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If I define an variable:
int (**a)[30];
It is pointer. This pointer points to a pointer which points to an array of 30 ints.
How to declare it or initialize it?

int (**a)[10] = new [10][20][30];
int (**a)[10] = && new int[10];  

All doesn't work.

share|improve this question
Your question is backwards. You should first figure out what data structure you want and then how to represent it. If you want a fixed-size 3d array, just declare a as int a[10][20][30]; and be done with it. – Sebastian Redl Jun 13 '13 at 16:15
I can see the merit of the question, but not the merit of the thing you are trying to do. Are you sure you need that many indirections? – Boyko Perfanov Jun 13 '13 at 16:16
There are many ways to give a a value. The question is what you want to do with it. – interjay Jun 13 '13 at 16:28
@MooingDuck: How do you know what he wants? The two tries shown above attempt to do completely different things. – interjay Jun 13 '13 at 17:01
@interjay: Completely unrelated to what the OP wants, I cannot find any expression int (**a)[10] = new ????; that compiles without a typedef. Period. – Mooing Duck Jun 13 '13 at 17:04
up vote 4 down vote accepted

The direct answer to your question of how to initialize a (whether or not that's what you actually need) is

int (**a)[10] = new (int (*)[10]);

I don't think this is actually what you want though; you probably want to initialize the pointer to point to an actual array, and either way std::vector is the better way to do it.

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+1 for answering the meta-question - ta :) – Stuart Golodetz Jun 13 '13 at 17:19
@StuartGolodetz: thanks :) – Mehrdad Jun 13 '13 at 17:20
Interesting that new (int (*)[10]) compiles but new (int (*)[10])[30] doesn't. – Mooing Duck Jun 13 '13 at 17:31

If you want an answer to the question as it stands, then you can do this kind of thing:

int a[30];
int (*b)[30] = &a;
int (**c)[30] = &b;

But it's unlikely to be what you want, as other people have commented. You probably need to clarify your underlying goal - people can only speculate otherwise.

Just to follow on from MooingDuck's remark, I can in fact see a way to do it without the typedef, but not directly:

template <typename T>
T *create(T *const &)
    return new T;

int (**a)[30] = create(a);

It's not pretty though.

share|improve this answer
I got this: typedef int(*array)[30]; int (**a)[30] = new array[10];, but I can't figure out how to do it without a typedef. – Mooing Duck Jun 13 '13 at 16:51
@MooingDuck: That's definitely a more useful answer - I can't see an obvious way to do it without the typedef though either. – Stuart Golodetz Jun 13 '13 at 16:59
Isn't int (**a)[30] = create(a); undefined behavior, since a is uninitialized? I'm not sure if this prevents it, but create(T *const &) may work. – Mehrdad Jun 13 '13 at 17:12
@Mehrdad: Whoops, true - I guess it will read a in passing it to the function, even though it's not read within the function. – Stuart Golodetz Jun 13 '13 at 17:14
Yup I think so. – Mehrdad Jun 13 '13 at 17:15

What do you expect to get by writing &(&var)? This is an equivalent of address of address of a block of memory. Doing things like this just to satisfy the number of * in your code makes no sense.

Think about it - how can you get an address of an address? Even if, by some sheer luck or weird language tricks you manage to do it, there no way it will work.

share|improve this answer
You're right that &&var makes no sense (it doesn't even compile), because it's the address of a temporary address. If you make that middle one a non-temporary, then an address of an address is actually a common thing when interacting with C libraries. – Mooing Duck Jun 13 '13 at 17:29
@MooingDuck It is then not an address of an address, but an address of a variable which holds another address. – Dariusz Jun 13 '13 at 17:44
Ah, I think the confusion is "what is an address" then. Because both cases have an object that holds the address, the difference is in one case the object is an rvalue, and in the other case the object is an lvalue. – Mooing Duck Jun 13 '13 at 17:58

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