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I have recently come across the concept of dynamically allocated arrays and in applying it I encountered the following problem.

In a struct I defined some pointers to be allocated later:

typedef struct CELL {
 int total;
 int* number;
 char** type;

In a function this struct has its memory allocated by malloc(), then the two pointers are allocated an 1D and 2D arrays via following methods:

int iallocate1D(int** arr, int m){
 if ( (*arr = malloc(m*sizeof*arr))==NULL ) return 1;
 return 0;


int callocate2D(char*** arr, int m, int n){
 int i;
 *arr = malloc(m*sizeof*arr);
 if (*arr==NULL) return 1;
  (*arr)[i] = malloc(n*sizeof(*arr)[i]);
  if ((*arr)[i]==NULL) return 2;
 return 0;

In the function that takes CELL* as argument, I initialized all arrays:

int loadCell(CELL** cell){
 *cell = malloc(sizeof*cell);
 iallocate1D(&(*cell)->number, 2);          // 1D array of length 2
 callocate2D(&(*cell)->type, 2, 3);         // 2D array of size 2*3

Up to here everything is fine, and I scaned in some values to fill every element of the two arrays. I tested with printf, they seemed ok. And here came the problem, when I modified the value of

(*cell)->total = 1;

which I thought was not relevant, the 2D char array was also modified. Before this modification char[1][0] == 'L', but after this char[1][0] == '\3'. I printed every element and found that only this element was modified. Weired enough but I could not figure out where it went wrong, as that line was the only thing between the two prints of all array elements. I suspected that my dynamical allocation was wrong, but then I should not have been able to scan some values into the arrays in the first place.

Any hints will be appreciated. Thanks in advance.

share|improve this question
up vote 1 down vote accepted
*arr = malloc(m*sizeof*arr)

This allocates m objects of the size of *arr, but you want **arr. Some other allocations are similarly missing a level of indirection. They should be:

In iallocate1D:

*arr = malloc(m * sizeof **arr)

In callocate2D:

*arr = malloc(m * sizeof **arr);

(*arr)[i] = malloc(n * sizeof *(*arr)[i]);

In loadCell:

*cell = malloc(sizeof **cell);
share|improve this answer
The same problem persists. And I thought (*arr)[i] is already a pointer to char? – robinchm Feb 18 '14 at 18:49
now my code is like arr = malloc(msizeof(char*)); (arr)[i] = malloc(nsizeof(char)); and things remain the old way. I thought if sizeof is followed by a pointer it will return the volume occupied by data pointed by the pointer. Am I wrong? – robinchm Feb 18 '14 at 18:59
I will try to come up with a code for testing. The original code was a few thousand lines long. And the problem is you may not reproduce the problem. Without the last line things worked out. – robinchm Feb 18 '14 at 19:01
I think I found out the reason. You are right, sizeof returns the volume of a pointer if it is followed by a pointer. I made the mistake cell = malloc(sizeofcell); it should be *cell = malloc(sizeof(CELL)); and correspondingly those arrays. Thanks a lot! – robinchm Feb 18 '14 at 19:18
@robinchm: *cell = malloc(sizeof **cell) is preferred to *cell = malloc(sizeof(CELL)) because the former remains correct if the declaration of cell ever changes (e.g., to some new type CELL2), whereas the latter requires making an editing in two places (at the declaration and at the malloc) and is therefore more error prone. – Eric Postpischil Feb 18 '14 at 19:20

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