Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I wrote a function to return a generator containing every unique combination of sub-strings a given length that contain more than n elements from a primary string.

As an illustration:

if i have 'abcdefghi' and a probe of length of two, and a threshold of 4 elements per list i'd like to get:

['ab', 'cd', 'ef', 'gh']
['ab', 'de', 'fg', 'hi']
['bc', 'de', 'fg', 'hi']

My first attempt at this problem involved returning a list of lists. This ended up overflowing the memory of the computer. As a crude secondary solution, I created a generator that does something similar. The problem is that I created a nested generator that calls itself. When I run this function, it seems to just loop around the inner for loop without actually calling itself again. I thought that a generator would precede as far down the recursion hole as necessary until it hit the yield statement. Any clue what is happening?

def get_next_probe(self, current_probe_list, probes, unit_length):
    if isinstance(current_probe_list, list):
        available_probes = [candidate for candidate in probes if candidate.start>last_probe.end]
        available_probes = [candidate for candidate in probes if candidate.start<unit_length]

    if available_probes:

        max_position=min([probe.end for probe in available_probes])
        available_probes2=[probe for probe in available_probes if max_position+1>probe.start]

        for new_last_probe in available_probes2:
            self.get_next_probe(new_list, probes, unit_length)

        if len(current_probe_list)>=self.num_units:
            yield current_probe_list

If yield is changed to print this works just fine! I'd appreciate any help I could get. I realize this isn't an optimal implementation of this type of search problem, it seems like returning a list of found positions from the last call of get_next_probe and filtering this list for the elements that do not overlap new_last_probe.end would be far more efficient... but this was a lot easier for me to write. Any algorithm input would still be appreciated.


share|improve this question
You don’t seem to be using the result from your recursive call. I would expect to see an inner loop that iterates over a sublit of the outer list, concatenating the result from a recursive call to form the result which is yielded. –  Lawrence D'Oliveiro Apr 22 '12 at 1:38
You're missing a quote on the first line, ab, too –  Stuart Siegler Apr 22 '12 at 2:17

1 Answer 1

up vote 14 down vote accepted

I thought that a generator would precede as far down the recursion hole as necessary until it hit the yield statement

It will recurse fine, but to get the yielded value to propogate back outward, you need to do it explicitly - just like if it was a return, you would need to explicitly return the result of each recursion. So, instead of:

 self.get_next_probe(new_list, probes, unit_length)

You would do something like:

 for val in self.get_next_probe(new_list, probes, unit_length):
     yield val
share|improve this answer
Starting in Python 3.2, you can also just do yield from self.get_next_prob(...). –  Dougal Apr 22 '12 at 2:31
@Dougal , yield from isn't in 3.2 but will be in 3.3 once it comes out. –  lvc Apr 22 '12 at 3:05
Good point @Ivc...you'd thing I could check that before saying so, since I write most of my code in 3.2 these days anyway. :) –  Dougal Apr 22 '12 at 3:48

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.