UltimateZoneBuilder/Source/Core/Geometry/InterpolationTools.cs
2020-05-21 14:20:02 +02:00

87 lines
2.9 KiB
C#
Executable file

using System;
using CodeImp.DoomBuilder.Rendering;
namespace CodeImp.DoomBuilder.Geometry
{
public static class InterpolationTools
{
public enum Mode
{
LINEAR,
EASE_IN_OUT_SINE,
EASE_IN_SINE,
EASE_OUT_SINE,
}
public static double Interpolate(double val1, double val2, double delta, Mode mode)
{
switch(mode)
{
case Mode.LINEAR: return Linear(val1, val2, delta);
case Mode.EASE_IN_SINE: return EaseInSine(val1, val2, delta);
case Mode.EASE_OUT_SINE: return EaseOutSine(val1, val2, delta);
case Mode.EASE_IN_OUT_SINE: return EaseInOutSine(val1, val2, delta);
default: throw new NotImplementedException("InterpolationTools.Interpolate: \"" + mode + "\" mode is not supported!");
}
}
//Based on Robert Penner's original easing equations (http://www.robertpenner.com/easing/)
public static float Linear(float val1, float val2, float delta)
{
return delta * val2 + (1.0f - delta) * val1;
}
//Based on Robert Penner's original easing equations (http://www.robertpenner.com/easing/)
public static double Linear(double val1, double val2, double delta)
{
return delta * val2 + (1.0f - delta) * val1;
}
/**
* Easing equation function for a sinusoidal (sin(t)) easing in: accelerating from zero velocity.
*/
public static double EaseInSine(double val1, double val2, double delta)
{
double f_val1 = val1;
double f_val2 = val2 - f_val1;
return -f_val2 * Math.Cos(delta * Angle2D.PIHALF) + f_val2 + f_val1;
}
/**
* Easing equation function for a sinusoidal (sin(t)) easing out: decelerating from zero velocity.
*/
public static double EaseOutSine(double val1, double val2, double delta)
{
return (val2 - val1) * Math.Sin(delta * Angle2D.PIHALF) + val1;
}
/**
* Easing equation function for a sinusoidal (sin(t)) easing in/out: acceleration until halfway, then deceleration.
*/
public static double EaseInOutSine(double val1, double val2, double delta)
{
return -(val2 - val1) / 2 * (Math.Cos(Angle2D.PI * delta) - 1) + val1;
}
//mxd
public static PixelColor InterpolateColor(PixelColor c1, PixelColor c2, double delta)
{
double invdelta = 1.0f - delta;
byte a = (byte)(c1.a * invdelta + c2.a * delta);
byte r = (byte)(c1.r * invdelta + c2.r * delta);
byte g = (byte)(c1.g * invdelta + c2.g * delta);
byte b = (byte)(c1.b * invdelta + c2.b * delta);
return new PixelColor(a, r, g, b);
}
//mxd
public static PixelColor InterpolateColor(PixelColor c1, PixelColor c2, double delta, Mode mode)
{
byte a = (byte)Math.Round(Interpolate(c1.a, c2.a, delta, mode));
byte r = (byte)Math.Round(Interpolate(c1.r, c2.r, delta, mode));
byte g = (byte)Math.Round(Interpolate(c1.g, c2.g, delta, mode));
byte b = (byte)Math.Round(Interpolate(c1.b, c2.b, delta, mode));
return new PixelColor(a, r, g, b);
}
}
}