63

For example, I have array of single hashes

a = [{a: :b}, {c: :d}]

What is best way to convert it into this?

{a: :b, c: :d}
|improve this question
116

You may use

a.reduce Hash.new, :merge

which directly yields

{:a=>:b, :c=>:d}

Note that in case of collisions the order is important. Latter hashes override previous mappings, see e.g.:

[{a: :b}, {c: :d}, {e: :f, a: :g}].reduce Hash.new, :merge   # {:a=>:g, :c=>:d, :e=>:f}
|improve this answer
  • 35
    Hash.new, or as friends like to call him, {} :-) So much as I like pure functional solution, note that merge will create a new hash on every iteration; we can use update instead (it won't mess up with the input hashes, that's the important point): hs.reduce({}, :update) – tokland Jun 8 '12 at 7:47
  • @tokland, post your comment as a separate answer - it should get more visibility – Jason Sep 29 '14 at 12:47
  • If your application allows for it, the :update version suggested by tokland is the faster option. – Greg Tarsa May 16 at 17:29
37

You can use .inject:

a.inject(:merge)
#=> {:a=>:b, :c=>:d}

Demonstration

Which initiates a new hash on each iteration from the two merged. To avoid this, you can use destructive :merge!( or :update, which is the same):

a.inject(:merge!)
#=> {:a=>:b, :c=>:d}

Demonstration

|improve this answer
  • Thats crazy elegant. Thank you. – PR Whitehead Dec 1 '18 at 17:20
  • this answer deserves more upvotes – cdmo Feb 6 at 17:02
21

These two:

total_hash = hs.reduce({}) { |acc_hash, hash| acc_hash.merge(hash) }
total_hash = hs.reduce({}, :merge)

Note that Hash#merge creates a new hash on each iteration, which may be a problem if you are building a big hash. In that case, use update instead:

total_hash = hs.reduce({}, :update)

An alternative approach would be to convert the hashes to pairs and then build the final hash:

total_hash = hs.flat_map(&:to_a).to_h
|improve this answer
1

I came across this answer and I wanted to compare the two options in terms of performance to see which one is better:

  1. a.reduce Hash.new, :merge
  2. a.inject(:merge)

using the ruby benchmark module, it turns out that option (2) a.inject(:merge) is faster.

code used for comparison:

require 'benchmark'

input = [{b: "c"}, {e: "f"}, {h: "i"}, {k: "l"}]
n = 50_000

Benchmark.bm do |benchmark|
  benchmark.report("reduce") do
    n.times do
      input.reduce Hash.new, :merge
    end
  end

  benchmark.report("inject") do
    n.times do
      input.inject(:merge)
    end
  end
end

the results were

       user     system      total        real
reduce  0.125098   0.003690   0.128788 (  0.129617)
inject  0.078262   0.001439   0.079701 (  0.080383)
|improve this answer
  • This result confused me. The docs say reduce and inject are aliased. A quick check w/ your test shows the slowdown is due to Hash.new as the initializer. :merge creates a new hash each iteration. :update doesn't. So, a re-run with :update shows, even with the Hash.new, the :update version is faster:``` user system total real reduce w/ Hash.new & :update 0.056754 0.002097 0.058851 ( 0.059330) reduce w/ :merge only 0.090021 0.001081 0.091102 ( 0.091257)``` – Greg Tarsa May 16 at 17:23
0

Try this

a.inject({}){|acc, hash| acc.merge(hash)} #=> {:a=>:b, :c=>:d}
|improve this answer
0

Just use

a.reduce(:merge)
#=> {:a=>:b, :c=>:d}
|improve this answer
0

You can transform it to array [[:a, :b]] and after that translate everything to hash {:a=>:b} 

# it works like [[:a, :b]].to_h => {:a=>:b}

[{a: :b}, {c: :d}].map { |hash| hash.to_a.flatten }.to_h

# => {:a=>:b, :c=>:d}
|improve this answer

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.