1

我有一个项目。它基本上是从 iPhone 相机拍摄照片并对照片应用一些效果。在应用效果之前,我使用核心图形将图像缩放到适当的大小。缩放和旋转图像后,我使用 Accelerate 框架(vImage)来创建效果。我的问题是在应用效果后它最终变成了一些蓝色的图像。但是,如果我不使用核心图形缩放图像,则不会发生这种蓝色外观。

我使用的缩放代码来自这篇文章。

这是我应用效果的代码:

- (UIImage *)applyFiltertoImage:(UIImage *)img
{
    CGImageRef image = img.CGImage;
    vImage_Buffer inBuffer, outBuffer;
    void *pixelBuffer;

    CGDataProviderRef inProvider = CGImageGetDataProvider(image);
    CFDataRef inBitmapData = CGDataProviderCopyData(inProvider);

    inBuffer.width = CGImageGetWidth(image);
    inBuffer.height = CGImageGetHeight(image);
    inBuffer.rowBytes = CGImageGetBytesPerRow(image);

    inBuffer.data = (void *)CFDataGetBytePtr(inBitmapData);

    pixelBuffer = malloc(CGImageGetBytesPerRow(image) * CGImageGetHeight(image));

    if (pixelBuffer == NULL) {
        NSLog(@"No buffer");
    }

    outBuffer.data = pixelBuffer;
    outBuffer.width = CGImageGetWidth(image);
    outBuffer.height = CGImageGetHeight(image);
    outBuffer.rowBytes = CGImageGetBytesPerRow(image);

    vImageConvolve_ARGB8888(&inBuffer, &outBuffer, NULL, 0, 0, self.kernel, self.size, self.size, self.divisor, NULL, kvImageEdgeExtend);

    CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();

    CGContextRef ctx = CGBitmapContextCreate(outBuffer.data,
                                             outBuffer.width,
                                             outBuffer.height,
                                             8,
                                             outBuffer.rowBytes,
                                             colorSpace,
                                             kCGImageAlphaNoneSkipLast);

    CGImageRef imageRef = CGBitmapContextCreateImage(ctx);

    UIImage *blurredImage = [UIImage imageWithCGImage:imageRef];

    CGContextRelease(ctx);
    CGColorSpaceRelease(colorSpace);
    free(pixelBuffer);
    CFRelease(inBitmapData);
    CGImageRelease(imageRef);

    return blurredImage;
}
4

2 回答 2

2

避免手动重新定义 CGContext

尝试让 vImage 为您初始化这些值。vImageBuffer_InitWithCGImage可以帮助你避免一些痛苦。

直截了当的版本

- (UIImage *)applyFiltertoImage:(UIImage *)image
    CGImageRef originalImageRef = image.CGImage;
    CGColorSpaceRef originalColorSpace = CGColorSpaceRetain(CGImageGetColorSpace(originalImageRef));

    if (_pixelBuffer == NULL) {
        _pixelBuffer = malloc(CGImageGetBytesPerRow(originalImageRef) * CGImageGetHeight(originalImageRef));
    }

    vImage_CGImageFormat inputImageFormat =
    {
        .bitsPerComponent = (uint32_t) CGImageGetBitsPerComponent(originalImageRef),
        .bitsPerPixel = (uint32_t) CGImageGetBitsPerComponent(originalImageRef) * (uint32_t)(CGColorSpaceGetNumberOfComponents(originalColorSpace) + (kCGImageAlphaNone != CGImageGetAlphaInfo(originalImageRef))),
        .colorSpace = originalColorSpace,
        .bitmapInfo = CGImageGetBitmapInfo(originalImageRef),
        .version = 0,
        .decode = NULL,
        .renderingIntent = kCGRenderingIntentDefault
    };
    vImage_Buffer inputImageBuffer;
    vImageBuffer_InitWithCGImage(&inputImageBuffer, &inputImageFormat, NULL, originalImageRef, kvImageNoFlags);

    vImage_Buffer outputImageBuffer = {
        .data = _pixelBuffer,
        .width = CGImageGetWidth(originalImageRef),
        .height = CGImageGetHeight(originalImageRef),
        .rowBytes = CGImageGetBytesPerRow(originalImageRef)
    };

    vImage_Error error;
    error = vImageConvolve_ARGB8888(&inputImageBuffer,
                                    &outputImageBuffer,
                                    NULL,
                                    0,
                                    0,
                                    self.kernel,
                                    self.size,
                                    self.divisor,
                                    NULL,
                                    kvImageEdgeExtend);
    if (error) {
        NSLog(@"vImage error %zd", error);
    }
    free(inputImageBuffer.data);

    vImage_CGImageFormat outFormat =
    {
        .bitsPerComponent = (uint32_t) CGImageGetBitsPerComponent(originalImageRef),
        .bitsPerPixel = (uint32_t) CGImageGetBitsPerComponent(originalImageRef) * (uint32_t)(CGColorSpaceGetNumberOfComponents(originalColorSpace) + (kCGImageAlphaNone != CGImageGetAlphaInfo(originalImageRef))),
        .colorSpace = originalColorSpace,
        .bitmapInfo = CGImageGetBitmapInfo(originalImageRef),
        .version = 0,
        .decode = NULL,
        .renderingIntent = kCGRenderingIntentDefault
    };
    CGImageRef modifiedImageRef = vImageCreateCGImageFromBuffer(&outputImageBuffer,
                                                                &outFormat,
                                                                NULL,
                                                                NULL,
                                                                kvImageNoFlags,
                                                                &error);
    CGColorSpaceRelease(originalColorSpace);

    UIImage *returnImage = [UIImage imageWithCGImage:modifiedImageRef];
    CGImageRelease(modifiedImageRef);

    return returnImage;
}

高性能版

为每个图像创建一次 _inputImageBuffer、_outputImageBuffer 和 _outputImageFormat,然后将过滤器重新应用于源图像。一旦 vImage 预热,它将开始从调用中缩短几毫秒。

- (UIImage *)applyFilter
    vImage_Error error;
    error = vImageConvolve_ARGB8888(&_inputImageBuffer,
                                    &_outputImageBuffer,
                                    NULL,
                                    0,
                                    0,
                                    self.kernel,
                                    self.size,
                                    self.divisor,
                                    NULL,
                                    kvImageEdgeExtend);
    if (error) {
        NSLog(@"vImage error %zd", error);
    }

    CGImageRef modifiedImageRef = vImageCreateCGImageFromBuffer(&_outputImageBuffer,
                          &_outputImageFormat,
                          NULL,
                          NULL,
                          kvImageNoFlags,
                          &error);    
    UIImage *returnImage = [UIImage imageWithCGImage:modifiedImageRef];
    CGImageRelease(modifiedImageRef);

    return returnImage;
}
于 2015-02-26T10:33:15.230 回答
1

通常,强烈的色调意味着颜色通道顺序在转换过程中的某个地方丢失了,例如,您使用 BGRA 数据创建了 CG 图像,但它实际上是 ARGB。

你看过 vImage_Utilities.h 吗?

于 2014-01-06T18:22:48.923 回答