I can't tell from the C++11 Standard if nullptr_t has a default constructor. In other words, is the following valid?:

nullptr_t n; 

GCC and VC++ allow the above code, but clang does not. I can't find anything in the Standard specifying that it doesn't have a default constructor, and what I can find suggests that it ought to. This matters to me because I'm writing a basic fallback implementation of nullptr for older compiler support and need to know if I need to give it a default constructor.

  • I thought you were supposed to handle a nullptr_t as a plain pointer type, i.e. not as a class. So I'm assuming nullptr_t n; creates an uninitialised variable; you're supposed do write nullptr_t n = nullptr; explicitly. But I don't have a C++11 compiler here, so I can't check. And I can't seem to find where I read it in the formal specs... – Mr Lister Mar 31 '12 at 7:28
  • FWIW, clang accepts "nullptr_t n;" here. – Johannes Schaub - litb Mar 31 '12 at 15:20

What the Standard says

The standard says (18.2)

nullptr_t is defined as follows:

namespace std {
   typedef decltype(nullptr) nullptr_t;

The type for which nullptr_t is a synonym has the characteristics described in 3.9.1 and 4.10.

Where 3.9.1 basically says it should be of the same size as void* and 4.10 specifies the conversion rules for nullptr.

Edit: 3.9.9 furthermore explicitly states that nullptr_t is a scalar type, which means the expected initialization rules for built-in types from 8.5 apply:

  • Default-initialization (nullptr_t n;), which leaves the value of n undefined. As Johannes Schaub pointed out correctly, this compiles fine with the newest version of Clang.
  • Value-initialization (nullptr_t n = nullptr_t();), which initializes n to 0.

This behavior is identical to e.g. int, so nullptr_t is definitely default-constructible. The interesting question here is: What does it mean for nullptr_t to have undefined value? At the end of the day, there is only one meaningful possible value for nullptr_t, which is nullptr. Furthermore the type itself is only defined through the semantics of the nullptrliteral. Do these semantics still apply for an unitialized value?

Why that question doesn't matter in practice

You don't want to declare a new variable of type nullptr_t. The only meaningful semantic of that type is already expressed through the nullptr literal, so whenever you would use your custom variable of type nullptr_t, you can just as well use nullptr.

What does matter in practice

The only exception to this comes from the fact that you can take non-type template parameters of type nullptr_t. For this case, it is useful to know which values can convert to nullptr_t, which is described in 4.10:

A null pointer constant is an integral constant expression (5.19) prvalue of integer type that evaluates to zero or a prvalue of type std::nullptr_t. [...] A null pointer constant of integral type can be converted to a prvalue of type std::nullptr_t.

Which basically does just what you'd expect: You can write

nullptr_t n = 0;    // correct: 0 is special

but not

nullptr_t n = 42;   // WRONG can't convert int to nullptr_t

Both gcc 4.6 and Clang SVN get this right.

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    You are making the mistake of generalizing something that is true of classes to non-classes. Non-classes do not have any member functions at all. – Jirka Hanika Mar 31 '12 at 9:01
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    Non-class types can be default-constructible without having a member function. This is not about having a default constructor in the sense of having a member function, but in the sense of fulfilling the concept of a default-constructible type. – ComicSansMS Mar 31 '12 at 9:10
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    @ComicSansMS - Good progress again. Thank you. They are value-initialized when using value initialization syntax but I think I get what you are trying to say. Anyway, there is one other point where the answer is still misleading. The uninitialized value definitely does not have to be nullptr. An uninitialized bool may contain true, false, or also any other bit pattern, and computations using such "third values" are undefined and may lead to logically "impossible" branch paths. I suspect but have not checked that it is the same with this new unnamed type (compiler might warn). – Jirka Hanika Apr 1 '12 at 9:29
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    @etherice i dont think it makes a difference to the user, but i think it makes it more easy to grasp the spec (personal opinion ofc). – Johannes Schaub - litb Aug 12 '13 at 17:35
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    @JirkaHanika: One more thing: You're not using correct terminology when you say "... default initialization such as int x = new int(); ...". int() is value-initialization, not default-initialization. Per C++11 § 8.5.10: An object whose initializer is an empty set of parentheses, i.e., (), shall be value-initialized. Per 8.5.7 (summarized): value-initialization for POD types is zero-initialization. Per 8.5.11: If no initializer is specified for an object, the object is default-initialized. Per 8.5.6 (summarized): default-initialization for POD types is to do nothing at all.. – etherice Aug 13 '13 at 19:11

While nullptr is a new addition to the language itself, std::nullptr_t is just an alias of an unnamed type, the alias declared in cstddef like this:

typedef decltype(nullptr) nullptr_t;

While nullptr_t, being a typedef and not a language keyword, is not listed as a fundamental type, it is specified to behave as a fundamental type (and not, for example, as a pointer type or a class type). Therefore it does not have a default constructor, but you can still declare a variable like you have done. Your variable is not initialized and I wonder what its use could be and what error message you exactly got from clang.

See also here.

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  • I think the spec talking about values of nullptr_t in the "Fundamental types" section implies that nullptr_t is a fundamental type. There is no explicit list of what types are fundamental types, which means one has to gather them by iterating over all types mentioned in "Fundamental types". And it makes a lot of sense that it is a fundamental type anyway. – Johannes Schaub - litb Mar 31 '12 at 15:08
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    Note that you cannot say "Type nullptr_t is a library typedef". A typedef does not introduce a new type. It simply creates an alias to an existing type. The type that "nullptr_t" aliases is introduced by the language. – Johannes Schaub - litb Mar 31 '12 at 15:12
  • @JohannesSchaub-litb - OK, edited the question to make this point more clear. This point is, the type of nullptr has no name or alias in a C++ program until an alias is assigned (best done using the standard library header file). – Jirka Hanika Mar 31 '12 at 18:57

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