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I have pretty much the same code in python and C. Python example:

import numpy
nbr_values = 8192
n_iter = 100000

a = numpy.ones(nbr_values).astype(numpy.float32)
for i in range(n_iter):
    a = numpy.sin(a)

C example:

#include <stdio.h>
#include <math.h>
int main(void)
{
  int i, j;
  int nbr_values = 8192;
  int n_iter = 100000;
  double x;  
  for (j = 0; j < nbr_values; j++){
    x = 1;
    for (i=0; i<n_iter; i++)
    x = sin(x);
  }
  return 0;
}

Something strange happen when I ran both examples:

$ time python numpy_test.py 
real    0m5.967s
user    0m5.932s
sys     0m0.012s

$ g++ sin.c
$ time ./a.out 
real    0m13.371s
user    0m13.301s
sys     0m0.008s

It looks like python/numpy is twice faster than C. Is there any mistake in the experiment above? How you can explain it?

P.S. I have Ubuntu 12.04, 8G ram, core i5 btw

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10  
did you compile your C code with optimizations? (-O2 or -O3) –  Joe Jan 22 '13 at 19:58
2  
Looks like no. Try gcc -O2 a.c –  Joe Jan 22 '13 at 19:59
4  
It isn't 'basically the same code' either. –  Omnifarious Jan 22 '13 at 20:03
7  
With -O3 the C version is about 18000 times faster on my machine - probably because it optimises ALL of the loops away... ;) –  Mats Petersson Jan 22 '13 at 20:03
3  
@szx No, it only sets up the return value of main() and exits, never even calling sin. –  phant0m Jan 22 '13 at 20:09

2 Answers 2

up vote 13 down vote accepted

First, turn on optimization. Secondly, subtleties matter. Your C code is definitely not 'basically the same'.

Here is equivalent C code:

sinary2.c:

#include <math.h>
#include <stdlib.h>

float *sin_array(const float *input, size_t elements)
{
    int i = 0;
    float *output = malloc(sizeof(float) * elements);
    for (i = 0; i < elements; ++i) {
        output[i] = sin(input[i]);
    }
    return output;
}

sinary.c:

#include <math.h>
#include <stdlib.h>

extern float *sin_array(const float *input, size_t elements)

int main(void)
{
    int i;
    int nbr_values = 8192;
    int n_iter = 100000;
    float *x = malloc(sizeof(float) * nbr_values);  
    for (i = 0; i < nbr_values; ++i) {
        x[i] = 1;
    }
    for (i=0; i<n_iter; i++) {
        float *newary = sin_array(x, nbr_values);
        free(x);
        x = newary;
    }
    return 0;
}

Results:

$ time python foo.py 

real    0m5.986s
user    0m5.783s
sys 0m0.050s
$ gcc -O3 -ffast-math sinary.c sinary2.c -lm
$ time ./a.out 

real    0m5.204s
user    0m4.995s
sys 0m0.208s

The reason the program has to be split in two is to fool the optimizer a bit. Otherwise it will realize that the whole loop has no effect at all and optimize it out. Putting things in two files doesn't give the compiler visibility into the possible side-effects of sin_array when it's compiling main and so it has to assume that it actually has some and repeatedly call it.

Your original program is not at all equivalent for several reasons. One is that you have nested loops in the C version and you don't in Python. Another is that you are working with arrays of values in the Python version and not in the C version. Another is that you are creating and discarding arrays in the Python version and not in the C version. And lastly you are using float in the Python version and double in the C version.

Simply calling the sin function the appropriate number of times does not make for an equivalent test.

Also, the optimizer is a really big deal for C. Comparing C code on which the optimizer hasn't been used to anything else when you're wondering about a speed comparison is the wrong thing to do. Of course, you also need to be mindful. The C optimizer is very sophisticated and if you're testing something that really doesn't do anything, the C optimizer might well notice this fact and simply not do anything at all, resulting in a program that's ridiculously fast.

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I think it would instructive to understand which features in particular make the original C code so much slower than your version. –  NPE Jan 22 '13 at 20:36
    
@NPE - I think it's actually just the optimizer. Almost everything else I did would likely have made the code slower. :-) I'll check though. Yeah, definitely the optimizer is what did it. Without the optimizer my code is MUCH slower. –  Omnifarious Jan 22 '13 at 20:37
    
If we eliminate the datatype difference (on my box, it has little effect on performance), it's not unreasonable to expect sinf() to be the dominant cost. Yet there's something about the OP's code that's very costly. From looking at the source and the disassembly, it's not obvious to me what it might be... –  NPE Jan 22 '13 at 20:40
    
@NPE: That's a tricky question. Because the optimizer will make mincemeat of the OPs original code. My guess is that the loop maintenance code is what takes the time. I think the only real way to tell is to look at the assembly output and make some educated guesses. That's actually the chief feature that makes numpy fast is that it moves all the loop maintenance code into C. –  Omnifarious Jan 22 '13 at 20:45
1  
I just ran oprofile on the original code as supplied above (with a printf("%f\n", x) at the end), and it spends about 65% of the time in "sin". –  Mats Petersson Jan 22 '13 at 20:56

Because "numpy" is a dedicated math library implemented for speed. C has standard functions for sin/cos, that are generally derived for accuracy.

You are also not comparing apples with apples, as you are using double in C, and float32 (float) in python. If we change the python code to calculate float64 instead, the time increases by about 2.5 seconds on my machine, making it roughly match with the correctly optimized C version.

If the whole test was made to do something more complicated that requires more control structres (if/else, do/while, etc), then you would probably see even less difference between C and Python - because the C compiler can't really do "sin" any faster - unless you implement a better "sin" function.

Newer mind the fact that your code isn't quite the same on both sides... ;)

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I question whether numpy's sin is even correct. Most 'optimized' trig implementations get argument reduction horribly wrong. –  R.. Jan 22 '13 at 20:43

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