I have my app running on my iPad. but it is performing very badly -- I am getting below 15fps. can anyone help me to optimise?
It is basically a wheel (derived from UIView) 开发者_运维问答containing 12 buttons (derived from UIControl).
As the user spins it, the buttons dynamically expand and contract (e.g. the one at the 12 o'clock position should always be the biggest)
So my wheel contains a:
- (void) displayLinkIsCallingBack: (CADisplayLink *) dispLink
{
:
// using CATransaction like this goes from 14fps to 19fps
[CATransaction begin];
[CATransaction setDisableActions: YES];
// NEG, as coord system is flipped/fucked
self.transform = CGAffineTransformMakeRotation(-thetaWheel);
[CATransaction commit];
if (BLA)
[self rotateNotch: direction];
}
… which calculates from recent touch input the new rotation for the wheel. There is already one performance issue here which I am pursuing on a separate thread: iOS Core-Animation: Performance issues with CATransaction / Interpolating transform matrices
This routine also checks whether the wheel has completed another 1/12 rotation, and if so instructs all 12 buttons to resize:
// Wheel.m
- (void) rotateNotch: (int) direction
{
for (int i=0; i < [self buttonCount] ; i++)
{
CustomButton * b = (CustomButton *) [self.buttons objectAtIndex: i];
// Note that b.btnSize is a dynamic property which will calculate
// the desired button size based on the button index and the wheels rotation.
[b resize: b.btnSize];
}
}
Now for the actual resizing code, in button.m:
// Button.m
- (void) scaleFrom: (float) s_old
to: (float) s_new
time: (float) t
{
CABasicAnimation * scaleAnimation = [CABasicAnimation animationWithKeyPath: @"transform.scale"];
[scaleAnimation setDuration: t ];
[scaleAnimation setFromValue: (id) [NSNumber numberWithDouble: s_old] ];
[scaleAnimation setToValue: (id) [NSNumber numberWithDouble: s_new] ];
[scaleAnimation setTimingFunction: [CAMediaTimingFunction functionWithName: kCAMediaTimingFunctionEaseOut] ];
[scaleAnimation setFillMode: kCAFillModeForwards];
scaleAnimation.removedOnCompletion = NO;
[self.contentsLayer addAnimation: scaleAnimation
forKey: @"transform.scale"];
if (self.displayShadow && self.shadowLayer)
[self.shadowLayer addAnimation: scaleAnimation
forKey: @"transform.scale"];
size = s_new;
}
// - - -
- (void) resize: (float) newSize
{
[self scaleFrom: size
to: newSize
time: 1.];
}
I wonder if the problem is related to the overhead of multiple transform.scale operations queueing up -- each button resize takes a full second to complete, and if I am spinning the wheel fast I might spin a couple of revolutions per second; that means that each button is getting resized 24 times per second.
** creating the button's layer **
The final piece of the puzzle I guess is to have a look at the button's contentsLayer. but I have tried
contentsLayer.setRasterize = YES;
which should effectively be storing it as a bitmap. so with the setting the code is in effect dynamically resizing 12 bitmaps.
I can't believe this is taxing the device beyond its limits. however, core animation instrument tells me otherwise; while I am rotating the wheel (by dragging my finger in circles), it is reporting ~15fps.
This is no good: I eventually need to put a text layer inside each button and this is going to drag performance down further (...unless I am using the .setRasterize setting above, in which case it should be the same).
There must be something I'm doing wrong! but what?
EDIT: here is the code responsible for generating the button content layer (ie the shape with the shadow):
- (CALayer *) makeContentsLayer
{
CAShapeLayer * shapeOutline = [CAShapeLayer layer];
shapeOutline.path = self.pOutline;
CALayer * contents = [CALayer layer];
// get the smallest rectangle centred on (0,0) that completely contains the button
CGRect R = CGRectIntegral(CGPathGetPathBoundingBox(self.pOutline));
float xMax = MAX(abs(R.origin.x), abs(R.origin.x+R.size.width));
float yMax = MAX(abs(R.origin.y), abs(R.origin.y+R.size.height));
CGRect S = CGRectMake(-xMax, -yMax, 2*xMax, 2*yMax);
contents.bounds = S;
contents.shouldRasterize = YES; // try NO also
switch (technique)
{
case kMethodMask:
// clip contents layer by outline (outline centered on (0, 0))
contents.backgroundColor = self.clr;
contents.mask = shapeOutline;
break;
case kMethodComposite:
shapeOutline.fillColor = self.clr;
[contents addSublayer: shapeOutline];
self.shapeLayer = shapeOutline;
break;
default:
break;
}
if (NO)
[self markPosition: CGPointZero
onLayer: contents ];
//[self refreshTextLayer];
//[contents addSublayer: self.shapeLayerForText];
return contents;
}
as you can see, I'm trying every possible approach, I am trying two methods for making the shape, and separately I am toggling .shouldRasterize
** compromising the UI design to get tolerable frame rate **
EDIT: Now I have tried disabling the dynamic resizing behaviour until the wheel settles into a new position, and setting wheel.setRasterize = YES. so it is effectively spinning a single prerendered UIView (which is admittedly taking up most of the screen) underneath the finger (which it happily does @~60fps), until the wheel comes to rest, at which point it performs this laggy resizing animation (@<20fps).
while this gives a tolerable result, it seems nuts that I am having to sacrifice my UI design in such a way. I feel sure I must be doing something wrong.
EDIT: I have just tried as an experiment to resize buttons manually; ie put a display link callback in each button, and dynamically calculate the expected size of this given frame, explicitly disable animations with CATransaction the same as I did with the wheel, set the new transformation matrix (scale transform generated from the expected size). added to this I have set the buttons content layer shouldRasterize = YES. so it should be simply scaling 12 bitmaps each frame onto a single UIView which is itself rotating. amazingly this is dead slow, it is even bringing the simulator to a halt. It is definitely 10 times slower than doing it automatically using core animation's animation feature.
I have no experience in developing iPad applications but I do have some in optimizing video games. So, I cannot give an exact answer but I want to give some tips in optimization.
Do not guess. Profile it.
It seems you are trying to make changes without profiling the code. Changing some suspicious code and crossing your fingers does not really work. You should profile your code by examining how long
each task takes and how often
they need to run. Try to break down your tasks and put profiling code to measure time
and frequency
. It's even better if you can measure how much memory
are used for each task, or how many other system resources. Find your bottleneck based an evidence, not your feeling.
For your specific problem, you think the program gets really slow when your resizing work kicks in. But, are you sure? It could be something else. We don't know for sure until we have actual profiling data.
Minimize problematic area and measure real performance before making changes.
After profiling, you have a candidate for your bottleneck. If you can still split the cause to several small tasks, do it and go to profile them until you cannot split it anymore. Then, try to measure their precise performance by running them repeatedly like a few thousand times. This is important because you need to know the performance (speed & space) before making any changes so that you can compare it to future changes.
For your specific problem, if resizing is really the issue, try to examine how it performs. How long it takes to perform one resize call? How often you need to do resize work to complete your job?
Improve it. How? It depends.
Now, you have the problematic code block and its current performance. You now have to improve it. How? well, it really depends on what the problem is. you could search for better algorithms
, you could do lazy fetching
if you can delay calculations until you really need to perform, or you could do over-eager evaluation
by caching some data if you are doing the same operation too frequently. The better you know the cause, the easier you can improve it.
For your specific problem, it might be just the limit of OS ui function. Usually, resizing button is not just resizing button itself but it also invalidates
a whole area or its parent widget so that every ui stuff can be rendered properly. Resizing button could be expensive and if that's the case, you could resolve the issue by simply using image-based approach instead of OS ui-based system. You could try to use OpenGL if image operations from OS API are not enough. But, again, we don't know until we actually try them out and profile
these alternatives. Good luck! :)
Try it without your shadows and see if that improves performance. I imagine it will improve it greatly. Then I'd look into using CALayer's shadowpath for rendering shadows. That will greatly improve shadow rendering performance.
Apple's Core Animation videos from last year's WWDC have a lot of great info on increasing performance in core animation.
By the way, I'm animating something way more complex then this right now and it works beautifully even on an older iPhone 3G. The hardware/software is quite capable.
I know this question is old, but still up to date. CoreAnimation (CA) is just a wrapper around OpenGL - or meanwhile maybe around Metal. Layers are in fact textures drawn on rectangles and the animations are expressed using 3D transformations. As all of this is handled by the GPU, it should be ultra fast... but it isn't. The whole CA sub-system seems pretty complex and translating between AppKit/UIKit and the 3D world is harder than it seems (if you ever tried to write such a wrapper yourself, you know how hard it can be). To the programmer, CA offers a super simple to use interface but this simplicity comes with a price. All my attempts to optimize very slow CA were futile so far; you can speed it up a bit but at some point you have to reconsider your approach: Either CA is fast enough to does the job for you or you need to stop using CA and either implement all animation yourself using classic view drawing (if the CPU can cope with that) or implement the animations yourself using a 3D API (then the GPU will do it), in which case you can decide how the 3D world interacts with the rest of your app; the price is much more code to write or much more complex API to use, but the results will speak for themselves in the end.
Still, I'd like to give some generic tips about speeding up CA:
- Every time you "draw" to a layer or load content into a layer (a new image), the data of the texture backing this layer needs to be updated. Every 3D programmer knows: Updating textures is very expensive. Avoid that at all costs.
- Don't use huge layers as if layers are too big to be handled directly by the GPU as a single texture, they are split into multiple textures and this alone makes performance worse.
- Don't use too many layers as the amount of memory GPUs can spend on textures is often limited. If you need more memory than that limit, textures are swapped out (removed from GPU memory to make room for other textures, later on added back when they need to drawn). See first tip above, this kind of swapping is very expensive.
- Don't redraw things that don't need redrawing, cache into images instead. E.g. drawing shadows and drawing gradients are both utlra expensive and usually rarely ever change. So instead of making CA draw them each time, draw them once to a layer or draw them to an image and load that image to a
CALayer
, then position the layer where you need it. Monitor when you need to update them (e.g. if the size of an object has changed), then re-draw them once and again cache the result. CA itself also tries to cache results, but you get better results if you control that caching yourself. - Careful with transparency. Drawing an opaque layer is always faster than drawing one that isn't. So avoid using transparency where not needed as the system will not scan all your content for transparency (or the lack of it). If a
NSView
contains no area where its parent shines through, make a custom subclass and overrideisOpaque
to returnYES
. Same holds true forUIView
s and layers where neither the parent, nor their siblings will ever shine through, but here it is enough to just set theopaque
property toYES
.
If none of that really helps, you are pushing CA to its limits and you probably need to replace it with something else.
You should probably just re do this in OpenGL
Are you using shadows on your layer for me it was a cause of performance issue, then you have 2 options AFAIK: - setting shadowPath that way, CA does not have to compute it everytime - removing shadows and using images to replace
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