I know that serializing an object is (to my knowledge) the only way to effectively deep-copy an object (as long as it isn't stateful like IO and whatnot), but is one way particularly more efficient than another?

For example, since I'm using Rails, I could always use ActiveSupport::JSON, to_xml - and from what I can tell marshalling the object is one of the most accepted ways to do this. I'd expect that marshalling is probably the most efficient of these since it's a Ruby internal, but am I missing anything?

Edit: note that its implementation is something I already have covered - I don't want to replace existing shallow copy methods (like dup and clone), so I'll just end up likely adding Object::deep_copy, the result of which being whichever of the above methods (or any suggestions you have :) that has the least overhead.


I was wondering the same thing, so I benchmarked a few different techniques against each other. I was primarily concerned with Arrays and Hashes - I didn't test any complex objects. Perhaps unsurprisingly, a custom deep-clone implementation proved to be the fastest. If you are looking for quick and easy implementation, Marshal appears to be the way to go.

I also benchmarked an XML solution with Rails 3.0.7, not shown below. It was much, much slower, ~10 seconds for only 1000 iterations (the solutions below all ran 10,000 times for the benchmark).

Two notes regarding my JSON solution. First, I used the C variant, version 1.4.3. Second, it doesn't actually work 100%, as symbols will be converted to Strings.

This was all run with ruby 1.9.2p180.

#!/usr/bin/env ruby
require 'benchmark'
require 'yaml'
require 'json/ext'
require 'msgpack'

def dc1(value)

def dc2(value)

def dc3(value)

def dc4(value)
  if value.is_a?(Hash)
    result = value.clone
    value.each{|k, v| result[k] = dc4(v)}
  elsif value.is_a?(Array)
    result = value.clone
    value.each{|v| result << dc4(v)}

def dc5(value)

value = {'a' => {:x => [1, [nil, 'b'], {'a' => 1}]}, 'b' => ['z']}

Benchmark.bm do |x|
  iterations = 10000
  x.report {iterations.times {dc1(value)}}
  x.report {iterations.times {dc2(value)}}
  x.report {iterations.times {dc3(value)}}
  x.report {iterations.times {dc4(value)}}
  x.report {iterations.times {dc5(value)}}

results in:

user       system     total       real
0.230000   0.000000   0.230000 (  0.239257)  (Marshal)
3.240000   0.030000   3.270000 (  3.262255)  (YAML) 
0.590000   0.010000   0.600000 (  0.601693)  (JSON)
0.060000   0.000000   0.060000 (  0.067661)  (Custom)
0.090000   0.010000   0.100000 (  0.097705)  (MessagePack)
  • 1
    Hey @Evan Pon, I added MessagePack in your examples. It is a good option. – Pablo Cantero Jul 6 '12 at 4:37
  • MessagePack looks really fast (2 times faster than Custom at my machine). Could you update answer with recommendation to use it instead of Marshal? – Andrei Botalov Feb 3 '13 at 9:31
  • 1
    @AndreyBotalov, MessagePack only handles a few classes - essentially numbers, strings, arrays and hashes. If you have any other types of objects, such as a Date object, it will not work for you. – Evan Pon Feb 4 '13 at 7:35
  • I found that if the values you're deep cloning are bigger (more keys, more nested, bigger values), the custom ruby code is slower than MessagePack. – dubek May 5 '13 at 14:58

I think you need to add an initialize_copy method to the class you are copying. Then put the logic for the deep copy in there. Then when you call clone it will fire that method. I haven't done it but that's my understanding.

I think plan B would be just overriding the clone method:

class CopyMe
    attr_accessor :var
    def initialize var=''
      @var = var
    def clone deep= false
      deep ? CopyMe.new(@var.clone) : CopyMe.new()

a = CopyMe.new("test")  
puts "A: #{a.var}"
b = a.clone
puts "B: #{b.var}"
c = a.clone(true)
puts "C: #{c.var}"


mike@sleepycat:~/projects$ ruby ~/Desktop/clone.rb 
A: test
C: test

I'm sure you could make that cooler with a little tinkering but for better or for worse that is probably how I would do it.

  • Appreciate the feedback - that is a way to replace it, but however it ends up being implemented would ideally be unobtrusive and leave the original methods to shallow copy intact (eg I'd just add Object::deep_copy). Have you seen anything about which method offers the least overhead? – mway Apr 14 '11 at 1:03
  • Updated. I hope that helps a little. – mikewilliamson Apr 14 '11 at 1:57
  • +1, see some example here: blog.rubybestpractices.com/posts/rklemme/… – akostadinov Jul 29 '14 at 13:20

Probably the reason Ruby doesn't contain a deep clone has to do with the complexity of the problem. See the notes at the end.

To make a clone that will "deep copy," Hashes, Arrays, and elemental values, i.e., make a copy of each element in the original such that the copy will have the same values, but new objects, you can use this:

class Object
  def deepclone
    when self.class==Hash
      hash = {}
      self.each { |k,v| hash[k] = v.deepclone }
    when self.class==Array
      array = []
      self.each { |v| array << v.deepclone }
      if defined?(self.class.new)

If you want to redefine the behavior of Ruby's clone method , you can name it just clone instead of deepclone (in 3 places), but I have no idea how redefining Ruby's clone behavior will affect Ruby libraries, or Ruby on Rails, so Caveat Emptor. Personally, I can't recommend doing that.

For example:

a = {'a'=>'x','b'=>'y'}                          => {"a"=>"x", "b"=>"y"}
b = a.deepclone                                  => {"a"=>"x", "b"=>"y"}
puts "#{a['a'].object_id} / #{b['a'].object_id}" => 15227640 / 15209520

If you want your classes to deepclone properly, their new method (initialize) must be able to deepclone an object of that class in the standard way, i.e., if the first parameter is given, it's assumed to be an object to be deepcloned.

Suppose we want a class M, for example. The first parameter must be an optional object of class M. Here we have a second optional argument z to pre-set the value of z in the new object.

class M
  attr_accessor :z
  def initialize(m=nil, z=nil)
    if m
      # deepclone all the variables in m to the new object
      @z = m.z.deepclone
      # default all the variables in M
      @z = z # default is nil if not specified

The z pre-set is ignored during cloning here, but your method may have a different behavior. Objects of this class would be created like this:

# a new 'plain vanilla' object of M
m=M.new                                        => #<M:0x0000000213fd88 @z=nil>
# a new object of M with m.z pre-set to 'g'
m=M.new(nil,'g')                               => #<M:0x00000002134ca8 @z="g">
# a deepclone of m in which the strings are the same value, but different objects
n=m.deepclone                                  => #<M:0x00000002131d00 @z="g">
puts "#{m.z.object_id} / #{n.z.object_id}" => 17409660 / 17403500

Where objects of class M are part of an array:

a = {'a'=>M.new(nil,'g'),'b'=>'y'}               => {"a"=>#<M:0x00000001f8bf78 @z="g">, "b"=>"y"}
b = a.deepclone                                  => {"a"=>#<M:0x00000001766f28 @z="g">, "b"=>"y"}
puts "#{a['a'].object_id} / #{b['a'].object_id}" => 12303600 / 12269460
puts "#{a['b'].object_id} / #{b['b'].object_id}" => 16811400 / 17802280


  • If deepclone tries to clone an object which doesn't clone itself in the standard way, it may fail.
  • If deepclone tries to clone an object which can clone itself in the standard way, and if it is a complex structure, it may (and probably will) make a shallow clone of itself.
  • deepclone doesn't deep copy the keys in the Hashes. The reason is that they are not usually treated as data, but if you change hash[k] to hash[k.deepclone] they will also be deep copied also.
  • Certain elemental values have no new method, such as Fixnum. These objects always have the same object ID, and are copied, not cloned.
  • Be careful because when you deep copy, two parts of your Hash or Array that contained the same object in the original will contain different objects in the deepclone.

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