Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# Puzzle: Recursive generator without loops/imports

It is generators today. I saw a question today that wanted to find a way to flatten a list recursively without using loops and imports. tobias_k answered it with a following code:

``````def flatten(test_list):
if isinstance(test_list, list):
if len(test_list) == 0:
return []
first, rest = test_list[0], test_list[1:]
return flatten(first) + flatten(rest)
else:
return [test_list]
``````

Is there a way of creating a generator (with keeping the rules: no imports,loops)?

NOTE: it is purely educational. i know it is not the best idea, but coulnd't figure out how to do it.

-

A generator function is a function that contains at least one `yield` statement and no `return` statements that take an expression. When a generator function is invoked it returns a generator iterator, which when iterated (e.g. by a `for` loop, or explicitly with `next`) runs through the body of the function, freezing its state and returning control to the caller on each `yield` statement (and in Python 3.3, `yield from` statements).

Flow control inside a Python function is always forwards; without hacks like setting the current frames `f_lineno` (as famously done by the (April Fool's) `goto` statement), the only way for control to reach an earlier point is to use a loop (`for` or `while`). So without a loop or `yield from`, the maximum number of times a generator iterator can be invoked is bounded by the number of `yield` statements within the generator function.

Note that it's easy to write a `flatten` that returns an iterator; taking the original solution and writing `return iter(flatten(first) + flatten(rest))` would do. But that wouldn't be a generator iterator, and the function wouldn't be a generator function.

Here's an implementation that abuses `f_lineno` to give loopless iteration. Unfortunately it has to use `import sys`:

``````def current_frame():
i = None
def gen():
yield i.gi_frame.f_back
i = gen()
return next(i).f_back

class Loop(object):
jump = False
def __call__(self, frame, event, arg):
if self.jump:
frame.f_lineno = self.lineno
self.jump = False
return None if event == 'call' else self
def __enter__(self):
import sys
sys.settrace(self)
current_frame().f_back.f_trace = self
self.lineno = current_frame().f_back.f_lineno
return self
def __exit__(self, exc_type, exc_value, traceback):
if exc_type is None:
self.jump = True
else:
import sys
sys.settrace(None)
current_frame().f_back.f_trace = None
return exc_type is StopIteration

def flatten(x):
if isinstance(x, list):
if x:
first, rest = flatten(x[0]), flatten(x[1:])
with Loop():
yield next(first)
with Loop():
yield next(rest)
pass
else:
yield x
``````
-
@ ecatmur -- this is nice. thanks for effort. i will try to absorb this. – root Sep 18 '12 at 16:03

In Python 3.3 (development version), you can use the `yield from` construct to avoid explicit loops:

``````def flatten(x):
if isinstance(x, list):
if x:
first, rest = x[0], x[1:]
yield from flatten(first)
yield from flatten(rest)
else:
yield x
``````

In current versions, I can't think of a solution that does not use `itertools.chain`.

-
Where `yield from` is implemented as a C loop instead. :-P – Martijn Pieters Sep 18 '12 at 14:18
That doesn't avoid loops, it's just syntactical sugar to make the interpreter do the loop for you, is it not? – Silas Ray Sep 18 '12 at 14:18
@sr2222: of course. So is performing `+` on two lists. Changed "loops" to "explicit loops". – Fred Foo Sep 18 '12 at 14:19
As far as I'm concerned, how list concatenation and `yield from` are implemented is completely irrelevant. From a python perspective, there are no loops here ... – mgilson Sep 18 '12 at 14:24
@sr2222: if you interpret the question literally, yes. I was assuming the requirement is "no list comprehensions, no imports, and no loops in the Python code". – Fred Foo Sep 18 '12 at 14:29

Done with a single line list comprehension:

``````def flatten (test_list):
return [element for temp in test_list for element in flatten(temp)] if isinstance(test_list, list) else [test_list]

print(flatten([1, [2, 1, [3, 6, 7]], [1, 2, [3, 2, 3], 4, [1, 2, 3, 4, 5]]]))
#[1, 2, 1, 3, 6, 7, 1, 2, 3, 2, 3, 4, 1, 2, 3, 4, 5]
``````
-
@ pR0Ps -- oops. no loops. – root Sep 18 '12 at 14:57
Whenever you iterate over a list you have to use a loop. The difference between the generator and the list comprehension is that the comprehension keeps the loop keywords visible. Do you mean no loop keywords? – pR0Ps Sep 18 '12 at 15:08
look at the example code :) no loop there. – root Sep 18 '12 at 15:09