{-# LANGUAGE BangPatterns #-}

module Sound.Tidal.Transition where

import Prelude hiding ((<*), (*>))

import Control.Concurrent.MVar (readMVar, takeMVar, putMVar)

import qualified Sound.OSC.FD as O
import qualified Data.Map.Strict as Map
-- import Data.Maybe (fromJust)

import Sound.Tidal.Control
import Sound.Tidal.Core
import Sound.Tidal.Params (gain, pan)
import Sound.Tidal.Pattern
import Sound.Tidal.Stream
import Sound.Tidal.Tempo (timeToCycles)
import Sound.Tidal.UI (fadeOutFrom, fadeInFrom)
import Sound.Tidal.Utils (enumerate)

-- Evaluation of pat is forced so exceptions are picked up here, before replacing the existing pattern.
-- the "historyFlag" determines if the new pattern should be placed on the history stack or not
transition :: Show a => Stream -> Bool -> (Time -> [ControlPattern] -> ControlPattern) -> a -> ControlPattern -> IO ()
transition stream historyFlag f patId !pat =
  do pMap <- takeMVar (sPMapMV stream)
     let playState = updatePS $ Map.lookup (show patId) pMap
     pat' <- transition' $ appendPat (not historyFlag) (history playState)
     let pMap' = Map.insert (show patId) (playState {pattern = pat'}) pMap
     putMVar (sPMapMV stream) pMap'
     calcOutput stream
     return ()
  where
    appendPat flag = if flag then (pat:) else id
    updatePS (Just playState) = playState {history = (appendPat historyFlag) (history playState)}
    updatePS Nothing = PlayState {pattern = silence,
                                  mute = False,
                                  solo = False,
                                  history = (appendPat historyFlag) (silence:[])
                                 }
    transition' pat' = do tempo <- readMVar $ sTempoMV stream
                          now <- O.time
                          let c = timeToCycles tempo now
                          return $ f c pat'

mortalOverlay :: Time -> Time -> [Pattern a] -> Pattern a
mortalOverlay _ _ [] = silence
mortalOverlay t now (pat:ps) = overlay (pop ps) (playFor s (s+t) pat) where
  pop [] = silence
  pop (x:_) = x
  s = sam (now - fromIntegral (floor now `mod` floor t :: Int)) + sam t

{-| Washes away the current pattern after a certain delay by applying a
    function to it over time, then switching over to the next pattern to
    which another function is applied.
-}
wash :: (Pattern a -> Pattern a) -> (Pattern a -> Pattern a) -> Time -> Time -> Time -> Time -> [Pattern a] -> Pattern a
wash _ _ _ _ _ _ [] = silence
wash _ _ _ _ _ _ (pat:[]) = pat
wash fout fin delay durin durout now (pat:pat':_) =
   stack [(filterWhen (< (now + delay)) pat'),
          (filterWhen (between (now + delay) (now + delay + durin)) $ fout pat'),
          (filterWhen (between (now + delay + durin) (now + delay + durin + durout)) $ fin pat),
          (filterWhen (>= (now + delay + durin + durout)) $ pat)
         ]
 where
   between lo hi x = (x >= lo) && (x < hi)

washIn :: (Pattern a -> Pattern a) -> Time -> Time -> [Pattern a] -> Pattern a
washIn f durin now pats = wash f id 0 durin 0 now pats

xfadeIn :: Time -> Time -> [ControlPattern] -> ControlPattern
xfadeIn _ _ [] = silence
xfadeIn _ _ (pat:[]) = pat
xfadeIn t now (pat:pat':_) = overlay (pat |* gain (now `rotR` (_slow t envEqR))) (pat' |* gain (now `rotR` (_slow t (envEq))))

-- | Pans the last n versions of the pattern across the field
histpan :: Int -> Time -> [ControlPattern] -> ControlPattern
histpan _ _ [] = silence
histpan 0 _ _ = silence
histpan n _ ps = stack $ map (\(i,pat) -> pat # pan (pure $ (fromIntegral i) / (fromIntegral n'))) (enumerate ps')
  where ps' = take n ps
        n' = length ps' -- in case there's fewer patterns than requested

-- | Just stop for a bit before playing new pattern
wait :: Time -> Time -> [ControlPattern] -> ControlPattern
wait _ _ [] = silence
wait t now (pat:_) = filterWhen (>= (nextSam (now+t-1))) pat

{- | Just as `wait`, `waitT` stops for a bit and then applies the given transition to the playing pattern

@
d1 $ sound "bd"

t1 (waitT (xfadeIn 8) 4) $ sound "hh*8"
@
-}
waitT :: (Time -> [ControlPattern] -> ControlPattern) -> Time -> Time -> [ControlPattern] -> ControlPattern
waitT _ _ _ [] = silence
waitT f t now pats = filterWhen (>= (nextSam (now+t-1))) (f (now + t) pats)

{- |
Jumps directly into the given pattern, this is essentially the _no transition_-transition.

Variants of @jump@ provide more useful capabilities, see @jumpIn@ and @jumpMod@
-}
jump :: Time -> [ControlPattern] -> ControlPattern
jump = jumpIn 0

{- | Sharp `jump` transition after the specified number of cycles have passed.

@
t1 (jumpIn 2) $ sound "kick(3,8)"
@
-}
jumpIn :: Int -> Time -> [ControlPattern] -> ControlPattern
jumpIn n = wash id id (fromIntegral n) 0 0

{- | Unlike `jumpIn` the variant `jumpIn'` will only transition at cycle boundary (e.g. when the cycle count is an integer).
-}
jumpIn' :: Int -> Time -> [ControlPattern] -> ControlPattern
jumpIn' n now = wash id id ((nextSam now) - now + (fromIntegral n)) 0 0 now

-- | Sharp `jump` transition at next cycle boundary where cycle mod n == 0
jumpMod :: Int -> Time -> [ControlPattern] -> ControlPattern
jumpMod n now = jumpIn' ((n-1) - ((floor now) `mod` n)) now

-- | Degrade the new pattern over time until it ends in silence
mortal :: Time -> Time -> Time -> [ControlPattern] -> ControlPattern
mortal _ _ _ [] = silence
mortal lifespan release now (p:_) = overlay (filterWhen (<(now+lifespan)) p) (filterWhen (>= (now+lifespan)) (fadeOutFrom (now + lifespan) release p))


interpolate :: Time -> [ControlPattern] -> ControlPattern
interpolate = interpolateIn 4

interpolateIn :: Time -> Time -> [ControlPattern] -> ControlPattern
interpolateIn _ _ [] = silence
interpolateIn _ _ (p:[]) = p
interpolateIn t now (pat:pat':_) = f <$> pat' *> pat <* automation
  where automation = now `rotR` (_slow t envL)
        f = (\a b x -> Map.unionWith (fNum2 (\a' b' -> floor $ (fromIntegral a') * x + (fromIntegral b') * (1-x))
                                            (\a' b' -> a' * x + b' * (1-x))
                                     )
                       b a
            )

{-|
Degrades the current pattern while undegrading the next.

This is like @xfade@ but not by gain of samples but by randomly removing events from the current pattern and slowly adding back in missing events from the next one.

@
d1 $ sound "bd(3,8)"

t1 clutch $ sound "[hh*4, odx(3,8)]"
@

@clutch@ takes two cycles for the transition, essentially this is @clutchIn 2@.
-}
clutch :: Time -> [Pattern a] -> Pattern a
clutch = clutchIn 2

{-|
Also degrades the current pattern and undegrades the next.
To change the number of cycles the transition takes, you can use @clutchIn@ like so:

@
d1 $ sound "bd(5,8)"

t1 (clutchIn 8) $ sound "[hh*4, odx(3,8)]"
@

will take 8 cycles for the transition.
-}
clutchIn :: Time -> Time -> [Pattern a] -> Pattern a
clutchIn _ _ [] = silence
clutchIn _ _ (p:[]) = p
clutchIn t now (p:p':_) = overlay (fadeOutFrom now t p') (fadeInFrom now t p)

{-| same as `anticipate` though it allows you to specify the number of cycles until dropping to the new pattern, e.g.:

@
d1 $ sound "jvbass(3,8)"

t1 (anticipateIn 4) $ sound "jvbass(5,8)"
@-}
anticipateIn :: Time -> Time -> [ControlPattern] -> ControlPattern
anticipateIn t now pats = washIn (innerJoin . (\pat -> (\v -> _stut 8 0.2 v pat) <$> (now `rotR` (_slow t $ toRational <$> envLR)))) t now pats

-- wash :: (Pattern a -> Pattern a) -> (Pattern a -> Pattern a) -> Time -> Time -> Time -> Time -> [Pattern a] -> Pattern a

{- | `anticipate` is an increasing comb filter.

Build up some tension, culminating in a _drop_ to the new pattern after 8 cycles.
-}
anticipate :: Time -> [ControlPattern] -> ControlPattern
anticipate = anticipateIn 8