) => FromInput(c)).ToList()).ToList();
		}

        public static List<List<char>> ToInput(this List<List<CellState>> board) {
			return board.Select((row) => row.Select((state) => ToInput(state)).ToList()).ToList();
		}
    }

	public record struct Point(int Row, int Column) {
        public int ManhattanDistance(Point otherPoint) {
			return Math.Abs(Row - otherPoint.Row) + Math.Abs(Column - otherPoint.Column);
		}

        [Flags]
        public enum NDirections : byte {
            N  = 0b0000_0001,
            E  = 0b0000_0010,
            S  = 0b0000_0100,
            W  = 0b0000_1000,
            NE = 0b0001_0000,
            SE = 0b0010_0000,
            SW = 0b0100_0000,
            NW = 0b1000_0000,
        }

        public List<Point> GetNeighbours(byte directions = 0b1111) {
			List<Point> result = new();

            if ((directions & ((byte)NDirections.N)) > 0) {
				result.Add(new(Row - 1, Column));
			}
            if ((directions & ((byte)NDirections.E)) > 0) {
				result.Add(new(Row, Column + 1));
			}
            if ((directions & ((byte)NDirections.S)) > 0) {
				result.Add(new(Row + 1, Column));
			}
            if ((directions & ((byte)NDirections.W)) > 0) {
				result.Add(new(Row, Column - 1));
			}
            if ((directions & ((byte)NDirections.NE)) > 0) {
				result.Add(new(Row - 1, Column + 1));
			}
            if ((directions & ((byte)NDirections.SE)) > 0) {
				result.Add(new(Row + 1, Column + 1));
			}
            if ((directions & ((byte)NDirections.SW)) > 0) {
				result.Add(new(Row + 1, Column - 1));
			}
            if ((directions & ((byte)NDirections.NW)) > 0) {
				result.Add(new(Row - 1, Column - 1));
			}

			return result;
		}

		public bool IsInsideBox(int Height, int Width) => IsInsideBox(new(Height - 1, Width - 1));
		public bool IsInsideBox(Point bottomRight) => IsInsideBox(new(0, 0), bottomRight);
		public bool IsInsideBox(Point topLeft, Point bottomRight) {
			return topLeft.Row <= Row && topLeft.Column <= Column &&
				Row <= bottomRight.Row && Column <= bottomRight.Column;
		}
    }

	public class WorkingBoard {
		readonly List<List<CellState>> _board;

        public WorkingBoard(List<List<CellState>> board) {
			this._board = board;
		}

        public WorkingBoard(List<List<char>> board) {
			this._board = board.FromInput();
		}

        public string Display() {
			return string.Join(
                Environment.NewLine, 
                _board.ToInput().Select((row) => string.Join("", row))
            );
		}

        public ReadOnlyCollection<ReadOnlyCollection<CellState>> Board {
			get => _board.Select((row) => row.AsReadOnly()).ToList().AsReadOnly();
		}

		public event Action<WorkingBoard, int>? AlgorithmStep;

        /// <summary>
		/// Clean board, making it ready for a new run.
        /// 
		/// This is achieved by setting all PATH states to EMPTY states.
		/// </summary>
        public void Reset() {
            foreach (var row in _board) {
				for (var i = 0; i < row.Count; i++) {
                    if (row[i] == CellState.PATH) {
						row[i] = CellState.EMPTY;
					}
				}
			}
        }

		public void RunIdaStar() => RunIdaStar((p1, p2) => p1.ManhattanDistance(p2));
		public void RunIdaStar(Func<Point, Point, int> heuristic) {
			// Don't run algorithm on a "dirty" board
			// "dirty" = the algorithm was already ran before
			if (_board.Select((row) => row.Where((state) => state == CellState.PATH).Count()).Any((cnt) => cnt > 0)) {
				throw new DirtyBoardException();
			}

            Point findPoint(CellState neededState) {
                for (var i = 0; i < _board.Count; i++) {
                    for (var j = 0; j < _board[i].Count; j++) {
                        if (_board[i][j] == neededState) {
                            return new(i, j);
                        }
                    }
                }
                throw new NoPoint(neededState);
            }

			Point startPoint = findPoint(CellState.START);

			Point destinationPoint = findPoint(CellState.DESTINATION);

            int search(Point current, int cost, int threshold) {
				var h = heuristic(current, destinationPoint);
                if (h == 0) {
					return h;
				}
				var f = cost + h;
                if (f > threshold) {
					return f;
				}
				var min = f;

                foreach(var neighbour in current.GetNeighbours()) {
					if (!neighbour.IsInsideBox(_board.Count, _board[0].Count)) {
						continue;
					}
                    if (_board[neighbour.Row][neighbour.Column] == CellState.OBSTACLE ||
						_board[neighbour.Row][neighbour.Column] == CellState.PATH) {
						continue;
					}

                    if (_board[neighbour.Row][neighbour.Column] == CellState.EMPTY) {
						_board[neighbour.Row][neighbour.Column] = CellState.PATH;
					}
					AlgorithmStep?.Invoke(this, threshold);
					var neighbourF = search(neighbour, cost + 1, threshold);

                    if (neighbourF < min) {
						min = neighbourF;
					}
                    if (min == 0) {
						break;
					}

					if (_board[neighbour.Row][neighbour.Column] == CellState.PATH) {
						_board[neighbour.Row][neighbour.Column] = CellState.EMPTY;
					}
					AlgorithmStep?.Invoke(this, threshold);

				}

				return min;
			}

			var threshold = heuristic(startPoint, destinationPoint);
            while (threshold != 0) {
				var newThreshold = search(startPoint, 0, threshold);
				AlgorithmStep?.Invoke(this, threshold);
				if (newThreshold == 0) {
					threshold = 0;
				}
                else {
					threshold++;
				}
			}
		}
    }

    [System.Serializable]
    public class DirtyBoardException : System.Exception
    {
        public DirtyBoardException() : base("The board is dirty (contains path cells)") { }
        public DirtyBoardException(System.Exception inner) : base("The board is dirty (contains path cells)", inner) { }
        protected DirtyBoardException(
            System.Runtime.Serialization.SerializationInfo info,
            System.Runtime.Serialization.StreamingContext context) : base(info, context) { }
    }

    [System.Serializable]
    public class NoPoint : System.Exception
    {
        public NoPoint(CellState neededState) : base($"The board doesn't contain any {neededState} point") { }
        public NoPoint(CellState neededState, System.Exception inner) : base($"The board doesn't contain any {neededState} point", inner) { }
        protected NoPoint(
            System.Runtime.Serialization.SerializationInfo info,
            System.Runtime.Serialization.StreamingContext context) : base(info, context) { }
    }
}

/*
    IDA*( state s, int g, threshold t ) {
        h = Eval( s );
        if( h == 0 ) return( true );

        f = g + h;
        if( f > threshold ) return( false );

        for( i = 1; i <= numchildren; i++ ) {
            done = IDA*( s.child[ i ], g + cost( child[ i ] ), t );
            if( done == true ) return( true );
        }
        return( false );
    } 
*/
Implement the rest of IDA* 3 years ago			`using System.Runtime.Versioning;`

Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago			`using System.Collections.ObjectModel;`
Implement the rest of IDA* 3 years ago			`using System.Collections;`

			`[assembly: RequiresPreviewFeatures()]`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`namespace IdaStar`
			`{`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`public enum CellState {`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago			`EMPTY,`
			`OBSTACLE,`
			`START,`
			`DESTINATION,`
			`PATH,`
			`}`

			`public static class CellStateUtil {`
			`public static CellState FromInput(this char c) => c switch`
			`{`
			`'#' => CellState.OBSTACLE,`
			`' ' => CellState.EMPTY,`
			`'S' => CellState.START,`
			`'F' => CellState.DESTINATION,`
			`'P' => CellState.PATH,`
			`_ => throw new NotImplementedException(),`
			`};`

			`public static char ToInput(this CellState state) => state switch`
			`{`
			`CellState.EMPTY => ' ',`
			`CellState.OBSTACLE => '#',`
			`CellState.START => 'S',`
			`CellState.DESTINATION => 'F',`
			`CellState.PATH => 'P',`
			`_ => throw new NotImplementedException(),`
			`};`

			`public static List<List<CellState>> FromInput(this List<List<char>> board) {`
			`return board.Select((row) => row.Select((c) => FromInput(c)).ToList()).ToList();`
			`}`

			`public static List<List<char>> ToInput(this List<List<CellState>> board) {`
			`return board.Select((row) => row.Select((state) => ToInput(state)).ToList()).ToList();`
			`}`
			`}`

Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`public record struct Point(int Row, int Column) {`
			`public int ManhattanDistance(Point otherPoint) {`
			`return Math.Abs(Row - otherPoint.Row) + Math.Abs(Column - otherPoint.Column);`
			`}`
Implement the rest of IDA* 3 years ago
			`[Flags]`
			`public enum NDirections : byte {`
			`N = 0b0000_0001,`
			`E = 0b0000_0010,`
			`S = 0b0000_0100,`
			`W = 0b0000_1000,`
			`NE = 0b0001_0000,`
			`SE = 0b0010_0000,`
			`SW = 0b0100_0000,`
			`NW = 0b1000_0000,`
			`}`

			`public List<Point> GetNeighbours(byte directions = 0b1111) {`
			`List<Point> result = new();`

			`if ((directions & ((byte)NDirections.N)) > 0) {`
			`result.Add(new(Row - 1, Column));`
			`}`
			`if ((directions & ((byte)NDirections.E)) > 0) {`
			`result.Add(new(Row, Column + 1));`
			`}`
			`if ((directions & ((byte)NDirections.S)) > 0) {`
			`result.Add(new(Row + 1, Column));`
			`}`
			`if ((directions & ((byte)NDirections.W)) > 0) {`
			`result.Add(new(Row, Column - 1));`
			`}`
			`if ((directions & ((byte)NDirections.NE)) > 0) {`
			`result.Add(new(Row - 1, Column + 1));`
			`}`
			`if ((directions & ((byte)NDirections.SE)) > 0) {`
			`result.Add(new(Row + 1, Column + 1));`
			`}`
			`if ((directions & ((byte)NDirections.SW)) > 0) {`
			`result.Add(new(Row + 1, Column - 1));`
			`}`
			`if ((directions & ((byte)NDirections.NW)) > 0) {`
			`result.Add(new(Row - 1, Column - 1));`
			`}`

			`return result;`
			`}`

			`public bool IsInsideBox(int Height, int Width) => IsInsideBox(new(Height - 1, Width - 1));`
			`public bool IsInsideBox(Point bottomRight) => IsInsideBox(new(0, 0), bottomRight);`
			`public bool IsInsideBox(Point topLeft, Point bottomRight) {`
			`return topLeft.Row <= Row && topLeft.Column <= Column &&`
			`Row <= bottomRight.Row && Column <= bottomRight.Column;`
			`}`
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`}`

			`public class WorkingBoard {`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago			`readonly List<List<CellState>> _board;`

			`public WorkingBoard(List<List<CellState>> board) {`
			`this._board = board;`
			`}`

			`public WorkingBoard(List<List<char>> board) {`
			`this._board = board.FromInput();`
			`}`

			`public string Display() {`
			`return string.Join(`
			`Environment.NewLine,`
			`_board.ToInput().Select((row) => string.Join("", row))`
			`);`
			`}`

			`public ReadOnlyCollection<ReadOnlyCollection<CellState>> Board {`
			`get => _board.Select((row) => row.AsReadOnly()).ToList().AsReadOnly();`
			`}`

Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`public event Action<WorkingBoard, int>? AlgorithmStep;`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`/// <summary>`
			`/// Clean board, making it ready for a new run.`
			`///`
			`/// This is achieved by setting all PATH states to EMPTY states.`
			`/// </summary>`
			`public void Reset() {`
			`foreach (var row in _board) {`
			`for (var i = 0; i < row.Count; i++) {`
			`if (row[i] == CellState.PATH) {`
			`row[i] = CellState.EMPTY;`
			`}`
			`}`
			`}`
			`}`

Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`public void RunIdaStar() => RunIdaStar((p1, p2) => p1.ManhattanDistance(p2));`
			`public void RunIdaStar(Func<Point, Point, int> heuristic) {`
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`// Don't run algorithm on a "dirty" board`
			`// "dirty" = the algorithm was already ran before`
			`if (_board.Select((row) => row.Where((state) => state == CellState.PATH).Count()).Any((cnt) => cnt > 0)) {`
			`throw new DirtyBoardException();`
			`}`

			`Point findPoint(CellState neededState) {`
			`for (var i = 0; i < _board.Count; i++) {`
			`for (var j = 0; j < _board[i].Count; j++) {`
Fix bug lol 3 years ago			`if (_board[i][j] == neededState) {`
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`return new(i, j);`
			`}`
			`}`
			`}`
			`throw new NoPoint(neededState);`
			`}`

			`Point startPoint = findPoint(CellState.START);`

			`Point destinationPoint = findPoint(CellState.DESTINATION);`

Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`int search(Point current, int cost, int threshold) {`
Implement the rest of IDA* 3 years ago			`var h = heuristic(current, destinationPoint);`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`if (h == 0) {`
Implement the rest of IDA* 3 years ago			`return h;`
			`}`
			`var f = cost + h;`
			`if (f > threshold) {`
			`return f;`
			`}`
			`var min = f;`

			`foreach(var neighbour in current.GetNeighbours()) {`
			`if (!neighbour.IsInsideBox(_board.Count, _board[0].Count)) {`
			`continue;`
			`}`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`if (_board[neighbour.Row][neighbour.Column] == CellState.OBSTACLE \|\|`
			`_board[neighbour.Row][neighbour.Column] == CellState.PATH) {`
Forgot minor things about IDA* Minor things like avoiding obstacles... 3 years ago			`continue;`
			`}`

			`if (_board[neighbour.Row][neighbour.Column] == CellState.EMPTY) {`
			`_board[neighbour.Row][neighbour.Column] = CellState.PATH;`
			`}`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`AlgorithmStep?.Invoke(this, threshold);`
			`var neighbourF = search(neighbour, cost + 1, threshold);`
Forgot minor things about IDA* Minor things like avoiding obstacles... 3 years ago
Implement the rest of IDA* 3 years ago			`if (neighbourF < min) {`
			`min = neighbourF;`
			`}`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`if (min == 0) {`
Implement the rest of IDA* 3 years ago			`break;`
			`}`
Forgot minor things about IDA* Minor things like avoiding obstacles... 3 years ago
			`if (_board[neighbour.Row][neighbour.Column] == CellState.PATH) {`
			`_board[neighbour.Row][neighbour.Column] = CellState.EMPTY;`
			`}`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`AlgorithmStep?.Invoke(this, threshold);`

Implement the rest of IDA* 3 years ago			`}`

			`return min;`
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`}`

			`var threshold = heuristic(startPoint, destinationPoint);`
Fixed threshold computation Also made the implementation less generic and less of a headache; int everything! Show the threshold when printing intermediary steps. 3 years ago			`while (threshold != 0) {`
			`var newThreshold = search(startPoint, 0, threshold);`
			`AlgorithmStep?.Invoke(this, threshold);`
			`if (newThreshold == 0) {`
			`threshold = 0;`
			`}`
			`else {`
			`threshold++;`
			`}`
Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`}`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago			`}`
			`}`

Added IDA* control step Added flow control to find start+destination points, and increase the threshold if a search doesn't reach the destination. Next step: implement search. 3 years ago			`[System.Serializable]`
			`public class DirtyBoardException : System.Exception`
			`{`
			`public DirtyBoardException() : base("The board is dirty (contains path cells)") { }`
			`public DirtyBoardException(System.Exception inner) : base("The board is dirty (contains path cells)", inner) { }`
			`protected DirtyBoardException(`
			`System.Runtime.Serialization.SerializationInfo info,`
			`System.Runtime.Serialization.StreamingContext context) : base(info, context) { }`
			`}`

			`[System.Serializable]`
			`public class NoPoint : System.Exception`
			`{`
			`public NoPoint(CellState neededState) : base($"The board doesn't contain any {neededState} point") { }`
			`public NoPoint(CellState neededState, System.Exception inner) : base($"The board doesn't contain any {neededState} point", inner) { }`
			`protected NoPoint(`
			`System.Runtime.Serialization.SerializationInfo info,`
			`System.Runtime.Serialization.StreamingContext context) : base(info, context) { }`
			`}`
Added initial algorithm skeleton Actually just fluff that surrounds it basically. 3 years ago			`}`

Initial commit 3 years ago			`/*`
			`IDA*( state s, int g, threshold t ) {`
			`h = Eval( s );`
			`if( h == 0 ) return( true );`

			`f = g + h;`
			`if( f > threshold ) return( false );`

			`for( i = 1; i <= numchildren; i++ ) {`
			`done = IDA*( s.child[ i ], g + cost( child[ i ] ), t );`
			`if( done == true ) return( true );`
			`}`
			`return( false );`
			`}`
			`*/`