First things first: if you are coding in Python: forget about "memory address" - you will never need one. Yes, there are objects, and they are placed in memory, and if you are referring to the same object, it is in the same "memory address" - but that does not matter - there could even be an implementation where objects don't have a memory address at all (just a place in a data structure, for example).
Then, when Python encounters the function body, as it is defined above, it does create a code object with the contents of the function body, and executes the function definition line - resolving any expressions inlined there and setting the results of those expressions as the default parameters for that function. There is nothing "temporary" about these objects. The expressions (in this case
) are evaluated, the resulting objects (in this case a Python list with a single element) are created, and assigned to a reference in the function object (a position in the functions's "func_defaults" attribute - remember that functions themselves are objects in Python.)
Whenever you call that function, if you don't pass a value to the
counter parameter, it is assigned to the object recorded in the func_defaults attribute -in this case, a Python list. And it is the same Python list that was created at function parsing time.
What happens is that Python lists themselves are mutable: one can change its contents, add more elements, etc...but they are still the same list.
What the code above does is exactly incrementing the element in the position
0 of the list.
You can access this list at any time in the example above by typing foo.func_defaults
If you want to "reset" the counter, you can just do:
foo.func_defaults=0, for example.
Of course, it is a side effect of how thigns a reimplemented in Python, and though consistent, and even docuemnted, should not be used in "real code". If you need "static variables", use a class instead of a function like the above:
self.counter = 0
self.counter += 1
print("Counter is %i." % self.counter)
And on the console:
>>> foo = Foo()
Counter is 1.
Counter is 2.