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I can not understand following commented line. It's a python program.

class B:
 def bbb(self):
    method = self.commands[0]
    method(self) #I can't umderstand this line

class A(B):
    def aaa(self):
        print 'aaa was called'
    commands = [aaa]

c = A()

Output: aaa was called

I think above aaa method takes no arguments. But to run this code, I need to pass "self" to aaa argument. Why? Are there any docs explaining this?What category this problem belongs?

Any simple codes are very welcome. Because my English skill is too low. So improving this question is welcome too.

I encountered this problem, when I was reading cpython/Lib/distutils/

Thank you for reading.

share|improve this question
up vote 1 down vote accepted

The way the code sample is done makes it a little harder to tell what's going on. However, it's equivalent to:

child_methods = [] # a list of all the methods in `Child`

class Parent(object):
    def parent_method(self):
        print "parent_method() called"
        method = child_methods[0]

class Child(Parent):
    def child_method(self):
        print "child_method() called"

# add child_method to child_methods

As you can see, child_methods[0] will actually be the function Child.child_method, which is a plain function, and not a bound method. It's not associated with an instance of Child, which is why you can and have to pass in the self yourself. You'd get a bound method from a Child instance with:

child_obj = Child()
bound_child_method = child_obj.child_method

This is made unclear by the fact Python will look up attributes in the type of an object if they're not found in the instance. For example:

# A dummy class to hold attributes
class Foo(object):
    pass = 123 # we're adding an attribute to the type itself

foo1 = Foo()
print # prints 123 = 456 # this `bar` attribute "hides" the one on the type
print # prints 456
foo2 = Foo()
print # prints the 123 from the type again

This is why, in your code sample, commands is really a "global" variable, it just gets accessed confusingly through an instance of B. (This is not necessarily a bad practice if only objects of B or its children access this variable, but the lookup rules are a minor gotcha.)

share|improve this answer
Thank you.I understand "Unbound method" need to pass "self". – Kei Minagawa Oct 29 '13 at 14:27
Exactly. If you added a bound method to the list, using, say child_methods.append(Child().child_method), then that wouldn't be necessary - it'd use the Child instance you got it from. – millimoose Oct 29 '13 at 15:25
It is not the same. In the code in the question, there is NO unbound method access. The value of method is a regular function. – newacct Oct 30 '13 at 22:49
"commands is really a "global" variable" commands is an attribute of A (as well as B), not a global variable – newacct Oct 30 '13 at 22:50
@newacct That's why "global" is in quotes. I meant it as a counterpart to an instance attribute which has a lifetime bound to an object, where a class attribute can mostly be thought of as just being in a different namespace. (Yes, classes are also object of which there only usually happens to be only one instance in a program, and functions accessed through a class instance become unbound method objects, but this level of detail about Python's internals would IMO make things less clear, not more.) I'll change the bit about an unbound method since that's flat out wrong. – millimoose Oct 31 '13 at 10:37

Wow, this is confusingly written. Working backward from the code itself:

c = A()

Creates an instance of A. Looking at A:

def aaa(self):
    print 'aaa was called'
commands = [aaa]

This is a bit confusingly written; it makes more sense like this:

def aaa(self):
    print 'aaa was called'

commands = [aaa]

Defines a method aaa, then a class variable commands which contains aaa as an element. Now, looking at the next line of the program:


Since A has no bbb and A inherits from B, we consult B:

class B:
 def bbb(self):
    method = self.commands[0]

Since we've established that commands is [aaa], the first line means method = aaa. So the second line is effectively aaa(self).

share|improve this answer
Nice and detailed. – aIKid Oct 29 '13 at 11:54
Thank you.But Why 'aaa(self)' not 'aaa()'.In this code,'aaa()' won't work.It's my question. – Kei Minagawa Oct 29 '13 at 14:59
any method call on an object implicitly passes the object itself as the first parameter. Put another way, you can think of c.bbb() as B.bbb(c). In this case, you could rewrite aaa not to need self (aaa would then have no parameters, while bbb would need to call method() instead of method(self)) – Chad Miller Oct 29 '13 at 16:37
"the first line means method = aaa" Right, but aaa from what context? The variable aaa that you're referring to no longer exists at this point in the program. – newacct Oct 30 '13 at 22:52
@ChadMiller: on Python 2.x, you'll find that method != – newacct Oct 31 '13 at 22:12

This line:

method(self) #I can't umderstand this line

Calls the function aaa(). In your function declaration:

def aaa(self):

aaa does takes an argument (self). That's why you have to call it with method(self).

Since self.commands[0] is a function, calling method(self) is equal to:


Comment if you have something else to ask!

share|improve this answer
Thank you.It's True.I think Python automatically pass 'self' to first argument if its class method is bound method.But it's just my oppinion. – Kei Minagawa Oct 29 '13 at 14:49
Yes, it does that automatically. – aIKid Oct 29 '13 at 14:56

By the way it is better to use new-style classes, class A(object):...

All methods of class in python have self as first argument, except of class methods. Here is example about self:

def x(first, arg):
    print "Called x with arg=",arg
    print first

class A(object):
     some_method = x

a = A()

share|improve this answer
Thank you for your advice. – Kei Minagawa Oct 29 '13 at 14:42

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