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Retrieving the top 100 numbers from one hundred million of numbers

I have a array which consists positive number between 0 to 9,(digit can repeat). I want to find sum of N largest elements

For example array =  5 1 2 4 and N=2
ans = 5+4 = 9

Simple approach: sort array and find sum of n largest elements. But i dont want to use it

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1  
I think the limitation that elements are between 0 and 9 makes it not a close duplicate. There are more efficient answers here that take advantage of the restricted range. –  AShelly Jul 5 '11 at 19:05
2  
This is not a duplicate of that other question due to the constraints. –  FogleBird Jul 6 '11 at 2:28
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marked as duplicate by David Thornley, Nemo, Paul R, jball, Graviton Jul 6 '11 at 1:31

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

4 Answers

up vote 7 down vote accepted

The simplest O(n) solution is following. Run through array a and increasе b[a[i]] where b is null initialized array of size 10. Then run through b starting from biggest index (9) and add tо your sum b[j] * j and substract from N b[j], and if b[j] is greater than N add to your sum N * j and over the loop.

Edit: code

vector<int> b(10, 0);
for(int i = 0; i < a.size(); ++i)
    b[a[i]]++;
int sum = 0;
for(int i = 9; i >=0; --i)
{
    if(b[i] <= n)
    {
        sum += b[i] * i;
        n -= b[i];
    }
    else
    {
        sum += n * i;
        n = 0;
        break;
    }
}
if(n != 0)
    cout << "there is no enough element in array\n";
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+1. my solution didn't take advantage of the fact that all elements are 0-9, so a radix sort (which is O(n)) will do the trick. –  amit Jul 5 '11 at 18:26
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insert all into a heap, and then delete (and sum) N elements.
complexity: O(n+Nlogn), because creating a heap is O(n), and each delete is O(logn), and you iterate over delete N times. total: O(n+Nlogn) [where n is the number of elements in your array].

EDIT: I missed it at first, but all your numbers are digits. so the simplest solution will be using radix sort or bucket sort and then sum the N biggest elements. solution is O(n).

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what about inserting in BST and then traversing right root left, and decprementing N each time till i reach 0 –  akshay Jul 5 '11 at 18:18
    
@akshay: inserting into a sort tree requires a sort, which will be O(nlogn), which is worth then O(n+Nlogn) –  amit Jul 5 '11 at 18:20
1  
@akshay's solution with sorting is better. –  Mihran Hovsepyan Jul 5 '11 at 18:20
    
@Mihran: it results in worth performance for N << n (where n is the array's size) –  amit Jul 5 '11 at 18:21
    
@amit and Mihran:So can i say that sorting approach is better then BST and bst is better then ur heap method –  akshay Jul 5 '11 at 18:22
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I am a bit slow today, should code faster hehe ;-)

There are multiple answers already but I want to share my pseudo-code with you anyway, hope it helps!

public class LargestSumAlgorithm
{
    private ArrayList arValues;

    public void AddValueToArray(int p_iValue)
    {
        arValues.Add(p_iValue);
    }

    public int ComputeMaxSum(int p_iNumOfElementsToCompute)
    {
        // check if there are n elements in the array
        int iNumOfItemsInArray = arValues.Size;
        int iComputedValue = 0;

        if(iNumOfItemsInArray >= p_iNumOfElementsToCompute)
        {
            // order the ArrayList ascending - largest values first
            arValues.Sort(SortingEnum.Ascending);
            // iterate over the p_iNumOfElementsToCompute in a zero index based ArrayList
            for(int iPositionInValueArray = 0; iPositionInValueArray < p_iNumOfElementsToCompute); iPositionInValueArray++)
            {
                iComputedValue += arValues[i];
            }
        }
        else
        {
            throw new ArgumentOutOfRangeException;
        }

        return iComputedValue;
    }


    public LargestSumAlgorithm()
    {
        arValues = new ArrayList();     
    }
}

public class Example
{
    LargestNumAlgorithm theAlgorithm = new LargestSumAlgorithm();
    theAlgorithm.AddValueToArray(1);
    theAlgorithm.AddValueToArray(2);
    theAlgorithm.AddValueToArray(3);
    theAlgorithm.AddValueToArray(4);
    theAlgorithm.AddValueToArray(5);

    int iResult = theAlgorithm.ComputeMaxSum(3);
}
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If you are using C++, use std::nth_element() to partition the array into two sets, one of them containing the N largest elements (unordered). Selection algo runs in O(n) time.

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The asker is looking for better approaches to the problem. "Use C++" isn't a real answer, especially considering he didn't tag his question with C++. –  bdares Jul 6 '11 at 1:24
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