Depending on the nature of the jobs, you can use an asynchronous service provider.
Often these exist for asynchronous IO (e.g. sockets in non-blocking mode, IO completion ports on windows, libaio etc.)
Boost Asio harnesses all these interfaces (and some more, related to timers, platform specific handles or e.g. serial ports) into a service object. This enables you to run many jobs asynchronously, potentially all on a single thread. This means that there is no context switching.
Asio's io_service
has several ways of posting/dispatching jobs. Depending on which you use, jobs might even execute immediately and synchronously.
I suggest you look at some of the samples, as it looks to be precisely what you need.
PS. There are other - more low-level - libraries outside of boost that have the same kind of features but I haven't used them. I think the most popular are libuv/libevent (IIRC)
lock
, because if I uselock
before thewhile
, the main thread goes to sleep after callingwait
and the locked mutex cannot be unlocked.