I want to write a function in Python that returns different fixed values based on the value of an input index.

In other languages I would use a switch or case statement, but Python does not appear to have a switch statement. What are the recommended Python solutions in this scenario?

  • 77
    Related PEP, authored by Guido himself: PEP 3103 – chb Jun 16 '12 at 17:22
  • 28
    @chb In that PEP, Guido doesn't mention that if/elif chains are also a classic source of error. It's a very fragile construct. – itsbruce Jan 9 '14 at 13:46
  • 15
    Missing from all solutions here is detection of duplicate case values. As a fail-fast principle, this may be a more important loss than performance or the fallthrough feature. – Bob Stein Oct 17 '14 at 19:04
  • 6
    switch is actually more "versatile" than something returning different fixed values based on the value of an input index. It allows for different pieces of code to be executed. It actually does not even need to return a value. I wonder if some of the answers here are good replacements for a general switch statement, or only for the case of returning values with no possibility of executing general pieces of code. – sancho.s Reinstate Monica May 14 '17 at 21:29
  • 3
    @MalikA.Rumi Fragile construct, just as a while loop is a fragile construct if you try using it to do what for...in... does. Are you going to call programmers weak for using for loops? While loops are all they actually need. But for loops show clear intent, save pointless boilerplate and give the opportunity to create powerful abstractions. – itsbruce Oct 1 '17 at 6:53

44 Answers 44

1 2

If you don't worry losing syntax highlight inside the case suites, you can do the following:

exec {
    1: """
print ('one')
    2: """
print ('two')
    3: """
print ('three')
}.get(value, """
print ('None')

Where value is the value. In C, this would be:

switch (value) {
    case 1:
    case 2:
    case 3:

We can also create a helper function to do this:

def switch(value, cases, default):
    exec cases.get(value, default)

So we can use it like this for the example with one, two and three:

switch(value, {
    1: """
print ('one')
    2: """
print ('two')
    3: """
print ('three')
}, """
print ('None')

I was quite confused after reading the answer, but this cleared it all up:

def numbers_to_strings(argument):
    switcher = {
        0: "zero",
        1: "one",
        2: "two",
    return switcher.get(argument, "nothing")

This code is analogous to:

    switch(argument) {
        case 0:
            return "zero";
        case 1:
            return "one";
        case 2:
            return "two";
            return "nothing";

Check the Source for more about dictionary mapping to functions.


Just mapping some a key to some code is not really and issue as most people have shown using the dict. The real trick is trying to emulate the whole drop through and break thing. I don't think I've ever written a case statement where I used that "feature". Here's a go at drop through.

def case(list): reduce(lambda b, f: (b | f[0], {False:(lambda:None),True:f[1]}[b | f[0]]())[0], list, False)

    (False, lambda:print(5)),
    (True, lambda:print(4))

I was really imagining it as a single statement. I hope you'll pardon the silly formatting.

    function=(lambda b, f:
        ( b | f[0]
        , { False: (lambda:None)
          , True : f[1]
          }[b | f[0]]()
        (False, lambda:print(5)),
        (True, lambda:print(4))

I hope that's valid python. It should give you drop through. of course the boolean checks could be expressions and if you wanted them to be evaluated lazily you could wrap them all in a lambda. I wouldn't be to hard to make it accept after executing some of the items in the list either. Just make the tuple (bool, bool, function) where the second bool indicates whether or not to break or drop through.

  • 1
    Drop-through is unstructured. You don't need it, it will make your code harder to maintain, harder to avoid bugs, and is banned my many coding standards. It is a hangover from C. C did not go 100% structured, it left in drop-through, goto, continue, break. Most of its descendent copied it. – ctrl-alt-delor Feb 11 '13 at 10:34

I've made a Switch Case implementation that doesn't quite use ifs externally(it still uses an if in the class).

class SwitchCase(object):
    def __init__(self):
        self._cases = dict()

    def add_case(self,value, fn):
        self._cases[value] = fn

    def add_default_case(self,fn):
        self._cases['default']  = fn

    def switch_case(self,value):
        if value in self._cases.keys():
            return self._cases[value](value)
            return self._cases['default'](0)

Use it like this:-

from switch_case import SwitchCase
switcher = SwitchCase()
switcher.add_case(1, lambda x:x+1)
switcher.add_case(2, lambda x:x+3)
switcher.add_default_case(lambda _:[1,2,3,4,5])

print switcher.switch_case(1) #2
print switcher.switch_case(2) #5
print switcher.switch_case(123) #[1, 2, 3, 4, 5]
  • Get a performance boost if you replace if value in keys with a try-except block. – iBug Mar 27 '18 at 9:00

As a minor variation on Mark Biek's answer, for uncommon cases like this duplicate where the user has a bunch of function calls to delay with arguments to pack in (and it isn't worth building a bunch of functions out-of-line), instead of this:

d = {
    "a1": lambda: a(1),
    "a2": lambda: a(2),
    "b": lambda: b("foo"),
    "c": lambda: c(),
    "z": lambda: z("bar", 25),
return d[string]()

… you can do this:

d = {
    "a1": (a, 1),
    "a2": (a, 2),
    "b": (b, "foo"),
    "c": (c,)
    "z": (z, "bar", 25),
func, *args = d[string]
return func(*args)

This is certainly shorter, but whether it's more readable is an open question…

I think it might be more readable (although not briefer) to switch from lambda to partial for this particular use:

d = {
    "a1": partial(a, 1),
    "a2": partial(a, 2),
    "b": partial(b, "foo"),
    "c": c,
    "z": partial(z, "bar", 25),
return d[string]()

… which has the advantage of working nicely with keyword arguments as well:

d = {
    "a1": partial(a, 1),
    "a2": partial(a, 2),
    "b": partial(b, "foo"),
    "c": c,
    "k": partial(k, key=int),
    "z": partial(z, "bar", 25),
return d[string]()
  • The problem with this answer is that all the arguments still get evaluated immediately. Even if this works for the user at first, if one day they have to add a case foo(some_expensive_function(3)) then it's a problem. Either the whole thing breaks or they have to separately test for that case before the dictionary, which not only looks odd but might mislead a reader looking at a glance into thinking that the only options to consider are in the dictionary. – Alex Hall Jun 4 '18 at 19:39
  • @AlexHall When you have a hunk of arbitrary code that has to be deferred, rather than just a function call that has to be deferred, you really do need to wrap it in a function. And for anything less trivial than the toy example you just gave, it’s probably not even a lambda, but an out-of-line named def that you want. But I don’t think that’s a flaw in the language or anything, because such code really isn’t—and shouldn’t be—common. If you have a more realistic example, there’s likely a better way to refactor it. – abarnert Jun 4 '18 at 19:49
  • You're right, my example can be solved by just writing lambda: foo(some_expensive_function(3)) for that one case. I've added my own answer along these lines. – Alex Hall Jun 4 '18 at 20:24

Although there are already enough answers, I want to point a simpler and more powerful solution:

class Switch:
    def __init__(self, switches):
        self.switches = switches
        self.between = len(switches[0]) == 3

    def __call__(self, x):
        for line in self.switches:
            if self.between:
                if line[0] <= x < line[1]:
                    return line[2]
                if line[0] == x:
                    return line[1]
        return None

if __name__ == '__main__':
    between_table = [
        (1, 4, 'between 1 and 4'),
        (4, 8, 'between 4 and 8')

    switch_between = Switch(between_table)

    print('Switch Between:')
    for i in range(0, 10):
        if switch_between(i):
            print('{} is {}'.format(i, switch_between(i)))
            print('No match for {}'.format(i))

    equals_table = [
        (1, 'One'),
        (2, 'Two'),
        (4, 'Four'),
        (5, 'Five'),
        (7, 'Seven'),
        (8, 'Eight')
    print('Switch Equals:')
    switch_equals = Switch(equals_table)
    for i in range(0, 10):
        if switch_equals(i):
            print('{} is {}'.format(i, switch_equals(i)))
            print('No match for {}'.format(i))


Switch Between:
No match for 0
1 is between 1 and 4
2 is between 1 and 4
3 is between 1 and 4
4 is between 4 and 8
5 is between 4 and 8
6 is between 4 and 8
7 is between 4 and 8
No match for 8
No match for 9

Switch Equals:
No match for 0
1 is One
2 is Two
No match for 3
4 is Four
5 is Five
No match for 6
7 is Seven
8 is Eight
No match for 9

I've found the following answer from python docs most helpful:

You can do this easily enough with a sequence of if... elif... elif... else. There have been some proposals for switch statement syntax, but there is no consensus (yet) on whether and how to do range tests. See PEP 275 for complete details and the current status.

For cases where you need to choose from a very large number of possibilities, you can create a dictionary mapping case values to functions to call. For example:

def function_1(...):

functions = {'a': function_1,
             'b': function_2,
             'c': self.method_1, ...}

func = functions[value]

For calling methods on objects, you can simplify yet further by using the getattr() built-in to retrieve methods with a particular name:

def visit_a(self, ...):

def dispatch(self, value):
    method_name = 'visit_' + str(value)
    method = getattr(self, method_name)

It’s suggested that you use a prefix for the method names, such as visit_ in this example. Without such a prefix, if values are coming from an untrusted source, an attacker would be able to call any method on your object.

  • PEP 275 seems to be have rejected. – Peter Mortensen Jul 3 '18 at 9:12

Similar to this answer by abarnert, here is a solution specifically for the use case of calling a single function for each 'case' in the switch, while avoiding the lambda or partial for ultra-conciseness while still being able to handle keyword arguments:

class switch(object):
    NO_DEFAULT = object()

    def __init__(self, value, default=NO_DEFAULT):
        self._value = value
        self._result = default

    def __call__(self, option, func, *args, **kwargs):
        if self._value == option:
            self._result = func(*args, **kwargs)
        return self

    def pick(self):
        if self._result is switch.NO_DEFAULT:
            raise ValueError(self._value)

        return self._result

Example usage:

def add(a, b):
    return a + b

def double(x):
    return 2 * x

def foo(**kwargs):
    return kwargs

result = (
    (1, add, 7, 9)
    (2, double, 5)
    (3, foo, bar=0, spam=8)
    (4, lambda: double(1 / 0))  # if evaluating arguments is not safe


Note that this is chaining calls, i.e. switch(3)(...)(...)(...). Don't put commas in between. It's also important to put it all in one expression, which is why I've used extra parentheses around the main call for implicit line continuation.

The above example will raise an error if you switch on a value that is not handled, e.g. switch(5)(1, ...)(2, ...)(3, ...). You can provide a default value instead, e.g. switch(5, default=-1)... returns -1.


If you are really just returning a predetermined, fixed value, you could create a dictionary with all possible input indexes as the keys, along with their corresponding values. Also, you might not really want a function to do this - unless you're computing the return value somehow.

Oh, and if you feel like doing something switch-like, see here.


The following works for my situation when I need a simple switch-case to call a bunch of methods and not to just print some text. After playing with lambda and globals it hit me as the simplest option for me so far. Maybe it will help someone also:

def start():

def stop():

def print_help():

def choose_action(arg):
    return {
        "start": start,
        "stop": stop,
        "help": print_help,
    }.get(arg, print_help)

argument = sys.argv[1].strip()
choose_action(argument)()  # calling a method from the given string
  • make your action functions closures - i.e. define them in your choose_action function - and you can have access to any arguments etc too :-) i.e. it becomes my solution ... – Tony Suffolk 66 Jun 6 '18 at 16:51

And another option:

def fnc_MonthSwitch(int_Month): #### Define a function take in the month variable 
    str_Return ="Not Found"     #### Set Default Value 
    if int_Month==1:       str_Return = "Jan"   
    if int_Month==2:       str_Return = "Feb"   
    if int_Month==3:       str_Return = "Mar"   
    return str_Return;          #### Return the month found  
print ("Month Test 3:  " + fnc_MonthSwitch( 3) )
print ("Month Test 14: " + fnc_MonthSwitch(14) )

Easy to remember:

while True:
        x = int(input("Enter a numerical input: "))
        print("Invalid input - please enter a Integer!");
    if x==1:
    elif x==2:
    elif x==3:
        print ("terrible");

also use the List for store the cases ,and call corresponding function by select-

cases = ['zero()','one()','two()','three()']

def zero():
  print "method for 0 called..."
def one():
  print "method for 1 called..."
def two():
  print "method for 2 called..."
def three():
  print "method for 3 called..." 

i = int(raw_input("Enter choice between 0-3 "))

 print "wrong choice"

also explained at screwdesk

  • why using exec when you can store function objects in a list, not a list of strings ? – Jean-François Fabre May 25 '19 at 19:33

Switch statement is just syntactic sugar for if/elif/else. What any control statement is doing is delegating the job based on certain condition is being fulfilled - decision path.For wrapping that into module and being able to call a job based on it's unique id, one can utilizes on inheritance and the fact that any method in python is virtual, to provide the derived class specific job implementation, as specific "case" handler


import sys

class Case(object):
        Base class wich specifies the interface for "case" handler.
        The all required arbitrary arguments inside "execute" method will be
        provided through the derived class
        specific constructor

        @note in python, all class methods are virtual
    def __init__(self, id):
        self.id = id

    def pair(self):
            Pairs the given id of the "case" with
            the instance on which "execute" will be called
        return (self.id, self)

    def execute(self):#base class virtual method that needs to be overrided

class Case1(Case):
    def __init__(self, id, msg):
        self.id = id
        self.msg = msg
    def execute(self):#override the base class method
        print("<Case1> id={}, message: \"{}\"".format(str(self.id), self.msg))

class Case2(Case):
    def __init__(self, id, n):
        self.id = id
        self.n = n
    def execute(self):#override the base class method
        print("<Case2> id={}, n={}.".format(str(self.id), str(self.n)))
        print("\n".join(map(str, range(self.n))))

class Switch(object):
        The class wich delegates the jobs
        based on the given job id
    def __init__(self, cases):
        self.cases = cases#dictionary: time complexitiy for access operation is 1
    def resolve(self, id):

        except KeyError as e:
            print("Given id: {} is wrong!".format(str(id)))

if __name__ == '__main__':

    # Cases
    cases=dict([Case1(0, "switch").pair(), Case2(1, 5).pair()])

    switch = Switch(cases)

    # id will be dynamically specified
1 2

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