Python includes the heapq module for min-heaps, but I need a max heap. What should I use for a max-heap implementation in Python?

19 Answers 19


The easiest way is to invert the value of the keys and use heapq. For example, turn 1000.0 into -1000.0 and 5.0 into -5.0.

  • 56
    It's also the standard solution. Mar 23, 2010 at 16:30
  • 77
    uggh; total kludge. I am surprised heapq does not provide a reverse.
    – shabbychef
    Apr 17, 2010 at 0:33
  • 62
    Wow. I'm amazed that this is not provided by heapq, and that there is no good alternative. Jun 10, 2010 at 17:46
  • 28
    @gatoatigrado: If you have something that doesn't easily map to int/float, you can invert the ordering by wrapping them in a class with an inverted __lt__ operator. Jul 23, 2012 at 14:05
  • 9
    @Aerovistae same advice applies: invert the values (i.e. switch the sign) regardless if positive or negative to begin with.
    – Dennis
    Mar 13, 2014 at 23:49

You can use

import heapq
listForTree = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]    
heapq.heapify(listForTree)             # for a min heap
heapq._heapify_max(listForTree)        # for a maxheap!!

If you then want to pop elements, use:

heapq.heappop(minheap)      # pop from minheap
heapq._heappop_max(maxheap) # pop from maxheap
  • 52
    Looks like there are some undocumented functions for max heap: _heapify_max, _heappushpop_max, _siftdown_max, and _siftup_max.
    – Ziyuan
    Aug 7, 2014 at 13:35
  • 184
    Wow. I'm amazed that there IS such a built-in solution in heapq. But then it is totally unreasonable that it is NOT even slightly mentioned at all in the official document! WTF!
    – RayLuo
    Apr 21, 2015 at 6:48
  • 49
    Any of the pop/push functions break the max heap structure, so this method is not feasible.
    – Siddhartha
    Jul 8, 2017 at 6:21
  • 40
    DO NOT USE IT. As LinMa and Siddhartha noticed, push/pop breaks the order. Aug 19, 2017 at 16:29
  • 28
    The methods beginning with an underscore are private and can be removed without prior notice. Do not use them. Jan 26, 2019 at 8:47

The solution is to negate your values when you store them in the heap, or invert your object comparison like so:

import heapq

class MaxHeapObj(object):
  def __init__(self, val): self.val = val
  def __lt__(self, other): return self.val > other.val
  def __eq__(self, other): return self.val == other.val
  def __str__(self): return str(self.val)

Example of a max-heap:

maxh = []
heapq.heappush(maxh, MaxHeapObj(x))
x = maxh[0].val  # fetch max value
x = heapq.heappop(maxh).val  # pop max value

But you have to remember to wrap and unwrap your values, which requires knowing if you are dealing with a min- or max-heap.

MinHeap, MaxHeap classes

Adding classes for MinHeap and MaxHeap objects can simplify your code:

class MinHeap(object):
  def __init__(self): self.h = []
  def heappush(self, x): heapq.heappush(self.h, x)
  def heappop(self): return heapq.heappop(self.h)
  def __getitem__(self, i): return self.h[i]
  def __len__(self): return len(self.h)

class MaxHeap(MinHeap):
  def heappush(self, x): heapq.heappush(self.h, MaxHeapObj(x))
  def heappop(self): return heapq.heappop(self.h).val
  def __getitem__(self, i): return self.h[i].val

Example usage:

minh = MinHeap()
maxh = MaxHeap()
# add some values
# fetch "top" values
print(minh[0], maxh[0])  # "4 12"
# fetch and remove "top" values
print(minh.heappop(), maxh.heappop())  # "4 12"
  • Nice. I've taken this and added an optional list parameter to __init__ in which case I call heapq.heapify and also added a heapreplace method.
    – Booboo
    Apr 30, 2020 at 12:58
  • 2
    Surprised that no one caught this typo: MaxHeapInt --> MaxHeapObj. Otherwise, a very clean solution indeed. Jun 20, 2020 at 7:44
  • Interestingly Fanchen Bao's answer to this question is very similar: stackoverflow.com/questions/8875706/… Jun 30, 2020 at 17:45
  • Is this line needed? def __eq__(self, other): return self.val == other.val. I think it can also work without it.
    – apadana
    Oct 15, 2020 at 16:59
  • 1
    @ChirazBenAbdelkader Fanchen Bao's linked answer is using a tuple with a custom key object as first element, rather than using the custom object to wrap the elements, so slightly different. The tuple method allows passing a lambda which is cool. Oct 7, 2021 at 20:54

The easiest and ideal solution

Multiply the values by -1

There you go. All the highest numbers are now the lowest and vice versa.

Just remember that when you pop an element to multiply it with -1 in order to get the original value again.

  • 1
    Great, but most solution supports the classes/other types, and won't change actual data. The open question is if multiplying value by -1 won't change them (extremely precise float). Jul 12, 2019 at 20:08
  • 2
    @AlexBaranowski. That's true, but that has been the response from the maintainer: bugs.python.org/issue27295
    – Flair
    Mar 3, 2020 at 4:17
  • 1
    Well maintainers have their right not to implement some functionality, but this one IMO is actually useful. Mar 3, 2020 at 14:00
  • 1
    This could be a good solution for some coding round. Otherwise changing data within an application doesn't sound that great. Aug 11, 2020 at 18:56

The Easiest way is to convert every element into negative and it will solve your problem.

import heapq
heap = []
heapq.heappush(heap, 1*(-1))
heapq.heappush(heap, 10*(-1))
heapq.heappush(heap, 20*(-1))

The output will look like:

[-20, -1, -10]

I implemented a max heap version of heapq and submitted it to PyPI. (Very slight change of heapq module CPython code.)




pip install heapq_max


tl;dr: same as heapq module except adding ‘_max’ to all functions.

heap_max = []                           # creates an empty heap
heappush_max(heap_max, item)            # pushes a new item on the heap
item = heappop_max(heap_max)            # pops the largest item from the heap
item = heap_max[0]                      # largest item on the heap without popping it
heapify_max(x)                          # transforms list into a heap, in-place, in linear time
item = heapreplace_max(heap_max, item)  # pops and returns largest item, and
                                    # adds new item; the heap size is unchanged

This is a simple MaxHeap implementation based on heapq. Though it only works with numeric values.

import heapq
from typing import List

class MaxHeap:
    def __init__(self):
        self.data = []

    def top(self):
        return -self.data[0]

    def push(self, val):
        heapq.heappush(self.data, -val)

    def pop(self):
        return -heapq.heappop(self.data)


max_heap = MaxHeap()
print(max_heap.top())  # 5
  • Nice and simple! Jul 26, 2020 at 17:27
  • 1
    Easiest to understand code, that needs no explanation. Oct 12, 2020 at 15:29

I also needed to use a max-heap, and I was dealing with integers, so I just wrapped the two methods that I needed from heap as follows:

import heapq

def heappush(heap, item):
    return heapq.heappush(heap, -item)

def heappop(heap):
    return -heapq.heappop(heap)

And then I just replaced my heapq.heappush() and heapq.heappop() calls with heappush() and heappop() respectively.


If you are inserting keys that are comparable but not int-like, you could potentially override the comparison operators on them (i.e. <= become > and > becomes <=). Otherwise, you can override heapq._siftup in the heapq module (it's all just Python code, in the end).

  • 11
    “it's all just Python code”: it depends on your Python version and installation. For example, my installed heapq.py has some code after line 309 (# If available, use C implementation) that does exactly what the comment describes.
    – tzot
    Oct 17, 2010 at 7:30

Extending the int class and overriding __lt__ is one of the ways.

import queue
class MyInt(int):
    def __lt__(self, other):
        return self > other

def main():
    q = queue.PriorityQueue()
    while not q.empty():
        print (q.get())

if __name__ == "__main__":
  • It's possible, but I feel like it would slow things down a lot and use a lot of extra memory. MyInt can't really be used outside of the heap structure either. But thank you for typing up an example, it's interesting to see. Jul 12, 2019 at 14:21
  • Hah! One day after I commented I ran into the situation where I needed to put a custom object into a heap and needed a max heap. I actually re-googled this post and found your answer and based my solution off of it. (Custom object being a Point with x,y coordinate and lt overriding comparing distance from center). Thank you for posting this, I upvoted! Jul 13, 2019 at 22:06

Best way:

from heapq import *
h = [5, 7, 9, 1, 3]
h_neg = [-i for i in h]
heapify(h_neg)            # heapify
heappush(h_neg, -2)       # push
print(-heappop(h_neg))    # pop
# 9

Allowing you to chose an arbitrary amount of largest or smallest items

import heapq
heap = [23, 7, -4, 18, 23, 42, 37, 2, 8, 2, 23, 7, -4, 18, 23, 42, 37, 2]
print(heapq.nlargest(3, heap))  # [42, 42, 37]
print(heapq.nsmallest(3, heap)) # [-4, -4, 2]

I have created a heap wrapper that inverts the values to create a max-heap, as well as a wrapper class for a min-heap to make the library more OOP-like. Here is the gist. There are three classes; Heap (abstract class), HeapMin, and HeapMax.


isempty() -> bool; obvious
getroot() -> int; returns min/max
push() -> None; equivalent to heapq.heappush
pop() -> int; equivalent to heapq.heappop
view_min()/view_max() -> int; alias for getroot()
pushpop() -> int; equivalent to heapq.pushpop

To elaborate on https://stackoverflow.com/a/59311063/1328979, here is a fully documented, annotated and tested Python 3 implementation for the general case.

from __future__ import annotations  # To allow "MinHeap.push -> MinHeap:"
from typing import Generic, List, Optional, TypeVar
from heapq import heapify, heappop, heappush, heapreplace

T = TypeVar('T')

class MinHeap(Generic[T]):
    MinHeap provides a nicer API around heapq's functionality.
    As it is a minimum heap, the first element of the heap is always the
    >>> h = MinHeap([3, 1, 4, 2])
    >>> h[0]
    >>> h.peek()
    >>> h.push(5)  # N.B.: the array isn't always fully sorted.
    [1, 2, 4, 3, 5]
    >>> h.pop()
    >>> h.pop()
    >>> h.pop()
    >>> h.push(3).push(2)
    [2, 3, 4, 5]
    >>> h.replace(1)
    >>> h
    [1, 3, 4, 5]
    def __init__(self, array: Optional[List[T]] = None):
        if array is None:
            array = []
        self.h = array
    def push(self, x: T) -> MinHeap:
        heappush(self.h, x)
        return self  # To allow chaining operations.
    def peek(self) -> T:
        return self.h[0]
    def pop(self) -> T:
        return heappop(self.h)
    def replace(self, x: T) -> T:
        return heapreplace(self.h, x)
    def __getitem__(self, i) -> T:
        return self.h[i]
    def __len__(self) -> int:
        return len(self.h)
    def __str__(self) -> str:
        return str(self.h)
    def __repr__(self) -> str:
        return str(self.h)

class Reverse(Generic[T]):
    Wrap around the provided object, reversing the comparison operators.
    >>> 1 < 2
    >>> Reverse(1) < Reverse(2)
    >>> Reverse(2) < Reverse(1)
    >>> Reverse(1) <= Reverse(2)
    >>> Reverse(2) <= Reverse(1)
    >>> Reverse(2) <= Reverse(2)
    >>> Reverse(1) == Reverse(1)
    >>> Reverse(2) > Reverse(1)
    >>> Reverse(1) > Reverse(2)
    >>> Reverse(2) >= Reverse(1)
    >>> Reverse(1) >= Reverse(2)
    >>> Reverse(1)
    def __init__(self, x: T) -> None:
        self.x = x
    def __lt__(self, other: Reverse) -> bool:
        return other.x.__lt__(self.x)
    def __le__(self, other: Reverse) -> bool:
        return other.x.__le__(self.x)
    def __eq__(self, other) -> bool:
        return self.x == other.x
    def __ne__(self, other: Reverse) -> bool:
        return other.x.__ne__(self.x)
    def __ge__(self, other: Reverse) -> bool:
        return other.x.__ge__(self.x)
    def __gt__(self, other: Reverse) -> bool:
        return other.x.__gt__(self.x)
    def __str__(self):
        return str(self.x)
    def __repr__(self):
        return str(self.x)

class MaxHeap(MinHeap):
    MaxHeap provides an implement of a maximum-heap, as heapq does not provide
    it. As it is a maximum heap, the first element of the heap is always the
    largest. It achieves this by wrapping around elements with Reverse,
    which reverses the comparison operations used by heapq.
    >>> h = MaxHeap([3, 1, 4, 2])
    >>> h[0]
    >>> h.peek()
    >>> h.push(5)  # N.B.: the array isn't always fully sorted.
    [5, 4, 3, 1, 2]
    >>> h.pop()
    >>> h.pop()
    >>> h.pop()
    >>> h.pop()
    >>> h.push(3).push(2).push(4)
    [4, 3, 2, 1]
    >>> h.replace(1)
    >>> h
    [3, 1, 2, 1]
    def __init__(self, array: Optional[List[T]] = None):
        if array is not None:
            array = [Reverse(x) for x in array]  # Wrap with Reverse.
    def push(self, x: T) -> MaxHeap:
        return self
    def peek(self) -> T:
        return super().peek().x
    def pop(self) -> T:
        return super().pop().x
    def replace(self, x: T) -> T:
        return super().replace(Reverse(x)).x

if __name__ == '__main__':
    import doctest



The heapq module has everything you need to implement a maxheap. It does only the heappush functionality of max-heap. I've demonstrated below how to overcome that below ⬇

Add this function in the heapq module:

def _heappush_max(heap, item):
    """Push item onto heap, maintaining the heap invariant."""
    _siftdown_max(heap, 0, len(heap)-1)

and at the end add this :

    from _heapq import _heappush_max
except ImportError:

Voila ! It's done.

PS - to go to heapq function . first write " import heapq" in your editor and then right click 'heapq' and select go to defintion.


In case if you would like to get the largest K element using max heap, you can do the following trick:

nums= [3,2,1,5,6,4]
k = 2  #k being the kth largest element you want to get
temp = heapq.nlargest(k, nums)
return temp[-1]
  • 2
    Unfortunately, the time complexity for this is O(MlogM) where M = len(nums), which defeats the purpose of heapq. See the implementation and comments for nlargest here -> github.com/python/cpython/blob/…
    – Arthur S
    Jan 4, 2020 at 23:27
  • 1
    Thank you for your informative comment, will make sure to check the attached link.
    – RowanX
    Jan 6, 2020 at 0:19

Following up to Isaac Turner's excellent answer, I'd like put an example based on K Closest Points to the Origin using max heap.

from math import sqrt
import heapq

class MaxHeapObj(object):
    def __init__(self, val):
        self.val = val.distance
        self.coordinates = val.coordinates

    def __lt__(self, other):
        return self.val > other.val

    def __eq__(self, other):
        return self.val == other.val

    def __str__(self):
        return str(self.val)

class MinHeap(object):
    def __init__(self):
        self.h = []

    def heappush(self, x):
        heapq.heappush(self.h, x)

    def heappop(self):
        return heapq.heappop(self.h)

    def __getitem__(self, i):
        return self.h[i]

    def __len__(self):
        return len(self.h)

class MaxHeap(MinHeap):
    def heappush(self, x):
        heapq.heappush(self.h, MaxHeapObj(x))

    def heappop(self):
        return heapq.heappop(self.h).val

    def peek(self):
        return heapq.nsmallest(1, self.h)[0].val

    def __getitem__(self, i):
        return self.h[i].val

class Point():
    def __init__(self, x, y):
        self.distance = round(sqrt(x**2 + y**2), 3)
        self.coordinates = (x, y)

def find_k_closest(points, k):
    res = [Point(x, y) for (x, y) in points]
    maxh = MaxHeap()

    for i in range(k):

    for p in res[k:]:
        if p.distance < maxh.peek():

    res = [str(x.coordinates) for x in maxh.h]
    print(f"{k} closest points from origin : {', '.join(res)}")

points = [(10, 8), (-2, 4), (0, -2), (-1, 0), (3, 5), (-2, 3), (3, 2), (0, 1)]
find_k_closest(points, 3)

there's build in heap in python ,but I just want to share this if anyone want to build it by himself like me . I'm newbie in python don't judge if i made i mistake . algorithm is working but about the efficiency i don't know

class Heap :

    def __init__(self):
        self.heap = []
        self.size = 0

    def add(self, heap):
        self.heap = heap
        self.size = len(self.heap)

    def heappush(self, value):
        self.size += 1

    def heapify(self, heap ,index=0):

        mid = int(self.size /2)
            if you want to travel great value from bottom to the top you need to repeat swaping by the hight of the tree
            I  don't how how can i get the  height of the tree that's why i use sezi/2
            you can find height by this formula
            2^(x) = size+1  why 2^x because tree is growing exponentially 
            xln(2) = ln(size+1)
            x = ln(size+1)/ln(2)

        for i in range(mid):
            self.createTee(heap ,index)

        return heap

    def createTee(self,  heap ,shiftindex):


            this pos reffer to the index of the parent only parent with children
                (2)      (3)           here the size of list is 7/2 = 3
            (4)   (5)  (6)  (7)        the number of parent is 3 but we use {2,1,0} in while loop
                                       that why a put pos -1

        pos = int(self.size /2 ) -1
            this if you wanna sort this heap list we should swap max value in the root of the tree with the last
            value in the list and if you wanna repeat this until sort all list you will need to prevent the func from
            change what we already sorted I should decrease the size of the list that will heapify on it


        newsize = self.size - shiftindex
        while pos >= 0 :
            left_child = pos * 2 + 1
            right_child = pos * 2 + 2
            # this mean that left child is exist
            if left_child < newsize:
                if right_child < newsize:
                    # if the right child exit we wanna check if left child > rightchild
                    # if right child doesn't exist we can check that we will get error out of range
                    if heap[pos] < heap[left_child] and heap[left_child]  > heap[right_child] :
                        heap[left_child] , heap[pos] = heap[pos], heap[left_child]
                # here if the righ child doesn't exist
                    if heap[pos] < heap[left_child] :
                        heap[left_child] , heap[pos] = heap[pos], heap[left_child]
            # if the right child exist
            if right_child < newsize :
                if heap[pos] < heap[right_child] :
                    heap[right_child], heap[pos] = heap[pos], heap[right_child]
            pos -= 1

        return heap

    def sort(self ):
        k = 1
        for i in range(self.size -1 ,0 ,-1):
            because this is max heap we swap root with last element in the list

            self.heap [0] , self.heap[i] = self.heap[i], self.heap[0]
            self.heapify(self.heap ,k)

        return self.heap

h = Heap()
h.add([5,7,0,8,9,10,20,30,50,-1] )
print(" before heapify ")
print(" after heapify ")
print(" after sort ")

Output :

before heapify [5, 7, 0, 8, 9, 10, 20, 30, 50, -1, -2]

after heapify [50, 30, 20, 8, 9, 10, 0, 7, 5, -1, -2]

after sort [-2, -1, 0, 5, 7, 8, 9, 10, 20, 30, 50]

I hope you understand my code . if there's something you don't understand put a comment I will try to help

arr = [3,4,5,1,2,3,0,7,8,90,67,31,2,5,567]
# max-heap sort will lead the array to assending order
def maxheap(arr,p):
    for i in range(len(arr)-p):
        if i > 0:
            child = i
            parent = (i+1)//2 - 1
            while arr[child]> arr[parent] and child !=0:
                arr[child], arr[parent] = arr[parent], arr[child]
                child = parent
                parent = (parent+1)//2 -1
def heapsort(arr):
    for i in range(len(arr)):
        arr[0], arr[len(arr)-i-1]=arr[len(arr)-i-1],arr[0]
    return arr


try this

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