// Update is called once per frame
void Update()
{
windSpeed = wind.getWind();
Velocity.x = windSpeed;
Velocity.y = 0;
gameObject.transform.Translate(Velocity * Time.deltaTime);
}
// verlet updates
void Move()
{
if (points[0].position.y > 6f)
{
windSpeed = wind.getWind() * 0.2f * Time.deltaTime / 1.25f; //get wind
}
else
{
windSpeed = 0;
}
for (int i = 0; i < 19; i++)
{
if (i == 8)
{
i = 18;
}
//apply initial velocity on first movement, inertia afterwards
if (!firstMove)
{
velX[i] = points[i].position.x - previousPos[i].x + Velocity.x;
velY[i] = points[i].position.y - previousPos[i].y + Velocity.y;
}
else
{
velX[i] = direction * initialVelocity * Time.deltaTime / 20;
if (inTheAir)
{
// do nothing
}
else
{
velY[i] = 0;
}
}
//verlet formulas
currentPos[i].x = points[i].position.x + velX[i] + windSpeed;
if (inTheAir)
{
velY[i] = velY[i] + gravity * Time.deltaTime * 5;
currentPos[i].y = points[i].position.y + velY[i];
}
previousPos[i].x = points[i].position.x;
previousPos[i].y = points[i].position.y;
points[i].position = new Vector3(currentPos[i].x, currentPos[i].y, 0);
}
firstMove = false;
}
void Move()
{
windSpeed = wind.getWind() * 0.2f;
// Debug.Log(Time.deltaTime);
if (Position.y > 6.0 && !bounce)
{
Velocity.x = Velocity.x + windSpeed;
}
Velocity.y = Velocity.y + gravity * Time.deltaTime * 50;
gameObject.transform.Translate(Velocity * Time.deltaTime);
Position = gameObject.transform.position;
}
