private void EvaluateOpenSteps(MazeStep mazeStep, Queue <MazeStep> queue, List <Coordinate> allPreviousCoordinates)
{
if (HaveNotAlreadyBeenToCoordinate(mazeStep.Coord, allPreviousCoordinates) == true)
{
allPreviousCoordinates.Add(mazeStep.Coord);
Coordinate north = new Coordinate(mazeStep.Coord.X, mazeStep.Coord.Y - 1);
if (IsOpenSpace(north) == true && HaveNotAlreadyBeenToCoordinate(north, allPreviousCoordinates) == true)
{
MazeStep northStep = new MazeStep(north, mazeStep.Step + 1, null);
queue.Enqueue(northStep);
}
Coordinate east = new Coordinate(mazeStep.Coord.X + 1, mazeStep.Coord.Y);
if (IsOpenSpace(east) == true && HaveNotAlreadyBeenToCoordinate(east, allPreviousCoordinates) == true)
{
MazeStep eastStep = new MazeStep(east, mazeStep.Step + 1, null);
queue.Enqueue(eastStep);
}
Coordinate south = new Coordinate(mazeStep.Coord.X, mazeStep.Coord.Y + 1);
if (IsOpenSpace(south) == true && HaveNotAlreadyBeenToCoordinate(south, allPreviousCoordinates) == true)
{
MazeStep southStep = new MazeStep(south, mazeStep.Step + 1, null);
queue.Enqueue(southStep);
}
Coordinate west = new Coordinate(mazeStep.Coord.X - 1, mazeStep.Coord.Y);
if (IsOpenSpace(west) == true && HaveNotAlreadyBeenToCoordinate(west, allPreviousCoordinates) == true)
{
MazeStep westStep = new MazeStep(west, mazeStep.Step + 1, null);
queue.Enqueue(westStep);
}
}
}
public int NumberOfStepsToTarget(Coordinate startCoord, Coordinate targetCoord)
{
Queue <MazeStep> queue = new Queue <MazeStep>();
MazeStep start = new MazeStep(startCoord, 0, null);
List <Coordinate> allPreviousCoordinates = new List <Coordinate>();
queue.Enqueue(start);
// Keep iterating over queue until we get a result
do
{
MazeStep currentState = queue.Dequeue();
// If hits are target - return
if (currentState.ReachedDesintation(targetCoord))
{
return(currentState.Step);
}
// Figure out other valid paths and add them to queue while iterating step
EvaluateOpenSteps(currentState, queue, allPreviousCoordinates);
Debug.WriteLine($"prevCoord: {allPreviousCoordinates.Count} queue: {queue.Count}.");
} while (queue.Any());
return(0);
}
public int MaximumLocationsInNumberOfSteps(Coordinate startCoord, int favNumber, int maxSteps)
{
MazeStep start = new MazeStep(startCoord, 0, new List <Coordinate>());
_queue.Add(start);
List <Coordinate> allPlacesVisited = new List <Coordinate>();
// Keep iterating over queue until we get through all posibilities
do
{
MazeStep mazeStep = _queue[0];
_queue.RemoveAt(0);
// Capture places visited
allPlacesVisited.Add(mazeStep.Coord);
// If exceed maxSteps do not go further
if (mazeStep.Step < maxSteps)
{
// Figure out other valid paths and add them to queue while iterating step
EvaluateOpenSteps(mazeStep, favNumber);
}
} while (_queue.Any());
// Trim down the locations for uniqueness
var uniqueList = new HashSet <Coordinate>(allPlacesVisited, new CoordinateEqualityComparer());
return(uniqueList.Count);
}
private void EvaluateOpenSteps(MazeStep mazeStep, int favNumber)
{
Coordinate north = new Coordinate(mazeStep.Coord.X, mazeStep.Coord.Y - 1);
if (IsOpenSpace(north, favNumber) && mazeStep.HaveAlreadyBeenToCoordinate(north) == false)
{
List <Coordinate> previous = mazeStep.ClonePreviousCoords();
previous.Add(mazeStep.Coord);
MazeStep northStep = new MazeStep(north, mazeStep.Step + 1, previous);
_queue.Add(northStep);
}
Coordinate east = new Coordinate(mazeStep.Coord.X + 1, mazeStep.Coord.Y);
if (IsOpenSpace(east, favNumber) && mazeStep.HaveAlreadyBeenToCoordinate(east) == false)
{
List <Coordinate> previous = mazeStep.ClonePreviousCoords();
previous.Add(mazeStep.Coord);
MazeStep eastStep = new MazeStep(east, mazeStep.Step + 1, previous);
_queue.Add(eastStep);
}
Coordinate south = new Coordinate(mazeStep.Coord.X, mazeStep.Coord.Y + 1);
if (IsOpenSpace(south, favNumber) && mazeStep.HaveAlreadyBeenToCoordinate(south) == false)
{
List <Coordinate> previous = mazeStep.ClonePreviousCoords();
previous.Add(mazeStep.Coord);
MazeStep southStep = new MazeStep(south, mazeStep.Step + 1, previous);
_queue.Add(southStep);
}
Coordinate west = new Coordinate(mazeStep.Coord.X - 1, mazeStep.Coord.Y);
if (IsOpenSpace(west, favNumber) && mazeStep.HaveAlreadyBeenToCoordinate(west) == false)
{
List <Coordinate> previous = mazeStep.ClonePreviousCoords();
previous.Add(mazeStep.Coord);
MazeStep westStep = new MazeStep(west, mazeStep.Step + 1, previous);
_queue.Add(westStep);
}
}
public int MinimumNumberOfStepsToCoordinates(Coordinate startCoord, int favNumber, Coordinate targetCoord)
{
MazeStep start = new MazeStep(startCoord, 0, new List <Coordinate>());
_queue.Add(start);
// Keep iterating over queue until we get a result
do
{
MazeStep mazeStep = _queue[0];
_queue.RemoveAt(0);
// If hits are target - return
if (mazeStep.ReachedDesintation(targetCoord))
{
return(mazeStep.Step);
}
// Figure out other valid paths and add them to queue while iterating step
EvaluateOpenSteps(mazeStep, favNumber);
} while (_queue.Any());
return(0);
}
