# Next iteration in z-order curve

I am building a quadtree using the techniques described in this wikipedia article. I am storing the coordinates in an 2- or 3-dimansional array.

boost::array<unsigned int, 2 /* 3 */> coord;

I need a method to calculate the coordinates of the next box in z-order. It would work by interleaving the bits, increasing by one and than deinterleaving, but this gets very complicated. I hope there is an implementation similar to the cmp_zorder(...) methon in the article wich works without interleaving the bits.

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What exactly do you want? The (x', y') that is next to (x, y) in Z-order, but without interleaving and de-interleaving? –  harold May 26 '12 at 20:31
Exactly right, is it possible? –  Smittii May 27 '12 at 7:40
Certainly, but I haven't heard (and can't find) any tricks, so the only way I can think of is modifying the bitwise addition algorithm to add the carries to the other coordinate (carries in x should be added to y, and carries in y should be added to x). A similar technique could be used for the 3D Z-curve. That doesn't sound particularly fast to me though. Are you interested in that way anyway? –  harold May 27 '12 at 8:58
yes, i'm intrested, sounds like a lot of bit operations –  Smittii May 27 '12 at 16:28

Ok here's the "mutilated" addition algorithm, x and y are inputs as well as outputs, and it is assumed that the lowest order bit in the interleaved coordinate would be x (the same as in the wikipedia article)

int carry = 1;
do
{
int newcarry = x & carry;
x ^= carry;
carry = newcarry;
newcarry = (y & carry) << 1;
y ^= carry;
carry = newcarry;
} while (carry != 0);

I did test it, but only a little.

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