# fibonacci and array returning - C

```long fibonacci(int ceiling)
{
int counter;
long num1 = 1, num2 = 1, sum;
int arr[ceiling+1];
for (counter = 1; counter < ceiling; counter++)
{
arr[counter] = num1;
//printf("%d\n", num1); //prints sequence
sum = num1+num2;
num1 = num2;
num2 = sum;
}
return arr;
}
```

right now if i try to access this array, say with `int a = fibonacci(10);`, it goes without a complaint. however, if i try to access an indivicual element, like `a[1]`, or something, it tells me that `subscripted value is neither array nor pointer` - what am i doing wrong?

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Turn on compiler warnings and inspect all messages. –  user166390 Apr 21 '11 at 7:03
how can i go about that –  tekknolagi Apr 21 '11 at 7:04

.. if i try to access an indivicual element, like a[1], or something ..

``````int a = fibonacci(10);
``````

`a` is an integer variable and not array to use operator `[]` on it.

The method definition should be -

``````int* fibonacci(int ceiling)
{
// ...
return arr ;
}

int *a = fibonacci(10) ;
``````

Now you can use `[]` operator on `a`. How ever, what you are returning is a reference of a local variable ( i.e., residing on stack ) which is wrong. You should dynamically allocate memory for the array using `malloc` and should later `free` it.

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how would I access the array? –  tekknolagi Apr 21 '11 at 6:58
@tekknolagi - You can just use `[]` on the pointer variable mentioning the index of the variable you wish to access. –  Mahesh Apr 21 '11 at 7:07

The easiest way to resolve this is to allocate the array at the call site and pass it to the fibonacci function to be populated.

``````void fibonacci(int n, int arr[])
``````
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You cannot return an array, as such, from a function in C (or C++).

What your code currently does is: it implicitly decays the int[] array to an int* pointer, and then implicitly casts the int* to a long, and then returns the long. This is not a pointer or an array, and thus the subscript operator may not be applied to it.

You could return an int*, but returning a pointer to the local `arr` array would be wrong (your compiler might not be able to catch the error, but you will invoke undefined behaviour at runtime) because as soon as the function finishes, `arr` officially does not exist and the returned pointer is therefore dangling.

You can:

• allocate an array with malloc() and return the pointer (but then you have to figure out who is going to free() the allocation, and make sure that happens exactly once); or

• pass in a pointer to an array, and populate the array via that pointer (now the caller is responsible for creating and managing the array) - this is probably the usual approach in C; or

• create a struct that wraps an array, and return one of those (or, for that matter, pass in a pointer to one).

Also note that `int arr[ceiling + 1];` is a C99 construct; it is not allowed in standard "traditional" C (C89 etc.), nor in standards-compliant C++. In those languages, the size of arrays must be known at compile-time.

In C++ you could also pass an array by reference, or use `boost::array` (which is "a struct that wraps an array", but also uses operator overloading to make it behave more transparently like an array).

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+1 this. I'm gonna go and delete my answer right away, because, well. It is so wrong in comparison ;) –  Daren Thomas Apr 21 '11 at 12:19

You should return a int[], not a long

EDIT: Sorry, mixed C# :)

``````int* fibonacci(int ceiling)
....
``````

// calling

``````int *a = fibonacci (10);
int val = a[20];
``````
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thank you..does that fix anything? –  tekknolagi Apr 21 '11 at 6:59
@tekknolagi - Sorry, I was using C#. Edited answer –  Haplo Apr 21 '11 at 7:06
i now get a segfault...what the heck –  tekknolagi Apr 21 '11 at 7:12
@tekknolagi - See Mahesh response... Too many time without using C for me, sorry. He's right regarding the memory allocation. –  Haplo Apr 21 '11 at 7:15

More importantly than what has been said, you should think about memory allocation. Using just `int arr[ceiling+1];` will create memory for a variable with the scope within this function. You may therefore return a pointer to an array in a memory location, that could be overwritten. Use malloc instead

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A better version with bugs fixed :

``````#include <stdio.h>
int fibonacci(int ceiling, int *arr)
{
int counter;
long num1 = 1, num2 = 1, sum;
if(arr == NULL)
return -1;
for (counter = 0; counter < ceiling; counter++) {
arr[counter] = num1;
//printf("%d\n", num1); //prints sequence
sum = num1+num2;
num1 = num2;
num2 = sum;
}
return 0;
}
int main (int argc, char const* argv[])
{
int ceiling = 10;
int arr[ceiling + 1];
fibonacci(ceiling, arr);
return 0;
}
``````
-

It should return a long*, and arr should be long* that grabs memory from the heap, since a) you want your array to persist after the function returns and b) all of your operands are of type long:

``````long* fibonacci(int ceiling)
{
int counter;
long num1 = 0, num2 = 1, sum; //F is seeded with F(0) = 0, F(1) = 1
long* arr = malloc((ceiling+1)*sizeof(long));
//include ceiling in the loop since you have ceiling+1 elements
for (counter = 0; counter <= ceiling; counter++)
{
arr[counter] = num1;
//printf("%d\n", num1); //prints sequence
sum = num1+num2;
num1 = num2;
num2 = sum;
}
return arr;
}
``````
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