I have a small function that calculates a parameter based on doing element-wise math on a list of parameters that are calculated based on the `std::vector`

instances `l,t,d,n`

where `l,t,d,n`

are all `std::vector<double>`

. This is the pinchpoint in the speed of my program - I have profiled, and I am sure.

Here is a working snippet that uses the `[]`

operator. I am doing development in C++ in Visual C++ 2008 Express on a Core i7, 8GB RAM, Windows 7, in Release Mode with `/O2`

optimization. Ultimately this is getting compiled to a Python extension with SWIG, but let's not get ahead of ourselves.

I have also coded up a solution using C-arrays (see below)( the solution that I used to use in C, but I have gone towards an object-oriented solution in C++, which requires (for my application) the use of `std::vector`

s to avoid memory leaks.)

All three solutions are below. I have heard much talk on SO and elsewhere about how the `std::vector`

iterator solution should be (always??) just as fast as the array, but my results show that 1 million calls takes the following times:

`std::vector`

with`[]`

operator : 2.53 s`std::vector`

with iterator: 2.69 s- C-array : 0.58 s

So clearly the array solution is much faster. Am I missing something obvious with my coding of the std::vector solutions?

## Edit

So it seems that part of my problem was in the profiling. The optimization optimized away most of my c-array code, which is why it was so much faster than any of the std::vector options. I think I am fundamentally limited by the throughput of doing all the exp() and pow() calls. Thank you everyone for all the recommendations, I think for my application I am just butting up against processor speed. I suppose about 2 microseconds for 19*6 pow calls *isn't* really all that bad when it comes down to it. But it is still too slow for me. *C'est la vie...*

`std::vector<double>`

using indexing with `[]`

operator

```
double phir_power::base(double tau, double delta) throw()
{
double summer=0;
for (unsigned int i=iStart;i<=iEnd;i++)
{
if (l[i]>0)
summer+=n[i]*pow(delta,d[i])*pow(tau,t[i])*exp(-pow(delta,l[i]));
else
summer+=n[i]*pow(delta,d[i])*pow(tau,t[i]);
}
return summer;
}
```

`std::vector<double>`

with iterators

```
std::vector<double>::const_iterator n_begin=n.begin(), n_end = n.end(), n_iter = n_begin;
std::vector<double>::const_iterator d_begin=d.begin(), d_end = d.end(), d_iter = d_begin;
std::vector<double>::const_iterator t_begin=t.begin(), t_end = t.end(), t_iter = t_begin;
std::vector<double>::const_iterator l_begin=l.begin(), l_end = l.end(), l_iter = l_begin;
for (unsigned int uuu=0;uuu<1e6;uuu+=1)
{
double summer=0;
//Bring the iterators back to the first element
l_iter = l_begin;
d_iter = d_begin;
t_iter = t_begin;
n_iter = n_begin;
for (; l_iter != l_end; ++l_iter,++t_iter,++d_iter,++n_iter)
{
if ((*l_iter)>0)
summer+=(*n_iter)*pow(delta,(*d_iter))*pow(tau,(*t_iter))*exp(-pow(delta,(*l_iter)));
else
summer+=(*n_iter)*pow(delta,(*d_iter))*pow(tau,(*t_iter));
}
rrrrrrrr += summer;
}
t2 = clock();
printf("Time for 1 million calls %g [s] val %g \n",((double)(t2-t1))/CLOCKS_PER_SEC,rrrrrrrr);
```

# C-array

```
double r=0;
t0 = clock();
unsigned int qwe;
double ttte = 0;
double term_;
for (unsigned int j=1;j<19;j++)
{
t1=clock();
r=0;
for (unsigned int i=0; i<1e6; i++)
{
term_ = n[j]*pow(delta,d[j])*pow(tau,t[j]);
if (l[j]>0)
term_ *= exp(-pow(delta,l[j]));
r+=term_;
}
ttte+=r/1e6;
t2=clock();
printf("Index %d time %g [s] val %g\n",j,((double)(t2-t1))/CLOCKS_PER_SEC,r/1e6);
}
t3=clock();
printf("Time for 1 million calls %g [s] val is %g\n",((double)(t3-t0))/CLOCKS_PER_SEC,ttte);
```

`_HAS_ITERATOR_DEBUGGING=0;_SECURE_SCL=0`

to the macro defs in project in VC2008), but the result was a crash of Visual Studio. As I understand it, in VC2008, secure iterators are enabled in Release mode, but they are disabled in VC2010. I have also tried to add`#define _SECURE_SCL 0`

to main.cpp, but that doesn't work either since you need to add`#define_SECURE_SCL 9`

to every file (as I understand it). How much difference in performance should I see? Worth it to try again? – ibell Jul 2 '12 at 15:36