make -j
.But, on the other hand, I’ve never been happy with the output of
make -j
. Interleaving lines of output from parallel subprocesses isn’t very user friendly. (Indeed, cabal -j
used to do the same thing, and recently it has switched to simply hiding the output instead.) Thus I’ve written a little utility than dynamically splits the terminal window when the compute job enters a parallel region (video below).hydra-view
and hydra-head
). You can find it at its Github page here and the released package is on Hackage here.After running
cabal install hydra-print
, the simplest way to use it is to bring up a server like this:hydra-view
And then arrange for a script to pipe the output of multiple commands to it in parallel:(command1 | hydra-head) &
(command2 | hydra-head) &
It’s possible to compose command’s output sequentially as well, by asking hydra-head
to return a named pipe, and deleting it to signal that the stream is finished.p=`hydra-head -p`
command1 >> $p
command2 >> $p
rm -f $p
Further, its often convenient to use hydra-view to launch another command, using it to seed the view with output:hydra-view -- make -j
The repository contains an example Makefile here, which shows how to adapt a Makefile to use hydra-print without any direct support builtin to Make. Of course, built-in support is better, and I hope to come up with a patch for cabal-install
to use hydra-print soon.Using the Haskell Library
The library is based on the recentio-streams
package, and makes it very easy to send several kinds of Haskell data streams into hydra-print.import qualified System.IO.Streams as S
import UI.HydraPrint
The two main ways to use the library are to (1) bring up a static interface with a given number of windows, or (2) bring up a dynamic view monitoring a changing collectionn of streams.The former can be called with
hydraPrintStatic defaultHydraConf (zip names strms)
. It’s type signature is:hydraPrintStatic ::
HydraConf -> [(String, InputStream ByteString)] -> IO ()
As you can see, it takes a fixed number of streams (in a list). A dynamic set of streams is represented as – what else – a stream of streams!
hydraPrint ::
HydraConf -> InputStream (String, InputStream ByteString) -> IO ()
In a parallel program one might use a
Control.Concurrent.Chan
to aggregate streams and send them to hydraPrint
:strmSrc <- span=""> chanToInput strmChan
hydraPrint defaultHydraConf strmSrc->
Finally, I think the most obvious improvement to make to this little utility would be to provide the option of a
tmux
interface instead. This would provide much more functionality and should be pretty straightforward, because tmux
itself is quite scriptable. Emacs [client] would be another option.Enjoy!
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