Consider the following function:
f(vector<Obj> vec) {
...
std::sort(vec);
...
}
vec can be a huge vector (even millions of objects), but the objects have a fairly simple comparison operator.
The sorting operation takes the most time in f, lets say around 70%.
This function is called hundreds of times (sequentialy), with different vec each time.
Each function call is independent of another.
What do you think of the following approaches -
1. Using std::sort(std::execution_policiy::par...) but only one thread running f
f(vector<Obj> vec) {
...
std::sort(vec);
...
}
vec can be a huge vector (even millions of objects), but the objects have a fairly simple comparison operator.
The sorting operation takes the most time in f, lets say around 70%.
This function is called hundreds of times (sequentialy), with different vec each time.
Each function call is independent of another.
What do you think of the following approaches -
1. Using std::sort(std::execution_policiy::par...) but only one thread running f