You haven't mentioned what the type of the
mutex variable is, but assuming it is an
std::mutex (or something similar meant to guarantee mutual exclusion), the compiler is prevented from performing a lot of optimizations. So you don't need to worry about return value optimization or some other optimization allowing the
size() query from being performed outside of the mutex block.
However, as soon as the mutex lock is released, another waiting thread is free to access the vector and possibly mutate it, thus changing the size. Now, the number returned by your function is outdated. As Mats Petersson mentions in his answer, if this is an issue, then the mutex lock needs to be acquired by the caller of
getNumber(), and held until the caller is done using the result. This will ensure that the vector's size does not change during the operation.
mutex::lock followed by
mutex::unlock quickly becomes unfeasible for more complicated functions involving exceptions, multiple return statements etc. A much easier alternative is to use
std::lock_guard to acquire the mutex lock.
std::lock_guard<std::mutex> l(mutex); // lock is acquired
int size = someVector.size();
} // lock is released automatically when l goes out of scope