Unlike every other programming language I've used before, Python does not have a switch or case statement. To get around this fact, we use dictionary mapping:

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

This code is analogous to:

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

While the Python code is often more terse than the standard method of handling cases, I could argue it is more arcane. When I first started Python it felt weird and distracting. Over time it grew on me, the use of a dictionary key being the identifier in a switch becoming more and more habitual.

# Dictionary Mapping for Functions

In Python we can also include functions or lambdas in our dictionary mapping:

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

While the code inside zero() and one are simple, many Python programs use dictionary mappings like this to dispatch complex procedures.

# Dispatch Methods for Classes

If we don't know what method to call on a class, we can use a dispatch method to determine it at runtime.

class Switcher ( object ) : def numbers_to_methods_to_strings ( self , argument ) : """Dispatch method""" method_name = 'number_' + str ( argument ) method = getattr ( self , method_name , lambda : "nothing" ) return method ( ) def number_0 ( self ) : return "zero" def number_1 ( self ) : return "one" def number_2 ( self ) : return "two"

Pretty nifty, right?

# The Official Answer

The official answer says, "You can do this easily enough with a sequence of if... elif... elif... else ". And that you can use dictionary mapping for functions and dispatch methods for classes.

Arguably the official answer doesn't explain anything except for workarounds. In other words, a "non-answer". In my opinion, what the official answer is really trying to say is, "Python doesn't need a case statement."

Yup. But there's more. I've heard people I respect say that switch/case statements in code can be really hard to debug.

Personally I find that argument breaks down as soon as you run into gigantic nested dictionaries used for mapping of code branches. Think about it, a 100+ element nested dictionary is just as hard to debug as a nested switch and case block with 100+ cases.

# Maybe Dictionary Mapping Runs Faster?

Moot as Python doesn't have a case statement. Talking about benchmarks from other languages is pointless as what is faster in one language is not always faster in another. Let's move on.

# The Significant Advantage of Python's Approach

Every once in a while I walk into a scenario where Python's approach just works better than a switch/case statement. This is when at runtime I need to add or remove potential items from the mapping. When this occurs, my years of practice of writing dictionary mappings and dispatch methods pays off. I have insights now that I never had back in the day when I relied on switch/case statements.

# Closing Thoughts

To me, that Python forced me to accumulate lots of practical experience with mappings is a blessing in disguise. The constraint of not having switch/case statements allowed me to create approaches and ideas I may not have developed with it.

Intentional or not, Python's lack of switch/case has been a social construct that made me a better coder.

Enough so that I think this accidental social construct is a better answer than the official one of 'Do this instead!'

The reference book I co-authored with Audrey Roy Greenfeld on Django best practices, Two Scoops of Django 1.8 , is now available in both print paperback and PDF formats.