Can we use a factor-oracle with suffix link (paper here) to compute the longest common substring of multiple strings? Here, *substring* means any part of the original string. For example "abc" is the substring of "ffabcgg", while "abg" is not.

I've found a way to compute the maximum length common substring of two strings `s1`

and `s2`

. It works by concatenating the two strings using a character not in them, '$' for example. Then for each prefix of the concatenated string `s`

with length `i >= |s1| + 2`

, we calculate its LRS (longest repeated suffix) length `lrs[i]`

and `sp[i]`

(the end position of the first occurence of its LRS). Finally, the answer is

```
max{lrs[i]| i >= |s1| + 2 and sp[i] <= |s1|}
```

I've written a C++ program that uses this method, which can solve the problem within 200ms on my laptop when `|s1|+|s2| <= 200000`

, using the factor oracle.

```
s1 = 'ffabcgg'
s2 = 'gfbcge'
s = s1+'$'+s2
= 'ffabcgg$gfbcge'
p: 0 1 2 3 4 5 6 7 8 9 10 11 12 13
s: f f a b c g g $ g f b c g e
sp: 0 1 0 0 0 0 6 0 6 1 4 5 6 0
lrs:0 1 0 0 0 0 1 0 1 1 1 2 3 0
ans = lrs[13] = 3
```

I know the both problems can be solved using suffix-array and suffix-tree with high efficiency, but I wonder if there is a method using factor oracle to solve it. I am interested in this because the factor oracle is easy to construct (with 30 lines of C++, suffix-array needs about 60, and suffix-tree needs 150), and it runs faster than suffix-array and suffix-tree.

You can test your method of the first problem in this OnlineJudge, and the second problem in here.

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