Rather than coding this out, I figure I'll pseudo-code it in steps and explain my logic, so that better programmers can poke holes in my logic if necessary.

On the first step we start out with a list of numbers length n. For each number we need to create a list of length n-1 becuase we aren't adding a number to itself. By the end we have a list of about n sorted lists that was generated in O(n^2) time.

step 1 (startinglist) 
for each number num1 in startinglist
   for each number num2 in startinglist
      add num1 plus num2 into templist
   add templist to sumlist
return sumlist 

In step 2 because the lists were sorted by design (add a number to each element in a sorted list and the list will still be sorted) we can simply do a mergesort by merging each list together rather than mergesorting the whole lot. In the end this should take O(n^2) time.

step 2 (sumlist) 
create an empty list mergedlist
for each list templist in sumlist
   set mergelist equal to: merge(mergedlist,templist)
return mergedlist

The merge method would be then the normal merge step with a check to make sure that there are no duplicate sums. I won't write this out because anyone can look up mergesort.

So there's my solution. The entire algorithm is O(n^2) time. Feel free to point out any mistakes or improvements.

No matter what you do, without additional constraints on the input values, you cannot do better than O(n^2), simply because you have to iterate through all pairs of numbers. The iteration will dominate sorting (which you can do in O(n log n) or faster).

You can do this in two lines in python with

allSums = set(a+b for a in X for b in X)
allSums = sorted(allSums)

The cost of this is n^2 (maybe an extra log factor for the set?) for the iteration and s * log(s) for the sorting where s is the size of the set.

The size of the set could be as big as n*(n-1)/2 for example if X = [1,2,4,...,2^n]. So if you want to generate this list it will take at least n^2/2 in the worst case since this is the size of the output.

However if you want to select the first k elements of the result you can do this in O(kn) using a selection algorithm for sorted X+Y matrices by Frederickson and Johnson (see here for gory details). Although this can probably be modified to generate them online by reusing computation and get an efficient generator for this set.

@deuseldorf, Peter There is some confusion about (n!) I seriously doubt deuseldorf meant "n factorial" but simply "n, (very excited)!"

Edit as of 2018: You should probably stop reading this. (But I can't delete it as it is accepted.)

If you write out the sums like this:

1 4  5  6  8  9
---------------
2 5  6  7  9 10
  8  9 10 12 13
    10 11 13 14
       12 14 15
          16 17
             18

You'll notice that since M[i,j] <= M[i,j+1] and M[i,j] <= M[i+1,j], then you only need to examine the top left "corners" and choose the lowest one.

e.g.

• only 1 top left corner, pick 2
• only 1, pick 5
• 6 or 8, pick 6
• 7 or 8, pick 7
• 9 or 8, pick 8
• 9 or 9, pick both :)
• 10 or 10 or 10, pick all
• 12 or 11, pick 11
• 12 or 12, pick both
• 13 or 13, pick both
• 14 or 14, pick both
• 15 or 16, pick 15
• only 1, pick 16
• only 1, pick 17
• only 1, pick 18

Of course, when you have lots of top left corners then this solution devolves.

I'm pretty sure this problem is Ω(n²), because you have to calculate the sums for each M[i,j] -- unless someone has a better algorithm for the summation :)

If you are looking for a truly language agnostic solution then you will be sorely disappointed in my opinion because you'll be stuck with a for loop and some conditionals. However if you opened it up to functional languages or functional language features (I'm looking at you LINQ) then my colleagues here can fill this page with elegant examples in Ruby, Lisp, Erlang, and others.

In SQL:

create table numbers(n int not null)
insert into numbers(n) values(1),(1), (2), (2), (3), (4)


select distinct num1.n+num2.n sum2n
from numbers num1
inner join numbers num2 
    on num1.n<>num2.n
order by sum2n

C# LINQ:

List<int> num = new List<int>{ 1, 1, 2, 2, 3, 4};
var uNum = num.Distinct().ToList();
var sums=(from num1 in uNum
        from num2 in uNum 
        where num1!=num2
        select num1+num2).Distinct();
foreach (var s in sums)
{
    Console.WriteLine(s);
}