Here's my code:

#include <stdlib.h> //malloc

#define lineSize 16
#define columnSize 16
#define cellSize 16

int main()
    unsigned char*** tab;
    tab = malloc(sizeof(unsigned char**) * lineSize);
    for(unsigned int i = 0; i < lineSize; i++)
        tab[i] = malloc(sizeof(unsigned char*) * columnSize);
    for(unsigned int i = 0; i < lineSize; i++)
        for(unsigned int j = 0; j < columnSize; j++)
            tab[i][j] = malloc(sizeof(unsigned char) * cellSize);

    unsigned int line = 0;
    unsigned int column = 0;
    unsigned int cell = 0;

    unsigned char* ptr = &tab[line][column][cell];

    for(line = 0; line < lineSize; line++)
        for(column = 0; column < columnSize; column++)
            for(cell = 0; cell < cellSize; cell++)
                *ptr = ...;

    return 0;

This code fills tab with values that are only known at execution time

In this case there's no much problems because lineSize, columnSize and cellSize are small, The problem is that when cellSize become 100000+ then dereferencing the pointer gets expensive in terms of time, that's why I thought to use a pointer to avoid dereferencing.

The problem is that I don't know how to do in order for the pointer to be updated as line, column or cell change.

Appreciates your help, Thanks.

EDIT: More explanations:

The bigger lineSize, columnSize and cellSize, the longer is the execution. It's expected but what takes a "lot of time" is what's inside the loops and inside the loops is a pointer dereferencing 16*16*100000 times (When cellSize = 100000).

If I'm right, Dereferencing is a multiplication like:

tab[2][5][3] = tab + 2*16*100000 + 5*100000 + 3;

And do math like that 16*16*100000 times is long.

So to avoid maths, I thought about a pointer that permanently points totab[line][column][cell] but I don't know how to do it without having to recalculate the pointer each time cell is incremented.

  • Why are you not moving the determination of the address (i.e. writing to pointer variable) into the loop? If you access several times via that pointer it is saving time. If you are not, then introducing the pointer is a step in the wrong direction. Just access tab[line][column][cell] directly, once or twice.
    – Yunnosch
    Aug 26, 2017 at 19:58
  • @Yunnosch Moving the determination of the addres of the pointer directly into the loop will not help. It will do the exact same amount of calcs as if I was just using tab[line][column][cell] Aug 26, 2017 at 20:03
  • That is only true for a single access. Actually it is more costly for first storing the pointer. So as I said, a step in the wrong direction.
    – Yunnosch
    Aug 26, 2017 at 20:05
  • You can take the risky way, i.e. increase the pointer by the difference (according to your somewhat appropriate math). But, there be dragons.
    – Yunnosch
    Aug 26, 2017 at 20:06
  • @Yunnosch I'll test that Aug 26, 2017 at 20:07

2 Answers 2


With a 3-D array, you can't move a pointer to a new position except for the last dimension. You can move ptr along the cell dimension, but not along the other dimensions.

To do that, just add the distance:

ptr2 = ptr + dist

The calculations you mention in the edit are not the same as dereferencing, they are used when you interpret a 1-D array as a 3-D array. This would allow to move along all dimensions.

You could do the following:

for(line = 0; line < lineSize; line++) {
    unsigned char** my_line = tab[line];
    for(column = 0; column < columnSize; column++)
        unsigned char* my_col = my_line[column];
        for(cell = 0; cell < cellSize; cell++)
            unsigned char data = my_col[cell];

You have the UB in your code.


does not work with individually malloc-ed values. It only works with the arrays which are continuous chunks of memory accommodating all the table elements. Your chunks may be anywhere in the memory.

  • 2
    It's not that tab[line][column][cell] doesn't work, it's the problem that you cannot do this "at the top" and then advance the pointer around like it's a contiguous block. (not my downvote though, I understand what you're saying, but I think the first sentence might be confusing to people)
    – vgru
    Aug 26, 2017 at 20:37

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