Variables of built-in types can be value-initialized like this:

int var = int();

this way I get the default value of int without hardcoding the zero in my code.

However if I try to do similar stuff for a pointer:

int* ptr = int*();

the compiler (Visual C++ 10) refuses to compile that (says type int unexpected).

How do I value-initialize a pointer in similar manner?

  • 1
    Good question. You also get a similar failure for unsigned int. – Mike Seymour Nov 9 '11 at 15:52
  • 1
    Now the question is why would you want to do that. You can initialize pointers with 0 directly (if you know it is a pointer), and if this is hidden in some template, then T() will work fine... I don't get how this question gets 11 upvotes :) – David Rodríguez - dribeas Nov 9 '11 at 16:23

How do I value-initialize a Type* pointer using Type()-like syntax?

You cannot. The syntax T() is defined in 5.2.3/1,2 (C++03, slightly different wording in C++11 FDIS). In particular the second paragraph states:

The expression T(), where T is a simple-type-specifier ( for a non-array complete object type or the (possibly cv-qualified) void type, creates an rvalue of the specified type, which is value-initialized (8.5);

That means that int(), will create an rvalue of type int and value-initialize it. Now the problem is that int* is not a simple-type-specifier, but rather an elaborated-type-specifier. The definition of simple-type-specifier in the grammar is:

    ::opt nested-name-specifieropt type-name
    ::opt nested-name-specifier template template-id

With type-name being defined as:


This is what makes the proposed solutions work. The creation of the typedef (either directly or through the template) creates a type-name (third type) that can be used as a simple-type-specifier (first type).


Use a typedef to make a name for your pointer type:

typedef int *ip;

ip ptr = ip();

The same idea should work for other types that require more than one lexical element (word) to define the name of the type (e.g., unsigned long, long long, unsigned long long *, etc.).

  • I'm confused, a pointer just holds the address in memory of the variable - shouldn't it just be int* x = int(), making x hold 0 which is the same as NULL? I guess I'm missing something since people keep skipping past mine, haha, I don't get what though. – John Humphreys - w00te Nov 9 '11 at 15:57
  • @w00te: Yours will have the same effect, because 0 is defined to convert to a null pointer. At the same time, he's specifically asking about how to do value initialization, and you're doesn't do that ("value initialization" has a specific defined meaning in the C++ standard that's a bit different from just the general idea of initializing with a value). – Jerry Coffin Nov 9 '11 at 15:59
  • Ah, I figured he just wanted to make sure his pointer pointed to null so it could be checked more effectively in later code :) Guess I misread. – John Humphreys - w00te Nov 9 '11 at 16:19

Doesn't require the use of typedef (but exclusive to C++11), which can be useful when dealing with several pointer types:

template<typename T>
using alias = T;

then alias<int*> is int*, so you can do int* p = alias<int*>().

A similar solution available to C++03, using an identity metafunction:

template<typename T>
struct identity {
    typedef T type;

int* p = identity<int*>::type();
  • 1
    The C++03 version requires a typedef, it is just hidden inside a template. The C++11 version does not create a typedef, but it does create a new type alias<T> which becomes a simple-type-specifier and thus prone to explicit type conversion in the functional notation – David Rodríguez - dribeas Nov 9 '11 at 16:38
  • Why not have a pointer<int>()? :) – sbi Nov 22 '11 at 13:05
  • @sbi alias has other uses. – Luc Danton Nov 22 '11 at 13:16

Here's one way:

template <typename T>
T make_default()
    return T();

int main()
    int *p = make_default<int*>();
  • That's one way to create a NULL pointer. – DanDan Nov 9 '11 at 17:03

Just do

int* x = int();

It still assigns 0 to the pointer making it point to the NULL address since you're defaulting it with the default value of int which is 0 anyway.

Actually, it works fine for all types:

double* y = int();

The address is still a 32-bit (or 64-bit depending on platform) integer so I think it should work fine for all types if you do = int().

  • Wow, looks like a major breach in the type system and is unbelievably cool. Yet it won't work for double*. – sharptooth Nov 9 '11 at 16:05
  • huh, interesting :) I'll have to check that out. I'd have thought it would have worked for all pointer types. – John Humphreys - w00te Nov 9 '11 at 16:16
  • I think it works fine, check out my edit. – John Humphreys - w00te Nov 9 '11 at 16:17
  • Yes, I meant double* ptr = double() which of course won't work. – sharptooth Nov 9 '11 at 16:44

The reason that doesn't work is because pointers do not have constructors.

The syntax

int ()

calls (in theory)

int::int ()

which initializes the variable. (More likely, the compiler just zeros the variable, but that's because it "knows" about ints).

In c++11, you can use nullptr

int *ptr = nullptr;

Otherwise, you pretty much have to use NULL:

int *ptr = NULL;

  • Of course pointers have constructors in the same way int has — it's all built-ins, after all. I can say T() if T is typedef int* T, and I cannot use = unsigned int() either. It's the just the purely syntactic problem of this not working with composite type names. – sbi Nov 22 '11 at 13:03

This is how you do it int* ptr = new int;

Heap pointers

  • 2
    That doesn't value-initialise the pointer. – Mike Seymour Nov 9 '11 at 15:55

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