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I'm working on a fairly straightforward 2D tower defense game for iOS.

So far, I've been using Core Graphics exclusively to handle rendering. There are no image files in the app at all (yet). I've been experiencing some significant performance issues doing relatively simple drawing, and I'm looking for ideas as to how I can fix this, short of moving to OpenGL.

Game Setup

At a high level, I have a Board class, which is a subclass of UIView, to represent the game board. All other objects in the game (towers, creeps, weapons, explosions, etc) are also subclasses of UIView, and are added as subviews to the Board when they are created.

I keep game state totally separate from view properties within the objects, and each object's state is updated in the main game loop (fired by an NSTimer at 60-240 Hz, depending on the game speed setting). The game is totally playable without ever drawing, updating, or animating the views.

I handle view updates using a CADisplayLink timer at the native refresh rate (60 Hz), which calls setNeedsDisplay on the board objects that need to have their view properties updated based on changes in the game state. All the objects on the board override drawRect: to paint some pretty simple 2D shapes within their frame. So when a weapon, for example, is animated, it will redraw itself based on the weapon's new state.

Performance Issues

Testing on an iPhone 5, with about 2 dozen total game objects on the board, the frame rate drops significantly below 60 FPS (the target frame rate), usually into the 10-20 FPS range. With more action on the screen, it goes downhill from here. And on an iPhone 4, things are even worse.

Using Instruments I've determined that only roughly 5% of the CPU time is being spent on actually updating the game state -- the vast majority of it is going towards rendering. Specifically, the CGContextDrawPath function (which from my understanding is where the rasterization of vector paths is done) is taking an enormous amount of CPU time. See the Instruments screenshot at the bottom for more details.

From some research on StackOverflow and other sites, it seems as though Core Graphics just isn't up to the task for what I need. Apparently, stroking vector paths is extremely expensive (especially when drawing things that aren't opaque and have some alpha value < 1.0). I'm almost certain OpenGL would solve my problems, but it's pretty low level and I'm not really excited to have to use it -- it doesn't seem like it should be necessary for what I'm doing here.

The Question

Are there any optimizations I should be looking at to try to get a smooth 60 FPS out of Core Graphics?

Some Ideas...

Someone suggested that I consider drawing all my objects onto a single CALayer instead of having each object on its own CALayer, but I'm not convinced that this would help based on what Instruments is showing.

Personally, I have a theory that using CGAffineTransforms to do my animation (i.e. draw the object's shape(s) in drawRect: once, then do transforms to move/rotate/resize its layer in subsequent frames) would solve my problem, since those are based directly on OpenGL. But I don't think it would be any easier to do that than just use OpenGL outright.

Sample Code

To give you a feel for the level of drawing I'm doing, here's an example of the drawRect: implementation for one of my weapon objects (a "beam" fired from a tower).

Note: this beam can be "retargeted" and it crosses the entire board, so for simplicity its frame is the same dimensions as the board. However most other objects on the board have their frame set to the smallest circumscribed rectangle possible.

- (void)drawRect:(CGRect)rect
    CGContextRef c = UIGraphicsGetCurrentContext();

    // Draw beam
    CGContextSetStrokeColorWithColor(c, [UIColor greenColor].CGColor);
    CGContextSetLineWidth(c, self.width);
    CGContextMoveToPoint(c, self.origin.x, self.origin.y);
    CGPoint vector = [TDBoard vectorFromPoint:self.origin toPoint:self.destination];
    double magnitude = sqrt(pow(self.board.frame.size.width, 2) + pow(self.board.frame.size.height, 2));
    CGContextAddLineToPoint(c, self.origin.x+magnitude*vector.x, self.origin.y+magnitude*vector.y);


Instruments Run

Here's a look at Instruments after letting the game run for a while:

The TDGreenBeam class has the exact drawRect: implementation shown above in the Sample Code section.

Full Size Screenshot Instruments run of the game, with the heaviest stack trace expanded.

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+1 for the way question is formatted. Easy to understand. –  iDev Nov 7 '12 at 20:08

3 Answers 3

up vote 11 down vote accepted

Core Graphics work is performed by the CPU. The results are then pushed to the GPU. When you call setNeedsDisplay you indicate that the drawing work needs to occur afresh.

Assuming that many of your objects retain a consistent shape and merely move around or rotate you should simply call setNeedsLayout on the parent view, then push the latest object positions in that view's layoutSubviews, probably directly to the center property. Merely adjusting positions does not cause a thing to need to be redrawn; the compositor will simply ask the GPU to reproduce the graphic it already has at a different position.

A more general solution for games might be to ignore center, bounds and frame other than for initial setup. Simply push the affine transforms you want to transform, probably created using some combination of these helpers. That'll allow you aribtrarily to reposition, rotate and scale your objects without CPU intervention — it'll all be GPU work.

If you want even more control then each view has a CALayer with its own affineTransform but they also have a sublayerTransform that combines with the transforms of sublayers. So if you're so interested in 3d then the easiest way is to load a suitable perspective matrix as the sublayerTransform on the superlayer and then push suitable 3d transforms to the sublayers or subviews.

There's a single obvious downside to this approach in that if you draw once and then scale up you'll be able to see the pixels. You can adjust your layer's contentsScale in advance to try to ameliorate for that but otherwise you're just going to see the natural consequence of allowing the GPU to proceed with compositing. There's a magnificationFilter property on the layer if you want to switch between linear and nearest filtering; linear is the default.

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Great insights. I was suspecting that the bulk of the Core Graphics work was being done on the CPU, and then the GPU was just doing layer compositing. This, I believe, is the heart of the problem -- while my game's graphics are pretty simple, there are still a good number of vector paths that need to be changed and rasterized again each frame. This appears to be nontrivial work for the CPU. I think your suggestions are great ideas to stretch Core Graphics as much as possible, but really, it looks like I'm working at a level where I need OpenGL to offload all the graphics rendering to the GPU. –  smileyborg Nov 8 '12 at 2:39
An update: I was able to squeeze a little more juice out of Core Graphics by telling the Board to setNeedsLayout and then updating the positioning of board objects that didn't need a full-blown redraw. But still not good enough, so I'm in the process of moving all the views over to OpenGL using GLKit. Using this excellent tutorial I've built a simple game engine to meet my needs. Actually hasn't been too painful. I'm about halfway done moving all the rendering over to it, and will report back with benchmarks and info once I'm done. –  smileyborg Nov 11 '12 at 9:10
how did the transition go for you smileyborg? –  Joris Weimar Oct 3 '13 at 17:14
@JorisWeimar I didn't end up actually finishing the transition to OpenGL because I hit another interesting stumbling block: my simple OpenGL game engine, while functional, was not very well designed or optimized for minimizing CPU load. I found that once I had moved most game objects to use it instead of Core Graphics, the app was once again CPU bound trying to feed the GPU with new vertices each frame...yikes. Ended up shelving this project at that point (it was just for fun/learning anyways). If I picked this up again, iOS 7's Sprite Kit and related technologies would be the way to go. –  smileyborg Oct 9 '13 at 6:08

Chances are, you're overdrawing. That is, drawing redundant information.

So you will want to break up your view hierarchy into layers (as you also mentioned). Update/draw only what is needed. The layers can cache the composited intermediates, then the GPU can composite all those layers quickly. But you need to be careful to draw only what you need to draw, and invalidate only regions of layers which actually change.

Debug it: Open "Quartz Debug" and enable "Flash Identical Screen Updates", then run your app in the simulator. You want to minimize those colored flashes.

Once overdrawing is fixed, consider what you can render on a secondary thread (e.g. CALayer.drawsAsynchronously), or how you could approach compositing intermediate representations (e.g. caching) or rasterizing invariant layers/rects. Be careful to measure costs (e.g. memory and CPU) when performing these changes.

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Good tips overall, but based on what I'm seeing from the Instruments runs, this wouldn't quite solve my problem. For example, the TDGreenBeam class (whose drawRect: code I gave as a sample) needs to redraw itself every frame, as the width (aka stroke) of the line representing the beam changes over time -- the beam gets thinner and thinner until it's gone. And since Instruments appears to show that stroking the vector path for the line is a very expensive operation, I can't do much about it. Would have to take a different approach, such as a transform on the layer to animate the "thinning". –  smileyborg Nov 8 '12 at 2:31
@smileyborg it certainly wasn't meant to cover every technique possible. if that beam were all that changes, you could rasterize everything else behind it and then 60 fps would be no problem. Quartz Debug could point this problem out. also, could you in some cases use CGContextFillRect? –  justin Nov 8 '12 at 2:50
I am using CGContextFillRect for other shapes. Do you think that it would somehow be faster to draw lines as long, thin filled rectangles? (Just curious, this alone wouldn't be enough to get the performance I'm looking for.) –  smileyborg Nov 8 '12 at 3:05
@smileyborg i suspect that it would be, but not a huge gain. it doesn't hurt to try and measure -- it's only a few lines to change! –  justin Nov 8 '12 at 3:17

If your code "has to redraw" on every frame, then it is better to think about how you can use the graphics hardware to implement the same thing, instead of calling back into your code to redraw the CALayer every time.

For example, with your line example, you could create render logic that consists of a series of tiles. The filled center portion could be a solid tile that you cache as a CALayer and then draw over and over to fill the area to a certain height. Then, have another CALayer that is the edge of the ray where it alpha fades to transparent going away from the ray edge. Render this CALayer at the top and bottom (with 180 degrees of rotation) so that you end up with a ray of a certain height that has a nice blended edge below and above. Then, repeat this process making the ray wider and then shorter until it finally ends.

You can then render the larger shape with graphics card hardware acceleration but your calling code does not need to actually draw and then transfer image data in every loop. Each "tile" will have already been transferred from the CPU to the GPU, and affine transforms in the GPU are very fast. Basically, you just don't want to render every time and then have to wait for all the rendered image memory to have to transfer to the GPU.

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Good feedback. The (obvious) problem is that these kind of optimizations are not easy. The real answer is that you really want to leverage some sort of graphics engine which already solves this and exposes it in a more convenient fashion - and Core Graphics just isn't up to the task. If I were still working on this project, I'd turn to the new SpriteKit API in iOS 7. –  smileyborg Aug 19 '13 at 6:07

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