One option would be to construct a single deterministic automaton that can match all of the regular expressions in parallel. One way to do this would be as follows:
- Convert each regular expression to a nondeterministic automaton using one of many standard conversion algorithms.
- Introduce a new start state with ε-transitions to all of the start states of these automata. This effectively creates one automaton that runs all of the regular expression automata in parallel. Make sure to label each accepting state in the NFAs differently so that it's clear which regular expression each accepting state corresponds to.
- Using the subset construction, reduce this NFA down to a DFA. During this process, when labeling a state as accepting, remember which of the automata considered that state an accepting state.
- Generate a table-driven implementation of the DFA.
Now, whenever you receive a new message, you can run the table-driven DFA on that message, which effectively runs every single regular expression in parallel and returns which regular expressions, if any, match. This may have a large cost in memory, since the generated DFA might be pretty big, but the time to match any incoming regular expression would be linear in the size of the string to match.