synthesizer-0.2: src/Synthesizer/Basic/DistortionControlled.hs
{-# LANGUAGE NoImplicitPrelude #-}
module Synthesizer.Basic.DistortionControlled (
clip, logit,
zigZag, sine,
quantize,
) where
import qualified Synthesizer.Basic.Distortion as Dist
import qualified Algebra.Transcendental as Trans
import qualified Algebra.RealField as RealField
import qualified Algebra.Field as Field
import qualified Algebra.Real as Real
import qualified Algebra.Ring as Ring
import qualified Algebra.Additive as Additive
import Data.Ord.HT (limit, )
-- import qualified Prelude as P
-- import PreludeBase
import NumericPrelude
{- * Clipping -}
{- |
limit, fuzz booster
-}
clip :: (Real.C a) => a -> a -> a
clip c = limit (negate c, c)
{- |
logit, tanh
-}
logit :: (Trans.C a) => a -> a -> a
logit k = rescale k Dist.logit
{-
probit, error function
-}
{- * Wrapping -}
{- |
zig-zag
-}
zigZag :: (RealField.C a) => a -> a -> a
zigZag k = rescale k Dist.zigZag
{- |
sine
-}
sine :: (Trans.C a) => a -> a -> a
sine k = rescale k Dist.sine
{- * Quantization -}
quantize :: (RealField.C a) => a -> a -> a
quantize k = rescale k Dist.quantize
{- Auxilary function -}
rescale :: (Field.C a) => a -> (a -> a) -> a -> a
rescale k f x = k * f (x/k)
{-
*Synthesizer.Basic.Distortion> GNUPlot.plotFuncs [] (GNUPlot.linearScale 1000 (-3,3::Double)) (map logit [0,0.1..1])
-}