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I have an array lets say a = { 1,4,5,6,2,23,4,2}; now I have to find median of array position from 2 to 6 (odd total terms), so what i have done , I have taken a[1] to a[5] in arr[0] to arr[4] then i have sorted it and and write the arr[2] as median .

But here every time i am inputting values from one array to another , so that values of my initial array remains same . secondly I have sorted , so this procedure is taking pretty much **time** . So i wanna know if there is any way i can do it in different way to less my computation time .

Any websites , material to understand , what and how to do?

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How are you sorting the array? –  Evans Jun 16 '12 at 16:15
well i am using in built sort of algorithm –  Sudhanshu Gupta Jun 16 '12 at 16:17

5 Answers 5

up vote 3 down vote accepted

If you are doing multiple queries on the same array then you could use a Segment Tree. They are generally used to do range minimum/maximum and range sum queries but you can change it to do range median.

A segment tree for a set with n intervals uses O(n log n) storage and can be built in O(n log n) time. A range query can be done in O(log n).

Example of median in range segment tree:

You build the segment tree from the bottom up (update from the top down):

        [3]                     [7]
 [1,2]        [4]         [6]         [8] 
1     2     3     4     5     6     7     8

Indices covered by node:

        [2]                     [6]
 [0,1]        [3]         [5]         [7] 
0     1     2     3     4     5     6     7

A query for median for range indices of 4-6 would go down this path of values:

0     1     2     3     4     5     6     7

Doing a search for the median, you know the number of total elements in the query (3) and the median in that range would be the 2nd element (index 5). So you are essentially doing a search for the first node which contains that index which is node with values [1,2] (indices 0,1).

Doing a search of the median of the range 3-6 is a bit more complicated because you have to search for two indices (4,5) which happen to lie in the same node.

0     1     2     3     4     5     6     7

Segment tree

Range minimum query on Segment Tree

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+1, this is the way to go if multiple queries are made on the same array. –  ffao Jun 16 '12 at 20:29
@ffao,justin, Can you tell more about how to do a range median query on a segment tree? –  2147483647 Oct 5 '13 at 11:48
@A.06 I added an example of range minimum but it can easily be adapted to range median. –  Justin Oct 5 '13 at 17:46
But in the range minimum query, we can find minimum of multiple subranges and take the minimum among them, but I don't think it will be the same in the case of median because the median in a range will not necessarily be the median of the medians of its sub-ranges. –  2147483647 Oct 6 '13 at 4:56
@A.06 I've added a median segment tree example. –  Justin Oct 7 '13 at 14:15

Use std::nth_element from <algorithm> which is O(N):

nth_element(a, a + size / 2, a + size);
median = a[size/2];
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Note: this is a mutative algorithm, it might reorder some other items. –  Matthieu M. Jun 16 '12 at 17:19
But because it distorts the array i have to make copies of array which i have to sort , its taking lots of time , what might i do to solve that –  Sudhanshu Gupta Jun 16 '12 at 19:12
Does not work for arrays with even number of elements. –  Maxim Egorushkin Oct 7 '13 at 16:20

It is possible to find the median without sorting in O(n) time; algorithms that do this are called selection algorithms.

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Great answer. Just to clarify, the ones typically used (like in std::nth_element) are O(n) expected time, and not O(n) worst case time. The O(n) worst case time algorithm for this is typically slow in practice. –  Chris A. Jun 17 '12 at 1:34
Update to my comment. Seems that there are tricks to achieve good practical running times and O(n) worst case running times. Would be nice to see which implementations use these. –  Chris A. Jun 17 '12 at 1:54

To find the median of an array of less than 9 elements, I think the most efficient is to use a sort algorithm like insertion sort. The complexity is bad, but for such a small array because of the k in the complexity of better algorithms like quicksort, insertion sort is very efficient. Do your own benchmark but I can tell you will have better results with insertion sort than with shell sort or quicksort.

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I think the best way is to use the median of medians algorithm of counting the k-th largest element of an array. You can find the overall idea of the algorithm here: Median of Medians in Java , on wikipedia: http://en.wikipedia.org/wiki/Selection_algorithm#Linear_general_selection_algorithm_-_Median_of_Medians_algorithm or just browse the internet. Some general improvements can be made during implementation (avoid sorting when choosing the median of particular arrays). However, note that for an array of less than 50 elements its more efficient to use insertion sort than median of medians algorithm.

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