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Test code:

#include <cmath>
#include <cstdio>

const int N = 4096;
const float PI = 3.1415926535897932384626;

float cosine[N][N];
float sine[N][N];

int main() {
    for (int i = 0; i < N; i++) {
        for (int j = 0; j < N; j++) {
            cosine[i][j] = cos(i*j*2*PI/N);
            sine[i][j] = sin(-i*j*2*PI/N);

Here is the time:

$ g++ -o main
$ time ./main

real    0m1.406s
user    0m1.370s
sys     0m0.030s

After adding using namespace std;, the time is:

$ g++ -o main
$ time ./main

real    0m8.743s
user    0m8.680s
sys     0m0.030s


$ g++ --version
g++ (Ubuntu/Linaro 4.5.2-8ubuntu4) 4.5.2


Dump of assembler code for function sin@plt:                                    
0x0000000000400500 <+0>:     jmpq   *0x200b12(%rip)        # 0x601018 <_GLOBAL_OFFSET_TABLE_+48>
0x0000000000400506 <+6>:     pushq  $0x3                                     
0x000000000040050b <+11>:    jmpq   0x4004c0                                 
End of assembler dump.

Dump of assembler code for function std::sin(float):                            
0x0000000000400702 <+0>:     push   %rbp                                     
0x0000000000400703 <+1>:     mov    %rsp,%rbp                                
0x0000000000400706 <+4>:     sub    $0x10,%rsp                               
0x000000000040070a <+8>:     movss  %xmm0,-0x4(%rbp)                         
0x000000000040070f <+13>:    movss  -0x4(%rbp),%xmm0                         
0x0000000000400714 <+18>:    callq  0x400500 <sinf@plt>                      
0x0000000000400719 <+23>:    leaveq                                          
0x000000000040071a <+24>:    retq                                            
End of assembler dump.

Dump of assembler code for function sinf@plt:                                   
0x0000000000400500 <+0>:     jmpq   *0x200b12(%rip)        # 0x601018 <_GLOBAL_OFFSET_TABLE_+48>
0x0000000000400506 <+6>:     pushq  $0x3                                     
0x000000000040050b <+11>:    jmpq   0x4004c0                                 
End of assembler dump.
share|improve this question
@Nawaz: It might. It's an implementation detail whether <cmath> provides double sin(double) and double cos(double) in the global namespace. Ditto for <cstdio> and printf. – Ben Voigt Aug 7 '11 at 23:24
@Nawaz It does compile. It is my real coding. – rynlbrwn Aug 7 '11 at 23:35
The easiest way to answer issues like this is by comparing the assembly output of the compiler. – Kerrek SB Aug 7 '11 at 23:41
@David: That had better not be the total definition of std::cos. See 26.8/8 and 26.8/9. (Also I believe that 26.8/4 can be interpreted to mean that these overloads must not be provided in the global namespace.) Or does D.5 require that they ARE available globally. It is a little confusing. – Ben Voigt Aug 7 '11 at 23:42
Funny thing, I tested here, compiling without optimization is way faster than with O3... Just the fact of changing from his PI to M_PI made a lot of difference, don't know why. – fbafelipe Aug 7 '11 at 23:59
up vote 18 down vote accepted

You're using a different overload:


        double angle = i*j*2*PI/N;
        cosine[i][j] = cos(angle);
        sine[i][j] = sin(angle);

it should perform the same with or without using namespace std;

share|improve this answer
Your code works, but it runs fast with or without the namespace change. Why does the code I provided run much slower? – rynlbrwn Aug 7 '11 at 23:39
@Ryan: Because my code always calls double sin(double). Your original code calls either double sin(double) from the global scope, or float sin(float) from namespace std. Modern FPUs are optimized for operations on doubles. – Ben Voigt Aug 7 '11 at 23:40
Added some assembly, does your conclusion still hold? (I'm no assembly ninja) – rynlbrwn Aug 8 '11 at 0:03
@Ryan: What would be more interesting is the assembly listing for your code (especially the part inside the loop) – Ben Voigt Aug 8 '11 at 0:06
The only difference is a conversion from float to double. But is it really the use of float that hurts? Could it be the extra function call? – rynlbrwn Aug 8 '11 at 0:33

I guess the difference is that there are overloads for std::sin() for float and for double, while sin() only takes double. Inside std::sin() for floats, there may be a conversion to double, then a call to std::sin() for doubles, and then a conversion of the result back to float, making it slower.

share|improve this answer

Use -S flag in compiler command line and check the difference between assembler output. Maybe using namespace std; gives a lot of unused stuff in executable file.

share|improve this answer
That's why I had the print statements, so that if you ran the code you could see that most of the time is spent in the loop, not initialization. – rynlbrwn Aug 8 '11 at 0:00

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