I have the following hash:

hash = {'name' => { 'Mike' => { 'age' => 10, 'gender' => 'm' } } }

I can access the age by:


What if I used Hash#fetch method? How can I retrieve a key from a nested hash?

As Sergio mentioned, the way to do it (without creating something for myself) would be by a chain of fetch methods:

  • 1
    fetch('name').fetch('Mike'), no? Oct 1, 2013 at 12:14
  • @SergioTulentsev I know but I was thinking if there is something a bit more subtle than chained fetch methods Oct 1, 2013 at 12:15
  • You can always write your own sugar for that :) Oct 1, 2013 at 12:16
  • @SergioTulentsev add the comment as an answer and i will accept it since there is isn't another way of writing that unless you write something yourself. Oct 1, 2013 at 12:23
  • Just as a stylistic question-asking thing, write it in the first person, using "I", not "you". It makes a whole lot more sense that way since you're the one with the question needing the answers, not us. Oct 1, 2013 at 14:02

8 Answers 8


From Ruby 2.3.0 onward, you can use Hash#dig:

hash.dig('name', 'Mike', 'age')

It also comes with the added bonus that if some of the values along the way turned up to be nil, you will get nil instead of exception.

You can use the ruby_dig gem until you migrate.

  • 16
    That is really not a bonus. Sep 6, 2016 at 1:31
  • 1
    @DuncanBayne in dynamically typed languages where using nil as falsy value is an idiom - it is. Consider the older rails alternative, which is to chain try invocations - it would do the same.
    – ndnenkov
    Sep 6, 2016 at 6:13
  • 1
    I believe the correct alternative is to chain fetch invocations, which will raise an error by default if a key is not found. Then one can carefully, consciously provide default values as needed. I've seen many bugs caused by code - both Ruby and Coffeescript - blithely treating missing values as nil. Sep 6, 2016 at 12:17
  • 1
    @DuncanBayne, with that reasoning you would advise people to surround half of their methods with rescue/if blocks for state checking. Probably everyone should skip normal indexing and go with #fetch always... you simply don't know why you got that nil otherwise? The question is - do you intentionally care. Even in java/c# it should be the other way around - if you are aware that things might be missing from one nesting level onwards and you know that is a problem then you should be trying to handle those cases. Or better - make your structure consistent (but that varies).
    – ndnenkov
    Sep 6, 2016 at 14:40
  • 1
    That's it in a nutshell: "The question is - do you intentionally care." I prefer to use fetch to a) encourage myself to think carefully about whether I care, and especially b) make it apparent to those reading the code whether I care or not. Sep 6, 2016 at 21:50

EDIT: there is a built-in way now, see this answer.

There is no built-in method that I know of. I have this in my current project

class Hash
  def fetch_path(*parts)
    parts.reduce(self) do |memo, key|
      memo[key.to_s] if memo

# usage
hash.fetch_path('name', 'Mike', 'age')

You can easily modify it to use #fetch instead of #[] (if you so wish).


As of Ruby 2.3.0:

You can also use &. called the "safe navigation operator" as: hash&.[]('name')&.[]('Mike')&.[]('age'). This one is perfectly safe.

Using dig is not safe as hash.dig(:name, :Mike, :age) will fail if hash is nil.

However you may combine the two as: hash&.dig(:name, :Mike, :age).

So either of the following is safe to use:

hash&.dig(:name, :Mike, :age)
  • The whole point of fetch is that you want an error raised instead of a silent failure, and dig and [] don't offer that regardless of &.. Giving nil instead of an error is only safe if your code plans to do something with the nil later on, otherwise it can create an extremely subtle silent bug that you'd rather know about with a clear error at the point of contract violation. Similarly, if the contract is that the hash is defined, it's better to use a plain . and raise if it's not defined so you can fix the bug, but that's not what OP's asking about.
    – ggorlen
    Jun 24, 2021 at 1:35
  • Good point about fetch. I think not raising an error is considered an upside about dig but it depends on your expectations. Jun 24, 2021 at 11:31

If your goal is to raise a KeyError when any of the intermediate keys are missing, then you need to write your own method. If instead you're using fetch to provide default values for missing keys, then you can circumvent the use of fetch by constructing the Hashes with a default values.

hash = Hash.new { |h1, k1| h1[k1] = Hash.new { |h2, k2| h2[k2] = Hash.new { |h3, k3| } } }
# {}
hash['name']['Steve']['age'] = 20
# {"name"=>{"Mike"=>{}, "Steve"=>{"age"=>20}}}

This won't work for arbitrarily nested Hashes, you need to choose the maximum depth when you construct them.


A version that uses a method instead of adding to the Hash class for others using Ruby 2.2 or lower.

def dig(dict, *args)
  key = args.shift
  if args.empty?
    return dict[key]
    dig(dict[key], *args)

And so you can do:

data = { a: 1, b: {c: 2}}
dig(data, :a) == 1
dig(data, :b, :c) == 2

If you don't want to monkey patch the standard Ruby class Hash use .fetch(x, {}) variant. So for the example above will look like that:

hash.fetch('name', {}).fetch('Mike', {}).fetch('age')

The point of fetch is that an explicit error is raised at the point of contract violation instead of having to track down a silent nil running amok in the code that can lead to unpredictable state.

Although dig is elegant and useful when you expect nil to be a default, it doesn't offer the same error reporting guarantees of fetch. OP seems to want the explicit errors of fetch but without the ugly verbosity and chaining.

An example use case is receiving a plain nested hash from YAML.load_file() and requiring explicit errors for missing keys.

One option is to alias [] to fetch as shown here, but this isn't a deep operation on a nested structure.

I ultimately used a recursive function and hash.instance_eval {alias [] fetch} to apply the alias to such a plain hash deeply. A class would work just as well, with the benefit of a distinct subclass separate from Hash.

irb(main):001:1* def deeply_alias_fetch!(x)
irb(main):002:2*   if x.instance_of? Hash
irb(main):003:2*     x.instance_eval {alias [] fetch}
irb(main):004:2*     x.each_value {|v| deeply_alias_fetch!(v)}
irb(main):005:2*   elsif x.instance_of? Array
irb(main):006:2*     x.each {|e| deeply_alias_fetch!(e)}
irb(main):007:1*   end
irb(main):008:0> end
=> :deeply_alias_fetch!
irb(main):009:0> h = {:a => {:b => 42}, :c => [{:d => 1, :e => 2}, {}]}
irb(main):010:0> deeply_alias_fetch!(h)
=> {:a=>{:b=>42}, :c=>[{:d=>1, :e=>2}, {}]}
irb(main):011:0> h[:a][:bb]
Traceback (most recent call last):
        5: from /usr/bin/irb:23:in `<main>'
        4: from /usr/bin/irb:23:in `load'
        3: from /usr/lib/ruby/gems/2.7.0/gems/irb-1.2.1/exe/irb:11:in `<top (required)>'
        2: from (irb):11
        1: from (irb):11:in `fetch'
KeyError (key not found: :bb)
Did you mean?  :b
irb(main):012:0> h[:c][0][:e]
=> 2
irb(main):013:0> h[:c][0][:f]
Traceback (most recent call last):
        5: from /usr/bin/irb:23:in `<main>'
        4: from /usr/bin/irb:23:in `load'
        3: from /usr/lib/ruby/gems/2.7.0/gems/irb-1.2.1/exe/irb:11:in `<top (required)>'
        2: from (irb):14
        1: from (irb):14:in `fetch'
KeyError (key not found: :f)

if you can



instead of:


it'll save a lot of annoyances

  • I'm just amazed people use the same words as I do when I make test hashes x'D {a: 'ayee', b: 'bee', c: 'sea'} It only makes sense though... The singularity is upon us! 🔥
    – CTS_AE
    Mar 26, 2019 at 22:55
  • For this to work, you'd need to use lists as keys: h = {["ayy", "bee"] => 42} ; h[["ayy", "bee"]]. It doesn't really help with using fetch to raise on missing keys as OP seems to be asking though.
    – ggorlen
    Jun 24, 2021 at 17:44

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