What is causing this runtime error while passing arrays on the heap between functions, c++

Question

I cannot put my finger on why my program hangs and crashes when I pass my 2d-array, declared on the heap, between functions which accept double pointers.

I am getting a strong feeling that it has to do with the method I have chosen to declare the 2d array. Before I created a function to allocate the array, the program could manipulate the data inside the array when passed to a function.

So here is the allocate function and then the function which it crashes inside:

void matrix_malloc(int **matrix, int m, int n);
void matrix_init(int **matrix, int m, int n);

int main(void)
{
  int **matrix;
  int m(3), n(2);

  matrix_malloc(matrix, m, n);
  matrix_init(matrix, m, n); // runtime error
}

void matrix_malloc(int **matrix, int m, int n)
{ // get heap memory
  int i;
  matrix = new int*[m];
  for(i = 0; i < m; i++)
  {
    matrix[i] = new int[n];
  }
}

void matrix_init(int **matrix, int m, int n)
{ // randomize matrix
  int i, j;
  for(i = 0; i < m; i++)
  {
    for(j = 0; j < n; j++)
    {
      matrix[i][j] = rand() % 10 + 1;
    }
  }
}

Answer 1

You have to pass your matrix pointer by reference.

void matrix_malloc(int **matrix, int m, int n)

This accepts a copy of matrix. Which means anything you do in matrix_malloc on matrix will not affect the one in main.

Instead it should be

void matrix_malloc(int **& matrix, int m, int n)
                        ^^^

---

However I suggest you use vectors instead of raw pointers and allocation. That way you don't need to wory about allocation and deallocation.

void matrix_malloc(vector<vector<int> >& matrix, int m, int n);

// You don't need this anymore.
// void matrix_init(int **matrix, int m, int n);

int main(void)
{
  vector<vector<int> > matrix;
  int m(3), n(2);

  // matrix_malloc(matrix, m, n);

  matrix_init(matrix, m, n); 
}


void matrix_init(vector<vector<int> >& matrix, int m, int n)
{ // randomize matrix
  int i, j;
  for(i = 0; i < m; i++)
  {
    vector<int> row;
    for(j = 0; j < n; j++)
    {
      row.push_back(rand() % 10 + 1);
      // matrix[i][j] = rand() % 10 + 1;
    }
    matrix.push_back(row);
  }
}

Answer 2

void matrix_malloc(int **&matrix, int m, int n);
void matrix_init(int **matrix, int m, int n);

void matrix_malloc(int **&matrix, int m, int n)
{ // get heap memory
  int i;
  matrix = new int*[m];
  for(i = 0; i < m; i++)
  {
    matrix[i] = new int[n];
  }
}

And should work well. Problem, since after this

matrix = new int*[m];

matrix has new address, but since it's local copy of pointer - main doesn't know about it.

Answer 3

matrix_malloc() needs to take the pointer by reference:

void matrix_malloc(int **&matrix, int m, int n)
                         ^

Without this, the newly-allocated pointer isn't getting propagated back to the caller.

That said, it may be more explicit to return the newly-allocated pointer from the function:

int** matrix_malloc(int m, int n)

Finally, is there a reason you are not using std::vector for this?

Answer 4

The allocation of your 2D array is fine. BUT.

  int **matrix;
  int m(3), n(2);

  matrix_malloc(matrix, m, n);

Here, matrix is not going to change - you are copying its value to pass it to the function. What I mean is:

  int **matrix = NULL; // matrix points to null
  int m(3), n(2);

  matrix_malloc(matrix, m, n); // copy the value contained in matrix and give it to the function
  //matrix still points to null

You have multiple solutions :

• your matrix malloc can return an int**, and you would simply have to write matrix = matrix_malloc(m, n)
• your matrix malloc could take a pointer to int** (int*** - handle carefully)
• as mentionned in the other answers, a reference to int**

---

Here is what a matrix_malloc with an int*** would look like.

//call it as follows:
matrix_malloc(&matrix, m, n);


void matrix_malloc(int ***matrix, int m, int n)
{
  // matrix contains the address of the original variable, so *matrix is the original variable itself.
  int i;
  *matrix = new int*[m];
  for(i = 0; i < m; i++)
  {
    (*matrix)[i] = new int[n];
  }
}