public List<Tile> getNeighbors(Tile tile, List<Tile> neighbors)
{
//returns the neighbors of the given tile and adds them to existing list
//at most, will return 4 tiles
int xCoord = tile.getXCoord();
int yCoord = tile.getYCoord();
//MAYBE TODO, getNeighbors and find moves back to working order
//prevent array index out of bounds and check for existence of tile in list
if (xCoord > 0 && !neighbors.Contains(map[xCoord - 1][yCoord]))
{
neighbors.Add(map[xCoord - 1][yCoord]);
}
if (xCoord < width && !neighbors.Contains(map[xCoord + 1][yCoord]))
{
neighbors.Add(map[xCoord + 1][yCoord]);
}
if (yCoord > 0 && !neighbors.Contains(map[xCoord][yCoord - 1]))
{
neighbors.Add(map[xCoord][yCoord - 1]);
}
if (yCoord < width && !neighbors.Contains(map[xCoord][yCoord + 1]))
{
neighbors.Add(map[xCoord][yCoord + 1]);
}
return neighbors;
}
public bool isNeighbor(Tile tile1, Tile tile2)
{
//returns true if the given tiles are neighbors
//two tiles are neighbors if either their xCoords or yCoords are one apart (but not both)
int xCoord1 = tile1.getXCoord();
int yCoord1 = tile1.getYCoord();
int xCoord2 = tile2.getXCoord();
int yCoord2 = tile2.getYCoord();
if (Math.Abs(xCoord1 - xCoord2) == 1 && (yCoord1 - yCoord2 == 0))
{
return true;
}
else if (Math.Abs(yCoord1 - yCoord2) == 1 && (xCoord1 - xCoord2 == 0))
{
return true;
}
else
{
return false;
}
}
