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I'm working on a simple wrapper template class that logs when special member functions are called. These functions cannot be defaulted since they perform additional logging related tasks.

template <typename T>
struct logger {
    logger(T const& value) : value_(value) { /*...log...*/ }
    logger(T&& value) : value_(std::move(value)) { /*...log...*/ }
    logger(logger const& other) : value_(other.value_) { /*...log...*/ }
    logger(logger&& other) : value_(std::move(other.value_)) { /*...log...*/ }

    T value_;

Unfortunately, when the wrapped type is an rvalue-reference the copy-constructor fails to compile with the following error message:

error: cannot bind ‘int’ lvalue to ‘int&&’

The reason is that an implicit copy constructor will behave somewhat different for an rvalue-reference member:

[class.copy 12.8/15] The implicitly-defined copy/move constructor for a non-union class X performs a memberwise copy/move of its bases and members. [...] Let x be either the parameter of the constructor or, for the move constructor, an xvalue referring to the parameter. Each base or non-static data member is copied/moved in the manner appropriate to its type:

  • if the member is an array, each element is direct-initialized with the corresponding subobject of x;
  • if a member m has rvalue reference type T&&, it is direct-initialized with static_cast<T&&>(x.m);
  • otherwise, the base or member is direct-initialized with the corresponding base or member of x.

Which brings me to my question: how does one write a generic copy-constructor that behaves as an implicitly defined copy-constructor, even when working with rvalue-references as members.

For this particular case, I could add an additional specialization for rvalue-references. However, I'm looking for a generic solution that doesn't restrict to single members and does not introduce code duplication.

share|improve this question
can u not do logger(logger const& other) : value_(static_cast<T>(other.value_))? since T is int&& – Kal Sep 26 '13 at 23:54
Kal: T is int&& for only one particular case, it could be a huge object in another and that would create an unnecessary copy. – K-ballo Sep 26 '13 at 23:58
What do you want to do if T is an rvalue reference? You don't have value semantics in this case. The move ctor should probably be disabled for this case, too, to avoid lifetime issues. – dyp Sep 27 '13 at 0:10
@DyP: I want to do the same that an implicit copy-constructor would do. That is, propagate the reference. – K-ballo Sep 27 '13 at 0:12
For an rvalue ref data member, the default implicit copy ctor is deleted. – dyp Sep 27 '13 at 0:14
up vote 3 down vote accepted

Here be dragons.

logger(logger const& other) : value_(other.value_)

The expression other.value_ is an lvalue of type T const, e.g. int&, int&& or int const.

  1. If T == int&&, you need to do a move, as the expression is an lvalue. The move is equivalent to a static_cast<int&&>, so you could do the static_cast directly as well.

  2. If T == int&, no cast is required.

  3. If T == int, no cast is required.

For a copy ctor defined as:

logger(logger const& other) : value_(static_cast<T>(other.value_)) {/*...*/}

Applied to the third case, this is defined as the introduction of a temporary, and could result in an additional copy/move, although I think it can&will be elided.

A solution without relying on the copy/move elision is to introduce a weird_cast, that yields the desired type in any case:

#include <type_traits>

template<class T, class U>
typename std::enable_if<std::is_reference<T>{}, T>::type
weird_cast(U& p)
    return static_cast<T>(p);

template<class T, class U>
typename std::enable_if<not std::is_reference<T>{}, T const&>::type
weird_cast(U const& p)
    return p;

int main()
    int           o = 42;
    int &        lo = o;
    int &&       ro = std::move(o);
    int const   lco = o;

    int&& r = weird_cast<int&&>(ro);
    int&  l = weird_cast<int& >(lo);
    int   d = weird_cast<int  >(lco);

This is similar to std::forward, but also supports "forwarding" non-reference types.

Where are the dragons?

[class.copy]/11 specifies:

A defaulted copy/move constructor for a class X is defined as deleted if X has:

  • [...]
  • for the copy constructor, a non-static data member of rvalue reference type
  • [...]

An rvalue reference is typically bound to an xvalue or prvalue, i.e. to an expression referring to an object that is "near the end of its lifetime". As lifetime doesn't get extended through function boundaries, it would be error prone to allow such a "copying".

share|improve this answer
I only want to initialize members of type T from another member of the same type (but possibly different value category). No const_cast should be done under no condition. Also, would you mind adding your reference to 12.8/11? – K-ballo Sep 27 '13 at 1:20
@K-ballo By taking the argument as logger const& other, the expression other.value_ has type T const (hence, the const_cast) and is an lvalue (hence, the move/static_cast). As I wrote in my previous comment, a non-const copy ctor allows getting rid of the const_cast, but even as an override doesn't provide the guarantee at first glance not to modify the argument. – dyp Sep 27 '13 at 1:31
I still don't understand why a const_cast should be needed. If logger is const, a member reference is still non-const. There is no T& const or T&& const. – K-ballo Sep 27 '13 at 1:33
@K-ballo Huh! You're right, I stand corrected. I thought this rule only applies to pointers, but not to references. – dyp Sep 27 '13 at 1:36
To avoid confusion for future readers, I think it is important to note that I actually have an lvalue of type int&&, not int&. – K-ballo Sep 27 '13 at 1:52

You could write a specialization for rvalue-references:

template<typename T>
struct logger<T&&>{

But really I don't think you want logger::_value to be a rvalue reference...


Although I feel this isn't a bad solution, as it's a GENERAL workaround for ALL rvalue references, here's another option without literal specialization:

template<typename TT>
struct logger{
  typedef typename rvalue_remover<TT>::value T;
  //your previous code here

Where rvalue_remover is something like this:

template<typename T>struct rvalue_remover{typedef T value;};
template<typename T>struct rvalue_remover<T&&>{typedef T value;};

I'm pretty sure this is already defined in c++11, but I don't have it installed here so I don't remember the name.


Ah! found it! It's called std::remove_reference<T>::type, and declared in #include <type_traits>

share|improve this answer
He literally said he did not want to write a specialization, that being said I have no idea why not – aaronman Sep 27 '13 at 0:01
I could, but as I stated in my question that is not a general answer for this problem but a workaround for just this particular case. – K-ballo Sep 27 '13 at 0:01
@K-ballo - edited the answer :) – rabensky Sep 27 '13 at 0:08
@cluracan: I do not wish to remove the rvalue-reference. I intend to keep it, and still have a copy-constructible class. Having rvalue-references as members is perfectly fine in certain contexts. If you are looking for an example, search for std::forward_as_tuple() – K-ballo Sep 27 '13 at 0:09
@K-ballo - it is extremely dangerous to keep the rvalue-reference. It will cause you bugs, as it may be destroyed without notice from another place. Even the idea of copying an rvalue reference doesn't make much sense. The whole point of an rvalue reference is that it is temporary - the whole idea is that once something is defined as rvalue-reference it is never used again so it can be destroyed at will. – rabensky Sep 27 '13 at 0:13

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