Several times I have found myself wanting a python syntax for short-circuiting list comprehensions and generator expressions.
Here is a simple list comprehension, and the equivalent for loop in python:
my_list = [1, 2, 3, 'potato', 4, 5] [x for x in my_list if x != 'potato'] result =  for element in my_list: if element != 'potato': result.append(element)
Now, unless I'm missing something, there isn't support in the language for a comprehension which short-circuits. Proposed syntax, and equivalent for loop in python:
[x for x in my_list while x != 'potato'] # --> [1, 2, 3] result =  for element in my_list: if element != 'potato': result.append(element) else: break
It should work with arbitrary iterables, including infinite sequences, and be extendable to generator expression syntax. I am aware of
list(itertools.takewhile(lambda x: x != 'potato'), my_list) as an option, but:
- it's not particularly pythonic - not as readable as a while comprehension
- it probably can't be as efficient or fast as a CPython comprehension
- it requires an additional step to transform the output, whereas that can be put into a comprehension directly, e.g.
[x.lower() for x in mylist]
- even the original author doesn't seem to like it much.
My question is, was there any theoretical wrinkle about why it's not a good idea to extend the grammar to this use case, or is it just not possible because python dev think it would be rarely useful? It seems like a simple addition to the language, and a useful feature, but I'm probably overlooking some hidden subtleties or complications.