int tileSize; /**< Size of single tile */
#endregion Fields
#region Constructors
/// <summary>
/// Constructor
/// </summary>
/// <param name="WS">Reference to World Screen</param>
/// <param name="tileSize">Size of single tile</param>
/// <param name="size">Size of map</param>
public Map(WorldScreen WS, int tileSize, int size)
{
this.tileSize = tileSize;
this.size = size;
this.Entities = new List<Entity>();
PhysicalWorld = new World(new Vector2(0, 0));
Player = new Player(new Rectangle(6 * 64, 6 * 64, 64, 64), this);
AddEntity(Player);
chunk = new Chunk(new Rectangle(0, 0, size * tileSize, size * tileSize), this, tileSize);
Parent = WS;
pfinder = new PathFinderFast(GetChunk().GetCostArray());
for (int i = 0; i < 25; i++)
{
Rectangle r = new Rectangle((int)Helper.GetRandomTo(size * tileSize), (int)Helper.GetRandomTo(size * tileSize), 64, 64);
Rectangle t = new Rectangle(r.X / tileSize, r.Y / tileSize, tileSize, tileSize);
while (chunk.tiles[t.X,t.Y].isSolid)
{
r = new Rectangle((int)Helper.GetRandomTo(size * tileSize), (int)Helper.GetRandomTo(size * tileSize), 64, 64);
t = new Rectangle(r.X / tileSize, r.Y / tileSize, tileSize, tileSize);
}
new ZombieBig(r, this);
}
new Barrel(new Rectangle(Player.Position.X + 64, Player.Position.Y + 64, 32, 32), this);
new FloorFan(new Rectangle(Player.Position.X + 64, Player.Position.Y + 64, 128, 128), this);
//chunk.Save("Content/Chunks/00.xml");
}
/// <summary>
/// Overrided method to Generate empty Map
/// </summary>
/// <param name="Chunk">Chunk to generate in</param>
public override void Generate(Chunk Chunk)
{
for (int y = 0; y < Chunk.position.Height / Chunk.tileSize; y++)
{
for (int x = 0; x < Chunk.position.Width / Chunk.tileSize; x++)
{
Chunk.SetTile(x, y, new Tile(new Rectangle(Chunk.position.X + x * Chunk.tileSize, Chunk.position.Y + y * Chunk.tileSize, Chunk.tileSize, Chunk.tileSize), "dungFloor", 30));
}
}
for (int x = 2; x <= 10; x++)
{
Chunk.SetTile(x, 2, new Tile(new Rectangle(Chunk.position.X + x * Chunk.tileSize, Chunk.position.Y + 2 * Chunk.tileSize, Chunk.tileSize, Chunk.tileSize), "dungWall", 0));
Chunk.SetTile(x, 10, new Tile(new Rectangle(Chunk.position.X + x * Chunk.tileSize, Chunk.position.Y + 10 * Chunk.tileSize, Chunk.tileSize, Chunk.tileSize), "dungWall", 0));
}
for (int y = 2; y <= 10; y++)
{
Chunk.SetTile(2, y, new Tile(new Rectangle(Chunk.position.X + 2 * Chunk.tileSize, Chunk.position.Y + y * Chunk.tileSize, Chunk.tileSize, Chunk.tileSize), "dungWall", 0));
Chunk.SetTile(10, y, new Tile(new Rectangle(Chunk.position.X + 10 * Chunk.tileSize, Chunk.position.Y + y * Chunk.tileSize, Chunk.tileSize, Chunk.tileSize), "dungWall", 0));
}
}
void ConvertDungeon(Chunk C)
{
for (int y = 0; y < ymax; y++)
{
for (int x = 0; x < xmax; x++)
{
switch (GetCellType(x, y))
{
case Tile.Corridor:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungFloor", 30));
break;
case Tile.DirtFloor:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungFloor", 30));
break;
case Tile.DirtWall:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungWall", 0));
break;
case Tile.StoneWall:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungWall", 0));
break;
case Tile.Unused:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungWall", 0));
break;
case Tile.Upstairs:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungFloor", 30));
C.map.Player.Position = new Rectangle(x * C.tileSize, y * C.tileSize,C.tileSize,C.tileSize);
break;
default:
C.SetTile(x, y, new MapManager.Tile(new Rectangle(C.position.X + x * C.tileSize, C.position.Y + y * C.tileSize, C.tileSize, C.tileSize), "dungFloor", 30));
break;
}
}
}
}
public override void Generate(Chunk Chunk)
{
this.Chunk = Chunk;
xmax = (int)Chunk.Size.X;
ymax = (int)Chunk.Size.Y;
LightList = new List<Vector2>();
AlarmLights = new List<KeyValuePair<Vector2, Direction>>();
CreateDungeon((int)Chunk.Size.X, (int)Chunk.Size.Y, 100);
ConvertDungeon(Chunk);
LightingEngine LE = (LightingEngine)Renderer.GetRenderEffect("LightingEngine");
foreach (Vector2 V in LightList)
{
PointLight L = new PointLight()
{
IsEnabled = true,
Color = new Vector4(0.9f, .2f, .2f, 1f),
Power = .85f,
LightDecay = 300,
Position = new Vector3(V.X * Chunk.tileSize, V.Y * Chunk.tileSize, 1),
};
LE.AddLight(L);
}
foreach (KeyValuePair<Vector2, Direction> Alarm in AlarmLights)
{
switch (Alarm.Value)
{
case Direction.North:
for (int i = -2; i <= 2; i++)
{
if (!(GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y) == Tile.DirtFloor || GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y) == Tile.Corridor) ||
(GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y - 1) == Tile.DirtFloor || GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y - 1) == Tile.Corridor))
{
break;
}
}
new RedAlarmLamp(new Rectangle((int)Alarm.Key.X * 64 + 32, (int)Alarm.Key.Y * 64 + 4, 16,8), Chunk.map);
break;
case Direction.South:
for (int i = -2; i <= 2; i++)
{
if (!(GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y + 1) == Tile.DirtFloor || GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y + 1) == Tile.Corridor) ||
(GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y) == Tile.DirtFloor || GetCellType((int)Alarm.Key.X + i, (int)Alarm.Key.Y ) == Tile.Corridor))
{
break;
}
}
RedAlarmLamp tmp = new RedAlarmLamp(new Rectangle((int)Alarm.Key.X * 64 + 32, (int)Alarm.Key.Y * 64 + 60, 16,8), Chunk.map);
tmp.Fixture.Body.Rotation = (float)Math.PI;
break;
case Direction.East:
break;
case Direction.West:
break;
}
}
}
/// <summary> /// Abstract class for Generating /// </summary> /// <param name="Chunk">Chunk to generate in</param> public abstract void Generate(Chunk Chunk);
