# How do you do modulo or remainder in Erlang?

I'm brand new to Erlang. How do you do modulo (get the remainder of a division)? It's % in most C-like languages, but that designates a comment in Erlang.

Several people answered with rem, which in most cases is fine. But I'm revisiting this because now I need to use negative numbers and rem gives you the remainder of a division, which is not the same as modulo for negative numbers.

In Erlang, `5 rem 3.` gives `2`, and `-5 rem 3.` gives `-2`. If I understand your question, you would want `-5 rem 3.` to give 1 instead, since `-5 = -2 * 3 + 1.`

Does this do what you want?

``````mod(X,Y) when X > 0 -> X rem Y;
mod(X,Y) when X < 0 -> Y + X rem Y;
mod(0,Y) -> 0.
``````

The erlang modulo operator is `rem`

``````Eshell V5.6.4  (abort with ^G)
1> 97 rem 10.
7
``````

I used the following in elixir:

``````defp mod(x,y) when x > 0, do: rem(x, y);
defp mod(x,y) when x < 0, do: rem(x, y) + y;
defp mod(0,_y), do: 0
``````

Please don't downvote this because it's another language than the question. We all live the dream, because we all have the beam.

According to this blog post, it's `rem`.

The above Y + X rem Y seems to be wrong: either (Y + X) rem Y or Y + (X rem Y) yield incorrect results. Ex: let Y=3. If X=-4, the first form returns -1, if X=-3 the second form returns 3, none of which is in [0;3[.

``````% Returns the positive remainder of the division of X by Y, in [0;Y[.
% In Erlang, -5 rem 3 is -2, whereas this function will return 1,
% since -5 =-2 * 3 + 1.

modulo(X,Y) when X > 0 ->
X rem Y;

modulo(X,Y) when X < 0 ->
K = (-X div Y)+1,
PositiveX = X + K*Y,
PositiveX rem Y;

modulo(0,_Y) ->
0.
``````

Erlang remainder not works with negative numbers, so you have to write your own function for negative parameters.

``````mod(A, B) when A > 0 -> A rem B;
mod(A, B) when A < 0 -> mod(A+B, B);
mod(0, _) -> 0.

% console:
3> my:mod(-13, 5).
2
``````

`rem` behaves exactly like the `%` operator in modern C. It uses truncated division.

The accepted answer fails for X<0 and Y<0. Consider `mod(-5,-3)`:

``````C:                     -5 % -3 == -2
rem:                 -5 rem -3 == -2
Y + X rem Y:    -3 + -5 rem -3 == -5 !! wrong !!
``````

The alternative implementations for the modulo operator use floored division and Euclidean division. The results for those are

``````flooring division:   -5 mod -3 == -2
euclidean division:  -5 mod -3 == 1
``````

So

``````Y + X rem Y
``````

doesn't reproduce any modulo operator for X < 0 and Y < 0.

And `rem` works as expected -- it's using truncated division.