public override void AgentAction(float[] vectorAction, string textAction)
 {
     YellowLightRemaining--;
     if (YellowLightRemaining <= 0)
     {
         if (lightColor == LightColor.Green)
         {
             if (vectorAction[0] >= vectorAction[1])
             {
                 nextDirection = LightDirection.CrossNorthSouth;
             }
             else if (vectorAction[0] < vectorAction[1])
             {
                 nextDirection = LightDirection.CrossEastWest;
             }
         }
         if (lightColor == LightColor.Yellow)
         {
             SetLightColor(LightColor.Green);
             lightDirection = nextDirection;
         }//If yellow, switch the next direction
         else if (lightDirection != nextDirection)
         {
             SetLightColor(LightColor.Yellow);
             YellowLightRemaining = yellowTime;
         }
     }
 }
Exemplo n.º 2
0
        private static async Task LightAsync(KeyboardNames key, LightDirection direction, int steps, int stepDelay = 50)
        {
            int value = 0;

            for (int i = 0; i < steps; i++)
            {
                int step = direction == LightDirection.Up ? i : steps - i;
                value = (int)((double)step / steps * 100);

                LogitechGSDK.LogiLedSetLightingForKeyWithKeyName(key, value, 0, 0);
                await Task.Delay(stepDelay, cancellationToken);
            }

            int?last = null;

            if (direction == LightDirection.Up)
            {
                if (value != 100)
                {
                    last = 100;
                }
            }
            else
            {
                if (value != 0)
                {
                    last = 0;
                }
            }

            if (last != null)
            {
                LogitechGSDK.LogiLedSetLightingForKeyWithKeyName(key, last.Value, 0, 0);
            }
        }
 public override void AgentReset()
 {
     SetReward(reward);
     lightColor     = LightColor.Green;
     lightDirection = LightDirection.CrossNorthSouth;
     frameChanged   = 0;
 }
Exemplo n.º 4
0
        public void SetLightDirection(float yaw, float pitch, float roll)
        {
            this.Yaw = yaw;
            this.Pitch = pitch;
            this.Roll = roll;

            this.RotationMatrix = Matrix.CreateFromYawPitchRoll(yaw, pitch, roll);
            
            LightDirection = Vector3.Transform(Vector3.Up, this.RotationMatrix);
            LightDirection.Normalize();

            


        }
    //Greedy algorithm choose either crossNorthSouth or crossEastWest every x ticks. If that direction has the most cars in queue, then the light does not change, else it changes to the opposite direction
    void Update()
    {
        lightRemaining--;
        if (0 >= lightRemaining)
        {
            if (LightColor.Green == lightColor)
            {
                Nullable <int> northStraightOccupants = intersection?.inboundNorthRoad?.straightRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> northLeftOccupants     = intersection?.inboundNorthRoad?.leftRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> eastStraightOccupants  = intersection?.inboundEastRoad?.straightRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> eastLeftOccupants      = intersection?.inboundEastRoad?.leftRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> southStraightOccupants = intersection?.inboundSouthRoad?.straightRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> southLeftOccupants     = intersection?.inboundSouthRoad?.leftRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> westStraightOccupants  = intersection?.inboundWestRoad?.straightRoadScript.occupants.Where(car => null != car).Count();
                Nullable <int> westLeftOccupants      = intersection?.inboundWestRoad?.leftRoadScript.occupants.Where(car => null != car).Count();                         //Get cars in each lane
                int            northSouthLanes        = (null == intersection?.inboundNorthRoad ? 0 : 1) + (null == intersection?.inboundSouthRoad ? 0 : 1);
                int            eastWestLanes          = (null == intersection?.inboundEastRoad ? 0 : 1) + (null == intersection?.inboundWestRoad ? 0 : 1);                 //Get number of lanes
                int            northSouthOccupants    = (northStraightOccupants ?? 0) + (northLeftOccupants ?? 0) + (southStraightOccupants ?? 0) + (southLeftOccupants ?? 0);
                int            eastWestOccupants      = (eastStraightOccupants ?? 0) + (eastLeftOccupants ?? 0) + (westStraightOccupants ?? 0) + (westLeftOccupants ?? 0); //Add number of cars in each cross amount
                northSouthOccupants *= (1 == northSouthLanes ? 2 : 1);
                eastWestOccupants   *= (1 == eastWestLanes ? 2 : 1);                                                                                                       //Multiply by 2 if only 1 lane present so values can be comparable
                if (northSouthOccupants > eastWestOccupants)
                {
                    nextDirection = LightDirection.CrossNorthSouth;
                }
                else if (eastWestOccupants > northSouthOccupants)
                {
                    nextDirection = LightDirection.CrossEastWest;
                }//Next direction is direction with most cars
            }

            if (LightColor.Yellow == lightColor)
            {
                SetLightColor(LightColor.Green);
                lightRemaining = greenTime;
                lightDirection = nextDirection;
            }//If yellow, switch the next direction
            else if (lightDirection == nextDirection)
            {
                lightRemaining = greenTime;
            }//If green, but not changing continue
            else
            {
                SetLightColor(LightColor.Yellow);
                lightRemaining = yellowTime;
            }//If green and changing, switch to yellow
        }
    }
Exemplo n.º 6
0
        /// <summary>Indicates whether the current object is equal to another object of the same type.</summary>
        /// <param name="other">An object to compare with this object.</param>
        /// <returns>
        ///   <span class="keyword">
        ///     <span class="languageSpecificText">
        ///       <span class="cs">true</span>
        ///       <span class="vb">True</span>
        ///       <span class="cpp">true</span>
        ///     </span>
        ///   </span>
        ///   <span class="nu">
        ///     <span class="keyword">true</span> (<span class="keyword">True</span> in Visual Basic)</span> if the current object is equal to the <paramref name="other" /> parameter; otherwise, <span class="keyword"><span class="languageSpecificText"><span class="cs">false</span><span class="vb">False</span><span class="cpp">false</span></span></span><span class="nu"><span class="keyword">false</span> (<span class="keyword">False</span> in Visual Basic)</span>.
        /// </returns>
        public bool Equals(Gorgon2DLight other)
        {
            if (other == null)
            {
                return(false);
            }

            return((LightType == other.LightType) &&
                   (Attenuation.EqualsEpsilon(other.Attenuation)) &&
                   (Intensity.EqualsEpsilon(other.Intensity)) &&
                   (SpecularPower.EqualsEpsilon(other.SpecularPower)) &&
                   (SpecularEnabled == other.SpecularEnabled) &&
                   (Color.Equals(other.Color)) &&
                   (Position.Equals(other.Position)) &&
                   (LightDirection.Equals(other.LightDirection)));
        }
Exemplo n.º 7
0
    //Helper function for FloydBigBrain
    private bool IsNeighbor(Road r, IntersectionTwoLane i, LightDirection incomingDirection)
    {
        bool TurnIntersection = false;

        if (i.lightController is Turn)
        {
            TurnIntersection = true;
        }
        if (r == i.outboundNorthRoad?.straightRoadScript)
        {
            if (TurnIntersection && incomingDirection == LightDirection.South)
            {
                return(false);
            }
            return(true);
        }
        if (r == i.outboundEastRoad?.straightRoadScript)
        {
            if (TurnIntersection && incomingDirection == LightDirection.West)
            {
                return(false);
            }
            return(true);
        }
        if (r == i.outboundSouthRoad?.straightRoadScript)
        {
            if (TurnIntersection && incomingDirection == LightDirection.North)
            {
                return(false);
            }
            return(true);
        }
        if (r == i.outboundWestRoad?.straightRoadScript)
        {
            if (TurnIntersection && incomingDirection == LightDirection.East)
            {
                return(false);
            }
            return(true);
        }
        return(false);
    }
Exemplo n.º 8
0
        // calculate an arbitrary up vector perpendicular to the light direction
        void CalculateUp()
        {
            var     abs = LightDirection.Abs();
            var     max = abs.Max();
            Vector3 up  = Vector3.UnitY;

            if (max == abs.X)
            {
                up = new Vector3(0, 1, 0);
            }
            if (max == abs.Y)
            {
                up = new Vector3(0, 0, 1);
            }
            if (max == abs.Z)
            {
                up = new Vector3(1, 0, 0);
            }
            LightUp = up.ProjectPlane(LightDirection).Normalized();
        }
Exemplo n.º 9
0
        protected override void OnApply()
        {
            if (_paletteDirty)
            {
                _paletteParam.SetValue(Palette);

                _paletteDirty = false;
            }

            if (!ManualLightMatrix && _lightMatrixDirty)
            {
                var mat = LightDirection.GetViewProjectionMatrix(new BoundingFrustum(_view * _projection));
                _dirLightMatrixParam?.SetValue(mat);
                _lightMatrixDirty = false;
            }

            if (_cameraDirty)
            {
                _positionParam?.SetValue(ChunkPosition);
                _viewParam?.SetValue(View);
                _projectionParam?.SetValue(Projection);

                _cameraDirty = false;
            }

            if (_lightDirty)
            {
                _lightDirParam?.SetValue(LightDirection);
                _diffuseLightParam?.SetValue(DiffuseLight);
                _ambientLightParam?.SetValue(AmbientLight.ToVector3());

                _lightDirty = false;
            }

            if (_shadowMapDirty)
            {
                _shadowMapParam?.SetValue(_shadowMap);
                _shadowMapDirty = false;
            }
        }
Exemplo n.º 10
0
    void Awake()
    {
        Transform firstItem  = transform.GetChild(0);
        Transform secondItem = transform.GetChild(1);

        if (firstItem.name.Equals("StraightLane"))
        {
            straightRoad       = firstItem.gameObject;
            straightRoadScript = straightRoad.GetComponent <Road>();
        }
        else if (firstItem.name.Equals("LeftLane"))
        {
            leftRoad       = firstItem.gameObject;
            leftRoadScript = leftRoad.GetComponent <Road>();
        }

        if (secondItem.name.Equals("StraightLane"))
        {
            straightRoad       = secondItem.gameObject;
            straightRoadScript = straightRoad.GetComponent <Road>();
        }
        else if (secondItem.name.Equals("LeftLane"))
        {
            leftRoad       = secondItem.gameObject;
            leftRoadScript = leftRoad.GetComponent <Road>();
        }

        if (!leftRoad || !straightRoad || !leftRoadScript || !straightRoadScript)
        {
            Debug.LogError("cannot load inner Road objects. Make sure they are named 'LeftLane' and 'StraightLane'");
            Destroy(this);
        }

        leftLaneLength = leftRoadScript.occupants.Length - 1;
        if (leftLaneLength == -1)
        {
            leftAvailable = false;
        }
        straightLaneLength = straightRoadScript.occupants.Length - 1;
        LightDirection direction = straightRoadScript.direction;

        if (direction == LightDirection.North)
        {
            leftShift      = new Vector3(-1, 0, 0);
            leftDirection  = LightDirection.West;
            uTurnDirection = LightDirection.South;
        }
        else if (direction == LightDirection.East)
        {
            leftShift      = new Vector3(0, 1, 0);
            leftDirection  = LightDirection.North;
            uTurnDirection = LightDirection.West;
        }
        else if (direction == LightDirection.South)
        {
            leftShift      = new Vector3(1, 0, 0);
            leftDirection  = LightDirection.East;
            uTurnDirection = LightDirection.North;
        }
        else if (direction == LightDirection.West)
        {
            leftShift      = new Vector3(0, -1, 0);
            leftDirection  = LightDirection.South;
            uTurnDirection = LightDirection.East;
        }
    }
 public void SetLightDirection(LightDirection d)
 {
     lightDirection = d;
 }
 void Start()
 {
     lightRemaining = greenTime;
     nextDirection  = lightDirection;
 }