Is sort in Ruby stable? That is, for elements that are in a tie for sort, is the relative order among them preserved from the original order? For example, given:

a = [
  {id: :a, int: 3},
  {id: :b, int: 1},
  {id: :c, int: 2},
  {id: :d, int: 0},
  {id: :e, int: 1},
  {id: :f, int: 0},
  {id: :g, int: 1},
  {id: :h, int: 2},

is it guaranteed that we always get for

a.sort_by{|h| h[:int]}

the following

  {id: :d, int: 0},
  {id: :f, int: 0},
  {id: :b, int: 1},
  {id: :e, int: 1},
  {id: :g, int: 1},
  {id: :c, int: 2},
  {id: :h, int: 2},
  {id: :a, int: 3},

without any variation for the relative order among the elements with the :id value :d, :f, and among :b, :e, :g, and among :c, :h? If that is the case, where in the documentation is it described?

This question may or may not have connection with this question.

  • No, at least not how you did it. How can sort guarantee the order of two elements when their given comparators are the same?
    – Linuxios
    Mar 15, 2013 at 21:24
  • 13
    @Linuxios: Some sorting algorithms are stable. Mar 15, 2013 at 21:48
  • @mu: Thanks. Interesting. I don't think Ruby's is though.
    – Linuxios
    Mar 15, 2013 at 21:51
  • I got this answer => [{:id=>:f, :int=>0}, {:id=>:d, :int=>0}, {:id=>:e, :int=>1}, {:id=>:b, :int=>1}, {:id=>:g, :int=>1}, {:id=>:c, :int=>2}, {:id=>:h, :int=>2}, {:id=>:a, :int=>3}]
    – beck03076
    Mar 15, 2013 at 21:58
  • @beck03076 Would you change your second comment to an answer? I think it negatively answers my question. I don't understand your first comment.
    – sawa
    Mar 15, 2013 at 22:04

4 Answers 4


Both MRI's sort and sort_by are unstable. Some time ago there was a request to make them stable, but it was rejected. The reason: Ruby uses an in-place quicksort algorithm, which performs better if stability is not required. Note that you can still implement stable methods from unstable ones:

module Enumerable
  def stable_sort_by
    sort_by.with_index { |x, idx| [yield(x), idx] }
  • 1
    Quoting Wikipedia: "Quicksort is a comparison sort and, in efficient implementations, is not a stable sort."
    – Stefan
    Mar 15, 2013 at 22:21
  • 3
    furthermore, if any sort implementation doesn't say it's stable in its contract, it's always wrong to rely on it being stable.
    – dbenhur
    Mar 16, 2013 at 4:49
  • 1
    Your implementation of stable_sort does not respect the signature of sort that accepts a comparator. Sep 13, 2015 at 8:51
  • 1
    Ruby's sort sometimes is stable (but you shouldn't depend on it). I think that this sometimes-stability did not exist when this answer was created. See my answer for details. Jun 11, 2017 at 17:17

No, ruby's built-in sort is not stable.

If you want stable sort, this should work. You probably want to create a method for it if you're going to use it often.

a.each_with_index.sort_by {|h, idx| [h[:int], idx] }.map(&:first)

Basically it keeps track of the original array index of each item, and uses it as a tie-breaker when h[:int] is the same.

More info, for the curious:

As far as I know, using the original array index as the tie-breaker is the only way to guarantee stability when using an unstable sort. The actual attributes (or other data) of the items will not tell you their original order.

Your example is somewhat contrived because the :id keys are sorted ascending in the original array. Suppose the original array were sorted descending by :id; you'd want the :id's in the result to be descending when tie-breaking, like so:

 {:id=>:f, :int=>0},
 {:id=>:d, :int=>0},
 {:id=>:g, :int=>1},
 {:id=>:e, :int=>1},
 {:id=>:b, :int=>1},
 {:id=>:h, :int=>2},
 {:id=>:c, :int=>2},
 {:id=>:a, :int=>3}

Using the original index will handle this too.


Matz's own suggestion (see this page) is similar, and may be slightly more efficient than the above:

n = 0
ary.sort_by {|x| n+= 1; [x, n]}

For some implementations of Ruby, sort is stable, but you shouldn't depend upon it. Stability of Ruby's sort is implementation defined.

What the documentation says

The documentation says that you should not depend upon sort being stable:

The result is not guaranteed to be stable. When the comparison of two elements returns 0, the order of the elements is unpredictable.

Note that this does not say whether or not the sort is stable. It just says it is not guaranteed to be stable. Any given implementation of Ruby could have a stable sort and still be consistent with the documentation. It could also have an unstable sort, or change whether the sort is stable at any time.

What Ruby actually does

This test code prints true if Ruby's sort is stable, or false if it is not:

Foo = Struct.new(:value, :original_order) do
  def <=>(foo)
    value <=> foo.value

size = 1000
unsorted = size.times.map do |original_order|
  value = rand(size / 10)
  Foo.new(value, original_order)
sorted = unsorted.sort
stably_sorted = unsorted.sort_by do |foo|
  [foo.value, foo.original_order]

Here are the results for all of the Rubies I have installed on my Linux box:

["java", "1.8.7", 357, false]
["java", "1.9.3", 551, false]
["java", "2.3.3", 0, true]
["java", "2.5.7", 0, true]
["x86_64-linux", "1.8.7", 374, false]
["x86_64-linux", "1.8.7", 374, false]
["x86_64-linux", "1.8.7", 376, false]
["x86_64-linux", "1.9.3", 392, false]
["x86_64-linux", "1.9.3", 484, false]
["x86_64-linux", "1.9.3", 551, false]
["x86_64-linux", "2.0.0", 643, false]
["x86_64-linux", "2.0.0", 648, false]
["x86_64-linux", "2.1.0", 0, false]
["x86_64-linux", "2.1.10", 492, false]
["x86_64-linux", "2.1.1", 76, false]
["x86_64-linux", "2.1.2", 95, false]
["x86_64-linux", "2.1.3", 242, false]
["x86_64-linux", "2.1.4", 265, false]
["x86_64-linux", "2.1.5", 273, false]
["x86_64-linux", "2.1.6", 336, false]
["x86_64-linux", "2.1.7", 400, false]
["x86_64-linux", "2.1.8", 440, false]
["x86_64-linux", "2.1.9", 490, false]
["x86_64-linux", "2.2.0", 0, true]
["x86_64-linux", "2.2.1", 85, true]
["x86_64-linux", "2.2.2", 95, true]
["x86_64-linux", "2.2.3", 173, true]
["x86_64-linux", "2.2.4", 230, true]
["x86_64-linux", "2.2.5", 319, true]
["x86_64-linux", "2.2.6", 396, true]
["x86_64-linux", "2.3.0", 0, true]
["x86_64-linux", "2.3.1", 112, true]
["x86_64-linux", "2.3.2", 217, true]
["x86_64-linux", "2.3.3", 222, true]
["x86_64-linux", "2.4.0", 0, true]
["x86_64-linux", "2.4.0", -1, true]
["x86_64-linux", "2.4.0", -1, true]
["x86_64-linux", "2.4.0", -1, true]
["x86_64-linux", "2.4.0", -1, true]
["x86_64-linux", "2.4.1", 111, true]
["x86_64-linux", "2.4.2", 198, true]
["x86_64-linux", "2.4.5", 335, true]
["x86_64-linux", "2.4.9", 362, true]
["x86_64-linux", "2.5.0", 0, true]
["x86_64-linux", "2.5.3", 105, true]
["x86_64-linux", "2.5.7", 206, true]
["x86_64-linux", "2.6.0", 0, true]
["x86_64-linux", "2.6.2", 47, true]
["x86_64-linux", "2.6.3", 62, true]
["x86_64-linux", "2.6.4", 104, true]
["x86_64-linux", "2.6.5", 114, true]
["x86_64-linux", "2.6.6", 146, true]
["x86_64-linux", "2.7.0", 0, true]
["x86_64-linux", "2.7.1", 83, true]
["x86_64-linux", "2.7.2", 137, true]
["x86_64-linux", "3.0.0", 0, true]
["x86_64-linux", "3.0.0", -1, true]
["x86_64-linux", "3.0.1", 64, true]
["x86_64-linux", "3.0.2", 107, true]
["x86_64-linux", "3.0.3", 157, true]
["x86_64-linux", "3.1.0", 0, true]
["x86_64-linux", "3.1.1", 18, true]
["x86_64-linux", "3.1.2", 20, true]
["x86_64-linux", "3.1.3", 185, true]
["x86_64-linux", "3.2.0", 0, true]
["x86_64-linux", "3.2.1", 31, true]

We can see that JRuby is unstable, and MRI before 2.2, on Linux, is unstable. MRI >= 2.2.0 is stable (again, on Linux).

The platform matters, though. Although the above result shows that sort is stable in MRI 2.4.1 on Linux, the same version is unstable on Windows:

["x64-mingw32", "2.4.1", 111, false]

Why is MRI's sort stable on Linux, but not on Windows?

Even within a single version of a Ruby implementation, the sort algorithm can change. MRI can use at least three different sorts. The sort routine is selected at compile time using a series of #ifdefs in util.c. It looks like MRI has the ability to use sorts from at least two different libraries. It also has its own implementation.

What should you do about it?

Since the sort may be stable but can't be guaranteed to be stable, do not write code which depends upon Ruby's sort being stable. That code could break when used on a different version, implementation, or platform.

  • 1
    "happens to be" stable is very different to "is guaranteed to be" stable. Unless you want bugs which appear without warning when changing Ruby versions or platforms, my advice is to ignore implementations that happen to be stable. Jun 11, 2017 at 19:59
  • @DaveSlutzkin I agree. I said this ("but you shouldn't depend upon it"), but perhaps not clearly enough if you didn't catch it. I will add more words. Jun 11, 2017 at 20:02

personally I wouldn't count on this. How bout doing something like this:

a.sort {|a, b| s1 = a[:int] <=> b[:int]; s1 != 0 ? s1 : a[:id] <=> b[:id] }
  • 4
    That is neither answering my question nor giving the same result as if the answer to my question is positive.
    – sawa
    Mar 15, 2013 at 21:55

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