| Safe Haskell | None |
|---|
Synthesizer.LLVM.Frame.Stereo
Description
Re-export functions from Sound.Frame.Stereo and add (orphan) instances for various LLVM type classes. If you want to use the Stereo datatype with synthesizer-llvm we recommend to import this module instead of Sound.Frame.Stereo or Sound.Frame.NumericPrelude.Stereo.
- data T a
- cons :: a -> a -> T a
- left :: T a -> a
- right :: T a -> a
- arrowFromMono :: Arrow arrow => arrow a b -> arrow (T a) (T b)
- arrowFromMonoControlled :: Arrow arrow => arrow (c, a) b -> arrow (c, T a) (T b)
- arrowFromChannels :: Arrow arrow => arrow a b -> arrow a b -> arrow (T a) (T b)
- interleave :: (T a, T b) -> T (a, b)
- sequence :: Functor f => f (T a) -> T (f a)
- liftApplicative :: Applicative f => (f a -> f b) -> f (T a) -> f (T b)
Documentation
data T a
Instances
| Functor T | |
| Applicative T | |
| Foldable T | |
| Traversable T | |
| (C a, C a v) => C a (T v) | |
| (Ord a, C a v) => C a (T v) | |
| Sqr a v => Sqr a (T v) | |
| (C a, Sqr a v) => C a (T v) | |
| C a v => C a (T v) | |
| Eq a => Eq (T a) | |
| Show a => Show (T a) | |
| Arbitrary a => Arbitrary (T a) | |
| Storable a => Storable (T a) | |
| Additive a => Additive (T a) | |
| C l => C (T l) | |
| C v => C (T v) | |
| Simple v => Simple (T v) | |
| Select a => Select (T a) | |
| Undefined a => Undefined (T a) | |
| Zero a => Zero (T a) | |
| MakeValueTuple h => MakeValueTuple (T h) | |
| Phi a => Phi (T a) | |
| C a => C (T a) | |
| C a => C (T a) | |
| C a => C (T a) | |
| Flatten a => Flatten (T a) | |
| MakeArguments (T a) | |
| Sized value => Sized (T value) | |
| Zero v => Zero (T v) | |
| C v => C (T v) | |
| Read v => Read (T v) | |
| (Arithmetic a, IsConst a, C (Value (State a))) => C (Parameter a) (T (Value a)) (T (Value a)) | |
| (PseudoRing a, RationalConstant a, C a) => C (Parameter a) (T a) (T a) |
arrowFromMono :: Arrow arrow => arrow a b -> arrow (T a) (T b)
Run a causal process independently on each stereo channel.
arrowFromMonoControlled :: Arrow arrow => arrow (c, a) b -> arrow (c, T a) (T b)
arrowFromChannels :: Arrow arrow => arrow a b -> arrow a b -> arrow (T a) (T b)
interleave :: (T a, T b) -> T (a, b)Source
liftApplicative :: Applicative f => (f a -> f b) -> f (T a) -> f (T b)Source