At least in Ruby 1.9.3, Enumerable objects do not have a length attribute.

As far as I can tell, anything Enumerable is a set, as evidenced by methods like sort and find_index.

A set always has a well-defined length (...right?), so why is this not a property?

  • 1
    There is no "Enumerable class". By "any Enumerable class", do you mean any class for which the Enumerable module has been mixed in? Such classes (and others) have a length (aka size) method. – Cary Swoveland Mar 3 '15 at 18:25
  • 3
    There's Enumerable#count. – cremno Mar 3 '15 at 18:32
  • @ChrisHeald's answer reminded me that, where I said "Such classes have a length method, I failed to mention that I was referring to built-in classes, but even of that I am now unsure. Does anyone know of a built-in class that mixes in Enumerable that does not have a length method? – Cary Swoveland Mar 3 '15 at 18:59
  • 1
    Thanks, @Max. I think there are quite a few (e.g., Integer, Numerica, Proc, CSV, Matrix), perhaps a class defining length is an exception rather than a rule. – Cary Swoveland Mar 3 '15 at 19:42
  • 1
    Worth noting that not all enumerables are ordered. For example, a Set is enumerable, but not ordered. The reason it still makes sense to call #sort on a set is because the return value is ordered (it's an Array, as the docs for Enumerable indicate). – gregates Mar 3 '15 at 22:04

Enumerable has the count method, which is usually going to be the intuitive "length" of the enumeration.

But why not call it "length"? Well, because it operates very differently. In Ruby's built-in data structures like Array and Hash, length simply retrieves the pre-computed size of the data structure. It should always return instantly.

For Enumerable#count, however, there's no way for it to know what sort of structure it's operating on and thus no quick, clever way to get the size of the enumeration (this is because Enumerable is a module, and can be included in any class). The only way for it to get the size of the enumeration is to actually enumerate through it and count as it goes. For infinite enumerations, count will (appropriately) loop forever and never return.

  • Thanks. I feel pretty silly for overlooking that. I'm glad I asked, though. I wouldn't have realized there was such a difference in behaviour. – kdbanman Mar 3 '15 at 19:32
  • Enumerator on the other hand has a size method and it works as expected for infinite enumerations: loop.size #=> Infinity – Stefan Mar 3 '15 at 19:55
  • @Stefan, ...and for finite enumerators it need be done lazily. For example, enum = [1,2,3].to_enum; enum.size #=> nil. – Cary Swoveland Mar 3 '15 at 20:02
  • @CarySwoveland you're right, the enumerator has to return its size. But it seems to work for the built-in methods: [1,2,3].each.size #=> 3 – Stefan Mar 3 '15 at 20:35

Enumerables are not guaranteed to have lengths - the only requirement for an object which Enumerable is mixed into is that it responds to #each, which causes it to return the next item in the series, and #<=> which allows comparison of values provided by the enumerable. Methods like #sort will enumerate the entire collection over the course of sorting, but may not know the bounds of the set ahead of time. Consider:

class RandomSizeEnumerable
  include Enumerable
  def each
    value = rand 1000
    while value != 500
      yield value
      value = rand 1000

  # Not needed for this example, but included as a part of the Enumerable "interface".
  # You only need this method if #max, #min, or #sort are used on this class.
  def <=>(a, b)
    a <=> b

This enumerable will be called until the iterator generates the value "500", which will cause it to stop enumerating. The result set is collected and sorted. However, a #length method is meaningless in this context, because the length is unknowable until the iterator has been exhausted!

We can call #length on the result of things like #sort, since they return an array, though:

p RandomSizeEnumerable.new.sort.length # 321
p RandomSizeEnumerable.new.sort.length # 227
p RandomSizeEnumerable.new.sort.length # 299

Conventionally, #length is used when the length is known and can be returned in constant time, whereas #count (and sometimes #size) tend to be used when the length may not be known ahead of time and needs to be computed by iterating the result set (thus, taking linear time). If you need the size of the result set provided by an Enumerable, try using .to_a.length #count.

  • But there is Enumerable#count which is almost the same as length. – mu is too short Mar 3 '15 at 18:48
  • Generally, #count is O(n), whereas #length is O(1); the documentation and provided sample make this clear, since you would have to iterate the enumerable to discover how many invocations it takes to terminate. – Chris Heald Mar 3 '15 at 18:59
  • But count is still preferred over to_a.length – Max Mar 3 '15 at 19:00
  • Fair point. I think the more complete answer would be "Enumerable doesn't support #length because it can't provide that answer in constant time". – Chris Heald Mar 3 '15 at 19:01
  • Good answer. A detail: defining <=> is only a requirement if Enumerable methods that need it are to be used. There are many Enumerable methods (such as count) that do not use <=>. – Cary Swoveland Mar 3 '15 at 19:19

Enumerable isn't really a class, it's a module - a collection of cross-cutting functionality that is used by multiple classes.

For example, Array, Set and Hash all include it - you can call any of the Enumerable methods on them.

Enumerable is notable in that it requires very little of the "host" class. All you need to do is define the each method and include Enumerable, and you get all those methods for free! Example:

class CountUntil
  def initialize(number)
    @number = number

  include Enumerable

  def each
    current = 0
    while current < @number
      yield current
      current += 1

# Usage:

CountUntil.new(10).map { |n| n * 5 }
# => [0, 5, 10, 15, 20, 25, 30, 35, 40, 45]

As you can see, I never defined CountUntil#map, but I got that for free from including Enumerable.

To address your question about length: not all classes that include Enumerable have defined length, even though most do. For example, Enumerator can be used to create infinite streams.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.