> Thank you!! That was very thorough and is exactly what I was looking for.
Zero upvotes; not accepted
@MatthieuM. I just got back from Denver, Colorado, USA which has legal marijuana. I don't mind the concept, but greatly dislike the smell. Riding the bus with people smoking was unpleasant.
the first step is finding matches: it finds substrings that appear exactly once on both sides, no matter where (I use suffix trees for that)
the second step is finding a subsequence of matches that appear in order on both sides; this is essentially finding the heaviest increasing subsequence
where "heaviest" is measured by the length of a match and "increasing" means that the match's positions are increasing on both sides
the text from matches in the HIS are reported as unchanged, while the text from matches not in the HIS are reported as moved
just to be clear, my diff library doesn't just handle insertions and removals, it also finds moves and "copies"
"copies" are created when matches overlap
my initial goal with this library was to build a merge tool that can resolve merges in more situations than the tools I've used before (i.e. in situations where the resolution is arguably unambiguous)
because "substrings that appear exactly once on both sides" is a bit too strict :P
though sometimes the recursive part gives strange results
like when you indent a piece of code, on one line it'll report the first few spaces as inserted, then on the next line it may report the last few spaces as inserted, then it keeps alternating
whereas what it's "supposed" to report is that spaces were inserted somewhere but it's ambiguous where exactly
which is why I thought about adding a layer that "normalizes" whitespace (i.e. turn all sequences of whitespace chars into a single space) before feeding it into the diff function, and then remapping the diff onto the original string