I guessed you are doing this to display part of an image on the screen. Because you mentioned
UIImageView. And optimization problem always need defining the problem specifically.
Trust Apple for Regular UI stuffs
clipsToBounds is one of the fastest/simplest way to archive your goal if your goal is just clipping a rectangular region of an image. (not too big) And also, you don't need to send
Or you can try putting the
UIImageView inside of an empty
UIView and set clipping at the container view. With this technique, you can transform your image freely by setting
transform property in 2D. (in all of scaling, rotation, translation)
If you need 3D transformation, you still can use
masksToBounds property. But using
CALayer will give you very little extra performance usually not considerable.
Anyway, you need to know all of the low-level details to use them properly for optimization.
Why is that one of the fastest ways?
UIView is just a thin layer on top of
CALayer which implemented on top of OpenGL which is virtually direct interface to GPU. This mean whole UIKit is being accelerated by GPU.
So if you use them properly (I mean, within designed limitations), it will perform as well as plain
OpenGL implementation. If you use just a few images to display, you'll get acceptable performance with
UIView implementation because it can get full acceleration of underlying OpenGL (which means GPU acceleration)
Anyway if you need extreme optimization for hundreds of animated sprites with finely tuned pixel shaders like a game app, you should use OpenGL directly. Because
CALayer lacks many options for optimization at lower level. Anyway, at least for optimization of UI stuff, it's incredibly hard to be better than Apple. Apple is doing this over decades.
Why your method is slower than
What you should know is all about GPU acceleration. In all of the recent computers, fast graphics performance is being able to be archived only with GPU. So the point is whether the method you're using is implemented on top of GPU or not.
CGImage drawing methods are not implemented with GPU.
I think I read mentioning about this on Apple's documentation but I can't remember where. So I'm not sure about this. Anyway I believe
CGImage is implemented in CPU because,
- It's API looks like for CPU. Such as pixel level access and text drawing. They don't fit to GPU very well.
- It allows reading operation freely, and it's fast. It means it assumes back-end storage located in memory near CPU. Reading from GPU memory is usually very expensive - slow. Maybe somewhat different on unified memory architecture, but anyway, initial design intention of
CGImage seems to be for CPU.
So it seems to be done in CPU, and any of graphics operations done in CPU is a lot slower than in GPU. Which means should be avoided.
And just clipping image and compositing that image layers are very simple and cheap operation for GPU (at least than CPU). So you can expect the UIKit library will utilize this because whole UIKit is implemented on top of OpenGL.
Because optimization is a kind of work about micro-management, specific numbers and small facts are very important. What's the medium size? OpenGL on iOS usually limits maximum texture size to 1024x1024 pixels. (maybe larger in recent releases) If your image is larger than this, it will not work or performance will be degraded greatly. (I think UIImageView is optimized for images within the limits.)
If you need to display huge images with clipping, you have to go another optimization like
CATiledLayer and that's totally different story.
And don't go OpenGL unless you want to know every details of the OpenGL. It needs full understanding about low-level graphics and 100 times more code at least.