I'm trying to evaluate different substring search (ala strstr) algorithms and implementations and looking for some wellcrafted needle and haystack strings that will catch worstcase performance and possible cornercase 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:
e.g. Worst case for SMOA: Something like Worst case for anything rollinghash based: Whatever sequence of bytes causes hash collisions with the hash of the needle. For any reasonablyfast 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 worstcase behavior. Naturally for worstcase behavior the needle must have some periodicity, and a way of emulating the hash by adjusting just the final characters. Worst case for TwoWay: Seems to be very short needle with nontrivial MS decomposition  something like Other algorithms: 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 substring search). Additionally, it is also a good source of special and complex cases. 

