| Copyright | (C) 2019 QBayLogic B.V. (C) 2021 QBayLogic B.V. |
|---|---|
| License | BSD2 (see the file LICENSE) |
| Maintainer | QBayLogic B.V <devops@qbaylogic.com> |
| Safe Haskell | Safe |
| Language | Haskell2010 |
| Extensions |
|
Clash.HaskellPrelude
Description
Clash.HaskellPrelude re-exports most of the Haskell Prelude with the
exception of those functions that the Clash API defines to work on
Vec from Clash.Sized.Vector instead of on lists as the
Haskell Prelude does. In addition, for the odd and
even functions a type class called
Parity is available at Clash.Class.Parity.
Synopsis
- seq :: forall (r :: RuntimeRep) a (b :: TYPE r). a -> b -> b
- filter :: (a -> Bool) -> [a] -> [a]
- print :: Show a => a -> IO ()
- fst :: (a, b) -> a
- snd :: (a, b) -> b
- otherwise :: Bool
- ($) :: forall (r :: RuntimeRep) a (b :: TYPE r). (a -> b) -> a -> b
- fromIntegral :: (Integral a, Num b) => a -> b
- realToFrac :: (Real a, Fractional b) => a -> b
- class Bounded a where
- class Enum a where
- succ :: a -> a
- pred :: a -> a
- toEnum :: Int -> a
- fromEnum :: a -> Int
- enumFrom :: a -> [a]
- enumFromThen :: a -> a -> [a]
- enumFromTo :: a -> a -> [a]
- enumFromThenTo :: a -> a -> a -> [a]
- class Eq a where
- class Fractional a => Floating a where
- class Num a => Fractional a where
- (/) :: a -> a -> a
- recip :: a -> a
- fromRational :: Rational -> a
- class (Real a, Enum a) => Integral a where
- class Applicative m => Monad (m :: Type -> Type) where
- class Functor (f :: Type -> Type) where
- class Num a where
- class Eq a => Ord a where
- class Read a where
- class (Num a, Ord a) => Real a where
- toRational :: a -> Rational
- class (RealFrac a, Floating a) => RealFloat a where
- floatRadix :: a -> Integer
- floatDigits :: a -> Int
- floatRange :: a -> (Int, Int)
- decodeFloat :: a -> (Integer, Int)
- encodeFloat :: Integer -> Int -> a
- exponent :: a -> Int
- significand :: a -> a
- scaleFloat :: Int -> a -> a
- isNaN :: a -> Bool
- isInfinite :: a -> Bool
- isDenormalized :: a -> Bool
- isNegativeZero :: a -> Bool
- isIEEE :: a -> Bool
- atan2 :: a -> a -> a
- class (Real a, Fractional a) => RealFrac a where
- class Show a where
- class Monad m => MonadFail (m :: Type -> Type) where
- class Functor f => Applicative (f :: Type -> Type) where
- class Foldable (t :: Type -> Type) where
- class (Functor t, Foldable t) => Traversable (t :: Type -> Type) where
- traverse :: Applicative f => (a -> f b) -> t a -> f (t b)
- sequenceA :: Applicative f => t (f a) -> f (t a)
- mapM :: Monad m => (a -> m b) -> t a -> m (t b)
- sequence :: Monad m => t (m a) -> m (t a)
- class Semigroup a where
- (<>) :: a -> a -> a
- class Semigroup a => Monoid a where
- data Bool
- data Char
- data Double
- data Float
- data Int
- data Integer
- data Maybe a
- data Ordering
- type Rational = Ratio Integer
- data IO a
- data Word
- data Either a b
- type String = [Char]
- id :: a -> a
- either :: (a -> c) -> (b -> c) -> Either a b -> c
- readIO :: Read a => String -> IO a
- readLn :: Read a => IO a
- appendFile :: FilePath -> String -> IO ()
- writeFile :: FilePath -> String -> IO ()
- readFile :: FilePath -> IO String
- interact :: (String -> String) -> IO ()
- getContents :: IO String
- putStrLn :: String -> IO ()
- putStr :: String -> IO ()
- ioError :: IOError -> IO a
- type FilePath = String
- userError :: String -> IOError
- type IOError = IOException
- notElem :: (Foldable t, Eq a) => a -> t a -> Bool
- all :: Foldable t => (a -> Bool) -> t a -> Bool
- any :: Foldable t => (a -> Bool) -> t a -> Bool
- or :: Foldable t => t Bool -> Bool
- and :: Foldable t => t Bool -> Bool
- sequence_ :: (Foldable t, Monad m) => t (m a) -> m ()
- mapM_ :: (Foldable t, Monad m) => (a -> m b) -> t a -> m ()
- unwords :: [String] -> String
- words :: String -> [String]
- unlines :: [String] -> String
- lines :: String -> [String]
- read :: Read a => String -> a
- reads :: Read a => ReadS a
- lex :: ReadS String
- readParen :: Bool -> ReadS a -> ReadS a
- type ReadS a = String -> [(a, String)]
- lcm :: Integral a => a -> a -> a
- gcd :: Integral a => a -> a -> a
- (^^) :: (Fractional a, Integral b) => a -> b -> a
- showParen :: Bool -> ShowS -> ShowS
- showString :: String -> ShowS
- showChar :: Char -> ShowS
- shows :: Show a => a -> ShowS
- type ShowS = String -> String
- lookup :: Eq a => a -> [(a, b)] -> Maybe b
- break :: (a -> Bool) -> [a] -> ([a], [a])
- span :: (a -> Bool) -> [a] -> ([a], [a])
- dropWhile :: (a -> Bool) -> [a] -> [a]
- takeWhile :: (a -> Bool) -> [a] -> [a]
- cycle :: [a] -> [a]
- maybe :: b -> (a -> b) -> Maybe a -> b
- (<$>) :: Functor f => (a -> b) -> f a -> f b
- uncurry :: (a -> b -> c) -> (a, b) -> c
- curry :: ((a, b) -> c) -> a -> b -> c
- subtract :: Num a => a -> a -> a
- asTypeOf :: a -> a -> a
- until :: (a -> Bool) -> (a -> a) -> a -> a
- ($!) :: forall (r :: RuntimeRep) a (b :: TYPE r). (a -> b) -> a -> b
- flip :: (a -> b -> c) -> b -> a -> c
- (.) :: (b -> c) -> (a -> b) -> a -> c
- const :: a -> b -> a
- (=<<) :: Monad m => (a -> m b) -> m a -> m b
- errorWithoutStackTrace :: forall (r :: RuntimeRep) (a :: TYPE r). [Char] -> a
- error :: forall (r :: RuntimeRep) (a :: TYPE r). HasCallStack => [Char] -> a
- (&&) :: Bool -> Bool -> Bool
- (||) :: Bool -> Bool -> Bool
- not :: Bool -> Bool
Documentation
seq :: forall (r :: RuntimeRep) a (b :: TYPE r). a -> b -> b infixr 0 #
The value of seq a b is bottom if a is bottom, and
otherwise equal to b. In other words, it evaluates the first
argument a to weak head normal form (WHNF). seq is usually
introduced to improve performance by avoiding unneeded laziness.
A note on evaluation order: the expression seq a b does
not guarantee that a will be evaluated before b.
The only guarantee given by seq is that the both a
and b will be evaluated before seq returns a value.
In particular, this means that b may be evaluated before
a. If you need to guarantee a specific order of evaluation,
you must use the function pseq from the "parallel" package.
filter :: (a -> Bool) -> [a] -> [a] #
\(\mathcal{O}(n)\). filter, applied to a predicate and a list, returns
the list of those elements that satisfy the predicate; i.e.,
filter p xs = [ x | x <- xs, p x]
>>>filter odd [1, 2, 3][1,3]
print :: Show a => a -> IO () #
The print function outputs a value of any printable type to the
standard output device.
Printable types are those that are instances of class Show; print
converts values to strings for output using the show operation and
adds a newline.
For example, a program to print the first 20 integers and their powers of 2 could be written as:
main = print ([(n, 2^n) | n <- [0..19]])
($) :: forall (r :: RuntimeRep) a (b :: TYPE r). (a -> b) -> a -> b infixr 0 #
Application operator. This operator is redundant, since ordinary
application (f x) means the same as (f . However, $ x)$ has
low, right-associative binding precedence, so it sometimes allows
parentheses to be omitted; for example:
f $ g $ h x = f (g (h x))
It is also useful in higher-order situations, such as map ($ 0) xszipWith ($) fs xs
Note that ( is levity-polymorphic in its result type, so that
$)foo where $ Truefoo :: Bool -> Int# is well-typed.
fromIntegral :: (Integral a, Num b) => a -> b #
general coercion from integral types
realToFrac :: (Real a, Fractional b) => a -> b #
general coercion to fractional types
The Bounded class is used to name the upper and lower limits of a
type. Ord is not a superclass of Bounded since types that are not
totally ordered may also have upper and lower bounds.
The Bounded class may be derived for any enumeration type;
minBound is the first constructor listed in the data declaration
and maxBound is the last.
Bounded may also be derived for single-constructor datatypes whose
constituent types are in Bounded.
Instances
Class Enum defines operations on sequentially ordered types.
The enumFrom... methods are used in Haskell's translation of
arithmetic sequences.
Instances of Enum may be derived for any enumeration type (types
whose constructors have no fields). The nullary constructors are
assumed to be numbered left-to-right by fromEnum from 0 through n-1.
See Chapter 10 of the Haskell Report for more details.
For any type that is an instance of class Bounded as well as Enum,
the following should hold:
- The calls
succmaxBoundpredminBound fromEnumandtoEnumshould give a runtime error if the result value is not representable in the result type. For example,toEnum7 ::BoolenumFromandenumFromThenshould be defined with an implicit bound, thus:
enumFrom x = enumFromTo x maxBound
enumFromThen x y = enumFromThenTo x y bound
where
bound | fromEnum y >= fromEnum x = maxBound
| otherwise = minBoundMethods
the successor of a value. For numeric types, succ adds 1.
the predecessor of a value. For numeric types, pred subtracts 1.
Convert from an Int.
Convert to an Int.
It is implementation-dependent what fromEnum returns when
applied to a value that is too large to fit in an Int.
Used in Haskell's translation of [n..] with [n..] = enumFrom n,
a possible implementation being enumFrom n = n : enumFrom (succ n).
For example:
enumFrom 4 :: [Integer] = [4,5,6,7,...]
enumFrom 6 :: [Int] = [6,7,8,9,...,maxBound :: Int]
enumFromThen :: a -> a -> [a] #
Used in Haskell's translation of [n,n'..]
with [n,n'..] = enumFromThen n n', a possible implementation being
enumFromThen n n' = n : n' : worker (f x) (f x n'),
worker s v = v : worker s (s v), x = fromEnum n' - fromEnum n and
f n y
| n > 0 = f (n - 1) (succ y)
| n < 0 = f (n + 1) (pred y)
| otherwise = y
For example:
enumFromThen 4 6 :: [Integer] = [4,6,8,10...]
enumFromThen 6 2 :: [Int] = [6,2,-2,-6,...,minBound :: Int]
enumFromTo :: a -> a -> [a] #
Used in Haskell's translation of [n..m] with
[n..m] = enumFromTo n m, a possible implementation being
enumFromTo n m
| n <= m = n : enumFromTo (succ n) m
| otherwise = [].
For example:
enumFromTo 6 10 :: [Int] = [6,7,8,9,10]
enumFromTo 42 1 :: [Integer] = []
enumFromThenTo :: a -> a -> a -> [a] #
Used in Haskell's translation of [n,n'..m] with
[n,n'..m] = enumFromThenTo n n' m, a possible implementation
being enumFromThenTo n n' m = worker (f x) (c x) n m,
x = fromEnum n' - fromEnum n, c x = bool (>=) ((x 0)
f n y
| n > 0 = f (n - 1) (succ y)
| n < 0 = f (n + 1) (pred y)
| otherwise = y and
worker s c v m
| c v m = v : worker s c (s v) m
| otherwise = []
For example:
enumFromThenTo 4 2 -6 :: [Integer] = [4,2,0,-2,-4,-6]
enumFromThenTo 6 8 2 :: [Int] = []
Instances
The Eq class defines equality (==) and inequality (/=).
All the basic datatypes exported by the Prelude are instances of Eq,
and Eq may be derived for any datatype whose constituents are also
instances of Eq.
The Haskell Report defines no laws for Eq. However, == is customarily
expected to implement an equivalence relationship where two values comparing
equal are indistinguishable by "public" functions, with a "public" function
being one not allowing to see implementation details. For example, for a
type representing non-normalised natural numbers modulo 100, a "public"
function doesn't make the difference between 1 and 201. It is expected to
have the following properties:
Instances
class Fractional a => Floating a where #
Trigonometric and hyperbolic functions and related functions.
The Haskell Report defines no laws for Floating. However, (, +)(
and *)exp are customarily expected to define an exponential field and have
the following properties:
exp (a + b)=exp a * exp bexp (fromInteger 0)=fromInteger 1
Minimal complete definition
pi, exp, log, sin, cos, asin, acos, atan, sinh, cosh, asinh, acosh, atanh
Instances
class Num a => Fractional a where #
Fractional numbers, supporting real division.
The Haskell Report defines no laws for Fractional. However, ( and
+)( are customarily expected to define a division ring and have the
following properties:*)
recipgives the multiplicative inversex * recip x=recip x * x=fromInteger 1
Note that it isn't customarily expected that a type instance of
Fractional implement a field. However, all instances in base do.
Minimal complete definition
fromRational, (recip | (/))
Methods
Fractional division.
Reciprocal fraction.
fromRational :: Rational -> a #
Conversion from a Rational (that is Ratio IntegerfromRational
to a value of type Rational, so such literals have type
(.Fractional a) => a
Instances
class (Real a, Enum a) => Integral a where #
Integral numbers, supporting integer division.
The Haskell Report defines no laws for Integral. However, Integral
instances are customarily expected to define a Euclidean domain and have the
following properties for the div/mod and quot/rem pairs, given
suitable Euclidean functions f and g:
x=y * quot x y + rem x ywithrem x y=fromInteger 0org (rem x y)<g yx=y * div x y + mod x ywithmod x y=fromInteger 0orf (mod x y)<f y
An example of a suitable Euclidean function, for Integer's instance, is
abs.
Methods
quot :: a -> a -> a infixl 7 #
integer division truncated toward zero
integer remainder, satisfying
(x `quot` y)*y + (x `rem` y) == x
integer division truncated toward negative infinity
integer modulus, satisfying
(x `div` y)*y + (x `mod` y) == x
conversion to Integer
Instances
class Applicative m => Monad (m :: Type -> Type) where #
The Monad class defines the basic operations over a monad,
a concept from a branch of mathematics known as category theory.
From the perspective of a Haskell programmer, however, it is best to
think of a monad as an abstract datatype of actions.
Haskell's do expressions provide a convenient syntax for writing
monadic expressions.
Instances of Monad should satisfy the following:
- Left identity
returna>>=k = k a- Right identity
m>>=return= m- Associativity
m>>=(\x -> k x>>=h) = (m>>=k)>>=h
Furthermore, the Monad and Applicative operations should relate as follows:
The above laws imply:
and that pure and (<*>) satisfy the applicative functor laws.
The instances of Monad for lists, Maybe and IO
defined in the Prelude satisfy these laws.
Minimal complete definition
Methods
(>>=) :: m a -> (a -> m b) -> m b infixl 1 #
Sequentially compose two actions, passing any value produced by the first as an argument to the second.
'as ' can be understood as the >>= bsdo expression
do a <- as bs a
(>>) :: m a -> m b -> m b infixl 1 #
Sequentially compose two actions, discarding any value produced by the first, like sequencing operators (such as the semicolon) in imperative languages.
'as ' can be understood as the >> bsdo expression
do as bs
Inject a value into the monadic type.
Instances
| Monad [] | Since: base-2.1 |
| Monad Maybe | Since: base-2.1 |
| Monad IO | Since: base-2.1 |
| Monad Par1 | Since: base-4.9.0.0 |
| Monad Q | |
| Monad Solo | |
| Monad Rose | |
| Monad Gen | |
| Monad Complex | Since: base-4.9.0.0 |
| Monad Min | Since: base-4.9.0.0 |
| Monad Max | Since: base-4.9.0.0 |
| Monad First | Since: base-4.9.0.0 |
| Monad Last | Since: base-4.9.0.0 |
| Monad Option | Since: base-4.9.0.0 |
| Monad Identity | Since: base-4.8.0.0 |
| Monad STM | Since: base-4.3.0.0 |
| Monad First | Since: base-4.8.0.0 |
| Monad Last | Since: base-4.8.0.0 |
| Monad Dual | Since: base-4.8.0.0 |
| Monad Sum | Since: base-4.8.0.0 |
| Monad Product | Since: base-4.8.0.0 |
| Monad Down | Since: base-4.11.0.0 |
| Monad ReadPrec | Since: base-2.1 |
| Monad ReadP | Since: base-2.1 |
| Monad NonEmpty | Since: base-4.9.0.0 |
| Monad PutM | |
| Monad Get | |
| Monad Put | |
| Monad Tree | |
| Monad Seq | |
| Monad Vector | |
| Monad SmallArray | |
Defined in Data.Primitive.SmallArray Methods (>>=) :: SmallArray a -> (a -> SmallArray b) -> SmallArray b # (>>) :: SmallArray a -> SmallArray b -> SmallArray b # return :: a -> SmallArray a # | |
| Monad Array | |
| Monad PprM | |
| Monad Id | |
| Monad P | Since: base-2.1 |
| Monad SimOnly Source # | |
| Monad SimIO Source # | |
| () :=> (Monad ((->) a :: Type -> Type)) | |
Defined in Data.Constraint | |
| () :=> (Monad []) | |
Defined in Data.Constraint | |
| () :=> (Monad IO) | |
| () :=> (Monad (Either a)) | |
| () :=> (Monad Identity) | |
| Monad (Either e) | Since: base-4.4.0.0 |
| Monad (U1 :: Type -> Type) | Since: base-4.9.0.0 |
| Monoid a => Monad ((,) a) | Since: base-4.9.0.0 |
| Monad (ST s) | Since: base-2.1 |
| Representable f => Monad (Co f) | |
| Monad m => Monad (WrappedMonad m) | Since: base-4.7.0.0 |
Defined in Control.Applicative Methods (>>=) :: WrappedMonad m a -> (a -> WrappedMonad m b) -> WrappedMonad m b # (>>) :: WrappedMonad m a -> WrappedMonad m b -> WrappedMonad m b # return :: a -> WrappedMonad m a # | |
| ArrowApply a => Monad (ArrowMonad a) | Since: base-2.1 |
Defined in Control.Arrow Methods (>>=) :: ArrowMonad a a0 -> (a0 -> ArrowMonad a b) -> ArrowMonad a b # (>>) :: ArrowMonad a a0 -> ArrowMonad a b -> ArrowMonad a b # return :: a0 -> ArrowMonad a a0 # | |
| Monad (Proxy :: Type -> Type) | Since: base-4.7.0.0 |
| Monad m => Monad (MaybeT m) | |
| Monad (F f) | |
| Functor f => Monad (Free f) | |
| Alternative f => Monad (Cofree f) | |
| Monad m => Monad (Yoneda m) | |
| Monad (ReifiedGetter s) | |
Defined in Control.Lens.Reified Methods (>>=) :: ReifiedGetter s a -> (a -> ReifiedGetter s b) -> ReifiedGetter s b # (>>) :: ReifiedGetter s a -> ReifiedGetter s b -> ReifiedGetter s b # return :: a -> ReifiedGetter s a # | |
| Monad (ReifiedFold s) | |
Defined in Control.Lens.Reified Methods (>>=) :: ReifiedFold s a -> (a -> ReifiedFold s b) -> ReifiedFold s b # (>>) :: ReifiedFold s a -> ReifiedFold s b -> ReifiedFold s b # return :: a -> ReifiedFold s a # | |
| Semigroup a => Monad (These a) | |
| Semigroup a => Monad (These a) | |
| Class (Applicative f) (Monad f) | |
Defined in Data.Constraint Methods cls :: Monad f :- Applicative f # | |
| (Monad m) :=> (Functor (WrappedMonad m)) | |
Defined in Data.Constraint | |
| (Monad m) :=> (Applicative (WrappedMonad m)) | |
Defined in Data.Constraint Methods ins :: Monad m :- Applicative (WrappedMonad m) # | |
| Monad f => Monad (Rec1 f) | Since: base-4.9.0.0 |
| (Monoid a, Monoid b) => Monad ((,,) a b) | Since: base-4.14.0.0 |
| Monad m => Monad (Kleisli m a) | Since: base-4.14.0.0 |
| Monad f => Monad (Ap f) | Since: base-4.12.0.0 |
| Monad f => Monad (Alt f) | Since: base-4.8.0.0 |
| Monad m => Monad (IdentityT m) | |
| (Applicative f, Monad f) => Monad (WhenMissing f x) | Equivalent to Since: containers-0.5.9 |
Defined in Data.IntMap.Internal Methods (>>=) :: WhenMissing f x a -> (a -> WhenMissing f x b) -> WhenMissing f x b # (>>) :: WhenMissing f x a -> WhenMissing f x b -> WhenMissing f x b # return :: a -> WhenMissing f x a # | |
| Monad m => Monad (ExceptT e m) | |
| (Functor f, Monad m) => Monad (FreeT f m) | |
| (Alternative f, Monad w) => Monad (CofreeT f w) | |
| (Monad m, Error e) => Monad (ErrorT e m) | |
| Monad m => Monad (StateT s m) | |
| Monad (Tagged s) | |
| Monad (Indexed i a) | |
| Monad m => Monad (ReaderT r m) | |
| Monad m => Monad (StateT s m) | |
| (Monoid w, Monad m) => Monad (WriterT w m) | |
| (Monoid w, Monad m) => Monad (WriterT w m) | |
| (Monad (Rep p), Representable p) => Monad (Prep p) | |
| Monad m => Monad (Reverse m) | Derived instance. |
| (Monoid w, Functor m, Monad m) => Monad (AccumT w m) | |
| Monad m => Monad (SelectT r m) | |
| Class (Monad f, Alternative f) (MonadPlus f) | |
Defined in Data.Constraint | |
| Monad ((->) r :: Type -> Type) | Since: base-2.1 |
| (Monad f, Monad g) => Monad (f :*: g) | Since: base-4.9.0.0 |
| (Monoid a, Monoid b, Monoid c) => Monad ((,,,) a b c) | Since: base-4.14.0.0 |
| (Monad f, Monad g) => Monad (Product f g) | Since: base-4.9.0.0 |
| Monad (Cokleisli w a) | |
| (Monad f, Applicative f) => Monad (WhenMatched f x y) | Equivalent to Since: containers-0.5.9 |
Defined in Data.IntMap.Internal Methods (>>=) :: WhenMatched f x y a -> (a -> WhenMatched f x y b) -> WhenMatched f x y b # (>>) :: WhenMatched f x y a -> WhenMatched f x y b -> WhenMatched f x y b # return :: a -> WhenMatched f x y a # | |
| (Applicative f, Monad f) => Monad (WhenMissing f k x) | Equivalent to Since: containers-0.5.9 |
Defined in Data.Map.Internal Methods (>>=) :: WhenMissing f k x a -> (a -> WhenMissing f k x b) -> WhenMissing f k x b # (>>) :: WhenMissing f k x a -> WhenMissing f k x b -> WhenMissing f k x b # return :: a -> WhenMissing f k x a # | |
| Monad (ContT r m) | |
| Monad f => Monad (M1 i c f) | Since: base-4.9.0.0 |
| (Monad f, Applicative f) => Monad (WhenMatched f k x y) | Equivalent to Since: containers-0.5.9 |
Defined in Data.Map.Internal Methods (>>=) :: WhenMatched f k x y a -> (a -> WhenMatched f k x y b) -> WhenMatched f k x y b # (>>) :: WhenMatched f k x y a -> WhenMatched f k x y b -> WhenMatched f k x y b # return :: a -> WhenMatched f k x y a # | |
| (Monoid w, Monad m) => Monad (RWST r w s m) | |
| (Monoid w, Monad m) => Monad (RWST r w s m) | |
class Functor (f :: Type -> Type) where #
A type f is a Functor if it provides a function fmap which, given any types a and b
lets you apply any function from (a -> b) to turn an f a into an f b, preserving the
structure of f. Furthermore f needs to adhere to the following:
Note, that the second law follows from the free theorem of the type fmap and
the first law, so you need only check that the former condition holds.
Minimal complete definition
Methods
fmap :: (a -> b) -> f a -> f b #
Using ApplicativeDo: 'fmap f asdo expression
do a <- as pure (f a)
with an inferred Functor constraint.
Instances
Basic numeric class.
The Haskell Report defines no laws for Num. However, ( and +)( are
customarily expected to define a ring and have the following properties:*)
- Associativity of
(+) (x + y) + z=x + (y + z)- Commutativity of
(+) x + y=y + xfromInteger0x + fromInteger 0=xnegategives the additive inversex + negate x=fromInteger 0- Associativity of
(*) (x * y) * z=x * (y * z)fromInteger1x * fromInteger 1=xandfromInteger 1 * x=x- Distributivity of
(with respect to*)(+) a * (b + c)=(a * b) + (a * c)and(b + c) * a=(b * a) + (c * a)
Note that it isn't customarily expected that a type instance of both Num
and Ord implement an ordered ring. Indeed, in base only Integer and
Rational do.
Methods
Unary negation.
Absolute value.
Sign of a number.
The functions abs and signum should satisfy the law:
abs x * signum x == x
For real numbers, the signum is either -1 (negative), 0 (zero)
or 1 (positive).
fromInteger :: Integer -> a #
Conversion from an Integer.
An integer literal represents the application of the function
fromInteger to the appropriate value of type Integer,
so such literals have type (.Num a) => a
Instances
| Num Int | Since: base-2.1 |
| Num Int8 | Since: base-2.1 |
| Num Int16 | Since: base-2.1 |
| Num Int32 | Since: base-2.1 |
| Num Int64 | Since: base-2.1 |
| Num Integer | Since: base-2.1 |
| Num Natural | Note that Since: base-4.8.0.0 |
| Num Word | Since: base-2.1 |
| Num Word8 | Since: base-2.1 |
| Num Word16 | Since: base-2.1 |
| Num Word32 | Since: base-2.1 |
| Num Word64 | Since: base-2.1 |
| Num CDev | |
| Num CIno | |
| Num CMode | |
| Num COff | |
| Num CPid | |
| Num CSsize | |
| Num CGid | |
| Num CNlink | |
| Num CUid | |
| Num CCc | |
| Num CSpeed | |
| Num CTcflag | |
| Num CRLim | |
| Num CBlkSize | |
| Num CBlkCnt | |
| Num CClockId | |
| Num CFsBlkCnt | |
Defined in System.Posix.Types | |
| Num CFsFilCnt | |
Defined in System.Posix.Types | |
| Num CId | |
| Num CKey | |
| Num CSocklen | |
| Num CNfds | |
| Num Fd | |
| Num CChar | |
| Num CSChar | |
| Num CUChar | |
| Num CShort | |
| Num CUShort | |
| Num CInt | |
| Num CUInt | |
| Num CLong | |
| Num CULong | |
| Num CLLong | |
| Num CULLong | |
| Num CBool | |
| Num CFloat | |
| Num CDouble | |
| Num CPtrdiff | |
| Num CSize | |
| Num CWchar | |
| Num CSigAtomic | |
Defined in Foreign.C.Types Methods (+) :: CSigAtomic -> CSigAtomic -> CSigAtomic # (-) :: CSigAtomic -> CSigAtomic -> CSigAtomic # (*) :: CSigAtomic -> CSigAtomic -> CSigAtomic # negate :: CSigAtomic -> CSigAtomic # abs :: CSigAtomic -> CSigAtomic # signum :: CSigAtomic -> CSigAtomic # fromInteger :: Integer -> CSigAtomic # | |
| Num CClock | |
| Num CTime | |
| Num CUSeconds | |
Defined in Foreign.C.Types | |
| Num CSUSeconds | |
Defined in Foreign.C.Types Methods (+) :: CSUSeconds -> CSUSeconds -> CSUSeconds # (-) :: CSUSeconds -> CSUSeconds -> CSUSeconds # (*) :: CSUSeconds -> CSUSeconds -> CSUSeconds # negate :: CSUSeconds -> CSUSeconds # abs :: CSUSeconds -> CSUSeconds # signum :: CSUSeconds -> CSUSeconds # fromInteger :: Integer -> CSUSeconds # | |
| Num CIntPtr | |
| Num CUIntPtr | |
| Num CIntMax | |
| Num CUIntMax | |
| Num WordPtr | |
| Num IntPtr | |
| Num Half | |
| Num Bit Source # | |
| Class () (Num a) | |
Defined in Data.Constraint | |
| () :=> (Num Double) | |
| () :=> (Num Float) | |
| () :=> (Num Int) | |
| () :=> (Num Integer) | |
| () :=> (Num Natural) | |
| () :=> (Num Word) | |
| Integral a => Num (Ratio a) | Since: base-2.0.1 |
| RealFloat a => Num (Complex a) | Since: base-2.1 |
| Num a => Num (Min a) | Since: base-4.9.0.0 |
| Num a => Num (Max a) | Since: base-4.9.0.0 |
| Num a => Num (Identity a) | Since: base-4.9.0.0 |
Defined in Data.Functor.Identity | |
| Num a => Num (Sum a) | Since: base-4.7.0.0 |
| Num a => Num (Product a) | Since: base-4.7.0.0 |
Defined in Data.Semigroup.Internal | |
| Num a => Num (Down a) | Since: base-4.11.0.0 |
| KnownNat n => Num (BitVector n) Source # | NB: |
Defined in Clash.Sized.Internal.BitVector Methods (+) :: BitVector n -> BitVector n -> BitVector n # (-) :: BitVector n -> BitVector n -> BitVector n # (*) :: BitVector n -> BitVector n -> BitVector n # negate :: BitVector n -> BitVector n # abs :: BitVector n -> BitVector n # signum :: BitVector n -> BitVector n # fromInteger :: Integer -> BitVector n # | |
| KnownNat n => Num (Index n) Source # | Operators report an error on overflow and underflow NB: |
| KnownNat n => Num (Unsigned n) Source # | NB: |
Defined in Clash.Sized.Internal.Unsigned | |
| KnownNat n => Num (Signed n) Source # | Operators do NB: |
| (Bounded a, Ord a, SaturatingNum a) => Num (Zeroing a) Source # | |
Defined in Clash.Num.Zeroing | |
| SaturatingNum a => Num (Wrapping a) Source # | |
Defined in Clash.Num.Wrapping | |
| (Ord a, SaturatingNum a) => Num (Saturating a) Source # | |
Defined in Clash.Num.Saturating Methods (+) :: Saturating a -> Saturating a -> Saturating a # (-) :: Saturating a -> Saturating a -> Saturating a # (*) :: Saturating a -> Saturating a -> Saturating a # negate :: Saturating a -> Saturating a # abs :: Saturating a -> Saturating a # signum :: Saturating a -> Saturating a # fromInteger :: Integer -> Saturating a # | |
| (Bounded a, Ord a, SaturatingNum a) => Num (Overflowing a) Source # | |
Defined in Clash.Num.Overflowing Methods (+) :: Overflowing a -> Overflowing a -> Overflowing a # (-) :: Overflowing a -> Overflowing a -> Overflowing a # (*) :: Overflowing a -> Overflowing a -> Overflowing a # negate :: Overflowing a -> Overflowing a # abs :: Overflowing a -> Overflowing a # signum :: Overflowing a -> Overflowing a # fromInteger :: Integer -> Overflowing a # | |
| (Bounded a, Ord a, SaturatingNum a) => Num (Erroring a) Source # | |
Defined in Clash.Num.Erroring | |
| Class (Num a) (Fractional a) | |
Defined in Data.Constraint Methods cls :: Fractional a :- Num a # | |
| (Integral a) :=> (Num (Ratio a)) | |
| (Num a) :=> (Num (Identity a)) | |
| (Num a) :=> (Num (Const a b)) | |
| (RealFloat a) :=> (Num (Complex a)) | |
| Num a => Num (Op a b) | |
| HasResolution a => Num (Fixed a) | Since: base-2.1 |
| Num a => Num (Signal dom a) Source # | |
Defined in Clash.Signal.Internal Methods (+) :: Signal dom a -> Signal dom a -> Signal dom a # (-) :: Signal dom a -> Signal dom a -> Signal dom a # (*) :: Signal dom a -> Signal dom a -> Signal dom a # negate :: Signal dom a -> Signal dom a # abs :: Signal dom a -> Signal dom a # signum :: Signal dom a -> Signal dom a # fromInteger :: Integer -> Signal dom a # | |
| Class (Num a, Ord a) (Real a) | |
| Num a => Num (Const a b) | Since: base-4.9.0.0 |
Defined in Data.Functor.Const | |
| (Applicative f, Num a) => Num (Ap f a) | Since: base-4.12.0.0 |
| Num (f a) => Num (Alt f a) | Since: base-4.8.0.0 |
| Num a => Num (Tagged s a) | |
Defined in Data.Tagged | |
| Num a => Num (DSignal dom delay a) Source # | |
Defined in Clash.Signal.Delayed.Internal Methods (+) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # (-) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # (*) :: DSignal dom delay a -> DSignal dom delay a -> DSignal dom delay a # negate :: DSignal dom delay a -> DSignal dom delay a # abs :: DSignal dom delay a -> DSignal dom delay a # signum :: DSignal dom delay a -> DSignal dom delay a # fromInteger :: Integer -> DSignal dom delay a # | |
| NumFixedC rep int frac => Num (Fixed rep int frac) Source # | The operators of this instance saturate on overflow, and use truncation as the rounding method. When used in a polymorphic setting, use the following Constraint synonyms for less verbose type signatures:
|
Defined in Clash.Sized.Fixed Methods (+) :: Fixed rep int frac -> Fixed rep int frac -> Fixed rep int frac # (-) :: Fixed rep int frac -> Fixed rep int frac -> Fixed rep int frac # (*) :: Fixed rep int frac -> Fixed rep int frac -> Fixed rep int frac # negate :: Fixed rep int frac -> Fixed rep int frac # abs :: Fixed rep int frac -> Fixed rep int frac # signum :: Fixed rep int frac -> Fixed rep int frac # fromInteger :: Integer -> Fixed rep int frac # | |
The Ord class is used for totally ordered datatypes.
Instances of Ord can be derived for any user-defined datatype whose
constituent types are in Ord. The declared order of the constructors in
the data declaration determines the ordering in derived Ord instances. The
Ordering datatype allows a single comparison to determine the precise
ordering of two objects.
The Haskell Report defines no laws for Ord. However, <= is customarily
expected to implement a non-strict partial order and have the following
properties:
- Transitivity
- if
x <= y && y <= z=True, thenx <= z=True - Reflexivity
x <= x=True- Antisymmetry
- if
x <= y && y <= x=True, thenx == y=True
Note that the following operator interactions are expected to hold:
x >= y=y <= xx < y=x <= y && x /= yx > y=y < xx < y=compare x y == LTx > y=compare x y == GTx == y=compare x y == EQmin x y == if x <= y then x else y=Truemax x y == if x >= y then x else y=True
Note that (7.) and (8.) do not require min and max to return either of
their arguments. The result is merely required to equal one of the
arguments in terms of (==).
Minimal complete definition: either compare or <=.
Using compare can be more efficient for complex types.
Methods
compare :: a -> a -> Ordering #
(<) :: a -> a -> Bool infix 4 #
(<=) :: a -> a -> Bool infix 4 #
(>) :: a -> a -> Bool infix 4 #
Instances
Parsing of Strings, producing values.
Derived instances of Read make the following assumptions, which
derived instances of Show obey:
- If the constructor is defined to be an infix operator, then the
derived
Readinstance will parse only infix applications of the constructor (not the prefix form). - Associativity is not used to reduce the occurrence of parentheses, although precedence may be.
- If the constructor is defined using record syntax, the derived
Readwill parse only the record-syntax form, and furthermore, the fields must be given in the same order as the original declaration. - The derived
Readinstance allows arbitrary Haskell whitespace between tokens of the input string. Extra parentheses are also allowed.
For example, given the declarations
infixr 5 :^: data Tree a = Leaf a | Tree a :^: Tree a
the derived instance of Read in Haskell 2010 is equivalent to
instance (Read a) => Read (Tree a) where
readsPrec d r = readParen (d > app_prec)
(\r -> [(Leaf m,t) |
("Leaf",s) <- lex r,
(m,t) <- readsPrec (app_prec+1) s]) r
++ readParen (d > up_prec)
(\r -> [(u:^:v,w) |
(u,s) <- readsPrec (up_prec+1) r,
(":^:",t) <- lex s,
(v,w) <- readsPrec (up_prec+1) t]) r
where app_prec = 10
up_prec = 5Note that right-associativity of :^: is unused.
The derived instance in GHC is equivalent to
instance (Read a) => Read (Tree a) where
readPrec = parens $ (prec app_prec $ do
Ident "Leaf" <- lexP
m <- step readPrec
return (Leaf m))
+++ (prec up_prec $ do
u <- step readPrec
Symbol ":^:" <- lexP
v <- step readPrec
return (u :^: v))
where app_prec = 10
up_prec = 5
readListPrec = readListPrecDefaultWhy do both readsPrec and readPrec exist, and why does GHC opt to
implement readPrec in derived Read instances instead of readsPrec?
The reason is that readsPrec is based on the ReadS type, and although
ReadS is mentioned in the Haskell 2010 Report, it is not a very efficient
parser data structure.
readPrec, on the other hand, is based on a much more efficient ReadPrec
datatype (a.k.a "new-style parsers"), but its definition relies on the use
of the RankNTypes language extension. Therefore, readPrec (and its
cousin, readListPrec) are marked as GHC-only. Nevertheless, it is
recommended to use readPrec instead of readsPrec whenever possible
for the efficiency improvements it brings.
As mentioned above, derived Read instances in GHC will implement
readPrec instead of readsPrec. The default implementations of
readsPrec (and its cousin, readList) will simply use readPrec under
the hood. If you are writing a Read instance by hand, it is recommended
to write it like so:
instanceReadT wherereadPrec= ...readListPrec=readListPrecDefault
Methods
Arguments
| :: Int | the operator precedence of the enclosing
context (a number from |
| -> ReadS a |
attempts to parse a value from the front of the string, returning a list of (parsed value, remaining string) pairs. If there is no successful parse, the returned list is empty.
Derived instances of Read and Show satisfy the following:
That is, readsPrec parses the string produced by
showsPrec, and delivers the value that
showsPrec started with.
Instances
| Read Bool | Since: base-2.1 |
| Read Char | Since: base-2.1 |
| Read Double | Since: base-2.1 |
| Read Float | Since: base-2.1 |
| Read Int | Since: base-2.1 |
| Read Int8 | Since: base-2.1 |
| Read Int16 | Since: base-2.1 |
| Read Int32 | Since: base-2.1 |
| Read Int64 | Since: base-2.1 |
| Read Integer | Since: base-2.1 |
| Read Natural | Since: base-4.8.0.0 |
| Read Ordering | Since: base-2.1 |
| Read Word | Since: base-4.5.0.0 |
| Read Word8 | Since: base-2.1 |
| Read Word16 | Since: base-2.1 |
| Read Word32 | Since: base-2.1 |
| Read Word64 | Since: base-2.1 |
| Read () | Since: base-2.1 |
| Read Version | Since: base-2.1 |
| Read QCGen | |
| Read Void | Reading a Since: base-4.8.0.0 |
| Read CDev | |
| Read CIno | |
| Read CMode | |
| Read COff | |
| Read CPid | |
| Read CSsize | |
| Read CGid | |
| Read CNlink | |
| Read CUid | |
| Read CCc | |
| Read CSpeed | |
| Read CTcflag | |
| Read CRLim | |
| Read CBlkSize | |
| Read CBlkCnt | |
| Read CClockId | |
| Read CFsBlkCnt | |
| Read CFsFilCnt | |
| Read CId | |
| Read CKey | |
| Read CSocklen | |
| Read CNfds | |
| Read Fd | |
| Read ExitCode | |
| Read BufferMode | Since: base-4.2.0.0 |
Defined in GHC.IO.Handle.Types Methods readsPrec :: Int -> ReadS BufferMode # readList :: ReadS [BufferMode] # readPrec :: ReadPrec BufferMode # readListPrec :: ReadPrec [BufferMode] # | |
| Read Newline | Since: base-4.3.0.0 |
| Read NewlineMode | Since: base-4.3.0.0 |
Defined in GHC.IO.Handle.Types Methods readsPrec :: Int -> ReadS NewlineMode # readList :: ReadS [NewlineMode] # readPrec :: ReadPrec NewlineMode # readListPrec :: ReadPrec [NewlineMode] # | |
| Read SeekMode | Since: base-4.2.0.0 |
| Read All | Since: base-2.1 |
| Read Any | Since: base-2.1 |
| Read Fixity | Since: base-4.6.0.0 |
| Read Associativity | Since: base-4.6.0.0 |
Defined in GHC.Generics Methods readsPrec :: Int -> ReadS Associativity # readList :: ReadS [Associativity] # | |
| Read SourceUnpackedness | Since: base-4.9.0.0 |
Defined in GHC.Generics Methods readsPrec :: Int -> ReadS SourceUnpackedness # readList :: ReadS [SourceUnpackedness] # | |
| Read SourceStrictness | Since: base-4.9.0.0 |
Defined in GHC.Generics Methods readsPrec :: Int -> ReadS SourceStrictness # readList :: ReadS [SourceStrictness] # | |
| Read DecidedStrictness | Since: base-4.9.0.0 |
Defined in GHC.Generics Methods readsPrec :: Int -> ReadS DecidedStrictness # readList :: ReadS [DecidedStrictness] # | |
| Read SomeSymbol | Since: base-4.7.0.0 |
Defined in GHC.TypeLits Methods readsPrec :: Int -> ReadS SomeSymbol # readList :: ReadS [SomeSymbol] # readPrec :: ReadPrec SomeSymbol # readListPrec :: ReadPrec [SomeSymbol] # | |
| Read SomeNat | Since: base-4.7.0.0 |
| Read CChar | |
| Read CSChar | |
| Read CUChar | |
| Read CShort | |
| Read CUShort | |
| Read CInt | |
| Read CUInt | |
| Read CLong | |
| Read CULong | |
| Read CLLong | |
| Read CULLong | |
| Read CBool | |
| Read CFloat | |
| Read CDouble | |
| Read CPtrdiff | |
| Read CSize | |
| Read CWchar | |
| Read CSigAtomic | |
Defined in Foreign.C.Types Methods readsPrec :: Int -> ReadS CSigAtomic # readList :: ReadS [CSigAtomic] # readPrec :: ReadPrec CSigAtomic # readListPrec :: ReadPrec [CSigAtomic] # | |
| Read CClock | |
| Read CTime | |
| Read CUSeconds | |
| Read CSUSeconds | |
Defined in Foreign.C.Types Methods readsPrec :: Int -> ReadS CSUSeconds # readList :: ReadS [CSUSeconds] # readPrec :: ReadPrec CSUSeconds # readListPrec :: ReadPrec [CSUSeconds] # | |
| Read CIntPtr | |
| Read CUIntPtr | |
| Read CIntMax | |
| Read CUIntMax | |
| Read WordPtr | |
| Read IntPtr | |
| Read IOMode | Since: base-4.2.0.0 |
| Read Lexeme | Since: base-2.1 |
| Read GeneralCategory | Since: base-2.1 |
Defined in GHC.Read Methods readsPrec :: Int -> ReadS GeneralCategory # readList :: ReadS [GeneralCategory] # | |
| Read ByteString | |
Defined in Data.ByteString.Lazy.Internal Methods readsPrec :: Int -> ReadS ByteString # readList :: ReadS [ByteString] # readPrec :: ReadPrec ByteString # readListPrec :: ReadPrec [ByteString] # | |
| Read ByteString | |
Defined in Data.ByteString.Internal Methods readsPrec :: Int -> ReadS ByteString # readList :: ReadS [ByteString] # readPrec :: ReadPrec ByteString # readListPrec :: ReadPrec [ByteString] # | |
| Read ShortByteString | |
Defined in Data.ByteString.Short.Internal Methods readsPrec :: Int -> ReadS ShortByteString # readList :: ReadS [ShortByteString] # | |
| Read IntSet | |
| Read Half | |
| Read DatatypeVariant | |
Defined in Language.Haskell.TH.Datatype Methods readsPrec :: Int -> ReadS DatatypeVariant # readList :: ReadS [DatatypeVariant] # | |
| Read PrimitiveWarning Source # | |
Defined in Clash.Annotations.Primitive Methods readsPrec :: Int -> ReadS PrimitiveWarning # readList :: ReadS [PrimitiveWarning] # | |
| Read Primitive Source # | |
| Read HDL Source # | |
| Read VDomainConfiguration Source # | |
Defined in Clash.Signal.Internal Methods readsPrec :: Int -> ReadS VDomainConfiguration # readList :: ReadS [VDomainConfiguration] # | |
| Read InitBehavior Source # | |
Defined in Clash.Signal.Internal Methods readsPrec :: Int -> ReadS InitBehavior # readList :: ReadS [InitBehavior] # | |
| Read ResetPolarity Source # | |
Defined in Clash.Signal.Internal Methods readsPrec :: Int -> ReadS ResetPolarity # readList :: ReadS [ResetPolarity] # | |
| Read ResetKind Source # | |
| Read ActiveEdge Source # | |
Defined in Clash.Signal.Internal Methods readsPrec :: Int -> ReadS ActiveEdge # readList :: ReadS [ActiveEdge] # readPrec :: ReadPrec ActiveEdge # readListPrec :: ReadPrec [ActiveEdge] # | |
| Class () (Read a) | |
Defined in Data.Constraint | |
| a :=> (Read (Dict a)) | |
| () :=> (Read Bool) | |
| () :=> (Read Char) | |
| () :=> (Read Int) | |
| () :=> (Read Natural) | |
| () :=> (Read Ordering) | |
| () :=> (Read Word) | |
| () :=> (Read ()) | |
Defined in Data.Constraint | |
| Read a => Read [a] | Since: base-2.1 |
| Read a => Read (Maybe a) | Since: base-2.1 |
| (Integral a, Read a) => Read (Ratio a) | Since: base-2.1 |
| Read p => Read (Par1 p) | Since: base-4.7.0.0 |
| Read a => Read (Solo a) | |
| Read a => Read (Complex a) | Since: base-2.1 |
| Read a => Read (Min a) | Since: base-4.9.0.0 |
| Read a => Read (Max a) | Since: base-4.9.0.0 |
| Read a => Read (First a) | Since: base-4.9.0.0 |
| Read a => Read (Last a) | Since: base-4.9.0.0 |
| Read m => Read (WrappedMonoid m) | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods readsPrec :: Int -> ReadS (WrappedMonoid m) # readList :: ReadS [WrappedMonoid m] # readPrec :: ReadPrec (WrappedMonoid m) # readListPrec :: ReadPrec [WrappedMonoid m] # | |
| Read a => Read (Option a) | Since: base-4.9.0.0 |
| Read a => Read (ZipList a) | Since: base-4.7.0.0 |
| Read a => Read (Identity a) | This instance would be equivalent to the derived instances of the
Since: base-4.8.0.0 |
| Read a => Read (First a) | Since: base-2.1 |
| Read a => Read (Last a) | Since: base-2.1 |
| Read a => Read (Dual a) | Since: base-2.1 |
| Read a => Read (Sum a) | Since: base-2.1 |
| Read a => Read (Product a) | Since: base-2.1 |
| Read a => Read (Down a) | This instance would be equivalent to the derived instances of the
Since: base-4.7.0.0 |
| Read a => Read (NonEmpty a) | Since: base-4.11.0.0 |
| a => Read (Dict a) | |
| Read e => Read (IntMap e) | |
| Read a => Read (Tree a) | |
| Read a => Read (Seq a) | |
| Read a => Read (ViewL a) | |
| Read a => Read (ViewR a) | |
| (Read a, Ord a) => Read (Set a) | |
| Read1 f => Read (Fix f) | |
| (Functor f, Read1 f) => Read (Mu f) | |
| (Functor f, Read1 f) => Read (Nu f) | |
| (Read a, Prim a) => Read (Vector a) | |
| (Read a, Storable a) => Read (Vector a) | |
| (Eq a, Hashable a, Read a) => Read (HashSet a) | |
| Read a => Read (Vector a) | |
| Read a => Read (SmallArray a) | |
Defined in Data.Primitive.SmallArray Methods readsPrec :: Int -> ReadS (SmallArray a) # readList :: ReadS [SmallArray a] # readPrec :: ReadPrec (SmallArray a) # readListPrec :: ReadPrec [SmallArray a] # | |
| Read a => Read (Array a) | |
| Read a => Read (Maybe a) | |
| Read a => Read (PrimitiveGuard a) Source # | |
Defined in Clash.Annotations.Primitive Methods readsPrec :: Int -> ReadS (PrimitiveGuard a) # readList :: ReadS [PrimitiveGuard a] # readPrec :: ReadPrec (PrimitiveGuard a) # readListPrec :: ReadPrec [PrimitiveGuard a] # | |
| KnownNat n => Read (Index n) Source # | None of the |
| KnownNat n => Read (Unsigned n) Source # | None of the |
| KnownNat n => Read (Signed n) Source # | None of the |
| (Read a) :=> (Read (Complex a)) | |
| (Read a) :=> (Read [a]) | |
| (Read a) :=> (Read (Maybe a)) | |
| (Read a) :=> (Read (Identity a)) | |
| (Read a) :=> (Read (Const a b)) | |
| (Read a, Read b) => Read (Either a b) | Since: base-3.0 |
| Read (V1 p) | Since: base-4.9.0.0 |
| Read (U1 p) | Since: base-4.9.0.0 |
| (Read a, Read b) => Read (a, b) | Since: base-2.1 |
| (Ix ix, Read ix, Read e, IArray UArray e) => Read (UArray ix e) | |
| (Ix a, Read a, Read b) => Read (Array a b) | Since: base-2.1 |
| HasResolution a => Read (Fixed a) | Since: base-4.3.0.0 |
| (Read a, Read b) => Read (Arg a b) | Since: base-4.9.0.0 |
| Read (Proxy t) | Since: base-4.7.0.0 |
| (Ord k, Read k, Read e) => Read (Map k e) | |
| (Read1 m, Read a) => Read (MaybeT m a) | |
| (Read1 f, Read a) => Read (Free f a) | |
| (Read1 f, Read a) => Read (Cofree f a) | |
| (Functor f, Read (f a)) => Read (Yoneda f a) | |
| (Eq k, Hashable k, Read k, Read e) => Read (HashMap k e) | |
| (Read i, Read a) => Read (Level i a) | |
| (Read a, Read b) => Read (ListF a b) | |
| (Read a, Read b) => Read (NonEmptyF a b) | |
| (Read a, Read b) => Read (TreeF a b) | |
| (Read a, Read b) => Read (Pair a b) | |
| (Read a, Read b) => Read (These a b) | |
| (Read a, Read b) => Read (Either a b) | |
| (Read a, Read b) => Read (These a b) | |
| (Read1 f, Read a) => Read (Lift f a) | |
| (Integral a, Read a) :=> (Read (Ratio a)) | |
| (Read a, Read b) :=> (Read (a, b)) | |
| (Read a, Read b) :=> (Read (Either a b)) | |
| Read (f p) => Read (Rec1 f p) | Since: base-4.7.0.0 |
| (Read a, Read b, Read c) => Read (a, b, c) | Since: base-2.1 |
| Read a => Read (Const a b) | This instance would be equivalent to the derived instances of the
Since: base-4.8.0.0 |
| Read (f a) => Read (Ap f a) | Since: base-4.12.0.0 |
| Read (f a) => Read (Alt f a) | Since: base-4.8.0.0 |
| Coercible a b => Read (Coercion a b) | Since: base-4.7.0.0 |
| a ~ b => Read (a :~: b) | Since: base-4.7.0.0 |
| Read (p a a) => Read (Join p a) | |
| Read (p (Fix p a) a) => Read (Fix p a) | |
| (Read1 f, Read a) => Read (IdentityT f a) | |
| (Read e, Read1 m, Read a) => Read (ExceptT e m a) | |
| (Read a, Read (f b)) => Read (FreeF f a b) | |
| (Read1 f, Read1 m, Read a) => Read (FreeT f m a) | |
| (Read a, Read (f b)) => Read (CofreeF f a b) | |
| Read (w (CofreeF f a (CofreeT f w a))) => Read (CofreeT f w a) | |
| (Read e, Read1 m, Read a) => Read (ErrorT e m a) | |
| (Read1 f, Read a) => Read (Backwards f a) | |
| Read b => Read (Tagged s b) | |
| (Read w, Read1 m, Read a) => Read (WriterT w m a) | |
| (Read w, Read1 m, Read a) => Read (WriterT w m a) | |
| Read a => Read (Constant a b) | |
| (Read1 f, Read a) => Read (Reverse f a) | |
| (size ~ (int + frac), KnownNat frac, Bounded (rep size), Integral (rep size)) => Read (Fixed rep int frac) Source # | None of the |
| Read c => Read (K1 i c p) | Since: base-4.7.0.0 |
| (Read (f p), Read (g p)) => Read ((f :+: g) p) | Since: base-4.7.0.0 |
| (Read (f p), Read (g p)) => Read ((f :*: g) p) | Since: base-4.7.0.0 |
| (Read a, Read b, Read c, Read d) => Read (a, b, c, d) | Since: base-2.1 |
| (Read1 f, Read1 g, Read a) => Read (Product f g a) | Since: base-4.9.0.0 |
| (Read1 f, Read1 g, Read a) => Read (Sum f g a) | Since: base-4.9.0.0 |
| a ~~ b => Read (a :~~: b) | Since: base-4.10.0.0 |
| Read (f p) => Read (M1 i c f p) | Since: base-4.7.0.0 |
| Read (f (g p)) => Read ((f :.: g) p) | Since: base-4.7.0.0 |
| (Read a, Read b, Read c, Read d, Read e) => Read (a, b, c, d, e) | Since: base-2.1 |
| (Read1 f, Read1 g, Read a) => Read (Compose f g a) | Since: base-4.9.0.0 |
| Read (p a b) => Read (WrappedBifunctor p a b) | |
Defined in Data.Bifunctor.Wrapped Methods readsPrec :: Int -> ReadS (WrappedBifunctor p a b) # readList :: ReadS [WrappedBifunctor p a b] # readPrec :: ReadPrec (WrappedBifunctor p a b) # readListPrec :: ReadPrec [WrappedBifunctor p a b] # | |
| Read (g b) => Read (Joker g a b) | |
| Read (p b a) => Read (Flip p a b) | |
| Read (f a) => Read (Clown f a b) | |
| (Read a, Read b, Read c, Read d, Read e, Read f) => Read (a, b, c, d, e, f) | Since: base-2.1 |
| (Read (p a b), Read (q a b)) => Read (Sum p q a b) | |
| (Read (f a b), Read (g a b)) => Read (Product f g a b) | |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g) => Read (a, b, c, d, e, f, g) | Since: base-2.1 |
| Read (f (p a b)) => Read (Tannen f p a b) | |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h) => Read (a, b, c, d, e, f, g, h) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i) => Read (a, b, c, d, e, f, g, h, i) | Since: base-2.1 |
| Read (p (f a) (g b)) => Read (Biff p f g a b) | |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j) => Read (a, b, c, d, e, f, g, h, i, j) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k) => Read (a, b, c, d, e, f, g, h, i, j, k) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l) => Read (a, b, c, d, e, f, g, h, i, j, k, l) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m, Read n) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m, n) | Since: base-2.1 |
| (Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m, Read n, Read o) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m, n, o) | Since: base-2.1 |
Defined in GHC.Read | |
class (Num a, Ord a) => Real a where #
Methods
toRational :: a -> Rational #
the rational equivalent of its real argument with full precision
Instances
class (RealFrac a, Floating a) => RealFloat a where #
Efficient, machine-independent access to the components of a floating-point number.
Minimal complete definition
floatRadix, floatDigits, floatRange, decodeFloat, encodeFloat, isNaN, isInfinite, isDenormalized, isNegativeZero, isIEEE
Methods
floatRadix :: a -> Integer #
a constant function, returning the radix of the representation
(often 2)
floatDigits :: a -> Int #
a constant function, returning the number of digits of
floatRadix in the significand
floatRange :: a -> (Int, Int) #
a constant function, returning the lowest and highest values the exponent may assume
decodeFloat :: a -> (Integer, Int) #
The function decodeFloat applied to a real floating-point
number returns the significand expressed as an Integer and an
appropriately scaled exponent (an Int). If decodeFloat x(m,n), then x is equal in value to m*b^^n, where b
is the floating-point radix, and furthermore, either m and n
are both zero or else b^(d-1) <= , where abs m < b^dd is
the value of floatDigits xdecodeFloat 0 = (0,0)decodeFloat (-0.0) = (0,0)decodeFloat xisNaN xisInfinite xTrue.
encodeFloat :: Integer -> Int -> a #
encodeFloat performs the inverse of decodeFloat in the
sense that for finite x with the exception of -0.0,
uncurry encodeFloat (decodeFloat x) = xencodeFloat m nm*b^^n (or ±Infinity if overflow
occurs); usually the closer, but if m contains too many bits,
the result may be rounded in the wrong direction.
exponent corresponds to the second component of decodeFloat.
exponent 0 = 0x,
exponent x = snd (decodeFloat x) + floatDigits xx is a finite floating-point number, it is equal in value to
significand x * b ^^ exponent xb is the
floating-point radix.
The behaviour is unspecified on infinite or NaN values.
significand :: a -> a #
The first component of decodeFloat, scaled to lie in the open
interval (-1,1), either 0.0 or of absolute value >= 1/b,
where b is the floating-point radix.
The behaviour is unspecified on infinite or NaN values.
scaleFloat :: Int -> a -> a #
multiplies a floating-point number by an integer power of the radix
True if the argument is an IEEE "not-a-number" (NaN) value
isInfinite :: a -> Bool #
True if the argument is an IEEE infinity or negative infinity
isDenormalized :: a -> Bool #
True if the argument is too small to be represented in
normalized format
isNegativeZero :: a -> Bool #
True if the argument is an IEEE negative zero
True if the argument is an IEEE floating point number
a version of arctangent taking two real floating-point arguments.
For real floating x and y, atan2 y x(x,y). atan2 y x-pi,
pi]. It follows the Common Lisp semantics for the origin when
signed zeroes are supported. atan2 y 1y in a type
that is RealFloat, should return the same value as atan yatan2 is provided, but implementors
can provide a more accurate implementation.
Instances
class (Real a, Fractional a) => RealFrac a where #
Extracting components of fractions.
Minimal complete definition
Methods
properFraction :: Integral b => a -> (b, a) #
The function properFraction takes a real fractional number x
and returns a pair (n,f) such that x = n+f, and:
nis an integral number with the same sign asx; andfis a fraction with the same type and sign asx, and with absolute value less than1.
The default definitions of the ceiling, floor, truncate
and round functions are in terms of properFraction.
truncate :: Integral b => a -> b #
truncate xx between zero and x
round :: Integral b => a -> b #
round xx;
the even integer if x is equidistant between two integers
ceiling :: Integral b => a -> b #
ceiling xx
floor :: Integral b => a -> b #
floor xx
Instances
Conversion of values to readable Strings.
Derived instances of Show have the following properties, which
are compatible with derived instances of Read:
- The result of
showis a syntactically correct Haskell expression containing only constants, given the fixity declarations in force at the point where the type is declared. It contains only the constructor names defined in the data type, parentheses, and spaces. When labelled constructor fields are used, braces, commas, field names, and equal signs are also used. - If the constructor is defined to be an infix operator, then
showsPrecwill produce infix applications of the constructor. - the representation will be enclosed in parentheses if the
precedence of the top-level constructor in
xis less thand(associativity is ignored). Thus, ifdis0then the result is never surrounded in parentheses; ifdis11it is always surrounded in parentheses, unless it is an atomic expression. - If the constructor is defined using record syntax, then
showwill produce the record-syntax form, with the fields given in the same order as the original declaration.
For example, given the declarations
infixr 5 :^: data Tree a = Leaf a | Tree a :^: Tree a
the derived instance of Show is equivalent to
instance (Show a) => Show (Tree a) where
showsPrec d (Leaf m) = showParen (d > app_prec) $
showString "Leaf " . showsPrec (app_prec+1) m
where app_prec = 10
showsPrec d (u :^: v) = showParen (d > up_prec) $
showsPrec (up_prec+1) u .
showString " :^: " .
showsPrec (up_prec+1) v
where up_prec = 5Note that right-associativity of :^: is ignored. For example,
show(Leaf 1 :^: Leaf 2 :^: Leaf 3)"Leaf 1 :^: (Leaf 2 :^: Leaf 3)".
Methods
Arguments
| :: Int | the operator precedence of the enclosing
context (a number from |
| -> a | the value to be converted to a |
| -> ShowS |
Convert a value to a readable String.
showsPrec should satisfy the law
showsPrec d x r ++ s == showsPrec d x (r ++ s)
Derived instances of Read and Show satisfy the following:
That is, readsPrec parses the string produced by
showsPrec, and delivers the value that showsPrec started with.
Instances
class Monad m => MonadFail (m :: Type -> Type) where #
When a value is bound in do-notation, the pattern on the left
hand side of <- might not match. In this case, this class
provides a function to recover.
A Monad without a MonadFail instance may only be used in conjunction
with pattern that always match, such as newtypes, tuples, data types with
only a single data constructor, and irrefutable patterns (~pat).
Instances of MonadFail should satisfy the following law: fail s should
be a left zero for >>=,
fail s >>= f = fail s
If your Monad is also MonadPlus, a popular definition is
fail _ = mzero
Since: base-4.9.0.0
Instances
class Functor f => Applicative (f :: Type -> Type) where #
A functor with application, providing operations to
A minimal complete definition must include implementations of pure
and of either <*> or liftA2. If it defines both, then they must behave
the same as their default definitions:
(<*>) =liftA2id
liftA2f x y = f<$>x<*>y
Further, any definition must satisfy the following:
- Identity
pureid<*>v = v- Composition
pure(.)<*>u<*>v<*>w = u<*>(v<*>w)- Homomorphism
puref<*>purex =pure(f x)- Interchange
u
<*>purey =pure($y)<*>u
The other methods have the following default definitions, which may be overridden with equivalent specialized implementations:
As a consequence of these laws, the Functor instance for f will satisfy
It may be useful to note that supposing
forall x y. p (q x y) = f x . g y
it follows from the above that
liftA2p (liftA2q u v) =liftA2f u .liftA2g v
If f is also a Monad, it should satisfy
(which implies that pure and <*> satisfy the applicative functor laws).
Methods
Lift a value.
(<*>) :: f (a -> b) -> f a -> f b infixl 4 #
Sequential application.
A few functors support an implementation of <*> that is more
efficient than the default one.
Using ApplicativeDo: 'fs ' can be understood as
the <*> asdo expression
do f <- fs a <- as pure (f a)
(*>) :: f a -> f b -> f b infixl 4 #
Sequence actions, discarding the value of the first argument.
'as ' can be understood as the *> bsdo expression
do as bs
This is a tad complicated for our ApplicativeDo extension
which will give it a Monad constraint. For an Applicative
constraint we write it of the form
do _ <- as b <- bs pure b
(<*) :: f a -> f b -> f a infixl 4 #
Sequence actions, discarding the value of the second argument.
Using ApplicativeDo: 'as ' can be understood as
the <* bsdo expression
do a <- as bs pure a
Instances
| Applicative [] | Since: base-2.1 |
| Applicative Maybe | Since: base-2.1 |
| Applicative IO | Since: base-2.1 |
| Applicative Par1 | Since: base-4.9.0.0 |
| Applicative Q | |
| Applicative Solo | |
| Applicative Rose | |
| Applicative Gen | |
| Applicative Complex | Since: base-4.9.0.0 |
| Applicative Min | Since: base-4.9.0.0 |
| Applicative Max | Since: base-4.9.0.0 |
| Applicative First | Since: base-4.9.0.0 |
| Applicative Last | Since: base-4.9.0.0 |
| Applicative Option | Since: base-4.9.0.0 |
| Applicative ZipList | f <$> ZipList xs1 <*> ... <*> ZipList xsN
= ZipList (zipWithN f xs1 ... xsN)where (\a b c -> stimes c [a, b]) <$> ZipList "abcd" <*> ZipList "567" <*> ZipList [1..]
= ZipList (zipWith3 (\a b c -> stimes c [a, b]) "abcd" "567" [1..])
= ZipList {getZipList = ["a5","b6b6","c7c7c7"]}Since: base-2.1 |
| Applicative Identity | Since: base-4.8.0.0 |
| Applicative STM | Since: base-4.8.0.0 |
| Applicative First | Since: base-4.8.0.0 |
| Applicative Last | Since: base-4.8.0.0 |
| Applicative Dual | Since: base-4.8.0.0 |
| Applicative Sum | Since: base-4.8.0.0 |
| Applicative Product | Since: base-4.8.0.0 |
| Applicative Down | Since: base-4.11.0.0 |
| Applicative ReadPrec | Since: base-4.6.0.0 |
| Applicative ReadP | Since: base-4.6.0.0 |
| Applicative NonEmpty | Since: base-4.9.0.0 |
| Applicative PutM | |
| Applicative Get | |
| Applicative Put | |
| Applicative Tree | |
| Applicative Seq | Since: containers-0.5.4 |
| Applicative Vector | |
| Applicative SmallArray | |
Defined in Data.Primitive.SmallArray Methods pure :: a -> SmallArray a # (<*>) :: SmallArray (a -> b) -> SmallArray a -> SmallArray b # liftA2 :: (a -> b -> c) -> SmallArray a -> SmallArray b -> SmallArray c # (*>) :: SmallArray a -> SmallArray b -> SmallArray b # (<*) :: SmallArray a -> SmallArray b -> SmallArray a # | |
| Applicative Array | |
| Applicative PprM | |
| Applicative Id | |
| Applicative P | Since: base-4.5.0.0 |
| Applicative SimOnly Source # | |
| Applicative MaybeX Source # | Note that |
| Applicative SimIO Source # | |
| () :=> (Applicative ((->) a :: Type -> Type)) | |
Defined in Data.Constraint Methods ins :: () :- Applicative ((->) a) # | |
| () :=> (Applicative []) | |
Defined in Data.Constraint Methods ins :: () :- Applicative [] # | |
| () :=> (Applicative Maybe) | |
Defined in Data.Constraint Methods ins :: () :- Applicative Maybe # | |
| () :=> (Applicative IO) | |
Defined in Data.Constraint Methods ins :: () :- Applicative IO # | |
| () :=> (Applicative (Either a)) | |
Defined in Data.Constraint Methods ins :: () :- Applicative (Either a) # | |
| Applicative (Either e) | Since: base-3.0 |
| Applicative (U1 :: Type -> Type) | Since: base-4.9.0.0 |
| Monoid a => Applicative ((,) a) | For tuples, the ("hello ", (+15)) <*> ("world!", 2002)
("hello world!",2017)Since: base-2.1 |
| Applicative (ST s) | Since: base-4.4.0.0 |
| Representable f => Applicative (Co f) | |
| Monad m => Applicative (WrappedMonad m) | Since: base-2.1 |
Defined in Control.Applicative Methods pure :: a -> WrappedMonad m a # (<*>) :: WrappedMonad m (a -> b) -> WrappedMonad m a -> WrappedMonad m b # liftA2 :: (a -> b -> c) -> WrappedMonad m a -> WrappedMonad m b -> WrappedMonad m c # (*>) :: WrappedMonad m a -> WrappedMonad m b -> WrappedMonad m b # (<*) :: WrappedMonad m a -> WrappedMonad m b -> WrappedMonad m a # | |
| Arrow a => Applicative (ArrowMonad a) | Since: base-4.6.0.0 |
Defined in Control.Arrow Methods pure :: a0 -> ArrowMonad a a0 # (<*>) :: ArrowMonad a (a0 -> b) -> ArrowMonad a a0 -> ArrowMonad a b # liftA2 :: (a0 -> b -> c) -> ArrowMonad a a0 -> ArrowMonad a b -> ArrowMonad a c # (*>) :: ArrowMonad a a0 -> ArrowMonad a b -> ArrowMonad a b # (<*) :: ArrowMonad a a0 -> ArrowMonad a b -> ArrowMonad a a0 # | |
| Applicative (Proxy :: Type -> Type) | Since: base-4.7.0.0 |
| (Functor m, Monad m) => Applicative (MaybeT m) | |
| Applicative (F f) | |
| Functor f => Applicative (Free f) | |
| Alternative f => Applicative (Cofree f) | |
| Applicative f => Applicative (Yoneda f) | |
| Applicative (ReifiedGetter s) | |
Defined in Control.Lens.Reified Methods pure :: a -> ReifiedGetter s a # (<*>) :: ReifiedGetter s (a -> b) -> ReifiedGetter s a -> ReifiedGetter s b # liftA2 :: (a -> b -> c) -> ReifiedGetter s a -> ReifiedGetter s b -> ReifiedGetter s c # (*>) :: ReifiedGetter s a -> ReifiedGetter s b -> ReifiedGetter s b # (<*) :: ReifiedGetter s a -> ReifiedGetter s b -> ReifiedGetter s a # | |
| Applicative (ReifiedFold s) | |
Defined in Control.Lens.Reified Methods pure :: a -> ReifiedFold s a # (<*>) :: ReifiedFold s (a -> b) -> ReifiedFold s a -> ReifiedFold s b # liftA2 :: (a -> b -> c) -> ReifiedFold s a -> ReifiedFold s b -> ReifiedFold s c # (*>) :: ReifiedFold s a -> ReifiedFold s b -> ReifiedFold s b # (<*) :: ReifiedFold s a -> ReifiedFold s b -> ReifiedFold s a # | |
| Applicative f => Applicative (Indexing f) | |
Defined in Control.Lens.Internal.Indexed | |
| Applicative f => Applicative (Indexing64 f) | |
Defined in Control.Lens.Internal.Indexed Methods pure :: a -> Indexing64 f a # (<*>) :: Indexing64 f (a -> b) -> Indexing64 f a -> Indexing64 f b # liftA2 :: (a -> b -> c) -> Indexing64 f a -> Indexing64 f b -> Indexing64 f c # (*>) :: Indexing64 f a -> Indexing64 f b -> Indexing64 f b # (<*) :: Indexing64 f a -> Indexing64 f b -> Indexing64 f a # | |
| Semigroup a => Applicative (These a) | |
| Semigroup a => Applicative (These a) | |
| Applicative f => Applicative (Lift f) | A combination is |
| KnownNat n => Applicative (Vec n) Source # | |
| Applicative (Signal dom) Source # | |
Defined in Clash.Signal.Internal | |
| KnownNat d => Applicative (RTree d) Source # | |
| Class (Functor f) (Applicative f) | |
Defined in Data.Constraint Methods cls :: Applicative f :- Functor f # | |
| Class (Applicative f) (Monad f) | |
Defined in Data.Constraint Methods cls :: Monad f :- Applicative f # | |
| Class (Applicative f) (Alternative f) | |
Defined in Data.Constraint Methods cls :: Alternative f :- Applicative f # | |
| (Monad m) :=> (Applicative (WrappedMonad m)) | |
Defined in Data.Constraint Methods ins :: Monad m :- Applicative (WrappedMonad m) # | |
| (Monoid a) :=> (Applicative ((,) a)) | |
Defined in Data.Constraint | |
| (Monoid a) :=> (Applicative (Const a :: Type -> Type)) | |
Defined in Data.Constraint | |
| Applicative f => Applicative (Rec1 f) | Since: base-4.9.0.0 |
| (Monoid a, Monoid b) => Applicative ((,,) a b) | Since: base-4.14.0.0 |
| Applicative m => Applicative (Kleisli m a) | Since: base-4.14.0.0 |
Defined in Control.Arrow | |
| Arrow a => Applicative (Automaton a b) | |
Defined in Control.Arrow.Transformer.Automaton Methods pure :: a0 -> Automaton a b a0 # (<*>) :: Automaton a b (a0 -> b0) -> Automaton a b a0 -> Automaton a b b0 # liftA2 :: (a0 -> b0 -> c) -> Automaton a b a0 -> Automaton a b b0 -> Automaton a b c # (*>) :: Automaton a b a0 -> Automaton a b b0 -> Automaton a b b0 # (<*) :: Automaton a b a0 -> Automaton a b b0 -> Automaton a b a0 # | |
| Arrow a => Applicative (WrappedArrow a b) | Since: base-2.1 |
Defined in Control.Applicative Methods pure :: a0 -> WrappedArrow a b a0 # (<*>) :: WrappedArrow a b (a0 -> b0) -> WrappedArrow a b a0 -> WrappedArrow a b b0 # liftA2 :: (a0 -> b0 -> c) -> WrappedArrow a b a0 -> WrappedArrow a b b0 -> WrappedArrow a b c # (*>) :: WrappedArrow a b a0 -> WrappedArrow a b b0 -> WrappedArrow a b b0 # (<*) :: WrappedArrow a b a0 -> WrappedArrow a b b0 -> WrappedArrow a b a0 # | |
| Monoid m => Applicative (Const m :: Type -> Type) | Since: base-2.0.1 |
| Applicative f => Applicative (Ap f) | Since: base-4.12.0.0 |
| Applicative f => Applicative (Alt f) | Since: base-4.8.0.0 |
| Biapplicative p => Applicative (Join p) | |
| Biapplicative p => Applicative (Fix p) | |
| (Monoid e, Applicative m) => Applicative (EnvT e m) | |
| Applicative m => Applicative (IdentityT m) | |
Defined in Control.Monad.Trans.Identity | |
| (Applicative f, Monad f) => Applicative (WhenMissing f x) | Equivalent to Since: containers-0.5.9 |
Defined in Data.IntMap.Internal Methods pure :: a -> WhenMissing f x a # (<*>) :: WhenMissing f x (a -> b) -> WhenMissing f x a -> WhenMissing f x b # liftA2 :: (a -> b -> c) -> WhenMissing f x a -> WhenMissing f x b -> WhenMissing f x c # (*>) :: WhenMissing f x a -> WhenMissing f x b -> WhenMissing f x b # (<*) :: WhenMissing f x a -> WhenMissing f x b -> WhenMissing f x a # | |
| (Functor m, Monad m) => Applicative (ExceptT e m) | |
Defined in Control.Monad.Trans.Except | |
| (Functor f, Monad m) => Applicative (FreeT f m) | |
Defined in Control.Monad.Trans.Free | |
| (Alternative f, Applicative w) => Applicative (CofreeT f w) | |
Defined in Control.Comonad.Trans.Cofree | |
| Applicative f => Applicative (Indexing f) | |
| (Applicative f, Applicative g) => Applicative (Day f g) | |
| (Functor m, Monad m) => Applicative (ErrorT e m) | |
Defined in Control.Monad.Trans.Error | |
| (Functor m, Monad m) => Applicative (StateT s m) | |
Defined in Control.Monad.Trans.State.Strict | |
| Applicative f => Applicative (Backwards f) | Apply |
Defined in Control.Applicative.Backwards | |
| Applicative (Tagged s) | |
| Applicative (Mafic a b) | |
Defined in Control.Lens.Internal.Magma | |
| Applicative (Indexed i a) | |
Defined in Control.Lens.Internal.Indexed | |
| Applicative (Flows i b) | This is an illegal |
Defined in Control.Lens.Internal.Level | |
| Applicative m => Applicative (ReaderT r m) | |
Defined in Control.Monad.Trans.Reader | |
| (Functor m, Monad m) => Applicative (StateT s m) | |
Defined in Control.Monad.Trans.State.Lazy | |
| (Monoid w, Applicative m) => Applicative (WriterT w m) | |
Defined in Control.Monad.Trans.Writer.Lazy | |
| (Monoid w, Applicative m) => Applicative (WriterT w m) | |
Defined in Control.Monad.Trans.Writer.Strict | |
| (Applicative (Rep p), Representable p) => Applicative (Prep p) | |
| Monoid a => Applicative (Constant a :: Type -> Type) | |
Defined in Data.Functor.Constant | |
| Applicative f => Applicative (Reverse f) | Derived instance. |
| (Monoid w, Functor m, Monad m) => Applicative (AccumT w m) | |
Defined in Control.Monad.Trans.Accum | |
| (Functor m, Monad m) => Applicative (SelectT r m) | |
Defined in Control.Monad.Trans.Select | |
| Applicative (DSignal dom delay) Source # | |
Defined in Clash.Signal.Delayed.Internal Methods pure :: a -> DSignal dom delay a # (<*>) :: DSignal dom delay (a -> b) -> DSignal dom delay a -> DSignal dom delay b # liftA2 :: (a -> b -> c) -> DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay c # (*>) :: DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay b # (<*) :: DSignal dom delay a -> DSignal dom delay b -> DSignal dom delay a # | |
| Applicative (Mag a b) | |
| Monoid m => Applicative (Holes t m) | |
| Applicative ((->) r :: Type -> Type) | Since: base-2.1 |
| Monoid c => Applicative (K1 i c :: Type -> Type) | Since: base-4.12.0.0 |
| (Applicative f, Applicative g) => Applicative (f :*: g) | Since: base-4.9.0.0 |
| (Monoid a, Monoid b, Monoid c) => Applicative ((,,,) a b c) | Since: base-4.14.0.0 |
Defined in GHC.Base | |
| (Applicative f, Applicative g) => Applicative (Product f g) | Since: base-4.9.0.0 |
Defined in Data.Functor.Product | |
| Applicative (Cokleisli w a) | |
Defined in Control.Comonad Methods pure :: a0 -> Cokleisli w a a0 # (<*>) :: Cokleisli w a (a0 -> b) -> Cokleisli w a a0 -> Cokleisli w a b # liftA2 :: (a0 -> b -> c) -> Cokleisli w a a0 -> Cokleisli w a b -> Cokleisli w a c # (*>) :: Cokleisli w a a0 -> Cokleisli w a b -> Cokleisli w a b # (<*) :: Cokleisli w a a0 -> Cokleisli w a b -> Cokleisli w a a0 # | |
| (Monad f, Applicative f) => Applicative (WhenMatched f x y) | Equivalent to Since: containers-0.5.9 |
Defined in Data.IntMap.Internal Methods pure :: a -> WhenMatched f x y a # (<*>) :: WhenMatched f x y (a -> b) -> WhenMatched f x y a -> WhenMatched f x y b # liftA2 :: (a -> b -> c) -> WhenMatched f x y a -> WhenMatched f x y b -> WhenMatched f x y c # (*>) :: WhenMatched f x y a -> WhenMatched f x y b -> WhenMatched f x y b # (<*) :: WhenMatched f x y a -> WhenMatched f x y b -> WhenMatched f x y a # | |
| (Applicative f, Monad f) => Applicative (WhenMissing f k x) | Equivalent to Since: containers-0.5.9 |
Defined in Data.Map.Internal Methods pure :: a -> WhenMissing f k x a # (<*>) :: WhenMissing f k x (a -> b) -> WhenMissing f k x a -> WhenMissing f k x b # liftA2 :: (a -> b -> c) -> WhenMissing f k x a -> WhenMissing f k x b -> WhenMissing f k x c # (*>) :: WhenMissing f k x a -> WhenMissing f k x b -> WhenMissing f k x b # (<*) :: WhenMissing f k x a -> WhenMissing f k x b -> WhenMissing f k x a # | |
| Applicative (Molten i a b) | |
Defined in Control.Lens.Internal.Magma Methods pure :: a0 -> Molten i a b a0 # (<*>) :: Molten i a b (a0 -> b0) -> Molten i a b a0 -> Molten i a b b0 # liftA2 :: (a0 -> b0 -> c) -> Molten i a b a0 -> Molten i a b b0 -> Molten i a b c # (*>) :: Molten i a b a0 -> Molten i a b b0 -> Molten i a b b0 # (<*) :: Molten i a b a0 -> Molten i a b b0 -> Molten i a b a0 # | |
| Applicative (Bazaar p a b) | |
Defined in Control.Lens.Internal.Bazaar Methods pure :: a0 -> Bazaar p a b a0 # (<*>) :: Bazaar p a b (a0 -> b0) -> Bazaar p a b a0 -> Bazaar p a b b0 # liftA2 :: (a0 -> b0 -> c) -> Bazaar p a b a0 -> Bazaar p a b b0 -> Bazaar p a b c # (*>) :: Bazaar p a b a0 -> Bazaar p a b b0 -> Bazaar p a b b0 # (<*) :: Bazaar p a b a0 -> Bazaar p a b b0 -> Bazaar p a b a0 # | |
| Applicative (ContT r m) | |
Defined in Control.Monad.Trans.Cont | |
| Applicative f => Applicative (M1 i c f) | Since: base-4.9.0.0 |
| (Applicative f, Applicative g) => Applicative (f :.: g) | Since: base-4.9.0.0 |
| (Applicative f, Applicative g) => Applicative (Compose f g) | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose | |
| (Monad f, Applicative f) => Applicative (WhenMatched f k x y) | Equivalent to Since: containers-0.5.9 |
Defined in Data.Map.Internal Methods pure :: a -> WhenMatched f k x y a # (<*>) :: WhenMatched f k x y (a -> b) -> WhenMatched f k x y a -> WhenMatched f k x y b # liftA2 :: (a -> b -> c) -> WhenMatched f k x y a -> WhenMatched f k x y b -> WhenMatched f k x y c # (*>) :: WhenMatched f k x y a -> WhenMatched f k x y b -> WhenMatched f k x y b # (<*) :: WhenMatched f k x y a -> WhenMatched f k x y b -> WhenMatched f k x y a # | |
| (Monoid w, Functor m, Monad m) => Applicative (RWST r w s m) | |
Defined in Control.Monad.Trans.RWS.Strict | |
| Applicative (TakingWhile p f a b) | |
Defined in Control.Lens.Internal.Magma Methods pure :: a0 -> TakingWhile p f a b a0 # (<*>) :: TakingWhile p f a b (a0 -> b0) -> TakingWhile p f a b a0 -> TakingWhile p f a b b0 # liftA2 :: (a0 -> b0 -> c) -> TakingWhile p f a b a0 -> TakingWhile p f a b b0 -> TakingWhile p f a b c # (*>) :: TakingWhile p f a b a0 -> TakingWhile p f a b b0 -> TakingWhile p f a b b0 # (<*) :: TakingWhile p f a b a0 -> TakingWhile p f a b b0 -> TakingWhile p f a b a0 # | |
| Applicative (BazaarT p g a b) | |
Defined in Control.Lens.Internal.Bazaar Methods pure :: a0 -> BazaarT p g a b a0 # (<*>) :: BazaarT p g a b (a0 -> b0) -> BazaarT p g a b a0 -> BazaarT p g a b b0 # liftA2 :: (a0 -> b0 -> c) -> BazaarT p g a b a0 -> BazaarT p g a b b0 -> BazaarT p g a b c # (*>) :: BazaarT p g a b a0 -> BazaarT p g a b b0 -> BazaarT p g a b b0 # (<*) :: BazaarT p g a b a0 -> BazaarT p g a b b0 -> BazaarT p g a b a0 # | |
| (Monoid w, Functor m, Monad m) => Applicative (RWST r w s m) | |
Defined in Control.Monad.Trans.RWS.Lazy | |
| Reifies s (ReifiedApplicative f) => Applicative (ReflectedApplicative f s) | |
Defined in Data.Reflection Methods pure :: a -> ReflectedApplicative f s a # (<*>) :: ReflectedApplicative f s (a -> b) -> ReflectedApplicative f s a -> ReflectedApplicative f s b # liftA2 :: (a -> b -> c) -> ReflectedApplicative f s a -> ReflectedApplicative f s b -> ReflectedApplicative f s c # (*>) :: ReflectedApplicative f s a -> ReflectedApplicative f s b -> ReflectedApplicative f s b # (<*) :: ReflectedApplicative f s a -> ReflectedApplicative f s b -> ReflectedApplicative f s a # | |
class Foldable (t :: Type -> Type) where #
Data structures that can be folded.
For example, given a data type
data Tree a = Empty | Leaf a | Node (Tree a) a (Tree a)
a suitable instance would be
instance Foldable Tree where foldMap f Empty = mempty foldMap f (Leaf x) = f x foldMap f (Node l k r) = foldMap f l `mappend` f k `mappend` foldMap f r
This is suitable even for abstract types, as the monoid is assumed
to satisfy the monoid laws. Alternatively, one could define foldr:
instance Foldable Tree where foldr f z Empty = z foldr f z (Leaf x) = f x z foldr f z (Node l k r) = foldr f (f k (foldr f z r)) l
Foldable instances are expected to satisfy the following laws:
foldr f z t = appEndo (foldMap (Endo . f) t ) z
foldl f z t = appEndo (getDual (foldMap (Dual . Endo . flip f) t)) z
fold = foldMap id
length = getSum . foldMap (Sum . const 1)
sum, product, maximum, and minimum should all be essentially
equivalent to foldMap forms, such as
sum = getSum . foldMap Sum
but may be less defined.
If the type is also a Functor instance, it should satisfy
foldMap f = fold . fmap f
which implies that
foldMap f . fmap g = foldMap (f . g)
Methods
foldMap :: Monoid m => (a -> m) -> t a -> m #
Map each element of the structure to a monoid, and combine the results.
Test whether the structure is empty. The default implementation is optimized for structures that are similar to cons-lists, because there is no general way to do better.
Since: base-4.8.0.0
elem :: Eq a => a -> t a -> Bool infix 4 #
Does the element occur in the structure?
Since: base-4.8.0.0
The sum function computes the sum of the numbers of a structure.
Since: base-4.8.0.0
product :: Num a => t a -> a #
The product function computes the product of the numbers of a
structure.
Since: base-4.8.0.0
Instances
| Foldable [] | Since: base-2.1 |
Defined in Data.Foldable Methods fold :: Monoid m => [m] -> m # foldMap :: Monoid m => (a -> m) -> [a] -> m # foldMap' :: Monoid m => (a -> m) -> [a] -> m # foldr :: (a -> b -> b) -> b -> [a] -> b # foldr' :: (a -> b -> b) -> b -> [a] -> b # foldl :: (b -> a -> b) -> b -> [a] -> b # foldl' :: (b -> a -> b) -> b -> [a] -> b # foldr1 :: (a -> a -> a) -> [a] -> a # foldl1 :: (a -> a -> a) -> [a] -> a # elem :: Eq a => a -> [a] -> Bool # maximum :: Ord a => [a] -> a # | |
| Foldable Maybe | Since: base-2.1 |
Defined in Data.Foldable Methods fold :: Monoid m => Maybe m -> m # foldMap :: Monoid m => (a -> m) -> Maybe a -> m # foldMap' :: Monoid m => (a -> m) -> Maybe a -> m # foldr :: (a -> b -> b) -> b -> Maybe a -> b # foldr' :: (a -> b -> b) -> b -> Maybe a -> b # foldl :: (b -> a -> b) -> b -> Maybe a -> b # foldl' :: (b -> a -> b) -> b -> Maybe a -> b # foldr1 :: (a -> a -> a) -> Maybe a -> a # foldl1 :: (a -> a -> a) -> Maybe a -> a # elem :: Eq a => a -> Maybe a -> Bool # maximum :: Ord a => Maybe a -> a # minimum :: Ord a => Maybe a -> a # | |
| Foldable Par1 | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Par1 m -> m # foldMap :: Monoid m => (a -> m) -> Par1 a -> m # foldMap' :: Monoid m => (a -> m) -> Par1 a -> m # foldr :: (a -> b -> b) -> b -> Par1 a -> b # foldr' :: (a -> b -> b) -> b -> Par1 a -> b # foldl :: (b -> a -> b) -> b -> Par1 a -> b # foldl' :: (b -> a -> b) -> b -> Par1 a -> b # foldr1 :: (a -> a -> a) -> Par1 a -> a # foldl1 :: (a -> a -> a) -> Par1 a -> a # elem :: Eq a => a -> Par1 a -> Bool # maximum :: Ord a => Par1 a -> a # | |
| Foldable Solo | |
Defined in Data.Tuple.Solo Methods fold :: Monoid m => Solo m -> m # foldMap :: Monoid m => (a -> m) -> Solo a -> m # foldMap' :: Monoid m => (a -> m) -> Solo a -> m # foldr :: (a -> b -> b) -> b -> Solo a -> b # foldr' :: (a -> b -> b) -> b -> Solo a -> b # foldl :: (b -> a -> b) -> b -> Solo a -> b # foldl' :: (b -> a -> b) -> b -> Solo a -> b # foldr1 :: (a -> a -> a) -> Solo a -> a # foldl1 :: (a -> a -> a) -> Solo a -> a # elem :: Eq a => a -> Solo a -> Bool # maximum :: Ord a => Solo a -> a # | |
| Foldable Complex | Since: base-4.9.0.0 |
Defined in Data.Complex Methods fold :: Monoid m => Complex m -> m # foldMap :: Monoid m => (a -> m) -> Complex a -> m # foldMap' :: Monoid m => (a -> m) -> Complex a -> m # foldr :: (a -> b -> b) -> b -> Complex a -> b # foldr' :: (a -> b -> b) -> b -> Complex a -> b # foldl :: (b -> a -> b) -> b -> Complex a -> b # foldl' :: (b -> a -> b) -> b -> Complex a -> b # foldr1 :: (a -> a -> a) -> Complex a -> a # foldl1 :: (a -> a -> a) -> Complex a -> a # elem :: Eq a => a -> Complex a -> Bool # maximum :: Ord a => Complex a -> a # minimum :: Ord a => Complex a -> a # | |
| Foldable Min | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => Min m -> m # foldMap :: Monoid m => (a -> m) -> Min a -> m # foldMap' :: Monoid m => (a -> m) -> Min a -> m # foldr :: (a -> b -> b) -> b -> Min a -> b # foldr' :: (a -> b -> b) -> b -> Min a -> b # foldl :: (b -> a -> b) -> b -> Min a -> b # foldl' :: (b -> a -> b) -> b -> Min a -> b # foldr1 :: (a -> a -> a) -> Min a -> a # foldl1 :: (a -> a -> a) -> Min a -> a # elem :: Eq a => a -> Min a -> Bool # maximum :: Ord a => Min a -> a # | |
| Foldable Max | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => Max m -> m # foldMap :: Monoid m => (a -> m) -> Max a -> m # foldMap' :: Monoid m => (a -> m) -> Max a -> m # foldr :: (a -> b -> b) -> b -> Max a -> b # foldr' :: (a -> b -> b) -> b -> Max a -> b # foldl :: (b -> a -> b) -> b -> Max a -> b # foldl' :: (b -> a -> b) -> b -> Max a -> b # foldr1 :: (a -> a -> a) -> Max a -> a # foldl1 :: (a -> a -> a) -> Max a -> a # elem :: Eq a => a -> Max a -> Bool # maximum :: Ord a => Max a -> a # | |
| Foldable First | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => First m -> m # foldMap :: Monoid m => (a -> m) -> First a -> m # foldMap' :: Monoid m => (a -> m) -> First a -> m # foldr :: (a -> b -> b) -> b -> First a -> b # foldr' :: (a -> b -> b) -> b -> First a -> b # foldl :: (b -> a -> b) -> b -> First a -> b # foldl' :: (b -> a -> b) -> b -> First a -> b # foldr1 :: (a -> a -> a) -> First a -> a # foldl1 :: (a -> a -> a) -> First a -> a # elem :: Eq a => a -> First a -> Bool # maximum :: Ord a => First a -> a # minimum :: Ord a => First a -> a # | |
| Foldable Last | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => Last m -> m # foldMap :: Monoid m => (a -> m) -> Last a -> m # foldMap' :: Monoid m => (a -> m) -> Last a -> m # foldr :: (a -> b -> b) -> b -> Last a -> b # foldr' :: (a -> b -> b) -> b -> Last a -> b # foldl :: (b -> a -> b) -> b -> Last a -> b # foldl' :: (b -> a -> b) -> b -> Last a -> b # foldr1 :: (a -> a -> a) -> Last a -> a # foldl1 :: (a -> a -> a) -> Last a -> a # elem :: Eq a => a -> Last a -> Bool # maximum :: Ord a => Last a -> a # | |
| Foldable Option | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => Option m -> m # foldMap :: Monoid m => (a -> m) -> Option a -> m # foldMap' :: Monoid m => (a -> m) -> Option a -> m # foldr :: (a -> b -> b) -> b -> Option a -> b # foldr' :: (a -> b -> b) -> b -> Option a -> b # foldl :: (b -> a -> b) -> b -> Option a -> b # foldl' :: (b -> a -> b) -> b -> Option a -> b # foldr1 :: (a -> a -> a) -> Option a -> a # foldl1 :: (a -> a -> a) -> Option a -> a # elem :: Eq a => a -> Option a -> Bool # maximum :: Ord a => Option a -> a # minimum :: Ord a => Option a -> a # | |
| Foldable ZipList | Since: base-4.9.0.0 |
Defined in Control.Applicative Methods fold :: Monoid m => ZipList m -> m # foldMap :: Monoid m => (a -> m) -> ZipList a -> m # foldMap' :: Monoid m => (a -> m) -> ZipList a -> m # foldr :: (a -> b -> b) -> b -> ZipList a -> b # foldr' :: (a -> b -> b) -> b -> ZipList a -> b # foldl :: (b -> a -> b) -> b -> ZipList a -> b # foldl' :: (b -> a -> b) -> b -> ZipList a -> b # foldr1 :: (a -> a -> a) -> ZipList a -> a # foldl1 :: (a -> a -> a) -> ZipList a -> a # elem :: Eq a => a -> ZipList a -> Bool # maximum :: Ord a => ZipList a -> a # minimum :: Ord a => ZipList a -> a # | |
| Foldable Identity | Since: base-4.8.0.0 |
Defined in Data.Functor.Identity Methods fold :: Monoid m => Identity m -> m # foldMap :: Monoid m => (a -> m) -> Identity a -> m # foldMap' :: Monoid m => (a -> m) -> Identity a -> m # foldr :: (a -> b -> b) -> b -> Identity a -> b # foldr' :: (a -> b -> b) -> b -> Identity a -> b # foldl :: (b -> a -> b) -> b -> Identity a -> b # foldl' :: (b -> a -> b) -> b -> Identity a -> b # foldr1 :: (a -> a -> a) -> Identity a -> a # foldl1 :: (a -> a -> a) -> Identity a -> a # elem :: Eq a => a -> Identity a -> Bool # maximum :: Ord a => Identity a -> a # minimum :: Ord a => Identity a -> a # | |
| Foldable First | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => First m -> m # foldMap :: Monoid m => (a -> m) -> First a -> m # foldMap' :: Monoid m => (a -> m) -> First a -> m # foldr :: (a -> b -> b) -> b -> First a -> b # foldr' :: (a -> b -> b) -> b -> First a -> b # foldl :: (b -> a -> b) -> b -> First a -> b # foldl' :: (b -> a -> b) -> b -> First a -> b # foldr1 :: (a -> a -> a) -> First a -> a # foldl1 :: (a -> a -> a) -> First a -> a # elem :: Eq a => a -> First a -> Bool # maximum :: Ord a => First a -> a # minimum :: Ord a => First a -> a # | |
| Foldable Last | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Last m -> m # foldMap :: Monoid m => (a -> m) -> Last a -> m # foldMap' :: Monoid m => (a -> m) -> Last a -> m # foldr :: (a -> b -> b) -> b -> Last a -> b # foldr' :: (a -> b -> b) -> b -> Last a -> b # foldl :: (b -> a -> b) -> b -> Last a -> b # foldl' :: (b -> a -> b) -> b -> Last a -> b # foldr1 :: (a -> a -> a) -> Last a -> a # foldl1 :: (a -> a -> a) -> Last a -> a # elem :: Eq a => a -> Last a -> Bool # maximum :: Ord a => Last a -> a # | |
| Foldable Dual | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Dual m -> m # foldMap :: Monoid m => (a -> m) -> Dual a -> m # foldMap' :: Monoid m => (a -> m) -> Dual a -> m # foldr :: (a -> b -> b) -> b -> Dual a -> b # foldr' :: (a -> b -> b) -> b -> Dual a -> b # foldl :: (b -> a -> b) -> b -> Dual a -> b # foldl' :: (b -> a -> b) -> b -> Dual a -> b # foldr1 :: (a -> a -> a) -> Dual a -> a # foldl1 :: (a -> a -> a) -> Dual a -> a # elem :: Eq a => a -> Dual a -> Bool # maximum :: Ord a => Dual a -> a # | |
| Foldable Sum | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Sum m -> m # foldMap :: Monoid m => (a -> m) -> Sum a -> m # foldMap' :: Monoid m => (a -> m) -> Sum a -> m # foldr :: (a -> b -> b) -> b -> Sum a -> b # foldr' :: (a -> b -> b) -> b -> Sum a -> b # foldl :: (b -> a -> b) -> b -> Sum a -> b # foldl' :: (b -> a -> b) -> b -> Sum a -> b # foldr1 :: (a -> a -> a) -> Sum a -> a # foldl1 :: (a -> a -> a) -> Sum a -> a # elem :: Eq a => a -> Sum a -> Bool # maximum :: Ord a => Sum a -> a # | |
| Foldable Product | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Product m -> m # foldMap :: Monoid m => (a -> m) -> Product a -> m # foldMap' :: Monoid m => (a -> m) -> Product a -> m # foldr :: (a -> b -> b) -> b -> Product a -> b # foldr' :: (a -> b -> b) -> b -> Product a -> b # foldl :: (b -> a -> b) -> b -> Product a -> b # foldl' :: (b -> a -> b) -> b -> Product a -> b # foldr1 :: (a -> a -> a) -> Product a -> a # foldl1 :: (a -> a -> a) -> Product a -> a # elem :: Eq a => a -> Product a -> Bool # maximum :: Ord a => Product a -> a # minimum :: Ord a => Product a -> a # | |
| Foldable Down | Since: base-4.12.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Down m -> m # foldMap :: Monoid m => (a -> m) -> Down a -> m # foldMap' :: Monoid m => (a -> m) -> Down a -> m # foldr :: (a -> b -> b) -> b -> Down a -> b # foldr' :: (a -> b -> b) -> b -> Down a -> b # foldl :: (b -> a -> b) -> b -> Down a -> b # foldl' :: (b -> a -> b) -> b -> Down a -> b # foldr1 :: (a -> a -> a) -> Down a -> a # foldl1 :: (a -> a -> a) -> Down a -> a # elem :: Eq a => a -> Down a -> Bool # maximum :: Ord a => Down a -> a # | |
| Foldable NonEmpty | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => NonEmpty m -> m # foldMap :: Monoid m => (a -> m) -> NonEmpty a -> m # foldMap' :: Monoid m => (a -> m) -> NonEmpty a -> m # foldr :: (a -> b -> b) -> b -> NonEmpty a -> b # foldr' :: (a -> b -> b) -> b -> NonEmpty a -> b # foldl :: (b -> a -> b) -> b -> NonEmpty a -> b # foldl' :: (b -> a -> b) -> b -> NonEmpty a -> b # foldr1 :: (a -> a -> a) -> NonEmpty a -> a # foldl1 :: (a -> a -> a) -> NonEmpty a -> a # elem :: Eq a => a -> NonEmpty a -> Bool # maximum :: Ord a => NonEmpty a -> a # minimum :: Ord a => NonEmpty a -> a # | |
| Foldable IntMap | Folds in order of increasing key. |
Defined in Data.IntMap.Internal Methods fold :: Monoid m => IntMap m -> m # foldMap :: Monoid m => (a -> m) -> IntMap a -> m # foldMap' :: Monoid m => (a -> m) -> IntMap a -> m # foldr :: (a -> b -> b) -> b -> IntMap a -> b # foldr' :: (a -> b -> b) -> b -> IntMap a -> b # foldl :: (b -> a -> b) -> b -> IntMap a -> b # foldl' :: (b -> a -> b) -> b -> IntMap a -> b # foldr1 :: (a -> a -> a) -> IntMap a -> a # foldl1 :: (a -> a -> a) -> IntMap a -> a # elem :: Eq a => a -> IntMap a -> Bool # maximum :: Ord a => IntMap a -> a # minimum :: Ord a => IntMap a -> a # | |
| Foldable Tree | |
Defined in Data.Tree Methods fold :: Monoid m => Tree m -> m # foldMap :: Monoid m => (a -> m) -> Tree a -> m # foldMap' :: Monoid m => (a -> m) -> Tree a -> m # foldr :: (a -> b -> b) -> b -> Tree a -> b # foldr' :: (a -> b -> b) -> b -> Tree a -> b # foldl :: (b -> a -> b) -> b -> Tree a -> b # foldl' :: (b -> a -> b) -> b -> Tree a -> b # foldr1 :: (a -> a -> a) -> Tree a -> a # foldl1 :: (a -> a -> a) -> Tree a -> a # elem :: Eq a => a -> Tree a -> Bool # maximum :: Ord a => Tree a -> a # | |
| Foldable Seq | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => Seq m -> m # foldMap :: Monoid m => (a -> m) -> Seq a -> m # foldMap' :: Monoid m => (a -> m) -> Seq a -> m # foldr :: (a -> b -> b) -> b -> Seq a -> b # foldr' :: (a -> b -> b) -> b -> Seq a -> b # foldl :: (b -> a -> b) -> b -> Seq a -> b # foldl' :: (b -> a -> b) -> b -> Seq a -> b # foldr1 :: (a -> a -> a) -> Seq a -> a # foldl1 :: (a -> a -> a) -> Seq a -> a # elem :: Eq a => a -> Seq a -> Bool # maximum :: Ord a => Seq a -> a # | |
| Foldable FingerTree | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => FingerTree m -> m # foldMap :: Monoid m => (a -> m) -> FingerTree a -> m # foldMap' :: Monoid m => (a -> m) -> FingerTree a -> m # foldr :: (a -> b -> b) -> b -> FingerTree a -> b # foldr' :: (a -> b -> b) -> b -> FingerTree a -> b # foldl :: (b -> a -> b) -> b -> FingerTree a -> b # foldl' :: (b -> a -> b) -> b -> FingerTree a -> b # foldr1 :: (a -> a -> a) -> FingerTree a -> a # foldl1 :: (a -> a -> a) -> FingerTree a -> a # toList :: FingerTree a -> [a] # null :: FingerTree a -> Bool # length :: FingerTree a -> Int # elem :: Eq a => a -> FingerTree a -> Bool # maximum :: Ord a => FingerTree a -> a # minimum :: Ord a => FingerTree a -> a # sum :: Num a => FingerTree a -> a # product :: Num a => FingerTree a -> a # | |
| Foldable Digit | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => Digit m -> m # foldMap :: Monoid m => (a -> m) -> Digit a -> m # foldMap' :: Monoid m => (a -> m) -> Digit a -> m # foldr :: (a -> b -> b) -> b -> Digit a -> b # foldr' :: (a -> b -> b) -> b -> Digit a -> b # foldl :: (b -> a -> b) -> b -> Digit a -> b # foldl' :: (b -> a -> b) -> b -> Digit a -> b # foldr1 :: (a -> a -> a) -> Digit a -> a # foldl1 :: (a -> a -> a) -> Digit a -> a # elem :: Eq a => a -> Digit a -> Bool # maximum :: Ord a => Digit a -> a # minimum :: Ord a => Digit a -> a # | |
| Foldable Node | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => Node m -> m # foldMap :: Monoid m => (a -> m) -> Node a -> m # foldMap' :: Monoid m => (a -> m) -> Node a -> m # foldr :: (a -> b -> b) -> b -> Node a -> b # foldr' :: (a -> b -> b) -> b -> Node a -> b # foldl :: (b -> a -> b) -> b -> Node a -> b # foldl' :: (b -> a -> b) -> b -> Node a -> b # foldr1 :: (a -> a -> a) -> Node a -> a # foldl1 :: (a -> a -> a) -> Node a -> a # elem :: Eq a => a -> Node a -> Bool # maximum :: Ord a => Node a -> a # | |
| Foldable Elem | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => Elem m -> m # foldMap :: Monoid m => (a -> m) -> Elem a -> m # foldMap' :: Monoid m => (a -> m) -> Elem a -> m # foldr :: (a -> b -> b) -> b -> Elem a -> b # foldr' :: (a -> b -> b) -> b -> Elem a -> b # foldl :: (b -> a -> b) -> b -> Elem a -> b # foldl' :: (b -> a -> b) -> b -> Elem a -> b # foldr1 :: (a -> a -> a) -> Elem a -> a # foldl1 :: (a -> a -> a) -> Elem a -> a # elem :: Eq a => a -> Elem a -> Bool # maximum :: Ord a => Elem a -> a # | |
| Foldable ViewL | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => ViewL m -> m # foldMap :: Monoid m => (a -> m) -> ViewL a -> m # foldMap' :: Monoid m => (a -> m) -> ViewL a -> m # foldr :: (a -> b -> b) -> b -> ViewL a -> b # foldr' :: (a -> b -> b) -> b -> ViewL a -> b # foldl :: (b -> a -> b) -> b -> ViewL a -> b # foldl' :: (b -> a -> b) -> b -> ViewL a -> b # foldr1 :: (a -> a -> a) -> ViewL a -> a # foldl1 :: (a -> a -> a) -> ViewL a -> a # elem :: Eq a => a -> ViewL a -> Bool # maximum :: Ord a => ViewL a -> a # minimum :: Ord a => ViewL a -> a # | |
| Foldable ViewR | |
Defined in Data.Sequence.Internal Methods fold :: Monoid m => ViewR m -> m # foldMap :: Monoid m => (a -> m) -> ViewR a -> m # foldMap' :: Monoid m => (a -> m) -> ViewR a -> m # foldr :: (a -> b -> b) -> b -> ViewR a -> b # foldr' :: (a -> b -> b) -> b -> ViewR a -> b # foldl :: (b -> a -> b) -> b -> ViewR a -> b # foldl' :: (b -> a -> b) -> b -> ViewR a -> b # foldr1 :: (a -> a -> a) -> ViewR a -> a # foldl1 :: (a -> a -> a) -> ViewR a -> a # elem :: Eq a => a -> ViewR a -> Bool # maximum :: Ord a => ViewR a -> a # minimum :: Ord a => ViewR a -> a # | |
| Foldable Set | Folds in order of increasing key. |
Defined in Data.Set.Internal Methods fold :: Monoid m => Set m -> m # foldMap :: Monoid m => (a -> m) -> Set a -> m # foldMap' :: Monoid m => (a -> m) -> Set a -> m # foldr :: (a -> b -> b) -> b -> Set a -> b # foldr' :: (a -> b -> b) -> b -> Set a -> b # foldl :: (b -> a -> b) -> b -> Set a -> b # foldl' :: (b -> a -> b) -> b -> Set a -> b # foldr1 :: (a -> a -> a) -> Set a -> a # foldl1 :: (a -> a -> a) -> Set a -> a # elem :: Eq a => a -> Set a -> Bool # maximum :: Ord a => Set a -> a # | |
| Foldable Hashed | |
Defined in Data.Hashable.Class Methods fold :: Monoid m => Hashed m -> m # foldMap :: Monoid m => (a -> m) -> Hashed a -> m # foldMap' :: Monoid m => (a -> m) -> Hashed a -> m # foldr :: (a -> b -> b) -> b -> Hashed a -> b # foldr' :: (a -> b -> b) -> b -> Hashed a -> b # foldl :: (b -> a -> b) -> b -> Hashed a -> b # foldl' :: (b -> a -> b) -> b -> Hashed a -> b # foldr1 :: (a -> a -> a) -> Hashed a -> a # foldl1 :: (a -> a -> a) -> Hashed a -> a # elem :: Eq a => a -> Hashed a -> Bool # maximum :: Ord a => Hashed a -> a # minimum :: Ord a => Hashed a -> a # | |
| Foldable ModuleName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ModuleName m -> m # foldMap :: Monoid m => (a -> m) -> ModuleName a -> m # foldMap' :: Monoid m => (a -> m) -> ModuleName a -> m # foldr :: (a -> b -> b) -> b -> ModuleName a -> b # foldr' :: (a -> b -> b) -> b -> ModuleName a -> b # foldl :: (b -> a -> b) -> b -> ModuleName a -> b # foldl' :: (b -> a -> b) -> b -> ModuleName a -> b # foldr1 :: (a -> a -> a) -> ModuleName a -> a # foldl1 :: (a -> a -> a) -> ModuleName a -> a # toList :: ModuleName a -> [a] # null :: ModuleName a -> Bool # length :: ModuleName a -> Int # elem :: Eq a => a -> ModuleName a -> Bool # maximum :: Ord a => ModuleName a -> a # minimum :: Ord a => ModuleName a -> a # sum :: Num a => ModuleName a -> a # product :: Num a => ModuleName a -> a # | |
| Foldable SpecialCon | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => SpecialCon m -> m # foldMap :: Monoid m => (a -> m) -> SpecialCon a -> m # foldMap' :: Monoid m => (a -> m) -> SpecialCon a -> m # foldr :: (a -> b -> b) -> b -> SpecialCon a -> b # foldr' :: (a -> b -> b) -> b -> SpecialCon a -> b # foldl :: (b -> a -> b) -> b -> SpecialCon a -> b # foldl' :: (b -> a -> b) -> b -> SpecialCon a -> b # foldr1 :: (a -> a -> a) -> SpecialCon a -> a # foldl1 :: (a -> a -> a) -> SpecialCon a -> a # toList :: SpecialCon a -> [a] # null :: SpecialCon a -> Bool # length :: SpecialCon a -> Int # elem :: Eq a => a -> SpecialCon a -> Bool # maximum :: Ord a => SpecialCon a -> a # minimum :: Ord a => SpecialCon a -> a # sum :: Num a => SpecialCon a -> a # product :: Num a => SpecialCon a -> a # | |
| Foldable QName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => QName m -> m # foldMap :: Monoid m => (a -> m) -> QName a -> m # foldMap' :: Monoid m => (a -> m) -> QName a -> m # foldr :: (a -> b -> b) -> b -> QName a -> b # foldr' :: (a -> b -> b) -> b -> QName a -> b # foldl :: (b -> a -> b) -> b -> QName a -> b # foldl' :: (b -> a -> b) -> b -> QName a -> b # foldr1 :: (a -> a -> a) -> QName a -> a # foldl1 :: (a -> a -> a) -> QName a -> a # elem :: Eq a => a -> QName a -> Bool # maximum :: Ord a => QName a -> a # minimum :: Ord a => QName a -> a # | |
| Foldable Name | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Name m -> m # foldMap :: Monoid m => (a -> m) -> Name a -> m # foldMap' :: Monoid m => (a -> m) -> Name a -> m # foldr :: (a -> b -> b) -> b -> Name a -> b # foldr' :: (a -> b -> b) -> b -> Name a -> b # foldl :: (b -> a -> b) -> b -> Name a -> b # foldl' :: (b -> a -> b) -> b -> Name a -> b # foldr1 :: (a -> a -> a) -> Name a -> a # foldl1 :: (a -> a -> a) -> Name a -> a # elem :: Eq a => a -> Name a -> Bool # maximum :: Ord a => Name a -> a # | |
| Foldable IPName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => IPName m -> m # foldMap :: Monoid m => (a -> m) -> IPName a -> m # foldMap' :: Monoid m => (a -> m) -> IPName a -> m # foldr :: (a -> b -> b) -> b -> IPName a -> b # foldr' :: (a -> b -> b) -> b -> IPName a -> b # foldl :: (b -> a -> b) -> b -> IPName a -> b # foldl' :: (b -> a -> b) -> b -> IPName a -> b # foldr1 :: (a -> a -> a) -> IPName a -> a # foldl1 :: (a -> a -> a) -> IPName a -> a # elem :: Eq a => a -> IPName a -> Bool # maximum :: Ord a => IPName a -> a # minimum :: Ord a => IPName a -> a # | |
| Foldable QOp | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => QOp m -> m # foldMap :: Monoid m => (a -> m) -> QOp a -> m # foldMap' :: Monoid m => (a -> m) -> QOp a -> m # foldr :: (a -> b -> b) -> b -> QOp a -> b # foldr' :: (a -> b -> b) -> b -> QOp a -> b # foldl :: (b -> a -> b) -> b -> QOp a -> b # foldl' :: (b -> a -> b) -> b -> QOp a -> b # foldr1 :: (a -> a -> a) -> QOp a -> a # foldl1 :: (a -> a -> a) -> QOp a -> a # elem :: Eq a => a -> QOp a -> Bool # maximum :: Ord a => QOp a -> a # | |
| Foldable Op | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Op m -> m # foldMap :: Monoid m => (a -> m) -> Op a -> m # foldMap' :: Monoid m => (a -> m) -> Op a -> m # foldr :: (a -> b -> b) -> b -> Op a -> b # foldr' :: (a -> b -> b) -> b -> Op a -> b # foldl :: (b -> a -> b) -> b -> Op a -> b # foldl' :: (b -> a -> b) -> b -> Op a -> b # foldr1 :: (a -> a -> a) -> Op a -> a # foldl1 :: (a -> a -> a) -> Op a -> a # elem :: Eq a => a -> Op a -> Bool # maximum :: Ord a => Op a -> a # | |
| Foldable CName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => CName m -> m # foldMap :: Monoid m => (a -> m) -> CName a -> m # foldMap' :: Monoid m => (a -> m) -> CName a -> m # foldr :: (a -> b -> b) -> b -> CName a -> b # foldr' :: (a -> b -> b) -> b -> CName a -> b # foldl :: (b -> a -> b) -> b -> CName a -> b # foldl' :: (b -> a -> b) -> b -> CName a -> b # foldr1 :: (a -> a -> a) -> CName a -> a # foldl1 :: (a -> a -> a) -> CName a -> a # elem :: Eq a => a -> CName a -> Bool # maximum :: Ord a => CName a -> a # minimum :: Ord a => CName a -> a # | |
| Foldable Module | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Module m -> m # foldMap :: Monoid m => (a -> m) -> Module a -> m # foldMap' :: Monoid m => (a -> m) -> Module a -> m # foldr :: (a -> b -> b) -> b -> Module a -> b # foldr' :: (a -> b -> b) -> b -> Module a -> b # foldl :: (b -> a -> b) -> b -> Module a -> b # foldl' :: (b -> a -> b) -> b -> Module a -> b # foldr1 :: (a -> a -> a) -> Module a -> a # foldl1 :: (a -> a -> a) -> Module a -> a # elem :: Eq a => a -> Module a -> Bool # maximum :: Ord a => Module a -> a # minimum :: Ord a => Module a -> a # | |
| Foldable ModuleHead | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ModuleHead m -> m # foldMap :: Monoid m => (a -> m) -> ModuleHead a -> m # foldMap' :: Monoid m => (a -> m) -> ModuleHead a -> m # foldr :: (a -> b -> b) -> b -> ModuleHead a -> b # foldr' :: (a -> b -> b) -> b -> ModuleHead a -> b # foldl :: (b -> a -> b) -> b -> ModuleHead a -> b # foldl' :: (b -> a -> b) -> b -> ModuleHead a -> b # foldr1 :: (a -> a -> a) -> ModuleHead a -> a # foldl1 :: (a -> a -> a) -> ModuleHead a -> a # toList :: ModuleHead a -> [a] # null :: ModuleHead a -> Bool # length :: ModuleHead a -> Int # elem :: Eq a => a -> ModuleHead a -> Bool # maximum :: Ord a => ModuleHead a -> a # minimum :: Ord a => ModuleHead a -> a # sum :: Num a => ModuleHead a -> a # product :: Num a => ModuleHead a -> a # | |
| Foldable ExportSpecList | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ExportSpecList m -> m # foldMap :: Monoid m => (a -> m) -> ExportSpecList a -> m # foldMap' :: Monoid m => (a -> m) -> ExportSpecList a -> m # foldr :: (a -> b -> b) -> b -> ExportSpecList a -> b # foldr' :: (a -> b -> b) -> b -> ExportSpecList a -> b # foldl :: (b -> a -> b) -> b -> ExportSpecList a -> b # foldl' :: (b -> a -> b) -> b -> ExportSpecList a -> b # foldr1 :: (a -> a -> a) -> ExportSpecList a -> a # foldl1 :: (a -> a -> a) -> ExportSpecList a -> a # toList :: ExportSpecList a -> [a] # null :: ExportSpecList a -> Bool # length :: ExportSpecList a -> Int # elem :: Eq a => a -> ExportSpecList a -> Bool # maximum :: Ord a => ExportSpecList a -> a # minimum :: Ord a => ExportSpecList a -> a # sum :: Num a => ExportSpecList a -> a # product :: Num a => ExportSpecList a -> a # | |
| Foldable ExportSpec | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ExportSpec m -> m # foldMap :: Monoid m => (a -> m) -> ExportSpec a -> m # foldMap' :: Monoid m => (a -> m) -> ExportSpec a -> m # foldr :: (a -> b -> b) -> b -> ExportSpec a -> b # foldr' :: (a -> b -> b) -> b -> ExportSpec a -> b # foldl :: (b -> a -> b) -> b -> ExportSpec a -> b # foldl' :: (b -> a -> b) -> b -> ExportSpec a -> b # foldr1 :: (a -> a -> a) -> ExportSpec a -> a # foldl1 :: (a -> a -> a) -> ExportSpec a -> a # toList :: ExportSpec a -> [a] # null :: ExportSpec a -> Bool # length :: ExportSpec a -> Int # elem :: Eq a => a -> ExportSpec a -> Bool # maximum :: Ord a => ExportSpec a -> a # minimum :: Ord a => ExportSpec a -> a # sum :: Num a => ExportSpec a -> a # product :: Num a => ExportSpec a -> a # | |
| Foldable EWildcard | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => EWildcard m -> m # foldMap :: Monoid m => (a -> m) -> EWildcard a -> m # foldMap' :: Monoid m => (a -> m) -> EWildcard a -> m # foldr :: (a -> b -> b) -> b -> EWildcard a -> b # foldr' :: (a -> b -> b) -> b -> EWildcard a -> b # foldl :: (b -> a -> b) -> b -> EWildcard a -> b # foldl' :: (b -> a -> b) -> b -> EWildcard a -> b # foldr1 :: (a -> a -> a) -> EWildcard a -> a # foldl1 :: (a -> a -> a) -> EWildcard a -> a # toList :: EWildcard a -> [a] # length :: EWildcard a -> Int # elem :: Eq a => a -> EWildcard a -> Bool # maximum :: Ord a => EWildcard a -> a # minimum :: Ord a => EWildcard a -> a # | |
| Foldable Namespace | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Namespace m -> m # foldMap :: Monoid m => (a -> m) -> Namespace a -> m # foldMap' :: Monoid m => (a -> m) -> Namespace a -> m # foldr :: (a -> b -> b) -> b -> Namespace a -> b # foldr' :: (a -> b -> b) -> b -> Namespace a -> b # foldl :: (b -> a -> b) -> b -> Namespace a -> b # foldl' :: (b -> a -> b) -> b -> Namespace a -> b # foldr1 :: (a -> a -> a) -> Namespace a -> a # foldl1 :: (a -> a -> a) -> Namespace a -> a # toList :: Namespace a -> [a] # length :: Namespace a -> Int # elem :: Eq a => a -> Namespace a -> Bool # maximum :: Ord a => Namespace a -> a # minimum :: Ord a => Namespace a -> a # | |
| Foldable ImportDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ImportDecl m -> m # foldMap :: Monoid m => (a -> m) -> ImportDecl a -> m # foldMap' :: Monoid m => (a -> m) -> ImportDecl a -> m # foldr :: (a -> b -> b) -> b -> ImportDecl a -> b # foldr' :: (a -> b -> b) -> b -> ImportDecl a -> b # foldl :: (b -> a -> b) -> b -> ImportDecl a -> b # foldl' :: (b -> a -> b) -> b -> ImportDecl a -> b # foldr1 :: (a -> a -> a) -> ImportDecl a -> a # foldl1 :: (a -> a -> a) -> ImportDecl a -> a # toList :: ImportDecl a -> [a] # null :: ImportDecl a -> Bool # length :: ImportDecl a -> Int # elem :: Eq a => a -> ImportDecl a -> Bool # maximum :: Ord a => ImportDecl a -> a # minimum :: Ord a => ImportDecl a -> a # sum :: Num a => ImportDecl a -> a # product :: Num a => ImportDecl a -> a # | |
| Foldable ImportSpecList | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ImportSpecList m -> m # foldMap :: Monoid m => (a -> m) -> ImportSpecList a -> m # foldMap' :: Monoid m => (a -> m) -> ImportSpecList a -> m # foldr :: (a -> b -> b) -> b -> ImportSpecList a -> b # foldr' :: (a -> b -> b) -> b -> ImportSpecList a -> b # foldl :: (b -> a -> b) -> b -> ImportSpecList a -> b # foldl' :: (b -> a -> b) -> b -> ImportSpecList a -> b # foldr1 :: (a -> a -> a) -> ImportSpecList a -> a # foldl1 :: (a -> a -> a) -> ImportSpecList a -> a # toList :: ImportSpecList a -> [a] # null :: ImportSpecList a -> Bool # length :: ImportSpecList a -> Int # elem :: Eq a => a -> ImportSpecList a -> Bool # maximum :: Ord a => ImportSpecList a -> a # minimum :: Ord a => ImportSpecList a -> a # sum :: Num a => ImportSpecList a -> a # product :: Num a => ImportSpecList a -> a # | |
| Foldable ImportSpec | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ImportSpec m -> m # foldMap :: Monoid m => (a -> m) -> ImportSpec a -> m # foldMap' :: Monoid m => (a -> m) -> ImportSpec a -> m # foldr :: (a -> b -> b) -> b -> ImportSpec a -> b # foldr' :: (a -> b -> b) -> b -> ImportSpec a -> b # foldl :: (b -> a -> b) -> b -> ImportSpec a -> b # foldl' :: (b -> a -> b) -> b -> ImportSpec a -> b # foldr1 :: (a -> a -> a) -> ImportSpec a -> a # foldl1 :: (a -> a -> a) -> ImportSpec a -> a # toList :: ImportSpec a -> [a] # null :: ImportSpec a -> Bool # length :: ImportSpec a -> Int # elem :: Eq a => a -> ImportSpec a -> Bool # maximum :: Ord a => ImportSpec a -> a # minimum :: Ord a => ImportSpec a -> a # sum :: Num a => ImportSpec a -> a # product :: Num a => ImportSpec a -> a # | |
| Foldable Assoc | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Assoc m -> m # foldMap :: Monoid m => (a -> m) -> Assoc a -> m # foldMap' :: Monoid m => (a -> m) -> Assoc a -> m # foldr :: (a -> b -> b) -> b -> Assoc a -> b # foldr' :: (a -> b -> b) -> b -> Assoc a -> b # foldl :: (b -> a -> b) -> b -> Assoc a -> b # foldl' :: (b -> a -> b) -> b -> Assoc a -> b # foldr1 :: (a -> a -> a) -> Assoc a -> a # foldl1 :: (a -> a -> a) -> Assoc a -> a # elem :: Eq a => a -> Assoc a -> Bool # maximum :: Ord a => Assoc a -> a # minimum :: Ord a => Assoc a -> a # | |
| Foldable Decl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Decl m -> m # foldMap :: Monoid m => (a -> m) -> Decl a -> m # foldMap' :: Monoid m => (a -> m) -> Decl a -> m # foldr :: (a -> b -> b) -> b -> Decl a -> b # foldr' :: (a -> b -> b) -> b -> Decl a -> b # foldl :: (b -> a -> b) -> b -> Decl a -> b # foldl' :: (b -> a -> b) -> b -> Decl a -> b # foldr1 :: (a -> a -> a) -> Decl a -> a # foldl1 :: (a -> a -> a) -> Decl a -> a # elem :: Eq a => a -> Decl a -> Bool # maximum :: Ord a => Decl a -> a # | |
| Foldable PatternSynDirection | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => PatternSynDirection m -> m # foldMap :: Monoid m => (a -> m) -> PatternSynDirection a -> m # foldMap' :: Monoid m => (a -> m) -> PatternSynDirection a -> m # foldr :: (a -> b -> b) -> b -> PatternSynDirection a -> b # foldr' :: (a -> b -> b) -> b -> PatternSynDirection a -> b # foldl :: (b -> a -> b) -> b -> PatternSynDirection a -> b # foldl' :: (b -> a -> b) -> b -> PatternSynDirection a -> b # foldr1 :: (a -> a -> a) -> PatternSynDirection a -> a # foldl1 :: (a -> a -> a) -> PatternSynDirection a -> a # toList :: PatternSynDirection a -> [a] # null :: PatternSynDirection a -> Bool # length :: PatternSynDirection a -> Int # elem :: Eq a => a -> PatternSynDirection a -> Bool # maximum :: Ord a => PatternSynDirection a -> a # minimum :: Ord a => PatternSynDirection a -> a # sum :: Num a => PatternSynDirection a -> a # product :: Num a => PatternSynDirection a -> a # | |
| Foldable TypeEqn | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => TypeEqn m -> m # foldMap :: Monoid m => (a -> m) -> TypeEqn a -> m # foldMap' :: Monoid m => (a -> m) -> TypeEqn a -> m # foldr :: (a -> b -> b) -> b -> TypeEqn a -> b # foldr' :: (a -> b -> b) -> b -> TypeEqn a -> b # foldl :: (b -> a -> b) -> b -> TypeEqn a -> b # foldl' :: (b -> a -> b) -> b -> TypeEqn a -> b # foldr1 :: (a -> a -> a) -> TypeEqn a -> a # foldl1 :: (a -> a -> a) -> TypeEqn a -> a # elem :: Eq a => a -> TypeEqn a -> Bool # maximum :: Ord a => TypeEqn a -> a # minimum :: Ord a => TypeEqn a -> a # | |
| Foldable Annotation | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Annotation m -> m # foldMap :: Monoid m => (a -> m) -> Annotation a -> m # foldMap' :: Monoid m => (a -> m) -> Annotation a -> m # foldr :: (a -> b -> b) -> b -> Annotation a -> b # foldr' :: (a -> b -> b) -> b -> Annotation a -> b # foldl :: (b -> a -> b) -> b -> Annotation a -> b # foldl' :: (b -> a -> b) -> b -> Annotation a -> b # foldr1 :: (a -> a -> a) -> Annotation a -> a # foldl1 :: (a -> a -> a) -> Annotation a -> a # toList :: Annotation a -> [a] # null :: Annotation a -> Bool # length :: Annotation a -> Int # elem :: Eq a => a -> Annotation a -> Bool # maximum :: Ord a => Annotation a -> a # minimum :: Ord a => Annotation a -> a # sum :: Num a => Annotation a -> a # product :: Num a => Annotation a -> a # | |
| Foldable BooleanFormula | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => BooleanFormula m -> m # foldMap :: Monoid m => (a -> m) -> BooleanFormula a -> m # foldMap' :: Monoid m => (a -> m) -> BooleanFormula a -> m # foldr :: (a -> b -> b) -> b -> BooleanFormula a -> b # foldr' :: (a -> b -> b) -> b -> BooleanFormula a -> b # foldl :: (b -> a -> b) -> b -> BooleanFormula a -> b # foldl' :: (b -> a -> b) -> b -> BooleanFormula a -> b # foldr1 :: (a -> a -> a) -> BooleanFormula a -> a # foldl1 :: (a -> a -> a) -> BooleanFormula a -> a # toList :: BooleanFormula a -> [a] # null :: BooleanFormula a -> Bool # length :: BooleanFormula a -> Int # elem :: Eq a => a -> BooleanFormula a -> Bool # maximum :: Ord a => BooleanFormula a -> a # minimum :: Ord a => BooleanFormula a -> a # sum :: Num a => BooleanFormula a -> a # product :: Num a => BooleanFormula a -> a # | |
| Foldable Role | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Role m -> m # foldMap :: Monoid m => (a -> m) -> Role a -> m # foldMap' :: Monoid m => (a -> m) -> Role a -> m # foldr :: (a -> b -> b) -> b -> Role a -> b # foldr' :: (a -> b -> b) -> b -> Role a -> b # foldl :: (b -> a -> b) -> b -> Role a -> b # foldl' :: (b -> a -> b) -> b -> Role a -> b # foldr1 :: (a -> a -> a) -> Role a -> a # foldl1 :: (a -> a -> a) -> Role a -> a # elem :: Eq a => a -> Role a -> Bool # maximum :: Ord a => Role a -> a # | |
| Foldable DataOrNew | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => DataOrNew m -> m # foldMap :: Monoid m => (a -> m) -> DataOrNew a -> m # foldMap' :: Monoid m => (a -> m) -> DataOrNew a -> m # foldr :: (a -> b -> b) -> b -> DataOrNew a -> b # foldr' :: (a -> b -> b) -> b -> DataOrNew a -> b # foldl :: (b -> a -> b) -> b -> DataOrNew a -> b # foldl' :: (b -> a -> b) -> b -> DataOrNew a -> b # foldr1 :: (a -> a -> a) -> DataOrNew a -> a # foldl1 :: (a -> a -> a) -> DataOrNew a -> a # toList :: DataOrNew a -> [a] # length :: DataOrNew a -> Int # elem :: Eq a => a -> DataOrNew a -> Bool # maximum :: Ord a => DataOrNew a -> a # minimum :: Ord a => DataOrNew a -> a # | |
| Foldable InjectivityInfo | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => InjectivityInfo m -> m # foldMap :: Monoid m => (a -> m) -> InjectivityInfo a -> m # foldMap' :: Monoid m => (a -> m) -> InjectivityInfo a -> m # foldr :: (a -> b -> b) -> b -> InjectivityInfo a -> b # foldr' :: (a -> b -> b) -> b -> InjectivityInfo a -> b # foldl :: (b -> a -> b) -> b -> InjectivityInfo a -> b # foldl' :: (b -> a -> b) -> b -> InjectivityInfo a -> b # foldr1 :: (a -> a -> a) -> InjectivityInfo a -> a # foldl1 :: (a -> a -> a) -> InjectivityInfo a -> a # toList :: InjectivityInfo a -> [a] # null :: InjectivityInfo a -> Bool # length :: InjectivityInfo a -> Int # elem :: Eq a => a -> InjectivityInfo a -> Bool # maximum :: Ord a => InjectivityInfo a -> a # minimum :: Ord a => InjectivityInfo a -> a # sum :: Num a => InjectivityInfo a -> a # product :: Num a => InjectivityInfo a -> a # | |
| Foldable ResultSig | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ResultSig m -> m # foldMap :: Monoid m => (a -> m) -> ResultSig a -> m # foldMap' :: Monoid m => (a -> m) -> ResultSig a -> m # foldr :: (a -> b -> b) -> b -> ResultSig a -> b # foldr' :: (a -> b -> b) -> b -> ResultSig a -> b # foldl :: (b -> a -> b) -> b -> ResultSig a -> b # foldl' :: (b -> a -> b) -> b -> ResultSig a -> b # foldr1 :: (a -> a -> a) -> ResultSig a -> a # foldl1 :: (a -> a -> a) -> ResultSig a -> a # toList :: ResultSig a -> [a] # length :: ResultSig a -> Int # elem :: Eq a => a -> ResultSig a -> Bool # maximum :: Ord a => ResultSig a -> a # minimum :: Ord a => ResultSig a -> a # | |
| Foldable DeclHead | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => DeclHead m -> m # foldMap :: Monoid m => (a -> m) -> DeclHead a -> m # foldMap' :: Monoid m => (a -> m) -> DeclHead a -> m # foldr :: (a -> b -> b) -> b -> DeclHead a -> b # foldr' :: (a -> b -> b) -> b -> DeclHead a -> b # foldl :: (b -> a -> b) -> b -> DeclHead a -> b # foldl' :: (b -> a -> b) -> b -> DeclHead a -> b # foldr1 :: (a -> a -> a) -> DeclHead a -> a # foldl1 :: (a -> a -> a) -> DeclHead a -> a # elem :: Eq a => a -> DeclHead a -> Bool # maximum :: Ord a => DeclHead a -> a # minimum :: Ord a => DeclHead a -> a # | |
| Foldable InstRule | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => InstRule m -> m # foldMap :: Monoid m => (a -> m) -> InstRule a -> m # foldMap' :: Monoid m => (a -> m) -> InstRule a -> m # foldr :: (a -> b -> b) -> b -> InstRule a -> b # foldr' :: (a -> b -> b) -> b -> InstRule a -> b # foldl :: (b -> a -> b) -> b -> InstRule a -> b # foldl' :: (b -> a -> b) -> b -> InstRule a -> b # foldr1 :: (a -> a -> a) -> InstRule a -> a # foldl1 :: (a -> a -> a) -> InstRule a -> a # elem :: Eq a => a -> InstRule a -> Bool # maximum :: Ord a => InstRule a -> a # minimum :: Ord a => InstRule a -> a # | |
| Foldable InstHead | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => InstHead m -> m # foldMap :: Monoid m => (a -> m) -> InstHead a -> m # foldMap' :: Monoid m => (a -> m) -> InstHead a -> m # foldr :: (a -> b -> b) -> b -> InstHead a -> b # foldr' :: (a -> b -> b) -> b -> InstHead a -> b # foldl :: (b -> a -> b) -> b -> InstHead a -> b # foldl' :: (b -> a -> b) -> b -> InstHead a -> b # foldr1 :: (a -> a -> a) -> InstHead a -> a # foldl1 :: (a -> a -> a) -> InstHead a -> a # elem :: Eq a => a -> InstHead a -> Bool # maximum :: Ord a => InstHead a -> a # minimum :: Ord a => InstHead a -> a # | |
| Foldable Deriving | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Deriving m -> m # foldMap :: Monoid m => (a -> m) -> Deriving a -> m # foldMap' :: Monoid m => (a -> m) -> Deriving a -> m # foldr :: (a -> b -> b) -> b -> Deriving a -> b # foldr' :: (a -> b -> b) -> b -> Deriving a -> b # foldl :: (b -> a -> b) -> b -> Deriving a -> b # foldl' :: (b -> a -> b) -> b -> Deriving a -> b # foldr1 :: (a -> a -> a) -> Deriving a -> a # foldl1 :: (a -> a -> a) -> Deriving a -> a # elem :: Eq a => a -> Deriving a -> Bool # maximum :: Ord a => Deriving a -> a # minimum :: Ord a => Deriving a -> a # | |
| Foldable DerivStrategy | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => DerivStrategy m -> m # foldMap :: Monoid m => (a -> m) -> DerivStrategy a -> m # foldMap' :: Monoid m => (a -> m) -> DerivStrategy a -> m # foldr :: (a -> b -> b) -> b -> DerivStrategy a -> b # foldr' :: (a -> b -> b) -> b -> DerivStrategy a -> b # foldl :: (b -> a -> b) -> b -> DerivStrategy a -> b # foldl' :: (b -> a -> b) -> b -> DerivStrategy a -> b # foldr1 :: (a -> a -> a) -> DerivStrategy a -> a # foldl1 :: (a -> a -> a) -> DerivStrategy a -> a # toList :: DerivStrategy a -> [a] # null :: DerivStrategy a -> Bool # length :: DerivStrategy a -> Int # elem :: Eq a => a -> DerivStrategy a -> Bool # maximum :: Ord a => DerivStrategy a -> a # minimum :: Ord a => DerivStrategy a -> a # sum :: Num a => DerivStrategy a -> a # product :: Num a => DerivStrategy a -> a # | |
| Foldable Binds | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Binds m -> m # foldMap :: Monoid m => (a -> m) -> Binds a -> m # foldMap' :: Monoid m => (a -> m) -> Binds a -> m # foldr :: (a -> b -> b) -> b -> Binds a -> b # foldr' :: (a -> b -> b) -> b -> Binds a -> b # foldl :: (b -> a -> b) -> b -> Binds a -> b # foldl' :: (b -> a -> b) -> b -> Binds a -> b # foldr1 :: (a -> a -> a) -> Binds a -> a # foldl1 :: (a -> a -> a) -> Binds a -> a # elem :: Eq a => a -> Binds a -> Bool # maximum :: Ord a => Binds a -> a # minimum :: Ord a => Binds a -> a # | |
| Foldable IPBind | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => IPBind m -> m # foldMap :: Monoid m => (a -> m) -> IPBind a -> m # foldMap' :: Monoid m => (a -> m) -> IPBind a -> m # foldr :: (a -> b -> b) -> b -> IPBind a -> b # foldr' :: (a -> b -> b) -> b -> IPBind a -> b # foldl :: (b -> a -> b) -> b -> IPBind a -> b # foldl' :: (b -> a -> b) -> b -> IPBind a -> b # foldr1 :: (a -> a -> a) -> IPBind a -> a # foldl1 :: (a -> a -> a) -> IPBind a -> a # elem :: Eq a => a -> IPBind a -> Bool # maximum :: Ord a => IPBind a -> a # minimum :: Ord a => IPBind a -> a # | |
| Foldable Match | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Match m -> m # foldMap :: Monoid m => (a -> m) -> Match a -> m # foldMap' :: Monoid m => (a -> m) -> Match a -> m # foldr :: (a -> b -> b) -> b -> Match a -> b # foldr' :: (a -> b -> b) -> b -> Match a -> b # foldl :: (b -> a -> b) -> b -> Match a -> b # foldl' :: (b -> a -> b) -> b -> Match a -> b # foldr1 :: (a -> a -> a) -> Match a -> a # foldl1 :: (a -> a -> a) -> Match a -> a # elem :: Eq a => a -> Match a -> Bool # maximum :: Ord a => Match a -> a # minimum :: Ord a => Match a -> a # | |
| Foldable QualConDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => QualConDecl m -> m # foldMap :: Monoid m => (a -> m) -> QualConDecl a -> m # foldMap' :: Monoid m => (a -> m) -> QualConDecl a -> m # foldr :: (a -> b -> b) -> b -> QualConDecl a -> b # foldr' :: (a -> b -> b) -> b -> QualConDecl a -> b # foldl :: (b -> a -> b) -> b -> QualConDecl a -> b # foldl' :: (b -> a -> b) -> b -> QualConDecl a -> b # foldr1 :: (a -> a -> a) -> QualConDecl a -> a # foldl1 :: (a -> a -> a) -> QualConDecl a -> a # toList :: QualConDecl a -> [a] # null :: QualConDecl a -> Bool # length :: QualConDecl a -> Int # elem :: Eq a => a -> QualConDecl a -> Bool # maximum :: Ord a => QualConDecl a -> a # minimum :: Ord a => QualConDecl a -> a # sum :: Num a => QualConDecl a -> a # product :: Num a => QualConDecl a -> a # | |
| Foldable ConDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ConDecl m -> m # foldMap :: Monoid m => (a -> m) -> ConDecl a -> m # foldMap' :: Monoid m => (a -> m) -> ConDecl a -> m # foldr :: (a -> b -> b) -> b -> ConDecl a -> b # foldr' :: (a -> b -> b) -> b -> ConDecl a -> b # foldl :: (b -> a -> b) -> b -> ConDecl a -> b # foldl' :: (b -> a -> b) -> b -> ConDecl a -> b # foldr1 :: (a -> a -> a) -> ConDecl a -> a # foldl1 :: (a -> a -> a) -> ConDecl a -> a # elem :: Eq a => a -> ConDecl a -> Bool # maximum :: Ord a => ConDecl a -> a # minimum :: Ord a => ConDecl a -> a # | |
| Foldable FieldDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => FieldDecl m -> m # foldMap :: Monoid m => (a -> m) -> FieldDecl a -> m # foldMap' :: Monoid m => (a -> m) -> FieldDecl a -> m # foldr :: (a -> b -> b) -> b -> FieldDecl a -> b # foldr' :: (a -> b -> b) -> b -> FieldDecl a -> b # foldl :: (b -> a -> b) -> b -> FieldDecl a -> b # foldl' :: (b -> a -> b) -> b -> FieldDecl a -> b # foldr1 :: (a -> a -> a) -> FieldDecl a -> a # foldl1 :: (a -> a -> a) -> FieldDecl a -> a # toList :: FieldDecl a -> [a] # length :: FieldDecl a -> Int # elem :: Eq a => a -> FieldDecl a -> Bool # maximum :: Ord a => FieldDecl a -> a # minimum :: Ord a => FieldDecl a -> a # | |
| Foldable GadtDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => GadtDecl m -> m # foldMap :: Monoid m => (a -> m) -> GadtDecl a -> m # foldMap' :: Monoid m => (a -> m) -> GadtDecl a -> m # foldr :: (a -> b -> b) -> b -> GadtDecl a -> b # foldr' :: (a -> b -> b) -> b -> GadtDecl a -> b # foldl :: (b -> a -> b) -> b -> GadtDecl a -> b # foldl' :: (b -> a -> b) -> b -> GadtDecl a -> b # foldr1 :: (a -> a -> a) -> GadtDecl a -> a # foldl1 :: (a -> a -> a) -> GadtDecl a -> a # elem :: Eq a => a -> GadtDecl a -> Bool # maximum :: Ord a => GadtDecl a -> a # minimum :: Ord a => GadtDecl a -> a # | |
| Foldable ClassDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ClassDecl m -> m # foldMap :: Monoid m => (a -> m) -> ClassDecl a -> m # foldMap' :: Monoid m => (a -> m) -> ClassDecl a -> m # foldr :: (a -> b -> b) -> b -> ClassDecl a -> b # foldr' :: (a -> b -> b) -> b -> ClassDecl a -> b # foldl :: (b -> a -> b) -> b -> ClassDecl a -> b # foldl' :: (b -> a -> b) -> b -> ClassDecl a -> b # foldr1 :: (a -> a -> a) -> ClassDecl a -> a # foldl1 :: (a -> a -> a) -> ClassDecl a -> a # toList :: ClassDecl a -> [a] # length :: ClassDecl a -> Int # elem :: Eq a => a -> ClassDecl a -> Bool # maximum :: Ord a => ClassDecl a -> a # minimum :: Ord a => ClassDecl a -> a # | |
| Foldable InstDecl | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => InstDecl m -> m # foldMap :: Monoid m => (a -> m) -> InstDecl a -> m # foldMap' :: Monoid m => (a -> m) -> InstDecl a -> m # foldr :: (a -> b -> b) -> b -> InstDecl a -> b # foldr' :: (a -> b -> b) -> b -> InstDecl a -> b # foldl :: (b -> a -> b) -> b -> InstDecl a -> b # foldl' :: (b -> a -> b) -> b -> InstDecl a -> b # foldr1 :: (a -> a -> a) -> InstDecl a -> a # foldl1 :: (a -> a -> a) -> InstDecl a -> a # elem :: Eq a => a -> InstDecl a -> Bool # maximum :: Ord a => InstDecl a -> a # minimum :: Ord a => InstDecl a -> a # | |
| Foldable BangType | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => BangType m -> m # foldMap :: Monoid m => (a -> m) -> BangType a -> m # foldMap' :: Monoid m => (a -> m) -> BangType a -> m # foldr :: (a -> b -> b) -> b -> BangType a -> b # foldr' :: (a -> b -> b) -> b -> BangType a -> b # foldl :: (b -> a -> b) -> b -> BangType a -> b # foldl' :: (b -> a -> b) -> b -> BangType a -> b # foldr1 :: (a -> a -> a) -> BangType a -> a # foldl1 :: (a -> a -> a) -> BangType a -> a # elem :: Eq a => a -> BangType a -> Bool # maximum :: Ord a => BangType a -> a # minimum :: Ord a => BangType a -> a # | |
| Foldable Unpackedness | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Unpackedness m -> m # foldMap :: Monoid m => (a -> m) -> Unpackedness a -> m # foldMap' :: Monoid m => (a -> m) -> Unpackedness a -> m # foldr :: (a -> b -> b) -> b -> Unpackedness a -> b # foldr' :: (a -> b -> b) -> b -> Unpackedness a -> b # foldl :: (b -> a -> b) -> b -> Unpackedness a -> b # foldl' :: (b -> a -> b) -> b -> Unpackedness a -> b # foldr1 :: (a -> a -> a) -> Unpackedness a -> a # foldl1 :: (a -> a -> a) -> Unpackedness a -> a # toList :: Unpackedness a -> [a] # null :: Unpackedness a -> Bool # length :: Unpackedness a -> Int # elem :: Eq a => a -> Unpackedness a -> Bool # maximum :: Ord a => Unpackedness a -> a # minimum :: Ord a => Unpackedness a -> a # sum :: Num a => Unpackedness a -> a # product :: Num a => Unpackedness a -> a # | |
| Foldable Rhs | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Rhs m -> m # foldMap :: Monoid m => (a -> m) -> Rhs a -> m # foldMap' :: Monoid m => (a -> m) -> Rhs a -> m # foldr :: (a -> b -> b) -> b -> Rhs a -> b # foldr' :: (a -> b -> b) -> b -> Rhs a -> b # foldl :: (b -> a -> b) -> b -> Rhs a -> b # foldl' :: (b -> a -> b) -> b -> Rhs a -> b # foldr1 :: (a -> a -> a) -> Rhs a -> a # foldl1 :: (a -> a -> a) -> Rhs a -> a # elem :: Eq a => a -> Rhs a -> Bool # maximum :: Ord a => Rhs a -> a # | |
| Foldable GuardedRhs | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => GuardedRhs m -> m # foldMap :: Monoid m => (a -> m) -> GuardedRhs a -> m # foldMap' :: Monoid m => (a -> m) -> GuardedRhs a -> m # foldr :: (a -> b -> b) -> b -> GuardedRhs a -> b # foldr' :: (a -> b -> b) -> b -> GuardedRhs a -> b # foldl :: (b -> a -> b) -> b -> GuardedRhs a -> b # foldl' :: (b -> a -> b) -> b -> GuardedRhs a -> b # foldr1 :: (a -> a -> a) -> GuardedRhs a -> a # foldl1 :: (a -> a -> a) -> GuardedRhs a -> a # toList :: GuardedRhs a -> [a] # null :: GuardedRhs a -> Bool # length :: GuardedRhs a -> Int # elem :: Eq a => a -> GuardedRhs a -> Bool # maximum :: Ord a => GuardedRhs a -> a # minimum :: Ord a => GuardedRhs a -> a # sum :: Num a => GuardedRhs a -> a # product :: Num a => GuardedRhs a -> a # | |
| Foldable Type | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Type m -> m # foldMap :: Monoid m => (a -> m) -> Type a -> m # foldMap' :: Monoid m => (a -> m) -> Type a -> m # foldr :: (a -> b -> b) -> b -> Type a -> b # foldr' :: (a -> b -> b) -> b -> Type a -> b # foldl :: (b -> a -> b) -> b -> Type a -> b # foldl' :: (b -> a -> b) -> b -> Type a -> b # foldr1 :: (a -> a -> a) -> Type a -> a # foldl1 :: (a -> a -> a) -> Type a -> a # elem :: Eq a => a -> Type a -> Bool # maximum :: Ord a => Type a -> a # | |
| Foldable MaybePromotedName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => MaybePromotedName m -> m # foldMap :: Monoid m => (a -> m) -> MaybePromotedName a -> m # foldMap' :: Monoid m => (a -> m) -> MaybePromotedName a -> m # foldr :: (a -> b -> b) -> b -> MaybePromotedName a -> b # foldr' :: (a -> b -> b) -> b -> MaybePromotedName a -> b # foldl :: (b -> a -> b) -> b -> MaybePromotedName a -> b # foldl' :: (b -> a -> b) -> b -> MaybePromotedName a -> b # foldr1 :: (a -> a -> a) -> MaybePromotedName a -> a # foldl1 :: (a -> a -> a) -> MaybePromotedName a -> a # toList :: MaybePromotedName a -> [a] # null :: MaybePromotedName a -> Bool # length :: MaybePromotedName a -> Int # elem :: Eq a => a -> MaybePromotedName a -> Bool # maximum :: Ord a => MaybePromotedName a -> a # minimum :: Ord a => MaybePromotedName a -> a # sum :: Num a => MaybePromotedName a -> a # product :: Num a => MaybePromotedName a -> a # | |
| Foldable Promoted | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Promoted m -> m # foldMap :: Monoid m => (a -> m) -> Promoted a -> m # foldMap' :: Monoid m => (a -> m) -> Promoted a -> m # foldr :: (a -> b -> b) -> b -> Promoted a -> b # foldr' :: (a -> b -> b) -> b -> Promoted a -> b # foldl :: (b -> a -> b) -> b -> Promoted a -> b # foldl' :: (b -> a -> b) -> b -> Promoted a -> b # foldr1 :: (a -> a -> a) -> Promoted a -> a # foldl1 :: (a -> a -> a) -> Promoted a -> a # elem :: Eq a => a -> Promoted a -> Bool # maximum :: Ord a => Promoted a -> a # minimum :: Ord a => Promoted a -> a # | |
| Foldable TyVarBind | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => TyVarBind m -> m # foldMap :: Monoid m => (a -> m) -> TyVarBind a -> m # foldMap' :: Monoid m => (a -> m) -> TyVarBind a -> m # foldr :: (a -> b -> b) -> b -> TyVarBind a -> b # foldr' :: (a -> b -> b) -> b -> TyVarBind a -> b # foldl :: (b -> a -> b) -> b -> TyVarBind a -> b # foldl' :: (b -> a -> b) -> b -> TyVarBind a -> b # foldr1 :: (a -> a -> a) -> TyVarBind a -> a # foldl1 :: (a -> a -> a) -> TyVarBind a -> a # toList :: TyVarBind a -> [a] # length :: TyVarBind a -> Int # elem :: Eq a => a -> TyVarBind a -> Bool # maximum :: Ord a => TyVarBind a -> a # minimum :: Ord a => TyVarBind a -> a # | |
| Foldable FunDep | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => FunDep m -> m # foldMap :: Monoid m => (a -> m) -> FunDep a -> m # foldMap' :: Monoid m => (a -> m) -> FunDep a -> m # foldr :: (a -> b -> b) -> b -> FunDep a -> b # foldr' :: (a -> b -> b) -> b -> FunDep a -> b # foldl :: (b -> a -> b) -> b -> FunDep a -> b # foldl' :: (b -> a -> b) -> b -> FunDep a -> b # foldr1 :: (a -> a -> a) -> FunDep a -> a # foldl1 :: (a -> a -> a) -> FunDep a -> a # elem :: Eq a => a -> FunDep a -> Bool # maximum :: Ord a => FunDep a -> a # minimum :: Ord a => FunDep a -> a # | |
| Foldable Context | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Context m -> m # foldMap :: Monoid m => (a -> m) -> Context a -> m # foldMap' :: Monoid m => (a -> m) -> Context a -> m # foldr :: (a -> b -> b) -> b -> Context a -> b # foldr' :: (a -> b -> b) -> b -> Context a -> b # foldl :: (b -> a -> b) -> b -> Context a -> b # foldl' :: (b -> a -> b) -> b -> Context a -> b # foldr1 :: (a -> a -> a) -> Context a -> a # foldl1 :: (a -> a -> a) -> Context a -> a # elem :: Eq a => a -> Context a -> Bool # maximum :: Ord a => Context a -> a # minimum :: Ord a => Context a -> a # | |
| Foldable Asst | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Asst m -> m # foldMap :: Monoid m => (a -> m) -> Asst a -> m # foldMap' :: Monoid m => (a -> m) -> Asst a -> m # foldr :: (a -> b -> b) -> b -> Asst a -> b # foldr' :: (a -> b -> b) -> b -> Asst a -> b # foldl :: (b -> a -> b) -> b -> Asst a -> b # foldl' :: (b -> a -> b) -> b -> Asst a -> b # foldr1 :: (a -> a -> a) -> Asst a -> a # foldl1 :: (a -> a -> a) -> Asst a -> a # elem :: Eq a => a -> Asst a -> Bool # maximum :: Ord a => Asst a -> a # | |
| Foldable Literal | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Literal m -> m # foldMap :: Monoid m => (a -> m) -> Literal a -> m # foldMap' :: Monoid m => (a -> m) -> Literal a -> m # foldr :: (a -> b -> b) -> b -> Literal a -> b # foldr' :: (a -> b -> b) -> b -> Literal a -> b # foldl :: (b -> a -> b) -> b -> Literal a -> b # foldl' :: (b -> a -> b) -> b -> Literal a -> b # foldr1 :: (a -> a -> a) -> Literal a -> a # foldl1 :: (a -> a -> a) -> Literal a -> a # elem :: Eq a => a -> Literal a -> Bool # maximum :: Ord a => Literal a -> a # minimum :: Ord a => Literal a -> a # | |
| Foldable Sign | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Sign m -> m # foldMap :: Monoid m => (a -> m) -> Sign a -> m # foldMap' :: Monoid m => (a -> m) -> Sign a -> m # foldr :: (a -> b -> b) -> b -> Sign a -> b # foldr' :: (a -> b -> b) -> b -> Sign a -> b # foldl :: (b -> a -> b) -> b -> Sign a -> b # foldl' :: (b -> a -> b) -> b -> Sign a -> b # foldr1 :: (a -> a -> a) -> Sign a -> a # foldl1 :: (a -> a -> a) -> Sign a -> a # elem :: Eq a => a -> Sign a -> Bool # maximum :: Ord a => Sign a -> a # | |
| Foldable Exp | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Exp m -> m # foldMap :: Monoid m => (a -> m) -> Exp a -> m # foldMap' :: Monoid m => (a -> m) -> Exp a -> m # foldr :: (a -> b -> b) -> b -> Exp a -> b # foldr' :: (a -> b -> b) -> b -> Exp a -> b # foldl :: (b -> a -> b) -> b -> Exp a -> b # foldl' :: (b -> a -> b) -> b -> Exp a -> b # foldr1 :: (a -> a -> a) -> Exp a -> a # foldl1 :: (a -> a -> a) -> Exp a -> a # elem :: Eq a => a -> Exp a -> Bool # maximum :: Ord a => Exp a -> a # | |
| Foldable XName | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => XName m -> m # foldMap :: Monoid m => (a -> m) -> XName a -> m # foldMap' :: Monoid m => (a -> m) -> XName a -> m # foldr :: (a -> b -> b) -> b -> XName a -> b # foldr' :: (a -> b -> b) -> b -> XName a -> b # foldl :: (b -> a -> b) -> b -> XName a -> b # foldl' :: (b -> a -> b) -> b -> XName a -> b # foldr1 :: (a -> a -> a) -> XName a -> a # foldl1 :: (a -> a -> a) -> XName a -> a # elem :: Eq a => a -> XName a -> Bool # maximum :: Ord a => XName a -> a # minimum :: Ord a => XName a -> a # | |
| Foldable XAttr | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => XAttr m -> m # foldMap :: Monoid m => (a -> m) -> XAttr a -> m # foldMap' :: Monoid m => (a -> m) -> XAttr a -> m # foldr :: (a -> b -> b) -> b -> XAttr a -> b # foldr' :: (a -> b -> b) -> b -> XAttr a -> b # foldl :: (b -> a -> b) -> b -> XAttr a -> b # foldl' :: (b -> a -> b) -> b -> XAttr a -> b # foldr1 :: (a -> a -> a) -> XAttr a -> a # foldl1 :: (a -> a -> a) -> XAttr a -> a # elem :: Eq a => a -> XAttr a -> Bool # maximum :: Ord a => XAttr a -> a # minimum :: Ord a => XAttr a -> a # | |
| Foldable Bracket | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Bracket m -> m # foldMap :: Monoid m => (a -> m) -> Bracket a -> m # foldMap' :: Monoid m => (a -> m) -> Bracket a -> m # foldr :: (a -> b -> b) -> b -> Bracket a -> b # foldr' :: (a -> b -> b) -> b -> Bracket a -> b # foldl :: (b -> a -> b) -> b -> Bracket a -> b # foldl' :: (b -> a -> b) -> b -> Bracket a -> b # foldr1 :: (a -> a -> a) -> Bracket a -> a # foldl1 :: (a -> a -> a) -> Bracket a -> a # elem :: Eq a => a -> Bracket a -> Bool # maximum :: Ord a => Bracket a -> a # minimum :: Ord a => Bracket a -> a # | |
| Foldable Splice | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Splice m -> m # foldMap :: Monoid m => (a -> m) -> Splice a -> m # foldMap' :: Monoid m => (a -> m) -> Splice a -> m # foldr :: (a -> b -> b) -> b -> Splice a -> b # foldr' :: (a -> b -> b) -> b -> Splice a -> b # foldl :: (b -> a -> b) -> b -> Splice a -> b # foldl' :: (b -> a -> b) -> b -> Splice a -> b # foldr1 :: (a -> a -> a) -> Splice a -> a # foldl1 :: (a -> a -> a) -> Splice a -> a # elem :: Eq a => a -> Splice a -> Bool # maximum :: Ord a => Splice a -> a # minimum :: Ord a => Splice a -> a # | |
| Foldable Safety | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Safety m -> m # foldMap :: Monoid m => (a -> m) -> Safety a -> m # foldMap' :: Monoid m => (a -> m) -> Safety a -> m # foldr :: (a -> b -> b) -> b -> Safety a -> b # foldr' :: (a -> b -> b) -> b -> Safety a -> b # foldl :: (b -> a -> b) -> b -> Safety a -> b # foldl' :: (b -> a -> b) -> b -> Safety a -> b # foldr1 :: (a -> a -> a) -> Safety a -> a # foldl1 :: (a -> a -> a) -> Safety a -> a # elem :: Eq a => a -> Safety a -> Bool # maximum :: Ord a => Safety a -> a # minimum :: Ord a => Safety a -> a # | |
| Foldable CallConv | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => CallConv m -> m # foldMap :: Monoid m => (a -> m) -> CallConv a -> m # foldMap' :: Monoid m => (a -> m) -> CallConv a -> m # foldr :: (a -> b -> b) -> b -> CallConv a -> b # foldr' :: (a -> b -> b) -> b -> CallConv a -> b # foldl :: (b -> a -> b) -> b -> CallConv a -> b # foldl' :: (b -> a -> b) -> b -> CallConv a -> b # foldr1 :: (a -> a -> a) -> CallConv a -> a # foldl1 :: (a -> a -> a) -> CallConv a -> a # elem :: Eq a => a -> CallConv a -> Bool # maximum :: Ord a => CallConv a -> a # minimum :: Ord a => CallConv a -> a # | |
| Foldable ModulePragma | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => ModulePragma m -> m # foldMap :: Monoid m => (a -> m) -> ModulePragma a -> m # foldMap' :: Monoid m => (a -> m) -> ModulePragma a -> m # foldr :: (a -> b -> b) -> b -> ModulePragma a -> b # foldr' :: (a -> b -> b) -> b -> ModulePragma a -> b # foldl :: (b -> a -> b) -> b -> ModulePragma a -> b # foldl' :: (b -> a -> b) -> b -> ModulePragma a -> b # foldr1 :: (a -> a -> a) -> ModulePragma a -> a # foldl1 :: (a -> a -> a) -> ModulePragma a -> a # toList :: ModulePragma a -> [a] # null :: ModulePragma a -> Bool # length :: ModulePragma a -> Int # elem :: Eq a => a -> ModulePragma a -> Bool # maximum :: Ord a => ModulePragma a -> a # minimum :: Ord a => ModulePragma a -> a # sum :: Num a => ModulePragma a -> a # product :: Num a => ModulePragma a -> a # | |
| Foldable Overlap | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Overlap m -> m # foldMap :: Monoid m => (a -> m) -> Overlap a -> m # foldMap' :: Monoid m => (a -> m) -> Overlap a -> m # foldr :: (a -> b -> b) -> b -> Overlap a -> b # foldr' :: (a -> b -> b) -> b -> Overlap a -> b # foldl :: (b -> a -> b) -> b -> Overlap a -> b # foldl' :: (b -> a -> b) -> b -> Overlap a -> b # foldr1 :: (a -> a -> a) -> Overlap a -> a # foldl1 :: (a -> a -> a) -> Overlap a -> a # elem :: Eq a => a -> Overlap a -> Bool # maximum :: Ord a => Overlap a -> a # minimum :: Ord a => Overlap a -> a # | |
| Foldable Activation | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Activation m -> m # foldMap :: Monoid m => (a -> m) -> Activation a -> m # foldMap' :: Monoid m => (a -> m) -> Activation a -> m # foldr :: (a -> b -> b) -> b -> Activation a -> b # foldr' :: (a -> b -> b) -> b -> Activation a -> b # foldl :: (b -> a -> b) -> b -> Activation a -> b # foldl' :: (b -> a -> b) -> b -> Activation a -> b # foldr1 :: (a -> a -> a) -> Activation a -> a # foldl1 :: (a -> a -> a) -> Activation a -> a # toList :: Activation a -> [a] # null :: Activation a -> Bool # length :: Activation a -> Int # elem :: Eq a => a -> Activation a -> Bool # maximum :: Ord a => Activation a -> a # minimum :: Ord a => Activation a -> a # sum :: Num a => Activation a -> a # product :: Num a => Activation a -> a # | |
| Foldable Rule | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Rule m -> m # foldMap :: Monoid m => (a -> m) -> Rule a -> m # foldMap' :: Monoid m => (a -> m) -> Rule a -> m # foldr :: (a -> b -> b) -> b -> Rule a -> b # foldr' :: (a -> b -> b) -> b -> Rule a -> b # foldl :: (b -> a -> b) -> b -> Rule a -> b # foldl' :: (b -> a -> b) -> b -> Rule a -> b # foldr1 :: (a -> a -> a) -> Rule a -> a # foldl1 :: (a -> a -> a) -> Rule a -> a # elem :: Eq a => a -> Rule a -> Bool # maximum :: Ord a => Rule a -> a # | |
| Foldable RuleVar | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => RuleVar m -> m # foldMap :: Monoid m => (a -> m) -> RuleVar a -> m # foldMap' :: Monoid m => (a -> m) -> RuleVar a -> m # foldr :: (a -> b -> b) -> b -> RuleVar a -> b # foldr' :: (a -> b -> b) -> b -> RuleVar a -> b # foldl :: (b -> a -> b) -> b -> RuleVar a -> b # foldl' :: (b -> a -> b) -> b -> RuleVar a -> b # foldr1 :: (a -> a -> a) -> RuleVar a -> a # foldl1 :: (a -> a -> a) -> RuleVar a -> a # elem :: Eq a => a -> RuleVar a -> Bool # maximum :: Ord a => RuleVar a -> a # minimum :: Ord a => RuleVar a -> a # | |
| Foldable WarningText | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => WarningText m -> m # foldMap :: Monoid m => (a -> m) -> WarningText a -> m # foldMap' :: Monoid m => (a -> m) -> WarningText a -> m # foldr :: (a -> b -> b) -> b -> WarningText a -> b # foldr' :: (a -> b -> b) -> b -> WarningText a -> b # foldl :: (b -> a -> b) -> b -> WarningText a -> b # foldl' :: (b -> a -> b) -> b -> WarningText a -> b # foldr1 :: (a -> a -> a) -> WarningText a -> a # foldl1 :: (a -> a -> a) -> WarningText a -> a # toList :: WarningText a -> [a] # null :: WarningText a -> Bool # length :: WarningText a -> Int # elem :: Eq a => a -> WarningText a -> Bool # maximum :: Ord a => WarningText a -> a # minimum :: Ord a => WarningText a -> a # sum :: Num a => WarningText a -> a # product :: Num a => WarningText a -> a # | |
| Foldable Pat | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Pat m -> m # foldMap :: Monoid m => (a -> m) -> Pat a -> m # foldMap' :: Monoid m => (a -> m) -> Pat a -> m # foldr :: (a -> b -> b) -> b -> Pat a -> b # foldr' :: (a -> b -> b) -> b -> Pat a -> b # foldl :: (b -> a -> b) -> b -> Pat a -> b # foldl' :: (b -> a -> b) -> b -> Pat a -> b # foldr1 :: (a -> a -> a) -> Pat a -> a # foldl1 :: (a -> a -> a) -> Pat a -> a # elem :: Eq a => a -> Pat a -> Bool # maximum :: Ord a => Pat a -> a # | |
| Foldable PXAttr | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => PXAttr m -> m # foldMap :: Monoid m => (a -> m) -> PXAttr a -> m # foldMap' :: Monoid m => (a -> m) -> PXAttr a -> m # foldr :: (a -> b -> b) -> b -> PXAttr a -> b # foldr' :: (a -> b -> b) -> b -> PXAttr a -> b # foldl :: (b -> a -> b) -> b -> PXAttr a -> b # foldl' :: (b -> a -> b) -> b -> PXAttr a -> b # foldr1 :: (a -> a -> a) -> PXAttr a -> a # foldl1 :: (a -> a -> a) -> PXAttr a -> a # elem :: Eq a => a -> PXAttr a -> Bool # maximum :: Ord a => PXAttr a -> a # minimum :: Ord a => PXAttr a -> a # | |
| Foldable RPatOp | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => RPatOp m -> m # foldMap :: Monoid m => (a -> m) -> RPatOp a -> m # foldMap' :: Monoid m => (a -> m) -> RPatOp a -> m # foldr :: (a -> b -> b) -> b -> RPatOp a -> b # foldr' :: (a -> b -> b) -> b -> RPatOp a -> b # foldl :: (b -> a -> b) -> b -> RPatOp a -> b # foldl' :: (b -> a -> b) -> b -> RPatOp a -> b # foldr1 :: (a -> a -> a) -> RPatOp a -> a # foldl1 :: (a -> a -> a) -> RPatOp a -> a # elem :: Eq a => a -> RPatOp a -> Bool # maximum :: Ord a => RPatOp a -> a # minimum :: Ord a => RPatOp a -> a # | |
| Foldable RPat | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => RPat m -> m # foldMap :: Monoid m => (a -> m) -> RPat a -> m # foldMap' :: Monoid m => (a -> m) -> RPat a -> m # foldr :: (a -> b -> b) -> b -> RPat a -> b # foldr' :: (a -> b -> b) -> b -> RPat a -> b # foldl :: (b -> a -> b) -> b -> RPat a -> b # foldl' :: (b -> a -> b) -> b -> RPat a -> b # foldr1 :: (a -> a -> a) -> RPat a -> a # foldl1 :: (a -> a -> a) -> RPat a -> a # elem :: Eq a => a -> RPat a -> Bool # maximum :: Ord a => RPat a -> a # | |
| Foldable PatField | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => PatField m -> m # foldMap :: Monoid m => (a -> m) -> PatField a -> m # foldMap' :: Monoid m => (a -> m) -> PatField a -> m # foldr :: (a -> b -> b) -> b -> PatField a -> b # foldr' :: (a -> b -> b) -> b -> PatField a -> b # foldl :: (b -> a -> b) -> b -> PatField a -> b # foldl' :: (b -> a -> b) -> b -> PatField a -> b # foldr1 :: (a -> a -> a) -> PatField a -> a # foldl1 :: (a -> a -> a) -> PatField a -> a # elem :: Eq a => a -> PatField a -> Bool # maximum :: Ord a => PatField a -> a # minimum :: Ord a => PatField a -> a # | |
| Foldable Stmt | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Stmt m -> m # foldMap :: Monoid m => (a -> m) -> Stmt a -> m # foldMap' :: Monoid m => (a -> m) -> Stmt a -> m # foldr :: (a -> b -> b) -> b -> Stmt a -> b # foldr' :: (a -> b -> b) -> b -> Stmt a -> b # foldl :: (b -> a -> b) -> b -> Stmt a -> b # foldl' :: (b -> a -> b) -> b -> Stmt a -> b # foldr1 :: (a -> a -> a) -> Stmt a -> a # foldl1 :: (a -> a -> a) -> Stmt a -> a # elem :: Eq a => a -> Stmt a -> Bool # maximum :: Ord a => Stmt a -> a # | |
| Foldable QualStmt | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => QualStmt m -> m # foldMap :: Monoid m => (a -> m) -> QualStmt a -> m # foldMap' :: Monoid m => (a -> m) -> QualStmt a -> m # foldr :: (a -> b -> b) -> b -> QualStmt a -> b # foldr' :: (a -> b -> b) -> b -> QualStmt a -> b # foldl :: (b -> a -> b) -> b -> QualStmt a -> b # foldl' :: (b -> a -> b) -> b -> QualStmt a -> b # foldr1 :: (a -> a -> a) -> QualStmt a -> a # foldl1 :: (a -> a -> a) -> QualStmt a -> a # elem :: Eq a => a -> QualStmt a -> Bool # maximum :: Ord a => QualStmt a -> a # minimum :: Ord a => QualStmt a -> a # | |
| Foldable FieldUpdate | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => FieldUpdate m -> m # foldMap :: Monoid m => (a -> m) -> FieldUpdate a -> m # foldMap' :: Monoid m => (a -> m) -> FieldUpdate a -> m # foldr :: (a -> b -> b) -> b -> FieldUpdate a -> b # foldr' :: (a -> b -> b) -> b -> FieldUpdate a -> b # foldl :: (b -> a -> b) -> b -> FieldUpdate a -> b # foldl' :: (b -> a -> b) -> b -> FieldUpdate a -> b # foldr1 :: (a -> a -> a) -> FieldUpdate a -> a # foldl1 :: (a -> a -> a) -> FieldUpdate a -> a # toList :: FieldUpdate a -> [a] # null :: FieldUpdate a -> Bool # length :: FieldUpdate a -> Int # elem :: Eq a => a -> FieldUpdate a -> Bool # maximum :: Ord a => FieldUpdate a -> a # minimum :: Ord a => FieldUpdate a -> a # sum :: Num a => FieldUpdate a -> a # product :: Num a => FieldUpdate a -> a # | |
| Foldable Alt | |
Defined in Language.Haskell.Exts.Syntax Methods fold :: Monoid m => Alt m -> m # foldMap :: Monoid m => (a -> m) -> Alt a -> m # foldMap' :: Monoid m => (a -> m) -> Alt a -> m # foldr :: (a -> b -> b) -> b -> Alt a -> b # foldr' :: (a -> b -> b) -> b -> Alt a -> b # foldl :: (b -> a -> b) -> b -> Alt a -> b # foldl' :: (b -> a -> b) -> b -> Alt a -> b # foldr1 :: (a -> a -> a) -> Alt a -> a # foldl1 :: (a -> a -> a) -> Alt a -> a # elem :: Eq a => a -> Alt a -> Bool # maximum :: Ord a => Alt a -> a # | |
| Foldable HashSet | |
Defined in Data.HashSet.Internal Methods fold :: Monoid m => HashSet m -> m # foldMap :: Monoid m => (a -> m) -> HashSet a -> m # foldMap' :: Monoid m => (a -> m) -> HashSet a -> m # foldr :: (a -> b -> b) -> b -> HashSet a -> b # foldr' :: (a -> b -> b) -> b -> HashSet a -> b # foldl :: (b -> a -> b) -> b -> HashSet a -> b # foldl' :: (b -> a -> b) -> b -> HashSet a -> b # foldr1 :: (a -> a -> a) -> HashSet a -> a # foldl1 :: (a -> a -> a) -> HashSet a -> a # elem :: Eq a => a -> HashSet a -> Bool # maximum :: Ord a => HashSet a -> a # minimum :: Ord a => HashSet a -> a # | |
| Foldable Vector | |
Defined in Data.Vector Methods fold :: Monoid m => Vector m -> m # foldMap :: Monoid m => (a -> m) -> Vector a -> m # foldMap' :: Monoid m => (a -> m) -> Vector a -> m # foldr :: (a -> b -> b) -> b -> Vector a -> b # foldr' :: (a -> b -> b) -> b -> Vector a -> b # foldl :: (b -> a -> b) -> b -> Vector a -> b # foldl' :: (b -> a -> b) -> b -> Vector a -> b # foldr1 :: (a -> a -> a) -> Vector a -> a # foldl1 :: (a -> a -> a) -> Vector a -> a # elem :: Eq a => a -> Vector a -> Bool # maximum :: Ord a => Vector a -> a # minimum :: Ord a => Vector a -> a # | |
| Foldable SmallArray | |
Defined in Data.Primitive.SmallArray Methods fold :: Monoid m => SmallArray m -> m # foldMap :: Monoid m => (a -> m) -> SmallArray a -> m # foldMap' :: Monoid m => (a -> m) -> SmallArray a -> m # foldr :: (a -> b -> b) -> b -> SmallArray a -> b # foldr' :: (a -> b -> b) -> b -> SmallArray a -> b # foldl :: (b -> a -> b) -> b -> SmallArray a -> b # foldl' :: (b -> a -> b) -> b -> SmallArray a -> b # foldr1 :: (a -> a -> a) -> SmallArray a -> a # foldl1 :: (a -> a -> a) -> SmallArray a -> a # toList :: SmallArray a -> [a] # null :: SmallArray a -> Bool # length :: SmallArray a -> Int # elem :: Eq a => a -> SmallArray a -> Bool # maximum :: Ord a => SmallArray a -> a # minimum :: Ord a => SmallArray a -> a # sum :: Num a => SmallArray a -> a # product :: Num a => SmallArray a -> a # | |
| Foldable Array | |
Defined in Data.Primitive.Array Methods fold :: Monoid m => Array m -> m # foldMap :: Monoid m => (a -> m) -> Array a -> m # foldMap' :: Monoid m => (a -> m) -> Array a -> m # foldr :: (a -> b -> b) -> b -> Array a -> b # foldr' :: (a -> b -> b) -> b -> Array a -> b # foldl :: (b -> a -> b) -> b -> Array a -> b # foldl' :: (b -> a -> b) -> b -> Array a -> b # foldr1 :: (a -> a -> a) -> Array a -> a # foldl1 :: (a -> a -> a) -> Array a -> a # elem :: Eq a => a -> Array a -> Bool # maximum :: Ord a => Array a -> a # minimum :: Ord a => Array a -> a # | |
| Foldable Maybe | |
Defined in Data.Strict.Maybe Methods fold :: Monoid m => Maybe m -> m # foldMap :: Monoid m => (a -> m) -> Maybe a -> m # foldMap' :: Monoid m => (a -> m) -> Maybe a -> m # foldr :: (a -> b -> b) -> b -> Maybe a -> b # foldr' :: (a -> b -> b) -> b -> Maybe a -> b # foldl :: (b -> a -> b) -> b -> Maybe a -> b # foldl' :: (b -> a -> b) -> b -> Maybe a -> b # foldr1 :: (a -> a -> a) -> Maybe a -> a # foldl1 :: (a -> a -> a) -> Maybe a -> a # elem :: Eq a => a -> Maybe a -> Bool # maximum :: Ord a => Maybe a -> a # minimum :: Ord a => Maybe a -> a # | |
| Foldable PrimitiveGuard Source # | |
Defined in Clash.Annotations.Primitive Methods fold :: Monoid m => PrimitiveGuard m -> m # foldMap :: Monoid m => (a -> m) -> PrimitiveGuard a -> m # foldMap' :: Monoid m => (a -> m) -> PrimitiveGuard a -> m # foldr :: (a -> b -> b) -> b -> PrimitiveGuard a -> b # foldr' :: (a -> b -> b) -> b -> PrimitiveGuard a -> b # foldl :: (b -> a -> b) -> b -> PrimitiveGuard a -> b # foldl' :: (b -> a -> b) -> b -> PrimitiveGuard a -> b # foldr1 :: (a -> a -> a) -> PrimitiveGuard a -> a # foldl1 :: (a -> a -> a) -> PrimitiveGuard a -> a # toList :: PrimitiveGuard a -> [a] # null :: PrimitiveGuard a -> Bool # length :: PrimitiveGuard a -> Int # elem :: Eq a => a -> PrimitiveGuard a -> Bool # maximum :: Ord a => PrimitiveGuard a -> a # minimum :: Ord a => PrimitiveGuard a -> a # sum :: Num a => PrimitiveGuard a -> a # product :: Num a => PrimitiveGuard a -> a # | |
| Foldable SimOnly Source # | |
Defined in Clash.Magic Methods fold :: Monoid m => SimOnly m -> m # foldMap :: Monoid m => (a -> m) -> SimOnly a -> m # foldMap' :: Monoid m => (a -> m) -> SimOnly a -> m # foldr :: (a -> b -> b) -> b -> SimOnly a -> b # foldr' :: (a -> b -> b) -> b -> SimOnly a -> b # foldl :: (b -> a -> b) -> b -> SimOnly a -> b # foldl' :: (b -> a -> b) -> b -> SimOnly a -> b # foldr1 :: (a -> a -> a) -> SimOnly a -> a # foldl1 :: (a -> a -> a) -> SimOnly a -> a # elem :: Eq a => a -> SimOnly a -> Bool # maximum :: Ord a => SimOnly a -> a # minimum :: Ord a => SimOnly a -> a # | |
| Foldable Property' Source # | |
Defined in Clash.Verification.Internal Methods fold :: Monoid m => Property' m -> m # foldMap :: Monoid m => (a -> m) -> Property' a -> m # foldMap' :: Monoid m => (a -> m) -> Property' a -> m # foldr :: (a -> b -> b) -> b -> Property' a -> b # foldr' :: (a -> b -> b) -> b -> Property' a -> b # foldl :: (b -> a -> b) -> b -> Property' a -> b # foldl' :: (b -> a -> b) -> b -> Property' a -> b # foldr1 :: (a -> a -> a) -> Property' a -> a # foldl1 :: (a -> a -> a) -> Property' a -> a # toList :: Property' a -> [a] # length :: Property' a -> Int # elem :: Eq a => a -> Property' a -> Bool # maximum :: Ord a => Property' a -> a # minimum :: Ord a => Property' a -> a # | |
| Foldable Assertion' Source # | |
Defined in Clash.Verification.Internal Methods fold :: Monoid m => Assertion' m -> m # foldMap :: Monoid m => (a -> m) -> Assertion' a -> m # foldMap' :: Monoid m => (a -> m) -> Assertion' a -> m # foldr :: (a -> b -> b) -> b -> Assertion' a -> b # foldr' :: (a -> b -> b) -> b -> Assertion' a -> b # foldl :: (b -> a -> b) -> b -> Assertion' a -> b # foldl' :: (b -> a -> b) -> b -> Assertion' a -> b # foldr1 :: (a -> a -> a) -> Assertion' a -> a # foldl1 :: (a -> a -> a) -> Assertion' a -> a # toList :: Assertion' a -> [a] # null :: Assertion' a -> Bool # length :: Assertion' a -> Int # elem :: Eq a => a -> Assertion' a -> Bool # maximum :: Ord a => Assertion' a -> a # minimum :: Ord a => Assertion' a -> a # sum :: Num a => Assertion' a -> a # product :: Num a => Assertion' a -> a # | |
| Foldable (Either a) | Since: base-4.7.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Either a m -> m # foldMap :: Monoid m => (a0 -> m) -> Either a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Either a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Either a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Either a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Either a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Either a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Either a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Either a a0 -> a0 # toList :: Either a a0 -> [a0] # length :: Either a a0 -> Int # elem :: Eq a0 => a0 -> Either a a0 -> Bool # maximum :: Ord a0 => Either a a0 -> a0 # minimum :: Ord a0 => Either a a0 -> a0 # | |
| Foldable (V1 :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => V1 m -> m # foldMap :: Monoid m => (a -> m) -> V1 a -> m # foldMap' :: Monoid m => (a -> m) -> V1 a -> m # foldr :: (a -> b -> b) -> b -> V1 a -> b # foldr' :: (a -> b -> b) -> b -> V1 a -> b # foldl :: (b -> a -> b) -> b -> V1 a -> b # foldl' :: (b -> a -> b) -> b -> V1 a -> b # foldr1 :: (a -> a -> a) -> V1 a -> a # foldl1 :: (a -> a -> a) -> V1 a -> a # elem :: Eq a => a -> V1 a -> Bool # maximum :: Ord a => V1 a -> a # | |
| Foldable (U1 :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => U1 m -> m # foldMap :: Monoid m => (a -> m) -> U1 a -> m # foldMap' :: Monoid m => (a -> m) -> U1 a -> m # foldr :: (a -> b -> b) -> b -> U1 a -> b # foldr' :: (a -> b -> b) -> b -> U1 a -> b # foldl :: (b -> a -> b) -> b -> U1 a -> b # foldl' :: (b -> a -> b) -> b -> U1 a -> b # foldr1 :: (a -> a -> a) -> U1 a -> a # foldl1 :: (a -> a -> a) -> U1 a -> a # elem :: Eq a => a -> U1 a -> Bool # maximum :: Ord a => U1 a -> a # | |
| Foldable (UAddr :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UAddr m -> m # foldMap :: Monoid m => (a -> m) -> UAddr a -> m # foldMap' :: Monoid m => (a -> m) -> UAddr a -> m # foldr :: (a -> b -> b) -> b -> UAddr a -> b # foldr' :: (a -> b -> b) -> b -> UAddr a -> b # foldl :: (b -> a -> b) -> b -> UAddr a -> b # foldl' :: (b -> a -> b) -> b -> UAddr a -> b # foldr1 :: (a -> a -> a) -> UAddr a -> a # foldl1 :: (a -> a -> a) -> UAddr a -> a # elem :: Eq a => a -> UAddr a -> Bool # maximum :: Ord a => UAddr a -> a # minimum :: Ord a => UAddr a -> a # | |
| Foldable (UChar :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UChar m -> m # foldMap :: Monoid m => (a -> m) -> UChar a -> m # foldMap' :: Monoid m => (a -> m) -> UChar a -> m # foldr :: (a -> b -> b) -> b -> UChar a -> b # foldr' :: (a -> b -> b) -> b -> UChar a -> b # foldl :: (b -> a -> b) -> b -> UChar a -> b # foldl' :: (b -> a -> b) -> b -> UChar a -> b # foldr1 :: (a -> a -> a) -> UChar a -> a # foldl1 :: (a -> a -> a) -> UChar a -> a # elem :: Eq a => a -> UChar a -> Bool # maximum :: Ord a => UChar a -> a # minimum :: Ord a => UChar a -> a # | |
| Foldable (UDouble :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UDouble m -> m # foldMap :: Monoid m => (a -> m) -> UDouble a -> m # foldMap' :: Monoid m => (a -> m) -> UDouble a -> m # foldr :: (a -> b -> b) -> b -> UDouble a -> b # foldr' :: (a -> b -> b) -> b -> UDouble a -> b # foldl :: (b -> a -> b) -> b -> UDouble a -> b # foldl' :: (b -> a -> b) -> b -> UDouble a -> b # foldr1 :: (a -> a -> a) -> UDouble a -> a # foldl1 :: (a -> a -> a) -> UDouble a -> a # elem :: Eq a => a -> UDouble a -> Bool # maximum :: Ord a => UDouble a -> a # minimum :: Ord a => UDouble a -> a # | |
| Foldable (UFloat :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UFloat m -> m # foldMap :: Monoid m => (a -> m) -> UFloat a -> m # foldMap' :: Monoid m => (a -> m) -> UFloat a -> m # foldr :: (a -> b -> b) -> b -> UFloat a -> b # foldr' :: (a -> b -> b) -> b -> UFloat a -> b # foldl :: (b -> a -> b) -> b -> UFloat a -> b # foldl' :: (b -> a -> b) -> b -> UFloat a -> b # foldr1 :: (a -> a -> a) -> UFloat a -> a # foldl1 :: (a -> a -> a) -> UFloat a -> a # elem :: Eq a => a -> UFloat a -> Bool # maximum :: Ord a => UFloat a -> a # minimum :: Ord a => UFloat a -> a # | |
| Foldable (UInt :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UInt m -> m # foldMap :: Monoid m => (a -> m) -> UInt a -> m # foldMap' :: Monoid m => (a -> m) -> UInt a -> m # foldr :: (a -> b -> b) -> b -> UInt a -> b # foldr' :: (a -> b -> b) -> b -> UInt a -> b # foldl :: (b -> a -> b) -> b -> UInt a -> b # foldl' :: (b -> a -> b) -> b -> UInt a -> b # foldr1 :: (a -> a -> a) -> UInt a -> a # foldl1 :: (a -> a -> a) -> UInt a -> a # elem :: Eq a => a -> UInt a -> Bool # maximum :: Ord a => UInt a -> a # | |
| Foldable (UWord :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UWord m -> m # foldMap :: Monoid m => (a -> m) -> UWord a -> m # foldMap' :: Monoid m => (a -> m) -> UWord a -> m # foldr :: (a -> b -> b) -> b -> UWord a -> b # foldr' :: (a -> b -> b) -> b -> UWord a -> b # foldl :: (b -> a -> b) -> b -> UWord a -> b # foldl' :: (b -> a -> b) -> b -> UWord a -> b # foldr1 :: (a -> a -> a) -> UWord a -> a # foldl1 :: (a -> a -> a) -> UWord a -> a # elem :: Eq a => a -> UWord a -> Bool # maximum :: Ord a => UWord a -> a # minimum :: Ord a => UWord a -> a # | |
| Foldable ((,) a) | Since: base-4.7.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => (a, m) -> m # foldMap :: Monoid m => (a0 -> m) -> (a, a0) -> m # foldMap' :: Monoid m => (a0 -> m) -> (a, a0) -> m # foldr :: (a0 -> b -> b) -> b -> (a, a0) -> b # foldr' :: (a0 -> b -> b) -> b -> (a, a0) -> b # foldl :: (b -> a0 -> b) -> b -> (a, a0) -> b # foldl' :: (b -> a0 -> b) -> b -> (a, a0) -> b # foldr1 :: (a0 -> a0 -> a0) -> (a, a0) -> a0 # foldl1 :: (a0 -> a0 -> a0) -> (a, a0) -> a0 # elem :: Eq a0 => a0 -> (a, a0) -> Bool # maximum :: Ord a0 => (a, a0) -> a0 # minimum :: Ord a0 => (a, a0) -> a0 # | |
| Foldable (Array i) | Since: base-4.8.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Array i m -> m # foldMap :: Monoid m => (a -> m) -> Array i a -> m # foldMap' :: Monoid m => (a -> m) -> Array i a -> m # foldr :: (a -> b -> b) -> b -> Array i a -> b # foldr' :: (a -> b -> b) -> b -> Array i a -> b # foldl :: (b -> a -> b) -> b -> Array i a -> b # foldl' :: (b -> a -> b) -> b -> Array i a -> b # foldr1 :: (a -> a -> a) -> Array i a -> a # foldl1 :: (a -> a -> a) -> Array i a -> a # elem :: Eq a => a -> Array i a -> Bool # maximum :: Ord a => Array i a -> a # minimum :: Ord a => Array i a -> a # | |
| Foldable (Arg a) | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods fold :: Monoid m => Arg a m -> m # foldMap :: Monoid m => (a0 -> m) -> Arg a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Arg a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Arg a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Arg a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Arg a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Arg a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Arg a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Arg a a0 -> a0 # elem :: Eq a0 => a0 -> Arg a a0 -> Bool # maximum :: Ord a0 => Arg a a0 -> a0 # minimum :: Ord a0 => Arg a a0 -> a0 # | |
| Foldable (Proxy :: Type -> Type) | Since: base-4.7.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Proxy m -> m # foldMap :: Monoid m => (a -> m) -> Proxy a -> m # foldMap' :: Monoid m => (a -> m) -> Proxy a -> m # foldr :: (a -> b -> b) -> b -> Proxy a -> b # foldr' :: (a -> b -> b) -> b -> Proxy a -> b # foldl :: (b -> a -> b) -> b -> Proxy a -> b # foldl' :: (b -> a -> b) -> b -> Proxy a -> b # foldr1 :: (a -> a -> a) -> Proxy a -> a # foldl1 :: (a -> a -> a) -> Proxy a -> a # elem :: Eq a => a -> Proxy a -> Bool # maximum :: Ord a => Proxy a -> a # minimum :: Ord a => Proxy a -> a # | |
| Foldable (Map k) | Folds in order of increasing key. |
Defined in Data.Map.Internal Methods fold :: Monoid m => Map k m -> m # foldMap :: Monoid m => (a -> m) -> Map k a -> m # foldMap' :: Monoid m => (a -> m) -> Map k a -> m # foldr :: (a -> b -> b) -> b -> Map k a -> b # foldr' :: (a -> b -> b) -> b -> Map k a -> b # foldl :: (b -> a -> b) -> b -> Map k a -> b # foldl' :: (b -> a -> b) -> b -> Map k a -> b # foldr1 :: (a -> a -> a) -> Map k a -> a # foldl1 :: (a -> a -> a) -> Map k a -> a # elem :: Eq a => a -> Map k a -> Bool # maximum :: Ord a => Map k a -> a # minimum :: Ord a => Map k a -> a # | |
| Foldable f => Foldable (MaybeT f) | |
Defined in Control.Monad.Trans.Maybe Methods fold :: Monoid m => MaybeT f m -> m # foldMap :: Monoid m => (a -> m) -> MaybeT f a -> m # foldMap' :: Monoid m => (a -> m) -> MaybeT f a -> m # foldr :: (a -> b -> b) -> b -> MaybeT f a -> b # foldr' :: (a -> b -> b) -> b -> MaybeT f a -> b # foldl :: (b -> a -> b) -> b -> MaybeT f a -> b # foldl' :: (b -> a -> b) -> b -> MaybeT f a -> b # foldr1 :: (a -> a -> a) -> MaybeT f a -> a # foldl1 :: (a -> a -> a) -> MaybeT f a -> a # elem :: Eq a => a -> MaybeT f a -> Bool # maximum :: Ord a => MaybeT f a -> a # minimum :: Ord a => MaybeT f a -> a # | |
| Foldable f => Foldable (F f) | |
Defined in Control.Monad.Free.Church Methods fold :: Monoid m => F f m -> m # foldMap :: Monoid m => (a -> m) -> F f a -> m # foldMap' :: Monoid m => (a -> m) -> F f a -> m # foldr :: (a -> b -> b) -> b -> F f a -> b # foldr' :: (a -> b -> b) -> b -> F f a -> b # foldl :: (b -> a -> b) -> b -> F f a -> b # foldl' :: (b -> a -> b) -> b -> F f a -> b # foldr1 :: (a -> a -> a) -> F f a -> a # foldl1 :: (a -> a -> a) -> F f a -> a # elem :: Eq a => a -> F f a -> Bool # maximum :: Ord a => F f a -> a # | |
| Foldable f => Foldable (Free f) | |
Defined in Control.Monad.Free Methods fold :: Monoid m => Free f m -> m # foldMap :: Monoid m => (a -> m) -> Free f a -> m # foldMap' :: Monoid m => (a -> m) -> Free f a -> m # foldr :: (a -> b -> b) -> b -> Free f a -> b # foldr' :: (a -> b -> b) -> b -> Free f a -> b # foldl :: (b -> a -> b) -> b -> Free f a -> b # foldl' :: (b -> a -> b) -> b -> Free f a -> b # foldr1 :: (a -> a -> a) -> Free f a -> a # foldl1 :: (a -> a -> a) -> Free f a -> a # elem :: Eq a => a -> Free f a -> Bool # maximum :: Ord a => Free f a -> a # minimum :: Ord a => Free f a -> a # | |
| Foldable f => Foldable (Cofree f) | |
Defined in Control.Comonad.Cofree Methods fold :: Monoid m => Cofree f m -> m # foldMap :: Monoid m => (a -> m) -> Cofree f a -> m # foldMap' :: Monoid m => (a -> m) -> Cofree f a -> m # foldr :: (a -> b -> b) -> b -> Cofree f a -> b # foldr' :: (a -> b -> b) -> b -> Cofree f a -> b # foldl :: (b -> a -> b) -> b -> Cofree f a -> b # foldl' :: (b -> a -> b) -> b -> Cofree f a -> b # foldr1 :: (a -> a -> a) -> Cofree f a -> a # foldl1 :: (a -> a -> a) -> Cofree f a -> a # elem :: Eq a => a -> Cofree f a -> Bool # maximum :: Ord a => Cofree f a -> a # minimum :: Ord a => Cofree f a -> a # | |
| Foldable f => Foldable (Yoneda f) | |
Defined in Data.Functor.Yoneda Methods fold :: Monoid m => Yoneda f m -> m # foldMap :: Monoid m => (a -> m) -> Yoneda f a -> m # foldMap' :: Monoid m => (a -> m) -> Yoneda f a -> m # foldr :: (a -> b -> b) -> b -> Yoneda f a -> b # foldr' :: (a -> b -> b) -> b -> Yoneda f a -> b # foldl :: (b -> a -> b) -> b -> Yoneda f a -> b # foldl' :: (b -> a -> b) -> b -> Yoneda f a -> b # foldr1 :: (a -> a -> a) -> Yoneda f a -> a # foldl1 :: (a -> a -> a) -> Yoneda f a -> a # elem :: Eq a => a -> Yoneda f a -> Bool # maximum :: Ord a => Yoneda f a -> a # minimum :: Ord a => Yoneda f a -> a # | |
| Foldable (HashMap k) | |
Defined in Data.HashMap.Internal Methods fold :: Monoid m => HashMap k m -> m # foldMap :: Monoid m => (a -> m) -> HashMap k a -> m # foldMap' :: Monoid m => (a -> m) -> HashMap k a -> m # foldr :: (a -> b -> b) -> b -> HashMap k a -> b # foldr' :: (a -> b -> b) -> b -> HashMap k a -> b # foldl :: (b -> a -> b) -> b -> HashMap k a -> b # foldl' :: (b -> a -> b) -> b -> HashMap k a -> b # foldr1 :: (a -> a -> a) -> HashMap k a -> a # foldl1 :: (a -> a -> a) -> HashMap k a -> a # toList :: HashMap k a -> [a] # length :: HashMap k a -> Int # elem :: Eq a => a -> HashMap k a -> Bool # maximum :: Ord a => HashMap k a -> a # minimum :: Ord a => HashMap k a -> a # | |
| Foldable (Level i) | |
Defined in Control.Lens.Internal.Level Methods fold :: Monoid m => Level i m -> m # foldMap :: Monoid m => (a -> m) -> Level i a -> m # foldMap' :: Monoid m => (a -> m) -> Level i a -> m # foldr :: (a -> b -> b) -> b -> Level i a -> b # foldr' :: (a -> b -> b) -> b -> Level i a -> b # foldl :: (b -> a -> b) -> b -> Level i a -> b # foldl' :: (b -> a -> b) -> b -> Level i a -> b # foldr1 :: (a -> a -> a) -> Level i a -> a # foldl1 :: (a -> a -> a) -> Level i a -> a # elem :: Eq a => a -> Level i a -> Bool # maximum :: Ord a => Level i a -> a # minimum :: Ord a => Level i a -> a # | |
| Foldable (ListF a) | |
Defined in Data.Functor.Base Methods fold :: Monoid m => ListF a m -> m # foldMap :: Monoid m => (a0 -> m) -> ListF a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> ListF a a0 -> m # foldr :: (a0 -> b -> b) -> b -> ListF a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> ListF a a0 -> b # foldl :: (b -> a0 -> b) -> b -> ListF a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> ListF a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> ListF a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> ListF a a0 -> a0 # toList :: ListF a a0 -> [a0] # elem :: Eq a0 => a0 -> ListF a a0 -> Bool # maximum :: Ord a0 => ListF a a0 -> a0 # minimum :: Ord a0 => ListF a a0 -> a0 # | |
| Foldable (NonEmptyF a) | |
Defined in Data.Functor.Base Methods fold :: Monoid m => NonEmptyF a m -> m # foldMap :: Monoid m => (a0 -> m) -> NonEmptyF a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> NonEmptyF a a0 -> m # foldr :: (a0 -> b -> b) -> b -> NonEmptyF a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> NonEmptyF a a0 -> b # foldl :: (b -> a0 -> b) -> b -> NonEmptyF a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> NonEmptyF a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> NonEmptyF a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> NonEmptyF a a0 -> a0 # toList :: NonEmptyF a a0 -> [a0] # null :: NonEmptyF a a0 -> Bool # length :: NonEmptyF a a0 -> Int # elem :: Eq a0 => a0 -> NonEmptyF a a0 -> Bool # maximum :: Ord a0 => NonEmptyF a a0 -> a0 # minimum :: Ord a0 => NonEmptyF a a0 -> a0 # | |
| Foldable (TreeF a) | |
Defined in Data.Functor.Base Methods fold :: Monoid m => TreeF a m -> m # foldMap :: Monoid m => (a0 -> m) -> TreeF a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> TreeF a a0 -> m # foldr :: (a0 -> b -> b) -> b -> TreeF a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> TreeF a a0 -> b # foldl :: (b -> a0 -> b) -> b -> TreeF a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> TreeF a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> TreeF a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> TreeF a a0 -> a0 # toList :: TreeF a a0 -> [a0] # elem :: Eq a0 => a0 -> TreeF a a0 -> Bool # maximum :: Ord a0 => TreeF a a0 -> a0 # minimum :: Ord a0 => TreeF a a0 -> a0 # | |
| Foldable (Pair e) | |
Defined in Data.Strict.Tuple Methods fold :: Monoid m => Pair e m -> m # foldMap :: Monoid m => (a -> m) -> Pair e a -> m # foldMap' :: Monoid m => (a -> m) -> Pair e a -> m # foldr :: (a -> b -> b) -> b -> Pair e a -> b # foldr' :: (a -> b -> b) -> b -> Pair e a -> b # foldl :: (b -> a -> b) -> b -> Pair e a -> b # foldl' :: (b -> a -> b) -> b -> Pair e a -> b # foldr1 :: (a -> a -> a) -> Pair e a -> a # foldl1 :: (a -> a -> a) -> Pair e a -> a # elem :: Eq a => a -> Pair e a -> Bool # maximum :: Ord a => Pair e a -> a # minimum :: Ord a => Pair e a -> a # | |
| Foldable (These a) | |
Defined in Data.Strict.These Methods fold :: Monoid m => These a m -> m # foldMap :: Monoid m => (a0 -> m) -> These a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> These a a0 -> m # foldr :: (a0 -> b -> b) -> b -> These a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> These a a0 -> b # foldl :: (b -> a0 -> b) -> b -> These a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> These a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> These a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> These a a0 -> a0 # toList :: These a a0 -> [a0] # elem :: Eq a0 => a0 -> These a a0 -> Bool # maximum :: Ord a0 => These a a0 -> a0 # minimum :: Ord a0 => These a a0 -> a0 # | |
| Foldable (Either e) | |
Defined in Data.Strict.Either Methods fold :: Monoid m => Either e m -> m # foldMap :: Monoid m => (a -> m) -> Either e a -> m # foldMap' :: Monoid m => (a -> m) -> Either e a -> m # foldr :: (a -> b -> b) -> b -> Either e a -> b # foldr' :: (a -> b -> b) -> b -> Either e a -> b # foldl :: (b -> a -> b) -> b -> Either e a -> b # foldl' :: (b -> a -> b) -> b -> Either e a -> b # foldr1 :: (a -> a -> a) -> Either e a -> a # foldl1 :: (a -> a -> a) -> Either e a -> a # elem :: Eq a => a -> Either e a -> Bool # maximum :: Ord a => Either e a -> a # minimum :: Ord a => Either e a -> a # | |
| Foldable (These a) | |
Defined in Data.These Methods fold :: Monoid m => These a m -> m # foldMap :: Monoid m => (a0 -> m) -> These a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> These a a0 -> m # foldr :: (a0 -> b -> b) -> b -> These a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> These a a0 -> b # foldl :: (b -> a0 -> b) -> b -> These a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> These a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> These a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> These a a0 -> a0 # toList :: These a a0 -> [a0] # elem :: Eq a0 => a0 -> These a a0 -> Bool # maximum :: Ord a0 => These a a0 -> a0 # minimum :: Ord a0 => These a a0 -> a0 # | |
| Foldable f => Foldable (Lift f) | |
Defined in Control.Applicative.Lift Methods fold :: Monoid m => Lift f m -> m # foldMap :: Monoid m => (a -> m) -> Lift f a -> m # foldMap' :: Monoid m => (a -> m) -> Lift f a -> m # foldr :: (a -> b -> b) -> b -> Lift f a -> b # foldr' :: (a -> b -> b) -> b -> Lift f a -> b # foldl :: (b -> a -> b) -> b -> Lift f a -> b # foldl' :: (b -> a -> b) -> b -> Lift f a -> b # foldr1 :: (a -> a -> a) -> Lift f a -> a # foldl1 :: (a -> a -> a) -> Lift f a -> a # elem :: Eq a => a -> Lift f a -> Bool # maximum :: Ord a => Lift f a -> a # minimum :: Ord a => Lift f a -> a # | |
| KnownNat n => Foldable (Vec n) Source # | |
Defined in Clash.Sized.Vector Methods fold :: Monoid m => Vec n m -> m # foldMap :: Monoid m => (a -> m) -> Vec n a -> m # foldMap' :: Monoid m => (a -> m) -> Vec n a -> m # foldr :: (a -> b -> b) -> b -> Vec n a -> b # foldr' :: (a -> b -> b) -> b -> Vec n a -> b # foldl :: (b -> a -> b) -> b -> Vec n a -> b # foldl' :: (b -> a -> b) -> b -> Vec n a -> b # foldr1 :: (a -> a -> a) -> Vec n a -> a # foldl1 :: (a -> a -> a) -> Vec n a -> a # elem :: Eq a => a -> Vec n a -> Bool # maximum :: Ord a => Vec n a -> a # minimum :: Ord a => Vec n a -> a # | |
| Foldable (Signal dom) Source # | NB: Not synthesizable NB: In "
|
Defined in Clash.Signal.Internal Methods fold :: Monoid m => Signal dom m -> m # foldMap :: Monoid m => (a -> m) -> Signal dom a -> m # foldMap' :: Monoid m => (a -> m) -> Signal dom a -> m # foldr :: (a -> b -> b) -> b -> Signal dom a -> b # foldr' :: (a -> b -> b) -> b -> Signal dom a -> b # foldl :: (b -> a -> b) -> b -> Signal dom a -> b # foldl' :: (b -> a -> b) -> b -> Signal dom a -> b # foldr1 :: (a -> a -> a) -> Signal dom a -> a # foldl1 :: (a -> a -> a) -> Signal dom a -> a # toList :: Signal dom a -> [a] # null :: Signal dom a -> Bool # length :: Signal dom a -> Int # elem :: Eq a => a -> Signal dom a -> Bool # maximum :: Ord a => Signal dom a -> a # minimum :: Ord a => Signal dom a -> a # | |
| KnownNat d => Foldable (RTree d) Source # | |
Defined in Clash.Sized.RTree Methods fold :: Monoid m => RTree d m -> m # foldMap :: Monoid m => (a -> m) -> RTree d a -> m # foldMap' :: Monoid m => (a -> m) -> RTree d a -> m # foldr :: (a -> b -> b) -> b -> RTree d a -> b # foldr' :: (a -> b -> b) -> b -> RTree d a -> b # foldl :: (b -> a -> b) -> b -> RTree d a -> b # foldl' :: (b -> a -> b) -> b -> RTree d a -> b # foldr1 :: (a -> a -> a) -> RTree d a -> a # foldl1 :: (a -> a -> a) -> RTree d a -> a # elem :: Eq a => a -> RTree d a -> Bool # maximum :: Ord a => RTree d a -> a # minimum :: Ord a => RTree d a -> a # | |
| Foldable f => Foldable (Rec1 f) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Rec1 f m -> m # foldMap :: Monoid m => (a -> m) -> Rec1 f a -> m # foldMap' :: Monoid m => (a -> m) -> Rec1 f a -> m # foldr :: (a -> b -> b) -> b -> Rec1 f a -> b # foldr' :: (a -> b -> b) -> b -> Rec1 f a -> b # foldl :: (b -> a -> b) -> b -> Rec1 f a -> b # foldl' :: (b -> a -> b) -> b -> Rec1 f a -> b # foldr1 :: (a -> a -> a) -> Rec1 f a -> a # foldl1 :: (a -> a -> a) -> Rec1 f a -> a # elem :: Eq a => a -> Rec1 f a -> Bool # maximum :: Ord a => Rec1 f a -> a # minimum :: Ord a => Rec1 f a -> a # | |
| Foldable (Const m :: Type -> Type) | Since: base-4.7.0.0 |
Defined in Data.Functor.Const Methods fold :: Monoid m0 => Const m m0 -> m0 # foldMap :: Monoid m0 => (a -> m0) -> Const m a -> m0 # foldMap' :: Monoid m0 => (a -> m0) -> Const m a -> m0 # foldr :: (a -> b -> b) -> b -> Const m a -> b # foldr' :: (a -> b -> b) -> b -> Const m a -> b # foldl :: (b -> a -> b) -> b -> Const m a -> b # foldl' :: (b -> a -> b) -> b -> Const m a -> b # foldr1 :: (a -> a -> a) -> Const m a -> a # foldl1 :: (a -> a -> a) -> Const m a -> a # elem :: Eq a => a -> Const m a -> Bool # maximum :: Ord a => Const m a -> a # minimum :: Ord a => Const m a -> a # | |
| Foldable f => Foldable (Ap f) | Since: base-4.12.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Ap f m -> m # foldMap :: Monoid m => (a -> m) -> Ap f a -> m # foldMap' :: Monoid m => (a -> m) -> Ap f a -> m # foldr :: (a -> b -> b) -> b -> Ap f a -> b # foldr' :: (a -> b -> b) -> b -> Ap f a -> b # foldl :: (b -> a -> b) -> b -> Ap f a -> b # foldl' :: (b -> a -> b) -> b -> Ap f a -> b # foldr1 :: (a -> a -> a) -> Ap f a -> a # foldl1 :: (a -> a -> a) -> Ap f a -> a # elem :: Eq a => a -> Ap f a -> Bool # maximum :: Ord a => Ap f a -> a # | |
| Foldable f => Foldable (Alt f) | Since: base-4.12.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Alt f m -> m # foldMap :: Monoid m => (a -> m) -> Alt f a -> m # foldMap' :: Monoid m => (a -> m) -> Alt f a -> m # foldr :: (a -> b -> b) -> b -> Alt f a -> b # foldr' :: (a -> b -> b) -> b -> Alt f a -> b # foldl :: (b -> a -> b) -> b -> Alt f a -> b # foldl' :: (b -> a -> b) -> b -> Alt f a -> b # foldr1 :: (a -> a -> a) -> Alt f a -> a # foldl1 :: (a -> a -> a) -> Alt f a -> a # elem :: Eq a => a -> Alt f a -> Bool # maximum :: Ord a => Alt f a -> a # minimum :: Ord a => Alt f a -> a # | |
| Bifoldable p => Foldable (Join p) | |
Defined in Data.Bifunctor.Join Methods fold :: Monoid m => Join p m -> m # foldMap :: Monoid m => (a -> m) -> Join p a -> m # foldMap' :: Monoid m => (a -> m) -> Join p a -> m # foldr :: (a -> b -> b) -> b -> Join p a -> b # foldr' :: (a -> b -> b) -> b -> Join p a -> b # foldl :: (b -> a -> b) -> b -> Join p a -> b # foldl' :: (b -> a -> b) -> b -> Join p a -> b # foldr1 :: (a -> a -> a) -> Join p a -> a # foldl1 :: (a -> a -> a) -> Join p a -> a # elem :: Eq a => a -> Join p a -> Bool # maximum :: Ord a => Join p a -> a # minimum :: Ord a => Join p a -> a # | |
| Bifoldable p => Foldable (Fix p) | |
Defined in Data.Bifunctor.Fix Methods fold :: Monoid m => Fix p m -> m # foldMap :: Monoid m => (a -> m) -> Fix p a -> m # foldMap' :: Monoid m => (a -> m) -> Fix p a -> m # foldr :: (a -> b -> b) -> b -> Fix p a -> b # foldr' :: (a -> b -> b) -> b -> Fix p a -> b # foldl :: (b -> a -> b) -> b -> Fix p a -> b # foldl' :: (b -> a -> b) -> b -> Fix p a -> b # foldr1 :: (a -> a -> a) -> Fix p a -> a # foldl1 :: (a -> a -> a) -> Fix p a -> a # elem :: Eq a => a -> Fix p a -> Bool # maximum :: Ord a => Fix p a -> a # minimum :: Ord a => Fix p a -> a # | |
| Foldable w => Foldable (EnvT e w) | |
Defined in Control.Comonad.Trans.Env Methods fold :: Monoid m => EnvT e w m -> m # foldMap :: Monoid m => (a -> m) -> EnvT e w a -> m # foldMap' :: Monoid m => (a -> m) -> EnvT e w a -> m # foldr :: (a -> b -> b) -> b -> EnvT e w a -> b # foldr' :: (a -> b -> b) -> b -> EnvT e w a -> b # foldl :: (b -> a -> b) -> b -> EnvT e w a -> b # foldl' :: (b -> a -> b) -> b -> EnvT e w a -> b # foldr1 :: (a -> a -> a) -> EnvT e w a -> a # foldl1 :: (a -> a -> a) -> EnvT e w a -> a # elem :: Eq a => a -> EnvT e w a -> Bool # maximum :: Ord a => EnvT e w a -> a # minimum :: Ord a => EnvT e w a -> a # | |
| Foldable f => Foldable (IdentityT f) | |
Defined in Control.Monad.Trans.Identity Methods fold :: Monoid m => IdentityT f m -> m # foldMap :: Monoid m => (a -> m) -> IdentityT f a -> m # foldMap' :: Monoid m => (a -> m) -> IdentityT f a -> m # foldr :: (a -> b -> b) -> b -> IdentityT f a -> b # foldr' :: (a -> b -> b) -> b -> IdentityT f a -> b # foldl :: (b -> a -> b) -> b -> IdentityT f a -> b # foldl' :: (b -> a -> b) -> b -> IdentityT f a -> b # foldr1 :: (a -> a -> a) -> IdentityT f a -> a # foldl1 :: (a -> a -> a) -> IdentityT f a -> a # toList :: IdentityT f a -> [a] # null :: IdentityT f a -> Bool # length :: IdentityT f a -> Int # elem :: Eq a => a -> IdentityT f a -> Bool # maximum :: Ord a => IdentityT f a -> a # minimum :: Ord a => IdentityT f a -> a # | |
| Foldable f => Foldable (ExceptT e f) | |
Defined in Control.Monad.Trans.Except Methods fold :: Monoid m => ExceptT e f m -> m # foldMap :: Monoid m => (a -> m) -> ExceptT e f a -> m # foldMap' :: Monoid m => (a -> m) -> ExceptT e f a -> m # foldr :: (a -> b -> b) -> b -> ExceptT e f a -> b # foldr' :: (a -> b -> b) -> b -> ExceptT e f a -> b # foldl :: (b -> a -> b) -> b -> ExceptT e f a -> b # foldl' :: (b -> a -> b) -> b -> ExceptT e f a -> b # foldr1 :: (a -> a -> a) -> ExceptT e f a -> a # foldl1 :: (a -> a -> a) -> ExceptT e f a -> a # toList :: ExceptT e f a -> [a] # null :: ExceptT e f a -> Bool # length :: ExceptT e f a -> Int # elem :: Eq a => a -> ExceptT e f a -> Bool # maximum :: Ord a => ExceptT e f a -> a # minimum :: Ord a => ExceptT e f a -> a # | |
| Foldable f => Foldable (FreeF f a) | |
Defined in Control.Monad.Trans.Free Methods fold :: Monoid m => FreeF f a m -> m # foldMap :: Monoid m => (a0 -> m) -> FreeF f a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> FreeF f a a0 -> m # foldr :: (a0 -> b -> b) -> b -> FreeF f a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> FreeF f a a0 -> b # foldl :: (b -> a0 -> b) -> b -> FreeF f a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> FreeF f a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> FreeF f a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> FreeF f a a0 -> a0 # toList :: FreeF f a a0 -> [a0] # null :: FreeF f a a0 -> Bool # length :: FreeF f a a0 -> Int # elem :: Eq a0 => a0 -> FreeF f a a0 -> Bool # maximum :: Ord a0 => FreeF f a a0 -> a0 # minimum :: Ord a0 => FreeF f a a0 -> a0 # | |
| (Foldable m, Foldable f) => Foldable (FreeT f m) | |
Defined in Control.Monad.Trans.Free Methods fold :: Monoid m0 => FreeT f m m0 -> m0 # foldMap :: Monoid m0 => (a -> m0) -> FreeT f m a -> m0 # foldMap' :: Monoid m0 => (a -> m0) -> FreeT f m a -> m0 # foldr :: (a -> b -> b) -> b -> FreeT f m a -> b # foldr' :: (a -> b -> b) -> b -> FreeT f m a -> b # foldl :: (b -> a -> b) -> b -> FreeT f m a -> b # foldl' :: (b -> a -> b) -> b -> FreeT f m a -> b # foldr1 :: (a -> a -> a) -> FreeT f m a -> a # foldl1 :: (a -> a -> a) -> FreeT f m a -> a # toList :: FreeT f m a -> [a] # length :: FreeT f m a -> Int # elem :: Eq a => a -> FreeT f m a -> Bool # maximum :: Ord a => FreeT f m a -> a # minimum :: Ord a => FreeT f m a -> a # | |
| Foldable f => Foldable (CofreeF f a) | |
Defined in Control.Comonad.Trans.Cofree Methods fold :: Monoid m => CofreeF f a m -> m # foldMap :: Monoid m => (a0 -> m) -> CofreeF f a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> CofreeF f a a0 -> m # foldr :: (a0 -> b -> b) -> b -> CofreeF f a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> CofreeF f a a0 -> b # foldl :: (b -> a0 -> b) -> b -> CofreeF f a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> CofreeF f a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> CofreeF f a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> CofreeF f a a0 -> a0 # toList :: CofreeF f a a0 -> [a0] # null :: CofreeF f a a0 -> Bool # length :: CofreeF f a a0 -> Int # elem :: Eq a0 => a0 -> CofreeF f a a0 -> Bool # maximum :: Ord a0 => CofreeF f a a0 -> a0 # minimum :: Ord a0 => CofreeF f a a0 -> a0 # | |
| (Foldable f, Foldable w) => Foldable (CofreeT f w) | |
Defined in Control.Comonad.Trans.Cofree Methods fold :: Monoid m => CofreeT f w m -> m # foldMap :: Monoid m => (a -> m) -> CofreeT f w a -> m # foldMap' :: Monoid m => (a -> m) -> CofreeT f w a -> m # foldr :: (a -> b -> b) -> b -> CofreeT f w a -> b # foldr' :: (a -> b -> b) -> b -> CofreeT f w a -> b # foldl :: (b -> a -> b) -> b -> CofreeT f w a -> b # foldl' :: (b -> a -> b) -> b -> CofreeT f w a -> b # foldr1 :: (a -> a -> a) -> CofreeT f w a -> a # foldl1 :: (a -> a -> a) -> CofreeT f w a -> a # toList :: CofreeT f w a -> [a] # null :: CofreeT f w a -> Bool # length :: CofreeT f w a -> Int # elem :: Eq a => a -> CofreeT f w a -> Bool # maximum :: Ord a => CofreeT f w a -> a # minimum :: Ord a => CofreeT f w a -> a # | |
| Foldable f => Foldable (ErrorT e f) | |
Defined in Control.Monad.Trans.Error Methods fold :: Monoid m => ErrorT e f m -> m # foldMap :: Monoid m => (a -> m) -> ErrorT e f a -> m # foldMap' :: Monoid m => (a -> m) -> ErrorT e f a -> m # foldr :: (a -> b -> b) -> b -> ErrorT e f a -> b # foldr' :: (a -> b -> b) -> b -> ErrorT e f a -> b # foldl :: (b -> a -> b) -> b -> ErrorT e f a -> b # foldl' :: (b -> a -> b) -> b -> ErrorT e f a -> b # foldr1 :: (a -> a -> a) -> ErrorT e f a -> a # foldl1 :: (a -> a -> a) -> ErrorT e f a -> a # toList :: ErrorT e f a -> [a] # null :: ErrorT e f a -> Bool # length :: ErrorT e f a -> Int # elem :: Eq a => a -> ErrorT e f a -> Bool # maximum :: Ord a => ErrorT e f a -> a # minimum :: Ord a => ErrorT e f a -> a # | |
| Foldable f => Foldable (Backwards f) | Derived instance. |
Defined in Control.Applicative.Backwards Methods fold :: Monoid m => Backwards f m -> m # foldMap :: Monoid m => (a -> m) -> Backwards f a -> m # foldMap' :: Monoid m => (a -> m) -> Backwards f a -> m # foldr :: (a -> b -> b) -> b -> Backwards f a -> b # foldr' :: (a -> b -> b) -> b -> Backwards f a -> b # foldl :: (b -> a -> b) -> b -> Backwards f a -> b # foldl' :: (b -> a -> b) -> b -> Backwards f a -> b # foldr1 :: (a -> a -> a) -> Backwards f a -> a # foldl1 :: (a -> a -> a) -> Backwards f a -> a # toList :: Backwards f a -> [a] # null :: Backwards f a -> Bool # length :: Backwards f a -> Int # elem :: Eq a => a -> Backwards f a -> Bool # maximum :: Ord a => Backwards f a -> a # minimum :: Ord a => Backwards f a -> a # | |
| Foldable (Tagged s) | |
Defined in Data.Tagged Methods fold :: Monoid m => Tagged s m -> m # foldMap :: Monoid m => (a -> m) -> Tagged s a -> m # foldMap' :: Monoid m => (a -> m) -> Tagged s a -> m # foldr :: (a -> b -> b) -> b -> Tagged s a -> b # foldr' :: (a -> b -> b) -> b -> Tagged s a -> b # foldl :: (b -> a -> b) -> b -> Tagged s a -> b # foldl' :: (b -> a -> b) -> b -> Tagged s a -> b # foldr1 :: (a -> a -> a) -> Tagged s a -> a # foldl1 :: (a -> a -> a) -> Tagged s a -> a # elem :: Eq a => a -> Tagged s a -> Bool # maximum :: Ord a => Tagged s a -> a # minimum :: Ord a => Tagged s a -> a # | |
| Foldable f => Foldable (WriterT w f) | |
Defined in Control.Monad.Trans.Writer.Lazy Methods fold :: Monoid m => WriterT w f m -> m # foldMap :: Monoid m => (a -> m) -> WriterT w f a -> m # foldMap' :: Monoid m => (a -> m) -> WriterT w f a -> m # foldr :: (a -> b -> b) -> b -> WriterT w f a -> b # foldr' :: (a -> b -> b) -> b -> WriterT w f a -> b # foldl :: (b -> a -> b) -> b -> WriterT w f a -> b # foldl' :: (b -> a -> b) -> b -> WriterT w f a -> b # foldr1 :: (a -> a -> a) -> WriterT w f a -> a # foldl1 :: (a -> a -> a) -> WriterT w f a -> a # toList :: WriterT w f a -> [a] # null :: WriterT w f a -> Bool # length :: WriterT w f a -> Int # elem :: Eq a => a -> WriterT w f a -> Bool # maximum :: Ord a => WriterT w f a -> a # minimum :: Ord a => WriterT w f a -> a # | |
| Foldable f => Foldable (WriterT w f) | |
Defined in Control.Monad.Trans.Writer.Strict Methods fold :: Monoid m => WriterT w f m -> m # foldMap :: Monoid m => (a -> m) -> WriterT w f a -> m # foldMap' :: Monoid m => (a -> m) -> WriterT w f a -> m # foldr :: (a -> b -> b) -> b -> WriterT w f a -> b # foldr' :: (a -> b -> b) -> b -> WriterT w f a -> b # foldl :: (b -> a -> b) -> b -> WriterT w f a -> b # foldl' :: (b -> a -> b) -> b -> WriterT w f a -> b # foldr1 :: (a -> a -> a) -> WriterT w f a -> a # foldl1 :: (a -> a -> a) -> WriterT w f a -> a # toList :: WriterT w f a -> [a] # null :: WriterT w f a -> Bool # length :: WriterT w f a -> Int # elem :: Eq a => a -> WriterT w f a -> Bool # maximum :: Ord a => WriterT w f a -> a # minimum :: Ord a => WriterT w f a -> a # | |
| Foldable (Constant a :: Type -> Type) | |
Defined in Data.Functor.Constant Methods fold :: Monoid m => Constant a m -> m # foldMap :: Monoid m => (a0 -> m) -> Constant a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Constant a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Constant a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Constant a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Constant a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Constant a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Constant a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Constant a a0 -> a0 # toList :: Constant a a0 -> [a0] # null :: Constant a a0 -> Bool # length :: Constant a a0 -> Int # elem :: Eq a0 => a0 -> Constant a a0 -> Bool # maximum :: Ord a0 => Constant a a0 -> a0 # minimum :: Ord a0 => Constant a a0 -> a0 # | |
| Foldable f => Foldable (Reverse f) | Fold from right to left. |
Defined in Data.Functor.Reverse Methods fold :: Monoid m => Reverse f m -> m # foldMap :: Monoid m => (a -> m) -> Reverse f a -> m # foldMap' :: Monoid m => (a -> m) -> Reverse f a -> m # foldr :: (a -> b -> b) -> b -> Reverse f a -> b # foldr' :: (a -> b -> b) -> b -> Reverse f a -> b # foldl :: (b -> a -> b) -> b -> Reverse f a -> b # foldl' :: (b -> a -> b) -> b -> Reverse f a -> b # foldr1 :: (a -> a -> a) -> Reverse f a -> a # foldl1 :: (a -> a -> a) -> Reverse f a -> a # toList :: Reverse f a -> [a] # length :: Reverse f a -> Int # elem :: Eq a => a -> Reverse f a -> Bool # maximum :: Ord a => Reverse f a -> a # minimum :: Ord a => Reverse f a -> a # | |
| Foldable (DSignal dom delay) Source # | |
Defined in Clash.Signal.Delayed.Internal Methods fold :: Monoid m => DSignal dom delay m -> m # foldMap :: Monoid m => (a -> m) -> DSignal dom delay a -> m # foldMap' :: Monoid m => (a -> m) -> DSignal dom delay a -> m # foldr :: (a -> b -> b) -> b -> DSignal dom delay a -> b # foldr' :: (a -> b -> b) -> b -> DSignal dom delay a -> b # foldl :: (b -> a -> b) -> b -> DSignal dom delay a -> b # foldl' :: (b -> a -> b) -> b -> DSignal dom delay a -> b # foldr1 :: (a -> a -> a) -> DSignal dom delay a -> a # foldl1 :: (a -> a -> a) -> DSignal dom delay a -> a # toList :: DSignal dom delay a -> [a] # null :: DSignal dom delay a -> Bool # length :: DSignal dom delay a -> Int # elem :: Eq a => a -> DSignal dom delay a -> Bool # maximum :: Ord a => DSignal dom delay a -> a # minimum :: Ord a => DSignal dom delay a -> a # | |
| Foldable (K1 i c :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => K1 i c m -> m # foldMap :: Monoid m => (a -> m) -> K1 i c a -> m # foldMap' :: Monoid m => (a -> m) -> K1 i c a -> m # foldr :: (a -> b -> b) -> b -> K1 i c a -> b # foldr' :: (a -> b -> b) -> b -> K1 i c a -> b # foldl :: (b -> a -> b) -> b -> K1 i c a -> b # foldl' :: (b -> a -> b) -> b -> K1 i c a -> b # foldr1 :: (a -> a -> a) -> K1 i c a -> a # foldl1 :: (a -> a -> a) -> K1 i c a -> a # elem :: Eq a => a -> K1 i c a -> Bool # maximum :: Ord a => K1 i c a -> a # minimum :: Ord a => K1 i c a -> a # | |
| (Foldable f, Foldable g) => Foldable (f :+: g) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => (f :+: g) m -> m # foldMap :: Monoid m => (a -> m) -> (f :+: g) a -> m # foldMap' :: Monoid m => (a -> m) -> (f :+: g) a -> m # foldr :: (a -> b -> b) -> b -> (f :+: g) a -> b # foldr' :: (a -> b -> b) -> b -> (f :+: g) a -> b # foldl :: (b -> a -> b) -> b -> (f :+: g) a -> b # foldl' :: (b -> a -> b) -> b -> (f :+: g) a -> b # foldr1 :: (a -> a -> a) -> (f :+: g) a -> a # foldl1 :: (a -> a -> a) -> (f :+: g) a -> a # toList :: (f :+: g) a -> [a] # length :: (f :+: g) a -> Int # elem :: Eq a => a -> (f :+: g) a -> Bool # maximum :: Ord a => (f :+: g) a -> a # minimum :: Ord a => (f :+: g) a -> a # | |
| (Foldable f, Foldable g) => Foldable (f :*: g) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => (f :*: g) m -> m # foldMap :: Monoid m => (a -> m) -> (f :*: g) a -> m # foldMap' :: Monoid m => (a -> m) -> (f :*: g) a -> m # foldr :: (a -> b -> b) -> b -> (f :*: g) a -> b # foldr' :: (a -> b -> b) -> b -> (f :*: g) a -> b # foldl :: (b -> a -> b) -> b -> (f :*: g) a -> b # foldl' :: (b -> a -> b) -> b -> (f :*: g) a -> b # foldr1 :: (a -> a -> a) -> (f :*: g) a -> a # foldl1 :: (a -> a -> a) -> (f :*: g) a -> a # toList :: (f :*: g) a -> [a] # length :: (f :*: g) a -> Int # elem :: Eq a => a -> (f :*: g) a -> Bool # maximum :: Ord a => (f :*: g) a -> a # minimum :: Ord a => (f :*: g) a -> a # | |
| (Foldable f, Foldable g) => Foldable (Product f g) | Since: base-4.9.0.0 |
Defined in Data.Functor.Product Methods fold :: Monoid m => Product f g m -> m # foldMap :: Monoid m => (a -> m) -> Product f g a -> m # foldMap' :: Monoid m => (a -> m) -> Product f g a -> m # foldr :: (a -> b -> b) -> b -> Product f g a -> b # foldr' :: (a -> b -> b) -> b -> Product f g a -> b # foldl :: (b -> a -> b) -> b -> Product f g a -> b # foldl' :: (b -> a -> b) -> b -> Product f g a -> b # foldr1 :: (a -> a -> a) -> Product f g a -> a # foldl1 :: (a -> a -> a) -> Product f g a -> a # toList :: Product f g a -> [a] # null :: Product f g a -> Bool # length :: Product f g a -> Int # elem :: Eq a => a -> Product f g a -> Bool # maximum :: Ord a => Product f g a -> a # minimum :: Ord a => Product f g a -> a # | |
| (Foldable f, Foldable g) => Foldable (Sum f g) | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum Methods fold :: Monoid m => Sum f g m -> m # foldMap :: Monoid m => (a -> m) -> Sum f g a -> m # foldMap' :: Monoid m => (a -> m) -> Sum f g a -> m # foldr :: (a -> b -> b) -> b -> Sum f g a -> b # foldr' :: (a -> b -> b) -> b -> Sum f g a -> b # foldl :: (b -> a -> b) -> b -> Sum f g a -> b # foldl' :: (b -> a -> b) -> b -> Sum f g a -> b # foldr1 :: (a -> a -> a) -> Sum f g a -> a # foldl1 :: (a -> a -> a) -> Sum f g a -> a # elem :: Eq a => a -> Sum f g a -> Bool # maximum :: Ord a => Sum f g a -> a # minimum :: Ord a => Sum f g a -> a # | |
| Foldable (Magma i t b) | |
Defined in Control.Lens.Internal.Magma Methods fold :: Monoid m => Magma i t b m -> m # foldMap :: Monoid m => (a -> m) -> Magma i t b a -> m # foldMap' :: Monoid m => (a -> m) -> Magma i t b a -> m # foldr :: (a -> b0 -> b0) -> b0 -> Magma i t b a -> b0 # foldr' :: (a -> b0 -> b0) -> b0 -> Magma i t b a -> b0 # foldl :: (b0 -> a -> b0) -> b0 -> Magma i t b a -> b0 # foldl' :: (b0 -> a -> b0) -> b0 -> Magma i t b a -> b0 # foldr1 :: (a -> a -> a) -> Magma i t b a -> a # foldl1 :: (a -> a -> a) -> Magma i t b a -> a # toList :: Magma i t b a -> [a] # null :: Magma i t b a -> Bool # length :: Magma i t b a -> Int # elem :: Eq a => a -> Magma i t b a -> Bool # maximum :: Ord a => Magma i t b a -> a # minimum :: Ord a => Magma i t b a -> a # | |
| Foldable f => Foldable (M1 i c f) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => M1 i c f m -> m # foldMap :: Monoid m => (a -> m) -> M1 i c f a -> m # foldMap' :: Monoid m => (a -> m) -> M1 i c f a -> m # foldr :: (a -> b -> b) -> b -> M1 i c f a -> b # foldr' :: (a -> b -> b) -> b -> M1 i c f a -> b # foldl :: (b -> a -> b) -> b -> M1 i c f a -> b # foldl' :: (b -> a -> b) -> b -> M1 i c f a -> b # foldr1 :: (a -> a -> a) -> M1 i c f a -> a # foldl1 :: (a -> a -> a) -> M1 i c f a -> a # elem :: Eq a => a -> M1 i c f a -> Bool # maximum :: Ord a => M1 i c f a -> a # minimum :: Ord a => M1 i c f a -> a # | |
| (Foldable f, Foldable g) => Foldable (f :.: g) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => (f :.: g) m -> m # foldMap :: Monoid m => (a -> m) -> (f :.: g) a -> m # foldMap' :: Monoid m => (a -> m) -> (f :.: g) a -> m # foldr :: (a -> b -> b) -> b -> (f :.: g) a -> b # foldr' :: (a -> b -> b) -> b -> (f :.: g) a -> b # foldl :: (b -> a -> b) -> b -> (f :.: g) a -> b # foldl' :: (b -> a -> b) -> b -> (f :.: g) a -> b # foldr1 :: (a -> a -> a) -> (f :.: g) a -> a # foldl1 :: (a -> a -> a) -> (f :.: g) a -> a # toList :: (f :.: g) a -> [a] # length :: (f :.: g) a -> Int # elem :: Eq a => a -> (f :.: g) a -> Bool # maximum :: Ord a => (f :.: g) a -> a # minimum :: Ord a => (f :.: g) a -> a # | |
| (Foldable f, Foldable g) => Foldable (Compose f g) | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose Methods fold :: Monoid m => Compose f g m -> m # foldMap :: Monoid m => (a -> m) -> Compose f g a -> m # foldMap' :: Monoid m => (a -> m) -> Compose f g a -> m # foldr :: (a -> b -> b) -> b -> Compose f g a -> b # foldr' :: (a -> b -> b) -> b -> Compose f g a -> b # foldl :: (b -> a -> b) -> b -> Compose f g a -> b # foldl' :: (b -> a -> b) -> b -> Compose f g a -> b # foldr1 :: (a -> a -> a) -> Compose f g a -> a # foldl1 :: (a -> a -> a) -> Compose f g a -> a # toList :: Compose f g a -> [a] # null :: Compose f g a -> Bool # length :: Compose f g a -> Int # elem :: Eq a => a -> Compose f g a -> Bool # maximum :: Ord a => Compose f g a -> a # minimum :: Ord a => Compose f g a -> a # | |
| Bifoldable p => Foldable (WrappedBifunctor p a) | |
Defined in Data.Bifunctor.Wrapped Methods fold :: Monoid m => WrappedBifunctor p a m -> m # foldMap :: Monoid m => (a0 -> m) -> WrappedBifunctor p a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> WrappedBifunctor p a a0 -> m # foldr :: (a0 -> b -> b) -> b -> WrappedBifunctor p a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> WrappedBifunctor p a a0 -> b # foldl :: (b -> a0 -> b) -> b -> WrappedBifunctor p a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> WrappedBifunctor p a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> WrappedBifunctor p a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> WrappedBifunctor p a a0 -> a0 # toList :: WrappedBifunctor p a a0 -> [a0] # null :: WrappedBifunctor p a a0 -> Bool # length :: WrappedBifunctor p a a0 -> Int # elem :: Eq a0 => a0 -> WrappedBifunctor p a a0 -> Bool # maximum :: Ord a0 => WrappedBifunctor p a a0 -> a0 # minimum :: Ord a0 => WrappedBifunctor p a a0 -> a0 # sum :: Num a0 => WrappedBifunctor p a a0 -> a0 # product :: Num a0 => WrappedBifunctor p a a0 -> a0 # | |
| Foldable g => Foldable (Joker g a) | |
Defined in Data.Bifunctor.Joker Methods fold :: Monoid m => Joker g a m -> m # foldMap :: Monoid m => (a0 -> m) -> Joker g a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Joker g a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Joker g a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Joker g a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Joker g a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Joker g a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Joker g a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Joker g a a0 -> a0 # toList :: Joker g a a0 -> [a0] # null :: Joker g a a0 -> Bool # length :: Joker g a a0 -> Int # elem :: Eq a0 => a0 -> Joker g a a0 -> Bool # maximum :: Ord a0 => Joker g a a0 -> a0 # minimum :: Ord a0 => Joker g a a0 -> a0 # | |
| Bifoldable p => Foldable (Flip p a) | |
Defined in Data.Bifunctor.Flip Methods fold :: Monoid m => Flip p a m -> m # foldMap :: Monoid m => (a0 -> m) -> Flip p a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Flip p a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Flip p a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Flip p a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Flip p a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Flip p a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Flip p a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Flip p a a0 -> a0 # toList :: Flip p a a0 -> [a0] # length :: Flip p a a0 -> Int # elem :: Eq a0 => a0 -> Flip p a a0 -> Bool # maximum :: Ord a0 => Flip p a a0 -> a0 # minimum :: Ord a0 => Flip p a a0 -> a0 # | |
| Foldable (Clown f a :: Type -> Type) | |
Defined in Data.Bifunctor.Clown Methods fold :: Monoid m => Clown f a m -> m # foldMap :: Monoid m => (a0 -> m) -> Clown f a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Clown f a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Clown f a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Clown f a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Clown f a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Clown f a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Clown f a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Clown f a a0 -> a0 # toList :: Clown f a a0 -> [a0] # null :: Clown f a a0 -> Bool # length :: Clown f a a0 -> Int # elem :: Eq a0 => a0 -> Clown f a a0 -> Bool # maximum :: Ord a0 => Clown f a a0 -> a0 # minimum :: Ord a0 => Clown f a a0 -> a0 # | |
| (Foldable (f a), Foldable (g a)) => Foldable (Sum f g a) | |
Defined in Data.Bifunctor.Sum Methods fold :: Monoid m => Sum f g a m -> m # foldMap :: Monoid m => (a0 -> m) -> Sum f g a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Sum f g a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Sum f g a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Sum f g a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Sum f g a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Sum f g a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Sum f g a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Sum f g a a0 -> a0 # toList :: Sum f g a a0 -> [a0] # null :: Sum f g a a0 -> Bool # length :: Sum f g a a0 -> Int # elem :: Eq a0 => a0 -> Sum f g a a0 -> Bool # maximum :: Ord a0 => Sum f g a a0 -> a0 # minimum :: Ord a0 => Sum f g a a0 -> a0 # | |
| (Foldable (f a), Foldable (g a)) => Foldable (Product f g a) | |
Defined in Data.Bifunctor.Product Methods fold :: Monoid m => Product f g a m -> m # foldMap :: Monoid m => (a0 -> m) -> Product f g a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Product f g a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Product f g a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Product f g a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Product f g a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Product f g a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Product f g a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Product f g a a0 -> a0 # toList :: Product f g a a0 -> [a0] # null :: Product f g a a0 -> Bool # length :: Product f g a a0 -> Int # elem :: Eq a0 => a0 -> Product f g a a0 -> Bool # maximum :: Ord a0 => Product f g a a0 -> a0 # minimum :: Ord a0 => Product f g a a0 -> a0 # | |
| (Foldable f, Bifoldable p) => Foldable (Tannen f p a) | |
Defined in Data.Bifunctor.Tannen Methods fold :: Monoid m => Tannen f p a m -> m # foldMap :: Monoid m => (a0 -> m) -> Tannen f p a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Tannen f p a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Tannen f p a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Tannen f p a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Tannen f p a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Tannen f p a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Tannen f p a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Tannen f p a a0 -> a0 # toList :: Tannen f p a a0 -> [a0] # null :: Tannen f p a a0 -> Bool # length :: Tannen f p a a0 -> Int # elem :: Eq a0 => a0 -> Tannen f p a a0 -> Bool # maximum :: Ord a0 => Tannen f p a a0 -> a0 # minimum :: Ord a0 => Tannen f p a a0 -> a0 # | |
| (Bifoldable p, Foldable g) => Foldable (Biff p f g a) | |
Defined in Data.Bifunctor.Biff Methods fold :: Monoid m => Biff p f g a m -> m # foldMap :: Monoid m => (a0 -> m) -> Biff p f g a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Biff p f g a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Biff p f g a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Biff p f g a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Biff p f g a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Biff p f g a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Biff p f g a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Biff p f g a a0 -> a0 # toList :: Biff p f g a a0 -> [a0] # null :: Biff p f g a a0 -> Bool # length :: Biff p f g a a0 -> Int # elem :: Eq a0 => a0 -> Biff p f g a a0 -> Bool # maximum :: Ord a0 => Biff p f g a a0 -> a0 # minimum :: Ord a0 => Biff p f g a a0 -> a0 # | |
class (Functor t, Foldable t) => Traversable (t :: Type -> Type) where #
Functors representing data structures that can be traversed from left to right.
A definition of traverse must satisfy the following laws:
- Naturality
t .for every applicative transformationtraversef =traverse(t . f)t- Identity
traverseIdentity=Identity- Composition
traverse(Compose.fmapg . f) =Compose.fmap(traverseg) .traversef
A definition of sequenceA must satisfy the following laws:
- Naturality
t .for every applicative transformationsequenceA=sequenceA.fmaptt- Identity
sequenceA.fmapIdentity=Identity- Composition
sequenceA.fmapCompose=Compose.fmapsequenceA.sequenceA
where an applicative transformation is a function
t :: (Applicative f, Applicative g) => f a -> g a
preserving the Applicative operations, i.e.
t (purex) =purex t (f<*>x) = t f<*>t x
and the identity functor Identity and composition functors
Compose are from Data.Functor.Identity and
Data.Functor.Compose.
A result of the naturality law is a purity law for traverse
traversepure=pure
(The naturality law is implied by parametricity and thus so is the purity law [1, p15].)
Instances are similar to Functor, e.g. given a data type
data Tree a = Empty | Leaf a | Node (Tree a) a (Tree a)
a suitable instance would be
instance Traversable Tree where traverse f Empty = pure Empty traverse f (Leaf x) = Leaf <$> f x traverse f (Node l k r) = Node <$> traverse f l <*> f k <*> traverse f r
This is suitable even for abstract types, as the laws for <*>
imply a form of associativity.
The superclass instances should satisfy the following:
- In the
Functorinstance,fmapshould be equivalent to traversal with the identity applicative functor (fmapDefault). - In the
Foldableinstance,foldMapshould be equivalent to traversal with a constant applicative functor (foldMapDefault).
References: [1] The Essence of the Iterator Pattern, Jeremy Gibbons and Bruno C. d. S. Oliveira
Methods
traverse :: Applicative f => (a -> f b) -> t a -> f (t b) #
Map each element of a structure to an action, evaluate these actions
from left to right, and collect the results. For a version that ignores
the results see traverse_.
sequenceA :: Applicative f => t (f a) -> f (t a) #
Evaluate each action in the structure from left to right, and
collect the results. For a version that ignores the results
see sequenceA_.
mapM :: Monad m => (a -> m b) -> t a -> m (t b) #
Map each element of a structure to a monadic action, evaluate
these actions from left to right, and collect the results. For
a version that ignores the results see mapM_.
sequence :: Monad m => t (m a) -> m (t a) #
Evaluate each monadic action in the structure from left to
right, and collect the results. For a version that ignores the
results see sequence_.
Instances
The class of semigroups (types with an associative binary operation).
Instances should satisfy the following:
Since: base-4.9.0.0
Instances
class Semigroup a => Monoid a where #
The class of monoids (types with an associative binary operation that has an identity). Instances should satisfy the following:
- Right identity
x<>mempty= x- Left identity
mempty<>x = x- Associativity
x(<>(y<>z) = (x<>y)<>zSemigrouplaw)- Concatenation
mconcat=foldr(<>)mempty
The method names refer to the monoid of lists under concatenation, but there are many other instances.
Some types can be viewed as a monoid in more than one way,
e.g. both addition and multiplication on numbers.
In such cases we often define newtypes and make those instances
of Monoid, e.g. Sum and Product.
NOTE: Semigroup is a superclass of Monoid since base-4.11.0.0.
Minimal complete definition
Methods
Identity of mappend
>>>"Hello world" <> mempty"Hello world"
An associative operation
NOTE: This method is redundant and has the default
implementation mappend = (<>)mappend is a synonym for
(<>), it is expected that the two functions are defined the same
way. In a future GHC release mappend will be removed from Monoid.
Fold a list using the monoid.
For most types, the default definition for mconcat will be
used, but the function is included in the class definition so
that an optimized version can be provided for specific types.
>>>mconcat ["Hello", " ", "Haskell", "!"]"Hello Haskell!"
Instances
| Monoid Ordering | Since: base-2.1 |
| Monoid () | Since: base-2.1 |
| Monoid All | Since: base-2.1 |
| Monoid Any | Since: base-2.1 |
| Monoid ByteString | |
Defined in Data.ByteString.Lazy.Internal Methods mempty :: ByteString # mappend :: ByteString -> ByteString -> ByteString # mconcat :: [ByteString] -> ByteString # | |
| Monoid ByteString | |
Defined in Data.ByteString.Internal Methods mempty :: ByteString # mappend :: ByteString -> ByteString -> ByteString # mconcat :: [ByteString] -> ByteString # | |
| Monoid ShortByteString | |
Defined in Data.ByteString.Short.Internal Methods mappend :: ShortByteString -> ShortByteString -> ShortByteString # mconcat :: [ShortByteString] -> ShortByteString # | |
| Monoid Builder | |
| Monoid IntSet | |
| Monoid ByteArray | |
| Monoid PluginRecompile | |
Defined in Plugins Methods mappend :: PluginRecompile -> PluginRecompile -> PluginRecompile # mconcat :: [PluginRecompile] -> PluginRecompile # | |
| Monoid Builder | |
| Monoid Doc | |
| Monoid PromDPatInfos | |
| Monoid ULetDecEnv | |
| a :=> (Monoid (Dict a)) | |
| () :=> (Monoid [a]) | |
Defined in Data.Constraint | |
| () :=> (Monoid Ordering) | |
| () :=> (Monoid ()) | |
Defined in Data.Constraint | |
| Monoid [a] | Since: base-2.1 |
| Semigroup a => Monoid (Maybe a) | Lift a semigroup into Since 4.11.0: constraint on inner Since: base-2.1 |
| Monoid a => Monoid (IO a) | Since: base-4.9.0.0 |
| Monoid p => Monoid (Par1 p) | Since: base-4.12.0.0 |
| Monoid a => Monoid (Solo a) | |
| Monoid (Predicate a) | |
| Monoid (Comparison a) | |
Defined in Data.Functor.Contravariant Methods mempty :: Comparison a # mappend :: Comparison a -> Comparison a -> Comparison a # mconcat :: [Comparison a] -> Comparison a # | |
| Monoid (Equivalence a) | |
Defined in Data.Functor.Contravariant Methods mempty :: Equivalence a # mappend :: Equivalence a -> Equivalence a -> Equivalence a # mconcat :: [Equivalence a] -> Equivalence a # | |
| (Ord a, Bounded a) => Monoid (Min a) | Since: base-4.9.0.0 |
| (Ord a, Bounded a) => Monoid (Max a) | Since: base-4.9.0.0 |
| Monoid m => Monoid (WrappedMonoid m) | Since: base-4.9.0.0 |
Defined in Data.Semigroup Methods mempty :: WrappedMonoid m # mappend :: WrappedMonoid m -> WrappedMonoid m -> WrappedMonoid m # mconcat :: [WrappedMonoid m] -> WrappedMonoid m # | |
| Semigroup a => Monoid (Option a) | Since: base-4.9.0.0 |
| Monoid a => Monoid (Identity a) | Since: base-4.9.0.0 |
| Monoid (First a) | Since: base-2.1 |
| Monoid (Last a) | Since: base-2.1 |
| Monoid a => Monoid (Dual a) | Since: base-2.1 |
| Monoid (Endo a) | Since: base-2.1 |
| Num a => Monoid (Sum a) | Since: base-2.1 |
| Num a => Monoid (Product a) | Since: base-2.1 |
| Monoid a => Monoid (Down a) | Since: base-4.11.0.0 |
| Monoid (PutM ()) | |
| a => Monoid (Dict a) | |
| Monoid (IntMap a) | |
| Monoid (Seq a) | |
| Ord a => Monoid (Set a) | |
| Prim a => Monoid (Vector a) | |
| Storable a => Monoid (Vector a) | |
| (Hashable a, Eq a) => Monoid (HashSet a) | \(O(n+m)\) To obtain good performance, the smaller set must be presented as the first argument. Examples
|
| Monoid (Vector a) | |
| Monoid (Leftmost a) | |
| Monoid (Rightmost a) | |
| Monoid (Doc a) | |
| Monoid (PrimArray a) | Since: primitive-0.6.4.0 |
| Monoid (SmallArray a) | |
Defined in Data.Primitive.SmallArray Methods mempty :: SmallArray a # mappend :: SmallArray a -> SmallArray a -> SmallArray a # mconcat :: [SmallArray a] -> SmallArray a # | |
| Monoid (Array a) | |
| Semigroup a => Monoid (Maybe a) | |
| Monoid (MergeSet a) | |
| Monoid a => Monoid (SimOnly a) Source # | |
| Class (Semigroup a) (Monoid a) | |
| (Monoid a) :=> (Monoid (Maybe a)) | |
| (Monoid a) :=> (Monoid (Const a b)) | |
| (Monoid a) :=> (Monoid (Identity a)) | |
| (Monoid a) :=> (Monoid (IO a)) | |
| (Monoid a) :=> (Applicative ((,) a)) | |
Defined in Data.Constraint | |
| (Monoid a) :=> (Applicative (Const a :: Type -> Type)) | |
Defined in Data.Constraint | |
| Monoid b => Monoid (a -> b) | Since: base-2.1 |
| Monoid (U1 p) | Since: base-4.12.0.0 |
| (Monoid a, Monoid b) => Monoid (a, b) | Since: base-2.1 |
| Monoid a => Monoid (ST s a) | Since: base-4.11.0.0 |
| Monoid a => Monoid (Op a b) | |
| Monoid (Proxy s) | Since: base-4.7.0.0 |
| Ord k => Monoid (Map k v) | |
| (Eq k, Hashable k) => Monoid (HashMap k v) | If a key occurs in both maps, the mapping from the first will be the mapping in the result. Examples
|
| Monoid (ReifiedFold s a) | |
Defined in Control.Lens.Reified Methods mempty :: ReifiedFold s a # mappend :: ReifiedFold s a -> ReifiedFold s a -> ReifiedFold s a # mconcat :: [ReifiedFold s a] -> ReifiedFold s a # | |
| (Contravariant f, Applicative f) => Monoid (Folding f a) | |
| Applicative f => Monoid (Traversed a f) | |
| (Apply f, Applicative f) => Monoid (TraversedF a f) | |
Defined in Control.Lens.Internal.Fold Methods mempty :: TraversedF a f # mappend :: TraversedF a f -> TraversedF a f -> TraversedF a f # mconcat :: [TraversedF a f] -> TraversedF a f # | |
| Monad m => Monoid (Sequenced a m) | |
| Monoid (f a) => Monoid (Indexing f a) |
|
| Monoid (Deepening i a) | This is an illegal |
| (Monoid a, Monoid b) => Monoid (Pair a b) | |
| (KnownNat n, Monoid a) => Monoid (Vec n a) Source # | |
| (Monoid a, Monoid b) :=> (Monoid (a, b)) | |
| Monoid (f p) => Monoid (Rec1 f p) | Since: base-4.12.0.0 |
| (Monoid a, Monoid b, Monoid c) => Monoid (a, b, c) | Since: base-2.1 |
| ArrowPlus a => Monoid (Automaton a b c) | |
| Monoid a => Monoid (Const a b) | Since: base-4.9.0.0 |
| (Applicative f, Monoid a) => Monoid (Ap f a) | Since: base-4.12.0.0 |
| Alternative f => Monoid (Alt f a) | Since: base-4.8.0.0 |
| Applicative f => Monoid (Traversed a f) | |
| Monad m => Monoid (Sequenced a m) | |
| (Semigroup a, Monoid a) => Monoid (Tagged s a) | |
| Monoid (ReifiedIndexedFold i s a) | |
Defined in Control.Lens.Reified Methods mempty :: ReifiedIndexedFold i s a # mappend :: ReifiedIndexedFold i s a -> ReifiedIndexedFold i s a -> ReifiedIndexedFold i s a # mconcat :: [ReifiedIndexedFold i s a] -> ReifiedIndexedFold i s a # | |
| Reifies s (ReifiedMonoid a) => Monoid (ReflectedMonoid a s) | |
Defined in Data.Reflection Methods mempty :: ReflectedMonoid a s # mappend :: ReflectedMonoid a s -> ReflectedMonoid a s -> ReflectedMonoid a s # mconcat :: [ReflectedMonoid a s] -> ReflectedMonoid a s # | |
| Monoid a => Monoid (Constant a b) | |
| Monoid (BiSignalOut defaultState dom n) Source # | Monoid instance to support concatenating NB Not synthesizable |
Defined in Clash.Signal.BiSignal Methods mempty :: BiSignalOut defaultState dom n # mappend :: BiSignalOut defaultState dom n -> BiSignalOut defaultState dom n -> BiSignalOut defaultState dom n # mconcat :: [BiSignalOut defaultState dom n] -> BiSignalOut defaultState dom n # | |
| Monoid c => Monoid (K1 i c p) | Since: base-4.12.0.0 |
| (Monoid (f p), Monoid (g p)) => Monoid ((f :*: g) p) | Since: base-4.12.0.0 |
| (Monoid a, Monoid b, Monoid c, Monoid d) => Monoid (a, b, c, d) | Since: base-2.1 |
| Monoid (f p) => Monoid (M1 i c f p) | Since: base-4.12.0.0 |
| Monoid (f (g p)) => Monoid ((f :.: g) p) | Since: base-4.12.0.0 |
| (Monoid a, Monoid b, Monoid c, Monoid d, Monoid e) => Monoid (a, b, c, d, e) | Since: base-2.1 |
| Contravariant g => Monoid (BazaarT p g a b t) | |
Instances
| Bounded Bool | Since: base-2.1 |
| Enum Bool | Since: base-2.1 |
| Eq Bool | |
| Data Bool | Since: base-4.0.0.0 |
Defined in Data.Data Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Bool -> c Bool # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Bool # dataTypeOf :: Bool -> DataType # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Bool) # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Bool) # gmapT :: (forall b. Data b => b -> b) -> Bool -> Bool # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Bool -> r # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Bool -> r # gmapQ :: (forall d. Data d => d -> u) -> Bool -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> Bool -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Bool -> m Bool # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Bool -> m Bool # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Bool -> m Bool # | |
| Ord Bool | |
| Read Bool | Since: base-2.1 |
| Show Bool | Since: base-2.1 |
| Ix Bool | Since: base-2.1 |
| Generic Bool | Since: base-4.6.0.0 |
| Testable Bool | |
| Arbitrary Bool | |
| CoArbitrary Bool | |
Defined in Test.QuickCheck.Arbitrary Methods coarbitrary :: Bool -> Gen b -> Gen b # | |
| Storable Bool | Since: base-2.1 |
Defined in Foreign.Storable | |
| Bits Bool | Interpret Since: base-4.7.0.0 |
Defined in Data.Bits Methods (.&.) :: Bool -> Bool -> Bool # (.|.) :: Bool -> Bool -> Bool # complement :: Bool -> Bool # shift :: Bool -> Int -> Bool # rotate :: Bool -> Int -> Bool # setBit :: Bool -> Int -> Bool # clearBit :: Bool -> Int -> Bool # complementBit :: Bool -> Int -> Bool # testBit :: Bool -> Int -> Bool # bitSizeMaybe :: Bool -> Maybe Int # shiftL :: Bool -> Int -> Bool # unsafeShiftL :: Bool -> Int -> Bool # shiftR :: Bool -> Int -> Bool # unsafeShiftR :: Bool -> Int -> Bool # rotateL :: Bool -> Int -> Bool # | |
| FiniteBits Bool | Since: base-4.7.0.0 |
Defined in Data.Bits Methods finiteBitSize :: Bool -> Int # countLeadingZeros :: Bool -> Int # countTrailingZeros :: Bool -> Int # | |
| Binary Bool | |
| NFData Bool | |
Defined in Control.DeepSeq | |
| Hashable Bool | |
Defined in Data.Hashable.Class | |
| Unbox Bool | |
Defined in Data.Vector.Unboxed.Base | |
| Uniform Bool | |
Defined in System.Random.Internal Methods uniformM :: StatefulGen g m => g -> m Bool # | |
| UniformRange Bool | |
Defined in System.Random.Internal | |
| PShow Bool | |
| SShow Bool | |
Defined in Data.Singletons.Prelude.Show Methods sShowsPrec :: forall (t1 :: Nat) (t2 :: Bool) (t3 :: Symbol). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply ShowsPrecSym0 t1) t2) t3) # sShow_ :: forall (t :: Bool). Sing t -> Sing (Apply Show_Sym0 t) # sShowList :: forall (t1 :: [Bool]) (t2 :: Symbol). Sing t1 -> Sing t2 -> Sing (Apply (Apply ShowListSym0 t1) t2) # | |
| PEnum Bool | |
Defined in Data.Singletons.Prelude.Enum | |
| SEnum Bool | |
Defined in Data.Singletons.Prelude.Enum Methods sSucc :: forall (t :: Bool). Sing t -> Sing (Apply SuccSym0 t) # sPred :: forall (t :: Bool). Sing t -> Sing (Apply PredSym0 t) # sToEnum :: forall (t :: Nat). Sing t -> Sing (Apply ToEnumSym0 t) # sFromEnum :: forall (t :: Bool). Sing t -> Sing (Apply FromEnumSym0 t) # sEnumFromTo :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply EnumFromToSym0 t1) t2) # sEnumFromThenTo :: forall (t1 :: Bool) (t2 :: Bool) (t3 :: Bool). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply EnumFromThenToSym0 t1) t2) t3) # | |
| PBounded Bool | |
Defined in Data.Singletons.Prelude.Enum | |
| SBounded Bool | |
Defined in Data.Singletons.Prelude.Enum | |
| POrd Bool | |
| SOrd Bool | |
Defined in Data.Singletons.Prelude.Ord Methods sCompare :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply CompareSym0 t1) t2) # (%<) :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<@#@$) t1) t2) # (%<=) :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<=@#@$) t1) t2) # (%>) :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>@#@$) t1) t2) # (%>=) :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>=@#@$) t1) t2) # sMax :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply MaxSym0 t1) t2) # sMin :: forall (t1 :: Bool) (t2 :: Bool). Sing t1 -> Sing t2 -> Sing (Apply (Apply MinSym0 t1) t2) # | |
| SEq Bool | |
| PEq Bool | |
| SingKind Bool | Since: base-4.9.0.0 |
Defined in GHC.Generics Associated Types type DemoteRep Bool | |
| NFDataX Bool Source # | |
Defined in Clash.XException | |
| ShowX Bool Source # | |
| BitPack Bool Source # | |
| Parity Bool Source # | |
| Bundle Bool Source # | |
| Bundle Bool Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| AutoReg Bool Source # | |
Defined in Clash.Class.AutoReg.Internal | |
| Lift Bool | |
| IArray UArray Bool | |
Defined in Data.Array.Base Methods bounds :: Ix i => UArray i Bool -> (i, i) # numElements :: Ix i => UArray i Bool -> Int unsafeArray :: Ix i => (i, i) -> [(Int, Bool)] -> UArray i Bool unsafeAt :: Ix i => UArray i Bool -> Int -> Bool unsafeReplace :: Ix i => UArray i Bool -> [(Int, Bool)] -> UArray i Bool unsafeAccum :: Ix i => (Bool -> e' -> Bool) -> UArray i Bool -> [(Int, e')] -> UArray i Bool unsafeAccumArray :: Ix i => (Bool -> e' -> Bool) -> Bool -> (i, i) -> [(Int, e')] -> UArray i Bool | |
| TestCoercion SBool | |
Defined in Data.Singletons.Prelude.Instances | |
| TestEquality SBool | |
Defined in Data.Singletons.Prelude.Instances | |
| Vector Vector Bool | |
Defined in Data.Vector.Unboxed.Base Methods basicUnsafeFreeze :: Mutable Vector s Bool -> ST s (Vector Bool) # basicUnsafeThaw :: Vector Bool -> ST s (Mutable Vector s Bool) # basicLength :: Vector Bool -> Int # basicUnsafeSlice :: Int -> Int -> Vector Bool -> Vector Bool # basicUnsafeIndexM :: Vector Bool -> Int -> Box Bool # basicUnsafeCopy :: Mutable Vector s Bool -> Vector Bool -> ST s () # | |
| MVector MVector Bool | |
Defined in Data.Vector.Unboxed.Base Methods basicLength :: MVector s Bool -> Int # basicUnsafeSlice :: Int -> Int -> MVector s Bool -> MVector s Bool # basicOverlaps :: MVector s Bool -> MVector s Bool -> Bool # basicUnsafeNew :: Int -> ST s (MVector s Bool) # basicInitialize :: MVector s Bool -> ST s () # basicUnsafeReplicate :: Int -> Bool -> ST s (MVector s Bool) # basicUnsafeRead :: MVector s Bool -> Int -> ST s Bool # basicUnsafeWrite :: MVector s Bool -> Int -> Bool -> ST s () # basicClear :: MVector s Bool -> ST s () # basicSet :: MVector s Bool -> Bool -> ST s () # basicUnsafeCopy :: MVector s Bool -> MVector s Bool -> ST s () # basicUnsafeMove :: MVector s Bool -> MVector s Bool -> ST s () # basicUnsafeGrow :: MVector s Bool -> Int -> ST s (MVector s Bool) # | |
| SingI 'False | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
| SingI 'True | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
| LockStep Bool c Source # | |
| () :=> (Bounded Bool) | |
| () :=> (Enum Bool) | |
| () :=> (Eq Bool) | |
| () :=> (Ord Bool) | |
| () :=> (Read Bool) | |
| () :=> (Show Bool) | |
| () :=> (Bits Bool) | |
| AssertionValue dom (Signal dom Bool) Source # | Stream of booleans, originating from a circuit |
Defined in Clash.Verification.Internal | |
| MArray (STUArray s) Bool (ST s) | |
Defined in Data.Array.Base Methods getBounds :: Ix i => STUArray s i Bool -> ST s (i, i) # getNumElements :: Ix i => STUArray s i Bool -> ST s Int newArray :: Ix i => (i, i) -> Bool -> ST s (STUArray s i Bool) # newArray_ :: Ix i => (i, i) -> ST s (STUArray s i Bool) # unsafeNewArray_ :: Ix i => (i, i) -> ST s (STUArray s i Bool) unsafeRead :: Ix i => STUArray s i Bool -> Int -> ST s Bool unsafeWrite :: Ix i => STUArray s i Bool -> Int -> Bool -> ST s () | |
| Clocks (Clock c1, Signal pllLock Bool) Source # | |
| SuppressUnusedWarnings NotSym0 | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings FromEnum_6989586621680145255Sym0 | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings All_Sym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings AllSym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Any_Sym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings AnySym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (||@#@$) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (&&@#@$) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621679858881Sym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ShowParenSym0 | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings OrSym0 | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings AndSym0 | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ToEnum_6989586621680145234Sym0 | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ShowsPrec_6989586621680667160Sym0 | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (<=?@#@$) | |
Defined in Data.Singletons.TypeLits.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings GetAllSym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings GetAnySym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SingI NotSym0 | |
Defined in Data.Singletons.Prelude.Bool | |
| SingI (||@#@$) | |
Defined in Data.Singletons.Prelude.Bool | |
| SingI (&&@#@$) | |
Defined in Data.Singletons.Prelude.Bool | |
| SingI (<=?@#@$) | |
Defined in Data.Singletons.TypeLits.Internal | |
| SingI All_Sym0 | |
| SingI AllSym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| SingI Any_Sym0 | |
| SingI AnySym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| SingI ShowParenSym0 | |
Defined in Data.Singletons.Prelude.Show Methods sing :: Sing ShowParenSym0 # | |
| SingI OrSym0 | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI AndSym0 | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI GetAllSym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods sing :: Sing GetAllSym0 # | |
| SingI GetAnySym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods sing :: Sing GetAnySym0 # | |
| SuppressUnusedWarnings ((||@#@$$) a6989586621679805266 :: TyFun Bool Bool -> Type) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((&&@#@$$) a6989586621679804610 :: TyFun Bool Bool -> Type) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858881Sym1 a6989586621679858886 :: TyFun Bool Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GuardSym0 :: TyFun Bool (f ()) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680667160Sym1 a6989586621680667173 :: TyFun Bool (Symbol ~> Symbol) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (WhenSym0 :: TyFun Bool (f () ~> f ()) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListnullSym0 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListisPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NullSym0 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsSuffixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsInfixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680812657Sym0 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((<=?@#@$$) a6989586621680042731 :: TyFun Nat Bool -> Type) | |
Defined in Data.Singletons.TypeLits.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListelemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NotElemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (OrSym0 :: TyFun (t Bool) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794951Scrutinee_6989586621680794741Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794927Scrutinee_6989586621680794739Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680813287Sym0 :: TyFun a (Product a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680813112Sym0 :: TyFun a (Sum a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812934Sym0 :: TyFun a (Dual a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812902Sym0 :: TyFun a (Proxy a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812523Sym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AndSym0 :: TyFun (t Bool) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DefaultEqSym0 :: TyFun k (k ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((==@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((/=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Bool_Sym0 :: TyFun a (a ~> (Bool ~> a)) -> Type) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841705Sym0 :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841688Sym0 :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841669Sym0 :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841647Sym0 :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841746Scrutinee_6989586621679841452Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841730Scrutinee_6989586621679841450Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841637Scrutinee_6989586621679841436Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841632Scrutinee_6989586621679841434Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((>@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((>=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((<@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((<=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794795Scrutinee_6989586621680791594Sym0 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Proxy Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621681010068Sym0 :: TyFun a (Identity a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Identity Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621681010223Sym0 :: TyFun (Identity a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Identity Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680813069Sym0 :: TyFun (Dual a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680813244Sym0 :: TyFun (Sum a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680813423Sym0 :: TyFun (Product a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListtakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListspanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListpartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListnubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListfilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListdropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (UnionBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (SpanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (SelectSym0 :: TyFun (a ~> Bool) (a ~> (([a], [a]) ~> ([a], [a]))) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (PartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384114ZsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384114YsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384114X_6989586621680384115Sym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] ([k], [k]) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384079ZsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384079YsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384079X_6989586621680384080Sym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] ([k], [k]) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IntersectBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GroupBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [[a]]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindIndicesSym0 :: TyFun (a ~> Bool) ([a] ~> [Nat]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_bySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> Bool)) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DropWhileEndSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DeleteFirstsBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DeleteBySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (BreakSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AnySym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AllSym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (UntilSym0 :: TyFun (a ~> Bool) ((a ~> a) ~> (a ~> a)) -> Type) | |
Defined in Data.Singletons.Prelude.Base Methods suppressUnusedWarnings :: () # | |
| SingI x => SingI ((||@#@$$) x :: TyFun Bool Bool -> Type) | |
Defined in Data.Singletons.Prelude.Bool | |
| SingI x => SingI ((&&@#@$$) x :: TyFun Bool Bool -> Type) | |
Defined in Data.Singletons.Prelude.Bool | |
| SingI x => SingI ((<=?@#@$$) x :: TyFun Nat Bool -> Type) | |
Defined in Data.Singletons.TypeLits.Internal Methods sing :: Sing ((<=?@#@$$) x) # | |
| SAlternative f => SingI (GuardSym0 :: TyFun Bool (f ()) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| SApplicative f => SingI (WhenSym0 :: TyFun Bool (f () ~> f ()) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| SingI (ListnullSym0 :: TyFun [a] Bool -> Type) | |
| SEq a => SingI (ListisPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
| SingI (NullSym0 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SEq a => SingI (IsSuffixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing IsSuffixOfSym0 # | |
| SEq a => SingI (IsPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing IsPrefixOfSym0 # | |
| SEq a => SingI (IsInfixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing IsInfixOfSym0 # | |
| SingI (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing IsNothingSym0 # | |
| SingI (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing IsJustSym0 # | |
| SEq a => SingI (ListelemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
| SEq a => SingI (NotElemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SEq a => SingI (ElemSym0 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SFoldable t => SingI (OrSym0 :: TyFun (t Bool) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SFoldable t => SingI (AndSym0 :: TyFun (t Bool) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SEq a => SingI ((==@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Eq | |
| SEq a => SingI ((/=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Eq | |
| SingI (Bool_Sym0 :: TyFun a (a ~> (Bool ~> a)) -> Type) | |
Defined in Data.Singletons.Prelude.Bool | |
| SOrd a => SingI ((>@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| SOrd a => SingI ((>=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| SOrd a => SingI ((<@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| SOrd a => SingI ((<=@#@$) :: TyFun a (a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| SingI (ListtakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
| SingI (ListspanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
| SingI (ListpartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
| SingI (ListnubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) | |
| SingI (ListfilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
| SingI (ListdropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
| SingI (UnionBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing UnionBySym0 # | |
| SingI (TakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing TakeWhileSym0 # | |
| SingI (SpanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (SelectSym0 :: TyFun (a ~> Bool) (a ~> (([a], [a]) ~> ([a], [a]))) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (PartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing PartitionSym0 # | |
| SingI (NubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (IntersectBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing IntersectBySym0 # | |
| SingI (GroupBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [[a]]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing GroupBySym0 # | |
| SingI (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (FindIndicesSym0 :: TyFun (a ~> Bool) ([a] ~> [Nat]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing FindIndicesSym0 # | |
| SingI (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing FindIndexSym0 # | |
| SingI (FilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing FilterSym0 # | |
| SingI (Elem_bySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> Bool)) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (DropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing DropWhileSym0 # | |
| SingI (DropWhileEndSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods | |
| SingI (DeleteFirstsBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods | |
| SingI (DeleteBySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing DeleteBySym0 # | |
| SingI (BreakSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (AnySym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (AllSym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (UntilSym0 :: TyFun (a ~> Bool) ((a ~> a) ~> (a ~> a)) -> Type) | |
Defined in Data.Singletons.Prelude.Base | |
| SuppressUnusedWarnings (ListisPrefixOfSym1 a6989586621680645806 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListelemSym1 a6989586621680645733 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NotElemSym1 a6989586621680384597 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsSuffixOfSym1 a6989586621680384620 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsPrefixOfSym1 a6989586621680384627 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsInfixOfSym1 a6989586621680384613 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemSym1 a6989586621680384605 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AnySym1 a6989586621680384822 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AllSym1 a6989586621680384830 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812523Sym1 a6989586621680812532 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsRightSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680812821Sym0 :: TyFun (Either a1 a2) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383902Scrutinee_6989586621680380347Sym0 :: TyFun k1 (TyFun k Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_bySym1 a6989586621680383833 :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NotElemSym0 :: TyFun a (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794951Scrutinee_6989586621680794741Sym1 x6989586621680794946 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794927Scrutinee_6989586621680794739Sym1 x6989586621680794922 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812410Sym0 :: TyFun a (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemSym0 :: TyFun a (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (DefaultEqSym1 a6989586621679811952 :: TyFun k Bool -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((==@#@$$) a6989586621679811946 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((/=@#@$$) a6989586621679811949 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Eq Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Bool_Sym1 a6989586621679803277 :: TyFun a (Bool ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841705Sym1 a6989586621679841710 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841688Sym1 a6989586621679841694 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841669Sym1 a6989586621679841675 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679841647Sym1 a6989586621679841653 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841746Scrutinee_6989586621679841452Sym1 x6989586621679841744 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841730Scrutinee_6989586621679841450Sym1 x6989586621679841728 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841637Scrutinee_6989586621679841436Sym1 x6989586621679841630 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841632Scrutinee_6989586621679841434Sym1 x6989586621679841630 :: TyFun k1 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((>@#@$$) a6989586621679841599 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((>=@#@$$) a6989586621679841604 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((<@#@$$) a6989586621679841589 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ((<=@#@$$) a6989586621679841594 :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621681233107Sym0 :: TyFun (Arg a b) (Arg a b ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621681010068Sym1 a6989586621681010073 :: TyFun (Identity a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Identity Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812934Sym1 a6989586621680812943 :: TyFun (Dual a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680813112Sym1 a6989586621680813121 :: TyFun (Sum a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680813287Sym1 a6989586621680813296 :: TyFun (Product a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812902Sym1 a6989586621680812907 :: TyFun (Proxy a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680812895Sym0 :: TyFun (Proxy a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680794716Sym0 :: TyFun (Proxy s) (Proxy s ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Proxy Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383981ZsSym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] [a] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383981YsSym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] [a] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383981X_6989586621680383982Sym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] ([a], [a]) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383847NubBy'Sym0 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k (TyFun [k1] ([k1] ~> [k1]) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680384142Sym0 :: TyFun (a ~> Bool) (TyFun k (TyFun a (TyFun [a] [a] -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680811935Sym0 :: TyFun (a ~> Bool) (TyFun k (TyFun a (First a) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AnySym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AllSym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679816116GoSym0 :: TyFun (k1 ~> Bool) (TyFun (k1 ~> k1) (TyFun k2 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Base Methods suppressUnusedWarnings :: () # | |
| (SEq a, SingI d) => SingI (ListisPrefixOfSym1 d :: TyFun [a] Bool -> Type) | |
| (SEq a, SingI d) => SingI (ListelemSym1 d :: TyFun [a] Bool -> Type) | |
| (SEq a, SingI d) => SingI (NotElemSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| (SEq a, SingI d) => SingI (IsSuffixOfSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (IsSuffixOfSym1 d) # | |
| (SEq a, SingI d) => SingI (IsPrefixOfSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (IsPrefixOfSym1 d) # | |
| (SEq a, SingI d) => SingI (IsInfixOfSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (IsInfixOfSym1 d) # | |
| (SEq a, SingI d) => SingI (ElemSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI d => SingI (AnySym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI d => SingI (AllSym1 d :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (IsRightSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing IsRightSym0 # | |
| SingI (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing IsLeftSym0 # | |
| SingI d => SingI (Elem_bySym1 d :: TyFun a ([a] ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| (SFoldable t, SEq a) => SingI (NotElemSym0 :: TyFun a (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods sing :: Sing NotElemSym0 # | |
| (SFoldable t, SEq a) => SingI (ElemSym0 :: TyFun a (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| (SEq a, SingI x) => SingI ((==@#@$$) x :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Eq | |
| (SEq a, SingI x) => SingI ((/=@#@$$) x :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Eq | |
| SingI d => SingI (Bool_Sym1 d :: TyFun a (Bool ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Bool | |
| (SOrd a, SingI d) => SingI ((>@#@$$) d :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| (SOrd a, SingI d) => SingI ((>=@#@$$) d :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| (SOrd a, SingI d) => SingI ((<@#@$$) d :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| (SOrd a, SingI d) => SingI ((<=@#@$$) d :: TyFun a Bool -> Type) | |
Defined in Data.Singletons.Prelude.Ord | |
| SFoldable t => SingI (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SFoldable t => SingI (AnySym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SFoldable t => SingI (AllSym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SuppressUnusedWarnings (Bool_Sym2 a6989586621679803277 a6989586621679803278 :: TyFun Bool a -> Type) | |
Defined in Data.Singletons.Prelude.Bool Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_bySym2 a6989586621680383833 a6989586621680383834 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384146Scrutinee_6989586621680380325Sym0 :: TyFun k1 (TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384058Scrutinee_6989586621680380331Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384045Scrutinee_6989586621680380333Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383968Scrutinee_6989586621680380343Sym0 :: TyFun k1 (TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383902Scrutinee_6989586621680380347Sym1 n6989586621680383900 :: TyFun k Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383883Scrutinee_6989586621680380349Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383870Scrutinee_6989586621680380351Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383854Scrutinee_6989586621680380353Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680812374Sym0 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NullSym0 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (NotElemSym1 a6989586621680811949 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680812382Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Elem_6989586621680812410Sym1 a6989586621680812419 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemSym1 a6989586621680812206 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AnySym1 a6989586621680812011 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (AllSym1 a6989586621680812001 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621681233107Sym1 a6989586621681233112 :: TyFun (Arg a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680794716Sym1 a6989586621680794721 :: TyFun (Proxy s) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Proxy Methods suppressUnusedWarnings :: () # | |
| (SingI d1, SingI d2) => SingI (Bool_Sym2 d1 d2 :: TyFun Bool a -> Type) | |
Defined in Data.Singletons.Prelude.Bool | |
| (SingI d1, SingI d2) => SingI (Elem_bySym2 d1 d2 :: TyFun [a] Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SFoldable t => SingI (NullSym0 :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| (SFoldable t, SEq a, SingI d) => SingI (NotElemSym1 d :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods sing :: Sing (NotElemSym1 d) # | |
| (SFoldable t, SEq a, SingI d) => SingI (ElemSym1 d :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| (SFoldable t, SingI d) => SingI (AnySym1 d :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| (SFoldable t, SingI d) => SingI (AllSym1 d :: TyFun (t a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SuppressUnusedWarnings (Let6989586621680384146Scrutinee_6989586621680380325Sym1 x6989586621680384144 :: TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384058Scrutinee_6989586621680380331Sym1 n6989586621680384055 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384045Scrutinee_6989586621680380333Sym1 n6989586621680384042 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383968Scrutinee_6989586621680380343Sym1 key6989586621680383964 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383883Scrutinee_6989586621680380349Sym1 x6989586621680383880 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383870Scrutinee_6989586621680380351Sym1 x6989586621680383867 :: TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383854Scrutinee_6989586621680380353Sym1 y6989586621680383851 :: TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118931Scrutinee_6989586621680117988Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680812382Sym1 a_69895866216808123766989586621680812381 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383870Scrutinee_6989586621680380351Sym2 x6989586621680383867 xs6989586621680383868 :: TyFun [k1] (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383854Scrutinee_6989586621680380353Sym2 y6989586621680383851 ys6989586621680383852 :: TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384058Scrutinee_6989586621680380331Sym2 n6989586621680384055 x6989586621680384056 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384045Scrutinee_6989586621680380333Sym2 n6989586621680384042 x6989586621680384043 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383968Scrutinee_6989586621680380343Sym2 key6989586621680383964 x6989586621680383965 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383883Scrutinee_6989586621680380349Sym2 x6989586621680383880 xs6989586621680383881 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118931Scrutinee_6989586621680117988Sym1 x6989586621680118930 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680812382Sym2 a_69895866216808123766989586621680812381 arg_69895866216808117316989586621680812384 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384146Scrutinee_6989586621680380325Sym2 x6989586621680384144 xs6989586621680384145 :: TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680384195Sym0 :: TyFun (b ~> (a ~> Bool)) (TyFun k1 (TyFun k2 (TyFun a (TyFun [a] (TyFun b (m b) -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384146Scrutinee_6989586621680380325Sym3 x6989586621680384144 xs6989586621680384145 p6989586621680384140 :: TyFun k Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383968Scrutinee_6989586621680380343Sym3 key6989586621680383964 x6989586621680383965 y6989586621680383966 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383870Scrutinee_6989586621680380351Sym3 x6989586621680383867 xs6989586621680383868 ls6989586621680383869 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118931Scrutinee_6989586621680117988Sym2 x6989586621680118930 x06989586621680118918 :: TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym1 x16989586621680118788 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym1 x16989586621680118705 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383854Scrutinee_6989586621680380353Sym3 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680383854Scrutinee_6989586621680380353Sym4 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 eq6989586621680383845 :: TyFun k3 Bool -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118931Scrutinee_6989586621680117988Sym3 x6989586621680118930 x06989586621680118918 y6989586621680118920 :: TyFun k3 (TyFun k4 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym2 x16989586621680118788 x26989586621680118789 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym2 x16989586621680118705 x26989586621680118706 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118931Scrutinee_6989586621680117988Sym4 x6989586621680118930 x06989586621680118918 y6989586621680118920 arg_69895866216801179846989586621680118911 :: TyFun k4 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym3 x16989586621680118788 x26989586621680118789 y6989586621680118794 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym3 x16989586621680118705 x26989586621680118706 y6989586621680118709 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym4 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym4 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118798Scrutinee_6989586621680118012Sym5 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 arg_69895866216801180086989586621680118782 :: TyFun k5 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680118714Scrutinee_6989586621680118042Sym5 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 arg_69895866216801180376989586621680118701 :: TyFun k5 Bool -> Type) | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| Clocks (Clock c1, Clock c2, Signal pllLock Bool) Source # | |
| Clocks (Clock c1, Clock c2, Clock c3, Signal pllLock Bool) Source # | |
| type Rep Bool | |
| newtype Vector Bool | |
| type MaxBound | |
Defined in Data.Singletons.Prelude.Enum type MaxBound = MaxBound_6989586621680111375Sym0 | |
| type MinBound | |
Defined in Data.Singletons.Prelude.Enum type MinBound = MinBound_6989586621680111358Sym0 | |
| type Sing | |
Defined in Data.Singletons.Prelude.Instances | |
| type Demote Bool | |
Defined in Data.Singletons.Prelude.Instances | |
| type DemoteRep Bool | |
Defined in GHC.Generics | |
| data Sing (a :: Bool) | |
| type BitSize Bool Source # | |
Defined in Clash.Class.BitPack.Internal | |
| type Show_ (arg :: Bool) | |
| type FromEnum (a :: Bool) | |
Defined in Data.Singletons.Prelude.Enum | |
| type ToEnum a | |
Defined in Data.Singletons.Prelude.Enum | |
| type Pred (arg :: Bool) | |
| type Succ (arg :: Bool) | |
| newtype MVector s Bool | |
| type Unbundled dom Bool Source # | |
Defined in Clash.Signal.Bundle | |
| type TryDomain t Bool Source # | |
Defined in Clash.Class.HasDomain.HasSingleDomain | |
| type ShowList (arg1 :: [Bool]) arg2 | |
| type EnumFromTo (arg1 :: Bool) (arg2 :: Bool) | |
| type Min (arg1 :: Bool) (arg2 :: Bool) | |
| type Max (arg1 :: Bool) (arg2 :: Bool) | |
| type (arg1 :: Bool) >= (arg2 :: Bool) | |
| type (arg1 :: Bool) > (arg2 :: Bool) | |
| type (arg1 :: Bool) <= (arg2 :: Bool) | |
| type (arg1 :: Bool) < (arg2 :: Bool) | |
| type Compare (a1 :: Bool) (a2 :: Bool) | |
| type (x :: Bool) /= (y :: Bool) | |
| type (a :: Bool) == (b :: Bool) | |
Defined in Data.Singletons.Prelude.Eq | |
| type Unbundled dom d Bool Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| type ShowsPrec a1 (a2 :: Bool) a3 | |
| type EnumFromThenTo (arg1 :: Bool) (arg2 :: Bool) (arg3 :: Bool) | |
| type Apply NotSym0 (a6989586621679805941 :: Bool) | |
Defined in Data.Singletons.Prelude.Bool | |
| type Apply FromEnum_6989586621680145255Sym0 (a6989586621680145259 :: Bool) | |
Defined in Data.Singletons.Prelude.Enum | |
| type Apply All_Sym0 (a6989586621680367479 :: Bool) | |
| type Apply AllSym0 (a6989586621680254651 :: Bool) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply Any_Sym0 (a6989586621680367473 :: Bool) | |
| type Apply AnySym0 (a6989586621680254668 :: Bool) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply ToEnum_6989586621680145234Sym0 (a6989586621680145239 :: Nat) | |
Defined in Data.Singletons.Prelude.Enum | |
| type Apply GetAllSym0 (a6989586621680254654 :: All) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply GetAnySym0 (a6989586621680254671 :: Any) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply ((||@#@$$) a6989586621679805266 :: TyFun Bool Bool -> Type) (a6989586621679805267 :: Bool) | |
| type Apply ((&&@#@$$) a6989586621679804610 :: TyFun Bool Bool -> Type) (a6989586621679804611 :: Bool) | |
| type Apply (Compare_6989586621679858881Sym1 a6989586621679858886 :: TyFun Bool Ordering -> Type) (a6989586621679858887 :: Bool) | |
| type Apply ((<=?@#@$$) a6989586621680042731 :: TyFun Nat Bool -> Type) (a6989586621680042732 :: Nat) | |
Defined in Data.Singletons.TypeLits.Internal | |
| type Apply (Let6989586621680794795Scrutinee_6989586621680791594Sym0 :: TyFun k1 Bool -> Type) (n6989586621680794794 :: k1) | |
Defined in Data.Singletons.Prelude.Proxy | |
| type Apply (Let6989586621680794927Scrutinee_6989586621680794739Sym1 x6989586621680794922 :: TyFun k1 Bool -> Type) (y6989586621680794923 :: k1) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680794951Scrutinee_6989586621680794741Sym1 x6989586621680794946 :: TyFun k1 Bool -> Type) (y6989586621680794947 :: k1) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply ((==@#@$$) a6989586621679811946 :: TyFun a Bool -> Type) (a6989586621679811947 :: a) | |
| type Apply ((/=@#@$$) a6989586621679811949 :: TyFun a Bool -> Type) (a6989586621679811950 :: a) | |
| type Apply (DefaultEqSym1 a6989586621679811952 :: TyFun k Bool -> Type) (a6989586621679811953 :: k) | |
Defined in Data.Singletons.Prelude.Eq type Apply (DefaultEqSym1 a6989586621679811952 :: TyFun k Bool -> Type) (a6989586621679811953 :: k) = DefaultEqSym2 a6989586621679811952 a6989586621679811953 | |
| type Apply (Let6989586621679841632Scrutinee_6989586621679841434Sym1 x6989586621679841630 :: TyFun k1 Bool -> Type) (y6989586621679841631 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (TFHelper_6989586621679841705Sym1 a6989586621679841710 :: TyFun a Bool -> Type) (a6989586621679841711 :: a) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (TFHelper_6989586621679841688Sym1 a6989586621679841694 :: TyFun a Bool -> Type) (a6989586621679841695 :: a) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (TFHelper_6989586621679841669Sym1 a6989586621679841675 :: TyFun a Bool -> Type) (a6989586621679841676 :: a) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (TFHelper_6989586621679841647Sym1 a6989586621679841653 :: TyFun a Bool -> Type) (a6989586621679841654 :: a) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply ((<=@#@$$) a6989586621679841594 :: TyFun a Bool -> Type) (a6989586621679841595 :: a) | |
| type Apply ((>=@#@$$) a6989586621679841604 :: TyFun a Bool -> Type) (a6989586621679841605 :: a) | |
| type Apply ((>@#@$$) a6989586621679841599 :: TyFun a Bool -> Type) (a6989586621679841600 :: a) | |
| type Apply (Let6989586621679841746Scrutinee_6989586621679841452Sym1 x6989586621679841744 :: TyFun k1 Bool -> Type) (y6989586621679841745 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Let6989586621679841730Scrutinee_6989586621679841450Sym1 x6989586621679841728 :: TyFun k1 Bool -> Type) (y6989586621679841729 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Let6989586621679841637Scrutinee_6989586621679841436Sym1 x6989586621679841630 :: TyFun k1 Bool -> Type) (y6989586621679841631 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply ((<@#@$$) a6989586621679841589 :: TyFun a Bool -> Type) (a6989586621679841590 :: a) | |
| type Apply (Bool_Sym2 a6989586621679803277 a6989586621679803278 :: TyFun Bool a -> Type) (a6989586621679803279 :: Bool) | |
| type Apply (Let6989586621680383902Scrutinee_6989586621680380347Sym1 n6989586621680383900 :: TyFun k Bool -> Type) (x6989586621680383901 :: k) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383883Scrutinee_6989586621680380349Sym2 x6989586621680383880 xs6989586621680383881 :: TyFun k3 Bool -> Type) (n6989586621680383882 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680384045Scrutinee_6989586621680380333Sym2 n6989586621680384042 x6989586621680384043 :: TyFun k3 Bool -> Type) (xs6989586621680384044 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680384058Scrutinee_6989586621680380331Sym2 n6989586621680384055 x6989586621680384056 :: TyFun k3 Bool -> Type) (xs6989586621680384057 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Lambda_6989586621680812382Sym2 a_69895866216808123766989586621680812381 arg_69895866216808117316989586621680812384 :: TyFun k3 Bool -> Type) (arg_69895866216808117336989586621680812385 :: k3) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Lambda_6989586621680812382Sym2 a_69895866216808123766989586621680812381 arg_69895866216808117316989586621680812384 :: TyFun k3 Bool -> Type) (arg_69895866216808117336989586621680812385 :: k3) = Lambda_6989586621680812382Sym3 a_69895866216808123766989586621680812381 arg_69895866216808117316989586621680812384 arg_69895866216808117336989586621680812385 | |
| type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym3 key6989586621680383964 x6989586621680383965 y6989586621680383966 :: TyFun k3 Bool -> Type) (xys6989586621680383967 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym3 key6989586621680383964 x6989586621680383965 y6989586621680383966 :: TyFun k3 Bool -> Type) (xys6989586621680383967 :: k3) = Let6989586621680383968Scrutinee_6989586621680380343Sym4 key6989586621680383964 x6989586621680383965 y6989586621680383966 xys6989586621680383967 | |
| type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym3 x6989586621680383867 xs6989586621680383868 ls6989586621680383869 :: TyFun k3 Bool -> Type) (l6989586621680383862 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym3 x6989586621680383867 xs6989586621680383868 ls6989586621680383869 :: TyFun k3 Bool -> Type) (l6989586621680383862 :: k3) = Let6989586621680383870Scrutinee_6989586621680380351Sym4 x6989586621680383867 xs6989586621680383868 ls6989586621680383869 l6989586621680383862 | |
| type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym3 x6989586621680384144 xs6989586621680384145 p6989586621680384140 :: TyFun k Bool -> Type) (a_69895866216803841336989586621680384141 :: k) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym3 x6989586621680384144 xs6989586621680384145 p6989586621680384140 :: TyFun k Bool -> Type) (a_69895866216803841336989586621680384141 :: k) = Let6989586621680384146Scrutinee_6989586621680380325Sym4 x6989586621680384144 xs6989586621680384145 p6989586621680384140 a_69895866216803841336989586621680384141 | |
| type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym4 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 eq6989586621680383845 :: TyFun k3 Bool -> Type) (l6989586621680383846 :: k3) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym4 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 eq6989586621680383845 :: TyFun k3 Bool -> Type) (l6989586621680383846 :: k3) = Let6989586621680383854Scrutinee_6989586621680380353Sym5 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 eq6989586621680383845 l6989586621680383846 | |
| type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym4 x6989586621680118930 x06989586621680118918 y6989586621680118920 arg_69895866216801179846989586621680118911 :: TyFun k4 Bool -> Type) (arg_69895866216801179866989586621680118915 :: k4) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym4 x6989586621680118930 x06989586621680118918 y6989586621680118920 arg_69895866216801179846989586621680118911 :: TyFun k4 Bool -> Type) (arg_69895866216801179866989586621680118915 :: k4) = Let6989586621680118931Scrutinee_6989586621680117988Sym5 x6989586621680118930 x06989586621680118918 y6989586621680118920 arg_69895866216801179846989586621680118911 arg_69895866216801179866989586621680118915 | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym5 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 arg_69895866216801180376989586621680118701 :: TyFun k5 Bool -> Type) (arg_69895866216801180396989586621680118702 :: k5) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym5 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 arg_69895866216801180376989586621680118701 :: TyFun k5 Bool -> Type) (arg_69895866216801180396989586621680118702 :: k5) = Let6989586621680118714Scrutinee_6989586621680118042Sym6 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 arg_69895866216801180376989586621680118701 arg_69895866216801180396989586621680118702 | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym5 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 arg_69895866216801180086989586621680118782 :: TyFun k5 Bool -> Type) (arg_69895866216801180106989586621680118783 :: k5) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym5 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 arg_69895866216801180086989586621680118782 :: TyFun k5 Bool -> Type) (arg_69895866216801180106989586621680118783 :: k5) = Let6989586621680118798Scrutinee_6989586621680118012Sym6 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 arg_69895866216801180086989586621680118782 arg_69895866216801180106989586621680118783 | |
| type Eval (Not 'False) | |
Defined in Fcf.Data.Bool | |
| type Eval (Not 'True) | |
Defined in Fcf.Data.Bool | |
| type Apply (GuardSym0 :: TyFun Bool (f ()) -> Type) (a6989586621679889622 :: Bool) | |
| type Eval (Null (a2 ': as) :: Bool -> Type) | |
| type Eval (Null ('[] :: [a]) :: Bool -> Type) | |
| type Eval (And lst :: Bool -> Type) | |
| type Eval (Or lst :: Bool -> Type) | |
| type Eval (a <= b :: Bool -> Type) | |
| type Eval (a >= b :: Bool -> Type) | |
| type Eval (a < b :: Bool -> Type) | |
| type Eval (a > b :: Bool -> Type) | |
| type Eval (IsNothing ('Nothing :: Maybe a) :: Bool -> Type) | |
| type Eval (IsNothing ('Just _a) :: Bool -> Type) | |
| type Eval (IsJust ('Nothing :: Maybe a) :: Bool -> Type) | |
| type Eval (IsJust ('Just _a) :: Bool -> Type) | |
| type Eval ('False || b :: Bool -> Type) | |
| type Eval ('True || b :: Bool -> Type) | |
| type Eval (a || 'False :: Bool -> Type) | |
| type Eval (a || 'True :: Bool -> Type) | |
| type Eval ('False && b :: Bool -> Type) | |
| type Eval ('True && b :: Bool -> Type) | |
| type Eval (a && 'True :: Bool -> Type) | |
| type Eval (a && 'False :: Bool -> Type) | |
| type Apply (||@#@$) (a6989586621679805266 :: Bool) | |
Defined in Data.Singletons.Prelude.Bool | |
| type Apply (&&@#@$) (a6989586621679804610 :: Bool) | |
Defined in Data.Singletons.Prelude.Bool | |
| type Apply Compare_6989586621679858881Sym0 (a6989586621679858886 :: Bool) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply ShowParenSym0 (a6989586621680642714 :: Bool) | |
Defined in Data.Singletons.Prelude.Show | |
| type Apply ShowsPrec_6989586621680667160Sym0 (a6989586621680667173 :: Nat) | |
Defined in Data.Singletons.Prelude.Show | |
| type Apply (<=?@#@$) (a6989586621680042731 :: Nat) | |
Defined in Data.Singletons.TypeLits.Internal | |
| type Apply (ShowsPrec_6989586621680667160Sym1 a6989586621680667173 :: TyFun Bool (Symbol ~> Symbol) -> Type) (a6989586621680667174 :: Bool) | |
| type Apply (WhenSym0 :: TyFun Bool (f () ~> f ()) -> Type) (a6989586621679889815 :: Bool) | |
| type Apply (ListelemSym0 :: TyFun a ([a] ~> Bool) -> Type) (a6989586621680645733 :: a) | |
| type Apply (NotElemSym0 :: TyFun a ([a] ~> Bool) -> Type) (a6989586621680384597 :: a) | |
| type Apply (ElemSym0 :: TyFun a ([a] ~> Bool) -> Type) (a6989586621680384605 :: a) | |
| type Apply (Let6989586621680794927Scrutinee_6989586621680794739Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621680794922 :: k1) | |
| type Apply (Let6989586621680794951Scrutinee_6989586621680794741Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621680794946 :: k1) | |
| type Apply (Elem_6989586621680812523Sym0 :: TyFun a ([a] ~> Bool) -> Type) (a6989586621680812532 :: a) | |
| type Apply (Elem_6989586621680812902Sym0 :: TyFun a (Proxy a ~> Bool) -> Type) (a6989586621680812907 :: a) | |
| type Apply (Elem_6989586621680812934Sym0 :: TyFun a (Dual a ~> Bool) -> Type) (a6989586621680812943 :: a) | |
| type Apply (Elem_6989586621680813112Sym0 :: TyFun a (Sum a ~> Bool) -> Type) (a6989586621680813121 :: a) | |
| type Apply (Elem_6989586621680813287Sym0 :: TyFun a (Product a ~> Bool) -> Type) (a6989586621680813296 :: a) | |
| type Apply ((==@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679811946 :: a) | |
| type Apply ((/=@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679811949 :: a) | |
| type Apply (DefaultEqSym0 :: TyFun k (k ~> Bool) -> Type) (a6989586621679811952 :: k) | |
Defined in Data.Singletons.Prelude.Eq type Apply (DefaultEqSym0 :: TyFun k (k ~> Bool) -> Type) (a6989586621679811952 :: k) = DefaultEqSym1 a6989586621679811952 | |
| type Apply (Bool_Sym0 :: TyFun a (a ~> (Bool ~> a)) -> Type) (a6989586621679803277 :: a) | |
| type Apply (Let6989586621679841632Scrutinee_6989586621679841434Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621679841630 :: k1) | |
| type Apply (TFHelper_6989586621679841705Sym0 :: TyFun a (a ~> Bool) -> Type) (a6989586621679841710 :: a) | |
| type Apply (TFHelper_6989586621679841688Sym0 :: TyFun a (a ~> Bool) -> Type) (a6989586621679841694 :: a) | |
| type Apply (TFHelper_6989586621679841669Sym0 :: TyFun a (a ~> Bool) -> Type) (a6989586621679841675 :: a) | |
| type Apply (TFHelper_6989586621679841647Sym0 :: TyFun a (a ~> Bool) -> Type) (a6989586621679841653 :: a) | |
| type Apply ((<=@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679841594 :: a) | |
| type Apply ((>=@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679841604 :: a) | |
| type Apply ((>@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679841599 :: a) | |
| type Apply (Let6989586621679841746Scrutinee_6989586621679841452Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621679841744 :: k1) | |
| type Apply (Let6989586621679841730Scrutinee_6989586621679841450Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621679841728 :: k1) | |
| type Apply (Let6989586621679841637Scrutinee_6989586621679841436Sym0 :: TyFun k1 (TyFun k1 Bool -> Type) -> Type) (x6989586621679841630 :: k1) | |
| type Apply ((<@#@$) :: TyFun a (a ~> Bool) -> Type) (a6989586621679841589 :: a) | |
| type Apply (Elem_6989586621681010068Sym0 :: TyFun a (Identity a ~> Bool) -> Type) (a6989586621681010073 :: a) | |
| type Apply (Let6989586621680383902Scrutinee_6989586621680380347Sym0 :: TyFun k1 (TyFun k Bool -> Type) -> Type) (n6989586621680383900 :: k1) | |
| type Apply (Elem_bySym1 a6989586621680383833 :: TyFun a ([a] ~> Bool) -> Type) (a6989586621680383834 :: a) | |
| type Apply (Elem_6989586621680812410Sym0 :: TyFun a (t a ~> Bool) -> Type) (a6989586621680812419 :: a) | |
| type Apply (ElemSym0 :: TyFun a (t a ~> Bool) -> Type) (a6989586621680812206 :: a) | |
| type Apply (NotElemSym0 :: TyFun a (t a ~> Bool) -> Type) (a6989586621680811949 :: a) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (NotElemSym0 :: TyFun a (t a ~> Bool) -> Type) (a6989586621680811949 :: a) = NotElemSym1 a6989586621680811949 :: TyFun (t a) Bool -> Type | |
| type Apply (Bool_Sym1 a6989586621679803277 :: TyFun a (Bool ~> a) -> Type) (a6989586621679803278 :: a) | |
| type Apply (Let6989586621680383883Scrutinee_6989586621680380349Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (x6989586621680383880 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym0 :: TyFun k1 (TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (key6989586621680383964 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym0 :: TyFun k1 (TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (key6989586621680383964 :: k1) = Let6989586621680383968Scrutinee_6989586621680380343Sym1 key6989586621680383964 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680384045Scrutinee_6989586621680380333Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (n6989586621680384042 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680384058Scrutinee_6989586621680380331Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (n6989586621680384055 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (y6989586621680383851 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (y6989586621680383851 :: k1) = Let6989586621680383854Scrutinee_6989586621680380353Sym1 y6989586621680383851 :: TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (x6989586621680383867 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym0 :: TyFun k1 (TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (x6989586621680383867 :: k1) = Let6989586621680383870Scrutinee_6989586621680380351Sym1 x6989586621680383867 :: TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym0 :: TyFun k1 (TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) -> Type) (x6989586621680384144 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym0 :: TyFun k1 (TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) -> Type) (x6989586621680384144 :: k1) = Let6989586621680384146Scrutinee_6989586621680380325Sym1 x6989586621680384144 :: TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type | |
| type Apply (Lambda_6989586621680812382Sym0 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (a_69895866216808123766989586621680812381 :: k1) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680383883Scrutinee_6989586621680380349Sym1 x6989586621680383880 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (xs6989586621680383881 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym1 key6989586621680383964 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (x6989586621680383965 :: k1) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym1 key6989586621680383964 :: TyFun k1 (TyFun k2 (TyFun k3 Bool -> Type) -> Type) -> Type) (x6989586621680383965 :: k1) = Let6989586621680383968Scrutinee_6989586621680380343Sym2 key6989586621680383964 x6989586621680383965 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type | |
| type Apply (Let6989586621680384045Scrutinee_6989586621680380333Sym1 n6989586621680384042 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (x6989586621680384043 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680384058Scrutinee_6989586621680380331Sym1 n6989586621680384055 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (x6989586621680384056 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym1 y6989586621680383851 :: TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (ys6989586621680383852 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym1 y6989586621680383851 :: TyFun k2 (TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) -> Type) (ys6989586621680383852 :: k2) = Let6989586621680383854Scrutinee_6989586621680380353Sym2 y6989586621680383851 ys6989586621680383852 :: TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym1 x6989586621680383867 :: TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) (xs6989586621680383868 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym1 x6989586621680383867 :: TyFun k2 (TyFun [k1] (TyFun k3 Bool -> Type) -> Type) -> Type) (xs6989586621680383868 :: k2) = Let6989586621680383870Scrutinee_6989586621680380351Sym2 x6989586621680383867 xs6989586621680383868 :: TyFun [k1] (TyFun k3 Bool -> Type) -> Type | |
| type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x6989586621680118930 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x6989586621680118930 :: k1) = Let6989586621680118931Scrutinee_6989586621680117988Sym1 x6989586621680118930 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type | |
| type Apply (Lambda_6989586621680812382Sym1 a_69895866216808123766989586621680812381 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (arg_69895866216808117316989586621680812384 :: k2) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Lambda_6989586621680812382Sym1 a_69895866216808123766989586621680812381 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (arg_69895866216808117316989586621680812384 :: k2) = Lambda_6989586621680812382Sym2 a_69895866216808123766989586621680812381 arg_69895866216808117316989586621680812384 :: TyFun k3 Bool -> Type | |
| type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym2 key6989586621680383964 x6989586621680383965 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (y6989586621680383966 :: k2) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383968Scrutinee_6989586621680380343Sym2 key6989586621680383964 x6989586621680383965 :: TyFun k2 (TyFun k3 Bool -> Type) -> Type) (y6989586621680383966 :: k2) = Let6989586621680383968Scrutinee_6989586621680380343Sym3 key6989586621680383964 x6989586621680383965 y6989586621680383966 :: TyFun k3 Bool -> Type | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (x16989586621680118705 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (x16989586621680118705 :: k1) = Let6989586621680118714Scrutinee_6989586621680118042Sym1 x16989586621680118705 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (x16989586621680118788 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym0 :: TyFun k1 (TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (x16989586621680118788 :: k1) = Let6989586621680118798Scrutinee_6989586621680118012Sym1 x16989586621680118788 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym1 x6989586621680118930 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) (x06989586621680118918 :: k2) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym1 x6989586621680118930 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) -> Type) (x06989586621680118918 :: k2) = Let6989586621680118931Scrutinee_6989586621680117988Sym2 x6989586621680118930 x06989586621680118918 :: TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym1 x16989586621680118705 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x26989586621680118706 :: k2) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym1 x16989586621680118705 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x26989586621680118706 :: k2) = Let6989586621680118714Scrutinee_6989586621680118042Sym2 x16989586621680118705 x26989586621680118706 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym1 x16989586621680118788 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x26989586621680118789 :: k2) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym1 x16989586621680118788 :: TyFun k2 (TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) -> Type) (x26989586621680118789 :: k2) = Let6989586621680118798Scrutinee_6989586621680118012Sym2 x16989586621680118788 x26989586621680118789 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym2 x6989586621680118930 x06989586621680118918 :: TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) (y6989586621680118920 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym2 x6989586621680118930 x06989586621680118918 :: TyFun k1 (TyFun k3 (TyFun k4 Bool -> Type) -> Type) -> Type) (y6989586621680118920 :: k1) = Let6989586621680118931Scrutinee_6989586621680117988Sym3 x6989586621680118930 x06989586621680118918 y6989586621680118920 :: TyFun k3 (TyFun k4 Bool -> Type) -> Type | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym2 x16989586621680118705 x26989586621680118706 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) (y6989586621680118709 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym2 x16989586621680118705 x26989586621680118706 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) (y6989586621680118709 :: k1) = Let6989586621680118714Scrutinee_6989586621680118042Sym3 x16989586621680118705 x26989586621680118706 y6989586621680118709 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym2 x16989586621680118788 x26989586621680118789 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) (y6989586621680118794 :: k1) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym2 x16989586621680118788 x26989586621680118789 :: TyFun k1 (TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) -> Type) (y6989586621680118794 :: k1) = Let6989586621680118798Scrutinee_6989586621680118012Sym3 x16989586621680118788 x26989586621680118789 y6989586621680118794 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym3 x6989586621680118930 x06989586621680118918 y6989586621680118920 :: TyFun k3 (TyFun k4 Bool -> Type) -> Type) (arg_69895866216801179846989586621680118911 :: k3) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118931Scrutinee_6989586621680117988Sym3 x6989586621680118930 x06989586621680118918 y6989586621680118920 :: TyFun k3 (TyFun k4 Bool -> Type) -> Type) (arg_69895866216801179846989586621680118911 :: k3) = Let6989586621680118931Scrutinee_6989586621680117988Sym4 x6989586621680118930 x06989586621680118918 y6989586621680118920 arg_69895866216801179846989586621680118911 :: TyFun k4 Bool -> Type | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym3 x16989586621680118705 x26989586621680118706 y6989586621680118709 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) (arg_69895866216801180356989586621680118700 :: k3) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym3 x16989586621680118705 x26989586621680118706 y6989586621680118709 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) (arg_69895866216801180356989586621680118700 :: k3) = Let6989586621680118714Scrutinee_6989586621680118042Sym4 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym3 x16989586621680118788 x26989586621680118789 y6989586621680118794 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) (arg_69895866216801180066989586621680118777 :: k3) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym3 x16989586621680118788 x26989586621680118789 y6989586621680118794 :: TyFun k3 (TyFun k4 (TyFun k5 Bool -> Type) -> Type) -> Type) (arg_69895866216801180066989586621680118777 :: k3) = Let6989586621680118798Scrutinee_6989586621680118012Sym4 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type | |
| type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym4 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) (arg_69895866216801180376989586621680118701 :: k4) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118714Scrutinee_6989586621680118042Sym4 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) (arg_69895866216801180376989586621680118701 :: k4) = Let6989586621680118714Scrutinee_6989586621680118042Sym5 x16989586621680118705 x26989586621680118706 y6989586621680118709 arg_69895866216801180356989586621680118700 arg_69895866216801180376989586621680118701 :: TyFun k5 Bool -> Type | |
| type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym4 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) (arg_69895866216801180086989586621680118782 :: k4) | |
Defined in Data.Singletons.Prelude.Enum type Apply (Let6989586621680118798Scrutinee_6989586621680118012Sym4 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 :: TyFun k4 (TyFun k5 Bool -> Type) -> Type) (arg_69895866216801180086989586621680118782 :: k4) = Let6989586621680118798Scrutinee_6989586621680118012Sym5 x16989586621680118788 x26989586621680118789 y6989586621680118794 arg_69895866216801180066989586621680118777 arg_69895866216801180086989586621680118782 :: TyFun k5 Bool -> Type | |
| type Eval (IsPrefixOf xs ys :: Bool -> Type) | |
Defined in Fcf.Data.List | |
| type Eval (IsSuffixOf xs ys :: Bool -> Type) | |
Defined in Fcf.Data.List | |
| type Eval (IsInfixOf xs ys :: Bool -> Type) | |
| type Eval (Elem a2 as :: Bool -> Type) | |
| type Eval (IsLeft ('Right _a :: Either a b) :: Bool -> Type) | |
| type Eval (IsLeft ('Left _a :: Either a b) :: Bool -> Type) | |
| type Eval (IsRight ('Right _a :: Either a b) :: Bool -> Type) | |
| type Eval (IsRight ('Left _a :: Either a b) :: Bool -> Type) | |
| type Eval (TyEq a b :: Bool -> Type) | |
| type Eval (All p lst :: Bool -> Type) | |
| type Eval (Any p lst :: Bool -> Type) | |
| type Apply OrSym0 (a6989586621680384837 :: [Bool]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply AndSym0 (a6989586621680384842 :: [Bool]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (ListnullSym0 :: TyFun [a] Bool -> Type) (a6989586621680645639 :: [a]) | |
| type Apply (NullSym0 :: TyFun [a] Bool -> Type) (a6989586621680385015 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Null_6989586621680812657Sym0 :: TyFun [a] Bool -> Type) (a6989586621680812663 :: [a]) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116215 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116215 :: Maybe a) = IsNothingSym1 a6989586621680116215 | |
| type Apply (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116218 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116218 :: Maybe a) = IsJustSym1 a6989586621680116218 | |
| type Apply (AndSym0 :: TyFun (t Bool) Bool -> Type) (a6989586621680812025 :: t Bool) | |
| type Apply (OrSym0 :: TyFun (t Bool) Bool -> Type) (a6989586621680812019 :: t Bool) | |
| type Apply (Null_6989586621681010223Sym0 :: TyFun (Identity a) Bool -> Type) (a6989586621681010227 :: Identity a) | |
| type Apply (Null_6989586621680813069Sym0 :: TyFun (Dual a) Bool -> Type) (a6989586621680813073 :: Dual a) | |
| type Apply (Null_6989586621680813244Sym0 :: TyFun (Sum a) Bool -> Type) (a6989586621680813248 :: Sum a) | |
| type Apply (Null_6989586621680813423Sym0 :: TyFun (Product a) Bool -> Type) (a6989586621680813427 :: Product a) | |
| type Apply (ListelemSym1 a6989586621680645733 :: TyFun [a] Bool -> Type) (a6989586621680645734 :: [a]) | |
| type Apply (ListisPrefixOfSym1 a6989586621680645806 :: TyFun [a] Bool -> Type) (a6989586621680645807 :: [a]) | |
| type Apply (NotElemSym1 a6989586621680384597 :: TyFun [a] Bool -> Type) (a6989586621680384598 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (ElemSym1 a6989586621680384605 :: TyFun [a] Bool -> Type) (a6989586621680384606 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (IsPrefixOfSym1 a6989586621680384627 :: TyFun [a] Bool -> Type) (a6989586621680384628 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsPrefixOfSym1 a6989586621680384627 :: TyFun [a] Bool -> Type) (a6989586621680384628 :: [a]) = IsPrefixOfSym2 a6989586621680384627 a6989586621680384628 | |
| type Apply (AnySym1 a6989586621680384822 :: TyFun [a] Bool -> Type) (a6989586621680384823 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (IsInfixOfSym1 a6989586621680384613 :: TyFun [a] Bool -> Type) (a6989586621680384614 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsInfixOfSym1 a6989586621680384613 :: TyFun [a] Bool -> Type) (a6989586621680384614 :: [a]) = IsInfixOfSym2 a6989586621680384613 a6989586621680384614 | |
| type Apply (AllSym1 a6989586621680384830 :: TyFun [a] Bool -> Type) (a6989586621680384831 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (IsSuffixOfSym1 a6989586621680384620 :: TyFun [a] Bool -> Type) (a6989586621680384621 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsSuffixOfSym1 a6989586621680384620 :: TyFun [a] Bool -> Type) (a6989586621680384621 :: [a]) = IsSuffixOfSym2 a6989586621680384620 a6989586621680384621 | |
| type Apply (Elem_6989586621680812523Sym1 a6989586621680812532 :: TyFun [a] Bool -> Type) (a6989586621680812533 :: [a]) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Elem_6989586621681010068Sym1 a6989586621681010073 :: TyFun (Identity a) Bool -> Type) (a6989586621681010074 :: Identity a) | |
| type Apply (Elem_6989586621680812934Sym1 a6989586621680812943 :: TyFun (Dual a) Bool -> Type) (a6989586621680812944 :: Dual a) | |
| type Apply (Elem_6989586621680813112Sym1 a6989586621680813121 :: TyFun (Sum a) Bool -> Type) (a6989586621680813122 :: Sum a) | |
| type Apply (Elem_6989586621680813287Sym1 a6989586621680813296 :: TyFun (Product a) Bool -> Type) (a6989586621680813297 :: Product a) | |
| type Apply (Elem_bySym2 a6989586621680383833 a6989586621680383834 :: TyFun [a] Bool -> Type) (a6989586621680383835 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Elem_6989586621680812410Sym1 a6989586621680812419 :: TyFun (t a) Bool -> Type) (a6989586621680812420 :: t a) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Null_6989586621680812374Sym0 :: TyFun (t a) Bool -> Type) (a6989586621680812380 :: t a) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (AnySym1 a6989586621680812011 :: TyFun (t a) Bool -> Type) (a6989586621680812012 :: t a) | |
| type Apply (ElemSym1 a6989586621680812206 :: TyFun (t a) Bool -> Type) (a6989586621680812207 :: t a) | |
| type Apply (NotElemSym1 a6989586621680811949 :: TyFun (t a) Bool -> Type) (a6989586621680811950 :: t a) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (NotElemSym1 a6989586621680811949 :: TyFun (t a) Bool -> Type) (a6989586621680811950 :: t a) = NotElemSym2 a6989586621680811949 a6989586621680811950 | |
| type Apply (NullSym0 :: TyFun (t a) Bool -> Type) (a6989586621680812199 :: t a) | |
| type Apply (AllSym1 a6989586621680812001 :: TyFun (t a) Bool -> Type) (a6989586621680812002 :: t a) | |
| type Apply (ListisPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680645806 :: [a]) | |
| type Apply (IsPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384627 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsPrefixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384627 :: [a]) = IsPrefixOfSym1 a6989586621680384627 | |
| type Apply (IsInfixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384613 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsInfixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384613 :: [a]) = IsInfixOfSym1 a6989586621680384613 | |
| type Apply (IsSuffixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384620 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (IsSuffixOfSym0 :: TyFun [a] ([a] ~> Bool) -> Type) (a6989586621680384620 :: [a]) = IsSuffixOfSym1 a6989586621680384620 | |
| type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym1 x6989586621680384144 :: TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) (xs6989586621680384145 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym1 x6989586621680384144 :: TyFun [a] (TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) -> Type) (xs6989586621680384145 :: [a]) = Let6989586621680384146Scrutinee_6989586621680380325Sym2 x6989586621680384144 xs6989586621680384145 :: TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type | |
| type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym2 y6989586621680383851 ys6989586621680383852 :: TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) (xs6989586621680383853 :: [k1]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym2 y6989586621680383851 ys6989586621680383852 :: TyFun [k1] (TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) -> Type) (xs6989586621680383853 :: [k1]) = Let6989586621680383854Scrutinee_6989586621680380353Sym3 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type | |
| type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym2 x6989586621680383867 xs6989586621680383868 :: TyFun [k1] (TyFun k3 Bool -> Type) -> Type) (ls6989586621680383869 :: [k1]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383870Scrutinee_6989586621680380351Sym2 x6989586621680383867 xs6989586621680383868 :: TyFun [k1] (TyFun k3 Bool -> Type) -> Type) (ls6989586621680383869 :: [k1]) = Let6989586621680383870Scrutinee_6989586621680380351Sym3 x6989586621680383867 xs6989586621680383868 ls6989586621680383869 :: TyFun k3 Bool -> Type | |
| type ClocksCxt (Clock c1, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks | |
| type NumOutClocks (Clock c1, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks | |
| type Apply (IsRightSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884644 :: Either a b) | |
Defined in Data.Singletons.Prelude.Either type Apply (IsRightSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884644 :: Either a b) = IsRightSym1 a6989586621679884644 | |
| type Apply (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884655 :: Either a b) | |
Defined in Data.Singletons.Prelude.Either type Apply (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884655 :: Either a b) = IsLeftSym1 a6989586621679884655 | |
| type Apply (Null_6989586621680812821Sym0 :: TyFun (Either a1 a2) Bool -> Type) (a6989586621680812827 :: Either a1 a2) | |
| type Apply (Elem_6989586621680812902Sym1 a6989586621680812907 :: TyFun (Proxy a) Bool -> Type) (a6989586621680812908 :: Proxy a) | |
| type Apply (Null_6989586621680812895Sym0 :: TyFun (Proxy a) Bool -> Type) (a6989586621680812899 :: Proxy a) | |
| type Apply (TFHelper_6989586621681233107Sym1 a6989586621681233112 :: TyFun (Arg a b) Bool -> Type) (a6989586621681233113 :: Arg a b) | |
| type Apply (TFHelper_6989586621680794716Sym1 a6989586621680794721 :: TyFun (Proxy s) Bool -> Type) (a6989586621680794722 :: Proxy s) | |
| type Apply (ListnubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) (a6989586621680645767 :: a ~> (a ~> Bool)) | |
| type Apply (ListpartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680645838 :: a ~> Bool) | |
| type Apply (ListfilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680645855 :: a ~> Bool) | |
| type Apply (ListspanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680645870 :: a ~> Bool) | |
| type Apply (ListdropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680645889 :: a ~> Bool) | |
| type Apply (ListtakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680645900 :: a ~> Bool) | |
| type Apply (Elem_bySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> Bool)) -> Type) (a6989586621680383833 :: a ~> (a ~> Bool)) | |
| type Apply (NubBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [a]) -> Type) (a6989586621680383843 :: a ~> (a ~> Bool)) | |
| type Apply (SelectSym0 :: TyFun (a ~> Bool) (a ~> (([a], [a]) ~> ([a], [a]))) -> Type) (a6989586621680383939 :: a ~> Bool) | |
| type Apply (PartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680383954 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (PartitionSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680383954 :: a ~> Bool) = PartitionSym1 a6989586621680383954 | |
| type Apply (BreakSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680384066 :: a ~> Bool) | |
| type Apply (Let6989586621680384079YsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) (p6989586621680384070 :: k ~> Bool) | |
| type Apply (Let6989586621680384079ZsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) (p6989586621680384070 :: k ~> Bool) | |
| type Apply (Let6989586621680384079X_6989586621680384080Sym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] ([k], [k]) -> Type) -> Type) -> Type) (p6989586621680384070 :: k ~> Bool) | |
| type Apply (SpanSym0 :: TyFun (a ~> Bool) ([a] ~> ([a], [a])) -> Type) (a6989586621680384101 :: a ~> Bool) | |
| type Apply (Let6989586621680384114YsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) (p6989586621680384105 :: k ~> Bool) | |
| type Apply (Let6989586621680384114ZsSym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] [k] -> Type) -> Type) -> Type) (p6989586621680384105 :: k ~> Bool) | |
| type Apply (Let6989586621680384114X_6989586621680384115Sym0 :: TyFun (k ~> Bool) (TyFun k (TyFun [k] ([k], [k]) -> Type) -> Type) -> Type) (p6989586621680384105 :: k ~> Bool) | |
| type Apply (GroupBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> [[a]]) -> Type) (a6989586621680383976 :: a ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (DropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384155 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (DropWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384155 :: a ~> Bool) = DropWhileSym1 a6989586621680384155 | |
| type Apply (TakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384170 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (TakeWhileSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384170 :: a ~> Bool) = TakeWhileSym1 a6989586621680384170 | |
| type Apply (FilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384270 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (FilterSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384270 :: a ~> Bool) = FilterSym1 a6989586621680384270 | |
| type Apply (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) (a6989586621680384263 :: a ~> Bool) | |
| type Apply (DeleteBySym0 :: TyFun (a ~> (a ~> Bool)) (a ~> ([a] ~> [a])) -> Type) (a6989586621680384369 :: a ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (DeleteFirstsBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) (a6989586621680384359 :: a ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (UnionBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) (a6989586621680383823 :: a ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (FindIndicesSym0 :: TyFun (a ~> Bool) ([a] ~> [Nat]) -> Type) (a6989586621680384213 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) (a6989586621680384236 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (AnySym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) (a6989586621680384822 :: a ~> Bool) | |
| type Apply (IntersectBySym0 :: TyFun (a ~> (a ~> Bool)) ([a] ~> ([a] ~> [a])) -> Type) (a6989586621680384184 :: a ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (AllSym0 :: TyFun (a ~> Bool) ([a] ~> Bool) -> Type) (a6989586621680384830 :: a ~> Bool) | |
| type Apply (DropWhileEndSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384138 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (DropWhileEndSym0 :: TyFun (a ~> Bool) ([a] ~> [a]) -> Type) (a6989586621680384138 :: a ~> Bool) = DropWhileEndSym1 a6989586621680384138 | |
| type Apply (UntilSym0 :: TyFun (a ~> Bool) ((a ~> a) ~> (a ~> a)) -> Type) (a6989586621679816110 :: a ~> Bool) | |
| type Apply (TFHelper_6989586621681233107Sym0 :: TyFun (Arg a b) (Arg a b ~> Bool) -> Type) (a6989586621681233112 :: Arg a b) | |
| type Apply (TFHelper_6989586621680794716Sym0 :: TyFun (Proxy s) (Proxy s ~> Bool) -> Type) (a6989586621680794721 :: Proxy s) | |
| type Apply (Let6989586621680383847NubBy'Sym0 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k (TyFun [k1] ([k1] ~> [k1]) -> Type) -> Type) -> Type) (eq6989586621680383845 :: k1 ~> (k1 ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Let6989586621680383981YsSym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] [a] -> Type) -> Type) -> Type) (eq6989586621680383978 :: k1 ~> (a ~> Bool)) | |
| type Apply (Let6989586621680383981ZsSym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] [a] -> Type) -> Type) -> Type) (eq6989586621680383978 :: k1 ~> (a ~> Bool)) | |
| type Apply (Let6989586621680383981X_6989586621680383982Sym0 :: TyFun (k1 ~> (a ~> Bool)) (TyFun k1 (TyFun [a] ([a], [a]) -> Type) -> Type) -> Type) (eq6989586621680383978 :: k1 ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Lambda_6989586621680384142Sym0 :: TyFun (a ~> Bool) (TyFun k (TyFun a (TyFun [a] [a] -> Type) -> Type) -> Type) -> Type) (p6989586621680384140 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (Lambda_6989586621680811935Sym0 :: TyFun (a ~> Bool) (TyFun k (TyFun a (First a) -> Type) -> Type) -> Type) (p6989586621680811933 :: a ~> Bool) | |
| type Apply (AnySym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) (a6989586621680812011 :: a ~> Bool) | |
| type Apply (AllSym0 :: TyFun (a ~> Bool) (t a ~> Bool) -> Type) (a6989586621680812001 :: a ~> Bool) | |
| type Apply (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) (a6989586621680811931 :: a ~> Bool) | |
| type Apply (Let6989586621679816116GoSym0 :: TyFun (k1 ~> Bool) (TyFun (k1 ~> k1) (TyFun k2 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) (p6989586621679816113 :: k1 ~> Bool) | |
Defined in Data.Singletons.Prelude.Base | |
| type Apply (Lambda_6989586621680384195Sym0 :: TyFun (b ~> (a ~> Bool)) (TyFun k1 (TyFun k2 (TyFun a (TyFun [a] (TyFun b (m b) -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (eq6989586621680384187 :: b ~> (a ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Lambda_6989586621680384195Sym0 :: TyFun (b ~> (a ~> Bool)) (TyFun k1 (TyFun k2 (TyFun a (TyFun [a] (TyFun b (m b) -> Type) -> Type) -> Type) -> Type) -> Type) -> Type) (eq6989586621680384187 :: b ~> (a ~> Bool)) = Lambda_6989586621680384195Sym1 eq6989586621680384187 :: TyFun k1 (TyFun k2 (TyFun a (TyFun [a] (TyFun b (m b) -> Type) -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym2 x6989586621680384144 xs6989586621680384145 :: TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) (p6989586621680384140 :: k1 ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384146Scrutinee_6989586621680380325Sym2 x6989586621680384144 xs6989586621680384145 :: TyFun (k1 ~> Bool) (TyFun k Bool -> Type) -> Type) (p6989586621680384140 :: k1 ~> Bool) = Let6989586621680384146Scrutinee_6989586621680380325Sym3 x6989586621680384144 xs6989586621680384145 p6989586621680384140 :: TyFun k Bool -> Type | |
| type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym3 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) (eq6989586621680383845 :: k1 ~> (k1 ~> Bool)) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680383854Scrutinee_6989586621680380353Sym3 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 :: TyFun (k1 ~> (k1 ~> Bool)) (TyFun k3 Bool -> Type) -> Type) (eq6989586621680383845 :: k1 ~> (k1 ~> Bool)) = Let6989586621680383854Scrutinee_6989586621680380353Sym4 y6989586621680383851 ys6989586621680383852 xs6989586621680383853 eq6989586621680383845 :: TyFun k3 Bool -> Type | |
| type ClocksCxt (Clock c1, Clock c2, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks type ClocksCxt (Clock c1, Clock c2, Signal pllLock Bool) = (KnownDomain c1, KnownDomain c2, KnownDomain pllLock) | |
| type NumOutClocks (Clock c1, Clock c2, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks | |
| type ClocksCxt (Clock c1, Clock c2, Clock c3, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks type ClocksCxt (Clock c1, Clock c2, Clock c3, Signal pllLock Bool) = (KnownDomain c1, KnownDomain c2, KnownDomain c3, KnownDomain pllLock) | |
| type NumOutClocks (Clock c1, Clock c2, Clock c3, Signal pllLock Bool) Source # | |
Defined in Clash.Clocks | |
The character type Char is an enumeration whose values represent
Unicode (or equivalently ISO/IEC 10646) code points (i.e. characters, see
http://www.unicode.org/ for details). This set extends the ISO 8859-1
(Latin-1) character set (the first 256 characters), which is itself an extension
of the ASCII character set (the first 128 characters). A character literal in
Haskell has type Char.
To convert a Char to or from the corresponding Int value defined
by Unicode, use toEnum and fromEnum from the
Enum class respectively (or equivalently ord and
chr).
Instances
Double-precision floating point numbers. It is desirable that this type be at least equal in range and precision to the IEEE double-precision type.
Instances
Single-precision floating point numbers. It is desirable that this type be at least equal in range and precision to the IEEE single-precision type.
Instances
| Eq Float | Note that due to the presence of
Also note that
|
| Floating Float | Since: base-2.1 |
| Data Float | Since: base-4.0.0.0 |
Defined in Data.Data Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Float -> c Float # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Float # dataTypeOf :: Float -> DataType # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Float) # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Float) # gmapT :: (forall b. Data b => b -> b) -> Float -> Float # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Float -> r # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Float -> r # gmapQ :: (forall d. Data d => d -> u) -> Float -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> Float -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Float -> m Float # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Float -> m Float # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Float -> m Float # | |
| Ord Float | Note that due to the presence of
Also note that, due to the same,
|
| Read Float | Since: base-2.1 |
| RealFloat Float | Since: base-2.1 |
Defined in GHC.Float Methods floatRadix :: Float -> Integer # floatDigits :: Float -> Int # floatRange :: Float -> (Int, Int) # decodeFloat :: Float -> (Integer, Int) # encodeFloat :: Integer -> Int -> Float # significand :: Float -> Float # scaleFloat :: Int -> Float -> Float # isInfinite :: Float -> Bool # isDenormalized :: Float -> Bool # isNegativeZero :: Float -> Bool # | |
| Arbitrary Float | |
| CoArbitrary Float | |
Defined in Test.QuickCheck.Arbitrary Methods coarbitrary :: Float -> Gen b -> Gen b # | |
| PrintfArg Float | Since: base-2.1 |
Defined in Text.Printf | |
| Storable Float | Since: base-2.1 |
| Binary Float | |
| Default Float | |
Defined in Data.Default.Class | |
| NFData Float | |
Defined in Control.DeepSeq | |
| Hashable Float | Note: prior to The Since: hashable-1.3.0.0 |
Defined in Data.Hashable.Class | |
| Prim Float | |
Defined in Data.Primitive.Types Methods alignment# :: Float -> Int# # indexByteArray# :: ByteArray# -> Int# -> Float # readByteArray# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Float #) # writeByteArray# :: MutableByteArray# s -> Int# -> Float -> State# s -> State# s # setByteArray# :: MutableByteArray# s -> Int# -> Int# -> Float -> State# s -> State# s # indexOffAddr# :: Addr# -> Int# -> Float # readOffAddr# :: Addr# -> Int# -> State# s -> (# State# s, Float #) # writeOffAddr# :: Addr# -> Int# -> Float -> State# s -> State# s # setOffAddr# :: Addr# -> Int# -> Int# -> Float -> State# s -> State# s # | |
| Unbox Float | |
Defined in Data.Vector.Unboxed.Base | |
| UniformRange Float | |
Defined in System.Random.Internal | |
| NFDataX Float Source # | |
Defined in Clash.XException | |
| ShowX Float Source # | |
| BitPack Float Source # | |
| Bundle Float Source # | |
| Bundle Float Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| AutoReg Float Source # | |
Defined in Clash.Class.AutoReg.Internal | |
| Lift Float | |
| IArray UArray Float | |
Defined in Data.Array.Base Methods bounds :: Ix i => UArray i Float -> (i, i) # numElements :: Ix i => UArray i Float -> Int unsafeArray :: Ix i => (i, i) -> [(Int, Float)] -> UArray i Float unsafeAt :: Ix i => UArray i Float -> Int -> Float unsafeReplace :: Ix i => UArray i Float -> [(Int, Float)] -> UArray i Float unsafeAccum :: Ix i => (Float -> e' -> Float) -> UArray i Float -> [(Int, e')] -> UArray i Float unsafeAccumArray :: Ix i => (Float -> e' -> Float) -> Float -> (i, i) -> [(Int, e')] -> UArray i Float | |
| Vector Vector Float | |
Defined in Data.Vector.Unboxed.Base Methods basicUnsafeFreeze :: Mutable Vector s Float -> ST s (Vector Float) # basicUnsafeThaw :: Vector Float -> ST s (Mutable Vector s Float) # basicLength :: Vector Float -> Int # basicUnsafeSlice :: Int -> Int -> Vector Float -> Vector Float # basicUnsafeIndexM :: Vector Float -> Int -> Box Float # basicUnsafeCopy :: Mutable Vector s Float -> Vector Float -> ST s () # | |
| MVector MVector Float | |
Defined in Data.Vector.Unboxed.Base Methods basicLength :: MVector s Float -> Int # basicUnsafeSlice :: Int -> Int -> MVector s Float -> MVector s Float # basicOverlaps :: MVector s Float -> MVector s Float -> Bool # basicUnsafeNew :: Int -> ST s (MVector s Float) # basicInitialize :: MVector s Float -> ST s () # basicUnsafeReplicate :: Int -> Float -> ST s (MVector s Float) # basicUnsafeRead :: MVector s Float -> Int -> ST s Float # basicUnsafeWrite :: MVector s Float -> Int -> Float -> ST s () # basicClear :: MVector s Float -> ST s () # basicSet :: MVector s Float -> Float -> ST s () # basicUnsafeCopy :: MVector s Float -> MVector s Float -> ST s () # basicUnsafeMove :: MVector s Float -> MVector s Float -> ST s () # basicUnsafeGrow :: MVector s Float -> Int -> ST s (MVector s Float) # | |
| () :=> (Enum Float) | |
| () :=> (Eq Float) | |
| () :=> (Floating Float) | |
| () :=> (Fractional Float) | |
Defined in Data.Constraint Methods ins :: () :- Fractional Float # | |
| () :=> (Num Float) | |
| () :=> (Ord Float) | |
| () :=> (Real Float) | |
| () :=> (RealFloat Float) | |
| () :=> (RealFrac Float) | |
| Generic1 (URec Float :: k -> Type) | Since: base-4.9.0.0 |
| Foldable (UFloat :: Type -> Type) | Since: base-4.9.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => UFloat m -> m # foldMap :: Monoid m => (a -> m) -> UFloat a -> m # foldMap' :: Monoid m => (a -> m) -> UFloat a -> m # foldr :: (a -> b -> b) -> b -> UFloat a -> b # foldr' :: (a -> b -> b) -> b -> UFloat a -> b # foldl :: (b -> a -> b) -> b -> UFloat a -> b # foldl' :: (b -> a -> b) -> b -> UFloat a -> b # foldr1 :: (a -> a -> a) -> UFloat a -> a # foldl1 :: (a -> a -> a) -> UFloat a -> a # elem :: Eq a => a -> UFloat a -> Bool # maximum :: Ord a => UFloat a -> a # minimum :: Ord a => UFloat a -> a # | |
| Traversable (UFloat :: Type -> Type) | Since: base-4.9.0.0 |
| GShowX (UFloat :: Type -> Type) Source # | |
| MArray (STUArray s) Float (ST s) | |
Defined in Data.Array.Base Methods getBounds :: Ix i => STUArray s i Float -> ST s (i, i) # getNumElements :: Ix i => STUArray s i Float -> ST s Int newArray :: Ix i => (i, i) -> Float -> ST s (STUArray s i Float) # newArray_ :: Ix i => (i, i) -> ST s (STUArray s i Float) # unsafeNewArray_ :: Ix i => (i, i) -> ST s (STUArray s i Float) unsafeRead :: Ix i => STUArray s i Float -> Int -> ST s Float unsafeWrite :: Ix i => STUArray s i Float -> Int -> Float -> ST s () | |
| Functor (URec Float :: Type -> Type) | Since: base-4.9.0.0 |
| Eq (URec Float p) | |
| Ord (URec Float p) | |
Defined in GHC.Generics | |
| Show (URec Float p) | |
| Generic (URec Float p) | |
| newtype Vector Float | |
| type BitSize Float Source # | |
Defined in Clash.Class.BitPack.Internal | |
| data URec Float (p :: k) | Used for marking occurrences of Since: base-4.9.0.0 |
| newtype MVector s Float | |
| type Unbundled dom Float Source # | |
Defined in Clash.Signal.Bundle | |
| type TryDomain t Float Source # | |
Defined in Clash.Class.HasDomain.HasSingleDomain | |
| type Unbundled dom d Float Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| type Rep1 (URec Float :: k -> Type) | |
Defined in GHC.Generics | |
| type Rep (URec Float p) | |
Defined in GHC.Generics | |
A fixed-precision integer type with at least the range [-2^29 .. 2^29-1].
The exact range for a given implementation can be determined by using
minBound and maxBound from the Bounded class.
Instances
Arbitrary precision integers. In contrast with fixed-size integral types
such as Int, the Integer type represents the entire infinite range of
integers.
For more information about this type's representation, see the comments in its implementation.
Instances
The Maybe type encapsulates an optional value. A value of type
Maybe aa (represented as Just aNothing). Using Maybe is a good way to
deal with errors or exceptional cases without resorting to drastic
measures such as error.
The Maybe type is also a monad. It is a simple kind of error
monad, where all errors are represented by Nothing. A richer
error monad can be built using the Either type.
Instances
| Monad Maybe | Since: base-2.1 |
| Functor Maybe | Since: base-2.1 |
| MonadFail Maybe | Since: base-4.9.0.0 |
Defined in Control.Monad.Fail | |
| Applicative Maybe | Since: base-2.1 |
| Foldable Maybe | Since: base-2.1 |
Defined in Data.Foldable Methods fold :: Monoid m => Maybe m -> m # foldMap :: Monoid m => (a -> m) -> Maybe a -> m # foldMap' :: Monoid m => (a -> m) -> Maybe a -> m # foldr :: (a -> b -> b) -> b -> Maybe a -> b # foldr' :: (a -> b -> b) -> b -> Maybe a -> b # foldl :: (b -> a -> b) -> b -> Maybe a -> b # foldl' :: (b -> a -> b) -> b -> Maybe a -> b # foldr1 :: (a -> a -> a) -> Maybe a -> a # foldl1 :: (a -> a -> a) -> Maybe a -> a # elem :: Eq a => a -> Maybe a -> Bool # maximum :: Ord a => Maybe a -> a # minimum :: Ord a => Maybe a -> a # | |
| Traversable Maybe | Since: base-2.1 |
| Arbitrary1 Maybe | |
Defined in Test.QuickCheck.Arbitrary | |
| Eq1 Maybe | Since: base-4.9.0.0 |
| Ord1 Maybe | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
| Read1 Maybe | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
| Show1 Maybe | Since: base-4.9.0.0 |
| Alternative Maybe | Since: base-2.1 |
| MonadPlus Maybe | Since: base-2.1 |
| NFData1 Maybe | Since: deepseq-1.4.3.0 |
Defined in Control.DeepSeq | |
| Hashable1 Maybe | |
Defined in Data.Hashable.Class | |
| PTraversable Maybe | |
| STraversable Maybe | |
Defined in Data.Singletons.Prelude.Traversable Methods sTraverse :: forall a (f :: Type -> Type) b (t1 :: a ~> f b) (t2 :: Maybe a). SApplicative f => Sing t1 -> Sing t2 -> Sing (Apply (Apply TraverseSym0 t1) t2) # sSequenceA :: forall (f :: Type -> Type) a (t1 :: Maybe (f a)). SApplicative f => Sing t1 -> Sing (Apply SequenceASym0 t1) # sMapM :: forall a (m :: Type -> Type) b (t1 :: a ~> m b) (t2 :: Maybe a). SMonad m => Sing t1 -> Sing t2 -> Sing (Apply (Apply MapMSym0 t1) t2) # sSequence :: forall (m :: Type -> Type) a (t1 :: Maybe (m a)). SMonad m => Sing t1 -> Sing (Apply SequenceSym0 t1) # | |
| PFoldable Maybe | |
| SFoldable Maybe | |
Defined in Data.Singletons.Prelude.Foldable Methods sFold :: forall m (t1 :: Maybe m). SMonoid m => Sing t1 -> Sing (Apply FoldSym0 t1) # sFoldMap :: forall a m (t1 :: a ~> m) (t2 :: Maybe a). SMonoid m => Sing t1 -> Sing t2 -> Sing (Apply (Apply FoldMapSym0 t1) t2) # sFoldr :: forall a b (t1 :: a ~> (b ~> b)) (t2 :: b) (t3 :: Maybe a). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply FoldrSym0 t1) t2) t3) # sFoldr' :: forall a b (t1 :: a ~> (b ~> b)) (t2 :: b) (t3 :: Maybe a). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply Foldr'Sym0 t1) t2) t3) # sFoldl :: forall b a (t1 :: b ~> (a ~> b)) (t2 :: b) (t3 :: Maybe a). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply FoldlSym0 t1) t2) t3) # sFoldl' :: forall b a (t1 :: b ~> (a ~> b)) (t2 :: b) (t3 :: Maybe a). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply Foldl'Sym0 t1) t2) t3) # sFoldr1 :: forall a (t1 :: a ~> (a ~> a)) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply Foldr1Sym0 t1) t2) # sFoldl1 :: forall a (t1 :: a ~> (a ~> a)) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply Foldl1Sym0 t1) t2) # sToList :: forall a (t1 :: Maybe a). Sing t1 -> Sing (Apply ToListSym0 t1) # sNull :: forall a (t1 :: Maybe a). Sing t1 -> Sing (Apply NullSym0 t1) # sLength :: forall a (t1 :: Maybe a). Sing t1 -> Sing (Apply LengthSym0 t1) # sElem :: forall a (t1 :: a) (t2 :: Maybe a). SEq a => Sing t1 -> Sing t2 -> Sing (Apply (Apply ElemSym0 t1) t2) # sMaximum :: forall a (t1 :: Maybe a). SOrd a => Sing t1 -> Sing (Apply MaximumSym0 t1) # sMinimum :: forall a (t1 :: Maybe a). SOrd a => Sing t1 -> Sing (Apply MinimumSym0 t1) # sSum :: forall a (t1 :: Maybe a). SNum a => Sing t1 -> Sing (Apply SumSym0 t1) # sProduct :: forall a (t1 :: Maybe a). SNum a => Sing t1 -> Sing (Apply ProductSym0 t1) # | |
| PFunctor Maybe | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| PApplicative Maybe | |
| PMonad Maybe | |
| SFunctor Maybe | |
| SApplicative Maybe | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods sPure :: forall a (t :: a). Sing t -> Sing (Apply PureSym0 t) # (%<*>) :: forall a b (t1 :: Maybe (a ~> b)) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<*>@#@$) t1) t2) # sLiftA2 :: forall a b c (t1 :: a ~> (b ~> c)) (t2 :: Maybe a) (t3 :: Maybe b). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply LiftA2Sym0 t1) t2) t3) # (%*>) :: forall a b (t1 :: Maybe a) (t2 :: Maybe b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (*>@#@$) t1) t2) # (%<*) :: forall a b (t1 :: Maybe a) (t2 :: Maybe b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<*@#@$) t1) t2) # | |
| SMonad Maybe | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods (%>>=) :: forall a b (t1 :: Maybe a) (t2 :: a ~> Maybe b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>>=@#@$) t1) t2) # (%>>) :: forall a b (t1 :: Maybe a) (t2 :: Maybe b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>>@#@$) t1) t2) # sReturn :: forall a (t :: a). Sing t -> Sing (Apply ReturnSym0 t) # | |
| SAlternative Maybe | |
| SMonadPlus Maybe | |
| FunctorWithIndex () Maybe | |
| FoldableWithIndex () Maybe | |
| TraversableWithIndex () Maybe | |
| Lift a => Lift (Maybe a :: Type) | |
| () :=> (Functor Maybe) | |
| () :=> (Applicative Maybe) | |
Defined in Data.Constraint Methods ins :: () :- Applicative Maybe # | |
| () :=> (Alternative Maybe) | |
Defined in Data.Constraint Methods ins :: () :- Alternative Maybe # | |
| () :=> (MonadPlus Maybe) | |
| Eq a => Eq (Maybe a) | Since: base-2.1 |
| Data a => Data (Maybe a) | Since: base-4.0.0.0 |
Defined in Data.Data Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Maybe a -> c (Maybe a) # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Maybe a) # toConstr :: Maybe a -> Constr # dataTypeOf :: Maybe a -> DataType # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Maybe a)) # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Maybe a)) # gmapT :: (forall b. Data b => b -> b) -> Maybe a -> Maybe a # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Maybe a -> r # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Maybe a -> r # gmapQ :: (forall d. Data d => d -> u) -> Maybe a -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> Maybe a -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Maybe a -> m (Maybe a) # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Maybe a -> m (Maybe a) # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Maybe a -> m (Maybe a) # | |
| Ord a => Ord (Maybe a) | Since: base-2.1 |
| Read a => Read (Maybe a) | Since: base-2.1 |
| Show a => Show (Maybe a) | Since: base-2.1 |
| Generic (Maybe a) | Since: base-4.6.0.0 |
| Semigroup a => Semigroup (Maybe a) | Since: base-4.9.0.0 |
| Semigroup a => Monoid (Maybe a) | Lift a semigroup into Since 4.11.0: constraint on inner Since: base-2.1 |
| Testable prop => Testable (Maybe prop) | |
| Arbitrary a => Arbitrary (Maybe a) | |
| CoArbitrary a => CoArbitrary (Maybe a) | |
Defined in Test.QuickCheck.Arbitrary Methods coarbitrary :: Maybe a -> Gen b -> Gen b # | |
| Binary a => Binary (Maybe a) | |
| Default (Maybe a) | |
Defined in Data.Default.Class | |
| NFData a => NFData (Maybe a) | |
Defined in Control.DeepSeq | |
| Hashable a => Hashable (Maybe a) | |
Defined in Data.Hashable.Class | |
| Ixed (Maybe a) | |
Defined in Control.Lens.At | |
| At (Maybe a) | |
| AsEmpty (Maybe a) | |
Defined in Control.Lens.Empty | |
| Recursive (Maybe a) | |
Defined in Data.Functor.Foldable Methods project :: Maybe a -> Base (Maybe a) (Maybe a) # cata :: (Base (Maybe a) a0 -> a0) -> Maybe a -> a0 # para :: (Base (Maybe a) (Maybe a, a0) -> a0) -> Maybe a -> a0 # gpara :: (Corecursive (Maybe a), Comonad w) => (forall b. Base (Maybe a) (w b) -> w (Base (Maybe a) b)) -> (Base (Maybe a) (EnvT (Maybe a) w a0) -> a0) -> Maybe a -> a0 # prepro :: Corecursive (Maybe a) => (forall b. Base (Maybe a) b -> Base (Maybe a) b) -> (Base (Maybe a) a0 -> a0) -> Maybe a -> a0 # gprepro :: (Corecursive (Maybe a), Comonad w) => (forall b. Base (Maybe a) (w b) -> w (Base (Maybe a) b)) -> (forall c. Base (Maybe a) c -> Base (Maybe a) c) -> (Base (Maybe a) (w a0) -> a0) -> Maybe a -> a0 # | |
| Corecursive (Maybe a) | |
Defined in Data.Functor.Foldable Methods embed :: Base (Maybe a) (Maybe a) -> Maybe a # ana :: (a0 -> Base (Maybe a) a0) -> a0 -> Maybe a # apo :: (a0 -> Base (Maybe a) (Either (Maybe a) a0)) -> a0 -> Maybe a # postpro :: Recursive (Maybe a) => (forall b. Base (Maybe a) b -> Base (Maybe a) b) -> (a0 -> Base (Maybe a) a0) -> a0 -> Maybe a # gpostpro :: (Recursive (Maybe a), Monad m) => (forall b. m (Base (Maybe a) b) -> Base (Maybe a) (m b)) -> (forall c. Base (Maybe a) c -> Base (Maybe a) c) -> (a0 -> Base (Maybe a) (m a0)) -> a0 -> Maybe a # | |
| PMonoid (Maybe a) | |
| SSemigroup a => SMonoid (Maybe a) | |
| PShow (Maybe a) | |
| SShow a => SShow (Maybe a) | |
Defined in Data.Singletons.Prelude.Show Methods sShowsPrec :: forall (t1 :: Nat) (t2 :: Maybe a) (t3 :: Symbol). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply ShowsPrecSym0 t1) t2) t3) # sShow_ :: forall (t :: Maybe a). Sing t -> Sing (Apply Show_Sym0 t) # sShowList :: forall (t1 :: [Maybe a]) (t2 :: Symbol). Sing t1 -> Sing t2 -> Sing (Apply (Apply ShowListSym0 t1) t2) # | |
| PSemigroup (Maybe a) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| SSemigroup a => SSemigroup (Maybe a) | |
| POrd (Maybe a) | |
| SOrd a => SOrd (Maybe a) | |
Defined in Data.Singletons.Prelude.Ord Methods sCompare :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply CompareSym0 t1) t2) # (%<) :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<@#@$) t1) t2) # (%<=) :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<=@#@$) t1) t2) # (%>) :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>@#@$) t1) t2) # (%>=) :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>=@#@$) t1) t2) # sMax :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply MaxSym0 t1) t2) # sMin :: forall (t1 :: Maybe a) (t2 :: Maybe a). Sing t1 -> Sing t2 -> Sing (Apply (Apply MinSym0 t1) t2) # | |
| SEq a => SEq (Maybe a) | |
| PEq (Maybe a) | |
| SingKind a => SingKind (Maybe a) | Since: base-4.9.0.0 |
Defined in GHC.Generics Associated Types type DemoteRep (Maybe a) | |
| NFDataX a => NFDataX (Maybe a) Source # | |
Defined in Clash.XException | |
| ShowX a => ShowX (Maybe a) Source # | |
| BitPack a => BitPack (Maybe a) Source # | |
| Bundle (Maybe a) Source # | |
| Bundle (Maybe a) Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| AutoReg a => AutoReg (Maybe a) Source # | |
Defined in Clash.Class.AutoReg.Internal | |
| Generic1 Maybe | Since: base-4.6.0.0 |
| PAlternative Maybe | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| PMonadPlus Maybe | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| SDecide a => TestCoercion (SMaybe :: Maybe a -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| SDecide a => TestEquality (SMaybe :: Maybe a -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| (Eq a) :=> (Eq (Maybe a)) | |
| (Ord a) :=> (Ord (Maybe a)) | |
| (Read a) :=> (Read (Maybe a)) | |
| (Show a) :=> (Show (Maybe a)) | |
| (Semigroup a) :=> (Semigroup (Maybe a)) | |
| (Monoid a) :=> (Monoid (Maybe a)) | |
| SingI ('Nothing :: Maybe a) | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
| Each (Maybe a) (Maybe b) a b |
|
| SingI a2 => SingI ('Just a2 :: Maybe a1) | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
| SuppressUnusedWarnings (CatMaybesSym0 :: TyFun [Maybe a] [a] -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListToMaybeSym0 :: TyFun [a] (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (StripPrefixSym0 :: TyFun [a] ([a] ~> Maybe [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MaybeToListSym0 :: TyFun (Maybe a) [a] -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FromJustSym0 :: TyFun (Maybe a) a -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MinInternalSym0 :: TyFun (Maybe a) (MinInternal a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MaxInternalSym0 :: TyFun (Maybe a) (MaxInternal a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962735Sym0 :: TyFun (Maybe a) (Maybe a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857192Sym0 :: TyFun (Maybe a) (Maybe a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680245408Sym0 :: TyFun (Maybe a) (Maybe a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (OptionSym0 :: TyFun (Maybe a) (Option a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LastSym0 :: TyFun (Maybe a) (Last a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FirstSym0 :: TyFun (Maybe a) (First a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680666811Sym0 :: TyFun Nat (Maybe a ~> (Symbol ~> Symbol)) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FromMaybeSym0 :: TyFun a (Maybe a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemIndexSym0 :: TyFun a ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Pure_6989586621679962475Sym0 :: TyFun a (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679962744LSym0 :: TyFun k1 (Maybe k1) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (JustSym0 :: TyFun a (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Instances Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GetOptionSym0 :: TyFun (Option a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GetFirstSym0 :: TyFun (First a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GetLastSym0 :: TyFun (Last a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GetMaxInternalSym0 :: TyFun (MaxInternal a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (GetMinInternalSym0 :: TyFun (MinInternal a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SingI (CatMaybesSym0 :: TyFun [Maybe a] [a] -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing CatMaybesSym0 # | |
| SingI (ListToMaybeSym0 :: TyFun [a] (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing ListToMaybeSym0 # | |
| SingI (MaybeToListSym0 :: TyFun (Maybe a) [a] -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing MaybeToListSym0 # | |
| SingI (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing IsNothingSym0 # | |
| SingI (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing IsJustSym0 # | |
| SingI (FromJustSym0 :: TyFun (Maybe a) a -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing FromJustSym0 # | |
| SingI (MinInternalSym0 :: TyFun (Maybe a) (MinInternal a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SingI (MaxInternalSym0 :: TyFun (Maybe a) (MaxInternal a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SingI (OptionSym0 :: TyFun (Maybe a) (Option a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods sing :: Sing OptionSym0 # | |
| SingI (LastSym0 :: TyFun (Maybe a) (Last a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid | |
| SingI (FirstSym0 :: TyFun (Maybe a) (First a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid | |
| SingI (FromMaybeSym0 :: TyFun a (Maybe a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing FromMaybeSym0 # | |
| SEq a => SingI (ElemIndexSym0 :: TyFun a ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing ElemIndexSym0 # | |
| SingI (JustSym0 :: TyFun a (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| SingI (GetOptionSym0 :: TyFun (Option a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods sing :: Sing GetOptionSym0 # | |
| SingI (GetFirstSym0 :: TyFun (First a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods sing :: Sing GetFirstSym0 # | |
| SingI (GetLastSym0 :: TyFun (Last a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods sing :: Sing GetLastSym0 # | |
| SingI (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing FindIndexSym0 # | |
| SingI (GetMaxInternalSym0 :: TyFun (MaxInternal a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SingI (GetMinInternalSym0 :: TyFun (MinInternal a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SuppressUnusedWarnings (StripPrefixSym1 a6989586621680503585 :: TyFun [a] (Maybe [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym1 a6989586621680384263 :: TyFun [a] (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindIndexSym1 a6989586621680384236 :: TyFun [a] (Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ElemIndexSym1 a6989586621680384254 :: TyFun [a] (Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FromMaybeSym1 a6989586621680116201 :: TyFun (Maybe a) a -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680666811Sym1 a6989586621680666825 :: TyFun (Maybe a) (Symbol ~> Symbol) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962735Sym1 a6989586621679962740 :: TyFun (Maybe a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962658Sym0 :: TyFun (Maybe a) (Maybe b ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962647Sym0 :: TyFun (Maybe a) ((a ~> Maybe b) ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962512Sym0 :: TyFun (Maybe a) (Maybe b ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857192Sym1 a6989586621679857198 :: TyFun (Maybe a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680245408Sym1 a6989586621680245413 :: TyFun (Maybe a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962485Sym0 :: TyFun (Maybe (a ~> b)) (Maybe a ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Maybe_Sym0 :: TyFun b ((a ~> b) ~> (Maybe a ~> b)) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LookupSym0 :: TyFun a ([(a, b)] ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812447MkJustSym0 :: TyFun k (TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812432MkJustSym0 :: TyFun k (TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794948NSym0 :: TyFun k (TyFun k1 (Maybe k1) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794948MSym0 :: TyFun k1 (TyFun k (Maybe k1) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794924NSym0 :: TyFun k (TyFun k1 (Maybe k1) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794924MSym0 :: TyFun k1 (TyFun k (Maybe k1) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962363Sym0 :: TyFun a (Maybe b ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MapMaybeSym0 :: TyFun (a ~> Maybe b) ([a] ~> [b]) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (UnfoldrSym0 :: TyFun (b ~> Maybe (a, b)) (b ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812492Sym0 :: TyFun (a ~> (b ~> b)) (b ~> (Maybe a ~> b)) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldl_6989586621680812508Sym0 :: TyFun (b ~> (a ~> b)) (b ~> (Maybe a ~> b)) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FoldMap_6989586621680812473Sym0 :: TyFun (a ~> m) (Maybe a ~> m) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Fmap_6989586621679962351Sym0 :: TyFun (a ~> b) (Maybe a ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SingI d => SingI (FindSym1 d :: TyFun [a] (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI d => SingI (FindIndexSym1 d :: TyFun [a] (Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (FindIndexSym1 d) # | |
| (SEq a, SingI d) => SingI (ElemIndexSym1 d :: TyFun [a] (Maybe Nat) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (ElemIndexSym1 d) # | |
| SingI d => SingI (FromMaybeSym1 d :: TyFun (Maybe a) a -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing (FromMaybeSym1 d) # | |
| SingI (Maybe_Sym0 :: TyFun b ((a ~> b) ~> (Maybe a ~> b)) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing Maybe_Sym0 # | |
| SEq a => SingI (LookupSym0 :: TyFun a ([(a, b)] ~> Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing LookupSym0 # | |
| SingI (MapMaybeSym0 :: TyFun (a ~> Maybe b) ([a] ~> [b]) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing MapMaybeSym0 # | |
| SingI (UnfoldrSym0 :: TyFun (b ~> Maybe (a, b)) (b ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing UnfoldrSym0 # | |
| SFoldable t => SingI (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SuppressUnusedWarnings (LookupSym1 a6989586621680383961 :: TyFun [(a, b)] (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FoldMap_6989586621680812473Sym1 a6989586621680812482 :: TyFun (Maybe a) m -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962658Sym1 a6989586621679962667 :: TyFun (Maybe b) (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962512Sym1 a6989586621679962517 :: TyFun (Maybe b) (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962485Sym1 a6989586621679962490 :: TyFun (Maybe a) (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962363Sym1 a6989586621679962368 :: TyFun (Maybe b) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Fmap_6989586621679962351Sym1 a6989586621679962356 :: TyFun (Maybe a) (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812447MkJustSym1 a_69895866216808124416989586621680812446 :: TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812432MkJustSym1 a_69895866216808124266989586621680812431 :: TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794948NSym1 x6989586621680794946 :: TyFun k1 (Maybe k1) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794948MSym1 x6989586621680794946 :: TyFun k (Maybe k1) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794924NSym1 x6989586621680794922 :: TyFun k1 (Maybe k1) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680794924MSym1 x6989586621680794922 :: TyFun k (Maybe k1) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812492Sym1 a6989586621680812498 :: TyFun b (Maybe a ~> b) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldl_6989586621680812508Sym1 a6989586621680812514 :: TyFun b (Maybe a ~> b) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FindSym1 a6989586621680811931 :: TyFun (t a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744285Sym0 :: TyFun k (TyFun (k1 ~> Last a) (TyFun k1 (Maybe a) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744206Sym0 :: TyFun k (TyFun (k1 ~> First a) (TyFun k1 (Maybe a) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Traverse_6989586621681090097Sym0 :: TyFun (a ~> f b) (Maybe a ~> f (Maybe b)) -> Type) | |
Defined in Data.Singletons.Prelude.Traversable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Maybe_Sym1 a6989586621680110583 :: TyFun (a ~> b) (Maybe a ~> b) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680116109RsSym0 :: TyFun (a ~> Maybe k1) (TyFun k (TyFun [a] [k1] -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812354MfSym0 :: TyFun (k2 ~> (k3 ~> k3)) (TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812333MfSym0 :: TyFun (k2 ~> (k3 ~> k2)) (TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962647Sym1 a6989586621679962652 :: TyFun (a ~> Maybe b) (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LiftA2_6989586621679962498Sym0 :: TyFun (a ~> (b ~> c)) (Maybe a ~> (Maybe b ~> Maybe c)) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| (SEq a, SingI d) => SingI (LookupSym1 d :: TyFun [(a, b)] (Maybe b) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing (LookupSym1 d) # | |
| (SFoldable t, SingI d) => SingI (FindSym1 d :: TyFun (t a) (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable | |
| SingI d => SingI (Maybe_Sym1 d :: TyFun (a ~> b) (Maybe a ~> b) -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing (Maybe_Sym1 d) # | |
| SuppressUnusedWarnings (Traverse_6989586621681090097Sym1 a6989586621681090102 :: TyFun (Maybe a) (f (Maybe b)) -> Type) | |
Defined in Data.Singletons.Prelude.Traversable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Maybe_Sym2 a6989586621680110583 a6989586621680110584 :: TyFun (Maybe a) b -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812492Sym2 a6989586621680812498 a6989586621680812499 :: TyFun (Maybe a) b -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldl_6989586621680812508Sym2 a6989586621680812514 a6989586621680812515 :: TyFun (Maybe a) b -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LiftA2_6989586621679962498Sym1 a6989586621679962504 :: TyFun (Maybe a) (Maybe b ~> Maybe c) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812354MfSym1 f6989586621680812352 :: TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812333MfSym1 f6989586621680812331 :: TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744285Sym1 a6989586621680744283 :: TyFun (k1 ~> Last a) (TyFun k1 (Maybe a) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744206Sym1 a6989586621680744204 :: TyFun (k1 ~> First a) (TyFun k1 (Maybe a) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| (SingI d1, SingI d2) => SingI (Maybe_Sym2 d1 d2 :: TyFun (Maybe a) b -> Type) | |
Defined in Data.Singletons.Prelude.Maybe Methods sing :: Sing (Maybe_Sym2 d1 d2) # | |
| SuppressUnusedWarnings (Let6989586621680812354MfSym2 f6989586621680812352 xs6989586621680812353 :: TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LiftA2_6989586621679962498Sym2 a6989586621679962504 a6989586621679962505 :: TyFun (Maybe b) (Maybe c) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812333MfSym2 f6989586621680812331 xs6989586621680812332 :: TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744285Sym2 a6989586621680744283 k6989586621680744284 :: TyFun k1 (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Lambda_6989586621680744206Sym2 a6989586621680744204 k6989586621680744205 :: TyFun k1 (Maybe a) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812333MfSym3 f6989586621680812331 xs6989586621680812332 a6989586621680812334 :: TyFun (Maybe k3) (Maybe k2) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680812354MfSym3 f6989586621680812352 xs6989586621680812353 a6989586621680812355 :: TyFun k3 (Maybe k3) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| type Product (arg :: Maybe a) | |
| type Sum (arg :: Maybe a) | |
| type Minimum (arg :: Maybe a) | |
| type Maximum (arg :: Maybe a) | |
| type Length (arg :: Maybe a) | |
| type Null (arg :: Maybe a) | |
| type ToList (arg :: Maybe a) | |
| type Fold (arg :: Maybe m) | |
| type Pure (a :: k1) | |
| type Return (arg :: a) | |
| type Sequence (arg :: Maybe (m a)) | |
| type SequenceA (arg :: Maybe (f a)) | |
| type Elem (arg1 :: a) (arg2 :: Maybe a) | |
| type Foldl1 (arg1 :: a ~> (a ~> a)) (arg2 :: Maybe a) | |
| type Foldr1 (arg1 :: a ~> (a ~> a)) (arg2 :: Maybe a) | |
| type FoldMap (a2 :: a1 ~> k2) (a3 :: Maybe a1) | |
| type (a1 :: k1) <$ (a2 :: Maybe b) | |
| type Fmap (a2 :: a1 ~> b) (a3 :: Maybe a1) | |
| type (arg1 :: Maybe a) <* (arg2 :: Maybe b) | |
| type (a2 :: Maybe a1) *> (a3 :: Maybe b) | |
| type (a2 :: Maybe (a1 ~> b)) <*> (a3 :: Maybe a1) | |
| type (a2 :: Maybe a1) >> (a3 :: Maybe b) | |
| type (a2 :: Maybe a1) >>= (a3 :: a1 ~> Maybe b) | |
| type MapM (arg1 :: a ~> m b) (arg2 :: Maybe a) | |
| type Traverse (a2 :: a1 ~> f b) (a3 :: Maybe a1) | |
| type Foldl' (arg1 :: b ~> (a ~> b)) (arg2 :: b) (arg3 :: Maybe a) | |
| type Foldl (a2 :: k2 ~> (a1 ~> k2)) (a3 :: k2) (a4 :: Maybe a1) | |
| type Foldr' (arg1 :: a ~> (b ~> b)) (arg2 :: b) (arg3 :: Maybe a) | |
| type Foldr (a2 :: a1 ~> (k2 ~> k2)) (a3 :: k2) (a4 :: Maybe a1) | |
| type LiftA2 (a2 :: a1 ~> (b ~> c)) (a3 :: Maybe a1) (a4 :: Maybe b) | |
| type Unbundled dom d (Maybe a) Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| type Unbundled dom (Maybe a) Source # | |
Defined in Clash.Signal.Bundle | |
| type TryDomain t (Maybe a) Source # | |
Defined in Clash.Class.HasDomain.HasSingleDomain | |
| type Apply (Pure_6989586621679962475Sym0 :: TyFun a (Maybe a) -> Type) (a6989586621679962481 :: a) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Apply (Let6989586621679962744LSym0 :: TyFun k1 (Maybe k1) -> Type) (wild_69895866216799617966989586621679962743 :: k1) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Apply (JustSym0 :: TyFun a (Maybe a) -> Type) (a6989586621679743290 :: a) | |
| type Apply (Let6989586621680794924NSym1 x6989586621680794922 :: TyFun k1 (Maybe k1) -> Type) (y6989586621680794923 :: k1) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680794924MSym1 x6989586621680794922 :: TyFun k (Maybe k1) -> Type) (y6989586621680794923 :: k) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680794948NSym1 x6989586621680794946 :: TyFun k1 (Maybe k1) -> Type) (y6989586621680794947 :: k1) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680794948MSym1 x6989586621680794946 :: TyFun k (Maybe k1) -> Type) (y6989586621680794947 :: k) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680812432MkJustSym1 a_69895866216808124266989586621680812431 :: TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type) (a6989586621680812435 :: a6989586621680811455) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Let6989586621680812447MkJustSym1 a_69895866216808124416989586621680812446 :: TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type) (a6989586621680812450 :: a6989586621680811456) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (Lambda_6989586621680744206Sym2 a6989586621680744204 k6989586621680744205 :: TyFun k1 (Maybe a) -> Type) (x6989586621680744208 :: k1) | |
Defined in Data.Singletons.Prelude.Monoid | |
| type Apply (Lambda_6989586621680744285Sym2 a6989586621680744283 k6989586621680744284 :: TyFun k1 (Maybe a) -> Type) (x6989586621680744287 :: k1) | |
Defined in Data.Singletons.Prelude.Monoid | |
| type Apply (Let6989586621680812354MfSym3 f6989586621680812352 xs6989586621680812353 a6989586621680812355 :: TyFun k3 (Maybe k3) -> Type) (a6989586621680812356 :: k3) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (ShowsPrec_6989586621680666811Sym0 :: TyFun Nat (Maybe a ~> (Symbol ~> Symbol)) -> Type) (a6989586621680666825 :: Nat) | |
| type Apply (FromMaybeSym0 :: TyFun a (Maybe a ~> a) -> Type) (a6989586621680116201 :: a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (FromMaybeSym0 :: TyFun a (Maybe a ~> a) -> Type) (a6989586621680116201 :: a) = FromMaybeSym1 a6989586621680116201 | |
| type Apply (ElemIndexSym0 :: TyFun a ([a] ~> Maybe Nat) -> Type) (a6989586621680384254 :: a) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (ElemIndexSym0 :: TyFun a ([a] ~> Maybe Nat) -> Type) (a6989586621680384254 :: a) = ElemIndexSym1 a6989586621680384254 | |
| type Apply (Maybe_Sym0 :: TyFun b ((a ~> b) ~> (Maybe a ~> b)) -> Type) (a6989586621680110583 :: b) | |
Defined in Data.Singletons.Prelude.Maybe | |
| type Apply (LookupSym0 :: TyFun a ([(a, b)] ~> Maybe b) -> Type) (a6989586621680383961 :: a) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (LookupSym0 :: TyFun a ([(a, b)] ~> Maybe b) -> Type) (a6989586621680383961 :: a) = LookupSym1 a6989586621680383961 :: TyFun [(a, b)] (Maybe b) -> Type | |
| type Apply (Let6989586621680794924NSym0 :: TyFun k (TyFun k1 (Maybe k1) -> Type) -> Type) (x6989586621680794922 :: k) | |
| type Apply (Let6989586621680794924MSym0 :: TyFun k1 (TyFun k (Maybe k1) -> Type) -> Type) (x6989586621680794922 :: k1) | |
| type Apply (Let6989586621680794948NSym0 :: TyFun k (TyFun k1 (Maybe k1) -> Type) -> Type) (x6989586621680794946 :: k) | |
| type Apply (Let6989586621680794948MSym0 :: TyFun k1 (TyFun k (Maybe k1) -> Type) -> Type) (x6989586621680794946 :: k1) | |
| type Apply (Let6989586621680812432MkJustSym0 :: TyFun k (TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type) -> Type) (a_69895866216808124266989586621680812431 :: k) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680812432MkJustSym0 :: TyFun k (TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type) -> Type) (a_69895866216808124266989586621680812431 :: k) = Let6989586621680812432MkJustSym1 a_69895866216808124266989586621680812431 :: TyFun a6989586621680811455 (Maybe a6989586621680811455) -> Type | |
| type Apply (Let6989586621680812447MkJustSym0 :: TyFun k (TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type) -> Type) (a_69895866216808124416989586621680812446 :: k) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680812447MkJustSym0 :: TyFun k (TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type) -> Type) (a_69895866216808124416989586621680812446 :: k) = Let6989586621680812447MkJustSym1 a_69895866216808124416989586621680812446 :: TyFun a6989586621680811456 (Maybe a6989586621680811456) -> Type | |
| type Apply (TFHelper_6989586621679962363Sym0 :: TyFun a (Maybe b ~> Maybe a) -> Type) (a6989586621679962368 :: a) | |
| type Apply (Foldr_6989586621680812492Sym1 a6989586621680812498 :: TyFun b (Maybe a ~> b) -> Type) (a6989586621680812499 :: b) | |
| type Apply (Foldl_6989586621680812508Sym1 a6989586621680812514 :: TyFun b (Maybe a ~> b) -> Type) (a6989586621680812515 :: b) | |
| type Apply (Lambda_6989586621680744206Sym0 :: TyFun k (TyFun (k1 ~> First a) (TyFun k1 (Maybe a) -> Type) -> Type) -> Type) (a6989586621680744204 :: k) | |
Defined in Data.Singletons.Prelude.Monoid | |
| type Apply (Lambda_6989586621680744285Sym0 :: TyFun k (TyFun (k1 ~> Last a) (TyFun k1 (Maybe a) -> Type) -> Type) -> Type) (a6989586621680744283 :: k) | |
Defined in Data.Singletons.Prelude.Monoid | |
| type Apply (Let6989586621680812333MfSym1 f6989586621680812331 :: TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type) (xs6989586621680812332 :: k) | |
| type Apply (Let6989586621680812354MfSym1 f6989586621680812352 :: TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type) (xs6989586621680812353 :: k) | |
| type Apply (Let6989586621680812333MfSym2 f6989586621680812331 xs6989586621680812332 :: TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) (a6989586621680812334 :: k2) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Eval (FoldMap f ('Just x) :: a2 -> Type) | |
| type Eval (FoldMap f ('Nothing :: Maybe a1) :: a2 -> Type) | |
| type Eval (Foldr f y ('Just x) :: a2 -> Type) | |
| type Eval (Foldr f y ('Nothing :: Maybe a1) :: a2 -> Type) | |
| type Rep (Maybe a) | |
Defined in GHC.Generics | |
| type MEmpty | |
Defined in Fcf.Class.Monoid | |
| type Index (Maybe a) | |
Defined in Control.Lens.At | |
| type IxValue (Maybe a) | |
Defined in Control.Lens.At | |
| type Base (Maybe a) | Example boring stub for non-recursive data types |
| type Mempty | |
Defined in Data.Singletons.Prelude.Monoid | |
| type Sing | |
Defined in Data.Singletons.Prelude.Instances | |
| type Demote (Maybe a) | |
Defined in Data.Singletons.Prelude.Instances | |
| type DemoteRep (Maybe a) | |
Defined in GHC.Generics | |
| data Sing (b :: Maybe a) | |
| type BitSize (Maybe a) Source # | |
Defined in Clash.Class.BitPack.Internal | |
| type Rep1 Maybe | |
| type Mconcat (arg :: [Maybe a]) | |
| type Show_ (arg :: Maybe a) | |
| type Sconcat (arg :: NonEmpty (Maybe a)) | |
| type Mappend (arg1 :: Maybe a) (arg2 :: Maybe a) | |
| type ShowList (arg1 :: [Maybe a]) arg2 | |
| type (a2 :: Maybe a1) <> (a3 :: Maybe a1) | |
| type Empty | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Mzero | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Min (arg1 :: Maybe a) (arg2 :: Maybe a) | |
| type Max (arg1 :: Maybe a) (arg2 :: Maybe a) | |
| type (arg1 :: Maybe a) >= (arg2 :: Maybe a) | |
| type (arg1 :: Maybe a) > (arg2 :: Maybe a) | |
| type (arg1 :: Maybe a) <= (arg2 :: Maybe a) | |
| type (arg1 :: Maybe a) < (arg2 :: Maybe a) | |
| type Compare (a2 :: Maybe a1) (a3 :: Maybe a1) | |
| type (x :: Maybe a) /= (y :: Maybe a) | |
| type (a2 :: Maybe a1) == (b :: Maybe a1) | |
Defined in Data.Singletons.Prelude.Eq | |
| type ShowsPrec a2 (a3 :: Maybe a1) a4 | |
| type (a2 :: Maybe a1) <|> (a3 :: Maybe a1) | |
| type Mplus (arg1 :: Maybe a) (arg2 :: Maybe a) | |
| type (a2 :: Maybe a1) <> ('Nothing :: Maybe a1) | |
Defined in Fcf.Class.Monoid | |
| type Apply (FromJustSym0 :: TyFun (Maybe a) a -> Type) (a6989586621680116211 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (FromJustSym0 :: TyFun (Maybe a) a -> Type) (a6989586621680116211 :: Maybe a) = FromJustSym1 a6989586621680116211 | |
| type Apply (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116215 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (IsNothingSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116215 :: Maybe a) = IsNothingSym1 a6989586621680116215 | |
| type Apply (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116218 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (IsJustSym0 :: TyFun (Maybe a) Bool -> Type) (a6989586621680116218 :: Maybe a) = IsJustSym1 a6989586621680116218 | |
| type Apply (FromMaybeSym1 a6989586621680116201 :: TyFun (Maybe a) a -> Type) (a6989586621680116202 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (FromMaybeSym1 a6989586621680116201 :: TyFun (Maybe a) a -> Type) (a6989586621680116202 :: Maybe a) = FromMaybeSym2 a6989586621680116201 a6989586621680116202 | |
| type Apply (Compare_6989586621679857192Sym1 a6989586621679857198 :: TyFun (Maybe a) Ordering -> Type) (a6989586621679857199 :: Maybe a) | |
| type Apply (FoldMap_6989586621680812473Sym1 a6989586621680812482 :: TyFun (Maybe a) m -> Type) (a6989586621680812483 :: Maybe a) | |
| type Apply (Maybe_Sym2 a6989586621680110583 a6989586621680110584 :: TyFun (Maybe a) b -> Type) (a6989586621680110585 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (Maybe_Sym2 a6989586621680110583 a6989586621680110584 :: TyFun (Maybe a) b -> Type) (a6989586621680110585 :: Maybe a) = Maybe_Sym3 a6989586621680110583 a6989586621680110584 a6989586621680110585 | |
| type Apply (Foldr_6989586621680812492Sym2 a6989586621680812498 a6989586621680812499 :: TyFun (Maybe a) b -> Type) (a6989586621680812500 :: Maybe a) | |
| type Apply (Foldl_6989586621680812508Sym2 a6989586621680812514 a6989586621680812515 :: TyFun (Maybe a) b -> Type) (a6989586621680812516 :: Maybe a) | |
| type ('Nothing :: Maybe a) <> (b :: Maybe a) | |
Defined in Fcf.Class.Monoid | |
| type Apply (CatMaybesSym0 :: TyFun [Maybe a] [a] -> Type) (a6989586621680116186 :: [Maybe a]) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (CatMaybesSym0 :: TyFun [Maybe a] [a] -> Type) (a6989586621680116186 :: [Maybe a]) = CatMaybesSym1 a6989586621680116186 | |
| type Apply (ListToMaybeSym0 :: TyFun [a] (Maybe a) -> Type) (a6989586621680116192 :: [a]) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (ListToMaybeSym0 :: TyFun [a] (Maybe a) -> Type) (a6989586621680116192 :: [a]) = ListToMaybeSym1 a6989586621680116192 | |
| type Apply (MaybeToListSym0 :: TyFun (Maybe a) [a] -> Type) (a6989586621680116196 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (MaybeToListSym0 :: TyFun (Maybe a) [a] -> Type) (a6989586621680116196 :: Maybe a) = MaybeToListSym1 a6989586621680116196 | |
| type Apply (MaxInternalSym0 :: TyFun (Maybe a) (MaxInternal a) -> Type) (a6989586621680793110 :: Maybe a) | |
| type Apply (MinInternalSym0 :: TyFun (Maybe a) (MinInternal a) -> Type) (a6989586621680793113 :: Maybe a) | |
| type Apply (OptionSym0 :: TyFun (Maybe a) (Option a) -> Type) (a6989586621680254611 :: Maybe a) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal type Apply (OptionSym0 :: TyFun (Maybe a) (Option a) -> Type) (a6989586621680254611 :: Maybe a) = OptionSym1 a6989586621680254611 | |
| type Apply (FirstSym0 :: TyFun (Maybe a) (First a) -> Type) (a6989586621680737976 :: Maybe a) | |
| type Apply (LastSym0 :: TyFun (Maybe a) (Last a) -> Type) (a6989586621680738003 :: Maybe a) | |
| type Apply (GetOptionSym0 :: TyFun (Option a) (Maybe a) -> Type) (a6989586621680254614 :: Option a) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal type Apply (GetOptionSym0 :: TyFun (Option a) (Maybe a) -> Type) (a6989586621680254614 :: Option a) = GetOptionSym1 a6989586621680254614 | |
| type Apply (GetFirstSym0 :: TyFun (First a) (Maybe a) -> Type) (a6989586621680737979 :: First a) | |
Defined in Data.Singletons.Prelude.Monoid type Apply (GetFirstSym0 :: TyFun (First a) (Maybe a) -> Type) (a6989586621680737979 :: First a) = GetFirstSym1 a6989586621680737979 | |
| type Apply (GetLastSym0 :: TyFun (Last a) (Maybe a) -> Type) (a6989586621680738006 :: Last a) | |
Defined in Data.Singletons.Prelude.Monoid type Apply (GetLastSym0 :: TyFun (Last a) (Maybe a) -> Type) (a6989586621680738006 :: Last a) = GetLastSym1 a6989586621680738006 | |
| type Apply (GetMaxInternalSym0 :: TyFun (MaxInternal a) (Maybe a) -> Type) (a6989586621680793120 :: MaxInternal a) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (GetMinInternalSym0 :: TyFun (MinInternal a) (Maybe a) -> Type) (a6989586621680793116 :: MinInternal a) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (FindSym1 a6989586621680384263 :: TyFun [a] (Maybe a) -> Type) (a6989586621680384264 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (FindIndexSym1 a6989586621680384236 :: TyFun [a] (Maybe Nat) -> Type) (a6989586621680384237 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (FindIndexSym1 a6989586621680384236 :: TyFun [a] (Maybe Nat) -> Type) (a6989586621680384237 :: [a]) = FindIndexSym2 a6989586621680384236 a6989586621680384237 | |
| type Apply (ElemIndexSym1 a6989586621680384254 :: TyFun [a] (Maybe Nat) -> Type) (a6989586621680384255 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (ElemIndexSym1 a6989586621680384254 :: TyFun [a] (Maybe Nat) -> Type) (a6989586621680384255 :: [a]) = ElemIndexSym2 a6989586621680384254 a6989586621680384255 | |
| type Apply (StripPrefixSym1 a6989586621680503585 :: TyFun [a] (Maybe [a]) -> Type) (a6989586621680503586 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (StripPrefixSym1 a6989586621680503585 :: TyFun [a] (Maybe [a]) -> Type) (a6989586621680503586 :: [a]) = StripPrefixSym2 a6989586621680503585 a6989586621680503586 | |
| type Apply (TFHelper_6989586621679962735Sym1 a6989586621679962740 :: TyFun (Maybe a) (Maybe a) -> Type) (a6989586621679962741 :: Maybe a) | |
| type Apply (TFHelper_6989586621680245408Sym1 a6989586621680245413 :: TyFun (Maybe a) (Maybe a) -> Type) (a6989586621680245414 :: Maybe a) | |
| type Apply (LookupSym1 a6989586621680383961 :: TyFun [(a, b)] (Maybe b) -> Type) (a6989586621680383962 :: [(a, b)]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (LookupSym1 a6989586621680383961 :: TyFun [(a, b)] (Maybe b) -> Type) (a6989586621680383962 :: [(a, b)]) = LookupSym2 a6989586621680383961 a6989586621680383962 | |
| type Apply (Fmap_6989586621679962351Sym1 a6989586621679962356 :: TyFun (Maybe a) (Maybe b) -> Type) (a6989586621679962357 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962363Sym1 a6989586621679962368 :: TyFun (Maybe b) (Maybe a) -> Type) (a6989586621679962369 :: Maybe b) | |
| type Apply (TFHelper_6989586621679962485Sym1 a6989586621679962490 :: TyFun (Maybe a) (Maybe b) -> Type) (a6989586621679962491 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962512Sym1 a6989586621679962517 :: TyFun (Maybe b) (Maybe b) -> Type) (a6989586621679962518 :: Maybe b) | |
| type Apply (TFHelper_6989586621679962658Sym1 a6989586621679962667 :: TyFun (Maybe b) (Maybe b) -> Type) (a6989586621679962668 :: Maybe b) | |
| type Apply (FindSym1 a6989586621680811931 :: TyFun (t a) (Maybe a) -> Type) (a6989586621680811932 :: t a) | |
| type Apply (Traverse_6989586621681090097Sym1 a6989586621681090102 :: TyFun (Maybe a) (f (Maybe b)) -> Type) (a6989586621681090103 :: Maybe a) | |
| type Apply (LiftA2_6989586621679962498Sym2 a6989586621679962504 a6989586621679962505 :: TyFun (Maybe b) (Maybe c) -> Type) (a6989586621679962506 :: Maybe b) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Apply (Let6989586621680812333MfSym3 f6989586621680812331 xs6989586621680812332 a6989586621680812334 :: TyFun (Maybe k3) (Maybe k2) -> Type) (a6989586621680812335 :: Maybe k3) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Eval (Init '[a2] :: Maybe [a1] -> Type) | |
| type Eval (Init ('[] :: [a]) :: Maybe [a] -> Type) | |
| type Eval (Tail (_a ': as) :: Maybe [a] -> Type) | |
| type Eval (Tail ('[] :: [a]) :: Maybe [a] -> Type) | |
| type Eval (Init (a2 ': (b ': as)) :: Maybe [a1] -> Type) | |
| type Eval (Head (a2 ': _as) :: Maybe a1 -> Type) | |
| type Eval (Head ('[] :: [a]) :: Maybe a -> Type) | |
| type Eval (Last (a2 ': (b ': as)) :: Maybe a1 -> Type) | |
| type Eval (Last '[a2] :: Maybe a1 -> Type) | |
| type Eval (Last ('[] :: [a]) :: Maybe a -> Type) | |
| type Apply (StripPrefixSym0 :: TyFun [a] ([a] ~> Maybe [a]) -> Type) (a6989586621680503585 :: [a]) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (StripPrefixSym0 :: TyFun [a] ([a] ~> Maybe [a]) -> Type) (a6989586621680503585 :: [a]) = StripPrefixSym1 a6989586621680503585 | |
| type Apply (TFHelper_6989586621679962735Sym0 :: TyFun (Maybe a) (Maybe a ~> Maybe a) -> Type) (a6989586621679962740 :: Maybe a) | |
| type Apply (Compare_6989586621679857192Sym0 :: TyFun (Maybe a) (Maybe a ~> Ordering) -> Type) (a6989586621679857198 :: Maybe a) | |
| type Apply (TFHelper_6989586621680245408Sym0 :: TyFun (Maybe a) (Maybe a ~> Maybe a) -> Type) (a6989586621680245413 :: Maybe a) | |
| type ('Just a2 :: Maybe a1) <> ('Just b :: Maybe a1) | |
| type Apply (ShowsPrec_6989586621680666811Sym1 a6989586621680666825 :: TyFun (Maybe a) (Symbol ~> Symbol) -> Type) (a6989586621680666826 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962512Sym0 :: TyFun (Maybe a) (Maybe b ~> Maybe b) -> Type) (a6989586621679962517 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962647Sym0 :: TyFun (Maybe a) ((a ~> Maybe b) ~> Maybe b) -> Type) (a6989586621679962652 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962658Sym0 :: TyFun (Maybe a) (Maybe b ~> Maybe b) -> Type) (a6989586621679962667 :: Maybe a) | |
| type Apply (TFHelper_6989586621679962485Sym0 :: TyFun (Maybe (a ~> b)) (Maybe a ~> Maybe b) -> Type) (a6989586621679962490 :: Maybe (a ~> b)) | |
| type Apply (LiftA2_6989586621679962498Sym1 a6989586621679962504 :: TyFun (Maybe a) (Maybe b ~> Maybe c) -> Type) (a6989586621679962505 :: Maybe a) | |
| type Apply (Let6989586621680812354MfSym2 f6989586621680812352 xs6989586621680812353 :: TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) (a6989586621680812355 :: Maybe k2) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Eval (FindIndex p (a2 ': as) :: Maybe Nat -> Type) | |
| type Eval (FindIndex _p ('[] :: [a]) :: Maybe Nat -> Type) | |
| type Eval (NumIter a s :: Maybe (k, Nat) -> Type) | |
| type Eval (Find p (a2 ': as) :: Maybe a1 -> Type) | |
| type Eval (Find _p ('[] :: [a]) :: Maybe a -> Type) | |
| type Eval (Lookup a as :: Maybe b -> Type) | |
| type Eval (Map f ('Just a3) :: Maybe a2 -> Type) | |
| type Eval (Map f ('Nothing :: Maybe a) :: Maybe b -> Type) | |
| type Apply (TFHelper_6989586621679962647Sym1 a6989586621679962652 :: TyFun (a ~> Maybe b) (Maybe b) -> Type) (a6989586621679962653 :: a ~> Maybe b) | |
| type Apply (FindSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe a) -> Type) (a6989586621680384263 :: a ~> Bool) | |
| type Apply (FindIndexSym0 :: TyFun (a ~> Bool) ([a] ~> Maybe Nat) -> Type) (a6989586621680384236 :: a ~> Bool) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (MapMaybeSym0 :: TyFun (a ~> Maybe b) ([a] ~> [b]) -> Type) (a6989586621680116070 :: a ~> Maybe b) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (MapMaybeSym0 :: TyFun (a ~> Maybe b) ([a] ~> [b]) -> Type) (a6989586621680116070 :: a ~> Maybe b) = MapMaybeSym1 a6989586621680116070 | |
| type Apply (UnfoldrSym0 :: TyFun (b ~> Maybe (a, b)) (b ~> [a]) -> Type) (a6989586621680384653 :: b ~> Maybe (a, b)) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (UnfoldrSym0 :: TyFun (b ~> Maybe (a, b)) (b ~> [a]) -> Type) (a6989586621680384653 :: b ~> Maybe (a, b)) = UnfoldrSym1 a6989586621680384653 | |
| type Apply (FindSym0 :: TyFun (a ~> Bool) (t a ~> Maybe a) -> Type) (a6989586621680811931 :: a ~> Bool) | |
| type Apply (FoldMap_6989586621680812473Sym0 :: TyFun (a ~> m) (Maybe a ~> m) -> Type) (a6989586621680812482 :: a ~> m) | |
| type Apply (Foldr_6989586621680812492Sym0 :: TyFun (a ~> (b ~> b)) (b ~> (Maybe a ~> b)) -> Type) (a6989586621680812498 :: a ~> (b ~> b)) | |
| type Apply (Foldl_6989586621680812508Sym0 :: TyFun (b ~> (a ~> b)) (b ~> (Maybe a ~> b)) -> Type) (a6989586621680812514 :: b ~> (a ~> b)) | |
| type Apply (Fmap_6989586621679962351Sym0 :: TyFun (a ~> b) (Maybe a ~> Maybe b) -> Type) (a6989586621679962356 :: a ~> b) | |
| type Apply (Traverse_6989586621681090097Sym0 :: TyFun (a ~> f b) (Maybe a ~> f (Maybe b)) -> Type) (a6989586621681090102 :: a ~> f b) | |
| type Apply (Maybe_Sym1 a6989586621680110583 :: TyFun (a ~> b) (Maybe a ~> b) -> Type) (a6989586621680110584 :: a ~> b) | |
Defined in Data.Singletons.Prelude.Maybe type Apply (Maybe_Sym1 a6989586621680110583 :: TyFun (a ~> b) (Maybe a ~> b) -> Type) (a6989586621680110584 :: a ~> b) = Maybe_Sym2 a6989586621680110583 a6989586621680110584 | |
| type Apply (Let6989586621680116109RsSym0 :: TyFun (a ~> Maybe k1) (TyFun k (TyFun [a] [k1] -> Type) -> Type) -> Type) (f6989586621680116092 :: a ~> Maybe k1) | |
| type Apply (Let6989586621680812333MfSym0 :: TyFun (k2 ~> (k3 ~> k2)) (TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type) -> Type) (f6989586621680812331 :: k2 ~> (k3 ~> k2)) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680812333MfSym0 :: TyFun (k2 ~> (k3 ~> k2)) (TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type) -> Type) (f6989586621680812331 :: k2 ~> (k3 ~> k2)) = Let6989586621680812333MfSym1 f6989586621680812331 :: TyFun k (TyFun k2 (TyFun (Maybe k3) (Maybe k2) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680812354MfSym0 :: TyFun (k2 ~> (k3 ~> k3)) (TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type) -> Type) (f6989586621680812352 :: k2 ~> (k3 ~> k3)) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680812354MfSym0 :: TyFun (k2 ~> (k3 ~> k3)) (TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type) -> Type) (f6989586621680812352 :: k2 ~> (k3 ~> k3)) = Let6989586621680812354MfSym1 f6989586621680812352 :: TyFun k (TyFun (Maybe k2) (TyFun k3 (Maybe k3) -> Type) -> Type) -> Type | |
| type Apply (LiftA2_6989586621679962498Sym0 :: TyFun (a ~> (b ~> c)) (Maybe a ~> (Maybe b ~> Maybe c)) -> Type) (a6989586621679962504 :: a ~> (b ~> c)) | |
| type Apply (Lambda_6989586621680744206Sym1 a6989586621680744204 :: TyFun (k1 ~> First a) (TyFun k1 (Maybe a) -> Type) -> Type) (k6989586621680744205 :: k1 ~> First a) | |
| type Apply (Lambda_6989586621680744285Sym1 a6989586621680744283 :: TyFun (k1 ~> Last a) (TyFun k1 (Maybe a) -> Type) -> Type) (k6989586621680744284 :: k1 ~> Last a) | |
Instances
| Bounded Ordering | Since: base-2.1 |
| Enum Ordering | Since: base-2.1 |
| Eq Ordering | |
| Data Ordering | Since: base-4.0.0.0 |
Defined in Data.Data Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Ordering -> c Ordering # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Ordering # toConstr :: Ordering -> Constr # dataTypeOf :: Ordering -> DataType # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Ordering) # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Ordering) # gmapT :: (forall b. Data b => b -> b) -> Ordering -> Ordering # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Ordering -> r # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Ordering -> r # gmapQ :: (forall d. Data d => d -> u) -> Ordering -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> Ordering -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Ordering -> m Ordering # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Ordering -> m Ordering # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Ordering -> m Ordering # | |
| Ord Ordering | |
Defined in GHC.Classes | |
| Read Ordering | Since: base-2.1 |
| Show Ordering | Since: base-2.1 |
| Ix Ordering | Since: base-2.1 |
Defined in GHC.Ix Methods range :: (Ordering, Ordering) -> [Ordering] # index :: (Ordering, Ordering) -> Ordering -> Int # unsafeIndex :: (Ordering, Ordering) -> Ordering -> Int # inRange :: (Ordering, Ordering) -> Ordering -> Bool # rangeSize :: (Ordering, Ordering) -> Int # unsafeRangeSize :: (Ordering, Ordering) -> Int # | |
| Generic Ordering | Since: base-4.6.0.0 |
| Semigroup Ordering | Since: base-4.9.0.0 |
| Monoid Ordering | Since: base-2.1 |
| Arbitrary Ordering | |
| CoArbitrary Ordering | |
Defined in Test.QuickCheck.Arbitrary Methods coarbitrary :: Ordering -> Gen b -> Gen b # | |
| Binary Ordering | |
| Default Ordering | |
Defined in Data.Default.Class | |
| NFData Ordering | |
Defined in Control.DeepSeq | |
| Hashable Ordering | |
Defined in Data.Hashable.Class | |
| AsEmpty Ordering | |
Defined in Control.Lens.Empty | |
| PMonoid Ordering | |
| SMonoid Ordering | |
| PShow Ordering | |
| SShow Ordering | |
Defined in Data.Singletons.Prelude.Show Methods sShowsPrec :: forall (t1 :: Nat) (t2 :: Ordering) (t3 :: Symbol). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply ShowsPrecSym0 t1) t2) t3) # sShow_ :: forall (t :: Ordering). Sing t -> Sing (Apply Show_Sym0 t) # sShowList :: forall (t1 :: [Ordering]) (t2 :: Symbol). Sing t1 -> Sing t2 -> Sing (Apply (Apply ShowListSym0 t1) t2) # | |
| PSemigroup Ordering | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| SSemigroup Ordering | |
| PEnum Ordering | |
Defined in Data.Singletons.Prelude.Enum | |
| SEnum Ordering | |
Defined in Data.Singletons.Prelude.Enum Methods sSucc :: forall (t :: Ordering). Sing t -> Sing (Apply SuccSym0 t) # sPred :: forall (t :: Ordering). Sing t -> Sing (Apply PredSym0 t) # sToEnum :: forall (t :: Nat). Sing t -> Sing (Apply ToEnumSym0 t) # sFromEnum :: forall (t :: Ordering). Sing t -> Sing (Apply FromEnumSym0 t) # sEnumFromTo :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply EnumFromToSym0 t1) t2) # sEnumFromThenTo :: forall (t1 :: Ordering) (t2 :: Ordering) (t3 :: Ordering). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply EnumFromThenToSym0 t1) t2) t3) # | |
| PBounded Ordering | |
Defined in Data.Singletons.Prelude.Enum | |
| SBounded Ordering | |
Defined in Data.Singletons.Prelude.Enum | |
| POrd Ordering | |
| SOrd Ordering | |
Defined in Data.Singletons.Prelude.Ord Methods sCompare :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply CompareSym0 t1) t2) # (%<) :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<@#@$) t1) t2) # (%<=) :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<=@#@$) t1) t2) # (%>) :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>@#@$) t1) t2) # (%>=) :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>=@#@$) t1) t2) # sMax :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply MaxSym0 t1) t2) # sMin :: forall (t1 :: Ordering) (t2 :: Ordering). Sing t1 -> Sing t2 -> Sing (Apply (Apply MinSym0 t1) t2) # | |
| SEq Ordering | |
| PEq Ordering | |
| NFDataX Ordering Source # | |
Defined in Clash.XException | |
| ShowX Ordering Source # | |
| BitPack Ordering Source # | |
| TestCoercion SOrdering | |
Defined in Data.Singletons.Prelude.Instances | |
| TestEquality SOrdering | |
Defined in Data.Singletons.Prelude.Instances | |
| () :=> (Bounded Ordering) | |
| () :=> (Enum Ordering) | |
| () :=> (Read Ordering) | |
| () :=> (Show Ordering) | |
| () :=> (Semigroup Ordering) | |
| () :=> (Monoid Ordering) | |
| SuppressUnusedWarnings Compare_6989586621679858881Sym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings FromEnum_6989586621680145353Sym0 | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ThenCmpSym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings TFHelper_6989586621680245398Sym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621679858955Sym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ToEnum_6989586621680145337Sym0 | |
Defined in Data.Singletons.Prelude.Enum Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings ShowsPrec_6989586621680667244Sym0 | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621679859016Sym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621679857644Sym0 | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621680265460Sym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings Compare_6989586621680265477Sym0 | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SingI ThenCmpSym0 | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing ThenCmpSym0 # | |
| SuppressUnusedWarnings (Compare_6989586621679858881Sym1 a6989586621679858886 :: TyFun Bool Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857286Sym0 :: TyFun [a] ([a] ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857192Sym0 :: TyFun (Maybe a) (Maybe a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ThenCmpSym1 a6989586621679856060 :: TyFun Ordering Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680245398Sym1 a6989586621680245403 :: TyFun Ordering Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858955Sym1 a6989586621679858960 :: TyFun Ordering Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680667244Sym1 a6989586621680667260 :: TyFun Ordering (Symbol ~> Symbol) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679859016Sym1 a6989586621679859021 :: TyFun () Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841714Scrutinee_6989586621679841448Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841698Scrutinee_6989586621679841446Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841679Scrutinee_6989586621679841444Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841658Scrutinee_6989586621679841441Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679841620Sym0 :: TyFun a (a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (CompareSym0 :: TyFun a (a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857644Sym1 a6989586621679857650 :: TyFun Void Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265537Sym0 :: TyFun (Min a) (Min a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265557Sym0 :: TyFun (Max a) (Max a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265577Sym0 :: TyFun (First a) (First a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265597Sym0 :: TyFun (Last a) (Last a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265617Sym0 :: TyFun (WrappedMonoid m) (WrappedMonoid m ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265423Sym0 :: TyFun (Option a) (Option a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858803Sym0 :: TyFun (Identity a) (Identity a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680739927Sym0 :: TyFun (First a) (First a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680739947Sym0 :: TyFun (Last a) (Last a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265443Sym0 :: TyFun (Dual a) (Dual a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265460Sym1 a6989586621680265465 :: TyFun All Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265477Sym1 a6989586621680265482 :: TyFun Any Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265497Sym0 :: TyFun (Sum a) (Sum a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265517Sym0 :: TyFun (Product a) (Product a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679854635Sym0 :: TyFun (Down a) (Down a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857547Sym0 :: TyFun (NonEmpty a) (NonEmpty a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ListsortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal.Disambiguation Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (SortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (InsertBySym0 :: TyFun (a ~> (a ~> Ordering)) (a ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SingI d => SingI (ThenCmpSym1 d :: TyFun Ordering Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing (ThenCmpSym1 d) # | |
| SOrd a => SingI (CompareSym0 :: TyFun a (a ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing CompareSym0 # | |
| SingI (ListsortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) | |
| SingI (SortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing SortBySym0 # | |
| SingI (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| SingI (InsertBySym0 :: TyFun (a ~> (a ~> Ordering)) (a ~> ([a] ~> [a])) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods sing :: Sing InsertBySym0 # | |
| SuppressUnusedWarnings (Compare_6989586621679857286Sym1 a6989586621679857291 :: TyFun [a] Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857192Sym1 a6989586621679857198 :: TyFun (Maybe a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857425Sym0 :: TyFun (Either a b) (Either a b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857697Sym0 :: TyFun (a, b) ((a, b) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841714Scrutinee_6989586621679841448Sym1 x6989586621679841712 :: TyFun k1 Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841698Scrutinee_6989586621679841446Sym1 x6989586621679841696 :: TyFun k1 Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841679Scrutinee_6989586621679841444Sym1 x6989586621679841677 :: TyFun k1 Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621679841658Scrutinee_6989586621679841441Sym1 x6989586621679841655 :: TyFun k1 Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679841620Sym1 a6989586621679841627 :: TyFun a Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (CompareSym1 a6989586621679841582 :: TyFun a Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265537Sym1 a6989586621680265542 :: TyFun (Min a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265557Sym1 a6989586621680265562 :: TyFun (Max a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621681233394Sym0 :: TyFun (Arg a b) (Arg a b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265577Sym1 a6989586621680265582 :: TyFun (First a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265597Sym1 a6989586621680265602 :: TyFun (Last a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265617Sym1 a6989586621680265622 :: TyFun (WrappedMonoid m) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265423Sym1 a6989586621680265428 :: TyFun (Option a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858803Sym1 a6989586621679858809 :: TyFun (Identity a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680739927Sym1 a6989586621680739932 :: TyFun (First a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680739947Sym1 a6989586621680739952 :: TyFun (Last a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Monoid Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265443Sym1 a6989586621680265448 :: TyFun (Dual a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265497Sym1 a6989586621680265502 :: TyFun (Sum a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680265517Sym1 a6989586621680265522 :: TyFun (Product a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679854635Sym1 a6989586621679854640 :: TyFun (Down a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680794745Sym0 :: TyFun (Proxy s) (Proxy s ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Proxy Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857547Sym1 a6989586621679857553 :: TyFun (NonEmpty a) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680811982Max'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680811962Min'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ComparingSym0 :: TyFun (b ~> a) (b ~> (b ~> Ordering)) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| (SOrd a, SingI d) => SingI (CompareSym1 d :: TyFun a Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing (CompareSym1 d) # | |
| SFoldable t => SingI (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods sing :: Sing MinimumBySym0 # | |
| SFoldable t => SingI (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods sing :: Sing MaximumBySym0 # | |
| SOrd a => SingI (ComparingSym0 :: TyFun (b ~> a) (b ~> (b ~> Ordering)) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing ComparingSym0 # | |
| SuppressUnusedWarnings (Compare_6989586621679857425Sym1 a6989586621679857432 :: TyFun (Either a b) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857697Sym1 a6989586621679857702 :: TyFun (a, b) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857796Sym0 :: TyFun (a, b, c) ((a, b, c) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ComparingSym1 a6989586621679841567 :: TyFun b (b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621681233394Sym1 a6989586621681233399 :: TyFun (Arg a b) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621681010380Sym0 :: TyFun (Const a b) (Const a b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Const Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621680794745Sym1 a6989586621680794750 :: TyFun (Proxy s) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Proxy Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384312MaxBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680384291MinBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) | |
Defined in Data.Singletons.Prelude.List.Internal Methods suppressUnusedWarnings :: () # | |
| (SOrd a, SingI d) => SingI (ComparingSym1 d :: TyFun b (b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing (ComparingSym1 d) # | |
| SuppressUnusedWarnings (Compare_6989586621679857796Sym1 a6989586621679857802 :: TyFun (a, b, c) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857910Sym0 :: TyFun (a, b, c, d) ((a, b, c, d) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ComparingSym2 a6989586621679841567 a6989586621679841568 :: TyFun b Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621681010380Sym1 a6989586621681010385 :: TyFun (Const a b) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Const Methods suppressUnusedWarnings :: () # | |
| (SOrd a, SingI d1, SingI d2) => SingI (ComparingSym2 d1 d2 :: TyFun b Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods sing :: Sing (ComparingSym2 d1 d2) # | |
| SuppressUnusedWarnings (Compare_6989586621679857910Sym1 a6989586621679857915 :: TyFun (a, b, c, d) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858121Sym0 :: TyFun (a, b, c, d, e) ((a, b, c, d, e) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858121Sym1 a6989586621679858128 :: TyFun (a, b, c, d, e) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858341Sym0 :: TyFun (a, b, c, d, e, f) ((a, b, c, d, e, f) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858341Sym1 a6989586621679858346 :: TyFun (a, b, c, d, e, f) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858616Sym0 :: TyFun (a, b, c, d, e, f, g) ((a, b, c, d, e, f, g) ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679858616Sym1 a6989586621679858622 :: TyFun (a, b, c, d, e, f, g) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| type Rep Ordering | |
| type MEmpty | |
Defined in Fcf.Class.Monoid | |
| type Mempty | |
Defined in Data.Singletons.Prelude.Monoid type Mempty = Mempty_6989586621680734578Sym0 | |
| type MaxBound | |
Defined in Data.Singletons.Prelude.Enum type MaxBound = MaxBound_6989586621680111461Sym0 | |
| type MinBound | |
Defined in Data.Singletons.Prelude.Enum type MinBound = MinBound_6989586621680111452Sym0 | |
| type Sing | |
Defined in Data.Singletons.Prelude.Instances | |
| type Demote Ordering | |
Defined in Data.Singletons.Prelude.Instances | |
| type BitSize Ordering Source # | |
Defined in Clash.Class.BitPack.Internal | |
| type Mconcat (arg :: [Ordering]) | |
| type Show_ (arg :: Ordering) | |
| type Sconcat (arg :: NonEmpty Ordering) | |
| type FromEnum (a :: Ordering) | |
Defined in Data.Singletons.Prelude.Enum | |
| type ToEnum a | |
Defined in Data.Singletons.Prelude.Enum | |
| type Pred (arg :: Ordering) | |
| type Succ (arg :: Ordering) | |
| type 'LT <> (_b :: Ordering) | |
Defined in Fcf.Class.Monoid | |
| type 'EQ <> (b :: Ordering) | |
Defined in Fcf.Class.Monoid | |
| type 'GT <> (_b :: Ordering) | |
Defined in Fcf.Class.Monoid | |
| type (a :: Ordering) <> 'EQ | |
Defined in Fcf.Class.Monoid | |
| type Mappend (arg1 :: Ordering) (arg2 :: Ordering) | |
| type ShowList (arg1 :: [Ordering]) arg2 | |
| type (a1 :: Ordering) <> (a2 :: Ordering) | |
| type EnumFromTo (arg1 :: Ordering) (arg2 :: Ordering) | |
| type Min (arg1 :: Ordering) (arg2 :: Ordering) | |
| type Max (arg1 :: Ordering) (arg2 :: Ordering) | |
| type (arg1 :: Ordering) >= (arg2 :: Ordering) | |
| type (arg1 :: Ordering) > (arg2 :: Ordering) | |
| type (arg1 :: Ordering) <= (arg2 :: Ordering) | |
| type (arg1 :: Ordering) < (arg2 :: Ordering) | |
| type Compare (a1 :: Ordering) (a2 :: Ordering) | |
| type (x :: Ordering) /= (y :: Ordering) | |
| type (a :: Ordering) == (b :: Ordering) | |
Defined in Data.Singletons.Prelude.Eq | |
| type ShowsPrec a1 (a2 :: Ordering) a3 | |
| type EnumFromThenTo (arg1 :: Ordering) (arg2 :: Ordering) (arg3 :: Ordering) | |
| type Apply FromEnum_6989586621680145353Sym0 (a6989586621680145357 :: Ordering) | |
Defined in Data.Singletons.Prelude.Enum | |
| type Apply ToEnum_6989586621680145337Sym0 (a6989586621680145341 :: Nat) | |
Defined in Data.Singletons.Prelude.Enum | |
| type Apply (Compare_6989586621679858881Sym1 a6989586621679858886 :: TyFun Bool Ordering -> Type) (a6989586621679858887 :: Bool) | |
| type Apply (ThenCmpSym1 a6989586621679856060 :: TyFun Ordering Ordering -> Type) (a6989586621679856061 :: Ordering) | |
Defined in Data.Singletons.Prelude.Ord type Apply (ThenCmpSym1 a6989586621679856060 :: TyFun Ordering Ordering -> Type) (a6989586621679856061 :: Ordering) = ThenCmpSym2 a6989586621679856060 a6989586621679856061 | |
| type Apply (TFHelper_6989586621680245398Sym1 a6989586621680245403 :: TyFun Ordering Ordering -> Type) (a6989586621680245404 :: Ordering) | |
| type Apply (Compare_6989586621679858955Sym1 a6989586621679858960 :: TyFun Ordering Ordering -> Type) (a6989586621679858961 :: Ordering) | |
| type Apply (Compare_6989586621679859016Sym1 a6989586621679859021 :: TyFun () Ordering -> Type) (a6989586621679859022 :: ()) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679857644Sym1 a6989586621679857650 :: TyFun Void Ordering -> Type) (a6989586621679857651 :: Void) | |
| type Apply (Compare_6989586621680265460Sym1 a6989586621680265465 :: TyFun All Ordering -> Type) (a6989586621680265466 :: All) | |
| type Apply (Compare_6989586621680265477Sym1 a6989586621680265482 :: TyFun Any Ordering -> Type) (a6989586621680265483 :: Any) | |
| type Apply (Compare_6989586621679841620Sym1 a6989586621679841627 :: TyFun a Ordering -> Type) (a6989586621679841628 :: a) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (CompareSym1 a6989586621679841582 :: TyFun a Ordering -> Type) (a6989586621679841583 :: a) | |
Defined in Data.Singletons.Prelude.Ord type Apply (CompareSym1 a6989586621679841582 :: TyFun a Ordering -> Type) (a6989586621679841583 :: a) = CompareSym2 a6989586621679841582 a6989586621679841583 | |
| type Apply (Let6989586621679841714Scrutinee_6989586621679841448Sym1 x6989586621679841712 :: TyFun k1 Ordering -> Type) (y6989586621679841713 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Let6989586621679841698Scrutinee_6989586621679841446Sym1 x6989586621679841696 :: TyFun k1 Ordering -> Type) (y6989586621679841697 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Let6989586621679841679Scrutinee_6989586621679841444Sym1 x6989586621679841677 :: TyFun k1 Ordering -> Type) (y6989586621679841678 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Let6989586621679841658Scrutinee_6989586621679841441Sym1 x6989586621679841655 :: TyFun k1 Ordering -> Type) (y6989586621679841657 :: k1) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (ComparingSym2 a6989586621679841567 a6989586621679841568 :: TyFun b Ordering -> Type) (a6989586621679841569 :: b) | |
Defined in Data.Singletons.Prelude.Ord type Apply (ComparingSym2 a6989586621679841567 a6989586621679841568 :: TyFun b Ordering -> Type) (a6989586621679841569 :: b) = ComparingSym3 a6989586621679841567 a6989586621679841568 a6989586621679841569 | |
| type Apply Compare_6989586621679858881Sym0 (a6989586621679858886 :: Bool) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply ThenCmpSym0 (a6989586621679856060 :: Ordering) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply TFHelper_6989586621680245398Sym0 (a6989586621680245403 :: Ordering) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply Compare_6989586621679858955Sym0 (a6989586621679858960 :: Ordering) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply ShowsPrec_6989586621680667244Sym0 (a6989586621680667260 :: Nat) | |
Defined in Data.Singletons.Prelude.Show | |
| type Apply Compare_6989586621679859016Sym0 (a6989586621679859021 :: ()) | |
Defined in Data.Singletons.Prelude.Ord type Apply Compare_6989586621679859016Sym0 (a6989586621679859021 :: ()) = Compare_6989586621679859016Sym1 a6989586621679859021 | |
| type Apply Compare_6989586621679857644Sym0 (a6989586621679857650 :: Void) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply Compare_6989586621680265460Sym0 (a6989586621680265465 :: All) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply Compare_6989586621680265477Sym0 (a6989586621680265482 :: Any) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| type Apply (ShowsPrec_6989586621680667244Sym1 a6989586621680667260 :: TyFun Ordering (Symbol ~> Symbol) -> Type) (a6989586621680667261 :: Ordering) | |
| type Apply (Compare_6989586621679841620Sym0 :: TyFun a (a ~> Ordering) -> Type) (a6989586621679841627 :: a) | |
| type Apply (CompareSym0 :: TyFun a (a ~> Ordering) -> Type) (a6989586621679841582 :: a) | |
Defined in Data.Singletons.Prelude.Ord type Apply (CompareSym0 :: TyFun a (a ~> Ordering) -> Type) (a6989586621679841582 :: a) = CompareSym1 a6989586621679841582 | |
| type Apply (Let6989586621679841714Scrutinee_6989586621679841448Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) (x6989586621679841712 :: k1) | |
| type Apply (Let6989586621679841698Scrutinee_6989586621679841446Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) (x6989586621679841696 :: k1) | |
| type Apply (Let6989586621679841679Scrutinee_6989586621679841444Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) (x6989586621679841677 :: k1) | |
| type Apply (Let6989586621679841658Scrutinee_6989586621679841441Sym0 :: TyFun k1 (TyFun k1 Ordering -> Type) -> Type) (x6989586621679841655 :: k1) | |
| type Apply (ComparingSym1 a6989586621679841567 :: TyFun b (b ~> Ordering) -> Type) (a6989586621679841568 :: b) | |
Defined in Data.Singletons.Prelude.Ord type Apply (ComparingSym1 a6989586621679841567 :: TyFun b (b ~> Ordering) -> Type) (a6989586621679841568 :: b) = ComparingSym2 a6989586621679841567 a6989586621679841568 | |
| type Apply (Compare_6989586621679857286Sym1 a6989586621679857291 :: TyFun [a] Ordering -> Type) (a6989586621679857292 :: [a]) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679857192Sym1 a6989586621679857198 :: TyFun (Maybe a) Ordering -> Type) (a6989586621679857199 :: Maybe a) | |
| type Apply (Compare_6989586621680265537Sym1 a6989586621680265542 :: TyFun (Min a) Ordering -> Type) (a6989586621680265543 :: Min a) | |
| type Apply (Compare_6989586621680265557Sym1 a6989586621680265562 :: TyFun (Max a) Ordering -> Type) (a6989586621680265563 :: Max a) | |
| type Apply (Compare_6989586621680265577Sym1 a6989586621680265582 :: TyFun (First a) Ordering -> Type) (a6989586621680265583 :: First a) | |
| type Apply (Compare_6989586621680265597Sym1 a6989586621680265602 :: TyFun (Last a) Ordering -> Type) (a6989586621680265603 :: Last a) | |
| type Apply (Compare_6989586621680265617Sym1 a6989586621680265622 :: TyFun (WrappedMonoid m) Ordering -> Type) (a6989586621680265623 :: WrappedMonoid m) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal type Apply (Compare_6989586621680265617Sym1 a6989586621680265622 :: TyFun (WrappedMonoid m) Ordering -> Type) (a6989586621680265623 :: WrappedMonoid m) = Compare_6989586621680265617Sym2 a6989586621680265622 a6989586621680265623 | |
| type Apply (Compare_6989586621680265423Sym1 a6989586621680265428 :: TyFun (Option a) Ordering -> Type) (a6989586621680265429 :: Option a) | |
| type Apply (Compare_6989586621679858803Sym1 a6989586621679858809 :: TyFun (Identity a) Ordering -> Type) (a6989586621679858810 :: Identity a) | |
| type Apply (Compare_6989586621680739927Sym1 a6989586621680739932 :: TyFun (First a) Ordering -> Type) (a6989586621680739933 :: First a) | |
| type Apply (Compare_6989586621680739947Sym1 a6989586621680739952 :: TyFun (Last a) Ordering -> Type) (a6989586621680739953 :: Last a) | |
| type Apply (Compare_6989586621680265443Sym1 a6989586621680265448 :: TyFun (Dual a) Ordering -> Type) (a6989586621680265449 :: Dual a) | |
| type Apply (Compare_6989586621680265497Sym1 a6989586621680265502 :: TyFun (Sum a) Ordering -> Type) (a6989586621680265503 :: Sum a) | |
| type Apply (Compare_6989586621680265517Sym1 a6989586621680265522 :: TyFun (Product a) Ordering -> Type) (a6989586621680265523 :: Product a) | |
| type Apply (Compare_6989586621679854635Sym1 a6989586621679854640 :: TyFun (Down a) Ordering -> Type) (a6989586621679854641 :: Down a) | |
| type Apply (Compare_6989586621679857547Sym1 a6989586621679857553 :: TyFun (NonEmpty a) Ordering -> Type) (a6989586621679857554 :: NonEmpty a) | |
| type Apply (Compare_6989586621679857286Sym0 :: TyFun [a] ([a] ~> Ordering) -> Type) (a6989586621679857291 :: [a]) | |
| type Apply (Compare_6989586621679857192Sym0 :: TyFun (Maybe a) (Maybe a ~> Ordering) -> Type) (a6989586621679857198 :: Maybe a) | |
| type Apply (Compare_6989586621680265537Sym0 :: TyFun (Min a) (Min a ~> Ordering) -> Type) (a6989586621680265542 :: Min a) | |
| type Apply (Compare_6989586621680265557Sym0 :: TyFun (Max a) (Max a ~> Ordering) -> Type) (a6989586621680265562 :: Max a) | |
| type Apply (Compare_6989586621680265577Sym0 :: TyFun (First a) (First a ~> Ordering) -> Type) (a6989586621680265582 :: First a) | |
| type Apply (Compare_6989586621680265597Sym0 :: TyFun (Last a) (Last a ~> Ordering) -> Type) (a6989586621680265602 :: Last a) | |
| type Apply (Compare_6989586621680265617Sym0 :: TyFun (WrappedMonoid m) (WrappedMonoid m ~> Ordering) -> Type) (a6989586621680265622 :: WrappedMonoid m) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal type Apply (Compare_6989586621680265617Sym0 :: TyFun (WrappedMonoid m) (WrappedMonoid m ~> Ordering) -> Type) (a6989586621680265622 :: WrappedMonoid m) = Compare_6989586621680265617Sym1 a6989586621680265622 | |
| type Apply (Compare_6989586621680265423Sym0 :: TyFun (Option a) (Option a ~> Ordering) -> Type) (a6989586621680265428 :: Option a) | |
| type Apply (Compare_6989586621679858803Sym0 :: TyFun (Identity a) (Identity a ~> Ordering) -> Type) (a6989586621679858809 :: Identity a) | |
| type Apply (Compare_6989586621680739927Sym0 :: TyFun (First a) (First a ~> Ordering) -> Type) (a6989586621680739932 :: First a) | |
| type Apply (Compare_6989586621680739947Sym0 :: TyFun (Last a) (Last a ~> Ordering) -> Type) (a6989586621680739952 :: Last a) | |
| type Apply (Compare_6989586621680265443Sym0 :: TyFun (Dual a) (Dual a ~> Ordering) -> Type) (a6989586621680265448 :: Dual a) | |
| type Apply (Compare_6989586621680265497Sym0 :: TyFun (Sum a) (Sum a ~> Ordering) -> Type) (a6989586621680265502 :: Sum a) | |
| type Apply (Compare_6989586621680265517Sym0 :: TyFun (Product a) (Product a ~> Ordering) -> Type) (a6989586621680265522 :: Product a) | |
| type Apply (Compare_6989586621679854635Sym0 :: TyFun (Down a) (Down a ~> Ordering) -> Type) (a6989586621679854640 :: Down a) | |
| type Apply (Compare_6989586621679857547Sym0 :: TyFun (NonEmpty a) (NonEmpty a ~> Ordering) -> Type) (a6989586621679857553 :: NonEmpty a) | |
| type Apply (Compare_6989586621679857425Sym1 a6989586621679857432 :: TyFun (Either a b) Ordering -> Type) (a6989586621679857434 :: Either a b) | |
| type Apply (Compare_6989586621679857697Sym1 a6989586621679857702 :: TyFun (a, b) Ordering -> Type) (a6989586621679857703 :: (a, b)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621681233394Sym1 a6989586621681233399 :: TyFun (Arg a b) Ordering -> Type) (a6989586621681233400 :: Arg a b) | |
| type Apply (Compare_6989586621680794745Sym1 a6989586621680794750 :: TyFun (Proxy s) Ordering -> Type) (a6989586621680794751 :: Proxy s) | |
| type Apply (ListsortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) (a6989586621680645819 :: a ~> (a ~> Ordering)) | |
| type Apply (InsertBySym0 :: TyFun (a ~> (a ~> Ordering)) (a ~> ([a] ~> [a])) -> Type) (a6989586621680384327 :: a ~> (a ~> Ordering)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (SortBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> [a]) -> Type) (a6989586621680384347 :: a ~> (a ~> Ordering)) | |
Defined in Data.Singletons.Prelude.List.Internal | |
| type Apply (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) (a6989586621680384305 :: a ~> (a ~> Ordering)) | |
| type Apply (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) ([a] ~> a) -> Type) (a6989586621680384284 :: a ~> (a ~> Ordering)) | |
| type Apply (Compare_6989586621679857425Sym0 :: TyFun (Either a b) (Either a b ~> Ordering) -> Type) (a6989586621679857432 :: Either a b) | |
| type Apply (Compare_6989586621679857697Sym0 :: TyFun (a, b) ((a, b) ~> Ordering) -> Type) (a6989586621679857702 :: (a, b)) | |
| type Apply (Compare_6989586621681233394Sym0 :: TyFun (Arg a b) (Arg a b ~> Ordering) -> Type) (a6989586621681233399 :: Arg a b) | |
| type Apply (Compare_6989586621680794745Sym0 :: TyFun (Proxy s) (Proxy s ~> Ordering) -> Type) (a6989586621680794750 :: Proxy s) | |
| type Apply (Let6989586621680811962Min'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) (cmp6989586621680811960 :: k1 ~> (k1 ~> Ordering)) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680811962Min'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) (cmp6989586621680811960 :: k1 ~> (k1 ~> Ordering)) = Let6989586621680811962Min'Sym1 cmp6989586621680811960 :: TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680811982Max'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) (cmp6989586621680811980 :: k1 ~> (k1 ~> Ordering)) | |
Defined in Data.Singletons.Prelude.Foldable type Apply (Let6989586621680811982Max'Sym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) (cmp6989586621680811980 :: k1 ~> (k1 ~> Ordering)) = Let6989586621680811982Max'Sym1 cmp6989586621680811980 :: TyFun k2 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type | |
| type Apply (MaximumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) (a6989586621680811978 :: a ~> (a ~> Ordering)) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (MinimumBySym0 :: TyFun (a ~> (a ~> Ordering)) (t a ~> a) -> Type) (a6989586621680811958 :: a ~> (a ~> Ordering)) | |
Defined in Data.Singletons.Prelude.Foldable | |
| type Apply (ComparingSym0 :: TyFun (b ~> a) (b ~> (b ~> Ordering)) -> Type) (a6989586621679841567 :: b ~> a) | |
Defined in Data.Singletons.Prelude.Ord type Apply (ComparingSym0 :: TyFun (b ~> a) (b ~> (b ~> Ordering)) -> Type) (a6989586621679841567 :: b ~> a) = ComparingSym1 a6989586621679841567 | |
| type Apply (Let6989586621680384291MinBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) (cmp6989586621680384286 :: k1 ~> (k1 ~> Ordering)) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384291MinBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) (cmp6989586621680384286 :: k1 ~> (k1 ~> Ordering)) = Let6989586621680384291MinBySym1 cmp6989586621680384286 :: TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type | |
| type Apply (Let6989586621680384312MaxBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) (cmp6989586621680384307 :: k1 ~> (k1 ~> Ordering)) | |
Defined in Data.Singletons.Prelude.List.Internal type Apply (Let6989586621680384312MaxBySym0 :: TyFun (k1 ~> (k1 ~> Ordering)) (TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type) -> Type) (cmp6989586621680384307 :: k1 ~> (k1 ~> Ordering)) = Let6989586621680384312MaxBySym1 cmp6989586621680384307 :: TyFun k2 (TyFun k3 (TyFun k1 (TyFun k1 k1 -> Type) -> Type) -> Type) -> Type | |
| type Apply (Compare_6989586621679857796Sym1 a6989586621679857802 :: TyFun (a, b, c) Ordering -> Type) (a6989586621679857803 :: (a, b, c)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621681010380Sym1 a6989586621681010385 :: TyFun (Const a b) Ordering -> Type) (a6989586621681010386 :: Const a b) | |
| type Apply (Compare_6989586621679857796Sym0 :: TyFun (a, b, c) ((a, b, c) ~> Ordering) -> Type) (a6989586621679857802 :: (a, b, c)) | |
| type Apply (Compare_6989586621681010380Sym0 :: TyFun (Const a b) (Const a b ~> Ordering) -> Type) (a6989586621681010385 :: Const a b) | |
| type Apply (Compare_6989586621679857910Sym1 a6989586621679857915 :: TyFun (a, b, c, d) Ordering -> Type) (a6989586621679857916 :: (a, b, c, d)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679857910Sym0 :: TyFun (a, b, c, d) ((a, b, c, d) ~> Ordering) -> Type) (a6989586621679857915 :: (a, b, c, d)) | |
| type Apply (Compare_6989586621679858121Sym1 a6989586621679858128 :: TyFun (a, b, c, d, e) Ordering -> Type) (a6989586621679858129 :: (a, b, c, d, e)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679858121Sym0 :: TyFun (a, b, c, d, e) ((a, b, c, d, e) ~> Ordering) -> Type) (a6989586621679858128 :: (a, b, c, d, e)) | |
| type Apply (Compare_6989586621679858341Sym1 a6989586621679858346 :: TyFun (a, b, c, d, e, f) Ordering -> Type) (a6989586621679858347 :: (a, b, c, d, e, f)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679858341Sym0 :: TyFun (a, b, c, d, e, f) ((a, b, c, d, e, f) ~> Ordering) -> Type) (a6989586621679858346 :: (a, b, c, d, e, f)) | |
| type Apply (Compare_6989586621679858616Sym1 a6989586621679858622 :: TyFun (a, b, c, d, e, f, g) Ordering -> Type) (a6989586621679858623 :: (a, b, c, d, e, f, g)) | |
Defined in Data.Singletons.Prelude.Ord | |
| type Apply (Compare_6989586621679858616Sym0 :: TyFun (a, b, c, d, e, f, g) ((a, b, c, d, e, f, g) ~> Ordering) -> Type) (a6989586621679858622 :: (a, b, c, d, e, f, g)) | |
A value of type IO aa.
There is really only one way to "perform" an I/O action: bind it to
Main.main in your program. When your program is run, the I/O will
be performed. It isn't possible to perform I/O from an arbitrary
function, unless that function is itself in the IO monad and called
at some point, directly or indirectly, from Main.main.
IO is a monad, so IO actions can be combined using either the do-notation
or the >> and >>= operations from the Monad
class.
Instances
Instances
The Either type represents values with two possibilities: a value of
type Either a bLeft aRight b
The Either type is sometimes used to represent a value which is
either correct or an error; by convention, the Left constructor is
used to hold an error value and the Right constructor is used to
hold a correct value (mnemonic: "right" also means "correct").
Examples
The type Either String IntString or an Int. The Left constructor can be used only on
Strings, and the Right constructor can be used only on Ints:
>>>let s = Left "foo" :: Either String Int>>>sLeft "foo">>>let n = Right 3 :: Either String Int>>>nRight 3>>>:type ss :: Either String Int>>>:type nn :: Either String Int
The fmap from our Functor instance will ignore Left values, but
will apply the supplied function to values contained in a Right:
>>>let s = Left "foo" :: Either String Int>>>let n = Right 3 :: Either String Int>>>fmap (*2) sLeft "foo">>>fmap (*2) nRight 6
The Monad instance for Either allows us to chain together multiple
actions which may fail, and fail overall if any of the individual
steps failed. First we'll write a function that can either parse an
Int from a Char, or fail.
>>>import Data.Char ( digitToInt, isDigit )>>>:{let parseEither :: Char -> Either String Int parseEither c | isDigit c = Right (digitToInt c) | otherwise = Left "parse error">>>:}
The following should work, since both '1' and '2' can be
parsed as Ints.
>>>:{let parseMultiple :: Either String Int parseMultiple = do x <- parseEither '1' y <- parseEither '2' return (x + y)>>>:}
>>>parseMultipleRight 3
But the following should fail overall, since the first operation where
we attempt to parse 'm' as an Int will fail:
>>>:{let parseMultiple :: Either String Int parseMultiple = do x <- parseEither 'm' y <- parseEither '2' return (x + y)>>>:}
>>>parseMultipleLeft "parse error"
Instances
| Arbitrary2 Either | |
Defined in Test.QuickCheck.Arbitrary Methods liftArbitrary2 :: Gen a -> Gen b -> Gen (Either a b) # liftShrink2 :: (a -> [a]) -> (b -> [b]) -> Either a b -> [Either a b] # | |
| Bifunctor Either | Since: base-4.8.0.0 |
| Bitraversable Either | Since: base-4.10.0.0 |
Defined in Data.Bitraversable Methods bitraverse :: Applicative f => (a -> f c) -> (b -> f d) -> Either a b -> f (Either c d) # | |
| Bifoldable Either | Since: base-4.10.0.0 |
| Eq2 Either | Since: base-4.9.0.0 |
| Ord2 Either | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
| Read2 Either | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes Methods liftReadsPrec2 :: (Int -> ReadS a) -> ReadS [a] -> (Int -> ReadS b) -> ReadS [b] -> Int -> ReadS (Either a b) # liftReadList2 :: (Int -> ReadS a) -> ReadS [a] -> (Int -> ReadS b) -> ReadS [b] -> ReadS [Either a b] # liftReadPrec2 :: ReadPrec a -> ReadPrec [a] -> ReadPrec b -> ReadPrec [b] -> ReadPrec (Either a b) # liftReadListPrec2 :: ReadPrec a -> ReadPrec [a] -> ReadPrec b -> ReadPrec [b] -> ReadPrec [Either a b] # | |
| Show2 Either | Since: base-4.9.0.0 |
| NFData2 Either | Since: deepseq-1.4.3.0 |
Defined in Control.DeepSeq | |
| Hashable2 Either | |
Defined in Data.Hashable.Class | |
| Bitraversable1 Either | |
Defined in Data.Semigroup.Traversable.Class Methods bitraverse1 :: Apply f => (a -> f b) -> (c -> f d) -> Either a c -> f (Either b d) # bisequence1 :: Apply f => Either (f a) (f b) -> f (Either a b) # | |
| () :=> (Monad (Either a)) | |
| () :=> (Functor (Either a)) | |
| () :=> (Applicative (Either a)) | |
Defined in Data.Constraint Methods ins :: () :- Applicative (Either a) # | |
| (Lift a, Lift b) => Lift (Either a b :: Type) | |
| Monad (Either e) | Since: base-4.4.0.0 |
| Functor (Either a) | Since: base-3.0 |
| Applicative (Either e) | Since: base-3.0 |
| Foldable (Either a) | Since: base-4.7.0.0 |
Defined in Data.Foldable Methods fold :: Monoid m => Either a m -> m # foldMap :: Monoid m => (a0 -> m) -> Either a a0 -> m # foldMap' :: Monoid m => (a0 -> m) -> Either a a0 -> m # foldr :: (a0 -> b -> b) -> b -> Either a a0 -> b # foldr' :: (a0 -> b -> b) -> b -> Either a a0 -> b # foldl :: (b -> a0 -> b) -> b -> Either a a0 -> b # foldl' :: (b -> a0 -> b) -> b -> Either a a0 -> b # foldr1 :: (a0 -> a0 -> a0) -> Either a a0 -> a0 # foldl1 :: (a0 -> a0 -> a0) -> Either a a0 -> a0 # toList :: Either a a0 -> [a0] # length :: Either a a0 -> Int # elem :: Eq a0 => a0 -> Either a a0 -> Bool # maximum :: Ord a0 => Either a a0 -> a0 # minimum :: Ord a0 => Either a a0 -> a0 # | |
| Traversable (Either a) | Since: base-4.7.0.0 |
Defined in Data.Traversable | |
| Arbitrary a => Arbitrary1 (Either a) | |
Defined in Test.QuickCheck.Arbitrary Methods liftArbitrary :: Gen a0 -> Gen (Either a a0) # liftShrink :: (a0 -> [a0]) -> Either a a0 -> [Either a a0] # | |
| Eq a => Eq1 (Either a) | Since: base-4.9.0.0 |
| Ord a => Ord1 (Either a) | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
| Read a => Read1 (Either a) | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes Methods liftReadsPrec :: (Int -> ReadS a0) -> ReadS [a0] -> Int -> ReadS (Either a a0) # liftReadList :: (Int -> ReadS a0) -> ReadS [a0] -> ReadS [Either a a0] # liftReadPrec :: ReadPrec a0 -> ReadPrec [a0] -> ReadPrec (Either a a0) # liftReadListPrec :: ReadPrec a0 -> ReadPrec [a0] -> ReadPrec [Either a a0] # | |
| Show a => Show1 (Either a) | Since: base-4.9.0.0 |
| NFData a => NFData1 (Either a) | Since: deepseq-1.4.3.0 |
Defined in Control.DeepSeq | |
| Hashable a => Hashable1 (Either a) | |
Defined in Data.Hashable.Class | |
| PTraversable (Either a) | |
| STraversable (Either a) | |
Defined in Data.Singletons.Prelude.Traversable Methods sTraverse :: forall a0 (f :: Type -> Type) b (t1 :: a0 ~> f b) (t2 :: Either a a0). SApplicative f => Sing t1 -> Sing t2 -> Sing (Apply (Apply TraverseSym0 t1) t2) # sSequenceA :: forall (f :: Type -> Type) a0 (t1 :: Either a (f a0)). SApplicative f => Sing t1 -> Sing (Apply SequenceASym0 t1) # sMapM :: forall a0 (m :: Type -> Type) b (t1 :: a0 ~> m b) (t2 :: Either a a0). SMonad m => Sing t1 -> Sing t2 -> Sing (Apply (Apply MapMSym0 t1) t2) # sSequence :: forall (m :: Type -> Type) a0 (t1 :: Either a (m a0)). SMonad m => Sing t1 -> Sing (Apply SequenceSym0 t1) # | |
| PFoldable (Either a) | |
| SFoldable (Either a) | |
Defined in Data.Singletons.Prelude.Foldable Methods sFold :: forall m (t1 :: Either a m). SMonoid m => Sing t1 -> Sing (Apply FoldSym0 t1) # sFoldMap :: forall a0 m (t1 :: a0 ~> m) (t2 :: Either a a0). SMonoid m => Sing t1 -> Sing t2 -> Sing (Apply (Apply FoldMapSym0 t1) t2) # sFoldr :: forall a0 b (t1 :: a0 ~> (b ~> b)) (t2 :: b) (t3 :: Either a a0). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply FoldrSym0 t1) t2) t3) # sFoldr' :: forall a0 b (t1 :: a0 ~> (b ~> b)) (t2 :: b) (t3 :: Either a a0). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply Foldr'Sym0 t1) t2) t3) # sFoldl :: forall b a0 (t1 :: b ~> (a0 ~> b)) (t2 :: b) (t3 :: Either a a0). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply FoldlSym0 t1) t2) t3) # sFoldl' :: forall b a0 (t1 :: b ~> (a0 ~> b)) (t2 :: b) (t3 :: Either a a0). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply Foldl'Sym0 t1) t2) t3) # sFoldr1 :: forall a0 (t1 :: a0 ~> (a0 ~> a0)) (t2 :: Either a a0). Sing t1 -> Sing t2 -> Sing (Apply (Apply Foldr1Sym0 t1) t2) # sFoldl1 :: forall a0 (t1 :: a0 ~> (a0 ~> a0)) (t2 :: Either a a0). Sing t1 -> Sing t2 -> Sing (Apply (Apply Foldl1Sym0 t1) t2) # sToList :: forall a0 (t1 :: Either a a0). Sing t1 -> Sing (Apply ToListSym0 t1) # sNull :: forall a0 (t1 :: Either a a0). Sing t1 -> Sing (Apply NullSym0 t1) # sLength :: forall a0 (t1 :: Either a a0). Sing t1 -> Sing (Apply LengthSym0 t1) # sElem :: forall a0 (t1 :: a0) (t2 :: Either a a0). SEq a0 => Sing t1 -> Sing t2 -> Sing (Apply (Apply ElemSym0 t1) t2) # sMaximum :: forall a0 (t1 :: Either a a0). SOrd a0 => Sing t1 -> Sing (Apply MaximumSym0 t1) # sMinimum :: forall a0 (t1 :: Either a a0). SOrd a0 => Sing t1 -> Sing (Apply MinimumSym0 t1) # sSum :: forall a0 (t1 :: Either a a0). SNum a0 => Sing t1 -> Sing (Apply SumSym0 t1) # sProduct :: forall a0 (t1 :: Either a a0). SNum a0 => Sing t1 -> Sing (Apply ProductSym0 t1) # | |
| PFunctor (Either a) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| PApplicative (Either e) | |
| PMonad (Either e) | |
| SFunctor (Either a) | |
| SApplicative (Either e) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods sPure :: forall a (t :: a). Sing t -> Sing (Apply PureSym0 t) # (%<*>) :: forall a b (t1 :: Either e (a ~> b)) (t2 :: Either e a). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<*>@#@$) t1) t2) # sLiftA2 :: forall a b c (t1 :: a ~> (b ~> c)) (t2 :: Either e a) (t3 :: Either e b). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply LiftA2Sym0 t1) t2) t3) # (%*>) :: forall a b (t1 :: Either e a) (t2 :: Either e b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (*>@#@$) t1) t2) # (%<*) :: forall a b (t1 :: Either e a) (t2 :: Either e b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<*@#@$) t1) t2) # | |
| SMonad (Either e) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods (%>>=) :: forall a b (t1 :: Either e a) (t2 :: a ~> Either e b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>>=@#@$) t1) t2) # (%>>) :: forall a b (t1 :: Either e a) (t2 :: Either e b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>>@#@$) t1) t2) # sReturn :: forall a (t :: a). Sing t -> Sing (Apply ReturnSym0 t) # | |
| Generic1 (Either a :: Type -> Type) | Since: base-4.6.0.0 |
| (Eq a, Eq b) => Eq (Either a b) | Since: base-2.1 |
| (Data a, Data b) => Data (Either a b) | Since: base-4.0.0.0 |
Defined in Data.Data Methods gfoldl :: (forall d b0. Data d => c (d -> b0) -> d -> c b0) -> (forall g. g -> c g) -> Either a b -> c (Either a b) # gunfold :: (forall b0 r. Data b0 => c (b0 -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Either a b) # toConstr :: Either a b -> Constr # dataTypeOf :: Either a b -> DataType # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Either a b)) # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Either a b)) # gmapT :: (forall b0. Data b0 => b0 -> b0) -> Either a b -> Either a b # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Either a b -> r # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Either a b -> r # gmapQ :: (forall d. Data d => d -> u) -> Either a b -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> Either a b -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Either a b -> m (Either a b) # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Either a b -> m (Either a b) # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Either a b -> m (Either a b) # | |
| (Ord a, Ord b) => Ord (Either a b) | Since: base-2.1 |
| (Read a, Read b) => Read (Either a b) | Since: base-3.0 |
| (Show a, Show b) => Show (Either a b) | Since: base-3.0 |
| Generic (Either a b) | Since: base-4.6.0.0 |
| Semigroup (Either a b) | Since: base-4.9.0.0 |
| (Arbitrary a, Arbitrary b) => Arbitrary (Either a b) | |
| (CoArbitrary a, CoArbitrary b) => CoArbitrary (Either a b) | |
Defined in Test.QuickCheck.Arbitrary Methods coarbitrary :: Either a b -> Gen b0 -> Gen b0 # | |
| (Binary a, Binary b) => Binary (Either a b) | |
| (NFData a, NFData b) => NFData (Either a b) | |
Defined in Control.DeepSeq | |
| (Hashable a, Hashable b) => Hashable (Either a b) | |
Defined in Data.Hashable.Class | |
| Recursive (Either a b) | |
Defined in Data.Functor.Foldable Methods project :: Either a b -> Base (Either a b) (Either a b) # cata :: (Base (Either a b) a0 -> a0) -> Either a b -> a0 # para :: (Base (Either a b) (Either a b, a0) -> a0) -> Either a b -> a0 # gpara :: (Corecursive (Either a b), Comonad w) => (forall b0. Base (Either a b) (w b0) -> w (Base (Either a b) b0)) -> (Base (Either a b) (EnvT (Either a b) w a0) -> a0) -> Either a b -> a0 # prepro :: Corecursive (Either a b) => (forall b0. Base (Either a b) b0 -> Base (Either a b) b0) -> (Base (Either a b) a0 -> a0) -> Either a b -> a0 # gprepro :: (Corecursive (Either a b), Comonad w) => (forall b0. Base (Either a b) (w b0) -> w (Base (Either a b) b0)) -> (forall c. Base (Either a b) c -> Base (Either a b) c) -> (Base (Either a b) (w a0) -> a0) -> Either a b -> a0 # | |
| Corecursive (Either a b) | |
Defined in Data.Functor.Foldable Methods embed :: Base (Either a b) (Either a b) -> Either a b # ana :: (a0 -> Base (Either a b) a0) -> a0 -> Either a b # apo :: (a0 -> Base (Either a b) (Either (Either a b) a0)) -> a0 -> Either a b # postpro :: Recursive (Either a b) => (forall b0. Base (Either a b) b0 -> Base (Either a b) b0) -> (a0 -> Base (Either a b) a0) -> a0 -> Either a b # gpostpro :: (Recursive (Either a b), Monad m) => (forall b0. m (Base (Either a b) b0) -> Base (Either a b) (m b0)) -> (forall c. Base (Either a b) c -> Base (Either a b) c) -> (a0 -> Base (Either a b) (m a0)) -> a0 -> Either a b # | |
| PShow (Either a b) | |
| (SShow a, SShow b) => SShow (Either a b) | |
Defined in Data.Singletons.Prelude.Show Methods sShowsPrec :: forall (t1 :: Nat) (t2 :: Either a b) (t3 :: Symbol). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply ShowsPrecSym0 t1) t2) t3) # sShow_ :: forall (t :: Either a b). Sing t -> Sing (Apply Show_Sym0 t) # sShowList :: forall (t1 :: [Either a b]) (t2 :: Symbol). Sing t1 -> Sing t2 -> Sing (Apply (Apply ShowListSym0 t1) t2) # | |
| PSemigroup (Either a b) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal | |
| SSemigroup (Either a b) | |
| POrd (Either a b) | |
| (SOrd a, SOrd b) => SOrd (Either a b) | |
Defined in Data.Singletons.Prelude.Ord Methods sCompare :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply CompareSym0 t1) t2) # (%<) :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<@#@$) t1) t2) # (%<=) :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (<=@#@$) t1) t2) # (%>) :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>@#@$) t1) t2) # (%>=) :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply (>=@#@$) t1) t2) # sMax :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply MaxSym0 t1) t2) # sMin :: forall (t1 :: Either a b) (t2 :: Either a b). Sing t1 -> Sing t2 -> Sing (Apply (Apply MinSym0 t1) t2) # | |
| (SEq a, SEq b) => SEq (Either a b) | |
| PEq (Either a b) | |
| (NFDataX a, NFDataX b) => NFDataX (Either a b) Source # | |
Defined in Clash.XException | |
| (ShowX a, ShowX b) => ShowX (Either a b) Source # | |
| (BitPack a, BitPack b) => BitPack (Either a b) Source # | |
| Bundle (Either a b) Source # | |
Defined in Clash.Signal.Bundle | |
| Bundle (Either a b) Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| (Counter a, Counter b) => Counter (Either a b) Source # | Counter instance that flip-flops between
|
| (Eq a, Eq b) :=> (Eq (Either a b)) | |
| (Ord a, Ord b) :=> (Ord (Either a b)) | |
| (Read a, Read b) :=> (Read (Either a b)) | |
| (Show a, Show b) :=> (Show (Either a b)) | |
| (SDecide a, SDecide b) => TestCoercion (SEither :: Either a b -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| (SDecide a, SDecide b) => TestEquality (SEither :: Either a b -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| SuppressUnusedWarnings (RightsSym0 :: TyFun [Either a b] [b] -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (PartitionEithersSym0 :: TyFun [Either a b] ([a], [b]) -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LeftsSym0 :: TyFun [Either a b] [a] -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsRightSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Null_6989586621680812821Sym0 :: TyFun (Either a1 a2) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Length_6989586621680812815Sym0 :: TyFun (Either a1 a2) Nat -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857425Sym0 :: TyFun (Either a b) (Either a b ~> Ordering) -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680245421Sym0 :: TyFun (Either a b) (Either a b ~> Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680666968Sym0 :: TyFun Nat (Either a b ~> (Symbol ~> Symbol)) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Pure_6989586621679962625Sym0 :: TyFun a (Either e a) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (RightSym0 :: TyFun b (Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Instances Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (LeftSym0 :: TyFun a (Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Instances Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Let6989586621680245430ASym0 :: TyFun k1 (Either a k1) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SingI (RightsSym0 :: TyFun [Either a b] [b] -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing RightsSym0 # | |
| SingI (PartitionEithersSym0 :: TyFun [Either a b] ([a], [b]) -> Type) | |
Defined in Data.Singletons.Prelude.Either | |
| SingI (LeftsSym0 :: TyFun [Either a b] [a] -> Type) | |
Defined in Data.Singletons.Prelude.Either | |
| SingI (IsRightSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing IsRightSym0 # | |
| SingI (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing IsLeftSym0 # | |
| SingI (RightSym0 :: TyFun b (Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| SingI (LeftSym0 :: TyFun a (Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Instances | |
| (a ~ a', b ~ b') => Each (Either a a') (Either b b') a b |
Since: lens-4.18 |
| (FunctorWithIndex i f, FunctorWithIndex j g) => FunctorWithIndex (Either i j) (Sum f g) | |
| (FunctorWithIndex i f, FunctorWithIndex j g) => FunctorWithIndex (Either i j) (Product f g) | |
| (FunctorWithIndex i f, FunctorWithIndex j g) => FunctorWithIndex (Either i j) (f :+: g) | |
| (FunctorWithIndex i f, FunctorWithIndex j g) => FunctorWithIndex (Either i j) (f :*: g) | |
| (FoldableWithIndex i f, FoldableWithIndex j g) => FoldableWithIndex (Either i j) (Sum f g) | |
Defined in WithIndex Methods ifoldMap :: Monoid m => (Either i j -> a -> m) -> Sum f g a -> m # ifoldMap' :: Monoid m => (Either i j -> a -> m) -> Sum f g a -> m # ifoldr :: (Either i j -> a -> b -> b) -> b -> Sum f g a -> b # ifoldl :: (Either i j -> b -> a -> b) -> b -> Sum f g a -> b # ifoldr' :: (Either i j -> a -> b -> b) -> b -> Sum f g a -> b # ifoldl' :: (Either i j -> b -> a -> b) -> b -> Sum f g a -> b # | |
| (FoldableWithIndex i f, FoldableWithIndex j g) => FoldableWithIndex (Either i j) (Product f g) | |
Defined in WithIndex Methods ifoldMap :: Monoid m => (Either i j -> a -> m) -> Product f g a -> m # ifoldMap' :: Monoid m => (Either i j -> a -> m) -> Product f g a -> m # ifoldr :: (Either i j -> a -> b -> b) -> b -> Product f g a -> b # ifoldl :: (Either i j -> b -> a -> b) -> b -> Product f g a -> b # ifoldr' :: (Either i j -> a -> b -> b) -> b -> Product f g a -> b # ifoldl' :: (Either i j -> b -> a -> b) -> b -> Product f g a -> b # | |
| (FoldableWithIndex i f, FoldableWithIndex j g) => FoldableWithIndex (Either i j) (f :+: g) | |
Defined in WithIndex Methods ifoldMap :: Monoid m => (Either i j -> a -> m) -> (f :+: g) a -> m # ifoldMap' :: Monoid m => (Either i j -> a -> m) -> (f :+: g) a -> m # ifoldr :: (Either i j -> a -> b -> b) -> b -> (f :+: g) a -> b # ifoldl :: (Either i j -> b -> a -> b) -> b -> (f :+: g) a -> b # ifoldr' :: (Either i j -> a -> b -> b) -> b -> (f :+: g) a -> b # ifoldl' :: (Either i j -> b -> a -> b) -> b -> (f :+: g) a -> b # | |
| (FoldableWithIndex i f, FoldableWithIndex j g) => FoldableWithIndex (Either i j) (f :*: g) | |
Defined in WithIndex Methods ifoldMap :: Monoid m => (Either i j -> a -> m) -> (f :*: g) a -> m # ifoldMap' :: Monoid m => (Either i j -> a -> m) -> (f :*: g) a -> m # ifoldr :: (Either i j -> a -> b -> b) -> b -> (f :*: g) a -> b # ifoldl :: (Either i j -> b -> a -> b) -> b -> (f :*: g) a -> b # ifoldr' :: (Either i j -> a -> b -> b) -> b -> (f :*: g) a -> b # ifoldl' :: (Either i j -> b -> a -> b) -> b -> (f :*: g) a -> b # | |
| (TraversableWithIndex i f, TraversableWithIndex j g) => TraversableWithIndex (Either i j) (Sum f g) | |
| (TraversableWithIndex i f, TraversableWithIndex j g) => TraversableWithIndex (Either i j) (Product f g) | |
| (TraversableWithIndex i f, TraversableWithIndex j g) => TraversableWithIndex (Either i j) (f :+: g) | |
| (TraversableWithIndex i f, TraversableWithIndex j g) => TraversableWithIndex (Either i j) (f :*: g) | |
| SuppressUnusedWarnings (ShowsPrec_6989586621680666968Sym1 a6989586621680666980 :: TyFun (Either a b) (Symbol ~> Symbol) -> Type) | |
Defined in Data.Singletons.Prelude.Show Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962719Sym0 :: TyFun (Either e a) ((a ~> Either e b) ~> Either e b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962635Sym0 :: TyFun (Either e (a ~> b)) (Either e a ~> Either e b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Compare_6989586621679857425Sym1 a6989586621679857432 :: TyFun (Either a b) Ordering -> Type) | |
Defined in Data.Singletons.Prelude.Ord Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621680245421Sym1 a6989586621680245426 :: TyFun (Either a b) (Either a b) -> Type) | |
Defined in Data.Singletons.Prelude.Semigroup.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962455Sym0 :: TyFun a1 (Either a2 b ~> Either a2 a1) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Either_Sym0 :: TyFun (a ~> c) ((b ~> c) ~> (Either a b ~> c)) -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812801Sym0 :: TyFun (a1 ~> (b ~> b)) (b ~> (Either a2 a1 ~> b)) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (FoldMap_6989586621680812789Sym0 :: TyFun (a1 ~> m) (Either a2 a1 ~> m) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Fmap_6989586621679962438Sym0 :: TyFun (a1 ~> b) (Either a2 a1 ~> Either a2 b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SingI (Either_Sym0 :: TyFun (a ~> c) ((b ~> c) ~> (Either a b ~> c)) -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing Either_Sym0 # | |
| SuppressUnusedWarnings (FoldMap_6989586621680812789Sym1 a6989586621680812794 :: TyFun (Either a2 a1) m -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962635Sym1 a6989586621679962640 :: TyFun (Either e a) (Either e b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962455Sym1 a6989586621679962460 :: TyFun (Either a2 b) (Either a2 a1) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Fmap_6989586621679962438Sym1 a6989586621679962443 :: TyFun (Either a2 a1) (Either a2 b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812801Sym1 a6989586621680812807 :: TyFun b (Either a2 a1 ~> b) -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Traverse_6989586621681090134Sym0 :: TyFun (a1 ~> f b) (Either a2 a1 ~> f (Either a2 b)) -> Type) | |
Defined in Data.Singletons.Prelude.Traversable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Either_Sym1 a6989586621679877921 :: TyFun (b ~> c) (Either a b ~> c) -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (TFHelper_6989586621679962719Sym1 a6989586621679962725 :: TyFun (a ~> Either e b) (Either e b) -> Type) | |
Defined in Data.Singletons.Prelude.Monad.Internal Methods suppressUnusedWarnings :: () # | |
| SingI d => SingI (Either_Sym1 d :: TyFun (b ~> c) (Either a b ~> c) -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing (Either_Sym1 d) # | |
| SuppressUnusedWarnings (Traverse_6989586621681090134Sym1 a6989586621681090139 :: TyFun (Either a2 a1) (f (Either a2 b)) -> Type) | |
Defined in Data.Singletons.Prelude.Traversable Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Either_Sym2 a6989586621679877921 a6989586621679877922 :: TyFun (Either a b) c -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods suppressUnusedWarnings :: () # | |
| SuppressUnusedWarnings (Foldr_6989586621680812801Sym2 a6989586621680812807 a6989586621680812808 :: TyFun (Either a2 a1) b -> Type) | |
Defined in Data.Singletons.Prelude.Foldable Methods suppressUnusedWarnings :: () # | |
| (SingI d1, SingI d2) => SingI (Either_Sym2 d1 d2 :: TyFun (Either a b) c -> Type) | |
Defined in Data.Singletons.Prelude.Either Methods sing :: Sing (Either_Sym2 d1 d2) # | |
| type MapM (arg1 :: a1 ~> m b) (arg2 :: Either a2 a1) | |
| type Traverse (a3 :: a1 ~> f b) (a4 :: Either a2 a1) | |
| type LiftA2 (arg1 :: a ~> (b ~> c)) (arg2 :: Either e a) (arg3 :: Either e b) | |
| type FoldMap (a3 :: a1 ~> k2) (a4 :: Either a2 a1) | |
| type Fmap (a3 :: a1 ~> b) (a4 :: Either a2 a1) | |
| type Foldl' (arg1 :: b ~> (a1 ~> b)) (arg2 :: b) (arg3 :: Either a2 a1) | |
| type Foldl (arg1 :: b ~> (a1 ~> b)) (arg2 :: b) (arg3 :: Either a2 a1) | |
| type Foldr' (arg1 :: a1 ~> (b ~> b)) (arg2 :: b) (arg3 :: Either a2 a1) | |
| type Foldr (a3 :: a1 ~> (k2 ~> k2)) (a4 :: k2) (a5 :: Either a2 a1) | |
| type Unbundled dom d (Either a b) Source # | |
Defined in Clash.Signal.Delayed.Bundle | |
| type Pure (a :: k1) | |
| type Return (arg :: a) | |
| type Elem (arg1 :: a1) (arg2 :: Either a2 a1) | |
| type Foldl1 (arg1 :: a1 ~> (a1 ~> a1)) (arg2 :: Either a2 a1) | |
| type Foldr1 (arg1 :: a1 ~> (a1 ~> a1)) (arg2 :: Either a2 a1) | |
| type (a2 :: k1) <$ (a3 :: Either a1 b) | |
| type Unbundled dom (Either a b) Source # | |
Defined in Clash.Signal.Bundle | |
| type TryDomain t (Either a b) Source # | |
Defined in Clash.Class.HasDomain.HasSingleDomain | |
| type Apply (ShowsPrec_6989586621680666968Sym0 :: TyFun Nat (Either a b ~> (Symbol ~> Symbol)) -> Type) (a6989586621680666980 :: Nat) | |
| type Apply (Pure_6989586621679962625Sym0 :: TyFun a (Either e a) -> Type) (a6989586621679962631 :: a) | |
| type Apply (LeftSym0 :: TyFun a (Either a b) -> Type) (a6989586621679743359 :: a) | |
| type Apply (RightSym0 :: TyFun b (Either a b) -> Type) (a6989586621679743361 :: b) | |
| type Apply (Let6989586621680245430ASym0 :: TyFun k1 (Either a k1) -> Type) (wild_69895866216802450946989586621680245429 :: k1) | |
| type Apply (TFHelper_6989586621679962455Sym0 :: TyFun a1 (Either a2 b ~> Either a2 a1) -> Type) (a6989586621679962460 :: a1) | |
| type Apply (Foldr_6989586621680812801Sym1 a6989586621680812807 :: TyFun b (Either a2 a1 ~> b) -> Type) (a6989586621680812808 :: b) | |
| type Eval (FoldMap f ('Right x :: Either a3 a1) :: a2 -> Type) | |
| type Eval (FoldMap f ('Left _a :: Either a3 a1) :: a2 -> Type) | |
| type Eval (Foldr f y ('Right x :: Either a3 a1) :: a2 -> Type) | |
| type Eval (Foldr f y ('Left _a :: Either a3 a1) :: a2 -> Type) | |
| type Product (arg :: Either a1 a2) | |
| type Sum (arg :: Either a1 a2) | |
| type Minimum (arg :: Either a1 a2) | |
| type Maximum (arg :: Either a1 a2) | |
| type Length (a3 :: Either a1 a2) | |
| type Null (a3 :: Either a1 a2) | |
| type ToList (arg :: Either a1 a2) | |
| type Fold (arg :: Either a m) | |
| type Sequence (arg :: Either a1 (m a2)) | |
| type SequenceA (arg :: Either a1 (f a2)) | |
| type (arg1 :: Either e a) <* (arg2 :: Either e b) | |
| type (arg1 :: Either e a) *> (arg2 :: Either e b) | |
| type (a2 :: Either e (a1 ~> b)) <*> (a3 :: Either e a1) | |
| type (arg1 :: Either e a) >> (arg2 :: Either e b) | |
| type (a2 :: Either e a1) >>= (a3 :: a1 ~> Either e b) | |
| type Rep1 (Either a :: Type -> Type) | |
Defined in GHC.Generics type Rep1 (Either a :: Type -> Type) = D1 ('MetaData "Either" "Data.Either" "base" 'False) (C1 ('MetaCons "Left" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a)) :+: C1 ('MetaCons "Right" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)) | |
| type Apply (RightsSym0 :: TyFun [Either a b] [b] -> Type) (a6989586621679884683 :: [Either a b]) | |
Defined in Data.Singletons.Prelude.Either type Apply (RightsSym0 :: TyFun [Either a b] [b] -> Type) (a6989586621679884683 :: [Either a b]) = RightsSym1 a6989586621679884683 | |
| type Apply (LeftsSym0 :: TyFun [Either a b] [a] -> Type) (a6989586621679884689 :: [Either a b]) | |
| type Apply (PartitionEithersSym0 :: TyFun [Either a b] ([a], [b]) -> Type) (a6989586621679884660 :: [Either a b]) | |
| type Rep (Either a b) | |
Defined in GHC.Generics type Rep (Either a b) = D1 ('MetaData "Either" "Data.Either" "base" 'False) (C1 ('MetaCons "Left" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a)) :+: C1 ('MetaCons "Right" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b))) | |
| type Base (Either a b) | Example boring stub for non-recursive data types |
| type Sing | |
Defined in Data.Singletons.Prelude.Instances | |
| type Demote (Either a b) | |
| type BitSize (Either a b) Source # | |
Defined in Clash.Class.BitPack.Internal type BitSize (Either a b) = CLog 2 (GConstructorCount (Rep (Either a b))) + GFieldSize (Rep (Either a b)) | |
| type Show_ (arg :: Either a b) | |
| type Sconcat (arg :: NonEmpty (Either a b)) | |
| type ShowList (arg1 :: [Either a b]) arg2 | |
| type (a2 :: Either a1 b) <> (a3 :: Either a1 b) | |
| type Min (arg1 :: Either a b) (arg2 :: Either a b) | |
| type Max (arg1 :: Either a b) (arg2 :: Either a b) | |
| type (arg1 :: Either a b) >= (arg2 :: Either a b) | |
| type (arg1 :: Either a b) > (arg2 :: Either a b) | |
| type (arg1 :: Either a b) <= (arg2 :: Either a b) | |
| type (arg1 :: Either a b) < (arg2 :: Either a b) | |
| type Compare (a2 :: Either a1 b) (a3 :: Either a1 b) | |
| type (x :: Either a b) /= (y :: Either a b) | |
| type (a2 :: Either a1 b1) == (b2 :: Either a1 b1) | |
Defined in Data.Singletons.Prelude.Eq | |
| type ShowsPrec a2 (a3 :: Either a1 b) a4 | |
| type Apply (IsRightSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884644 :: Either a b) | |
Defined in Data.Singletons.Prelude.Either type Apply (IsRightSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884644 :: Either a b) = IsRightSym1 a6989586621679884644 | |
| type Apply (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884655 :: Either a b) | |
Defined in Data.Singletons.Prelude.Either type Apply (IsLeftSym0 :: TyFun (Either a b) Bool -> Type) (a6989586621679884655 :: Either a b) = IsLeftSym1 a6989586621679884655 | |
| type Apply (Length_6989586621680812815Sym0 :: TyFun (Either a1 a2) Nat -> Type) (a6989586621680812819 :: Either a1 a2) | |
| type Apply (Null_6989586621680812821Sym0 :: TyFun (Either a1 a2) Bool -> Type) (a6989586621680812827 :: Either a1 a2) | |
| type Apply (Compare_6989586621679857425Sym1 a6989586621679857432 :: TyFun (Either a b) Ordering -> Type) (a6989586621679857434 :: Either a b) | |
| type Apply (FoldMap_6989586621680812789Sym1 a6989586621680812794 :: TyFun (Either a2 a1) m -> Type) (a6989586621680812795 :: Either a2 a1) | |
| type Apply (Either_Sym2 a6989586621679877921 a6989586621679877922 :: TyFun (Either a b) c -> Type) (a6989586621679877923 :: Either a b) | |
Defined in Data.Singletons.Prelude.Either type Apply (Either_Sym2 a6989586621679877921 a6989586621679877922 :: TyFun (Either a b) c -> Type) (a6989586621679877923 :: Either a b) = Either_Sym3 a6989586621679877921 a6989586621679877922 a6989586621679877923 | |
| type Apply (Foldr_6989586621680812801Sym2 a6989586621680812807 a6989586621680812808 :: TyFun (Either a2 a1) b -> Type) (a6989586621680812809 :: Either a2 a1) | |
| type Apply (Traverse_6989586621681090134Sym1 a6989586621681090139 :: TyFun (Either a2 a1) (f (Either a2 b)) -> Type) (a6989586621681090140 :: Either a2 a1) | |
| type Apply (Compare_6989586621679857425Sym0 :: TyFun (Either a b) (Either a b ~> Ordering) -> Type) (a6989586621679857432 :: Either a b) | |
| type Apply (TFHelper_6989586621680245421Sym0 :: TyFun (Either a b) (Either a b ~> Either a b) -> Type) (a6989586621680245426 :: Either a b) | |
| type Apply (ShowsPrec_6989586621680666968Sym1 a6989586621680666980 :: TyFun (Either a b) (Symbol ~> Symbol) -> Type) (a6989586621680666981 :: Either a b) | |
| type Apply (TFHelper_6989586621679962635Sym0 :: TyFun (Either e (a ~> b)) (Either e a ~> Either e b) -> Type) (a6989586621679962640 :: Either e (a ~> b)) | |
| type Apply (TFHelper_6989586621679962719Sym0 :: TyFun (Either e a) ((a ~> Either e b) ~> Either e b) -> Type) (a6989586621679962725 :: Either e a) | |
Defined in Data.Singletons.Prelude.Monad.Internal | |
| type Apply (TFHelper_6989586621680245421Sym1 a6989586621680245426 :: TyFun (Either a b) (Either a b) -> Type) (a6989586621680245427 :: Either a b) | |
| type Apply (Either_Sym0 :: TyFun (a ~> c) ((b ~> c) ~> (Either a b ~> c)) -> Type) (a6989586621679877921 :: a ~> c) | |
| type Apply (FoldMap_6989586621680812789Sym0 :: TyFun (a1 ~> m) (Either a2 a1 ~> m) -> Type) (a6989586621680812794 :: a1 ~> m) | |
| type Apply (Foldr_6989586621680812801Sym0 :: TyFun (a1 ~> (b ~> b)) (b ~> (Either a2 a1 ~> b)) -> Type) (a6989586621680812807 :: a1 ~> (b ~> b)) | |
| type Apply (Fmap_6989586621679962438Sym0 :: TyFun (a1 ~> b) (Either a2 a1 ~> Either a2 b) -> Type) (a6989586621679962443 :: a1 ~> b) | |
| type Apply (Fmap_6989586621679962438Sym1 a6989586621679962443 :: TyFun (Either a2 a1) (Either a2 b) -> Type) (a6989586621679962444 :: Either a2 a1) | |
| type Apply (TFHelper_6989586621679962455Sym1 a6989586621679962460 :: TyFun (Either a2 b) (Either a2 a1) -> Type) (a6989586621679962461 :: Either a2 b) | |
| type Apply (TFHelper_6989586621679962635Sym1 a6989586621679962640 :: TyFun (Either e a) (Either e b) -> Type) (a6989586621679962641 :: Either e a) | |
| type Apply (Traverse_6989586621681090134Sym0 :: TyFun (a1 ~> f b) (Either a2 a1 ~> f (Either a2 b)) -> Type) (a6989586621681090139 :: a1 ~> f b) | |
| type Apply (Either_Sym1 a6989586621679877921 :: TyFun (b ~> c) (Either a b ~> c) -> Type) (a6989586621679877922 :: b ~> c) | |
Defined in Data.Singletons.Prelude.Either type Apply (Either_Sym1 a6989586621679877921 :: TyFun (b ~> c) (Either a b ~> c) -> Type) (a6989586621679877922 :: b ~> c) = Either_Sym2 a6989586621679877921 a6989586621679877922 | |
| type Apply (TFHelper_6989586621679962719Sym1 a6989586621679962725 :: TyFun (a ~> Either e b) (Either e b) -> Type) (a6989586621679962726 :: a ~> Either e b) | |
| type Eval (Map f ('Right a3 :: Either a2 a1) :: Either a2 b -> Type) | |
| type Eval (Map f ('Left x :: Either a2 a1) :: Either a2 b -> Type) | |
| type Eval (Bimap f g ('Right y :: Either a b1) :: Either a' b2 -> Type) | |
| type Eval (Bimap f g ('Left x :: Either a1 b) :: Either a2 b' -> Type) | |
either :: (a -> c) -> (b -> c) -> Either a b -> c #
Case analysis for the Either type.
If the value is Left aa;
if it is Right bb.
Examples
We create two values of type Either String IntLeft constructor and another using the Right constructor. Then
we apply "either" the length function (if we have a String)
or the "times-two" function (if we have an Int):
>>>let s = Left "foo" :: Either String Int>>>let n = Right 3 :: Either String Int>>>either length (*2) s3>>>either length (*2) n6
appendFile :: FilePath -> String -> IO () #
The computation appendFile file str function appends the string str,
to the file file.
Note that writeFile and appendFile write a literal string
to a file. To write a value of any printable type, as with print,
use the show function to convert the value to a string first.
main = appendFile "squares" (show [(x,x*x) | x <- [0,0.1..2]])
writeFile :: FilePath -> String -> IO () #
The computation writeFile file str function writes the string str,
to the file file.
readFile :: FilePath -> IO String #
The readFile function reads a file and
returns the contents of the file as a string.
The file is read lazily, on demand, as with getContents.
interact :: (String -> String) -> IO () #
The interact function takes a function of type String->String
as its argument. The entire input from the standard input device is
passed to this function as its argument, and the resulting string is
output on the standard output device.
getContents :: IO String #
The getContents operation returns all user input as a single string,
which is read lazily as it is needed
(same as hGetContents stdin).
File and directory names are values of type String, whose precise
meaning is operating system dependent. Files can be opened, yielding a
handle which can then be used to operate on the contents of that file.
type IOError = IOException #
all :: Foldable t => (a -> Bool) -> t a -> Bool #
Determines whether all elements of the structure satisfy the predicate.
any :: Foldable t => (a -> Bool) -> t a -> Bool #
Determines whether any element of the structure satisfies the predicate.
sequence_ :: (Foldable t, Monad m) => t (m a) -> m () #
Evaluate each monadic action in the structure from left to right,
and ignore the results. For a version that doesn't ignore the
results see sequence.
As of base 4.8.0.0, sequence_ is just sequenceA_, specialized
to Monad.
words breaks a string up into a list of words, which were delimited
by white space.
>>>words "Lorem ipsum\ndolor"["Lorem","ipsum","dolor"]
lines breaks a string up into a list of strings at newline
characters. The resulting strings do not contain newlines.
Note that after splitting the string at newline characters, the last part of the string is considered a line even if it doesn't end with a newline. For example,
>>>lines ""[]
>>>lines "\n"[""]
>>>lines "one"["one"]
>>>lines "one\n"["one"]
>>>lines "one\n\n"["one",""]
>>>lines "one\ntwo"["one","two"]
>>>lines "one\ntwo\n"["one","two"]
Thus lines ss.
read :: Read a => String -> a #
The read function reads input from a string, which must be
completely consumed by the input process. read fails with an error if the
parse is unsuccessful, and it is therefore discouraged from being used in
real applications. Use readMaybe or readEither for safe alternatives.
>>>read "123" :: Int123
>>>read "hello" :: Int*** Exception: Prelude.read: no parse
The lex function reads a single lexeme from the input, discarding
initial white space, and returning the characters that constitute the
lexeme. If the input string contains only white space, lex returns a
single successful `lexeme' consisting of the empty string. (Thus
lex "" = [("","")]lex fails (i.e. returns []).
This lexer is not completely faithful to the Haskell lexical syntax in the following respects:
- Qualified names are not handled properly
- Octal and hexadecimal numerics are not recognized as a single token
- Comments are not treated properly
lcm :: Integral a => a -> a -> a #
lcm x yx and y divide.
gcd :: Integral a => a -> a -> a #
gcd x yx and y of which
every common factor of x and y is also a factor; for example
gcd 4 2 = 2gcd (-4) 6 = 2gcd 0 44. gcd 0 00.
(That is, the common divisor that is "greatest" in the divisibility
preordering.)
Note: Since for signed fixed-width integer types, abs minBound < 0minBound0 or minBound
(^^) :: (Fractional a, Integral b) => a -> b -> a infixr 8 #
raise a number to an integral power
showString :: String -> ShowS #
utility function converting a String to a show function that
simply prepends the string unchanged.
utility function converting a Char to a show function that
simply prepends the character unchanged.
lookup :: Eq a => a -> [(a, b)] -> Maybe b #
\(\mathcal{O}(n)\). lookup key assocs looks up a key in an association
list.
>>>lookup 2 [(1, "first"), (2, "second"), (3, "third")]Just "second"
break :: (a -> Bool) -> [a] -> ([a], [a]) #
break, applied to a predicate p and a list xs, returns a tuple where
first element is longest prefix (possibly empty) of xs of elements that
do not satisfy p and second element is the remainder of the list:
break (> 3) [1,2,3,4,1,2,3,4] == ([1,2,3],[4,1,2,3,4]) break (< 9) [1,2,3] == ([],[1,2,3]) break (> 9) [1,2,3] == ([1,2,3],[])
span :: (a -> Bool) -> [a] -> ([a], [a]) #
span, applied to a predicate p and a list xs, returns a tuple where
first element is longest prefix (possibly empty) of xs of elements that
satisfy p and second element is the remainder of the list:
span (< 3) [1,2,3,4,1,2,3,4] == ([1,2],[3,4,1,2,3,4]) span (< 9) [1,2,3] == ([1,2,3],[]) span (< 0) [1,2,3] == ([],[1,2,3])
takeWhile :: (a -> Bool) -> [a] -> [a] #
takeWhile, applied to a predicate p and a list xs, returns the
longest prefix (possibly empty) of xs of elements that satisfy p:
takeWhile (< 3) [1,2,3,4,1,2,3,4] == [1,2] takeWhile (< 9) [1,2,3] == [1,2,3] takeWhile (< 0) [1,2,3] == []
cycle ties a finite list into a circular one, or equivalently,
the infinite repetition of the original list. It is the identity
on infinite lists.
maybe :: b -> (a -> b) -> Maybe a -> b #
The maybe function takes a default value, a function, and a Maybe
value. If the Maybe value is Nothing, the function returns the
default value. Otherwise, it applies the function to the value inside
the Just and returns the result.
Examples
Basic usage:
>>>maybe False odd (Just 3)True
>>>maybe False odd NothingFalse
Read an integer from a string using readMaybe. If we succeed,
return twice the integer; that is, apply (*2) to it. If instead
we fail to parse an integer, return 0 by default:
>>>import Text.Read ( readMaybe )>>>maybe 0 (*2) (readMaybe "5")10>>>maybe 0 (*2) (readMaybe "")0
Apply show to a Maybe Int. If we have Just n, we want to show
the underlying Int n. But if we have Nothing, we return the
empty string instead of (for example) "Nothing":
>>>maybe "" show (Just 5)"5">>>maybe "" show Nothing""
(<$>) :: Functor f => (a -> b) -> f a -> f b infixl 4 #
An infix synonym for fmap.
The name of this operator is an allusion to $.
Note the similarities between their types:
($) :: (a -> b) -> a -> b (<$>) :: Functor f => (a -> b) -> f a -> f b
Whereas $ is function application, <$> is function
application lifted over a Functor.
Examples
Convert from a Maybe IntMaybe
Stringshow:
>>>show <$> NothingNothing>>>show <$> Just 3Just "3"
Convert from an Either Int IntEither IntString using show:
>>>show <$> Left 17Left 17>>>show <$> Right 17Right "17"
Double each element of a list:
>>>(*2) <$> [1,2,3][2,4,6]
Apply even to the second element of a pair:
>>>even <$> (2,2)(2,True)
uncurry :: (a -> b -> c) -> (a, b) -> c #
uncurry converts a curried function to a function on pairs.
Examples
>>>uncurry (+) (1,2)3
>>>uncurry ($) (show, 1)"1"
>>>map (uncurry max) [(1,2), (3,4), (6,8)][2,4,8]
until :: (a -> Bool) -> (a -> a) -> a -> a #
until p ff until p holds.
($!) :: forall (r :: RuntimeRep) a (b :: TYPE r). (a -> b) -> a -> b infixr 0 #
Strict (call-by-value) application operator. It takes a function and an argument, evaluates the argument to weak head normal form (WHNF), then calls the function with that value.
flip :: (a -> b -> c) -> b -> a -> c #
flip ff.
>>>flip (++) "hello" "world""worldhello"
const x is a unary function which evaluates to x for all inputs.
>>>const 42 "hello"42
>>>map (const 42) [0..3][42,42,42,42]
(=<<) :: Monad m => (a -> m b) -> m a -> m b infixr 1 #
Same as >>=, but with the arguments interchanged.
errorWithoutStackTrace :: forall (r :: RuntimeRep) (a :: TYPE r). [Char] -> a #
A variant of error that does not produce a stack trace.
Since: base-4.9.0.0
error :: forall (r :: RuntimeRep) (a :: TYPE r). HasCallStack => [Char] -> a #
error stops execution and displays an error message.