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Although I have never needed this, it just struck me that making an immutable object in Python could be slightly tricky. You can't just override __setattr__, because then you can't even set attributes in the __init__. Subclassing a tuple is a trick that works:

class Immutable(tuple):

    def __new__(cls, a, b):
        return tuple.__new__(cls, (a, b))

    @property
    def a(self):
        return self[0]

    @property
    def b(self):
        return self[1]

    def __str__(self):
        return "<Immutable {0}, {1}>".format(self.a, self.b)

    def __setattr__(self, *ignored):
        return NotImplemented

    def __delattr__(self, *ignored):
        return NotImplemented

But then you have access to the a and b variables through self[0] and self[1], which is annoying.

Is this possible in Pure Python? If not, how would I do it with a C extension?

(Answers that work only in Python 3 are acceptable).

Update:

So subclassing tuple is the way to do it in Pure Python, which works well except for the additional possibility of accessing the data by [0], [1] etc. So, to complete this question all that is missing is howto do it "properly" in C, which I suspect would be quite simple, by just not implementing any geititem or setattribute, etc. But instead of doing it myself, I offer a bounty for that, because I'm lazy. :)

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2  
Doesn't your code facilitate access to the attributes via .a and .b? That's what the properties seems to exist for after all. –  Sven Marnach Jan 28 '11 at 12:33
1  
@Sven Marnach: Yes, but [0] and [1] still work, and why would they? I don't want them. :) Maybe the idea of an immutable object with attributes is nonsense? :-) –  Lennart Regebro Jan 28 '11 at 12:40
1  
Just another note: NotImplemented is only meant as a return value for rich comparisons. A return value for __setatt__() is rather pointless anyway, since you won't usually see it at all. Code like immutable.x = 42 will silently do nothing. You should raise a TypeError instead. –  Sven Marnach Jan 28 '11 at 16:01
1  
@Sven Marnach: OK, I was surprised, because I thought you could raise NotImplemented in this situation, but that gives a weird error. So I returned it instead, and it seemed to work. TypeError made obvious sense once I saw you used it. –  Lennart Regebro Jan 28 '11 at 19:36
1  
@Lennart: You could raise NotImplementedError, but TypeError is what a tuple raises if you try to modify it. –  Sven Marnach Jan 28 '11 at 20:29

11 Answers 11

up vote 51 down vote accepted

Yet another solution I just thought of: The simplest way to get the same behaviour as your original code is

Immutable = collections.namedtuple("Immutable", ["a", "b"])

It does not solve the problem that attributes can be accessed via [0] etc., but at least it's considerably shorter and provides the additional advantage of being compatible with pickle and copy.

namedtuple creates a type similar to what I described in this answer, i.e. derived from tuple and using __slots__. It is available in Python 2.6 or above.

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4  
The advantage of this variant compared to hand-written analog (even on Python 2.5 (using verbose parameter to namedtuple the code is easily generated)) is the single interface/implementation of a namedtuple is preferrable to dozens ever so slightly different hand-written interfaces/implementations that do almost the same thing. –  J.F. Sebastian Feb 1 '11 at 4:52
    
OK, you get the "best answer", because it's the easiest way of doing it. Sebastian gets the bounty for giving a short Cython implementation. Cheers! –  Lennart Regebro Feb 2 '11 at 12:39

The easiest way to do this is using __slots__:

class A(object):
    __slots__ = []

Instances of A are immutable now, since you can't set any attributes on them.

If you want the class instances to contain data, you can combine this with deriving from tuple:

from operator import itemgetter
class Point(tuple):
    __slots__ = []
    def __new__(cls, x, y):
        return tuple.__new__(cls, (x, y))
    x = property(itemgetter(0))
    y = property(itemgetter(1))

p = Point(2, 3)
p.x
# 2
p.y
# 3

Edit: If you want to get rid of indexing either, you can override __getitem__():

class Point(tuple):
    __slots__ = []
    def __new__(cls, x, y):
        return tuple.__new__(cls, (x, y))
    @property
    def x(self):
        return tuple.__getitem__(self, 0)
    @property
    def y(self):
        return tuple.__getitem__(self, 1)
    def __getitem__(self, item):
        raise TypeError

Note that you can't use operator.itemgetter for the properties in thise case, since this would rely on Point.__getitem__() instead of tuple.__getitem__(). Fuerthermore this won't prevent the use of tuple.__getitem__(p, 0), but I can hardly imagine how this should constitute a problem.

I don't think the "right" way of creating an immutable object is writing a C extension. Python usually relies on library implementers and library users being consenting adults, and instead of really enforcing an interface, the interface should be clearly stated in the documentation. This is why I don't consider the possibility of circumventing an overridden __setattr__() by calling object.__setattr__() a problem. If someone does this, it's on her own risk.

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1  
Wouldn't it be a better idea to use a tuple here, __slots__ = (), rather than __slots__ = []? (Just clarifying) –  user225312 Jan 28 '11 at 12:20
    
@sukhbir: I think this does not matter at all. Why would you prefer a tuple? –  Sven Marnach Jan 28 '11 at 12:24
1  
@Sven: I agree it wouldn't matter (except the speed part, which we can ignore), but I thought of it this way: __slots__ is not going to be changed right? It's purpose is to identify for once which attributes can be set. So doesn't a tuple seem a much natural choice in such a case? –  user225312 Jan 28 '11 at 12:26
2  
But with an empty __slots__ I can't set any attributes. And if I have __slots__ = ('a', 'b') then the a and b attributes are still mutable. –  Lennart Regebro Jan 28 '11 at 12:36
4  
+1: For the "consenting adults" part. –  J.F. Sebastian Feb 1 '11 at 4:44
up vote 30 down vote
+200

..howto do it "properly" in C..

You could use Cython to create an extension type for Python:

cdef class Immutable:
    cdef readonly object a, b
    cdef object __weakref__ # enable weak referencing support

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

It works both Python 2.x and 3.

Tests

# compile on-the-fly
import pyximport; pyximport.install() # $ pip install cython
from immutable import Immutable

o = Immutable(1, 2)
assert o.a == 1, str(o.a)
assert o.b == 2

try: o.a = 3
except AttributeError:
    pass
else:
    assert 0, 'attribute must be readonly'

try: o[1]
except TypeError:
    pass
else:
    assert 0, 'indexing must not be supported'

try: o.c = 1
except AttributeError:
    pass
else:
    assert 0, 'no new attributes are allowed'

o = Immutable('a', [])
assert o.a == 'a'
assert o.b == []

o.b.append(3) # attribute may contain mutable object
assert o.b == [3]

try: o.c
except AttributeError:
    pass
else:
    assert 0, 'no c attribute'

o = Immutable(b=3,a=1)
assert o.a == 1 and o.b == 3

try: del o.b
except AttributeError:
    pass
else:
    assert 0, "can't delete attribute"

d = dict(b=3, a=1)
o = Immutable(**d)
assert o.a == d['a'] and o.b == d['b']

o = Immutable(1,b=3)
assert o.a == 1 and o.b == 3

try: object.__setattr__(o, 'a', 1)
except AttributeError:
    pass
else:
    assert 0, 'attributes are readonly'

try: object.__setattr__(o, 'c', 1)
except AttributeError:
    pass
else:
    assert 0, 'no new attributes'

try: Immutable(1,c=3)
except TypeError:
    pass
else:
    assert 0, 'accept only a,b keywords'

for kwd in [dict(a=1), dict(b=2)]:
    try: Immutable(**kwd)
    except TypeError:
        pass
    else:
        assert 0, 'Immutable requires exactly 2 arguments'

If you don't mind indexing support then collections.namedtuple suggested by @Sven Marnach is preferrable:

Immutable = collections.namedtuple("Immutable", "a b")
share|improve this answer
    
@Lennart: Instances of namedtuple (or more precisely of the type returned by the function namedtuple()) are immutable. Definitely. –  Sven Marnach Jan 31 '11 at 19:29
    
@Lennart Regebro: namedtuple passes all the tests (except indexing support). What requirement did I miss? –  J.F. Sebastian Jan 31 '11 at 19:31
    
Yes, you are right, I made a namedtuple type, instantiated it, and then did the test on the type instead of the instance. Heh. :-) –  Lennart Regebro Jan 31 '11 at 21:51

Another idea would be to completely disallow __setattr__ and use object.__setattr__ in the constructor:

class Point(object):
    def __init__(self, x, y):
        object.__setattr__(self, "x", x)
        object.__setattr__(self, "y", y)
    def __setattr__(self, *args):
        raise TypeError
    def __delattr__(self, *args):
        raise TypeError

Of course you could use object.__setattr__(p, "x", 3) to modify a Point instance p, but your original implementation suffers from the same problem (try tuple.__setattr__(i, "x", 42) on an Immutable instance).

You can apply the same trick in your original implementation: get rid of __getitem__(), and use tuple.__getitem__() in your property functions.

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4  
I would not care about someone deliberately modifying the object using superclass' __setattr__, because the point is not to be foolproof. The point is to make it clear that it should not be modified and to prevent modification by mistake. –  zvone Feb 4 '12 at 21:54

You could create a @immutable decorator that either overrides the __setattr__ and change the __slots__ to an empty list, then decorate the __init__ method with it.

Edit: As the OP noted, changing the __slots__ attribute only prevents the creation of new attributes, not the modification.

Edit2: Here's an implementation:

Edit3: Using __slots__ breaks this code, because if stops the creation of the object's __dict__. I'm looking for an alternative.

Edit4: Well, that's it. It's a but hackish, but works as an exercise :-)

class immutable(object):
    def __init__(self, immutable_params):
        self.immutable_params = immutable_params

    def __call__(self, new):
        params = self.immutable_params

        def __set_if_unset__(self, name, value):
            if name in self.__dict__:
                raise Exception("Attribute %s has already been set" % name)

            if not name in params:
                raise Exception("Cannot create atribute %s" % name)

            self.__dict__[name] = value;

        def __new__(cls, *args, **kws):
            cls.__setattr__ = __set_if_unset__

            return super(cls.__class__, cls).__new__(cls, *args, **kws)

        return __new__

class Point(object):
    @immutable(['x', 'y'])
    def __new__(): pass

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

p = Point(1, 2) 
p.x = 3 # Exception: Attribute x has already been set
p.z = 4 # Exception: Cannot create atribute z
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1  
Making a (class?) decorator or metaclass out of the solution is indeed a good idea, but the question is what the solution is. :) –  Lennart Regebro Jan 28 '11 at 12:52
1  
object.__setattr__() breaks it stackoverflow.com/questions/4828080/… –  J.F. Sebastian Jan 31 '11 at 17:48
    
Indeed. I just carried on as an exercise on decorators. –  PaoloVictor Jan 31 '11 at 20:01

I don't think it is entirely possible except by using either a tuple or a namedtuple. No matter what you if you override __setattr__() the user can always bypass it by calling object.__setattr__() directly, so any solution that depends on __setattr__ is guaranteed not to work.

This is about the nearest you can get without using some sort of tuple:

class Immutable:
    __slots__ = ['a', 'b']
    def __init__(self, a, b):
        object.__setattr__(self, 'a', a)
        object.__setattr__(self, 'b', b)
    def __setattr__(self, *ignored):
        raise NotImplementedError
    __delattr__ = __setattr__

but it breaks if you try hard enough:

>>> t = Immutable(1, 2)
>>> t.a
1
>>> object.__setattr__(t, 'a', 2)
>>> t.a
2

but Sven's use of namedtuple is genuinely immutable.

Update

Since the question has been updated to ask how to do it properly in C, here's my answer on how to do it properly in Cython:

First immutable.pyx:

cdef class Immutable:
    cdef object _a, _b

    def __init__(self, a, b):
        self._a = a
        self._b = b

    property a:
        def __get__(self):
            return self._a

    property b:
        def __get__(self):
            return self._b

    def __repr__(self):
        return "<Immutable {0}, {1}>".format(self.a, self.b)

and a setup.py to compile it (using the command setup.py build_ext --inplace:

from distutils.core import setup
from distutils.extension import Extension
from Cython.Distutils import build_ext

ext_modules = [Extension("immutable", ["immutable.pyx"])]

setup(
  name = 'Immutable object',
  cmdclass = {'build_ext': build_ext},
  ext_modules = ext_modules
)

Then to try it out:

>>> from immutable import Immutable
>>> p = Immutable(2, 3)
>>> p
<Immutable 2, 3>
>>> p.a = 1
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: attribute 'a' of 'immutable.Immutable' objects is not writable
>>> object.__setattr__(p, 'a', 1)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: attribute 'a' of 'immutable.Immutable' objects is not writable
>>> p.a, p.b
(2, 3)
>>>
share|improve this answer
    
Thanks for the Cython code, Cython is awesome. J.F. Sebastians implementation with the readonly is neater and arrived first though, so he gets the bounty. –  Lennart Regebro Feb 2 '11 at 12:37
    
Yes, I somehow missed seeing that answer before I posted mine but his is better. –  Duncan Feb 2 '11 at 14:50

I've made immutable classes by overriding __setattr__, and allowing the set if the caller is __init__:

import inspect
class Immutable(object):
    def __setattr__(self, name, value):
        if inspect.stack()[2][3] != "__init__":
            raise Exception("Can't mutate an Immutable: self.%s = %r" % (name, value))
        object.__setattr__(self, name, value)

This isn't quite enough yet, since it allows anyone's ___init__ to change the object, but you get the idea.

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object.__setattr__() breaks it stackoverflow.com/questions/4828080/… –  J.F. Sebastian Jan 31 '11 at 17:47
    
Using stack inspection to ensure the caller is __init__ is not very satisfying. –  gb. Jul 26 '13 at 7:02

In addition to the excellent other answers I like to add a method for python 3.4 (or maybe 3.3). This answer builds upon several previouse answers to this question.

In python 3.4, you can use properties without setters to create class members that cannot be modified. (In earlier versions assigning to properties without a setter was possible.)

class A:
    __slots__=['_A__a']
    def __init__(self, aValue):
      self.__a=aValue
    @property
    def a(self):
        return self.__a

You can use it like this:

instance=A("constant")
print (instance.a)

which will print "constant"

But calling instance.a=10 will cause:

AttributeError: can't set attribute

Explaination: properties without setters are a very recent feature of python 3.4 (and I think 3.3). If you try to assign to such a property, an Error will be raised. Using slots I restrict the membervariables to __A_a (which is __a).

Problem: Assigning to _A__a is still possible (instance._A__a=2). But if you assign to a private variable, it is your own fault...

This answer among others, however, discourages the use of __slots__. Using other ways to prevent attribute creation might be preferrable.

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property is available on Python 2 too (look at the code in the question itself). It does not create an immutable object, try the tests from my answer e.g., instance.b = 1 creates a new b attribute. –  J.F. Sebastian Jul 2 at 12:29
    
Right, the question is really how to prevent doing A().b = "foo" ie not allowing setting new attributes. –  Lennart Regebro Jul 2 at 13:36
    
Propertis without a setter raise an error in python 3.4 if you try to assigne to that property. In earlier versions the setter was generated implicitely. –  TheEspinosa Jul 2 at 13:44
    
@Lennart: My solution is an answer to a subset of use-cases for immutable objects and an addition to previous answers. One reason I might want an immutable object is so that I can make it hashable, for which case my solution might works. But you are correct, this is not an immutable object. –  TheEspinosa Jul 2 at 13:49
    
@j-f-sebastian: Changed my answer to use slots for preventing attribute creation. What is new in my answer compared to other answers, is that I use python3.4's properties to avoid changing existent attributes. While the same is achieved in previose answers, my code is shorther because of the change in the behaviour of properties. –  TheEspinosa Jul 2 at 15:11

This way doesn't stop object.__setattr__ from working, but I've still found it useful:

class A(object):

    def __new__(cls, children, *args, **kwargs):
        self = super(A, cls).__new__(cls)
        self._frozen = False  # allow mutation from here to end of  __init__
        # other stuff you need to do in __new__ goes here
        return self

    def __init__(self, *args, **kwargs):
        super(A, self).__init__()
        self._frozen = True  # prevent future mutation

    def __setattr__(self, name, value):
        # need to special case setting _frozen.
        if name != '_frozen' and self._frozen:
            raise TypeError('Instances are immutable.')
        else:
            super(A, self).__setattr__(name, value)

    def __delattr__(self, name):
        if self._frozen:
            raise TypeError('Instances are immutable.')
        else:
            super(A, self).__delattr__(name)

you may need to override more stuff (like __setitem__) depending on the use case.

share|improve this answer
    
I came up with something similar before I saw this, but used getattr so I could provide a default value for frozen. That simplified things a bit. stackoverflow.com/a/22545808/5987 –  Mark Ransom Mar 20 '14 at 22:44
    
I like this approach the best, but you don't need the __new__ override. Inside __setattr__ just replace the conditional with if name != '_frozen' and getattr(self, "_frozen", False) –  Pete Cacioppi May 7 at 19:53
    
Also, there is no need to freeze the class upon construction. You can freeze it at any point if you provide a freeze() function. The object will then be "freeze once". Finally, worrying about object.__setattr__ is silly, because "we're all adults here". –  Pete Cacioppi May 7 at 20:01

I needed this a little while ago and decided to make a Python package for it. The initial version is on PyPI now:

$ pip install immutable

To use:

>>> from immutable import ImmutableFactory
>>> MyImmutable = ImmitableFactory.create(prop1=1, prop2=2, prop3=3)
>>> MyImmutable.prop1
1

Full docs here: https://github.com/theengineear/immutable

Hope it helps, it wraps a namedtuple as has been discussed, but makes instantiation much simpler.

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An alternative approach is to create a wrapper which makes an instance immutable.

class Immutable(object):

    def __init__(self, wrapped):
        super(Immutable, self).__init__()
        object.__setattr__(self, '_wrapped', wrapped)

    def __getattribute__(self, item):
        return object.__getattribute__(self, '_wrapped').__getattribute__(item)

    def __setattr__(self, key, value):
        raise ImmutableError('Object {0} is immutable.'.format(self._wrapped))

    __delattr__ = __setattr__

    def __iter__(self):
        return object.__getattribute__(self, '_wrapped').__iter__()

    def next(self):
        return object.__getattribute__(self, '_wrapped').next()

    def __getitem__(self, item):
        return object.__getattribute__(self, '_wrapped').__getitem__(item)

immutable_instance = Immutable(my_instance)

This is useful in situations where only some instances have to be immutable (like default arguments of function calls).

Can also be used in immutable factories like:

@classmethod
def immutable_factory(cls, *args, **kwargs):
    return Immutable(cls.__init__(*args, **kwargs))

Also protects from object.__setattr__, but fallable to other tricks due to Python's dynamic nature.

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