I've been trying to create a nested or recursive effect with SequenceMatcher.
The final goal is comparing two sequences, both may contain instances of different types.
For example, the sequences could be:
l1 = [1, "Foo", "Bar", 3] l2 = [1, "Fo", "Bak", 2]
Normally, SequenceMatcher will identify only  as a common sub-sequence for l1 and l2.
I'd like SequnceMatcher to be applied twice for string instances, so that
"Fo" will be considered equal, as well as
"Bak", and the longest common sub-sequence will be of length 3
[1, Foo/Fo, Bar/Bak]. That is, I'd like SequenceMatcher to be more forgiving when comparing string members.
What I tried doing is write a wrapper for the built-in str class:
from difflib import SequenceMatcher class myString: def __init__(self, string): self.string = string def __hash__(self): return hash(self.string) def __eq__(self, other): return SequenceMatcher(a=self.string, b=self.string).ratio() > 0.5
Edit: perhaps a more elegant way is:
class myString(str): def __eq__(self, other): return SequenceMatcher(a=self, b=other).ratio() > 0.5
By doing this, the following is made possible:
>>> Foo = myString("Foo") >>> Fo = myString("Fo") >>> Bar = myString("Bar") >>> Bak = myString("Bak") >>> l1 = [1, Foo, Bar, 3] >>> l2 = [1, Fo, Bak, 2] >>> SequenceMatcher(a=l1, b=l2).ratio() 0.75
So, evidently it's working, but I have a bad feeling about overriding the hash function. When is the hash used? Where can it come back and bite me?
SequenceMatcher's documentation states the following:
This is a flexible class for comparing pairs of sequences of any type, so long as the sequence elements are hashable.
And by definition hashable elements are required to fulfill the following requirement:
Hashable objects which compare equal must have the same hash value.
In addition, do I need to override cmp as well?
I'd love to hear about other solutions that come to mind.