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In C++0x, we get an efficiency boost concerning containers with std::move:

SomeExpensiveType x = /* ... */;

But I can't find anything going the other way. What I mean is something like this:

SomeExpensiveType x = vec.back(); // copy!
vec.pop_back(); // argh

This is more frequent (the copy-pop) on adapter's like stack. Could something like this exist:

SomeExpensiveType x = vec.move_back(); // move and pop

To avoid a copy? And does this already exist? I couldn't find anything like that in n3000.

I have a feeling I'm missing something painfully obvious (like the needlessness of it), so I am prepared for "ru dum". :3

share|improve this question
What implications does the move method have on variables that go out of scope? For instance, if I create an object, add it to a member container, then the object goes out of scope... Since no copy was made, is the object in the member container still defined? – Polaris878 Jan 26 '10 at 22:19
Yes, it was moved into the container. You'll want to google rvalue references if you're not sure how they work. – GManNickG Jan 26 '10 at 22:21
sweet thanks... I'll have to dig into this some more lol. At face value it seems like this would cause problems. – Polaris878 Jan 26 '10 at 22:33
up vote 12 down vote accepted

I might be total wrong here, but isn't what you want just

SomeExpensiveType x = std::move( vec.back() ); vec.pop_back();

Assuming SomeExpensiveType has a move constructor. (and obviously true for your case)

share|improve this answer
I thought of that, but I'm wary about moving something from the container like that. Now that I think about it more, it does seem perfectly legal... :| – GManNickG Jan 26 '10 at 22:08
@Scary: back returns a reference, and using std::move would turn that into an rvalue-reference. – GManNickG Jan 26 '10 at 22:22
@GMan: no worries, move is a service provided by the class, not the container. The object in the container is still guaranteed to remain valid. – Potatoswatter Jan 26 '10 at 22:42
@Jerry: No, a "moved-from" object is still valid. It exists, it is just typically reset to a very simple state. Its lifetime has not expired, and its destructor has not been called, but it will be called. The object is perfectly valid as far as the language is concerned – jalf Jan 27 '10 at 3:00
@Jerry @jalf @Daniel: It should be noted that what the standard says has changed. From the FCD, Table 34 & 36 (moved from 33, not relevant) says: "Note: rv remains a valid object. Its state is unspecified—end note ]" So it's explicit: a moved object needs to be able to destruct safely, but nothing else is specified. Glad they cleared that up. – GManNickG Jul 27 '10 at 23:21
template<class C>
auto pop_back(C& c) -> typename std::decay<decltype(c.back())>::type
  auto value (std::move(c.back()));
  return value;  // also uses move semantics, implicitly
  // RVO still applies to reduce the two moves to one
share|improve this answer
I find std::decay more appropriate than std::remove_reference. For example, it turns a "const MyClass&" into a "MyClass" (removing const). – sellibitze Oct 1 '10 at 19:42
@sellibitze: You're right, that is more appropriate; thanks! – Roger Pate Oct 1 '10 at 20:28
I'm not 100% sure but a typename is possibly missing after -> – sellibitze Oct 3 '10 at 2:19
Indeed it is. Why does it seem like this should be much simpler? – Roger Pate Oct 3 '10 at 3:36
In some contexts typename is not necessary (for example, in the list of base classes). Since only a type can follow the arrow, typename is rather redundant. I simply wasn't sure whether this context requires typename or not. – sellibitze Oct 3 '10 at 9:53

For completeness (and anyone stumbling on this question without a C++1x compiler), an alternative that already exists today:

SomeExpensiveType x;
std::swap(x, vec.back()); 

It just requires a specialization of std::swap to exist for the element type.

share|improve this answer
Except don't use std::swap explicitly (as it can't be specialized properly for many types); use a using-declaration with an unqualified swap call. – Roger Pate Oct 1 '10 at 10:56
@Roger Pate - or use boost::swap to get the same thing. – Daniel Earwicker Oct 1 '10 at 13:00
I'd rather type a single line than worry about who's going to complain about Boost, as someone inevitably does. :) – Roger Pate Oct 1 '10 at 13:07
There is no C++1x. – sellibitze Oct 1 '10 at 19:40
@sellibitze ...unless you realize that it's already 2010 and the standard isn't complete, which means the original meaning of the '0' in C++0x is obsolete. I would still call it C++0x like everyone else, but you can argue either way. – Tim Yates Oct 3 '10 at 3:42

Generally for expensive types I think you'd want to push either a wrapper class or smart pointer into the container instead. This way you are avoiding expensive copies and instead only doing the cheap copies of the smart pointer or the wrapper class. You can also use raw pointers too if you want haha.

class ExpensiveWrapper
   ExpensiveWrapper(ExpensiveClass* in) { mPtr = in; }

   // copy constructors here....

   ExpensiveWrapper* mPtr;

share|improve this answer
A point of move semantics is to get rid of this method. Containers will only move their contents around instead of copying them. – GManNickG Jan 26 '10 at 22:12

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