I have a number of Python generators, which I want to combine into a new generator. I can easily do this by a hand-written generator using a bunch of
On the other hand, the
itertools module is made for things like this and to me it seems as if the pythonic way to create the generator I need is to plug together various iterators of that
However, in the problem at hand, it soon gets quite complicated (the generator needs to maintain a sort of state --- e.g. whether the first or later items are being processed ---, the i-th output further depends on conditions on the i-th input items and the various input lists have to be processed differently before they are being joined to the generated list.
As the composition of standard iterators that would solve my problem is --- due to the one-dimensional nature of writing down source code --- nearly incomprehensible, I wonder whether there are any advantages of using standard
itertools generators versus hand-written generator functions (in basic and in more advanced cases). Actually, I think that in 90% of the cases, the hand-written versions are much easier to read --- probably due to their more imperative style compared to the functional style of chaining iterators.
In order to illustrate my problem, here is a (toy) example: Let
b be two iterables of the same length (the input data). The items of
a consist of integers, the items of
b are iterables themselves, whose individual items are strings. The output should correspond to the output of the following generator function:
from itertools import * def generator(a, b): first = True for i, s in izip(a, b): if first: yield "First line" first = False else: yield "Some later line" if i == 0: yield "The parameter vanishes." else: yield "The parameter is:" yield i yield "The strings are:" comma = False for t in s: if comma: yield ',' else: comma = True yield t
If I write down the same program in functional style using generator expressions and the
itertools module, I end up with something like:
from itertools import * def generator2(a, b): return (z for i, s, c in izip(a, b, count()) for y in (("First line" if c == 0 else "Some later line",), ("The parameter vanishes.",) if i == 0 else ("The parameter is:", i), ("The strings are:",), islice((x for t in s for x in (',', t)), 1, None)) for z in y)
>>> a = (1, 0, 2), ("ab", "cd", "ef") >>> print([x for x in generator(a, b)]) ['First line', 'The parameter is:', 1, 'The strings are:', 'a', ',', 'b', 'Some later line', 'The parameter vanishes.', 'The strings are:', 'c', ',', 'd', 'Some later line', 'The parameter is:', 2, 'The strings are:', 'e', ',', 'f'] >>> print([x for x in generator2(a, b)]) ['First line', 'The parameter is:', 1, 'The strings are:', 'a', ',', 'b', 'Some later line', 'The parameter vanishes.', 'The strings are:', 'c', ',', 'd', 'Some later line', 'The parameter is:', 2, 'The strings are:', 'e', ',', 'f']
This is possibly more elegant than my first solution but it looks like a write-once-do-not-understand-later piece of code. I am wondering whether this way of writing my generator has enough advantages that one should do so.
P.S.: I guess part of my problem with the functional solution is that in order to minimize the amount of keywords in Python, some keywords like "for", "if" and "else" have been recycled for use in expressions so that their placement in the expression takes getting used to (the ordering in the generator expression
z for x in a for y in x for z in y looks, at least to me, less natural than the ordering in the classic
for x in a: for y in x: for z in y: yield z).