private void SetTimescale(float timeScale)
{
Time.timeScale = timeScale;
Time.fixedDeltaTime = 0.02f * timeScale;
m_SourceBGM.pitch = Interpolation.CircularOut(timeScale);
m_Camera.fieldOfView = Mathf.LerpUnclamped(m_CameraMinFOV, m_CameraMaxFOV, timeScale);
}
void Update()
{
if (m_delayStart <= 0.0f)
{
//add deltaTime to the current time
m_currentTime += Time.deltaTime;
if (m_currentTime < m_timeToReachPosition)
{
//based on which effect is selected this will lerp from the curretn position to the desired position
switch (m_effect)
{
//Lerps using the BouceOut Interpolation
case Effect.BOUNCE_OUT:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.BounceOut(m_currentTime / m_timeToReachPosition));
break;
//Lerps using the ElasticOut Interpolation
case Effect.ELASTIC_OUT:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.ElasticOut(m_currentTime / m_timeToReachPosition));
break;
//Lerps using the Linear Interpolation
case Effect.LINEAR:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.Linear(m_currentTime / m_timeToReachPosition));
break;
//Lerps using the CircularOut Interpolation
case Effect.CIRCULAR_OUT:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.CircularOut(m_currentTime / m_timeToReachPosition));
break;
//Lerps using the CircularInOut Interpolation
case Effect.CIRCULAR_IN_OUT:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.CircularInOut(m_currentTime / m_timeToReachPosition));
break;
//Lerps using the CircularIn Interpolation
case Effect.CIRCULAR_IN:
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.SineIn(m_currentTime / m_timeToReachPosition));
break;
}
return;
}
//set the current position to the desired position
transform.position = m_desiredPos;
}
else
{
//remove Deltatime from the m_delayStart
m_delayStart -= Time.deltaTime;
}
}
/// <summary>
/// The secondary animation across the screen.
/// </summary>
IEnumerator FlyInAnimation()
{
yield return(new WaitForSeconds(m_FlyingInStartDelay));
while (m_currentTime < m_FlyingAcrossTimeToReachPosition)
{
m_currentTime += Time.deltaTime;
transform.position = Vector3.LerpUnclamped(m_desiredPos + m_offset, m_desiredPos, Interpolation.CircularOut(m_currentTime / m_FlyingInTimeToReachPosition));
yield return(null);
}
transform.position = m_desiredPos;
}
