2

I use SurfaceView for my 2D Android game which I have almost completed. It's based on JBox2D. It is perfectly running on Samsung Galaxy S2, its FPS is 60. It is also running smoothly on HTC Explorer, its FPS is about 54. I thought that if my game was working well in these relatively old devices, it would be working better in the newer ones. But I was wrong! I saw yesterday the FPS value of my game on Galaxy Note 4 is varied between 22 and 45 depending on the number of game objects.

After investigating on this issue in Google and StackOverflow, I deduced that the new devices like Galaxy Note 4 which has higher resolutions (1440 x 2560) could not handle with their large images whereas the little ones can handle with their own smaller images (Galaxy s2:480 x 800, HTC Explorer:320 x 480). Yes, the new devices are surely faster than the older ones, but I think their huge resolutions of the newer devices are the reason of the slowness on the SurfaceView. Of course, this is valid under SurfaceView conditions. If I used OpenGL for my game, it would not be a problem for the new devices having high resolutions.

My bitmaps are designed for 800 x 1280 devices. According to the different device resolutions, my game rescales the images when they are loaded at the beginning of the each level by using createScaledBitmap.

I couldn't transform my game from SurfaceView to OpenGL platform because my game is about to finish and I didn't have enough knowledge about OpenGL.

What should I do?

4
  • The solution highly depends on your code and whether it can be optimized. But if we forget about the code, there is only one way - just scale up the smaller image. These new high resolution screens have pixel so small you could barely see individual pixels. So I'd just draw my images in smaller resolution surface (like for an old phone) and then just scale that surface over the screen. Or scale each individual bitmap during draw, I'm not sure what is more suitable. In the end, your game will look a bit pixelated but not to the point of being unplayable I think. Feb 21, 2015 at 19:05
  • You can also think about not using the whole screen area. Remember the Doom game which had an option to reduce screen area in order to improve performance. Your game screen will just have some borders around which you still can use for good. For example you can place HUDs and control elements there so they won't obstruct the game screen. Feb 21, 2015 at 19:11
  • Thank you for the valuable tips! Do you mean, in the first comment, that the scaling operation has less computational cost than drawing big bitmaps?
    – adba
    Feb 21, 2015 at 19:17
  • 1
    Scaling usually does not have less cost (by the way, scaling exactly 2x is the best) but painting many smaller bitmaps and then scaling can have less cost in total. In the best case, there should be only one scaling operation: copying the smaller surface to the bigger which is the screen (or some other technique which I don't know). This operation at least takes constant time so it won't depend on the number of screen objects. Anyway you should test any solution, there is no definitive answer for any possible case. Feb 21, 2015 at 19:33

1 Answer 1

4

I believe you have correctly identified the problem: newer devices have pixel counts like you'd find on a 27" monitor (2560x1440), because the manufacturers are chasing screen resolution like they do camera megapixels. The result is that rendering a full screen takes longer, especially when you're doing it in software. Faster CPUs and increased bus bandwidth can help, but full-screen software rendering is problematic.

The solution for Android is to make the Surface smaller, and let the hardware scale it up as it's being scanned out. This is significantly easier (and more efficient) than scaling up each individual item. You do this with the SurfaceHolder#setFixedSize() method. For example, for a 2560x1440 display, you could set the Surface size to 1280x720, and only render a quarter of the pixels. The display performs the pixel doubling (with bilinear filtering).

You can find a blog post here, and can see this in action in Grafika's "hardware scaler exerciser" activity (youtube demo video).

The various examples use GLES -- which also benefits from having fewer pixels to fill -- but applies to Canvas rendering as well.

0

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.