I have the following Array = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
How do I produce a count for each identical element?
Where:
"Jason" = 2, "Judah" = 3, "Allison" = 1, "Teresa" = 1, "Michelle" = 1?
or produce a hash Where:
Where: hash = { "Jason" => 2, "Judah" => 3, "Allison" => 1, "Teresa" => 1, "Michelle" => 1 }
As of ruby v2.7.0 (released December 2019), the core language now includes Enumerable#tally - a new method, designed specifically for this problem:
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
names.tally
#=> {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
The following code was not possible in standard ruby when this question was first asked (February 2011), as it uses:
Object#itself, which was added to Ruby v2.2.0 (released December 2014).Hash#transform_values, which was added to Ruby v2.4.0 (released December 2016).These modern additions to Ruby enable the following implementation:
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
names.group_by(&:itself).transform_values(&:count)
#=> {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
For even older ruby versions, without access to the above mentioned Hash#transform_values method, you could instead use Array#to_h, which was added to Ruby v2.1.0 (released December 2013):
names.group_by(&:itself).map { |k,v| [k, v.length] }.to_h
#=> {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
For even older ruby versions (<= 2.1), there are several ways to solve this, but (in my opinion) there is no clear-cut "best" way. See the other answers to this post.
count instead of size/length?
Jan 2, 2018 at 2:25
Array#size and Array#length, Array#count can take an optional argument or block; but if used with neither then its implementation is identical. More specifically, all three methods call LONG2NUM(RARRAY_LEN(ary)) under the hood: count / length
.group_by(&:itself).transform_values(&:count).sort_by{|k, v| v}.reverse
names.inject(Hash.new(0)) { |total, e| total[e] += 1 ;total}
gives you
{"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
each_with_object instead of inject you don't have to return (;total) at the block.
array.each_with_object(Hash.new(0)){|string, hash| hash[string] += 1}
May 25, 2015 at 20:58
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
counts = Hash.new(0)
names.each { |name| counts[name] += 1 }
# => {"Jason" => 2, "Teresa" => 1, ....
Now using Ruby 2.2.0 you can leverage the itself method.
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
counts = {}
names.group_by(&:itself).each { |k,v| counts[k] = v.length }
# counts > {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
Hash#transform_values which allows us to simplify your code even more: names.group_by(&:itself).transform_values(&:count)
Array#to_h - which was added to Ruby v2.1.0 (released December 2013 - i.e. almost 3 years after the original question was asked!)
There's actually a data structure which does this: MultiSet.
Unfortunately, there is no MultiSet implementation in the Ruby core library or standard library, but there are a couple of implementations floating around the web.
This is a great example of how the choice of a data structure can simplify an algorithm. In fact, in this particular example, the algorithm even completely goes away. It's literally just:
Multiset.new(*names)
And that's it. Example, using https://GitHub.Com/Josh/Multimap/:
require 'multiset'
names = %w[Jason Jason Teresa Judah Michelle Judah Judah Allison]
histogram = Multiset.new(*names)
# => #<Multiset: {"Jason", "Jason", "Teresa", "Judah", "Judah", "Judah", "Michelle", "Allison"}>
histogram.multiplicity('Judah')
# => 3
Example, using http://maraigue.hhiro.net/multiset/index-en.php:
require 'multiset'
names = %w[Jason Jason Teresa Judah Michelle Judah Judah Allison]
histogram = Multiset[*names]
# => #<Multiset:#2 'Jason', #1 'Teresa', #3 'Judah', #1 'Michelle', #1 'Allison'>
Multiset is governed by strict mathematical rules and supports the typical set operations (union, intersection, complement, ...) in a way that is mostly consistent with the axioms, laws and theorems of "normal" mathematical set theory, although some important laws do not hold when you try to generalize them to multisets. But that's way beyond my understanding of the matter. I use them as a programming data structure, not as a mathematical concept.
Feb 28, 2011 at 3:26
{A, A, B} = {A, B}. This is clearly a violation of the very definition of multi-sets!
Enumberable#each_with_object saves you from returning the final hash.
names.each_with_object(Hash.new(0)) { |name, hash| hash[name] += 1 }
Returns:
=> {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
each_with_object variant is more readable to me than inject
Jul 24, 2018 at 14:01
This works.
arr = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
result = {}
arr.uniq.each{|element| result[element] = arr.count(element)}
O(n^2) (which will matter for some values of n) and does extra work (it has to count for "Judah" 3x, for instance)!. I would also suggest each instead of map (the map result is being discarded)
The following is a slightly more functional programming style:
array_with_lower_case_a = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
hash_grouped_by_name = array_with_lower_case_a.group_by {|name| name}
hash_grouped_by_name.map{|name, names| [name, names.length]}
=> [["Jason", 2], ["Teresa", 1], ["Judah", 3], ["Michelle", 1], ["Allison", 1]]
One advantage of group_by is that you can use it to group equivalent but not exactly identical items:
another_array_with_lower_case_a = ["Jason", "jason", "Teresa", "Judah", "Michelle", "Judah Ben-Hur", "JUDAH", "Allison"]
hash_grouped_by_first_name = another_array_with_lower_case_a.group_by {|name| name.split(" ").first.capitalize}
hash_grouped_by_first_name.map{|first_name, names| [first_name, names.length]}
=> [["Jason", 2], ["Teresa", 1], ["Judah", 3], ["Michelle", 1], ["Allison", 1]]
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
Hash[names.group_by{|i| i }.map{|k,v| [k,v.size]}]
# => {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
a = [1, 2, 3, 2, 5, 6, 7, 5, 5]
a.each_with_object(Hash.new(0)) { |o, h| h[o] += 1 }
# => {1=>1, 2=>2, 3=>1, 5=>3, 6=>1, 7=>1}
Credit Frank Wambutt
Lots of great implementations here.
But as a beginner I would consider this the easiest to read and implement
names = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
name_frequency_hash = {}
names.each do |name|
count = names.count(name)
name_frequency_hash[name] = count
end
#=> {"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
The steps we took:
names arraynames arrayname and a value using the countIt may be slightly more verbose (and performance wise you will be doing some unnecessary work with overriding keys), but in my opinion easier to read and understand for what you want to achieve
Hash.new(0). The closest to pseudocode. That can be a good thing for readability but also doing unnecessary work can harm readability for readers who notice it because in more complex cases they will spend a little time thinking they're going crazy trying to figure out why it's done.
Jun 7, 2019 at 9:50
With ruby 2.6 you can do:
names.to_h{ |name| [name, names.count(name)] }
gives you:
{"Jason"=>2, "Teresa"=>1, "Judah"=>3, "Michelle"=>1, "Allison"=>1}
This is more a comment than an answer, but a comment wouldn't do it justice. If you do Array = foo, you crash at least one implementation of IRB:
C:\Documents and Settings\a.grimm>irb
irb(main):001:0> Array = nil
(irb):1: warning: already initialized constant Array
=> nil
C:/Ruby19/lib/ruby/site_ruby/1.9.1/rbreadline.rb:3177:in `rl_redisplay': undefined method `new' for nil:NilClass (NoMethodError)
from C:/Ruby19/lib/ruby/site_ruby/1.9.1/rbreadline.rb:3873:in `readline_internal_setup'
from C:/Ruby19/lib/ruby/site_ruby/1.9.1/rbreadline.rb:4704:in `readline_internal'
from C:/Ruby19/lib/ruby/site_ruby/1.9.1/rbreadline.rb:4727:in `readline'
from C:/Ruby19/lib/ruby/site_ruby/1.9.1/readline.rb:40:in `readline'
from C:/Ruby19/lib/ruby/1.9.1/irb/input-method.rb:115:in `gets'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:139:in `block (2 levels) in eval_input'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:271:in `signal_status'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:138:in `block in eval_input'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:189:in `call'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:189:in `buf_input'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:103:in `getc'
from C:/Ruby19/lib/ruby/1.9.1/irb/slex.rb:205:in `match_io'
from C:/Ruby19/lib/ruby/1.9.1/irb/slex.rb:75:in `match'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:287:in `token'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:263:in `lex'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:234:in `block (2 levels) in each_top_level_statement'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:230:in `loop'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:230:in `block in each_top_level_statement'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:229:in `catch'
from C:/Ruby19/lib/ruby/1.9.1/irb/ruby-lex.rb:229:in `each_top_level_statement'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:153:in `eval_input'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:70:in `block in start'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:69:in `catch'
from C:/Ruby19/lib/ruby/1.9.1/irb.rb:69:in `start'
from C:/Ruby19/bin/irb:12:in `<main>'
C:\Documents and Settings\a.grimm>
That's because Array is a class.
arr = ["Jason", "Jason", "Teresa", "Judah", "Michelle", "Judah", "Judah", "Allison"]
arr.uniq.inject({}) {|a, e| a.merge({e => arr.count(e)})}
Time elapsed 0.028 milliseconds
interestingly, stupidgeek's implementation benchmarked:
Time elapsed 0.041 milliseconds
and the winning answer:
Time elapsed 0.011 milliseconds
:)
Enumerable#tally. More info here.