**Java reverse an int value - Principles**

Modding (%) the input int by 10 will extract off the rightmost digit. example: (1234 % 10) = 4

Multiplying an integer by 10 will "push it left" exposing a zero to the right of that number, example: (5 * 10) = 50

Dividing an integer by 10 will remove the rightmost digit. (75 / 10) = 7

**Java reverse an int value - Pseudocode:**

a. Extract off the rightmost digit of your input number. (1234 % 10) = 4

b. Take that digit (4) and add it into a new reversedNum.

c. Multiply reversedNum by 10 (4 * 10) = 40, this exposes a zero to the right of your (4).

d. Divide the input by 10, (removing the rightmost digit). (1234 / 10) = 123

e. Repeat at step a with 123

source:
http://machinesentience.com/reverse_an_int_without_arrays_or_strings.html

**Java reverse an int value - Working code**

```
public int reverseInt(int input)
{
long reversedNum = 0;
long input_long = input;
while (input != 0)
{
reversedNum = reversedNum * 10 + input_long % 10;
input_long = input_long / 10;
}
if (reversedNum > Integer.MAX_VALUE || reversedNum < Integer.MIN_VALUE)
{
throw new IllegalArgumentException();
}
return (int)reversedNum;
}
```

You will never ever do anything like this in the real work-world. However, the process by which you use to solve it without help is what separates people who can solve problems from the ones who can't.