# Get the number of elements that it has a value in array

I have an array like the following

``````int arr[32];
``````

This array can contain 32 element.
If I added into that array some data like the following

``````arr[0] = 5;
arr[1] = 10;
arr[2] = 15;
arr[3] = 20;
``````

As you see I added data into elements `0,1,2,3` and the other elements is still not initialized or empty.

Now, how to get the elements count that has only data ?

in current example will get 4 elements.

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(1) Initialize the array with a known value (typically, 0). Then check how many are not your starting value. (2) Keep an "nUsed" variable and increment it per write. (3) Create a parallel array containing booleans for 'used' elements. ..There must be more ways.. –  Jongware Nov 17 '13 at 10:54
(4) If you plan to add elements in order, all you need is to keep the "next" index to be filled in; (5) for out of order, any of the above, or a parallel in-order list that keeps a list of assigned indices (this itself would be an in-order array). –  Jongware Nov 17 '13 at 11:10
(For (6) see comment in @NemanjaBoric's answer) (7) Your new values all match the pattern `n > 0 && n % 5 == 0`. Initialize the array with values that do not match this pattern. If you need to find how many elements are used, test each value against your pattern. –  Jongware Nov 17 '13 at 11:59
(8) Make a list of allowed values. In `arr` you store the index of an allowed value. Members of `arr` that do not point to a valid index in the `allowed` array, or point to an index in the `allowed` array that is designated as "invalid" are not used. –  Jongware Nov 17 '13 at 12:16
(9) Make a list of allowed values. Initialize your array with any value not in this list. To count "used" elements, compare each value against the `allowed` list. –  Jongware Nov 17 '13 at 12:19

You could do this in multiple ways - one is to keep counter of initialized values:

``````arr[0] = 5;
arr[1] = 10;
arr[2] = 15;
arr[3] = 20;
n = 4;
``````

This only works if you will fill array sequentially.

Other way is to initialize array with some value which semantically can't be elements of the array:

``````int arr[32] = {-1};
``````

After that, you can check if the current element contains value different than `-1`.

The sample loop could be implemented like this:

``````for(i = 0; i < 32 && arr[i] != -1; i++)
{
// do things
}
``````

Also, as @Jongware pointed out in the comment - if you don't mind spending O(n) of extra space - you could have additional flag array:

``````int fill[32] = {0};
arr[0] = 5;   fill[0] = 1;
arr[1] = 10;  fill[1] = 1;
arr[2] = 15;  fill[2] = 1;
arr[3] = 20;  fill[3] = 1;
``````

You could save some space using bitsets, if that is important for you.

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Unfortunately C does not support operator overloading. I was thinking of adding "overload the `[]` operator" ... –  Jongware Nov 17 '13 at 11:00
Thanks for answer, but the problem is, when I make a code to loop to print the elements that has a data only, `for(i=0; i < what should I write here; i++)`. –  Lion King Nov 17 '13 at 11:17
@LionKing I will edit my answer in a minute. –  Nemanja Boric Nov 17 '13 at 11:19
@AndyStowAway: Nemanja says "which semantically can't be elements of the array". So if -1 is semantically allowed, pick a value that is not. (+1, for example.) –  Jongware Nov 17 '13 at 11:49
It gave me an idea for (6), though: initially, choose a random "invalid" value and fill the array with that. When assigning a value, check if it is `invalidNumber` -- if it is, pick another one (not already in the list) and change all `invalidNumber` elements to this new one before assigning the new number. –  Jongware Nov 17 '13 at 11:55
``````int arr[32]={0};
int c=0;
arr[0] = 5;
arr[1] = 10;
arr[2] = 15;
arr[3] = 20;
for(int i=0; i<32; i++){
if(arr[i]){
c=c+1;
}
printf("count is %d",c);
}
``````
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This is how I'd keep a strict list of possibly assigned elements. This creates a write-once array.

``````int arr[32];

int assignedOrder[32];
int assignedOrderIndex = 0;

int assign (int index, value)
{
int i;
if (index < 0 || index >= 32)
return E_FAIL;
if (assignedOrderIndex == 32)
return E_FAIL;
for (i=0; i<assignedOrderIndex; i++)
if (assignedOrder[i] == index)
return E_FAIL;
arr[index] = value;
assignedOrder[assignedOrderIndex] = index;
assignedOrderIndex++;
return E_SUCCESS;
}
``````

Somehow this feels like maybe you should step over to C++, as there are standard objects that have precisely this function.

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