show/hide this revision's text 9 fix yet another misstatement of fact...

Short answer: It isn't allocated for you.

Slightly longer answer: The subcells pointer is uninitialized and may point anywhere. This is a bug, and you should never allow it to happen.

Longer answer still: Automatic variables are allocated on the stack, global variables are allocated by the compiler and often occupy a special segment or may be in the heap. Global variables are initialized to zero by default. Automatic variables do not have a default value (they simply get the value found in memory) and the programmer is responsible for making sure they have good starting values (though many compilers will try to clue you in when you forget).

The newCell variable in you function is automatic, and is not initialized. You should fix that pronto. Either give newCell.subcells a meaningful value promptly, or point it at NULL until you allocate some space for it. That way you'll throw a segmentation violation if you try to dereference it before allocating some memory for it.

Worse still, you are returning a pointer Cell by value, but assigning it to an automatic variable (newCell) that goes out of scope a Cell * when you leave makeCelltry to fill the subcells array. That is another undefined behavior (i.e. Either return a bug waiting pointer to happen). To make this work, you must allocate newCell on the a heap (using malloc or something equivalent)allocated object, and allocate any space for the contents of newCell.subcells (also on or assign the heap)value to a locally allocated object.

A usual idiom for this would have the form something like

Cell* makeCell(dim){
  Cell *newCell = malloc(sizeof(Cell));
  // error checking here
  newCell->subcells = malloc(sizeof(Cell*)*dim); // what if dim=0?
  // more error checking
  for (int i=0; i<dim; ++i){
    newCell->subCells[i] = makeCell(dim-1);
    // what error checking do you need here? 
    // depends on your other error checking...
  }
  return newCell;
}

though I've left you a few problems to hammer out..

And note that you have to keep track of all the bits of memory that will eventually need to be deallocated...
show/hide this revision's text 8 niggle

Short answer: It isn't allocated for you.

Slightly longer answer: The subcells pointer is uninitialized and may point anywhere. This is a bug, and you should never allow it to happen.

Longer answer still: Automatic variables are allocated on the stack, global variables are allocated by the compiler and often occupy a special segment or may be in the heap. Global variables are initialized to zero by default. Automatic variables do not have a default value (they simply get the value found in memory) and the programmer is responsible for making sure they have good starting values (though many compilers will try to clue you in when you forget).

The newCell variable in you function is automatic, and is not initialized. You should fix that pronto. Point Either give newCell.subcells a meaningful value promptly, or point it at NULL until you allocate some space for it. That way you'll throw a segmentation violation if you try to dereference it before allocating some memory for it.

Worse still, you are returning a pointer to an automatic variable (newCell) that goes out of scope when you leave makeCell. That is another undefined behavior (i.e. a bug waiting to happen). To make this work, you must allocate newCell on the heap (using malloc or something equivalent), and allocate any space for the contents of newCell.subcells (also on the heap).

A usual idiom for this would have the form something like

Cell* makeCell(dim){
  Cell *newCell = malloc(sizeof(Cell));
  // error checking here
  newCell->subcells = malloc(sizeof(Cell*)*dim); // what if dim=0?
  // more error checking
  for (int i=0; i<dim; ++i){
    newCell->subCells[i] = makeCell(dim-1);
    // what error checking do you need here? 
    // depends on your other error checking...
  }
  return newCell;
}

though I've left you a few problems to hammer out..

And note that you have to keep track of all the bits of memory that will eventually need to be deallocated...
show/hide this revision's text 7 Suggested code

Short answer: It isn't allocated for you.

Slightly longer answer: The subcells pointer is uninitialized and may point anywhere. This is a bug, and you should never allow it to happen.

Longer answer still: Automatic variables are allocated on the stack, global variables are allocated by the compiler and often occupy a special segment or may be in the heap. Global variables are initialized to zero by default. Automatic variables do not have a default value (they simply get the value found in memory) and the programmer is responsible for making sure they have good starting values (though many compilers will try to clue you in when you forget).

The newCell variable in your you function is automatic, and is not initialized. You should fix that pronto. Point newCell.subcells at NULL until you allocate some space for it. That way you'll throw a segmentation violation if you try to dereference it before allocating some memory for it.

Worse still, you are returning a pointer to an automatic variable (newCell) that goes out of scope when you leave makeCell. That is another undefined behavior (i.e. a bug waiting to happen). To make this work, you must allocate newCell on the heap (using malloc or something equivalent), and allocate any space for the contents of newCell.subcells (also on the heap).

A usual idiom for this would have the form something like

Cell* makeCell(dim){
  Cell *newCell = malloc(sizeof(Cell));
  // error checking here
  newCell->subcells = malloc(sizeof(Cell*)*dim); // what if dim=0?
  // more error checking
  for (int i=0; i<dim; ++i){
    newCell->subCells[i] = makeCell(dim-1);
    // what error checking do you need here? 
    // depends on your other error checking...
  }
  return newCell;
}

though I've left you a few problems to hammer out..

And note that you have to keep track of all the bits of memory that will eventually need to be deallocated...
show/hide this revision's text 6 fixed typo
show/hide this revision's text 5 more
show/hide this revision's text 4 Fix accuracy issue pointed out in comments, clean up the grammar
show/hide this revision's text 3 Minor cleanups
show/hide this revision's text 2 speling
show/hide this revision's text 1