I have some large files (hundreds of MB) that I need to search for several thousand ~20-character unique strings.
I've found that using the pipe alternation metacharacter for matching regular expressions like
(string1|string2|string3) speeds up the search process a lot (versus searching for one string at a time).
What's the limit to how well this will scale? How many expressions can I chain together like this? Will it cause some kind of overflow at some point? Is there a better way to do this?
In an effort to keep my question brief, I didn't emphasize the fact that I've already implemented code using this alternation approach and I found it to be helpful: On a test case with a typical data set, running time was reduced from 87 minutes down to 18 seconds--a 290x speedup, apparently with O(n) instead of O(n*m).
My question relates to how this approach can be expected to work when other users run this code in the future using much larger data sets with bigger files and more search terms. The original O(n*m) code was existing code that's been in use for 13 years, and its slowness was pointed out recently as the genome-related data sets it operates on have recently gotten much bigger.