# Memory diagram of dynamic allocation of Multidimensional Arrays

Here are two ways to dynamically allocate a multidimensional array that I know:

``````int (*numbers)[4] = new int[3][4]
``````

and

``````int **numbers = new int*[3];
``````

Do these two represent the same thing in memory?. What and how do they represent, actually? (a memory diagram would really help!)

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No, the first will create 12 ints (3*4), in memory they will be sequentially laid out. The second creates 3 pointers to integers

Ie the first will be laid out like

``````[1,2,3,4][5,6,7,8][9,10,11,12]
``````

so you have 3 4 element arrays of integers, wheras the second example is going to look more like

``````[0x12345678,0x12345678,0x12345678]
``````

ie, 3 uninitialized pointers to integers

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can you explain more what "numbers" represent? –  Chin Oct 17 '12 at 4:33
The first `numbers` is a pointer to an array of 4 integers. The second `numbers` is a pointer to a pointer to an integer. –  hexist Oct 17 '12 at 4:59
How can a pointer to an array of 4 integers hold address of 12 ints? How can a pointer to a pointer to an integer hold address of 3 pointers to integer? Sorry I'm a bit confused –  Chin Oct 17 '12 at 14:11
A pointer doesn't "hold" anything, the value of a pointer is the memory address where something is. So in the first case, the value of `numbers` is the memory address of the first element of the first array of 4 integers. For the second `numbers`, the value of `numbers` is the memory address of the first pointer in your 3 pointer array. –  hexist Oct 17 '12 at 14:49