/// <summary> /// Helper to set the color based on RGB /// </summary> /// <param name="lightCommand"></param> /// <param name="red"></param> /// <param name="green"></param> /// <param name="blue"></param> /// <returns></returns> public static LightCommand SetColor(this LightCommand lightCommand, int red, int green, int blue) { if (lightCommand == null) { throw new ArgumentNullException("lightCommand"); } var point = HueColorConverter.XyFromColor(red, green, blue); return(lightCommand.SetColor(point.x, point.y)); }
public static LightCommand SetColor(this LightCommand lightCommand, RGBColor color, string model) { if (lightCommand == null) { throw new ArgumentNullException("lightCommand"); } var point = HueColorConverter.RgbToXY(color, model); return(lightCommand.SetColor(point.x, point.y)); }
/// <summary> /// Helper to set the color based on RGB /// </summary> /// <param name="lightCommand"></param> /// <param name="red"></param> /// <param name="green"></param> /// <param name="blue"></param> /// <returns></returns> public static LightCommand SetColor(this LightCommand lightCommand, int red, int green, int blue, string model = "LCT001") { if (lightCommand == null) { throw new ArgumentNullException("lightCommand"); } var point = HueColorConverter.RgbToXY(new RGBColor(red / 255.0, green / 255.0, blue / 255.0), model); return(lightCommand.SetColor(point.x, point.y)); }
/// <summary> /// Method to see if the given XY value is within the reach of the lamps. /// </summary> /// <param name="p">p the point containing the X,Y value</param> /// <returns>true if within reach, false otherwise.</returns> private static bool CheckPointInLampsReach(CGPoint p) { CGPoint v1 = new CGPoint(Lime.x - Red.x, Lime.y - Red.y); CGPoint v2 = new CGPoint(Blue.x - Red.x, Blue.y - Red.y); CGPoint q = new CGPoint(p.x - Red.x, p.y - Red.y); double s = HueColorConverter.CrossProduct(q, v2) / HueColorConverter.CrossProduct(v1, v2); double t = HueColorConverter.CrossProduct(v1, q) / HueColorConverter.CrossProduct(v1, v2); if ((s >= 0.0f) && (t >= 0.0f) && (s + t <= 1.0f)) { return(true); } else { return(false); } }
/// <summary> /// Get XY from red,green,blue ints /// </summary> /// <param name="red"></param> /// <param name="green"></param> /// <param name="blue"></param> /// <returns></returns> public static CGPoint XyFromColor(int red, int green, int blue) { double r = (red > 0.04045f) ? Math.Pow((red + 0.055f) / (1.0f + 0.055f), 2.4f) : (red / 12.92f); double g = (green > 0.04045f) ? Math.Pow((green + 0.055f) / (1.0f + 0.055f), 2.4f) : (green / 12.92f); double b = (blue > 0.04045f) ? Math.Pow((blue + 0.055f) / (1.0f + 0.055f), 2.4f) : (blue / 12.92f); double X = r * 0.4360747f + g * 0.3850649f + b * 0.0930804f; double Y = r * 0.2225045f + g * 0.7168786f + b * 0.0406169f; double Z = r * 0.0139322f + g * 0.0971045f + b * 0.7141733f; double cx = X / (X + Y + Z); double cy = Y / (X + Y + Z); if (Double.IsNaN(cx)) { cx = 0.0f; } if (Double.IsNaN(cy)) { cy = 0.0f; } //Check if the given XY value is within the colourreach of our lamps. CGPoint xyPoint = new CGPoint(cx, cy); bool inReachOfLamps = HueColorConverter.CheckPointInLampsReach(xyPoint); if (!inReachOfLamps) { //It seems the colour is out of reach //let's find the closes colour we can produce with our lamp and send this XY value out. //Find the closest point on each line in the triangle. CGPoint pAB = HueColorConverter.GetClosestPointToPoint(Red, Lime, xyPoint); CGPoint pAC = HueColorConverter.GetClosestPointToPoint(Blue, Red, xyPoint); CGPoint pBC = HueColorConverter.GetClosestPointToPoint(Lime, Blue, xyPoint); //Get the distances per point and see which point is closer to our Point. double dAB = HueColorConverter.GetDistanceBetweenTwoPoints(xyPoint, pAB); double dAC = HueColorConverter.GetDistanceBetweenTwoPoints(xyPoint, pAC); double dBC = HueColorConverter.GetDistanceBetweenTwoPoints(xyPoint, pBC); double lowest = dAB; CGPoint closestPoint = pAB; if (dAC < lowest) { lowest = dAC; closestPoint = pAC; } if (dBC < lowest) { lowest = dBC; closestPoint = pBC; } //Change the xy value to a value which is within the reach of the lamp. cx = closestPoint.x; cy = closestPoint.y; } return(new CGPoint(cx, cy)); }
public RGBColor ToRgb(string model = "LCT001") { return(HueColorConverter.RgbFromState(this, model)); }
public string ToHex(string model = "LCT001") { return(HueColorConverter.HexFromState(this, model)); }
public string ToHex() { return(HueColorConverter.HexFromState(this)); }
public string ToHex() { return(HueColorConverter.HexFromState(this.State, this.ModelId)); }