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As I noticed when CIGaussianBlur is applied to image, image's corners gets blurred so that it looks like being smaller than original. So I figured out that I need to crop it correctly to avoid having transparent edges of image. But how to calculate how much I need to crop in dependence of blur amount?


Example:

Original image:
enter image description here

Image with 50 inputRadius of CIGaussianBlur (blue color is background of everything):
enter image description here

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1  
Just dropping in to say that this Lion is super badass. –  patr1ck May 15 at 22:10

4 Answers 4

Take the following code as an example...

CIContext *context = [CIContext contextWithOptions:nil];

CIImage *inputImage = [[CIImage alloc] initWithImage:image];

CIFilter *filter = [CIFilter filterWithName:@"CIGaussianBlur"];

[filter setValue:inputImage forKey:kCIInputImageKey];

[filter setValue:[NSNumber numberWithFloat:5.0f] forKey:@"inputRadius"];

CIImage *result = [filter valueForKey:kCIOutputImageKey];

CGImageRef cgImage = [context createCGImage:result fromRect:[result extent]];

This results in the images you provided above. But if I instead use the original images rect to create the CGImage off of the context the resulting image is the desired size.

CGImageRef cgImage = [context createCGImage:result fromRect:[inputImage extent]];
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There are two issues. The first is that the blur filter samples pixels outside the edges of the input image. These pixels are transparent. That's where the transparent pixels come from. The trick is to extend the edges before you apply the blur filter. This can be done by a clamp filter e.g. like this:

CIFilter *affineClampFilter = [CIFilter filterWithName:@"CIAffineClamp"];

CGAffineTransform xform = CGAffineTransformMakeScale(1.0, 1.0);
[affineClampFilter setValue:[NSValue valueWithBytes:&xform
                                           objCType:@encode(CGAffineTransform)]
                     forKey:@"inputTransform"];

This filter extends the edges infinitely and eliminates the transparency. The next step would be to apply the blur filter.

The second issue is a bit weird. Some renderers produce a bigger output image for the blur filter and you must adapt the origin of the resulting CIImage by some offset e.g. like this:

CGImageRef cgImage = [context createCGImage:outputImage
                                   fromRect:CGRectOffset([inputImage extend],
                                                         offset, offset)];

The software renderer on my iPhone needs three times the blur radius as offset. The hardware renderer on the same iPhone does not need any offset at all. Maybee you could deduce the offset from the size difference of input and output images, but I did not try...

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This works perfectly. I just wanted to point out that the CGAffineTransform assigned in your example if the default one for the filter, so you can omit all that code or maybe just call [affineClampFilter setDefaults] –  flainez Aug 10 at 16:40

See below two implementations for Xamarin (C#).

1) Works for iOS 6

public static UIImage Blur(UIImage image)
{   
    using(var blur = new CIGaussianBlur())
    {
        blur.Image = new CIImage(image);
        blur.Radius = 6.5f;

        using(CIImage output = blur.OutputImage)
        using(CIContext context = CIContext.FromOptions(null))
        using(CGImage cgimage = context.CreateCGImage (output, new RectangleF(0, 0, image.Size.Width, image.Size.Height)))
        {
            return UIImage.FromImage(cgimage);
        }
    }
}

2) Implementation for iOS 7

Using the way shown above isn't working properly on iOS 7 anymore (at least at the moment with Xamarin 7.0.1). So I decided to add cropping another way (measures may depend on the blur radius).

private static UIImage BlurImage(UIImage image)
{   
    using(var blur = new CIGaussianBlur())
    {
        blur.Image = new CIImage(image);
        blur.Radius = 6.5f;

        using(CIImage output = blur.OutputImage)
        using(CIContext context = CIContext.FromOptions(null))
        using(CGImage cgimage = context.CreateCGImage (output, new RectangleF(0, 0, image.Size.Width, image.Size.Height)))
        {
            return UIImage.FromImage(Crop(CIImage.FromCGImage(cgimage), image.Size.Width, image.Size.Height));
        }
    }
}

private static CIImage Crop(CIImage image, float width, float height)
{
    var crop = new CICrop
    { 
        Image = image,
        Rectangle = new CIVector(10, 10, width - 20, height - 20) 
    };

    return crop.OutputImage;   
}
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This works for me :)

CIContext *context = [CIContext contextWithOptions:nil];
CIImage *inputImage = [[CIImage alloc] initWithImage:image];
CIFilter *blurFilter = [CIFilter filterWithName:@"CIGaussianBlur"];
[blurFilter setDefaults];
[blurFilter setValue:inputImage forKey:@"inputImage"];
CGFloat blurLevel = 20.0f;          // Set blur level
[blurFilter setValue:[NSNumber numberWithFloat:blurLevel] forKey:@"inputRadius"];    // set value for blur level
CIImage *outputImage = [blurFilter valueForKey:@"outputImage"];
CGRect rect = inputImage.extent;    // Create Rect
rect.origin.x += blurLevel;         // and set custom params
rect.origin.y += blurLevel;         // 
rect.size.height -= blurLevel*2.0f; //
rect.size.width -= blurLevel*2.0f;  //
CGImageRef cgImage = [context createCGImage:outputImage fromRect:rect];    // Then apply new rect
imageView.image = [UIImage imageWithCGImage:cgImage];
CGImageRelease(cgImage);
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