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I've tried some code about bound and unbound methods. When we call them, I think both of them would return objects. But when I use id() for getting some information, it returns something I don't understand.

IDE: Eclipse Plugin: pydev

Class C(object):
    def foo(self):

cobj = C()

print id(C.foo)    #1
print id(cobj.foo) #2

a = C.foo
b = cobj.foo

print id(a)        #3
print id(b)        #4

and the output is..





Why do #1 and #2 return the same id, aren't they different objects? And if we assign C.foo and conj.foo to two variables, #3 and #4 return the different id.

I think #3 and #4 show that they are not the same object, but #1 and #2...

What is the difference between the id of bound method, and an unbound method?

share|improve this question
up vote 32 down vote accepted

Whenever you look up a method via class.name or instance.name, the method object is created a-new. Python uses the descriptor protocol to wrap the function in a method object each time.

So, when you look up id(C.foo), a new method object is created, you retrieve it's id (a memory address), then discard the method object again. Then you look up id(cobj.foo), a new method object created that re-uses the now freed memory address and you see the same value. The method is then, again, discarded (garbage collected as the reference count drops to 0).

Next, you stored a reference to the C.foo unbound method in a variable. Now the memory address is not freed (the reference count is 1, instead of 0), and you create a second method instance by looking up cobj.foo which has to use a new memory location. Thus you get two different values.

See the documentation for id():

Return the “identity” of an object. This is an integer (or long integer) which is guaranteed to be unique and constant for this object during its lifetime. Two objects with non-overlapping lifetimes may have the same id() value.

CPython implementation detail: This is the address of the object in memory.

Emphasis mine.

You can re-create a method using a direct reference to the function via the __dict__ attribute of the class, then calling the __get__ descriptor method:

>>> class C(object):
...     def foo(self):
...         pass
>>> C.foo
<unbound method C.foo>
>>> C.__dict__['foo']
<function foo at 0x1088cc488>
>>> C.__dict__['foo'].__get__(None, C)
<unbound method C.foo>
>>> C.__dict__['foo'].__get__(C(), C)
<bound method C.foo of <__main__.C object at 0x1088d6f90>>

Note that in Python 3, the whole unbound / bound method distinction has been dropped; you get a function where before you'd get an unbound method, and a method otherwise, where a method is always bound:

>>> C.foo
<function C.foo at 0x10bc48dd0>
>>> C.foo.__get__(None, C)
<function C.foo at 0x10bc48dd0>
>>> C.foo.__get__(C(), C)
<bound method C.foo of <__main__.C object at 0x10bc65150>>
share|improve this answer
+1 never knew about the memory address thing. – Ashwini Chaudhary Nov 12 '12 at 17:21
@AshwiniChaudhary: It's an implementation detail of CPython; other python implementations probably use a different value for id(). – Martijn Pieters Nov 12 '12 at 17:24
Thanks, you let me know more about bound and unbound method. Thanks again!!! – Mike Hung Nov 12 '12 at 17:25
Possibly nicer on the eyes: MethodType(vars(C)['foo'], C(), C). But it's not as if code like this should be commonplace. – eryksun Nov 13 '12 at 17:03
@eryksun: My point was to illustrate how python creates the method in the first place; to show that it is not created once for a class then retrieved each time. Using types.MethodType() would defeat that purpose. – Martijn Pieters Nov 13 '12 at 17:06

Adding to @Martijn Pieters's very good answer:

In [140]: class C(object):
        def foo(self):

In [141]: c=C()

In [142]: id(c.foo),id(C.foo)    
Out[142]: (149751844, 149751844)  #so 149751844 is current free memory address

In [143]: a=c.foo                #now 149751844 is assigned to a

In [144]: id(a)              
Out[144]: 149751844

#now python will allocate some different address to c.foo and C.foo     

In [145]: id(c.foo),id(C.foo)       # different address used this time,and 
                                    # that address is freed after this step
Out[145]: (149752284, 149752284)

#now 149752284 is again free, as it was not allocated to any variable

In [146]: b=C.foo                 #now 149752284 is allocated to b    

In [147]: id(b)
Out[147]: 149752284                

In [148]: c.foo is C.foo      #better use `is` to compare objects, rather than id()   
Out[148]: False
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