Does the standard define precisely what I can do with an object once it has been moved from? I used to think that all you can do with a moved-from object is do destruct it, but that would not be sufficient.

For example, take the function template swap as defined in the standard library:

template <typename T>
void swap(T& a, T& b)
    T c = std::move(a); // line 1
    a = std::move(b);   // line 2: assignment to moved-from object!
    b = std::move(c);   // line 3: assignment to moved-from object!

Obviously, it must be possible to assign to moved-from objects, otherwise lines 2 and 3 would fail. So what else can I do with moved-from objects? Where exactly can I find these details in the standard?

(By the way, why is it T c = std::move(a); instead of T c(std::move(a)); in line 1?)


Moved-from objects exist in an unspecified, but valid, state. That suggests that whilst the object might not be capable of doing much anymore, all of its member functions should still exhibit defined behaviour — including operator= — and all its members in a defined state- and it still requires destruction. The Standard gives no specific definitions because it would be unique to each UDT, but you might be able to find specifications for Standard types. Some like containers are relatively obvious — they just move their contents around and an empty container is a well-defined valid state. Primitives don't modify the moved-from object.

Side note: I believe it's T c = std::move(a) so that if the move constructor (or copy constructor if no move is provided) is explicit the function will fail.

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    Not all of its member functions will exhibit defined behavior. Only those with no preconditions. For example you probably don't want to pop_back a moved-from vector. But you can certainly find out if it is empty(). – Howard Hinnant Aug 11 '11 at 14:40
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    @Howard Hinnant: pop_back from an empty vector has undefined behaviour anyway, from memory, so I'm pretty sure that pop_back from a moved vector exhibiting undefined behaviour is consistent. – Puppy Aug 11 '11 at 14:50
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    We're discussing moved-from objects. Not objects known to be in an empty state. Moved-from objects have an unspecified state (unless of course otherwise specified). [lib.types.movedfrom] – Howard Hinnant Aug 11 '11 at 15:11
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    @Howard Unspecified, but valid, so pop_back still behaves like on any valid vector (may it even be an empty vector). – Chris says Reinstate Monica Aug 11 '11 at 15:15
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    what do unspecified and valid mean in this context? – Ankur S Jun 19 '18 at 12:41
111 [lib.types.movedfrom]

Objects of types defined in the C++ standard library may be moved from (12.8). Move operations may be explicitly specified or implicitly generated. Unless otherwise specified, such moved-from objects shall be placed in a valid but unspecified state.

When an object is in an unspecified state, you can perform any operation on the object which has no preconditions. If there is an operation with preconditions you wish to perform, you can not directly perform that operation because you do not know if the unspecified-state of the object satisfies the preconditions.

Examples of operations that generally do not have preconditions:

  • destruction
  • assignment
  • const observers such as get, empty, size

Examples of operations that generally do have preconditions:

  • dereference
  • pop_back

This answer now appears in video format here: http://www.youtube.com/watch?v=vLinb2fgkHk&t=47m10s

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    But I could simply check the preconditions just like with any other object, right? – fredoverflow Aug 11 '11 at 15:17
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    @FredOverflow As long as these checks themselves have no preconditions, of course. – Chris says Reinstate Monica Aug 11 '11 at 15:18
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    @Chris: But how is that different from a normal, not moved-from object? – fredoverflow Aug 11 '11 at 15:25
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    May-be should be a separate question, but does that mean: if I have a string with char* buffer; and int length; members, then my move constructor/assignment must swap (or set) the value of both? Or would it be OK, if the length was unspecified (meaning that empty and size return meaningless values)? – UncleBens Aug 11 '11 at 15:32
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    @6502: You don't make sense. A C++03 class isn't "violating the C++0x standard" because a move ctor if generated would violate the standard. And C++03 code wouldn't be moving that class so there's no reason for a move ctor to be generated. – MSalters Aug 12 '11 at 9:27

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