It is said that when we have a class Point and knows how to perform point * 3 like the following:

class Point
  def initialize(x,y)
    @x, @y = x, y

  def *(c)
    Point.new(@x * c, @y * c)

point = Point.new(1,2)
p point
p point * 3


#<Point:0x336094 @x=1, @y=2>
#<Point:0x335fa4 @x=3, @y=6>

but then,

3 * point

is not understood:

Point can't be coerced into Fixnum (TypeError)

So we need to further define an instance method coerce:

class Point
  def coerce(something)
    [self, something]

p 3 * point


#<Point:0x3c45a88 @x=3, @y=6>

So it is said that 3 * point is the same as 3.*(point). That is, the instance method * takes an argument point and invoke on the object 3.

Now, since this method * doesn't know how to multiply a point, so


will be called, and get back an array:

[point, 3]

and then * is once again applied to it, is that true?

Now, this is understood and we now have a new Point object, as performed by the instance method * of the Point class.

The question is:

  1. Who invokes point.coerce(3)? Is it Ruby automatically, or is it some code inside of * method of Fixnum by catching an exception? Or is it by case statement that when it doesn't know one of the known types, then call coerce?

  2. Does coerce always need to return an array of 2 elements? Can it be no array? Or can it be an array of 3 elements?

  3. And is the rule that, the original operator (or method) * will then be invoked on element 0, with the argument of element 1? (Element 0 and element 1 are the two elements in that array returned by coerce.) Who does it? Is it done by Ruby or is it done by code in Fixnum? If it is done by code in Fixnum, then it is a "convention" that everybody follows when doing a coercion?

    So could it be the code in * of Fixnum doing something like this:

    class Fixnum
      def *(something)
        if (something.is_a? ...)
        else if ...  # other type / class
        else if ...  # other type / class
        # it is not a type / class I know
          array = something.coerce(self)
          return array[0].*(array[1])   # or just return array[0] * array[1]
  4. So it is really hard to add something to Fixnum's instance method coerce? It already has a lot of code in it and we can't just add a few lines to enhance it (but will we ever want to?)

  5. The coerce in the Point class is quite generic and it works with * or + because they are transitive. What if it is not transitive, such as if we define Point minus Fixnum to be:

    point = Point.new(100,100)
    point - 20  #=> (80,80)
    20 - point  #=> (-80,-80)
  • 1
    This is an excellent question! I'm so happy I've found it because this has been bothering me and until just now I didn't think it was solvable!
    – sandstrom
    Oct 6, 2011 at 17:49
  • A great question. Thanks for putting it. It will save many engineer-confusion-hours, I'm sure. Oct 9, 2012 at 22:04

2 Answers 2


Short answer: check out how Matrix is doing it.

The idea is that coerce returns [equivalent_something, equivalent_self], where equivalent_something is an object basically equivalent to something but that knows how to do operations on your Point class. In the Matrix lib, we construct a Matrix::Scalar from any Numeric object, and that class knows how to perform operations on Matrix and Vector.

To address your points:

  1. Yes, it is Ruby directly (check calls to rb_num_coerce_bin in the source), although your own types should do too if you want your code to be extensible by others. For example if your Point#* is passed an argument it doesn't recognize, you would ask that argument to coerce itself to a Point by calling arg.coerce(self).

  2. Yes, it has to be an Array of 2 elements, such that b_equiv, a_equiv = a.coerce(b)

  3. Yes. Ruby does it for builtin types, and you should too on your own custom types if you want to be extensible:

    def *(arg)
      if (arg is not recognized)
        self_equiv, arg_equiv = arg.coerce(self)
        self_equiv * arg_equiv
  4. The idea is that you shouldn't modify Fixnum#*. If it doesn't know what to do, for example because the argument is a Point, then it will ask you by calling Point#coerce.

  5. Transitivity (or actually commutativity) is not necessary, because the operator is always called in the right order. It's only the call to coerce which temporarily reverts the received and the argument. There is no builtin mechanism that insures commutativity of operators like +, ==, etc...

If someone can come up with a terse, precise and clear description to improve the official documentation, leave a comment!

  • hm, doesn't transitivity actually makes a difference? For example, see stackoverflow.com/questions/2801241/… May 10, 2010 at 9:01
  • 1
    No, transitivity doesn't play any role and Ruby doesn't assume that a - b is the same as -(b - a) or anything like that, not even a + b == b + a. What makes you believe I'm wrong? Did you check the MRI source? Why not try to follow the direction I indicate? May 10, 2010 at 13:29
  • I think the OP meant "symmetric" rather than "transitive". In any case I want to know how you write coerce such that non-symmetric operators like - can be implemented in only one direction while keeping symmetric operators working both ways. In other words a + 3 == 3 + a and 3 + a - 3 == a but 3 - a raises an error.
    – Old Pro
    Mar 30, 2013 at 19:36
  • @OldPro by "symmetric" I assume you mean "commutative". But I agree, the OP probably meant commutative, not transitive. Transitivity has to do with relations (e.g. equality), not operations like addition/subtraction.
    – Kelvin
    Apr 3, 2013 at 21:21
  • There is nothing that guarantees commutativity. Even when coercion is not involved. See for example blog.marc-andre.ca/2009/05/02/schizo-ruby-puzzle Apr 3, 2013 at 22:14

I find myself often writing code along this pattern when dealing with commutativity:

class Foo
  def initiate(some_state)
  def /(n)
   # code that handles Foo/n

  def *(n)
    # code that handles Foo * n 

  def coerce(n)


class ReverseFoo < Foo
  def /(n)
    # code that handles n/Foo
  # * commutes, and can be inherited from Foo
  • 1
    For anyone reading this in the future: I think it's more recommended to use [Foo.instantiate(n), self] if it's easy to directly convert numbers into your format.
    – daboross
    Jun 6, 2018 at 21:53

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