ShreevatsaR's answer won't work for all cases, even if you add "if(m<0) m=-m;", if you account for negative dividends/divisors.

For example, -12 mod -10 will be 8, and it should be -2.

The following implementation will work for both positive and negative dividends / divisors and complies with other implementations (namely, Java, Python, Ruby, Scala, Scheme, Javascript and Google's Calculator):

```
internal static class IntExtensions
{
internal static int Mod(this int a, int n)
{
if (n == 0)
throw new ArgumentOutOfRangeException("n", "(a mod 0) is undefined.");
//puts a in the [-n+1, n-1] range using the remainder operator
int remainder = a%n;
//if the remainder is less than zero, add n to put it in the [0, n-1] range if n is positive
//if the remainder is greater than zero, add n to put it in the [n-1, 0] range if n is negative
if ((n > 0 && remainder < 0) ||
(n < 0 && remainder > 0))
return remainder + n;
return remainder;
}
}
```

Test suite using xUnit:

```
[Theory]
[PropertyData("GetTestData")]
public void Mod_ReturnsCorrectModulo(int dividend, int divisor, int expectedMod)
{
Assert.Equal(expectedMod, dividend.Mod(divisor));
}
[Fact]
public void Mod_ThrowsException_IfDivisorIsZero()
{
Assert.Throws<ArgumentOutOfRangeException>(() => 1.Mod(0));
}
public static IEnumerable<object[]> GetTestData
{
get
{
yield return new object[] {1, 1, 0};
yield return new object[] {0, 1, 0};
yield return new object[] {2, 10, 2};
yield return new object[] {12, 10, 2};
yield return new object[] {22, 10, 2};
yield return new object[] {-2, 10, 8};
yield return new object[] {-12, 10, 8};
yield return new object[] {-22, 10, 8};
yield return new object[] { 2, -10, -8 };
yield return new object[] { 12, -10, -8 };
yield return new object[] { 22, -10, -8 };
yield return new object[] { -2, -10, -2 };
yield return new object[] { -12, -10, -2 };
yield return new object[] { -22, -10, -2 };
}
}
```