A Dynamic, non-cascading Switch/case implementation for Python. Since this class was made for users transitioning from languages with switch cases, no reserved words exist for switch case, or should ever be made (to prevent long term use of switch cases). This project exists to demonstrate the power of Python and help transitioning coders.
Here are a few examples of switch cases (from wikipedia) translated from native language to switch_case.py Python implementation:
The following is a Ruby excerpt:
case n
when 0
puts 'You typed zero'
when 1, 9
puts 'n is a perfect square'
when 2
puts 'n is a prime number'
puts 'n is an even number'
when 3, 5, 7
puts 'n is a prime number'
when 4, 6, 8
puts 'n is an even number'
else
puts 'Only single-digit numbers are allowed'
endThen you have the Python translation using switch_case.py, note that ruby does not have fall through:
#Import switch_case stuff, Ruby doesn't use the word "switch", so we alias it to be nice
from switch_case import Switch as case
when = case(n, fallthrough = False)
if when(0):
print 'You typed zero' #Python 3 works too...
if when(1) or when(9):
print 'n is a perfect square'
if when(2):
print 'n is a prime number'
print 'n is an even number'
if when(3) or when(5) or when(7):
print 'n is a prime number'
if when(4) or when(6) or when(8):
print 'n is an even number'
if when.default
print 'Only single-digit numbers are allowed'That's pretty close right? If you were porting code, that would do fine, but it's not particularly clean... so let's look at how it could look cleaned up a bit:
from switch_case import Switch as case
when = case(n, verbose = True, fallthrough = False)
if when(n == 0):
print 'You typed zero'
if when(n in (1,9)):
print 'n is a perfect square'
if when(n in (2, 3, 5, 7):
print 'n is a prime number'
if when(n in (2, 4, 6, 8)):
print 'n is an even number'
if when.default
print 'Only single-digit numbers are allowed'That's a little better... still fairly bulky and ugly. We can keep the ruby words around, but it's not ruby, so why bind ourselves to their lack of fallthrough?:
from switch_case import Switch as case
when = case(n)
if when(0):
print 'You typed zero'
when.stop()
if when(1): pass
if when(9):
print 'n is a perfect square'
when.stop()
if when(2): pass
if when(4): pass
if when(6): pass
if when(8):
print 'n is an even number'
when.stop()
if when(2): pass
if when(3): pass
if when(5): pass
if when(7):
print 'n is a prime number'
when.stop()
if when.default:
print 'Only single-digit numbers are allowed'Bigger, but certainly cleaner looking... switch_case supports a number of varieties of switch cases, each with their own benefit for a given switch layout; sometimes one will look better than another. In some languages, that would limit you, but not with switch_case.py in Python!
switch_case also has support for indented switch cases (without breaking Python), as some people use this for readability. You can do this with the "with" reserved word. At the moment, nothing special is done with "with", but there are placeholders that allow it for indentation sake. In the future features may be added to "with"; or you can make them now! Here's a sample of how to use the code like this... now using cooler words in place of case and when!:
from switch_case import Switch as spam
with spam(n) as breakfast:
if breakfast(0):
print 'You typed zero'
breakfast.stop()
if breakfast(1): pass
if breakfast(9):
print 'n is a perfect square'
breakfast.stop()
if breakfast(2): pass
if breakfast(4): pass
if breakfast(6): pass
if breakfast(8):
print 'n is an even number'
breakfast.stop()
if breakfast(2): pass
if breakfast(3): pass
if breakfast(5): pass
if breakfast(7):
print 'n is a prime number'
breakfast.stop()
if breakfast.default:
print 'Only single-digit numbers are allowed'Silliness, but it helps illustrate how dynamic the Switch class can be. Unfortunately, there is no support for nested Switch cases, without calling them by different names: Pseudo-code sampler of an equivalent look to:
switch(n)
case(1):
switch(m):
case1(1):
etc...
...
end
...
endOf course, if you use nested switch cases, you might have other issues... in your brain.
Here's a C# excerpt (wikipedia):
switch (n)
{
case 0:
Console.WriteLine("You typed zero.");
break;
case 1:
case 4:
case 9:
Console.WriteLine("n is a perfect square.");
break;
case 2:
Console.WriteLine("n is an even number.");
goto case 3;
case 3:
case 5:
case 7:
Console.WriteLine("n is a prime number.");
break;
case 6:
case 8:
Console.WriteLine("n is an even number.");
break;
default:
Console.WriteLine("Only single-digit numbers are allowed.");
break;
}Translates well to Python like so:
from switch_case import Switch as switch
with switch(n) as case:
if case(0):
print("You typed zero.")
case.stop()
if case(1): pass
if case(4): pass
if case(9):
print("n is a perfect square.")
case.stop()
if case(2):
print("n is an even number")
#A goto here would have more potential, but as its used, a simple fall will emulate it
if case(3): pass
if case(5): pass
if case(7):
print("n is a prime number.")
case.stop()
if case(6): pass
if case(8):
print("n is an even number.")
case.stop()
if case.default:
print("Only single-digit numbers are allowed.")As you can see, C# allows goto, which could be used to jump more dynamically than a fallthrough, but for this purpose, simply allowing it to fall will work.