# Find a pair of elements from an array whose sum equals a given number

Given array of n integers and given a number X, find all the unique pairs of elemens (a,b), whose summation is equal to X.

The following is my solution, it is O(nLog(n)+n), but I am not sure whether or not it is optimal. Thanks for comments.

``````int main(void)
{
int arr [10] = {1,2,3,4,5,6,7,8,9,0};
findpair(arr, 10, 7);
}
void findpair(int arr[], int len, int sum)
{
std::sort(arr, arr+len);
int i = 0;
int j = len -1;
while( i < j){
while((arr[i] + arr[j]) <= sum && i < j)
{
if((arr[i] + arr[j]) == sum)
cout << "(" << arr[i] << "," << arr[j] << ")" << endl;
i++;
}
j--;
while((arr[i] + arr[j]) >= sum && i < j)
{
if((arr[i] + arr[j]) == sum)
cout << "(" << arr[i] << "," << arr[j] << ")" << endl;
j--;
}
}
}
``````
-
An O(n) solution is possible if you chuck everything into an O(1) set of some kind instead of sorting the array. – Anon. Jan 18 '11 at 3:46
@Anon Can u tell more details, how to build such a set? – Gin Jan 18 '11 at 3:57
Use hashes. Most languages will have an amortized O(1) HashSet somewhere in their standard libraries. – Anon. Jan 18 '11 at 3:59
A minor nit - O(nLog(n)+n) is O(nLog(n)). Big O notation retains only the dominant term and drops all lower order terms. – pjs Jun 1 '13 at 14:40
Note short circuit evaluation and off-by-one addressing: `while((arr[i] + arr[j]) <= sum && i < j)` should be `while( i < J && arr[i] + arr[j] <= sum )`. (similar for the second subloop) – wildplasser Aug 10 '13 at 12:40

``````# Let arr be the given array.
# And K be the give sum

for i=0 to arr.length - 1 do
hash(arr[i]) = i  // key is the element and value is its index.
end-for

for i=0 to arr.length - 1 do
if hash(K - arr[i]) != i  // if K - ele exists and is different we found a pair
print "pair i , hash(K - arr[i]) has sum K"
end-if
end-for
``````
-
You could even do it in one iteration through the array, by putting your if statement from the second loop, right after the hash assignment in the first loop. – Alexander Kondratskiy Jan 18 '11 at 16:06
Minor note: This (as well as Alexander's suggestion) will double-print some pairs, whether uniqueness of a pair is determined by index (as could be implied from this answer) or by value (as it seems in the OP). There could be quite a few (O(n^2)) unique pairs by index, e.g. `arr=[1,2,1,2,1,2,1,...]`. For uniqueness by value, it seems like another hash table keyed by a value-pair would do the trick. Still a nice, compact, elegant answer. +1 – billisphere Feb 10 '11 at 18:49
@codaddict But what if array is very large ? I mean the range of values in it is very large ? So, the hash solution will be less practical then. Any alternate and optimal method for the same ? – Prashant Singh Oct 22 '12 at 15:14
What if there are duplicates? – zad Sep 11 '13 at 17:08
one question, array in php are already implemented in hash tables. Is it necessary to do that? I guess a simple in_array would work with the same complexity. – David 天宇 Wong May 10 '14 at 13:26

There are 3 approaches to this solution:

Let the sum be T and n be the size of array

Approach 1:
The naive way to do this would be to check all combinations (n choose 2). This exhaustive search is O(n2).

Approach 2:
A better way would be to sort the array. This takes O(n log n)
Then for each x in array A, use binary search to look for T-x. This will take O(nlogn).
So, overall search is  O(n log n)

Approach 3 :
The best way would be to insert every element into a hash table (without sorting). This takes O(n) as constant time insertion.
Then for every x, we can just look up its complement, T-x, which is O(1).
Overall the run time of this approach is O(n).

You can refer more here.Thanks.

-
How would you create hash table for the elements of the array? – Satish Patel Dec 19 '13 at 16:13
Refer the link I have shared. We can have a parallel array to store the element as the index, or you can add the elements to the hashtable and use contains on them. Sorry for such a late reply. – kinshuk4 Mar 23 '14 at 22:55
You might get a false positive if there is an element that is exactly half the target sum. – Florian F Sep 25 '14 at 15:43
handling duplicates can be done... here is a detailed discussion about the problem techieme.in/find-pair-of-numbers-in-array-with-a-given-sum – dharam Apr 5 '15 at 21:05

Implementation in Java : Using codaddict's algorithm (Maybe slightly different)

``````import java.util.HashMap;

public class ArrayPairSum {

public static void main(String[] args) {

int []a = {2,45,7,3,5,1,8,9};
printSumPairs(a,10);

}

public static void printSumPairs(int []input, int k){
Map<Integer, Integer> pairs = new HashMap<Integer, Integer>();

for(int i=0;i<input.length;i++){

if(pairs.containsKey(input[i]))
System.out.println(input[i] +", "+ pairs.get(input[i]));
else
pairs.put(k-input[i], input[i]);
}

}
}
``````

For input = `{2,45,7,3,5,1,8,9}` and if Sum is `10`

Output pairs:

``````3,7
8,2
9,1
``````

Some notes about the solution :

• We iterate only once through the array --> O(n) time
• Insertion and lookup time in Hash is O(1).
• Overall time is O(n), although it uses extra space in terms of hash.
-
Good answer but little tricky to understand. – shridutt kothari Sep 9 '14 at 13:14
This is good ONLY if the input array has not duplicates. – Naren Mar 6 '15 at 22:10
@Naren: It makes no difference even if there are duplicates in the given array – abhishek08aug Mar 12 '15 at 16:42
agreed its tricky.... here is a detailed discussion about the problem and the explanation of the above approach . techieme.in/find-pair-of-numbers-in-array-with-a-given-sum – dharam Apr 5 '15 at 21:08
The above link has hashmap related explanation as a naive approach which looks different from the solution explained above. Can anyone explain above solution? – John Oct 22 '15 at 6:28

Solution in java. You can add all the String elements to an ArrayList of strings and return the list. Here I am just printing it out.

``````void numberPairsForSum(int[] array, int sum) {
HashSet<Integer> set = new HashSet<Integer>();
for (int num : array) {
if (set.contains(sum - num)) {
String s = num + ", " + (sum - num) + " add up to " + sum;
System.out.println(s);
}
}
}
``````
-

Python Implementation:

``````import itertools
list = [1, 1, 2, 3, 4, 5,]
uniquelist = set(list)
targetsum = 5
for n in itertools.combinations(uniquelist, 2):
if n[0] + n[1] == targetsum:
print str(n[0]) + " + " + str(n[1])
``````

Output:

``````1 + 4
2 + 3
``````
-
look in ... will be overhead for searching element – Nikhil Rupanawar Jun 10 '14 at 18:27

Here is a solution witch takes into account duplicate entries. It is written in javascript and assumes array is sorted. The solution runs in O(n) time and does not use any extra memory aside from variable.

``````var count_pairs = function(_arr,x) {
if(!x) x = 0;
var pairs = 0;
var i = 0;
var k = _arr.length-1;
if((k+1)<2) return pairs;
var halfX = x/2;
while(i<k) {
var curK = _arr[k];
var curI = _arr[i];
var pairsThisLoop = 0;
if(curK+curI==x) {
// if midpoint and equal find combinations
if(curK==curI) {
var comb = 1;
while(--k>=i) pairs+=(comb++);
break;
}
// count pair and k duplicates
pairsThisLoop++;
while(_arr[--k]==curK) pairsThisLoop++;
// add k side pairs to running total for every i side pair found
pairs+=pairsThisLoop;
while(_arr[++i]==curI) pairs+=pairsThisLoop;
} else {
// if we are at a mid point
if(curK==curI) break;
var distK = Math.abs(halfX-curK);
var distI = Math.abs(halfX-curI);
if(distI > distK) while(_arr[++i]==curI);
else while(_arr[--k]==curK);
}
}
return pairs;
}
``````

I solved this during an interview for a large corporation. They took it but not me. So here it is for everyone.

Start at both side of the array and slowly work your way inwards making sure to count duplicates if they exist.

It only counts pairs but can be reworked to

• find the pairs
• find pairs < x
• find pairs > x

Enjoy!

-
What these lines do?: `if(distI > distK) while(_arr[++i]==curI); else while(_arr[--k]==curK);` – Yuriy Chernyshov Jan 19 '14 at 18:36
These lines skip through duplicate values from either side and counts them as pairs if they are part of a pair sum = N – dRoneBrain Mar 14 '14 at 18:31

I can do it in O(n). Let me know when you want the answer. Note it involves simply traversing the array once with no sorting, etc... I should mention too that it exploits commutativity of addition and doesn't use hashes but wastes memory.

using System; using System.Collections.Generic;

/* An O(n) approach exists by using a lookup table. The approach is to store the value in a "bin" that can easily be looked up(e.g., O(1)) if it is a candidate for an appropriate sum.

e.g.,

for each a[k] in the array we simply put the it in another array at the location x - a[k].

Suppose we have [0, 1, 5, 3, 6, 9, 8, 7] and x = 9

We create a new array,

indexes value

``````9 - 0 = 9     0
9 - 1 = 8     1
9 - 5 = 4     5
9 - 3 = 6     3
9 - 6 = 3     6
9 - 9 = 0     9
9 - 8 = 1     8
9 - 7 = 2     7
``````

THEN the only values that matter are the ones who have an index into the new table.

So, say when we reach 9 we see if our new array has the index 9 - 9 = 0. Since it does we know that all the values it contains will add to 9. (note in this cause it's obvious there is only 1 possible one but it might have multiple index values in it which we need to store).

So effectively what we end up doing is only having to move through the array once. Because addition is commutative we will end up with all the possible results.

For example, when we get to 6 we get the index into our new table as 9 - 6 = 3. Since the table contains that index value we know the values.

This is essentially trading off speed for memory. */

``````namespace sum
{
class Program
{
static void Main(string[] args)
{
int num = 25;
int X = 10;
var arr = new List<int>();
for(int i = 0; i < num; i++) arr.Add((new Random((int)(DateTime.Now.Ticks + i*num))).Next(0, num*2));
Console.Write("["); for (int i = 0; i < num - 1; i++) Console.Write(arr[i] + ", "); Console.WriteLine(arr[arr.Count-1] + "] - " + X);
var arrbrute = new List<Tuple<int,int>>();
var arrfast = new List<Tuple<int,int>>();

for(int i = 0; i < num; i++)
for(int j = i+1; j < num; j++)
if (arr[i] + arr[j] == X)

int M = 500;
var lookup = new List<List<int>>();
for(int i = 0; i < 1000; i++) lookup.Add(new List<int>());
for(int i = 0; i < num; i++)
{
// Check and see if we have any "matches"
if (lookup[M + X - arr[i]].Count != 0)
{
foreach(var j in lookup[M + X - arr[i]])
}

}

for(int i = 0; i < arrbrute.Count; i++)
Console.WriteLine(arrbrute[i].Item1 + " + " + arrbrute[i].Item2 + " = " + X);
Console.WriteLine("---------");
for(int i = 0; i < arrfast.Count; i++)
Console.WriteLine(arrfast[i].Item1 + " + " + arrfast[i].Item2 + " = " + X);

}
}
}
``````
-
Basically to avoid hashes we have to create a table that can accept random insertions at somewhat arbitrary indices. Hence I use M to make sure that there is enough elements and pre-allocate a contiguous set even though most will not be used. A hash set would take care of this directly. – AbstractDissonance Jan 18 '11 at 4:41
So, you're using a hash set with a simple hash function and size greater than the max value of your hash function? – Chris Hopman Jan 18 '11 at 5:59
Also may as well use the identity function for your hash function at this point. That is, put a[k] at the a[k]-th "bin". – Chris Hopman Jan 18 '11 at 6:02
Because a[k] and X - a[k] are used an indices and I'm using an array, it means that the minimum index cannot be 0. Hence I simply add a very large number to shift them up. If one could make a hash function that worked for arbitrary values then they could use a simple list without having to do this shifting. The shifting + preallocation helps avoid having to create a hash(or it could be thought of a very simple(and fast) hash). – AbstractDissonance Jan 19 '11 at 22:40

This prints the pairs and avoids duplicates using bitwise manipulation.

``````public static void findSumHashMap(int[] arr, int key) {
Map<Integer, Integer> valMap = new HashMap<Integer, Integer>();
for(int i=0;i<arr.length;i++)
valMap.put(arr[i], i);

int indicesVisited = 0;
for(int i=0;i<arr.length;i++) {
if(valMap.containsKey(key - arr[i]) && valMap.get(key - arr[i]) != i) {
if(!((indicesVisited & ((1<<i) | (1<<valMap.get(key - arr[i])))) > 0)) {
int diff = key-arr[i];
System.out.println(arr[i] + " " +diff);
indicesVisited = indicesVisited | (1<<i) | (1<<valMap.get(key - arr[i]));
}
}
}
}
``````
-

I bypassed the bit manuplation and just compared the index values. This is less than the loop iteration value (i in this case). This will not print the duplicate pairs and duplicate array elements also.

``````public static void findSumHashMap(int[] arr, int key) {
Map<Integer, Integer> valMap = new HashMap<Integer, Integer>();
for (int i = 0; i < arr.length; i++) {
valMap.put(arr[i], i);
}
for (int i = 0; i < arr.length; i++) {
if (valMap.containsKey(key - arr[i])
&& valMap.get(key - arr[i]) != i) {
if (valMap.get(key - arr[i]) < i) {
int diff = key - arr[i];
System.out.println(arr[i] + " " + diff);
}
}
}
}
``````
-

in C#:

``````        int[] array = new int[] { 1, 5, 7, 2, 9, 8, 4, 3, 6 }; // given array
int sum = 10; // given sum
for (int i = 0; i <= array.Count() - 1; i++)
if (array.Contains(sum - array[i]))
Console.WriteLine("{0}, {1}", array[i], sum - array[i]);
``````
-
this answer would be more useful if you describe the order of growth of your solution – Thomas Jun 1 '13 at 9:32

this is the implementation of O(n*lg n) using binary search implementation inside a loop.

``````#include <iostream>

using namespace std;

bool *inMemory;

int pairSum(int arr[], int n, int k)
{
int count = 0;

if(n==0)
return count;
for (int i = 0; i < n; ++i)
{
int start = 0;
int end = n-1;
while(start <= end)
{
int mid = start + (end-start)/2;
if(i == mid)
break;
else if((arr[i] + arr[mid]) == k && !inMemory[i] && !inMemory[mid])
{
count++;
inMemory[i] = true;
inMemory[mid] = true;
}
else if(arr[i] + arr[mid] >= k)
{
end = mid-1;
}
else
start = mid+1;
}
}
return count;
}

int main()
{
int arr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
inMemory = new bool[10];
for (int i = 0; i < 10; ++i)
{
inMemory[i] = false;
}
cout << pairSum(arr, 10, 11) << endl;
return 0;
}
``````
-

In python

``````arr = [1, 2, 4, 6, 10]
diff_hash = {}
expected_sum = 3
for i in arr:
if diff_hash.has_key(i):
print i, diff_hash[i]
key = expected_sum - i
diff_hash[key] = i
``````
-

One Solution can be this, but not optimul (The complexity of this code is O(n^2)):

``````public class FindPairsEqualToSum {

private static int inputSum = 0;

public static List<String> findPairsForSum(int[] inputArray, int sum) {
List<String> list = new ArrayList<String>();
List<Integer> inputList = new ArrayList<Integer>();
for (int i : inputArray) {
}
for (int i : inputArray) {
int tempInt = sum - i;
if (inputList.contains(tempInt)) {
String pair = String.valueOf(i + ", " + tempInt);
}
}
return list;
}
}
``````
-

A simple python version of the code that find a pair sum of zero and can be modify to find k:

``````def sumToK(lst):
k = 0  # <- define the k here
d = {} # build a dictionary

# build the hashmap key = val of lst, value = i
for index, val in enumerate(lst):
d[val] = index

# find the key; if a key is in the dict, and not the same index as the current key
for i, val in enumerate(lst):
if (k-val) in d and d[k-val] != i:
return True

return False
``````

The run time complexity of the function is O(n) and Space: O(n) as well.

-

Nice solution from Codeaddict. I took the liberty of implementing a version of it in Ruby:

``````def find_sum(arr,sum)
result ={}
h = Hash[arr.map {|i| [i,i]}]
arr.each { |l| result[l] = sum-l  if h[sum-l] && !result[sum-l]  }
result
end
``````

To allow duplicate pairs (1,5), (5,1) we just have to remove the `&& !result[sum-l]` instruction

-
find_sum([50], 100) – fbernier May 28 '15 at 20:41

Here is Java code for three approaches:
1. Using Map O(n), HashSet can also be used here.
2. Sort array and then use BinarySearch to look for complement O(nLog(n))
3. Traditional BruteForce two loops O(n^2)

``````public class PairsEqualToSum {

public static void main(String[] args) {
int a[] = {1,10,5,8,2,12,6,4};
findPairs1(a,10);
findPairs2(a,10);
findPairs3(a,10);

}

//Method1 - O(N) use a Map to insert values as keys & check for number's complement in map
static void findPairs1(int[]a, int sum){
Map<Integer, Integer> pairs = new HashMap<Integer, Integer>();
for(int i=0; i<a.length; i++){
if(pairs.containsKey(sum-a[i]))
System.out.println("("+a[i]+","+(sum-a[i])+")");
else
pairs.put(a[i], 0);
}
}

//Method2 - O(nlog(n)) using Sort
static void findPairs2(int[]a, int sum){
Arrays.sort(a);
for(int i=0; i<a.length/2; i++){
int complement = sum - a[i];
int foundAtIndex = Arrays.binarySearch(a,complement);
if(foundAtIndex >0 && foundAtIndex != i) //to avoid situation where binarySearch would find the original and not the complement like "5"
System.out.println("("+a[i]+","+(sum-a[i])+")");
}
}

//Method 3 - Brute Force O(n^2)
static void findPairs3(int[]a, int sum){

for(int i=0; i<a.length; i++){
for(int j=i; j<a.length;j++){
if(a[i]+a[j] == sum)
System.out.println("("+a[i]+","+a[j]+")");
}
}
}

}
``````
-

A Simple program in java for arrays having unique elements:

``````import java.util.*;
public class ArrayPairSum {
public static void main(String[] args) {
int []a = {2,4,7,3,5,1,8,9,5};
sumPairs(a,10);
}

public static void sumPairs(int []input, int k){
Set<Integer> set = new HashSet<Integer>();
for(int i=0;i<input.length;i++){

if(set.contains(input[i]))
System.out.println(input[i] +", "+(k-input[i]));
else
}
}
}
``````
-

Javascript solution:

``````var sample_input = [0, 1, 100, 99, 0, 10, 90, 30, 55, 33, 55, 75, 50, 51, 49, 50, 51, 49, 51];
var result = getNumbersOf(100, sample_input, true, []);

function getNumbersOf(targetNum, numbers, unique, res) {
var number = numbers.shift();

if (!numbers.length) {
return res;
}

for (var i = 0; i < numbers.length; i++) {
if ((number + numbers[i]) === targetNum) {
var result = [number, numbers[i]];
if (unique) {
if (JSON.stringify(res).indexOf(JSON.stringify(result)) < 0) {
res.push(result);
}
} else {
res.push(result);
}
numbers.splice(numbers.indexOf(numbers[i]), 1);
break;
}
}
return getNumbersOf(targetNum, numbers, unique, res);
}
``````
-

O(n)

``````def find_pairs(x,sum):
s = set(L)
for i in L:
diff = 10-i
s.remove(i)
if diff in s:
print i, diff

L = [2,45,7,3,5,1,8,9]
sum = 10
find_pairs(L,sum)
``````
-

A simple Java code snippet for printing the pairs below:

``````    public static void count_all_pairs_with_given_sum(int arr[], int S){
if(arr.length < 2){
return;
}
HashSet values = new HashSet(arr.length);
for(int value : arr){
int difference = S - value;
if(values.contains(difference) && value<difference){
System.out.printf("(%d, %d) %n", value, difference);
}
}
}
``````
-
`````` public static int[] f (final int[] nums, int target) {
int[] r = new int[2];
r[0] = -1;
r[1] = -1;
int[] vIndex = new int[0Xfff];
for (int i = 0; i < nums.length; i++) {
int delta = 0Xff;
int gapIndex = target - nums[i] + delta;
if (vIndex[gapIndex] != 0) {
r[0] = vIndex[gapIndex];
r[1] = i + 1;
return r;
} else {
vIndex[nums[i] + delta] = i + 1;
}
}
return r;
}
``````
-

int [] arr = {1,2,3,4,5,6,7,8,9,0};

var z = (from a in arr from b in arr where 10 - a == b select new { a, b }).ToList;

-
I think that would be O(n2) – Gin Jan 18 '11 at 4:08
read the question – Mr_Hmp Sep 29 '13 at 16:06

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