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There seem to be many ways to define singletons in Python. Is there a consensus opinion on Stack Overflow?

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closed as not constructive by ThinkingStiff, Tom, ecatmur, Yan Sklyarenko, Jon Clements Mar 12 '13 at 12:03

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

Error: line 52 - Consensus not found. – Homer6 Jun 29 '12 at 18:18
Singletons are Pathological Liars, are they not? – Jonas Byström Jul 5 '12 at 15:01
"this question is not a good fit for our Q&A format" - I think this is not a subjective question, is there a way in which to ask such questions such that it fits the SO Q&A format ? – binithb Sep 13 '14 at 22:13
Question closed for being too popular... – orokusaki Mar 26 '15 at 13:21
"closed as not constructive" my a** ... i think this is a very good question – Pat R Ellery Aug 6 '15 at 16:23

22 Answers 22

up vote 231 down vote accepted

I don't really see the need, as a module with functions (and not a class) would serve well as a singleton. All its variables would be bound to the module, which could not be instantiated repeatedly anyway.

If you do wish to use a class, there is no way of creating private classes or private constructors in Python, so you can't protect against multiple instantiations, other than just via convention in use of your API. I would still just put methods in a module, and consider the module as the singleton.

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Couldn't the constructor just check if an instance has already been created and throw an exception if it has been? – Casebash May 16 '10 at 7:56
This is fine so long as you don't need to use inheritance as part of your design, in which case most of the answers below are more suitable – Jim Jeffries Jun 6 '11 at 8:23
For accessing "module properties" the right way, see:… – Frosty Z Jul 27 '11 at 10:22
It's broken when you have cyclic import – dieend Sep 25 '12 at 10:49
what will i do if i want that module to be inheritable ? – yossi Nov 26 '12 at 9:09

Here's my own implementation of singletons. All you have to do is decorate the class; to get the singleton, you then have to use the Instance method. Here's an example:

   class Foo:
       def __init__(self):
           print 'Foo created'

   f = Foo() # Error, this isn't how you get the instance of a singleton

   f = Foo.Instance() # Good. Being explicit is in line with the Python Zen
   g = Foo.Instance() # Returns already created instance

   print f is g # True

And here's the code:

class Singleton:
    A non-thread-safe helper class to ease implementing singletons.
    This should be used as a decorator -- not a metaclass -- to the
    class that should be a singleton.

    The decorated class can define one `__init__` function that
    takes only the `self` argument. Other than that, there are
    no restrictions that apply to the decorated class.

    To get the singleton instance, use the `Instance` method. Trying
    to use `__call__` will result in a `TypeError` being raised.

    Limitations: The decorated class cannot be inherited from.


    def __init__(self, decorated):
        self._decorated = decorated

    def Instance(self):
        Returns the singleton instance. Upon its first call, it creates a
        new instance of the decorated class and calls its `__init__` method.
        On all subsequent calls, the already created instance is returned.

            return self._instance
        except AttributeError:
            self._instance = self._decorated()
            return self._instance

    def __call__(self):
        raise TypeError('Singletons must be accessed through `Instance()`.')

    def __instancecheck__(self, inst):
        return isinstance(inst, self._decorated)
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Python being battery-included this should be part of a desing_pattern standard library, thanks – dashesy Aug 31 '14 at 0:23

You can override the __new__ method like this:

class Singleton(object):
    _instance = None
    def __new__(cls, *args, **kwargs):
        if not cls._instance:
            cls._instance = super(Singleton, cls).__new__(
                                cls, *args, **kwargs)
        return cls._instance

if __name__ == '__main__':
    s1 = Singleton()
    s2 = Singleton()
    if (id(s1) == id(s2)):
        print "Same"
        print "Different"
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WARNING: If __new__() returns an instance of cls, then the new instance’s __init__() method will be invoked like __init__(self[, ...]), where self is the new instance and the remaining arguments are the same as were passed to __new__(). If any subclass of Singleton implements __init__(), it will be called multiple times with the same self. I ended up using a factory instead. – alsuren Sep 8 '11 at 12:48
this would be better using a metaclass as the answer here: – underrun Jan 23 '12 at 15:24
This gives the following warning - DeprecationWarning: object.__new__() takes no parameters cls._instance = super(Singleton, cls).__new__(cls, *args, **kwargs) – Siddhant Jan 2 '13 at 16:17
@Siddhant: worse yet, in Python 3, that warning becomes an error. See and… for more details. – Jason R. Coombs Jun 14 '14 at 16:36

A slightly different approach to implement the singleton in Python is the borg pattern by Alex Martelli (Google employee and Python genius).

class Borg:
    __shared_state = {}
    def __init__(self):
        self.__dict__ = self.__shared_state

So instead of forcing all instances to have the same identity, they share state.

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Also known as monostate. Possibly more evil than singleton. – Tom Hawtin - tackline Nov 1 '09 at 11:52
Doesn't work with new style classes – James Emerton Jun 4 '10 at 23:54
Is anyone able to explain why this doesn't work with new-style classes? – Stephen Emslie Jun 9 '11 at 9:08
@JamesEmerton: I just tried on Python 2.7.2, works fine with new style classes. – voithos Sep 26 '12 at 17:22
@pylover: You're right, it's not a Singleton -- which is probably part of the reason Alex Martelli gave it a different name -- but its effects are very similar. – martineau Apr 10 '13 at 19:47

The module approach works well. If I absolutely need a singleton I prefer the Metaclass approach.

class Singleton(type):
    def __init__(cls, name, bases, dict):
        super(Singleton, cls).__init__(name, bases, dict)
        cls.instance = None 

    def __call__(cls,*args,**kw):
        if cls.instance is None:
            cls.instance = super(Singleton, cls).__call__(*args, **kw)
        return cls.instance

class MyClass(object):
    __metaclass__ = Singleton
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This pattern is against the "Single Responsibility Principle" ( See point (2) in – haridsv May 20 '10 at 19:21
@haridsv I don't agree. The fact that the class is a singleton is abstracted away in the metaclass implementation -- the class itself doesn't know or care that it's a singleton as it's not in charge of enforcing that requirement, the metaclass is. The method below is clearly a violation, however, as you note. The base class method is somewhere in between. – agf Jul 23 '11 at 4:38
the problem with this one is that you can create multiple instances of MyClass through deepcopy. If you run from copy import deepcopy as dcp ; m1 = MyClass() ; m2 = dcp(m1) ; print m1 is m2, you'll get False. Do you know any way around it? – user312650 Mar 27 '12 at 9:29
@dare2be: Couldn't the copying issue you mention be addressed simply by having the metaclass also add a __deepcopy__() method to the class created? – martineau Dec 3 '12 at 18:18
@martineau: That's type.__init__ it's overriding, not MyClass.__init__ – Eric Feb 3 '14 at 0:00

See this implementation from PEP318, implementing the singleton pattern with a decorator:

def singleton(cls):
    instances = {}
    def getinstance():
        if cls not in instances:
            instances[cls] = cls()
        return instances[cls]
    return getinstance

class MyClass:
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The problem with this decorator is that 'MyClass' is not a class anymore, e.g. super() won't work, classmethods won't work etc: @singleton class MyClass(BaseClass): def __init__(self): super(MyClass, self).__init__() – ithkuil Oct 28 '11 at 9:40

As the accepted answer says, the most idiomatic way is to just use a module.

With that in mind, here's a proof of concept:

def singleton(cls):
    obj = cls()
    # Always return the same object
    cls.__new__ = staticmethod(lambda cls: obj)
    # Disable __init__
        del cls.__init__
    except AttributeError:
    return cls

See the Python data model for more details on __new__.


class Duck(object):

if Duck() is Duck():
    print "It works!"
    print "It doesn't work!"


  1. You have to use new-style classes (derive from object) for this.

  2. The singleton is initialized when it is defined, rather than the first time it's used.

  3. This is just a toy example. I've never actually used this in production code, and don't plan to.

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I tried this but got the error: TypeError: unbound method <lambda>() must be called with Integer instance as first argument (got type instance instead) My Integer class is your Duck class: @singleton class Integer(object): """ Class for objects of integer type """ pass – TMP Mar 11 '13 at 7:03
Thanks for pointing that out. I have no idea why that happens, but the edited version should work on Python 2.7 and 3.3. – Lambda Fairy Mar 12 '13 at 8:02
This is not good, the __init__() method is being called when the class is defined (while you may want to wait until the first time it's used), and afterwards at every call of Duck(). – tiho Apr 10 '13 at 17:46
I've documented the first issue, and fixed the second. Thanks for pointing it out. – Lambda Fairy Apr 13 '13 at 7:54

The one time I wrote a singleton in Python I used a class where all the member functions had the classmethod decorator.

class foo:
  x = 1

  def increment(cls, y = 1):
    cls.x += y
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I like this approach, but there is a minor gotcha. At least with Python 2.6, you can't make methods like __len__ or __getitem__ work as classmethods, so you don't have as much flexibility to customize as you would with an object. Since I often want to use a Singleton as a collection of data, that's a bit disappointing. – Dan Homerick Jul 29 '10 at 23:19
Seems to me that this is nothing more than the wrapping of a bunch stuff into a namespace...not that there's anything wrong with that, some have even said they think they're a honking great idea (import this) -- it's just that this approach is not much more than simple that and seems awfully close to using global variables which is generally considered a bad engineering practice. – martineau Dec 10 '12 at 3:42
@martineau I suggest that using a singleton is awfully close to using global variables no matter how it is implemented. – David Locke Dec 12 '12 at 16:11
Singletons are better than global variables in two ways: They don't pollute the global namespace at all (or as much, like your answer), and that they also provide lazy evaluation, whereas global variables generally do not (and neither does your answer). – martineau Dec 12 '12 at 21:30
@DanHomerick for __len__, __getitem__ and even @property you can use __metaclass__ set to a class defining the above. Work great. I vote for a class as a singleton, which it is by the design of the language, being an instance of it's metaclass. Actually, all methods may be defined in the metaclass and then the class will be used just as a reference to the singleton – Leonid Usov Aug 5 '15 at 17:47

Creating a singleton decorator (aka an annotation) is an elegant way if you want to decorate (annotate) classes going forward. Then you just put @singleton before your class definition.

def singleton(cls):
    instances = {}
    def getinstance():
        if cls not in instances:
            instances[cls] = cls()
        return instances[cls]
    return getinstance

class MyClass:
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I wonder why was this not up-voted ? Great.. please explain why and how is getinstance method getting called ? – Yugal Jindle Mar 10 '12 at 11:43
Seems like you have copied PEP318 ? – Yugal Jindle Mar 10 '12 at 11:53
But just help explain.. – Yugal Jindle Mar 10 '12 at 11:56
One potential -- although likely minor -- problem with this approach is that the class name will end up being bound to a function, not a class object. Which means it won't be possible to create a subclass of MyClass using a normal class Derived(MyClass) statement. – martineau Dec 12 '12 at 20:36
@tiho: I don't agree that it's a major issue for several reasons. Some being: It's easy to fix/workaround in at least a couple of ways, and I think the main reason to create classes is encapsulation, not to allow or support inheritance, something which is especially true wrt singleton classes. – martineau Apr 10 '13 at 20:06

I'm very unsure about this, but my project uses 'convention singletons' (not enforced singletons9, that is, if I have a class called DataController, I define this in the same module:

_data_controller = None
def GetDataController():
    global _data_controller
    if _data_controller is None:
        _data_controller = DataController()
    return _data_controller

It is not elegant, since it's a full six lines. But all my singletons use this pattern, and it's at least very explicit (which is pythonic).

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Agreed. And I should have read all the answers before posting mine... – Mark Evans Jul 27 '11 at 12:03
+1 In Python should everything be about conventions (because you can usually hack around enforced boundaries). Personally, I prefer a classmethod and class variable to access and store the instance, so you don't have to use global. (I generally discourage the usage of global though this is one of a few use cases where it is acceptable.) – schlamar Jan 11 '13 at 10:23

Here is an example from Peter Norvig's Python IAQ How do I do the Singleton Pattern in Python? (You should use search feature of your browser to find this question, there is no direct link, sorry)

Also Bruce Eckel has another example in his book Thinking in Python (again there is no direct link to the code)

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+1 for mentioning the browser's search feature. – David Kemp Nov 1 '11 at 9:23
Thank you for the link. Why such a good answer has only 4 upvotes (me included). – Wilbeibi Aug 13 '15 at 20:58

There are also some interesting articles on the Google Testing blog, discussing why singleton are/may be bad and are an anti-pattern:

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I put your links on separate lines so that they're not all merged into one – David Kemp Nov 1 '11 at 9:24

The Python documentation does cover this:

class Singleton(object):
    def __new__(cls, *args, **kwds):
        it = cls.__dict__.get("__it__")
        if it is not None:
            return it
        cls.__it__ = it = object.__new__(cls)
        it.init(*args, **kwds)
        return it
    def init(self, *args, **kwds):

I would probably rewrite it to look more like this:

class Singleton(object):
    """Use to create a singleton"""
    def __new__(cls, *args, **kwds):
        >>> s = Singleton()
        >>> p = Singleton()
        >>> id(s) == id(p)
        self = "__self__"
        if not hasattr(cls, self):
            instance = object.__new__(cls)
            instance.init(*args, **kwds)
            setattr(cls, self, instance)
        return getattr(cls, self)

    def init(self, *args, **kwds):

It should be relatively clean to extend this:

class Bus(Singleton):
    def init(self, label=None, *args, **kwds):
        self.label = label
        self.channels = [Channel("system"), Channel("app")]
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The Singleton Pattern implemented with Python courtesy of ActiveState.

It looks like the trick is to put the class that's supposed to only have one instance inside of another class.

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I think that forcing a class or an instance to be a singleton is overkill. Personally, I like to define a normal instantiable class, a semi-private reference, and a simple factory function.

class NothingSpecial:

_the_one_and_only = None

def TheOneAndOnly():
    global _the_one_and_only
    if not _the_one_and_only:
        _the_one_and_only = NothingSpecial()
    return _the_one_and_only

Or if there is no issue with instantiating when the module is first imported:

class NothingSpecial:

THE_ONE_AND_ONLY = NothingSpecial()

That way you can write tests against fresh instances without side effects, and there is no need for sprinkling the module with global statements, and if needed you can derive variants in the future.

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I think it is worse than overkill. Forcing an implicit behavior is just not pythonic. And I have more comments on the duplicate answer :-)… – schlamar Jan 11 '13 at 10:29

Singleton's half brother

I completely agree with staale and I leave here a sample of creating a singleton half brother:

class void:pass
a = void();
a.__class__ = Singleton

a will report now as being of the same class as singleton even if it does not look like it. So singletons using complicated classes end up depending on we don't mess much with them.

Being so, we can have the same effect and use simpler things like a variable or a module. Still, if we want use classes for clarity and because in Python a class is an object, so we already have the object (not and instance, but it will do just like).

class Singleton:
    def __new__(cls): raise AssertionError # Singletons can't have instances

There we have a nice assertion error if we try to create an instance, and we can store on derivations static members and make changes to them at runtime (I love Python). This object is as good as other about half brothers (you still can create them if you wish), however it will tend to run faster due to simplicity.

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class Singleton(object[,...]):

    staticVar1 = None
    staticVar2 = None

    def __init__(self):
        if self.__class__.staticVar1==None :
            # create class instance variable for instantiation of class
            # assign class instance variable values to class static variables
            # assign class static variable values to class instance variables
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My simple solution which is based on the default value of function parameters.

def getSystemContext(contextObjList=[]):
    if len( contextObjList ) == 0:
        contextObjList.append( Context() )
    return contextObjList[0]

class Context(object):
    # Anything you want here
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Being relatively new to Python I'm not sure what the most common idiom is, but the simplest thing I can think of is just using a module instead of a class. What would have been instance methods on your class become just functions in the module and any data just becomes variables in the module instead of members of the class. I suspect this is the pythonic approach to solving the type of problem that people use singletons for.

If you really want a singleton class, there's a reasonable implementation described on the first hit on Google for "Python singleton", specifically:

class Singleton:
    __single = None
    def __init__( self ):
        if Singleton.__single:
            raise Singleton.__single
        Singleton.__single = self

That seems to do the trick.

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Not good, just raises exception instead of returning singleton instance – pylover Jan 30 '13 at 22:50

OK, singleton could be good or evil, I know. This is my implementation, and I simply extend a classic approach to introduce a cache inside and produce many instances of a different type or, many instances of same type, but with different arguments.

I called it Singleton_group, because it groups similar instances together and prevent that an object of the same class, with same arguments, could be created:

# Peppelinux's cached singleton
class Singleton_group(object):
    __instances_args_dict = {}
    def __new__(cls, *args, **kwargs):
        if not cls.__instances_args_dict.get((cls.__name__, args, str(kwargs))):
            cls.__instances_args_dict[(cls.__name__, args, str(kwargs))] = super(Singleton_group, cls).__new__(cls, *args, **kwargs)
        return cls.__instances_args_dict.get((cls.__name__, args, str(kwargs)))

# It's a dummy real world use example:
class test(Singleton_group):
    def __init__(self, salute):
        self.salute = salute

a = test('bye')
b = test('hi')
c = test('bye')
d = test('hi')
e = test('goodbye')
f = test('goodbye')




b == d


{('test', ('bye',), '{}'): <__main__.test object at 0xb6fec0ac>,
 ('test', ('goodbye',), '{}'): <__main__.test object at 0xb6fec32c>,
 ('test', ('hi',), '{}'): <__main__.test object at 0xb6fec12c>}

Every object carries the singleton cache... This could be evil, but it works great for some :)

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class Singeltone(type):
    instances = dict()

    def __call__(cls, *args, **kwargs):
        if cls.__name__ not in Singeltone.instances:            
            Singeltone.instances[cls.__name__] = type.__call__(cls, *args, **kwargs)
        return Singeltone.instances[cls.__name__]

class Test(object):
    __metaclass__ = Singeltone

inst0 = Test()
inst1 = Test()
print(id(inst1) == id(inst0))
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In cases where you don't want the metaclass-based solution above, and you don't like the simple function decorator-based approach (e.g. because in that case static methods on the singleton class won't work), this compromise works:

class singleton(object):
  """Singleton decorator."""

  def __init__(self, cls):
      self.__dict__['cls'] = cls

  instances = {}

  def __call__(self):
      if self.cls not in self.instances:
          self.instances[self.cls] = self.cls()
      return self.instances[self.cls]

  def __getattr__(self, attr):
      return getattr(self.__dict__['cls'], attr)

  def __setattr__(self, attr, value):
      return setattr(self.__dict__['cls'], attr, value)
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