I'm looking for a simple explanation for how Ruby's modulo operand works and why, in Ruby

puts  4 % 3   # 1
puts -4 % 3   # 2 <--why?
puts -4 % -3  # -1 

but in PHP:


echo  4 % 3;  #  1
echo -4 % 3;  # -1
echo -4 % -3; # -1

Looks to me like -4 % 3 is actally 8 % 3 (8 being the difference between 4 and -4).

  • 3
    The behavior of X % Y, where either X or Y are negative is a design choice (which may be "undefined behavior"). Nothing more, nothing less. This section on integer division and comments may lead to more insights. IIRC the reason for this "odd behavior" in Ruby is discussed on the ML. – user166390 Sep 12 '11 at 23:36
  • 1
    If Ruby does things one way, and PHP does things another, assume that Ruby is doing it the right way! j/k – Andrew Grimm Sep 13 '11 at 3:22

They can both be considered correct, depending on your definition. If a % n == r, then it should hold that:

a == q*n + r

where q == a / n.

Whether r is positive or negative is determined by the value of q. So in your example, either of:

-4 == -1*3 + (-1)   // PHP
-4 == -2*3 + 2      // Ruby

To put it another way, the definition of % depends on the definition of /.

See also the table here: http://en.wikipedia.org/wiki/Modulus_operator#Remainder_calculation_for_the_modulo_operation. You'll see that this varies substantially between various programming languages.

  • 1
    Ah, this made it click for me: "definition of % depends on the definition of /". Thanks! – typeoneerror Sep 12 '11 at 23:45

Here's a snippet on the topic from The Ruby Programming Language, by Matz and David Flanagan.

When one (but not both) of the operands is negative, Ruby performs the integer division and modulo operations differently than languages like C, C++, and Java do (but the same as the languages Python and Tcl). Consider the quotient -7/3. Ruby rounds toward negative infinity and returns -3. C and related languages round toward zero instead and return -2. In Ruby, -a/b equals a/-b but my not equal -(a/b).

Ruby's definition of the module operation also differs from that of C and Java. In Ruby, -7%3 is 2. In C and Java, the result is -1 instead. The magnitude of the result differs, because the quotient differed. But the sign of the result differs, too. In Ruby, the sign of the result is always the sign of the second operand. In C and Java, the sign of the result is always the sign of the first operand. (Ruby's remainder method behaves like the C modulo operator.)


It actually boils down to the implementation of the language's integer casting/rounding. Since the actual equation is:

a - (n * int(a/n))

It is the int(a/n) portion of the equation that differs. If a == -4 and n == 3, PHP will return -1, while Ruby will produce -2. Now the equation looks like this in Ruby:

-4 - (3 * -2)

and this in PHP

-4 - (3 * -1)

According to Wolfram Alpha, 2 is correct.

edit: Seems you should be asking why PHP works that way?

edit2: PHP defines it as the remainder from the devision A/B. Whether you consider it a bug, wrong, or a different way of doing things is up to you, I suppose. Personally, I go for the first 2.

  • 1
    I'm asking about the difference, not which is correct, so I guess I am asking why PHP works that way. Any thoughts? – typeoneerror Sep 12 '11 at 23:32
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    @Kyle: it's neither a bug nor wrong. – Oliver Charlesworth Sep 12 '11 at 23:44

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