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): last_probe=current_probe_list[-1] available_probes = [candidate for candidate in probes if candidate.start>last_probe.end] else: 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: new_list=list(current_probe_list) new_list.append(new_last_probe) self.get_next_probe(new_list, probes, unit_length) else: 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.