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I see patterns like

def __init__(self, x, y, z):
    self.x = x
    self.y = y
    self.z = z

quite frequently, often with a lot more parameters. Is there a good way to avoid this type of tedious repetitiveness? Should I inherit from namedtuple?

share|improve this question
Not all receptiveness is bad. Keep in mind that Python's class model doesn't include explicit definition of instance attributes, so these assignments are the self-documenting equivalents. – chepner Feb 4 at 1:33
@chepner: Well, doesn't require explicit definition. You can use __slots__ for the purpose though; it's mildly unpythonic (more verbose to get memory savings), but I like it largely to avoid the risk of auto-vivifying a whole new attribute if I typo the name. – ShadowRanger Feb 4 at 3:30
Any good editor will have templates. You type ini <shortcut> x, y, z): <shortcut> and you are done. – Gerenuk Feb 4 at 5:52
Namedtuples are awesome, if you want an immutable value object. If you want a regular, mutable class, you can't use them. – RemcoGerlich Feb 4 at 15:16
"Don't" is a good option, any option available will kill the method signature (and thus potentially the whole interface). Besides, if your classes have a unbearable amount of fields to initialize, you might want to consider splitting them. – Kroltan Feb 5 at 0:13
up vote 83 down vote accepted

A decorator solution that keeps the signature:

import decorator
import inspect
import sys

def simple_init(func, self, *args, **kws):
    def __init__(self,a,b,...,z)

    behaves like

    def __init__(self,a,b,...,z)
        self.a = a
        self.b = b
        self.z = z

    #init_argumentnames_without_self = ['a','b',...,'z']
    if sys.version_info.major == 2:
        init_argumentnames_without_self = inspect.getargspec(func).args[1:]
        init_argumentnames_without_self = tuple(inspect.signature(func).parameters.keys())[1:]

    positional_values = args
    keyword_values_in_correct_order = tuple(kws[key] for key in init_argumentnames_without_self if key in kws)
    attribute_values = positional_values + keyword_values_in_correct_order

    for attribute_name,attribute_value in zip(init_argumentnames_without_self,attribute_values):

    # call the original __init__
    func(self, *args, **kws)

class Test():
    def __init__(self,a,b,c,d=4):

#prints 1 3 2 4
t = Test(1,c=2,b=3)
#keeps signature
#prints ['self', 'a', 'b', 'c', 'd']
if sys.version_info.major == 2:
share|improve this answer
nice answer, but won't work with python2.7: no signature – MaxB Feb 4 at 13:56
@alexis the "decorator.decorator" decorator automatically wraps the function – Siphor Feb 4 at 16:38
I'm quite torn about whether to love this or hate it. I do appreciate preserving the signature. – Kyle Strand Feb 4 at 21:20
"... Explicit is better than implicit. Simple is better than complex. ..." -Zen of Python – Jack Stout Feb 9 at 23:35
-1 Quite frankly this is horrible. I have no idea what this code is doing at a glance, and it's literally ten times the amount of code. Being clever feels cool and all, but this is a misuse of your obvious cleverness. – Ian Newson Feb 10 at 21:21


It seems that several people are concerned about presenting this solution, so I will provide a very clear disclaimer. You should not use this solution. I only provide it as information, so you know that the language is capable of this. The rest of the answer is just showing language capabilities, not endorsing using them in this way.


There isn't really anything wrong with explicitly copying parameters into attributes. If you have too many parameters in the ctor, it is sometimes considered a code smell and maybe you should group these params into a fewer objects. Other times, it is necessary and there is nothing wrong with it. Anyway, doing it explicitly is the way to go.

However, since you are asking HOW it can be done (and not whether it should be done), then one solution is this:

class A:
    def __init__(self, **kwargs):
        for key in kwargs:
          setattr(self, key, kwargs[key])

a = A(l=1, d=2)
a.l # will return 1
a.d # will return 2
share|improve this answer
good answer +1 ... although self.__dict__.update(kwargs) might be marginally more pythonic – Joran Beasley Feb 4 at 1:30
The problem with this approach is that there is no record of what arguments A.__init__ actually expects, and no error checking for mistyped argument names. – MaxB Feb 4 at 3:09
@JoranBeasley Updating the instance dictionary blindly with kwargs leaves you open to the equivalent of an SQL injection attack. If your object has a method named my_method and you pass an argument named my_method to the constructor, then update() the dictionary, you just overwrote the method. – Pedro Feb 4 at 4:47
As others said, the suggestion is really poor programming style. It hides crucial information. You can show it, but you should explicitely discourage the OP from using it. – Gerenuk Feb 4 at 5:51
@Pedro Is there any semantic difference between gruzczy's and JoranBeasley's syntax? – gerrit Feb 4 at 8:26

As others have mentioned, the repetition isn't bad, but in some cases a namedtuple can be a great fit for this type of issue. This avoids using locals() or kwargs, which are usually a bad idea.

from collections import namedtuple
# declare a new object type with three properties; x y z
# the first arg of namedtuple is a typename
# the second arg is comma-separated or space-separated property names
XYZ = namedtuple("XYZ", "x, y, z")

# create an object of type XYZ. properties are in order
abc = XYZ("one", "two", 3)
print abc.x
print abc.y
print abc.z

I've found limited use for it, but you can inherit a namedtuple as with any other object (example continued):

class MySuperXYZ(XYZ):
    """ I add a helper function which returns the original properties """
    def properties(self):
        return self.x, self.y, self.z

abc2 = MySuperXYZ(4, "five", "six")
print abc2.x
print abc2.y
print abc2.z
share|improve this answer
These are tuples, so your properties method can be written as just return tuple(self), which is more maintainable if in future more fields are added to the namedtuple definition. – Paul McGuire Feb 4 at 3:52
Also, your namedtuple declaration string does not require commas between the fieldnames, XYZ = namedtuple("XYZ", "x y z") works just as well. – Paul McGuire Feb 4 at 3:55
Thanks @PaulMcGuire. I was trying to think of a really simple add-on to show the inheritance and kind of spaced on that. You're 100% right and it's a great shorthand with other inherited objects, too! I do mention the field names can be comma or space separated -- I prefer CSV from habit – A Small Shell Script Feb 4 at 3:56
I often use namedtuples for this exact purpose, especially in mathematical code where a function might be highly parametrised and have a bunch of coefficients that only make sense together. – detly Feb 4 at 5:03
The problem with namedtuple is that they are read-only. You can not do abc.x += 1 or anything like that. – hamstergene Feb 4 at 11:26

explicit is better than implicit ... so sure you could make it more concise:

def __init__(self,a,b,c):
    for k,v in locals().items():
        if k != "self":

The better question is should you?

... that said if you want a named tuple I would recommend using a namedtuple (remember tuples have certain conditions attached to them) ... perhaps you want an ordereddict or even just a dict ...

share|improve this answer
Then the object will need cyclic garbage collection since it has itself as an attribute – John La Rooy Feb 4 at 1:30
thanks gribbler ... fixed :P – Joran Beasley Feb 4 at 1:32
that's gnibbler – bernie Feb 4 at 1:38
@bernie (or is it bemie?), sometimes ke r ning is hard – cat Feb 4 at 2:25
For slightly more efficient tests, if k != "self": could be changed to if v is not self:, cheap identity test, rather than string comparison. I suppose technically __init__ could be called a second time after construction and passed self as a subsequent argument, but I really don't want to think what sort of monster would do that. :-) – ShadowRanger Feb 4 at 3:32

To expand on gruszczys answer, I have used a pattern like:

class X:
    x = None
    y = None
    z = None
    def __init__(self, **kwargs):
        for (k, v) in kwargs.items():
            if hasattr(self, k):
                setattr(self, k, v)
                raise TypeError('Unknown keyword argument: {:s}'.format(k))

I like this method because it:

  • avoids repetition
  • is resistant against typos when constructing an object
  • works well with subclassing (can just super().__init(...))
  • allows for documentation of the attributes on a class-level (where they belong) rather than in X.__init__

It could probably be improved upon a bit, but I'm the only user of my own code so I am not worried about any form of input sanitation.

share|improve this answer
Why the downvote? – gerrit Feb 10 at 19:50

You could also do:

locs = locals()
for arg in inspect.getargspec(self.__init__)[0][1:]:
    setattr(self, arg, locs[arg])

Of course, you would have to import the inspect module.

share|improve this answer

This is a solution without any additional imports.

Helper function

A small helper function makes it more convenient and re-usable:

def auto_init(local_name_space):
    """Set instance attributes from arguments.
    self = local_name_space.pop('self')
    for name, value in local_name_space.items():
        setattr(self, name, value)


You need to call it with locals():

class A:
    def __init__(self, x, y, z):


a = A(1, 2, 3)


{'y': 2, 'z': 3, 'x': 1}
share|improve this answer

My 0.02$. It is very close to Joran Beasley answer, but more elegant:

def __init__(self, a, b, c, d, e, f):
    vars(self).update((k, v) for k, v in locals().items() if v is not self)

Additionally, Mike Müller's answer (the best one to my taste) can be reduced with this technique:

def auto_init(ns):
    self = ns.pop('self')

And the just call auto_init(locals()) from your __init__

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It's a natural way to do things in Python. Don't try to invent something more clever, it will lead to overly clever code that no one on your team will understand. If you want to be a team player and then keep writing it this way.

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