{-# OPTIONS_GHC -fno-warn-incomplete-uni-patterns -fno-warn-orphans #-}
{-# LANGUAGE RecordWildCards #-}
module Sound.Tidal.Tempo where
import Control.Concurrent.MVar
import qualified Sound.Tidal.Pattern as P
import qualified Sound.OSC.FD as O
import qualified Network.Socket as N
import Control.Concurrent (forkIO, ThreadId, threadDelay)
import Control.Monad (forever, when, foldM)
import Data.List (nub)
import qualified Control.Exception as E
import Data.Maybe (fromJust)
import Sound.Tidal.Config
import Sound.Tidal.Utils (writeError)
instance Show O.UDP where
show _ = "-unshowable-"
data Tempo = Tempo {atTime :: O.Time,
atCycle :: Rational,
cps :: O.Time,
paused :: Bool,
nudged :: Double,
localUDP :: O.UDP,
remoteAddr :: N.SockAddr,
synched :: Bool
}
deriving Show
data State = State {ticks :: Int,
start :: O.Time,
nowTimespan :: (O.Time, O.Time),
nowArc :: P.Arc,
starting :: Bool
}
changeTempo :: MVar Tempo -> (O.Time -> Tempo -> Tempo) -> IO Tempo
changeTempo tempoMV f = do t <- O.time
tempo <- takeMVar tempoMV
let tempo' = f t $ tempo
sendTempo tempo'
putMVar tempoMV tempo'
return tempo'
changeTempo' :: Tempo -> O.Time -> Rational -> Tempo
changeTempo' tempo newCps cyc = tempo {atTime = cyclesToTime tempo cyc,
cps = newCps,
atCycle = cyc
}
resetCycles :: MVar Tempo -> IO Tempo
resetCycles tempoMV = changeTempo tempoMV (\t tempo -> tempo {atTime = t, atCycle = 0})
setCps :: MVar Tempo -> O.Time -> IO Tempo
setCps tempoMV newCps = changeTempo tempoMV (\t tempo -> tempo {atTime = t,
atCycle = timeToCycles tempo t,
cps = newCps
})
defaultCps :: O.Time
defaultCps = 0.5625
defaultTempo :: O.Time -> O.UDP -> N.SockAddr -> Tempo
defaultTempo t local remote = Tempo {atTime = t,
atCycle = 0,
cps = defaultCps,
paused = False,
nudged = 0,
localUDP = local,
remoteAddr = remote,
synched = False
}
timeToCycles :: Tempo -> O.Time -> Rational
timeToCycles tempo t = atCycle tempo + toRational cycleDelta
where delta = t - atTime tempo
cycleDelta = realToFrac (cps tempo) * delta
cyclesToTime :: Tempo -> Rational -> O.Time
cyclesToTime tempo cyc = atTime tempo + (fromRational timeDelta)
where cycleDelta = cyc - atCycle tempo
timeDelta = cycleDelta / (toRational $ cps tempo)
clocked :: Config -> (MVar Tempo -> State -> IO ()) -> IO (MVar Tempo, [ThreadId])
clocked config callback
= do s <- O.time
_ <- serverListen config
(tempoMV, listenTid) <- clientListen config s
let st = State {ticks = 0,
start = s,
nowTimespan = (s, s + frameTimespan),
nowArc = P.Arc 0 0,
starting = True
}
clockTid <- forkIO $ loop tempoMV st
return (tempoMV, [listenTid, clockTid])
where frameTimespan :: Double
frameTimespan = cFrameTimespan config
loop tempoMV st =
do
tempo <- readMVar tempoMV
t <- O.time
let logicalT ticks' = start st + fromIntegral ticks' * frameTimespan
logicalNow = logicalT $ ticks st + 1
delta = min (frameTimespan * 2) (logicalNow - t)
e = timeToCycles tempo logicalNow
s = if starting st && synched tempo
then timeToCycles tempo (logicalT $ ticks st)
else P.stop $ nowArc st
when (t < logicalNow) $ threadDelay (floor $ delta * 1000000)
t' <- O.time
let actualTick = floor $ (t' - start st) / frameTimespan
ahead = (abs $ actualTick - ticks st) > (cSkipTicks config)
newTick | ahead = actualTick
| otherwise = (ticks st) + 1
st' = st {ticks = newTick,
nowArc = P.Arc s e,
nowTimespan = (logicalNow, logicalNow + frameTimespan),
starting = not (synched tempo)
}
when ahead $ writeError $ "skip: " ++ show (actualTick - ticks st)
callback tempoMV st'
loop tempoMV st'
clientListen :: Config -> O.Time -> IO (MVar Tempo, ThreadId)
clientListen config s =
do
let tempoClientPort = cTempoClientPort config
hostname = cTempoAddr config
port = cTempoPort config
(remote_addr:_) <- N.getAddrInfo Nothing (Just hostname) Nothing
local <- O.udpServer "0.0.0.0" tempoClientPort
let (N.SockAddrInet _ a) = N.addrAddress remote_addr
remote = N.SockAddrInet (fromIntegral port) a
t = defaultTempo s local remote
O.sendTo local (O.p_message "/hello" []) remote
tempoMV <- newMVar t
tempoChild <- forkIO $ listenTempo local tempoMV
return (tempoMV, tempoChild)
sendTempo :: Tempo -> IO ()
sendTempo tempo = O.sendTo (localUDP tempo) (O.p_bundle (atTime tempo) [m]) (remoteAddr tempo)
where m = O.Message "/transmit/cps/cycle" [O.Float $ fromRational $ atCycle tempo,
O.Float $ realToFrac $ cps tempo,
O.Int32 $ if paused tempo then 1 else 0
]
listenTempo :: O.UDP -> MVar Tempo -> IO ()
listenTempo udp tempoMV = forever $ do pkt <- O.recvPacket udp
act Nothing pkt
return ()
where act _ (O.Packet_Bundle (O.Bundle ts ms)) = mapM_ (act (Just ts) . O.Packet_Message) ms
act (Just ts) (O.Packet_Message (O.Message "/cps/cycle" [O.Float atCycle',
O.Float cps',
O.Int32 paused'
]
)
) =
do tempo <- takeMVar tempoMV
putMVar tempoMV $ tempo {atTime = ts,
atCycle = realToFrac atCycle',
cps = realToFrac cps',
paused = paused' == 1,
synched = True
}
act _ pkt = writeError $ "Unknown packet (client): " ++ show pkt
serverListen :: Config -> IO (Maybe ThreadId)
serverListen config = catchAny run (\_ -> return Nothing)
where run = do let port = cTempoPort config
udp <- O.udpServer "0.0.0.0" port
cpsMessage <- defaultCpsMessage
tid <- forkIO $ loop udp ([], cpsMessage)
return $ Just tid
loop udp (cs, msg) = do (pkt,c) <- O.recvFrom udp
(cs', msg') <- act udp c Nothing (cs,msg) pkt
loop udp (cs', msg')
act :: O.UDP -> N.SockAddr -> Maybe O.Time -> ([N.SockAddr], O.Packet) -> O.Packet -> IO ([N.SockAddr], O.Packet)
act udp c _ (cs,msg) (O.Packet_Bundle (O.Bundle ts ms)) = foldM (act udp c (Just ts)) (cs,msg) $ map O.Packet_Message ms
act udp c _ (cs,msg) (O.Packet_Message (O.Message "/hello" []))
= do O.sendTo udp msg c
return (nub (c:cs),msg)
act udp _ (Just ts) (cs,_) (O.Packet_Message (O.Message "/transmit/cps/cycle" params)) =
do let path' = "/cps/cycle"
msg' = O.p_bundle ts [O.Message path' params]
mapM_ (O.sendTo udp msg') cs
return (cs, msg')
act _ x _ (cs,msg) pkt = do writeError $ "Unknown packet (serv): " ++ show pkt ++ " / " ++ (show x)
return (cs,msg)
catchAny :: IO a -> (E.SomeException -> IO a) -> IO a
catchAny = E.catch
defaultCpsMessage = do ts <- O.time
return $ O.p_bundle ts [O.Message "/cps/cycle" [O.Float $ 0,
O.Float $ realToFrac $ defaultCps,
O.Int32 0
]
]