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I'm using python2.6. Is it available in higher version of python?
Else is there any other way I can maintain priority queues for list of objects of non-trivial classes? What I need is something like this

>>> l = [ ['a', 3], ['b', 1] ]
>>> def foo(x, y):
...   return x[1]-y[1]
>>> heap = heapify(l, cmp=foo)

Any suggestions ?

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up vote 14 down vote accepted

The traditional solution is to store (priority, task) tuples on the heap:

pq = [ ]
heappush(pq, (10, task1))
heappush(pq, (5, task2))
heappush(pq, (15, task3))
priority, task = heappop(pq)

This works fine as long as no two tasks have the same priority; otherwise, the tasks themselves are compared (which might not work at all in Python 3).

The regular docs give guidance on how to implement priority queues using heapq:

http://docs.python.org/library/heapq.html#priority-queue-implementation-notes

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1  
I think it's clear that in this case he wants the priorities to be deduced from the objects rather than manually specified. – agf Oct 21 '11 at 0:17
    
This also causes trouble when the tasks are np.arrays, which don't produce booleans upon comparison – Eric Apr 6 at 6:26

Just write an appropriate __lt__ method for the objects in the list so they sort correctly:

class FirstList(list):
    def __lt__(self, other):
        return self[0] < other[0]

lst = [ ['a', 3], ['b', 1] ]

lst = [FirstList(item) for item in lst]

Only __lt__ is needed by Python for sorting, though it's a good idea to define all of the comparisons or use functools.total_ordering.

You can see that it is working by using two items with the same first value and different second values. The two objects will swap places when you heapify no matter what the second values are because lst[0] < lst[1] will always be False. If you need the heapify to be stable, you need a more complex comparison.

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3  
PEP 8 advises that you define all six comparison and not rely on the implementation details of consumer functions. – Raymond Hettinger Oct 20 '11 at 23:24
2  
@RaymondHettinger I know that's the general advice, except in this case it's known which is needed -- the use case isn't arbitrary comparison but for a specific purpose. "it is best to implement all six operations so that confusion doesn't arise in other contexts" doesn't apply if you're only operating in one context. – agf Oct 21 '11 at 0:16
3  
It is trivial to add @functools.total_ordering to support all six operations effortlessly. FWIW, the PEP 8 advice does apply to the content of working with heaps. The use of __lt__() is an implementation specific detail that is subject to change. Not long ago, it called __le__() instead. – Raymond Hettinger Jun 28 '15 at 0:15
1  
On total_ordering +1 – Aaron Hall Jul 2 '15 at 22:08

Well, this is terrible and awful and you definitely shouldn't do it… But it looks like the heapq module defines a cmp_lt function, which you could monkey patch if you really wanted a custom compare function.

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1  
Why is it terrible? It works for me! I can even implement max-heap using this approach. – Nullpoet Oct 18 '11 at 6:51
2  
It's terrible and horrible because, unless you're careful, it will break any other code which uses the heapq module, and horribly break any other code which tries to monkey patch the heapq module. Better would be to follow the advice of Raymond Hettinger, the author of a number of Python's modules which implement algorithms like this one. – David Wolever Oct 18 '11 at 17:44

I don't know if this is better but it is like Raymond Hettinger's solution but the priority is determined from the object.

Let this be your object and you want to sort by the the x attribute.

class Item:                                 
    def __init__(self, x):
        self.x = x

Then have a function which applies the pairing

def create_pairs(items):
     return map(lambda item: (item.x, item), items)

Then apply the function to the lists as input into heapq.merge

list(heapq.merge(create_pairs([Item(1), Item(3)]), 
                 create_pairs([Item(2), Item(5)])))

Which gave me the following output

[(1, <__main__.Item instance at 0x2660cb0>),
 (2, <__main__.Item instance at 0x26c2830>),
 (3, <__main__.Item instance at 0x26c27e8>),
 (5, <__main__.Item instance at 0x26c2878>)]
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