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I am wondering if it is possible to list the variables expected by a Python function, prior to calling it, in order to pass the expected variables from a bigger dict containing a lot of variables.

I have searched the net but couldn't find anything. However, the python interpreter can show the list of expected variables, so there surely must be some way to do it in a script?

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2 Answers

up vote 8 down vote accepted

You can use the inspect.getargspec() function:

import inspect

argspec = inspect.getargspec(somefunction)

argspec is a named tuple with 4 elements:

  • A list with the argument names
  • The name of the catchall *args parameter, if defined (None otherwise)
  • The name of the catchall **kwargs parameter, if defined (None otherwise)
  • A tuple with default values for the keyword arguments; they go with the last elements of the arguments; match these by length of the default values tuple.

Demo:

>>> import inspect
>>> def foo(bar, baz, spam='eggs', *monty, **python): pass
... 
>>> inspect.getargspec(foo)
ArgSpec(args=['bar', 'baz', 'spam'], varargs='monty', keywords='python', defaults=('eggs',))
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Perfect, exactly what I need! Thank you very much for the detailed explanation. However, could you please explain a bit more about the "defaults" values? I can't understand how these can be matched with "args" –  user1121352 Mar 26 '13 at 22:18
1  
Say len(argspec.defaults) is 3, then these defaults belong to the last three argument names listed in argspec.args. In my example here, there is only one item in argspec.defaults, so it belongs to the last item in argspec.args, 'spam'. Had there been 2, then they'd be the default values for 'baz' and 'spam', etc. –  Martijn Pieters Mar 26 '13 at 23:20
    
I see, the defaults only begin for the last n keywords variables, because for non-keyword variables (without a default value) are necessary declared before the keyword variables. Thus there's no way to confuse them. Thank's a lot Martijn. –  user1121352 Apr 4 '13 at 20:25
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Just as a side answer, I now use another approach to pass to functions the variables they expect: I pass them all.

What I mean is that I maintain a kind of global/shared dictionnary of variables in my root object (which is the parent of all other objects), eg:

shareddict = {'A': 0, 'B':'somestring'}

Then I simply pass this dict to any method of any other object that is to be called, just like this:

shareddict.update(call_to_func(**shareddict))

As you can see, we unpack all the keys/values in shareddict as keyword arguments to call_to_func(). We also update shareddict with the returned result, we'll see below why.

Now with this technic, I can simply and clearly define in my functions/methods if I need one or several variables from this dict:

my_method1(A=None, *args, **kwargs):
''' This method only computes on A '''
    new_A = Do_some_stuff(A)
    return {'A': new_A} # Return the new A in a dictionary to update the shared value of A in the shareddict

my_method2(B=None, *args, **kwargs):
''' This method only computes on B '''
    new_B = Do_some_stuff(B)
    return {'B': new_B} # Return the new B in a dictionary to update the shareddict

my_method3(A=None, B=None, *args, **kwargs):
''' This method swaps A and B, and then create a new variable C '''
    return {'A': B, 'B': A, 'C': 'a_new_variable'} # Here we will update both A and B and create the new variable C

As you can notice, all the methods above return a dict of variables, which will update the shareddict, and which will get passed along to other functions.

This technic has several advantages:

  • Quite simple to implement
  • Elegant way to maintain a shared list of variables but without using a global variable
  • Functions and methods clearly show in their definitions what they expect (but of course one caveat is that even mandatory variables will need to be set as a keyword argument with a default value such as None, which usually means that the variable is optional, but here it's not
  • The methods are inheritable and overloadable
  • Low memory footprint since the same shareddict is passed all along
  • The children functions/methods define what they need (bottom-up), instead of the root defining what arguments will be passed to children (top-down)
  • Very easy to create/update variables
  • Optionally, it's VERY easy to dump all those variables in a file, eg by using json.dumps(finaldict, sort_keys=True).
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