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I'm trying to convert a longish hollow "data" class into a named tuple. My class currently looks like this:

class Node(object):
    def __init__(self, val, left=None, right=None):
        self.val = val
        self.left = left
        self.right = right

After conversion to namedtuple it looks like:

from collections import namedtuple
Node = namedtuple('Node', 'val left right')

But there is a problem here. My original class allowed me to pass in just a value and took care of the default by using default values for the named/keyword arguments. Something like:

class BinaryTree(object):
    def __init__(self, val):
        self.root = Node(val)

But this doesn't work in the case of my refactored named tuple since it expects me to pass all the fields. I can of course replace the occurrences of Node(val) to Node(val, None, None) but it isn't to my liking.

So does there exist a good trick which can make my re-write successful without adding a lot of code complexity (metaprogramming) or should I just swallow the pill and go ahead with the "search and replace"? :)

-- sauke

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Why do you want to make this conversion? I like your original Node class just the way it is. Why convert to named tuple? –  steveha Jul 5 '12 at 19:29
I wanted to make this conversion because the current Node and other classes are simple data-holder value objects with a bunch of different fields (Node is just one of them). These class declarations are nothing much more than line noise IMHO hence wanted to trim them out. Why maintain something which isn't required? :) –  sasuke Jul 5 '12 at 19:33
You don't have any method functions on your classes at all? You don't, for example, have a .debug_print() method that walks the tree and prints it? –  steveha Jul 5 '12 at 20:09
Sure I do, but that's for the BinaryTree class. Node and other data holders don't require such special methods esp given that named tuples have a decent __str__ and __repr__ representation. :) –  sasuke Jul 5 '12 at 21:11
Okay, seems reasonable. And I think Ignacio Vazquez-Abrams has given you the answer: use a function that does the default values for your node. –  steveha Jul 6 '12 at 0:27

9 Answers 9

up vote 61 down vote accepted

I subclassed namedtuple and overrode the __new__ method:

from collections import namedtuple

class Node(namedtuple('Node', ['value', 'left', 'right'])):
    def __new__(cls, value=None, left=None, right=None):
        return super(Node, cls).__new__(cls, value, left, right)

This preserves an intuitive type hierarchy, which the creating a factory function disguised as a class does not.

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not sure why you've been down-voted: this seems like the most-correct answer. One correction: I think to be completely consistent with the question, the value arg shouldn't have a default value. I edited your answer to make the change and expand the explanation -- my changes are awaiting moderation. –  Gabriel Grant Jul 7 '13 at 22:19
Not sure why your edit was rejected, I do not have enough reputation to approve it. –  justinfay Jul 9 '13 at 8:21
This is quite nice and novel way of doing it. +1 and accepted! –  sasuke Jul 13 '13 at 15:03
SO has a minimum character limit, so I had added an expanded explanation in addition to just fixing the code. I've submitted a minimal fix to the code with a smaller explanation. Hopefully that will get through. @Rob, @Łukasz Niemier and @Daryl Gill care to comment on why you rejected the change? "This edit introduces spam, defaces the post in some way, or is otherwise inappropriate." isn't very informative. –  Gabriel Grant Jul 17 '13 at 11:58
This might need slots and fields properties in order to maintain the space efficiency of a named tuple. –  Pepijn Apr 7 '14 at 9:16

Wrap it in a function.

NodeT = namedtuple('Node', 'val left right')

def Node(val, left=None, right=None):
  return NodeT(val, left, right)
share|improve this answer
+1; A smart compromise I think in this case. –  sasuke Jul 5 '12 at 21:12
+1. I can't think of any other solution that is better or even as good. –  steveha Jul 6 '12 at 0:28
This is clever, and can be a good option, but can also cause problems by breaking isinstance(Node('val'), Node): it will now raise an exception, rather than returning True. While a bit more verbose, @justinfay's answer (below) preserves type hierarchy information properly, so is probably a better approach if others are going to interact with Node instances. –  Gabriel Grant Jul 7 '13 at 22:04

Set Node.__new__.__defaults__ (or Node.__new__.func_defaults before Python 2.6) to the default values.

>>> from collections import namedtuple
>>> Node = namedtuple('Node', 'val left right')
>>> Node.__new__.__defaults__ = (None, None, None)

Here's a nice wrapper for you, which even lets you (optionally) set the default values to something other than None:

import collections
def namedtuple_with_defaults(typename, field_names, default_values=[]):
    T = collections.namedtuple(typename, field_names)
    T.__new__.__defaults__ = (None,) * len(T._fields)
    if isinstance(default_values, collections.Mapping):
        prototype = T(**default_values)
        prototype = T(*default_values)
    T.__new__.__defaults__ = tuple(prototype)
    return T


>>> Node = namedtuple_with_defaults('Node', 'val left right')
>>> Node()
Node(val=None, left=None, right=None)
>>> Node = namedtuple_with_defaults('Node', 'val left right', [1, 2, 3])
>>> Node()
Node(val=1, left=2, right=3)
>>> Node = namedtuple_with_defaults('Node', 'val left right', {'right':7})
>>> Node()
Node(val=None, left=None, right=7)
>>> Node(4)
Node(val=4, left=None, right=7)
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Let's see...your one-liner: a) is the shortest/simplest answer, b) preserves space efficiency, c) doesn't break isinstance ...all pros, no cons...too bad you were a little late to the party. This is the best answer. –  Gerrat May 2 '14 at 13:39
One problem with the wrapper version: unlike the builtin collections.namedtuple, this version is not pickleable/multiprocess serializable if the def() is included in a different module. –  Michael Scott Cuthbert Jun 22 '14 at 11:03
I have given this answer an upvote as it is preferable to my own. Its a pity however that my own answer keeps getting upvoted :| –  justinfay Mar 16 at 21:51

I'm not sure if there's an easy way with just the built-in namedtuple. There's a nice module called recordtype that has this functionality:

>>> from recordtype import recordtype
>>> Node = recordtype('Node', [('val', None), ('left', None), ('right', None)])
>>> Node(3)
Node(val=3, left=None, right=None)
>>> Node(3, 'L')
Node(val=3, left=L, right=None)
share|improve this answer
Ah, not possible to use a third party package though recordtype certainly looks interesting for future work. +1 –  sasuke Jul 5 '12 at 19:31
The module is quite small and only a single file so you could always just add it to your project. –  jterrace Jul 5 '12 at 19:42
Fair enough, though I'll wait for some more time for a pure named tuple solution is there is one out there before marking this accepted! :) –  sasuke Jul 5 '12 at 19:43
Agreed pure python would be nice, but I don't think there is one :( –  jterrace Jul 5 '12 at 19:44
Just to note that recordtype is mutable whereas namedtuple is not. This might matter if you want the object to be hashable (which I guess you don't, since it started out as a class). –  bavaza Sep 3 '13 at 7:27

Here is a more compact version inspired by justinfay's answer:

from collections import namedtuple
from functools import partial

Node = namedtuple('Node', ('val left right'))
Node.__new__ = partial(Node.__new__, left=None, right=None)
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Beware that Node(1, 2) doesn't work with this recipe, but works in @justinfay's answer. Otherwise, it's quite nifty (+1). –  jorgeca Feb 20 '14 at 1:46
@jorgeca You're right, that is a problem. –  Gustav Larsson Feb 20 '14 at 5:19

You can also use this:

import inspect

def namedtuple_with_defaults(type, default_value=None, **kwargs):
    args_list = inspect.getargspec(type.__new__).args[1:]
    params = dict([(x, default_value) for x in args_list])

    return type(**params)

This basically gives you the possibility to construct any named tuple with a default value and override just the parameters you need, for example:

import collections

Point = collections.namedtuple("Point", ["x", "y"])
>>> Point(x=None, y=None)

namedtuple_with_defaults(Point, x=1)
>>> Point(x=1, y=None)
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A slightly extended example to initialize all missing arguments with None:

from collections import namedtuple

class Node(namedtuple('Node', ['value', 'left', 'right'])):
    def __new__(cls, *args, **kwargs):
        # initialize missing kwargs with None
        all_kwargs = {key: kwargs.get(key) for key in cls._fields}
        return super(Node, cls).__new__(cls, *args, **all_kwargs)
share|improve this answer

Combining approaches of @Denis and @Mark:

from collections import namedtuple
import inspect

class Node(namedtuple('Node', 'left right val')):
    def __new__(cls, *args, **kwargs):
        args_list = inspect.getargspec(super(Node, cls).__new__).args[len(args)+1:]
        params = {key: kwargs.get(key) for key in args_list + kwargs.keys()}
        return super(Node, cls).__new__(cls, *args, **params) 

That should support creating the tuple with positional arguments and also with mixed cases. Test cases:

>>> print Node()
Node(left=None, right=None, val=None)

>>> print Node(1,2,3)
Node(left=1, right=2, val=3)

>>> print Node(1, right=2)
Node(left=1, right=2, val=None)

>>> print Node(1, right=2, val=100)
Node(left=1, right=2, val=100)

>>> print Node(left=1, right=2, val=100)
Node(left=1, right=2, val=100)

>>> print Node(left=1, right=2)
Node(left=1, right=2, val=None)

but also support TypeError:

>>> Node(1, left=2)
TypeError: __new__() got multiple values for keyword argument 'left'
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I find this version easier to read:

from collections import namedtuple

def my_tuple(**kwargs):
    defaults = {
        'a': 2.0,
        'b': True,
        'c': "hello",
    default_tuple = namedtuple('MY_TUPLE', ' '.join(defaults.keys()))(*defaults.values())
    return default_tuple._replace(**kwargs)

This is not as efficient as it requires creation of the object twice but you could change that by defining the default duple inside the module and just having the function do the replace line.

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