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I have been asked in my algorithm class to make a K-way merge algorithm which is of O(nlogk) After searching i found it could be done via making a k length priority queue and enqueuing it with the first element of each list. Extract the minimum, append it to result and enqueue from the list whose element has been extracted. I am confused about:

  1. How will it know when a particular list is exhausted, suppose a list has smaller elements than every other element in other lists?

  2. How will it know the element was of which list (if a structue is not used to define)?

  3. How is the time complexity O(nlogk)?


It would be a bit more helpful if someone can write down the algorithm step-wise, because all i have read it is in sentences and its hard to understand the way it is, if someone could write down the algorithm might be helpful to understand.

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i) Your code can either check if a list is exhausted or it can try to remove an element and fail ii) It is irrelevant where the element came from. If you care, you can wrap each element with some list identifier when you insert it into the heap iii) Because there are n elements and every element is inserted/removed into/from the k-size heap. All other work in the algorithm is "absorbed" by those steps –  rliu Oct 20 '13 at 7:29
You can also do a K-way merge without a heap. I explain it here: stackoverflow.com/a/18984961/56778. I haven't done the performance testing to determine which method (with a heap or without) is faster. Both are O(n log k), but one likely does a little more work than the other. –  Jim Mischel Oct 21 '13 at 15:13

5 Answers 5

Here's some Python code that does the merging.

import heapq

def addtoheap(h, i, it):
        heapq.heappush(h, (next(it), i))
    except StopIteration:

def mergek(*lists):
    its = map(iter, lists)
    h = []
    for i, it in enumerate(its):
        addtoheap(h, i, it)
    while h:
        v, i = heapq.heappop(h)
        addtoheap(h, i, its[i])
        yield v

for x in mergek([1, 3, 5], [2, 4, 6], [7, 8, 9], [10]):
    print x

Why is it O(n log k)? Well for each value removed, there's a heap pop and possibly a heap push (both of which are O(log k)). Since we remove n elements, it's O(n log k).

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Instead of simply storing the first element of each list in the priority queue, wrap it in a structure like this;

struct wrapper
    int list_number;
    int element;

Then, when you are pushing an element onto the priority queue, just add the list number form where it came. This way, when the minimum element gets popped, you will know from which list you should push the next element to push on the queue by examining popped_element.list_number.

In order to find if your list is empty you should add a function empty to it that returns true if the list does not have any more elements and false otherwise. The function would be very easy to implement. Just check if the size is zero then the list is empty otherwise it has one or more elements.

From your question I assume that a binary heap is used to implement the priority queue. The insertion operation in a binary heap takes O(lg k) time and the extract-min operation also takes O(lg k) times where k is the the size of the heap (number of lists in your case). Now if the total number of elements you have is n, the total time to process all of them will be O(n lg k).

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I wrote a series of articles about this some years ago when discussing sorting a large text file. The idea is that the items you put on the heap contain not just the value but also the list the value came from. Or, you could just put the list reference on the heap and have the comparison function compare against the first item in the particular list.

See http://www.informit.com/guides/content.aspx?g=dotnet&seqNum=676 and http://www.informit.com/guides/content.aspx?g=dotnet&seqNum=677 for an explanation of the basic algorithm using a sequential list in place of a heap. See http://www.informit.com/guides/content.aspx?g=dotnet&seqNum=680 for an improved version that uses a heap.

As I said in my comment, you can also do the merge without a heap. See http://stackoverflow.com/a/18984961/56778 for a description.

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1 list is exhausted when it has no more elements

2 you need to keep track from which list did the min element com

3 for each element you put it into a min heap of size k which takes logk so you have n times logk

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Yes Thats what i am asking. How do we check if there are no more elements, when the last element of the array is extracted. How do we track where the min element came from. And can you elaborate more on the third point? If i understand it correctly. Extracting all elements from k size heap is log k, and we push repeatedly push n-elements(from all lists) so it takes n*logk? –  Shaurya Chaudhuri Oct 20 '13 at 7:37

You should not here that "n" the total number of nodes over all the list not just one list. In this case the solution is O(n logk). If we mean that we have n node on an average in every list(total of k lists) then it will be O(nk logk)

Here is an in depth explanation with some code

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