Lets say I have an array of interlaced data, such as 1a2b3c4d5e, and I want to de-interlace it into an array that looks like 12345abcde, in place (without a temporary buffer). What would be the fastest way of doing this?

What I have so far is this

```
template<typename T>
void deinterlace(T* arr, int length){
if(length<=1) return;
int i = 1;
for(i = 1; i*2<length; i++){
//swap i with i*2
T temp = arr[i];
arr[i] = arr[i*2];
arr[i*2] = temp;
}
deinterlace(arr+i, length-i);
}
```

which unfortunately doesn't work with arrays not a power of 2 in size

**edit**: this algo fails at larger powers of 2 anyway so I guess I'm at square 0 again

**edit 2**: I have found an nlogn algorithm for this, given either an O(n) array rotate function, or an initial size which is a power of 2

works like so:

1a2b3c4d5e6f7g, "chunk size" = 1 initial,

split into groups of chunk size *4 1a2b 3c4d 5e6f 7g

swap the inner 2 chunks of each group 12ab 34cd 56ef 7g

repeat with chunk size = chunk size *2

12ab34cd 56ef7g (read: 56 ef 7 g) -> 1234abcd 567efg

1234abcd567efg -> 1234567abcdefg

```
template<typename T>
void deinterlace(T* arr, int length, int group_ct = 1){
if(group_ct*2 >= length) return;
for(int i = 0; i<length; i+=group_ct*4){
int rot_count = group_ct;
int i1 = i + group_ct;
int i2 = i+group_ct*4 - group_ct;
if(i2+group_ct > length){
i2 = i1 + (length-i1)/2+group_ct/2;
}
rotate(arr, i1, i2, group_ct);
}
deinterlace(arr, length, group_ct * 2);
}
```

**edit 3** I guess the correct term is deinterleave, not deinterlace

muchsmaller than doubling the array, depending on the size of chunks (take 60 or 4000). – ssube Oct 15 '11 at 22:12