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.)