| public static easeInBack ( float start, float end, float val, float overshoot = 1.0f ) : float | ||
| start | float | |
| end | float | |
| val | float | |
| overshoot | float | |
| return | float | |
private IEnumerator DoubleTextScaleRoutine()
{
float time = 0.4f;
Vector2 scale = new Vector2(1.4f, 1.4f);
for (float t = 0f; t < time; t += Time.deltaTime)
{
stackSizeText.rectTransform.localScale = Vector2.Lerp(scale, Vector2.one, LeanTween.easeInBack(0f, 1f, t / time));
yield return(null);
}
stackSizeText.rectTransform.localScale = Vector2.one;
}
public float GetValue(float start, float end, float t)
{
switch (Easing)
{
case LeanTweenType.notUsed:
return(0f);
case LeanTweenType.animationCurve:
return(Mathf.Lerp(start, end, AnimationCurve.Evaluate(t)));
case LeanTweenType.linear:
return(LeanTween.linear(start, end, t));
case LeanTweenType.easeOutQuad:
return(LeanTween.easeOutQuad(start, end, t));
case LeanTweenType.easeInQuad:
return(LeanTween.easeInQuad(start, end, t));
case LeanTweenType.easeInOutQuad:
return(LeanTween.easeInOutQuad(start, end, t));
case LeanTweenType.easeInCubic:
return(LeanTween.easeInCubic(start, end, t));
case LeanTweenType.easeOutCubic:
return(LeanTween.easeOutCubic(start, end, t));
case LeanTweenType.easeInOutCubic:
return(LeanTween.easeInOutCubic(start, end, t));
case LeanTweenType.easeInQuart:
return(LeanTween.easeInQuart(start, end, t));
case LeanTweenType.easeOutQuart:
return(LeanTween.easeOutQuart(start, end, t));
case LeanTweenType.easeInOutQuart:
return(LeanTween.easeInOutQuart(start, end, t));
case LeanTweenType.easeInQuint:
return(LeanTween.easeInQuint(start, end, t));
case LeanTweenType.easeOutQuint:
return(LeanTween.easeOutQuint(start, end, t));
case LeanTweenType.easeInOutQuint:
return(LeanTween.easeInOutQuint(start, end, t));
case LeanTweenType.easeInSine:
return(LeanTween.easeInSine(start, end, t));
case LeanTweenType.easeOutSine:
return(LeanTween.easeOutSine(start, end, t));
case LeanTweenType.easeInOutSine:
return(LeanTween.easeInOutSine(start, end, t));
case LeanTweenType.easeInExpo:
return(LeanTween.easeInExpo(start, end, t));
case LeanTweenType.easeOutExpo:
return(LeanTween.easeOutExpo(start, end, t));
case LeanTweenType.easeInOutExpo:
return(LeanTween.easeInOutExpo(start, end, t));
case LeanTweenType.easeInCirc:
return(LeanTween.easeInCirc(start, end, t));
case LeanTweenType.easeOutCirc:
return(LeanTween.easeOutCirc(start, end, t));
case LeanTweenType.easeInOutCirc:
return(LeanTween.easeInOutCirc(start, end, t));
case LeanTweenType.easeInBounce:
return(LeanTween.easeInBounce(start, end, t));
case LeanTweenType.easeOutBounce:
return(LeanTween.easeOutBounce(start, end, t));
case LeanTweenType.easeInOutBounce:
return(LeanTween.easeInOutBounce(start, end, t));
case LeanTweenType.easeInBack:
return(LeanTween.easeInBack(start, end, t));
case LeanTweenType.easeOutBack:
return(LeanTween.easeOutBack(start, end, t));
case LeanTweenType.easeInOutBack:
return(LeanTween.easeInOutBack(start, end, t));
case LeanTweenType.easeInElastic:
return(LeanTween.easeInElastic(start, end, t));
case LeanTweenType.easeOutElastic:
return(LeanTween.easeOutElastic(start, end, t));
case LeanTweenType.easeInOutElastic:
return(LeanTween.easeInOutElastic(start, end, t));
default:
throw new ArgumentOutOfRangeException();
}
}