For example: int A[] = {3,2,1,2,3,2,1,3,1,2,3};
How to sort this array efficiently?
This is for a job interview, I need just a pseudocode.
For example: How to sort this array efficiently? This is for a job interview, I need just a pseudocode. 


Problem description: You have n buckets, each bucket contain one coin , the value of the coin can be 5 or 10 or 20. you have to sort the buckets under this limitation: 1. you can use this 2 functions only: SwitchBaskets (Basket1, Basket2) – switch 2 baskets GetCoinValue (Basket1) – return Coin Value in selected basket 2. you cant define array of size n 3. use the switch function as little as possible. My simple pseudocode solution, which can be implemented in any language with O(n) complexity. I will pick coin from basket 1) if it is 5  push it to be the first, 2)if it is 20 push it to be the last, 3)If 10  leave it where it is. 4) and look at the next bucket in line. Edit: if you can't push elements to the first or last position then Merge sort would be ideally for piratical implementation. Here is how it will work: Merge sort takes advantage of the ease of merging already sorted lists into a new sorted list. It starts by comparing every two elements (i.e., 1 with 2, then 3 with 4...) and swapping them if the first should come after the second. It then merges each of the resulting lists of two into lists of four, then merges those lists of four, and so on; until at last two lists are merged into the final sorted list. Of the algorithms described here, this is the first that scales well to very large lists, because its worstcase running time is O(n log n). Merge sort has seen a relatively recent surge in popularity for practical implementations, being used for the standard sort routine in the programming languages 


The promising way how to sort it seems to be the counting sort. Worth to have a look at this lecture by Richard Buckland, especially the part from 15:20. Analogically to the counting sort, but even better would be to create an array representing the domain, initialize all its elements to 0 and then iterate through your array and count these values. Once you know those counts of domain values, you can rewrite values of your array accordingly. Complexity of such an algorithm would be O(n). Here's the C++ code with the behaviour as I described it. Its complexity is actually O(2n) though:
Note, that if there is big difference between domain values, storing domain as an array is inefficient. In that case it is much better idea to use map (thanks abhinav for pointing it out). Here's the C++ code that uses
(if there is a way how to use 


count each number and then create new array based on their counts...time complexity in O(n)



Its a standard problem in computer science : Dutch national flag problem See the link. 


I think the question is intending for you to use bucket sort. In cases where there are a small number of values bucket sort can be much faster than the more commonly used quicksort or mergesort. 


As robert mentioned basketsort (or bucketsort) is the best in this situation. I would also added next algorithm (it's actually very similar to busket sort): [pseudocode is javastyle] Create a



Have you tried to look at wiki for example?  http://en.wikipedia.org/wiki/Sorting_algorithm 


This code is for c#: However, you have to consider the algorithms to implement it in a nonlanguage/framework specific way. As suggested Bucket set might be the efficient one to go with. If you provide detailed information on problem, i would try to look at best solution. Good Luck... Here is a code sample in C# .NET



I think I understasnd the question  you can use only O(1) space, and you can change the array only by swapping cells. (So you can use 2 operations on the array  swap and get) My solution: Use 2 index pointers  one for the position of the last 1, and one for the position of the last 2. In stage i, you assume that the array is allready sorted from 1 to i1, than you check the ith cell: If A[i] == 3 you do nothing. If A[i] == 2 you swap it with the cell after the last 2 index. If A[i] == 1 you swap it with the cell after the last 2 index, and than swap the cell after the last 2 index (that contains 1) with the cell after the last 1 index. This is the main idea, you need to take care of the little details. Overall O(n) complexity. 


Just for fun, here's how you would implement "pushing values to the far edge", as ElYusubub suggested:
This could actually be an optimal solution. I'm not sure. 


Here is the groovy solution, based on @ElYusubov but instead of pushing Bucket(5) to beginning & Bucket(15) to end. Use sifting so that 5's move toward beginning and 15 towards end. Whenever we swap a bucket from end to current position, we decrement end, do not increment current counter as we need to check for the element again.



Lets break the problem we have just two numbers in array . [1,2,1,2,2,2,1,1] We can sort in one pass o(n) with minm swaps if; We start two pointers from left and right until they meet each other. Swapping left element with right if left element is bigger. (sort ascending) We can do another pass, for three numbers (k1 passes). In pass one we moved 1's to their final position and in pass 2 we moved 2's.



This can be done very easily using>
instead of using 1,2,3 take it as 0,1,2 







