trying to resolve a basic problem of algorithm in Ruby, and testing performance.

Just in case, the algorithm aims to find the smallest positive number that is evenly divisible by all of the numbers from 1 to 20. Here's the code :

def remainder(number) # with while
  divisor = 2
  while divisor < 21
    return false unless number % divisor == 0
    divisor += 1

def remainder(number) # with each
  (2..20).each do |divisor|
    return false unless number % divisor == 0

number = 180_000_000
while number < 10_000_000_000
  if remainder number
    puts "#{number}"
  number += 1

On my computer, with while version, Ruby takes around 10 seconds, with each version, it takes between 70 and 80 seconds to resolve. Code does the exact same thing, gives same result. Why such a difference in performance ?

2 Answers 2


It seems the cost is added by:

  1. Creation of enumerator for range object (2..20)
  2. Invocation of block in the each

Here is a benchmark

require 'benchmark'

c = 100_000
Benchmark.bm(7) do |x|
  x.report("range - 1 :") { c.times { (2..20) } }
  x.report("range - 2 :") { c.times { (2..20).each } }
  x.report("range - 3 :") { c.times { (2..20).each { |x| x } } }

Sample output of above is:

              user     system      total        real
range - 1 :  0.000000   0.000000   0.000000 (  0.006004)
range - 2 :  0.031000   0.000000   0.031000 (  0.026017)
range - 3 :  0.125000   0.000000   0.125000 (  0.122081)
[Finished in 0.4s]

As can be seen, creation of Range object is not a problem, but creating an enumerator for it adds time, and passing a block to that iterator and executing some code, adds further cost.

Compared to this, the while loop implementation is doing primitive operations. Hence, is faster.

Please note that for loop will perform as badly as each, as it is more or less equivalent to each implementation

  • 3
    Also worth noting, you are comparing these small-ish costs relative to cost of return false unless number % divisor == 0 which is not much Ruby code at all. It would be wrong to take away the message that in Ruby you should avoid instantiating enumerators on Ranges or using block-based methods to structure your code. It is only in rare situations that you would see a large time difference Sep 17, 2015 at 11:18

each is a method, and it's implemented using while in C using a for loop, which (in C) does the same thing you while loop does. Internally it needs to hold a counter, initialize it to 2 and increment it up to 20 - the same thing your while version needs to do. But the each version also has the overhead of creating a function(the block), sending it to the each method, and calling it on every iteration of the for loop inside the each method's implementation. All this requires extra work from the computer which makes the code slower.

  • 1
    And the each version creates and garbage collects a (2..20) range number times... Sep 17, 2015 at 11:01
  • 1
    #each on a range is implemented with a for loop - ruby-doc.org/core-2.2.3/Range.html#method-i-each
    – Anthony
    Sep 17, 2015 at 11:07
  • @NeilSlater - I thought the same thing but isn't while something; end and while something do; end equivalent?
    – Anthony
    Sep 17, 2015 at 11:20
  • 1
    @Anthony: Not all appearances of do in Ruby code create blocks. The do version of while does not create a block AFAIK, it is just a syntax variation. Sep 17, 2015 at 11:25
  • 1
    @Anthony: Yes, you are correct - a range's each is implemented using a for loop. I'll fix it. However, it's implemented in C using C's for loop - which is syntactic sugar over a while loop - and not using Ruby's for loop, which is actually implemented using the each method.
    – Idan Arye
    Sep 17, 2015 at 12:10

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