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Notes: I've thought about Radix sort, bucket sort, counting sort.

Is there anyway to achieve big O(n)?

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It is not possible in general to sort a list in O(n), even if every number in the list is less than 100. –  SLaks Jul 22 '10 at 16:28
@SLaks: The minimum of O(N lgN) applies only to sorts based on comparisons. –  Jerry Coffin Jul 22 '10 at 16:29
in this case you can, by simply counting elements between 1 and 100. –  Alexandre C. Jul 22 '10 at 16:30
I do think that radix sort can achieve O(n) –  Rambo Jul 23 '10 at 14:36

8 Answers 8

up vote 56 down vote accepted

You can use counting sort.

Counting sort (sometimes referred to as ultra sort or math sort) is a sorting algorithm which (like bucket sort) takes advantage of knowing the range of the numbers in the array to be sorted (array A).

Counting sort is a stable sort and has a running time of Θ(n+k), where n and k are the lengths of the arrays A (the input array) and C (the counting array), respectively. In order for this algorithm to be efficient, k must not be much larger than n.

In this case k is 100 and n is 1000000.

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+1 Blindingly obvious, but had never seen it before. Thanks. –  Neil Moss Jul 22 '10 at 16:40
I want to upvote, but currently it's at 42 and I really want it to stay there. This is the biggest dilemma I've faced today. –  emilySmitley Mar 31 '14 at 6:17

A counting sort would be the obvious choice under these circumstances. Yes, properly implemented it should have linear complexity.

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how about just counting the occurrence of each integer and then printing them all. sounds like O(n)

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Yes, and that's exactly counting sort. This shows that most algorithms aren't hard; you can come up with them yourself. :-) –  ShreevatsaR Jul 22 '10 at 16:47
counting sort is a bit more complex than that (it sorts the keys, but can handle associacted data), but yes, that's the basic idea –  Karoly Horvath Mar 12 '13 at 22:51

I assume, you mean you want to achieve a small O(n); then bucket sort would be fastest. In fact, since you know the range of the integers, then using bucket sort simply becomes a problem of counting the occurrences of the numbers which can be done in O(n), i.e. linear time.

The so-called counting sort is simply a special case of bucket sort.

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No, counting sort is not a special case of bucket sort. In bucket sort you actually store the elements in the buckets. In counting sort you only store the count. –  Karoly Horvath Mar 12 '13 at 22:53

With counting sort you get O(N) if the range is fixed and small (like 1..100 :))

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For anyone interested, I quickly threw together this piece of Ruby, before reading the answers:

module Enumerable
  def counting_sort(k)
    reduce(Array.new(k+1, 0)) {|counting, n| counting.tap { counting[n] += 1 }}.
    map.with_index {|count, n| [n] * count }.flatten

ary = Array.new(1_000_000){ rand(100) + 1 }
ary.counting_sort(100) # I'll spare you the output :-)

I didn't even know it had a name. It should convey the idea even to someone who has never seen Ruby before. (The only thing you need to know is that the K combinator is spelled tap in Ruby.)

And it really is pretty darn fast, although unfortunately I have not been able to beat the builtin hand-optimized O(n log n) sort, which is written in C in MRI and YARV and Java in JRuby.

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Here is a counting sort in scala:

val res = Array.fill (100)(0)
val r = util.Random 
// generate data to sort
val nums = for (i <- 1 to 1000*1000) yield r.nextInt (100)
for (i <- nums) res(i) += 1
println (res.mkString (" ")) 
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Using Radix Sort (In Ruby):

def sort(array)
sorted_array = Array.new(100,[])
array.each do |t|
sorted_array[t-1] = sorted_array[t-1] + [t]
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