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Am I doing modulus wrong? Because in Java -13 % 64 is supposed to evaluate to -13 but I get 51.

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Is this a math question, or a programming question? If it's a programming question, you should share code. –  Dan Grossman Dec 9 '10 at 21:59
@Dan Even without a static main void ... I see code. –  Joris Meys Dec 9 '10 at 22:04
I get -13 & 64 == -13 –  Grodriguez Aug 2 '12 at 8:19
How is it you are getting 51 ratehr than -13. –  Raedwald Aug 4 '14 at 9:43

11 Answers 11

up vote 62 down vote accepted

Both definitions of modulus of negative numbers are in use - some languages use one definition and some the other.

If you want to get a negative number for negative inputs then you can use this:

int r = x % n;
if (r > 0 && x < 0)
    r -= n;

Likewise if you were using a language that returns a negative number on a negative input and you would prefer positive:

int r = x % n;
if (r < 0)
    r += n;
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This doesn't work good if n is negative. If you user same example from Java 7 Lang Spec (Section 15.17.3): (-5) % (-3) = -2. Adding -3 will not work. You should add absolute value of n if you want to be sure that value is positive. –  partlov Jul 2 '14 at 10:35
In Java negative modulo does not change anything, if you use an Abs() anyway, just write r = x % abs(n). I don't like if statement, I'd rather write r = ((x%n) + n) % n. Concerning power of 2 modulo (2,4,8,16,etc..) and positive answer, consider binary mask r = x & 63. –  Fabyen Nov 17 '14 at 13:43

Since "mathematically" both are correct:

-13 = -13 (in modulus 64)  
-13 = 51 (in modulus 64)

One of the options had to be chosen by Java language developers and it was decided that:

..., the sign of the result equals the sign of the dividend.

Says it in Java specs:


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The question is "why does Java give me -13 % 64 = 51 when I was expecting -13?". –  Pascal Cuoq Dec 9 '10 at 22:06
@pascal: java gives you the right definition in math and the way it has been implemented to do that not the thing you expecting from it. –  user415789 Dec 9 '10 at 22:12

Are you sure you are working in Java? 'cause Java gives -13 % 64 = -13 as expected. The sign of dividend!

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Your result is wrong for Java. Please provide some context how you arrived at it (your program, implementation and version of Java).

From the Java Language Specification

15.17.3 Remainder Operator %
The remainder operation for operands that are integers after binary numeric promotion (§5.6.2) produces a result value such that (a/b)*b+(a%b) is equal to a.
15.17.2 Division Operator /
Integer division rounds toward 0.

Since / is rounded towards zero (resulting in zero), the result of % should be negative in this case.

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you can use

(x % n) - (x < 0 ? n : 0);
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neat!__________ –  Joris Meys Dec 9 '10 at 22:26
@ruslik You can also do: ((x % k) + k) % k. (Though yours is probably more readable.) –  John Kurlak Oct 28 '14 at 18:36

Your answer is in wikipedia: modulo operation

It says, that in Java the sign on modulo operation is the same as that of dividend. and since we're talking about the rest of the division operation is just fine, that it returns -13 in your case, since -13/64 = 0. -13-0 = -13.

EDIT: Sorry, misunderstood your question...You're right, java should give -13. Can you provide more surrounding code?

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Modulo arithmetic with negative operands is defined by the language designer, who might leave it to the language implementation, who might defer the definition to the CPU architecture.

I wasn't able to find a Java language definition.
Thanks Ishtar, Java Language Specification for the Remainder Operator % says that the sign of the result is the same as the sign of the numerator.

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To overcome this, you could add 64 (or whatever your modulus base is) to the negative value until it is positive

int k = -13;
int modbase = 64;

while (k < 0) {
    k += modbase;

int result = k % modbase;

The result will still be in the same equivalence class.

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x = x + m = x - m in modulus m.
so -13 = -13 + 64 in modulus 64 and -13 = 51 in modulus 64.
assume Z = X * d + r, if 0 < r < X then in division Z/X we call r the remainder.
Z % X returns the remainder of Z/X.

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The mod function is defined as the amount by which a number exceeds the largest integer multiple of the divisor that is not greater than that number. So in your case of

-13 % 64

the largest integer multiple of 64 that does not exceed -13 is -64. Now, when you subtract -13 from -64 it equals 51 -13 - (-64) = -13 + 64 = 51

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I don't think Java returns 51 in this case. I am running Java 8 on a Mac and I get:

-13 % 64 = -13


public class Test {
    public static void main(String[] args) {
        int i = -13;
        int j = 64;
        System.out.println(i % j);
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This answer does not contain any information that is not already contained in the other answers. Also it is not particularly well formatted. I will format it for you this time but be more careful next time. –  Xaver Kapeller Jun 23 '14 at 15:37
Also your answer is wrong. As many people here have pointed out, both -13 and 51 are correct. –  Xaver Kapeller Jun 23 '14 at 15:44
@XaverKapeller, no ! Many people pointed out that mathematically speaking -13 and 51 are correct. In Java, -13 is the expected answer, and it's what I got too, so I don't know how submitter got 51, it's mystery. Mode details about the context could help to answer correctly this question. –  Fabyen Nov 17 '14 at 13:32

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