public override void PreProcess(SKCanvas canvas, SKRect renderBounds, SKPaint paint)
{
// Progress moves from 0 to 2 bring that back to a value moving from 0 to 1 to 0
float progress = _progress;
if (progress > 1)
{
progress = 2 - progress;
}
float alphaMultiplier;
if (_progress <= 1f)
{
if (Properties.BrightenTransitionMode.CurrentValue == StrobeTransitionMode.Linear)
{
alphaMultiplier = progress;
}
else if (Properties.BrightenTransitionMode.CurrentValue == StrobeTransitionMode.Eased)
{
alphaMultiplier = (float)Easings.BounceEaseInOut(progress);
}
else
{
alphaMultiplier = MathF.Round(progress, 0);
}
}
else
{
if (Properties.DimTransitionMode.CurrentValue == StrobeTransitionMode.Linear)
{
alphaMultiplier = progress;
}
else if (Properties.DimTransitionMode.CurrentValue == StrobeTransitionMode.Eased)
{
alphaMultiplier = (float)Easings.BounceEaseInOut(progress);
}
else
{
alphaMultiplier = MathF.Round(progress, 0);
}
}
if (Properties.Inverted == true)
{
alphaMultiplier = 1 - alphaMultiplier;
}
paint.ColorF = paint.ColorF.WithAlpha(paint.ColorF.Alpha * alphaMultiplier);
}
// Token: 0x06000001 RID: 1 RVA: 0x00002050 File Offset: 0x00000250
public static float Interpolate(float p, Easings.Functions function)
{
switch (function)
{
default:
return(Easings.Linear(p));
case Easings.Functions.QuadraticEaseIn:
return(Easings.QuadraticEaseIn(p));
case Easings.Functions.QuadraticEaseOut:
return(Easings.QuadraticEaseOut(p));
case Easings.Functions.QuadraticEaseInOut:
return(Easings.QuadraticEaseInOut(p));
case Easings.Functions.CubicEaseIn:
return(Easings.CubicEaseIn(p));
case Easings.Functions.CubicEaseOut:
return(Easings.CubicEaseOut(p));
case Easings.Functions.CubicEaseInOut:
return(Easings.CubicEaseInOut(p));
case Easings.Functions.QuarticEaseIn:
return(Easings.QuarticEaseIn(p));
case Easings.Functions.QuarticEaseOut:
return(Easings.QuarticEaseOut(p));
case Easings.Functions.QuarticEaseInOut:
return(Easings.QuarticEaseInOut(p));
case Easings.Functions.QuinticEaseIn:
return(Easings.QuinticEaseIn(p));
case Easings.Functions.QuinticEaseOut:
return(Easings.QuinticEaseOut(p));
case Easings.Functions.QuinticEaseInOut:
return(Easings.QuinticEaseInOut(p));
case Easings.Functions.SineEaseIn:
return(Easings.SineEaseIn(p));
case Easings.Functions.SineEaseOut:
return(Easings.SineEaseOut(p));
case Easings.Functions.SineEaseInOut:
return(Easings.SineEaseInOut(p));
case Easings.Functions.CircularEaseIn:
return(Easings.CircularEaseIn(p));
case Easings.Functions.CircularEaseOut:
return(Easings.CircularEaseOut(p));
case Easings.Functions.CircularEaseInOut:
return(Easings.CircularEaseInOut(p));
case Easings.Functions.ExponentialEaseIn:
return(Easings.ExponentialEaseIn(p));
case Easings.Functions.ExponentialEaseOut:
return(Easings.ExponentialEaseOut(p));
case Easings.Functions.ExponentialEaseInOut:
return(Easings.ExponentialEaseInOut(p));
case Easings.Functions.ElasticEaseIn:
return(Easings.ElasticEaseIn(p));
case Easings.Functions.ElasticEaseOut:
return(Easings.ElasticEaseOut(p));
case Easings.Functions.ElasticEaseInOut:
return(Easings.ElasticEaseInOut(p));
case Easings.Functions.BackEaseIn:
return(Easings.BackEaseIn(p));
case Easings.Functions.BackEaseOut:
return(Easings.BackEaseOut(p));
case Easings.Functions.BackEaseInOut:
return(Easings.BackEaseInOut(p));
case Easings.Functions.BounceEaseIn:
return(Easings.BounceEaseIn(p));
case Easings.Functions.BounceEaseOut:
return(Easings.BounceEaseOut(p));
case Easings.Functions.BounceEaseInOut:
return(Easings.BounceEaseInOut(p));
}
}
void Update()
{
transform.position -= Vector3.forward * Time.deltaTime * playModel.worldSpeed_Current;
timer += Time.deltaTime;
if (timer <= quarterLife)
{
transform.localScale = Vector3.Lerp(Vector3.zero, Vector3.one * gameModel.f_Rockets_ExplosionBallSize, Easings.BounceEaseInOut(timer / quarterLife));
}
else if (timer >= quarterLife * 3)
{
transform.localScale = Vector3.Lerp(Vector3.one * gameModel.f_Rockets_ExplosionBallSize, Vector3.zero, Easings.BounceEaseInOut((timer - (3 * quarterLife)) / quarterLife));
}
}
