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module Control.Applicative where
-- Safety: Trustworthy
(<$) :: forall (f :: * -> *) a b. GHC.Base.Functor f => a -> f b -> f a
(<$>) :: forall (f :: * -> *) a b. GHC.Base.Functor f => (a -> b) -> f a -> f b
(<**>) :: forall (f :: * -> *) a b. Applicative f => f a -> f (a -> b) -> f b
type Alternative :: (* -> *) -> Constraint
class Applicative f => Alternative f where
empty :: forall a. f a
(<|>) :: forall a. f a -> f a -> f a
some :: forall a. f a -> f [a]
many :: forall a. f a -> f [a]
{-# MINIMAL empty, (<|>) #-}
type Applicative :: (* -> *) -> Constraint
class GHC.Base.Functor f => Applicative f where
pure :: forall a. a -> f a
(<*>) :: forall a b. f (a -> b) -> f a -> f b
liftA2 :: forall a b c. (a -> b -> c) -> f a -> f b -> f c
(*>) :: forall a b. f a -> f b -> f b
(<*) :: forall a b. f a -> f b -> f a
{-# MINIMAL pure, ((<*>) | liftA2) #-}
type role Const representational phantom
type Const :: forall {k}. * -> k -> *
newtype Const a b = Const {getConst :: a}
type role WrappedArrow representational nominal nominal
type WrappedArrow :: (* -> * -> *) -> * -> * -> *
newtype WrappedArrow a b c = WrapArrow {unwrapArrow :: a b c}
type role WrappedMonad representational nominal
type WrappedMonad :: (* -> *) -> * -> *
newtype WrappedMonad m a = WrapMonad {unwrapMonad :: m a}
type ZipList :: * -> *
newtype ZipList a = ZipList {getZipList :: [a]}
asum :: forall (t :: * -> *) (f :: * -> *) a. (Data.Foldable.Foldable t, Alternative f) => t (f a) -> f a
liftA :: forall (f :: * -> *) a b. Applicative f => (a -> b) -> f a -> f b
liftA3 :: forall (f :: * -> *) a b c d. Applicative f => (a -> b -> c -> d) -> f a -> f b -> f c -> f d
optional :: forall (f :: * -> *) a. Alternative f => f a -> f (GHC.Maybe.Maybe a)
module Control.Arrow where
-- Safety: Trustworthy
(<<<) :: forall {k} (cat :: k -> k -> *) (b :: k) (c :: k) (a :: k). Control.Category.Category cat => cat b c -> cat a b -> cat a c
(<<^) :: forall (a :: * -> * -> *) c d b. Arrow a => a c d -> (b -> c) -> a b d
(>>>) :: forall {k} (cat :: k -> k -> *) (a :: k) (b :: k) (c :: k). Control.Category.Category cat => cat a b -> cat b c -> cat a c
(>>^) :: forall (a :: * -> * -> *) b c d. Arrow a => a b c -> (c -> d) -> a b d
type Arrow :: (* -> * -> *) -> Constraint
class Control.Category.Category a => Arrow a where
arr :: forall b c. (b -> c) -> a b c
first :: forall b c d. a b c -> a (b, d) (c, d)
second :: forall b c d. a b c -> a (d, b) (d, c)
(***) :: forall b c b' c'. a b c -> a b' c' -> a (b, b') (c, c')
(&&&) :: forall b c c'. a b c -> a b c' -> a b (c, c')
{-# MINIMAL arr, (first | (***)) #-}
type ArrowApply :: (* -> * -> *) -> Constraint
class Arrow a => ArrowApply a where
app :: forall b c. a (a b c, b) c
{-# MINIMAL app #-}
type ArrowChoice :: (* -> * -> *) -> Constraint
class Arrow a => ArrowChoice a where
left :: forall b c d. a b c -> a (Data.Either.Either b d) (Data.Either.Either c d)
right :: forall b c d. a b c -> a (Data.Either.Either d b) (Data.Either.Either d c)
(+++) :: forall b c b' c'. a b c -> a b' c' -> a (Data.Either.Either b b') (Data.Either.Either c c')
(|||) :: forall b d c. a b d -> a c d -> a (Data.Either.Either b c) d
{-# MINIMAL (left | (+++)) #-}
type ArrowLoop :: (* -> * -> *) -> Constraint
class Arrow a => ArrowLoop a where
loop :: forall b d c. a (b, d) (c, d) -> a b c
{-# MINIMAL loop #-}
type role ArrowMonad representational nominal
type ArrowMonad :: (* -> * -> *) -> * -> *
newtype ArrowMonad a b = ArrowMonad (a () b)
type ArrowPlus :: (* -> * -> *) -> Constraint
class ArrowZero a => ArrowPlus a where
(<+>) :: forall b c. a b c -> a b c -> a b c
{-# MINIMAL (<+>) #-}
type ArrowZero :: (* -> * -> *) -> Constraint
class Arrow a => ArrowZero a where
zeroArrow :: forall b c. a b c
{-# MINIMAL zeroArrow #-}
type role Kleisli representational representational nominal
type Kleisli :: (* -> *) -> * -> * -> *
newtype Kleisli m a b = Kleisli {runKleisli :: a -> m b}
(^<<) :: forall (a :: * -> * -> *) c d b. Arrow a => (c -> d) -> a b c -> a b d
(^>>) :: forall (a :: * -> * -> *) b c d. Arrow a => (b -> c) -> a c d -> a b d
leftApp :: forall (a :: * -> * -> *) b c d. ArrowApply a => a b c -> a (Data.Either.Either b d) (Data.Either.Either c d)
returnA :: forall (a :: * -> * -> *) b. Arrow a => a b b
module Control.Category where
-- Safety: Trustworthy
(<<<) :: forall {k} (cat :: k -> k -> *) (b :: k) (c :: k) (a :: k). Category cat => cat b c -> cat a b -> cat a c
(>>>) :: forall {k} (cat :: k -> k -> *) (a :: k) (b :: k) (c :: k). Category cat => cat a b -> cat b c -> cat a c
type Category :: forall {k}. (k -> k -> *) -> Constraint
class Category cat where
id :: forall (a :: k). cat a a
(.) :: forall (b :: k) (c :: k) (a :: k). cat b c -> cat a b -> cat a c
{-# MINIMAL id, (.) #-}
module Control.Concurrent where
-- Safety: Trustworthy
type Chan :: * -> *
data Chan a = ...
type MVar :: * -> *
data MVar a = ...
type QSem :: *
newtype QSem = ...
type QSemN :: *
data QSemN = ...
type ThreadId :: *
data ThreadId = ...
addMVarFinalizer :: forall a. MVar a -> GHC.Types.IO () -> GHC.Types.IO ()
dupChan :: forall a. Chan a -> GHC.Types.IO (Chan a)
forkFinally :: forall a. GHC.Types.IO a -> (Data.Either.Either GHC.Exception.Type.SomeException a -> GHC.Types.IO ()) -> GHC.Types.IO ThreadId
forkIO :: GHC.Types.IO () -> GHC.Types.IO ThreadId
forkIOWithUnmask :: ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO ()) -> GHC.Types.IO ThreadId
forkOS :: GHC.Types.IO () -> GHC.Types.IO ThreadId
forkOSWithUnmask :: ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO ()) -> GHC.Types.IO ThreadId
forkOn :: GHC.Types.Int -> GHC.Types.IO () -> GHC.Types.IO ThreadId
forkOnWithUnmask :: GHC.Types.Int -> ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO ()) -> GHC.Types.IO ThreadId
getChanContents :: forall a. Chan a -> GHC.Types.IO [a]
getNumCapabilities :: GHC.Types.IO GHC.Types.Int
isCurrentThreadBound :: GHC.Types.IO GHC.Types.Bool
isEmptyMVar :: forall a. MVar a -> GHC.Types.IO GHC.Types.Bool
killThread :: ThreadId -> GHC.Types.IO ()
mkWeakMVar :: forall a. MVar a -> GHC.Types.IO () -> GHC.Types.IO (GHC.Weak.Weak (MVar a))
mkWeakThreadId :: ThreadId -> GHC.Types.IO (GHC.Weak.Weak ThreadId)
modifyMVar :: forall a b. MVar a -> (a -> GHC.Types.IO (a, b)) -> GHC.Types.IO b
modifyMVarMasked :: forall a b. MVar a -> (a -> GHC.Types.IO (a, b)) -> GHC.Types.IO b
modifyMVarMasked_ :: forall a. MVar a -> (a -> GHC.Types.IO a) -> GHC.Types.IO ()
modifyMVar_ :: forall a. MVar a -> (a -> GHC.Types.IO a) -> GHC.Types.IO ()
myThreadId :: GHC.Types.IO ThreadId
newChan :: forall a. GHC.Types.IO (Chan a)
newEmptyMVar :: forall a. GHC.Types.IO (MVar a)
newMVar :: forall a. a -> GHC.Types.IO (MVar a)
newQSem :: GHC.Types.Int -> GHC.Types.IO QSem
newQSemN :: GHC.Types.Int -> GHC.Types.IO QSemN
putMVar :: forall a. MVar a -> a -> GHC.Types.IO ()
readChan :: forall a. Chan a -> GHC.Types.IO a
readMVar :: forall a. MVar a -> GHC.Types.IO a
rtsSupportsBoundThreads :: GHC.Types.Bool
runInBoundThread :: forall a. GHC.Types.IO a -> GHC.Types.IO a
runInUnboundThread :: forall a. GHC.Types.IO a -> GHC.Types.IO a
setNumCapabilities :: GHC.Types.Int -> GHC.Types.IO ()
signalQSem :: QSem -> GHC.Types.IO ()
signalQSemN :: QSemN -> GHC.Types.Int -> GHC.Types.IO ()
swapMVar :: forall a. MVar a -> a -> GHC.Types.IO a
takeMVar :: forall a. MVar a -> GHC.Types.IO a
threadCapability :: ThreadId -> GHC.Types.IO (GHC.Types.Int, GHC.Types.Bool)
threadDelay :: GHC.Types.Int -> GHC.Types.IO ()
threadWaitRead :: System.Posix.Types.Fd -> GHC.Types.IO ()
threadWaitReadSTM :: System.Posix.Types.Fd -> GHC.Types.IO (GHC.Conc.Sync.STM (), GHC.Types.IO ())
threadWaitWrite :: System.Posix.Types.Fd -> GHC.Types.IO ()
threadWaitWriteSTM :: System.Posix.Types.Fd -> GHC.Types.IO (GHC.Conc.Sync.STM (), GHC.Types.IO ())
throwTo :: forall e. GHC.Exception.Type.Exception e => ThreadId -> e -> GHC.Types.IO ()
tryPutMVar :: forall a. MVar a -> a -> GHC.Types.IO GHC.Types.Bool
tryReadMVar :: forall a. MVar a -> GHC.Types.IO (GHC.Maybe.Maybe a)
tryTakeMVar :: forall a. MVar a -> GHC.Types.IO (GHC.Maybe.Maybe a)
waitQSem :: QSem -> GHC.Types.IO ()
waitQSemN :: QSemN -> GHC.Types.Int -> GHC.Types.IO ()
withMVar :: forall a b. MVar a -> (a -> GHC.Types.IO b) -> GHC.Types.IO b
withMVarMasked :: forall a b. MVar a -> (a -> GHC.Types.IO b) -> GHC.Types.IO b
writeChan :: forall a. Chan a -> a -> GHC.Types.IO ()
writeList2Chan :: forall a. Chan a -> [a] -> GHC.Types.IO ()
yield :: GHC.Types.IO ()
module Control.Concurrent.Chan where
-- Safety: Trustworthy
type Chan :: * -> *
data Chan a = ...
dupChan :: forall a. Chan a -> GHC.Types.IO (Chan a)
getChanContents :: forall a. Chan a -> GHC.Types.IO [a]
newChan :: forall a. GHC.Types.IO (Chan a)
readChan :: forall a. Chan a -> GHC.Types.IO a
writeChan :: forall a. Chan a -> a -> GHC.Types.IO ()
writeList2Chan :: forall a. Chan a -> [a] -> GHC.Types.IO ()
module Control.Concurrent.MVar where
-- Safety: Trustworthy
type MVar :: * -> *
data MVar a = ...
addMVarFinalizer :: forall a. MVar a -> GHC.Types.IO () -> GHC.Types.IO ()
isEmptyMVar :: forall a. MVar a -> GHC.Types.IO GHC.Types.Bool
mkWeakMVar :: forall a. MVar a -> GHC.Types.IO () -> GHC.Types.IO (GHC.Weak.Weak (MVar a))
modifyMVar :: forall a b. MVar a -> (a -> GHC.Types.IO (a, b)) -> GHC.Types.IO b
modifyMVarMasked :: forall a b. MVar a -> (a -> GHC.Types.IO (a, b)) -> GHC.Types.IO b
modifyMVarMasked_ :: forall a. MVar a -> (a -> GHC.Types.IO a) -> GHC.Types.IO ()
modifyMVar_ :: forall a. MVar a -> (a -> GHC.Types.IO a) -> GHC.Types.IO ()
newEmptyMVar :: forall a. GHC.Types.IO (MVar a)
newMVar :: forall a. a -> GHC.Types.IO (MVar a)
putMVar :: forall a. MVar a -> a -> GHC.Types.IO ()
readMVar :: forall a. MVar a -> GHC.Types.IO a
swapMVar :: forall a. MVar a -> a -> GHC.Types.IO a
takeMVar :: forall a. MVar a -> GHC.Types.IO a
tryPutMVar :: forall a. MVar a -> a -> GHC.Types.IO GHC.Types.Bool
tryReadMVar :: forall a. MVar a -> GHC.Types.IO (GHC.Maybe.Maybe a)
tryTakeMVar :: forall a. MVar a -> GHC.Types.IO (GHC.Maybe.Maybe a)
withMVar :: forall a b. MVar a -> (a -> GHC.Types.IO b) -> GHC.Types.IO b
withMVarMasked :: forall a b. MVar a -> (a -> GHC.Types.IO b) -> GHC.Types.IO b
module Control.Concurrent.QSem where
-- Safety: Safe
type QSem :: *
newtype QSem = ...
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newQSem :: GHC.Types.Int -> GHC.Types.IO QSem
signalQSem :: QSem -> GHC.Types.IO ()
waitQSem :: QSem -> GHC.Types.IO ()
module Control.Concurrent.QSemN where
-- Safety: Trustworthy
type QSemN :: *
data QSemN = ...
newQSemN :: GHC.Types.Int -> GHC.Types.IO QSemN
signalQSemN :: QSemN -> GHC.Types.Int -> GHC.Types.IO ()
waitQSemN :: QSemN -> GHC.Types.Int -> GHC.Types.IO ()
module Control.Exception where
-- Safety: Trustworthy
type AllocationLimitExceeded :: *
data AllocationLimitExceeded = AllocationLimitExceeded
type ArithException :: *
data ArithException = Overflow | Underflow | LossOfPrecision | DivideByZero | Denormal | RatioZeroDenominator
type ArrayException :: *
data ArrayException = IndexOutOfBounds GHC.Base.String | UndefinedElement GHC.Base.String
type AssertionFailed :: *
newtype AssertionFailed = AssertionFailed GHC.Base.String
type AsyncException :: *
data AsyncException = StackOverflow | HeapOverflow | ThreadKilled | UserInterrupt
type BlockedIndefinitelyOnMVar :: *
data BlockedIndefinitelyOnMVar = BlockedIndefinitelyOnMVar
type BlockedIndefinitelyOnSTM :: *
data BlockedIndefinitelyOnSTM = BlockedIndefinitelyOnSTM
type CompactionFailed :: *
newtype CompactionFailed = CompactionFailed GHC.Base.String
type Deadlock :: *
data Deadlock = Deadlock
pattern ErrorCall :: GHC.Base.String -> ErrorCall
type ErrorCall :: *
data ErrorCall = ErrorCallWithLocation GHC.Base.String GHC.Base.String
type Exception :: * -> Constraint
class (base-4.18.0.0:Data.Typeable.Internal.Typeable e, GHC.Show.Show e) => Exception e where
toException :: e -> SomeException
fromException :: SomeException -> GHC.Maybe.Maybe e
displayException :: e -> GHC.Base.String
{-# MINIMAL #-}
type Handler :: * -> *
data Handler a = forall e. Exception e => Handler (e -> GHC.Types.IO a)
type IOException :: *
data IOException = ...
type MaskingState :: *
data MaskingState = Unmasked | MaskedInterruptible | MaskedUninterruptible
type NestedAtomically :: *
data NestedAtomically = NestedAtomically
type NoMethodError :: *
newtype NoMethodError = NoMethodError GHC.Base.String
type NonTermination :: *
data NonTermination = NonTermination
type PatternMatchFail :: *
newtype PatternMatchFail = PatternMatchFail GHC.Base.String
type RecConError :: *
newtype RecConError = RecConError GHC.Base.String
type RecSelError :: *
newtype RecSelError = RecSelError GHC.Base.String
type RecUpdError :: *
newtype RecUpdError = RecUpdError GHC.Base.String
type SomeAsyncException :: *
data SomeAsyncException = forall e. Exception e => SomeAsyncException e
type SomeException :: *
data SomeException = forall e. Exception e => SomeException e
type TypeError :: *
newtype TypeError = TypeError GHC.Base.String
allowInterrupt :: GHC.Types.IO ()
assert :: forall a. GHC.Types.Bool -> a -> a
asyncExceptionFromException :: forall e. Exception e => SomeException -> GHC.Maybe.Maybe e
asyncExceptionToException :: forall e. Exception e => e -> SomeException
bracket :: forall a b c. GHC.Types.IO a -> (a -> GHC.Types.IO b) -> (a -> GHC.Types.IO c) -> GHC.Types.IO c
bracketOnError :: forall a b c. GHC.Types.IO a -> (a -> GHC.Types.IO b) -> (a -> GHC.Types.IO c) -> GHC.Types.IO c
bracket_ :: forall a b c. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO c -> GHC.Types.IO c
catch :: forall e a. Exception e => GHC.Types.IO a -> (e -> GHC.Types.IO a) -> GHC.Types.IO a
catchJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> GHC.Types.IO a -> (b -> GHC.Types.IO a) -> GHC.Types.IO a
catches :: forall a. GHC.Types.IO a -> [Handler a] -> GHC.Types.IO a
evaluate :: forall a. a -> GHC.Types.IO a
finally :: forall a b. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO a
getMaskingState :: GHC.Types.IO MaskingState
handle :: forall e a. Exception e => (e -> GHC.Types.IO a) -> GHC.Types.IO a -> GHC.Types.IO a
handleJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> (b -> GHC.Types.IO a) -> GHC.Types.IO a -> GHC.Types.IO a
interruptible :: forall a. GHC.Types.IO a -> GHC.Types.IO a
ioError :: forall a. GHC.IO.Exception.IOError -> GHC.Types.IO a
mapException :: forall e1 e2 a. (Exception e1, Exception e2) => (e1 -> e2) -> a -> a
mask :: forall b. ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO b) -> GHC.Types.IO b
mask_ :: forall a. GHC.Types.IO a -> GHC.Types.IO a
onException :: forall a b. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO a
throw :: forall (r :: GHC.Types.RuntimeRep) (a :: TYPE r) e. Exception e => e -> a
throwIO :: forall e a. Exception e => e -> GHC.Types.IO a
throwTo :: forall e. Exception e => GHC.Conc.Sync.ThreadId -> e -> GHC.Types.IO ()
try :: forall e a. Exception e => GHC.Types.IO a -> GHC.Types.IO (Data.Either.Either e a)
tryJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> GHC.Types.IO a -> GHC.Types.IO (Data.Either.Either b a)
uninterruptibleMask :: forall b. ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO b) -> GHC.Types.IO b
uninterruptibleMask_ :: forall a. GHC.Types.IO a -> GHC.Types.IO a
module Control.Exception.Base where
-- Safety: Trustworthy
type AllocationLimitExceeded :: *
data AllocationLimitExceeded = AllocationLimitExceeded
type ArithException :: *
data ArithException = Overflow | Underflow | LossOfPrecision | DivideByZero | Denormal | RatioZeroDenominator
type ArrayException :: *
data ArrayException = IndexOutOfBounds GHC.Base.String | UndefinedElement GHC.Base.String
type AssertionFailed :: *
newtype AssertionFailed = AssertionFailed GHC.Base.String
type AsyncException :: *
data AsyncException = StackOverflow | HeapOverflow | ThreadKilled | UserInterrupt
type BlockedIndefinitelyOnMVar :: *
data BlockedIndefinitelyOnMVar = BlockedIndefinitelyOnMVar
type BlockedIndefinitelyOnSTM :: *
data BlockedIndefinitelyOnSTM = BlockedIndefinitelyOnSTM
type CompactionFailed :: *
newtype CompactionFailed = CompactionFailed GHC.Base.String
type Deadlock :: *
data Deadlock = Deadlock
pattern ErrorCall :: GHC.Base.String -> ErrorCall
type ErrorCall :: *
data ErrorCall = ErrorCallWithLocation GHC.Base.String GHC.Base.String
type Exception :: * -> Constraint
class (base-4.18.0.0:Data.Typeable.Internal.Typeable e, GHC.Show.Show e) => Exception e where
toException :: e -> SomeException
fromException :: SomeException -> GHC.Maybe.Maybe e
displayException :: e -> GHC.Base.String
{-# MINIMAL #-}
type FixIOException :: *
data FixIOException = FixIOException
type IOException :: *
data IOException = ...
type MaskingState :: *
data MaskingState = Unmasked | MaskedInterruptible | MaskedUninterruptible
type NestedAtomically :: *
data NestedAtomically = NestedAtomically
type NoMatchingContinuationPrompt :: *
data NoMatchingContinuationPrompt = NoMatchingContinuationPrompt
type NoMethodError :: *
newtype NoMethodError = NoMethodError GHC.Base.String
type NonTermination :: *
data NonTermination = NonTermination
type PatternMatchFail :: *
newtype PatternMatchFail = PatternMatchFail GHC.Base.String
type RecConError :: *
newtype RecConError = RecConError GHC.Base.String
type RecSelError :: *
newtype RecSelError = RecSelError GHC.Base.String
type RecUpdError :: *
newtype RecUpdError = RecUpdError GHC.Base.String
type SomeAsyncException :: *
data SomeAsyncException = forall e. Exception e => SomeAsyncException e
type SomeException :: *
data SomeException = forall e. Exception e => SomeException e
type TypeError :: *
newtype TypeError = TypeError GHC.Base.String
assert :: forall a. GHC.Types.Bool -> a -> a
asyncExceptionFromException :: forall e. Exception e => SomeException -> GHC.Maybe.Maybe e
asyncExceptionToException :: forall e. Exception e => e -> SomeException
bracket :: forall a b c. GHC.Types.IO a -> (a -> GHC.Types.IO b) -> (a -> GHC.Types.IO c) -> GHC.Types.IO c
bracketOnError :: forall a b c. GHC.Types.IO a -> (a -> GHC.Types.IO b) -> (a -> GHC.Types.IO c) -> GHC.Types.IO c
bracket_ :: forall a b c. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO c -> GHC.Types.IO c
catch :: forall e a. Exception e => GHC.Types.IO a -> (e -> GHC.Types.IO a) -> GHC.Types.IO a
catchJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> GHC.Types.IO a -> (b -> GHC.Types.IO a) -> GHC.Types.IO a
evaluate :: forall a. a -> GHC.Types.IO a
finally :: forall a b. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO a
getMaskingState :: GHC.Types.IO MaskingState
handle :: forall e a. Exception e => (e -> GHC.Types.IO a) -> GHC.Types.IO a -> GHC.Types.IO a
handleJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> (b -> GHC.Types.IO a) -> GHC.Types.IO a -> GHC.Types.IO a
impossibleConstraintError :: forall (q :: GHC.Types.RuntimeRep) (a :: GHC.Prim.CONSTRAINT q). GHC.Prim.Addr# -=> a
impossibleError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
ioError :: forall a. GHC.IO.Exception.IOError -> GHC.Types.IO a
mapException :: forall e1 e2 a. (Exception e1, Exception e2) => (e1 -> e2) -> a -> a
mask :: forall b. ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO b) -> GHC.Types.IO b
mask_ :: forall a. GHC.Types.IO a -> GHC.Types.IO a
nestedAtomically :: SomeException
noMatchingContinuationPrompt :: SomeException
noMethodBindingError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
nonExhaustiveGuardsError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
nonTermination :: SomeException
onException :: forall a b. GHC.Types.IO a -> GHC.Types.IO b -> GHC.Types.IO a
patError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
recConError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
recSelError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
throw :: forall (r :: GHC.Types.RuntimeRep) (a :: TYPE r) e. Exception e => e -> a
throwIO :: forall e a. Exception e => e -> GHC.Types.IO a
throwTo :: forall e. Exception e => GHC.Conc.Sync.ThreadId -> e -> GHC.Types.IO ()
try :: forall e a. Exception e => GHC.Types.IO a -> GHC.Types.IO (Data.Either.Either e a)
tryJust :: forall e b a. Exception e => (e -> GHC.Maybe.Maybe b) -> GHC.Types.IO a -> GHC.Types.IO (Data.Either.Either b a)
typeError :: forall (q :: GHC.Types.RuntimeRep) (a :: TYPE q). GHC.Prim.Addr# -> a
uninterruptibleMask :: forall b. ((forall a. GHC.Types.IO a -> GHC.Types.IO a) -> GHC.Types.IO b) -> GHC.Types.IO b
uninterruptibleMask_ :: forall a. GHC.Types.IO a -> GHC.Types.IO a
module Control.Monad where
-- Safety: Trustworthy
(<$!>) :: forall (m :: * -> *) a b. Monad m => (a -> b) -> m a -> m b
(<=<) :: forall (m :: * -> *) b c a. Monad m => (b -> m c) -> (a -> m b) -> a -> m c
(=<<) :: forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
(>=>) :: forall (m :: * -> *) a b c. Monad m => (a -> m b) -> (b -> m c) -> a -> m c
type Functor :: (* -> *) -> Constraint
class Functor f where
fmap :: forall a b. (a -> b) -> f a -> f b
(<$) :: forall a b. a -> f b -> f a
{-# MINIMAL fmap #-}
type Monad :: (* -> *) -> Constraint
class GHC.Base.Applicative m => Monad m where
(>>=) :: forall a b. m a -> (a -> m b) -> m b
(>>) :: forall a b. m a -> m b -> m b
return :: forall a. a -> m a
{-# MINIMAL (>>=) #-}
type MonadFail :: (* -> *) -> Constraint
class Monad m => MonadFail m where
fail :: forall a. GHC.Base.String -> m a
{-# MINIMAL fail #-}
type MonadPlus :: (* -> *) -> Constraint
class (GHC.Base.Alternative m, Monad m) => MonadPlus m where
mzero :: forall a. m a
mplus :: forall a. m a -> m a -> m a
{-# MINIMAL #-}
ap :: forall (m :: * -> *) a b. Monad m => m (a -> b) -> m a -> m b
filterM :: forall (m :: * -> *) a. GHC.Base.Applicative m => (a -> m GHC.Types.Bool) -> [a] -> m [a]
foldM :: forall (t :: * -> *) (m :: * -> *) b a. (Data.Foldable.Foldable t, Monad m) => (b -> a -> m b) -> b -> t a -> m b
foldM_ :: forall (t :: * -> *) (m :: * -> *) b a. (Data.Foldable.Foldable t, Monad m) => (b -> a -> m b) -> b -> t a -> m ()
forM :: forall (t :: * -> *) (m :: * -> *) a b. (Data.Traversable.Traversable t, Monad m) => t a -> (a -> m b) -> m (t b)
forM_ :: forall (t :: * -> *) (m :: * -> *) a b. (Data.Foldable.Foldable t, Monad m) => t a -> (a -> m b) -> m ()
forever :: forall (f :: * -> *) a b. GHC.Base.Applicative f => f a -> f b
guard :: forall (f :: * -> *). GHC.Base.Alternative f => GHC.Types.Bool -> f ()
join :: forall (m :: * -> *) a. Monad m => m (m a) -> m a
liftM :: forall (m :: * -> *) a1 r. Monad m => (a1 -> r) -> m a1 -> m r
liftM2 :: forall (m :: * -> *) a1 a2 r. Monad m => (a1 -> a2 -> r) -> m a1 -> m a2 -> m r
liftM3 :: forall (m :: * -> *) a1 a2 a3 r. Monad m => (a1 -> a2 -> a3 -> r) -> m a1 -> m a2 -> m a3 -> m r
liftM4 :: forall (m :: * -> *) a1 a2 a3 a4 r. Monad m => (a1 -> a2 -> a3 -> a4 -> r) -> m a1 -> m a2 -> m a3 -> m a4 -> m r
liftM5 :: forall (m :: * -> *) a1 a2 a3 a4 a5 r. Monad m => (a1 -> a2 -> a3 -> a4 -> a5 -> r) -> m a1 -> m a2 -> m a3 -> m a4 -> m a5 -> m r
mapAndUnzipM :: forall (m :: * -> *) a b c. GHC.Base.Applicative m => (a -> m (b, c)) -> [a] -> m ([b], [c])
mapM :: forall (t :: * -> *) (m :: * -> *) a b. (Data.Traversable.Traversable t, Monad m) => (a -> m b) -> t a -> m (t b)
mapM_ :: forall (t :: * -> *) (m :: * -> *) a b. (Data.Foldable.Foldable t, Monad m) => (a -> m b) -> t a -> m ()
mfilter :: forall (m :: * -> *) a. MonadPlus m => (a -> GHC.Types.Bool) -> m a -> m a
msum :: forall (t :: * -> *) (m :: * -> *) a. (Data.Foldable.Foldable t, MonadPlus m) => t (m a) -> m a
replicateM :: forall (m :: * -> *) a. GHC.Base.Applicative m => GHC.Types.Int -> m a -> m [a]
replicateM_ :: forall (m :: * -> *) a. GHC.Base.Applicative m => GHC.Types.Int -> m a -> m ()
sequence :: forall (t :: * -> *) (m :: * -> *) a. (Data.Traversable.Traversable t, Monad m) => t (m a) -> m (t a)
sequence_ :: forall (t :: * -> *) (m :: * -> *) a. (Data.Foldable.Foldable t, Monad m) => t (m a) -> m ()
unless :: forall (f :: * -> *). GHC.Base.Applicative f => GHC.Types.Bool -> f () -> f ()
void :: forall (f :: * -> *) a. Functor f => f a -> f ()
when :: forall (f :: * -> *). GHC.Base.Applicative f => GHC.Types.Bool -> f () -> f ()
zipWithM :: forall (m :: * -> *) a b c. GHC.Base.Applicative m => (a -> b -> m c) -> [a] -> [b] -> m [c]
zipWithM_ :: forall (m :: * -> *) a b c. GHC.Base.Applicative m => (a -> b -> m c) -> [a] -> [b] -> m ()
module Control.Monad.Fail where
-- Safety: Trustworthy
type MonadFail :: (* -> *) -> Constraint
class GHC.Base.Monad m => MonadFail m where
fail :: forall a. GHC.Base.String -> m a
{-# MINIMAL fail #-}
module Control.Monad.Fix where
-- Safety: Trustworthy
type MonadFix :: (* -> *) -> Constraint
class GHC.Base.Monad m => MonadFix m where
mfix :: forall a. (a -> m a) -> m a
{-# MINIMAL mfix #-}
fix :: forall a. (a -> a) -> a
module Control.Monad.IO.Class where
-- Safety: Safe
type MonadIO :: (* -> *) -> Constraint
class GHC.Base.Monad m => MonadIO m where
liftIO :: forall a. GHC.Types.IO a -> m a
{-# MINIMAL liftIO #-}
module Control.Monad.Instances where
-- Safety: Safe
type Functor :: (* -> *) -> Constraint
class Functor f where
fmap :: forall a b. (a -> b) -> f a -> f b
(<$) :: forall a b. a -> f b -> f a
{-# MINIMAL fmap #-}
type Monad :: (* -> *) -> Constraint
class GHC.Base.Applicative m => Monad m where
(>>=) :: forall a b. m a -> (a -> m b) -> m b
(>>) :: forall a b. m a -> m b -> m b
return :: forall a. a -> m a
{-# MINIMAL (>>=) #-}
module Control.Monad.ST where
-- Safety: Trustworthy
type RealWorld :: *
data RealWorld
type role ST nominal representational
type ST :: * -> * -> *
newtype ST s a = ...
fixST :: forall a s. (a -> ST s a) -> ST s a
runST :: forall a. (forall s. ST s a) -> a
stToIO :: forall a. ST RealWorld a -> GHC.Types.IO a
module Control.Monad.ST.Lazy where
-- Safety: Trustworthy
type RealWorld :: *
data RealWorld
type role ST nominal representational
type ST :: * -> * -> *
newtype ST s a = ...
fixST :: forall a s. (a -> ST s a) -> ST s a
lazyToStrictST :: forall s a. ST s a -> GHC.ST.ST s a
runST :: forall a. (forall s. ST s a) -> a
stToIO :: forall a. ST RealWorld a -> GHC.Types.IO a
strictToLazyST :: forall s a. GHC.ST.ST s a -> ST s a
module Control.Monad.ST.Lazy.Safe where
-- Safety: Trustworthy
type RealWorld :: *
data RealWorld
type role ST nominal representational
type ST :: * -> * -> *
newtype ST s a = ...
fixST :: forall a s. (a -> ST s a) -> ST s a
lazyToStrictST :: forall s a. ST s a -> GHC.ST.ST s a
runST :: forall a. (forall s. ST s a) -> a
stToIO :: forall a. ST RealWorld a -> GHC.Types.IO a
strictToLazyST :: forall s a. GHC.ST.ST s a -> ST s a
module Control.Monad.ST.Lazy.Unsafe where
-- Safety: Unsafe
unsafeIOToST :: forall a s. GHC.Types.IO a -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s a
unsafeInterleaveST :: forall s a. base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s a -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s a
module Control.Monad.ST.Safe where
-- Safety: Trustworthy
type RealWorld :: *
data RealWorld
type role ST nominal representational
type ST :: * -> * -> *
newtype ST s a = ...
fixST :: forall a s. (a -> ST s a) -> ST s a
runST :: forall a. (forall s. ST s a) -> a
stToIO :: forall a. ST RealWorld a -> GHC.Types.IO a
module Control.Monad.ST.Strict where
-- Safety: Safe
type RealWorld :: *
data RealWorld
type role ST nominal representational
type ST :: * -> * -> *
newtype ST s a = ...
fixST :: forall a s. (a -> ST s a) -> ST s a
runST :: forall a. (forall s. ST s a) -> a
stToIO :: forall a. ST RealWorld a -> GHC.Types.IO a
module Control.Monad.ST.Unsafe where
-- Safety: Unsafe
unsafeDupableInterleaveST :: forall s a. GHC.ST.ST s a -> GHC.ST.ST s a
unsafeIOToST :: forall a s. GHC.Types.IO a -> GHC.ST.ST s a
unsafeInterleaveST :: forall s a. GHC.ST.ST s a -> GHC.ST.ST s a
unsafeSTToIO :: forall s a. GHC.ST.ST s a -> GHC.Types.IO a
module Control.Monad.Zip where
-- Safety: Safe
type MonadZip :: (* -> *) -> Constraint
class GHC.Base.Monad m => MonadZip m where
mzip :: forall a b. m a -> m b -> m (a, b)
mzipWith :: forall a b c. (a -> b -> c) -> m a -> m b -> m c
munzip :: forall a b. m (a, b) -> (m a, m b)
{-# MINIMAL mzip | mzipWith #-}
module Data.Array.Byte where
-- Safety: Trustworthy
type ByteArray :: *
data ByteArray = ByteArray GHC.Prim.ByteArray#
type role MutableByteArray nominal
type MutableByteArray :: * -> *
data MutableByteArray s = MutableByteArray (GHC.Prim.MutableByteArray# s)
module Data.Bifoldable where
-- Safety: Safe
type Bifoldable :: (* -> * -> *) -> Constraint
class Bifoldable p where
bifold :: forall m. GHC.Base.Monoid m => p m m -> m
bifoldMap :: forall m a b. GHC.Base.Monoid m => (a -> m) -> (b -> m) -> p a b -> m
bifoldr :: forall a c b. (a -> c -> c) -> (b -> c -> c) -> c -> p a b -> c
bifoldl :: forall c a b. (c -> a -> c) -> (c -> b -> c) -> c -> p a b -> c
{-# MINIMAL bifoldr | bifoldMap #-}
biList :: forall (t :: * -> * -> *) a. Bifoldable t => t a a -> [a]
biall :: forall (t :: * -> * -> *) a b. Bifoldable t => (a -> GHC.Types.Bool) -> (b -> GHC.Types.Bool) -> t a b -> GHC.Types.Bool
biand :: forall (t :: * -> * -> *). Bifoldable t => t GHC.Types.Bool GHC.Types.Bool -> GHC.Types.Bool
biany :: forall (t :: * -> * -> *) a b. Bifoldable t => (a -> GHC.Types.Bool) -> (b -> GHC.Types.Bool) -> t a b -> GHC.Types.Bool
biasum :: forall (t :: * -> * -> *) (f :: * -> *) a. (Bifoldable t, GHC.Base.Alternative f) => t (f a) (f a) -> f a
biconcat :: forall (t :: * -> * -> *) a. Bifoldable t => t [a] [a] -> [a]
biconcatMap :: forall (t :: * -> * -> *) a c b. Bifoldable t => (a -> [c]) -> (b -> [c]) -> t a b -> [c]
bielem :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Classes.Eq a) => a -> t a a -> GHC.Types.Bool
bifind :: forall (t :: * -> * -> *) a. Bifoldable t => (a -> GHC.Types.Bool) -> t a a -> GHC.Maybe.Maybe a
bifoldl' :: forall (t :: * -> * -> *) a b c. Bifoldable t => (a -> b -> a) -> (a -> c -> a) -> a -> t b c -> a
bifoldl1 :: forall (t :: * -> * -> *) a. Bifoldable t => (a -> a -> a) -> t a a -> a
bifoldlM :: forall (t :: * -> * -> *) (m :: * -> *) a b c. (Bifoldable t, GHC.Base.Monad m) => (a -> b -> m a) -> (a -> c -> m a) -> a -> t b c -> m a
bifoldr' :: forall (t :: * -> * -> *) a c b. Bifoldable t => (a -> c -> c) -> (b -> c -> c) -> c -> t a b -> c
bifoldr1 :: forall (t :: * -> * -> *) a. Bifoldable t => (a -> a -> a) -> t a a -> a
bifoldrM :: forall (t :: * -> * -> *) (m :: * -> *) a c b. (Bifoldable t, GHC.Base.Monad m) => (a -> c -> m c) -> (b -> c -> m c) -> c -> t a b -> m c
biforM_ :: forall (t :: * -> * -> *) (f :: * -> *) a b c d. (Bifoldable t, GHC.Base.Applicative f) => t a b -> (a -> f c) -> (b -> f d) -> f ()
bifor_ :: forall (t :: * -> * -> *) (f :: * -> *) a b c d. (Bifoldable t, GHC.Base.Applicative f) => t a b -> (a -> f c) -> (b -> f d) -> f ()
bilength :: forall (t :: * -> * -> *) a b. Bifoldable t => t a b -> GHC.Types.Int
bimapM_ :: forall (t :: * -> * -> *) (f :: * -> *) a c b d. (Bifoldable t, GHC.Base.Applicative f) => (a -> f c) -> (b -> f d) -> t a b -> f ()
bimaximum :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Classes.Ord a) => t a a -> a
bimaximumBy :: forall (t :: * -> * -> *) a. Bifoldable t => (a -> a -> GHC.Types.Ordering) -> t a a -> a
biminimum :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Classes.Ord a) => t a a -> a
biminimumBy :: forall (t :: * -> * -> *) a. Bifoldable t => (a -> a -> GHC.Types.Ordering) -> t a a -> a
bimsum :: forall (t :: * -> * -> *) (f :: * -> *) a. (Bifoldable t, GHC.Base.Alternative f) => t (f a) (f a) -> f a
binotElem :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Classes.Eq a) => a -> t a a -> GHC.Types.Bool
binull :: forall (t :: * -> * -> *) a b. Bifoldable t => t a b -> GHC.Types.Bool
bior :: forall (t :: * -> * -> *). Bifoldable t => t GHC.Types.Bool GHC.Types.Bool -> GHC.Types.Bool
biproduct :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Num.Num a) => t a a -> a
bisequenceA_ :: forall (t :: * -> * -> *) (f :: * -> *) a b. (Bifoldable t, GHC.Base.Applicative f) => t (f a) (f b) -> f ()
bisequence_ :: forall (t :: * -> * -> *) (f :: * -> *) a b. (Bifoldable t, GHC.Base.Applicative f) => t (f a) (f b) -> f ()
bisum :: forall (t :: * -> * -> *) a. (Bifoldable t, GHC.Num.Num a) => t a a -> a
bitraverse_ :: forall (t :: * -> * -> *) (f :: * -> *) a c b d. (Bifoldable t, GHC.Base.Applicative f) => (a -> f c) -> (b -> f d) -> t a b -> f ()
module Data.Bifoldable1 where
-- Safety: Safe
type Bifoldable1 :: (* -> * -> *) -> Constraint
class Data.Bifoldable.Bifoldable t => Bifoldable1 t where
bifold1 :: forall m. GHC.Base.Semigroup m => t m m -> m
bifoldMap1 :: forall m a b. GHC.Base.Semigroup m => (a -> m) -> (b -> m) -> t a b -> m
{-# MINIMAL bifoldMap1 #-}
module Data.Bifunctor where
-- Safety: Safe
type Bifunctor :: (* -> * -> *) -> Constraint
class (forall a. GHC.Base.Functor (p a)) => Bifunctor p where
bimap :: forall a b c d. (a -> b) -> (c -> d) -> p a c -> p b d
first :: forall a b c. (a -> b) -> p a c -> p b c
second :: forall b c a. (b -> c) -> p a b -> p a c
{-# MINIMAL bimap | first, second #-}
module Data.Bitraversable where
-- Safety: Trustworthy
type Bitraversable :: (* -> * -> *) -> Constraint
class (Data.Bifunctor.Bifunctor t, Data.Bifoldable.Bifoldable t) => Bitraversable t where
bitraverse :: forall (f :: * -> *) a c b d. GHC.Base.Applicative f => (a -> f c) -> (b -> f d) -> t a b -> f (t c d)
{-# MINIMAL bitraverse #-}
bifoldMapDefault :: forall (t :: * -> * -> *) m a b. (Bitraversable t, GHC.Base.Monoid m) => (a -> m) -> (b -> m) -> t a b -> m
bifor :: forall (t :: * -> * -> *) (f :: * -> *) a b c d. (Bitraversable t, GHC.Base.Applicative f) => t a b -> (a -> f c) -> (b -> f d) -> f (t c d)
biforM :: forall (t :: * -> * -> *) (f :: * -> *) a b c d. (Bitraversable t, GHC.Base.Applicative f) => t a b -> (a -> f c) -> (b -> f d) -> f (t c d)
bimapAccumL :: forall (t :: * -> * -> *) a b c d e. Bitraversable t => (a -> b -> (a, c)) -> (a -> d -> (a, e)) -> a -> t b d -> (a, t c e)
bimapAccumR :: forall (t :: * -> * -> *) a b c d e. Bitraversable t => (a -> b -> (a, c)) -> (a -> d -> (a, e)) -> a -> t b d -> (a, t c e)
bimapDefault :: forall (t :: * -> * -> *) a b c d. Bitraversable t => (a -> b) -> (c -> d) -> t a c -> t b d
bimapM :: forall (t :: * -> * -> *) (f :: * -> *) a c b d. (Bitraversable t, GHC.Base.Applicative f) => (a -> f c) -> (b -> f d) -> t a b -> f (t c d)
bisequence :: forall (t :: * -> * -> *) (f :: * -> *) a b. (Bitraversable t, GHC.Base.Applicative f) => t (f a) (f b) -> f (t a b)
bisequenceA :: forall (t :: * -> * -> *) (f :: * -> *) a b. (Bitraversable t, GHC.Base.Applicative f) => t (f a) (f b) -> f (t a b)
module Data.Bits where
-- Safety: Trustworthy
(!<<.) :: forall a. Bits a => a -> GHC.Types.Int -> a
(!>>.) :: forall a. Bits a => a -> GHC.Types.Int -> a
(.<<.) :: forall a. Bits a => a -> GHC.Types.Int -> a
(.>>.) :: forall a. Bits a => a -> GHC.Types.Int -> a
(.^.) :: forall a. Bits a => a -> a -> a
type And :: * -> *
newtype And a = And {getAnd :: a}
type Bits :: * -> Constraint
class GHC.Classes.Eq a => Bits a where
(.&.) :: a -> a -> a
(.|.) :: a -> a -> a
xor :: a -> a -> a
complement :: a -> a
shift :: a -> GHC.Types.Int -> a
rotate :: a -> GHC.Types.Int -> a
zeroBits :: a
bit :: GHC.Types.Int -> a
setBit :: a -> GHC.Types.Int -> a
clearBit :: a -> GHC.Types.Int -> a
complementBit :: a -> GHC.Types.Int -> a
testBit :: a -> GHC.Types.Int -> GHC.Types.Bool
bitSizeMaybe :: a -> GHC.Maybe.Maybe GHC.Types.Int
bitSize :: a -> GHC.Types.Int
isSigned :: a -> GHC.Types.Bool
shiftL :: a -> GHC.Types.Int -> a
unsafeShiftL :: a -> GHC.Types.Int -> a
shiftR :: a -> GHC.Types.Int -> a
unsafeShiftR :: a -> GHC.Types.Int -> a
rotateL :: a -> GHC.Types.Int -> a
rotateR :: a -> GHC.Types.Int -> a
popCount :: a -> GHC.Types.Int
{-# MINIMAL (.&.), (.|.), xor, complement, (shift | (shiftL, shiftR)), (rotate | (rotateL, rotateR)), bitSize, bitSizeMaybe, isSigned, testBit, bit, popCount #-}
type FiniteBits :: * -> Constraint
class Bits b => FiniteBits b where
finiteBitSize :: b -> GHC.Types.Int
countLeadingZeros :: b -> GHC.Types.Int
countTrailingZeros :: b -> GHC.Types.Int
{-# MINIMAL finiteBitSize #-}
type Iff :: * -> *
newtype Iff a = Iff {getIff :: a}
type Ior :: * -> *
newtype Ior a = Ior {getIor :: a}
type Xor :: * -> *
newtype Xor a = Xor {getXor :: a}
bitDefault :: forall a. (Bits a, GHC.Num.Num a) => GHC.Types.Int -> a
oneBits :: forall a. FiniteBits a => a
popCountDefault :: forall a. (Bits a, GHC.Num.Num a) => a -> GHC.Types.Int
testBitDefault :: forall a. (Bits a, GHC.Num.Num a) => a -> GHC.Types.Int -> GHC.Types.Bool
toIntegralSized :: forall a b. (GHC.Real.Integral a, GHC.Real.Integral b, Bits a, Bits b) => a -> GHC.Maybe.Maybe b
module Data.Bool where
-- Safety: Trustworthy
(&&) :: Bool -> Bool -> Bool
type Bool :: *
data Bool = False | True
bool :: forall a. a -> a -> Bool -> a
not :: Bool -> Bool
otherwise :: Bool
(||) :: Bool -> Bool -> Bool
module Data.Char where
-- Safety: Trustworthy
type Char :: *
data Char = ...
type GeneralCategory :: *
data GeneralCategory = UppercaseLetter | LowercaseLetter | TitlecaseLetter | ModifierLetter | OtherLetter | NonSpacingMark | SpacingCombiningMark | EnclosingMark | DecimalNumber | LetterNumber | OtherNumber | ConnectorPunctuation | DashPunctuation | OpenPunctuation | ClosePunctuation | InitialQuote | FinalQuote | OtherPunctuation | MathSymbol | CurrencySymbol | ModifierSymbol | OtherSymbol | Space | LineSeparator | ParagraphSeparator | Control | Format | Surrogate | PrivateUse | NotAssigned
chr :: GHC.Types.Int -> Char
digitToInt :: Char -> GHC.Types.Int
generalCategory :: Char -> GeneralCategory
intToDigit :: GHC.Types.Int -> Char
isAlpha :: Char -> GHC.Types.Bool
isAlphaNum :: Char -> GHC.Types.Bool
isAscii :: Char -> GHC.Types.Bool
isAsciiLower :: Char -> GHC.Types.Bool
isAsciiUpper :: Char -> GHC.Types.Bool
isControl :: Char -> GHC.Types.Bool
isDigit :: Char -> GHC.Types.Bool
isHexDigit :: Char -> GHC.Types.Bool
isLatin1 :: Char -> GHC.Types.Bool
isLetter :: Char -> GHC.Types.Bool
isLower :: Char -> GHC.Types.Bool
isLowerCase :: Char -> GHC.Types.Bool
isMark :: Char -> GHC.Types.Bool
isNumber :: Char -> GHC.Types.Bool
isOctDigit :: Char -> GHC.Types.Bool
isPrint :: Char -> GHC.Types.Bool
isPunctuation :: Char -> GHC.Types.Bool
isSeparator :: Char -> GHC.Types.Bool
isSpace :: Char -> GHC.Types.Bool
isSymbol :: Char -> GHC.Types.Bool
isUpper :: Char -> GHC.Types.Bool
isUpperCase :: Char -> GHC.Types.Bool
lexLitChar :: Text.ParserCombinators.ReadP.ReadS GHC.Base.String
ord :: Char -> GHC.Types.Int
readLitChar :: Text.ParserCombinators.ReadP.ReadS Char
showLitChar :: Char -> GHC.Show.ShowS
toLower :: Char -> Char
toTitle :: Char -> Char
toUpper :: Char -> Char
module Data.Coerce where
-- Safety: Unsafe
type role Coercible representational representational
type Coercible :: forall k. k -> k -> Constraint
class Coercible a b => Coercible a b
{-# MINIMAL #-}
coerce :: forall {k :: GHC.Types.RuntimeRep} (a :: TYPE k) (b :: TYPE k). Coercible a b => a -> b
module Data.Complex where
-- Safety: Trustworthy
type Complex :: * -> *
data Complex a = !a :+ !a
cis :: forall a. GHC.Float.Floating a => a -> Complex a
conjugate :: forall a. GHC.Num.Num a => Complex a -> Complex a
imagPart :: forall a. Complex a -> a
magnitude :: forall a. GHC.Float.RealFloat a => Complex a -> a
mkPolar :: forall a. GHC.Float.Floating a => a -> a -> Complex a
phase :: forall a. GHC.Float.RealFloat a => Complex a -> a
polar :: forall a. GHC.Float.RealFloat a => Complex a -> (a, a)
realPart :: forall a. Complex a -> a
module Data.Data where
-- Safety: Trustworthy
type role (:~:) nominal nominal
type (:~:) :: forall {k}. k -> k -> *
data (:~:) a b where
Refl :: forall {k} (a :: k). (:~:) a a
type role (:~~:) nominal nominal
type (:~~:) :: forall k1 k2. k1 -> k2 -> *
data (:~~:) a b where
HRefl :: forall {k1} (a :: k1). (:~~:) a a
type ConIndex :: *
type ConIndex = GHC.Types.Int
type Constr :: *
data Constr = ...
type ConstrRep :: *
data ConstrRep = AlgConstr ConIndex | IntConstr GHC.Num.Integer.Integer | FloatConstr GHC.Real.Rational | CharConstr GHC.Types.Char
type Data :: * -> Constraint
class Typeable a => Data a where
gfoldl :: forall (c :: * -> *). (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> a -> c a
gunfold :: forall (c :: * -> *). (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c a
toConstr :: a -> Constr
dataTypeOf :: a -> DataType
dataCast1 :: forall (t :: * -> *) (c :: * -> *). Typeable t => (forall d. Data d => c (t d)) -> GHC.Maybe.Maybe (c a)
dataCast2 :: forall (t :: * -> * -> *) (c :: * -> *). Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> GHC.Maybe.Maybe (c a)
gmapT :: (forall b. Data b => b -> b) -> a -> a
gmapQl :: forall r r'. (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> a -> r
gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> a -> r
gmapQ :: forall u. (forall d. Data d => d -> u) -> a -> [u]
gmapQi :: forall u. GHC.Types.Int -> (forall d. Data d => d -> u) -> a -> u
gmapM :: forall (m :: * -> *). GHC.Base.Monad m => (forall d. Data d => d -> m d) -> a -> m a
gmapMp :: forall (m :: * -> *). GHC.Base.MonadPlus m => (forall d. Data d => d -> m d) -> a -> m a
gmapMo :: forall (m :: * -> *). GHC.Base.MonadPlus m => (forall d. Data d => d -> m d) -> a -> m a
{-# MINIMAL gunfold, toConstr, dataTypeOf #-}
type DataRep :: *
data DataRep = AlgRep [Constr] | IntRep | FloatRep | CharRep | NoRep
type DataType :: *
data DataType = ...
type Fixity :: *
data Fixity = Prefix | Infix
type role Proxy phantom
type Proxy :: forall {k}. k -> *
data Proxy t = Proxy
type TyCon :: *
data TyCon = ...
type TypeRep :: *
type TypeRep = base-4.18.0.0:Data.Typeable.Internal.SomeTypeRep
type Typeable :: forall k. k -> Constraint
class Typeable a where
...
{-# MINIMAL base-4.18.0.0:Data.Typeable.Internal.typeRep# #-}
cast :: forall a b. (Typeable a, Typeable b) => a -> GHC.Maybe.Maybe b
constrFields :: Constr -> [GHC.Base.String]
constrFixity :: Constr -> Fixity
constrIndex :: Constr -> ConIndex
constrRep :: Constr -> ConstrRep
constrType :: Constr -> DataType
dataTypeConstrs :: DataType -> [Constr]
dataTypeName :: DataType -> GHC.Base.String
dataTypeRep :: DataType -> DataRep
decT :: forall {k} (a :: k) (b :: k). (Typeable a, Typeable b) => Data.Either.Either ((a :~: b) -> GHC.Base.Void) (a :~: b)
eqT :: forall {k} (a :: k) (b :: k). (Typeable a, Typeable b) => GHC.Maybe.Maybe (a :~: b)
fromConstr :: forall a. Data a => Constr -> a
fromConstrB :: forall a. Data a => (forall d. Data d => d) -> Constr -> a
fromConstrM :: forall (m :: * -> *) a. (GHC.Base.Monad m, Data a) => (forall d. Data d => m d) -> Constr -> m a
funResultTy :: TypeRep -> TypeRep -> GHC.Maybe.Maybe TypeRep
gcast :: forall {k} (a :: k) (b :: k) (c :: k -> *). (Typeable a, Typeable b) => c a -> GHC.Maybe.Maybe (c b)
gcast1 :: forall {k1} {k2} (c :: k1 -> *) (t :: k2 -> k1) (t' :: k2 -> k1) (a :: k2). (Typeable t, Typeable t') => c (t a) -> GHC.Maybe.Maybe (c (t' a))
gcast2 :: forall {k1} {k2} {k3} (c :: k1 -> *) (t :: k2 -> k3 -> k1) (t' :: k2 -> k3 -> k1) (a :: k2) (b :: k3). (Typeable t, Typeable t') => c (t a b) -> GHC.Maybe.Maybe (c (t' a b))
hdecT :: forall {k1} {k2} (a :: k1) (b :: k2). (Typeable a, Typeable b) => Data.Either.Either ((a :~~: b) -> GHC.Base.Void) (a :~~: b)
heqT :: forall {k1} {k2} (a :: k1) (b :: k2). (Typeable a, Typeable b) => GHC.Maybe.Maybe (a :~~: b)
indexConstr :: DataType -> ConIndex -> Constr
isAlgType :: DataType -> GHC.Types.Bool
isNorepType :: DataType -> GHC.Types.Bool
maxConstrIndex :: DataType -> ConIndex
mkCharConstr :: DataType -> GHC.Types.Char -> Constr
mkCharType :: GHC.Base.String -> DataType
mkConstr :: DataType -> GHC.Base.String -> [GHC.Base.String] -> Fixity -> Constr
mkConstrTag :: DataType -> GHC.Base.String -> GHC.Types.Int -> [GHC.Base.String] -> Fixity -> Constr
mkDataType :: GHC.Base.String -> [Constr] -> DataType
mkFloatType :: GHC.Base.String -> DataType
mkFunTy :: TypeRep -> TypeRep -> TypeRep
mkIntType :: GHC.Base.String -> DataType
mkIntegralConstr :: forall a. (GHC.Real.Integral a, GHC.Show.Show a) => DataType -> a -> Constr
mkNoRepType :: GHC.Base.String -> DataType
mkRealConstr :: forall a. (GHC.Real.Real a, GHC.Show.Show a) => DataType -> a -> Constr
readConstr :: DataType -> GHC.Base.String -> GHC.Maybe.Maybe Constr
repConstr :: DataType -> ConstrRep -> Constr
rnfTyCon :: TyCon -> ()
rnfTypeRep :: TypeRep -> ()
showConstr :: Constr -> GHC.Base.String
showsTypeRep :: TypeRep -> GHC.Show.ShowS
splitTyConApp :: TypeRep -> (TyCon, [TypeRep])
trLiftedRep :: base-4.18.0.0:Data.Typeable.Internal.TypeRep GHC.Types.LiftedRep
tyConFingerprint :: TyCon -> GHC.Fingerprint.Type.Fingerprint
tyConModule :: TyCon -> GHC.Base.String
tyConName :: TyCon -> GHC.Base.String
tyConPackage :: TyCon -> GHC.Base.String
tyconModule :: GHC.Base.String -> GHC.Base.String
tyconUQname :: GHC.Base.String -> GHC.Base.String
typeOf :: forall a. Typeable a => a -> TypeRep
typeOf1 :: forall (t :: * -> *) a. Typeable t => t a -> TypeRep
typeOf2 :: forall (t :: * -> * -> *) a b. Typeable t => t a b -> TypeRep
typeOf3 :: forall (t :: * -> * -> * -> *) a b c. Typeable t => t a b c -> TypeRep
typeOf4 :: forall (t :: * -> * -> * -> * -> *) a b c d. Typeable t => t a b c d -> TypeRep
typeOf5 :: forall (t :: * -> * -> * -> * -> * -> *) a b c d e. Typeable t => t a b c d e -> TypeRep
typeOf6 :: forall (t :: * -> * -> * -> * -> * -> * -> *) a b c d e f. Typeable t => t a b c d e f -> TypeRep
typeOf7 :: forall (t :: * -> * -> * -> * -> * -> * -> * -> *) a b c d e f g. Typeable t => t a b c d e f g -> TypeRep
typeRep :: forall {k} (proxy :: k -> *) (a :: k). Typeable a => proxy a -> TypeRep
typeRepArgs :: TypeRep -> [TypeRep]
typeRepFingerprint :: TypeRep -> GHC.Fingerprint.Type.Fingerprint
typeRepTyCon :: TypeRep -> TyCon
module Data.Dynamic where
-- Safety: Trustworthy
type Dynamic :: *
data Dynamic where
Dynamic :: forall a. base-4.18.0.0:Data.Typeable.Internal.TypeRep a -> a -> Dynamic
type Typeable :: forall k. k -> Constraint
class Typeable a where
...
{-# MINIMAL base-4.18.0.0:Data.Typeable.Internal.typeRep# #-}
dynApp :: Dynamic -> Dynamic -> Dynamic
dynApply :: Dynamic -> Dynamic -> GHC.Maybe.Maybe Dynamic
dynTypeRep :: Dynamic -> base-4.18.0.0:Data.Typeable.Internal.SomeTypeRep
fromDyn :: forall a. Typeable a => Dynamic -> a -> a
fromDynamic :: forall a. Typeable a => Dynamic -> GHC.Maybe.Maybe a
toDyn :: forall a. Typeable a => a -> Dynamic
module Data.Either where
-- Safety: Trustworthy
type Either :: * -> * -> *
data Either a b = Left a | Right b
either :: forall a c b. (a -> c) -> (b -> c) -> Either a b -> c
fromLeft :: forall a b. a -> Either a b -> a
fromRight :: forall b a. b -> Either a b -> b
isLeft :: forall a b. Either a b -> GHC.Types.Bool
isRight :: forall a b. Either a b -> GHC.Types.Bool
lefts :: forall a b. [Either a b] -> [a]
partitionEithers :: forall a b. [Either a b] -> ([a], [b])
rights :: forall a b. [Either a b] -> [b]
module Data.Eq where
-- Safety: Trustworthy
type Eq :: * -> Constraint
class Eq a where
(==) :: a -> a -> GHC.Types.Bool
(/=) :: a -> a -> GHC.Types.Bool
{-# MINIMAL (==) | (/=) #-}
module Data.Fixed where
-- Safety: Trustworthy
type Centi :: *
type Centi = Fixed E2
type Deci :: *
type Deci = Fixed E1
type E0 :: *
data E0
type E1 :: *
data E1
type E12 :: *
data E12
type E2 :: *
data E2
type E3 :: *
data E3
type E6 :: *
data E6
type E9 :: *
data E9
type role Fixed phantom
type Fixed :: forall k. k -> *
newtype Fixed a = MkFixed GHC.Num.Integer.Integer
type HasResolution :: forall k. k -> Constraint
class HasResolution a where
resolution :: forall (p :: k -> *). p a -> GHC.Num.Integer.Integer
{-# MINIMAL resolution #-}
type Micro :: *
type Micro = Fixed E6
type Milli :: *
type Milli = Fixed E3
type Nano :: *
type Nano = Fixed E9
type Pico :: *
type Pico = Fixed E12
type Uni :: *
type Uni = Fixed E0
div' :: forall a b. (GHC.Real.Real a, GHC.Real.Integral b) => a -> a -> b
divMod' :: forall a b. (GHC.Real.Real a, GHC.Real.Integral b) => a -> a -> (b, a)
mod' :: forall a. GHC.Real.Real a => a -> a -> a
showFixed :: forall {k} (a :: k). HasResolution a => GHC.Types.Bool -> Fixed a -> GHC.Base.String
module Data.Foldable where
-- Safety: Trustworthy
type Foldable :: (* -> *) -> Constraint
class Foldable t where
fold :: forall m. GHC.Base.Monoid m => t m -> m
foldMap :: forall m a. GHC.Base.Monoid m => (a -> m) -> t a -> m
foldMap' :: forall m a. GHC.Base.Monoid m => (a -> m) -> t a -> m
foldr :: forall a b. (a -> b -> b) -> b -> t a -> b
foldr' :: forall a b. (a -> b -> b) -> b -> t a -> b
foldl :: forall b a. (b -> a -> b) -> b -> t a -> b
foldl' :: forall b a. (b -> a -> b) -> b -> t a -> b
foldr1 :: forall a. (a -> a -> a) -> t a -> a
foldl1 :: forall a. (a -> a -> a) -> t a -> a
toList :: forall a. t a -> [a]
null :: forall a. t a -> GHC.Types.Bool
length :: forall a. t a -> GHC.Types.Int
elem :: forall a. GHC.Classes.Eq a => a -> t a -> GHC.Types.Bool
maximum :: forall a. GHC.Classes.Ord a => t a -> a
minimum :: forall a. GHC.Classes.Ord a => t a -> a
sum :: forall a. GHC.Num.Num a => t a -> a
product :: forall a. GHC.Num.Num a => t a -> a
{-# MINIMAL foldMap | foldr #-}
all :: forall (t :: * -> *) a. Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Types.Bool
and :: forall (t :: * -> *). Foldable t => t GHC.Types.Bool -> GHC.Types.Bool
any :: forall (t :: * -> *) a. Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Types.Bool
asum :: forall (t :: * -> *) (f :: * -> *) a. (Foldable t, GHC.Base.Alternative f) => t (f a) -> f a
concat :: forall (t :: * -> *) a. Foldable t => t [a] -> [a]
concatMap :: forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
find :: forall (t :: * -> *) a. Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Maybe.Maybe a
foldlM :: forall (t :: * -> *) (m :: * -> *) b a. (Foldable t, GHC.Base.Monad m) => (b -> a -> m b) -> b -> t a -> m b
foldrM :: forall (t :: * -> *) (m :: * -> *) a b. (Foldable t, GHC.Base.Monad m) => (a -> b -> m b) -> b -> t a -> m b
forM_ :: forall (t :: * -> *) (m :: * -> *) a b. (Foldable t, GHC.Base.Monad m) => t a -> (a -> m b) -> m ()
for_ :: forall (t :: * -> *) (f :: * -> *) a b. (Foldable t, GHC.Base.Applicative f) => t a -> (a -> f b) -> f ()
mapM_ :: forall (t :: * -> *) (m :: * -> *) a b. (Foldable t, GHC.Base.Monad m) => (a -> m b) -> t a -> m ()
maximumBy :: forall (t :: * -> *) a. Foldable t => (a -> a -> GHC.Types.Ordering) -> t a -> a
minimumBy :: forall (t :: * -> *) a. Foldable t => (a -> a -> GHC.Types.Ordering) -> t a -> a
msum :: forall (t :: * -> *) (m :: * -> *) a. (Foldable t, GHC.Base.MonadPlus m) => t (m a) -> m a
notElem :: forall (t :: * -> *) a. (Foldable t, GHC.Classes.Eq a) => a -> t a -> GHC.Types.Bool
or :: forall (t :: * -> *). Foldable t => t GHC.Types.Bool -> GHC.Types.Bool
sequenceA_ :: forall (t :: * -> *) (f :: * -> *) a. (Foldable t, GHC.Base.Applicative f) => t (f a) -> f ()
sequence_ :: forall (t :: * -> *) (m :: * -> *) a. (Foldable t, GHC.Base.Monad m) => t (m a) -> m ()
traverse_ :: forall (t :: * -> *) (f :: * -> *) a b. (Foldable t, GHC.Base.Applicative f) => (a -> f b) -> t a -> f ()
module Data.Foldable1 where
-- Safety: Trustworthy
type Foldable1 :: (* -> *) -> Constraint
class Data.Foldable.Foldable t => Foldable1 t where
fold1 :: forall m. GHC.Base.Semigroup m => t m -> m
foldMap1 :: forall m a. GHC.Base.Semigroup m => (a -> m) -> t a -> m
foldMap1' :: forall m a. GHC.Base.Semigroup m => (a -> m) -> t a -> m
toNonEmpty :: forall a. t a -> GHC.Base.NonEmpty a
maximum :: forall a. GHC.Classes.Ord a => t a -> a
minimum :: forall a. GHC.Classes.Ord a => t a -> a
head :: forall a. t a -> a
last :: forall a. t a -> a
foldrMap1 :: forall a b. (a -> b) -> (a -> b -> b) -> t a -> b
foldlMap1' :: forall a b. (a -> b) -> (b -> a -> b) -> t a -> b
foldlMap1 :: forall a b. (a -> b) -> (b -> a -> b) -> t a -> b
foldrMap1' :: forall a b. (a -> b) -> (a -> b -> b) -> t a -> b
{-# MINIMAL foldMap1 | foldrMap1 #-}
foldl1 :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> a) -> t a -> a
foldl1' :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> a) -> t a -> a
foldlM1 :: forall (t :: * -> *) (m :: * -> *) a. (Foldable1 t, GHC.Base.Monad m) => (a -> a -> m a) -> t a -> m a
foldlMapM1 :: forall (t :: * -> *) (m :: * -> *) a b. (Foldable1 t, GHC.Base.Monad m) => (a -> m b) -> (b -> a -> m b) -> t a -> m b
foldr1 :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> a) -> t a -> a
foldr1' :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> a) -> t a -> a
foldrM1 :: forall (t :: * -> *) (m :: * -> *) a. (Foldable1 t, GHC.Base.Monad m) => (a -> a -> m a) -> t a -> m a
foldrMapM1 :: forall (t :: * -> *) (m :: * -> *) a b. (Foldable1 t, GHC.Base.Monad m) => (a -> m b) -> (a -> b -> m b) -> t a -> m b
intercalate1 :: forall (t :: * -> *) m. (Foldable1 t, GHC.Base.Semigroup m) => m -> t m -> m
maximumBy :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> GHC.Types.Ordering) -> t a -> a
minimumBy :: forall (t :: * -> *) a. Foldable1 t => (a -> a -> GHC.Types.Ordering) -> t a -> a
module Data.Function where
-- Safety: Trustworthy
($) :: forall (repa :: GHC.Types.RuntimeRep) (repb :: GHC.Types.RuntimeRep) (a :: TYPE repa) (b :: TYPE repb). (a -> b) -> a -> b
(&) :: forall (r :: GHC.Types.RuntimeRep) a (b :: TYPE r). a -> (a -> b) -> b
(.) :: forall b c a. (b -> c) -> (a -> b) -> a -> c
applyWhen :: forall a. GHC.Types.Bool -> (a -> a) -> a -> a
const :: forall a b. a -> b -> a
fix :: forall a. (a -> a) -> a
flip :: forall a b c. (a -> b -> c) -> b -> a -> c
id :: forall a. a -> a
on :: forall b c a. (b -> b -> c) -> (a -> b) -> a -> a -> c
module Data.Functor where
-- Safety: Trustworthy
($>) :: forall (f :: * -> *) a b. Functor f => f a -> b -> f b
(<$>) :: forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
(<&>) :: forall (f :: * -> *) a b. Functor f => f a -> (a -> b) -> f b
type Functor :: (* -> *) -> Constraint
class Functor f where
fmap :: forall a b. (a -> b) -> f a -> f b
(<$) :: forall a b. a -> f b -> f a
{-# MINIMAL fmap #-}
unzip :: forall (f :: * -> *) a b. Functor f => f (a, b) -> (f a, f b)
void :: forall (f :: * -> *) a. Functor f => f a -> f ()
module Data.Functor.Classes where
-- Safety: Safe
type Eq1 :: (* -> *) -> Constraint
class (forall a. GHC.Classes.Eq a => GHC.Classes.Eq (f a)) => Eq1 f where
liftEq :: forall a b. (a -> b -> GHC.Types.Bool) -> f a -> f b -> GHC.Types.Bool
default liftEq :: forall (f' :: * -> * -> *) c a b. (f ~ f' c, Eq2 f', GHC.Classes.Eq c) => (a -> b -> GHC.Types.Bool) -> f a -> f b -> GHC.Types.Bool
{-# MINIMAL #-}
type Eq2 :: (* -> * -> *) -> Constraint
class (forall a. GHC.Classes.Eq a => Eq1 (f a)) => Eq2 f where
liftEq2 :: forall a b c d. (a -> b -> GHC.Types.Bool) -> (c -> d -> GHC.Types.Bool) -> f a c -> f b d -> GHC.Types.Bool
{-# MINIMAL liftEq2 #-}
type Ord1 :: (* -> *) -> Constraint
class (Eq1 f, forall a. GHC.Classes.Ord a => GHC.Classes.Ord (f a)) => Ord1 f where
liftCompare :: forall a b. (a -> b -> GHC.Types.Ordering) -> f a -> f b -> GHC.Types.Ordering
default liftCompare :: forall (f' :: * -> * -> *) c a b. (f ~ f' c, Ord2 f', GHC.Classes.Ord c) => (a -> b -> GHC.Types.Ordering) -> f a -> f b -> GHC.Types.Ordering
{-# MINIMAL #-}
type Ord2 :: (* -> * -> *) -> Constraint
class (Eq2 f, forall a. GHC.Classes.Ord a => Ord1 (f a)) => Ord2 f where
liftCompare2 :: forall a b c d. (a -> b -> GHC.Types.Ordering) -> (c -> d -> GHC.Types.Ordering) -> f a c -> f b d -> GHC.Types.Ordering
{-# MINIMAL liftCompare2 #-}
type Read1 :: (* -> *) -> Constraint
class (forall a. GHC.Read.Read a => GHC.Read.Read (f a)) => Read1 f where
liftReadsPrec :: forall a. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS (f a)
liftReadList :: forall a. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> Text.ParserCombinators.ReadP.ReadS [f a]
liftReadPrec :: forall a. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec (f a)
liftReadListPrec :: forall a. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec [f a]
{-# MINIMAL liftReadsPrec | liftReadPrec #-}
type Read2 :: (* -> * -> *) -> Constraint
class (forall a. GHC.Read.Read a => Read1 (f a)) => Read2 f where
liftReadsPrec2 :: forall a b. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS b) -> Text.ParserCombinators.ReadP.ReadS [b] -> GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS (f a b)
liftReadList2 :: forall a b. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS b) -> Text.ParserCombinators.ReadP.ReadS [b] -> Text.ParserCombinators.ReadP.ReadS [f a b]
liftReadPrec2 :: forall a b. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec b -> Text.ParserCombinators.ReadPrec.ReadPrec [b] -> Text.ParserCombinators.ReadPrec.ReadPrec (f a b)
liftReadListPrec2 :: forall a b. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec b -> Text.ParserCombinators.ReadPrec.ReadPrec [b] -> Text.ParserCombinators.ReadPrec.ReadPrec [f a b]
{-# MINIMAL liftReadsPrec2 | liftReadPrec2 #-}
type Show1 :: (* -> *) -> Constraint
class (forall a. GHC.Show.Show a => GHC.Show.Show (f a)) => Show1 f where
liftShowsPrec :: forall a. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> ([a] -> GHC.Show.ShowS) -> GHC.Types.Int -> f a -> GHC.Show.ShowS
default liftShowsPrec :: forall (f' :: * -> * -> *) b a. (f ~ f' b, Show2 f', GHC.Show.Show b) => (GHC.Types.Int -> a -> GHC.Show.ShowS) -> ([a] -> GHC.Show.ShowS) -> GHC.Types.Int -> f a -> GHC.Show.ShowS
liftShowList :: forall a. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> ([a] -> GHC.Show.ShowS) -> [f a] -> GHC.Show.ShowS
{-# MINIMAL #-}
type Show2 :: (* -> * -> *) -> Constraint
class (forall a. GHC.Show.Show a => Show1 (f a)) => Show2 f where
liftShowsPrec2 :: forall a b. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> ([a] -> GHC.Show.ShowS) -> (GHC.Types.Int -> b -> GHC.Show.ShowS) -> ([b] -> GHC.Show.ShowS) -> GHC.Types.Int -> f a b -> GHC.Show.ShowS
liftShowList2 :: forall a b. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> ([a] -> GHC.Show.ShowS) -> (GHC.Types.Int -> b -> GHC.Show.ShowS) -> ([b] -> GHC.Show.ShowS) -> [f a b] -> GHC.Show.ShowS
{-# MINIMAL liftShowsPrec2 #-}
compare1 :: forall (f :: * -> *) a. (Ord1 f, GHC.Classes.Ord a) => f a -> f a -> GHC.Types.Ordering
compare2 :: forall (f :: * -> * -> *) a b. (Ord2 f, GHC.Classes.Ord a, GHC.Classes.Ord b) => f a b -> f a b -> GHC.Types.Ordering
eq1 :: forall (f :: * -> *) a. (Eq1 f, GHC.Classes.Eq a) => f a -> f a -> GHC.Types.Bool
eq2 :: forall (f :: * -> * -> *) a b. (Eq2 f, GHC.Classes.Eq a, GHC.Classes.Eq b) => f a b -> f a b -> GHC.Types.Bool
liftReadList2Default :: forall (f :: * -> * -> *) a b. Read2 f => (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS b) -> Text.ParserCombinators.ReadP.ReadS [b] -> Text.ParserCombinators.ReadP.ReadS [f a b]
liftReadListDefault :: forall (f :: * -> *) a. Read1 f => (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> Text.ParserCombinators.ReadP.ReadS [a] -> Text.ParserCombinators.ReadP.ReadS [f a]
liftReadListPrec2Default :: forall (f :: * -> * -> *) a b. Read2 f => Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec b -> Text.ParserCombinators.ReadPrec.ReadPrec [b] -> Text.ParserCombinators.ReadPrec.ReadPrec [f a b]
liftReadListPrecDefault :: forall (f :: * -> *) a. Read1 f => Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec [a] -> Text.ParserCombinators.ReadPrec.ReadPrec [f a]
readBinaryWith :: forall a b t. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec b -> GHC.Base.String -> (a -> b -> t) -> Text.ParserCombinators.ReadPrec.ReadPrec t
readData :: forall a. Text.ParserCombinators.ReadPrec.ReadPrec a -> Text.ParserCombinators.ReadPrec.ReadPrec a
readPrec1 :: forall (f :: * -> *) a. (Read1 f, GHC.Read.Read a) => Text.ParserCombinators.ReadPrec.ReadPrec (f a)
readPrec2 :: forall (f :: * -> * -> *) a b. (Read2 f, GHC.Read.Read a, GHC.Read.Read b) => Text.ParserCombinators.ReadPrec.ReadPrec (f a b)
readUnaryWith :: forall a t. Text.ParserCombinators.ReadPrec.ReadPrec a -> GHC.Base.String -> (a -> t) -> Text.ParserCombinators.ReadPrec.ReadPrec t
readsBinary1 :: forall (f :: * -> *) (g :: * -> *) a t. (Read1 f, Read1 g, GHC.Read.Read a) => GHC.Base.String -> (f a -> g a -> t) -> GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS t
readsBinaryWith :: forall a b t. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS b) -> GHC.Base.String -> (a -> b -> t) -> GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS t
readsData :: forall a. (GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS a) -> GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a
readsPrec1 :: forall (f :: * -> *) a. (Read1 f, GHC.Read.Read a) => GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS (f a)
readsPrec2 :: forall (f :: * -> * -> *) a b. (Read2 f, GHC.Read.Read a, GHC.Read.Read b) => GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS (f a b)
readsUnary :: forall a t. GHC.Read.Read a => GHC.Base.String -> (a -> t) -> GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS t
readsUnary1 :: forall (f :: * -> *) a t. (Read1 f, GHC.Read.Read a) => GHC.Base.String -> (f a -> t) -> GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS t
readsUnaryWith :: forall a t. (GHC.Types.Int -> Text.ParserCombinators.ReadP.ReadS a) -> GHC.Base.String -> (a -> t) -> GHC.Base.String -> Text.ParserCombinators.ReadP.ReadS t
showsBinary1 :: forall (f :: * -> *) (g :: * -> *) a. (Show1 f, Show1 g, GHC.Show.Show a) => GHC.Base.String -> GHC.Types.Int -> f a -> g a -> GHC.Show.ShowS
showsBinaryWith :: forall a b. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> (GHC.Types.Int -> b -> GHC.Show.ShowS) -> GHC.Base.String -> GHC.Types.Int -> a -> b -> GHC.Show.ShowS
showsPrec1 :: forall (f :: * -> *) a. (Show1 f, GHC.Show.Show a) => GHC.Types.Int -> f a -> GHC.Show.ShowS
showsPrec2 :: forall (f :: * -> * -> *) a b. (Show2 f, GHC.Show.Show a, GHC.Show.Show b) => GHC.Types.Int -> f a b -> GHC.Show.ShowS
showsUnary :: forall a. GHC.Show.Show a => GHC.Base.String -> GHC.Types.Int -> a -> GHC.Show.ShowS
showsUnary1 :: forall (f :: * -> *) a. (Show1 f, GHC.Show.Show a) => GHC.Base.String -> GHC.Types.Int -> f a -> GHC.Show.ShowS
showsUnaryWith :: forall a. (GHC.Types.Int -> a -> GHC.Show.ShowS) -> GHC.Base.String -> GHC.Types.Int -> a -> GHC.Show.ShowS
module Data.Functor.Compose where
-- Safety: Trustworthy
type role Compose representational nominal nominal
type Compose :: forall {k} {k1}. (k -> *) -> (k1 -> k) -> k1 -> *
newtype Compose f g a = Compose {getCompose :: f (g a)}
module Data.Functor.Const where
-- Safety: Trustworthy
type role Const representational phantom
type Const :: forall {k}. * -> k -> *
newtype Const a b = Const {getConst :: a}
module Data.Functor.Contravariant where
-- Safety: Trustworthy
($<) :: forall (f :: * -> *) b a. Contravariant f => f b -> b -> f a
(>$$<) :: forall (f :: * -> *) b a. Contravariant f => f b -> (a -> b) -> f a
(>$<) :: forall (f :: * -> *) a b. Contravariant f => (a -> b) -> f b -> f a
type Comparison :: * -> *
newtype Comparison a = Comparison {getComparison :: a -> a -> GHC.Types.Ordering}
type Contravariant :: (* -> *) -> Constraint
class Contravariant f where
contramap :: forall a' a. (a' -> a) -> f a -> f a'
(>$) :: forall b a. b -> f b -> f a
{-# MINIMAL contramap #-}
type Equivalence :: * -> *
newtype Equivalence a = Equivalence {getEquivalence :: a -> a -> GHC.Types.Bool}
type Op :: * -> * -> *
newtype Op a b = Op {getOp :: b -> a}
type Predicate :: * -> *
newtype Predicate a = Predicate {getPredicate :: a -> GHC.Types.Bool}
comparisonEquivalence :: forall a. Comparison a -> Equivalence a
defaultComparison :: forall a. GHC.Classes.Ord a => Comparison a
defaultEquivalence :: forall a. GHC.Classes.Eq a => Equivalence a
phantom :: forall (f :: * -> *) a b. (GHC.Base.Functor f, Contravariant f) => f a -> f b
module Data.Functor.Identity where
-- Safety: Trustworthy
type Identity :: * -> *
newtype Identity a = Identity {runIdentity :: a}
module Data.Functor.Product where
-- Safety: Safe
type role Product representational representational nominal
type Product :: forall {k}. (k -> *) -> (k -> *) -> k -> *
data Product f g a = Pair (f a) (g a)
module Data.Functor.Sum where
-- Safety: Safe
type role Sum representational representational nominal
type Sum :: forall {k}. (k -> *) -> (k -> *) -> k -> *
data Sum f g a = InL (f a) | InR (g a)
module Data.IORef where
-- Safety: Trustworthy
type IORef :: * -> *
newtype IORef a = ...
atomicModifyIORef :: forall a b. IORef a -> (a -> (a, b)) -> GHC.Types.IO b
atomicModifyIORef' :: forall a b. IORef a -> (a -> (a, b)) -> GHC.Types.IO b
atomicWriteIORef :: forall a. IORef a -> a -> GHC.Types.IO ()
mkWeakIORef :: forall a. IORef a -> GHC.Types.IO () -> GHC.Types.IO (GHC.Weak.Weak (IORef a))
modifyIORef :: forall a. IORef a -> (a -> a) -> GHC.Types.IO ()
modifyIORef' :: forall a. IORef a -> (a -> a) -> GHC.Types.IO ()
newIORef :: forall a. a -> GHC.Types.IO (IORef a)
readIORef :: forall a. IORef a -> GHC.Types.IO a
writeIORef :: forall a. IORef a -> a -> GHC.Types.IO ()
module Data.Int where
-- Safety: Trustworthy
type Int :: *
data Int = ...
type Int16 :: *
data Int16 = ...
type Int32 :: *
data Int32 = ...
type Int64 :: *
data Int64 = ...
type Int8 :: *
data Int8 = ...
module Data.Ix where
-- Safety: Trustworthy
type Ix :: * -> Constraint
class GHC.Classes.Ord a => Ix a where
range :: (a, a) -> [a]
index :: (a, a) -> a -> GHC.Types.Int
...
inRange :: (a, a) -> a -> GHC.Types.Bool
rangeSize :: (a, a) -> GHC.Types.Int
...
{-# MINIMAL range, (index | GHC.Ix.unsafeIndex), inRange #-}
module Data.Kind where
-- Safety: Trustworthy
type Constraint :: *
type Constraint = GHC.Prim.CONSTRAINT GHC.Types.LiftedRep
type role FUN nominal representational representational
type FUN :: forall (n :: GHC.Types.Multiplicity) -> forall {q :: GHC.Types.RuntimeRep} {r :: GHC.Types.RuntimeRep}. TYPE q -> TYPE r -> *
data FUN n a b
type Type :: *
type Type = TYPE GHC.Types.LiftedRep
module Data.List where
-- Safety: Trustworthy
(!!) :: forall a. GHC.Stack.Types.HasCallStack => [a] -> GHC.Types.Int -> a
(!?) :: forall a. [a] -> GHC.Types.Int -> GHC.Maybe.Maybe a
(++) :: forall a. [a] -> [a] -> [a]
(\\) :: forall a. GHC.Classes.Eq a => [a] -> [a] -> [a]
all :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Types.Bool
and :: forall (t :: * -> *). Data.Foldable.Foldable t => t GHC.Types.Bool -> GHC.Types.Bool
any :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Types.Bool
break :: forall a. (a -> GHC.Types.Bool) -> [a] -> ([a], [a])
concat :: forall (t :: * -> *) a. Data.Foldable.Foldable t => t [a] -> [a]
concatMap :: forall (t :: * -> *) a b. Data.Foldable.Foldable t => (a -> [b]) -> t a -> [b]
cycle :: forall a. GHC.Stack.Types.HasCallStack => [a] -> [a]
delete :: forall a. GHC.Classes.Eq a => a -> [a] -> [a]
deleteBy :: forall a. (a -> a -> GHC.Types.Bool) -> a -> [a] -> [a]
deleteFirstsBy :: forall a. (a -> a -> GHC.Types.Bool) -> [a] -> [a] -> [a]
drop :: forall a. GHC.Types.Int -> [a] -> [a]
dropWhile :: forall a. (a -> GHC.Types.Bool) -> [a] -> [a]
dropWhileEnd :: forall a. (a -> GHC.Types.Bool) -> [a] -> [a]
elem :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Classes.Eq a) => a -> t a -> GHC.Types.Bool
elemIndex :: forall a. GHC.Classes.Eq a => a -> [a] -> GHC.Maybe.Maybe GHC.Types.Int
elemIndices :: forall a. GHC.Classes.Eq a => a -> [a] -> [GHC.Types.Int]
filter :: forall a. (a -> GHC.Types.Bool) -> [a] -> [a]
find :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> GHC.Types.Bool) -> t a -> GHC.Maybe.Maybe a
findIndex :: forall a. (a -> GHC.Types.Bool) -> [a] -> GHC.Maybe.Maybe GHC.Types.Int
findIndices :: forall a. (a -> GHC.Types.Bool) -> [a] -> [GHC.Types.Int]
foldl :: forall (t :: * -> *) b a. Data.Foldable.Foldable t => (b -> a -> b) -> b -> t a -> b
foldl' :: forall (t :: * -> *) b a. Data.Foldable.Foldable t => (b -> a -> b) -> b -> t a -> b
foldl1 :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> a -> a) -> t a -> a
foldl1' :: forall a. GHC.Stack.Types.HasCallStack => (a -> a -> a) -> [a] -> a
foldr :: forall (t :: * -> *) a b. Data.Foldable.Foldable t => (a -> b -> b) -> b -> t a -> b
foldr1 :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> a -> a) -> t a -> a
genericDrop :: forall i a. GHC.Real.Integral i => i -> [a] -> [a]
genericIndex :: forall i a. GHC.Real.Integral i => [a] -> i -> a
genericLength :: forall i a. GHC.Num.Num i => [a] -> i
genericReplicate :: forall i a. GHC.Real.Integral i => i -> a -> [a]
genericSplitAt :: forall i a. GHC.Real.Integral i => i -> [a] -> ([a], [a])
genericTake :: forall i a. GHC.Real.Integral i => i -> [a] -> [a]
group :: forall a. GHC.Classes.Eq a => [a] -> [[a]]
groupBy :: forall a. (a -> a -> GHC.Types.Bool) -> [a] -> [[a]]
head :: forall a. GHC.Stack.Types.HasCallStack => [a] -> a
init :: forall a. GHC.Stack.Types.HasCallStack => [a] -> [a]
inits :: forall a. [a] -> [[a]]
insert :: forall a. GHC.Classes.Ord a => a -> [a] -> [a]
insertBy :: forall a. (a -> a -> GHC.Types.Ordering) -> a -> [a] -> [a]
intercalate :: forall a. [a] -> [[a]] -> [a]
intersect :: forall a. GHC.Classes.Eq a => [a] -> [a] -> [a]
intersectBy :: forall a. (a -> a -> GHC.Types.Bool) -> [a] -> [a] -> [a]
intersperse :: forall a. a -> [a] -> [a]
isInfixOf :: forall a. GHC.Classes.Eq a => [a] -> [a] -> GHC.Types.Bool
isPrefixOf :: forall a. GHC.Classes.Eq a => [a] -> [a] -> GHC.Types.Bool
isSubsequenceOf :: forall a. GHC.Classes.Eq a => [a] -> [a] -> GHC.Types.Bool
isSuffixOf :: forall a. GHC.Classes.Eq a => [a] -> [a] -> GHC.Types.Bool
iterate :: forall a. (a -> a) -> a -> [a]
iterate' :: forall a. (a -> a) -> a -> [a]
last :: forall a. GHC.Stack.Types.HasCallStack => [a] -> a
length :: forall (t :: * -> *) a. Data.Foldable.Foldable t => t a -> GHC.Types.Int
lines :: GHC.Base.String -> [GHC.Base.String]
lookup :: forall a b. GHC.Classes.Eq a => a -> [(a, b)] -> GHC.Maybe.Maybe b
map :: forall a b. (a -> b) -> [a] -> [b]
mapAccumL :: forall (t :: * -> *) s a b. Data.Traversable.Traversable t => (s -> a -> (s, b)) -> s -> t a -> (s, t b)
mapAccumR :: forall (t :: * -> *) s a b. Data.Traversable.Traversable t => (s -> a -> (s, b)) -> s -> t a -> (s, t b)
maximum :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Classes.Ord a) => t a -> a
maximumBy :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> a -> GHC.Types.Ordering) -> t a -> a
minimum :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Classes.Ord a) => t a -> a
minimumBy :: forall (t :: * -> *) a. Data.Foldable.Foldable t => (a -> a -> GHC.Types.Ordering) -> t a -> a
notElem :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Classes.Eq a) => a -> t a -> GHC.Types.Bool
nub :: forall a. GHC.Classes.Eq a => [a] -> [a]
nubBy :: forall a. (a -> a -> GHC.Types.Bool) -> [a] -> [a]
null :: forall (t :: * -> *) a. Data.Foldable.Foldable t => t a -> GHC.Types.Bool
or :: forall (t :: * -> *). Data.Foldable.Foldable t => t GHC.Types.Bool -> GHC.Types.Bool
partition :: forall a. (a -> GHC.Types.Bool) -> [a] -> ([a], [a])
permutations :: forall a. [a] -> [[a]]
product :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Num.Num a) => t a -> a
repeat :: forall a. a -> [a]
replicate :: forall a. GHC.Types.Int -> a -> [a]
reverse :: forall a. [a] -> [a]
scanl :: forall b a. (b -> a -> b) -> b -> [a] -> [b]
scanl' :: forall b a. (b -> a -> b) -> b -> [a] -> [b]
scanl1 :: forall a. (a -> a -> a) -> [a] -> [a]
scanr :: forall a b. (a -> b -> b) -> b -> [a] -> [b]
scanr1 :: forall a. (a -> a -> a) -> [a] -> [a]
singleton :: forall a. a -> [a]
sort :: forall a. GHC.Classes.Ord a => [a] -> [a]
sortBy :: forall a. (a -> a -> GHC.Types.Ordering) -> [a] -> [a]
sortOn :: forall b a. GHC.Classes.Ord b => (a -> b) -> [a] -> [a]
span :: forall a. (a -> GHC.Types.Bool) -> [a] -> ([a], [a])
splitAt :: forall a. GHC.Types.Int -> [a] -> ([a], [a])
stripPrefix :: forall a. GHC.Classes.Eq a => [a] -> [a] -> GHC.Maybe.Maybe [a]
subsequences :: forall a. [a] -> [[a]]
sum :: forall (t :: * -> *) a. (Data.Foldable.Foldable t, GHC.Num.Num a) => t a -> a
tail :: forall a. GHC.Stack.Types.HasCallStack => [a] -> [a]
tails :: forall a. [a] -> [[a]]
take :: forall a. GHC.Types.Int -> [a] -> [a]
takeWhile :: forall a. (a -> GHC.Types.Bool) -> [a] -> [a]
transpose :: forall a. [[a]] -> [[a]]
uncons :: forall a. [a] -> GHC.Maybe.Maybe (a, [a])
unfoldr :: forall b a. (b -> GHC.Maybe.Maybe (a, b)) -> b -> [a]
union :: forall a. GHC.Classes.Eq a => [a] -> [a] -> [a]
unionBy :: forall a. (a -> a -> GHC.Types.Bool) -> [a] -> [a] -> [a]
unlines :: [GHC.Base.String] -> GHC.Base.String
unsnoc :: forall a. [a] -> GHC.Maybe.Maybe ([a], a)
unwords :: [GHC.Base.String] -> GHC.Base.String
unzip :: forall a b. [(a, b)] -> ([a], [b])
unzip3 :: forall a b c. [(a, b, c)] -> ([a], [b], [c])
unzip4 :: forall a b c d. [(a, b, c, d)] -> ([a], [b], [c], [d])
unzip5 :: forall a b c d e. [(a, b, c, d, e)] -> ([a], [b], [c], [d], [e])
unzip6 :: forall a b c d e f. [(a, b, c, d, e, f)] -> ([a], [b], [c], [d], [e], [f])
unzip7 :: forall a b c d e f g. [(a, b, c, d, e, f, g)] -> ([a], [b], [c], [d], [e], [f], [g])
words :: GHC.Base.String -> [GHC.Base.String]
zip :: forall a b. [a] -> [b] -> [(a, b)]
zip3 :: forall a b c. [a] -> [b] -> [c] -> [(a, b, c)]
zip4 :: forall a b c d. [a] -> [b] -> [c] -> [d] -> [(a, b, c, d)]
zip5 :: forall a b c d e. [a] -> [b] -> [c] -> [d] -> [e] -> [(a, b, c, d, e)]
zip6 :: forall a b c d e f. [a] -> [b] -> [c] -> [d] -> [e] -> [f] -> [(a, b, c, d, e, f)]
zip7 :: forall a b c d e f g. [a] -> [b] -> [c] -> [d] -> [e] -> [f] -> [g] -> [(a, b, c, d, e, f, g)]
zipWith :: forall a b c. (a -> b -> c) -> [a] -> [b] -> [c]
zipWith3 :: forall a b c d. (a -> b -> c -> d) -> [a] -> [b] -> [c] -> [d]
zipWith4 :: forall a b c d e. (a -> b -> c -> d -> e) -> [a] -> [b] -> [c] -> [d] -> [e]
zipWith5 :: forall a b c d e f. (a -> b -> c -> d -> e -> f) -> [a] -> [b] -> [c] -> [d] -> [e] -> [f]
zipWith6 :: forall a b c d e f g. (a -> b -> c -> d -> e -> f -> g) -> [a] -> [b] -> [c] -> [d] -> [e] -> [f] -> [g]
zipWith7 :: forall a b c d e f g h. (a -> b -> c -> d -> e -> f -> g -> h) -> [a] -> [b] -> [c] -> [d] -> [e] -> [f] -> [g] -> [h]
module Data.List.NonEmpty where
-- Safety: Trustworthy
(!!) :: forall a. GHC.Stack.Types.HasCallStack => NonEmpty a -> GHC.Types.Int -> a
(<|) :: forall a. a -> NonEmpty a -> NonEmpty a
type NonEmpty :: * -> *
data NonEmpty a = a :| [a]
append :: forall a. NonEmpty a -> NonEmpty a -> NonEmpty a
appendList :: forall a. NonEmpty a -> [a] -> NonEmpty a
break :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> ([a], [a])
cons :: forall a. a -> NonEmpty a -> NonEmpty a
cycle :: forall a. NonEmpty a -> NonEmpty a
drop :: forall a. GHC.Types.Int -> NonEmpty a -> [a]
dropWhile :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> [a]
filter :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> [a]
fromList :: forall a. GHC.Stack.Types.HasCallStack => [a] -> NonEmpty a
group :: forall (f :: * -> *) a. (Data.Foldable.Foldable f, GHC.Classes.Eq a) => f a -> [NonEmpty a]
group1 :: forall a. GHC.Classes.Eq a => NonEmpty a -> NonEmpty (NonEmpty a)
groupAllWith :: forall b a. GHC.Classes.Ord b => (a -> b) -> [a] -> [NonEmpty a]
groupAllWith1 :: forall b a. GHC.Classes.Ord b => (a -> b) -> NonEmpty a -> NonEmpty (NonEmpty a)
groupBy :: forall (f :: * -> *) a. Data.Foldable.Foldable f => (a -> a -> GHC.Types.Bool) -> f a -> [NonEmpty a]
groupBy1 :: forall a. (a -> a -> GHC.Types.Bool) -> NonEmpty a -> NonEmpty (NonEmpty a)
groupWith :: forall (f :: * -> *) b a. (Data.Foldable.Foldable f, GHC.Classes.Eq b) => (a -> b) -> f a -> [NonEmpty a]
groupWith1 :: forall b a. GHC.Classes.Eq b => (a -> b) -> NonEmpty a -> NonEmpty (NonEmpty a)
head :: forall a. NonEmpty a -> a
init :: forall a. NonEmpty a -> [a]
inits :: forall (f :: * -> *) a. Data.Foldable.Foldable f => f a -> NonEmpty [a]
inits1 :: forall a. NonEmpty a -> NonEmpty (NonEmpty a)
insert :: forall (f :: * -> *) a. (Data.Foldable.Foldable f, GHC.Classes.Ord a) => a -> f a -> NonEmpty a
intersperse :: forall a. a -> NonEmpty a -> NonEmpty a
isPrefixOf :: forall a. GHC.Classes.Eq a => [a] -> NonEmpty a -> GHC.Types.Bool
iterate :: forall a. (a -> a) -> a -> NonEmpty a
last :: forall a. NonEmpty a -> a
length :: forall a. NonEmpty a -> GHC.Types.Int
map :: forall a b. (a -> b) -> NonEmpty a -> NonEmpty b
nonEmpty :: forall a. [a] -> GHC.Maybe.Maybe (NonEmpty a)
nub :: forall a. GHC.Classes.Eq a => NonEmpty a -> NonEmpty a
nubBy :: forall a. (a -> a -> GHC.Types.Bool) -> NonEmpty a -> NonEmpty a
partition :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> ([a], [a])
prependList :: forall a. [a] -> NonEmpty a -> NonEmpty a
repeat :: forall a. a -> NonEmpty a
reverse :: forall a. NonEmpty a -> NonEmpty a
scanl :: forall (f :: * -> *) b a. Data.Foldable.Foldable f => (b -> a -> b) -> b -> f a -> NonEmpty b
scanl1 :: forall a. (a -> a -> a) -> NonEmpty a -> NonEmpty a
scanr :: forall (f :: * -> *) a b. Data.Foldable.Foldable f => (a -> b -> b) -> b -> f a -> NonEmpty b
scanr1 :: forall a. (a -> a -> a) -> NonEmpty a -> NonEmpty a
singleton :: forall a. a -> NonEmpty a
some1 :: forall (f :: * -> *) a. GHC.Base.Alternative f => f a -> f (NonEmpty a)
sort :: forall a. GHC.Classes.Ord a => NonEmpty a -> NonEmpty a
sortBy :: forall a. (a -> a -> GHC.Types.Ordering) -> NonEmpty a -> NonEmpty a
sortWith :: forall o a. GHC.Classes.Ord o => (a -> o) -> NonEmpty a -> NonEmpty a
span :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> ([a], [a])
splitAt :: forall a. GHC.Types.Int -> NonEmpty a -> ([a], [a])
tail :: forall a. NonEmpty a -> [a]
tails :: forall (f :: * -> *) a. Data.Foldable.Foldable f => f a -> NonEmpty [a]
tails1 :: forall a. NonEmpty a -> NonEmpty (NonEmpty a)
take :: forall a. GHC.Types.Int -> NonEmpty a -> [a]
takeWhile :: forall a. (a -> GHC.Types.Bool) -> NonEmpty a -> [a]
toList :: forall a. NonEmpty a -> [a]
transpose :: forall a. NonEmpty (NonEmpty a) -> NonEmpty (NonEmpty a)
uncons :: forall a. NonEmpty a -> (a, GHC.Maybe.Maybe (NonEmpty a))
unfold :: forall a b. (a -> (b, GHC.Maybe.Maybe a)) -> a -> NonEmpty b
unfoldr :: forall a b. (a -> (b, GHC.Maybe.Maybe a)) -> a -> NonEmpty b
unzip :: forall (f :: * -> *) a b. GHC.Base.Functor f => f (a, b) -> (f a, f b)
xor :: NonEmpty GHC.Types.Bool -> GHC.Types.Bool
zip :: forall a b. NonEmpty a -> NonEmpty b -> NonEmpty (a, b)
zipWith :: forall a b c. (a -> b -> c) -> NonEmpty a -> NonEmpty b -> NonEmpty c
module Data.Maybe where
-- Safety: Trustworthy
type Maybe :: * -> *
data Maybe a = Nothing | Just a
catMaybes :: forall a. [Maybe a] -> [a]
fromJust :: forall a. GHC.Stack.Types.HasCallStack => Maybe a -> a
fromMaybe :: forall a. a -> Maybe a -> a
isJust :: forall a. Maybe a -> GHC.Types.Bool
isNothing :: forall a. Maybe a -> GHC.Types.Bool
listToMaybe :: forall a. [a] -> Maybe a
mapMaybe :: forall a b. (a -> Maybe b) -> [a] -> [b]
maybe :: forall b a. b -> (a -> b) -> Maybe a -> b
maybeToList :: forall a. Maybe a -> [a]
module Data.Monoid where
-- Safety: Trustworthy
(<>) :: forall a. GHC.Base.Semigroup a => a -> a -> a
type All :: *
newtype All = All {getAll :: GHC.Types.Bool}
type role Alt representational nominal
type Alt :: forall {k}. (k -> *) -> k -> *
newtype Alt f a = Alt {getAlt :: f a}
type Any :: *
newtype Any = Any {getAny :: GHC.Types.Bool}
type role Ap representational nominal
type Ap :: forall {k}. (k -> *) -> k -> *
newtype Ap f a = Ap {getAp :: f a}
type Dual :: * -> *
newtype Dual a = Dual {getDual :: a}
type Endo :: * -> *
newtype Endo a = Endo {appEndo :: a -> a}
type First :: * -> *
newtype First a = First {getFirst :: GHC.Maybe.Maybe a}
type Last :: * -> *
newtype Last a = Last {getLast :: GHC.Maybe.Maybe a}
type Monoid :: * -> Constraint
class GHC.Base.Semigroup a => Monoid a where
mempty :: a
mappend :: a -> a -> a
mconcat :: [a] -> a
{-# MINIMAL mempty | mconcat #-}
type Product :: * -> *
newtype Product a = Product {getProduct :: a}
type Sum :: * -> *
newtype Sum a = Sum {getSum :: a}
module Data.Ord where
-- Safety: Trustworthy
type Down :: * -> *
newtype Down a = Down {getDown :: a}
type Ord :: * -> Constraint
class GHC.Classes.Eq a => Ord a where
compare :: a -> a -> Ordering
(<) :: a -> a -> GHC.Types.Bool
(<=) :: a -> a -> GHC.Types.Bool
(>) :: a -> a -> GHC.Types.Bool
(>=) :: a -> a -> GHC.Types.Bool
max :: a -> a -> a
min :: a -> a -> a
{-# MINIMAL compare | (<=) #-}
type Ordering :: *
data Ordering = LT | EQ | GT
clamp :: forall a. Ord a => (a, a) -> a -> a
comparing :: forall a b. Ord a => (b -> a) -> b -> b -> Ordering
module Data.Proxy where
-- Safety: Trustworthy
type role KProxy phantom
type KProxy :: * -> *
data KProxy t = KProxy
type role Proxy phantom
type Proxy :: forall {k}. k -> *
data Proxy t = Proxy
asProxyTypeOf :: forall a (proxy :: * -> *). a -> proxy a -> a
module Data.Ratio where
-- Safety: Safe
(%) :: forall a. GHC.Real.Integral a => a -> a -> Ratio a
type Ratio :: * -> *
data Ratio a = ...
type Rational :: *
type Rational = Ratio GHC.Num.Integer.Integer
approxRational :: forall a. GHC.Real.RealFrac a => a -> a -> Rational
denominator :: forall a. Ratio a -> a
numerator :: forall a. Ratio a -> a
module Data.STRef where
-- Safety: Trustworthy
type role STRef nominal representational
type STRef :: * -> * -> *
data STRef s a = ...
modifySTRef :: forall s a. STRef s a -> (a -> a) -> GHC.ST.ST s ()
modifySTRef' :: forall s a. STRef s a -> (a -> a) -> GHC.ST.ST s ()
newSTRef :: forall a s. a -> GHC.ST.ST s (STRef s a)
readSTRef :: forall s a. STRef s a -> GHC.ST.ST s a
writeSTRef :: forall s a. STRef s a -> a -> GHC.ST.ST s ()
module Data.STRef.Lazy where
-- Safety: Safe
type role STRef nominal representational
type STRef :: * -> * -> *
data STRef s a = ...
modifySTRef :: forall s a. STRef s a -> (a -> a) -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s ()
newSTRef :: forall a s. a -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s (STRef s a)
readSTRef :: forall s a. STRef s a -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s a
writeSTRef :: forall s a. STRef s a -> a -> base-4.18.0.0:Control.Monad.ST.Lazy.Imp.ST s ()
module Data.STRef.Strict where
-- Safety: Safe
type role STRef nominal representational
type STRef :: * -> * -> *
data STRef s a = ...
modifySTRef :: forall s a. STRef s a -> (a -> a) -> GHC.ST.ST s ()
modifySTRef' :: forall s a. STRef s a -> (a -> a) -> GHC.ST.ST s ()
newSTRef :: forall a s. a -> GHC.ST.ST s (STRef s a)
readSTRef :: forall s a. STRef s a -> GHC.ST.ST s a
writeSTRef :: forall s a. STRef s a -> a -> GHC.ST.ST s ()
module Data.Semigroup where
-- Safety: Trustworthy
type All :: *
newtype All = All {getAll :: GHC.Types.Bool}
type Any :: *
newtype Any = Any {getAny :: GHC.Types.Bool}
type Arg :: * -> * -> *
data Arg a b = Arg a b
type ArgMax :: * -> * -> *
type ArgMax a b = Max (Arg a b)
type ArgMin :: * -> * -> *
type ArgMin a b = Min (Arg a b)
type Dual :: * -> *
newtype Dual a = Dual {getDual :: a}
type Endo :: * -> *
newtype Endo a = Endo {appEndo :: a -> a}
type First :: * -> *
newtype First a = First {getFirst :: a}
type Last :: * -> *
newtype Last a = Last {getLast :: a}
type Max :: * -> *
newtype Max a = Max {getMax :: a}
type Min :: * -> *
newtype Min a = Min {getMin :: a}
type Product :: * -> *
newtype Product a = Product {getProduct :: a}
type Semigroup :: * -> Constraint
class Semigroup a where
(<>) :: a -> a -> a
sconcat :: GHC.Base.NonEmpty a -> a
stimes :: forall b. GHC.Real.Integral b => b -> a -> a
{-# MINIMAL (<>) | sconcat #-}
type Sum :: * -> *
newtype Sum a = Sum {getSum :: a}
type WrappedMonoid :: * -> *
newtype WrappedMonoid m = WrapMonoid {unwrapMonoid :: m}
cycle1 :: forall m. Semigroup m => m -> m
diff :: forall m. Semigroup m => m -> Endo m
mtimesDefault :: forall b a. (GHC.Real.Integral b, GHC.Base.Monoid a) => b -> a -> a
stimesIdempotent :: forall b a. GHC.Real.Integral b => b -> a -> a
stimesIdempotentMonoid :: forall b a. (GHC.Real.Integral b, GHC.Base.Monoid a) => b -> a -> a
stimesMonoid :: forall b a. (GHC.Real.Integral b, GHC.Base.Monoid a) => b -> a -> a
module Data.String where
-- Safety: Trustworthy
type IsString :: * -> Constraint
class IsString a where
fromString :: String -> a
{-# MINIMAL fromString #-}
type String :: *
type String = [GHC.Types.Char]
lines :: String -> [String]
unlines :: [String] -> String
unwords :: [String] -> String
words :: String -> [String]
module Data.Traversable where
-- Safety: Trustworthy
type Traversable :: (* -> *) -> Constraint
class (GHC.Base.Functor t, Data.Foldable.Foldable t) => Traversable t where
traverse :: forall (f :: * -> *) a b. GHC.Base.Applicative f => (a -> f b) -> t a -> f (t b)
sequenceA :: forall (f :: * -> *) a. GHC.Base.Applicative f => t (f a) -> f (t a)
mapM :: forall (m :: * -> *) a b. GHC.Base.Monad m => (a -> m b) -> t a -> m (t b)
sequence :: forall (m :: * -> *) a. GHC.Base.Monad m => t (m a) -> m (t a)
{-# MINIMAL traverse | sequenceA #-}
fmapDefault :: forall (t :: * -> *) a b. Traversable t => (a -> b) -> t a -> t b
foldMapDefault :: forall (t :: * -> *) m a. (Traversable t, GHC.Base.Monoid m) => (a -> m) -> t a -> m
for :: forall (t :: * -> *) (f :: * -> *) a b. (Traversable t, GHC.Base.Applicative f) => t a -> (a -> f b) -> f (t b)
forAccumM :: forall (m :: * -> *) (t :: * -> *) s a b. (GHC.Base.Monad m, Traversable t) => s -> t a -> (s -> a -> m (s, b)) -> m (s, t b)
forM :: forall (t :: * -> *) (m :: * -> *) a b. (Traversable t, GHC.Base.Monad m) => t a -> (a -> m b) -> m (t b)
mapAccumL :: forall (t :: * -> *) s a b. Traversable t => (s -> a -> (s, b)) -> s -> t a -> (s, t b)
mapAccumM :: forall (m :: * -> *) (t :: * -> *) s a b. (GHC.Base.Monad m, Traversable t) => (s -> a -> m (s, b)) -> s -> t a -> m (s, t b)
mapAccumR :: forall (t :: * -> *) s a b. Traversable t => (s -> a -> (s, b)) -> s -> t a -> (s, t b)
module Data.Tuple where
-- Safety: Trustworthy
pattern Solo :: forall a. a -> Solo a
type Solo :: * -> *
data Solo a = MkSolo a
curry :: forall a b c. ((a, b) -> c) -> a -> b -> c
fst :: forall a b. (a, b) -> a
getSolo :: forall a. Solo a -> a
snd :: forall a b. (a, b) -> b
swap :: forall a b. (a, b) -> (b, a)
uncurry :: forall a b c. (a -> b -> c) -> (a, b) -> c
module Data.Type.Bool where
-- Safety: Safe
type (&&) :: GHC.Types.Bool -> GHC.Types.Bool -> GHC.Types.Bool
type family (&&) a b where
forall (a :: GHC.Types.Bool). (&&) GHC.Types.False a = GHC.Types.False
forall (a :: GHC.Types.Bool). (&&) GHC.Types.True a = a
forall (a :: GHC.Types.Bool). (&&) a GHC.Types.False = GHC.Types.False
forall (a :: GHC.Types.Bool). (&&) a GHC.Types.True = a
forall (a :: GHC.Types.Bool). (&&) a a = a
type If :: forall {k}. GHC.Types.Bool -> k -> k -> k
type family If cond tru fls where
forall k (tru :: k) (fls :: k). If GHC.Types.True tru fls = tru
forall k (tru :: k) (fls :: k). If GHC.Types.False tru fls = fls
type Not :: GHC.Types.Bool -> GHC.Types.Bool
type family Not a where = res | res -> a
Not GHC.Types.False = GHC.Types.True
Not GHC.Types.True = GHC.Types.False
type (||) :: GHC.Types.Bool -> GHC.Types.Bool -> GHC.Types.Bool
type family (||) a b where
forall (a :: GHC.Types.Bool). (||) GHC.Types.False a = a
forall (a :: GHC.Types.Bool). (||) GHC.Types.True a = GHC.Types.True
forall (a :: GHC.Types.Bool). (||) a GHC.Types.False = a
forall (a :: GHC.Types.Bool). (||) a GHC.Types.True = GHC.Types.True
forall (a :: GHC.Types.Bool). (||) a a = a
module Data.Type.Coercion where
-- Safety: None
type Coercion :: forall {k}. k -> k -> *
data Coercion a b where
Coercion :: forall {k} (a :: k) (b :: k). Coercible a b => Coercion a b
type TestCoercion :: forall {k}. (k -> *) -> Constraint
class TestCoercion f where
testCoercion :: forall (a :: k) (b :: k). f a -> f b -> GHC.Maybe.Maybe (Coercion a b)
{-# MINIMAL testCoercion #-}
coerceWith :: forall a b. Coercion a b -> a -> b
gcoerceWith :: forall {k} (a :: k) (b :: k) r. Coercion a b -> (Coercible a b => r) -> r
repr :: forall {k} (a :: k) (b :: k). (a Data.Type.Equality.:~: b) -> Coercion a b
sym :: forall {k} (a :: k) (b :: k). Coercion a b -> Coercion b a
trans :: forall {k} (a :: k) (b :: k) (c :: k). Coercion a b -> Coercion b c -> Coercion a c
module Data.Type.Equality where
-- Safety: Trustworthy
type role (:~:) nominal nominal
type (:~:) :: forall {k}. k -> k -> *
data (:~:) a b where
Refl :: forall {k} (a :: k). (:~:) a a
type role (:~~:) nominal nominal
type (:~~:) :: forall k1 k2. k1 -> k2 -> *
data (:~~:) a b where
HRefl :: forall {k1} (a :: k1). (:~~:) a a
type (==) :: forall k. k -> k -> GHC.Types.Bool
type family (==) a b where
forall k1 k2 (f :: k1 -> k2) (a :: k1) (g :: k1 -> k2) (b :: k1). (==) (f a) (g b) = (f == g) Data.Type.Bool.&& (a == b)
forall k (a :: k). (==) a a = GHC.Types.True
forall k (_1 :: k) (_2 :: k). (==) _1 _2 = GHC.Types.False
type TestEquality :: forall {k}. (k -> *) -> Constraint
class TestEquality f where
testEquality :: forall (a :: k) (b :: k). f a -> f b -> GHC.Maybe.Maybe (a :~: b)
{-# MINIMAL testEquality #-}
apply :: forall {k1} {k2} (f :: k1 -> k2) (g :: k1 -> k2) (a :: k1) (b :: k1). (f :~: g) -> (a :~: b) -> f a :~: g b
castWith :: forall a b. (a :~: b) -> a -> b
gcastWith :: forall {k} (a :: k) (b :: k) r. (a :~: b) -> ((a ~ b) => r) -> r
inner :: forall {k1} {k2} (f :: k1 -> k2) (a :: k1) (g :: k1 -> k2) (b :: k1). (f a :~: g b) -> a :~: b
outer :: forall {k1} {k2} (f :: k1 -> k2) (a :: k1) (g :: k1 -> k2) (b :: k1). (f a :~: g b) -> f :~: g
sym :: forall {k} (a :: k) (b :: k). (a :~: b) -> b :~: a
trans :: forall {k} (a :: k) (b :: k) (c :: k). (a :~: b) -> (b :~: c) -> a :~: c
type (~) :: forall k. k -> k -> Constraint
class (a ~ b) => (~) a b
{-# MINIMAL #-}
type (~~) :: forall k0 k1. k0 -> k1 -> Constraint
class (a ~~ b) => (~~) a b
{-# MINIMAL #-}
module Data.Type.Ord where
-- Safety: Trustworthy
type (<) :: forall {t}. t -> t -> Constraint
type (<) x y = GHC.TypeError.Assert (x <? y) (Data.Type.Ord.LtErrMsg x y) :: Constraint
type (<=) :: forall {t}. t -> t -> Constraint
type (<=) x y = GHC.TypeError.Assert (x <=? y) (Data.Type.Ord.LeErrMsg x y) :: Constraint
type (<=?) :: forall k. k -> k -> GHC.Types.Bool
type (<=?) m n = OrdCond (Compare m n) GHC.Types.True GHC.Types.True GHC.Types.False :: GHC.Types.Bool
type (<?) :: forall k. k -> k -> GHC.Types.Bool
type (<?) m n = OrdCond (Compare m n) GHC.Types.True GHC.Types.False GHC.Types.False :: GHC.Types.Bool
type (>) :: forall {t}. t -> t -> Constraint
type (>) x y = GHC.TypeError.Assert (x >? y) (Data.Type.Ord.GtErrMsg x y) :: Constraint
type (>=) :: forall {t}. t -> t -> Constraint
type (>=) x y = GHC.TypeError.Assert (x >=? y) (Data.Type.Ord.GeErrMsg x y) :: Constraint
type (>=?) :: forall k. k -> k -> GHC.Types.Bool
type (>=?) m n = OrdCond (Compare m n) GHC.Types.False GHC.Types.True GHC.Types.True :: GHC.Types.Bool
type (>?) :: forall k. k -> k -> GHC.Types.Bool
type (>?) m n = OrdCond (Compare m n) GHC.Types.False GHC.Types.False GHC.Types.True :: GHC.Types.Bool
type Compare :: forall k. k -> k -> GHC.Types.Ordering
type family Compare a b
type Max :: forall k. k -> k -> k
type Max m n = OrdCond (Compare m n) n n m :: k
type Min :: forall k. k -> k -> k
type Min m n = OrdCond (Compare m n) m m n :: k
type OrdCond :: forall k. GHC.Types.Ordering -> k -> k -> k -> k
type family OrdCond o lt eq gt where
forall k (lt :: k) (eq :: k) (gt :: k). OrdCond GHC.Types.LT lt eq gt = lt
forall k (lt :: k) (eq :: k) (gt :: k). OrdCond GHC.Types.EQ lt eq gt = eq
forall k (lt :: k) (eq :: k) (gt :: k). OrdCond GHC.Types.GT lt eq gt = gt
type role OrderingI nominal nominal
type OrderingI :: forall {k}. k -> k -> *
data OrderingI a b where
LTI :: forall {k} (a :: k) (b :: k). (Compare a b ~ GHC.Types.LT) => OrderingI a b
EQI :: forall {k} (a :: k). (Compare a a ~ GHC.Types.EQ) => OrderingI a a
GTI :: forall {k} (a :: k) (b :: k). (Compare a b ~ GHC.Types.GT) => OrderingI a b
module Data.Typeable where
-- Safety: Trustworthy
type role (:~:) nominal nominal
type (:~:) :: forall {k}. k -> k -> *
data (:~:) a b where
Refl :: forall {k} (a :: k). (:~:) a a
type role (:~~:) nominal nominal
type (:~~:) :: forall k1 k2. k1 -> k2 -> *
data (:~~:) a b where
HRefl :: forall {k1} (a :: k1). (:~~:) a a
type role Proxy phantom
type Proxy :: forall {k}. k -> *
data Proxy t = Proxy
type TyCon :: *
data TyCon = ...
type TypeRep :: *
type TypeRep = base-4.18.0.0:Data.Typeable.Internal.SomeTypeRep
type Typeable :: forall k. k -> Constraint
class Typeable a where
...
{-# MINIMAL base-4.18.0.0:Data.Typeable.Internal.typeRep# #-}
cast :: forall a b. (Typeable a, Typeable b) => a -> GHC.Maybe.Maybe b
decT :: forall {k} (a :: k) (b :: k). (Typeable a, Typeable b) => Data.Either.Either ((a :~: b) -> GHC.Base.Void) (a :~: b)
eqT :: forall {k} (a :: k) (b :: k). (Typeable a, Typeable b) => GHC.Maybe.Maybe (a :~: b)
funResultTy :: TypeRep -> TypeRep -> GHC.Maybe.Maybe TypeRep
gcast :: forall {k} (a :: k) (b :: k) (c :: k -> *). (Typeable a, Typeable b) => c a -> GHC.Maybe.Maybe (c b)
gcast1 :: forall {k1} {k2} (c :: k1 -> *) (t :: k2 -> k1) (t' :: k2 -> k1) (a :: k2). (Typeable t, Typeable t') => c (t a) -> GHC.Maybe.Maybe (c (t' a))
gcast2 :: forall {k1} {k2} {k3} (c :: k1 -> *) (t :: k2 -> k3 -> k1) (t' :: k2 -> k3 -> k1) (a :: k2) (b :: k3). (Typeable t, Typeable t') => c (t a b) -> GHC.Maybe.Maybe (c (t' a b))
hdecT :: forall {k1} {k2} (a :: k1) (b :: k2). (Typeable a, Typeable b) => Data.Either.Either ((a :~~: b) -> GHC.Base.Void) (a :~~: b)
heqT :: forall {k1} {k2} (a :: k1) (b :: k2). (Typeable a, Typeable b) => GHC.Maybe.Maybe (a :~~: b)
mkFunTy :: TypeRep -> TypeRep -> TypeRep
rnfTyCon :: TyCon -> ()
rnfTypeRep :: TypeRep -> ()
showsTypeRep :: TypeRep -> GHC.Show.ShowS
splitTyConApp :: TypeRep -> (TyCon, [TypeRep])
trLiftedRep :: base-4.18.0.0:Data.Typeable.Internal.TypeRep GHC.Types.LiftedRep
tyConFingerprint :: TyCon -> GHC.Fingerprint.Type.Fingerprint
tyConModule :: TyCon -> GHC.Base.String
tyConName :: TyCon -> GHC.Base.String
tyConPackage :: TyCon -> GHC.Base.String
typeOf :: forall a. Typeable a => a -> TypeRep
typeOf1 :: forall (t :: * -> *) a. Typeable t => t a -> TypeRep
typeOf2 :: forall (t :: * -> * -> *) a b. Typeable t => t a b -> TypeRep
typeOf3 :: forall (t :: * -> * -> * -> *) a b c. Typeable t => t a b c -> TypeRep
typeOf4 :: forall (t :: * -> * -> * -> * -> *) a b c d. Typeable t => t a b c d -> TypeRep
typeOf5 :: forall (t :: * -> * -> * -> * -> * -> *) a b c d e. Typeable t => t a b c d e -> TypeRep
typeOf6 :: forall (t :: * -> * -> * -> * -> * -> * -> *) a b c d e f. Typeable t => t a b c d e f -> TypeRep
typeOf7 :: forall (t :: * -> * -> * -> * -> * -> * -> * -> *) a b c d e f g. Typeable t => t a b c d e f g -> TypeRep
typeRep :: forall {k} (proxy :: k -> *) (a :: k). Typeable a => proxy a -> TypeRep
typeRepArgs :: TypeRep -> [TypeRep]
typeRepFingerprint :: TypeRep -> GHC.Fingerprint.Type.Fingerprint
typeRepTyCon :: TypeRep -> TyCon
module Data.Unique where
-- Safety: Trustworthy
type Unique :: *
newtype Unique = ...
hashUnique :: Unique -> GHC.Types.Int
newUnique :: GHC.Types.IO Unique
module Data.Version where
-- Safety: Safe
type Version :: *
data Version = Version {versionBranch :: [GHC.Types.Int], versionTags :: [GHC.Base.String]}
makeVersion :: [GHC.Types.Int] -> Version
parseVersion :: Text.ParserCombinators.ReadP.ReadP Version
showVersion :: Version -> GHC.Base.String
module Data.Void where
-- Safety: Trustworthy
type Void :: *
data Void
absurd :: forall a. Void -> a
vacuous :: forall (f :: * -> *) a. GHC.Base.Functor f => f Void -> f a
module Data.Word where
-- Safety: Safe
type Word :: *
data Word = ...
type Word16 :: *
data Word16 = ...
type Word32 :: *
data Word32 = ...
type Word64 :: *
data Word64 = ...
type Word8 :: *
data Word8 = ...
bitReverse16 :: Word16 -> Word16
bitReverse32 :: Word32 -> Word32
bitReverse64 :: Word64 -> Word64
bitReverse8 :: Word8 -> Word8
byteSwap16 :: Word16 -> Word16
byteSwap32 :: Word32 -> Word32
byteSwap64 :: Word64 -> Word64
module Debug.Trace where
-- Safety: Unsafe
flushEventLog :: GHC.Types.IO ()
putTraceMsg :: GHC.Base.String -> GHC.Types.IO ()
trace :: forall a. GHC.Base.String -> a -> a
traceEvent :: forall a. GHC.Base.String -> a -> a
traceEventIO :: GHC.Base.String -> GHC.Types.IO ()
traceEventWith :: forall a. (a -> GHC.Base.String) -> a -> a
traceIO :: GHC.Base.String -> GHC.Types.IO ()
traceId :: GHC.Base.String -> GHC.Base.String
traceM :: forall (f :: * -> *). GHC.Base.Applicative f => GHC.Base.String -> f ()
traceMarker :: forall a. GHC.Base.String -> a -> a
traceMarkerIO :: GHC.Base.String -> GHC.Types.IO ()
traceShow :: forall a b. GHC.Show.Show a => a -> b -> b
traceShowId :: forall a. GHC.Show.Show a => a -> a
traceShowM :: forall a (f :: * -> *). (GHC.Show.Show a, GHC.Base.Applicative f) => a -> f ()
traceShowWith :: forall b a. GHC.Show.Show b => (a -> b) -> a -> a
traceStack :: forall a. GHC.Base.String -> a -> a
traceWith :: forall a. (a -> GHC.Base.String) -> a -> a
module Foreign where
-- Safety: Safe
(!<<.) :: forall a. Bits a => a -> Int -> a
(!>>.) :: forall a. Bits a => a -> Int -> a
(.<<.) :: forall a. Bits a => a -> Int -> a
(.>>.) :: forall a. Bits a => a -> Int -> a
(.^.) :: forall a. Bits a => a -> a -> a
type And :: * -> *
newtype And a = And {getAnd :: a}
type Bits :: * -> Constraint
class GHC.Classes.Eq a => Bits a where
(.&.) :: a -> a -> a
(.|.) :: a -> a -> a
xor :: a -> a -> a
complement :: a -> a
shift :: a -> Int -> a
rotate :: a -> Int -> a
zeroBits :: a
bit :: Int -> a
setBit :: a -> Int -> a
clearBit :: a -> Int -> a
complementBit :: a -> Int -> a
testBit :: a -> Int -> GHC.Types.Bool
bitSizeMaybe :: a -> GHC.Maybe.Maybe Int
bitSize :: a -> Int
isSigned :: a -> GHC.Types.Bool
shiftL :: a -> Int -> a
unsafeShiftL :: a -> Int -> a
shiftR :: a -> Int -> a
unsafeShiftR :: a -> Int -> a
rotateL :: a -> Int -> a
rotateR :: a -> Int -> a
popCount :: a -> Int
{-# MINIMAL (.&.), (.|.), xor, complement, (shift | (shiftL, shiftR)), (rotate | (rotateL, rotateR)), bitSize, bitSizeMaybe, isSigned, testBit, bit, popCount #-}
type FinalizerEnvPtr :: * -> * -> *
type FinalizerEnvPtr env a = FunPtr (Ptr env -> Ptr a -> GHC.Types.IO ())
type FinalizerPtr :: * -> *
type FinalizerPtr a = FunPtr (Ptr a -> GHC.Types.IO ())
type FiniteBits :: * -> Constraint
class Bits b => FiniteBits b where
finiteBitSize :: b -> Int
countLeadingZeros :: b -> Int
countTrailingZeros :: b -> Int
{-# MINIMAL finiteBitSize #-}
type role ForeignPtr phantom
type ForeignPtr :: * -> *
data ForeignPtr a = ...
type role FunPtr phantom
type FunPtr :: * -> *
data FunPtr a = ...
type Iff :: * -> *
newtype Iff a = Iff {getIff :: a}
type Int :: *
data Int = ...
type Int16 :: *
data Int16 = ...
type Int32 :: *
data Int32 = ...
type Int64 :: *
data Int64 = ...
type Int8 :: *
data Int8 = ...
type IntPtr :: *
newtype IntPtr = IntPtr Int
type Ior :: * -> *
newtype Ior a = Ior {getIor :: a}
type Pool :: *
newtype Pool = ...
type role Ptr phantom
type Ptr :: * -> *
data Ptr a = ...
type StablePtr :: * -> *
data StablePtr a = ...
type Storable :: * -> Constraint
class Storable a where
sizeOf :: a -> Int
alignment :: a -> Int
peekElemOff :: Ptr a -> Int -> GHC.Types.IO a
pokeElemOff :: Ptr a -> Int -> a -> GHC.Types.IO ()
peekByteOff :: forall b. Ptr b -> Int -> GHC.Types.IO a
pokeByteOff :: forall b. Ptr b -> Int -> a -> GHC.Types.IO ()
peek :: Ptr a -> GHC.Types.IO a
poke :: Ptr a -> a -> GHC.Types.IO ()
{-# MINIMAL sizeOf, alignment, (peek | peekElemOff | peekByteOff), (poke | pokeElemOff | pokeByteOff) #-}
type Word :: *
data Word = ...
type Word16 :: *
data Word16 = ...
type Word32 :: *
data Word32 = ...
type Word64 :: *
data Word64 = ...
type Word8 :: *
data Word8 = ...
type WordPtr :: *
newtype WordPtr = WordPtr Word
type Xor :: * -> *
newtype Xor a = Xor {getXor :: a}
addForeignPtrFinalizer :: forall a. FinalizerPtr a -> ForeignPtr a -> GHC.Types.IO ()
addForeignPtrFinalizerEnv :: forall env a. FinalizerEnvPtr env a -> Ptr env -> ForeignPtr a -> GHC.Types.IO ()
advancePtr :: forall a. Storable a => Ptr a -> Int -> Ptr a
alignPtr :: forall a. Ptr a -> Int -> Ptr a
alloca :: forall a b. Storable a => (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
allocaArray :: forall a b. Storable a => Int -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
allocaArray0 :: forall a b. Storable a => Int -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
allocaBytes :: forall a b. Int -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
allocaBytesAligned :: forall a b. Int -> Int -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
bitDefault :: forall a. (Bits a, GHC.Num.Num a) => Int -> a
bitReverse16 :: Word16 -> Word16
bitReverse32 :: Word32 -> Word32
bitReverse64 :: Word64 -> Word64
bitReverse8 :: Word8 -> Word8
byteSwap16 :: Word16 -> Word16
byteSwap32 :: Word32 -> Word32
byteSwap64 :: Word64 -> Word64
calloc :: forall a. Storable a => GHC.Types.IO (Ptr a)
callocArray :: forall a. Storable a => Int -> GHC.Types.IO (Ptr a)
callocArray0 :: forall a. Storable a => Int -> GHC.Types.IO (Ptr a)
callocBytes :: forall a. Int -> GHC.Types.IO (Ptr a)
castForeignPtr :: forall a b. ForeignPtr a -> ForeignPtr b
castFunPtr :: forall a b. FunPtr a -> FunPtr b
castFunPtrToPtr :: forall a b. FunPtr a -> Ptr b
castPtr :: forall a b. Ptr a -> Ptr b
castPtrToFunPtr :: forall a b. Ptr a -> FunPtr b
castPtrToStablePtr :: forall a. Ptr () -> StablePtr a
castStablePtrToPtr :: forall a. StablePtr a -> Ptr ()
copyArray :: forall a. Storable a => Ptr a -> Ptr a -> Int -> GHC.Types.IO ()
copyBytes :: forall a. Ptr a -> Ptr a -> Int -> GHC.Types.IO ()
deRefStablePtr :: forall a. StablePtr a -> GHC.Types.IO a
fillBytes :: forall a. Ptr a -> Word8 -> Int -> GHC.Types.IO ()
finalizeForeignPtr :: forall a. ForeignPtr a -> GHC.Types.IO ()
finalizerFree :: forall a. FinalizerPtr a
free :: forall a. Ptr a -> GHC.Types.IO ()
freeHaskellFunPtr :: forall a. FunPtr a -> GHC.Types.IO ()
freePool :: Pool -> GHC.Types.IO ()
freeStablePtr :: forall a. StablePtr a -> GHC.Types.IO ()
fromBool :: forall a. GHC.Num.Num a => GHC.Types.Bool -> a
intPtrToPtr :: forall a. IntPtr -> Ptr a
lengthArray0 :: forall a. (Storable a, GHC.Classes.Eq a) => a -> Ptr a -> GHC.Types.IO Int
malloc :: forall a. Storable a => GHC.Types.IO (Ptr a)
mallocArray :: forall a. Storable a => Int -> GHC.Types.IO (Ptr a)
mallocArray0 :: forall a. Storable a => Int -> GHC.Types.IO (Ptr a)
mallocBytes :: forall a. Int -> GHC.Types.IO (Ptr a)
mallocForeignPtr :: forall a. Storable a => GHC.Types.IO (ForeignPtr a)
mallocForeignPtrArray :: forall a. Storable a => Int -> GHC.Types.IO (ForeignPtr a)
mallocForeignPtrArray0 :: forall a. Storable a => Int -> GHC.Types.IO (ForeignPtr a)
mallocForeignPtrBytes :: forall a. Int -> GHC.Types.IO (ForeignPtr a)
maybeNew :: forall a b. (a -> GHC.Types.IO (Ptr b)) -> GHC.Maybe.Maybe a -> GHC.Types.IO (Ptr b)
maybePeek :: forall a b. (Ptr a -> GHC.Types.IO b) -> Ptr a -> GHC.Types.IO (GHC.Maybe.Maybe b)
maybeWith :: forall a b c. (a -> (Ptr b -> GHC.Types.IO c) -> GHC.Types.IO c) -> GHC.Maybe.Maybe a -> (Ptr b -> GHC.Types.IO c) -> GHC.Types.IO c
minusPtr :: forall a b. Ptr a -> Ptr b -> Int
moveArray :: forall a. Storable a => Ptr a -> Ptr a -> Int -> GHC.Types.IO ()
moveBytes :: forall a. Ptr a -> Ptr a -> Int -> GHC.Types.IO ()
new :: forall a. Storable a => a -> GHC.Types.IO (Ptr a)
newArray :: forall a. Storable a => [a] -> GHC.Types.IO (Ptr a)
newArray0 :: forall a. Storable a => a -> [a] -> GHC.Types.IO (Ptr a)
newForeignPtr :: forall a. FinalizerPtr a -> Ptr a -> GHC.Types.IO (ForeignPtr a)
newForeignPtrEnv :: forall env a. FinalizerEnvPtr env a -> Ptr env -> Ptr a -> GHC.Types.IO (ForeignPtr a)
newForeignPtr_ :: forall a. Ptr a -> GHC.Types.IO (ForeignPtr a)
newPool :: GHC.Types.IO Pool
newStablePtr :: forall a. a -> GHC.Types.IO (StablePtr a)
nullFunPtr :: forall a. FunPtr a
nullPtr :: forall a. Ptr a
oneBits :: forall a. FiniteBits a => a
peekArray :: forall a. Storable a => Int -> Ptr a -> GHC.Types.IO [a]
peekArray0 :: forall a. (Storable a, GHC.Classes.Eq a) => a -> Ptr a -> GHC.Types.IO [a]
plusForeignPtr :: forall a b. ForeignPtr a -> Int -> ForeignPtr b
plusPtr :: forall a b. Ptr a -> Int -> Ptr b
pokeArray :: forall a. Storable a => Ptr a -> [a] -> GHC.Types.IO ()
pokeArray0 :: forall a. Storable a => a -> Ptr a -> [a] -> GHC.Types.IO ()
pooledMalloc :: forall a. Storable a => Pool -> GHC.Types.IO (Ptr a)
pooledMallocArray :: forall a. Storable a => Pool -> Int -> GHC.Types.IO (Ptr a)
pooledMallocArray0 :: forall a. Storable a => Pool -> Int -> GHC.Types.IO (Ptr a)
pooledMallocBytes :: forall a. Pool -> Int -> GHC.Types.IO (Ptr a)
pooledNew :: forall a. Storable a => Pool -> a -> GHC.Types.IO (Ptr a)
pooledNewArray :: forall a. Storable a => Pool -> [a] -> GHC.Types.IO (Ptr a)
pooledNewArray0 :: forall a. Storable a => Pool -> a -> [a] -> GHC.Types.IO (Ptr a)
pooledRealloc :: forall a. Storable a => Pool -> Ptr a -> GHC.Types.IO (Ptr a)
pooledReallocArray :: forall a. Storable a => Pool -> Ptr a -> Int -> GHC.Types.IO (Ptr a)
pooledReallocArray0 :: forall a. Storable a => Pool -> Ptr a -> Int -> GHC.Types.IO (Ptr a)
pooledReallocBytes :: forall a. Pool -> Ptr a -> Int -> GHC.Types.IO (Ptr a)
popCountDefault :: forall a. (Bits a, GHC.Num.Num a) => a -> Int
ptrToIntPtr :: forall a. Ptr a -> IntPtr
ptrToWordPtr :: forall a. Ptr a -> WordPtr
realloc :: forall a b. Storable b => Ptr a -> GHC.Types.IO (Ptr b)
reallocArray :: forall a. Storable a => Ptr a -> Int -> GHC.Types.IO (Ptr a)
reallocArray0 :: forall a. Storable a => Ptr a -> Int -> GHC.Types.IO (Ptr a)
reallocBytes :: forall a. Ptr a -> Int -> GHC.Types.IO (Ptr a)
testBitDefault :: forall a. (Bits a, GHC.Num.Num a) => a -> Int -> GHC.Types.Bool
throwIf :: forall a. (a -> GHC.Types.Bool) -> (a -> GHC.Base.String) -> GHC.Types.IO a -> GHC.Types.IO a
throwIfNeg :: forall a. (GHC.Classes.Ord a, GHC.Num.Num a) => (a -> GHC.Base.String) -> GHC.Types.IO a -> GHC.Types.IO a
throwIfNeg_ :: forall a. (GHC.Classes.Ord a, GHC.Num.Num a) => (a -> GHC.Base.String) -> GHC.Types.IO a -> GHC.Types.IO ()
throwIfNull :: forall a. GHC.Base.String -> GHC.Types.IO (Ptr a) -> GHC.Types.IO (Ptr a)
throwIf_ :: forall a. (a -> GHC.Types.Bool) -> (a -> GHC.Base.String) -> GHC.Types.IO a -> GHC.Types.IO ()
toBool :: forall a. (GHC.Classes.Eq a, GHC.Num.Num a) => a -> GHC.Types.Bool
toIntegralSized :: forall a b. (GHC.Real.Integral a, GHC.Real.Integral b, Bits a, Bits b) => a -> GHC.Maybe.Maybe b
touchForeignPtr :: forall a. ForeignPtr a -> GHC.Types.IO ()
void :: forall a. GHC.Types.IO a -> GHC.Types.IO ()
with :: forall a b. Storable a => a -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withArray :: forall a b. Storable a => [a] -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withArray0 :: forall a b. Storable a => a -> [a] -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withArrayLen :: forall a b. Storable a => [a] -> (Int -> Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withArrayLen0 :: forall a b. Storable a => a -> [a] -> (Int -> Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withForeignPtr :: forall a b. ForeignPtr a -> (Ptr a -> GHC.Types.IO b) -> GHC.Types.IO b
withMany :: forall a b res. (a -> (b -> res) -> res) -> [a] -> ([b] -> res) -> res
withPool :: forall b. (Pool -> GHC.Types.IO b) -> GHC.Types.IO b
wordPtrToPtr :: forall a. WordPtr -> Ptr a
module Foreign.C where
-- Safety: Safe
type CBool :: *
newtype CBool = ...
type CChar :: *
newtype CChar = ...
type CClock :: *
newtype CClock = ...
type CDouble :: *
newtype CDouble = ...
type CFile :: *
data CFile = ...
type CFloat :: *
newtype CFloat = ...
type CFpos :: *
data CFpos = ...
type CInt :: *
newtype CInt = ...
type CIntMax :: *
newtype CIntMax = ...
type CIntPtr :: *
newtype CIntPtr = ...
type CJmpBuf :: *
data CJmpBuf = ...
type CLLong :: *
newtype CLLong = ...
type CLong :: *
newtype CLong = ...
type CPtrdiff :: *
newtype CPtrdiff = ...
type CSChar :: *
newtype CSChar = ...
type CSUSeconds :: *
newtype CSUSeconds = ...
type CShort :: *
newtype CShort = ...
type CSigAtomic :: *
newtype CSigAtomic = ...
type CSize :: *
newtype CSize = ...
type CString :: *
type CString = GHC.Ptr.Ptr CChar
type CStringLen :: *
type CStringLen = (GHC.Ptr.Ptr CChar, GHC.Types.Int)
type CTime :: *
newtype CTime = ...
type CUChar :: *
newtype CUChar = ...
type CUInt :: *
newtype CUInt = ...
type CUIntMax :: *
newtype CUIntMax = ...
type CUIntPtr :: *
newtype CUIntPtr = ...
type CULLong :: *
newtype CULLong = ...
type CULong :: *
newtype CULong = ...
type CUSeconds :: *
newtype CUSeconds = ...
type CUShort :: *
newtype CUShort = ...
type CWString :: *
type CWString = GHC.Ptr.Ptr CWchar
type CWStringLen :: *
type CWStringLen = (GHC.Ptr.Ptr CWchar, GHC.Types.Int)
type CWchar :: *
newtype CWchar = ...
type Errno :: *
newtype Errno = Errno CInt
castCCharToChar :: CChar -> GHC.Types.Char
castCSCharToChar :: CSChar -> GHC.Types.Char
castCUCharToChar :: CUChar -> GHC.Types.Char
castCharToCChar :: GHC.Types.Char -> CChar
castCharToCSChar :: GHC.Types.Char -> CSChar
castCharToCUChar :: GHC.Types.Char -> CUChar
charIsRepresentable :: GHC.Types.Char -> GHC.Types.IO GHC.Types.Bool
e2BIG :: Errno
eACCES :: Errno
eADDRINUSE :: Errno
eADDRNOTAVAIL :: Errno
eADV :: Errno
eAFNOSUPPORT :: Errno
eAGAIN :: Errno
eALREADY :: Errno
eBADF :: Errno
eBADMSG :: Errno
eBADRPC :: Errno
eBUSY :: Errno
eCHILD :: Errno
eCOMM :: Errno
eCONNABORTED :: Errno
eCONNREFUSED :: Errno
eCONNRESET :: Errno
eDEADLK :: Errno
eDESTADDRREQ :: Errno
eDIRTY :: Errno
eDOM :: Errno
eDQUOT :: Errno
eEXIST :: Errno
eFAULT :: Errno
eFBIG :: Errno
eFTYPE :: Errno
eHOSTDOWN :: Errno
eHOSTUNREACH :: Errno
eIDRM :: Errno
eILSEQ :: Errno
eINPROGRESS :: Errno
eINTR :: Errno
eINVAL :: Errno
eIO :: Errno
eISCONN :: Errno
eISDIR :: Errno
eLOOP :: Errno
eMFILE :: Errno
eMLINK :: Errno
eMSGSIZE :: Errno
eMULTIHOP :: Errno
eNAMETOOLONG :: Errno
eNETDOWN :: Errno
eNETRESET :: Errno
eNETUNREACH :: Errno
eNFILE :: Errno
eNOBUFS :: Errno
eNODATA :: Errno
eNODEV :: Errno
eNOENT :: Errno
eNOEXEC :: Errno
eNOLCK :: Errno
eNOLINK :: Errno
eNOMEM :: Errno
eNOMSG :: Errno
eNONET :: Errno
eNOPROTOOPT :: Errno
eNOSPC :: Errno
eNOSR :: Errno
eNOSTR :: Errno
eNOSYS :: Errno
eNOTBLK :: Errno
eNOTCONN :: Errno
eNOTDIR :: Errno
eNOTEMPTY :: Errno
eNOTSOCK :: Errno
eNOTSUP :: Errno
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