79

I wish to hold a heap of objects, not just numbers. They will have an integer attribute in them that the heap can sort by. The easiest way to use heaps in python is heapq, but how do I tell it to sort by a specific attribute when using heapq?

111

According to the example from the documentation, you can use tuples, and it will sort by the first element of the tuple:

>>> h = []
>>> heappush(h, (5, 'write code'))
>>> heappush(h, (7, 'release product'))
>>> heappush(h, (1, 'write spec'))
>>> heappush(h, (3, 'create tests'))
>>> heappop(h)
(1, 'write spec')

So if you don't want to (or can't?) do a __cmp__ method, you can manually extract your sorting key at push time.

Note that if the first elements in a pair of tuples are equal, further elements will be compared. If this is not what you want, you need to ensure that each first element is unique.

4
  • 15
    "Note that if the first elements in a pair of tuples are equal, further elements will be compared." You should put that in bold since in the documentation it is not clear. I assumed given the same priority it would return me the first object found (no good reason for that assumption, so it's my fault, I see).
    – JD Gamboa
    Oct 24 '18 at 23:39
  • Good point. If you insert a tuple that is (number, dict) it doesn't know how to evaluate dicts.
    – Fred Guth
    Apr 8 '19 at 19:51
  • 4
    If you have a tuple like (some_value, dict), you can insert (some_value, counter, dict) in the heap to break ties with an incrementing counter in case some_value is equal for 2 tuples. Jun 9 '19 at 0:43
  • 1
    This example did not work for me. Any suggestions? lst = [(18, [3, 3]), (26, [5, -1]), (20, [-2, 4])] heapq.heapify(lst) Nov 18 '20 at 5:43
91

heapq sorts objects the same way list.sort does, so just define a method __cmp__() within your class definition, which will compare itself to another instance of the same class:

def __cmp__(self, other):
    return cmp(self.intAttribute, other.intAttribute)

Works in Python 2.x.

In 3.x use:

def __lt__(self, other):
    return self.intAttribute < other.intAttribute
5
  • 13
    __cmp__ is gone in 3.x. Use __lt__ instead. Oct 17 '10 at 18:23
  • 12
    __lt__ works in Python 2 also, so it's better to just avoid __cmp__ altogether. Oct 17 '10 at 18:35
  • 18
    Just as you can tell any sort to sort based on a criteria other than the object's natural sorting (eg. cmp and key for sort), you should be able to tell heapq to sort based on a different key. In other words, you shouldn't have to redefine the object itself to change a particular data structure holding it; you should be able to just tell the data structure itself. This is a notable fundamental piece missing from the heapq API. Oct 17 '10 at 20:08
  • 1
    is there any reason everyone asks to use __lt__ and not __gt__? or it really doesn't matter? Oct 2 '19 at 23:42
  • What if sometimes I want to sort by this attribute and sometimes sort by another attribute?
    – jallen0927
    Feb 25 '20 at 19:13
30

According to the Official Document, a solution to this is to store entries as tuples (please take a look at Section 8.4.1 and 8.4.2).

For example, your object is something like this in tuple's format (key, value_1, value_2)

When you put the objects (i.e. tuples) into heap, it will take the first attribute in the object (in this case is key) to compare. If a tie happens, the heap will use the next attribute (i.e. value_1) and so on.

For example:

import heapq

heap = []
heapq.heappush(heap, (0,'one', 1))
heapq.heappush(heap, (1,'two', 11))
heapq.heappush(heap, (1, 'two', 2))
heapq.heappush(heap, (1, 'one', 3))
heapq.heappush(heap, (1,'two', 3))
heapq.heappush(heap, (1,'one', 4))
heapq.heappush(heap, (1,'two', 5))
heapq.heappush(heap, (1,'one', 1))

show_tree(heap)

Output:

                                      (0, 'one', 1)                                       
                (1, 'one', 1)                                (1, 'one', 4)                
    (1, 'one', 3)         (1, 'two', 3)         (1, 'two', 2)         (1, 'two', 5)     
(1, 'two', 11)

About pretty print a heap in python (updated the link): show_tree()

0
10

I feel the simplest way is to override the existing cmp_lt function of the heapq module. A short example:

import heapq

# your custom function. Here, comparing tuples a and b based on their 2nd element
def new_cmp_lt(self,a,b):
    return a[1]<b[1]

#override the existing "cmp_lt" module function with your function
heapq.cmp_lt=new_cmp_lt

#Now use everything like normally used
8

I had the same question but none of the above answers hit the spot although some were close but not elaborated enough. Anyway, I did some research and tried this piece of code and hopefully this should be sufficient for someone next who is looking to get an answer:

The problem with using a tuple is it only uses the first item which is not very flexible. I wanted something similar to std::priority_queue in c++ like this: std::priority_queue<pair<int, int>, vector<pair<int, int>>, comparator> pq; where I could design my own comparator which is more common in real world applications.

Hopefully the below snippet helps: https://repl.it/@gururajks/EvenAccurateCylinders

import heapq
class PQNode:

    def __init__(self, key, value):
        self.key = key
        self.value = value

    # compares the second value
    def __lt__(self, other):
        return self.value < other.value

    def __str__(self):
        return str("{} : {}".format(self.key, self.value))

input = [PQNode(1, 4), PQNode(7, 4), PQNode(6, 9), PQNode(2, 5)]
hinput = []
for item in input:
    heapq.heappush(hinput, item)

while (hinput):
    print (heapq.heappop(hinput))
1
  • I tried your code and it works on my end. I'm using python 3.6.5. I am curious as to how heappush() does the comparision. Is this done intrinsically by the special _lt_() method in the PQNode class? Without it, this program definitely crashes with the compiler message: Traceback (most recent call last): File "heap_example.py", line 18, in <module> heapq.heappush(hinput, item) TypeError: '<' not supported between instances of 'PQNode' and 'PQNode' Fortunately, it seems _lt_() plays a role in it because it's working. Aug 10 '19 at 19:55
4

Unfortunately, you can't, although this is an often requested feature.

One option would be to insert (key, value) tuples into the heap. However, that won't work if the values throw an exception when compared (they will be compared in the case of a tie between keys).

A second option would be to define a __lt__ (less-than) method in the class that will use the appropriate attribute to compare the elements for sorting. However, that might not be possible if the objects were created by another package or if you need them to compare differently elsewhere in the program.

A third option would be to use the sortedlist class from the blist module (disclaimer: I'm the author). The constructor for sortedlist takes a key parameter that lets you specify a function to return the sort key of an element, similar to the key parameter of list.sort and sorted.

1
  • I removed my previous comment since my issue with blist was probably a PEBCAK (again thanks for your module), so I only duplicate the first part of the previous comment: It's always possible to define a class with an __lt__ either through subclassing or through encapsulation.
    – tzot
    Oct 17 '10 at 21:19
0

You could implement a heapdict. Note the use of popitem() to get the lowest priority item.

import heapdict as hd
import string
import numpy as np

h = hd.heapdict()
keys = [char for char in string.ascii_lowercase[:10]]
vals = [i for i in np.random.randint(0,10, 10)]
for k,v in zip(keys,vals):
    h[k] = v
for i in range(len(vals)):
    print h.popitem()
0

There is a module called heaps. The Github address is https://github.com/gekco/heapy. You can apply your own key / sort function at instantiation of the class or when creating the heap from an array, which is very useful as this saves you adding it as an argument every time you perform an action.

Example where I want the list what the smallest element at the last position of the tuple be on top of the heap:

>>> from heapy.heap import Heap 
>>> a = [(3, 5, 10), (-5, 3, 8), (7, 8, 9), (-4, 0, 2)]
>>> x = Heap.from_array(a, key=lambda t : t[-1])
>>> x.length
4
>>> x.top()
(-4, 0, 2)
>>> x.insert((-1, 0, 1))
>>> x.length
5
>>> x.top()
(-1, 0, 1)
>>> a
[(3, 5, 10), (-5, 3, 8), (7, 8, 9), (-4, 0, 2)]
 

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