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Reading up on some of the new style points of view in Python and getting around to the shift from StopIteration to return in generators. My main question is exactly how this should work in a custom generator. I've got a class where I'm over-writing the __next__ method directly as there's some logic I have to add in to track generation.

Below is pretty close to what I'm doing, has all of the critical elements. Note that I'm not actually just creating a generator that replicates a list, just making this a minimal example.

class Test():
    items = <list>

    def __init__(self):
        self.index = 0

    def __next__(self):
        if self.index >= len(self.items):
            raise StopIteration
        value = self.items[self.index]
        self.index += 1
        return value

    def reset(self):
        self.index = 0

So in a case like this I'm iterating through a list until it's exhausted and then downstream calls will decide whether to reset the generator or to move on after it's exhausted. However, how do I enable something like this without using StopIteration since it's being deprecated? The standard advice of using return here to raise a StopIteration doesn't seem to apply and I'd really rather not change downstream code to check for a generator yielding Nones

So what am I supposed to do here? Are StopIteration exceptions still acceptable in __next__?

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StopIteration is not being deprecated, you merely misunderstood something about what generators are. You don't actually have a generator, you have an iterator. Generators are simply functions that use yield to create an iterator.

You are creating your own base iterator implementation without using generators. And iterators raise StopIterator from __next__ when they are done. Your code correctly does so here.

From the Generator Types section of the Python datamodel documentation:

Python’s generators provide a convenient way to implement the iterator protocol. If a container object’s __iter__() method is implemented as a generator, it will automatically return an iterator object (technically, a generator object) supplying the __iter__() and __next__() methods. More information about generators can be found in the documentation for the yield expression.

And from the same documentation, in the Iterator Types section:

iterator.__next__()
Return the next item from the container. If there are no further items, raise the StopIteration exception.

There is a deprecation in place, but this only concerns using StopIteration in generator functions. See PEP 479 - Change StopIteration handling inside generators:

This PEP proposes a change to generators: when StopIteration is raised inside a generator, it is replaced it with RuntimeError. (More precisely, this happens when the exception is about to bubble out of the generator's stack frame.) Because the change is backwards incompatible, the feature is initially introduced using a __future__ statement.

Inside a generator, using return triggers the StopIteration exception. Raising StopIteration manually can actually create obscure bugs, because any consumer of the resulting iterator can't distinguish between correct use of the exception and incorrect, accidental StopIteration exceptions eminating from your generator. That makes such issues hard to debug, which is why their use inside a generator function is changing in a future Python version.

Side note: your implementation requires the iterator.__iter__() method, which simply returns self.

  • I thought the distinction was just if I was lazily generating results? In this example obviously I'm not, but in my actual code __next__ is lazily generating values. It does appear I've misunderstood exactly what was being deprecated (or rather, my linter did). But in this case it sounds like StopIteration is just fine to use? – Slater Victoroff May 17 at 15:36
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    @SlaterVictoroff: iterators are the things that lazily provide results. Generators are functions that create iterators by using yield, and by using return in a generator raising StopIteration is taken care of for you; when people talk about generators and StopIteration it is because you should not raise the exception manually. Your linter is confusing you, it should not warn about StopIteration when you are not using yield. – Martijn Pieters May 17 at 15:37
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    That makes tons of sense. Thanks for the clarification. I'll try to find some time to open a PR on the linter. – Slater Victoroff May 17 at 15:38
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If you want a resettable wrapped generator, one possible option is to keep its data elsewhere:

class Gen:
   def __init__(self):
      self.items = []
   def restart(self):
      for x in self.items:
         yield x

g = Gen()
for x in g.restart():
   pass
for x in g.restart():
   pass
  • Thanks for the tip. As I mentioned though, this isn't actually what I'm looking to do. I've got working code, really just a confusion about where throwing StopIteration is acceptable – Slater Victoroff May 17 at 15:45
  • I'd not call something Gen if it is not itself a generator. Only Gen.restart() is a generator here, that's not quite the same thing. And you didn't create a resettable iterator either, you implemented a different pattern, an iterable. The usual way to create is with an __iter__ method but no __next__ method. Calling __iter__ then creates the iterator object. Renaming restart to __iter__ makes your example an iterable (so rename the class to Iter perhaps). Then simply use i = Iter() and two for x in i: loops. – Martijn Pieters May 17 at 15:53
  • And, actually, your code doesn't work, because not even restart() is a generator. Only the nested ret_val() function is, and you return that without calling it. As a result, the for x in g.restart() loop tries to iterate over a function object. That will raise a TypeError exception. There is no need, whatsoever, to use a nested function here. – Martijn Pieters May 17 at 15:55
  • I don’t get why you are returning a nested generator function still. There is absolutely no point here. – Martijn Pieters May 20 at 23:42
  • Whatever, that's not a point of my post. – bipll May 21 at 6:09

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