# Java - Is there a method for Euclidean or floored modulo

Java modulo operator `%` is based on the truncated division (see Wikipedia: Modulo operation).

• `5%3` produces `2` (note that `5/3` produces `1`)
• `5%(-3)` produces `2` (note that `5/(-3)` produces `-1`)
• `(-5)%3` produces `-2` (note that `(-5)/3` produces `-1`)
• `(-5)%(-3)` produces `-2` (note that `(-5)/(-3)` produces `1`)

In computing science, given two integers `a` and `n`, `n` > 0, sometimes it is useful to get the unique integer `r` within `[a,n[` which is congruent to `a` modulo `n`.

# Question

Is there an efficient generic operator / method in Java which respects this specification of modulo?

This is to avoid rewriting it in every project where it is needed...

# Miscellaneous

I found a lot of questions on stackoverflow about this problem, most of them confusing the different modulo implementations. If you are just troubled about the results of the modulo operation on negative numbers, below are some implementations based on the Java `%` operator that may be useful.

## Common hack

Since we hardly use a negative divisor, this implementation returns the Euclidean or floored modulo when `n > 0`.

``````static int mod(int a, int n){
return a<0 ? (a%n + n)%n : a%n;
}
``````
• `mod( 5, 3)` produces `2`
• `mod(-5, 3)` produces `1`

## Euclidean modulo

``````static int euclideanModulo(int a, int n){
return n<0 ? euclideanModulo(-a, -n) : mod(a, n);
}
``````
• `euclideanModulo( 5, 3)` produces `2`
• `euclideanModulo(-5, 3)` produces `1`
• `euclideanModulo( 5,-3)` produces `1`
• `euclideanModulo(-5,-3)` produces `2`

## Floored modulo

``````static int flooredModulo(int a, int n){
return n<0 ? -flooredModulo(-a, -n) : mod(a, n);
}
``````
• `flooredModulo( 5, 3)` produces `2`
• `flooredModulo(-5, 3)` produces `1`
• `flooredModulo( 5,-3)` produces `-1`
• `flooredModulo(-5,-3)` produces `-2`
-
You've probably already checked it out, but you can floor values (nearest integer down) pretty easily with `Math.floor()` (JavaDocs) –  Killrawr Feb 8 '13 at 10:19
@Killrawr `Math.floor()` is worse than any of the solutions above. –  UmNyobe Feb 8 '13 at 10:29
@Killrawr `a - n * (int)Math.floor((double)a/n);` is mathematically correct for the floored modulo, but not efficient, and not generic. –  boumbh Feb 8 '13 at 10:30
@boumbh which behavior do you want? What should `(-5)magicmod(-3)` give? `-2` or `2`? –  UmNyobe Feb 8 '13 at 10:38
Haha I havent experimented with any of the solutions in the question (to find improvements). But thanks for the clarification anyhow UmNyobe (+1 rep). Usually most of the functions I've found in the Math library are great though like cos/sin/tan/pow/sqrt/log/exp. But I haven't really coded anything with Floor/Ceiling function (sorry I couldn't be much help). –  Killrawr Feb 8 '13 at 10:53

```+----+----+-----------+---------+-----------+-----------+---------+-----------+
| a mod b |           quotient 'q'          |          remainder 'r'          |
| a  | b  | truncated | floored | Euclidean | truncated | floored | Euclidean |
+----+----+-----------+---------+-----------+-----------+---------+-----------+
|  5 |  3 |         1 |       1 |         1 |         2 |       2 |         2 |
| -5 |  3 |        -1 |      -2 |        -2 |        -2 |       1 |         1 |
|  5 | -3 |        -1 |      -2 |        -1 |         2 |      -1 |         2 |
| -5 | -3 |         1 |       1 |         2 |        -2 |      -2 |         1 |
+----+----+-----------+---------+-----------+-----------+---------+-----------+
```

Any of them satisfies at least `a = bq + r`.

## Truncated division and modulo

``````static int truncatedDiv(int a, int b) {
return a / b;
}

static int truncatedMod(int a, int b) {
return a % b;
}
``````

## Floored division and modulo

You can use methods in `java.lang.Math` since Java 8. See floorDiv and floorMod.

``````static int floorDiv(int a, int b) {
return java.lang.Math.floorDiv(a, b);
}

static int floorMod(int a, int b) {
return java.lang.Math.floorMod(a, b);
}
``````

## Euclidean division and modulo

### a) based on truncated division

``````import static java.lang.Math.*;

static int euclideanDiv(int a, int b) {
if (a == 0) return 0 / b;
return a / b + signum(b) * signum(signum(a) - 1);
}

static int euclideanMod(int a, int b) {
return a - euclideanDiv(a, b) * b;
}
``````

### b) based on floored division

``````import static java.lang.Math.*;

static int euclideanDiv(int a, int b) {
if (a == 0) return 0 / b;
return floor((double) a / b) - signum(signum(b) - 1);
}

static int euclideanMod(int a, int b) {
return a - euclideanDiv(a, b) * b;
}
``````

### c) based on absolute modulo

``````import static java.lang.Math.*;

static int euclideanMod(int a, int b) {
int r = abs(a) % abs(b);
return (r * signum(a) + abs(b)) % abs(b);
}
``````
-

``````public static int gcd(int p, int q) {
if(count == 0)
System.out.print("Gcd for " + p + " and " + q);
if (q == 0) {
System.out.println(" returns " + p + " after " + count + " iterations");
return p;
}
count++;
return gcd(q, p % q);
}
public static void main(String[] args) {
count = 0;
gcd(4, 16);
count = 0;
gcd(4, 16);
count = 0;
gcd(16, 4);
count = 0;
gcd(15, 60);
count = 0;
gcd(15, 65);
count = 0;
gcd(1052, 52);
}
``````
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