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Lets say I have a library function that I cannot change that produces an object of class A, and I have created a class B that inherits from A.

What is the most straightforward way of using the library function to produce an object of class B?

edit- I was asked in a comment for more detail, so here goes:

PyTables is a package that handles hierarchical datasets in python. The bit I use most is its ability to manage data that is partially on disk. It provides an 'Array' type which only comes with extended slicing, but I need to select arbitrary rows. Numpy offers this capability - you can select by providing a boolean array of the same length as the array you are selecting from. Therefore, I wanted to subclass Array to add this new functionality.

In a more abstract sense this is a problem I have considered before. The usual solution is as has already been suggested- Have a constructor for B that takes an A and additional arguments, and then pulls out the relevant bits of A to insert into B. As it seemed like a fairly basic problem, I asked to question to see if there were any standard solutions I wasn't aware of.

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Could you add more detail on why you want to do this? –  Kiv Feb 28 '09 at 0:44

4 Answers 4

up vote 10 down vote accepted

Since the library function returns an A, you can't make it return a B without changing it.

One thing you can do is write a function to take the fields of the A instance and copy them over into a new B instance:

class A: # defined by the library
    def __init__(self, field):
        self.field = field

class B(A): # your fancy new class
    def __init__(self, field, field2):
        self.field = field
        self.field2 = field2 # B has some fancy extra stuff

def b_from_a(a_instance, field2):
    """Given an instance of A, return a new instance of B."""
    return B(a_instance.field, field2)

a = A("spam") # this could be your A instance from the library
b = b_from_a(a, "ham") # make a new B which has the data from a

print b.field, b.field2 # prints "spam ham"

Edit: depending on your situation, composition instead of inheritance could be a good bet; that is your B class could just contain an instance of A instead of inheriting:

class B2: # doesn't have to inherit from A
    def __init__(self, a, field2):
        self._a = a # using composition instead
        self.field2 = field2

    def field(self): # pass accesses to a
        return self._a.field
    # could provide setter, deleter, etc

a = A("spam")
b = B2(a, "ham")

print b.field, b.field2 # prints "spam ham"
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Python objects know their class by setting the .__class__ attribute. You can actually set it to something else: stackoverflow.com/a/29256784/1423333 –  Jörn Hees Mar 25 at 13:52
I'm upvoting using a @property to pull the data from self._a. Composition lends itself to writing pure methods which are vastly easier to unittest. Inheritance is NOT wrong and it really depends on your use case. But my experience says composition tends to be easier to deal with long term. –  srock Apr 13 at 15:03

This can be done if the initializer of the subclass can handle it, or you write an explicit upgrader. Here is an example:

class A(object):
    def __init__(self):
        self.x = 1

class B(A):
    def __init__(self):
        super(B, self).__init__()
    def _init_B(self):
        self.x += 1

a = A()
b = a
b.__class__ = B

assert b.x == 2
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Monkeypatch the library?

For example,

import other_library
other_library.function_or_class_to_replace = new_function

Poof, it returns whatever you want it to return.

Monkeypatch A.new to return an instance of B?

After you call obj = A(), change the result so obj.class = B?

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you can actually change the .__class__ attribute of the object if you know what you're doing:

In [1]: class A(object):
   ...:     def foo(self):
   ...:         return "foo"

In [2]: class B(object):
   ...:     def foo(self):
   ...:         return "bar"

In [3]: a = A()

In [4]: a.foo()
Out[4]: 'foo'

In [5]: a.__class__
Out[5]: __main__.A

In [6]: a.__class__ = B

In [7]: a.foo()
Out[7]: 'bar'
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