I couldn't find documentation on an equivalent of Java's final in Python, is there such a thing?

I'm creating a snapshot of an object (used for restoration if anything fails); once this backup variable is assigned, it should not be modified -- a final-like feature in Python would be nice for this.


Having a variable in Java be final basically means that once you assign to a variable, you may not reassign that variable to point to another object. It actually doesn't mean that the object can't be modified. For example, the following Java code works perfectly well:

public final List<String> messages = new LinkedList<String>();

public void addMessage()
    messages.add("Hello World!");  // this mutates the messages list

but the following wouldn't even compile:

public final List<String> messages = new LinkedList<String>();

public void changeMessages()
    messages = new ArrayList<String>();  // can't change a final variable

So your question is about whether final exists in Python. It does not.

However, Python does have immutable data structures. For example, while you can mutate a list, you can't mutate a tuple. You can mutate a set but not a frozenset, etc.

My advice would be to just not worry about enforcing non-mutation at the language level and simply concentrate on making sure that you don't write any code which mutates these objects after they're assigned.

  • 3
    In Java, a non-primitive variable points to an object. Designating a variable as final means you cannot make the variable point to a different object, however the object that is being pointed to can be mutated. – IceArdor Feb 17 '15 at 18:49
  • There is another use for final in Java, I think that it is the same as static in C++, and that is that the line of code assigning to a final variable is not executed more than once, even if declared inside a function. It allows you to hide the variable from the rest of the code without constantly construct new instances every time the functions is called. In Python you have to use a variable in the global scope or accept the cost of constantly construct new instances. cpp.sh/24gj – Hatoru Hansou Nov 5 '15 at 3:08
  • 1
    I find it an awful suggestion to simply concentrate on making sure that you don't write any code which mutates these objects after they're assigned. How will you communicate this to other people? Or to your future self? With a comment or docstring? A formal language construct is much less volatile than a comment. Python lacking this is, indeed, worrisome. – delucasvb Jan 7 at 14:13

There is no ``final'' equivalent in Python.

But, to create read-only fields of class instances, you can use the property function.

Edit: perhaps you want something like this:

class WriteOnceReadWhenever:
    def __setattr__(self, attr, value):
        if hasattr(self, attr):
            raise Exception("Attempting to alter read-only value")

        self.__dict__[attr] = value
  • 1
    Interesting idea – Jason Coon Apr 29 '09 at 14:41
  • This is excellent ! – Sherlock Oct 20 '12 at 12:59
  • I always replace self.__dict__[attr] = value with return super(WriteORW, self).__setattr__(attr, value) – John Strood Jan 11 at 8:44

An assign-once variable is a design issue. You design your application in a way that the variable is set once and once only.

However, if you want run-time checking of your design, you can do it with a wrapper around the object.

class OnePingOnlyPleaseVassily( object ):
    def __init__( self ):
        self.value= None
    def set( self, value ):
        if self.value is not None:
            raise Exception( "Already set.")
        self.value= value

someStateMemo= OnePingOnlyPleaseVassily()
someStateMemo.set( aValue ) # works
someStateMemo.set( aValue ) # fails

That's clunky, but it will detect design problems at run time.


There is no such thing. In general, the Python attitude is "if you don't want this modified, just don't modify it". Clients of an API are unlikely to just poke around your undocumented internals anyway.

You could, I suppose, work around this by using tuples or namedtuples for the relevant bits of your model, which are inherently immutable. That still doesn't help with any part of your model that has to be mutable of course.

  • 2
    Many other classes are immutable, too: strings, ints, longs, floats. – S.Lott Apr 29 '09 at 14:37

Python has no equivalent of "final". It doesn't have "public" and "protected" either, except by naming convention. It's not that "bondage and discipline".


you can simulate something like that through the descriptor protocol, since it allows to define reading and setting a variable the way you wish.

class Foo(object):

  def myvar(self):
     # return value here

  def myvar(self, newvalue):
     # do nothing if some condition is met

a = Foo()
print a.myvar
a.myvar = 5 # does nothing if you don't want to

http://code.activestate.com/recipes/576527/ defines a freeze function, although it doesn't work perfectly.

I would consider just leaving it mutable though.


Although this is an old question, I figured I would add yet another potential option: You can also use assert to verify a variable is set to what you originally intended it to be set to – a double checking if you will. Although this is not the same as final in Java, it can be used to create a similar effect:

PI = 3.14
radius = 3

    assert PI == 3.14
    print PI * radius**2
except AssertionError:
    print "Yikes."

As seen above, if PI were for some reason not set to 3.14, an AssertionError would be thrown, so a try/except block would probably be a wise addition. Regardless, it may come in handy depending on your situation.


Python indeed does not have a final type, it does have immutable types such as tuples but that is something else.

Some of the other Answers here make classes full of pseudo final variables and I prefer my class to only have a few Final types, so I suggest using an descriptor to create the final type:

from typing import TypeVar, Generic, Type

T = TypeVar('T')

class FinalProperty(Generic[T]):
    def __init__(self, value: T):
        self.__value = value
    def __get__(self, instance: Type, owner) -> T:
        return self.__value
    def __set__(self, instance: Type, value: T) -> None:
        raise ValueError("Final types can't be set")

If you use this class like so:

class SomeJob:
    FAILED = FinalProperty[str]("Failed")

Then you will not be able to set that variable in any instance of that class. Unfortunately as with the WriteOnceReadWhenever answer you can still set the class variable.

job = SomeJob()
job.FAILED = "Error, this will trigger the ValueError"
SomeJob.FAILED = "However this still works and breaks the protection afterwards"

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