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I am using Ruby on Rails 3 and I would like to improve the following code to a better way to do the same thing.

query = {}
params.each { |k,v| query[k.singularize] = v }

How can I do that?

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5 Answers 5

up vote 1 down vote accepted

If you were actually finding that

params.each { |k,v| query[k.singularize] = v }

was taking too long, singularize would be taking up most of your time.

If most of the words were the same, I'd consider memoization.

Actually, if you had ten thousand parameters, I'd consider a code review!

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query = Hash[params.map{|k, v| [k.singularize, v]}]
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It's still looping the data once and copying the values over. I was also going to post basically this exact code but I don't think it's an improvement. If anything it's harder to read. Gonna run a benchmark between the two to see if there's a difference in performance. Pending... –  nzifnab Mar 11 '11 at 5:30
Your code is invalid. –  Andrew Marshall Mar 11 '11 at 5:30
Eh he's missing a close bracket at the end, no biggie –  nzifnab Mar 11 '11 at 5:31
@nzifnab Thanks. I fixed it. –  sawa Mar 11 '11 at 5:32

As nzifnab wrote, my other code seems to be slow. The following one may be slightly faster than the original posted.

query = params.each_with_object({}){|(k, v), h| h[k.singularize] = v}
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I never knew about that method... turns out you can learn things on stackoverflow ;) haha. It's syntactically cool, but is logically identical to what he was doing originally kinda... I'll update mine w/ the benchmark. –  nzifnab Mar 11 '11 at 6:05

Well I had an idea (same idea as sawa) and decided I wanted to know if it was an improvement. Here's the benchmark results:

params = {'puppies' => 'cute',
  'dinosaurs' => 'angry',
  'kittens' => 'kill them all',
  'wat' => 4}

Benchmark.bm do |x|
  x.report(".each"){10000.times{query = {}; params.each{ |k,v| query[k.singularize] = v }}}
  x.report("Hash"){10000.times{query = Hash[params.map{|k, v| [k.singularize, v]}]}}

And the result:

      user       system     total       real
.each 3.850000   0.390000   4.240000 (  4.260567)
Hash  3.910000   0.400000   4.310000 (  4.402304)

So very little difference, although Hash is the opposite of improvement, sadly - if performance was a concern for you.

I still tend to use the Hash[] format just because I like how .map works... but .map has to loop through every single item too so it's no different.


I went with the comment suggestion to do one really large hash instead of a tiny hash 10,000 times. Here's the results:

myhash = {}
20000.times do |i|
  myhash[i.to_s * 2 + 's'] = i

Benchmark.bm do |x|
  x.report(".each"){query = {}; myhash.each{|k,v| query[k.singularize] = v}}
  x.report("Hash"){query = Hash[myhash.map{|k,v| [k.singularize, v]}]}


      user       system     total       real
.each 1.980000   0.110000   2.090000 (  2.100811)
Hash  2.040000   0.140000   2.180000 (  2.176588)

Edit 2: Credit goes to sawa for this third method:

Benchmark.bm do |x|
  x.report(".each"){query = {}; myhash.each{|k,v| query[k.singularize] = v}}
  x.report("Hash"){query = Hash[myhash.map{|k,v| [k.singularize, v]}]}
  x.report("with_object"){query = myhash.each_with_object({}){|(k, v), h| h[k.singularize] = v}}

      user     system      total        real
.each  2.050000   0.110000   2.160000 (  2.174315)
Hash  2.070000   0.110000   2.180000 (  2.187600)
with_object  2.100000   0.110000   2.210000 (  2.207763)

If you (or someone) can find a way to modify each value in-place I suspect this would be the fastest way to do it:

params.each{|arr| arr[0].singularize!}

But you can't do that because

  1. singularize! is not defined, and
  2. when you try to do this:
params.each{|arr| arr[0].gsub!('s', '')}

You get an error:

TypeError: can't modify frozen string

I would just stick with the original version :p

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Rather than do a small hash ten thousand times, try doing a large hash once? –  Andrew Grimm Mar 11 '11 at 5:51
What do you mean by "it has to loop through every item"? Don't you have to do it anyway? –  Mladen Jablanović Mar 11 '11 at 6:10
@Mladen it would seem so. We're tryin to find an improved way of doing it and I can't figure out one :) So my answer to the question at this point is "Stick with the original version" –  nzifnab Mar 11 '11 at 6:17
Try replacing singularize with reverse - I suspect it could be taking up the bulk of your time. –  Andrew Grimm Mar 11 '11 at 6:19
@Andrew It is, time dropped down to 0.038 on .each and 0.039 on Hash. Relative results are still the same and his purpose is to singularize the string. But it was a good thing to check anyway. –  nzifnab Mar 11 '11 at 6:23

I tried the following in Ruby YARV 1.9.1, without ActiveSupport (hence reverse rather than singularize)

require "benchmark"

myhash = {}
2000000.times do |i|
  myhash[i.to_s * 2 + 's'] = i

Benchmark.bm do |x|
  x.report(".each"){query = {}; myhash.each{|k,v| query[k.reverse] = v}}
  x.report("Hash"){query = Hash[myhash.map{|k,v| [k.reverse, v]}]}
  puts RUBY_ENGINE if defined?(RUBY_ENGINE)

gave me

      user       system     total       real
.each 6.350000   0.070000   6.420000 (  6.415588)
Hash  5.710000   0.100000   5.810000 (  5.795611)

So in my case, Hash was faster.

Considering the difference in speed between my benchmark and nzifnab's, I'd want to check the bulk of time wasn't spend on singularize.


Under 1.8.7:

      user        system    total       real
.each 11.640000   0.380000  12.020000 ( 12.019372)
Hash  15.010000   0.540000  15.550000 ( 15.552186)

So it's slower using Hash under 1.8?

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I'm using Ruby 1.8.7 - my benchmarks had the two versions at about the same speed (using .reverse) -- I wonder if maybe the newer version or Ruby is faster using the Hash route. –  nzifnab Mar 11 '11 at 6:36

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