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UIImage always become indistinct when it was scaled.What can i do if make it keep clearness?

- (UIImage *)rescaleImageToSize:(CGSize)size {
    CGRect rect = CGRectMake(0.0, 0.0, size.width, size.height);
    UIGraphicsBeginImageContext(rect.size);
    [self drawInRect:rect];  // scales image to rect
    UIImage *resImage = UIGraphicsGetImageFromCurrentImageContext();
    UIGraphicsEndImageContext();
    return resImage;
}
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4 Answers 4

up vote 37 down vote accepted

Rounding

First, make sure that you're rounding your size before scaling. drawInRect: can blur an otherwise usable image in this case. To round to the nearest integer value:

size.width = truncf(size.width);
size.height = truncf(size.height);

For certain tasks, you may want to round down (floorf) or round up (ceilf) instead.

CILanczosScaleTransform not available

Then, disregard my previous recommendation of CILanczosScaleTransform. While parts of Core Image are available in iOS 5.0, Lanczos scaling is not. If it ever does become available, make use of it. For people working on Mac OS, it is available, use it.

vImage Scaling

However, there is a high-quality scaling algorithm available in vImage. The following pictures show how a method using it (vImageScaledImage) compares with the different context interpolation options. Also note how those options behave differently at different zoom levels.

On this diagram, it preserved the most line detail: Scaling comparison on diagram

On this photograph, compare the leaves at lower left: Scaling comparison on tree photograph

On this photograph, compare the textures in lower right: Scaling comparison on rock photograph

Do not use it on pixel art; it creates odd scaling artifacts: Scaling comparison on pixel art, showing scaling artifacts

Although it on some images it has interesting rounding effects: Scaling comparison on Space Invader

Performance

Not surprisingly, kCGImageInterpolationHigh is the slowest standard image interpolation option. vImageScaledImage, as implemented here, is slower still. For shrinking the fractal image to half its original size, it took 110% of the time of UIImageInterpolationHigh. For shrinking to a quarter, it took 340% of the time.

You may think otherwise if you run it in the simulator; there, it can be much faster than kCGImageInterpolationHigh. Presumably the vImage multi-core optimisations give it a relative edge on the desktop.

Code

// Method: vImageScaledImage:(UIImage*) sourceImage withSize:(CGSize) destSize
// Returns even better scaling than drawing to a context with kCGInterpolationHigh.
// This employs the vImage routines in Accelerate.framework.
// For more information about vImage, see https://developer.apple.com/library/mac/#documentation/performance/Conceptual/vImage/Introduction/Introduction.html#//apple_ref/doc/uid/TP30001001-CH201-TPXREF101
// Large quantities of memory are manually allocated and (hopefully) freed here.  Test your application for leaks before and after using this method.
- (UIImage*) vImageScaledImage:(UIImage*) sourceImage withSize:(CGSize) destSize;
{
    UIImage *destImage = nil;

    if (sourceImage)
    {
        // First, convert the UIImage to an array of bytes, in the format expected by vImage.
        // Thanks: http://stackoverflow.com/a/1262893/1318452
        CGImageRef sourceRef = [sourceImage CGImage];
        NSUInteger sourceWidth = CGImageGetWidth(sourceRef);
        NSUInteger sourceHeight = CGImageGetHeight(sourceRef);
        CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
        unsigned char *sourceData = (unsigned char*) calloc(sourceHeight * sourceWidth * 4, sizeof(unsigned char));
        NSUInteger bytesPerPixel = 4;
        NSUInteger sourceBytesPerRow = bytesPerPixel * sourceWidth;
        NSUInteger bitsPerComponent = 8;
        CGContextRef context = CGBitmapContextCreate(sourceData, sourceWidth, sourceHeight,
                                                     bitsPerComponent, sourceBytesPerRow, colorSpace,
                                                     kCGImageAlphaPremultipliedFirst | kCGBitmapByteOrder32Big);
        CGContextDrawImage(context, CGRectMake(0, 0, sourceWidth, sourceHeight), sourceRef);
        CGContextRelease(context);

        // We now have the source data.  Construct a pixel array
        NSUInteger destWidth = (NSUInteger) destSize.width;
        NSUInteger destHeight = (NSUInteger) destSize.height;
        NSUInteger destBytesPerRow = bytesPerPixel * destWidth;
        unsigned char *destData = (unsigned char*) calloc(destHeight * destWidth * 4, sizeof(unsigned char));

        // Now create vImage structures for the two pixel arrays.
        // Thanks: https://github.com/dhoerl/PhotoScrollerNetwork
        vImage_Buffer src = {
            .data = sourceData,
            .height = sourceHeight,
            .width = sourceWidth,
            .rowBytes = sourceBytesPerRow
        };

        vImage_Buffer dest = {
            .data = destData,
            .height = destHeight,
            .width = destWidth,
            .rowBytes = destBytesPerRow
        };

        // Carry out the scaling.
        vImage_Error err = vImageScale_ARGB8888 (
                                                 &src,
                                                 &dest,
                                                 NULL,
                                                 kvImageHighQualityResampling 
                                                 );

        // The source bytes are no longer needed.
        free(sourceData);

        // Convert the destination bytes to a UIImage.
        CGContextRef destContext = CGBitmapContextCreate(destData, destWidth, destHeight,
                                                         bitsPerComponent, destBytesPerRow, colorSpace,
                                                         kCGImageAlphaPremultipliedFirst | kCGBitmapByteOrder32Big);
        CGImageRef destRef = CGBitmapContextCreateImage(destContext);

        // Store the result.
        destImage = [UIImage imageWithCGImage:destRef];

        // Free up the remaining memory.
        CGImageRelease(destRef);

        CGColorSpaceRelease(colorSpace);
        CGContextRelease(destContext);

        // The destination bytes are no longer needed.
        free(destData);

        if (err != kvImageNoError)
        {
            NSString *errorReason = [NSString stringWithFormat:@"vImageScale returned error code %d", err];
            NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys:
                                       sourceImage, @"sourceImage", 
                                       [NSValue valueWithCGSize:destSize], @"destSize",
                                       nil];

            NSException *exception = [NSException exceptionWithName:@"HighQualityImageScalingFailureException" reason:errorReason userInfo:errorInfo];

            @throw exception;
        }
    }
    return destImage;
}
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Wow,You are so enthusiastic! I cannot thank you enough! –  shuiyouren Apr 11 '12 at 6:23
2  
Author of {PhotoScrollerNetwork says thanks for the attribution in the code: // Thanks: github.com/dhoerl/PhotoScrollerNetwork :-) –  David H Jun 2 '12 at 15:03

Try put:

CGContextRef context = UIGraphicsGetCurrentContext();
CGContextSetInterpolationQuality(context, kCGInterpolationHigh);

before drawing to get high quality interpolation.

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1  
Tried,but it's not effected. –  shuiyouren Apr 9 '12 at 2:51
    
@shuiyouren That's as good as you can get. AFAIK, Quartz2D uses bilinear, because it's faster in realtime. The quality is lower than bicubic. If you want even higher quality, you may have to use your own interpolation algorithms. –  He Shiming Apr 9 '12 at 2:56
    
Thanks though i can't solve. –  shuiyouren Apr 9 '12 at 3:59

I've tried the @Dondragmer answer with VImage but the quality of the result wasn't good enough (I'm downsizing the image with a ratio of 1/10).

This solution worked for me though : UIImage's drawInrect: smoothes image

Basically, it's just says that on retina display you need to create the graphic context with retina parameter :

UIGraphicsBeginImageContextWithOptions(size, NO, 2.0f);
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In the special case of scaling up an image, and wanting to keep any sharp corners, you want to turn image interpolation off. If your image is pixel art, this is what you want. In most other cases, it isn't.

UIGraphicsBeginImageContext(rect.size);

// Turn off interpolation to keep the scaled image from being blurred.
CGContextRef context = UIGraphicsGetCurrentContext();
CGContextSetInterpolationQuality(context, kCGInterpolationHigh);

[self drawInRect:rect];  // scales image to rect
UIImage *resImage = UIGraphicsGetImageFromCurrentImageContext();
UIGraphicsEndImageContext();

If you're scaling down, simply drawing with kCGInterpolationHigh isn't the best option either. It's good, but CILanczosScaleTransform is slightly sharper.

Edit: as of iOS 5.1, CILanczosScaleTransform isn't available. See my other answer for a high-quality scaling routine that you can use.

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Did you give me a example for this question about CILanczosScaleTransform? –  shuiyouren Apr 9 '12 at 4:06
    
@shuiyouren: I haven't given an example of CILanczosScaleTransform because I don't know if you need it. Please attach two images to your original post: the image before scaling, and the image after scaling. Then someone may be able to tell you what algorithm you need. –  Dondragmer Apr 9 '12 at 4:13
    
wow,my god,earn more than 10 reputation to post images. –  shuiyouren Apr 9 '12 at 5:10
    
@shuiyouren: Sorry about asking the impossible. Anyway, I've described the circumstances under which you need CILanczosScaleTransform. Can you confirm that these apply to your problem? –  Dondragmer Apr 9 '12 at 5:16
    
I think CILanczosScaleTransform can solve it,i try looking for instruction about how to use CILanczosScaleTransform. –  shuiyouren Apr 9 '12 at 5:38

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