# Using a 2D array as an argument in recursive function

I'm trying to recursively call a function with a 2d array as an argument.

My compile error is

knapsack.cpp:76:55: error: cannot convert ‘int (*)[(((sizetype)(((ssizetype)(knapsack_capacity + 1)) + -1)) + 1)]’ to ‘int**’ for argument ‘1’ to ‘void backtrack(int**, int, int, std::vector)’ backtrack(T, items_amount, knapsack_capacity, weights);

My function is declared like this:

``````void backtrack (int **T, int item, int weight, vector<int> weights)
{
if (T[item][weight] == T[item-1][weight]) {
cout << item << ", ";
backtrack(T, item-1, weight-weights[item-1], weights);
}
else if (item <= 0 && weight <= 0) {
// Dont do anything
}
else {
backtrack(T, item-1, weight, weights);
}
}
``````

And being called like this:

``````backtrack(T, items_amount, knapsack_capacity, weights);
``````

I looked in a million different ways of combining `[]` and `*`, but no success. Any ideas?

## 1 Answer

You are probably passing an array, like `int arr;` to your function. Such an array does not decay to `int**`, but to `int (*)` (i.e., pointer to array-of-20-int) . So, either change your function signature so that you specify the second dimension, or, instead of passing an array `int`, pass a pointer-to-pointer `int**` (for which you have to allocate memory etc). Example of using both approaches:

``````#include <cstddef>

void f(int (*arr)){}
void g(int**){}

int main()
{
// using a pointer to array-of-20-ints
int arr;
f(arr);

// 10 x 20 dynamic array, allocate
int** ptr = new int*; // allocate memory for the pointers to rows
for(std::size_t i = 0; i < 10; ++i)
ptr[i] = new int; // allocate each row

// process
g(ptr);

// deallocate
for(std::size_t i = 0; i < 10; ++i)
delete[] ptr[i]; // delete each row
delete[] ptr; // delete the memory allocated for the pointers to the rows
}
``````

But, really, you should use a `std::vector<std::vector<int>>` instead.

• Thank you this is exactly what I was needing. – Will May 1 '15 at 23:49