vImageConvert_RGBA8888toRGBA5551_dithered(_:_:_:_:_:)
Converts an 8-bit-per-channel, 4-channel interleaved buffer to an RGBA5551 4-channel interleaved buffer usng the specified dithering algorithm.
Declaration
func vImageConvert_RGBA8888toRGBA5551_dithered(_ src: UnsafePointer<vImage_Buffer>, _ dest: UnsafePointer<vImage_Buffer>, _ tempBuffer: UnsafeMutableRawPointer!, _ dither: Int32, _ flags: vImage_Flags) -> vImage_ErrorParameters
- src:
The source vImage buffer.
- dest:
A pointer to the destination vImage buffer structure. You’re responsible for filling out the Height, Width, and Rowbytes fields of this structure, and for allocating a data buffer of the appropriate size. On return, the data buffer this structure points to contains the destination image data. When you no longer need the data buffer, deallocate the memory to prevent memory leaks.
- tempBuffer:
A pointer to workspace memory the function uses as it operates on an image. Pass
nilto instruct the function to allocate, use, and then free its own temporary buffer. - dither:
The dithering algorithm.
- flags:
The options to use when performing the operation. If your code implements its own tiling or its own multithreading, pass Kvimagedonottile; otherwise, pass Kvimagenoflags.
To instruct the function to return the minimum size of the workspace memory, set the Kvimagegettempbuffersize flag.
Return Value
kvImageNoError; otherwise, a negative value indicates one of the error codes that Data Types and Constants describes, and a positive value indicates the required size for the temporary buffer.
Discussion
This function supports the following dithering algorithms:
- kvImageConvert_DitherOrdered
Adds precomputed blue noise to the source image before it rounds the input values to the nearest representable value in the destination format. The vImage conversion functions support uniform and Gaussian noise by including kvImageConvert_OrderedUniformBlue and kvImageConvert_OrderedGaussianBlue, respectively.
- kvImageConvert_DitherOrderedReproducible
Returns the same result as kvImageConvert_DitherOrdered, but uses the same offset into the blue noise for each call.
Optimize performance with temporary buffers
This function uses a multiple-pass algorithm that saves intermediate pixel values between passes. In some cases, the destination buffer may not be large enough to store that intermediate data, so the operation requires additional storage.
Pass nil to the tempBuffer parameter to have vImage create and manage this temporary storage for you.
In cases where your code calls the function frequently (for example, when processing video), create and manage this temporary buffer yourself and reuse it across function calls. Reusing a buffer avoids vImage allocating the temporary storage with each call.
To use your own temporary buffer, first call the function with the same values for all other parameters that you intend to use for subsequent calls. In addition, pass the kvImageGetTempBufferSize flag. The kvImageGetTempBufferSize instructs the function not to perform any processing, and to return a positive value that represents the minimum size, in bytes, of the temporary buffer. A negative return value represents an error.
After you allocate the memory for the temporary buffer, pass that to the tempBuffer parameter for subsequent calls to the function, and don’t pass the kvImageGetTempBufferSize flag.
You can use the same workspace memory for a group of images that are different sizes. To do this, create a vImage buffer structure with a size that shares the maximum width and maximum height of the images that you’re working with. For example, to create a workspace memory that’s suitable for 4x4, 5x4, and 4x5 images, pass a buffer with the size 5x5.