First of all, I want to reassure you all that I am asking this question out of curiosity. I mean, don't tell me that if I need this then my design has problems because I don't need this in real code. Hope I convinced you :) Now to the question:

For most types T we can write

T* p = new T;

now what if T is an array type?

int (*p)[3] =  new ???; //pointer to array of 3 = new ???

I tried this:

typedef int arr[3];
arr* p = new arr;

but this doesn't work.

Is there any valid syntax for this or it is impossible in C++. If it is impossible, then why? Thanks

Edit: i am guessing I wasn't clear enough. I want to be able to use it in this situation:

void f(int(&)[3]);
int (*p)[3] = new ???;
  • If I understand correctly, you want to know if C++ has a way to "infer" the size of the array without explicitly specifying it in the allocation? – oakley.aaron Mar 17 '11 at 13:56
  • @oakley: not quite: I am asking if I an use T* p = mew T; syntax when T is an array type (with compile-time-known dimension) – Armen Tsirunyan Mar 17 '11 at 13:58

The reason you can't do it is that new int[3] already allocates exactly what you want, an object of type int[3]. It's just that what the new-expression returns, is a pointer to its first element. 5.3.4/1:

If the entity is a non-array object, the new-expression returns a pointer to the object created. If it is an array, the new-expression returns a pointer to the initial element of the array.

Returning a pointer to the first element is what allows the 3 to be unknown until runtime, so I suppose that by knowing it in advance, you've tripped over flexibility that you aren't using.

I guess the ways around this are to reinterpret_cast back to the pointer type you want (not necessarily portable), or to allocate a struct containing an int[3] (and use a pointer to its data member).

[Edit: er, yeah, or FredOverflow's idea, which has neither disadvantage, but requires use of delete[] instead of delete.]

I guess the moral is, if you write templates that naively allocate some unknown type T with new, then the template won't work when someone passes an array type as T. You'll be assigning it to the wrong pointer type, and if you fix that (perhaps with auto), you'll be deleting it wrongly.

Edit in answer to j_kubik's question:

Here's one way to distinguish between array and non-array types. If you write a function like this, that returns an object that holds the pointer and is capable of correctly deleting it, then you have a generic new/delete for any type T.

#include <iostream>

template <typename T>
void make_thing_helper(T *) {
    std::cout << "plain version\n";

template <typename T, int N>
void make_thing_helper(T (*)[N]) {
    std::cout << "array version\n";

template <typename T>
void make_thing() {

int main() {
    typedef int T1;
    typedef int T2[3];
  • 1
    Both new int[3] and new int[1][3] have to be released via delete[]. – fredoverflow Mar 17 '11 at 14:31
  • 1
    @FredOverflow: indeed, I meant "instead of" what happens with a non-array type. If I was inventing the magic non-existent syntax that Armen wants, to allocate a single object of array type as though it were a non-array type, then it would let you delete it with delete through the same pointer that's returned from MagicNew. So it'd look like typedef int arr[3]; arr *p = MagicNew arr; delete p;. I know he didn't specify this in his question, maybe it was wrong of me to assume that others would invent it the same way. – Steve Jessop Mar 17 '11 at 14:36
  • So to summarize - is there a way to make new-delete template ready for array types or is it simply impossible? – j_kubik Sep 6 '11 at 6:22
  • @J_kubik: I think you could do it, but you need to distinguish whether T is an array type or not somewhere along the way. I'll add one way of doing that to my answer. – Steve Jessop Sep 6 '11 at 7:38

To get a pointer to an array from new, you have to dynamically allocate a two-dimensional array:

int (*p)[3] = new int[1][3];
  • Hmm... not quite what I was expecting but certainly my example will work... +1 – Armen Tsirunyan Mar 17 '11 at 14:02

You could always use boost::array, which will be in C++0x. Otherwise, any solution will be awkward at best: arrays are broken in C, and C++ maintains compatilibity with C in this respect. Fred Overflow offered one solution; even easier (but syntactically noisy) would be to wrap the array in a struct: struct A { int arr[3]; }; and allocate and manipulate this.

  • That would be a workaround, not a solution :) And @Fred's is too, but at least my example works with his workaround. With yours, it would't, would it? – Armen Tsirunyan Mar 17 '11 at 14:08
  • 1
    The wrapper is a workaround, but boost:array would be my prefered solution for working with fixed size arrays. So weird but possible: void f(array<3>& p); array<3>* p = new array<3>; f(*p); – stefaanv Mar 17 '11 at 14:39

You just do

int *p = new unsigned int [3]

You can then use *p as a pointer or an array i.e. *(p+1) or p[1]

  • 2
    Sorry, but this isn't what I am asking. At all – Armen Tsirunyan Mar 17 '11 at 13:55

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