---
title: "vImageConvert_ARGB16UToXRGB2101010(_:_:_:_:_:_:)"
framework: accelerate
role: symbol
role_heading: Function
path: "accelerate/vimageconvert_argb16utoxrgb2101010(_:_:_:_:_:_:)"
---

# vImageConvert_ARGB16UToXRGB2101010(_:_:_:_:_:_:)

Converts an unsigned 16-bit-per-channel, 4-channel interleaved buffer to an XRGB2101010 32-bit, 4-channel buffer with permutation.

## Declaration

```swift
func vImageConvert_ARGB16UToXRGB2101010(_ src: UnsafePointer<vImage_Buffer>, _ dest: UnsafePointer<vImage_Buffer>, _ RGB101010RangeMin: Int32, _ RGB101010RangeMax: Int32, _ permuteMap: UnsafePointer<UInt8>!, _ flags: vImage_Flags) -> vImage_Error
```

## Parameters

- `src`: The source vImage buffer.
- `dest`: A pointer to the destination vImage buffer structure. You’re responsible for filling out the doc://com.apple.accelerate/documentation/Accelerate/vImage_Buffer/height, doc://com.apple.accelerate/documentation/Accelerate/vImage_Buffer/width, and doc://com.apple.accelerate/documentation/Accelerate/vImage_Buffer/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.
- `RGB101010RangeMin`: The minimum pixel value for the destination image.
- `RGB101010RangeMax`: The maximum pixel value for the destination image.
- `permuteMap`: An array of four 8-bit integers with the values 0, 1, 2, and 3, in some order. Each value specifies the channel from the source image that the function copies to the destination channel at the corresponding index.
- `flags`: The options to use when performing the operation. If your code implements its own tiling or its own multithreading, pass doc://com.apple.accelerate/documentation/Accelerate/kvImageDoNotTile; otherwise, pass doc://com.apple.accelerate/documentation/Accelerate/kvImageNoFlags.

## Return Value

Return Value kvImageNoError; otherwise, one of the error codes in Data Types and Constants.

## Discussion

Discussion The function uses the following calculation to perform the conversion:  uint16_t *srcPixel = src.data;  R16 = srcPixel[permuteMap[1]];  G16 = srcPixel[permuteMap[2]];  B16 = srcPixel[permuteMap[3]];  srcPixel += 4;    int32_t R10, G10, B10;  int32_t range10 = RGB101010RangeMax - RGB101010RangeMin;  R10 = ((R16 * range10 + (USHRT_MAX >> 1)) / USHRT_MAX) + RGB101010RangeMin;  G10 = ((G16 * range10 + (USHRT_MAX >> 1)) / USHRT_MAX) + RGB101010RangeMin;  B10 = ((B16 * range10 + (USHRT_MAX >> 1)) / USHRT_MAX) + RGB101010RangeMin;    uint32_t *destPixel = dest.data;  destPixel[0] = (R10 << 20) | (G10 << 10) | (B10 << 0);  destPixel += 1;

## See Also

### Converting from unsigned 16-bit-per-channel buffers

- [vImageConvert_ARGB16UToRGBA1010102(_:_:_:_:_:_:)](accelerate/vimageconvert_argb16utorgba1010102(_:_:_:_:_:_:).md)
- [vImageConvert_ARGB16UToARGB2101010(_:_:_:_:_:_:)](accelerate/vimageconvert_argb16utoargb2101010(_:_:_:_:_:_:).md)