Is it possible to find the 2 largest numbers in an array, and only loop through the collection once?
I had this as an interview question and didn't really get it in time.

It seems pretty straightforward..
For example:
Quick explanation:



In general, you can find the K largest (or smallest) numbers in an array using a single pass for any K. The total time complexity will be O(NK), where N is the size of the array: Keep a sorted list of numbers that has at most K elements. Walk though the array and for each item:
In the end, the list will contain K largest items, which is what we wanted. This solution is quite slow, though. Using a selfbalancing binary search tree or a skip list, you could get to O(N log K). (Since it's impossible to sort faster than O(N log N) in general case, and this method can be used for sorting the whole array if we set K = N, this looks like the best we can get.) In the case of K = 2, you don't need all this heavy machinery. Just two variables representing the two positions in the list are enough. 


Yes, it is. As you traverse the list, keep a record of the largest number found and whenever you find a bigger number, save the largest found into a second largest found before updating the largest found. If the value is bigger than the second largest, then update the second largest value. 

