I recently had a test in my class. One of the problems was the following:

Given a number

n, write a function in C/C++ that returns the sum of the digits of the numbersquared. (The following is important). Therangeofnis [ -(10^7), 10^7 ]. Example: Ifn= 123, your function should return 14 (1^2 + 2^2 + 3^2 = 14).

This is the function that I wrote:

```
int sum_of_digits_squared(int n)
{
int s = 0, c;
while (n) {
c = n % 10;
s += (c * c);
n /= 10;
}
return s;
}
```

Looked right to me. So now the test came back and I found that the teacher didn't give me all the points for a reason that I do not understand. According to him, for my function to be complete, I should've have added the following detail:

```
int sum_of_digits_squared(int n)
{
int s = 0, c;
if (n == 0) { //
return 0; //
} //
// THIS APPARENTLY SHOULD'VE
if (n < 0) { // BEEN IN THE FUNCTION FOR IT
n = n * (-1); // TO BE CORRECT
} //
while (n) {
c = n % 10;
s += (c * c);
n /= 10;
}
return s;
}
```

The argument for this is that the number **n** is in the range [-(10^7), 10^7], so it can be a negative number. But I don't see where my own version of the function fails. If I understand correctly, the meaning of `while(n)`

is `while(n != 0)`

, **not** `while (n > 0)`

, so in my version of the function the number **n** wouldn't fail to enter the loop. It would work just the same.

Then, I tried both versions of the function on my computer at home and I got exactly the same answers for all the examples that I tried. So, `sum_of_digits_squared(-123)`

is equal to `sum_of_digits_squared(123)`

(which again, is equal to `14`

) (even without the detail that I apparently should've added). Indeed, if I try to print on the screen the digits of the number (from least to greatest in importance), in the `123`

case I get `3 2 1`

and in the `-123`

case I get `-3 -2 -1`

(which is actually kind of interesting). But in this problem it wouldn't matter since we square the digits.

So, who's wrong?

**EDIT**: My bad, I forgot to specify and didn't know it was important. The version of C used in our class and tests has to be C99 or **newer**. So I guess (by reading the comments) that my version would get the correct answer in any way.

`n = n * (-1)`

is a ridiculous way to write`n = -n`

; Only an academic would even think of it. Let alone add the redundant parentheses. – user207421 Oct 4 at 7:55`n = n * (-1)`

? Wut??? What your prof is looking for is this: `n = -n'. The C language has a unary minus operator. – Kaz Oct 4 at 21:22