// Checks whether the array contains two elements whose sum is s.
// Input: A list of numbers and an integer s
// Output: return True if the answer is yes, else return False
public static boolean calvalue (int[] numbers, int s){
for (int i=0; i< numbers.length; i++){
for (int j=i+1; j<numbers.length;j++){
if (numbers[i] < s){
if (numbers[i]+numbers[j] == s){
return true;
}
}
}
}
return false;
}


This can be achieved in O(n).



Both the solutions mentioned in other answers to this post, and a few other answers as well (eg using a bitmap instead of a hashtable), appear in the following duplicates and slight variations of the question: 


You can solve this by sorting the array, then keep 2 pointers to the start and the end of the array and find the 2 numbers by moving both pointers. The sorting step takes O(nlog n) and the 2nd step takes O(n). As @Adam has pointed out, it is also good to remove duplicate elements from the array, so that you may reduce the time from the second step if the array contains many duplicated numbers. As for how to do the second step:
Why is this correct (I use right end to denote larger end and left end to denote smaller end):



Here is a solution witch takes into account duplicate entries. It is written in javascript and assumes array is sorted.
Enjoy! 


if (numbers[i] < s)
will always evaluatefalse
if your input is [1,0]. In fact... your code never accepts the case where zero is the second addend required to produce a match (i.e. [1,0] for sum = 1; [2,0] for sum = 2; [5, 0, 0] for sum = 5; [1, 5, 0, 0] for sum = 5; will all fail unit tests). – Adam Oct 8 '12 at 3:23