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What must I do to use my objects of a custom type as keys in a Python dictionary (where I don't want the "object id" to act as the key) , e.g.

class MyThing:
    def __init__(self,name,location,length):
   = name
            self.location = location
            self.length = length

I'd want to use MyThing's as keys that are considered the same if name and location are the same. From C#/Java I'm used to having to override and provide an equals and hashcode method, and promise not to mutate anything the hashcode depends on.

What must I do in Python to accomplish this ? Should I even ?

(In a simple case, like here, perhaps it'd be better to just place a (name,location) tuple as key - but consider I'd want the key to be an object)

share|improve this question
What's wrong with using the hash? – Rafe Kettler Feb 4 '11 at 18:55
Probably because he wants two MyThing, if they have the same name and location, to index the dictionary to return the same value, even if they were created separately as two different "objects". – Santa Feb 4 '11 at 19:00
"perhaps it'd be better to just place a (name,location) tuple as key - but consider I'd want the key to be an object)" You mean: a NON-COMPOSITE object ? – eyquem Feb 4 '11 at 21:20
up vote 91 down vote accepted

You need to add two methods:

class MyThing:
    def __init__(self,name,location,length): = name
        self.location = location
        self.length = length

    def __hash__(self):
        return hash((, self.location))

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

The Python dict documentation defines these requirements on key objects, i.e. they must be hashable.

share|improve this answer
hash( looks nicer than, and if you do and you can do hash((x, y)) to avoid XORing yourself. – Rosh Oxymoron Feb 4 '11 at 19:02
As an additional note, I just discovered that calling x.__hash__() like that is also wrong, because it can produce incorrect results: – Rosh Oxymoron Feb 4 '11 at 20:32
@Rosh Oxymoron: thank you for the comment. When writing I was using explicit and for __eq__ but then I thought "why not using tuples?" because I often do that anyway (I think it's more readable). For some strange reason my eyes didn't go back to question about __hash__ however. – 6502 Feb 4 '11 at 20:39
@Rosh Oxymoron: I'm not sure I understand 100% your second comment. Are an instance of A and one of B to compare equal or not? If yes then that __hash__ implementation is breaching the contract (if two objects compare equal they should return the same value from __hash__ - see ). If on the other side they're not going to compare equal then it's ok for an implementation to call __hash__ directly... what am I missing? – 6502 Feb 4 '11 at 21:30
To be honest, this is the kind of thing that I don't like to hide in an object if I can help. Far more readable and maintainable to just use a tuple of name and location as the key. A dictionary is a kind of in memory database and it is natural to use tuples for compound keys. – Michael Dillon Feb 4 '11 at 22:14

An alternative in Python 2.6 or above is to use collections.namedtuple() -- it saves you writing any special methods:

from collections import namedtuple
MyThingBase = namedtuple("MyThingBase", ["name", "location"])
class MyThing(MyThingBase):
    def __new__(cls, name, location, length):
        obj = MyThingBase.__new__(cls, name, location)
        obj.length = length
        return obj

a = MyThing("a", "here", 10)
b = MyThing("a", "here", 20)
c = MyThing("c", "there", 10)
a == b
# True
hash(a) == hash(b)
# True
a == c
# False
share|improve this answer

You override __hash__ if you want special hash-semantics, and __cmp__ or __eq__ in order to make your class usable as a key. Objects who compare equal need to have the same hash value.

Python expects __hash__ to return an integer, returning Banana() is not recommended :)

User defined classes have __hash__ by default that calls id(self), as you noted.

There is some extra tips from the documentation.:

Classes which inherit a __hash__() method from a parent class but change the meaning of __cmp__() or __eq__() such that the hash value returned is no longer appropriate (e.g. by switching to a value-based concept of equality instead of the default identity based equality) can explicitly flag themselves as being unhashable by setting __hash__ = None in the class definition. Doing so means that not only will instances of the class raise an appropriate TypeError when a program attempts to retrieve their hash value, but they will also be correctly identified as unhashable when checking isinstance(obj, collections.Hashable) (unlike classes which define their own __hash__() to explicitly raise TypeError).

share|improve this answer
The hash alone is not enough, additionally you either need to override __eq__ or __cmp__. – Oben Sonne Feb 4 '11 at 18:59
@Oben Sonne: __cmp__ is given to you by Python if it is a user defined class, but you probably want to override them anyway to accommodate for new semantics. – Skurmedel Feb 4 '11 at 19:00
@Skurmedel: Yes, but although you can call cmp and use = on user classes which do not override these methods, one of them must be implemented to meet the questioner's requirement that instances with similar name and location have the same dictionary key. – Oben Sonne Feb 4 '11 at 19:08

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