I'm trying to evaluate different substring search (ala strstr) algorithms and implementations and looking for some well-crafted needle and haystack strings that will catch worst-case performance and possible corner-case bugs. I suppose I could work them out myself but I figure someone has to have a good collection of test cases sitting around somewhere...
You can generate container strings (resp., contained test values) recursively by:
Starting with the empty string, generate all strings given by the augmentation of a string currently in the set by adding a character from an alphabet to the left or the right (both).
The alphabet for generating container strings is chosen by you.
You test 2 alphabets for contained strings. One is the one that makes up container strings, the other is its complement.
A procedure that might give interesting statistics, though I have no time to test right now:
Randomize over string length, then randomize over string contents of that length, then randomize over offset/length of a substring (possibly something not in the string), then randomily clobber over the substring (possibly not at all), repeat.
Some thoughts and a partial answer to myself:
Worst case for brute force algorithm:
Worst case for SMOA:
Worst case for anything rolling-hash based:
Whatever sequence of bytes causes hash collisions with the hash of the needle. For any reasonably-fast hash and a given needle, it should be easy to construct a haystack whose hash collides with the needle's hash at every point. However, it seems difficult to simultaneously create long partial matches, which are the only way to get the worst-case behavior. Naturally for worst-case behavior the needle must have some periodicity, and a way of emulating the hash by adjusting just the final characters.
Worst case for Two-Way:
Seems to be very short needle with nontrivial MS decomposition - something like
I'm really only interested in algorithms that are
Doesn't answer your question directly, but you may find the algorithms in the book - Algorithms on Strings, Trees and Sequences: Computer Science and Computational Biology - interesting (has many novel algorithms on sub-string search). Additionally, it is also a good source of special and complex cases.