To elaborate on @Helgi answer, here is a more performant recursive implémentation. It updates the list instead of summing two lists (which results in the creation of a new object every time).
This pattern forces you to pass a list object as third parameter.
def split_word(word, num_of_chars, tail):
if len(word) > 0:
return split_word(word[num_of_chars:], num_of_chars, tail)
res = split_word('fdjskqmfjqdsklmfjm', 3, )
Another advantage of this form, is that it allows tail recursion optimisation. It's useless in Python because it's not a language that performs such optimisation, but if you translate this code into Erlang or Lisp, you will get it for free.
Remember, in Python you are limited by the recursion stack, and there is no way out of it. This is why recursion is not the preferred method.
You would most likely use generators, using
itertools (a module to manipulate generators). Here is a very good example of a function that can split any iterable in chunks:
from itertools import chain, islice
def chunk(seq, chunksize, process=iter):
it = iter(seq)
yield process(chain([it.next()], islice(it, chunksize - 1)))
Now it's a bit complicated if you start learning Python, so I'm not expecting you to fully get it now, but it's good that you can see this and know it exists. You'll come back to it later (we all did, Python iteration tools are overwhelming at first).
The benefits of this approach are:
- It can chunk ANY iterable, not just strings, but also lists, dictionaries, tuples, streams, files, sets, queryset, you name it...
- It accepts iterables of any length, and even one with an unknown length (think bytes stream here).
- It eats very few memory, as the best thing with generators is that they generate the values on the fly, one by one, and they don't store the previous results before computing the next.
- It returns chunks of any nature, meaning you can have a chunks of x letters, lists of x items, or even generators spitting out x items (which is the default).
- It returns a generator, and therefor can be use in a flow of other generators. Piping data from one generator to the other, bash style, is a wonderful Python ability.
To get the same result that with your function, you would do:
In : list(chunk('fdjskqmfjqdsklmfjm', 3, ''.join))
Out: ['fdj', 'skq', 'mfj', 'qds', 'klm', 'fjm']