I was Googling about a rather wellknown problem, namely: the longest palindromic substring
I have found links that recommend suffix tries as a good solution to the problem.
Example SO and Algos
The approach is (as I understand it) e.g. for a string S
create Sr
(which is S
reversed) and then create a generalized suffix trie.
Then find the longest common sustring of S
and Sr
which is the path from the root to the deepest node that belongs both to S
and Sr
.
So the solution using the suffix tries approach essentially reduces to Find the longest common substring
problem.
My question is the following:
If the input string is: S = “abacdfgdcaba”
so , Sr = “abacdgfdcaba”
the longest common substring is abacd
which is NOT a palindrome.
So my question is: Is the approach of using suffix tries erroneous? Am i missunderstanding/misreading here?



Yes, finding longest palindrome by using LCS like algorithms is not a good way, I didn't read referenced answer carefully but this line in the answer is completely wrong:
but if you read it and you have a counter example don't worry about it (you are right in 99%), this is common mistake, But simple way is as follow: Write down the string ( But there is better approach which takes O(n) time, base of this algorithm is by Manacher. Related algorithm is more complicated than what I saw in your referenced answer. But what I offered is base idea of Manacher algorithm, with clever changes in algorithm you can skip checking all left and rights (also there are algorithms by using suffix trees). P.S: I couldn't see your Algo link because of my internet limitations, I don't know it's correct or not. I added my discussion with OP to clarify the algorithm:
Also using After finding center of palindrome in newly created string, find related palindrom (by knowing the center and its length), then remove 


I know you've found an acceptable answer but I am adding this to expand on the answer in a visual way. Here is a suffix trie for "abacdfgdcaba" and "abacdgfdcaba", the deepest internal node that contains both strings is "d", so the longest palandrone is the path from "a" to "d" which is a+b+a+c+d = "abacd".
(Truncated for readability) If you are using a compact suffix trie, then find the deepest internal node which contains both strings. i.e. (black) abacd in this trie.


