{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE RecordWildCards #-}
module GI.Gtk.Declarative.App.Simple
( App(..)
, AppView
, Transition(..)
, run
, runLoop
)
where
import Control.Concurrent
import qualified Control.Concurrent.Async as Async
import Control.Exception (Exception, throw)
import Control.Monad
import Data.Typeable
import qualified GI.Gdk as Gdk
import qualified GI.GLib.Constants as GLib
import qualified GI.Gtk as Gtk
import GI.Gtk.Declarative
import GI.Gtk.Declarative.EventSource
import GI.Gtk.Declarative.State
import Pipes
import Pipes.Concurrent
import System.Exit
import System.IO
data App window state event =
App
{ update :: state -> event -> Transition state event
, view :: state -> AppView window event
, inputs :: [Producer event IO ()]
, initialState :: state
}
type AppView window event = Bin window event
data Transition state event =
Transition state (IO (Maybe event))
| Exit
data GtkMainExitedException =
GtkMainExitedException String deriving (Typeable, Show)
instance Exception GtkMainExitedException
run
:: (Typeable event, Gtk.IsWindow window, Gtk.IsBin window)
=> App window state event
-> IO state
run app = do
assertRuntimeSupportsBoundThreads
void $ Gtk.init Nothing
Async.withAsync (runLoop app <* Gtk.mainQuit) $ \lastState -> do
Gtk.main
Async.poll lastState >>= \case
Nothing -> throw $
GtkMainExitedException "gtk's main loop exited unexpectedly"
Just (Right state) -> return state
Just (Left exception) -> throw exception
runLoop
:: (Typeable event, Gtk.IsWindow window, Gtk.IsBin window)
=> App window state event
-> IO state
runLoop App {..} = do
let firstMarkup = view initialState
events <- newChan
(firstState, subscription) <- do
firstState <- runUI (create firstMarkup)
runUI (Gtk.widgetShowAll =<< someStateWidget firstState)
sub <- subscribe firstMarkup firstState (publishEvent events)
return (firstState, sub)
void . forkIO $ runEffect
(mergeProducers inputs >-> publishInputEvents events)
loop firstState firstMarkup events subscription initialState
where
loop oldState oldMarkup events oldSubscription oldModel = do
event <- readChan events
case update oldModel event of
Transition newModel action -> do
let newMarkup = view newModel
(newState, sub) <-
case patch oldState oldMarkup newMarkup of
Modify ma -> runUI $ do
cancel oldSubscription
newState <- ma
sub <- subscribe newMarkup newState (publishEvent events)
return (newState, sub)
Replace createNew -> runUI $ do
Gtk.widgetDestroy =<< someStateWidget oldState
cancel oldSubscription
newState <- createNew
Gtk.widgetShowAll =<< someStateWidget newState
sub <- subscribe newMarkup newState (publishEvent events)
return (newState, sub)
Keep -> return (oldState, oldSubscription)
void . forkIO $ action >>= maybe (return ()) (writeChan events)
loop newState newMarkup events sub newModel
Exit -> return oldModel
assertRuntimeSupportsBoundThreads :: IO ()
assertRuntimeSupportsBoundThreads =
unless rtsSupportsBoundThreads $ do
hPutStrLn stderr "GI.Gtk.Declarative.App.Simple requires the program to \
\be linked using the threaded runtime of GHC (-threaded \
\flag)."
exitFailure
publishEvent :: Chan event -> event -> IO ()
publishEvent mvar = void . writeChan mvar
mergeProducers :: [Producer a IO ()] -> Producer a IO ()
mergeProducers producers = do
(output, input) <- liftIO $ spawn unbounded
_ <- liftIO $ mapM (fork output) producers
fromInput input
where
fork :: Output a -> Producer a IO () -> IO ()
fork output producer = void $ forkIO $ do
runEffect $ producer >-> toOutput output
performGC
publishInputEvents :: Chan event -> Consumer event IO ()
publishInputEvents events = forever (await >>= liftIO . writeChan events)
runUI :: IO a -> IO a
runUI ma = do
r <- newEmptyMVar
runUI_ (ma >>= putMVar r)
takeMVar r
runUI_ :: IO () -> IO ()
runUI_ ma =
void . Gdk.threadsAddIdle GLib.PRIORITY_DEFAULT $ do
ma
return False