我正在尝试捕获显示器的内容并将显示器的色彩空间转换为 sRGB。我正在尝试使用 vImage 和低级 ColorSync 转换 API 来执行此操作,但输出有一个奇怪的像素块加倍。我的 ColorSyncTransformRef 似乎正确,因为 ColorSyncTransformConvert() 有效,但使用 vImage 的 Accelerate 框架版本不正确。有没有人见过这个并且知道如何解决它?谢谢!
这是输出的样子,你可以看到奇怪的加倍:
这是我正在使用的代码:
CGImageRef screenshot = CGDisplayCreateImage(CGMainDisplayID());
CFDataRef rawData = CGDataProviderCopyData(CGImageGetDataProvider(screenshot));
uint8_t *basePtr = (uint8_t *)CFDataGetBytePtr(rawData);
const void *keys[] = {kColorSyncProfile, kColorSyncRenderingIntent, kColorSyncTransformTag};
ColorSyncProfileRef srcProfile = ColorSyncProfileCreateWithDisplayID(CGMainDisplayID());
ColorSyncProfileRef destProfile = ColorSyncProfileCreateWithName(kColorSyncSRGBProfile);
const void *srcVals[] = {srcProfile, kColorSyncRenderingIntentPerceptual, kColorSyncTransformDeviceToPCS};
const void *dstVals[] = {destProfile, kColorSyncRenderingIntentPerceptual, kColorSyncTransformPCSToDevice};
CFDictionaryRef srcDict = CFDictionaryCreate (
NULL,
(const void **)keys,
(const void **)srcVals,
3,
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
CFDictionaryRef dstDict = CFDictionaryCreate (
NULL,
(const void **)keys,
(const void **)dstVals,
3,
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
const void* arrayVals[] = {srcDict, dstDict, NULL};
CFArrayRef profileSequence = CFArrayCreate(NULL, (const void **)arrayVals, 2, &kCFTypeArrayCallBacks);
CFTypeRef codeFragment = NULL;
/* transform to be used for converting color */
ColorSyncTransformRef transform = ColorSyncTransformCreate(profileSequence, NULL);
/* get the code fragment specifying the full conversion */
codeFragment = ColorSyncTransformCopyProperty(transform, kColorSyncTransformFullConversionData, NULL);
if (transform) CFRelease (transform);
if (codeFragment) CFShow(codeFragment);
vImage_Error err;
vImage_CGImageFormat inFormat = {
.bitsPerComponent = 8,
.bitsPerPixel = 32,
.colorSpace = CGColorSpaceCreateWithPlatformColorSpace(srcProfile),
.bitmapInfo = kCGImageAlphaNoneSkipFirst | kCGBitmapByteOrder32Little,
}; // .version, .renderingIntent and .decode all initialized to 0 per C rules
vImage_CGImageFormat outFormat = {
.bitsPerComponent = 8,
.bitsPerPixel = 32,
.colorSpace = CGColorSpaceCreateWithPlatformColorSpace(destProfile),
.bitmapInfo = kCGImageAlphaNoneSkipFirst | kCGBitmapByteOrder32Little,
}; // .version, .renderingIntent and .decode all initialized to 0 per C rules
/* create a converter to do the image format conversion. */
vImageConverterRef converter = vImageConverter_CreateWithColorSyncCodeFragment(codeFragment, &inFormat, &outFormat, NULL, kvImagePrintDiagnosticsToConsole, &err );
NSAssert(err == kvImageNoError, @"Unable to setup the colorsync transform!");
/* Check to see if the converter will work in place. */
vImage_Error outOfPlace = vImageConverter_MustOperateOutOfPlace(converter, NULL, NULL, kvImageNoFlags);
NSAssert(!outOfPlace, @"We expect the image convert to work in place");
if (srcDict) CFRelease (srcDict);
if (dstDict) CFRelease (dstDict);
if (profileSequence) CFRelease (profileSequence);
// ColorSync converter time!
size_t width = CGImageGetWidth(screenshot);
size_t height = CGImageGetHeight(screenshot);
vImage_Buffer buf;
err = vImageBuffer_Init( &buf, height, width, 32, kvImageNoFlags );
NSAssert(err == kvImageNoError, @"Failed to init buffer");
memcpy(buf.data, basePtr, width * height * 4);
vImage_Buffer vimg_src = { buf.data, height, width, width * 4 };
vImage_Buffer vimg_dest = { buf.data, height, width, width * 4 };
vImage_Error colorSyncErr = vImageConvert_AnyToAny(converter, &vimg_src, &vimg_dest, NULL, kvImageNoFlags );
NSAssert(colorSyncErr == kvImageNoError, @"ColorSync conversion failed");
NSData *pngData = AOPngDataForBuffer(buf.data, (int)width, (int)height);
[pngData writeToFile:@"/tmp/out.png" atomically:YES];
self.imageView.image = [[NSImage alloc] initWithData:pngData];
free(buf.data);
CFRelease(rawData);