I am trying to use functional programming to create a dictionary containing a key and a function to execute:

def myMain(key):
    def ExecP1():
    def ExecP2():
    def ExecP3():
    def ExecPn():

Now, I have seen a code used to find the defined functions in a module, and I need to do something like this:

    for myitem in myItems:
        myDict[myitem] = ??? #to dynamically find the corresponding function

So my question is, How do I make a list of all the Exec functions and then assign them to the desired item using the a dictionary? so at the end I will have myDict["P1"]() #this will call ExecP1()

My real problem is that I have tons of those items and I making a library that will handle them so the final user only needs to call myMain("P1")

I think using the inspect module, but I am not so sure how to do it.

My reason to avoid:

def ExecPn():

is that I have to protect code as I am using it to provide a scripting feature within my application.

  • Why not use a class? If I understand what you're trying to do, it might be a bit more scalable, and easier to implement. Commented Feb 6, 2012 at 22:35
  • @NiallByrne Because each Exec function executes very different code.
    – JohnnyDH
    Commented Feb 6, 2012 at 22:37
  • "each Exec function executes very different code"? So? That's true of most methods in a class definition.
    – S.Lott
    Commented Feb 6, 2012 at 22:42
  • 1
    Yeah, so putting them in a class makes no sense, since they are not related to each other.
    – JohnnyDH
    Commented Feb 6, 2012 at 22:45
  • instead of ExecP1 you can name the function as P1 itself.
    – dev
    Commented Dec 30, 2020 at 11:28

12 Answers 12


Simplify, simplify, simplify:

def p1(args):

def p2(more args):

myDict = {
    "P1": p1,
    "P2": p2,
    "Pn": pn

def myMain(name):

That's all you need.

You might consider the use of dict.get with a callable default if name refers to an invalid function—

def myMain(name):
    myDict.get(name, lambda: 'Invalid')()

(Picked this neat trick up from Martijn Pieters)

  • 1
    I know, it was my first choice, but I want the final user to have a limited access, so the user can't change the contents in the dictionary in run-time.
    – JohnnyDH
    Commented Feb 6, 2012 at 22:41
  • 26
    The user can always change anything they want at run-time. It's Python. They have the source.
    – S.Lott
    Commented Feb 6, 2012 at 22:41
  • 1
    "It depends of the user"? What does that mean? Not every user can tweak the code? If that's what you mean then you should spend even less time worrying about "limited access". Since -- effectively -- all users can tweak the code, it's hardly worth trying to add code to create "limited access". Go for simple in all cases.
    – S.Lott
    Commented Feb 6, 2012 at 23:05
  • 14
    @JohnnyDH This is a crazy argument. If you have a real requirement to make the code more "secure" then you must use a compiled language - python is not the right tool for the job and it's your responsibility to explain that to the customer. Adding lines of crap to your code to try and workaround python's inherent openness is not a safety measure - it can't be done properly, and attempting to do so will only make your code more ugly and fragile
    – wim
    Commented Feb 7, 2012 at 0:33
  • 2
    @JohnnyDH: I've only been providing software for 30 years, so I have seen a few examples of useless complexity before. This is another. There's a difference between complexity and security. The "if they want to see..." line is a really, really bad example, because Python has no "++" operator like C does. And. The "Scripting Features" explanation must be folded into your question so that your question makes any sense at all. Repeating requirements in comments is bad.
    – S.Lott
    Commented Feb 7, 2012 at 10:51

Simplify, simplify, simplify + DRY:

tasks = {}
task = lambda f: tasks.setdefault(f.__name__, f)

def p1():

def p2():

def my_main(key):
  • 15
    That's not DRY, that's obfuscated.
    – Aran-Fey
    Commented Jun 9, 2018 at 19:27
  • 7
    I think referring to advanced language features like lambdas and custom decorators as obfuscation is misleading, to say the least. Commented Dec 14, 2018 at 16:00
  • 2
    Sure. The lambda here is only for brevity. Whether you stick with that or rewrite to def task(f):\n tasks[f.__name__] = f, the principle remains the same. Being DRY removes your responsibility to keep the dictionary keys in sync with function names. It also makes it easier to spot mistakes, such as a missing @task (vs a missing dictionary item).
    – Joe
    Commented Dec 15, 2018 at 19:43
  • 1
    This is elegant and DRY, but definitely not simplified. Commented Feb 5, 2020 at 15:59

Not proud of it, but:

def myMain(key):
    def ExecP1():
    def ExecP2():
    def ExecP3():
    def ExecPn():
    locals()['Exec' + key]()

I do however recommend that you put those in a module/class whatever, this is truly horrible.

If you are willing to add a decorator for each function, you can define a decorator which adds each function to a dictionary:

def myMain(key):
    tasks = {}
    def task(task_fn):
        tasks[task_fn.__name__] = task_fn
    def ExecP1():
    def ExecP2():
    def ExecP3():
    def ExecPn():
    tasks['Exec' + key]()

Another option is to place all the functions under a class (or in a different module) and use getattr:

def myMain(key):
    class Tasks:
        def ExecP1():
        def ExecP2():
        def ExecP3():
        def ExecPn():
    task = getattr(Tasks, 'Exec' + key)
  • 1
    Works, but I'd create a filtered version of locals (e.g, filter(lambda x: x.startswith('Exec'), locals()) ). As far as safety goes, locals will always contain functions defined in local scope.
    – Ohad
    Commented Feb 6, 2012 at 23:14
  • See stackoverflow.com/a/9168387/4909087 for how to actually and correctly do this
    – cs95
    Commented May 18, 2018 at 18:21
# index dictionary by list of key names

def fn1():
    print "One"

def fn2():
    print "Two"

def fn3():
    print "Three"

fndict = {"A": fn1, "B": fn2, "C": fn3}

keynames = ["A", "B", "C"]


# keynames[1] = "B", so output of this code is

# Two

You can just use

myDict = {
    "P1": (lambda x: function1()),
    "P2": (lambda x: function2()),
    "Pn": (lambda x: functionn())}
myItems = ["P1", "P2", ..., "Pn"]

for item in myItems:

This will call methods from dictionary

This is python switch statement with function calling

Create few modules as per the your requirement. If want to pass arguments then pass.

Create a dictionary, which will call these modules as per requirement.

    def function_1(arg):
        print("In function_1")

    def function_2(arg):
        print("In function_2")

    def function_3(fileName):
        print("In function_3")
        f_title,f_course1,f_course2 = fileName.split('_')

    def createDictionary():

        dict = {

            1 : function_1,
            2 : function_2,
            3 : function_3,

        return dict

    dictionary = createDictionary()
    dictionary[3](Argument)#pass any key value to call the method
  • With integers as keys, a list would also do instead.
    – Alex Povel
    Commented Feb 23, 2021 at 12:49

def thing_a(arg=None):
    print 'thing_a', arg

def thing_b(arg=None):
    print 'thing_b', arg

ghetto_switch_statement = {
    'do_thing_a': thing_a,
    'do_thing_b': thing_b

ghetto_switch_statement['do_thing_a']("It's lovely being an A")
ghetto_switch_statement['do_thing_b']("Being a B isn't too shabby either")

print "Available methods are: ", ghetto_switch_statement.keys()
  • I know it is easy to do it that way, I really do, but then my dictionary has no protection, I really need to prevent the end user to modify that dictioanry
    – JohnnyDH
    Commented Feb 6, 2012 at 22:43
  • Then make it a class guarded by (and I use this term loosely) write-only enforcement decorators and use __ prefixed variables in a (lets be honest, vain attempt) to hide the implementation details from the user. Take a look at fightingquaker.com/pyanno for some inspiration.. Commented Feb 6, 2012 at 22:49

Often classes are used to enclose methods and following is the extension for answers above with default method in case the method is not found.

class P:

     def p1(self):

     def p2(self):

     def ps(self):

     def d(self):
         print('Default function')

     myDict = {
         "start": p1,
         "help": p2,
         "settings": ps

     def call_it(self):
         name = 'start'
         f = lambda self, x : self.myDict.get(x, lambda x : self.d())(self)
         f(self, name)

 p = P()
class CallByName():
    def method1(self):

    def method2(self):

    def method3(self):

    def get_method(self, method_name):
        method = getattr(self, method_name)
        return method()

callbyname = CallByName()
method1 = callbyname.get_method(method_name)

def p1( ):
    print("in p1")

def p2():
    print("in p2")

    "P1": p1,
    "P2": p2


name=input("enter P1 or P2")


  • 3
    What if p1() and p2() have parameters?
    – alex
    Commented May 7, 2021 at 18:16
# Define your functions here (replace with actual function definitions)

# Function that simulates calling FunctionA with parameters
def FunctionA(param1, param2):
    print(f"Calling FunctionA with params: {param1}, {param2}")

# Function that simulates calling FunctionB with parameters
def FunctionB(img_ch, output_ch, lamda, start_n):
    print(f"Calling FunctionB with params: {img_ch}, {output_ch}, {lamda}, {start_n}")

# Function that simulates calling FunctionC
def FunctionC():
    print("Calling FunctionC")

# Function that simulates calling FunctionD with parameters
def FunctionD(param1, param2):
    print(f"Calling FunctionD with params: {param1}, {param2}")

# Your dictionary
a = {
'FunctionA': 'FunctionA(9, 5)',
'FunctionB': 'FunctionB(img_ch=3,output_ch=2,lamda=0.1,start_n=16)',
'FunctionC': 'FunctionC()',
'FunctionD': 'FunctionD(3,2)'

# Loop through the dictionary
for key, value in a.items():
        # Evaluate the value as a function call
    except Exception as e:
        print(f"Error calling {key}: {e}")


Calling FunctionA with params: 9, 5
Calling FunctionB with params: 3, 2, 0.1, 16
Calling FunctionA with params: 9, 3
Calling FunctionC
Calling FunctionD with params: 3, 2

You are wasting your time:

  1. You are about to write a lot of useless code and introduce new bugs.
  2. To execute the function, your user will need to know the P1 name anyway.
  3. Etc., etc., etc.

Just put all your functions in the .py file:

# my_module.py

def f1():

def f2():

def f3():

And use them like this:

import my_module



from my_module import f1
from my_module import f2
from my_module import f3


This should be enough for starters.

  • You are right the end user will know the name and I really appreciate your tip, I am a starter, but just in python, I am very well aware of some programming principles but I am not implementing this in a personal project, is work related and customer asks for a robust application and the truth is that this software will be used by a bunch of monkeys and they want to see everything but a simple and plain application...
    – JohnnyDH
    Commented Feb 6, 2012 at 23:00
  • @JohnnyDH, describe at least few different scenarios with those monkeys taking over your application. This might get you some answers more suitable for your situation. Commented Feb 6, 2012 at 23:07
  • The application is GUI interface for a device, we offer "scripting" features within our application, but we do not offer "full" support for python since this is our main goal, limit the access. The final users are sellers, people that only need to follow a manual to write basic "scripts", they did not accept a proprietary "language", they wanted a python based one, so yeah, the user can modify the dictionary in a single buggy line and the product won't work, so yes, they just need to restart but the costumer will complain.
    – JohnnyDH
    Commented Feb 6, 2012 at 23:34
  • @JonnyDH Your arguments don't really make sense. "With a single buggy line" they can clobber your main function just as easily as they could modify a dictionary. In truth it will about as unlikely that either will happen, because neither resembles a legitimate normal operation. But this answer is suggesting that you don't even use a dictionary, you just give them a single public module that only contains the things the end user is supposed to call. There is nothing you can do if you're worried about them importing other modules and messing with their internals.
    – Ben
    Commented Feb 7, 2012 at 1:21
  • @Ben Believe me, I am very aware of that, I have 8 years providing software solutions, this is the first time I use Python and I wish I could use many security features from other languages, however I can not control it, I need to make the module somewhat "Read-Only", the costumer asks us to give them "proofs" that the scripting feature is as safe as possible, we offered a proprietary language so we had full control of the scripting process but they refused, and we can't control all without compromising flexibility for the feature.
    – JohnnyDH
    Commented Feb 7, 2012 at 19:59

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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