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I'm working on a web application for iOS that uses a fixed position header (much like Gmail's mobile interface).

Since mobile browsers ignore position:fixed, this is a little tricky.

Then, I found Google's excellent article on how they implemented it for the mobile version of Gmail:


The only problem - they left out several key pieces of code (as "exercises for the reader"). I don't know if they did this to protect their own code, or just to keep the tutorial short.

In any case, I've been able to fill in most, but not all of the missing pieces. The part I'm stuck on... what to do if the momentum takes the scrollable area past the boundaries of the scrollable frame.

Here's what the article suggests:

In our implementation we detect this case and handle it by queueing up several transitions. The first transition takes us to the boundary, here the final velocity is not zero so we need a different cubic-bezier timing function. The second transition bounces past the boundary a little bit, the final velocity is zero so we can use the cubic-bezier timing function shown above. The third transition decelerates the content back to the boundary using the build in ease-out timing function.

That makes sense, but a few things I can't figure out...

  1. How do you specify a webkit transition with a timing function in which the final velocity is NOT zero? In other words, when you use a cubic-bezier for the timing function, you can only specify the middle two control points - the fisrt (0,0) and last (1,1) are assumed. So, isn't the final velocity ALWAYS zero?

  2. How do you calculate what the velocity SHOULD be when you reach the boundary?

If anyone has worked out the details of this, and is willing to share it - that'd be much appreciated!

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3 Answers 3

up vote 0 down vote accepted

As shown on rumour sites, leaks of iOS5 have shown that workarounds will be no longer necessary. position:fixed just works.

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-1 Wish I could down vote this, because position:fixed, doesn't just work. If you focus on an input in a fixed position element, then the virtual keyboard comes up and the position:fixed breaks and switches to relative. This is in iOS6 –  Matthew Harrison Dec 20 '12 at 22:45

For #2, working off of

vf2 = vi2 + 2*a*d

the velocity at the boundary would be:

var velocityAtBoundary = (Math.sqrt(Math.pow(velocity, 2) + (2*acceleration*distanceToBoundary))) * ((velocity > 0) ? 1 : -1);

It looks like you'll already have the velocity and acceleration. Once you figure out the distance to the boundary, you'll be good to go.

Did you figure out #1?

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Mark - sorry for the delayed response. I'd given up on ever getting an answer, so I haven't been checking frequently. Anyway, thanks for your response. However, since I still haven't figured out an answer for #1, it's sort of moot. Actually (hopefully) totally moot, since iOS5 is rumored to support position:fixed, which obviates our need to code our own solution. –  mattstuehler Jul 11 '11 at 19:24

You can use position: -webkit-sticky;. I recently found that I could use it and it's been wonderful. (iOS version 6+, btw)

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