Notes: I've thought about Radix sort, bucket sort, counting sort.
Is there anyway to achieve big O(n)?

You can use counting sort.
In this case k is 100 and n is 1000000. 


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


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


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 socalled counting sort is simply a special case of bucket sort. 


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


For anyone interested, I quickly threw together this piece of Ruby, before reading the answers:
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 And it really is pretty darn fast, although unfortunately I have not been able to beat the builtin handoptimized O(n log n) sort, which is written in C in MRI and YARV and Java in JRuby. 


Here is a counting sort in scala:



Using Radix Sort (In Ruby):


