I need help to find an algorithm that finds:
 four elements in array
 whose sum equal to a given number X
 in O(n^2*log(n))
prefer in pseudocode or c,c++
closed as offtopic by AAA, Joshua Taylor, Antti Haapala, Jonathan Potter, MagicalPhoenixϡ Aug 12 '13 at 4:43This question appears to be offtopic. The users who voted to close gave this specific reason:


You can do it in O(n^2). Works fine with duplicated and negative numbers. edit as Andre noted in comment, time is with use of hash, which has 'worst case' (although it's less likely than winning in a lottery). But you can also replace hashtable with balanced tree (TreeMap in java) and get guaranteed stable O(n^2 * log(n)) solution. Hashtable
Let's say, 


Like a few other posters, it can be done with a hash in O(n^2)



1) Create an array of all possible pair sums [O(N^2)] 2) Sort this array in ascending order [O(N^2 * Log N)] 3) Now this problem reduces to finding 2 numbers in a sorted array that sum to a given number X, in linear time. Use 2 pointers: a LOW pointer starting from the lowest value, and a HIGH pointer starting from the highest value. If the sum is too low, advance LOW. If the sum is too high, advance HIGH (backwards). Eventually they will find that pair or cross each other (this can be easily proven). This process takes linear time in the size of the array, i.e. O(N ^ 2) This gives a total time of O(N^2 * log N) as required. NOTE : This method can be generalized for solving the case of M numbers in O(M * N^(M/2) * log N) time.  EDIT  Actually my response is very similar to Dummy00001's response, except the final lookup, where I use a faster method (though the overall complexity is the same...) 


Abusing the fact that no memory constrain is specified. And using the usual divide and conquer approach. Number of all permutations for 4 number subsets is C(n,4) and is O(n^4). Number of all permutations for 2 numbers is C(n,2) and is O(n^2). O(n^2) seems to be OK for the task.
Performance is: O( n^2 + n^2*log(n^2) + n^2*log(n^2) ) = O( n^2 * log(n^2) ) = O( n^2 * log(n) ) On step four, when we iterate over the multiple matching elements of 


A working Java solution of the algo. provided by Nikita Rybak above..



Sounds like homework to me. But here's what I'd do. First sort the numbers (there's your n*log(n)). Now, create pointers to the list, initialize it with the first 4 numbers. Once you have that, you check the sum of your 4 current numbers with the total. It should be less than or equal to your search sum (if it's not, you can quit early). Now all you need to do is traverse rest of your list alternately replacing your pointers with the current value in the list. This only need to happen once (or really at worst 4 times) so there's your other n, which makes n^2*log(n) You'll need to keep track of some logic to know if you're over/under your sum and what to do next, but I leave that as your homework assignment. 


I'm not going to answer your question completely, since I think it is homework and also think that this is easily done. But I do think that I know why you are having difficulty with an answer, so I will help you out a little bit. Firstly, you should look into recursion. That means calling a function from within itself. Second, you should use a helper function, which is called by the function you want to write. This function should take as arguments:  an array of numbers  the length of the array  the value you want find members that sum up to  the number of members of the array that you want to sum up This function will be called by your other function and passed a 4 for the last argument. It will then call itself adjusting the arguments as it tries to find results by partial trial and error. edit 2Upon further thought I realized that this not O(n^2), as I claimed earlier (I mentally glossed over the the middle steps). It is limited by n^4, but may have a lower limit than that due to ample opportunity to short cut in many cases. I do not believe that this short cutting improves it to the point of n^2, though. 


find four elements in array whose sum equal to a given number X



I have written an O(N^^2) running time function which does not use hashtables but handles negative numbers and duplicate numbers apparently OK. I handle negative numbers in an integer array by adding an large postive number(e.g. 100) to all the integers in the array. Then, I adjust the target by



This problem can be reduced to finding all combinations of length 4. For each combination thus obtained, sum the elements and check if it is equal to X. 


This problem can be taken as a variation of pascals identity, here is the complete code : please excuse as the code is in java :
} Sample input :
Output : :



array
, itslength
, and avalue
and return a set of 4 members of thearray
whose sum isvalue
? Do you want it to return the set of all possible sets of 4 members whose sum isvalue
? What if there is none found? – nategoose Aug 25 '10 at 19:53