public AlgorithmRunResults RecursiveBackTracker(IMazeCarver carver) { var pointsAndDirections = new List <DirectionAndPoint>(); var directions = carver.CarvableDirections().ToList(); _arrayHelper.Shuffle(directions); var currentPoint = carver.CurrentPoint; foreach (var direction in directions) { carver.JumpInDirection(direction); var carvedDirections = carver.AlreadyCarvedDirections(); if (!carvedDirections.Any()) { pointsAndDirections.Add(new DirectionAndPoint { Direction = direction, MazePoint = currentPoint }); var oppositeDirection = _directionsFlagParser.OppositeDirection(direction); carver.CarveInDirection(oppositeDirection); RecursiveBackTracker(carver); } carver.JumpToPoint(currentPoint); } return(new AlgorithmRunResults { Carver = carver, DirectionsCarvedIn = pointsAndDirections }); }
public AlgorithmRunResults GenerateMaze(IMazeCarver maze, MazeGenerationSettings settings) { var pointAndDirection = new List <DirectionAndPoint>(); var randomPoint = _randomPointGenerator.RandomPoint(maze.Size); maze.JumpToPoint(randomPoint); var activeCells = new LinkedList <MazePoint>(); activeCells.AddLast(randomPoint); while (activeCells.Any()) { var currentPoint = activeCells.Last.Value; maze.JumpToPoint(currentPoint); var carvableDirections = maze.CarvableDirections().ToList(); _arrayHelper.Shuffle(carvableDirections); var carved = false; foreach (var direction in carvableDirections) { maze.JumpInDirection(direction); var carvedDirections = maze.AlreadyCarvedDirections(); if (!carvedDirections.Any()) { pointAndDirection.Add(new DirectionAndPoint { Direction = direction, MazePoint = currentPoint }); var oppositeDirection = _directionsFlagParser.OppositeDirection(direction); maze.CarveInDirection(oppositeDirection); activeCells.AddLast(maze.CurrentPoint); carved = true; break; } maze.JumpToPoint(currentPoint); } if (!carved) { activeCells.RemoveLast(); } } return(new AlgorithmRunResults { Carver = maze, DirectionsCarvedIn = pointAndDirection }); }
private AlgorithmRunResults GenerateMaze(IMazeCarver maze, List <GrowingTreeStrategy> strategies) { var pointsAndDirections = new List <DirectionAndPoint>(); var randomPoint = _randomPointGenerator.RandomPoint(maze.Size); var activeCells = new List <MazePoint> { randomPoint }; while (activeCells.Any()) { var currentPoint = GetNextPoint(activeCells, strategies); maze.JumpToPoint(currentPoint); var carvableDirections = maze.CarvableDirections().ToList(); _arrayHelper.Shuffle(carvableDirections); var carved = false; foreach (var direction in carvableDirections) { maze.JumpInDirection(direction); var carvedDirections = maze.AlreadyCarvedDirections(); if (!carvedDirections.Any()) { pointsAndDirections.Add(new DirectionAndPoint { Direction = direction, MazePoint = currentPoint }); var oppositeDirection = _directionsFlagParser.OppositeDirection(direction); maze.CarveInDirection(oppositeDirection); activeCells.Add(maze.CurrentPoint); carved = true; break; } maze.JumpToPoint(currentPoint); } if (!carved) { activeCells.Remove(currentPoint); } } return(new AlgorithmRunResults { Carver = maze, DirectionsCarvedIn = pointsAndDirections }); }