Data.Promotion.Prelude

Contents

• Standard types, classes and related functions
  • Basic data types
• Error reporting
• Promoted equality
• Promoted comparisons
• Promoted enumerations
• Promoted numbers
  • Miscellaneous functions
• List operations
  • Reducing lists (folds)
    • Special folds
  • Building lists
    • Scans
    • Infinite lists
  • Sublists
  • Searching lists
  • Zipping and unzipping lists
• Other datatypes
• Defunctionalization symbols

Description

Synopsis

• type family If cond tru fls :: k
• type family Not a :: Bool
• type family a :&& a :: Bool
• type family a :|| a :: Bool
• type family Otherwise :: Bool
• maybe_ :: forall b a. b -> (a -> b) -> Maybe a -> b
• type family Maybe_ a a a :: b
• either_ :: forall a c b. (a -> c) -> (b -> c) -> Either a b -> c
• type family Either_ a a a :: c
• data Symbol :: *
• type family Fst a :: a
• type family Snd a :: b
• type family Curry a a a :: c
• type family Uncurry a a :: c
• type family Error str :: k
• data ErrorSym0 l
• module Data.Promotion.Prelude.Eq
• module Data.Promotion.Prelude.Ord
• module Data.Promotion.Prelude.Enum
• module Data.Promotion.Prelude.Num
• type family Id a :: a
• type family Const a a :: a
• type family (a :. a) a :: c
• type family f $ x :: b
• type family f $! x :: b
• type family Flip a a a :: c
• type family AsTypeOf a a :: a
• type family Until a a a :: a
• type family Seq a a :: b
• type family Map a a :: [b]
• type family a :++ a :: [a]
• type family Filter a a :: [a]
• type family Head a :: a
• type family Last a :: a
• type family Tail a :: [a]
• type family Init a :: [a]
• type family Null a :: Bool
• type family Length a :: Nat
• type family a :!! a :: a
• type family Reverse a :: [a]
• type family Foldl a a a :: b
• type family Foldl1 a a :: a
• type family Foldr a a a :: b
• type family Foldr1 a a :: a
• type family And a :: Bool
• type family Or a :: Bool
• any_ :: forall a. (a -> Bool) -> [a] -> Bool
• type family Any_ a a :: Bool
• type family All a a :: Bool
• type family Sum a :: a
• type family Product a :: a
• type family Concat a :: [a]
• type family ConcatMap a a :: [b]
• type family Maximum a :: a
• type family Minimum a :: a
• type family Scanl a a a :: [b]
• type family Scanl1 a a :: [a]
• type family Scanr a a a :: [b]
• type family Scanr1 a a :: [a]
• type family Replicate a a :: [a]
• type family Take a a :: [a]
• type family Drop a a :: [a]
• type family SplitAt a a :: ([a], [a])
• type family TakeWhile a a :: [a]
• type family DropWhile a a :: [a]
• type family Span a a :: ([a], [a])
• type family Break a a :: ([a], [a])
• type family Elem a a :: Bool
• type family NotElem a a :: Bool
• type family Lookup a a :: Maybe b
• type family Zip a a :: [(a, b)]
• type family Zip3 a a a :: [(a, b, c)]
• type family ZipWith a a a :: [c]
• type family ZipWith3 a a a a :: [d]
• type family Unzip a :: ([a], [b])
• type family Unzip3 a :: ([a], [b], [c])
• data Proxy t :: k -> * = Proxy
• data KProxy t :: * -> * = KProxy
• type FalseSym0 = False
• type TrueSym0 = True
• data NotSym0 l
• type NotSym1 t = Not t
• data (:&&$) l
• data l :&&$$ l
• type (:&&$$$) t t = (:&&) t t
• data (:||$) l
• data l :||$$ l
• type (:||$$$) t t = (:||) t t
• type OtherwiseSym0 = Otherwise
• type NothingSym0 = Nothing
• data JustSym0 l
• type JustSym1 t = Just t
• data Maybe_Sym0 l
• data Maybe_Sym1 l l
• data Maybe_Sym2 l l l
• type Maybe_Sym3 t t t = Maybe_ t t t
• data LeftSym0 l
• type LeftSym1 t = Left t
• data RightSym0 l
• type RightSym1 t = Right t
• data Either_Sym0 l
• data Either_Sym1 l l
• data Either_Sym2 l l l
• type Either_Sym3 t t t = Either_ t t t
• type Tuple0Sym0 = `()`
• data Tuple2Sym0 l
• data Tuple2Sym1 l l
• type Tuple2Sym2 t t = `(t, t)`
• data Tuple3Sym0 l
• data Tuple3Sym1 l l
• data Tuple3Sym2 l l l
• type Tuple3Sym3 t t t = `(t, t, t)`
• data Tuple4Sym0 l
• data Tuple4Sym1 l l
• data Tuple4Sym2 l l l
• data Tuple4Sym3 l l l l
• type Tuple4Sym4 t t t t = `(t, t, t, t)`
• data Tuple5Sym0 l
• data Tuple5Sym1 l l
• data Tuple5Sym2 l l l
• data Tuple5Sym3 l l l l
• data Tuple5Sym4 l l l l l
• type Tuple5Sym5 t t t t t = `(t, t, t, t, t)`
• data Tuple6Sym0 l
• data Tuple6Sym1 l l
• data Tuple6Sym2 l l l
• data Tuple6Sym3 l l l l
• data Tuple6Sym4 l l l l l
• data Tuple6Sym5 l l l l l l
• type Tuple6Sym6 t t t t t t = `(t, t, t, t, t, t)`
• data Tuple7Sym0 l
• data Tuple7Sym1 l l
• data Tuple7Sym2 l l l
• data Tuple7Sym3 l l l l
• data Tuple7Sym4 l l l l l
• data Tuple7Sym5 l l l l l l
• data Tuple7Sym6 l l l l l l l
• type Tuple7Sym7 t t t t t t t = `(t, t, t, t, t, t, t)`
• data FstSym0 l
• type FstSym1 t = Fst t
• data SndSym0 l
• type SndSym1 t = Snd t
• data CurrySym0 l
• data CurrySym1 l l
• data CurrySym2 l l l
• type CurrySym3 t t t = Curry t t t
• data UncurrySym0 l
• data UncurrySym1 l l
• type UncurrySym2 t t = Uncurry t t
• data (:^$) l
• data l :^$$ l
• data IdSym0 l
• type IdSym1 t = Id t
• data ConstSym0 l
• data ConstSym1 l l
• type ConstSym2 t t = Const t t
• data (:.$) l
• data l :.$$ l
• data (l :.$$$ l) l
• data ($$) :: TyFun (TyFun a b -> *) (TyFun a b -> *) -> *
• data ($$$) :: (TyFun a b -> *) -> TyFun a b -> *
• type ($$$$) a b = ($) a b
• data ($!$) :: TyFun (TyFun a b -> *) (TyFun a b -> *) -> *
• data ($!$$) :: (TyFun a b -> *) -> TyFun a b -> *
• type ($!$$$) a b = ($!) a b
• data FlipSym0 l
• data FlipSym1 l l
• data FlipSym2 l l l
• data AsTypeOfSym0 l
• data AsTypeOfSym1 l l
• type AsTypeOfSym2 t t = AsTypeOf t t
• data SeqSym0 l
• data SeqSym1 l l
• type SeqSym2 t t = Seq t t
• data (:$) l
• data l :$$ l
• type (:$$$) t t = (:) t t
• type NilSym0 = `[]`
• data MapSym0 l
• data MapSym1 l l
• type MapSym2 t t = Map t t
• data ReverseSym0 l
• type ReverseSym1 t = Reverse t
• data l :++$$ l
• data (:++$) l
• data HeadSym0 l
• type HeadSym1 t = Head t
• data LastSym0 l
• type LastSym1 t = Last t
• data TailSym0 l
• type TailSym1 t = Tail t
• data InitSym0 l
• type InitSym1 t = Init t
• data NullSym0 l
• type NullSym1 t = Null t
• data FoldlSym0 l
• data FoldlSym1 l l
• data FoldlSym2 l l l
• type FoldlSym3 t t t = Foldl t t t
• data Foldl1Sym0 l
• data Foldl1Sym1 l l
• type Foldl1Sym2 t t = Foldl1 t t
• data FoldrSym0 l
• data FoldrSym1 l l
• data FoldrSym2 l l l
• type FoldrSym3 t t t = Foldr t t t
• data Foldr1Sym0 l
• data Foldr1Sym1 l l
• type Foldr1Sym2 t t = Foldr1 t t
• data ConcatSym0 l
• type ConcatSym1 t = Concat t
• data ConcatMapSym0 l
• data ConcatMapSym1 l l
• type ConcatMapSym2 t t = ConcatMap t t
• data MaximumBySym0 l
• data MaximumBySym1 l l
• type MaximumBySym2 t t = MaximumBy t t
• data MinimumBySym0 l
• data MinimumBySym1 l l
• type MinimumBySym2 t t = MinimumBy t t
• data AndSym0 l
• type AndSym1 t = And t
• data OrSym0 l
• type OrSym1 t = Or t
• data Any_Sym0 l
• data Any_Sym1 l l
• type Any_Sym2 t t = Any_ t t
• data AllSym0 l
• data AllSym1 l l
• type AllSym2 t t = All t t
• data ScanlSym0 l
• data ScanlSym1 l l
• data ScanlSym2 l l l
• type ScanlSym3 t t t = Scanl t t t
• data Scanl1Sym0 l
• data Scanl1Sym1 l l
• type Scanl1Sym2 t t = Scanl1 t t
• data ScanrSym0 l
• data ScanrSym1 l l
• data ScanrSym2 l l l
• type ScanrSym3 t t t = Scanr t t t
• data Scanr1Sym0 l
• data Scanr1Sym1 l l
• type Scanr1Sym2 t t = Scanr1 t t
• data ElemSym0 l
• data ElemSym1 l l
• type ElemSym2 t t = Elem t t
• data NotElemSym0 l
• data NotElemSym1 l l
• type NotElemSym2 t t = NotElem t t
• data ZipSym0 l
• data ZipSym1 l l
• type ZipSym2 t t = Zip t t
• data Zip3Sym0 l
• data Zip3Sym1 l l
• data Zip3Sym2 l l l
• type Zip3Sym3 t t t = Zip3 t t t
• data ZipWithSym0 l
• data ZipWithSym1 l l
• data ZipWithSym2 l l l
• type ZipWithSym3 t t t = ZipWith t t t
• data ZipWith3Sym0 l
• data ZipWith3Sym1 l l
• data ZipWith3Sym2 l l l
• data ZipWith3Sym3 l l l l
• data UnzipSym0 l
• type UnzipSym1 t = Unzip t
• data UntilSym0 l
• data UntilSym1 l l
• data UntilSym2 l l l
• type UntilSym3 t t t = Until t t t
• data LengthSym0 l
• type LengthSym1 t = Length t
• data SumSym0 l
• type SumSym1 t = Sum t
• data ProductSym0 l
• type ProductSym1 t = Product t
• data ReplicateSym0 l
• data ReplicateSym1 l l
• type ReplicateSym2 t t = Replicate t t
• data TakeSym0 l
• data TakeSym1 l l
• type TakeSym2 t t = Take t t
• data DropSym0 l
• data DropSym1 l l
• type DropSym2 t t = Drop t t
• data SplitAtSym0 l
• data SplitAtSym1 l l
• type SplitAtSym2 t t = SplitAt t t
• data TakeWhileSym0 l
• data TakeWhileSym1 l l
• type TakeWhileSym2 t t = TakeWhile t t
• data DropWhileSym0 l
• data DropWhileSym1 l l
• type DropWhileSym2 t t = DropWhile t t
• data SpanSym0 l
• data SpanSym1 l l
• type SpanSym2 t t = Span t t
• data BreakSym0 l
• data BreakSym1 l l
• type BreakSym2 t t = Break t t
• data LookupSym0 l
• data LookupSym1 l l
• type LookupSym2 t t = Lookup t t
• data FilterSym0 l
• data FilterSym1 l l
• type FilterSym2 t t = Filter t t
• data (:!!$) l
• data l :!!$$ l
• type (:!!$$$) t t = (:!!) t t

Standard types, classes and related functions

Basic data types

Error reporting

Promoted equality

Promoted comparisons

Promoted enumerations

Promoted numbers

Miscellaneous functions

List operations

Reducing lists (folds)

Special folds

Building lists

Scans

Infinite lists

Sublists

Searching lists

Zipping and unzipping lists

Other datatypes

Defunctionalization symbols