I am trying to test a series of libraries for matrix-vector computations. For that I just make a large loop and inside I call the routine I want to time. Very simple. However I sometimes see that when I increase the level of optimization for the compiler the time drops to zero no matter how large the loop is. See the example below where I try to time a C macro to compute cross products. What is the compiler doing? how can I avoid it but to allow maximum optimization for floating point arithmetics? Thank you in advance
The example below was compiled using g++ 4.7.2 on a computer with an i5 intel processor. Using optimization level 1 (-O1) it takes 0.35 seconds. For level two or higher it drops down to zero. Remember, I want to time this so I want the computations to actually happen even if, for this simple test, unnecessary.
#include<iostream>
using namespace std;
typedef double Vector[3];
#define VecCross(A,assign_op,B,dummy_op,C) \
( A[0] assign_op (B[1] * C[2]) - (B[2] * C[1]), \
A[1] assign_op (B[2] * C[0]) - (B[0] * C[2]), \
A[2] assign_op (B[0] * C[1]) - (B[1] * C[0]) \
)
double get_time(){
return clock()/(double)CLOCKS_PER_SEC;
}
int main()
{
unsigned long n = 1000000000u;
double start;
{//C macro cross product
Vector u = {1,0,0};
Vector v = {1,1,0};
Vector w = {1.2,1.2,1.2};
start = get_time();
for(unsigned long i=0;i<n;i++){
VecCross (w, =, u, X, v);
}
cout << "C macro cross product: " << get_time()-start << endl;
}
return 0;
}
volatile asm("":::"memory");
into your loop to encourage the compiler to not remove the code, but you'll have to check that you're actually executing the desired code.