public bool HasAdjacentCellInDirection(Vector2I location, Direction direction)
{
// Check that the location falls within the bounds of the map:
if (!Bounds.Contains(location))
{
return false;
}
// Check if there is an adjacent cell in the direction:
if (direction.Equals(Direction.North))
{
return location.Y > 0;
}
else if (direction.Equals(Direction.South))
{
return location.Y < (Rows - 1);
}
else if (direction.Equals(Direction.West))
{
return location.X > 0;
}
else if (direction.Equals(Direction.East))
{
return location.X < (Columns - 1);
}
else
{
return false;
}
}
public void SetLocation(Vector2I location)
{
var bounds = Bounds;
bounds.X = location.X;
bounds.Y = location.Y;
Bounds = bounds;
}
/// <summary>
/// Is this given point in one of the room's corners?
/// </summary>
/// <remarks>
/// A corner cannot be walked to, so it is a bad place to put a door.
/// </remarks>
public bool IsPointInCorner(Vector2I point)
{
return
(point == Bounds.TopLeft) ||
(point == Bounds.TopRight) ||
(point == Bounds.BottomLeft) ||
(point == Bounds.BottomRight);
}
/// <summary>
/// Is this given point on this room's boundary?
/// </summary>
/// <remarks>
/// The room will generate walls on it's boundary,
/// so if this returns true it may be a good place to put a door.
/// </remarks>
public bool IsPointOnBounds(Vector2I point)
{
return
(point.X == Bounds.Left) ||
(point.X == Bounds.Right) ||
(point.Y == Bounds.Top) ||
(point.Y == Bounds.Bottom);
}
public Cell this[Vector2I location]
{
get
{
return this[location.Row, location.Column];
}
set
{
this[location.Row, location.Column] = value;
}
}
private void PlaceDoors(LabyrinthDungeon dungeon)
{
foreach (var room in dungeon.Rooms)
{
var hasNorthDoor = false;
var hasSouthDoor = false;
var hasWestDoor = false;
var hasEastDoor = false;
// TODO: Convert this into 4 loops on the sides of the room.
for (var row = 0; row < room.Rows; row++)
{
for (var column = 0; column < room.Columns; column++)
{
var cellLocation = new Vector2I(column, row);
// Translate the room cell location to its location in the dungeon:
var dungeonLocation = new Vector2I(room.Bounds.X, room.Bounds.Y) + cellLocation;
// Check if we are on the west boundary of our roomand if there is a corridor to the west:
if (!hasWestDoor && (cellLocation.X == 0) &&
dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.West))
{
dungeon.CreateDoor(dungeonLocation, Direction.West);
hasWestDoor = true;
}
// Check if we are on the east boundary of our room and if there is a corridor to the east
if (!hasEastDoor && (cellLocation.X == room.Columns - 1) &&
dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.East))
{
dungeon.CreateDoor(dungeonLocation, Direction.East);
hasEastDoor = true;
}
// Check if we are on the north boundary of our room and if there is a corridor to the north
if (!hasNorthDoor && (cellLocation.Y == 0) &&
dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.North))
{
dungeon.CreateDoor(dungeonLocation, Direction.North);
hasNorthDoor = true;
}
// Check if we are on the south boundary of our room and if there is a corridor to the south
if (!hasSouthDoor && (cellLocation.Y == room.Rows - 1) &&
dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.South))
{
dungeon.CreateDoor(dungeonLocation, Direction.South);
hasSouthDoor = true;
}
}
}
}
}
private int CalculateRoomPlacementScore(Vector2I location, LabyrinthDungeon dungeon, Room room)
{
// Check if the room at the given location will fit inside the bounds of the map.
if (Contains(dungeon.Bounds, location, room))
{
var roomPlacementScore = 0;
// Loop for each cell in the room.
for (var column = 0; column < room.Columns; column++)
{
for (var row = 0; row < room.Rows; row++)
{
// Translate the room cell location to its location in the dungeon.
var dungeonLocation = location + new Vector2I(column, row);
// Add 1 point for each adjacent corridor to the cell.
if (dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.North))
{
roomPlacementScore++;
}
if (dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.South))
{
roomPlacementScore++;
}
if (dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.West))
{
roomPlacementScore++;
}
if (dungeon.AdjacentCellInDirectionIsCorridor(dungeonLocation, Direction.East))
{
roomPlacementScore++;
}
// Add 3 points if the cell overlaps an existing corridor.
if (dungeon[dungeonLocation].IsCorridor)
{
roomPlacementScore += 3;
}
// Add 100 points if the cell overlaps any existing room cells.
foreach (var dungeonRoom in dungeon.Rooms)
{
if (dungeonRoom.Bounds.Contains(dungeonLocation))
{
roomPlacementScore += 100;
}
}
}
}
return roomPlacementScore;
}
else
{
return int.MaxValue;
}
}
private bool Contains(RectI bounds, Vector2I roomLocation, Room room)
{
return
bounds.Contains(roomLocation.X, roomLocation.Y) &&
bounds.Contains(roomLocation.X + room.Columns - 1, roomLocation.Y) &&
bounds.Contains(roomLocation.X + room.Columns - 1, roomLocation.Y + room.Rows - 1) &&
bounds.Contains(roomLocation.X, roomLocation.Y + room.Rows - 1);
}
public static Direction FromVector(Vector2I v)
{
v = v.Normalized;
if (v.Equals(-Vector2I.UnitY))
{
return North;
}
if (v.Equals(Vector2I.UnitY))
{
return South;
}
if (v.Equals(Vector2I.UnitX))
{
return East;
}
if (v.Equals(-Vector2I.UnitX))
{
return West;
}
return North;
}
private Chunk ExcavateRooms(Chunk chunk, LabyrinthDungeon dungeon, IProgress<string> progress)
{
progress.Report("Excavating room...");
progress.Report($"Room count: {dungeon.Rooms.Count}");
// Fill tiles with corridor values for each room in dungeon.
foreach (var room in dungeon.Rooms)
{
// Get the room min and max location in tile coordinates.
var right = room.Bounds.X + room.Bounds.Width - 1;
var bottom = room.Bounds.Y + room.Bounds.Height - 1;
var minPoint = new Vector2I(room.Bounds.X * 2 + 1, room.Bounds.Y * 2 + 1);
var maxPoint = new Vector2I(right * 2, bottom * 2);
// Fill the room in tile space with an empty value.
for (var row = minPoint.Y; row <= maxPoint.Y; row++)
{
for (var column = minPoint.X; column <= maxPoint.X; column++)
{
ExcavateChunkPoint(chunk, new Vector2I(column, row));
}
}
}
progress.Report("Room complete!");
return chunk;
}
private void ExcavateChunkPoint(Chunk chunk, Vector2I chunkPoint)
{
chunk[ChunkLayer.Blocking, chunkPoint.X, chunkPoint.Y] = 0;
}
protected Vector2I GetTargetLocation(Vector2I location, Direction direction)
{
if (!HasAdjacentCellInDirection(location, direction))
{
throw new InvalidOperationException("No adjacent cell exists for the location and direction provided.");
}
if (direction.Equals(Direction.North))
{
return location - Vector2I.UnitY;
}
else if (direction.Equals(Direction.South))
{
return location + Vector2I.UnitY;
}
else if (direction.Equals(Direction.West))
{
return location - Vector2I.UnitX;
}
else if (direction.Equals(Direction.East))
{
return location + Vector2I.UnitX;
}
else
{
throw new InvalidOperationException("No adjacent cell exists for the location and direction provided.");
}
}
public Vector2I CreateWall(Vector2I location, Direction direction)
{
return CreateSide(location, direction, SideType.Wall);
}
public Vector2I CreateCorridor(Vector2I location, Direction direction)
{
return CreateSide(location, direction, SideType.Empty);
}
public Vector2I GetRandomVisitedCell(Vector2I location, Random random)
{
if (!_visitedCells.Any())
{
throw new InvalidOperationException("There are no visited cells to return.");
}
var index = random.Next(_visitedCells.Count);
// Loop while the current cell is the visited cell:
while (_visitedCells[index] == location)
{
index = random.Next(_visitedCells.Count);
}
return _visitedCells[index];
}
private bool LocationIsOutsideBounds(Vector2I location)
{
return ((location.X < 0) || (location.X >= Columns) || (location.Y < 0) || (location.Y >= Rows));
}
public void FlagCellAsVisited(Vector2I location)
{
if (LocationIsOutsideBounds(location))
{
throw new Exception("Location is outside of map bounds.");
}
if (this[location].Visited)
{
throw new Exception("Location is already visited.");
}
else
{
this[location].Visited = true;
_visitedCells.Add(location);
}
}
public bool AdjacentCellInDirectionIsCorridor(Vector2I location, Direction direction)
{
if (!HasAdjacentCellInDirection(location, direction))
{
return false;
}
var target = GetTargetLocation(location, direction);
return this[target].IsCorridor;
}
public bool AdjacentCellInDirectionIsVisited(Vector2I location, Direction direction)
{
if (!HasAdjacentCellInDirection(location, direction))
{
throw new InvalidOperationException("No adjacent cell exists for the location and direction provided.");
}
return this[location + direction.ToVector2I()].Visited;
}
private bool InBounds(Vector2I v)
{
return this.InBounds(v.X, v.Y);
}
public Vector2I CreateDoor(Vector2I location, Direction direction)
{
return CreateSide(location, direction, SideType.Door);
}
private Chunk ExcavateCorridors(Chunk chunk, LabyrinthDungeon dungeon)
{
// Loop for each corridor cell and expand it.
foreach (var cellLocation in dungeon.CorridorCellLocations)
{
var tileLocation = new Vector2I(cellLocation.X * 2 + 1, cellLocation.Y * 2 + 1);
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X, tileLocation.Y));
if (dungeon[cellLocation].NorthSide == SideType.Empty)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X, tileLocation.Y - 1));
}
else if (dungeon[cellLocation].NorthSide == SideType.Door)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X, tileLocation.Y - 1));
chunk[ChunkLayer.Blocking, tileLocation.X, tileLocation.Y - 1] = _doorId;
}
if (dungeon[cellLocation].SouthSide == SideType.Empty)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X, tileLocation.Y + 1));
}
else if (dungeon[cellLocation].SouthSide == SideType.Door)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X, tileLocation.Y + 1));
chunk[ChunkLayer.Blocking, tileLocation.X, tileLocation.Y + 1] = _doorId;
}
if (dungeon[cellLocation].WestSide == SideType.Empty)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X - 1, tileLocation.Y));
}
else if (dungeon[cellLocation].WestSide == SideType.Door)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X - 1, tileLocation.Y));
chunk[ChunkLayer.Blocking, tileLocation.X - 1, tileLocation.Y] = _doorId;
}
if (dungeon[cellLocation].EastSide == SideType.Empty)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X + 1, tileLocation.Y));
}
else if (dungeon[cellLocation].EastSide == SideType.Door)
{
ExcavateChunkPoint(chunk, new Vector2I(tileLocation.X + 1, tileLocation.Y));
chunk[ChunkLayer.Blocking, tileLocation.X + 1, tileLocation.Y] = _doorId;
}
}
return chunk;
}
private IEnumerable<Tuple<Vector2I, Direction, Tile>> GetSurroundings(Vector2I v)
{
return
this.GetSurroundingPoints(v)
.Select(r => Tuple.Create(r.Item1, r.Item2, this.GetCellType(r.Item1.X, r.Item1.Y)));
}
private bool IsDoorAdjacent(Chunk chunk, Vector2I chunkPoint)
{
var north = chunk[ChunkLayer.Blocking, chunkPoint.X, chunkPoint.Y - 1];
var south = chunk[ChunkLayer.Blocking, chunkPoint.X, chunkPoint.Y + 1];
var east = chunk[ChunkLayer.Blocking, chunkPoint.X + 1, chunkPoint.Y];
var west = chunk[ChunkLayer.Blocking, chunkPoint.X - 1, chunkPoint.Y];
return (north == _doorId) || (south == _doorId) || (east == _doorId) || (west == _doorId);
}
private void PlaceRoom(Vector2I location, LabyrinthDungeon dungeon, Room room)
{
// Offset the room origin to the new location.
room.SetLocation(location);
// Loop for each cell in the room
for (var row = 0; row < room.Rows; row++)
{
for (var column = 0; column < room.Columns; column++)
{
// Translate the room cell location to its location in the dungeon.
var dungeonLocation = location + new Vector2I(column, row);
dungeon[dungeonLocation].NorthSide = room[row, column].NorthSide;
dungeon[dungeonLocation].SouthSide = room[row, column].SouthSide;
dungeon[dungeonLocation].WestSide = room[row, column].WestSide;
dungeon[dungeonLocation].EastSide = room[row, column].EastSide;
// TODO: This part may be unnecessary.
// Create room walls on map (either side of the wall)
if ((column == 0) && (dungeon.HasAdjacentCellInDirection(dungeonLocation, Direction.West)))
{
dungeon.CreateWall(dungeonLocation, Direction.West);
}
if ((column == room.Columns - 1) && (dungeon.HasAdjacentCellInDirection(dungeonLocation, Direction.East)))
{
dungeon.CreateWall(dungeonLocation, Direction.East);
}
if ((row == 0) && (dungeon.HasAdjacentCellInDirection(dungeonLocation, Direction.North)))
{
dungeon.CreateWall(dungeonLocation, Direction.North);
}
if ((row == room.Rows - 1) && (dungeon.HasAdjacentCellInDirection(dungeonLocation, Direction.South)))
{
dungeon.CreateWall(dungeonLocation, Direction.South);
}
}
}
dungeon.Rooms.Add(room);
}
private Vector2I CreateSide(Vector2I location, Direction direction, SideType sideType)
{
var target = GetTargetLocation(location, direction);
if (direction.Equals(Direction.North))
{
this[location].NorthSide = sideType;
this[target].SouthSide = sideType;
}
else if (direction.Equals(Direction.South))
{
this[location].SouthSide = sideType;
this[target].NorthSide = sideType;
}
else if (direction.Equals(Direction.West))
{
this[location].WestSide = sideType;
this[target].EastSide = sideType;
}
else if (direction.Equals(Direction.East))
{
this[location].EastSide = sideType;
this[target].WestSide = sideType;
}
return target;
}
private Direction(Vector2I v)
{
_vector = v.Normalized;
}
public Vector2I PickRandomCellAndMarkItVisited(Random random)
{
var pnt = new Vector2I(random.Next(Columns), random.Next(Rows));
FlagCellAsVisited(pnt);
return pnt;
}
private IEnumerable<Tuple<Vector2I, Direction>> GetSurroundingPoints(Vector2I v)
{
var points = new[]
{
Tuple.Create(new Vector2I(v.X, v.Y + 1), Direction.North),
Tuple.Create(new Vector2I(v.X - 1, v.Y), Direction.East),
Tuple.Create(new Vector2I(v.X , v.Y-1), Direction.South),
Tuple.Create(new Vector2I(v.X +1, v.Y), Direction.West),
};
return points.Where(p => InBounds(p.Item1));
}
