Sometimes, you want different clients to be able to use your module with different settings in such a way that they don't conflict with each other. For example, Python's
random module provides a bunch of random number generation functions that are actually bound methods of a hidden
Random instance. Most users don't care too much what algorithm generates their random numbers or whether other modules asking for random numbers will change the sequence. However, users who do care can get their own
Random object and generate sequences of random numbers that won't be affected by other modules asking for random numbers.
Sometimes, something that's global now might not always be global. For example, if you're working on a planetary-scale RTS, you might have a
Planet class with one instance, because the battle only happens on one planet. However, you don't want to rule out the possibility of building something like Planetary Annihilation, with battles stretching across entire solar systems and dropping extinction-event asteroids as superweapons. If you get rid of the
Planet class and make its methods and attributes module-level, it'll be much harder to go back and add more planets later.
Sometimes, it's more readable to have objects doing things instead of modules. For example, suppose module
joebob defines two objects
print "Muahahaha! Die for my amusement!"
print "I won't let you hurt those innocents!"
evil_overlord_bob = Bob()
good_guy_joe = Joe()
Suppose Bob and Joe are very unique people. It's unthinkable that you'd want to create another object anything like Bob or Joe. In that case, you could move
stop_bob to module-level and get rid of the Bob and Joe classes and objects entirely. However, then you'd be writing
It's much clearer what's going on if you can say
even if you'll never need to instantiate Bob's equally-evil twin brother