# Efficient Way to Select Max 5 Numbers from Sorted Arrays

Is there any other best way to take 5 maximum numbers from 3 sorted arrays as in the code below:

Update:

1. Below code gives me the result, but I am not sure if this is only way

2. Input arrays may contain duplicates, but result must not

3. Efficient means we require less iterations while getting to the result.

4. I am looking for linq specific answer.

``````private void Take5MaxNumbers()
{
var a1 = new[] { 10, 25, 45, 65, 76 };
var a2 = new[] { 32, 43, 54, 62, 78, 85, 93, 102 };
var a3 = new[] { 54, 74, 98, 105 };

var finalArray = a1.Union(a2).Union(a3).OrderByDescending(x => x).Take(5);

foreach (var item in finalArray)
{
Console.Write(item + " ");
}
}

// Output:
105 102 98 93 85
``````
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What's wrong with the way you have now? –  Ray Cheng Mar 4 '13 at 6:09
Its working, but I am not sure if this is the only fastest way?? –  Dinesh Mar 4 '13 at 6:10
In its current form code excludes duplicates. Is it intentional? –  default locale Mar 4 '13 at 6:12
Yes, final array must contain unique elements –  Dinesh Mar 4 '13 at 6:14
This is a bad way to approach performance. Start by setting a goal based on what is acceptable to customers, then measure to see if you've met your goal. If you have met your goal already then spend your valuable time worrying about something else. If you haven't met your goal then use a profiler to find the slowest thing and fix that. This is unlikely to be the slowest thing in your program. –  Eric Lippert Mar 4 '13 at 6:27

Iterate 5 steps of merge sort for 3 arrays: this could be accomplished with an array of three elements holding the largest values of each array, then finding the maximum and index of the maximum. (if the index is 2 (from 0..2), replace that element from the last presorted array.)

The steps to do this [efficiently] with linq would probably require these steps --

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+1 for optimal solution. OP needs unique values, so algorithm may need more than 5 steps to finish. –  default locale Mar 4 '13 at 6:20
Some pointer on how this can be achieved using linq?? –  Dinesh Mar 4 '13 at 6:23
@DnshPly9 Asking that doesn't make much sense. If you need some custom algorithm, it's usually best to write it imperatively, without LINQ. That's because LINQ was not made for writing custom efficient low-level algorithms and it's not good at it. But you could write it in a way that is compatible with LINQ, e.g. `new[] { a1, a2, a3 }.Select(a => a.Reverse()).Merge().Take(5)` (where `Merge()` is a method you would write that implements merge sort). Is that what you're looking for? –  svick Mar 4 '13 at 7:08

The best way to find out the top 5 element from sorted array is to compare last element of each array get max and the compare last element of each array leaving the previous founded element.

below is the two way for doing this task first one is using only basic types and is the most efficient way, no extra loop no extra comparison no extra memory consumption, just pass the index of elements that need to be match with another one and calculate which is the next index to be match for each given array.

Fist one is this : go through the link :-

Most efficient way to find max top 5 number from three given sorted array

Second one is this :-

``````int[] Array1 = { 09, 65, 87, 89, 888 };
int[] Array2 = { 1, 13, 33, 49, 921 };
int[] Array3 = { 22, 44, 66, 88, 110 };

int [] MergeArr = Array1.Concat(Array2).Concat(Array3).ToArray();
Array.Sort(MergeArr);
int [] Top5Number = MergeArr.Reverse().Take(5).ToArray()
``````

## Most efficient way to find max top 5 number from three given sorted array

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You can take the top 5 elements in each array and then finally order by descending.

``````var a1_5 = a1.Reverse().Take(5).Reverse();
var a2_5 = a2.Reverse().Take(5).Reverse();
var a3_5 = a3.Reverse().Take(5).Reverse();
var resultArray = (a1_5.Union(a2_5)).Union(a3_5).OrderByDescending(x=>x).Take(5);
``````

This way your sorting method "OrderByDescending" will have less inputs to process and better performance.

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Yes, it's an obvious optimisation, but OP states that it's not guaranteed that `a1` doesn't have duplicates. Also, last reverse is quite pointless (next step is sorting anyway) –  default locale Mar 4 '13 at 6:48