I need to generate code for a method at runtime. It's important to be able to run arbitrary code and have a docstring.

I came up with a solution combining exec and setattr, here's a dummy example:

class Viking(object):
    def __init__(self):
        code = '''
            def dynamo(self, arg):
                """ dynamo's a dynamic method!
                self.weight += 1
                return arg * self.weight
        self.weight = 50

        d = {}
        exec code.strip() in d
        setattr(self.__class__, 'dynamo', d['dynamo'])

if __name__ == "__main__":
    v = Viking()
    print v.dynamo(10)
    print v.dynamo(10)
    print v.dynamo.__doc__

Is there a better / safer / more idiomatic way of achieving the same result?

  • Why do you need that, did you consider the other metaprogramming facilities in Python? – Torsten Marek Feb 10 '09 at 17:44
  • I'm open to suggestions :-) I need this to generate rules for PLY, which needs them as methods with docstrings. To automate some boilerplate code, I can generate some rules in a loop at runtime – Eli Bendersky Feb 10 '09 at 18:00
  • Can you give a better example, or explain more? The example you give isn't very dynamic since its a hard coded string, I'm having trouble understanding why you can't use dispatchers, polymorphism, metaclasses, etc – Richard Levasseur Feb 10 '09 at 18:17
  • I'll want to generate several such methods, varying in their names and docstrings in some "loopy" way, i.e. 10 methods named dynamo1..10 with the docstring also having dynamo1..10 in it" – Eli Bendersky Feb 10 '09 at 18:23

Based on Theran's code, but extending it to methods on classes:

class Dynamo(object):

def add_dynamo(cls,i):
    def innerdynamo(self):
        print "in dynamo %d" % i
    innerdynamo.__doc__ = "docstring for dynamo%d" % i
    innerdynamo.__name__ = "dynamo%d" % i

for i in range(2):
    add_dynamo(Dynamo, i)


Which should print:

in dynamo 0
in dynamo 1

  • Thanks, this works nicely. Indeed, in this case the 'exec' can be spared - but only because the code of the method is relatively constant and doesn't really (printed strings don't count) depend on the method itself – Eli Bendersky Feb 11 '09 at 15:45
  • 1
    the solution is good for the question, but it would be more helpful to put everything in a single class class Dynamo(object): – igni May 24 '12 at 16:05
  • What if I want to add a decorator to each function. How can I do that ? I tried something like using @my_decorator right above the innerdynamo function. But, it did not work. Any suggestions ? – user699540 Sep 11 '12 at 21:17
  • @user699540: This works fine using a decorator the way you describe, so there must be some other issue—but it's impossible to say what it is without more information. – martineau Apr 9 '17 at 16:07

Function docstrings and names are mutable properties. You can do anything you want in the inner function, or even have multiple versions of the inner function that makedynamo() chooses between. No need to build any code out of strings.

Here's a snippet out of the interpreter:

>>> def makedynamo(i):
...     def innerdynamo():
...         print "in dynamo %d" % i
...     innerdynamo.__doc__ = "docstring for dynamo%d" % i
...     innerdynamo.__name__ = "dynamo%d" % i
...     return innerdynamo

>>> dynamo10 = makedynamo(10)
>>> help(dynamo10)
Help on function dynamo10 in module __main__:

    docstring for dynamo10
  • 1
    how is this done for methods? – Eli Bendersky Feb 10 '09 at 19:26

Python will let you declare a function in a function, so you don't have to do the exec trickery.

def __init__(self):

    def dynamo(self, arg):
        """ dynamo's a dynamic method!
        self.weight += 1
        return arg * self.weight
    self.weight = 50

    setattr(self.__class__, 'dynamo', dynamo)

If you want to have several versions of the function, you can put all of this in a loop and vary what you name them in the setattr function:

def __init__(self):

    for i in range(0,10):

        def dynamo(self, arg, i=i):
            """ dynamo's a dynamic method!
            self.weight += i
            return arg * self.weight

        setattr(self.__class__, 'dynamo_'+i, dynamo)
        self.weight = 50

(I know this isn't great code, but it gets the point across). As far as setting the docstring, I know that's possible but I'd have to look it up in the documentation.

Edit: You can set the docstring via dynamo.__doc__, so you could do something like this in your loop body:

dynamo.__doc__ = "Adds %s to the weight" % i

Another Edit: With help from @eliben and @bobince, the closure problem should be solved.

  • ‘i’ will be 10 in each instance of dynamo once the loop has finished. The variable is not rebound each time around the loop. This is one of the big gotchas about using closures in Python (and other similar languages). – bobince Feb 10 '09 at 18:41
  • Ah, drat. Thanks for the clarification. Is there a technique that will work? – Justin Voss Feb 10 '09 at 23:55
  • 1
    Justin, for the solution of this gotcha see: stackoverflow.com/questions/233673/lexical-closures-in-python/… – Eli Bendersky Feb 11 '09 at 15:47
class Dynamo(object):
    def __init__(self):

    def init(initData=None):
        if initData is not None:
            dynamo= Dynamo()
            for name, value in initData.items():
                code = '''
def %s(self, *args, **kwargs):
                            ''' % (name, value)
                result = {}
                exec code.strip() in result
                setattr(dynamo.__class__, name, result[name])

            return dynamo

        return None

service = Dynamo.init({'fnc1':'pass'})

Pardon me for my bad English.

I recently need to generate dynamic function to bind each menu item to open particular frame on wxPython. Here is what i do.

first, i create a list of mapping between the menu item and the frame.

menus = [(self.menuItemFile, FileFrame), (self.menuItemEdit, EditFrame)]

the first item on the mapping is the menu item and the last item is the frame to be opened. Next, i bind the wx.EVT_MENU event from each of the menu item to particular frame.

for menu in menus:
    f = genfunc(self, menu[1])
    self.Bind(wx.EVT_MENU, f, menu[0])

genfunc function is the dynamic function builder, here is the code:

def genfunc(parent, form):
    def OnClick(event):
        f = form(parent)
    return OnClick

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