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The diff program, in its various incarnations, is reasonably good at computing the difference between two text files and expressing it more compactly than showing both files in their entirety. It shows the difference as a sequence of inserted and deleted chunks of lines (or changed lines in some cases, but that's equivalent to a deletion followed by an insertion). The same or very similar program or algorithm is used by patch and by source control systems to minimize the storage required to represent the differences between two versions of the same file. The algorithm is discussed here and here.

But it falls down when blocks of text are moved within the file.

Suppose you have the following two files, a.txt and b.txt (imagine that they're both hundreds of lines long rather than just 6):

a.txt   b.txt
-----   -----
1       4
2       5
3       6
4       1
5       2
6       3

diff a.txt b.txt shows this:

$ diff a.txt b.txt 
1,3d0
< 1
< 2
< 3
6a4,6
> 1
> 2
> 3

The change from a.txt to b.txt can be expressed as "Take the first three lines and move them to the end", but diff shows the complete contents of the moved chunk of lines twice, missing an opportunity to describe this large change very briefly.

Note that diff -e shows the block of text only once, but that's because it doesn't show the contents of deleted lines.

Is there a variant of the diff algorithm that (a) retains diff's ability to represent insertions and deletions, and (b) efficiently represents moved blocks of text without having to show their entire contents?

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3 Answers

up vote 9 down vote accepted

Since you asked for an algorithm and not an application, take a look at "The String-to-String Correction Problem with Block Moves" by Walter Tichy. There are others, but that's the original, so you can look for papers that cite it to find more.

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I think I meant to ask about an application, but you're right, I did ask about an algorithm. It would be nice if somebody hacked diff to use this. –  Keith Thompson Nov 7 '13 at 0:13
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Our Smart Differencer tools do exactly this when computing differences between source texts of two programs in the same programmming language. Differences are reported in terms of program structures (identifiers, expressions, statements, blocks) precise to line/column number, and in terms of plausible editing operations (delete, insert, move, copy [above and beyond OP's request for mere "copy"], rename-identifier-in-block).

The SmartDifferencers require an structured artifact (e.g., a programming language), so it can't do this for arbitrary text. (We could define structure to be "just lines of text" but didn't think that would be particularly valuable compared to standard diff).

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Here's a sketch of something that may work. Ignore diff insertations/deletions for the moment for the sake of clarity.

This seems to consist of figuring out the best blocking, similar to text compression. We want to find the common substring of two files. One options is to build a generalized suffix tree and iteratively take the maximal common substring , remove it and repeat until there are no substring of some size $s$. This can be done with a suffix tree in O(N^2) time (https://en.wikipedia.org/wiki/Longest_common_substring_problem#Suffix_tree). Greedily taking the maximal appears to be optimal (as a function of characters compressed) since taking a character sequence from other substring means adding the same number of characters elsewhere.

Each substring would then be replaced by a symbol for that block and displayed once as a sort of 'dictionary'.

$ diff a.txt b.txt 
1,3d0
< $
6a4,6
> $

 $ = 1,2,3 

Now we have to reintroduce diff-like behavior. The simple (possibly non-optimal) answer is to simply run the diff algorithm first, omit all the text that wouldn't be output in the original diff and run the above algorithm.

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Our Smart Differencer uses suffix trees to find maximal common segments of code, including those that have been moved. –  Ira Baxter Apr 9 '12 at 5:20
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