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It looks like this or this are somewhat related threads, but still haven't figured things out :)

I'm trying to create a subclass of namedtuple and provide different initializers so that I can construct objects in different ways. For example:

>>> from collections import namedtuple
>>> class C(namedtuple("C", "x, y")) :
...     __slots__ = ()
...     def __init__(self, obj) : # Initialize a C instance by copying values from obj
...         self.x = obj.a
...         self.y = obj.b
...     def __init__(self, x, y) : # Initialize a C instance from the parameters
...         self.x = x
...         self.y = y

However, that doesn't work:

>>> c = C(1, 2)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 7, in __init__
AttributeError: can't set attribute

After some poking around (for example, see this thread) I tried to use constructors instead of initializers:

>>> from collections import namedtuple
>>> class C(namedtuple("C", "x, y")) :
...     __slots__ = ()
...     def __new__(cls, obj) :
...       self = super(C, cls).__new__(cls, obj.a, obj.b)
...     def __new__(cls, x, y) :
...       self = super(C, cls).__new__(cls, x, y)

which seemed to construct an object but then I can't read its attributes:

>>> c = C(1,2)
>>> c.x, c.y
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: 'NoneType' object has no attribute 'x'

Where am I going wrong here? How can I create a subclass with multiple constructors or initializers?

share|improve this question
    
Why do you have double __init__ and __new__ methods? Only the second one counts, it overwrites the first. Python does not 'overload' method signatures. –  Martijn Pieters Oct 8 '13 at 20:30
    
No overloading... So that means that my original goal of creating instances of C in different ways (depending on overloaded constructors) is not actually doable? –  Jens Oct 8 '13 at 20:33
    
It is perfectly doable, just using different paradigms. –  Martijn Pieters Oct 8 '13 at 20:48
    
See my comment below, under your answer. You say it's doable using factory methods, but not using multiple "constructors"? –  Jens Oct 8 '13 at 23:03
    
You can use just one constructor, but the constructor can vary behaviour based on the arguments you pass in. –  Martijn Pieters Oct 8 '13 at 23:05

2 Answers 2

up vote 6 down vote accepted

Named tuples are immutable, so you cannot manipulate them in the __init__ initializer. Your only option is to override the __new__ method:

class C(namedtuple('C', 'x, y')):
    __slots__ = ()
    def __new__(cls, obj):
        return super(C, cls).__new__(cls, obj.x, obj.y)

Note that because __new__ is a factory method for new instances, you do need to return the newly created instance. If you do not use return in the __new__ method, the default return value is None, which gives you your error.

Demo with an object with x and y attributes:

>>> class C(namedtuple('C', 'x, y')):
...     __slots__ = ()
...     def __new__(cls, obj):
...         return super(C, cls).__new__(cls, obj.x, obj.y)
... 
>>> O.x, O.y
(10, 20)
>>> C(O)
C(x=10, y=20)

Python does not support method overloading; generally you either use optional keyword arguments or extra class methods as factory methods.

The datetime module, for example, has several such factory methods to let you create objects that do not fit the standard constructor. datetime.datetime.fromtimestamp() creates a datetime.datetime instance from a single numeric value, and so does datetime.datetime.fromordinal(); except that they interpret the number in different ways.

If you wanted to support variable arguments, do:

class C(namedtuple('C', 'x, y')):
    __slots__ = ()

    def __new__(cls, x, y=None):
        if y is None:
            # assume attributes
            x, y = x.x, x.y
        return super(C, cls).__new__(cls, x, y)

Here, y is an optional argument, defaulting to None if not supplied by the caller:

>>> C(3, 5):
C(x=3, y=5)
>>> C(O)
C(x=10, y=20)

The alternative, using a class method, would be:

class C(namedtuple('C', 'x, y')):
    @classmethod
    def from_attributes(cls, obj):
        return cls(obj.x, obj.y)

Now there are two factory methods; one default and one named:

>>> C(3, 5):
C(x=3, y=5)
>>> C.from_attributes(O)
C(x=10, y=20)
share|improve this answer
    
Thank you Martijn. Without overloading I've decided to use a constructor (which receives x and y) and a second factory method (which receives an obj). Not pretty, perhaps I prefer the C++ style constructor overloading, but I guess that's as much as I can do with Python. –  Jens Oct 8 '13 at 23:02
    
Should that be an if y is None: above? –  Jens Oct 8 '13 at 23:26
    
Indeed, it should be; apologies. –  Martijn Pieters Oct 9 '13 at 6:26

Two things: one, you're not really getting much out of namedtuple here, as far as i can tell. So maybe you should just switch to a normal class. Also, you can't overload the

Second, other possibilities which might help with your problem:

Factory design pattern - instead of putting the different parameters in the constructor, have a class that takes different kinds of parameters and calls the constructor with appropriate arguments, outside the object. recordtype - a mutable namedtuple, that allows defaults but would also let you write your subclass the way you originally wanted. bunch - not exactly a named tuple, but lets you create somewhat arbitrary objects.

share|improve this answer
    
Thanks for the links, these are good references! –  Jens Oct 8 '13 at 22:59

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