I got a 200x200 image, as a byte array of pixels (3 bytes for each pixel, representing RGB values). I'd like to select all border points, defined as a point that is not white, and lies either on the border of the image or has a neighbouring pixel of a different color.

Wrote simple C code for this :

int i = 0, row = 0, column = 0, width3 = width*3;
char r,g,b;
while (i < length) {

    r = pixels[i], g = pixels[i+1], b = pixels[i+2];

    if (r != -1 || g != -1 || b != -1) { // Not white
        // Check for border point
        if (column == 0 || column == width-1 || row == 0 || row == height-1
            || r != pixels[i-3] || r != pixels[i+3] || r != pixels[i-width3] || r != pixels[i+width3]
            || g != pixels[i-2] || g != pixels[i+4] || g != pixels[i-width3+1] || g != pixels[i+width3+1]
            || b != pixels[i-1] || b != pixels[i+5] || b != pixels[i-width3+2] || b != pixels[i+width3+2]) {
            // Border point

    i += 3;

    if (++column == width) {
        column = 0;
        // printf("new row");


Now I'd like to know how I can speed this up as much as possible. Either I could use the GPU but the transfer of memory from and to the GPU is quite costly.

Since I'm totally new to any kind of optimisation techniques such as those used in openCV, I'd like to know if there's any way to make my snippet faster.

(for more context ; I want to interpret border points of each non-white object on the image as 'contours' of a visible object and then use Douglas-Peucker to approximate the contours as a polygon)

  • 1
    Take care that pixels[i-3] and pixels[i+5] don't break the array bounds. You don't show how i starts but you do show i < length. – Weather Vane Nov 29 '17 at 21:47
  • They can't since I first check for border points. i, row and column start at 0 and goes through all bytes (3 bytes at a time, for RGB values). width3 is width*3, which is 600 in the case of 200x200 images (should add all of this to the snippet I guess). – Arno Breker Nov 29 '17 at 21:50
  • "I could use the GPU but the transfer of memory from and to the GPU is quite costly." Surely not as costly as doing the entire operation in the CPU! IIRC copying to VRAM is only slightly slower than a regular memcpy. – 0x5453 Nov 29 '17 at 22:04
  • Are you sure? The problem with GPU is that I want to add border points to separate queues per color, but I'm not sure how to do that with the GPU (very new to all of this). – Arno Breker Nov 29 '17 at 22:08
  • @0x5453 Is this well suited for the GPU to output a list of border points? The output has to be serial in nature, I assume, like a variable-sized list of x/y pairs, or else the CPU might have to do something expensive just to read back whatever the GPU outputs. I'm a total novice to GPGPU but it seems awkward given the serial nature of the output. – Dragon Energy Nov 30 '17 at 18:03

A few micro-optimizations:

  • reorganize the loop on the rows to only access pairs of pixels wholly inside the image, so that you needn't test the column and row indexes;

  • do not test left and right: if two pixels differ, a single comparison suffices for both;

  • test only for white in case you detect a border point (they are only a fraction of the image area);

Your 12 comparisons test (to be reduced to 6) might be efficient, as it uses shortcut logics (so that all tests are performed only in uniform areas). You may try and trade it for a branchless expression, which will always be executed in full, but avoids costly conditional branches: use r0 - r1 | g0 - g1 | b0 - b1, which is only zero for identical colors.

Or even better, load whole pixels at a time as an integer value, computing the appropriate offset, xor them and mask out the extra byte: (*(unsigned int*)pixels ^ *(unsigned int*)(pixels + 3)) >> 8.

If this is not enough , you can consider to use the vector instruction set (SSE/AVX), but this is yet another story.

  • I test for white because it's usually a rather large fraction of the image area, but it would have made sense otherwise. I don't understand the first item ; I test for column and row indexes because each non-white pixel on the image border is a border point. Do you think I should separate the checks for the image border? Would definitely like to know more about SSE/AVX btw, I skimmed through the wiki but wouldn't know how to use it in my case. – Arno Breker Nov 29 '17 at 22:20
  • 1
    @HaraKikiri: loop on column=0 to column=width-2 inclusive, inside a loop on row. Consider my suggestion about integers, it handles the three components at a time. SSE is a too large topic to address here. – Yves Daoust Nov 29 '17 at 22:25
  • The integer loading seems to help a great deal. Thanks a lot. If you have any links to share about SSE, I'd be glad to do some reading. – Arno Breker Nov 29 '17 at 22:36
  • Why does it now consider the last pixel non-white, as well as any left-most border point? For some reason it seems to be shifted 16 times to the right. – Arno Breker Nov 29 '17 at 23:45
  • @HaraKikiri: what is the speedup that you get ? – Yves Daoust Nov 29 '17 at 23:56

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