arm asm/neon optimisation for image processing

Question

I m currently working on a painting app on ios.

I use a directly draw into a NSMutableData buffer and apply blending with my brush like this:

- (void) combineColorDestination:(unsigned char*) dest source:(unsigned char*) src
{

const unsigned char sra     = ((unsigned char *)src)[3];
const float oneminusalpha   = 1.0f - (sra / 255.f);

int d[4];

for (int i=0;i<4;i++)
{
    d[i] = oneminusalpha * ((unsigned char *)dest)[i] +  ((unsigned char *)src)[i];

    if (d[i]>255)
        d[i] = 255;

    ((unsigned char *)dest)[i] = (unsigned char)d[i];
}

}

Any suggestions for optimisations ?

I previously tried to use neon , but i ve got a bug I wasnt able to fix (the bordering pixels was buggy)

I was iterating pixels 2 by 2 like this :

uint8x8_t va = vld1_u8(dest);
uint8x8_t vb = vld1_u8(src);
uint8x8_t res = vqadd_u8(va,vb);
vst1_u8(dest, res);

Answer 1

Suggestions? Alright. Note that these are valid whichever multimedia manipulation you are doing and is hardly restricted to your case.

First, before you even do NEON, you should change your code to have one function that changes a bunch of pixels (at least a row, a rectangle if you can) at once, instead of a function (or method - even worse) that changes one pixel and is called a bunch of times: somehow I doubt the brush is only 1x1 pixel.

Second, except for the column loop (and eventual row loop), there should be no branch (that is, flow control structures). No for (i=0;i<4;i++); just write the code for the four channels in sequence (use a macro if necessary). No if (d[i]>255); express that as an alternative: dest[i] = (temp>255?255:temp); at the very least, if not replacing it by a more efficient way to do saturation (tricks using subtractions, shifts, and masks exist).

Third, avoid any conversion between floating-point and integer; this is always valid advice, but float->int conversions are particularly devastating on ARM. Since you're manipulating integers, this means foregoing floating-point here.

And once you've done that, surprise, besides making your code faster you have in fact done the preparation work for NEON: NEON is only remotely useful if you process a bunch of pixels at once, if there is no branch, and if you don't convert between floating-point and integer all over the place. So only then will we talk about NEON, if it is even necessary at this point.