The collections.Count.most_common function in Python uses the heapq module to return the count of the most common word in a file, for instance.

I have traced through the heapq.py file, but I'm having a bit of trouble understanding how a heap is created/updated with respect to words let's say.

So, I think the best way for me to understand it, is to figure out how to create a heap from scratch.

Can someone provide a pseudocode for creating a heap that would represent word count?


this is a slightly modified version of the code found here : http://code.activestate.com/recipes/577086-heap-sort/

def HeapSort(A,T):
    def heapify(A):
        start = (len(A) - 2) / 2
        while start >= 0:
            siftDown(A, start, len(A) - 1)
            start -= 1

    def siftDown(A, start, end):
        root = start
        while root * 2 + 1 <= end:
            child = root * 2 + 1
            if child + 1 <= end and T.count(A[child]) < T.count(A[child + 1]):
                child += 1
            if child <= end and T.count(A[root]) < T.count(A[child]):
                A[root], A[child] = A[child], A[root]
                root = child

    end = len(A) - 1
    while end > 0:
        A[end], A[0] = A[0], A[end]
        siftDown(A, 0, end - 1)
        end -= 1

if __name__ == '__main__':
    text = "the quick brown fox jumped over the the quick brown quick log log"
    heap = list(set(text.split()))
    print heap

    print heap


['brown', 'log', 'jumped', 'over', 'fox', 'quick', 'the']
['jumped', 'fox', 'over', 'brown', 'log', 'the', 'quick']

you can visualize the program here http://goo.gl/2a9Bh

  • 1
    Hi,from @Hueston Rido's answer it seems like pushing and popping from a heap automatically sorts the data, which looks very simple in the face of the heap sort code you've posted. I'm definitely missing something here. Could you please explain why you haven't simply pushed and popped from a heap to sort your data? – Flame of udun Dec 2 '14 at 3:28
  • In case we want to visualize the binary tree (sort process step by step), during the tree, should we use a binary tree or just a list. – Boubakr Dec 3 '14 at 20:12
  • I was under the impression that OP had to not use the builtin heapq ... – Joran Beasley Jan 7 at 9:13

In Python 2.X and 3.x, heaps are supported through an importable library, heapq. It supplies numerous functions to work with the heap data structure modelled in a Python list. Example:

>>> from heapq import heappush, heappop
>>> heap = []
>>> data = [1, 3, 5, 7, 9, 2, 4, 6, 8, 0]
>>> for item in data:
        heappush(heap, item)

>>> ordered = []
>>> while heap:

>>> ordered
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
>>> data.sort()
>>> data == ordered

You can find out more about Heap functions: heappush, heappop, heappushpop, heapify, heapreplace in heap python docs.


Here's another variation based on Sedgewick

The heap is represented internally in an array where if a node is at k, it's children are at 2*k and 2*k + 1. The first element of the array is not used, to make the math more convenient.

To add a new element to the heap, you append it to the end of the array and then call swim repeatedly until the new element finds its place in the heap.

To delete the root, you swap it with the last element in the array, delete it and then call sink until the swapped element finds its place.

  while k > 1 and less(k/2, k):
    exch(k, k/2)
    k = k/2

  while 2*k <= N:
    j = 2*k
    if j < N and less(j, j+1):
    if not less(k, j):
    exch(k, j)
    k = j

Here's a visualization of heap insert, inserting the first 15 letters of the alphabet: [a-o]

heap insert visualization

  • this is great! I just wish it were a little slower or that there were a way to pause/restart it. – szeitlin Aug 27 '16 at 22:09
  • oh glad you like it! It's just an animated gif. I made it a few years ago - not even sure if I still have the code! :) – slashdottir Aug 28 '16 at 1:53

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