Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I want to do some simulation of C language calculation in Python. For example, unsigned short, single precision float ...

ushort(0xffff) + 1 -> 0
0.1f * 0.1f -> ...

Are there some library to do this in Python?

I can use ctypes to create unsigned short, single float, but they cann't do math operation:

a = c_uint16(0xffff)
b = c_uint16(0x01)
a+b -> TypeError

Or, I can use numpy:

>>> np.uint16(0xffff) + np.uint16(0x01)
Warning: overflow encountered in ushort_scalars

but it's very slow comparing to Python's normal calculation:

>>> timeit.timeit("a+b", "import numpy as np;a=np.uint16(0xfffe);b=np.uint16(0x01)")
>>> timeit.timeit("0xfffe+0x01")
>>> timeit.timeit("np.uint16(0xfffe) + np.uint16(0x01)", "import numpy as np")


>>> timeit.timeit("a+b", "a=0xfffe;b=0x01")
share|improve this question
how about: def add(a,b): return (a+b) % 65536 ? – JBernardo Jun 16 '11 at 2:21

2 Answers 2

When compiling 0xfffe+0x01, this will be folded into the constant 65535. You aren't timing how long the addition takes -- you are just measuring the time of loading the constant:

>>> dis.dis(compile("0xfffe+0x01", "", "eval"))
  1           0 LOAD_CONST               2 (65535)
              3 RETURN_VALUE        

The addition of NumPy scalars is slower than adding built-in integers nevertheless, but it won't get better than that in pure Python. Consider using Cython -- it will allow you to declare types and execute the computations in C speed. Alternatively, try to vectorise your code in NumPy (that is, if speed really matters).

share|improve this answer
yes, the gerund vs. infinitive thing doesn't make a lot of sense does it? I was thinking about it after I saw this. For example "try to use cython" and "try using cython" are both idiomatic English, but they mean subtly different things; the former means something like "as a rule, use cython if you can," while the latter is closer to "consider using cython." (And for what it's worth, it should probably be "to learn better English.") All that said, I did mean it, about your posts being spotless, generally. Now that I know you don't mind a direct edit, perhaps I'll do that next time. – senderle Jun 16 '11 at 2:19
@senderle: Thanks again -- I'll clarify the message in my profile! – Sven Marnach Jun 16 '11 at 2:22

You can make a function for each operation using modulo % with 2**sizeof (in your case, 2**16 or 65536)

def add(a, b, mod=2**16):
    return (a+b) % mod

def sub(a, b, mod=2**16):
    return (a-b) % mod

and any other function you need.

>>> add(0xffff, 1)
>>> sub(10, 20)

Note this will work only for unsigned types. For signed ones, you can use half the value used to mod (i.e. 2**15) and will have to validate the result before applying modulo

share|improve this answer
Thanks, your method is useful for integers. For single floats, I am considering using ctypes call some DLL. – HYRY Jun 16 '11 at 5:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.