I know you can return a type of pointer from a function. ex. void *foo() Can you return a type of pointer to pointer in a function? ex. void **foo2()

Here is more info about my question:

I try to assign a ptr-to-ptr, tmp2, to blocks[i][j], and then return tmp2. blocks[i][j] is a ptr-to-ptr as well.

I'm confused to manipulate a ptr to a ptr-to-ptr: I am not sure if return ((tmp2+i)+j); is the cause of the segmentation fault at line printf("2---%d\n", **tmpPtr2);. To debug, I try to print: printf("%d\n", *( (*(tmp2+i)) +j) ); However, it causes a new segmentation fault.

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

int **blocks, **tmp2;
int n = 10;

int **findBlock2(int b){
    int i, j ;

    for (i=0; i<n; i++){
        for (j=0; j<n; j++){
            if (blocks[i][j]==b){
                printf("%d\n", blocks[i][j]);

                //Segmentation fault
                printf("%d\n", *((*(tmp2+i))+j) );

                return ((tmp2+i)+j);
    return NULL;

int main(int argc, const char * argv[]) {
    int i, j;
    int **tmpPtr2;

    //allocate memory space and assign a block to each index
    blocks=malloc(n * sizeof *blocks);
    for (i=0; i<n; i++) {
        blocks[i]=malloc(n * sizeof(*blocks[i]));

    if ((tmpPtr2=findBlock2(4))==NULL)    return -1;

    //Segmentation Fault
    printf("2---%d\n", **tmpPtr2);

    return 0;

Update to answer my question:

(1) Adding ttmp2=blocks; to the top of findBlock2() removed both segfaults.

(2) return ((tmp2+i)+j); shows how to manipulate a ptr-to-ptr pointing to a ptr-to-ptr or a 2D array

(3) printf("%d\n", *( (*(tmp2+i)) +j) ); shows how to do (2) and dereference it.

Hope it helps others

  • Yes, try it out. – Jens Jun 26 '15 at 4:47
  • Do you actually mean a pointer to a pointer OF a function? or are the given answers what you want? – AndrewGrant Jun 26 '15 at 5:26
  • 1
    The answer is yes, but you probably have a related coding problem that you are trying to solve with it, so publish your code and the specific problem, and you'll get a much better answer than just Yes + a couple of examples which are most likely not relevant to your problem. – barak manos Jun 26 '15 at 5:56
  • 1
    Use [ ] notation instead of *((*((s)+(y))+1) or whatever, it is much easier to read – M.M Jun 26 '15 at 6:09
  • 1
    You get a segfault because you never point tmp2 anywhere, but you dereference it inside findBlock2 – M.M Jun 26 '15 at 6:10

Yeah, just like you would with any pointer variables.

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

int ** function(){
    int ** matrix = malloc(sizeof(int*));
    *matrix = malloc(sizeof(int));
    matrix[0][0] = 5;
    return matrix;

int main()
    int **matrix = function();
    return 0;

Adding to the other part. In your function findBlock2 besides accessing an invalid reference that has already been pointed out, it seems that your objective is to return a reference to the block that fulfills if statement. If that is the case then returning a pointer to int* should suffice.

int *findBlock2( int b )


return ( *(blocks+i)+j );


The answer is "yes". Please refer the following code:

#include <stdio.h>
#include <malloc.h>

void ** foo2(void){
    int **p = malloc(sizeof(*p));
    return (void**)p;

int main(void) {
    printf("%p\n", foo2());
    return 0;

The result is (in my 32-bit platform):

  • 1
    return (void**)p is non-portable; void** is not a generic pointer type like void* is. It should just return void*, and then the calling code could cast it to int ** before dereferencing. – M.M Jun 26 '15 at 6:08
  • @MattMcNabb: "return (void**)p is non-portable", could you give some examples? I really don't know this issue, thanks very much! – Nan Xiao Jun 26 '15 at 6:17
  • int * and void * might have different size and representation (on modern systems they don't, but I have used one where it did), so pretending that a pointer points to a void * when it actually points to an int * will not retrieve a sensible pointer – M.M Jun 26 '15 at 9:55

You probably want a 2D array at not some slow, fragmented lookup table. In that case, do like this:

#include <stdlib.h>

void* alloc_2D (size_t x, size_t y)
  return malloc (sizeof (int[x][y]));

int main (void)
  const size_t X = 5;
  const size_t Y = 3;

  int (*arr_2D)[Y] = alloc_2D(X, Y); 

 // X dimension was omitted in declaration to make array syntax more intuititve:

  arr_2D[i][j] = something;


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