Exemplo n.º 1
0
 protected override void Start()
 {
     base.Start();
     // Partition Size is 1 tile larger than room size for padding
     _rootNode         = GenerateNode(MapSize + 2 * Padding, IntVector2.Zero - Padding);
     _minPartitionSize = MinRoomSize + 2 * Padding;
     StartCoroutine(SplitPartition(_rootNode));
 }
Exemplo n.º 2
0
        // March until connected to room or corridor
        public IEnumerator ConnectRooms(BSPTreeNode node)
        {
            // Connect only if there are children
            if (node.LNode != null && node.RNode != null)
            {
                // Connect children first
                yield return(ConnectRooms(node.LNode));

                yield return(ConnectRooms(node.RNode));

                //
                var LCenter = node.LNode.Coordinates + node.LNode.PartitionSize / 2;
                var RCenter = node.RNode.Coordinates + node.RNode.PartitionSize / 2;

                GenerateCorridor(LCenter, RCenter, node.Coordinates);
            }

            yield return(null);
        }
Exemplo n.º 3
0
        // Put root node to split
        // Split them recursively or Generate Room
        public IEnumerator SplitPartition(BSPTreeNode node)
        {
            // The partition cannot be split.
            if (node.PartitionSize < _minPartitionSize * 2)
            {
                // Generate Random Room here.
                var roomSize = node.PartitionSize - 2 * Padding;
                roomSize.x = Random.Range(MinRoomSize.x, roomSize.x);
                roomSize.z = Random.Range(MinRoomSize.z, roomSize.z);

                var minRoomCoordinates = node.Coordinates + Padding;
                var maxRoomCoordinates = node.Coordinates + node.PartitionSize - roomSize - Padding;
                var roomCoordinates    = new IntVector2(
                    Random.Range(minRoomCoordinates.x, maxRoomCoordinates.x),
                    Random.Range(minRoomCoordinates.z, maxRoomCoordinates.z)
                    );

                node.Room = GenerateRoom(roomSize, roomCoordinates);

                // For Debug
                var leftBot  = node.Coordinates.GetVector3();
                var rightTop = (node.Coordinates + node.PartitionSize).GetVector3();
                var leftTop  = new Vector3(leftBot.x, 0, rightTop.z);
                var rightBot = new Vector3(rightTop.x, 0, leftBot.z);
                Debug.DrawLine(leftBot, leftTop, Color.red, 3);
                Debug.DrawLine(leftTop, rightTop, Color.red, 3);
                Debug.DrawLine(rightTop, rightBot, Color.red, 3);
                Debug.DrawLine(rightBot, leftBot, Color.red, 3);

                yield return(null);
            }
            else if (node.PartitionSize.x > node.PartitionSize.z || node.PartitionSize.z < _minPartitionSize.z * 2)
            {
                // Can be split
                // Split X
                var gap = node.PartitionSize.x - _minPartitionSize.x * 2;
                Assert.IsFalse(gap < 0, "Gap must be positive");
                var rInt = Random.Range(0, gap);

                // LNode
                var LNodeSize        = new IntVector2(_minPartitionSize.x + rInt, node.PartitionSize.z);
                var LNodeCoordinates = node.Coordinates;
                node.LNode = GenerateNode(LNodeSize, LNodeCoordinates);
                Assert.IsNotNull(node.LNode, "LNode is not generated");

                // RNode
                var RNodeSize        = new IntVector2(_minPartitionSize.x + gap - rInt, node.PartitionSize.z);
                var RNodeCoordinates = new IntVector2(node.Coordinates.x + LNodeSize.x, node.Coordinates.z);
                node.RNode = GenerateNode(RNodeSize, RNodeCoordinates);

                Assert.IsNotNull(node.RNode, "RNode is not generated");

                // Split child nodes
                yield return(SplitPartition(node.LNode));

                yield return(SplitPartition(node.RNode));

                yield return(ConnectRooms(node));
            }
            else
            {
                // Split Z
                var gap = node.PartitionSize.z - _minPartitionSize.z * 2;

                Assert.IsFalse(gap < 0, "Gap must be positive");
                var rInt = Random.Range(0, gap);

                // LNode
                var LNodeSize        = new IntVector2(node.PartitionSize.x, _minPartitionSize.z + rInt);
                var LNodeCoordinates = node.Coordinates;
                node.LNode = GenerateNode(LNodeSize, LNodeCoordinates);
                Assert.IsNotNull(node.LNode, "LNode is not generated");

                // RNode
                var RNodeSize        = new IntVector2(node.PartitionSize.x, _minPartitionSize.z + gap - rInt);
                var RNodeCoordinates = new IntVector2(node.Coordinates.x, node.Coordinates.z + LNodeSize.z);
                node.RNode = GenerateNode(RNodeSize, RNodeCoordinates);
                Assert.IsNotNull(node.RNode, "RNode is not generated");

                // Split child nodes
                yield return(SplitPartition(node.LNode));

                yield return(SplitPartition(node.RNode));

                yield return(ConnectRooms(node));
            }
        }