Based on: http://www.hackersdelight.org/HDcode/nlz.c.txt

```
template<typename T> int clz(T v) {int n=sizeof(T)*8;int c=n;while (n){n>>=1;if (v>>n) c-=n,v>>=n;}return c-v;}
```

If you'd like a version that allows you to keep your lunch down, here you go:

```
int clz(uint64_t v) {
int n=64,c=64;
while (n) {
n>>=1;
if (v>>n) c-=n,v>>=n;
}
return c-v;
}
```

As you'll see, you can save cycles on this by careful analysis of the assembler, but the strategy here is not a terrible one. The while loop will operate Lg[64]=6 times; each time it will convert the problem into one of counting the number of leading bits on an integer of half the size.
The if statement inside the while loop asks the question: "can i represent this integer in half as many bits", or analogously, "if i cut this in half, have i lost it?". After the if() payload completes, our number will always be in the lowest n bits.
At the final stage, v is either 0 or 1, and this completes the calculation correctly.