# Matrix allocation in one line

Watching some code found on internet I came across this piece of code:

int (*p)[3];

p = (int(*)[3]) calloc(5*3,sizeof(int));

is it just a way to alloc a matrix?

I understand that int (*p)[3] creates a pointer to an array of 3 int, but I'm not sure about the calloc call: I know that calloc allocate and initialize a number of int (in this case) equal to the first parameter (5*3).
Thus, if I assign it to p it should mean that the pointer now points to the just allocated memory location.

So, since I know my reasoning is wrong, may somebody correct me?

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calloc(m,n) allocates and zeroes out m*n bytes of memory, not m. –  larsmans May 14 '12 at 15:30
Yes, I meant it allocates 5*3 int. I corrected my question. –  user1372813 May 14 '12 at 15:36

int (*p)[3];

You're true that this is a pointer to an array of three ints, but this pointer could also point to the beginning of an array of arrays of three ints.

p = (int(*)[3]) calloc(5*3,sizeof(int));

Here, you allocate 5 * 3 ints to this pointer. As int[3] has 3 ints, you just allocated 5 such int[3] arrays.

You may then refer to these int[3] arrays as

p[0] ... p[4]

so you get a two-dimensional array ranging

p[0][0] ... p[0][2]

p[4][0] ... p[4][2]

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So, since calloc allocates 15 ints, and I get a 5*3 matrix, where do the original three ints end up? Are they just thrown away? If yes, what is the need to allocate them? Why we can't declare int **p? –  user1372813 May 14 '12 at 15:32
@user1372813 There are no original three ints before you call calloc. int (*p)[3]; is just a declaration - it creates the pointer p that may point to int[3]. However, until you initialize this pointer, like p = &somearray or p = (int(*)[3]) malloc (...), it points to some random place in the memory. –  Imp May 14 '12 at 15:36
@user1372813 Also, you can't just declare **p. The declaration int (*p)[3]; tells the compiler that the second dimension of the matrix is 3. So if you write, for example, p[1][2] you get the value *(p + 1 * 3 + 2). Without this information, the compiler would not know how to interpret p[1][2] because it wouldn't know how long the first row, p[0], is. –  Imp May 14 '12 at 15:39
Oh yes, now I see! Thank you very much! So, this way, to release the memory we just to call free(p), isn't it? –  user1372813 May 14 '12 at 15:43
@user1372813 Yes. You allocated your array by a single calloc call, so you can release it by a single free call. –  Imp May 14 '12 at 15:45