MoonTools.Easing/Easing/Easing.cs

393 lines
14 KiB
C#

using System;
namespace MoonTools.Core.Easing
{
public static class Easing
{
// argument checker
private static void CheckTime(float time, float duration)
{
if (time > duration) { throw new ArgumentException($"{time} is invalid. Must be less than {duration}."); }
}
private static void CheckTime(double time, double duration)
{
if (time > duration) { throw new ArgumentException($"{time} is invalid. Must be less than {duration}."); }
}
// function transformations
private static float NormalizedTime(Func<float, float, float, float, float> easingFunction, float t) => easingFunction(t, 0, 1, 1);
private static float TimeRange(Func<float, float> easingFunction, float time, float start, float end) => start + (end - start) * easingFunction((time - start) / (end - start));
private static double NormalizedTime(Func<double, double, double, double, double> easingFunction, double t) => easingFunction(t, 0, 1, 1);
private static double TimeRange(Func<double, double> easingFunction, double time, double start, double end) => start + (end - start) * easingFunction((time - start) / (end - start));
/********* EASING FUNCTIONS ********/
// LINEAR
public static float Linear(float t) => NormalizedTime(Linear, t);
public static float Linear(float time, float start, float end) => TimeRange(Linear, time, start, end);
public static float Linear(float t, float b, float c, float d)
{
CheckTime(t, d);
return c * t / d + b;
}
public static double Linear(double t) => NormalizedTime(Linear, t);
public static double Linear(double time, double start, double end) => TimeRange(Linear, time, start, end);
public static double Linear(double t, double b, double c, double d)
{
CheckTime(t, d);
return c * t / d + b;
}
// IN QUAD
public static float InQuad(float t) => NormalizedTime(InQuad, t);
public static float InQuad(float time, float start, float end) => TimeRange(InQuad, time, start, end);
public static float InQuad(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t) + b;
}
public static double InQuad(double t) => NormalizedTime(InQuad, t);
public static double InQuad(double time, double start, double end) => TimeRange(InQuad, time, start, end);
public static double InQuad(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t) + b;
}
// OUT QUAD
public static float OutQuad(float t) => NormalizedTime(OutQuad, t);
public static float OutQuad(float time, float start, float end) => TimeRange(OutQuad, time, start, end);
public static float OutQuad(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d;
return -c * t * (t - 2) + b;
}
public static double OutQuad(double t) => NormalizedTime(OutQuad, t);
public static double OutQuad(double time, double start, double end) => TimeRange(OutQuad, time, start, end);
public static double OutQuad(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d;
return -c * t * (t - 2) + b;
}
// IN OUT QUAD
public static float InOutQuad(float t) => NormalizedTime(InOutQuad, t);
public static float InOutQuad(float time, float start, float end) => TimeRange(InOutQuad, time, start, end);
public static float InOutQuad(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * (t * t) + b;
}
else
{
return -c / 2 * ((t - 1) * (t - 3) - 1) + b;
}
}
public static double InOutQuad(double t) => NormalizedTime(InOutQuad, t);
public static double InOutQuad(double time, double start, double end) => TimeRange(InOutQuad, time, start, end);
public static double InOutQuad(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * (t * t) + b;
}
else
{
return -c / 2 * ((t - 1) * (t - 3) - 1) + b;
}
}
// OUT IN QUAD
public static float OutInQuad(float t) => NormalizedTime(OutInQuad, t);
public static float OutInQuad(float time, float start, float end) => TimeRange(OutInQuad, time, start, end);
public static float OutInQuad(float t, float b, float c, float d)
{
CheckTime(t, d);
if (t < d / 2)
{
return OutQuad(t * 2, b, c / 2, d);
}
else
{
return InQuad((t * 2) - d, b + c / 2, c / 2, d);
}
}
public static double OutInQuad(double t) => NormalizedTime(OutInQuad, t);
public static double OutInQuad(double time, double start, double end) => TimeRange(OutInQuad, time, start, end);
public static double OutInQuad(double t, double b, double c, double d)
{
CheckTime(t, d);
if (t < d / 2)
{
return OutQuad(t * 2, b, c / 2, d);
}
else
{
return InQuad((t * 2) - d, b + c / 2, c / 2, d);
}
}
// IN CUBIC
public static float InCubic(float t) => NormalizedTime(InCubic, t);
public static float InCubic(float time, float start, float end) => TimeRange(InCubic, time, start, end);
public static float InCubic(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t * t) + b;
}
public static double InCubic(double t) => NormalizedTime(InCubic, t);
public static double InCubic(double time, double start, double end) => TimeRange(InCubic, time, start, end);
public static double InCubic(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t * t) + b;
}
// OUT CUBIC
public static float OutCubic(float t) => NormalizedTime(OutCubic, t);
public static float OutCubic(float time, float start, float end) => TimeRange(OutCubic, time, start, end);
public static float OutCubic(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d - 1;
return c * (t * t * t + 1) + b;
}
public static double OutCubic(double t) => NormalizedTime(OutCubic, t);
public static double OutCubic(double time, double start, double end) => TimeRange(OutCubic, time, start, end);
public static double OutCubic(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d - 1;
return c * (t * t * t + 1) + b;
}
// IN OUT CUBIC
public static float InOutCubic(float t) => NormalizedTime(InOutCubic, t);
public static float InOutCubic(float time, float start, float end) => TimeRange(InOutCubic, time, start, end);
public static float InOutCubic(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * t * t * t + b;
}
else
{
t = t - 2;
return c / 2 * (t * t * t + 2) + b;
}
}
// IN OUT CUBIC
public static double InOutCubic(double t) => NormalizedTime(InOutCubic, t);
public static double InOutCubic(double time, double start, double end) => TimeRange(InOutCubic, time, start, end);
public static double InOutCubic(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * t * t * t + b;
}
else
{
t = t - 2;
return c / 2 * (t * t * t + 2) + b;
}
}
// OUT IN CUBIC
public static float OutInCubic(float t) => NormalizedTime(OutInCubic, t);
public static float OutInCubic(float time, float start, float end) => TimeRange(OutInCubic, time, start, end);
public static float OutInCubic(float t, float b, float c, float d)
{
if (t < d / 2)
{
return OutCubic(t * 2, b, c / 2, d);
}
else
{
return InCubic((t * 2) - d, b + c / 2, c / 2, d);
}
}
public static double OutInCubic(double t) => NormalizedTime(OutInCubic, t);
public static double OutInCubic(double time, double start, double end) => TimeRange(OutInCubic, time, start, end);
public static double OutInCubic(double t, double b, double c, double d)
{
if (t < d / 2)
{
return OutCubic(t * 2, b, c / 2, d);
}
else
{
return InCubic((t * 2) - d, b + c / 2, c / 2, d);
}
}
// IN QUARTIC
public static float InQuart(float t) => NormalizedTime(InQuart, t);
public static float InQuart(float time, float start, float end) => TimeRange(InQuart, time, start, end);
public static float InQuart(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t * t * t) + b;
}
public static double InQuart(double t) => NormalizedTime(InQuart, t);
public static double InQuart(double time, double start, double end) => TimeRange(InQuart, time, start, end);
public static double InQuart(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d;
return c * (t * t * t * t) + b;
}
// OUT QUARTIC
public static float OutQuart(float t) => NormalizedTime(OutQuart, t);
public static float OutQuart(float time, float start, float end) => TimeRange(OutQuart, time, start, end);
public static float OutQuart(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d - 1;
return -c * ((t * t * t * t) - 1) + b;
}
public static double OutQuart(double t) => NormalizedTime(OutQuart, t);
public static double OutQuart(double time, double start, double end) => TimeRange(OutQuart, time, start, end);
public static double OutQuart(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d - 1;
return -c * ((t * t * t * t) - 1) + b;
}
// IN OUT QUARTIC
public static float InOutQuart(float t) => NormalizedTime(InOutQuart, t);
public static float InOutQuart(float time, float start, float end) => TimeRange(InOutQuart, time, start, end);
public static float InOutQuart(float t, float b, float c, float d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * (t * t * t * t) + b;
}
else
{
t = t - 2;
return -c / 2 * ((t * t * t * t) - 2) + b;
}
}
public static double InOutQuart(double t) => NormalizedTime(InOutQuart, t);
public static double InOutQuart(double time, double start, double end) => TimeRange(InOutQuart, time, start, end);
public static double InOutQuart(double t, double b, double c, double d)
{
CheckTime(t, d);
t = t / d * 2;
if (t < 1)
{
return c / 2 * (t * t * t * t) + b;
}
else
{
t = t - 2;
return -c / 2 * ((t * t * t * t) - 2) + b;
}
}
// OUT IN QUARTIC
public static float OutInQuart(float t) => NormalizedTime(OutInQuart, t);
public static float OutInQuart(float time, float start, float end) => TimeRange(OutInQuart, time, start, end);
public static float OutInQuart(float t, float b, float c, float d)
{
if (t < d / 2)
{
return OutQuart(t * 2, b, c / 2, d);
}
else
{
return InQuart((t * 2) - d, b + c / 2, c / 2, d);
}
}
public static double OutInQuart(double t) => NormalizedTime(OutInQuart, t);
public static double OutInQuart(double time, double start, double end) => TimeRange(OutInQuart, time, start, end);
public static double OutInQuart(double t, double b, double c, double d)
{
if (t < d / 2)
{
return OutQuart(t * 2, b, c / 2, d);
}
else
{
return InQuart((t * 2) - d, b + c / 2, c / 2, d);
}
}
}
}