Each key in a hash has a value that's also a hash.

      100 => {
        1 => 'ruby',
        2 => 'enumerables'
      50 => {
        3 => 'can',
        4 => 'cause'
      15 => {
        5 => 'occassional',
        6 => 'insanity'

For each hash object, I want to discard the top-level key, and replace it with the key and value of the nested hash objects.

  1 => 'ruby',
  2 => 'enumerables',
  3 => 'can',
  4 => 'cause',
  5 => 'occasional',
  6 => 'insanity'

I have it working, but my method uses a merge!, and requires creating another hash to store the values. I'm curious to see if it can be done in one line. I tried to use reduce(), but could not make it work.

up vote 10 down vote accepted

This works:


Edit: Another option, using reduce (which is the same as inject), and noting tokland's comment that to_proc is automatically called when you use a symbol:


Then it becomes not only concise but very readable.

  • 3
    +1 I never knew that Symbol#to_proc handled arity > 1 blocks like that! – Phrogz Jan 25 '12 at 4:29
  • 2
    +1 That's very interesting. But it makes my head hurt. – the Tin Man Jan 25 '12 at 5:30
  • 2
    note that inject accepts a symbol: hash.values.inject(:merge). Using functional Hash#merge is absolutely ok, but it creates a new hash on each step; since hash.values is a newly created and temporal array I guess it wouldn't be too heretical to write hash.values.inject(:update) if the input can be very, very large. – tokland Jan 25 '12 at 11:12
  • Thanks @tokland for the reminder that to_proc is done for you by inject/reduce. And good point about :update. – Mark Thomas Jan 25 '12 at 12:52
  • 3
    @tokland The array is newly-created, but the values of the array are still the original hashes. Using update is fastest (see benchmark in my answer), but it certainly does mutate the first hash in the original data. – Phrogz Jan 25 '12 at 18:15

I like the answer by @MarkThomas best, but for speed and memory efficiency I suggest:

flatter = {}.tap{ |h| original.values.each{ |h2| h.merge!(h2) } }

Benchmarking 200,000 iterations of the current answers shows this to be the fastest:

                          user     system      total        real
Phrogz                0.710000   0.020000   0.730000 (  0.728706)
Joshua Creek          0.830000   0.010000   0.840000 (  0.830700)
Mark Thomas symbol    1.460000   0.020000   1.480000 (  1.486463)
Mark Thomas to_proc   1.540000   0.030000   1.570000 (  1.565354)
Tim Peters            1.650000   0.030000   1.680000 (  1.678283)

Since the comment by @tokland—original.values.reduce(:update)—modifies the original hash we cannot compare it directly to the other methods. However, if we modify all tests to put a duplicate of the first hash back into the original each iteration, @tokland's answer becomes the fastest, though still not quite as fast as mine:

                          user     system      total        real
tokland's destroyer   0.760000   0.010000   0.770000 (  0.772774)
Phrogz                1.020000   0.020000   1.040000 (  1.034755)
Joshua Creek          1.060000   0.000000   1.060000 (  1.063874)
Mark Thomas symbol    1.780000   0.040000   1.820000 (  1.816909)
Mark Thomas to_proc   1.790000   0.030000   1.820000 (  1.819014)
Tim Peters            1.800000   0.040000   1.840000 (  1.827984)

If you need absolute speed and it's OK to modify the original values, use @tokland's answer. If you do so and want to preserve the original unmerged hashes unscathed, then you can:

first_k,orig_v = original.each{ |k,v| break [k,v.dup] }
merged = original.values.reduce(:update)
original[first_k] = orig_v

Note that your question title says traverse; if you don't really want to merge the values—if you might want to visit a duplicate key twice instead of last-in-wins—then simply do:

original.values.each{ |h| h.each{ |k,v|
  # hey, we're traversing inside!
} }
  • I wasn't sure if traverse was the right word, thanks for pointing that out. – Marco Jan 25 '12 at 4:22
  • My answer is presumably what you had, except that I'm showing you how to use tap to make it officially one line. :) But again, this is twice as fast as the more-fun solutions. – Phrogz Jan 25 '12 at 4:31
  • I wonder if @tokland's hash.values.reduce(:update) would be faster than mine. – Mark Thomas Jan 25 '12 at 12:57
  • @MarkThomas Thanks for the impetus to check. It is! – Phrogz Jan 25 '12 at 18:13

Since you don't value about the top level keys, use #values to get an array of the values (in this case, also hashes). Then you can use #inject to build up a new hash, merging them as you go.

yourhash.values.inject{|hash, thing| hash.merge(thing)}

There are probably other ways to do it.


Just took a stab at it, first try was brute force and better methods (in both senses of the word...) are out there.

h.map {|k,v| v}.inject({}) {|i,h| i.merge(h)}

While it isn't as brief as some of the other answers, I think each_with_object deserves a representation.

output = input.each_with_object Hash.new do |(_,subhash), hash|
  hash.merge! subhash
  • Note that using each_with_object like this is functionally equivalent to using tap as I did, yet it is more typing and always a little slower than the tap version. – Phrogz Jan 25 '12 at 18:23
  • 1
    And also clearer. – Joshua Cheek Jan 26 '12 at 1:41

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