Calling a function of a module by using its name (a string)

M

Mateen Ulhaq

Given a module foo with method bar:

import foo
bar = getattr(foo, 'bar')
result = bar()

getattr can similarly be used on class instance bound methods, module-level methods, class methods... the list goes on.

hasattr or getattr can be used to determine if a function is defined. I had a database mapping (eventType and handling functionName) and I wanted to make sure I never "forgot" to define an event handler in my python

This works if you already know the module name. However, if you want the user to provide the module name as a string, this won't work.

If you need to avoid a NoneType is not callable exception, you could also employ the three-argument form of getattr: getattr(foo, 'bar', lambda: None). I apologize for the formatting; the stackexchange android app is apparently terrible.

See also the answer provided by @sastanin if you only care for example about your local/current module's functions.

@akki Yes, if you're in the foo module you can use globals() to do this: methodToCall = globals()['bar']

M

Mateen Ulhaq

Using locals(), which returns a dictionary with the current local symbol table: locals()["myfunction"]()

Using globals(), which returns a dictionary with the global symbol table: globals()["myfunction"]()

This method with globals/locals is good if the method you need to call is defined in the same module you are calling from.

@Joelmob is there any other way to get an object by string out of the root namespace?

@NickT I am only aware of these methods, I don't think there are any others that fill same function as these, at least I can't think of a reason why there should be more.

I've got a reason for you (actually what led me here): Module A has a function F that needs to call a function by name. Module B imports Module A, and invokes function F with a request to call Function G, which is defined in Module B. This call fails because, apparently, function F only runs with the globals that are defined in Module F - so globals()['G'] = None.

M

Mateen Ulhaq

Based on Patrick's solution, to get the module dynamically as well, import it using:

module = __import__('foo')
func = getattr(module, 'bar')
func()

I do not understand that last comment. __import__ has its own right and the next sentence in the mentioned docs says: "Direct use of __import__() is rare, except in cases where you want to import a module whose name is only known at runtime". So: +1 for the given answer.

Use importlib.import_module. The official docs say about __import__: "This is an advanced function that is not needed in everyday Python programming, unlike importlib.import_module()." docs.python.org/2/library/functions.html#__import__

@glarrain As long as you're ok with only support 2.7 and up.

@Xiong Chaimiov, importlib.import_module is supported in 3.6 . See docs.python.org/3.6/library/…

@cowlinator Yes, 3.6 is part of "2.7 and up", both in strict versioning semantics and in release dates (it came about six years later). It also didn't exist for three years after my comment. ;) In the 3.x branch, the module has been around since 3.1. 2.7 and 3.1 are now pretty ancient; you'll still find servers hanging around that only support 2.6, but it's probably worth having importlib be the standard advice nowadays.

t

tbc0

Just a simple contribution. If the class that we need to instance is in the same file, we can use something like this:

# Get class from globals and create an instance
m = globals()['our_class']()

# Get the function (from the instance) that we need to call
func = getattr(m, 'function_name')

# Call it
func()

For example:

class A:
    def __init__(self):
        pass

    def sampleFunc(self, arg):
        print('you called sampleFunc({})'.format(arg))

m = globals()['A']()
func = getattr(m, 'sampleFunc')
func('sample arg')

# Sample, all on one line
getattr(globals()['A'](), 'sampleFunc')('sample arg')

And, if not a class:

def sampleFunc(arg):
    print('you called sampleFunc({})'.format(arg))

globals()['sampleFunc']('sample arg')

What if you call this function inside a class function?

f

ferrouswheel

Given a string, with a complete python path to a function, this is how I went about getting the result of said function:

import importlib
function_string = 'mypackage.mymodule.myfunc'
mod_name, func_name = function_string.rsplit('.',1)
mod = importlib.import_module(mod_name)
func = getattr(mod, func_name)
result = func()

This helped me. Its a lightweight version of __import__ function.

I think this was the best answer.

佚

佚名

The best answer according to the Python programming FAQ would be:

functions = {'myfoo': foo.bar}

mystring = 'myfoo'
if mystring in functions:
    functions[mystring]()

The primary advantage of this technique is that the strings do not need to match the names of the functions. This is also the primary technique used to emulate a case construct

0

00500005

The answer (I hope) no one ever wanted

Eval like behavior

getattr(locals().get("foo") or globals().get("foo"), "bar")()

Why not add auto-importing

getattr(
    locals().get("foo") or 
    globals().get("foo") or
    __import__("foo"), 
"bar")()

In case we have extra dictionaries we want to check

getattr(next((x for x in (f("foo") for f in 
                          [locals().get, globals().get, 
                           self.__dict__.get, __import__]) 
              if x)),
"bar")()

We need to go deeper

getattr(next((x for x in (f("foo") for f in 
              ([locals().get, globals().get, self.__dict__.get] +
               [d.get for d in (list(dd.values()) for dd in 
                                [locals(),globals(),self.__dict__]
                                if isinstance(dd,dict))
                if isinstance(d,dict)] + 
               [__import__])) 
        if x)),
"bar")()

this could be improved by recursively scanning the directory tree and auto-mounting usb drives

This is definitely the answer I wanted. Perfect.

t

trubliphone

For what it's worth, if you needed to pass the function (or class) name and app name as a string, then you could do this:

myFnName  = "MyFn"
myAppName = "MyApp"
app = sys.modules[myAppName]
fn  = getattr(app,myFnName)

Just a bit more generic is handler = getattr(sys.modules[__name__], myFnName)

how does it work if function is a class function?

t

tvt173

Try this. While this still uses eval, it only uses it to summon the function from the current context. Then, you have the real function to use as you wish.

The main benefit for me from this is that you will get any eval-related errors at the point of summoning the function. Then you will get only the function-related errors when you call.

def say_hello(name):
    print 'Hello {}!'.format(name)

# get the function by name
method_name = 'say_hello'
method = eval(method_name)

# call it like a regular function later
args = ['friend']
kwargs = {}
method(*args, **kwargs)

This would be risky. string can have anything and eval would end up eval-ling it without any consideration.

Sure, you must be mindful of the context you are using it in, whether this will be appropriate or not, given those risks.

A function should not be responsible for validating it's parameters - that's the job of a different function. Saying that it's risky to use eval with a string is saying that use of every function is risky.

You should never use eval unless strictly necessary. getattr(__module__, method_name) is a much better choice in this context.

S

Serjik

As this question How to dynamically call methods within a class using method-name assignment to a variable [duplicate] marked as a duplicate as this one, I am posting a related answer here:

The scenario is, a method in a class want to call another method on the same class dynamically, I have added some details to original example which offers some wider scenario and clarity:

class MyClass:
    def __init__(self, i):
        self.i = i

    def get(self):
        func = getattr(MyClass, 'function{}'.format(self.i))
        func(self, 12)   # This one will work
        # self.func(12)    # But this does NOT work.


    def function1(self, p1):
        print('function1: {}'.format(p1))
        # do other stuff

    def function2(self, p1):
        print('function2: {}'.format(p1))
        # do other stuff


if __name__ == "__main__":
    class1 = MyClass(1)
    class1.get()
    class2 = MyClass(2)
    class2.get()

Output (Python 3.7.x) function1: 12 function2: 12

Great answer, thank you :) I was trying the same approach, but failed not knowing that I have to include "self" in the actual function call again. Do you have an explanation as to why this is necessary?

My best guess: obj.method in Python actually calls method(self, ...), in case of getattr this synthetic sugar could not be applied by Python interpreter.

best answer. the point is using class name instead of "self" in getattr command.i was trying to use like getattr(self, key)() and it was giving error like int is not callable but when i changed it to " getattr(HomeScreen, key)(self)" it is working now. "HomeScreen" is class name by the way..thanks...

N

Natdrip

none of what was suggested helped me. I did discover this though.

<object>.__getattribute__(<string name>)(<params>)

I am using python 2.66

Hope this helps

In what aspect is this better than getattr() ?

Exactly what i wanted. Works like a charm! Perfect!! self.__getattribute__('title') is equal to self.title

self.__getattribute__('title') doesn't work in any cases(don't know why) afterall, but func = getattr(self, 'title'); func(); does. So, maybe is better to use getattr() instead

Can people who don't know python please stop upvoting this junk? Use getattr instead.

L

Lukas

Although getattr() is elegant (and about 7x faster) method, you can get return value from the function (local, class method, module) with eval as elegant as x = eval('foo.bar')(). And when you implement some error handling then quite securely (the same principle can be used for getattr). Example with module import and class:

# import module, call module function, pass parameters and print retured value with eval():
import random
bar = 'random.randint'
randint = eval(bar)(0,100)
print(randint) # will print random int from <0;100)

# also class method returning (or not) value(s) can be used with eval: 
class Say:
    def say(something='nothing'):
        return something

bar = 'Say.say'
print(eval(bar)('nice to meet you too')) # will print 'nice to meet you'

When module or class does not exist (typo or anything better) then NameError is raised. When function does not exist, then AttributeError is raised. This can be used to handle errors:

# try/except block can be used to catch both errors
try:
    eval('Say.talk')() # raises AttributeError because function does not exist
    eval('Says.say')() # raises NameError because the class does not exist
    # or the same with getattr:
    getattr(Say, 'talk')() # raises AttributeError
    getattr(Says, 'say')() # raises NameError
except AttributeError:
    # do domething or just...
    print('Function does not exist')
except NameError:
    # do domething or just...
    print('Module does not exist')

A

Aliakbar Ahmadi

In python3, you can use the __getattribute__ method. See following example with a list method name string:

func_name = 'reverse'

l = [1, 2, 3, 4]
print(l)
>> [1, 2, 3, 4]

l.__getattribute__(func_name)()
print(l)
>> [4, 3, 2, 1]

This is a duplicate of this answer, and is also not the best practice for the same reasons: just use getattr(obj, attr) instead.

U

U12-Forward

Nobody mentioned operator.attrgetter yet:

>>> from operator import attrgetter
>>> l = [1, 2, 3]
>>> attrgetter('reverse')(l)()
>>> l
[3, 2, 1]
>>>

정

정도유

getattr calls method by name from an object. But this object should be parent of calling class. The parent class can be got by super(self.__class__, self)

class Base:
    def call_base(func):
        """This does not work"""
        def new_func(self, *args, **kwargs):
            name = func.__name__
            getattr(super(self.__class__, self), name)(*args, **kwargs)
        return new_func

    def f(self, *args):
        print(f"BASE method invoked.")

    def g(self, *args):
        print(f"BASE method invoked.")

class Inherit(Base):
    @Base.call_base
    def f(self, *args):
        """function body will be ignored by the decorator."""
        pass

    @Base.call_base
    def g(self, *args):
        """function body will be ignored by the decorator."""
        pass

Inherit().f() # The goal is to print "BASE method invoked."

B

Bowen 404

i'm facing the similar problem before, which is to convert a string to a function. but i can't use eval() or ast.literal_eval(), because i don't want to execute this code immediately.

e.g. i have a string "foo.bar", and i want to assign it to x as a function name instead of a string, which means i can call the function by x() ON DEMAND.

here's my code:

str_to_convert = "foo.bar"
exec(f"x = {str_to_convert}")
x()

as for your question, you only need to add your module name foo and . before {} as follows:

str_to_convert = "bar"
exec(f"x = foo.{str_to_convert}")
x()

WARNING!!! either eval() or exec() is a dangerous method, you should confirm the safety. WARNING!!! either eval() or exec() is a dangerous method, you should confirm the safety. WARNING!!! either eval() or exec() is a dangerous method, you should confirm the safety.

eval() can be used here instead of exec(), and would probably make the code marginally more readable: just use x = eval(str_to_convert) instead for the same result.

@Lecdi yes, you're right! and this also makes the variable visable to the following codes. thanks!

@Lecdi but exec could let me define a series of variables with different names, like exec(f"x{i} = {i}"), which eval cannot do.

F

Franz Kurt

You means get the pointer to an inner function from a module

import foo
method = foo.bar
executed = method(parameter)

This is not a better pythonic way indeed is possible for punctual cases

But this does not answer the OP's question, as you cannot use this method when "bar" is stored as a string...

N

Number File

This is a simple answer, this will allow you to clear the screen for example. There are two examples below, with eval and exec, that will print 0 at the top after cleaning (if you're using Windows, change clear to cls, Linux and Mac users leave as is for example) or just execute it, respectively.

eval("os.system(\"clear\")")
exec("os.system(\"clear\")")

This is not what op asks.

this code snippet contains the worst 2 security flaws, nested. Some kind of a record.

Calling a function of a module by using its name (a string)

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