(The question in its current form is a little confusing - my answer is assuming that the question is about finding two numbers in an array that sum to a given value)

Since the given array is unsorted, I am assuming that we are not allowed to sort the array (i.e. the given order of the array cannot be changed).

The simplest solution IMHO is to iterate over each number `x`

and check if `I-x`

occurs anywhere in the arrays. This is essentially what your O(n^2) solution is doing.

This can be brought down to O(n) or O(nlogn) by making the search faster using some sort of fast set data structure. Basically, as we iterate over the array, we query to see if `I-x`

occurs in the set.

Code (in Python):

```
l=[1,2,3,4,5,6,7,8,9]
seen=set()
I=11
for item in l:
if I-item in seen:
print "(%d,%d)"%(item,I-item)
seen.add(item)
```

The complexity of the solution depends on the insert/lookup complexity of the `set`

data structure that you use. A hashtable based implementation has a O(1) complexity so it gives you a O(n) algorithm, while a tree based `set`

results in a O(nlogn) algorithm.

Edit:

The equivalent data structure to Python's `set`

would be `stl::set`

in C++ and `TreeSet`

/`HashSet`

in Java. The line `I-x in seen`

would translate to `seen.contains(I-x)`

in Java and `seen.find(I-x)==seen.end()`

in C++.

`a[i]=a[j]`

be`a[i]==a[j]`

? – MAK Feb 4 '11 at 6:13