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I have built a camera using AVFoundation.

Once my AVCaptureStillImageOutput has completed its captureStillImageAsynchronouslyFromConnection:completionHandler: method, I create a NSData object like this:

         NSData *imageData = [AVCaptureStillImageOutput jpegStillImageNSDataRepresentation:imageDataSampleBuffer];

Once I have the NSData object, I would like to rotate the image -without- converting to a UIImage. I have found out that I can convert to a CGImage to do so.

After I have the imageData, I start the process of converting to CGImage, but I have found that the CGImageRef ends up being THIRTY times larger than the NSData object.

Here is the code I use to convert to CGImage from NSData:

CGDataProviderRef imgDataProvider = CGDataProviderCreateWithCFData((__bridge CFDataRef)(imageData));
CGImageRef imageRef = CGImageCreateWithJPEGDataProvider(imgDataProvider, NULL, true, kCGRenderingIntentDefault);

If I try to NSLog out the size of the image, it comes to 30 megabytes when the NSData was a 1.5-2 megabyte image!

size_t imageSize = CGImageGetBytesPerRow(imageRef) * CGImageGetHeight(imageRef);

    NSLog(@"cgimage size = %zu",imageSize);

I thought that maybe when you go from NSData to CGImage, the image decompresses, and then maybe if I converted back to NSData, that it might go back to the right file size.

imageData = (NSData *) CFBridgingRelease(CGDataProviderCopyData(CGImageGetDataProvider(imageRef)));

The above NSData has the same length as the CGImageRef object.

If I try to save the image, the image is a 30mb image that cannot be opened.

I am totally new to using CGImage, so I am not sure if I am converting from NSData to CGImage and back incorrectly, or if I need to call some method to decompress again.

Thanks in advance,


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have you tried playing with the parameters for CGImageCreateWithJPEGDataProvider()? Such as not interpolating or a different rending intent? Those are likely affecting compressions. Interpolating for instance could easily increase filesize since the color blending increases the number of colors represented in the image. – Ryan Poolos Oct 22 '13 at 20:44
@RyanPoolos setting shouldInterpolate to No seems to make no difference in the file size. I would like to keep the original image as much as possible, but it seems like something else is affecting my code... Even if the image is 30 megs, shouldn't I still be able to save and view it, which I cannot at the moment? – Will Oct 22 '13 at 23:55

I was doing some image manipulation and came across your question on SO. Seems like no one else came up with an answer, so here's my theory.

While it's theoretically possible to convert a CGImageRef back to NSData in the manner that you described, the data itself is invalid and not a real JPEG or PNG, as you discovered by it not being readable. So I don't think that the NSData.length is correct. You have to actually jump through a number of steps to recreate an NSData representation of a CGImageRef:

// incoming image data
NSData *image;

// create the image ref
CGDataProviderRef imgDataProvider = CGDataProviderCreateWithCFData((__bridge CFDataRef) image);
CGImageRef imageRef = CGImageCreateWithJPEGDataProvider(imgDataProvider, NULL, true, kCGRenderingIntentDefault);

// image metadata properties (EXIF, GPS, TIFF, etc)
NSDictionary *properties;

// create the new output data
CFMutableDataRef newImageData = CFDataCreateMutable(NULL, 0);
// my code assumes JPEG type since the input is from the iOS device camera
CFStringRef type = UTTypeCreatePreferredIdentifierForTag(kUTTagClassMIMEType, (__bridge CFStringRef) @"image/jpg", kUTTypeImage);
// create the destination
CGImageDestinationRef destination = CGImageDestinationCreateWithData(newImageData, type, 1, NULL);
// add the image to the destination
CGImageDestinationAddImage(destination, imageRef, (__bridge CFDictionaryRef) properties);
// finalize the write

// memory cleanup

NSData *newImage = (__bridge_transfer NSData *)newImageData;

With these steps, the newImage.length should be the same as image.length. I haven't tested since I actually do cropping between the input and the output, but based on the crop, the size is roughly what I expected (the output is roughly half the pixels of the input and thus the output length roughly half the size of the input length).

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