I need a global array whose size depends on the user. The problem is I don't know how to declare an array globally but initialize it later after getting a user input to know the size. I am not even sure if it is possible since the storage for the array is assigned after the program starts running. So my question is, how do I initialize a global array after declaration to an array of size t?

// What I want to achieve 
struct some_name* sn;

int main(){
   sn = some_name[t]; // Where t is unkown before running the code
  • 3
    You'll need to allocate it with e.g. malloc(). May 4, 2023 at 15:35
  • @Randaniel I do not see any array declaration. May 4, 2023 at 15:36
  • 1
    sn = malloc(t * sizeof *sn);
    – dbush
    May 4, 2023 at 15:41

3 Answers 3


You can dynamically allocate your array at run-time like so:

struct some_name* sn;
sn = malloc(t * sizeof(struct some_name));

This has the downside that you are repeating the type name twice, and if the type of sn ever changed, you'd have to remember to change the malloc() too.

An equivalent alternative that avoids this problem is:

sn = malloc(t * sizeof *sn);

Memory allocated by malloc() is uninitialised, and may contain anything. If you want zero-filled memory, you can use:

sn = calloc(t, sizeof *sn);

Don't forget to free your memory when you are finished with it:


Also, don't forget that both malloc() and calloc() can return NULL if they fail to allocate the memory you requested. You should always check for that, and handle the error appropriately.

Edit: Note that struct some_name* sn; defines a pointer, not an array. After you have allocated the required memory for it and set sn to that value, it can be treated like an array, e.g. you can access its elements using the same [] notation:

sn[0].foo = 12;

how do I initialize a global array after decleration to an array of size t?

In C, initialization has a specific meaning and cannot occur after definition. Assignment can happen later.

Once an array is defined, its size never changes so code cannot have an array of a size and later change to another.

Instead, code can allocate memory later and assign it to a pointer.

#iinclude <stdlib.h>

struct some_name* sn = NULL;
size_t sn_size = 0;

int main() {
  sn_size = foo(); // some user input
  sn = malloc(sizeof sn[0] * sn_size);
  if (sn == NULL && sn_size > 0) {

  // Assign
  for (size_t i = 0; i < sn_size; i++) {
    sn[i] = ...; // OP's assignment code.



Allocation size can change. Example: realloc().

struct some_name* sn;

int main()
    sn = malloc(t*sizeof(some_name)); // stores garbage values by default
    // sn = calloc(t, sizeof(some_name)); // stores zero values by default
    free(sn); // free the memory space
    return 0;
  • I forgot to remove the line. You're right because t is used to initialize the memory space.
    – Dragon PG
    May 4, 2023 at 17:04

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