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For merge-sort divide and conquer operations, how much time is required in bottom up merging phase? My instructor says that it is be linear, hence it will be O(n). But I didn't get it. How will it be linear?

How will merging operation be linear O(n)?

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The arrays are sorted. Take a look at algolist.net/Algorithms/Merge/Sorted_arrays –  irrelephant Aug 14 '12 at 7:05

1 Answer 1

Merge operation of two arrays, is scanning arrays and picking the lowest/highest of two.

so you have

a: [1, 3, 6, 7]
b: [4, 5, 7, 8]

you compare like this (sort of pseudo code)

indexA = 0;
indexB = 0;
auxilaryArray = [];
indexAux = 0;

while true 
   if indexA > len(a)-1 or indexb > len(b) -1  
       break
   # you are cherry picking one from the two array which is lesser
   # until any one of these array exausts
   if(a[indexA] > b[indexB])
       auxilaryArray[indexAux++] = b[indexB++]
   else
       auxilaryArray[indexAux++] = a[indexA++]

#append the remaining array 
while indexA < len(a)
    auxilaryArray[indexAux++] = a[indexA++]

#appends the remaining array
while indexB < len(b)
    auxilaryArray[indexAux++] = b[indexB++]

you see if array a[k], and b[m] the sum of iterations by the three loops will be k+m.


In case

a: [1, 3, 6, 7]
b: [4, 5, 7, 8]

Here is the first loop for this:

(0, 0), (1, 0), (2, 0), (2, 1), (2, 2), (3, 2) # 6 iterations; array a exhausted

The second loop does not run since a is already scanned.

The third loop appends

b[2], b[3]   # 2 iterations; b exhaused

You see 8 = 4 + 4 loops running? What's the order O(n).


In Mergesort the divide operation is logarithmic, ln n -- the merge part is linear. Since you divide and merge back the order becomes multiplicative so Mergesort is O(nln(n)).

Unlike Bubble, Selection, Insertion sort where you scan left to right (O(n)) and then fit the right candidate by consecutive swaps (bubble), or by scanning the minimum in rest of the the unsorted array (selection), or by inserting at right place in sorted part of the array (insertion) -- these operations are O(n)... so the overall order of these algos becomes O(n2)

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it's really useful...... thanks. –  Pankaj_C Aug 14 '12 at 8:56
    
@Pankaj_C If this answer solved your problem, please mark it as answered by clicking on the up-tick next to this answer. See here how. If you liked the answer, you may also up-vote by clicking on up arrow next to the answer. –  Nishant Aug 14 '12 at 17:28

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