# 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 `nullptr`

literal. 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.

`nullptr_t`

as a plain pointer type, i.e. not as a class. So I'm assuming`nullptr_t n;`

creates anuninitialisedvariable; 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