# Is there a modulus (not remainder) function / operation?

In Rust (like most programming languages), the `%` operator performs the remainder operation, not the modulus operation. These operations have different results for negative numbers:

``````-21 modulus 4 => 3
-21 remainder 4 => -1
``````
``````println!("{}", -21 % 4); // -1
``````

However, I want the modulus.

I found a workaround `((a % b) + b) % b`, but I don't want to reinvent the wheel if there's already a function for that!

• Any reason to use the term `modulus` instead of `modulo` (which is more common AFAICS). Commented Jan 2, 2017 at 8:33
• They might have studied somewhere where the term modulus is used, not knowing that different institutions tend to differ in vocabulary. Commented Dec 24, 2017 at 19:32
• For powers of two, you can do something like -21 & (4 - 1), granted it's an integer. Commented Aug 14, 2020 at 22:45

RFC 2196 adds a couple of integer methods related to euclidian division. Specifically, the `rem_euclid` method (example link for `i32`) is what you are searching for:

``````println!("{}", -1i32 % 4);                // -1
println!("{}", (-21i32).rem_euclid(4));   // 3
``````

This method is available in `rustc 1.38.0` (released on 2019-09-27) and above.

• They are also implemented for unsigned variants, although it is not possible to figure out what they do from that documentation. I would also mention `div_euclid()` for completeness. But this should be the selected answer anyway.
– nert
Commented May 10, 2020 at 11:50
• @nert when you see `int_impl!` you can go to this file and see the actual implementation: github.com/rust-lang/rust/blob/… Commented Apr 28, 2022 at 5:21
• such a misnomer. remainder should be modulos and modulos remainder. Commented Dec 13, 2022 at 14:20

Is there a modulus (not remainder!) function / operation in Rust?

As far as I can tell, there is no modular arithmetic function.

This also happens in C, where it is common to use the workaround you mentioned: `((a % b) + b) % b`.

In C, C++, D, C#, F# and Java, `%` is in fact the remainder. In Perl, Python or Ruby, `%` is the modulus.

Language developers don't always go the "correct mathematical way", so computer languages might seem weird from the strict mathematician view. The thing is that both modulus and remainder, are correct for different uses.

Modulus is more mathematical if you like, while the remainder (in the C-family) is consistent with common integer division satisfying: `(a / b) * b + a % b = a`; this is adopted from old Fortran. So `%` is better called the remainder, and I suppose Rust is being consistent with C.

You are not the first to note this:

• I, as a C/C++ programmer, am embarrassed that I didn't know that `%` works in C that way, too... Commented Jul 3, 2015 at 16:08
• Isn't this a gap in Rust? Commented Jul 3, 2015 at 16:09
• I'll go with `%` being the remainder, but not having support for modulus sucks... Commented Jul 3, 2015 at 16:24
• @JosEduSol As I write this, the answer above shows `(a % b) + b` as a way to calculate the modulus, but I'm pretty sure what you meant to write is this: `((a % b) + b) % b`. Commented Nov 21, 2018 at 1:58
• `(a / b) * b + a mod b = a` is satisfied if `/` rounds toward -∞. Commented Oct 4, 2019 at 14:46

No, Rust doesn't have a built in modulus, see this discussion for some reasons why.

Here's an example that might be handy:

``````///
/// Modulo that handles negative numbers, works the same as Python's `%`.
///
/// eg: `(a + b).modulo(c)`
///
pub trait ModuloSignedExt {
fn modulo(&self, n: Self) -> Self;
}
macro_rules! modulo_signed_ext_impl {
(\$(\$t:ty)*) => (\$(
impl ModuloSignedExt for \$t {
#[inline]
fn modulo(&self, n: Self) -> Self {
(self % n + n) % n
}
}
)*)
}
modulo_signed_ext_impl! { i8 i16 i32 i64 }
``````
• Would `modulo_signed_ext_impl! { i8 i16 i32 i64 isize u8 u16 u32 u64 usize }` be better? Commented Aug 25, 2020 at 23:30

From the other answers I constructed:

``````fn n_mod_m <T: std::ops::Rem<Output = T> + std::ops::Add<Output = T> + Copy>
(n: T, m: T) -> T {
((n % m) + m) % m
}

assert_eq!(n_mod_m(-21, 4), 3);
``````