I have the following code:
int main() {
vector<int> vec;
#pragma omp parallel for ordered schedule(dynamic)
for (int i = 0; i <= 300; i++) {
vec.push_back(i);
}
cout << vec.size() << endl;
}
The vector size is sometimes 285 or 294, but never 301. What i doing wrong?
What you are seeing here is the effect of a thread unsafe function being called by multiple threads. Internally push_back does something like the following in pseudocode
if reallocation needed:
reallocate
construct new object at &data[size]
++size
Now try to imagine different threads running the above code at the same time. What happens if both threads see the need to reallocate and attempt to do so at the same time. What if they both construct an object at &data[size] because they both reached that point before ++size? Note that even trying to increment on the same line as the construction won't work because they are still separate non-atomic operations.
What you really want to do is create a loop of strictly thread safe operations like the following.
int main() {
std::vector<int> vec(301);
#pragma omp parallel for
for (int i = 0; i <= 300; i++) {
vec[i]= i;
}
std::cout << vec.size() << std::endl;
}
In this case, every thread accesses vec[i] with a unique i. So no operations ever happen concurrently to the same objects. This is absolutely safe.
To answer your follow-up question, there is no way to push_back concurrently into a vector. You would have to synchronize your push_back calls which would make them slower than the non-parallel way. Another solution is to populate thread-local containers and then merge them. But whenever the simple solution I showed above is applicable it will also be faster than the alternatives.
vec.push_back(i);isn't a thread safe operation.push_backa vector simultaneously. It's not a good thing.