# Python implementing pow() for exponentiation by squaring for very large integers

I'm trying to roll my own pow() which goes over a binary bit by bit using exponentiation by squaring http://en.wikipedia.org/wiki/Exponentiation_by_squaring. There were some questions in this area if this helps you in thinking about this problem:

Difference between the built-in pow() and math.pow() for floats, in Python?

Behavior of Python ** and % operators with big numbers

I'm teaching myself Python so it may be some simple mistake I'm making.

``````def power(g_base,a,p_mod):
x=1; b=[1]; bits = "{0:b}".format(a)
for bit in bits:
if bit=='1': x *= (((x**2)*g_base)%p_mod)
elif bit=='0': x *= ((x**2)%p_mod)
else: x *= 1
#t = [b.append(((x**2)*g_base)%p_mod) if bit == '1' else b.append((x**2)%p_mod) for bit in bits]
return x%p_mod

a,b,c=5,2,8
#a,b,c=31,21,12
print "power(): ",power(a,b,c)
print "pow(): ",pow(a,b,c)
``````

The output is right with 31,21,12 and wrong with 5,2,8:

``````Python 2.7 (r27:82525, Jul  4 2010, 09:01:59) [MSC v.1500 32 bit (Intel)] on win32
>>> ================================ RESTART ================================
>>>
power():  5
pow():  1
>>> ================================ RESTART ================================
>>>
power():  7
pow():  7
>>>
``````

Not sure where this all went tragically wrong.

-

The problem is that you are multiplying the intermediate results when you do `x *= (x**2)...`. Instead, you just need to assign the newly computed value to x. Simply replace `x*=` with `x=` as follows:

``````def power(g_base,a,p_mod):
x=1
bits = "{0:b}".format(a)
for i, bit in enumerate(bits):
if bit=='1': x = (((x**2)*g_base)%p_mod)
elif bit=='0': x = ((x**2)%p_mod)
return x%p_mod
``````

As a side note, I would not recommend putting multiple statements in one line separated by a semicolon (`;`). Although legal syntax, it is not very Pythonic.

-
Brilliant! That worked nicely. Good explanation too. –  stackuser May 7 '13 at 14:48