I am working on code which will keep track of each time a specific element in an array is accessed. The array itself will be allocated dynamically based off of the inputs by the user, and so no functions that I have seen are what I'm looking for. To be more specific, how do I dynamically allocate the rows and columns of an array, and then initialize every element to 0? Ex.

int* array_columns = malloc(atoi(argv[1]) * sizeof(int));
int* array_rows = malloc(atoi(argv[2]) * sizeof(int)); 
int array[*array_rows][*array_columns];

everything that I have seen requires knowing beforehand the number of elements in each row/column. Can anyone give any pointers on how to initialize this array to 0? edit: I have added the line where I attempt to establish the array

  • 1
    Arrays can not be dynamic, however if you are using C99 then you can use VLA which will serve your purpose. (malloc does not give you an array, only a chunk of memory) – Fredrik Mar 14 at 21:41
  • that was one approach that I took was to malloc the memory and then set an array such as: array[*array_rows][row_columns]. I then attempted to write a nested for-loop that would write everything to 0 but it wouldn't work when I tried it. Is there a better method? – Jenks Mar 14 at 21:46
  • If you compile with C99 support then ”array[row][col];” should work. And for the dimensions just do ”int col = atoi(argv[1]);” etc – Fredrik Mar 14 at 21:49
  • establishing the array isn't necessarily the issue here, as it seems that you're suggesting that I use the technique that I am using, my issue is setting the contents to 0 when I don't have a way to verify the length of columns and rows. Do you have any tips for that? – Jenks Mar 14 at 22:07
  • 1
    But you get the col/rows from argv? So just iterate the array and set the values to 0. – Fredrik Mar 14 at 22:09

This program allocates memory using command line parameters and creates a variable that can be accessed using array syntax. It uses calloc to initialize values to zero:

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

int main(int argc, char *argv[])
    int **array;

    int length = atoi(argv[1]);
    int width = atoi(argv[2]);

    array = calloc(length, sizeof(int *));
    for (int i = 0; i < length; i++) {
        array[i] = calloc(width, sizeof(int));

    for (int i = 0; i < length; i++) {
        for (int j = 0; j < width; j++) {
            printf("array[%d][%d] = %d\n", i, j, array[i][j]);

    for (int i = 0; i < length; i++) {

    return 0;

Compiled With

gcc -Wall -Werror -o scratch scratch.c


[user@machine]: ./scratch 3 5
array[0][0] = 0
array[0][1] = 0
array[0][2] = 0
array[0][3] = 0
array[0][4] = 0
array[1][0] = 0
array[1][1] = 0
array[1][2] = 0
array[1][3] = 0
array[1][4] = 0
array[2][0] = 0
array[2][1] = 0
array[2][2] = 0
array[2][3] = 0
array[2][4] = 0


I left out input validation and error checking to keep the example small.

Compiler Options

I use -Wall -Werror to turn on all warnings and treat them as errors. This means the compiler won't produce an executable unless all the causes of warnings are fixed. The -o scratch tells the compiler what to name the output file.

  • Thank you so much! This did everything that I wanted it to do! – Jenks Mar 15 at 19:45
  • Oh wait one more issue! For some reason when I implement the functions that you described everything initializes to 0 except for the first 2 rows, which have garbage values. What ideas do you have to fix this issue? – Jenks Mar 15 at 20:07
  • I realized that on the first calloc call I did "sizeof(int)" and not "(int*)" and so when I changed that it worked! – Jenks Mar 15 at 20:14

It doesn't matter 1D, 2D or ND. You can use two strategies:

The first is to create a simple 1D array as

int *a = (int *)malloc(atoi(argv[1]) * atoi(argv[2]) * sizeof(int));

The second is to create an array of arrays as below:

int len = atoi(argv[1]);
int len2 = atoi(argv[2]);
int **a = (int **)malloc(len * sizeof(int *));

for (int i = 0; i < len; ++i) {
    a[i] = (int *)malloc(len2 * sizeof(int));

The first variant gives you a simple way to initialize and delete array, the second variant can allow to create bigger array because in this case memory chunks for child arrays can be reserved in different places of the memory.

To initialize it by some value use memset.

For 1D array:

memset(a, 0, sizeof(int) * len * len2);

For array of arrays:

for (int i = 0; i < len; ++i) {
    memset(a[i], 0, sizeof(int) * len2);

P.S. Some modern compilers allow you to initialize dynamic array as static but that code can have troubles when you will try to compile it in another environment.
P.P.S. Sorry for my English, I hope someone will fix it to human-readable English.

  • I know it’s pedantic, but when we answer on SO we should be clear, your suggestion does not create arrays. This is one misstake which I see very often, it’s minor but still spreads missinformation. – Fredrik Mar 14 at 21:52
  • @Fredrik, malloc dynamically reserves the memory for a something, in this case it's for array. – Шах Mar 14 at 21:54
  • @Wax it reserves memory yes, but not for an array. What you get is an int pointer which points to some memory, and that is not an array. – Fredrik Mar 14 at 21:55
  • Fredrik, an array is simply a collection of items stored at continuous memory locations and malloc gives you that needed memory location. – BlooB Mar 14 at 21:56
  • @BlooB yes the memory may look the same behind the scene, but you don have an array type, you have in this case an int pointer type. – Fredrik Mar 14 at 21:58

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