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After moving an object, it must be destructable:

T obj;
// don't use obj and let it be destroyed as normal

But what else can be done with obj? Could you move another object into it?

T obj;
obj = std::move(other);

Does this depend on the exact type? (E.g. std::vector could make specific guarantees you can't rely on for all T.) Is it required or even sane that all types support something besides destruction on moved-from objects?

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marked as duplicate by BЈовић c++ Feb 15 at 8:26

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 6 down vote accepted

Yes, you can move another object into it. std::swap does this.

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I'd forgotten std::swap, good point. – Roger Pate Oct 6 '10 at 13:05
The appears to be the only sane requirement, in addition to destruction, for any type. I'll note that the move-assignment operator could be deleted (thus yielding a compile-time error) and that swap requires MoveAssignable (§20.3.2p1, 0x FCD) to make this work—implying some types, which can't be used with swap, aren't MoveAssignable. – Roger Pate Oct 6 '10 at 13:57
And it appears has_move_assign (§, table 45, 0x FCD) tells you whether MoveAssignable is met. – Roger Pate Oct 6 '10 at 13:58
@Roger Concepts were removed from the standard. – Let_Me_Be Oct 6 '10 at 14:12
@Let: The referenced sections are not part of the concepts proposal, and the FCD was published ~9 months after concepts were removed. As you put it in another comment, "you should probably read something about [these], you seem to have no idea what they are." – Roger Pate Oct 6 '10 at 14:18

The current draft of C++0x requires that a moved-from object can be destroyed or assigned to. If you pass your object to a function in the standard library then that is all that is assumed.

It is generally considered good practice to ensure that a moved-from object is a "working" object of its type that satisfies all invariants. However, it is in an unspecified state --- if it is a container, you don't know how many elements it has, or what they are, but you should be able to call size() and empty(), and query it.

The current draft is unclear on what is required of the standard library types themselves, and there is active discussion in the C++ committee about that.

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It may be a good idea to allow users to call a size() method, but if I write my own container, am I allowed to make obj.size() be UB if obj has been moved? – Roger Pate Oct 6 '10 at 13:16
Yes, with your own type you can do what you like. I would strongly recommend adding a valid() query if you do though, as undetectable states that "explode" when used are a real pain to deal with. – Anthony Williams Oct 6 '10 at 13:48
I wouldn't say every move-enabled class has to support assignment. But if the class does support some sort of assignment(s) this/these should still be usable in a "moved-from" state. – sellibitze Oct 6 '10 at 20:04
As for containers, David Abrahams at least recommends that the move-assigned-to container should destruct its original elements somehow. Consider vector<fstream> where move assignment is implemented via swap. That's not a good idea because old stream objects might still live on in the other vector instead of being closed. – sellibitze Oct 6 '10 at 20:07
The C++0x library requires that a move-enabled class supports assignment to moved-from objects, so if you have a std::vector<MyClass> then MyClass had better support assignment after move. If you don't use your class with the standard library then you can do what you like. – Anthony Williams Oct 7 '10 at 6:51

That's type semantics. You decide. It's up to you how you implement the move.

In general, the state should be the same as the one gained by using non-parametric constructor.

Btw. move makes only sense if you are storing a data block behind a pointer (or some other movable class).

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I'm asking as a user of these types, not as an implementor. "If I write a function templated on T, what operations do I know work for any T?" T can be anything from int to std::vector to, well, anything else. – Roger Pate Oct 6 '10 at 13:26
@Roger: If you write a function template, then you have requirements on the types that can be passed. If the type doesn't meet the requirements its wrongly used. – Let_Me_Be Oct 6 '10 at 13:27
@Let: That's why I'm asking what requirements are guaranteed for any type. For example, see the answers pointing out moved-from objects can be moved-into ("move-assigned"). – Roger Pate Oct 6 '10 at 13:32
@Roger Well, in that case its super simple. There are absolutely no guarantees. – Let_Me_Be Oct 6 '10 at 13:33
@Let: There is already a guarantee pointed out: you can move-assign into it. – Roger Pate Oct 6 '10 at 13:35

It depends on the class code. If class doesn't have rvalue reference constructor and assignment operator, std::move is ignored. std::move doesn't move anything, it just allows to treat its argument as rvalue reference, if appropriate function is available.

Correctly written && constructor and operator= must leave parameter instance in some consistent state, like empty string, and object should be usable. If there is operator=, another object may be correctly assigned to such empty instance.


Generally, std::move should be used to apply move semantics to variable which is not rvalue, but actually it is:

SomeClass::SomeClass(SomeClass&& v)
    // Inside of this function, v is not rvalue anymore. But I know that actually 
    // this is rvalue, and use std::move

In this case, mininal requirement to v is that it should be able to die without problems.

When std::move is used for variable which is not actually rvalue reference, really, this variable usability may be undefined. For my own classes, I would ensure some kind of consistency for this case. For another classes - it depends on specific class implementation, but I would not apply std::move to objects which are not actually rvalue references. I really don't know how this is defined (and whether it is defined) in the standard.

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I'm asking what the exact requirements for that consistent state are. The way I understand things currently, after func(std::move(obj));, you are not guaranteed obj.method() can be called, unless you know exactly what T is and know it guarantees that to be okay. – Roger Pate Oct 6 '10 at 13:13
@Roger Of course you are allowed to call obj.method(); The object doesn't go anywhere. It just changed state. – Let_Me_Be Oct 6 '10 at 13:21
@Let: By "you are not guaranteed obj.method() can be called", I mean "you are not guaranteed obj.method() isn't UB.". I realize the syntax is well-formed. – Roger Pate Oct 6 '10 at 13:23
@Roger I have no idea what UB is but anyway, if the move operator gets the class into a state where you can't call methods from public interface it's just not implemented correctly. – Let_Me_Be Oct 6 '10 at 13:26
@Roger You are writing moving code, and it is your responsibility to keep object in usable state. Object which resources are "stolen" should behave as default empty object. If this is impossible, object methods must throw some known and documented exception or return failure (like ObjectDisposedException in .NET). This is what I would do writing class with && operators. However, I don't know whether standard requires this. – 0123456789 Oct 6 '10 at 13:28

As I finally understood from the comments. You should check this: http://www.boost.org/doc/libs/1_44_0/libs/concept_check/concept_check.htm

This will allow you to check the type supplied as template parameters for concepts (features of the type). I'm not sure if they already have one for movable.

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