104

I have an array of hashes like so:

 [{"testPARAM1"=>"testVAL1"}, {"testPARAM2"=>"testVAL2"}]

And I'm trying to map this onto single hash like this:

{"testPARAM2"=>"testVAL2", "testPARAM1"=>"testVAL1"}

I have achieved it using

  par={}
  mitem["params"].each { |h| h.each {|k,v| par[k]=v} } 

But I was wondering if it's possible to do this in a more idiomatic way (preferably without using a local variable).

How can I do this?

5 Answers 5

183

You could compose Enumerable#reduce and Hash#merge to accomplish what you want.

input = [{"testPARAM1"=>"testVAL1"}, {"testPARAM2"=>"testVAL2"}]
input.reduce({}, :merge)
  is {"testPARAM2"=>"testVAL2", "testPARAM1"=>"testVAL1"}

Reducing an array sort of like sticking a method call between each element of it.

For example [1, 2, 3].reduce(0, :+) is like saying 0 + 1 + 2 + 3 and gives 6.

In our case we do something similar, but with the merge function, which merges two hashes.

[{:a => 1}, {:b => 2}, {:c => 3}].reduce({}, :merge)
  is {}.merge({:a => 1}.merge({:b => 2}.merge({:c => 3})))
  is {:a => 1, :b => 2, :c => 3}
6
  • 2
    Thanks, this is a great answer :) Very nicely explained! Aug 8, 2012 at 1:58
  • 47
    input.reduce(&:merge) is sufficient.
    – redgetan
    Dec 15, 2014 at 15:31
  • 1
    @redgetan is that any different from input.reduce(:merge)? May 12, 2015 at 14:13
  • 2
    @David van Geest: In this case they are equivalent. The unary ampersand as used here builds a block out of the symbol. However, reduce has a special case that accepts a symbol. I wanted to avoid the unary ampersand operator to simplify the example, but redgetan is correct that the initial value is optional in this case.
    – cjhveal
    Jul 14, 2015 at 22:55
  • 1
    Note that if you use merge! instead of merge it will modify the first hash (which you may not want) but will not create an intermediary hash for each new merge.
    – Phrogz
    Jan 31, 2016 at 21:41
56

How about:

h = [{"testPARAM1"=>"testVAL1"}, {"testPARAM2"=>"testVAL2"}]
r = h.inject(:merge)
3
  • This scheme is effectively same as what Joshua answered, but repeatedly applying #merge (method name passed as a symbol) on all of the hashes (think of inject as injecting a operator between items). Refer to #inject.
    – shigeya
    Aug 8, 2012 at 1:56
  • 2
    How come we don't need the ampersand, as in h.inject(&:merge) ?
    – Donato
    Jun 3, 2015 at 22:05
  • 6
    Because inject method accepts a symbol as a parameter to be interpreted as method name too. It's inject's feature.
    – shigeya
    Jun 26, 2015 at 8:25
14

Every answers until now are advising to use Enumerable#reduce (or inject which is an alias) + Hash#merge but beware, while being clean, concise and human readable this solution will be hugely time consuming and have a large memory footprint on large arrays.

I have compiled different solutions and benchmarked them.

Some options

a = [{'a' => {'x' => 1}}, {'b' => {'x' => 2}}]

# to_h
a.to_h { |h| [h.keys.first, h.values.first] }

# each_with_object
a.each_with_object({}) { |x, h| h.store(x.keys.first, x.values.first) }
# each_with_object (nested)
a.each_with_object({}) { |x, h| x.each { |k, v| h.store(k, v) } }
# map.with_object
a.map.with_object({}) { |x, h| h.store(x.keys.first, x.values.first) }
# map.with_object (nested)
a.map.with_object({}) { |x, h| x.each { |k, v| h.store(k, v) } }

# reduce + merge
a.reduce(:merge) # take wayyyyyy to much time on large arrays because Hash#merge creates a new hash on each iteration
# reduce + merge!
a.reduce(:merge!) # will modify a in an unexpected way

Benchmark script

It's important to use bmbm and not bm to avoid differences are due to the cost of memory allocation and garbage collection.

require 'benchmark'

a = (1..50_000).map { |x| { "a#{x}" => { 'x' => x } } }

Benchmark.bmbm do |x|
  x.report('to_h:') { a.to_h { |h| [h.keys.first, h.values.first] } }
  x.report('each_with_object:') { a.each_with_object({}) { |x, h| h.store(x.keys.first, x.values.first) } }
  x.report('each_with_object (nested):') { a.each_with_object({}) { |x, h| x.each { |k, v| h.store(k, v) } } }
  x.report('map.with_object:') { a.map.with_object({}) { |x, h| h.store(x.keys.first, x.values.first) } }
  x.report('map.with_object (nested):') { a.map.with_object({}) { |x, h| x.each { |k, v| h.store(k, v) } } }
  x.report('reduce + merge:') { a.reduce(:merge) }
  x.report('reduce + merge!:') { a.reduce(:merge!) }
end

Note: I initially tested with a 1_000_000 items array but as reduce + merge is costing exponentially much time it will take to much time to end.

Benchmark results

50k items array

Rehearsal --------------------------------------------------------------
to_h:                        0.031464   0.004003   0.035467 (  0.035644)
each_with_object:            0.018782   0.003025   0.021807 (  0.021978)
each_with_object (nested):   0.018848   0.000000   0.018848 (  0.018973)
map.with_object:             0.022634   0.000000   0.022634 (  0.022777)
map.with_object (nested):    0.020958   0.000222   0.021180 (  0.021325)
reduce + merge:              9.409533   0.222870   9.632403 (  9.713789)
reduce + merge!:             0.008547   0.000000   0.008547 (  0.008627)
----------------------------------------------------- total: 9.760886sec

                                 user     system      total        real
to_h:                        0.019744   0.000000   0.019744 (  0.019851)
each_with_object:            0.018324   0.000000   0.018324 (  0.018395)
each_with_object (nested):   0.029053   0.000000   0.029053 (  0.029251)
map.with_object:             0.021635   0.000000   0.021635 (  0.021782)
map.with_object (nested):    0.028842   0.000005   0.028847 (  0.029046)
reduce + merge:             17.331742   6.387505  23.719247 ( 23.925125)
reduce + merge!:             0.008255   0.000395   0.008650 (  0.008681)

2M items array (excluding reduce + merge)

Rehearsal --------------------------------------------------------------
to_h:                        2.036005   0.062571   2.098576 (  2.116110)
each_with_object:            1.241308   0.023036   1.264344 (  1.273338)
each_with_object (nested):   1.126841   0.039636   1.166477 (  1.173382)
map.with_object:             2.208696   0.026286   2.234982 (  2.252559)
map.with_object (nested):    1.238949   0.023128   1.262077 (  1.270945)
reduce + merge!:             0.777382   0.013279   0.790661 (  0.797180)
----------------------------------------------------- total: 8.817117sec

                                 user     system      total        real
to_h:                        1.237030   0.000000   1.237030 (  1.247476)
each_with_object:            1.361288   0.016369   1.377657 (  1.388984)
each_with_object (nested):   1.765759   0.000000   1.765759 (  1.776274)
map.with_object:             1.439949   0.029580   1.469529 (  1.481832)
map.with_object (nested):    2.016688   0.019809   2.036497 (  2.051029)
reduce + merge!:             0.788528   0.000000   0.788528 (  0.794186)
9

Use #inject

hashes = [{"testPARAM1"=>"testVAL1"}, {"testPARAM2"=>"testVAL2"}]
merged = hashes.inject({}) { |aggregate, hash| aggregate.merge hash }
merged # => {"testPARAM1"=>"testVAL1", "testPARAM2"=>"testVAL2"}
0

Here you can use either inject or reduce from Enumerable class as both of them are aliases of each other so there is no performance benefit to either.

 sample = [{"testPARAM1"=>"testVAL1"}, {"testPARAM2"=>"testVAL2"}]

 result1 = sample.reduce(:merge)
 # {"testPARAM1"=>"testVAL1", "testPARAM2"=>"testVAL2"}

 result2 = sample.inject(:merge)
 # {"testPARAM1"=>"testVAL1", "testPARAM2"=>"testVAL2"}

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