---
title: "vImageLookupTable_Planar8toPlanar96(_:_:_:_:)"
framework: accelerate
role: symbol
role_heading: Function
path: "accelerate/vimagelookuptable_planar8toplanar96(_:_:_:_:)"
---

# vImageLookupTable_Planar8toPlanar96(_:_:_:_:)

Uses a lookup table to transform an 8-bit planar image to a 32-bit-per-channel, three-channel interleaved image.

## Declaration

```swift
func vImageLookupTable_Planar8toPlanar96(_ src: UnsafePointer<vImage_Buffer>, _ dest: UnsafePointer<vImage_Buffer>, _ table: UnsafePointer<Pixel_FFFF>, _ 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 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.
- `table`: A lookup table that contains 256 doc://com.apple.accelerate/documentation/Accelerate/Pixel_FFFF values. Elements 1, 2, and 3 store the red, green, and blue values.
- `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 For each pixel, this function uses the 8-bit value from the source image as an index to the Pixel_FFFF value from the table. The per-pixel conversion calculation is equivalent to the following: uint32_t table[256*4];       // 128 bits per pixel and 32 bits per channel. uint32_t *t_ptr = (uint32_t*)(table + 4 * srcRow[i]); uint32_t r = t_ptr[1]; uint32_t g = t_ptr[2]; uint32_t b = t_ptr[3]; dstRow[3*i+0] = r; dstRow[3*i+1] = g; dstRow[3*i+2] = b; The following code shows how to create a lookup table that maps all source pixel values to a constant RGB value of (10, 20, 30): let red: Pixel_F = 10 let green: Pixel_F = 20 let blue: Pixel_F = 30 let lookupValue = Pixel_FFFF(0, red, green, blue)

let lookupTable = [Pixel_FFFF](repeating: lookupValue, count: 256)

let source = vImage.PixelBuffer<vImage.Planar8>(     size: .init(width: 5, height: 1)) let destination = vImage.PixelBuffer<vImage.InterleavedFx3>(     size: .init(width: 5, height: 1))

source.withUnsafePointerToVImageBuffer { src in     destination.withUnsafePointerToVImageBuffer { dest in                  _ = vImageLookupTable_Planar8toPlanar96(             src,             dest,             lookupTable,             vImage_Flags(kvImageNoFlags))              } }

// Prints "[10, 20, 30,  10, 20, 30,  10, 20, 30,  10, 20, 30,  10, 20, 30]". print(destination.array)

## See Also

### Transforming planar-to-interleaved with a lookup table

- [vImageLookupTable_Planar8toPlanar24(_:_:_:_:)](accelerate/vimagelookuptable_planar8toplanar24(_:_:_:_:).md)
- [vImageLookupTable_Planar8toPlanar48(_:_:_:_:)](accelerate/vimagelookuptable_planar8toplanar48(_:_:_:_:).md)
- [vImageLookupTable_Planar8toPlanar128(_:_:_:_:)](accelerate/vimagelookuptable_planar8toplanar128(_:_:_:_:).md)