My suspicion is that what I want to do isn't quite doable in a clean way in Python. Here are a few nested functions that call each other. (In general, they don't have to be lexically scoped, but need to dynamically call each other.)

def outer() :
    s_outer = "outer\n"

    def inner() :
        s_inner = "inner\n"


Now when I call do_something() then I'd like to access the variables of the calling functions further up the callstack, in this case s_outer and s_inner.

Unfortunately, the nonlocal keyword here helps me only if I define do_something() inside of the inner() function. However, if I define it at the same level as outer() then the nonlocal keyword won't work.

However, I want to call do_something() from various other functions, but always execute it in their respective context and access their respective scopes.

Feeling naughty I then wrote a small accessor that I can call from within do_something() like this:

def reach(name) :
    for f in inspect.stack() :
        if name in f[0].f_locals : return f[0].f_locals[name]
    return None 

and then

def do_something() :
    print( reach("s_outer"), reach("s_inner") )

works just fine.

My two questions are these

  1. Is there a better way to solve this problem? (Other than wrapping the respective data into dicts and pass these dicts explicitly to do_something())

  2. Is there a more elegant/shortened way to implement the reach() function?


  • Is walking the stack really correct? You want to walk Python scopes (from nested functions out to the module), not call stack frames. In your example above they are the same because you are calling inner inside of outer, but imagine that you would return inner instead and then do something like outer()(). Would your approach still work? – Mitar Apr 30 '18 at 16:58

There is no and, in my opinion, should be no elegant way of implementing reach since that introduces a new non-standard indirection which is really hard to comprehend, debug, test and maintain. As the Python mantra (try import this) says:

Explicit is better than implicit.

So, just pass the arguments. You-from-the-future will be really grateful to you-from-today.

  • I was worried that that's the answer. Ah well. Independently of what the reach() function does, is there a more compact way to implement the nested for/if at all? – Jens Mar 25 '13 at 12:52
  • @Jens Can't come up with anything that would be more readable. You could check if traversing through f_back from inspect.currentframe() looks better to you. – bereal Mar 25 '13 at 13:02

What I ended up doing was

scope = locals()

and make scope accessible from do_something. That way I don't have to reach, but I can still access the dictionary of local variables of the caller. This is quite similar to building a dictionary myself and passing it on.


Is there a better way to solve this problem? (Other than wrapping the respective data into dicts and pass these dicts explicitly to do_something())

Passing the dicts explicitly is a better way.

What you're proposing sounds very unconventional. When code increases in size, you have to break down the code into a modular architecture, with clean APIs between modules. It also has to be something that is easy to comprehend, easy to explain, and easy to hand over to another programmer to modify/improve/debug it. What you're proposing sounds like it is not a clean API, unconventional, with a non-obvious data flow. I suspect it would probably make many programmers grumpy when they saw it. :)

Another option would be to make the functions members of a class, with the data being in the class instance. That could work well if your problem can be modelled as several functions operating on the data object.

  • Everything you say makes sense to me, and usually I'd agree. Unusually though, I'm learning Python at the moment and that means I want to get as low down and dirty as possible. It's not shipping code and just for a private project, so I'll be the only grumpy programmer here ;-) – Jens Apr 8 '13 at 1:13

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.