59

I naively tried to create a recursive generator. Didn't work. This is what I did:

def recursive_generator(lis):
    yield lis[0]
    recursive_generator(lis[1:])

for k in recursive_generator([6,3,9,1]):
    print(k)

All I got was the first item 6.

Is there a way to make such code work? Essentially transferring the yield command to the level above in a recursion scheme?

  • 10
    You're not yielding when you call it again. It hits the first yield, doesn't see another yield statement, and exits. – Morgan Thrapp Jul 7 '16 at 20:02
  • 1
    you either need to yield from another_generator(), or yield each element one by one explicitly in while loop. Whether another_generator() is or is not "recursive" in your terminology - that does not matter. – Łukasz Rogalski Jul 7 '16 at 20:05
  • 2
    Possible duplicate of Python: how to make a recursive generator function – hashcode55 Jul 7 '16 at 20:09
85

Try this:

def recursive_generator(lis):
    yield lis[0]
    yield from recursive_generator(lis[1:])

for k in recursive_generator([6,3,9,1]):
    print(k)

I should point out this doesn't work because of a bug in your function. It should probably include a check that lis isn't empty, as shown below:

def recursive_generator(lis):
    if lis:
        yield lis[0]
        yield from recursive_generator(lis[1:])

In case you are on Python 2.7 and don't have yield from, check this question out.

22

Why your code didn't do the job

In your code, the generator function:

  1. returns (yields) the first value of the list
  2. then it creates a new iterator object calling the same generator function, passing a slice of the list to it
  3. and then stops

The second instance of the iterator, the one recursively created, is never being iterated over. That's why you only got the first item of the list.

A generator function is useful to automatically create an iterator object (an object that implements the iterator protocol), but then you need to iterate over it: either manually calling the next() method on the object or by means of a loop statement that will automatically use the iterator protocol.

So, can we recursively call a generator?

The answer is yes. Now back to your code, if you really want to do this with a generator function, I guess you could try:

def recursive_generator(some_list):
    """
    Return some_list items, one at a time, recursively iterating over a slice of it... 
    """
    if len(some_list)>1:
    # some_list has more than one item, so iterate over it
        for i in recursive_generator(some_list[1:]):
            # recursively call this generator function to iterate over a slice of some_list.
            # return one item from the list.
            yield i
        else:
            # the iterator returned StopIteration, so the for loop is done.
            # to finish, return the only value not included in the slice we just iterated on.
            yield some_list[0]
    else:
        # some_list has only one item, no need to iterate on it.
        # just return the item.
        yield some_list[0]

some_list = [6,3,9,1]
for k in recursive_generator(some_list):
    print(k)

Note: the items are returned in reversed order, so you might want to use some_list.reverse() before calling the generator the first time.

The important thing to note in this example is: the generator function recursively calls itself in a for loop, which sees an iterator and automatically uses the iteration protocol on it, so it actually gets values from it.

This works, but I think this is really not useful. We are using a generator function to iterate over a list and just get the items out, one at a time, but... a list is an iterable itself, so no need for generators! Of course I get it, this is just an example, maybe there are useful applications of this idea.

Another example

Let's recycle the previous example (for lazyness). Lets say we need to print the items in a list, adding to every item the count of previous items (just a random example, not necessarily useful).

The code would be:

def recursive_generator(some_list):
    """
    Return some_list items, one at a time, recursively iterating over a slice of it...
    and adding to every item the count of previous items in the list
    """
    if len(some_list)>1:
    # some_list has more than one item, so iterate over it
        for i in recursive_generator(some_list[1:]):
            # recursively call this generator function to iterate over a slice of some_list.
            # return one item from the list, but add 1 first. 
            # Every recursive iteration will add 1, so we basically add the count of iterations.
            yield i + 1
        else:
            # the iterator returned StopIteration, so the for loop is done.
            # to finish, return the only value not included in the slice we just iterated on.
            yield some_list[0]
    else:
        # some_list has only one item, no need to iterate on it.
        # just return the item.
        yield some_list[0]

some_list = [6,3,9,1]
for k in recursive_generator(some_list):
    print(k)

Now, as you can see, the generator function is actually doing something before returning list items AND the use of recursion starts to make sense. Still, just a stupid example, but you get the idea.

Note: off course, in this stupid example the list is expected to contain only numbers. If you really want to go try and break it, just put in a string in some_list and have fun. Again, this is only an example, not production code!

11

Recursive generators are useful for traversing non-linear structures. For example, let a binary tree be either None or a tuple of value, left tree, right tree. A recursive generator is the easiest way to visit all nodes. Example:

tree = (0, (1, None, (2, (3, None, None), (4, (5, None, None), None))),
        (6, None, (7, (8, (9, None, None), None), None)))

def visit(tree):  # 
    if tree is not None:
        try:
            value, left, right = tree
        except ValueError:  # wrong number to unpack
            print("Bad tree:", tree)
        else:  # The following is one of 3 possible orders.
            yield from visit(left)
            yield value  # Put this first or last for different orders.
            yield from visit(right)

print(list(visit(tree)))

# prints nodes in the correct order for 'yield value' in the middle.
# [1, 3, 2, 5, 4, 0, 6, 9, 8, 7]

Edit: replace if tree with if tree is not None to catch other false values as errors.

Edit 2: about putting the recursive calls in the try: clause (comment by @jpmc26).

For bad nodes, the code above just logs the ValueError and continues. If, for instance, (9,None,None) is replaced by (9,None), the output is

Bad tree: (9, None)
[1, 3, 2, 5, 4, 0, 6, 8, 7]

More typical would be to reraise after logging, making the output be

Bad tree: (9, None)
Traceback (most recent call last):
  File "F:\Python\a\tem4.py", line 16, in <module>
    print(list(visit(tree)))
  File "F:\Python\a\tem4.py", line 14, in visit
    yield from visit(right)
  File "F:\Python\a\tem4.py", line 14, in visit
    yield from visit(right)
  File "F:\Python\a\tem4.py", line 12, in visit
    yield from visit(left)
  File "F:\Python\a\tem4.py", line 12, in visit
    yield from visit(left)
  File "F:\Python\a\tem4.py", line 7, in visit
    value, left, right = tree
ValueError: not enough values to unpack (expected 3, got 2)

The traceback gives the path from the root to the bad node. One could wrap the original visit(tree) call to reduce the traceback to the path: (root, right, right, left, left).

If the recursive calls are included in the try: clause, the error is recaught, relogged, and reraised at each level of the tree.

Bad tree: (9, None)
Bad tree: (8, (9, None), None)
Bad tree: (7, (8, (9, None), None), None)
Bad tree: (6, None, (7, (8, (9, None), None), None))
Bad tree: (0, (1, None, (2, (3, None, None), (4, (5, None, None), None))), (6, None, (7, (8, (9, None), None), None)))
Traceback (most recent call last):
...  # same as before

The multiple logging reports are likely more noise than help. If one wants the path to the bad node, it might be easiest to wrap each recursive call in its own try: clause and raise a new ValueError at each level, with the contructed path so far.

Conclusion: if one is not using an exception for flow control (as may be done with IndexError, for instance) the presence and placements of try: statements depends on the error reporting one wants.

  • I don't see a need for an else block on the try/except; it would be simpler to just move that code into the try block, wouldn't it? – jpmc26 Mar 14 '17 at 19:50
  • 5
    Simpler? Yes. Better? Not according to many experts, starting with GvR. python.org/dev/peps/pep-0008/#programming-recommendations "Additionally, for all try/except clauses, limit the try clause to the absolute minimum amount of code necessary. Again, this avoids masking bugs." – Terry Jan Reedy Mar 15 '17 at 23:51
  • @jpmc26 See Edit 2 for a discussion of your comment. – Terry Jan Reedy Jul 4 at 18:27
1

Up to Python 3.4, a generator function used to have to raise StopIteration exception when it is done. For the recursive case other exceptions (e.g. IndexError) are raised earlier than StopIteration, therefore we add it manually.

def recursive_generator(lis):
    if not lis: raise StopIteration
    yield lis[0]
    yield from recursive_generator(lis[1:])

for k in recursive_generator([6, 3, 9, 1]):
    print(k)

def recursive_generator(lis):
    if not lis: raise StopIteration
    yield lis.pop(0)
    yield from recursive_generator(lis)

for k in recursive_generator([6, 3, 9, 1]):
    print(k)

Note that for loop will catch StopIteration exception. More about this here

0

Yes you can have recursive generators. However, they suffer from the same recursion depth limit as other recursive functions.

def recurse(x):
  yield x
  yield from recurse(x)

for (i, x) in enumerate(recurse(5)):
  print(i, x)

This loop gets to about 3000 (for me) before crashing.

However, with some trickery, you can create a function that feeds a generator to itself. This allows you to write generators like they are recursive but are not: https://gist.github.com/3noch/7969f416d403ba3a54a788b113c204ce

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