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Having a usual Base -> Derived hierarchy, like:

class Fruit { ... };
class Pear : Fruit { ... };
class Tomato : Fruit { ... };

std::vector<Fruit*> m_fruits;

Has it sense (e.g: it has better performance) to use emplace_back instead of push_back?

std::vector::emplace_back( new Pear() );
std::vector::emplace_back( new Tomato() );
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you won't know until you benchmark/profile it –  SchighSchagh Apr 3 '13 at 9:20
Use std::vector<std::unique_ptr<Fruit>> to avoid memory leaks, then the answer is obvious. –  ipc Apr 3 '13 at 9:31
I reader that emplace_back constructs itself the object, but in the case of pointers, I don't have a clue it if have sense. –  Zhen Apr 3 '13 at 10:26

2 Answers 2

up vote 6 down vote accepted

Pointers are scalar types and therefore literal types, and so copy, move and emplace construction (from an lvalue or rvalue) are all equivalent and will usually compile to identical code (a scalar copy). push_back is clearer that you're performing a scalar copy, whereas emplace_back should be reserved for emplace construction calling a non-copy- or move- constructor (e.g. a converting or multi-argument constructor).

If your vector should hold std::unique_ptr<Fruit> instead of raw pointers (to prevent memory leaks) then because you're calling a converting constructor emplace_back would be more correct. However that can still leak if extending the vector fails, so in that case you should use push_back(make_unique<Pear>()) etc.

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make_unique isn't in the standar, and it appears that emplace_back is same that push_back( std::move( X ) ) [i'm using gcc 4.7] –  Zhen Apr 3 '13 at 10:51
@Zhen: It may appear that way, but it's not. emplace_back(new T()) can leak, while push_back(make_unique<T>()) cannot. And yes, make_unique is missing by oversight, you can find implementations around the web. –  GManNickG Apr 3 '13 at 16:38

Don't use raw pointers, use std::unique_ptr like this:

std::vector<std::unique_ptr<Fruit>> m_fruits;

And as you can't copy construct a std::unique_ptr you must use emplace_back (although you can use push_back with std::move).

m_fruits.emplace_back(new Pear());
m_fruits.emplace_back(new Tomato());


As it appears that using std::vector<std::unique_ptr<T>>::emplace_back and new can leak if the std::vector needs and fails to reallocate memory, my recommended approach (until C++14 introduces std::make_unique) is to use push_back like this:

m_fruits.push_back(std::unique_ptr<Fruit>(new Pear));
m_fruits.push_back(std::unique_ptr<Fruit>(new Tomato));

Or using std::make_unique:

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