I would like to be able to predict the final resting offset within a UIScrollView after a flick gesture. It doesn't need to be pixel-accurate, but close enough so that the user does not perceive a difference (i.e. it doesn't move excessively less or more than they are used to).
I know someone will ask, so: Why? I have a table view-like menu control inside a UIScrollView. I would like to make it such that the top-most menu item is fully displayed and flush to the top of the UIScrollView. UIScrollView's paging feature is not quite what I want, because a strong flick doesn't fly past multiples of the view bounds.
Handling normal touch events is easy enough. On
touchesEnded:withEvent:, I can scroll to the nearest full menu item. The hard part is deceleration.
There are two constants for the deceleration rate,
UIScrollViewDecelerationRateFast. Their values are 0.998 and 0.990 in iPhone OS 3.0. I have tried to figure out the math that Apple uses to slow movement, but I'm coming up empty.
If I can predict with some accuracy the final resting offset, then early during deceleration I can simply use
scrollRectToVisible:animated: to move to an offset with a menu item flush to the top of the view bounds.
Do any math-inclined people know what Apple may be doing during deceleration? Should I collect a bunch of numbers of deceleration events, graph them and come up with something close?