# Detecting signed integer multiplication overflow in C

I'm writing this code for more than 3 hours already..

I gave up about the overflow thing and tried to google and look it up on stackoverflow.

I did not find any solution besides the one that I wrote in my code as you can see in `lines 27-28` (where it returns 0). But this condition also does not work.

``````#include <stdio.h>

int reverse(int x) {
int pos = 0;
int reversed = 0;
int numOfDigits = 0;
int tenPower = 1;
if (x < 0) {
pos = -x;
} else
pos = x;
while (pos > 0) {
pos = (pos - (pos % 10)) / 10;
numOfDigits++;
}
while (numOfDigits > 0) {
for (int i = numOfDigits - 1; i > 0; i--) {
if (numOfDigits == 1)
tenPower = 1;
else
tenPower *= 10;
}
//overflow check - does not work
if (x % 10 != 0 && ((x % 10) * tenPower) / (x % 10) != tenPower)
return 0;
reversed += (x % 10) * tenPower;
numOfDigits--;
x = (x - (x % 10)) / 10;
tenPower = 1;
}
if (x < 0)
return -reversed;
else
return reversed;
}

int main() {
int arr[5] = {-30, 120, 1501, 321, 0};
for (int i = 0; i < 5; i++) {
printf("Original number is: %d \n", arr[i]);
printf("Reversed number is: %d \n", reverse(arr[i]));
}
}
``````

The input that is not working due to overflow is:

``````1534236469
``````

The error code on leetcode is

`Line 25: Char 28: runtime error: signed integer overflow:`

`1000000000 * 9 cannot be represented in type 'int' [solution.c]`

Line: `if (x%10 != 0 &&((x%10)*tenPower) / (x%10) != tenPower)`

Other than that, the code is working and every number (positive & negative numbers) is being successfully reversed.

I'll be glad to hear you out about a possible solution and also let me know what do you think about my code and the way I decided to complete this task, I know that's the most basic and naïve way to do it, but I'll be glad to know how could I improve it.

Given a signed 32-bit integer x, return x with its digits reversed. If reversing x causes the value to go outside the signed 32-bit integer range [-231, 231 - 1], then return 0.

Assume the environment does not allow you to store 64-bit integers (signed or unsigned).

Examples:

Input: x = 123 Output: 321, Input: x=-120 Output = -21

• the main problem seems to be line two of the error output, you don't have a large enough container to hold the value. which is causing an overflow. this is solved by using a larger container, `long int` or as the answer from @rickimaru shows you can cast the integer value to a long integer and check to see if the result can still fit back into an integer value. Commented Mar 1, 2021 at 20:53

You can do something like this.

``````int reverse(int n) {
// 1st overflow checking...
// Check if the absolute value is greater than INT32_MAX.
// I converted "int" to "long" to get correct overflow value.
if (n < 0 && (long) n * -1l > INT32_MAX) {
return 0;
}

int res = 0;
// Convert to absolute value.
int tmp = n < 0 ? n * -1 : n;

while (tmp > 0) {
// Get the right most digit and add it to the current result.
res += tmp % 10;
// Remove the right most digit.
tmp /= 10;

// "tmp" still has remaining numbers.
if (tmp > 0) {
// 2nd overflow checking...
// Check if reversed value will be greater than INT32_MAX when appending 0 to right most.
// I converted "int" to "long" to get correct overflow value.
if ((long) res * 10l > INT32_MAX) {
return 0;
}

// Append 0 to right most value of result.
// If result is equal to 0, do not append 0.
res *= res == 0 ? 1 : 10;
}
}

// Return result.
// If original value is negative, return negative result value..
return n < 0 ? res * -1 : res;
}
``````
• Your code works but I literally understand nothing from it. How did you check for overflow? How did you manage to do the reversing? I mean I can read it, but not to understand the logic behind it Commented Jan 13, 2021 at 12:38
• @NoobCoder Added detailed comments in my sample code. Hope it helps. Commented Jan 13, 2021 at 23:21

The main thing you want to check for overflow is this:

``````reversed += (x % 10) * tenPower;
``````

So what you want to know is if this is true:

``````((x % 10) * tenPower) > INT_MAX
``````

Or this is true:

``````(reversed + (x % 10) * tenPower) > INT_MAX
``````

Of course these can never be true in code due to overflow, but we can rearrange the terms:

``````if ((x % 10) != 0 && (tenPower > INT_MAX / (x % 10)) ||
(((x % 10) * tenPower) > INT_MAX - reversed))
return 0;
``````
• your last code does not work because it says we divide by 0. Commented Jan 13, 2021 at 12:37
• @NoobCoder Added the zero check. Commented Jan 13, 2021 at 12:43

OP's code is subject to `int` overflow in various places

``````  if (x < 0) { pos = -x; }
...
(x % 10) * tenPower
....
reversed += (x % 10) * tenPower;
...
if (x < 0) return -reversed;
``````

A simple overflow pre-test involves `INT_MAX/INT_MIN`

``````  if (x < 0) {
if (x < -INT_MAX) { puts("Overflow"); return 0; }
pos = -x;
}

// x is >= 0 here, tenPower >= 1
int digit = x % 10;
if (digit > INT_MAX/tenPower)     { puts("Overflow"); return 0; }
int digit10 = digit * tenPower;
if (reversed > INT_MAX - digit10) { puts("Overflow"); return 0; }
reversed += digit10;
``````

Or use stand-alone full range tests.

``````// Return 1 on overflow
int is_undefined_mult1(int a, int b) {
if (a > 0) {
if (b > 0) {
return a > INT_MAX / b;       // a positive, b positive
}
return b < INT_MIN / a;         // a positive, b not positive
}
if (b > 0) {
return a < INT_MIN / b;         // a not positive, b positive
}
return a != 0 && b < INT_MAX / a; // a not positive, b not positive
}

int digit = x % 10;
if (is_undefined_mult1(digit, tenPower))  { puts("Overflow"); return 0; }
int digit10 = digit * tenPower;
if (is_undefined_add1(reversed, digit10)) { puts("Overflow"); return 0; }
reversed += digit10;
``````

You can use bit_length() to check integer size

``````if digit.bit_length() >= 32:
return 0
else:
return reversed
``````