I would try to supplement other people answers by get deeper into topic of compile-time regular expressions(CTR) vs run-time(dynamic) regular expressions(RTR) in a more theoretical way(this topic is implied by OP question indirectly IMHO). Run-time regex are more known and popular(most language core-libraries implementations), i suppose due to historical reasons. They are OK when regular expression is determined at run-time, unlike CTR. Both work on finite state machine basis.
RTR are "compiled" and interpreted by some kind of universal finite state machine(universal means its kind of interpreter which scheme is given at run-time, "compiled" in some internal data structure - when you pass regex string, then interpreted at run-time).
But CTR is "compiled" at compile-time and are specific for particular regex, so you can't use them, when regex is given at run-time(applications like text editors, file/internet search engines).
But they are a priori more efficient(theoretically however) as customized in compile-time finite state machine will be efficient, than interpreter with table-preset scheme of this machine(some similar cases are reflection field access vs compile-time access, or specialized function optimized for some fixed parameter as pointed out there). Another advantage is compile-time syntax checking. CTR can be implemented through meta-programming and/or code generation.
As for specific implementations - there are many RTR, but not so numerous CTR. For C++ they are above mentioned Boost and STL C++0x11 implementations. You may need them for optimizing regex perfomance/size of generated code/memory usage, mostly relevant for embedded systems or high perfomance specific applications.
SO question about CTR
Finding CTR-implementations is harder, one example if found is Re2C Code generator project, Java CTR implementation and C# implementation featuring run-time compilation(into IL code, not internal data structure) of Regex [there is SO question about it]
P.S. Sorry, couldn't post some relevant links due to reputation