{- | Mappings between Tidal's 'Sound.Tidal.Stream.Param's and MIDI control changes -} module Sound.Tidal.MIDI.Control where import Control.Applicative ((<$>)) import qualified Sound.Tidal.Stream as S import Sound.Tidal.Tempo (Tempo(cps)) import qualified Data.Map.Strict as Map import Data.Ratio import Sound.Tidal.Params hiding (n_p) n_p :: S.Param n_p = snd $ pI "n" (Just 128) {-| Map a 'Double' to 'Int' using given min/max values -} type RangeMapFunc = (Int, Int) -> Double -> Int {- | Make sure you apply @cutShape midiShape@ to an 'Sound.Tidal.Stream.ParamMap' before passing it into a function wanting this type -} type MIDINoteShape = S.ParamMap {-| Describe mapping a Tidal 'Sound.Tidal.Stream.Param' in terms of MIDI -} data ControlChange = CC { param :: S.Param, -- ^ the 'Sound.Tidal.Stream.Param' this control will apply to midi :: Int, -- ^ the MIDI parameter number to map to range :: (Int, Int), -- ^ the range this MIDI parameter accepts, by default this is (0,127) scalef :: RangeMapFunc -- ^ the function to apply mapping floating point values from pattern to MIDI integer values } | NRPN { param :: S.Param, midi :: Int, range :: (Int, Int), scalef :: RangeMapFunc } | SysEx { param :: S.Param, midi :: Int, range :: (Int, Int), scalef :: RangeMapFunc } {- | A definition for using a Tidal with specific MIDI device type. By default, every 'ControllerShape' accepts the following 'Sound.Tidal.Stream.Param's: * 'Sound.Tidal.Params.dur' * 'Sound.Tidal.Params.n' * 'Sound.Tidal.Params.velocity' * 'Sound.Tidal.Params.nudge' * 'Sound.Tidal.Params.unit' which will define the MIDI note to be played. -} data ControllerShape = ControllerShape { controls :: [ControlChange], -- ^ a list of controls that can be understood by a certain device type latency :: Double -- ^ the latency to be used when sending out MIDI messages, this is passed to 'Sound.Tidal.Stream.Shape' } {- | A simple shape defining the 'Sound.Tidal.Stream.Param's that are used for generating MIDI notes. This simplifies splitting a 'Sound.Tidal.Stream.ParamMap' into params for notes and control values. -} midiShape :: S.Shape midiShape = S.Shape { S.params = [ dur_p, n_p, nudge_p, velocity_p, unit_p ], S.latency = 0, S.cpsStamp = False } {- | Turns a 'MIDINoteShape' into concrete values for scheduling. -} computeTiming :: Tempo -- ^ the current playback speed -> Ratio Integer {- ^ if 'Sound.Tidal.Params.unit' is specified as @cycle@, this will be utilized to calculate the note's absolute duration with regard to current cycle length __Note__: this will ignore the specified duration of the Tidal param 'Sound.Tidal.Params.dur' -} -> MIDINoteShape -- ^ A map of 'Sound.Tidal.Stream.Param's that describes the note to be played -> ((Int,Int,Ratio Integer), Double) -- ^ A tuple of a 'Sound.Tidal.MIDI.Output.TimedNote' triplet and the value for 'nudge' to offset this note by computeTiming tempo duration note' = ((n', v', d'), nudge') where unit' = S.svalue $ note' Map.! unit_p v' = mapRange (0, 127) $ S.fvalue $ note' Map.! velocity_p n' = S.ivalue $ note' Map.! n_p d' = case unit' of "rate" -> byRate "cycle" -> (+) (-0.001) $ (/) duration $ realToFrac $ cps tempo _ -> byRate byRate = realToFrac $ S.fvalue $ note' Map.! dur_p nudge' = S.fvalue $ note' Map.! nudge_p {- | Converts a 'ControllerShape's controls into 'Sound.Tidal.Stream.Param's and makes a 'Sound.Tidal.Stream.Shape' This acts as an interface between Tidal's scheduling loop and MIDI scheduling. -} toShape :: ControllerShape -> S.Shape toShape cs = S.Shape { S.params = toParams cs, S.cpsStamp = False, S.latency = latency cs } {- | A 'RangeMapFunc' that simply passes 'floor's 'Double's. This can be used if a MIDI parameter of a device has different meanings for each value, e.g. the type of oscillator has to be specified by either "0", "1", "2" or "3" each representing a different waveform (sine, tri, square, rand) -} passThru :: (Int, Int) -> Double -> Int passThru (_, _) = floor -- no sanitizing of rangeā¦ {- | Default mapping function from Double to Int. >>> mapRange (0, 127) 0.5 63 -} mapRange :: (Int, Int) -> Double -> Int mapRange (low, high) = floor . (+ fromIntegral low) . (* ratio) where ratio = fromIntegral $ high - low -- | Helper function for creating a standard ControlChange for MIDI parameter mCC :: S.Param -> Int -> ControlChange mCC p m = CC {param=p, midi=m, range=(0, 127), scalef=mapRange } -- | Helper function for creating a standard ControlChange for a non-registered MIDI parameter mNRPN :: S.Param -> Int -> ControlChange mNRPN p m = NRPN {param=p, midi=m, range=(0, 127), scalef=mapRange } -- | Helper function for creating a ControlChange for a non-registered MIDI parameter with a custom range mrNRPN :: S.Param -> Int -> (Int, Int) -> ControlChange mrNRPN p m r = NRPN {param=p, midi=m, range=r, scalef=mapRange } -- | Translate a 'ControllerShape's controls into a list of 'Sound.Tidal.Stream.Param' toParams :: ControllerShape -> [S.Param] toParams shape' = map param (controls shape') {- | Translate a Tidal 'Sound.Tidal.Stream.Param' into the corresponding MIDI parameter number according to a specific 'ControllerShape' -} ctrlN :: Num b => ControllerShape -> S.Param -> Maybe b ctrlN shape' x = (fromIntegral . midi) <$> (paramN shape' x) -- | Find the first 'ControlChange' that uses 'Sound.Tidal.Stream.Param' paramN :: ControllerShape -> S.Param -> Maybe ControlChange paramN shape' x | x `elem` names = paramX $ matching p | otherwise = Nothing where names = toParams shape' paramX [] = Nothing paramX (h:_) = Just h matching = filter ((== x) . param) p = controls shape'