コード例 #1
0
        // can be used to find the nearest obstacle being tracked
        public static bool nearestObstacle(Dictionary <int, VRAVEObstacle> obs, out VRAVEObstacle nearest)
        {
            nearest = new VRAVEObstacle();

            if (obs.Count == 0)
            {
                return(false);
            }

            float min = Mathf.Infinity;

            foreach (KeyValuePair <int, VRAVEObstacle> o in obs)
            {
                if (o.Value.Distance < min)
                {
                    min     = o.Value.Distance;
                    nearest = o.Value;
                }
            }

            return(true);
        }
コード例 #2
0
        public bool Scan(out Dictionary <int, VRAVEObstacle> obstacles)
        {
            obstacles = new Dictionary <int, VRAVEObstacle> ();

            if (m_shortRangeSensorsEnable)
            {
                RaycastHit shortSensorsHit;
                Vector3    shortRangeSensorsStart = transform.position;
                shortRangeSensorsStart.y += shortRangeSensorsHeight;

                InitShortRangeSensors();

                // Scan for nearby obstacles
                foreach (VRAVESensor scan in shortRangeSensorsArray)
                {
                    Debug.DrawRay(shortRangeSensorsStart, scan.Direction * m_shortSensorLength, Color.green);

                    if (Physics.Raycast(shortRangeSensorsStart, scan.Direction, out shortSensorsHit, m_shortSensorLength, layerMask))
                    {
                        if (shortSensorsHit.collider.CompareTag(VRAVEStrings.Obstacle) ||
                            shortSensorsHit.collider.CompareTag(VRAVEStrings.AI_Car) ||
                            shortSensorsHit.collider.CompareTag(VRAVEStrings.Crazy_AI_Car))
                        {
                            if (!obstacles.ContainsKey(scan.ID))
                            {
                                Debug.DrawLine(shortRangeSensorsStart, shortSensorsHit.point, Color.yellow);
                                VRAVEObstacle vo = new VRAVEObstacle();
                                vo.obstacle    = shortSensorsHit;
                                vo.obstacleTag = shortSensorsHit.collider.tag;
                                vo.Distance    = shortSensorsHit.distance;
                                obstacles.Add(scan.ID, vo);
                            }
                        }
                    }
                }
            }

            if (m_longRangeSensorsEnable)
            {
                RaycastHit longSensorsHit;

                Vector3 longRangeSensorsStart = transform.position;
                longRangeSensorsStart.y += longRangeSensorsHeight;

                // long sensors
                InitLongRangeSensors();

                for (uint i = 0; i < numLongRangeSensors; ++i)
                {
                    Vector3 sensorStart = longRangeSensorsStart;

                    if (i == 1)
                    {
                        sensorStart += transform.right * m_lateralSensorShift;
                    }
                    else if (i == 2)
                    {
                        sensorStart -= transform.right * m_lateralSensorShift;
                    }

                    Debug.DrawRay(sensorStart, longRangeSensorsArray [i].Direction * m_longSensorLength, Color.red);

                    if (Physics.Raycast(sensorStart, longRangeSensorsArray [i].Direction, out longSensorsHit, m_longSensorLength, layerMask))
                    {
                        if (longSensorsHit.collider.CompareTag(VRAVEStrings.Obstacle) ||
                            longSensorsHit.collider.CompareTag(VRAVEStrings.AI_Car))
                        {
                            if (!obstacles.ContainsKey(longRangeSensorsArray[i].ID))
                            {
                                Debug.DrawLine(sensorStart, longSensorsHit.point, Color.yellow);
                                VRAVEObstacle vo = new VRAVEObstacle();
                                vo.obstacle    = longSensorsHit;
                                vo.obstacleTag = longSensorsHit.collider.tag;
                                vo.Distance    = (longSensorsHit.point - transform.position).magnitude;
                                obstacles.Add(longRangeSensorsArray[i].ID, vo);
                            }
                        }
                    }
                }
            }

            return(obstacles.Count == 0 ? false : true);
        }
コード例 #3
0
ファイル: Sensors.cs プロジェクト: pemami4911/V-RAVE
		public bool Scan (out Dictionary<int, VRAVEObstacle> obstacles)
		{
			obstacles = new Dictionary<int, VRAVEObstacle> ();
				
			if (m_shortRangeSensorsEnable) 
			{
				RaycastHit shortSensorsHit;
				Vector3 shortRangeSensorsStart = transform.position; 
				shortRangeSensorsStart.y += shortRangeSensorsHeight;

				InitShortRangeSensors ();

				// Scan for nearby obstacles
				foreach (VRAVESensor scan in shortRangeSensorsArray) 
				{

					Debug.DrawRay (shortRangeSensorsStart, scan.Direction * m_shortSensorLength, Color.green);

					if (Physics.Raycast (shortRangeSensorsStart, scan.Direction, out shortSensorsHit, m_shortSensorLength, layerMask)) 
					{
						if (shortSensorsHit.collider.CompareTag (VRAVEStrings.Obstacle) ||
							shortSensorsHit.collider.CompareTag (VRAVEStrings.AI_Car) ||
							shortSensorsHit.collider.CompareTag (VRAVEStrings.Crazy_AI_Car)) 
						{

							if (!obstacles.ContainsKey(scan.ID))
							{
								Debug.DrawLine (shortRangeSensorsStart, shortSensorsHit.point, Color.yellow);
								VRAVEObstacle vo = new VRAVEObstacle ();
								vo.obstacle = shortSensorsHit;
								vo.obstacleTag = shortSensorsHit.collider.tag;
								vo.Distance = shortSensorsHit.distance;
								obstacles.Add (scan.ID, vo);
							}
						}
					}
				}	
			}

			if (m_longRangeSensorsEnable) 
			{
				RaycastHit longSensorsHit;

				Vector3 longRangeSensorsStart = transform.position; 
				longRangeSensorsStart.y += longRangeSensorsHeight;

				// long sensors
				InitLongRangeSensors ();

				for (uint i = 0; i < numLongRangeSensors; ++i) 
				{
					Vector3 sensorStart = longRangeSensorsStart;

					if (i == 1) 
					{
						sensorStart += transform.right * m_lateralSensorShift;
					} 
					else if (i == 2) 
					{
						sensorStart -= transform.right * m_lateralSensorShift;
					}

					Debug.DrawRay (sensorStart, longRangeSensorsArray [i].Direction * m_longSensorLength, Color.red);

					if (Physics.Raycast (sensorStart, longRangeSensorsArray [i].Direction, out longSensorsHit, m_longSensorLength, layerMask)) 
					{
						if (longSensorsHit.collider.CompareTag (VRAVEStrings.Obstacle) ||
							longSensorsHit.collider.CompareTag (VRAVEStrings.AI_Car)) 
						{
							if (!obstacles.ContainsKey (longRangeSensorsArray[i].ID)) 
							{
								Debug.DrawLine (sensorStart, longSensorsHit.point, Color.yellow);
								VRAVEObstacle vo = new VRAVEObstacle ();
								vo.obstacle = longSensorsHit;
								vo.obstacleTag = longSensorsHit.collider.tag;
								vo.Distance = (longSensorsHit.point - transform.position).magnitude;
								obstacles.Add (longRangeSensorsArray[i].ID, vo);
							}
						}
					}
				}
			}

			return obstacles.Count == 0 ? false : true;
		}
コード例 #4
0
ファイル: Sensors.cs プロジェクト: pemami4911/V-RAVE
		// can be used to find the nearest obstacle being tracked
		public static bool nearestObstacle(Dictionary<int, VRAVEObstacle> obs, out VRAVEObstacle nearest) 
		{
			nearest = new VRAVEObstacle ();

			if (obs.Count == 0)
				return false;
		
			float min = Mathf.Infinity;

			foreach (KeyValuePair<int, VRAVEObstacle>  o in obs) {
				if (o.Value.Distance < min) {
					min = o.Value.Distance;
					nearest = o.Value;
				}
			}

			return true;
		}