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I am totally stumped. I was computing the cipher of the number 54 in RSA with the following values:

p=5; q=29; n=145 d=9; e=137

So the number 54 encrypted would be:

54^137 mod 145

or equivalently in python:

import math

My calculator gives me 24, my python statement gives me 54.0. Python is clearly wrong but I have no idea why or how. Try it on your installations of Python. My version is 2.5.1 but I also tried on 2.6.5 with the same incorrect result.

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>>> pow(54,137,145)

math.pow is floating point. You don't want that. Floating-point values have less than 17 digits of useful precision. The 54**137 has 237 digits.

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Thanks! Interesting information, I love learning little details like this. – Franz Feb 24 '11 at 8:45
@Franz: "little details"? Like floating point only represents only a few decimal digits of precision? I think that this is more than little. There are a fair number of SO questions that reflect other folks not knowing this piece of information. Or perhaps you were referring to something else? – S.Lott Feb 24 '11 at 10:47

That's because using the math module is basically just a Python wrapper for the C math library which doesn't have arbitrary precision numbers. That means math.pow(54,137) is calculating 54^137 as a 64-bit floating point number, which means it will not be precise enough to hold all the digits of such a large number. Try this instead to use Python's normal built-in arbitrary precision integers:

>>> (54 ** 137) % 145
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Using 3-argument pow(x, y, z) instead of x ** y % z for modulus arithmetic is generally a very good idea - it avoids the need to create the potentially huge intermediate value x ** y. – ncoghlan Feb 24 '11 at 3:51

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