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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, UIScrollViewDecelerationRateNormal and 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?

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Why can't you use a UITableView for this? –  nornagon Jan 14 '11 at 1:49
    
Oh, I see -- you want to snap to the nearest menu item when the scrolling finishes? –  nornagon Jan 18 '11 at 2:53
    
I will note that snapping to a menu item like this isn't a standard iOS behavior-- breaking the behavior a user expects (even in a subtle way, like this) can be jarring. –  JonathonW Jan 31 '11 at 1:28
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3 Answers

up vote 14 down vote accepted

Control UIScrollView's targetContentOffset in iOS 5

iOS5 UIScrollViewDelegate has a new method: scrollViewWillEndDragging:withVelocity:targetContentOffset:.

This fits perfectly with what you want to do.

This method is not called when the value of the scroll view’s pagingEnabled property is YES. Your application can change the value of the targetContentOffset parameter to adjust where the scrollview finishes its scrolling animation.

Alternative Solution for iOS4 and Lower

Change the UIScrollView's decelerationRate to UIScrollViewDecelerationFast and then in scrollViewDidEndDecelerating move to the closest "page".

The fast deceleration makes the complete stopping / sliding over a little more natural / less obnoxious.

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You could watch the speed of scrolling while the UIScrollView is decelerating, and when the speed falls beneath a certain value, snap to the nearest menu item.

You will likely want to implement the UIScrollViewDelegate methods scrollViewDidEndDragging:willDecelerate: and scrollViewDidScroll:. When the user lifts their finger to finish a scroll gesture, scrollViewDidEndDragging:willDecelerate: will be called. Begin monitoring the scrollViewDidScroll: events, and watch the delta between the UIScrollView's current position and its previous position, divided by the time delta:

float velocity = (currentPosition - lastPosition) / (currentTime - lastTime);

When the velocity falls below a minimum value, call scrollRectToVisible:animated: on the UIScrollView.

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This is roughly what I ended up doing, but I'm still interested in suggestions for predicting this much earlier. –  Steve Madsen Jan 18 '11 at 18:25
    
Would you be likely to get a noticeably better result by predicting it earlier? –  nornagon Jan 18 '11 at 22:28
    
Sure. The earlier I know where the animation ends, the smoother the animation will be. Consider: if the velocity threshold is 0, I must speed up (or reverse) the scroll movement to snap. As the threshold increases, that effect is less and less noticeable. –  Steve Madsen Jan 31 '11 at 16:32
    
If you make the threshold large enough, is it still accurate enough? If not, try estimating it with a quadratic, rather than a linear approximation. (i.e. measure and predict acceleration as well as velocity) –  nornagon Feb 1 '11 at 4:15
    
@nornagon and Steve Madsen could you please help me on a similar issue? stackoverflow.com/questions/16731569/… –  jonypz May 24 '13 at 14:00
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I cannot comment (I guess I need 50 rep), so this is not a full answer, but given the 0.998 and 0.990 values for deceleration, my instincts are that they simply multiply the current velocity by the deceleration rate each frame.

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