Should be possible to add this, to construct a bunch of properties and run them in parallel: concurrently :: IsProp p => (a -> p) -> [a] -> p Another version also nice to have: race :: IsProp p => p -> p -> p Basic implementation should be pretty easy; propellor does not have a lot of mutable state to get in the way. The only hard part is, ensuring a property may cause arbitrary output, and it's not line-buffered necessarily, so there could be messy interleaving. I'm not sure how to deal with this, short of forking off a sub-process to ensure the property. ---- If forkProcess could be used, it could fork a subprocess that knows the action it's to perform, and jiggers stdio to feed through a pipe back to the parent. But, I have had bad luck in the past using forkProcess in haskell, in combination with the -threaded runtime. forkProcess comes with a giant warning: since any other running threads are not copied into the child process, it's easy to go wrong: e.g. by accessing some shared resource that was held by another thread in the parent. It may well be that since propellor has very little shared resources, and properties are run quite independently of one-another, a forkProcess to run a property might not be a problem. At least, until someone gets creative: foo = property "foo" $ do v <- liftIO newEmptyMVar ensureProperty $ foo v `race` bar v -- FAIL We could detect if inside ensureProperty and refuse to do anything concurrent because the user might be up to such tricks. --- Instead of forking, execing a new process would work. But, how to tell that sub-process which property it's supposed to ensure? There's no property serialization, and not even a Eq to use. Hmm, if it could come up with a stable, unique Id for each property, then the sub-process could be told the Id, and it'd then just look through its Host to find the property. This could be done by propellor's defaultMain, using Data.Unique (or a reimplementation that lets us get at the actual integer, rather than a hash of it). As long as it processes properties in a consistent order, that will generate the same Id for a property each time (until propellor is recompiled of course). The Id can be paired with the description of the property, to catch any version skew. But, this seems to not get all the way there. Having Id's for the top-level properties doesn't help in a situation like: & propertyList "foo" [ x `race` y , a `race` b ] x y a b are not top-level properties of a Host, so won't get unique Id's. Unless we can build up some tree of Id's that can be walked from the top-level down to the sub-properties, this won't work. Help? Also, what about mixing concurrency with ensureProperty? foo = property "foo" $ do liftIO defCon5 ensureProperty $ missleDefense `race` diplomacy where missleDefense = ... diplomacy = ... Here there's no way for a propellor sub-process to know it needs to run part of foo to get to diplomacy. I think it would be ok to fall back to sequential mode in this case. So, the sub-process could signal with a special exit code that it couldn't find the requested Id, and then `race` can just wait for missleDefense to finish, and then run diplomacy. (Granted, this order may not be ideal in this specific case..) ---- Final option is to say, there are two sources of output when ensuring a property: * Propellor's own output, which is mostly gated through a few functions, although of course the user can print anything they want too. * Output from running commands. Mostly done via cmdProperty, although the user's also free to run commands in other ways. So, the Propellor monad could have a flag added to say that all output should be captured rather than output now, and just do that on a best-effort basis. Could even redirect stderr and stdout to a pipe, to capture any errant output. We'd not be able to tell which of the concurrent actions was responsible for such output, but it could be printed out, with appropriate warnings, at the end. [[!tag user/joey]] > [[done]]; use Propellor.Property.Concurrent to make properties run > concurrently. --[[Joey]]