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Consider the following code:

GLOBAL_VARIABLE = 1

def someFunction():
    nonLocalVariable = 2

    def anotherFunction():
        localVariable = 3

        class LocalClass(object):
            __metaclass__ = MyMetaClass
            __customCode = """
                    GLOBAL_VARIABLE + nonLocalVariable + localVariable
                """

    anotherFunction()

someFunction()

I'm the implementor of MyMetaClass, a meta-class that generates methods for a class based on the contents of the __customCode property. __customCode can include Python expressions, so I would like to be sure that a variable name mentioned in __customCode refers to the same object as the same variable name defined in a normal Python method would.

When the metaclass is invoked, it's handed a dict containing the contents of the class, which means it knows about __customCode, but that's not much help. If you use inspect.currentframe(1), you get the stack-frame where the class statement is executing, which is to say anotherFunction(). That stack-frame has a .f_locals attribute (containing localVariable) and a .f_globals attribute (containing GLOBAL_VARIABLE, amongst other things), but those two together do not tell the whole story.

Given the stack-frame of anotherFunction() (or anything else I can grab hold of from inside the implementation of MyMetaClass), how can I discover the namespace where nonLocalVariable lives, and any other namespaces nested between the global and local namespaces?

I'm currently using Python 2.7, but if the answer is different in Python 3.x, that would be good to know too.

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@SamueleMattiuzzo: your edit was incorrect; the code was correctly nested, that is the point of this question. –  Martijn Pieters Jan 4 '13 at 13:42
    
@MartijnPieters cheers martijn, i tried to read the whole question to understand if he/she meant to indent it like that or was just a spacing error :) –  Samuele Mattiuzzo Jan 4 '13 at 14:07
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1 Answer

up vote 4 down vote accepted

Apart from the locals() and globals() structure, the compiler adds information on 'free variables' in the form of cells pointing to locals in nested functions, for any local variable that is a) not being assigned to, and b) refers to a scoped variable (Python 3.x adds the nonlocal keyword to allow you to assign to such a variable too, just as with the global keyword).

In your specific case, there are no such variables. None of your nested code refers to nonLocalVariable; only if anotherFunction or LocalClass actually used that variable would the python compiler (so at byte compilation time) add the necessary structures to be able to pull out nonLocalVariable from the scope.

Here is an example nested setup:

>>> def foo(x):
...     y = None
...     def bar():
...         return x
...     return bar
... 
>>> bar = foo('spam')
>>> foo.__code__.co_cellvars
('x',)
>>> bar.__code__.co_freevars
('x',)
>>> dir(bar.func_closure[0])
['__class__', '__cmp__', '__delattr__', '__doc__', '__format__', '__getattribute__', '__hash__', '__init__', '__new__', '__reduce__', '__reduce_ex__', '__repr__', '__setattr__', '__sizeof__', '__str__', '__subclasshook__', 'cell_contents']
>>> bar.func_closure[0].cell_contents
'spam'

Note how the foo codeobject lists x in the co_cellvars list, and the codeobject for bar has x listed in co_freevars; y is not listed in either because bar never uses it. The reference to the bar function has a func_closure structure, that holds the current value for x as given by the scope when bar was created. Code objects hold the bytecode for a function; they are created at compile time. The func_closure tuple is created at runtime based on the freevars and cellvars structures.

Because this happens at compile time, creating a reference to such a scoped variable dynamically is, at best, tricky. I would, for your own sake, not even bother to support using scoped variables in this case.

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I knew the interpreter must have some information about enclosing namespaces, but I didn't realise it was done by the compiler. That kind of sucks, but Python seems to be generally hostile to this kind of meta-programming in general, so I'm not wholly surprised. This is just a corner-case, though, so I will do exactly as you suggest and ignore it. Thanks for the info! –  Screwtape Jan 4 '13 at 13:56
    
@Screwtape: You can create a wrapper function with the scoped variables, and return the nested function; if it uses any of the scoped variables the resulting code object at least will have the right information. Then all you have to do is attach the correct scoping information (the func_closure info)... Fun! But you'd have to somehow force the compiler to list any and all locals in nested scopes to be available to cells. Not easy. –  Martijn Pieters Jan 4 '13 at 13:58
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