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I do not know python very much (never used it before :D), but I can't seem to find anything online. Maybe I just didn't google the right question, but here I go:

I want to change an instance's implementation of a specific method. When I googled for it, I found you could do it, but it changes the implementation for all other instances of the same class, for example:

def showyImp(self):
    print self.y

class Foo:
    def __init__(self):
        self.x = "x = 25"
        self.y = "y = 4"

    def showx(self):
        print self.x

    def showy(self):
         print "y = woohoo"

class Bar:
    def __init__(self):
        Foo.showy = showyImp
        self.foo = Foo()

    def show(self):
        self.foo.showx()
        self.foo.showy()

if __name__ == '__main__':
    b = Bar()
    b.show()
    f = Foo()
    f.showx()
    f.showy()

This does not work as expected, because the output is the following:

x = 25

y = 4

x = 25

y = 4

And I want it to be:

x = 25

y = 4

x = 25

y = woohoo

I tried to change Bar's init method with this:

def __init__(self):
    self.foo = Foo()
    self.foo.showy = showyImp

But I get the following error message:

showyImp() takes exactly 1 argument (0 given)

So yeah... I tried using setattr(), but seems like it's the same as self.foo.showy = showyImp.

Any clue? :)

share|improve this question
2  
Is there a particular reason you're not doing this with inheritance? –  Jack M. Oct 30 '09 at 1:50
1  
Yes, because I have very limited access to the created object. I'm not the one creating it (hence the non-possibility of inheritance), and I cannot modify the original object's code (also because it would not make sense anyway, I need to change the method only in a context that is completely different from what the object is initaly intended for :). –  naixn Oct 30 '09 at 2:56

6 Answers 6

up vote 11 down vote accepted

Everything you wanted to know about Python Attributes and Methods.

Yes, this is an indirect answer, but it demonstrates a number of techniques and explains some of the more intricate details and "magic".

For a "more direct" answer, consider python's new module. In particular, look at the instancemethod function which allows "binding" a method to an instance -- in this case, that would allow you to use "self" in the method.

import new
class Z(object):
  pass
z = Z() 
def method(self):
  return self
z.q = new.instancemethod(method, z, None)
z is z.q()  # true
share|improve this answer
    
Thanks a lot, exactly what I was looking for, and works like a charm :) –  naixn Oct 30 '09 at 2:54

If you're binding to the instance, you shouldn't include the self argument:

>>> class foo(object):
...     pass
... 
>>> def donothing():
...     pass
... 
>>> f = foo()
>>> f.x = donothing
>>> f.x()
>>>

You do need the self argument if you're binding to a class though:

>>> def class_donothing(self):
...     pass
... 
>>> foo.y = class_donothing
>>> f.y()
>>>
share|improve this answer
    
I need to bind to the instance, and I need access to "self", and I cannot modify the existing call-procedure of the method, which is why I cannot do self.foo.showy(self.foo) –  naixn Oct 30 '09 at 2:57

If you ever need to do it for a special method (which, for a new-style class -- which is what you should always be using and the only kind in Python 3 -- is looked up on the class, not the instance), you can just make a per-instance class, e.g....:

self.foo = Foo()
meths = {'__str__': lambda self: 'peekaboo!'}
self.foo.__class__ = type('yFoo', (Foo,), meths)

Edit: I've been asked to clarify the advantages of this approach wrt new.instancemethod...:

>>> class X(object): 
...   def __str__(self): return 'baah'
... 
>>> x=X()
>>> y=X()
>>> print x, y
baah baah
>>> x.__str__ = new.instancemethod(lambda self: 'boo!', x)
>>> print x, y
baah baah

As you can see, the new.instancemethod is totally useless in this case. OTOH...:

>>> x.__class__=type('X',(X,),{'__str__':lambda self:'boo!'})
>>> print x, y
boo! baah

...assigning a new class works great for this case and every other. BTW, as I hope is clear, once you've done this to a given instance you can then later add more method and other class attributes to its x.__class__ and intrinsically affect only that one instance!

share|improve this answer
    
What would be the advantage of this method compared to using new. instancemethod? –  naixn Oct 30 '09 at 6:11
    
The latter approach just doesn't work for special methods in new-style classes, as I said, while this one is general. Let me edit the answer to show an example. –  Alex Martelli Oct 30 '09 at 15:21
    
Ah ok I see! Thanks a lot for the info. It's interesting :). –  naixn Oct 31 '09 at 1:37

Since Python 2.6, you should use the types module's MethodType class:

from types import MethodType

class A(object):
    def m(self):
        print 'aaa'

a = A()

def new_m(self):
    print 'bbb'

a.m = MethodType(new_m, a)

As another answer pointed out, however, this will not work for 'magic' methods of new-style classes, such as __str__().

share|improve this answer

Do Not Do This.

Changing one instance's methods is just wrong.

Here are the rules of OO Design.

  1. Avoid Magic.

  2. If you can't use inheritance, use delegation.

That means that every time you think you need something magic, you should have been writing a "wrapper" or Facade around the object to add the features you want.

Just write a wrapper.

share|improve this answer
    
My comment was too long for SO, so here is a pastie: pastie.org/677619 :) –  naixn Oct 31 '09 at 1:31
    
@naixn: It's your question. You own the question. You can update the question. If you update the question to contain ALL the facts, you do not have to resort to out-of-band messages. Please update the question with the elaborate justification for a fundamentally flawed design. Your explanation amounts to "I don't want to wrap and delegate." (1) Please UPDATE your question, (2) Please reconsider your flawed design. –  S.Lott Oct 31 '09 at 12:49

Your example is kind of twisted and complex, and I don't quite see what it has to do with your question. Feel free to clarify if you like.

However, it's pretty easy to do what you're looking to do, assuming I'm reading your question right.

class Foo(object):
    def bar(self):
        print('bar')

def baz():
    print('baz')

In an interpreter ...

>>> f = Foo()
>>> f.bar()
bar
>>> f.bar = baz
>>> f.bar()
baz
>>> g = Foo()
>>> g.bar()
bar
>>> f.bar()
baz
share|improve this answer
    
The problem with this solution is that it does not use self (as a parameter), which I do need, and I can't do f.bar(f), mainly because I don't want to (it looks very anti-pattern like). –  naixn Oct 30 '09 at 2:59
    
Ah, I understand. –  hanksims Oct 30 '09 at 4:31

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