By adapting the formula from this page: http://http.developer.nvidia.com/GPUGems/gpugems_ch22.html, I believe you can do this using a combination of `CIColorMatrix`

, `CIGammaAdjust`

and another `CIColorMatrix`

.

Let's call the input levels `inBlack`

, `inGamma`

and `inWhite`

respectively, and the output levels `outBlack`

and `outWhite`

. Note that Photoshop color are between 0 and 255 while CI colors are between 0 and 1 so you need to divide the Photoshop values (except `inGamma`

!) by 255 before putting them into the following formulas.

The input mapping is `pixel = (inPixel-inBlack)/(inWhite-inBlack)`

, which means your first matrix will be

```
red = [1/(inWhite-inBlack) 0 0 0]
green = [0 1/(inWhite-inBlack) 0 0]
blue = [0 0 1/(inWhite-inBlack) 0]
alpha = [0 0 0 1]
bias = [-inBlack/(inWhite-inBlack), -inBlack/(inWhite-inBlack),-inBlack/(inWhite-inBlack), 0]
```

Then you apply gamma correction using `CIGammaAdjust`

and the `inGamma`

number (I had to use the inverse `1/inGamma`

when doing my calculations, try that too!).

Finally the output mapping is pixel = `gammaCorrectedPixel * (outWhite - outBlack) + outBlack`

, giving you the final matrix

```
red = [(outWhite - outBlack) 0 0 0]
green = [0 (outWhite - outBlack) 0 0]
blue = [0 0 (outWhite - outBlack) 0]
alpha = [0 0 0 1]
bias = [outBlack outBlack outBlack 0]
```

I haven't actually tried this using CoreImage, but the calculations work out nicely!