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Given an array A of integers, find any 3 of them that sum to any given T.

I saw this on some online post, which claims it has a O(NlogN) solution.

For 2 numbers, I know hashtable could help for O(N), but for 3 numbers, I cannot find one.

I also feel this problem sounds familar to some hard problems, but cannot recall the name and therefore cannot google for it. (While the worst is obviously O(N^3), and with the solution to 2 numbers it is really O(N^2) )

It does not really solve anything in the real world, just bugs me..

Any idea?

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Many other similar posts on the right.… – user113476 Dec 7 '09 at 17:36
This is similar to Subset Sum Problem, which is NP-Complete. But limiting the subset length to 3, it might be possible to find a fast solution. – Erkan Haspulat Dec 7 '09 at 17:39
One hard (NP complete) problem that has similarities to this one is called the . Of course the constraint here that you pick only 3 integers make it at worst O(n^3), so it's not exactly the same. – Pascal Cuoq Dec 7 '09 at 17:39

6 Answers 6

up vote 9 down vote accepted

I think your problem is equivalent to the 3SUM problem.

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Thanks Nick, and guys for the answers. I am constantly bugged by this kind of questions, where a logic sounds familar but there is no answer by string matching based searches. Would open another thread on it. – Dr. Xray Dec 7 '09 at 18:11

    for i=0 to n-3 do

        a = S[i];
        start = i+1;

        end = n-1;

        while (start < end) do

           b = S[start];
           c = S[end];
           if (a+b+c == 0) then
              output a, b, c;
              // Continue search for all triplet combinations summing to zero.
               start = start + 1
               end = end - 1

           else if (a+b+c > 0) then
              end = end - 1;
              start = start + 1;
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For three sum problem, you cannot find a solution better than O(n^2). You can refer to

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Not sure what used to be on that page, but it's not relevant now. And that's why you quote things. – Zachary Vance Apr 25 at 6:38

2SUM problem can be solved in O(nlgn) time.

First sort the array which takes at most O(nlgn) operations. Now at ith iteration we picked the element a[i] and find the the element -a[i] in the remaining part of the array (i.e from i+1 to n-1) and this search could be conducted in binary search which takes at most lgn time. So overall it will take O(nlgn) operations.

But 3SUM problem cant be solved in O(nlgn) time . We could reduce it to O(n^2)

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I think this is just the subset sum problem

If so, it is NP-Complete.

EDIT: Never mind, it is 3sum, as stated in another answer.

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There are less than n^3 ways to pick 3 numbers among n, so it can hardly be NP-complete. The trivial brute-force algorithm is O(n^3). – Pascal Cuoq Dec 7 '09 at 17:41
yup. the subset problem is NP, but this is not the subset problem. the subset problem doesn't specify how many numbers will be added together, while this problem restricts it to exactly 3. – Peter Recore Dec 7 '09 at 18:46

Sounds like a homework question...

If you can find two values that sum to N but you want to extend the search to three values, couldn't you, for each value M in the set, look for two values that sum to (N - M)? If you can find two values that sum to a specific value in O(log N) time, then that will be O(N log N).

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How are you going to find two numbers that sum to a specific value in log(N) time? – Peter Recore Dec 7 '09 at 17:43
Good question, I don't know. I didn't say it was possible, only that you would need to be able to do it in order solve the problem in the particular way that I described. – Tim Sylvester Dec 7 '09 at 17:54

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