# C 3d array dynamic memory allocation, question, need help

I was looking through the web for a way to dynamically allocate space for 3d matrix, say of int type. And i found many sites concerning 2d matrices, and this one http://www.taranets.com/cgi/ts/1.37/ts.ws.pl?w=329;b=286 And there was this example as shown down. I understood all of above examples but this concerning 3d i cannot. Is creator allocating space in backward way or what else? He starts with allocating space for whole matrix, and then proceeds to Z axis? Thats what i cant understand.

Also if you know any good sites concerning this, post it here, it will be appreciated.

/* Program 9.4 from PTRTUT10.HTM   6/13/97 */
// http://www.taranets.com/cgi/ts/1.37/ts.ws.pl?w=329;b=286

#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>

int X_DIM=16;
int Y_DIM=5;
int Z_DIM=3;

int main(void)
{
char *space;
char ***Arr3D;
int y, z;
ptrdiff_t diff;

/* first we set aside space for the array itself */

space = malloc(X_DIM * Y_DIM * Z_DIM * sizeof(char));

/* next we allocate space of an array of pointers, each
to eventually point to the first element of a
2 dimensional array of pointers to pointers */

Arr3D = malloc(Z_DIM * sizeof(char **));

/* and for each of these we assign a pointer to a newly
allocated array of pointers to a row */

for (z = 0; z < Z_DIM; z++)
{
Arr3D[z] = malloc(Y_DIM * sizeof(char *));

/* and for each space in this array we put a pointer to
the first element of each row in the array space
originally allocated */

for (y = 0; y < Y_DIM; y++)
{
Arr3D[z][y] = space + (z*(X_DIM * Y_DIM) + y*X_DIM);
}
}

/* And, now we check each address in our 3D array to see if
the indexing of the Arr3d pointer leads through in a
continuous manner */

for (z = 0; z < Z_DIM; z++)
{
printf("Location of array %d is %p\n", z, *Arr3D[z]);
for ( y = 0; y < Y_DIM; y++)
{
printf("  Array %d and Row %d starts at %p\n", z, y, Arr3D[z][y]);
diff = Arr3D[z][y] - space;
printf("    diff = %d  ",diff);
printf(" z = %d  y = %d", z, y);
}
putchar('\n');
}
putchar('\n');
system("PAUSE");
return 0;
}
-

space is indeed the the memory allocated for the entire matrix.

However, he goes on to create pointers to the areas located in space with

Arr3D = malloc(Z_DIM * sizeof(char **));

Arr3D's purpose is simply a way to access space through indexing (specifying Z,Y,X indexes). Space only has one index, so if you wanted to access matrix element [a][b][c] through space, you would need to convert it to a single space[d] where d is something like a*Y_DIM*Z_DIM + b*Z_DIM+c. So with Arr3D, you can access [a][b][c] through Arr3D[a][b][c].

Arr3D is itself an array of char**, which are pointers to pointers of type char. Arr3D[z] is then a pointer to an array of char pointers. Each Arr3D[z][y] is then set to point to a specific row in the original 3x3 matrix with

Arr3D[z][y] = space + (z*(X_DIM * Y_DIM) + y*X_DIM);

So then with Arr[1][2] you are then accessing a row with z=1, y=2 of the matrix.

-
Right. The basic concept here is that space points to the actual 3D array, flattened into a 1D array, and Arr3D is being set up as an index into that array - it just makes accessing it more convenient. –  caf Feb 3 '10 at 22:26
It a bit clearer now, i understand how this works, but i still have trouble visualizing accessing reversed 3d array with ZYX. This example here is more suited for me right now: stackoverflow.com/questions/1824363/…. Makes more sense for beginner like me. Thanks Will and others for helping! –  Martin Berger Feb 4 '10 at 17:30

What the example should do is point higher dimensions into the contiguous block already allocated.

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And that's what it does do... –  Jonathan Leffler Feb 4 '10 at 6:49