Copyright	(c) Fumiaki Kinoshita 2018
License	BSD3
Maintainer	Fumiaki Kinoshita <fumiexcel@gmail.com>
Safe Haskell	None
Language	Haskell2010

Data.Extensible.Class

Contents

Class
Membership
Member
Generation
Association
Misc

Description

Synopsis

class (Functor f, Profunctor p) => Extensible f p (t :: [k] -> (k -> Type) -> Type) where
- type ExtensibleConstr t (xs :: [k]) (h :: k -> Type) (x :: k) :: Constraint
- pieceAt :: ExtensibleConstr t xs h x => Membership xs x -> Optic' p f (t xs h) (h x)
piece :: (x ∈ xs, Extensible f p t, ExtensibleConstr t xs h x) => Optic' p f (t xs h) (h x)
pieceAssoc :: (Lookup xs k v, Extensible f p t, ExtensibleConstr t xs h (k :> v)) => Optic' p f (t xs h) (h (k :> v))
itemAt :: (Wrapper h, Extensible f p t, ExtensibleConstr t xs h x) => Membership xs x -> Optic' p f (t xs h) (Repr h x)
item :: (Wrapper h, Extensible f p t, x ∈ xs, ExtensibleConstr t xs h x) => proxy x -> Optic' p f (t xs h) (Repr h x)
itemAssoc :: (Wrapper h, Extensible f p t, Lookup xs k v, ExtensibleConstr t xs h (k :> v)) => proxy k -> Optic' p f (t xs h) (Repr h (k :> v))
itemKey :: forall k v xs h f p t. (Wrapper h, Extensible f p t, Lookup xs k v, ExtensibleConstr t xs h (k :> v)) => Optic' p f (t xs h) (Repr h (k :> v))
data Membership (xs :: [k]) (x :: k) :: forall k. [k] -> k -> Type
mkMembership :: Int -> Q Exp
getMemberId :: Membership xs x -> Int
compareMembership :: Membership xs x -> Membership xs y -> Either Ordering (x :~: y)
leadership :: Membership (x ': xs) x
class Member (xs :: [k]) (x :: k) where
- membership :: Membership xs x
type (∈) (x :: k) (xs :: [k]) = Member xs x
type family FindType (x :: k) (xs :: [k]) :: [Nat] where ...
class Generate (xs :: [k]) where
- henumerate :: (forall (x :: k). Membership xs x -> r -> r) -> r -> r
- hcount :: proxy xs -> Int
- hgenerateList :: Applicative f => (forall (x :: k). Membership xs x -> f (h x)) -> f (HList h xs)
class (ForallF c xs, Generate xs) => Forall (c :: k -> Constraint) (xs :: [k]) where
- henumerateFor :: proxy c -> proxy' xs -> (forall (x :: k). c x => Membership xs x -> r -> r) -> r -> r
- hgenerateListFor :: Applicative f => proxy c -> (forall (x :: k). c x => Membership xs x -> f (h x)) -> f (HList h xs)
type family ForallF (c :: k -> Constraint) (xs :: [k]) :: Constraint where ...
data Assoc k v = k :> v
type (>:) = ((:>) :: k -> v -> Assoc k v)
class Lookup (xs :: [Assoc k v]) (k1 :: k) (v1 :: v) | k1 xs -> v1 where
- association :: Membership xs (k1 :> v1)
type Associate k v xs = Lookup xs k v
type family Head (xs :: [k]) :: k where ...
type family Last (x :: [k]) :: k where ...

Class

class (Functor f, Profunctor p) => Extensible f p (t :: [k] -> (k -> Type) -> Type) where Source #

This class allows us to use pieceAt for both sums and products.

Associated Types

type ExtensibleConstr t (xs :: [k]) (h :: k -> Type) (x :: k) :: Constraint Source #

Methods

pieceAt :: ExtensibleConstr t xs h x => Membership xs x -> Optic' p f (t xs h) (h x) Source #

Instances

(Applicative f, Choice p) => Extensible f p ((:/) :: [k] -> (k -> Type) -> Type) Source #
Instance details Defined in Data.Extensible.Sum Associated Types type ExtensibleConstr (:/) xs h x :: Constraint Source # Methods pieceAt :: ExtensibleConstr (:/) xs h x => Membership xs x -> Optic' p f (xs :/ h) (h x) Source #
(Corepresentable p, Comonad (Corep p), Functor f) => Extensible f p ((:&) :: [k] -> (k -> Type) -> Type) Source #
Instance details Defined in Data.Extensible.Struct Associated Types type ExtensibleConstr (:&) xs h x :: Constraint Source # Methods pieceAt :: ExtensibleConstr (:&) xs h x => Membership xs x -> Optic' p f (xs :& h) (h x) Source #
(Functor f, Profunctor p) => Extensible f p (Inextensible :: [k] -> (k -> Type) -> Type) Source #
Instance details Defined in Data.Extensible.Field Associated Types type ExtensibleConstr Inextensible xs h x :: Constraint Source # Methods pieceAt :: ExtensibleConstr Inextensible xs h x => Membership xs x -> Optic' p f (Inextensible xs h) (h x) Source #
(Corepresentable p, Comonad (Corep p), Functor f) => Extensible f p (BitProd r :: [k] -> (k -> Type) -> Type) Source #
Instance details Defined in Data.Extensible.Bits Associated Types type ExtensibleConstr (BitProd r) xs h x :: Constraint Source # Methods pieceAt :: ExtensibleConstr (BitProd r) xs h x => Membership xs x -> Optic' p f (BitProd r xs h) (h x) Source #

piece :: (x ∈ xs, Extensible f p t, ExtensibleConstr t xs h x) => Optic' p f (t xs h) (h x) Source #

Accessor for an element.

pieceAssoc :: (Lookup xs k v, Extensible f p t, ExtensibleConstr t xs h (k :> v)) => Optic' p f (t xs h) (h (k :> v)) Source #

Like piece, but reckon membership from its key.

itemAt :: (Wrapper h, Extensible f p t, ExtensibleConstr t xs h x) => Membership xs x -> Optic' p f (t xs h) (Repr h x) Source #

Access a specified element through a wrapper.

item :: (Wrapper h, Extensible f p t, x ∈ xs, ExtensibleConstr t xs h x) => proxy x -> Optic' p f (t xs h) (Repr h x) Source #

Access an element through a wrapper.

itemAssoc :: (Wrapper h, Extensible f p t, Lookup xs k v, ExtensibleConstr t xs h (k :> v)) => proxy k -> Optic' p f (t xs h) (Repr h (k :> v)) Source #

Access an element specified by the key type through a wrapper.

itemKey :: forall k v xs h f p t. (Wrapper h, Extensible f p t, Lookup xs k v, ExtensibleConstr t xs h (k :> v)) => Optic' p f (t xs h) (Repr h (k :> v)) Source #

Access an element specified by the key type through a wrapper.

Membership

data Membership (xs :: [k]) (x :: k) :: forall k. [k] -> k -> Type #

Instances

Eq (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods (==) :: Membership xs x -> Membership xs x -> Bool # (/=) :: Membership xs x -> Membership xs x -> Bool #
Ord (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods compare :: Membership xs x -> Membership xs x -> Ordering # (<) :: Membership xs x -> Membership xs x -> Bool # (<=) :: Membership xs x -> Membership xs x -> Bool # (>) :: Membership xs x -> Membership xs x -> Bool # (>=) :: Membership xs x -> Membership xs x -> Bool # max :: Membership xs x -> Membership xs x -> Membership xs x # min :: Membership xs x -> Membership xs x -> Membership xs x #
Show (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods showsPrec :: Int -> Membership xs x -> ShowS # show :: Membership xs x -> String # showList :: [Membership xs x] -> ShowS #
Semigroup (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods (<>) :: Membership xs x -> Membership xs x -> Membership xs x # sconcat :: NonEmpty (Membership xs x) -> Membership xs x # stimes :: Integral b => b -> Membership xs x -> Membership xs x #
Lift (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods lift :: Membership xs x -> Q Exp #
NFData (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods rnf :: Membership xs x -> () #
Hashable (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods hashWithSalt :: Int -> Membership xs x -> Int hash :: Membership xs x -> Int
Pretty (Membership xs x)
Instance details Defined in Type.Membership.Internal Methods pretty :: Membership xs x -> Doc ann prettyList :: [Membership xs x] -> Doc ann

mkMembership :: Int -> Q Exp #

getMemberId :: Membership xs x -> Int #

compareMembership :: Membership xs x -> Membership xs y -> Either Ordering (x :~: y) #

leadership :: Membership (x ': xs) x #

Member

class Member (xs :: [k]) (x :: k) where #

Methods

membership :: Membership xs x #

Instances

(Elaborate x (FindType x xs) ~ (Expecting pos :: Elaborated k Nat), KnownNat pos) => Member (xs :: [k]) (x :: k)
Instance details Defined in Type.Membership.Internal Methods membership :: Membership xs x #

type (∈) (x :: k) (xs :: [k]) = Member xs x #

type family FindType (x :: k) (xs :: [k]) :: [Nat] where ... #

Equations

FindType (x :: k) (x ': xs :: [k]) = 0 ': MapSucc (FindType x xs)
FindType (x :: k) (y ': ys :: [k]) = MapSucc (FindType x ys)
FindType (x :: k) ([] :: [k]) = ([] :: [Nat])

Generation

class Generate (xs :: [k]) where #

Methods

henumerate :: (forall (x :: k). Membership xs x -> r -> r) -> r -> r #

hcount :: proxy xs -> Int #

hgenerateList :: Applicative f => (forall (x :: k). Membership xs x -> f (h x)) -> f (HList h xs) #

Instances

Generate ([] :: [k])
Instance details Defined in Type.Membership Methods henumerate :: (forall (x :: k0). Membership [] x -> r -> r) -> r -> r # hcount :: proxy [] -> Int # hgenerateList :: Applicative f => (forall (x :: k0). Membership [] x -> f (h x)) -> f (HList h []) #
Generate xs => Generate (x ': xs :: [k])
Instance details Defined in Type.Membership Methods henumerate :: (forall (x0 :: k0). Membership (x ': xs) x0 -> r -> r) -> r -> r # hcount :: proxy (x ': xs) -> Int # hgenerateList :: Applicative f => (forall (x0 :: k0). Membership (x ': xs) x0 -> f (h x0)) -> f (HList h (x ': xs)) #

class (ForallF c xs, Generate xs) => Forall (c :: k -> Constraint) (xs :: [k]) where #

Methods

henumerateFor :: proxy c -> proxy' xs -> (forall (x :: k). c x => Membership xs x -> r -> r) -> r -> r #

hgenerateListFor :: Applicative f => proxy c -> (forall (x :: k). c x => Membership xs x -> f (h x)) -> f (HList h xs) #

Instances

Forall (c :: k -> Constraint) ([] :: [k])
Instance details Defined in Type.Membership Methods henumerateFor :: proxy c -> proxy' [] -> (forall (x :: k0). c x => Membership [] x -> r -> r) -> r -> r # hgenerateListFor :: Applicative f => proxy c -> (forall (x :: k0). c x => Membership [] x -> f (h x)) -> f (HList h []) #
(c x, Forall c xs) => Forall (c :: a -> Constraint) (x ': xs :: [a])
Instance details Defined in Type.Membership Methods henumerateFor :: proxy c -> proxy' (x ': xs) -> (forall (x0 :: k). c x0 => Membership (x ': xs) x0 -> r -> r) -> r -> r # hgenerateListFor :: Applicative f => proxy c -> (forall (x0 :: k). c x0 => Membership (x ': xs) x0 -> f (h x0)) -> f (HList h (x ': xs)) #

type family ForallF (c :: k -> Constraint) (xs :: [k]) :: Constraint where ... #

Equations

ForallF (c :: k -> Constraint) ([] :: [k]) = ()
ForallF (c :: k -> Constraint) (x ': xs :: [k]) = (c x, Forall c xs)

Association

data Assoc k v #

Constructors

k :> v

Instances

(Lookup xs k2 v2, Wrapper h, Repr h v2 ~ a) => HasField (k2 :: k1) (RecordOf h xs) a Source #
Instance details Defined in Data.Extensible.Label Methods getField :: RecordOf h xs -> a #
Wrapper h => Wrapper (Field h :: Assoc k v -> Type) Source #
Instance details Defined in Data.Extensible.Field Associated Types type Repr (Field h) v :: Type Source # Methods _Wrapper :: (Functor f, Profunctor p) => Optic' p f (Field h v0) (Repr (Field h) v0) Source # wrap :: Repr (Field h) v0 -> Field h v0 Source # unwrap :: Field h v0 -> Repr (Field h) v0 Source #
Forall (KeyTargetAre KnownSymbol (Instance1 FromJSON h)) xs => FromJSON (xs :& Nullable (Field h :: Assoc Symbol v -> Type))
Instance details Defined in Data.Extensible.Dictionary Methods parseJSON :: Value -> Parser (xs :& Nullable (Field h)) parseJSONList :: Value -> Parser [xs :& Nullable (Field h)]
Forall (KeyTargetAre KnownSymbol (Instance1 FromJSON h)) xs => FromJSON (xs :& (Field h :: Assoc Symbol v -> Type))	`parseJSON Null` is called for missing fields.
Instance details Defined in Data.Extensible.Dictionary Methods parseJSON :: Value -> Parser (xs :& Field h) parseJSONList :: Value -> Parser [xs :& Field h]
Forall (KeyTargetAre KnownSymbol (Instance1 ToJSON h)) xs => ToJSON (xs :& Nullable (Field h :: Assoc Symbol v -> Type))
Instance details Defined in Data.Extensible.Dictionary Methods toJSON :: (xs :& Nullable (Field h)) -> Value toEncoding :: (xs :& Nullable (Field h)) -> Encoding toJSONList :: [xs :& Nullable (Field h)] -> Value toEncodingList :: [xs :& Nullable (Field h)] -> Encoding
Forall (KeyTargetAre KnownSymbol (Instance1 ToJSON h)) xs => ToJSON (xs :& (Field h :: Assoc Symbol v -> Type))
Instance details Defined in Data.Extensible.Dictionary Methods toJSON :: (xs :& Field h) -> Value toEncoding :: (xs :& Field h) -> Encoding toJSONList :: [xs :& Field h] -> Value toEncodingList :: [xs :& Field h] -> Encoding
Forall (KeyTargetAre KnownSymbol (Instance1 FromField h)) xs => FromNamedRecord (xs :& (Field h :: Assoc Symbol v -> Type))
Instance details Defined in Data.Extensible.Dictionary Methods parseNamedRecord :: NamedRecord -> Parser (xs :& Field h)
Forall (KeyTargetAre KnownSymbol (Instance1 ToField h)) xs => ToNamedRecord (xs :& (Field h :: Assoc Symbol v -> Type))
Instance details Defined in Data.Extensible.Dictionary Methods toNamedRecord :: (xs :& Field h) -> NamedRecord
type Repr (Field h :: Assoc k v -> Type) (kv :: Assoc k v) Source #
Instance details Defined in Data.Extensible.Field type Repr (Field h :: Assoc k v -> Type) (kv :: Assoc k v) = Repr h (TargetOf kv)

type (>:) = ((:>) :: k -> v -> Assoc k v) #

class Lookup (xs :: [Assoc k v]) (k1 :: k) (v1 :: v) | k1 xs -> v1 where #

Methods

association :: Membership xs (k1 :> v1) #

Instances

(Elaborate k2 (FindAssoc 0 k2 xs) ~ (Expecting (n :> v2) :: Elaborated k1 (Assoc Nat v1)), KnownNat n) => Lookup (xs :: [Assoc k1 v1]) (k2 :: k1) (v2 :: v1)
Instance details Defined in Type.Membership.Internal Methods association :: Membership xs (k2 :> v2) #

type Associate k v xs = Lookup xs k v Source #

Deprecated: Use Lookup instead

Misc

type family Head (xs :: [k]) :: k where ... Source #

First element

Equations

Head (x ': xs) = x

type family Last (x :: [k]) :: k where ... Source #

Last element

Equations

Last '[x] = x
Last (x ': xs) = Last xs