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The STL uses the "less than" as the default comparator. An STL comparator call on an object wrapped with the reference_wrapper<> does not compile, even if the underlying class has the "<" operator defined.

It seems, this is because there is no implicit conversion performed on on the LHS of the LHS.operator<(RHS) when it is a member function. I have verified that using a free version as the comparator works.

However, if the reference_wrapper provided the "<" operator, which calls the "<" on the underlying, the need to use the free function will be obviated.

I made the following addition in the code for the reference_wrapper (taken from VS11 Beta xrefwrap.h), and could use std::map with a class wrapped in my version of the reference_wrapper<> which has the "<" operator defined.

    bool operator <(reference_wrapper<_Ty> const rhs) const {
    return this->get() < rhs.get();

Added later: If I understand correctly, reference_wrapper<> provides copy/assign semantics associated with ptrs needed by many libraries, while hiding the ptr related syntax. This permits the use of reference type syntax, without the overhead of local copies. To compare it with examples using ptrs completely misses one of the point of the reference_wrappers: you want to avoid the use of ptr type syntax.

The way things stand right now, code which directly works on objects breaks when the objects are wrapped in reference_wrappers. Needless to say, "<" being the default comparator, indeed makes it special; in a significant percentage of existing code, objects will define these to obviate the need for special comparators.

Added Later #2: The history of this feature suggests that avoiding the use of ptr syntax was not the original intent. However, it has been a decade since this was first introduced in boost. With a large number of new programmers "guided" to avoid ptr based syntax (undoubtedly influenced by ptr free languages), this feature can become increasingly useful if it could work more seamlessly, especially when dealing with legacy code storing objects in STL containers, and value copies all over.

Added Later #3: Improving Legacy Code with minimal code changes Over time thin classes become heavy and the size of the objects in the containers increases. A quick way to improve performance is to avoid the copies, via wrapped objects. This will provide the "C ptr" type performance without the extra copies with minimal changes to the code.

std::map<const Object, string> objTable;
// can be rewritten as to avoid object copies using the
// __myOwn::reference_wrapper which contains the '<' operator
std::map<__myOwn::reference_wrapper<const Object>, string> rwTable_myOwn;

// which works with out any non-member free comparator functions
rwTable_myOwn[a]="One"; // Compiles and works

// When using the table with the std::reference_wrapper
std::map<std::reference_wrapper<const Object>, string> rwTable_std;
//the map does not work
rwTable_std[a]="One"; // Fails to compile it needs the custom non-member comparator
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closed as not constructive by casperOne May 24 '12 at 20:20

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@GManNickG The < is the default comparator in STL, and has a special place in the STL. The question of why stop at the "<" is self-evident. The way things stand now, you could use STL on raw objects with the "<" operator expressing the ordering semantics, but the same code will break once you wrap it. –  VSOverFlow May 24 '12 at 3:29
No, reference_wrapper was not created to act as a replacement for pointers. It's meant as a replacement for references (hence the name). –  R. Martinho Fernandes May 24 '12 at 3:58
Thx for the origins; @Xeo pointed that out too (see answer below). stackoverflow.com/a/9149473/1408646 suggests that there is a style element when it comes to avoiding ptr syntax. –  VSOverFlow May 24 '12 at 4:17

1 Answer 1

No, it shouldn't. It isn't reference_wrapper's job to do anything but wrap a reference as a value.

If you need to compare two reference_wrapper<T>'s (which is not a reference to T), then it's your job to make that work. For the same reason std::set<T*> doesn't default to defining comparison as std::less<T>(*x, *y), neither should your case. The wrapper is just a non-null pointer.

Why stop at a single comparison operator or all the comparison operators? Why not overload reference wrapper for all of the standard functions? Because it's not worth it when the solution is so easy.

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@vsaxena: I think std::[c]ref and std::reference_wrapper (or rather, their Boost counterparts) were originally created for things like std::thread, std::bind, std::async, etc. which need value semantics for arguments that are passed to functions, but the user does not want value semantics (i.e., copies). This really has nothing to do with pointer vs reference semantics, but rather with giving the user a choice on how to pass arguments around without requiring strange shenanigans on either the user's or the implementation's side. –  Xeo May 24 '12 at 3:45
Imagine if reference_wrapper did not exist. You want to bind argument heavy_object a; to a function void f(heavy_object const&). A normal call like bind(f, a) will create a copy inside the object bind returns (which is the only reasonable default). You could use bind(f, &a) to only store a pointer, but now the bind object cannot call f anymore, since f does not expect a pointer. You can't by default store a reference to the argument, since you have no way of making a value out of that, which can outlive the original arguments scope. –  Xeo May 24 '12 at 3:51
@vsaxena: Read my next comment too, it's not about "not using pointers", it's about freedom of choice for the user whether they want value or reference semantics for certain functionality. –  Xeo May 24 '12 at 3:52
@vsaxena: (Replying to the comment on your question; misplaced?) If it were self-evident, I wouldn't have needed to ask. It's a sign of poor reasoning to claim what you want to be true is self-evident (oh what a coincidence: your position is exactly what's self-evident, totally no bias there!). And of course it works on "raw" objects, they are the ones being compared. Right now you are not comparing objects, you are comparing wrappers. Answer this question: when is one wrapper "less" than another wrapper? It makes no sense. Don't try to implement senseless things. –  GManNickG May 24 '12 at 4:34
@vsaxena: You seem to think that because it's 10 years old it's time for it to "move on" and do new things. Why? It's done well for 10 years and will continue doing well exactly what it's suppose to do: treat a reference as a value. Nothing more, nothing less. The burden is on you to argue for extending it. And frankly you're doing a poor job. Your only argument seems to be "I really really wish I could just have it work exactly how I want and I always know what's right and self-evident". Sorry, not working. –  GManNickG May 24 '12 at 5:11

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