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Is there any such equivalent of Java

String myMethod (MyClass argument) {...}

in Python?

Thank you, Tomas

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The language wouldn't be dynamically-typed if there was. – delnan Sep 20 '10 at 16:37
One of the best things about going to Java was not having to guess at types, sometimes when things were poorly documented you could fit them together like puzzle pieces, just knowing you NEED to construct class A and and feed it to class B to get things to work is really nice. This is one of my least favorite things about dynamic languages--I firmly believe that putting help into the code helps save everyone down the line time, even if it makes you type an extra 10 characters. – Bill K Sep 20 '10 at 17:10
@delnan Common Lisp has dynamic typing and allows declaring types. It is optional, but the compiler can generate very efficient code if you specify types. – gpeche Sep 20 '10 at 19:02
@gpeche: I doubt that this is equivalent to Java type annotations - they are enforced at compiletime; but in a dynamically-typed language (or even in a statically-typed language with a variant type), the type of the value a variable(/variant) refers to at a given time is undecidable via static analysis -> can only be checked at runtime. – delnan Sep 20 '10 at 20:06
@delnan Not equivalent, but quite good as it can generate a lot of warnings at compile time. Obviously the language semantics do not allow for more, but if you are used to have your code compile without warnings, then it is basically the same. – gpeche Sep 20 '10 at 20:54
up vote 13 down vote accepted

No. (And more stuff to round this up to 15 characters...)

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And can I tell anyhow that such method only works with instances of MyClass, in other words, how can I tell anyone using myMethod that he has to pass an argument which is an instance of MyClass? – Tomas Novotny Sep 20 '10 at 16:22
@Tomas, you can document it. – matt b Sep 20 '10 at 16:34
Tomas, in debugging environments, you can use isinstance() and issubclass() methods to alert by raising an exception or a simple print message. – dheerosaur Sep 20 '10 at 16:42
And type(). As noted below, not recommended practice -- unpythonic. – hughdbrown Sep 20 '10 at 16:45
They don't have to pass an instance of MyClass, unless the code specifically checks for it. They can pass any object that has the methods and attributes the code requires regardless of said object's provenance. – kindall Sep 21 '10 at 2:41

No, there is not.

In fact, checking types is considered "un-Pythonic", because an object of any type that looks enough like the expected type should be treated equally.

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"looks enough like the expected type" --- means "supports enough of the requisite interface and semantics of" (search Google on "Python" and "duck typing" for related discussions). – Jim Dennis Sep 20 '10 at 16:26
Because of Python's late binding it's actually impossible to tell the type of anything (beside literals) before executing the code. So even if you could specify types, it would do you not much good. – Jochen Ritzel Sep 20 '10 at 16:27

Python 3.x has function annotations where you can declare argument and return types:

def myMethod(argument: MyClass) -> str:

But currently Python does nothing with them, they serve as documentation only.

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Upvoted for learning something new about Python 3! – kindall Sep 21 '10 at 19:40
That is insanely useful! +1 – ApproachingDarknessFish Jan 7 '13 at 4:06

I just want to say that I'm in full agreement that type checking is evil. But python is also incredibly flexible and I'm in the mood to be evil. This code will take effect at runtime and not compile time. You could do something similar for return type. Something like this could be useful for debugging and, because it's a decorator, it's easy enough to remove.

For it to be useful for debugging you would have to have a situation where two types had all the same attributes that were getting accessed but with different semantics. So that's a pretty limited case. Other than that, you're about to get a typerror anyways when this code runs. The good news is that this is almost never a problem. I really don't know why people from statically typed languages make such a big deal over it.

def types(*args, **kwargs):
    arg_types = args
    kwarg_types = kwargs
    def decorator(f):
        def func(*args, **kwargs):
            for arg, arg_type in zip(args, arg_types):
                if not isinstance(arg, arg_type):
                    raise TypeError("Wrong type suckah")
            for kw, arg in kwargs.items():
                if not isinstance(arg, kwarg_types[kw]):
                    raise TypeError("this is a bad error message")
            return f(*args, **kwargs)
        return func
    return decorator

@types(int, str, bool, flag=bool)
def demo(i, strng, flag=False):
    print i, strng, flag

demo(1, "foo", True)

    demo("foo", "bar", flag="foobar")
except TypeError:
    print "busted on posargs"

    demo(1, "foo", flag=2)
except TypeError:
    print "busted on keyargs"

    demo(1, "foo", 3)
except TypeError:
    print "no use sneaking it through"
share|improve this answer
I love creative (ab)use of decorators. – kindall Sep 21 '10 at 19:41


In Python, it's the program's responsibility to use built-in functions like isinstance() and issubclass() to test variable types and correct usage. Python tries to stay out of your way while giving you all you need to implement strong type checking.

from Why is Python a dynamic language and also a strongly typed language. Also

In a dynamically typed language, a variable is simply a value bound to a name; the value has a type -- like "integer" or "string" or "list" -- but the variable itself doesn't. You could have a variable which, right now, holds a number, and later assign a string to it if you need it to change.

Further, isinstance() and issubclass() can be used to do type-checking. If you want to make sure that argument is of MyClass type, you can have a check inside the function. You can even type-cast the value of the argument (if you have a constructor accepting such value) and assign it to my_object.

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