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This would be similar to the java.lang.Object.hashcode() method.

I need to store objects I have no control over in a set, and make sure that only if two objects are actually the same object (not contain the same values) will the values be overwritten.

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Note that hashCode() in Java is not necessarily unique, it just has some carefully chosen semantics in conjunction with equals(). – Joey Aug 9 '09 at 21:47
And as posted below the Python's hash() has exactly the same semantics as java.lang.Object.hashcode(). – ilya n. Aug 9 '09 at 21:50
up vote 43 down vote accepted

will do the trick for you. But I'm curious, what's wrong about the set of objects (which does combine objects by value)?

For your particular problem I would probably keep the set of ids or of wrapper objects. A wrapper object will contain one reference and compare by x==y <==> x.ref is y.ref.

It's also worth noting that Python objects have a hash function as well. This function is necessary to put an object into a set or dictionary. It is supposed to sometimes collide for different objects, though good implementations of hash try to make it less likely.

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That's what "is" is for.

Instead of testing "if a == b", which tests for the same value,

test "if a is b", which will test for the same identifier.

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Would it be accurate to say that Python's "is" is like Java's "==" and Python's "==" is like Java's "equals()"? – MatrixFrog Aug 9 '09 at 21:59
@MatrixFrog Yes. – Imagist Aug 9 '09 at 22:19

As ilya n mentions, id(x) produces a unique identifier for an object.

But your question is confusing, since Java's hashCode method doesn't give a unique identifier. Java's hashCode works like most hash functions: it always returns the same value for the same object, two objects that are equal always get equal codes, and unequal hash values imply unequal hash codes. In particular, two different and unequal objects can get the same value.

This is confusing because cryptographic hash functions are quite different from this, and more like (though not exactly) the "unique id" that you asked for.

The Python equivalent of Java's hashCode method is hash(x).

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That's why I explicitly mentioned java.lang.Object's hashcode method. Which, by default, produces a unique long for that object. I realize the other implementations of hashcode can, and do, differ. – oneself Aug 10 '09 at 11:45
But that's the point: hashCode doesn't produce a unique long. It produces longs which try hard not to collide, but you can't map strings to longs and produce a unique value. – Ned Batchelder Aug 10 '09 at 11:48
...and old thread I know. But I did want to point out that id() is unique only while both objects still exists. Once freed, the id may be assigned to another object per "Two objects with non-overlapping lifetimes may have the same id() value." link – Robert Lugg Mar 14 at 16:47

You don't have to compare objects before placing them in a set. set() semantics already takes care of this.

   class A(object): 
     a = 10 
     b = 20 
     def __hash__(self): 
        return hash((self.a, self.b)) 

   a1 = A()
   a2 = A()
   a3 = A()
   a4 = a1
   s = set([a1,a2,a3,a4])
=> set([<__main__.A object at 0x222a8c>, <__main__.A object at 0x220684>, <__main__.A object at 0x22045c>])

Note: You really don't have to override hash to prove this behaviour :-)

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Your solution depends on the kind of class that is inherited from: class B(str): pass if called with set([B(), B()]) leads to set(['']). Identification from dictionaries usually implicitly depends on id(x) for objects, you should just use it explicitly and avoid corner cases. – Arne Recknagel Nov 19 '15 at 14:36

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