| Safe Haskell | Safe-Inferred |
|---|---|
| Language | Haskell2010 |
Pandora.Pattern.Functor.Distributive
Synopsis
- class Covariant t => Distributive t where
- (>>-) :: Covariant u => u a -> (a -> t b) -> (t :. u) := b
- collect :: Covariant u => (a -> t b) -> u a -> (t :. u) := b
- distribute :: Covariant u => ((u :. t) := a) -> (t :. u) := a
- (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> t b) -> (t :. (u :. v)) := b
- (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> t b) -> (t :. (u :. (v :. w))) := b
- (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> t b) -> (t :. (u :. (v :. (w :. j)))) := b
Documentation
class Covariant t => Distributive t where Source #
Let f :: Distributive g => (a -> g b)
When providing a new instance, you should ensure it satisfies the two laws: * Identity morphism: distribute . distribute ≡ identity * Interchange collection: collect f ≡ distribute . comap f
Minimal complete definition
Methods
(>>-) :: Covariant u => u a -> (a -> t b) -> (t :. u) := b infixl 5 Source #
Infix and flipped version of collect
collect :: Covariant u => (a -> t b) -> u a -> (t :. u) := b Source #
Prefix version of >>-
distribute :: Covariant u => ((u :. t) := a) -> (t :. u) := a Source #
The dual of sequence
(>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> t b) -> (t :. (u :. v)) := b infixl 5 Source #
Infix versions of collect with various nesting levels
(>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> t b) -> (t :. (u :. (v :. w))) := b infixl 5 Source #
(>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> t b) -> (t :. (u :. (v :. (w :. j)))) := b infixl 5 Source #
Instances
| Distributive Identity Source # | |
Defined in Pandora.Paradigm.Primary.Functor.Identity Methods (>>-) :: Covariant u => u a -> (a -> Identity b) -> (Identity :. u) := b Source # collect :: Covariant u => (a -> Identity b) -> u a -> (Identity :. u) := b Source # distribute :: Covariant u => ((u :. Identity) := a) -> (Identity :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Identity b) -> (Identity :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Identity b) -> (Identity :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Identity b) -> (Identity :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive Delta Source # | |
Defined in Pandora.Paradigm.Primary.Functor.Delta Methods (>>-) :: Covariant u => u a -> (a -> Delta b) -> (Delta :. u) := b Source # collect :: Covariant u => (a -> Delta b) -> u a -> (Delta :. u) := b Source # distribute :: Covariant u => ((u :. Delta) := a) -> (Delta :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Delta b) -> (Delta :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Delta b) -> (Delta :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Delta b) -> (Delta :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Proxy :: Type -> Type) Source # | |
Defined in Pandora.Paradigm.Primary.Functor.Proxy Methods (>>-) :: Covariant u => u a -> (a -> Proxy b) -> (Proxy :. u) := b Source # collect :: Covariant u => (a -> Proxy b) -> u a -> (Proxy :. u) := b Source # distribute :: Covariant u => ((u :. Proxy) := a) -> (Proxy :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Proxy b) -> (Proxy :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Proxy b) -> (Proxy :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Proxy b) -> (Proxy :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive t => Distributive (Jack t) Source # | |
Defined in Pandora.Paradigm.Primary.Transformer.Jack Methods (>>-) :: Covariant u => u a -> (a -> Jack t b) -> (Jack t :. u) := b Source # collect :: Covariant u => (a -> Jack t b) -> u a -> (Jack t :. u) := b Source # distribute :: Covariant u => ((u :. Jack t) := a) -> (Jack t :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Jack t b) -> (Jack t :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Jack t b) -> (Jack t :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Jack t b) -> (Jack t :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Imprint e) Source # | |
Defined in Pandora.Paradigm.Inventory.Imprint Methods (>>-) :: Covariant u => u a -> (a -> Imprint e b) -> (Imprint e :. u) := b Source # collect :: Covariant u => (a -> Imprint e b) -> u a -> (Imprint e :. u) := b Source # distribute :: Covariant u => ((u :. Imprint e) := a) -> (Imprint e :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Imprint e b) -> (Imprint e :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Imprint e b) -> (Imprint e :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Imprint e b) -> (Imprint e :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Environment e) Source # | |
Defined in Pandora.Paradigm.Inventory.Environment Methods (>>-) :: Covariant u => u a -> (a -> Environment e b) -> (Environment e :. u) := b Source # collect :: Covariant u => (a -> Environment e b) -> u a -> (Environment e :. u) := b Source # distribute :: Covariant u => ((u :. Environment e) := a) -> (Environment e :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Environment e b) -> (Environment e :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Environment e b) -> (Environment e :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Environment e b) -> (Environment e :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Tagged tag) Source # | |
Defined in Pandora.Paradigm.Primary.Functor.Tagged Methods (>>-) :: Covariant u => u a -> (a -> Tagged tag b) -> (Tagged tag :. u) := b Source # collect :: Covariant u => (a -> Tagged tag b) -> u a -> (Tagged tag :. u) := b Source # distribute :: Covariant u => ((u :. Tagged tag) := a) -> (Tagged tag :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Tagged tag b) -> (Tagged tag :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Tagged tag b) -> (Tagged tag :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Tagged tag b) -> (Tagged tag :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Schematic Monad t u) => Distributive (t :> u) Source # | |
Defined in Pandora.Paradigm.Controlflow.Effect.Transformer.Monadic Methods (>>-) :: Covariant u0 => u0 a -> (a -> (t :> u) b) -> ((t :> u) :. u0) := b Source # collect :: Covariant u0 => (a -> (t :> u) b) -> u0 a -> ((t :> u) :. u0) := b Source # distribute :: Covariant u0 => ((u0 :. (t :> u)) := a) -> ((t :> u) :. u0) := a Source # (>>>-) :: (Covariant u0, Covariant v) => ((u0 :. v) := a) -> (a -> (t :> u) b) -> ((t :> u) :. (u0 :. v)) := b Source # (>>>>-) :: (Covariant u0, Covariant v, Covariant w) => ((u0 :. (v :. w)) := a) -> (a -> (t :> u) b) -> ((t :> u) :. (u0 :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u0, Covariant v, Covariant w, Covariant j) => ((u0 :. (v :. (w :. j))) := a) -> (a -> (t :> u) b) -> ((t :> u) :. (u0 :. (v :. (w :. j)))) := b Source # | |
| Distributive t => Distributive (Backwards t) Source # | |
Defined in Pandora.Paradigm.Primary.Transformer.Backwards Methods (>>-) :: Covariant u => u a -> (a -> Backwards t b) -> (Backwards t :. u) := b Source # collect :: Covariant u => (a -> Backwards t b) -> u a -> (Backwards t :. u) := b Source # distribute :: Covariant u => ((u :. Backwards t) := a) -> (Backwards t :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Backwards t b) -> (Backwards t :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Backwards t b) -> (Backwards t :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Backwards t b) -> (Backwards t :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive t => Distributive (Reverse t) Source # | |
Defined in Pandora.Paradigm.Primary.Transformer.Reverse Methods (>>-) :: Covariant u => u a -> (a -> Reverse t b) -> (Reverse t :. u) := b Source # collect :: Covariant u => (a -> Reverse t b) -> u a -> (Reverse t :. u) := b Source # distribute :: Covariant u => ((u :. Reverse t) := a) -> (Reverse t :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> Reverse t b) -> (Reverse t :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> Reverse t b) -> (Reverse t :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> Reverse t b) -> (Reverse t :. (u :. (v :. (w :. j)))) := b Source # | |
| Distributive (Schematic Comonad t u) => Distributive (t :< u) Source # | |
Defined in Pandora.Paradigm.Controlflow.Effect.Transformer.Comonadic Methods (>>-) :: Covariant u0 => u0 a -> (a -> (t :< u) b) -> ((t :< u) :. u0) := b Source # collect :: Covariant u0 => (a -> (t :< u) b) -> u0 a -> ((t :< u) :. u0) := b Source # distribute :: Covariant u0 => ((u0 :. (t :< u)) := a) -> ((t :< u) :. u0) := a Source # (>>>-) :: (Covariant u0, Covariant v) => ((u0 :. v) := a) -> (a -> (t :< u) b) -> ((t :< u) :. (u0 :. v)) := b Source # (>>>>-) :: (Covariant u0, Covariant v, Covariant w) => ((u0 :. (v :. w)) := a) -> (a -> (t :< u) b) -> ((t :< u) :. (u0 :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u0, Covariant v, Covariant w, Covariant j) => ((u0 :. (v :. (w :. j))) := a) -> (a -> (t :< u) b) -> ((t :< u) :. (u0 :. (v :. (w :. j)))) := b Source # | |
| Distributive ((->) e :: Type -> Type) Source # | |
Defined in Pandora.Pattern.Functor.Distributive Methods (>>-) :: Covariant u => u a -> (a -> e -> b) -> ((->) e :. u) := b Source # collect :: Covariant u => (a -> e -> b) -> u a -> ((->) e :. u) := b Source # distribute :: Covariant u => ((u :. (->) e) := a) -> ((->) e :. u) := a Source # (>>>-) :: (Covariant u, Covariant v) => ((u :. v) := a) -> (a -> e -> b) -> ((->) e :. (u :. v)) := b Source # (>>>>-) :: (Covariant u, Covariant v, Covariant w) => ((u :. (v :. w)) := a) -> (a -> e -> b) -> ((->) e :. (u :. (v :. w))) := b Source # (>>>>>-) :: (Covariant u, Covariant v, Covariant w, Covariant j) => ((u :. (v :. (w :. j))) := a) -> (a -> e -> b) -> ((->) e :. (u :. (v :. (w :. j)))) := b Source # | |