# Doing “uint8x8x4_t - 128” then divising this by 2

I'm a bit mixed up about how to achieve a division by a scalar on Neon in a specific case.

In a c++ context, I'm achieving a contrast effect with a very rudimentary algorithm:

``````if (currentEffect == "contrast_with_cpp")
{
r += ((r - 128) / 2);
g += ((g - 128) / 2);
b += ((b - 128) / 2);
}
``````

I would like to port this algorithm to neon intrinsics.

I've tried, but I'm totally newbie to this approach, and I cannot debug this code in Visual Studio. It is compiled at startup and integrated to a Windows Phone application.

``````if (currentEffect == "contrast_with_neon") /* Experimental, not working *
{
// To test
copy_rgb = rgb;

// Substract 128 from the copy, prevent it should be a signed variable
``````

?

``````    // Get half value from copy and put it in another copy

uint8x8x4_t otherCopy = interleaved;
otherCopy.val[2] = vmul_n_f32(copy_rgb.val[2], 0.5);
otherCopy.val[1] = vmul_n_f32(copy_rgb.val[1], 0.5);
otherCopy.val[0] = vmul_n_f32(copy_rgb.val[0], 0.5);

// Add it to the first copy

rgb = copy_rgb;
}
``````

Is this achievable using intrinsics?

 I guess the color data structure is similar to this

-

Stop wasting your time with intrinsics. It's a real pain, especially with gcc.

Try this in assembly :

``````vmov.i16 qMdeian, #128 // put this line outside of loop
// -----------------------------------------------

vmovl.u8 qRed, dRed
vmovl.u8 qGrn, dGrn
vmovl.u8 qBlu, dBlu

vsub.s16 qRedTemp, qRed, qMedian
vsub.s16 qGrnTemp, qGrn, qMedian
vsub.s16 qBluTemp, qBlu, qMedian

vshr.s16 qRedTemp, #2
vshr.s16 qGrnTemp, #2
vshr.s16 qBluTemp, #2

vqmovun.s16 dRed, qRed
vqmovun.s16 dGrn, qGrn
vqmovun.s16 dBlu, qBlu
``````

If the does saturate at 255, and any negative values will become zeros which I assume is intended.

PS : What are you doing with float?

-
Oh, thanks for the advice. But there will be a difference in the execution time speed I guess? I'm currently working at 15 fps in cases where I'm only using 128 bits neon operations. –  Léon Pelletier Jun 25 at 7:52
It decreases at 8-9 fps for normal C++. –  Léon Pelletier Jun 25 at 7:52
About float, it was just to randomly put a cast that would compile without error, not the actual code as I should instead multiply by a byte then >> shift right. –  Léon Pelletier Jun 25 at 7:53