In C++0x (n3126), smart pointers can be compared, both relationally and for equality. However, the way this is done seems inconsistent to me.

For example, shared_ptr defines operator< be equivalent to:

template <typename T, typename U>
bool operator<(const shared_ptr<T>& a, const shared_ptr<T>& b)
    return std::less<void*>()(a.get(), b.get());

Using std::less provides total ordering with respect to pointer values, unlike a vanilla relational pointer comparison, which is unspecified.

However, unique_ptr defines the same operator as:

template <typename T1, typename D1, typename T2, typename D2>
bool operator<(const unique_ptr<T1, D1>& a, const unique_ptr<T2, D2>& b)
    return a.get() < b.get();

It also defined the other relational operators in similar fashion.

Why the change in method and "completeness"? That is, why does shared_ptr use std::less while unique_ptr uses the built-in operator<? And why doesn't shared_ptr also provide the other relational operators, like unique_ptr?

I can understand the rationale behind either choice:

  • with respect to method: it represents a pointer so just use the built-in pointer operators, versus it needs to be usable within an associative container so provide total ordering (like a vanilla pointer would get with the default std::less predicate template argument)
  • with respect to completeness: it represents a pointer so provide all the same comparisons as a pointer, versus it is a class type and only needs to be less-than comparable to be used in an associative container, so only provide that requirement

But I don't see why the choice changes depending on the smart pointer type. What am I missing?

Bonus/related: std::shared_ptr seems to have followed from boost::shared_ptr, and the latter omits the other relational operators "by design" (and so std::shared_ptr does too). Why is this?


1 Answer 1


This was a defect in drafts of C++11; a defect report was opened to change the std::unique_ptr relational operator overloads to use std::less: see LWG Defect 1297.

This was fixed in time for the final C++11 specification. C++11 §[unique.ptr.special]/5 specifies that the operator< overload:

Returns: less<CT>()(x.get(), y.get())

where x and y are the two operands of the operator and CT is the common type of the two pointers (since pointers to different types, e.g. with different cv-qualifications, can be compared).

  • Ah, I should of looked there first. :) That definitely answers the change in method, but do you know why shared_ptr wouldn't provide all the other relational operators?
    – GManNickG
    Oct 14, 2010 at 2:24
  • @GMan: I think that might be a mistake. They are listed in 20.9 in the <memory> synopsis, but they are not actually present in Oct 14, 2010 at 2:31
  • @James: Oh, good call. I was just scoped on the shared_ptr section. Well, that solves that I guess. (They should really clean that up.) Thanks.
    – GManNickG
    Oct 14, 2010 at 2:33
  • 1
    More curiously: even though the other three relational operators are not overloaded for shared_ptr, the greater, greater_equal, and less_equal class templates are all specialized for shared_ptr. Oct 14, 2010 at 2:48
  • 1
    @GMan: The Boost rationale seems to be something along the lines of: Because you can't compare arbitrary pointers in C++ using the four relational operators unless those pointers point at subobjects of some array or class and because you'll never have shared_ptrs pointing to subobjects (at least not in the intended use of shared_ptr), they don't implement the relational operators for shared_ptr. However, they want you to be able to use shared_ptr as a map key and for some reason they found it easier to overload op< than to specialize std::less (for compatibility reasons, probably). Oct 21, 2010 at 0:02

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