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I'm working on a password analyzer, which will look for known patterns in a given string - and it's working really well so far. However, I've discovered that instead of looking for the largest (and first) pattern in a password, I really need to find all possible patterns, then analyze them to find the quickest combination.

Each step identifies a single pattern (such as word, date, bruteforce) and splits the string at each pattern found, giving a prefix and suffix. For instance, "42david!" becomes [42, david, !]. "david" is now locked in place, and the other two are analyzed, with different methods or combinations.

It's also capable of converting the ! to an i, and davidi matches a dictionary, giving a second option of [42, davidi]. "davidi" is now locked, and 42 is analyzed.

My immediate thought is a tree which stores each option as a node. For the password "money$$":

 money(word), $$     |     moneys(word, leet), $
              |                                |
   $$(brute)  |  ss(word, leet)      $(brute)  |  s(word, leet)

The problem here is that it doesn't fit the structure of a normal tree, since nodes are linked from parts of a node, rather than the node itself. Each step may have dozens of different possibilities as well, making it a tree with no specific number of links from each node. Even if it works, it feels finding all possible combinations after the structure is created will be terribly overcomplicated.

Bad smell here. Thoughts on where the overcomplication is happening? I've been from code to whiteboard for a good part of the day, trying all kinds of different structures.

Edit: Found a solution (though untested) - graph which acts like a double-linked list. Still, I'm definitely open to possibly better solutions.

def addParts(self, part, prefix, suffix, sub):
    tempPrev = part.prev
    tempNext = part.next
    for node in tempNext:
    for node in tempPrev:
    if prefix.word:
        prefix.prev = tempPrev
        prefix.next = sub
        sub.prev = prefix
        for node in tempPrev:
        sub.prev = tempPrev
        for node in tempPrev:
    if suffix.word:
        sub.next = suffix
        suffix.prev = sub
        suffix.next = tempNext
        for node in tempNext:
        sub.next = tempNext
        for node in tempNext:
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1 Answer 1

Figured this out with the answer above.

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