Please consider this code:

class A


int main()
    std::vector<A> test;

The constructor and destructor will be called twice, also memory will be allocated twice and the object will copied, now not only is that potentially bad for performance it could also lead to run time errors, especially if there's some cleanup going on in the destructor. The way i'd usually get around this is to just create a vector of pointers instead :

std::vector<A*> test;
test.push_back(new A());

My question is two fold, is this common practice and is it good practice? Or is there a better way? If this turns out to be a dupe please let me know and i'll close the question, but I couldn't find anything on searching.

  • 7
    It is common practice to not use pointers. And not using pointers is good practice. And it would be better practice if you didn't use pointers and implement a movement constructor. – Some programmer dude Oct 29 '16 at 21:14
  • still, std::vector<B*> test is necessary when polymorphism is required on the list (and B is the base class). But only here... and I agree that's bad for memory leaks/double frees. – Jean-François Fabre Oct 29 '16 at 21:14
  • The better way is to implement a move constructor for B. – Ryan Bemrose Oct 29 '16 at 21:16
  • 4
    @Jean-FrançoisFabre Wouldn't a smart pointer still be more appropriate in that case? At least as long as the vector is supposed to own the objects. – Dan Mašek Oct 29 '16 at 21:16
  • 3
    It is not a micro-optimization, and emplace_back makes the optimization very trivial. – Asu Oct 29 '16 at 21:21

Use emplace_back.

std::vector<A> test;
//test.emplace_back(constructor, parameters);

This way, A will be constructed in-place, so no copy or move will occur.

Edit: To clarify on the comments on the question - No, this will not change from push_back if you pass it a temporary. For instance,


Will, in C++11, cause a temporary A to be constructed, moved and destroyed, as if you used push_back.

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