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How many copies happen/object exist in the following, assuming that normal compiler optimizations are enabled:

std::vector<MyClass> v;

If it is not exactly 1 object creation and 0 copying, What can I do (including changes in MyClass) to achieve that, since it seems to me that that is all that should really be necessary?

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are you sure v.push_back(v());? – billz Nov 27 '12 at 9:54
"assuming that normal compiler optimizations are enabled"? No such things as "normal compiler optimizations" - depends on the compiler, on the used compiler options, etc. – Kiril Kirov Nov 27 '12 at 9:54
I suppose it's more something like v.push_back(MyClass()); – Stephane Rolland Nov 27 '12 at 9:56
@KirilKirov I mean without specifying particular compiler flags. Say, release in VS, or -O2 or -O3 in gcc. This seems trivial enough that all compilers should take care of it. – baruch Nov 27 '12 at 9:57
up vote 4 down vote accepted

If the constructor of MyClass has side-effects, then in C++03 the copy is not permitted to be elided. That's because the temporary object that's the source of the copy has been bound to a reference (the parameter of push_back).

If the copy constructor of MyClass has no side-effects then the compiler is permitted to optimize it away under the "as-if" rule. I think the only sensible way to determine whether it actually has done so with "normal optimizations" is to inspect the emitted code. Different people have different ideas what's normal, and a given compiler might be sensitive to the details of MyClass. My guess is that what this amounts to is whether or not the compiler (or linker) inlines everything in sight. If it does then it will probably optimize, if it doesn't then it won't. So even the size of the constructor code might be relevant, never mind what it does.

So I think the main thing you can do is to ensure that both the default and the copy constructor of MyClass have no side-effects and are available to be inlined. If they're not available then of course the compiler will assume that they could have side-effects and will do the copy. If link-time optimization is a normal compiler option for you, then you don't have to do much to make them available. Otherwise, if they're user-defined then do it in the header file that defines MyClass. You might be able to get away with the default constructor having certain kinds of side-effects: if the effects don't depend on the address of the temporary being different from the address of the vector element then "as-if" still applies.

In C++11 you have a move (that likewise must not be elided if it has side-effects), but you can use v.emplace_back() to avoid that. The move would call the move constructor of MyClass if it has one, otherwise the copy constructor, and everything I say above about "as-if" applies to moves. emplace_back() calls the no-args constructor to construct the vector element (or if you pass arguments to emplace_back then whatever constructor matches those args), which I think is exactly what you want.

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You mean:

std::vector<MyClass> v;

None. The temporary will cause the move version of push_back to be called. Even the move construction will most likely be elided.

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And if the compiler is not a C++11 compiler? – Joachim Pileborg Nov 27 '12 at 9:58
None what? I assume you mean no copies and only one creation? – baruch Nov 27 '12 at 9:59
You asked 'how many copies' ? – Andrew Tomazos Nov 27 '12 at 10:00
@JoachimPileborg: Than it's out-of-date. – Andrew Tomazos Nov 27 '12 at 10:02
Is this true only for c++11? Is it dependent on move constructors (or whatever they are called)? – baruch Nov 27 '12 at 10:02

If you have a C++11 compiler, you can use emplace_back to construct the element at the end of the vector, zero copies necessary.

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In C++03, you would have a construction and a copy, plus destruction of the temporary.

If your compiler supports C++11 and MyClass defines a move constructor, then you have one construction and a move.

As mentionned by Timbo, you can also use emplace_back to avoid the move, the object being constructed in-place.

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