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I'm looking at [VC10's] unique_ptr and they do a couple things I don't understand:

typedef typename tr1::remove_reference<_Dx>::type _Dx_noref;

_Dx_noref& get_deleter()
    {   // return reference to deleter
    return (_Mydel);

unique_ptr(pointer _Ptr,
    typename _If<tr1::is_reference<_Dx>::value, _Dx,
        const typename tr1::remove_reference<_Dx>::type&>::_Type _Dt)
    : _Mybase(_Ptr, _Dt)
    {   // construct with pointer and (maybe const) deleter&

typename tr1::add_reference<_Ty>::type operator*() const
    {   // return reference to object
    return (*this->_Myptr);

Wouldn't just writing _Dx& or _Ty& be the same thing?

I actually do understand why they did it here though:

unique_ptr(pointer _Ptr, typename tr1::remove_reference<_Dx>::type&& _Dt)
    : _Mybase(_Ptr, _STD move(_Dt))
    {   // construct by moving deleter
share|improve this question
The answer is that you need to learn C++, and then you should have an idea how to ask the right thing. I'm sorry if this sounds harsh, but once you have a firmer grasp on templates and argument deduction, you'll be able to figure this one out. But there's no point jumping in at the deep end, especially by looking at a real-world library implementation. That's like trying to learn ancient Greek by digging up artifacts in Persia rather than reading a textbook. – Kerrek SB Jan 14 '12 at 4:57
@KerrekSB: Sometimes it is a lot easier to learn from a single well explained example than from a whole textbook. Furthermore, most textbooks won't even cover this material, because they were written rvalue-references existed in the language. This is a valid and well asked question, that I can imagine being useful for a lot of people who are learning C++. – Mankarse Jan 14 '12 at 6:26
@KerrekSB This isn't exactly something I can look up. Even if I did happen across the rule that prompted the ctor to need to do what it does I probably wouldn't associate it here without seeing any examples. On another note, can you please stop flaming all my posts? You clearly have a problem with me (I don't care why). – David Jan 14 '12 at 12:34
Sorry, Dave, not at all -- apologies for that. The thing is that those are very specific tools that you'd only really use inside a template library, and which you could only appreciate in a template context, so I felt than an answer would require too much 'build-up' in order to be useful. I don't mean to flame or hurt you, apologies again for that, and I look forward to your next question! – Kerrek SB Jan 14 '12 at 13:11
up vote 14 down vote accepted


Any reference is removed from the return type, then a reference is added back. In conformant C++11, adding a & to an existing & (or &&) produces a &. In C++03 however, that would be forming a reference to reference type, which was illegal. Likely MSVC is using the old rules, or that code was written when it did and remains because it is harmless.


Here they remove the reference, add const, and then add the reference back, to be passing by const reference. This is because adding const directly to a reference type does nothing! (§8.3.2/1) In either C++11 or C++03, the parameter declaration would be valid but would not add a const, if the reference weren't removed and replaced.


This is essentially the same as get_deleter, but they went about it a different way, and _Ty cannot be a reference type to begin with. It looks to me like _Ty& would suffice, but it's their prerogative.

share|improve this answer
Awesome breakdown man - thank you. I would upvote multiple times if I could, especially after others flamed for no apparent reason imo. Incidentally, why can't _Ty be a reference type to begin with? – David Jan 14 '12 at 6:07
@Dave: Well, _Ty shouldn't be a reference type because you can't have a pointer to a reference. (8.3.2/5) I'm not checking whether there's some quirk that helpfully strips a reference in that case, but otherwise unique_ptr's member typedef pointer would be ill-formed. – Potatoswatter Jan 14 '12 at 6:20
@Dave : No one flamed you; taking what was intended to be constructive criticism so poorly is just silly. – ildjarn Jan 14 '12 at 16:09
@ildjarn Viewing that as constructive is just silly. However, this is the internet and everyone is going to interpret what they read differently with different contexts. C'est la vie. – David Jan 15 '12 at 3:54
@Dave : Exactly, and having thin skin will get you nowhere. ;-] – ildjarn Jan 15 '12 at 5:11

Here's an example, possibly archetypal, for why we need remove_reference, in the implementation of std::move: The goal is to return an rvalue-reference type, based on the deduced type of the function argument.

Example: Foo x; move(x); Here move(x) should return a type Foo&&. But the argument of move is an expression of type Foo&. So how can the move function deduce the right type?

The first attempt is to use ordinary template argument deduction and use a cast:

template <typename T> T && move(??? x) { return static_cast<T&&>(x); }

But what should go into ???? If we say T x, then T will be deduced as Foo&; if we say T & x, then T = Foo, and if we say T && x, it won't match at all. The second version, T & x, appears to be useful.

But then the function doesn't work on rvalues to begin with (e.g. move(Foo(...)). In this case, we want T && x so that T = Foo and T&& = Foo&& as desired. We could have two overloads, but having multiple overloads is undesirable because it increases complexity needlessly. And finally, if someone were to specify the template paramete explicitly as move<Foo&>(x), the function would never work, because when T = Foo&, then T&& = Foo& as well.

So in comes remove_reference:

template <typename T>
typename std::remove_reference<T>::type && move(T && x)
    return static_cast<typename std::remove_reference<T>::type &&>(x);

First off, the new reference collapsing rules imply that T is deduces as either Foo& or Foo&& in the two cases. Then, remove_reference strips the reference and gives type Foo in any case, and adding && makes the desired Foo&& return type.

In an oversimplified summary: we need remove_reference because (Foo&)&& is Foo& and not Foo&&. If you ever write template code that needs the base type of a template paramter that could be deduced as either U& or U&&, you can use this model.

share|improve this answer

template class add_reference has specialization for void, const void and const volatile void because reference of void type (void&) is not allowed. If _Ty& is used, it would generate a compilation error when _Ty = void.

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