# Same function in Python and C, different results

I had the following function written in Python as part of a larger simulation:

``````#!/usr/bin/python
counter = 1
while (counter < 10000):
oldpa = .5
t = 1
while (t < counter):
newpa = ((oldpa * t) + 1) / (t + 1)
t = t + 1
oldpa = newpa
counter = counter + 1
print str(counter) + "\t" + str(oldpa)
``````

Then, I started rewriting the simulation in C so that it would run faster (and also to give myself an excuse to spend time learning C). Here's my C version of the above function.

``````#include <stdio.h>
main()
{
int counter, t;
float oldpa, newpa;
counter = 1;
while ( counter < 10000 )
{
oldpa = .5;
t = 1;
while ( t < counter )
{
newpa = ((oldpa * t) + 1) / (t + 1);
t = t + 1;
oldpa = newpa;
}
counter = counter + 1;
printf("%d\t%f\n", counter, oldpa);
}
}
``````

Now, here is the funny thing. When I run the Python function, the result converges to 0.999950, but when I run the C function, it converges to 0.999883. This difference is actually negligible for the purposes of my simulation, but I still want to know why I get different results

-
The c program doesn't work for me at all, the `counter + counter + 1;` line is wrong. – wRAR Mar 23 '13 at 12:26
Here would be a good place to start. – John Mar 23 '13 at 12:26
The fixed version converges to `0.999950` too. What platform, compiler and compiler flags are you using? – wRAR Mar 23 '13 at 12:27
Have you tried double precision as opposed to floats? – George Mitchell Mar 23 '13 at 12:27
Found my mistake. Of course with doubles it always works properly, and with floats it works wrong only when SSE2 floating point math is not used. – wRAR Mar 23 '13 at 12:48

Floating-point values in Python are almost always IEEE-754 double precision, corresponding to a C or C++ `double`. If you want a lot more precision, check out the decimal module.