Why is it
string.join(list) instead of
This is because
join is a "string" method! It creates a string from any iterable. If we stuck the method on lists, what about when we have iterables that aren't lists?
What if you have a tuple of strings? If this were a
list method, you would have to cast every such iterator of strings as a
list before you could join the elements into a single string! For example:
some_strings = ('foo', 'bar', 'baz')
Let's roll our own list join method:
def join(self, s):
And to use it, note that we have to first create a list from each iterable to join the strings in that iterable, wasting both memory and processing power:
>>> l = OurList(some_strings) # step 1, create our list
>>> l.join(', ') # step 2, use our list join method!
'foo, bar, baz'
So we see we have to add an extra step to use our list method, instead of just using the builtin string method:
>>> ' | '.join(some_strings) # a single step!
'foo | bar | baz'
Performance Caveat for Generators
The algorithm Python uses to create the final string with
str.join actually has to pass over the iterable twice, so if you provide it a generator expression, it has to materialize it into a list first before it can create the final string.
Thus, while passing around generators is usually better than list comprehensions,
str.join is an exception:
>>> import timeit
>>> min(timeit.repeat(lambda: ''.join(str(i) for i in range(10) if i)))
>>> min(timeit.repeat(lambda: ''.join([str(i) for i in range(10) if i])))
str.join operation is still semantically a "string" operation, so it still makes sense to have it on the
str object than on miscellaneous iterables.