# Quick Sort in Ruby language

I am trying to implement Quick sort in ruby but stuck in how to call recursively after the first partition of pivot. Please help me to understand on how to proceed and also let me know whether my style of coding is good so far .

``````class QuickSort
\$array= Array.new()
\$count=0

i=0
while val != '000'.to_i
\$array[i]= val.to_i
i=i+1
val = gets.to_i
end
end

def firstsort_aka_divide(val1,val2,val3) #first partition
\$count = \$count+1
@pivot = val1
@left = val2
@right =val3
while @left!=@right do # first divide/ partition logic

if \$array[@right] > \$array[@pivot] then
@right= @right-1
elsif \$array[@right] < \$array[@pivot] then
@var = \$array[@right]
\$array[@right] = \$array[@pivot]
\$array[@pivot] = @var
@pivot = @right
@left = @left+1
end
if \$array[@left] < \$array[@pivot]
@left= @left+1
elsif \$array[@left] > \$array[@pivot]
@var = \$array[@left]
\$array[@left] = \$array[@pivot]
\$array[@pivot] = @var
@pivot =@left
end

end
puts "\n"                   # printing after the first partition i.e divide
print " Array for for divide ---> #{\$array}"
puts "\n"
puts " pivot,left,right after first divide --> #{@pivot},#{@left},#{@right}"

firstsort_aka_divide()  # Have to call left side of partition recursively -- need help
firstsort_aka_divide()  # Have to call right side of partition recursively -- need help

end
end

ob= QuickSort.new

puts " Enter the numbers you want to sort. \n Press '000' once you are done entering the values"
val = gets.to_i
puts " Sorting your list ..."
sleep(2)
ob.firstsort_aka_divide(0,0,(\$array.size-1)) # base condition for partitioning
``````
• DO NOT USE GLOBAL VARIABLES! It kills the whole purpose of the class. – BroiSatse Jan 27 '14 at 1:39
• Oh, thank you ill take care of it. Can you suggest me how to call the process recursively ?..im stuck – user3358898 Jan 27 '14 at 1:41
• Have you implemented QuickSort in other language? – rendon Jan 27 '14 at 1:45
• nope.. i have seen a tutorial on its working and coding as per my understanding. – user3358898 Jan 27 '14 at 1:46
• Ok,then we need to focus primarily in the algorithm rather than the language. – rendon Jan 27 '14 at 1:47

Here is a (very) naive quicksort implementation, based on Wikipedia's simple-quicksort pseudocode:

``````def quicksort(array) #takes an array of integers as an argument
``````

You need a base case, otherwise your recursive calls never terminate

``````if array.length <= 1
return array
``````

Now pick a pivot:

``````else
pivot = array.sample
array.delete_at(array.index(pivot)) # remove the pivot
#puts "Picked pivot of: #{pivot}"
less = []
greater = []
``````

Loop through the array, comparing items to pivot and collecting them into `less` and `greater` arrays.

``````  array.each do |x|
if x <= pivot
less << x
else
greater << x
end
end
``````

Now, recursively call `quicksort()` on your `less` and `greater` arrays.

``````  sorted_array = []
sorted_array << self.quicksort(less)
sorted_array << pivot
sorted_array << self.quicksort(greater)
``````

Return the `sorted_array` and you're done.

``````  # using Array.flatten to remove subarrays
sorted_array.flatten!
``````

You can test it with

``````qs = QuickSort.new

puts qs.quicksort([1, 2, 3, 4, 5]) == [1, 2, 3, 4, 5] # true
puts qs.quicksort([5]) == [5] # true
puts qs.quicksort([5, -5, 11, 0, 3]) == [-5, 0, 3, 5, 11] # true
puts qs.quicksort([5, -5, 11, 0, 3]) == [5, -5, 11, 0, 3] # false
``````
• Sure, ill go through this. Can you let me know how is my code so far ? i mean to say the logic or the style of programming ? As i am a newbie i want to get some suggestions to improve. – user3358898 Jan 27 '14 at 3:00
• @rahulinsane There's some good links / resources at the ruby tag. I'd start there. Reading & contributing to other people's code is a good way to learn too. – user2062950 Jan 27 '14 at 5:10
• It's worth noting that this base case will not work if you have any repeated elements. For example, if you have `[7, 4,4]`, and the pivot is 4, then you'll always end up with your `less` array having 2 elements (`[4,4]`). So to handle such cases, the base case should be `array.length <= 1 || array.uniq.count == 1` – bwest87 Jun 30 at 2:20
• no need to use sorted_array, you can just return `quicksort(less) + [pivot] + quicksort(greater)` – Grid Vost Nov 24 at 15:47

This is how I would implement quick sort in Ruby:

``````def quicksort(*ary)
return [] if ary.empty?

pivot = ary.delete_at(rand(ary.size))
left, right = ary.partition(&pivot.method(:>))

return *quicksort(*left), pivot, *quicksort(*right)
end
``````

Actually, I would probably make it an instance method of `Array` instead:

``````class Array
def quicksort
return [] if empty?

pivot = delete_at(rand(size))
left, right = partition(&pivot.method(:>))

return *left.quicksort, pivot, *right.quicksort
end
end
``````
• Is it possible for you to analyse my code and tell where i am going wrong ? – user3358898 Feb 6 '14 at 20:42
• `pivot = ary.delete_at(rand(ary.size))` it's possible to select nil pivot there. Also you have extra method call for each `array.size = 1` – ryaz Apr 27 '14 at 12:35
• @ryaz: Yes, you can select `nil` as a pivot, if the `Array` contains `nil` elements. It's up to the caller to ensure that the elements of the `Array` are `Comparable`, I don't think it's the responsibility of the sorting method to check that. – Jörg W Mittag Apr 27 '14 at 13:52
• @JörgWMittag What about extra method call if, for example, `left.size = 1` ? – ryaz Apr 28 '14 at 14:28
• this is, imo, really beautiful code -- very like the haskell version. but i think it suffers the same issue. `partition` is creating new arrays, so technically we're not really sorting in place anymore, are we? wouldn't we need a `partition!` method? – Alex Moore-Niemi Oct 25 '16 at 19:35

here is another way to implement quicksort -- as a newbie I think it's easier to understand -- hope it helps someone :) in this implementation the pivot is always the last element in the array -- I'm following the Khan Academy course and that's where I got the inspiration from

``````def quick_sort(array, beg_index, end_index)
if beg_index < end_index
pivot_index = partition(array, beg_index, end_index)
quick_sort(array, beg_index, pivot_index -1)
quick_sort(array, pivot_index + 1, end_index)
end
array
end

#returns an index of where the pivot ends up
def partition(array, beg_index, end_index)
#current_index starts the subarray with larger numbers than the pivot
current_index = beg_index
i = beg_index
while i < end_index do
if array[i] <= array[end_index]
swap(array, i, current_index)
current_index += 1
end
i += 1
end
#after this swap all of the elements before the pivot will be smaller and
#after the pivot larger
swap(array, end_index, current_index)
current_index
end

def swap(array, first_element, second_element)
temp = array[first_element]
array[first_element] = array[second_element]
array[second_element] = temp
end

puts quick_sort([2,3,1,5],0,3).inspect #will return [1, 2, 3, 5]
``````