Your problem description is kind of vague and can be read in several different ways.
One way in which I read this is that you have some kind of ASCII representation of a data structure on disk. You read this representation into memory, and then grep through it one or more times looking for things that match a given regular expression.
Speeding this up depends a LOT on the data structure in question.
If you are simply doing line splitting, then maybe you should just read the whole thing into a byte array using a single read instruction. Then you can alter how you grep to use a byte-array grep that doesn't span multiple lines. If you fiddle the expression to always match a whole line by putting
^.*? at the beginning and
.*?$ at the end (the
? forces a minimal instead of maximal munch) then you can check the size of the matched expression to find out how many bytes forward to go.
Alternately, you could try using the
mmap module to achieve something similar without having to read anything and incur the copy overhead.
If there is a lot of processing going on to create your data structure and you can't think of a way to use the data in the file in a very raw way as a simple byte array, then you're left with various other solutions depending, though of these it sounds like creating a daemon is the best option.
Since your basic operation seems to be 'tell me which tables entries match a regexp', you could use the
xmlrpc.client libraries to simply wrap up a call that takes the regular expression as a string and returns the result in whatever form is natural. The library will take care of all the work of wrapping up things that look like function calls into messages over a socket or whatever.
Now, your idea of actually keeping it in memory is a bit of a red-herring. I don't think it takes 30 minutes to read 2G of information from disk these days. It likely takes at most 5, and likely less than 1. So you might want to look at how you're building the data structure to see if you could optimize that instead.
What pickle and/or marshal will buy you is highly optimized code for building the data structure out of a serialized form. This will cause the data structure creation to possibly be constrained by disk read speeds instead. That means the real problem you're addressing is not reading it off disk each time, but building the data structure in your own address space.
And holding it in memory and using a daemon isn't a guarantee that it will stay in memory. It just guarantees that it stays built up as the data structure you want within the address space of a Python process. The os may decide to swap that memory to disk at any time.
Again, this means that focusing on the time to read it from disk is likely not the right focus. Instead, focus on how to efficiently re-create (or preserve) the data structure in the address space of a Python process.
Anyway, that's my long-winded ramble on the topic. Given the vagueness of your question, there is no definite answer, so I just gave a smorgasbord of possible techniques and some guiding ideas.