Exemple #1
0
    /** Adds an obstacle with the specified vertices.
     * The vertices array might be changed by this function. */
    private void AddObstacle(Vector3[] vertices, float height, Pathfinding.RVO.Simulator sim, ref List <ObstacleVertex> obstacles)
    {
        if (vertices == null)
        {
            throw new System.ArgumentNullException("Vertices Must Not Be Null");
        }
        if (height < 0)
        {
            throw new System.ArgumentOutOfRangeException("Height must be non-negative");
        }
        if (vertices.Length < 2)
        {
            throw new System.ArgumentException("An obstacle must have at least two vertices");
        }

        if (null == obstacles)
        {
            obstacles = new List <ObstacleVertex>();
        }
        obstacles.Clear();

        if (vertices.Length > 2)
        {
            WindCorrectly(vertices);
        }

        for (int vert = 0; vert < vertices.Length; ++vert)
        {
            Vector3 v1          = vertices[vert];
            Vector3 v2          = vertices[(vert + 1) % vertices.Length];
            Vector3 dir         = v2 - v1;
            Vector3 pushAwayDir = new Vector3(dir.z, 0f, -dir.x);
            obstacles.Add(sim.CreateObstacle(v1, v2, pushAwayDir, height, _isActive));
        }
    }
Exemple #2
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    public override void OnLatePostScan()
    {
        if (!Application.isPlaying)
        {
            return;
        }

        RemoveObstacles();

        NavGraph[] graphs = AstarPath.active.graphs;

        RVOSimulator rvosim = FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;

        if (rvosim == null)
        {
            throw new System.NullReferenceException("No RVOSimulator could be found in the scene. Please add one to any GameObject");
        }

        Pathfinding.RVO.Simulator sim = rvosim.GetSimulator();

        for (int i = 0; i < graphs.Length; i++)
        {
            AddGraphObstacles(sim, graphs[i]);
        }

        sim.UpdateObstacles();
    }
Exemple #3
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        /** Removes obstacles which were added with AddGraphObstacles */
        public void RemoveObstacles()
        {
#if BNICKSON_UPDATED
            if (lastSim != null)
            {
                // if our usage of APP changes, this will throw an error
                throw new System.Exception("This section of A Star Pathfinding code should never be executed");
            }
#else
            if (lastSim == null)
            {
                return;
            }

            Pathfinding.RVO.Simulator sim = lastSim;
            lastSim = null;

            for (int i = 0; i < obstacles.Count; i++)
            {
                sim.RemoveObstacle(obstacles[i]);
            }

            obstacles.Clear();
#endif
        }
Exemple #4
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 private Pathfinding.RVO.Simulator GetSimulator()
 {
     if (null == _sim)
     {
         _sim = AStarPathfindingUtils.GetSimulator();
     }
     return(_sim);
 }
Exemple #5
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 // we want dynamic obstacles, but only if we do not have any static obstacles
 public void CreateDynamicEdgesIfNoStaticEdgesExist(Pathfinding.RVO.Simulator sim)
 {
     if (null != _staticObstacles && _staticObstacles.Count > 0)
     {
         return;
     }
     _staticObstacles = null;
     RemoveDynamicObstaclesAndCreateNew(sim);
 }
Exemple #6
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		/** Removes obstacles which were added with AddGraphObstacles */
		public void RemoveObstacles () {
			if (lastSim == null) return;

			Pathfinding.RVO.Simulator sim = lastSim;
			lastSim = null;

			for (int i = 0; i < obstacles.Count; i++) sim.RemoveObstacle(obstacles[i]);

			obstacles.Clear();
		}
		void Awake () {
			if (desiredSimulatonFPS < 1) desiredSimulatonFPS = 1;
			
			if (simulator == null) {
				int threadCount = AstarPath.CalculateThreadCount (workerThreads);
				simulator = new Pathfinding.RVO.Simulator (threadCount, doubleBuffering);
				simulator.Interpolation = interpolation;
				simulator.DesiredDeltaTime = 1.0f / desiredSimulatonFPS;
			}
		}
Exemple #8
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    // the obstacle has move
    public void Move(Pathfinding.RVO.Simulator sim)
    {
        if (null != _staticObstacles)
        {
            SetObstaclesActive(sim, false);
            _staticObstacles = null;
        }

        RemoveDynamicObstaclesAndCreateNew(sim);
    }
Exemple #9
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 // destroy the static obstacles we already have
 private void RemoveStaticObstacles(Pathfinding.RVO.Simulator sim)
 {
     if (null != _staticObstacles)
     {
         for (int i = 0; i < _staticObstacles.Count; i++)
         {
             sim.RemoveObstacle(_staticObstacles[i]);
         }
         _staticObstacles.Clear();
     }
 }
Exemple #10
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    /** Finds a simulator in the scene.
     *
     * Saves found simulator in #sim.
     *
     * \throws System.InvalidOperationException When no RVOSimulator could be found.
     */
    protected void FindSimulator()
    {
        RVOSimulator rvosim = FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;

        if (rvosim == null)
        {
            throw new System.InvalidOperationException("No RVOSimulator could be found in the scene. Please add one to any GameObject");
        }

        sim = rvosim.GetSimulator();
    }
Exemple #11
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    // Use this for initialization
    void Start()
    {
        //Get the simulator for this scene
        Pathfinding.RVO.Simulator sim = (FindObjectOfType(typeof(Pathfinding.RVO.RVOSimulator)) as Pathfinding.RVO.RVOSimulator).GetSimulator();

        //Define the vertices of our obstacle
        Vector3[] verts = new Vector3[] { new Vector3(1, 0, -1), new Vector3(1, 0, 1), new Vector3(-1, 0, 1), new Vector3(-1, 0, -1) };

        //Add our obstacle to the simulation, we set the height to 2 units
        sim.AddObstacle(verts, 2);
    }
	public void Start () {
		mesh = new Mesh();
		RVOSimulator rvoSim = FindObjectOfType (typeof(RVOSimulator)) as RVOSimulator;
		if (rvoSim == null) {
			Debug.LogError ("No RVOSimulator could be found in the scene. Please add a RVOSimulator component to any GameObject");
			return;
		}
		sim = rvoSim.GetSimulator();
		GetComponent<MeshFilter>().mesh = mesh;
		
		CreateAgents (agentCount);
	}
Exemple #13
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    // remove old abstacles and create new ones
    private void RemoveStaticObstaclesAndCreateNew(Pathfinding.RVO.Simulator sim)
    {
        RemoveStaticObstacles(sim);
        CreateObstacles(sim, ref _staticObstacles);

        if (null != _staticObstacles)
        {
            for (int i = 0; i < _staticObstacles.Count; i++)
            {
                sim.AddObstacle(_staticObstacles[i]);
            }
        }
    }
Exemple #14
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 private void Awake()
 {
     if (this.desiredSimulationFPS < 1)
     {
         this.desiredSimulationFPS = 1;
     }
     if (this.simulator == null)
     {
         int workers = AstarPath.CalculateThreadCount(this.workerThreads);
         this.simulator = new Simulator(workers, this.doubleBuffering);
         this.simulator.Interpolation = this.interpolation;
         this.simulator.DesiredDeltaTime = 1f / (float)this.desiredSimulationFPS;
     }
 }
Exemple #15
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		void Awake () {
			if (desiredSimulatonFPS < 1) desiredSimulatonFPS = 1;
			
			if (simulator == null) {
				int threadCount = AstarPath.CalculateThreadCount (workerThreads);
				simulator = new Pathfinding.RVO.Simulator (threadCount, doubleBuffering);
				simulator.Interpolation = interpolation;
				simulator.DesiredDeltaTime = 1.0f / desiredSimulatonFPS;
			}
			
			Debug.LogWarning ("RVO Local Avoidance is temporarily disabled in the A* Pathfinding Project due to licensing issues.\n" +
			"I am working to get it back as soon as possible. All agents will fall back to not avoiding other agents.\n" +
			"Sorry for the inconvenience.");
		}
Exemple #16
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 // destroy the dynamic obstacles we already have
 public void RemoveDynamicObstacles(Pathfinding.RVO.Simulator sim)
 {
     if (null != _dynamicObstacles)
     {
         if (null != sim)
         {
             for (int i = 0; i < _dynamicObstacles.Count; i++)
             {
                 sim.RemoveDynamicObstacle(_dynamicObstacles[i]);
             }
         }
         _dynamicObstacles.Clear();
     }
 }
    public void Start()
    {
        mesh = new Mesh();
        RVOSimulator rvoSim = FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;

        if (rvoSim == null)
        {
            Debug.LogError("No RVOSimulator could be found in the scene. Please add a RVOSimulator component to any GameObject");
            return;
        }
        sim = rvoSim.GetSimulator();
        GetComponent <MeshFilter>().mesh = mesh;

        CreateAgents(agentCount);
    }
Exemple #18
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    void Awake()
    {
        if (desiredSimulatonFPS < 1)
        {
            desiredSimulatonFPS = 1;
        }

        if (simulator == null)
        {
            int threadCount = AstarPath.CalculateThreadCount(workerThreads);
            simulator = new Pathfinding.RVO.Simulator(threadCount, doubleBuffering);
            simulator.Interpolation    = interpolation;
            simulator.DesiredDeltaTime = 1.0f / desiredSimulatonFPS;
        }
    }
Exemple #19
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    /** Removes obstacles which were added with AddGraphObstacles */
    public void RemoveObstacles()
    {
        if (lastSim == null)
        {
            return;
        }

        Pathfinding.RVO.Simulator sim = lastSim;
        lastSim = null;

        for (int i = 0; i < obstacles.Count; i++)
        {
            sim.RemoveObstacle(obstacles[i]);
        }

        obstacles.Clear();
    }
Exemple #20
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        void Awake()
        {
            if (desiredSimulatonFPS < 1)
            {
                desiredSimulatonFPS = 1;
            }

            if (simulator == null)
            {
                int threadCount = AstarPath.CalculateThreadCount(workerThreads);
                simulator = new Pathfinding.RVO.Simulator(threadCount, doubleBuffering);
                simulator.Interpolation    = interpolation;
                simulator.DesiredDeltaTime = 1.0f / desiredSimulatonFPS;
            }

            /*Debug.LogWarning ("RVO Local Avoidance is temporarily disabled in the A* Pathfinding Project due to licensing issues.\n" +
             * "I am working to get it back as soon as possible. All agents will fall back to not avoiding other agents.\n" +
             * "Sorry for the inconvenience.");*/
        }
Exemple #21
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    // Use this for initialization
    public void Start()
    {
#if RVOImp
        if (!astarRVO)
        {
//#if !AstarRelease
            agentID = RVO.Simulator.Instance.addAgent(new RVO.Vector2(transform.position.x, transform.position.z));
//#endif
        }
        else
        {
            Pathfinding.RVO.Simulator sim = (FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator).GetSimulator();
            rvoAgent                     = sim.AddAgent(transform.position);
            rvoAgent.Radius              = radius;
            rvoAgent.MaxSpeed            = maxSpeed;
            rvoAgent.Height              = height;
            rvoAgent.AgentTimeHorizon    = agentTimeHorizon;
            rvoAgent.ObstacleTimeHorizon = obstacleTimeHorizon;
        }
#endif
        SetTarget(-transform.position);         // + transform.forward * 400);
    }
Exemple #22
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    // create the obstacles we need
    private void CreateObstacles(Pathfinding.RVO.Simulator sim, ref List <ObstacleVertex> obstacles)
    {
        NavmeshCut cut = gameObject.GetComponent <NavmeshCut>();

        if (null == cut)
        {
            return;
        }

        Vector3 leftFront  = new Vector3();
        Vector3 rightFront = new Vector3();
        Vector3 rightBack  = new Vector3();
        Vector3 leftBack   = new Vector3();

        cut.CalculateRectangleContourPoints(ref leftFront, ref rightFront, ref rightBack, ref leftBack);

        Bounds bounds = cut.GetBounds();

        Vector3 cutTopCenter = Vector3.Lerp(leftFront, rightBack, 0.5f);         // calculate the top center of the nav mesh cut

        cutTopCenter.y = bounds.max.y;

        float edgeHeight = bounds.min.y;

        // do a sphere cast downwards to see where the ground is beneath the nav mesh cut in order to put the obstacles on the ground
        RaycastHit  hitInfo;
        const float SphereCastRadius = 0.35f;         // this value ensures the sphere cast is large enough to not go through seems

        if (Physics.SphereCast(cutTopCenter, SphereCastRadius, Vector3.down, out hitInfo, bounds.max.y - bounds.min.y, 1 << LayerMask.NameToLayer("Ground")))
        {
            edgeHeight = hitInfo.point.y;
        }

        leftFront.y = rightFront.y = rightBack.y = leftBack.y = edgeHeight;         // set the obstacle height

        Vector3[] verts = new Vector3[] { rightFront, rightBack, leftBack, leftFront };
        AddObstacle(verts, Mathf.Max(0f, bounds.max.y - edgeHeight), sim, ref obstacles);
    }
Exemple #23
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    // turn obstacles on/off
    public void SetObstaclesActive(Pathfinding.RVO.Simulator sim, bool isActive)
    {
        _isActive = isActive;

        if (null != sim)
        {
            if (null != _staticObstacles)
            {
                for (int i = 0; i < _staticObstacles.Count; i++)
                {
                    sim.SetObstacleActive(_staticObstacles[i], _isActive);
                }
            }

            if (null != _dynamicObstacles)
            {
                for (int i = 0; i < _dynamicObstacles.Count; i++)
                {
                    sim.SetObstacleActive(_dynamicObstacles[i], _isActive);
                }
            }
        }
    }
Exemple #24
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 public KDTree(Simulator simulator)
 {
     this.simulator = simulator;
     //agentTree = new List<AgentTreeNode>();
     agentTree = new AgentTreeNode[0];
 }
Exemple #25
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        /** Adds obstacles for a graph */
        public void AddGraphObstacles(Pathfinding.RVO.Simulator sim, NavGraph graph)
        {
            if (obstacles.Count > 0 && lastSim != null && lastSim != sim)
            {
                Debug.LogError("Simulator has changed but some old obstacles are still added for the previous simulator. Deleting previous obstacles.");
                RemoveObstacles();
            }

            //Remember which simulator these obstacles were added to
            lastSim = sim;

            INavmesh ng = graph as INavmesh;

            if (ng == null)
            {
                return;
            }

            //Assume less than 20 vertices per node (actually assumes 3, but I will change that some day)
            int[] uses = new int[20];

            ng.GetNodes(delegate(GraphNode _node) {
                TriangleMeshNode node = _node as TriangleMeshNode;

                uses[0] = uses[1] = uses[2] = 0;

                if (node != null)
                {
                    //Find out which edges are shared with other nodes
                    for (int j = 0; j < node.connections.Length; j++)
                    {
                        TriangleMeshNode other = node.connections[j] as TriangleMeshNode;

                        // Not necessarily a TriangleMeshNode
                        if (other != null)
                        {
                            int a = node.SharedEdge(other);
                            if (a != -1)
                            {
                                uses[a] = 1;
                            }
                        }
                    }

                    //Loop through all edges on the node
                    for (int j = 0; j < 3; j++)
                    {
                        //The edge is not shared with any other node
                        //I.e it is an exterior edge on the mesh
                        if (uses[j] == 0)
                        {
                            //The two vertices of the edge
                            Vector3 v1 = (Vector3)node.GetVertex(j);
                            Vector3 v2 = (Vector3)node.GetVertex((j + 1) % node.GetVertexCount());

                            //I think node vertices always should be clockwise, but it's good to be certain

                            /*if (!Polygon.IsClockwise (v1,v2,(Vector3)node.GetVertex((j+2) % node.GetVertexCount()))) {
                             *      Vector3 tmp = v2;
                             *      v2 = v1;
                             *      v1 = tmp;
                             * }*/

                #if ASTARDEBUG
                            Debug.DrawLine(v1, v2, Color.red);
                            Debug.DrawRay(v1, Vector3.up * wallHeight, Color.red);
                #endif

                            //Find out the height of the wall/obstacle we are about to add
                            float height = System.Math.Abs(v1.y - v2.y);
                            height       = System.Math.Max(height, 5);

                            //Add the edge as a line obstacle
                            obstacles.Add(sim.AddObstacle(v1, v2, wallHeight));
                        }
                    }
                }

                return(true);
            });
        }
Exemple #26
0
 protected void FindSimulator()
 {
     RVOSimulator rVOSimulator = UnityEngine.Object.FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;
     if (rVOSimulator == null)
     {
         throw new InvalidOperationException("No RVOSimulator could be found in the scene. Please add one to any GameObject");
     }
     this.sim = rVOSimulator.GetSimulator();
 }
Exemple #27
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    private List <ObstacleVertex> _dynamicObstacles = null;    // will only be used if the RVOContourObstacle moves

    public void OnLatePostScan(Pathfinding.RVO.Simulator sim)
    {
        RemoveDynamicObstacles(sim);
        RemoveStaticObstaclesAndCreateNew(sim);
    }
		public void Awake () {
			tr = transform;

			// Find the RVOSimulator in this scene
			cachedSimulator = cachedSimulator ?? FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;
			if (cachedSimulator == null) {
				Debug.LogError("No RVOSimulator component found in the scene. Please add one.");
			} else {
				simulator = cachedSimulator.GetSimulator();
			}
		}
Exemple #29
0
 public Worker(Simulator sim)
 {
     this.simulator = sim;
     thread = new Thread (new ThreadStart (Run));
     thread.Start ();
 }
Exemple #30
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		/** Adds obstacles for a graph */
		public void AddGraphObstacles (Pathfinding.RVO.Simulator sim, NavGraph graph) {
			if (obstacles.Count > 0 && lastSim != null && lastSim != sim) {
				Debug.LogError("Simulator has changed but some old obstacles are still added for the previous simulator. Deleting previous obstacles.");
				RemoveObstacles();
			}

			//Remember which simulator these obstacles were added to
			lastSim = sim;

			var ng = graph as INavmesh;

			if (ng == null) return;

			//Assume less than 20 vertices per node (actually assumes 3, but I will change that some day)
			var uses = new int[20];

			ng.GetNodes(delegate(GraphNode _node) {
				var node = _node as TriangleMeshNode;

				uses[0] = uses[1] = uses[2] = 0;

				if (node != null) {
				    //Find out which edges are shared with other nodes
					for (int j = 0; j < node.connections.Length; j++) {
						var other = node.connections[j] as TriangleMeshNode;

				        // Not necessarily a TriangleMeshNode
						if (other != null) {
							int a = node.SharedEdge(other);
							if (a != -1) uses[a] = 1;
						}
					}

				    //Loop through all edges on the node
					for (int j = 0; j < 3; j++) {
				        //The edge is not shared with any other node
				        //I.e it is an exterior edge on the mesh
						if (uses[j] == 0) {
				            //The two vertices of the edge
							var v1 = (Vector3)node.GetVertex(j);
							var v2 = (Vector3)node.GetVertex((j+1) % node.GetVertexCount());

				            //I think node vertices always should be clockwise, but it's good to be certain
				            /*if (!Polygon.IsClockwise (v1,v2,(Vector3)node.GetVertex((j+2) % node.GetVertexCount()))) {
				             *  Vector3 tmp = v2;
				             *  v2 = v1;
				             *  v1 = tmp;
				             * }*/

		#if ASTARDEBUG
							Debug.DrawLine(v1, v2, Color.red);
							Debug.DrawRay(v1, Vector3.up*wallHeight, Color.red);
		#endif

				            //Find out the height of the wall/obstacle we are about to add
							float height = System.Math.Abs(v1.y-v2.y);
							height = System.Math.Max(height, 5);

				            //Add the edge as a line obstacle
							obstacles.Add(sim.AddObstacle(v1, v2, wallHeight));
						}
					}
				}

				return true;
			});
		}
Exemple #31
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		public KDTree (Simulator simulator) {
			this.simulator = simulator;
			//agentTree = new List<AgentTreeNode>();
			agentTree = new AgentTreeNode[0];
		}
Exemple #32
0
 public void AddGraphObstacles(Simulator sim, NavGraph graph)
 {
Exemple #33
0
    /** Adds obstacles for a graph */
    public void AddGraphObstacles(Pathfinding.RVO.Simulator sim, NavGraph graph)
    {
        if (obstacles.Count > 0 && lastSim != null && lastSim != sim)
        {
            Debug.LogError("Simulator has changed but some old obstacles are still added for the previous simulator. Deleting previous obstacles.");
            RemoveObstacles();
        }

        //Remember which simulator these obstacles were added to
        lastSim = sim;

        INavmesh ng = graph as INavmesh;

        if (ng == null)
        {
            return;
        }

        Node[] nodes = graph.nodes;

        Int3[] vertices = ng.vertices;

        int[] uses = new int[3];

        for (int i = 0; i < nodes.Length; i++)
        {
            MeshNode node = nodes[i] as MeshNode;

            uses[0] = uses[1] = uses[2] = 0;

            if (node != null)
            {
                for (int j = 0; j < node.connections.Length; j++)
                {
                    MeshNode other = node.connections[j] as MeshNode;
                    if (other == null)
                    {
                        continue;
                    }

                    int first  = -1;
                    int second = -1;

                    for (int x = 0; x < 3; x++)
                    {
                        for (int y = 0; y < 3; y++)
                        {
                            if (node[x] == other[y] && first < 0)
                            {
                                first = x;
                                break;
                            }
                            else if (node[x] == other[y])
                            {
                                second = x;
                                break;
                            }
                        }
                        if (second >= 0)
                        {
                            break;
                        }
                    }

                    //Only shared one vertex
                    if (second == -1)
                    {
                        continue;
                    }

                    if ((first + 1) % 3 == second)
                    {
                        uses[first]++;
                    }
                    else                         //if ((second+1) % 3 == first) {
                    {
                        uses[second]++;
                    }
                }
            }

            for (int j = 0; j < 3; j++)
            {
                if (uses[j] == 0)
                {
                    Vector3 v1 = (Vector3)vertices[node[j]];
                    Vector3 v2 = (Vector3)vertices[node[(j + 1) % 3]];

                    //I think node vertices always should be clockwise, but it's good to be certain
                    if (!Polygon.IsClockwise(v1, v2, (Vector3)vertices[node[(j + 2) % 3]]))
                    {
                        Vector3 tmp = v2;
                        v2 = v1;
                        v1 = tmp;
                    }

#if ASTARDEBUG
                    Debug.DrawLine(v1, v2, Color.red);
                    Debug.DrawRay(v1, Vector3.up * wallHeight, Color.red);
#endif

                    float height = System.Math.Abs(v1.y - v2.y);
                    height = System.Math.Max(height, 5);

                    obstacles.Add(sim.AddObstacle(v1, v2, wallHeight));
                }
            }
        }
    }
Exemple #34
0
		/** Finds a simulator in the scene.
		 * 
		 * Saves found simulator in #sim.
		 * 
		 * \throws System.InvalidOperationException When no RVOSimulator could be found.
		 */
		protected void FindSimulator () {
			RVOSimulator rvosim = FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;
			if (rvosim == null) throw new System.InvalidOperationException ("No RVOSimulator could be found in the scene. Please add one to any GameObject");
			
			sim = rvosim.GetSimulator ();
		}
			public Worker (Simulator sim) {
				this.simulator = sim;
				thread = new Thread (new ThreadStart (Run));
				thread.IsBackground = true;
				thread.Name = "RVO Simulator Thread";
				thread.Start ();
			}
		public void Awake () {
			tr = transform;

			var sim = FindObjectOfType(typeof(RVOSimulator)) as RVOSimulator;
			if (sim == null) {
				Debug.LogError ("No RVOSimulator component found in the scene. Please add one.");
				return;
			}
			simulator = sim.GetSimulator ();
		}