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I have an application that draws images from a CGImage.

The CImage itself is loaded using a CGImageSourceCreateImageAtIndex to create an image from a PNG file.

This forms part of a sprite engine - there are multiple sprite images on a single PNG file, so each sprite has a CGRect defining where it is found on the CGImage.

The problem is, CGContextDraw only takes a destination rect - and stretches the source CGImage to fill it.

So, to draw each sprite image we need to create multiple CGImages from the original source, using CGImageCreateWithImageInRect().

I thought at first that this would be a 'cheap' operation - it doesn't seem necessary for each CGImage to contain its own copy of the images bits - however, profiling has revealed that using CGImageCreateWithImageInRect() is a rather expensive operation.

Is there a more optimal method to draw a sub-section of a CGImage onto a CGContext so I dont need to CGImageCreateWithImageInRect() so often?

Given the lack of a source rectangle, and the ease of making a CGImage from a rect on a CGImage I began to suspect that perhaps CGImage implemented a copy-on-write semantic where a CGImage made from a CGImage would refer to a sub-rect of the same physical bits as the parent. Profiling seems to prove this wrong :/

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3 Answers 3

I was in the same boat as you. CGCreateImageWithImageInRect() worked better for my needs but previously I had attempted to convert to an NSImage, and prior to that I was clipping the context I was drawing in, and translating so that CGContextDrawImage() would draw the right data into the clipped region.

Of all of the solutions I tried:

  1. Clipping and translating was prohibitively tolling on the CPU. It was too slow. It seemed that increasing the amount of bitmap data only slightly made significant performance impacts, suggesting that this approach lacks any sort of scalability.

  2. Conversion to NSImage was relatively efficient, at least for the data we were using. There didn't seem to be any duplication of bitmap data that I could see, which was mostly what I was afraid of going from one image object to another.

  3. At one point I converted to a CIImage, as this class also allows drawing subregions of the image. This seemed to be slower than converting to NSImage, but did offer me the chance to fiddle around with the bitmap by passing through some of the Core Image filters.

  4. Using CGCreateImageWithImageInRect() was the fastest of the lot; maybe this has been optimised since you had last used it. The documentation for this function says the resulting image retains a reference to the original image, this seems to agree with what you had assumed regarding copy-on-write semantics. In my benchmarks, there appears to be no duplication of data but maybe I'm reading the results wrong. We went with this method because it was not only the fastest but it seemed like a more “clean” approach, keeping the whole process in one framework.

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Create an NSImage with the CGImage. An NSImage object makes it easy to draw only some section of it to a destination rectangle.

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it would be ironic if the api i was avoiding as 'inefficient' turned out to bemroe capable and faster. –  Chris Becke Aug 25 '10 at 14:23
CGImage is better for some things, especially reading and writing raster images (with Image I/O). But NSImage is better for some things, too, like resolution-independent drawing (since an NSImage has a size in points to go with its representations' sizes in pixels). There's no single best-at-everything image class on Mac OS X. –  Peter Hosey Aug 25 '10 at 14:42

I believe the recommendation is to use a clipping region.

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