public void Out_InputInRange_ReturnsExpectedValue()
{
Ease ease = new Quadratic();
float x = 0.6f;
float expected = 0.84f;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
public void Out_InputAboveRange_ReturnsDestination()
{
Ease ease = new Quadratic();
float x = 1.5f;
float expected = ease.Scale.Y;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
public void Out_InputBelowRange_ReturnsOrigin()
{
Ease ease = new Quadratic();
float x = -0.5f;
float expected = 0;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
public void Out_ChangedScaleInputAboveRange_ReturnsDestination()
{
Vector scale = new Vector(4, 6);
Ease ease = new Quadratic(scale);
float x = 11.1f;
float expected = ease.Scale.Y;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
public void Out_ChangedScaleInputBelowRange_ReturnsOrigin()
{
Vector scale = new Vector(4, 6);
Ease ease = new Quadratic(scale);
float x = -1.1f;
float expected = 0;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
public void Out_ChangedScaleInputInRange_ReturnsExpectedValue()
{
Vector scale = new Vector(4, 6);
Ease ease = new Quadratic(scale);
float x = 2.5f;
float expected = 5.156f;
float actual = ease.Out(x);
Assert.AreEqual(expected, actual, 0.001f);
}
//------------------------------------------------------------------------------------------------------------
public static float GetEasingFunction(Type easingFunction, float t)
{
// Quad
if (easingFunction == Type.EaseInQuad)
{
return(Quadratic.In(t));
}
if (easingFunction == Type.EaseOutQuad)
{
return(Quadratic.Out(t));
}
if (easingFunction == Type.EaseInOutQuad)
{
return(Quadratic.InOut(t));
}
// Cubic
if (easingFunction == Type.EaseInCubic)
{
return(Cubic.In(t));
}
if (easingFunction == Type.EaseOutCubic)
{
return(Cubic.Out(t));
}
if (easingFunction == Type.EaseInOutCubic)
{
return(Cubic.InOut(t));
}
// Quart
if (easingFunction == Type.EaseInQuart)
{
return(Quartic.In(t));
}
if (easingFunction == Type.EaseOutQuart)
{
return(Quartic.Out(t));;
}
if (easingFunction == Type.EaseInOutQuart)
{
return(Quartic.InOut(t));;
}
// Quint
if (easingFunction == Type.EaseInQuint)
{
return(Quintic.In(t));
}
if (easingFunction == Type.EaseOutQuint)
{
return(Quintic.Out(t));
}
if (easingFunction == Type.EaseInOutQuint)
{
return(Quintic.InOut(t));
}
// Sine
if (easingFunction == Type.EaseInSine)
{
return(Sinusoidal.In(t));
}
if (easingFunction == Type.EaseOutSine)
{
return(Sinusoidal.Out(t));
}
if (easingFunction == Type.EaseInOutSine)
{
return(Sinusoidal.InOut(t));
}
// Expo
if (easingFunction == Type.EaseInExpo)
{
return(Exponential.In(t));
}
if (easingFunction == Type.EaseOutExpo)
{
return(Exponential.Out(t));
}
if (easingFunction == Type.EaseInOutExpo)
{
return(Exponential.InOut(t));
}
// CirC
if (easingFunction == Type.EaseInCirc)
{
return(Circular.In(t));
}
if (easingFunction == Type.EaseOutCirc)
{
return(Circular.Out(t));
}
if (easingFunction == Type.EaseInOutCirc)
{
return(Circular.InOut(t));
}
// Linear
if (easingFunction == Type.Linear)
{
return(Linear(t));
}
// Bounce
if (easingFunction == Type.EaseInBounce)
{
return(Bounce.In(t));
}
if (easingFunction == Type.EaseOutBounce)
{
return(Bounce.Out(t));
}
if (easingFunction == Type.EaseInOutBounce)
{
return(Bounce.InOut(t));
}
// Back
if (easingFunction == Type.EaseInBack)
{
return(Back.In(t));
}
if (easingFunction == Type.EaseOutBack)
{
return(Back.Out(t));
}
if (easingFunction == Type.EaseInOutBack)
{
return(Back.InOut(t));
}
// Elastic
if (easingFunction == Type.EaseInElastic)
{
return(Elastic.In(t));
}
if (easingFunction == Type.EaseOutElastic)
{
return(Elastic.Out(t));
}
if (easingFunction == Type.EaseInOutElastic)
{
return(Elastic.InOut(t));
}
return(0);
}
public static float GetTerpedPosition(float time, float totalTime, Function function, Direction direction)
{
switch (function)
{
case Function.Quadratic:
switch (direction)
{
case Direction.In:
return(Quadratic.In(time / totalTime));
case Direction.Out:
return(Quadratic.Out(time / totalTime));
default:
return(Quadratic.InOut(time / totalTime));
}
case Function.Cubic:
switch (direction)
{
case Direction.In:
return(Cubic.In(time / totalTime));
case Direction.Out:
return(Cubic.Out(time / totalTime));
default:
return(Cubic.InOut(time / totalTime));
}
case Function.Quartic:
switch (direction)
{
case Direction.In:
return(Quartic.In(time / totalTime));
case Direction.Out:
return(Quartic.Out(time / totalTime));
default:
return(Quartic.InOut(time / totalTime));
}
case Function.Quintic:
switch (direction)
{
case Direction.In:
return(Quintic.In(time / totalTime));
case Direction.Out:
return(Quintic.Out(time / totalTime));
default:
return(Quintic.InOut(time / totalTime));
}
case Function.Sinusoidal:
switch (direction)
{
case Direction.In:
return(Sinusoidal.In(time / totalTime));
case Direction.Out:
return(Sinusoidal.Out(time / totalTime));
default:
return(Sinusoidal.InOut(time / totalTime));
}
case Function.Exponential:
switch (direction)
{
case Direction.In:
return(Exponential.In(time / totalTime));
case Direction.Out:
return(Exponential.Out(time / totalTime));
default:
return(Exponential.InOut(time / totalTime));
}
case Function.Circular:
switch (direction)
{
case Direction.In:
return(Circular.In(time / totalTime));
case Direction.Out:
return(Circular.Out(time / totalTime));
default:
return(Circular.InOut(time / totalTime));
}
case Function.Elastic:
switch (direction)
{
case Direction.In:
return(Elastic.In(time / totalTime));
case Direction.Out:
return(Elastic.Out(time / totalTime));
default:
return(Elastic.InOut(time / totalTime));
}
case Function.Back:
switch (direction)
{
case Direction.In:
return(Back.In(time / totalTime));
case Direction.Out:
return(Back.Out(time / totalTime));
default:
return(Back.InOut(time / totalTime));
}
default: //Function.Bounce:
switch (direction)
{
case Direction.In:
return(Bounce.In(time / totalTime));
case Direction.Out:
return(Bounce.Out(time / totalTime));
default:
return(Bounce.InOut(time / totalTime));
}
}
}
public static float Ease(EasingType easingFunction, float k)
{
switch (easingFunction)
{
case EasingType.Linear:
return(Linear(k));
case EasingType.QuadraticIn:
return(Quadratic.In(k));
case EasingType.QuadraticOut:
return(Quadratic.Out(k));
case EasingType.QuadraticInOut:
return(Quadratic.InOut(k));
case EasingType.CubicIn:
return(Cubic.In(k));
case EasingType.CubicOut:
return(Cubic.Out(k));
case EasingType.CubicInOut:
return(Cubic.InOut(k));
case EasingType.QuarticIn:
return(Quartic.In(k));
case EasingType.QuarticOut:
return(Quartic.Out(k));
case EasingType.QuarticInOut:
return(Quartic.InOut(k));
case EasingType.QuinticIn:
return(Quintic.In(k));
case EasingType.QuinticOut:
return(Quintic.Out(k));
case EasingType.QuinticInOut:
return(Quintic.InOut(k));
case EasingType.SinusoidalIn:
return(Sinusoidal.In(k));
case EasingType.SinusoidalOut:
return(Sinusoidal.Out(k));
case EasingType.SinusoidalInOut:
return(Sinusoidal.InOut(k));
case EasingType.ExponentialIn:
return(Exponential.In(k));
case EasingType.ExponentialOut:
return(Exponential.Out(k));
case EasingType.ExponentialInOut:
return(Exponential.InOut(k));
case EasingType.CircularIn:
return(Circular.In(k));
case EasingType.CircularOut:
return(Circular.Out(k));
case EasingType.CircularInOut:
return(Circular.InOut(k));
case EasingType.ElasticIn:
return(Elastic.In(k));
case EasingType.ElasticOut:
return(Elastic.Out(k));
case EasingType.ElasticInOut:
return(Elastic.InOut(k));
case EasingType.BackIn:
return(Back.In(k));
case EasingType.BackOut:
return(Back.Out(k));
case EasingType.BackInOut:
return(Back.InOut(k));
case EasingType.BounceIn:
return(Bounce.In(k));
case EasingType.BounceOut:
return(Bounce.Out(k));
case EasingType.BounceInOut:
return(Bounce.InOut(k));
default:
return(Linear(k));
}
}
public static double Specify(EaseType easeType, EaseOption easeOption, double k)
{
switch (easeType)
{
case EaseType.Quadratic:
switch (easeOption)
{
case EaseOption.In:
return(Quadratic.In(k));
case EaseOption.Out:
return(Quadratic.Out(k));
case EaseOption.InOut:
return(Quadratic.InOut(k));
}
break;
case EaseType.Cubic:
switch (easeOption)
{
case EaseOption.In:
return(Cubic.In(k));
case EaseOption.Out:
return(Cubic.Out(k));
case EaseOption.InOut:
return(Cubic.InOut(k));
}
break;
case EaseType.Quartic:
switch (easeOption)
{
case EaseOption.In:
return(Quartic.In(k));
case EaseOption.Out:
return(Quartic.Out(k));
case EaseOption.InOut:
return(Quartic.InOut(k));
}
break;
case EaseType.Quintic:
switch (easeOption)
{
case EaseOption.In:
return(Quintic.In(k));
case EaseOption.Out:
return(Quintic.Out(k));
case EaseOption.InOut:
return(Quintic.InOut(k));
}
break;
case EaseType.Sinusoidal:
switch (easeOption)
{
case EaseOption.In:
return(Sinusoidal.In(k));
case EaseOption.Out:
return(Sinusoidal.Out(k));
case EaseOption.InOut:
return(Sinusoidal.InOut(k));
}
break;
}
return(Linear(k));
}
