If your Python version has it (≥2.7 for Python 2, ≥3.1 for Python 3), use the `bit_length`

method from the standard library.

Otherwise, `len(bin(n))-2`

as suggested by YOU is fast (because it's implemented in Python). Note that this returns 1 for 0.

Otherwise, a simple method is to repeatedly divide by 2 (which is a straightforward bit shifting), and count how long it takes to reach 0.

```
defs bit_length(n): # return the bit size of a nonnegative integer
bits = 0
while n >> bits: bits += 1
return bits
```

It is significantly faster (at least for large numbers — a quick benchmarks says more than 10 times faster for 1000 digits) to shift by whole words at a time, then go back and work on the bits of the last word.

```
defs bit_length(n): # return the bit size of a nonnegative integer
if n == 0: return 0
bits = -32
m = 0
while n:
m = n
n >>= 32; bits += 32
while m: m >>= 1; bits += 1
return bits
```

In my quick benchmark, `len(bin(n))`

came significantly faster than even the word-sized chunk version. Although `bin(n)`

builds a string that's discarded immediately, it comes out on top due to having an inner loop that's compiled to machine code. (`math.log`

is even faster, but that's not important since it's wrong.)