Copyright | (c) The University of Glasgow 2002 |
---|---|
License | see libraries/base/LICENSE |
Maintainer | cvs-ghc@haskell.org |
Stability | internal |
Portability | non-portable (GHC Extensions) |
Safe Haskell | Unsafe |
Language | Haskell2010 |
- Representations of some basic types
- The maximum tuple size
- Primitive operations
- Compat wrapper
- Resize functions
- Fusion
- Overloaded string literals
- Debugging
- Ids with special behaviour
- Running
RealWorld
state thread - Safe coercions
- Equality
- Representation polymorphism
- Transform comprehensions
- Event logging
- SpecConstr annotations
- The call stack
- The Constraint kind
- The Any type
- Overloaded lists
GHC Extensions: this is the Approved Way to get at GHC-specific extensions.
Note: no other base module should import this module.
Synopsis
- data Int = I# Int#
- data Word = W# Word#
- data Float = F# Float#
- data Double = D# Double#
- data Char = C# Char#
- data Ptr a = Ptr Addr#
- data FunPtr a = FunPtr Addr#
- maxTupleSize :: Int
- seq :: forall (r :: RuntimeRep) a (b :: TYPE r). a -> b -> b
- realWorld# :: State# RealWorld
- void# :: Void#
- unsafeCoerce# :: forall (k0 :: RuntimeRep) (k1 :: RuntimeRep) (a :: TYPE k0) (b :: TYPE k1). a -> b
- nullAddr# :: Addr#
- magicDict :: a
- proxy# :: forall k (a :: k). Proxy# a
- data Addr# :: TYPE 'AddrRep
- data Array# a :: TYPE 'UnliftedRep
- data ByteArray# :: TYPE 'UnliftedRep
- data Char# :: TYPE 'WordRep
- data Double# :: TYPE 'DoubleRep
- data Float# :: TYPE 'FloatRep
- data Int# :: TYPE 'IntRep
- data Int8# :: TYPE 'Int8Rep
- data Int16# :: TYPE 'Int16Rep
- data Int32# :: TYPE 'Int32Rep
- data Int64# :: TYPE 'Int64Rep
- data Weak# a :: TYPE 'UnliftedRep
- data MutableArray# a b :: TYPE 'UnliftedRep
- data MutableByteArray# a :: TYPE 'UnliftedRep
- data MVar# a b :: TYPE 'UnliftedRep
- data RealWorld
- data StablePtr# a :: TYPE 'AddrRep
- data ArrayArray# :: TYPE 'UnliftedRep
- data MutableArrayArray# a :: TYPE 'UnliftedRep
- data State# a :: TYPE ('TupleRep ('[] :: [RuntimeRep]))
- data StableName# a :: TYPE 'UnliftedRep
- data MutVar# a b :: TYPE 'UnliftedRep
- data Void# :: TYPE ('TupleRep ('[] :: [RuntimeRep]))
- data Word# :: TYPE 'WordRep
- data Word8# :: TYPE 'Word8Rep
- data Word16# :: TYPE 'Word16Rep
- data Word32# :: TYPE 'Word32Rep
- data Word64# :: TYPE 'Word64Rep
- data ThreadId# :: TYPE 'UnliftedRep
- data BCO# :: TYPE 'UnliftedRep
- data TVar# a b :: TYPE 'UnliftedRep
- data Compact# :: TYPE 'UnliftedRep
- data Proxy# (a :: k) :: TYPE ('TupleRep ('[] :: [RuntimeRep]))
- data SmallArray# a :: TYPE 'UnliftedRep
- data SmallMutableArray# a b :: TYPE 'UnliftedRep
- data Int8X16# :: TYPE ('VecRep 'Vec16 'Int8ElemRep)
- data Int16X8# :: TYPE ('VecRep 'Vec8 'Int16ElemRep)
- data Int32X4# :: TYPE ('VecRep 'Vec4 'Int32ElemRep)
- data Int64X2# :: TYPE ('VecRep 'Vec2 'Int64ElemRep)
- data Int8X32# :: TYPE ('VecRep 'Vec32 'Int8ElemRep)
- data Int16X16# :: TYPE ('VecRep 'Vec16 'Int16ElemRep)
- data Int32X8# :: TYPE ('VecRep 'Vec8 'Int32ElemRep)
- data Int64X4# :: TYPE ('VecRep 'Vec4 'Int64ElemRep)
- data Int8X64# :: TYPE ('VecRep 'Vec64 'Int8ElemRep)
- data Int16X32# :: TYPE ('VecRep 'Vec32 'Int16ElemRep)
- data Int32X16# :: TYPE ('VecRep 'Vec16 'Int32ElemRep)
- data Int64X8# :: TYPE ('VecRep 'Vec8 'Int64ElemRep)
- data Word8X16# :: TYPE ('VecRep 'Vec16 'Word8ElemRep)
- data Word16X8# :: TYPE ('VecRep 'Vec8 'Word16ElemRep)
- data Word32X4# :: TYPE ('VecRep 'Vec4 'Word32ElemRep)
- data Word64X2# :: TYPE ('VecRep 'Vec2 'Word64ElemRep)
- data Word8X32# :: TYPE ('VecRep 'Vec32 'Word8ElemRep)
- data Word16X16# :: TYPE ('VecRep 'Vec16 'Word16ElemRep)
- data Word32X8# :: TYPE ('VecRep 'Vec8 'Word32ElemRep)
- data Word64X4# :: TYPE ('VecRep 'Vec4 'Word64ElemRep)
- data Word8X64# :: TYPE ('VecRep 'Vec64 'Word8ElemRep)
- data Word16X32# :: TYPE ('VecRep 'Vec32 'Word16ElemRep)
- data Word32X16# :: TYPE ('VecRep 'Vec16 'Word32ElemRep)
- data Word64X8# :: TYPE ('VecRep 'Vec8 'Word64ElemRep)
- data FloatX4# :: TYPE ('VecRep 'Vec4 'FloatElemRep)
- data DoubleX2# :: TYPE ('VecRep 'Vec2 'DoubleElemRep)
- data FloatX8# :: TYPE ('VecRep 'Vec8 'FloatElemRep)
- data DoubleX4# :: TYPE ('VecRep 'Vec4 'DoubleElemRep)
- data FloatX16# :: TYPE ('VecRep 'Vec16 'FloatElemRep)
- data DoubleX8# :: TYPE ('VecRep 'Vec8 'DoubleElemRep)
- gtChar# :: Char# -> Char# -> Int#
- geChar# :: Char# -> Char# -> Int#
- eqChar# :: Char# -> Char# -> Int#
- neChar# :: Char# -> Char# -> Int#
- ltChar# :: Char# -> Char# -> Int#
- leChar# :: Char# -> Char# -> Int#
- ord# :: Char# -> Int#
- (+#) :: Int# -> Int# -> Int#
- (-#) :: Int# -> Int# -> Int#
- (*#) :: Int# -> Int# -> Int#
- mulIntMayOflo# :: Int# -> Int# -> Int#
- quotInt# :: Int# -> Int# -> Int#
- remInt# :: Int# -> Int# -> Int#
- quotRemInt# :: Int# -> Int# -> (# Int#, Int# #)
- andI# :: Int# -> Int# -> Int#
- orI# :: Int# -> Int# -> Int#
- xorI# :: Int# -> Int# -> Int#
- notI# :: Int# -> Int#
- negateInt# :: Int# -> Int#
- addIntC# :: Int# -> Int# -> (# Int#, Int# #)
- subIntC# :: Int# -> Int# -> (# Int#, Int# #)
- (>#) :: Int# -> Int# -> Int#
- (>=#) :: Int# -> Int# -> Int#
- (==#) :: Int# -> Int# -> Int#
- (/=#) :: Int# -> Int# -> Int#
- (<#) :: Int# -> Int# -> Int#
- (<=#) :: Int# -> Int# -> Int#
- chr# :: Int# -> Char#
- int2Word# :: Int# -> Word#
- int2Float# :: Int# -> Float#
- int2Double# :: Int# -> Double#
- word2Float# :: Word# -> Float#
- word2Double# :: Word# -> Double#
- uncheckedIShiftL# :: Int# -> Int# -> Int#
- uncheckedIShiftRA# :: Int# -> Int# -> Int#
- uncheckedIShiftRL# :: Int# -> Int# -> Int#
- extendInt8# :: Int8# -> Int#
- narrowInt8# :: Int# -> Int8#
- negateInt8# :: Int8# -> Int8#
- plusInt8# :: Int8# -> Int8# -> Int8#
- subInt8# :: Int8# -> Int8# -> Int8#
- timesInt8# :: Int8# -> Int8# -> Int8#
- quotInt8# :: Int8# -> Int8# -> Int8#
- remInt8# :: Int8# -> Int8# -> Int8#
- quotRemInt8# :: Int8# -> Int8# -> (# Int8#, Int8# #)
- eqInt8# :: Int8# -> Int8# -> Int#
- geInt8# :: Int8# -> Int8# -> Int#
- gtInt8# :: Int8# -> Int8# -> Int#
- leInt8# :: Int8# -> Int8# -> Int#
- ltInt8# :: Int8# -> Int8# -> Int#
- neInt8# :: Int8# -> Int8# -> Int#
- extendWord8# :: Word8# -> Word#
- narrowWord8# :: Word# -> Word8#
- notWord8# :: Word8# -> Word8#
- plusWord8# :: Word8# -> Word8# -> Word8#
- subWord8# :: Word8# -> Word8# -> Word8#
- timesWord8# :: Word8# -> Word8# -> Word8#
- quotWord8# :: Word8# -> Word8# -> Word8#
- remWord8# :: Word8# -> Word8# -> Word8#
- quotRemWord8# :: Word8# -> Word8# -> (# Word8#, Word8# #)
- eqWord8# :: Word8# -> Word8# -> Int#
- geWord8# :: Word8# -> Word8# -> Int#
- gtWord8# :: Word8# -> Word8# -> Int#
- leWord8# :: Word8# -> Word8# -> Int#
- ltWord8# :: Word8# -> Word8# -> Int#
- neWord8# :: Word8# -> Word8# -> Int#
- extendInt16# :: Int16# -> Int#
- narrowInt16# :: Int# -> Int16#
- negateInt16# :: Int16# -> Int16#
- plusInt16# :: Int16# -> Int16# -> Int16#
- subInt16# :: Int16# -> Int16# -> Int16#
- timesInt16# :: Int16# -> Int16# -> Int16#
- quotInt16# :: Int16# -> Int16# -> Int16#
- remInt16# :: Int16# -> Int16# -> Int16#
- quotRemInt16# :: Int16# -> Int16# -> (# Int16#, Int16# #)
- eqInt16# :: Int16# -> Int16# -> Int#
- geInt16# :: Int16# -> Int16# -> Int#
- gtInt16# :: Int16# -> Int16# -> Int#
- leInt16# :: Int16# -> Int16# -> Int#
- ltInt16# :: Int16# -> Int16# -> Int#
- neInt16# :: Int16# -> Int16# -> Int#
- extendWord16# :: Word16# -> Word#
- narrowWord16# :: Word# -> Word16#
- notWord16# :: Word16# -> Word16#
- plusWord16# :: Word16# -> Word16# -> Word16#
- subWord16# :: Word16# -> Word16# -> Word16#
- timesWord16# :: Word16# -> Word16# -> Word16#
- quotWord16# :: Word16# -> Word16# -> Word16#
- remWord16# :: Word16# -> Word16# -> Word16#
- quotRemWord16# :: Word16# -> Word16# -> (# Word16#, Word16# #)
- eqWord16# :: Word16# -> Word16# -> Int#
- geWord16# :: Word16# -> Word16# -> Int#
- gtWord16# :: Word16# -> Word16# -> Int#
- leWord16# :: Word16# -> Word16# -> Int#
- ltWord16# :: Word16# -> Word16# -> Int#
- neWord16# :: Word16# -> Word16# -> Int#
- plusWord# :: Word# -> Word# -> Word#
- addWordC# :: Word# -> Word# -> (# Word#, Int# #)
- subWordC# :: Word# -> Word# -> (# Word#, Int# #)
- plusWord2# :: Word# -> Word# -> (# Word#, Word# #)
- minusWord# :: Word# -> Word# -> Word#
- timesWord# :: Word# -> Word# -> Word#
- timesWord2# :: Word# -> Word# -> (# Word#, Word# #)
- quotWord# :: Word# -> Word# -> Word#
- remWord# :: Word# -> Word# -> Word#
- quotRemWord# :: Word# -> Word# -> (# Word#, Word# #)
- quotRemWord2# :: Word# -> Word# -> Word# -> (# Word#, Word# #)
- and# :: Word# -> Word# -> Word#
- or# :: Word# -> Word# -> Word#
- xor# :: Word# -> Word# -> Word#
- not# :: Word# -> Word#
- uncheckedShiftL# :: Word# -> Int# -> Word#
- uncheckedShiftRL# :: Word# -> Int# -> Word#
- word2Int# :: Word# -> Int#
- gtWord# :: Word# -> Word# -> Int#
- geWord# :: Word# -> Word# -> Int#
- eqWord# :: Word# -> Word# -> Int#
- neWord# :: Word# -> Word# -> Int#
- ltWord# :: Word# -> Word# -> Int#
- leWord# :: Word# -> Word# -> Int#
- popCnt8# :: Word# -> Word#
- popCnt16# :: Word# -> Word#
- popCnt32# :: Word# -> Word#
- popCnt64# :: Word# -> Word#
- popCnt# :: Word# -> Word#
- pdep8# :: Word# -> Word# -> Word#
- pdep16# :: Word# -> Word# -> Word#
- pdep32# :: Word# -> Word# -> Word#
- pdep64# :: Word# -> Word# -> Word#
- pdep# :: Word# -> Word# -> Word#
- pext8# :: Word# -> Word# -> Word#
- pext16# :: Word# -> Word# -> Word#
- pext32# :: Word# -> Word# -> Word#
- pext64# :: Word# -> Word# -> Word#
- pext# :: Word# -> Word# -> Word#
- clz8# :: Word# -> Word#
- clz16# :: Word# -> Word#
- clz32# :: Word# -> Word#
- clz64# :: Word# -> Word#
- clz# :: Word# -> Word#
- ctz8# :: Word# -> Word#
- ctz16# :: Word# -> Word#
- ctz32# :: Word# -> Word#
- ctz64# :: Word# -> Word#
- ctz# :: Word# -> Word#
- byteSwap16# :: Word# -> Word#
- byteSwap32# :: Word# -> Word#
- byteSwap64# :: Word# -> Word#
- byteSwap# :: Word# -> Word#
- bitReverse8# :: Word# -> Word#
- bitReverse16# :: Word# -> Word#
- bitReverse32# :: Word# -> Word#
- bitReverse64# :: Word# -> Word#
- bitReverse# :: Word# -> Word#
- narrow8Int# :: Int# -> Int#
- narrow16Int# :: Int# -> Int#
- narrow32Int# :: Int# -> Int#
- narrow8Word# :: Word# -> Word#
- narrow16Word# :: Word# -> Word#
- narrow32Word# :: Word# -> Word#
- (>##) :: Double# -> Double# -> Int#
- (>=##) :: Double# -> Double# -> Int#
- (==##) :: Double# -> Double# -> Int#
- (/=##) :: Double# -> Double# -> Int#
- (<##) :: Double# -> Double# -> Int#
- (<=##) :: Double# -> Double# -> Int#
- (+##) :: Double# -> Double# -> Double#
- (-##) :: Double# -> Double# -> Double#
- (*##) :: Double# -> Double# -> Double#
- (/##) :: Double# -> Double# -> Double#
- negateDouble# :: Double# -> Double#
- fabsDouble# :: Double# -> Double#
- double2Int# :: Double# -> Int#
- double2Float# :: Double# -> Float#
- expDouble# :: Double# -> Double#
- expm1Double# :: Double# -> Double#
- logDouble# :: Double# -> Double#
- log1pDouble# :: Double# -> Double#
- sqrtDouble# :: Double# -> Double#
- sinDouble# :: Double# -> Double#
- cosDouble# :: Double# -> Double#
- tanDouble# :: Double# -> Double#
- asinDouble# :: Double# -> Double#
- acosDouble# :: Double# -> Double#
- atanDouble# :: Double# -> Double#
- sinhDouble# :: Double# -> Double#
- coshDouble# :: Double# -> Double#
- tanhDouble# :: Double# -> Double#
- asinhDouble# :: Double# -> Double#
- acoshDouble# :: Double# -> Double#
- atanhDouble# :: Double# -> Double#
- (**##) :: Double# -> Double# -> Double#
- decodeDouble_2Int# :: Double# -> (# Int#, Word#, Word#, Int# #)
- decodeDouble_Int64# :: Double# -> (# Int#, Int# #)
- gtFloat# :: Float# -> Float# -> Int#
- geFloat# :: Float# -> Float# -> Int#
- eqFloat# :: Float# -> Float# -> Int#
- neFloat# :: Float# -> Float# -> Int#
- ltFloat# :: Float# -> Float# -> Int#
- leFloat# :: Float# -> Float# -> Int#
- plusFloat# :: Float# -> Float# -> Float#
- minusFloat# :: Float# -> Float# -> Float#
- timesFloat# :: Float# -> Float# -> Float#
- divideFloat# :: Float# -> Float# -> Float#
- negateFloat# :: Float# -> Float#
- fabsFloat# :: Float# -> Float#
- float2Int# :: Float# -> Int#
- expFloat# :: Float# -> Float#
- expm1Float# :: Float# -> Float#
- logFloat# :: Float# -> Float#
- log1pFloat# :: Float# -> Float#
- sqrtFloat# :: Float# -> Float#
- sinFloat# :: Float# -> Float#
- cosFloat# :: Float# -> Float#
- tanFloat# :: Float# -> Float#
- asinFloat# :: Float# -> Float#
- acosFloat# :: Float# -> Float#
- atanFloat# :: Float# -> Float#
- sinhFloat# :: Float# -> Float#
- coshFloat# :: Float# -> Float#
- tanhFloat# :: Float# -> Float#
- asinhFloat# :: Float# -> Float#
- acoshFloat# :: Float# -> Float#
- atanhFloat# :: Float# -> Float#
- powerFloat# :: Float# -> Float# -> Float#
- float2Double# :: Float# -> Double#
- decodeFloat_Int# :: Float# -> (# Int#, Int# #)
- newArray# :: Int# -> a -> State# d -> (# State# d, MutableArray# d a #)
- sameMutableArray# :: MutableArray# d a -> MutableArray# d a -> Int#
- readArray# :: MutableArray# d a -> Int# -> State# d -> (# State# d, a #)
- writeArray# :: MutableArray# d a -> Int# -> a -> State# d -> State# d
- sizeofArray# :: Array# a -> Int#
- sizeofMutableArray# :: MutableArray# d a -> Int#
- indexArray# :: Array# a -> Int# -> (# a #)
- unsafeFreezeArray# :: MutableArray# d a -> State# d -> (# State# d, Array# a #)
- unsafeThawArray# :: Array# a -> State# d -> (# State# d, MutableArray# d a #)
- copyArray# :: Array# a -> Int# -> MutableArray# d a -> Int# -> Int# -> State# d -> State# d
- copyMutableArray# :: MutableArray# d a -> Int# -> MutableArray# d a -> Int# -> Int# -> State# d -> State# d
- cloneArray# :: Array# a -> Int# -> Int# -> Array# a
- cloneMutableArray# :: MutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, MutableArray# d a #)
- freezeArray# :: MutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, Array# a #)
- thawArray# :: Array# a -> Int# -> Int# -> State# d -> (# State# d, MutableArray# d a #)
- casArray# :: MutableArray# d a -> Int# -> a -> a -> State# d -> (# State# d, Int#, a #)
- newSmallArray# :: Int# -> a -> State# d -> (# State# d, SmallMutableArray# d a #)
- sameSmallMutableArray# :: SmallMutableArray# d a -> SmallMutableArray# d a -> Int#
- shrinkSmallMutableArray# :: SmallMutableArray# d a -> Int# -> State# d -> State# d
- readSmallArray# :: SmallMutableArray# d a -> Int# -> State# d -> (# State# d, a #)
- writeSmallArray# :: SmallMutableArray# d a -> Int# -> a -> State# d -> State# d
- sizeofSmallArray# :: SmallArray# a -> Int#
- sizeofSmallMutableArray# :: SmallMutableArray# d a -> Int#
- getSizeofSmallMutableArray# :: SmallMutableArray# d a -> State# d -> (# State# d, Int# #)
- indexSmallArray# :: SmallArray# a -> Int# -> (# a #)
- unsafeFreezeSmallArray# :: SmallMutableArray# d a -> State# d -> (# State# d, SmallArray# a #)
- unsafeThawSmallArray# :: SmallArray# a -> State# d -> (# State# d, SmallMutableArray# d a #)
- copySmallArray# :: SmallArray# a -> Int# -> SmallMutableArray# d a -> Int# -> Int# -> State# d -> State# d
- copySmallMutableArray# :: SmallMutableArray# d a -> Int# -> SmallMutableArray# d a -> Int# -> Int# -> State# d -> State# d
- cloneSmallArray# :: SmallArray# a -> Int# -> Int# -> SmallArray# a
- cloneSmallMutableArray# :: SmallMutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, SmallMutableArray# d a #)
- freezeSmallArray# :: SmallMutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, SmallArray# a #)
- thawSmallArray# :: SmallArray# a -> Int# -> Int# -> State# d -> (# State# d, SmallMutableArray# d a #)
- casSmallArray# :: SmallMutableArray# d a -> Int# -> a -> a -> State# d -> (# State# d, Int#, a #)
- newByteArray# :: Int# -> State# d -> (# State# d, MutableByteArray# d #)
- newPinnedByteArray# :: Int# -> State# d -> (# State# d, MutableByteArray# d #)
- newAlignedPinnedByteArray# :: Int# -> Int# -> State# d -> (# State# d, MutableByteArray# d #)
- isMutableByteArrayPinned# :: MutableByteArray# d -> Int#
- isByteArrayPinned# :: ByteArray# -> Int#
- byteArrayContents# :: ByteArray# -> Addr#
- sameMutableByteArray# :: MutableByteArray# d -> MutableByteArray# d -> Int#
- shrinkMutableByteArray# :: MutableByteArray# d -> Int# -> State# d -> State# d
- resizeMutableByteArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, MutableByteArray# d #)
- unsafeFreezeByteArray# :: MutableByteArray# d -> State# d -> (# State# d, ByteArray# #)
- sizeofByteArray# :: ByteArray# -> Int#
- sizeofMutableByteArray# :: MutableByteArray# d -> Int#
- getSizeofMutableByteArray# :: MutableByteArray# d -> State# d -> (# State# d, Int# #)
- indexCharArray# :: ByteArray# -> Int# -> Char#
- indexWideCharArray# :: ByteArray# -> Int# -> Char#
- indexIntArray# :: ByteArray# -> Int# -> Int#
- indexWordArray# :: ByteArray# -> Int# -> Word#
- indexAddrArray# :: ByteArray# -> Int# -> Addr#
- indexFloatArray# :: ByteArray# -> Int# -> Float#
- indexDoubleArray# :: ByteArray# -> Int# -> Double#
- indexStablePtrArray# :: ByteArray# -> Int# -> StablePtr# a
- indexInt8Array# :: ByteArray# -> Int# -> Int#
- indexInt16Array# :: ByteArray# -> Int# -> Int#
- indexInt32Array# :: ByteArray# -> Int# -> Int#
- indexInt64Array# :: ByteArray# -> Int# -> Int#
- indexWord8Array# :: ByteArray# -> Int# -> Word#
- indexWord16Array# :: ByteArray# -> Int# -> Word#
- indexWord32Array# :: ByteArray# -> Int# -> Word#
- indexWord64Array# :: ByteArray# -> Int# -> Word#
- indexWord8ArrayAsChar# :: ByteArray# -> Int# -> Char#
- indexWord8ArrayAsWideChar# :: ByteArray# -> Int# -> Char#
- indexWord8ArrayAsAddr# :: ByteArray# -> Int# -> Addr#
- indexWord8ArrayAsFloat# :: ByteArray# -> Int# -> Float#
- indexWord8ArrayAsDouble# :: ByteArray# -> Int# -> Double#
- indexWord8ArrayAsStablePtr# :: ByteArray# -> Int# -> StablePtr# a
- indexWord8ArrayAsInt16# :: ByteArray# -> Int# -> Int#
- indexWord8ArrayAsInt32# :: ByteArray# -> Int# -> Int#
- indexWord8ArrayAsInt64# :: ByteArray# -> Int# -> Int#
- indexWord8ArrayAsInt# :: ByteArray# -> Int# -> Int#
- indexWord8ArrayAsWord16# :: ByteArray# -> Int# -> Word#
- indexWord8ArrayAsWord32# :: ByteArray# -> Int# -> Word#
- indexWord8ArrayAsWord64# :: ByteArray# -> Int# -> Word#
- indexWord8ArrayAsWord# :: ByteArray# -> Int# -> Word#
- readCharArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #)
- readWideCharArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #)
- readIntArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWordArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readAddrArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Addr# #)
- readFloatArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Float# #)
- readDoubleArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Double# #)
- readStablePtrArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, StablePtr# a #)
- readInt8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readInt16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readInt32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readInt64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWord8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord8ArrayAsChar# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #)
- readWord8ArrayAsWideChar# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #)
- readWord8ArrayAsAddr# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Addr# #)
- readWord8ArrayAsFloat# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Float# #)
- readWord8ArrayAsDouble# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Double# #)
- readWord8ArrayAsStablePtr# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, StablePtr# a #)
- readWord8ArrayAsInt16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWord8ArrayAsInt32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWord8ArrayAsInt64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWord8ArrayAsInt# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- readWord8ArrayAsWord16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord8ArrayAsWord32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord8ArrayAsWord64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- readWord8ArrayAsWord# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #)
- writeCharArray# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d
- writeWideCharArray# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d
- writeIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWordArray# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeAddrArray# :: MutableByteArray# d -> Int# -> Addr# -> State# d -> State# d
- writeFloatArray# :: MutableByteArray# d -> Int# -> Float# -> State# d -> State# d
- writeDoubleArray# :: MutableByteArray# d -> Int# -> Double# -> State# d -> State# d
- writeStablePtrArray# :: MutableByteArray# d -> Int# -> StablePtr# a -> State# d -> State# d
- writeInt8Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeInt16Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeInt32Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeInt64Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWord8Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord16Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord32Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord64Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord8ArrayAsChar# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d
- writeWord8ArrayAsWideChar# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d
- writeWord8ArrayAsAddr# :: MutableByteArray# d -> Int# -> Addr# -> State# d -> State# d
- writeWord8ArrayAsFloat# :: MutableByteArray# d -> Int# -> Float# -> State# d -> State# d
- writeWord8ArrayAsDouble# :: MutableByteArray# d -> Int# -> Double# -> State# d -> State# d
- writeWord8ArrayAsStablePtr# :: MutableByteArray# d -> Int# -> StablePtr# a -> State# d -> State# d
- writeWord8ArrayAsInt16# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWord8ArrayAsInt32# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWord8ArrayAsInt64# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWord8ArrayAsInt# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- writeWord8ArrayAsWord16# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord8ArrayAsWord32# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord8ArrayAsWord64# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- writeWord8ArrayAsWord# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d
- compareByteArrays# :: ByteArray# -> Int# -> ByteArray# -> Int# -> Int# -> Int#
- copyByteArray# :: ByteArray# -> Int# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- copyMutableByteArray# :: MutableByteArray# d -> Int# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- copyByteArrayToAddr# :: ByteArray# -> Int# -> Addr# -> Int# -> State# d -> State# d
- copyMutableByteArrayToAddr# :: MutableByteArray# d -> Int# -> Addr# -> Int# -> State# d -> State# d
- copyAddrToByteArray# :: Addr# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- setByteArray# :: MutableByteArray# d -> Int# -> Int# -> Int# -> State# d -> State# d
- atomicReadIntArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #)
- atomicWriteIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d
- casIntArray# :: MutableByteArray# d -> Int# -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchAddIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchSubIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchAndIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchNandIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchOrIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- fetchXorIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #)
- newArrayArray# :: Int# -> State# d -> (# State# d, MutableArrayArray# d #)
- sameMutableArrayArray# :: MutableArrayArray# d -> MutableArrayArray# d -> Int#
- unsafeFreezeArrayArray# :: MutableArrayArray# d -> State# d -> (# State# d, ArrayArray# #)
- sizeofArrayArray# :: ArrayArray# -> Int#
- sizeofMutableArrayArray# :: MutableArrayArray# d -> Int#
- indexByteArrayArray# :: ArrayArray# -> Int# -> ByteArray#
- indexArrayArrayArray# :: ArrayArray# -> Int# -> ArrayArray#
- readByteArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, ByteArray# #)
- readMutableByteArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, MutableByteArray# d #)
- readArrayArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, ArrayArray# #)
- readMutableArrayArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, MutableArrayArray# d #)
- writeByteArrayArray# :: MutableArrayArray# d -> Int# -> ByteArray# -> State# d -> State# d
- writeMutableByteArrayArray# :: MutableArrayArray# d -> Int# -> MutableByteArray# d -> State# d -> State# d
- writeArrayArrayArray# :: MutableArrayArray# d -> Int# -> ArrayArray# -> State# d -> State# d
- writeMutableArrayArrayArray# :: MutableArrayArray# d -> Int# -> MutableArrayArray# d -> State# d -> State# d
- copyArrayArray# :: ArrayArray# -> Int# -> MutableArrayArray# d -> Int# -> Int# -> State# d -> State# d
- copyMutableArrayArray# :: MutableArrayArray# d -> Int# -> MutableArrayArray# d -> Int# -> Int# -> State# d -> State# d
- plusAddr# :: Addr# -> Int# -> Addr#
- minusAddr# :: Addr# -> Addr# -> Int#
- remAddr# :: Addr# -> Int# -> Int#
- addr2Int# :: Addr# -> Int#
- int2Addr# :: Int# -> Addr#
- gtAddr# :: Addr# -> Addr# -> Int#
- geAddr# :: Addr# -> Addr# -> Int#
- eqAddr# :: Addr# -> Addr# -> Int#
- neAddr# :: Addr# -> Addr# -> Int#
- ltAddr# :: Addr# -> Addr# -> Int#
- leAddr# :: Addr# -> Addr# -> Int#
- indexCharOffAddr# :: Addr# -> Int# -> Char#
- indexWideCharOffAddr# :: Addr# -> Int# -> Char#
- indexIntOffAddr# :: Addr# -> Int# -> Int#
- indexWordOffAddr# :: Addr# -> Int# -> Word#
- indexAddrOffAddr# :: Addr# -> Int# -> Addr#
- indexFloatOffAddr# :: Addr# -> Int# -> Float#
- indexDoubleOffAddr# :: Addr# -> Int# -> Double#
- indexStablePtrOffAddr# :: Addr# -> Int# -> StablePtr# a
- indexInt8OffAddr# :: Addr# -> Int# -> Int#
- indexInt16OffAddr# :: Addr# -> Int# -> Int#
- indexInt32OffAddr# :: Addr# -> Int# -> Int#
- indexInt64OffAddr# :: Addr# -> Int# -> Int#
- indexWord8OffAddr# :: Addr# -> Int# -> Word#
- indexWord16OffAddr# :: Addr# -> Int# -> Word#
- indexWord32OffAddr# :: Addr# -> Int# -> Word#
- indexWord64OffAddr# :: Addr# -> Int# -> Word#
- readCharOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Char# #)
- readWideCharOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Char# #)
- readIntOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #)
- readWordOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #)
- readAddrOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Addr# #)
- readFloatOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Float# #)
- readDoubleOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Double# #)
- readStablePtrOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, StablePtr# a #)
- readInt8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #)
- readInt16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #)
- readInt32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #)
- readInt64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #)
- readWord8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #)
- readWord16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #)
- readWord32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #)
- readWord64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #)
- writeCharOffAddr# :: Addr# -> Int# -> Char# -> State# d -> State# d
- writeWideCharOffAddr# :: Addr# -> Int# -> Char# -> State# d -> State# d
- writeIntOffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d
- writeWordOffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d
- writeAddrOffAddr# :: Addr# -> Int# -> Addr# -> State# d -> State# d
- writeFloatOffAddr# :: Addr# -> Int# -> Float# -> State# d -> State# d
- writeDoubleOffAddr# :: Addr# -> Int# -> Double# -> State# d -> State# d
- writeStablePtrOffAddr# :: Addr# -> Int# -> StablePtr# a -> State# d -> State# d
- writeInt8OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d
- writeInt16OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d
- writeInt32OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d
- writeInt64OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d
- writeWord8OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d
- writeWord16OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d
- writeWord32OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d
- writeWord64OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d
- newMutVar# :: a -> State# d -> (# State# d, MutVar# d a #)
- readMutVar# :: MutVar# d a -> State# d -> (# State# d, a #)
- writeMutVar# :: MutVar# d a -> a -> State# d -> State# d
- sameMutVar# :: MutVar# d a -> MutVar# d a -> Int#
- atomicModifyMutVar2# :: MutVar# d a -> (a -> c) -> State# d -> (# State# d, a, c #)
- atomicModifyMutVar_# :: MutVar# d a -> (a -> a) -> State# d -> (# State# d, a, a #)
- casMutVar# :: MutVar# d a -> a -> a -> State# d -> (# State# d, Int#, a #)
- catch# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (b -> State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- raise# :: forall b (q :: RuntimeRep) (a :: TYPE q). b -> a
- raiseIO# :: a -> State# RealWorld -> (# State# RealWorld, b #)
- maskAsyncExceptions# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- maskUninterruptible# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- unmaskAsyncExceptions# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- getMaskingState# :: State# RealWorld -> (# State# RealWorld, Int# #)
- atomically# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- retry# :: State# RealWorld -> (# State# RealWorld, a #)
- catchRetry# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- catchSTM# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (b -> State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #)
- newTVar# :: a -> State# d -> (# State# d, TVar# d a #)
- readTVar# :: TVar# d a -> State# d -> (# State# d, a #)
- readTVarIO# :: TVar# d a -> State# d -> (# State# d, a #)
- writeTVar# :: TVar# d a -> a -> State# d -> State# d
- sameTVar# :: TVar# d a -> TVar# d a -> Int#
- newMVar# :: State# d -> (# State# d, MVar# d a #)
- takeMVar# :: MVar# d a -> State# d -> (# State# d, a #)
- tryTakeMVar# :: MVar# d a -> State# d -> (# State# d, Int#, a #)
- putMVar# :: MVar# d a -> a -> State# d -> State# d
- tryPutMVar# :: MVar# d a -> a -> State# d -> (# State# d, Int# #)
- readMVar# :: MVar# d a -> State# d -> (# State# d, a #)
- tryReadMVar# :: MVar# d a -> State# d -> (# State# d, Int#, a #)
- sameMVar# :: MVar# d a -> MVar# d a -> Int#
- isEmptyMVar# :: MVar# d a -> State# d -> (# State# d, Int# #)
- delay# :: Int# -> State# d -> State# d
- waitRead# :: Int# -> State# d -> State# d
- waitWrite# :: Int# -> State# d -> State# d
- fork# :: a -> State# RealWorld -> (# State# RealWorld, ThreadId# #)
- forkOn# :: Int# -> a -> State# RealWorld -> (# State# RealWorld, ThreadId# #)
- killThread# :: ThreadId# -> a -> State# RealWorld -> State# RealWorld
- yield# :: State# RealWorld -> State# RealWorld
- myThreadId# :: State# RealWorld -> (# State# RealWorld, ThreadId# #)
- labelThread# :: ThreadId# -> Addr# -> State# RealWorld -> State# RealWorld
- isCurrentThreadBound# :: State# RealWorld -> (# State# RealWorld, Int# #)
- noDuplicate# :: State# d -> State# d
- threadStatus# :: ThreadId# -> State# RealWorld -> (# State# RealWorld, Int#, Int#, Int# #)
- mkWeak# :: forall (q :: RuntimeRep) (a :: TYPE q) b c. a -> b -> (State# RealWorld -> (# State# RealWorld, c #)) -> State# RealWorld -> (# State# RealWorld, Weak# b #)
- mkWeakNoFinalizer# :: forall (q :: RuntimeRep) (a :: TYPE q) b. a -> b -> State# RealWorld -> (# State# RealWorld, Weak# b #)
- addCFinalizerToWeak# :: Addr# -> Addr# -> Int# -> Addr# -> Weak# b -> State# RealWorld -> (# State# RealWorld, Int# #)
- deRefWeak# :: Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, a #)
- finalizeWeak# :: Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, State# RealWorld -> (# State# RealWorld, b #) #)
- touch# :: forall (q :: RuntimeRep) (a :: TYPE q). a -> State# RealWorld -> State# RealWorld
- makeStablePtr# :: a -> State# RealWorld -> (# State# RealWorld, StablePtr# a #)
- deRefStablePtr# :: StablePtr# a -> State# RealWorld -> (# State# RealWorld, a #)
- eqStablePtr# :: StablePtr# a -> StablePtr# a -> Int#
- makeStableName# :: a -> State# RealWorld -> (# State# RealWorld, StableName# a #)
- eqStableName# :: StableName# a -> StableName# b -> Int#
- stableNameToInt# :: StableName# a -> Int#
- compactNew# :: Word# -> State# RealWorld -> (# State# RealWorld, Compact# #)
- compactResize# :: Compact# -> Word# -> State# RealWorld -> State# RealWorld
- compactContains# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, Int# #)
- compactContainsAny# :: a -> State# RealWorld -> (# State# RealWorld, Int# #)
- compactGetFirstBlock# :: Compact# -> State# RealWorld -> (# State# RealWorld, Addr#, Word# #)
- compactGetNextBlock# :: Compact# -> Addr# -> State# RealWorld -> (# State# RealWorld, Addr#, Word# #)
- compactAllocateBlock# :: Word# -> Addr# -> State# RealWorld -> (# State# RealWorld, Addr# #)
- compactFixupPointers# :: Addr# -> Addr# -> State# RealWorld -> (# State# RealWorld, Compact#, Addr# #)
- compactAdd# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, a #)
- compactAddWithSharing# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, a #)
- compactSize# :: Compact# -> State# RealWorld -> (# State# RealWorld, Word# #)
- reallyUnsafePtrEquality# :: a -> a -> Int#
- par# :: a -> Int#
- spark# :: a -> State# d -> (# State# d, a #)
- seq# :: a -> State# d -> (# State# d, a #)
- getSpark# :: State# d -> (# State# d, Int#, a #)
- numSparks# :: State# d -> (# State# d, Int# #)
- dataToTag# :: a -> Int#
- tagToEnum# :: Int# -> a
- addrToAny# :: Addr# -> (# a #)
- anyToAddr# :: a -> State# RealWorld -> (# State# RealWorld, Addr# #)
- mkApUpd0# :: BCO# -> (# a #)
- newBCO# :: ByteArray# -> ByteArray# -> Array# a -> Int# -> ByteArray# -> State# d -> (# State# d, BCO# #)
- unpackClosure# :: a -> (# Addr#, ByteArray#, Array# b #)
- closureSize# :: a -> Int#
- getApStackVal# :: a -> Int# -> (# Int#, b #)
- getCCSOf# :: a -> State# d -> (# State# d, Addr# #)
- getCurrentCCS# :: a -> State# d -> (# State# d, Addr# #)
- clearCCS# :: (State# d -> (# State# d, a #)) -> State# d -> (# State# d, a #)
- traceEvent# :: Addr# -> State# d -> State# d
- traceBinaryEvent# :: Addr# -> Int# -> State# d -> State# d
- traceMarker# :: Addr# -> State# d -> State# d
- setThreadAllocationCounter# :: Int# -> State# RealWorld -> State# RealWorld
- broadcastInt8X16# :: Int# -> Int8X16#
- broadcastInt16X8# :: Int# -> Int16X8#
- broadcastInt32X4# :: Int# -> Int32X4#
- broadcastInt64X2# :: Int# -> Int64X2#
- broadcastInt8X32# :: Int# -> Int8X32#
- broadcastInt16X16# :: Int# -> Int16X16#
- broadcastInt32X8# :: Int# -> Int32X8#
- broadcastInt64X4# :: Int# -> Int64X4#
- broadcastInt8X64# :: Int# -> Int8X64#
- broadcastInt16X32# :: Int# -> Int16X32#
- broadcastInt32X16# :: Int# -> Int32X16#
- broadcastInt64X8# :: Int# -> Int64X8#
- broadcastWord8X16# :: Word# -> Word8X16#
- broadcastWord16X8# :: Word# -> Word16X8#
- broadcastWord32X4# :: Word# -> Word32X4#
- broadcastWord64X2# :: Word# -> Word64X2#
- broadcastWord8X32# :: Word# -> Word8X32#
- broadcastWord16X16# :: Word# -> Word16X16#
- broadcastWord32X8# :: Word# -> Word32X8#
- broadcastWord64X4# :: Word# -> Word64X4#
- broadcastWord8X64# :: Word# -> Word8X64#
- broadcastWord16X32# :: Word# -> Word16X32#
- broadcastWord32X16# :: Word# -> Word32X16#
- broadcastWord64X8# :: Word# -> Word64X8#
- broadcastFloatX4# :: Float# -> FloatX4#
- broadcastDoubleX2# :: Double# -> DoubleX2#
- broadcastFloatX8# :: Float# -> FloatX8#
- broadcastDoubleX4# :: Double# -> DoubleX4#
- broadcastFloatX16# :: Float# -> FloatX16#
- broadcastDoubleX8# :: Double# -> DoubleX8#
- packInt8X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X16#
- packInt16X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X8#
- packInt32X4# :: (# Int#, Int#, Int#, Int# #) -> Int32X4#
- packInt64X2# :: (# Int#, Int# #) -> Int64X2#
- packInt8X32# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X32#
- packInt16X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X16#
- packInt32X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int32X8#
- packInt64X4# :: (# Int#, Int#, Int#, Int# #) -> Int64X4#
- packInt8X64# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X64#
- packInt16X32# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X32#
- packInt32X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int32X16#
- packInt64X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int64X8#
- packWord8X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X16#
- packWord16X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X8#
- packWord32X4# :: (# Word#, Word#, Word#, Word# #) -> Word32X4#
- packWord64X2# :: (# Word#, Word# #) -> Word64X2#
- packWord8X32# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X32#
- packWord16X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X16#
- packWord32X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word32X8#
- packWord64X4# :: (# Word#, Word#, Word#, Word# #) -> Word64X4#
- packWord8X64# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X64#
- packWord16X32# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X32#
- packWord32X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word32X16#
- packWord64X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word64X8#
- packFloatX4# :: (# Float#, Float#, Float#, Float# #) -> FloatX4#
- packDoubleX2# :: (# Double#, Double# #) -> DoubleX2#
- packFloatX8# :: (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) -> FloatX8#
- packDoubleX4# :: (# Double#, Double#, Double#, Double# #) -> DoubleX4#
- packFloatX16# :: (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) -> FloatX16#
- packDoubleX8# :: (# Double#, Double#, Double#, Double#, Double#, Double#, Double#, Double# #) -> DoubleX8#
- unpackInt8X16# :: Int8X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt16X8# :: Int16X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt32X4# :: Int32X4# -> (# Int#, Int#, Int#, Int# #)
- unpackInt64X2# :: Int64X2# -> (# Int#, Int# #)
- unpackInt8X32# :: Int8X32# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt16X16# :: Int16X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt32X8# :: Int32X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt64X4# :: Int64X4# -> (# Int#, Int#, Int#, Int# #)
- unpackInt8X64# :: Int8X64# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt16X32# :: Int16X32# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt32X16# :: Int32X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackInt64X8# :: Int64X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #)
- unpackWord8X16# :: Word8X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord16X8# :: Word16X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord32X4# :: Word32X4# -> (# Word#, Word#, Word#, Word# #)
- unpackWord64X2# :: Word64X2# -> (# Word#, Word# #)
- unpackWord8X32# :: Word8X32# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord16X16# :: Word16X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord32X8# :: Word32X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord64X4# :: Word64X4# -> (# Word#, Word#, Word#, Word# #)
- unpackWord8X64# :: Word8X64# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord16X32# :: Word16X32# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord32X16# :: Word32X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackWord64X8# :: Word64X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #)
- unpackFloatX4# :: FloatX4# -> (# Float#, Float#, Float#, Float# #)
- unpackDoubleX2# :: DoubleX2# -> (# Double#, Double# #)
- unpackFloatX8# :: FloatX8# -> (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #)
- unpackDoubleX4# :: DoubleX4# -> (# Double#, Double#, Double#, Double# #)
- unpackFloatX16# :: FloatX16# -> (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #)
- unpackDoubleX8# :: DoubleX8# -> (# Double#, Double#, Double#, Double#, Double#, Double#, Double#, Double# #)
- insertInt8X16# :: Int8X16# -> Int# -> Int# -> Int8X16#
- insertInt16X8# :: Int16X8# -> Int# -> Int# -> Int16X8#
- insertInt32X4# :: Int32X4# -> Int# -> Int# -> Int32X4#
- insertInt64X2# :: Int64X2# -> Int# -> Int# -> Int64X2#
- insertInt8X32# :: Int8X32# -> Int# -> Int# -> Int8X32#
- insertInt16X16# :: Int16X16# -> Int# -> Int# -> Int16X16#
- insertInt32X8# :: Int32X8# -> Int# -> Int# -> Int32X8#
- insertInt64X4# :: Int64X4# -> Int# -> Int# -> Int64X4#
- insertInt8X64# :: Int8X64# -> Int# -> Int# -> Int8X64#
- insertInt16X32# :: Int16X32# -> Int# -> Int# -> Int16X32#
- insertInt32X16# :: Int32X16# -> Int# -> Int# -> Int32X16#
- insertInt64X8# :: Int64X8# -> Int# -> Int# -> Int64X8#
- insertWord8X16# :: Word8X16# -> Word# -> Int# -> Word8X16#
- insertWord16X8# :: Word16X8# -> Word# -> Int# -> Word16X8#
- insertWord32X4# :: Word32X4# -> Word# -> Int# -> Word32X4#
- insertWord64X2# :: Word64X2# -> Word# -> Int# -> Word64X2#
- insertWord8X32# :: Word8X32# -> Word# -> Int# -> Word8X32#
- insertWord16X16# :: Word16X16# -> Word# -> Int# -> Word16X16#
- insertWord32X8# :: Word32X8# -> Word# -> Int# -> Word32X8#
- insertWord64X4# :: Word64X4# -> Word# -> Int# -> Word64X4#
- insertWord8X64# :: Word8X64# -> Word# -> Int# -> Word8X64#
- insertWord16X32# :: Word16X32# -> Word# -> Int# -> Word16X32#
- insertWord32X16# :: Word32X16# -> Word# -> Int# -> Word32X16#
- insertWord64X8# :: Word64X8# -> Word# -> Int# -> Word64X8#
- insertFloatX4# :: FloatX4# -> Float# -> Int# -> FloatX4#
- insertDoubleX2# :: DoubleX2# -> Double# -> Int# -> DoubleX2#
- insertFloatX8# :: FloatX8# -> Float# -> Int# -> FloatX8#
- insertDoubleX4# :: DoubleX4# -> Double# -> Int# -> DoubleX4#
- insertFloatX16# :: FloatX16# -> Float# -> Int# -> FloatX16#
- insertDoubleX8# :: DoubleX8# -> Double# -> Int# -> DoubleX8#
- plusInt8X16# :: Int8X16# -> Int8X16# -> Int8X16#
- plusInt16X8# :: Int16X8# -> Int16X8# -> Int16X8#
- plusInt32X4# :: Int32X4# -> Int32X4# -> Int32X4#
- plusInt64X2# :: Int64X2# -> Int64X2# -> Int64X2#
- plusInt8X32# :: Int8X32# -> Int8X32# -> Int8X32#
- plusInt16X16# :: Int16X16# -> Int16X16# -> Int16X16#
- plusInt32X8# :: Int32X8# -> Int32X8# -> Int32X8#
- plusInt64X4# :: Int64X4# -> Int64X4# -> Int64X4#
- plusInt8X64# :: Int8X64# -> Int8X64# -> Int8X64#
- plusInt16X32# :: Int16X32# -> Int16X32# -> Int16X32#
- plusInt32X16# :: Int32X16# -> Int32X16# -> Int32X16#
- plusInt64X8# :: Int64X8# -> Int64X8# -> Int64X8#
- plusWord8X16# :: Word8X16# -> Word8X16# -> Word8X16#
- plusWord16X8# :: Word16X8# -> Word16X8# -> Word16X8#
- plusWord32X4# :: Word32X4# -> Word32X4# -> Word32X4#
- plusWord64X2# :: Word64X2# -> Word64X2# -> Word64X2#
- plusWord8X32# :: Word8X32# -> Word8X32# -> Word8X32#
- plusWord16X16# :: Word16X16# -> Word16X16# -> Word16X16#
- plusWord32X8# :: Word32X8# -> Word32X8# -> Word32X8#
- plusWord64X4# :: Word64X4# -> Word64X4# -> Word64X4#
- plusWord8X64# :: Word8X64# -> Word8X64# -> Word8X64#
- plusWord16X32# :: Word16X32# -> Word16X32# -> Word16X32#
- plusWord32X16# :: Word32X16# -> Word32X16# -> Word32X16#
- plusWord64X8# :: Word64X8# -> Word64X8# -> Word64X8#
- plusFloatX4# :: FloatX4# -> FloatX4# -> FloatX4#
- plusDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2#
- plusFloatX8# :: FloatX8# -> FloatX8# -> FloatX8#
- plusDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4#
- plusFloatX16# :: FloatX16# -> FloatX16# -> FloatX16#
- plusDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8#
- minusInt8X16# :: Int8X16# -> Int8X16# -> Int8X16#
- minusInt16X8# :: Int16X8# -> Int16X8# -> Int16X8#
- minusInt32X4# :: Int32X4# -> Int32X4# -> Int32X4#
- minusInt64X2# :: Int64X2# -> Int64X2# -> Int64X2#
- minusInt8X32# :: Int8X32# -> Int8X32# -> Int8X32#
- minusInt16X16# :: Int16X16# -> Int16X16# -> Int16X16#
- minusInt32X8# :: Int32X8# -> Int32X8# -> Int32X8#
- minusInt64X4# :: Int64X4# -> Int64X4# -> Int64X4#
- minusInt8X64# :: Int8X64# -> Int8X64# -> Int8X64#
- minusInt16X32# :: Int16X32# -> Int16X32# -> Int16X32#
- minusInt32X16# :: Int32X16# -> Int32X16# -> Int32X16#
- minusInt64X8# :: Int64X8# -> Int64X8# -> Int64X8#
- minusWord8X16# :: Word8X16# -> Word8X16# -> Word8X16#
- minusWord16X8# :: Word16X8# -> Word16X8# -> Word16X8#
- minusWord32X4# :: Word32X4# -> Word32X4# -> Word32X4#
- minusWord64X2# :: Word64X2# -> Word64X2# -> Word64X2#
- minusWord8X32# :: Word8X32# -> Word8X32# -> Word8X32#
- minusWord16X16# :: Word16X16# -> Word16X16# -> Word16X16#
- minusWord32X8# :: Word32X8# -> Word32X8# -> Word32X8#
- minusWord64X4# :: Word64X4# -> Word64X4# -> Word64X4#
- minusWord8X64# :: Word8X64# -> Word8X64# -> Word8X64#
- minusWord16X32# :: Word16X32# -> Word16X32# -> Word16X32#
- minusWord32X16# :: Word32X16# -> Word32X16# -> Word32X16#
- minusWord64X8# :: Word64X8# -> Word64X8# -> Word64X8#
- minusFloatX4# :: FloatX4# -> FloatX4# -> FloatX4#
- minusDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2#
- minusFloatX8# :: FloatX8# -> FloatX8# -> FloatX8#
- minusDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4#
- minusFloatX16# :: FloatX16# -> FloatX16# -> FloatX16#
- minusDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8#
- timesInt8X16# :: Int8X16# -> Int8X16# -> Int8X16#
- timesInt16X8# :: Int16X8# -> Int16X8# -> Int16X8#
- timesInt32X4# :: Int32X4# -> Int32X4# -> Int32X4#
- timesInt64X2# :: Int64X2# -> Int64X2# -> Int64X2#
- timesInt8X32# :: Int8X32# -> Int8X32# -> Int8X32#
- timesInt16X16# :: Int16X16# -> Int16X16# -> Int16X16#
- timesInt32X8# :: Int32X8# -> Int32X8# -> Int32X8#
- timesInt64X4# :: Int64X4# -> Int64X4# -> Int64X4#
- timesInt8X64# :: Int8X64# -> Int8X64# -> Int8X64#
- timesInt16X32# :: Int16X32# -> Int16X32# -> Int16X32#
- timesInt32X16# :: Int32X16# -> Int32X16# -> Int32X16#
- timesInt64X8# :: Int64X8# -> Int64X8# -> Int64X8#
- timesWord8X16# :: Word8X16# -> Word8X16# -> Word8X16#
- timesWord16X8# :: Word16X8# -> Word16X8# -> Word16X8#
- timesWord32X4# :: Word32X4# -> Word32X4# -> Word32X4#
- timesWord64X2# :: Word64X2# -> Word64X2# -> Word64X2#
- timesWord8X32# :: Word8X32# -> Word8X32# -> Word8X32#
- timesWord16X16# :: Word16X16# -> Word16X16# -> Word16X16#
- timesWord32X8# :: Word32X8# -> Word32X8# -> Word32X8#
- timesWord64X4# :: Word64X4# -> Word64X4# -> Word64X4#
- timesWord8X64# :: Word8X64# -> Word8X64# -> Word8X64#
- timesWord16X32# :: Word16X32# -> Word16X32# -> Word16X32#
- timesWord32X16# :: Word32X16# -> Word32X16# -> Word32X16#
- timesWord64X8# :: Word64X8# -> Word64X8# -> Word64X8#
- timesFloatX4# :: FloatX4# -> FloatX4# -> FloatX4#
- timesDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2#
- timesFloatX8# :: FloatX8# -> FloatX8# -> FloatX8#
- timesDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4#
- timesFloatX16# :: FloatX16# -> FloatX16# -> FloatX16#
- timesDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8#
- divideFloatX4# :: FloatX4# -> FloatX4# -> FloatX4#
- divideDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2#
- divideFloatX8# :: FloatX8# -> FloatX8# -> FloatX8#
- divideDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4#
- divideFloatX16# :: FloatX16# -> FloatX16# -> FloatX16#
- divideDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8#
- quotInt8X16# :: Int8X16# -> Int8X16# -> Int8X16#
- quotInt16X8# :: Int16X8# -> Int16X8# -> Int16X8#
- quotInt32X4# :: Int32X4# -> Int32X4# -> Int32X4#
- quotInt64X2# :: Int64X2# -> Int64X2# -> Int64X2#
- quotInt8X32# :: Int8X32# -> Int8X32# -> Int8X32#
- quotInt16X16# :: Int16X16# -> Int16X16# -> Int16X16#
- quotInt32X8# :: Int32X8# -> Int32X8# -> Int32X8#
- quotInt64X4# :: Int64X4# -> Int64X4# -> Int64X4#
- quotInt8X64# :: Int8X64# -> Int8X64# -> Int8X64#
- quotInt16X32# :: Int16X32# -> Int16X32# -> Int16X32#
- quotInt32X16# :: Int32X16# -> Int32X16# -> Int32X16#
- quotInt64X8# :: Int64X8# -> Int64X8# -> Int64X8#
- quotWord8X16# :: Word8X16# -> Word8X16# -> Word8X16#
- quotWord16X8# :: Word16X8# -> Word16X8# -> Word16X8#
- quotWord32X4# :: Word32X4# -> Word32X4# -> Word32X4#
- quotWord64X2# :: Word64X2# -> Word64X2# -> Word64X2#
- quotWord8X32# :: Word8X32# -> Word8X32# -> Word8X32#
- quotWord16X16# :: Word16X16# -> Word16X16# -> Word16X16#
- quotWord32X8# :: Word32X8# -> Word32X8# -> Word32X8#
- quotWord64X4# :: Word64X4# -> Word64X4# -> Word64X4#
- quotWord8X64# :: Word8X64# -> Word8X64# -> Word8X64#
- quotWord16X32# :: Word16X32# -> Word16X32# -> Word16X32#
- quotWord32X16# :: Word32X16# -> Word32X16# -> Word32X16#
- quotWord64X8# :: Word64X8# -> Word64X8# -> Word64X8#
- remInt8X16# :: Int8X16# -> Int8X16# -> Int8X16#
- remInt16X8# :: Int16X8# -> Int16X8# -> Int16X8#
- remInt32X4# :: Int32X4# -> Int32X4# -> Int32X4#
- remInt64X2# :: Int64X2# -> Int64X2# -> Int64X2#
- remInt8X32# :: Int8X32# -> Int8X32# -> Int8X32#
- remInt16X16# :: Int16X16# -> Int16X16# -> Int16X16#
- remInt32X8# :: Int32X8# -> Int32X8# -> Int32X8#
- remInt64X4# :: Int64X4# -> Int64X4# -> Int64X4#
- remInt8X64# :: Int8X64# -> Int8X64# -> Int8X64#
- remInt16X32# :: Int16X32# -> Int16X32# -> Int16X32#
- remInt32X16# :: Int32X16# -> Int32X16# -> Int32X16#
- remInt64X8# :: Int64X8# -> Int64X8# -> Int64X8#
- remWord8X16# :: Word8X16# -> Word8X16# -> Word8X16#
- remWord16X8# :: Word16X8# -> Word16X8# -> Word16X8#
- remWord32X4# :: Word32X4# -> Word32X4# -> Word32X4#
- remWord64X2# :: Word64X2# -> Word64X2# -> Word64X2#
- remWord8X32# :: Word8X32# -> Word8X32# -> Word8X32#
- remWord16X16# :: Word16X16# -> Word16X16# -> Word16X16#
- remWord32X8# :: Word32X8# -> Word32X8# -> Word32X8#
- remWord64X4# :: Word64X4# -> Word64X4# -> Word64X4#
- remWord8X64# :: Word8X64# -> Word8X64# -> Word8X64#
- remWord16X32# :: Word16X32# -> Word16X32# -> Word16X32#
- remWord32X16# :: Word32X16# -> Word32X16# -> Word32X16#
- remWord64X8# :: Word64X8# -> Word64X8# -> Word64X8#
- negateInt8X16# :: Int8X16# -> Int8X16#
- negateInt16X8# :: Int16X8# -> Int16X8#
- negateInt32X4# :: Int32X4# -> Int32X4#
- negateInt64X2# :: Int64X2# -> Int64X2#
- negateInt8X32# :: Int8X32# -> Int8X32#
- negateInt16X16# :: Int16X16# -> Int16X16#
- negateInt32X8# :: Int32X8# -> Int32X8#
- negateInt64X4# :: Int64X4# -> Int64X4#
- negateInt8X64# :: Int8X64# -> Int8X64#
- negateInt16X32# :: Int16X32# -> Int16X32#
- negateInt32X16# :: Int32X16# -> Int32X16#
- negateInt64X8# :: Int64X8# -> Int64X8#
- negateFloatX4# :: FloatX4# -> FloatX4#
- negateDoubleX2# :: DoubleX2# -> DoubleX2#
- negateFloatX8# :: FloatX8# -> FloatX8#
- negateDoubleX4# :: DoubleX4# -> DoubleX4#
- negateFloatX16# :: FloatX16# -> FloatX16#
- negateDoubleX8# :: DoubleX8# -> DoubleX8#
- indexInt8X16Array# :: ByteArray# -> Int# -> Int8X16#
- indexInt16X8Array# :: ByteArray# -> Int# -> Int16X8#
- indexInt32X4Array# :: ByteArray# -> Int# -> Int32X4#
- indexInt64X2Array# :: ByteArray# -> Int# -> Int64X2#
- indexInt8X32Array# :: ByteArray# -> Int# -> Int8X32#
- indexInt16X16Array# :: ByteArray# -> Int# -> Int16X16#
- indexInt32X8Array# :: ByteArray# -> Int# -> Int32X8#
- indexInt64X4Array# :: ByteArray# -> Int# -> Int64X4#
- indexInt8X64Array# :: ByteArray# -> Int# -> Int8X64#
- indexInt16X32Array# :: ByteArray# -> Int# -> Int16X32#
- indexInt32X16Array# :: ByteArray# -> Int# -> Int32X16#
- indexInt64X8Array# :: ByteArray# -> Int# -> Int64X8#
- indexWord8X16Array# :: ByteArray# -> Int# -> Word8X16#
- indexWord16X8Array# :: ByteArray# -> Int# -> Word16X8#
- indexWord32X4Array# :: ByteArray# -> Int# -> Word32X4#
- indexWord64X2Array# :: ByteArray# -> Int# -> Word64X2#
- indexWord8X32Array# :: ByteArray# -> Int# -> Word8X32#
- indexWord16X16Array# :: ByteArray# -> Int# -> Word16X16#
- indexWord32X8Array# :: ByteArray# -> Int# -> Word32X8#
- indexWord64X4Array# :: ByteArray# -> Int# -> Word64X4#
- indexWord8X64Array# :: ByteArray# -> Int# -> Word8X64#
- indexWord16X32Array# :: ByteArray# -> Int# -> Word16X32#
- indexWord32X16Array# :: ByteArray# -> Int# -> Word32X16#
- indexWord64X8Array# :: ByteArray# -> Int# -> Word64X8#
- indexFloatX4Array# :: ByteArray# -> Int# -> FloatX4#
- indexDoubleX2Array# :: ByteArray# -> Int# -> DoubleX2#
- indexFloatX8Array# :: ByteArray# -> Int# -> FloatX8#
- indexDoubleX4Array# :: ByteArray# -> Int# -> DoubleX4#
- indexFloatX16Array# :: ByteArray# -> Int# -> FloatX16#
- indexDoubleX8Array# :: ByteArray# -> Int# -> DoubleX8#
- readInt8X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X16# #)
- readInt16X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X8# #)
- readInt32X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X4# #)
- readInt64X2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X2# #)
- readInt8X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X32# #)
- readInt16X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X16# #)
- readInt32X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X8# #)
- readInt64X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X4# #)
- readInt8X64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X64# #)
- readInt16X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X32# #)
- readInt32X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X16# #)
- readInt64X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X8# #)
- readWord8X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X16# #)
- readWord16X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X8# #)
- readWord32X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X4# #)
- readWord64X2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X2# #)
- readWord8X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X32# #)
- readWord16X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X16# #)
- readWord32X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X8# #)
- readWord64X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X4# #)
- readWord8X64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X64# #)
- readWord16X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X32# #)
- readWord32X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X16# #)
- readWord64X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X8# #)
- readFloatX4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX4# #)
- readDoubleX2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX2# #)
- readFloatX8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX8# #)
- readDoubleX4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX4# #)
- readFloatX16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX16# #)
- readDoubleX8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX8# #)
- writeInt8X16Array# :: MutableByteArray# d -> Int# -> Int8X16# -> State# d -> State# d
- writeInt16X8Array# :: MutableByteArray# d -> Int# -> Int16X8# -> State# d -> State# d
- writeInt32X4Array# :: MutableByteArray# d -> Int# -> Int32X4# -> State# d -> State# d
- writeInt64X2Array# :: MutableByteArray# d -> Int# -> Int64X2# -> State# d -> State# d
- writeInt8X32Array# :: MutableByteArray# d -> Int# -> Int8X32# -> State# d -> State# d
- writeInt16X16Array# :: MutableByteArray# d -> Int# -> Int16X16# -> State# d -> State# d
- writeInt32X8Array# :: MutableByteArray# d -> Int# -> Int32X8# -> State# d -> State# d
- writeInt64X4Array# :: MutableByteArray# d -> Int# -> Int64X4# -> State# d -> State# d
- writeInt8X64Array# :: MutableByteArray# d -> Int# -> Int8X64# -> State# d -> State# d
- writeInt16X32Array# :: MutableByteArray# d -> Int# -> Int16X32# -> State# d -> State# d
- writeInt32X16Array# :: MutableByteArray# d -> Int# -> Int32X16# -> State# d -> State# d
- writeInt64X8Array# :: MutableByteArray# d -> Int# -> Int64X8# -> State# d -> State# d
- writeWord8X16Array# :: MutableByteArray# d -> Int# -> Word8X16# -> State# d -> State# d
- writeWord16X8Array# :: MutableByteArray# d -> Int# -> Word16X8# -> State# d -> State# d
- writeWord32X4Array# :: MutableByteArray# d -> Int# -> Word32X4# -> State# d -> State# d
- writeWord64X2Array# :: MutableByteArray# d -> Int# -> Word64X2# -> State# d -> State# d
- writeWord8X32Array# :: MutableByteArray# d -> Int# -> Word8X32# -> State# d -> State# d
- writeWord16X16Array# :: MutableByteArray# d -> Int# -> Word16X16# -> State# d -> State# d
- writeWord32X8Array# :: MutableByteArray# d -> Int# -> Word32X8# -> State# d -> State# d
- writeWord64X4Array# :: MutableByteArray# d -> Int# -> Word64X4# -> State# d -> State# d
- writeWord8X64Array# :: MutableByteArray# d -> Int# -> Word8X64# -> State# d -> State# d
- writeWord16X32Array# :: MutableByteArray# d -> Int# -> Word16X32# -> State# d -> State# d
- writeWord32X16Array# :: MutableByteArray# d -> Int# -> Word32X16# -> State# d -> State# d
- writeWord64X8Array# :: MutableByteArray# d -> Int# -> Word64X8# -> State# d -> State# d
- writeFloatX4Array# :: MutableByteArray# d -> Int# -> FloatX4# -> State# d -> State# d
- writeDoubleX2Array# :: MutableByteArray# d -> Int# -> DoubleX2# -> State# d -> State# d
- writeFloatX8Array# :: MutableByteArray# d -> Int# -> FloatX8# -> State# d -> State# d
- writeDoubleX4Array# :: MutableByteArray# d -> Int# -> DoubleX4# -> State# d -> State# d
- writeFloatX16Array# :: MutableByteArray# d -> Int# -> FloatX16# -> State# d -> State# d
- writeDoubleX8Array# :: MutableByteArray# d -> Int# -> DoubleX8# -> State# d -> State# d
- indexInt8X16OffAddr# :: Addr# -> Int# -> Int8X16#
- indexInt16X8OffAddr# :: Addr# -> Int# -> Int16X8#
- indexInt32X4OffAddr# :: Addr# -> Int# -> Int32X4#
- indexInt64X2OffAddr# :: Addr# -> Int# -> Int64X2#
- indexInt8X32OffAddr# :: Addr# -> Int# -> Int8X32#
- indexInt16X16OffAddr# :: Addr# -> Int# -> Int16X16#
- indexInt32X8OffAddr# :: Addr# -> Int# -> Int32X8#
- indexInt64X4OffAddr# :: Addr# -> Int# -> Int64X4#
- indexInt8X64OffAddr# :: Addr# -> Int# -> Int8X64#
- indexInt16X32OffAddr# :: Addr# -> Int# -> Int16X32#
- indexInt32X16OffAddr# :: Addr# -> Int# -> Int32X16#
- indexInt64X8OffAddr# :: Addr# -> Int# -> Int64X8#
- indexWord8X16OffAddr# :: Addr# -> Int# -> Word8X16#
- indexWord16X8OffAddr# :: Addr# -> Int# -> Word16X8#
- indexWord32X4OffAddr# :: Addr# -> Int# -> Word32X4#
- indexWord64X2OffAddr# :: Addr# -> Int# -> Word64X2#
- indexWord8X32OffAddr# :: Addr# -> Int# -> Word8X32#
- indexWord16X16OffAddr# :: Addr# -> Int# -> Word16X16#
- indexWord32X8OffAddr# :: Addr# -> Int# -> Word32X8#
- indexWord64X4OffAddr# :: Addr# -> Int# -> Word64X4#
- indexWord8X64OffAddr# :: Addr# -> Int# -> Word8X64#
- indexWord16X32OffAddr# :: Addr# -> Int# -> Word16X32#
- indexWord32X16OffAddr# :: Addr# -> Int# -> Word32X16#
- indexWord64X8OffAddr# :: Addr# -> Int# -> Word64X8#
- indexFloatX4OffAddr# :: Addr# -> Int# -> FloatX4#
- indexDoubleX2OffAddr# :: Addr# -> Int# -> DoubleX2#
- indexFloatX8OffAddr# :: Addr# -> Int# -> FloatX8#
- indexDoubleX4OffAddr# :: Addr# -> Int# -> DoubleX4#
- indexFloatX16OffAddr# :: Addr# -> Int# -> FloatX16#
- indexDoubleX8OffAddr# :: Addr# -> Int# -> DoubleX8#
- readInt8X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X16# #)
- readInt16X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X8# #)
- readInt32X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X4# #)
- readInt64X2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X2# #)
- readInt8X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X32# #)
- readInt16X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X16# #)
- readInt32X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X8# #)
- readInt64X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X4# #)
- readInt8X64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X64# #)
- readInt16X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X32# #)
- readInt32X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X16# #)
- readInt64X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X8# #)
- readWord8X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X16# #)
- readWord16X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X8# #)
- readWord32X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X4# #)
- readWord64X2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X2# #)
- readWord8X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X32# #)
- readWord16X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X16# #)
- readWord32X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X8# #)
- readWord64X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X4# #)
- readWord8X64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X64# #)
- readWord16X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X32# #)
- readWord32X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X16# #)
- readWord64X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X8# #)
- readFloatX4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX4# #)
- readDoubleX2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX2# #)
- readFloatX8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX8# #)
- readDoubleX4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX4# #)
- readFloatX16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX16# #)
- readDoubleX8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX8# #)
- writeInt8X16OffAddr# :: Addr# -> Int# -> Int8X16# -> State# d -> State# d
- writeInt16X8OffAddr# :: Addr# -> Int# -> Int16X8# -> State# d -> State# d
- writeInt32X4OffAddr# :: Addr# -> Int# -> Int32X4# -> State# d -> State# d
- writeInt64X2OffAddr# :: Addr# -> Int# -> Int64X2# -> State# d -> State# d
- writeInt8X32OffAddr# :: Addr# -> Int# -> Int8X32# -> State# d -> State# d
- writeInt16X16OffAddr# :: Addr# -> Int# -> Int16X16# -> State# d -> State# d
- writeInt32X8OffAddr# :: Addr# -> Int# -> Int32X8# -> State# d -> State# d
- writeInt64X4OffAddr# :: Addr# -> Int# -> Int64X4# -> State# d -> State# d
- writeInt8X64OffAddr# :: Addr# -> Int# -> Int8X64# -> State# d -> State# d
- writeInt16X32OffAddr# :: Addr# -> Int# -> Int16X32# -> State# d -> State# d
- writeInt32X16OffAddr# :: Addr# -> Int# -> Int32X16# -> State# d -> State# d
- writeInt64X8OffAddr# :: Addr# -> Int# -> Int64X8# -> State# d -> State# d
- writeWord8X16OffAddr# :: Addr# -> Int# -> Word8X16# -> State# d -> State# d
- writeWord16X8OffAddr# :: Addr# -> Int# -> Word16X8# -> State# d -> State# d
- writeWord32X4OffAddr# :: Addr# -> Int# -> Word32X4# -> State# d -> State# d
- writeWord64X2OffAddr# :: Addr# -> Int# -> Word64X2# -> State# d -> State# d
- writeWord8X32OffAddr# :: Addr# -> Int# -> Word8X32# -> State# d -> State# d
- writeWord16X16OffAddr# :: Addr# -> Int# -> Word16X16# -> State# d -> State# d
- writeWord32X8OffAddr# :: Addr# -> Int# -> Word32X8# -> State# d -> State# d
- writeWord64X4OffAddr# :: Addr# -> Int# -> Word64X4# -> State# d -> State# d
- writeWord8X64OffAddr# :: Addr# -> Int# -> Word8X64# -> State# d -> State# d
- writeWord16X32OffAddr# :: Addr# -> Int# -> Word16X32# -> State# d -> State# d
- writeWord32X16OffAddr# :: Addr# -> Int# -> Word32X16# -> State# d -> State# d
- writeWord64X8OffAddr# :: Addr# -> Int# -> Word64X8# -> State# d -> State# d
- writeFloatX4OffAddr# :: Addr# -> Int# -> FloatX4# -> State# d -> State# d
- writeDoubleX2OffAddr# :: Addr# -> Int# -> DoubleX2# -> State# d -> State# d
- writeFloatX8OffAddr# :: Addr# -> Int# -> FloatX8# -> State# d -> State# d
- writeDoubleX4OffAddr# :: Addr# -> Int# -> DoubleX4# -> State# d -> State# d
- writeFloatX16OffAddr# :: Addr# -> Int# -> FloatX16# -> State# d -> State# d
- writeDoubleX8OffAddr# :: Addr# -> Int# -> DoubleX8# -> State# d -> State# d
- indexInt8ArrayAsInt8X16# :: ByteArray# -> Int# -> Int8X16#
- indexInt16ArrayAsInt16X8# :: ByteArray# -> Int# -> Int16X8#
- indexInt32ArrayAsInt32X4# :: ByteArray# -> Int# -> Int32X4#
- indexInt64ArrayAsInt64X2# :: ByteArray# -> Int# -> Int64X2#
- indexInt8ArrayAsInt8X32# :: ByteArray# -> Int# -> Int8X32#
- indexInt16ArrayAsInt16X16# :: ByteArray# -> Int# -> Int16X16#
- indexInt32ArrayAsInt32X8# :: ByteArray# -> Int# -> Int32X8#
- indexInt64ArrayAsInt64X4# :: ByteArray# -> Int# -> Int64X4#
- indexInt8ArrayAsInt8X64# :: ByteArray# -> Int# -> Int8X64#
- indexInt16ArrayAsInt16X32# :: ByteArray# -> Int# -> Int16X32#
- indexInt32ArrayAsInt32X16# :: ByteArray# -> Int# -> Int32X16#
- indexInt64ArrayAsInt64X8# :: ByteArray# -> Int# -> Int64X8#
- indexWord8ArrayAsWord8X16# :: ByteArray# -> Int# -> Word8X16#
- indexWord16ArrayAsWord16X8# :: ByteArray# -> Int# -> Word16X8#
- indexWord32ArrayAsWord32X4# :: ByteArray# -> Int# -> Word32X4#
- indexWord64ArrayAsWord64X2# :: ByteArray# -> Int# -> Word64X2#
- indexWord8ArrayAsWord8X32# :: ByteArray# -> Int# -> Word8X32#
- indexWord16ArrayAsWord16X16# :: ByteArray# -> Int# -> Word16X16#
- indexWord32ArrayAsWord32X8# :: ByteArray# -> Int# -> Word32X8#
- indexWord64ArrayAsWord64X4# :: ByteArray# -> Int# -> Word64X4#
- indexWord8ArrayAsWord8X64# :: ByteArray# -> Int# -> Word8X64#
- indexWord16ArrayAsWord16X32# :: ByteArray# -> Int# -> Word16X32#
- indexWord32ArrayAsWord32X16# :: ByteArray# -> Int# -> Word32X16#
- indexWord64ArrayAsWord64X8# :: ByteArray# -> Int# -> Word64X8#
- indexFloatArrayAsFloatX4# :: ByteArray# -> Int# -> FloatX4#
- indexDoubleArrayAsDoubleX2# :: ByteArray# -> Int# -> DoubleX2#
- indexFloatArrayAsFloatX8# :: ByteArray# -> Int# -> FloatX8#
- indexDoubleArrayAsDoubleX4# :: ByteArray# -> Int# -> DoubleX4#
- indexFloatArrayAsFloatX16# :: ByteArray# -> Int# -> FloatX16#
- indexDoubleArrayAsDoubleX8# :: ByteArray# -> Int# -> DoubleX8#
- readInt8ArrayAsInt8X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X16# #)
- readInt16ArrayAsInt16X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X8# #)
- readInt32ArrayAsInt32X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X4# #)
- readInt64ArrayAsInt64X2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X2# #)
- readInt8ArrayAsInt8X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X32# #)
- readInt16ArrayAsInt16X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X16# #)
- readInt32ArrayAsInt32X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X8# #)
- readInt64ArrayAsInt64X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X4# #)
- readInt8ArrayAsInt8X64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X64# #)
- readInt16ArrayAsInt16X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X32# #)
- readInt32ArrayAsInt32X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X16# #)
- readInt64ArrayAsInt64X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X8# #)
- readWord8ArrayAsWord8X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X16# #)
- readWord16ArrayAsWord16X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X8# #)
- readWord32ArrayAsWord32X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X4# #)
- readWord64ArrayAsWord64X2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X2# #)
- readWord8ArrayAsWord8X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X32# #)
- readWord16ArrayAsWord16X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X16# #)
- readWord32ArrayAsWord32X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X8# #)
- readWord64ArrayAsWord64X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X4# #)
- readWord8ArrayAsWord8X64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X64# #)
- readWord16ArrayAsWord16X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X32# #)
- readWord32ArrayAsWord32X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X16# #)
- readWord64ArrayAsWord64X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X8# #)
- readFloatArrayAsFloatX4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX4# #)
- readDoubleArrayAsDoubleX2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX2# #)
- readFloatArrayAsFloatX8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX8# #)
- readDoubleArrayAsDoubleX4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX4# #)
- readFloatArrayAsFloatX16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX16# #)
- readDoubleArrayAsDoubleX8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX8# #)
- writeInt8ArrayAsInt8X16# :: MutableByteArray# d -> Int# -> Int8X16# -> State# d -> State# d
- writeInt16ArrayAsInt16X8# :: MutableByteArray# d -> Int# -> Int16X8# -> State# d -> State# d
- writeInt32ArrayAsInt32X4# :: MutableByteArray# d -> Int# -> Int32X4# -> State# d -> State# d
- writeInt64ArrayAsInt64X2# :: MutableByteArray# d -> Int# -> Int64X2# -> State# d -> State# d
- writeInt8ArrayAsInt8X32# :: MutableByteArray# d -> Int# -> Int8X32# -> State# d -> State# d
- writeInt16ArrayAsInt16X16# :: MutableByteArray# d -> Int# -> Int16X16# -> State# d -> State# d
- writeInt32ArrayAsInt32X8# :: MutableByteArray# d -> Int# -> Int32X8# -> State# d -> State# d
- writeInt64ArrayAsInt64X4# :: MutableByteArray# d -> Int# -> Int64X4# -> State# d -> State# d
- writeInt8ArrayAsInt8X64# :: MutableByteArray# d -> Int# -> Int8X64# -> State# d -> State# d
- writeInt16ArrayAsInt16X32# :: MutableByteArray# d -> Int# -> Int16X32# -> State# d -> State# d
- writeInt32ArrayAsInt32X16# :: MutableByteArray# d -> Int# -> Int32X16# -> State# d -> State# d
- writeInt64ArrayAsInt64X8# :: MutableByteArray# d -> Int# -> Int64X8# -> State# d -> State# d
- writeWord8ArrayAsWord8X16# :: MutableByteArray# d -> Int# -> Word8X16# -> State# d -> State# d
- writeWord16ArrayAsWord16X8# :: MutableByteArray# d -> Int# -> Word16X8# -> State# d -> State# d
- writeWord32ArrayAsWord32X4# :: MutableByteArray# d -> Int# -> Word32X4# -> State# d -> State# d
- writeWord64ArrayAsWord64X2# :: MutableByteArray# d -> Int# -> Word64X2# -> State# d -> State# d
- writeWord8ArrayAsWord8X32# :: MutableByteArray# d -> Int# -> Word8X32# -> State# d -> State# d
- writeWord16ArrayAsWord16X16# :: MutableByteArray# d -> Int# -> Word16X16# -> State# d -> State# d
- writeWord32ArrayAsWord32X8# :: MutableByteArray# d -> Int# -> Word32X8# -> State# d -> State# d
- writeWord64ArrayAsWord64X4# :: MutableByteArray# d -> Int# -> Word64X4# -> State# d -> State# d
- writeWord8ArrayAsWord8X64# :: MutableByteArray# d -> Int# -> Word8X64# -> State# d -> State# d
- writeWord16ArrayAsWord16X32# :: MutableByteArray# d -> Int# -> Word16X32# -> State# d -> State# d
- writeWord32ArrayAsWord32X16# :: MutableByteArray# d -> Int# -> Word32X16# -> State# d -> State# d
- writeWord64ArrayAsWord64X8# :: MutableByteArray# d -> Int# -> Word64X8# -> State# d -> State# d
- writeFloatArrayAsFloatX4# :: MutableByteArray# d -> Int# -> FloatX4# -> State# d -> State# d
- writeDoubleArrayAsDoubleX2# :: MutableByteArray# d -> Int# -> DoubleX2# -> State# d -> State# d
- writeFloatArrayAsFloatX8# :: MutableByteArray# d -> Int# -> FloatX8# -> State# d -> State# d
- writeDoubleArrayAsDoubleX4# :: MutableByteArray# d -> Int# -> DoubleX4# -> State# d -> State# d
- writeFloatArrayAsFloatX16# :: MutableByteArray# d -> Int# -> FloatX16# -> State# d -> State# d
- writeDoubleArrayAsDoubleX8# :: MutableByteArray# d -> Int# -> DoubleX8# -> State# d -> State# d
- indexInt8OffAddrAsInt8X16# :: Addr# -> Int# -> Int8X16#
- indexInt16OffAddrAsInt16X8# :: Addr# -> Int# -> Int16X8#
- indexInt32OffAddrAsInt32X4# :: Addr# -> Int# -> Int32X4#
- indexInt64OffAddrAsInt64X2# :: Addr# -> Int# -> Int64X2#
- indexInt8OffAddrAsInt8X32# :: Addr# -> Int# -> Int8X32#
- indexInt16OffAddrAsInt16X16# :: Addr# -> Int# -> Int16X16#
- indexInt32OffAddrAsInt32X8# :: Addr# -> Int# -> Int32X8#
- indexInt64OffAddrAsInt64X4# :: Addr# -> Int# -> Int64X4#
- indexInt8OffAddrAsInt8X64# :: Addr# -> Int# -> Int8X64#
- indexInt16OffAddrAsInt16X32# :: Addr# -> Int# -> Int16X32#
- indexInt32OffAddrAsInt32X16# :: Addr# -> Int# -> Int32X16#
- indexInt64OffAddrAsInt64X8# :: Addr# -> Int# -> Int64X8#
- indexWord8OffAddrAsWord8X16# :: Addr# -> Int# -> Word8X16#
- indexWord16OffAddrAsWord16X8# :: Addr# -> Int# -> Word16X8#
- indexWord32OffAddrAsWord32X4# :: Addr# -> Int# -> Word32X4#
- indexWord64OffAddrAsWord64X2# :: Addr# -> Int# -> Word64X2#
- indexWord8OffAddrAsWord8X32# :: Addr# -> Int# -> Word8X32#
- indexWord16OffAddrAsWord16X16# :: Addr# -> Int# -> Word16X16#
- indexWord32OffAddrAsWord32X8# :: Addr# -> Int# -> Word32X8#
- indexWord64OffAddrAsWord64X4# :: Addr# -> Int# -> Word64X4#
- indexWord8OffAddrAsWord8X64# :: Addr# -> Int# -> Word8X64#
- indexWord16OffAddrAsWord16X32# :: Addr# -> Int# -> Word16X32#
- indexWord32OffAddrAsWord32X16# :: Addr# -> Int# -> Word32X16#
- indexWord64OffAddrAsWord64X8# :: Addr# -> Int# -> Word64X8#
- indexFloatOffAddrAsFloatX4# :: Addr# -> Int# -> FloatX4#
- indexDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> DoubleX2#
- indexFloatOffAddrAsFloatX8# :: Addr# -> Int# -> FloatX8#
- indexDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> DoubleX4#
- indexFloatOffAddrAsFloatX16# :: Addr# -> Int# -> FloatX16#
- indexDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> DoubleX8#
- readInt8OffAddrAsInt8X16# :: Addr# -> Int# -> State# d -> (# State# d, Int8X16# #)
- readInt16OffAddrAsInt16X8# :: Addr# -> Int# -> State# d -> (# State# d, Int16X8# #)
- readInt32OffAddrAsInt32X4# :: Addr# -> Int# -> State# d -> (# State# d, Int32X4# #)
- readInt64OffAddrAsInt64X2# :: Addr# -> Int# -> State# d -> (# State# d, Int64X2# #)
- readInt8OffAddrAsInt8X32# :: Addr# -> Int# -> State# d -> (# State# d, Int8X32# #)
- readInt16OffAddrAsInt16X16# :: Addr# -> Int# -> State# d -> (# State# d, Int16X16# #)
- readInt32OffAddrAsInt32X8# :: Addr# -> Int# -> State# d -> (# State# d, Int32X8# #)
- readInt64OffAddrAsInt64X4# :: Addr# -> Int# -> State# d -> (# State# d, Int64X4# #)
- readInt8OffAddrAsInt8X64# :: Addr# -> Int# -> State# d -> (# State# d, Int8X64# #)
- readInt16OffAddrAsInt16X32# :: Addr# -> Int# -> State# d -> (# State# d, Int16X32# #)
- readInt32OffAddrAsInt32X16# :: Addr# -> Int# -> State# d -> (# State# d, Int32X16# #)
- readInt64OffAddrAsInt64X8# :: Addr# -> Int# -> State# d -> (# State# d, Int64X8# #)
- readWord8OffAddrAsWord8X16# :: Addr# -> Int# -> State# d -> (# State# d, Word8X16# #)
- readWord16OffAddrAsWord16X8# :: Addr# -> Int# -> State# d -> (# State# d, Word16X8# #)
- readWord32OffAddrAsWord32X4# :: Addr# -> Int# -> State# d -> (# State# d, Word32X4# #)
- readWord64OffAddrAsWord64X2# :: Addr# -> Int# -> State# d -> (# State# d, Word64X2# #)
- readWord8OffAddrAsWord8X32# :: Addr# -> Int# -> State# d -> (# State# d, Word8X32# #)
- readWord16OffAddrAsWord16X16# :: Addr# -> Int# -> State# d -> (# State# d, Word16X16# #)
- readWord32OffAddrAsWord32X8# :: Addr# -> Int# -> State# d -> (# State# d, Word32X8# #)
- readWord64OffAddrAsWord64X4# :: Addr# -> Int# -> State# d -> (# State# d, Word64X4# #)
- readWord8OffAddrAsWord8X64# :: Addr# -> Int# -> State# d -> (# State# d, Word8X64# #)
- readWord16OffAddrAsWord16X32# :: Addr# -> Int# -> State# d -> (# State# d, Word16X32# #)
- readWord32OffAddrAsWord32X16# :: Addr# -> Int# -> State# d -> (# State# d, Word32X16# #)
- readWord64OffAddrAsWord64X8# :: Addr# -> Int# -> State# d -> (# State# d, Word64X8# #)
- readFloatOffAddrAsFloatX4# :: Addr# -> Int# -> State# d -> (# State# d, FloatX4# #)
- readDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX2# #)
- readFloatOffAddrAsFloatX8# :: Addr# -> Int# -> State# d -> (# State# d, FloatX8# #)
- readDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX4# #)
- readFloatOffAddrAsFloatX16# :: Addr# -> Int# -> State# d -> (# State# d, FloatX16# #)
- readDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX8# #)
- writeInt8OffAddrAsInt8X16# :: Addr# -> Int# -> Int8X16# -> State# d -> State# d
- writeInt16OffAddrAsInt16X8# :: Addr# -> Int# -> Int16X8# -> State# d -> State# d
- writeInt32OffAddrAsInt32X4# :: Addr# -> Int# -> Int32X4# -> State# d -> State# d
- writeInt64OffAddrAsInt64X2# :: Addr# -> Int# -> Int64X2# -> State# d -> State# d
- writeInt8OffAddrAsInt8X32# :: Addr# -> Int# -> Int8X32# -> State# d -> State# d
- writeInt16OffAddrAsInt16X16# :: Addr# -> Int# -> Int16X16# -> State# d -> State# d
- writeInt32OffAddrAsInt32X8# :: Addr# -> Int# -> Int32X8# -> State# d -> State# d
- writeInt64OffAddrAsInt64X4# :: Addr# -> Int# -> Int64X4# -> State# d -> State# d
- writeInt8OffAddrAsInt8X64# :: Addr# -> Int# -> Int8X64# -> State# d -> State# d
- writeInt16OffAddrAsInt16X32# :: Addr# -> Int# -> Int16X32# -> State# d -> State# d
- writeInt32OffAddrAsInt32X16# :: Addr# -> Int# -> Int32X16# -> State# d -> State# d
- writeInt64OffAddrAsInt64X8# :: Addr# -> Int# -> Int64X8# -> State# d -> State# d
- writeWord8OffAddrAsWord8X16# :: Addr# -> Int# -> Word8X16# -> State# d -> State# d
- writeWord16OffAddrAsWord16X8# :: Addr# -> Int# -> Word16X8# -> State# d -> State# d
- writeWord32OffAddrAsWord32X4# :: Addr# -> Int# -> Word32X4# -> State# d -> State# d
- writeWord64OffAddrAsWord64X2# :: Addr# -> Int# -> Word64X2# -> State# d -> State# d
- writeWord8OffAddrAsWord8X32# :: Addr# -> Int# -> Word8X32# -> State# d -> State# d
- writeWord16OffAddrAsWord16X16# :: Addr# -> Int# -> Word16X16# -> State# d -> State# d
- writeWord32OffAddrAsWord32X8# :: Addr# -> Int# -> Word32X8# -> State# d -> State# d
- writeWord64OffAddrAsWord64X4# :: Addr# -> Int# -> Word64X4# -> State# d -> State# d
- writeWord8OffAddrAsWord8X64# :: Addr# -> Int# -> Word8X64# -> State# d -> State# d
- writeWord16OffAddrAsWord16X32# :: Addr# -> Int# -> Word16X32# -> State# d -> State# d
- writeWord32OffAddrAsWord32X16# :: Addr# -> Int# -> Word32X16# -> State# d -> State# d
- writeWord64OffAddrAsWord64X8# :: Addr# -> Int# -> Word64X8# -> State# d -> State# d
- writeFloatOffAddrAsFloatX4# :: Addr# -> Int# -> FloatX4# -> State# d -> State# d
- writeDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> DoubleX2# -> State# d -> State# d
- writeFloatOffAddrAsFloatX8# :: Addr# -> Int# -> FloatX8# -> State# d -> State# d
- writeDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> DoubleX4# -> State# d -> State# d
- writeFloatOffAddrAsFloatX16# :: Addr# -> Int# -> FloatX16# -> State# d -> State# d
- writeDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> DoubleX8# -> State# d -> State# d
- prefetchByteArray3# :: ByteArray# -> Int# -> State# d -> State# d
- prefetchMutableByteArray3# :: MutableByteArray# d -> Int# -> State# d -> State# d
- prefetchAddr3# :: Addr# -> Int# -> State# d -> State# d
- prefetchValue3# :: a -> State# d -> State# d
- prefetchByteArray2# :: ByteArray# -> Int# -> State# d -> State# d
- prefetchMutableByteArray2# :: MutableByteArray# d -> Int# -> State# d -> State# d
- prefetchAddr2# :: Addr# -> Int# -> State# d -> State# d
- prefetchValue2# :: a -> State# d -> State# d
- prefetchByteArray1# :: ByteArray# -> Int# -> State# d -> State# d
- prefetchMutableByteArray1# :: MutableByteArray# d -> Int# -> State# d -> State# d
- prefetchAddr1# :: Addr# -> Int# -> State# d -> State# d
- prefetchValue1# :: a -> State# d -> State# d
- prefetchByteArray0# :: ByteArray# -> Int# -> State# d -> State# d
- prefetchMutableByteArray0# :: MutableByteArray# d -> Int# -> State# d -> State# d
- prefetchAddr0# :: Addr# -> Int# -> State# d -> State# d
- prefetchValue0# :: a -> State# d -> State# d
- module GHC.Prim.Ext
- shiftL# :: Word# -> Int# -> Word#
- shiftRL# :: Word# -> Int# -> Word#
- iShiftL# :: Int# -> Int# -> Int#
- iShiftRA# :: Int# -> Int# -> Int#
- iShiftRL# :: Int# -> Int# -> Int#
- uncheckedShiftL64# :: Word# -> Int# -> Word#
- uncheckedShiftRL64# :: Word# -> Int# -> Word#
- uncheckedIShiftL64# :: Int# -> Int# -> Int#
- uncheckedIShiftRA64# :: Int# -> Int# -> Int#
- isTrue# :: Int# -> Bool
- atomicModifyMutVar# :: MutVar# s a -> (a -> b) -> State# s -> (# State# s, c #)
- resizeSmallMutableArray# :: SmallMutableArray# s a -> Int# -> a -> State# s -> (# State# s, SmallMutableArray# s a #)
- build :: forall a. (forall b. (a -> b -> b) -> b -> b) -> [a]
- augment :: forall a. (forall b. (a -> b -> b) -> b -> b) -> [a] -> [a]
- class IsString a where
- fromString :: String -> a
- breakpoint :: a -> a
- breakpointCond :: Bool -> a -> a
- lazy :: a -> a
- inline :: a -> a
- oneShot :: forall (q :: RuntimeRep) (r :: RuntimeRep) (a :: TYPE q) (b :: TYPE r). (a -> b) -> a -> b
- runRW# :: forall (r :: RuntimeRep) (o :: TYPE r). (State# RealWorld -> o) -> o
- coerce :: forall (k :: RuntimeRep) (a :: TYPE k) (b :: TYPE k). Coercible a b => a -> b
- class a ~R# b => Coercible (a :: k) (b :: k)
- class a ~# b => (a :: k0) ~~ (b :: k1)
- data TYPE (a :: RuntimeRep)
- data RuntimeRep
- data VecCount
- data VecElem
- newtype Down a = Down {
- getDown :: a
- groupWith :: Ord b => (a -> b) -> [a] -> [[a]]
- sortWith :: Ord b => (a -> b) -> [a] -> [a]
- the :: Eq a => [a] -> a
- traceEvent :: String -> IO ()
- data SpecConstrAnnotation
- currentCallStack :: IO [String]
- data Constraint
- type family Any :: k where ...
- class IsList l where
Representations of some basic types
A fixed-precision integer type with at least the range [-2^29 .. 2^29-1]
.
The exact range for a given implementation can be determined by using
minBound
and maxBound
from the Bounded
class.
Instances
Bounded Int Source # | Since: base-2.1 |
Enum Int Source # | Since: base-2.1 |
Defined in GHC.Enum | |
Eq Int | |
Integral Int Source # | Since: base-2.0.1 |
Data Int Source # | Since: base-4.0.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Int -> c Int Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Int Source # toConstr :: Int -> Constr Source # dataTypeOf :: Int -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Int) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Int) Source # gmapT :: (forall b. Data b => b -> b) -> Int -> Int Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Int -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Int -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Int -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Int -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Int -> m Int Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Int -> m Int Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Int -> m Int Source # | |
Num Int Source # | Since: base-2.1 |
Ord Int | |
Read Int Source # | Since: base-2.1 |
Real Int Source # | Since: base-2.0.1 |
Show Int Source # | Since: base-2.1 |
Ix Int Source # | Since: base-2.1 |
FiniteBits Int Source # | Since: base-4.6.0.0 |
Bits Int Source # | Since: base-2.1 |
Defined in Data.Bits (.&.) :: Int -> Int -> Int Source # (.|.) :: Int -> Int -> Int Source # xor :: Int -> Int -> Int Source # complement :: Int -> Int Source # shift :: Int -> Int -> Int Source # rotate :: Int -> Int -> Int Source # setBit :: Int -> Int -> Int Source # clearBit :: Int -> Int -> Int Source # complementBit :: Int -> Int -> Int Source # testBit :: Int -> Int -> Bool Source # bitSizeMaybe :: Int -> Maybe Int Source # bitSize :: Int -> Int Source # isSigned :: Int -> Bool Source # shiftL :: Int -> Int -> Int Source # unsafeShiftL :: Int -> Int -> Int Source # shiftR :: Int -> Int -> Int Source # unsafeShiftR :: Int -> Int -> Int Source # rotateL :: Int -> Int -> Int Source # | |
Storable Int Source # | Since: base-2.1 |
PrintfArg Int Source # | Since: base-2.1 |
Defined in Text.Printf formatArg :: Int -> FieldFormatter Source # parseFormat :: Int -> ModifierParser Source # | |
Generic1 (URec Int :: k -> Type) Source # | Since: base-4.9.0.0 |
Foldable (UInt :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UInt m -> m Source # foldMap :: Monoid m => (a -> m) -> UInt a -> m Source # foldMap' :: Monoid m => (a -> m) -> UInt a -> m Source # foldr :: (a -> b -> b) -> b -> UInt a -> b Source # foldr' :: (a -> b -> b) -> b -> UInt a -> b Source # foldl :: (b -> a -> b) -> b -> UInt a -> b Source # foldl' :: (b -> a -> b) -> b -> UInt a -> b Source # foldr1 :: (a -> a -> a) -> UInt a -> a Source # foldl1 :: (a -> a -> a) -> UInt a -> a Source # toList :: UInt a -> [a] Source # null :: UInt a -> Bool Source # length :: UInt a -> Int Source # elem :: Eq a => a -> UInt a -> Bool Source # maximum :: Ord a => UInt a -> a Source # minimum :: Ord a => UInt a -> a Source # | |
Traversable (UInt :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Int :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec Int p) Source # | Since: base-4.9.0.0 |
Ord (URec Int p) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics compare :: URec Int p -> URec Int p -> Ordering Source # (<) :: URec Int p -> URec Int p -> Bool Source # (<=) :: URec Int p -> URec Int p -> Bool Source # (>) :: URec Int p -> URec Int p -> Bool Source # (>=) :: URec Int p -> URec Int p -> Bool Source # | |
Show (URec Int p) Source # | Since: base-4.9.0.0 |
Generic (URec Int p) Source # | Since: base-4.9.0.0 |
data URec Int (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec Int :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec Int p) Source # | |
Defined in GHC.Generics |
Instances
Bounded Word Source # | Since: base-2.1 |
Enum Word Source # | Since: base-2.1 |
Eq Word | |
Integral Word Source # | Since: base-2.1 |
Data Word Source # | Since: base-4.0.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Word -> c Word Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Word Source # toConstr :: Word -> Constr Source # dataTypeOf :: Word -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Word) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Word) Source # gmapT :: (forall b. Data b => b -> b) -> Word -> Word Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Word -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Word -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Word -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Word -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Word -> m Word Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Word -> m Word Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Word -> m Word Source # | |
Num Word Source # | Since: base-2.1 |
Ord Word | |
Read Word Source # | Since: base-4.5.0.0 |
Real Word Source # | Since: base-2.1 |
Show Word Source # | Since: base-2.1 |
Ix Word Source # | Since: base-4.6.0.0 |
FiniteBits Word Source # | Since: base-4.6.0.0 |
Bits Word Source # | Since: base-2.1 |
Defined in Data.Bits (.&.) :: Word -> Word -> Word Source # (.|.) :: Word -> Word -> Word Source # xor :: Word -> Word -> Word Source # complement :: Word -> Word Source # shift :: Word -> Int -> Word Source # rotate :: Word -> Int -> Word Source # setBit :: Word -> Int -> Word Source # clearBit :: Word -> Int -> Word Source # complementBit :: Word -> Int -> Word Source # testBit :: Word -> Int -> Bool Source # bitSizeMaybe :: Word -> Maybe Int Source # bitSize :: Word -> Int Source # isSigned :: Word -> Bool Source # shiftL :: Word -> Int -> Word Source # unsafeShiftL :: Word -> Int -> Word Source # shiftR :: Word -> Int -> Word Source # unsafeShiftR :: Word -> Int -> Word Source # rotateL :: Word -> Int -> Word Source # | |
Storable Word Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: Word -> Int Source # alignment :: Word -> Int Source # peekElemOff :: Ptr Word -> Int -> IO Word Source # pokeElemOff :: Ptr Word -> Int -> Word -> IO () Source # peekByteOff :: Ptr b -> Int -> IO Word Source # pokeByteOff :: Ptr b -> Int -> Word -> IO () Source # | |
PrintfArg Word Source # | Since: base-2.1 |
Defined in Text.Printf formatArg :: Word -> FieldFormatter Source # parseFormat :: Word -> ModifierParser Source # | |
Generic1 (URec Word :: k -> Type) Source # | Since: base-4.9.0.0 |
Foldable (UWord :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UWord m -> m Source # foldMap :: Monoid m => (a -> m) -> UWord a -> m Source # foldMap' :: Monoid m => (a -> m) -> UWord a -> m Source # foldr :: (a -> b -> b) -> b -> UWord a -> b Source # foldr' :: (a -> b -> b) -> b -> UWord a -> b Source # foldl :: (b -> a -> b) -> b -> UWord a -> b Source # foldl' :: (b -> a -> b) -> b -> UWord a -> b Source # foldr1 :: (a -> a -> a) -> UWord a -> a Source # foldl1 :: (a -> a -> a) -> UWord a -> a Source # toList :: UWord a -> [a] Source # null :: UWord a -> Bool Source # length :: UWord a -> Int Source # elem :: Eq a => a -> UWord a -> Bool Source # maximum :: Ord a => UWord a -> a Source # minimum :: Ord a => UWord a -> a Source # | |
Traversable (UWord :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Word :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec Word p) Source # | Since: base-4.9.0.0 |
Ord (URec Word p) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics compare :: URec Word p -> URec Word p -> Ordering Source # (<) :: URec Word p -> URec Word p -> Bool Source # (<=) :: URec Word p -> URec Word p -> Bool Source # (>) :: URec Word p -> URec Word p -> Bool Source # (>=) :: URec Word p -> URec Word p -> Bool Source # | |
Show (URec Word p) Source # | Since: base-4.9.0.0 |
Generic (URec Word p) Source # | Since: base-4.9.0.0 |
data URec Word (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec Word :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec Word p) Source # | |
Defined in GHC.Generics |
Single-precision floating point numbers. It is desirable that this type be at least equal in range and precision to the IEEE single-precision type.
Instances
Enum Float Source # | Since: base-2.1 |
Defined in GHC.Float succ :: Float -> Float Source # pred :: Float -> Float Source # toEnum :: Int -> Float Source # fromEnum :: Float -> Int Source # enumFrom :: Float -> [Float] Source # enumFromThen :: Float -> Float -> [Float] Source # enumFromTo :: Float -> Float -> [Float] Source # enumFromThenTo :: Float -> Float -> Float -> [Float] Source # | |
Eq Float | Note that due to the presence of
Also note that
|
Floating Float Source # | Since: base-2.1 |
Defined in GHC.Float exp :: Float -> Float Source # log :: Float -> Float Source # sqrt :: Float -> Float Source # (**) :: Float -> Float -> Float Source # logBase :: Float -> Float -> Float Source # sin :: Float -> Float Source # cos :: Float -> Float Source # tan :: Float -> Float Source # asin :: Float -> Float Source # acos :: Float -> Float Source # atan :: Float -> Float Source # sinh :: Float -> Float Source # cosh :: Float -> Float Source # tanh :: Float -> Float Source # asinh :: Float -> Float Source # acosh :: Float -> Float Source # atanh :: Float -> Float Source # log1p :: Float -> Float Source # expm1 :: Float -> Float Source # | |
Fractional Float Source # | Note that due to the presence of
Since: base-2.1 |
Data Float Source # | Since: base-4.0.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Float -> c Float Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Float Source # toConstr :: Float -> Constr Source # dataTypeOf :: Float -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Float) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Float) Source # gmapT :: (forall b. Data b => b -> b) -> Float -> Float Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Float -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Float -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Float -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Float -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Float -> m Float Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Float -> m Float Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Float -> m Float Source # | |
Num Float Source # | Note that due to the presence of
Also note that due to the presence of -0,
Since: base-2.1 |
Ord Float | Note that due to the presence of
Also note that, due to the same,
|
Defined in GHC.Classes | |
Read Float Source # | Since: base-2.1 |
Real Float Source # | Since: base-2.1 |
RealFloat Float Source # | Since: base-2.1 |
Defined in GHC.Float floatRadix :: Float -> Integer Source # floatDigits :: Float -> Int Source # floatRange :: Float -> (Int, Int) Source # decodeFloat :: Float -> (Integer, Int) Source # encodeFloat :: Integer -> Int -> Float Source # exponent :: Float -> Int Source # significand :: Float -> Float Source # scaleFloat :: Int -> Float -> Float Source # isNaN :: Float -> Bool Source # isInfinite :: Float -> Bool Source # isDenormalized :: Float -> Bool Source # isNegativeZero :: Float -> Bool Source # | |
RealFrac Float Source # | Since: base-2.1 |
Show Float Source # | Since: base-2.1 |
Storable Float Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: Float -> Int Source # alignment :: Float -> Int Source # peekElemOff :: Ptr Float -> Int -> IO Float Source # pokeElemOff :: Ptr Float -> Int -> Float -> IO () Source # peekByteOff :: Ptr b -> Int -> IO Float Source # pokeByteOff :: Ptr b -> Int -> Float -> IO () Source # | |
PrintfArg Float Source # | Since: base-2.1 |
Defined in Text.Printf formatArg :: Float -> FieldFormatter Source # parseFormat :: Float -> ModifierParser Source # | |
Generic1 (URec Float :: k -> Type) Source # | Since: base-4.9.0.0 |
Foldable (UFloat :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UFloat m -> m Source # foldMap :: Monoid m => (a -> m) -> UFloat a -> m Source # foldMap' :: Monoid m => (a -> m) -> UFloat a -> m Source # foldr :: (a -> b -> b) -> b -> UFloat a -> b Source # foldr' :: (a -> b -> b) -> b -> UFloat a -> b Source # foldl :: (b -> a -> b) -> b -> UFloat a -> b Source # foldl' :: (b -> a -> b) -> b -> UFloat a -> b Source # foldr1 :: (a -> a -> a) -> UFloat a -> a Source # foldl1 :: (a -> a -> a) -> UFloat a -> a Source # toList :: UFloat a -> [a] Source # null :: UFloat a -> Bool Source # length :: UFloat a -> Int Source # elem :: Eq a => a -> UFloat a -> Bool Source # maximum :: Ord a => UFloat a -> a Source # minimum :: Ord a => UFloat a -> a Source # | |
Traversable (UFloat :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Float :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec Float p) Source # | |
Ord (URec Float p) Source # | |
Defined in GHC.Generics compare :: URec Float p -> URec Float p -> Ordering Source # (<) :: URec Float p -> URec Float p -> Bool Source # (<=) :: URec Float p -> URec Float p -> Bool Source # (>) :: URec Float p -> URec Float p -> Bool Source # (>=) :: URec Float p -> URec Float p -> Bool Source # max :: URec Float p -> URec Float p -> URec Float p Source # min :: URec Float p -> URec Float p -> URec Float p Source # | |
Show (URec Float p) Source # | |
Generic (URec Float p) Source # | |
data URec Float (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec Float :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec Float p) Source # | |
Defined in GHC.Generics |
Double-precision floating point numbers. It is desirable that this type be at least equal in range and precision to the IEEE double-precision type.
Instances
Enum Double Source # | Since: base-2.1 |
Defined in GHC.Float succ :: Double -> Double Source # pred :: Double -> Double Source # toEnum :: Int -> Double Source # fromEnum :: Double -> Int Source # enumFrom :: Double -> [Double] Source # enumFromThen :: Double -> Double -> [Double] Source # enumFromTo :: Double -> Double -> [Double] Source # enumFromThenTo :: Double -> Double -> Double -> [Double] Source # | |
Eq Double | Note that due to the presence of
Also note that
|
Floating Double Source # | Since: base-2.1 |
Defined in GHC.Float exp :: Double -> Double Source # log :: Double -> Double Source # sqrt :: Double -> Double Source # (**) :: Double -> Double -> Double Source # logBase :: Double -> Double -> Double Source # sin :: Double -> Double Source # cos :: Double -> Double Source # tan :: Double -> Double Source # asin :: Double -> Double Source # acos :: Double -> Double Source # atan :: Double -> Double Source # sinh :: Double -> Double Source # cosh :: Double -> Double Source # tanh :: Double -> Double Source # asinh :: Double -> Double Source # acosh :: Double -> Double Source # atanh :: Double -> Double Source # log1p :: Double -> Double Source # expm1 :: Double -> Double Source # | |
Fractional Double Source # | Note that due to the presence of
Since: base-2.1 |
Data Double Source # | Since: base-4.0.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Double -> c Double Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Double Source # toConstr :: Double -> Constr Source # dataTypeOf :: Double -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Double) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Double) Source # gmapT :: (forall b. Data b => b -> b) -> Double -> Double Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Double -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Double -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Double -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Double -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Double -> m Double Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Double -> m Double Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Double -> m Double Source # | |
Num Double Source # | Note that due to the presence of
Also note that due to the presence of -0,
Since: base-2.1 |
Ord Double | Note that due to the presence of
Also note that, due to the same,
|
Defined in GHC.Classes | |
Read Double Source # | Since: base-2.1 |
Real Double Source # | Since: base-2.1 |
RealFloat Double Source # | Since: base-2.1 |
Defined in GHC.Float floatRadix :: Double -> Integer Source # floatDigits :: Double -> Int Source # floatRange :: Double -> (Int, Int) Source # decodeFloat :: Double -> (Integer, Int) Source # encodeFloat :: Integer -> Int -> Double Source # exponent :: Double -> Int Source # significand :: Double -> Double Source # scaleFloat :: Int -> Double -> Double Source # isNaN :: Double -> Bool Source # isInfinite :: Double -> Bool Source # isDenormalized :: Double -> Bool Source # isNegativeZero :: Double -> Bool Source # | |
RealFrac Double Source # | Since: base-2.1 |
Show Double Source # | Since: base-2.1 |
Storable Double Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: Double -> Int Source # alignment :: Double -> Int Source # peekElemOff :: Ptr Double -> Int -> IO Double Source # pokeElemOff :: Ptr Double -> Int -> Double -> IO () Source # peekByteOff :: Ptr b -> Int -> IO Double Source # pokeByteOff :: Ptr b -> Int -> Double -> IO () Source # | |
PrintfArg Double Source # | Since: base-2.1 |
Defined in Text.Printf formatArg :: Double -> FieldFormatter Source # parseFormat :: Double -> ModifierParser Source # | |
Generic1 (URec Double :: k -> Type) Source # | Since: base-4.9.0.0 |
Foldable (UDouble :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UDouble m -> m Source # foldMap :: Monoid m => (a -> m) -> UDouble a -> m Source # foldMap' :: Monoid m => (a -> m) -> UDouble a -> m Source # foldr :: (a -> b -> b) -> b -> UDouble a -> b Source # foldr' :: (a -> b -> b) -> b -> UDouble a -> b Source # foldl :: (b -> a -> b) -> b -> UDouble a -> b Source # foldl' :: (b -> a -> b) -> b -> UDouble a -> b Source # foldr1 :: (a -> a -> a) -> UDouble a -> a Source # foldl1 :: (a -> a -> a) -> UDouble a -> a Source # toList :: UDouble a -> [a] Source # null :: UDouble a -> Bool Source # length :: UDouble a -> Int Source # elem :: Eq a => a -> UDouble a -> Bool Source # maximum :: Ord a => UDouble a -> a Source # minimum :: Ord a => UDouble a -> a Source # | |
Traversable (UDouble :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
Functor (URec Double :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec Double p) Source # | Since: base-4.9.0.0 |
Ord (URec Double p) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics compare :: URec Double p -> URec Double p -> Ordering Source # (<) :: URec Double p -> URec Double p -> Bool Source # (<=) :: URec Double p -> URec Double p -> Bool Source # (>) :: URec Double p -> URec Double p -> Bool Source # (>=) :: URec Double p -> URec Double p -> Bool Source # max :: URec Double p -> URec Double p -> URec Double p Source # min :: URec Double p -> URec Double p -> URec Double p Source # | |
Show (URec Double p) Source # | Since: base-4.9.0.0 |
Generic (URec Double p) Source # | Since: base-4.9.0.0 |
data URec Double (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec Double :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec Double p) Source # | |
Defined in GHC.Generics |
The character type Char
is an enumeration whose values represent
Unicode (or equivalently ISO/IEC 10646) code points (i.e. characters, see
http://www.unicode.org/ for details). This set extends the ISO 8859-1
(Latin-1) character set (the first 256 characters), which is itself an extension
of the ASCII character set (the first 128 characters). A character literal in
Haskell has type Char
.
To convert a Char
to or from the corresponding Int
value defined
by Unicode, use toEnum
and fromEnum
from the
Enum
class respectively (or equivalently ord
and
chr
).
Instances
Bounded Char Source # | Since: base-2.1 |
Enum Char Source # | Since: base-2.1 |
Eq Char | |
Data Char Source # | Since: base-4.0.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Char -> c Char Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c Char Source # toConstr :: Char -> Constr Source # dataTypeOf :: Char -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c Char) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c Char) Source # gmapT :: (forall b. Data b => b -> b) -> Char -> Char Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Char -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Char -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Char -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Char -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Char -> m Char Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Char -> m Char Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Char -> m Char Source # | |
Ord Char | |
Read Char Source # | Since: base-2.1 |
Show Char Source # | Since: base-2.1 |
Ix Char Source # | Since: base-2.1 |
Storable Char Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: Char -> Int Source # alignment :: Char -> Int Source # peekElemOff :: Ptr Char -> Int -> IO Char Source # pokeElemOff :: Ptr Char -> Int -> Char -> IO () Source # peekByteOff :: Ptr b -> Int -> IO Char Source # pokeByteOff :: Ptr b -> Int -> Char -> IO () Source # | |
IsChar Char Source # | Since: base-2.1 |
PrintfArg Char Source # | Since: base-2.1 |
Defined in Text.Printf formatArg :: Char -> FieldFormatter Source # parseFormat :: Char -> ModifierParser Source # | |
Generic1 (URec Char :: k -> Type) Source # | Since: base-4.9.0.0 |
Foldable (UChar :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UChar m -> m Source # foldMap :: Monoid m => (a -> m) -> UChar a -> m Source # foldMap' :: Monoid m => (a -> m) -> UChar a -> m Source # foldr :: (a -> b -> b) -> b -> UChar a -> b Source # foldr' :: (a -> b -> b) -> b -> UChar a -> b Source # foldl :: (b -> a -> b) -> b -> UChar a -> b Source # foldl' :: (b -> a -> b) -> b -> UChar a -> b Source # foldr1 :: (a -> a -> a) -> UChar a -> a Source # foldl1 :: (a -> a -> a) -> UChar a -> a Source # toList :: UChar a -> [a] Source # null :: UChar a -> Bool Source # length :: UChar a -> Int Source # elem :: Eq a => a -> UChar a -> Bool Source # maximum :: Ord a => UChar a -> a Source # minimum :: Ord a => UChar a -> a Source # | |
Traversable (UChar :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Char :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec Char p) Source # | Since: base-4.9.0.0 |
Ord (URec Char p) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics compare :: URec Char p -> URec Char p -> Ordering Source # (<) :: URec Char p -> URec Char p -> Bool Source # (<=) :: URec Char p -> URec Char p -> Bool Source # (>) :: URec Char p -> URec Char p -> Bool Source # (>=) :: URec Char p -> URec Char p -> Bool Source # | |
Show (URec Char p) Source # | Since: base-4.9.0.0 |
Generic (URec Char p) Source # | Since: base-4.9.0.0 |
data URec Char (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec Char :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec Char p) Source # | |
Defined in GHC.Generics |
A value of type
represents a pointer to an object, or an
array of objects, which may be marshalled to or from Haskell values
of type Ptr
aa
.
The type a
will often be an instance of class
Storable
which provides the marshalling operations.
However this is not essential, and you can provide your own operations
to access the pointer. For example you might write small foreign
functions to get or set the fields of a C struct
.
Instances
Generic1 (URec (Ptr ()) :: k -> Type) Source # | Since: base-4.9.0.0 |
Eq (Ptr a) Source # | Since: base-2.1 |
Data a => Data (Ptr a) Source # | Since: base-4.8.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Ptr a -> c (Ptr a) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Ptr a) Source # toConstr :: Ptr a -> Constr Source # dataTypeOf :: Ptr a -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Ptr a)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Ptr a)) Source # gmapT :: (forall b. Data b => b -> b) -> Ptr a -> Ptr a Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Ptr a -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Ptr a -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Ptr a -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Ptr a -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Ptr a -> m (Ptr a) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Ptr a -> m (Ptr a) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Ptr a -> m (Ptr a) Source # | |
Ord (Ptr a) Source # | Since: base-2.1 |
Show (Ptr a) Source # | Since: base-2.1 |
Foldable (UAddr :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UAddr m -> m Source # foldMap :: Monoid m => (a -> m) -> UAddr a -> m Source # foldMap' :: Monoid m => (a -> m) -> UAddr a -> m Source # foldr :: (a -> b -> b) -> b -> UAddr a -> b Source # foldr' :: (a -> b -> b) -> b -> UAddr a -> b Source # foldl :: (b -> a -> b) -> b -> UAddr a -> b Source # foldl' :: (b -> a -> b) -> b -> UAddr a -> b Source # foldr1 :: (a -> a -> a) -> UAddr a -> a Source # foldl1 :: (a -> a -> a) -> UAddr a -> a Source # toList :: UAddr a -> [a] Source # null :: UAddr a -> Bool Source # length :: UAddr a -> Int Source # elem :: Eq a => a -> UAddr a -> Bool Source # maximum :: Ord a => UAddr a -> a Source # minimum :: Ord a => UAddr a -> a Source # | |
Traversable (UAddr :: Type -> Type) Source # | Since: base-4.9.0.0 |
Storable (Ptr a) Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: Ptr a -> Int Source # alignment :: Ptr a -> Int Source # peekElemOff :: Ptr (Ptr a) -> Int -> IO (Ptr a) Source # pokeElemOff :: Ptr (Ptr a) -> Int -> Ptr a -> IO () Source # peekByteOff :: Ptr b -> Int -> IO (Ptr a) Source # pokeByteOff :: Ptr b -> Int -> Ptr a -> IO () Source # | |
Functor (URec (Ptr ()) :: Type -> Type) Source # | Since: base-4.9.0.0 |
Eq (URec (Ptr ()) p) Source # | Since: base-4.9.0.0 |
Ord (URec (Ptr ()) p) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics compare :: URec (Ptr ()) p -> URec (Ptr ()) p -> Ordering Source # (<) :: URec (Ptr ()) p -> URec (Ptr ()) p -> Bool Source # (<=) :: URec (Ptr ()) p -> URec (Ptr ()) p -> Bool Source # (>) :: URec (Ptr ()) p -> URec (Ptr ()) p -> Bool Source # (>=) :: URec (Ptr ()) p -> URec (Ptr ()) p -> Bool Source # max :: URec (Ptr ()) p -> URec (Ptr ()) p -> URec (Ptr ()) p Source # min :: URec (Ptr ()) p -> URec (Ptr ()) p -> URec (Ptr ()) p Source # | |
Generic (URec (Ptr ()) p) Source # | Since: base-4.9.0.0 |
data URec (Ptr ()) (p :: k) Source # | Used for marking occurrences of Since: base-4.9.0.0 |
type Rep1 (URec (Ptr ()) :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep (URec (Ptr ()) p) Source # | |
Defined in GHC.Generics |
A value of type
is a pointer to a function callable
from foreign code. The type FunPtr
aa
will normally be a foreign type,
a function type with zero or more arguments where
- the argument types are marshallable foreign types,
i.e.
Char
,Int
,Double
,Float
,Bool
,Int8
,Int16
,Int32
,Int64
,Word8
,Word16
,Word32
,Word64
,
,Ptr
a
,FunPtr
a
or a renaming of any of these usingStablePtr
anewtype
. - the return type is either a marshallable foreign type or has the form
whereIO
tt
is a marshallable foreign type or()
.
A value of type
may be a pointer to a foreign function,
either returned by another foreign function or imported with a
a static address import likeFunPtr
a
foreign import ccall "stdlib.h &free" p_free :: FunPtr (Ptr a -> IO ())
or a pointer to a Haskell function created using a wrapper stub
declared to produce a FunPtr
of the correct type. For example:
type Compare = Int -> Int -> Bool foreign import ccall "wrapper" mkCompare :: Compare -> IO (FunPtr Compare)
Calls to wrapper stubs like mkCompare
allocate storage, which
should be released with freeHaskellFunPtr
when no
longer required.
To convert FunPtr
values to corresponding Haskell functions, one
can define a dynamic stub for the specific foreign type, e.g.
type IntFunction = CInt -> IO () foreign import ccall "dynamic" mkFun :: FunPtr IntFunction -> IntFunction
Instances
Eq (FunPtr a) Source # | |
Ord (FunPtr a) Source # | |
Show (FunPtr a) Source # | Since: base-2.1 |
Storable (FunPtr a) Source # | Since: base-2.1 |
Defined in Foreign.Storable sizeOf :: FunPtr a -> Int Source # alignment :: FunPtr a -> Int Source # peekElemOff :: Ptr (FunPtr a) -> Int -> IO (FunPtr a) Source # pokeElemOff :: Ptr (FunPtr a) -> Int -> FunPtr a -> IO () Source # peekByteOff :: Ptr b -> Int -> IO (FunPtr a) Source # pokeByteOff :: Ptr b -> Int -> FunPtr a -> IO () Source # |
The maximum tuple size
maxTupleSize :: Int Source #
Primitive operations
seq :: forall (r :: RuntimeRep) a (b :: TYPE r). a -> b -> b infixr 0 Source #
The value of seq a b
is bottom if a
is bottom, and
otherwise equal to b
. In other words, it evaluates the first
argument a
to weak head normal form (WHNF). seq
is usually
introduced to improve performance by avoiding unneeded laziness.
A note on evaluation order: the expression seq a b
does
not guarantee that a
will be evaluated before b
.
The only guarantee given by seq
is that the both a
and b
will be evaluated before seq
returns a value.
In particular, this means that b
may be evaluated before
a
. If you need to guarantee a specific order of evaluation,
you must use the function pseq
from the "parallel" package.
unsafeCoerce# :: forall (k0 :: RuntimeRep) (k1 :: RuntimeRep) (a :: TYPE k0) (b :: TYPE k1). a -> b Source #
The function unsafeCoerce#
allows you to side-step the typechecker entirely. That
is, it allows you to coerce any type into any other type. If you use this function,
you had better get it right, otherwise segmentation faults await. It is generally
used when you want to write a program that you know is well-typed, but where Haskell's
type system is not expressive enough to prove that it is well typed.
The following uses of unsafeCoerce#
are supposed to work (i.e. not lead to
spurious compile-time or run-time crashes):
- Casting any lifted type to
Any
- Casting
Any
back to the real type - Casting an unboxed type to another unboxed type of the same size.
(Casting between floating-point and integral types does not work.
See the
GHC.Float
module for functions to do work.) - Casting between two types that have the same runtime representation. One case is when
the two types differ only in "phantom" type parameters, for example
Ptr Int
toPtr Float
, or[Int]
to[Float]
when the list is known to be empty. Also, anewtype
of a typeT
has the same representation at runtime asT
.
Other uses of unsafeCoerce#
are undefined. In particular, you should not use
unsafeCoerce#
to cast a T to an algebraic data type D, unless T is also
an algebraic data type. For example, do not cast Int->Int
to Bool
, even if
you later cast that Bool
back to Int->Int
before applying it. The reasons
have to do with GHC's internal representation details (for the cognoscenti, data values
can be entered but function closures cannot). If you want a safe type to cast things
to, use Any
, which is not an algebraic data type.
Warning: this can fail with an unchecked exception.
proxy# :: forall k (a :: k). Proxy# a Source #
Witness for an unboxed Proxy#
value, which has no runtime
representation.
data Addr# :: TYPE 'AddrRep Source #
An arbitrary machine address assumed to point outside the garbage-collected heap.
data Array# a :: TYPE 'UnliftedRep Source #
data ByteArray# :: TYPE 'UnliftedRep Source #
data Weak# a :: TYPE 'UnliftedRep Source #
data MutableArray# a b :: TYPE 'UnliftedRep Source #
data MutableByteArray# a :: TYPE 'UnliftedRep Source #
data MVar# a b :: TYPE 'UnliftedRep Source #
A shared mutable variable (not the same as a MutVar#
!).
(Note: in a non-concurrent implementation, (MVar# a)
can be
represented by (MutVar# (Maybe a))
.)
RealWorld
is deeply magical. It is primitive, but it is not
unlifted (hence ptrArg
). We never manipulate values of type
RealWorld
; it's only used in the type system, to parameterise State#
.
data StablePtr# a :: TYPE 'AddrRep Source #
data ArrayArray# :: TYPE 'UnliftedRep Source #
data MutableArrayArray# a :: TYPE 'UnliftedRep Source #
data State# a :: TYPE ('TupleRep ('[] :: [RuntimeRep])) Source #
State#
is the primitive, unlifted type of states. It has
one type parameter, thus State# RealWorld
, or State# s
,
where s is a type variable. The only purpose of the type parameter
is to keep different state threads separate. It is represented by
nothing at all.
data StableName# a :: TYPE 'UnliftedRep Source #
data MutVar# a b :: TYPE 'UnliftedRep Source #
A MutVar#
behaves like a single-element mutable array.
data ThreadId# :: TYPE 'UnliftedRep Source #
(In a non-concurrent implementation, this can be a singleton
type, whose (unique) value is returned by myThreadId#
. The
other operations can be omitted.)
data BCO# :: TYPE 'UnliftedRep Source #
Primitive bytecode type.
data TVar# a b :: TYPE 'UnliftedRep Source #
data Compact# :: TYPE 'UnliftedRep Source #
data Proxy# (a :: k) :: TYPE ('TupleRep ('[] :: [RuntimeRep])) Source #
The type constructor Proxy#
is used to bear witness to some
type variable. It's used when you want to pass around proxy values
for doing things like modelling type applications. A Proxy#
is not only unboxed, it also has a polymorphic kind, and has no
runtime representation, being totally free.
data SmallArray# a :: TYPE 'UnliftedRep Source #
data SmallMutableArray# a b :: TYPE 'UnliftedRep Source #
data Int8X16# :: TYPE ('VecRep 'Vec16 'Int8ElemRep) Source #
Warning: this is only available on LLVM.
data Int16X8# :: TYPE ('VecRep 'Vec8 'Int16ElemRep) Source #
Warning: this is only available on LLVM.
data Int32X4# :: TYPE ('VecRep 'Vec4 'Int32ElemRep) Source #
Warning: this is only available on LLVM.
data Int64X2# :: TYPE ('VecRep 'Vec2 'Int64ElemRep) Source #
Warning: this is only available on LLVM.
data Int8X32# :: TYPE ('VecRep 'Vec32 'Int8ElemRep) Source #
Warning: this is only available on LLVM.
data Int16X16# :: TYPE ('VecRep 'Vec16 'Int16ElemRep) Source #
Warning: this is only available on LLVM.
data Int32X8# :: TYPE ('VecRep 'Vec8 'Int32ElemRep) Source #
Warning: this is only available on LLVM.
data Int64X4# :: TYPE ('VecRep 'Vec4 'Int64ElemRep) Source #
Warning: this is only available on LLVM.
data Int8X64# :: TYPE ('VecRep 'Vec64 'Int8ElemRep) Source #
Warning: this is only available on LLVM.
data Int16X32# :: TYPE ('VecRep 'Vec32 'Int16ElemRep) Source #
Warning: this is only available on LLVM.
data Int32X16# :: TYPE ('VecRep 'Vec16 'Int32ElemRep) Source #
Warning: this is only available on LLVM.
data Int64X8# :: TYPE ('VecRep 'Vec8 'Int64ElemRep) Source #
Warning: this is only available on LLVM.
data Word8X16# :: TYPE ('VecRep 'Vec16 'Word8ElemRep) Source #
Warning: this is only available on LLVM.
data Word16X8# :: TYPE ('VecRep 'Vec8 'Word16ElemRep) Source #
Warning: this is only available on LLVM.
data Word32X4# :: TYPE ('VecRep 'Vec4 'Word32ElemRep) Source #
Warning: this is only available on LLVM.
data Word64X2# :: TYPE ('VecRep 'Vec2 'Word64ElemRep) Source #
Warning: this is only available on LLVM.
data Word8X32# :: TYPE ('VecRep 'Vec32 'Word8ElemRep) Source #
Warning: this is only available on LLVM.
data Word16X16# :: TYPE ('VecRep 'Vec16 'Word16ElemRep) Source #
Warning: this is only available on LLVM.
data Word32X8# :: TYPE ('VecRep 'Vec8 'Word32ElemRep) Source #
Warning: this is only available on LLVM.
data Word64X4# :: TYPE ('VecRep 'Vec4 'Word64ElemRep) Source #
Warning: this is only available on LLVM.
data Word8X64# :: TYPE ('VecRep 'Vec64 'Word8ElemRep) Source #
Warning: this is only available on LLVM.
data Word16X32# :: TYPE ('VecRep 'Vec32 'Word16ElemRep) Source #
Warning: this is only available on LLVM.
data Word32X16# :: TYPE ('VecRep 'Vec16 'Word32ElemRep) Source #
Warning: this is only available on LLVM.
data Word64X8# :: TYPE ('VecRep 'Vec8 'Word64ElemRep) Source #
Warning: this is only available on LLVM.
data FloatX4# :: TYPE ('VecRep 'Vec4 'FloatElemRep) Source #
Warning: this is only available on LLVM.
data DoubleX2# :: TYPE ('VecRep 'Vec2 'DoubleElemRep) Source #
Warning: this is only available on LLVM.
data FloatX8# :: TYPE ('VecRep 'Vec8 'FloatElemRep) Source #
Warning: this is only available on LLVM.
data DoubleX4# :: TYPE ('VecRep 'Vec4 'DoubleElemRep) Source #
Warning: this is only available on LLVM.
data FloatX16# :: TYPE ('VecRep 'Vec16 'FloatElemRep) Source #
Warning: this is only available on LLVM.
data DoubleX8# :: TYPE ('VecRep 'Vec8 'DoubleElemRep) Source #
Warning: this is only available on LLVM.
mulIntMayOflo# :: Int# -> Int# -> Int# Source #
Return non-zero if there is any possibility that the upper word of a signed integer multiply might contain useful information. Return zero only if you are completely sure that no overflow can occur. On a 32-bit platform, the recommended implementation is to do a 32 x 32 -> 64 signed multiply, and subtract result[63:32] from (result[31] >>signed 31). If this is zero, meaning that the upper word is merely a sign extension of the lower one, no overflow can occur.
On a 64-bit platform it is not always possible to acquire the top 64 bits of the result. Therefore, a recommended implementation is to take the absolute value of both operands, and return 0 iff bits[63:31] of them are zero, since that means that their magnitudes fit within 31 bits, so the magnitude of the product must fit into 62 bits.
If in doubt, return non-zero, but do make an effort to create the
correct answer for small args, since otherwise the performance of
(*) :: Integer -> Integer -> Integer
will be poor.
quotInt# :: Int# -> Int# -> Int# Source #
Rounds towards zero. The behavior is undefined if the second argument is zero.
Warning: this can fail with an unchecked exception.
remInt# :: Int# -> Int# -> Int# Source #
Satisfies (quotInt# x y) *# y +# (remInt# x y) == x
. The
behavior is undefined if the second argument is zero.
Warning: this can fail with an unchecked exception.
quotRemInt# :: Int# -> Int# -> (# Int#, Int# #) Source #
Rounds towards zero.
Warning: this can fail with an unchecked exception.
negateInt# :: Int# -> Int# Source #
Unary negation.
Since the negative Int#
range extends one further than the
positive range, negateInt#
of the most negative number is an
identity operation. This way, negateInt#
is always its own inverse.
addIntC# :: Int# -> Int# -> (# Int#, Int# #) Source #
Add signed integers reporting overflow.
First member of result is the sum truncated to an Int#
;
second member is zero if the true sum fits in an Int#
,
nonzero if overflow occurred (the sum is either too large
or too small to fit in an Int#
).
subIntC# :: Int# -> Int# -> (# Int#, Int# #) Source #
Subtract signed integers reporting overflow.
First member of result is the difference truncated to an Int#
;
second member is zero if the true difference fits in an Int#
,
nonzero if overflow occurred (the difference is either too large
or too small to fit in an Int#
).
int2Float# :: Int# -> Float# Source #
int2Double# :: Int# -> Double# Source #
word2Float# :: Word# -> Float# Source #
word2Double# :: Word# -> Double# Source #
uncheckedIShiftL# :: Int# -> Int# -> Int# Source #
Shift left. Result undefined if shift amount is not in the range 0 to word size - 1 inclusive.
uncheckedIShiftRA# :: Int# -> Int# -> Int# Source #
Shift right arithmetic. Result undefined if shift amount is not in the range 0 to word size - 1 inclusive.
uncheckedIShiftRL# :: Int# -> Int# -> Int# Source #
Shift right logical. Result undefined if shift amount is not in the range 0 to word size - 1 inclusive.
extendInt8# :: Int8# -> Int# Source #
narrowInt8# :: Int# -> Int8# Source #
negateInt8# :: Int8# -> Int8# Source #
quotRemInt8# :: Int8# -> Int8# -> (# Int8#, Int8# #) Source #
Warning: this can fail with an unchecked exception.
extendWord8# :: Word8# -> Word# Source #
narrowWord8# :: Word# -> Word8# Source #
quotWord8# :: Word8# -> Word8# -> Word8# Source #
Warning: this can fail with an unchecked exception.
quotRemWord8# :: Word8# -> Word8# -> (# Word8#, Word8# #) Source #
Warning: this can fail with an unchecked exception.
extendInt16# :: Int16# -> Int# Source #
narrowInt16# :: Int# -> Int16# Source #
negateInt16# :: Int16# -> Int16# Source #
quotInt16# :: Int16# -> Int16# -> Int16# Source #
Warning: this can fail with an unchecked exception.
quotRemInt16# :: Int16# -> Int16# -> (# Int16#, Int16# #) Source #
Warning: this can fail with an unchecked exception.
extendWord16# :: Word16# -> Word# Source #
narrowWord16# :: Word# -> Word16# Source #
notWord16# :: Word16# -> Word16# Source #
quotWord16# :: Word16# -> Word16# -> Word16# Source #
Warning: this can fail with an unchecked exception.
remWord16# :: Word16# -> Word16# -> Word16# Source #
Warning: this can fail with an unchecked exception.
quotRemWord16# :: Word16# -> Word16# -> (# Word16#, Word16# #) Source #
Warning: this can fail with an unchecked exception.
addWordC# :: Word# -> Word# -> (# Word#, Int# #) Source #
Add unsigned integers reporting overflow.
The first element of the pair is the result. The second element is
the carry flag, which is nonzero on overflow. See also plusWord2#
.
subWordC# :: Word# -> Word# -> (# Word#, Int# #) Source #
Subtract unsigned integers reporting overflow. The first element of the pair is the result. The second element is the carry flag, which is nonzero on overflow.
plusWord2# :: Word# -> Word# -> (# Word#, Word# #) Source #
Add unsigned integers, with the high part (carry) in the first
component of the returned pair and the low part in the second
component of the pair. See also addWordC#
.
quotRemWord# :: Word# -> Word# -> (# Word#, Word# #) Source #
Warning: this can fail with an unchecked exception.
quotRemWord2# :: Word# -> Word# -> Word# -> (# Word#, Word# #) Source #
Takes high word of dividend, then low word of dividend, then divisor. Requires that high word < divisor.
Warning: this can fail with an unchecked exception.
uncheckedShiftL# :: Word# -> Int# -> Word# Source #
Shift left logical. Result undefined if shift amount is not in the range 0 to word size - 1 inclusive.
uncheckedShiftRL# :: Word# -> Int# -> Word# Source #
Shift right logical. Result undefined if shift amount is not in the range 0 to word size - 1 inclusive.
pdep8# :: Word# -> Word# -> Word# Source #
Deposit bits to lower 8 bits of a word at locations specified by a mask.
pdep16# :: Word# -> Word# -> Word# Source #
Deposit bits to lower 16 bits of a word at locations specified by a mask.
pdep32# :: Word# -> Word# -> Word# Source #
Deposit bits to lower 32 bits of a word at locations specified by a mask.
pext8# :: Word# -> Word# -> Word# Source #
Extract bits from lower 8 bits of a word at locations specified by a mask.
pext16# :: Word# -> Word# -> Word# Source #
Extract bits from lower 16 bits of a word at locations specified by a mask.
pext32# :: Word# -> Word# -> Word# Source #
Extract bits from lower 32 bits of a word at locations specified by a mask.
pext64# :: Word# -> Word# -> Word# Source #
Extract bits from a word at locations specified by a mask.
byteSwap16# :: Word# -> Word# Source #
Swap bytes in the lower 16 bits of a word. The higher bytes are undefined.
byteSwap32# :: Word# -> Word# Source #
Swap bytes in the lower 32 bits of a word. The higher bytes are undefined.
byteSwap64# :: Word# -> Word# Source #
Swap bytes in a 64 bits of a word.
bitReverse8# :: Word# -> Word# Source #
Reverse the order of the bits in a 8-bit word.
bitReverse16# :: Word# -> Word# Source #
Reverse the order of the bits in a 16-bit word.
bitReverse32# :: Word# -> Word# Source #
Reverse the order of the bits in a 32-bit word.
bitReverse64# :: Word# -> Word# Source #
Reverse the order of the bits in a 64-bit word.
bitReverse# :: Word# -> Word# Source #
Reverse the order of the bits in a word.
narrow8Int# :: Int# -> Int# Source #
narrow16Int# :: Int# -> Int# Source #
narrow32Int# :: Int# -> Int# Source #
narrow8Word# :: Word# -> Word# Source #
narrow16Word# :: Word# -> Word# Source #
narrow32Word# :: Word# -> Word# Source #
(/##) :: Double# -> Double# -> Double# infixl 7 Source #
Warning: this can fail with an unchecked exception.
negateDouble# :: Double# -> Double# Source #
fabsDouble# :: Double# -> Double# Source #
double2Int# :: Double# -> Int# Source #
Truncates a Double#
value to the nearest Int#
.
Results are undefined if the truncation if truncation yields
a value outside the range of Int#
.
double2Float# :: Double# -> Float# Source #
expDouble# :: Double# -> Double# Source #
expm1Double# :: Double# -> Double# Source #
logDouble# :: Double# -> Double# Source #
Warning: this can fail with an unchecked exception.
log1pDouble# :: Double# -> Double# Source #
Warning: this can fail with an unchecked exception.
sqrtDouble# :: Double# -> Double# Source #
sinDouble# :: Double# -> Double# Source #
cosDouble# :: Double# -> Double# Source #
tanDouble# :: Double# -> Double# Source #
asinDouble# :: Double# -> Double# Source #
Warning: this can fail with an unchecked exception.
acosDouble# :: Double# -> Double# Source #
Warning: this can fail with an unchecked exception.
atanDouble# :: Double# -> Double# Source #
sinhDouble# :: Double# -> Double# Source #
coshDouble# :: Double# -> Double# Source #
tanhDouble# :: Double# -> Double# Source #
asinhDouble# :: Double# -> Double# Source #
acoshDouble# :: Double# -> Double# Source #
atanhDouble# :: Double# -> Double# Source #
decodeDouble_2Int# :: Double# -> (# Int#, Word#, Word#, Int# #) Source #
Convert to integer. First component of the result is -1 or 1, indicating the sign of the mantissa. The next two are the high and low 32 bits of the mantissa respectively, and the last is the exponent.
decodeDouble_Int64# :: Double# -> (# Int#, Int# #) Source #
Decode Double#
into mantissa and base-2 exponent.
divideFloat# :: Float# -> Float# -> Float# Source #
Warning: this can fail with an unchecked exception.
negateFloat# :: Float# -> Float# Source #
fabsFloat# :: Float# -> Float# Source #
float2Int# :: Float# -> Int# Source #
Truncates a Float#
value to the nearest Int#
.
Results are undefined if the truncation if truncation yields
a value outside the range of Int#
.
expm1Float# :: Float# -> Float# Source #
log1pFloat# :: Float# -> Float# Source #
Warning: this can fail with an unchecked exception.
sqrtFloat# :: Float# -> Float# Source #
asinFloat# :: Float# -> Float# Source #
Warning: this can fail with an unchecked exception.
acosFloat# :: Float# -> Float# Source #
Warning: this can fail with an unchecked exception.
atanFloat# :: Float# -> Float# Source #
sinhFloat# :: Float# -> Float# Source #
coshFloat# :: Float# -> Float# Source #
tanhFloat# :: Float# -> Float# Source #
asinhFloat# :: Float# -> Float# Source #
acoshFloat# :: Float# -> Float# Source #
atanhFloat# :: Float# -> Float# Source #
float2Double# :: Float# -> Double# Source #
decodeFloat_Int# :: Float# -> (# Int#, Int# #) Source #
Convert to integers.
First Int#
in result is the mantissa; second is the exponent.
newArray# :: Int# -> a -> State# d -> (# State# d, MutableArray# d a #) Source #
Create a new mutable array with the specified number of elements, in the specified state thread, with each element containing the specified initial value.
sameMutableArray# :: MutableArray# d a -> MutableArray# d a -> Int# Source #
readArray# :: MutableArray# d a -> Int# -> State# d -> (# State# d, a #) Source #
Read from specified index of mutable array. Result is not yet evaluated.
Warning: this can fail with an unchecked exception.
writeArray# :: MutableArray# d a -> Int# -> a -> State# d -> State# d Source #
Write to specified index of mutable array.
Warning: this can fail with an unchecked exception.
sizeofArray# :: Array# a -> Int# Source #
Return the number of elements in the array.
sizeofMutableArray# :: MutableArray# d a -> Int# Source #
Return the number of elements in the array.
indexArray# :: Array# a -> Int# -> (# a #) Source #
Read from the specified index of an immutable array. The result is packaged into an unboxed unary tuple; the result itself is not yet evaluated. Pattern matching on the tuple forces the indexing of the array to happen but does not evaluate the element itself. Evaluating the thunk prevents additional thunks from building up on the heap. Avoiding these thunks, in turn, reduces references to the argument array, allowing it to be garbage collected more promptly.
Warning: this can fail with an unchecked exception.
unsafeFreezeArray# :: MutableArray# d a -> State# d -> (# State# d, Array# a #) Source #
Make a mutable array immutable, without copying.
unsafeThawArray# :: Array# a -> State# d -> (# State# d, MutableArray# d a #) Source #
Make an immutable array mutable, without copying.
copyArray# :: Array# a -> Int# -> MutableArray# d a -> Int# -> Int# -> State# d -> State# d Source #
Given a source array, an offset into the source array, a destination array, an offset into the destination array, and a number of elements to copy, copy the elements from the source array to the destination array. Both arrays must fully contain the specified ranges, but this is not checked. The two arrays must not be the same array in different states, but this is not checked either.
Warning: this can fail with an unchecked exception.
copyMutableArray# :: MutableArray# d a -> Int# -> MutableArray# d a -> Int# -> Int# -> State# d -> State# d Source #
Given a source array, an offset into the source array, a destination array, an offset into the destination array, and a number of elements to copy, copy the elements from the source array to the destination array. Both arrays must fully contain the specified ranges, but this is not checked. In the case where the source and destination are the same array the source and destination regions may overlap.
Warning: this can fail with an unchecked exception.
cloneArray# :: Array# a -> Int# -> Int# -> Array# a Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
cloneMutableArray# :: MutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, MutableArray# d a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
freezeArray# :: MutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, Array# a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
thawArray# :: Array# a -> Int# -> Int# -> State# d -> (# State# d, MutableArray# d a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
casArray# :: MutableArray# d a -> Int# -> a -> a -> State# d -> (# State# d, Int#, a #) Source #
Given an array, an offset, the expected old value, and
the new value, perform an atomic compare and swap (i.e. write the new
value if the current value and the old value are the same pointer).
Returns 0 if the swap succeeds and 1 if it fails. Additionally, returns
the element at the offset after the operation completes. This means that
on a success the new value is returned, and on a failure the actual old
value (not the expected one) is returned. Implies a full memory barrier.
The use of a pointer equality on a lifted value makes this function harder
to use correctly than casIntArray#
. All of the difficulties
of using reallyUnsafePtrEquality#
correctly apply to
casArray#
as well.
newSmallArray# :: Int# -> a -> State# d -> (# State# d, SmallMutableArray# d a #) Source #
Create a new mutable array with the specified number of elements, in the specified state thread, with each element containing the specified initial value.
sameSmallMutableArray# :: SmallMutableArray# d a -> SmallMutableArray# d a -> Int# Source #
shrinkSmallMutableArray# :: SmallMutableArray# d a -> Int# -> State# d -> State# d Source #
Shrink mutable array to new specified size, in
the specified state thread. The new size argument must be less than or
equal to the current size as reported by sizeofSmallMutableArray#
.
readSmallArray# :: SmallMutableArray# d a -> Int# -> State# d -> (# State# d, a #) Source #
Read from specified index of mutable array. Result is not yet evaluated.
Warning: this can fail with an unchecked exception.
writeSmallArray# :: SmallMutableArray# d a -> Int# -> a -> State# d -> State# d Source #
Write to specified index of mutable array.
Warning: this can fail with an unchecked exception.
sizeofSmallArray# :: SmallArray# a -> Int# Source #
Return the number of elements in the array.
sizeofSmallMutableArray# :: SmallMutableArray# d a -> Int# Source #
Return the number of elements in the array. Note that this is deprecated as it is unsafe in the presence of resize operations on the same byte array.
getSizeofSmallMutableArray# :: SmallMutableArray# d a -> State# d -> (# State# d, Int# #) Source #
Return the number of elements in the array.
indexSmallArray# :: SmallArray# a -> Int# -> (# a #) Source #
Read from specified index of immutable array. Result is packaged into an unboxed singleton; the result itself is not yet evaluated.
Warning: this can fail with an unchecked exception.
unsafeFreezeSmallArray# :: SmallMutableArray# d a -> State# d -> (# State# d, SmallArray# a #) Source #
Make a mutable array immutable, without copying.
unsafeThawSmallArray# :: SmallArray# a -> State# d -> (# State# d, SmallMutableArray# d a #) Source #
Make an immutable array mutable, without copying.
copySmallArray# :: SmallArray# a -> Int# -> SmallMutableArray# d a -> Int# -> Int# -> State# d -> State# d Source #
Given a source array, an offset into the source array, a destination array, an offset into the destination array, and a number of elements to copy, copy the elements from the source array to the destination array. Both arrays must fully contain the specified ranges, but this is not checked. The two arrays must not be the same array in different states, but this is not checked either.
Warning: this can fail with an unchecked exception.
copySmallMutableArray# :: SmallMutableArray# d a -> Int# -> SmallMutableArray# d a -> Int# -> Int# -> State# d -> State# d Source #
Given a source array, an offset into the source array, a destination array, an offset into the destination array, and a number of elements to copy, copy the elements from the source array to the destination array. The source and destination arrays can refer to the same array. Both arrays must fully contain the specified ranges, but this is not checked. The regions are allowed to overlap, although this is only possible when the same array is provided as both the source and the destination.
Warning: this can fail with an unchecked exception.
cloneSmallArray# :: SmallArray# a -> Int# -> Int# -> SmallArray# a Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
cloneSmallMutableArray# :: SmallMutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, SmallMutableArray# d a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
freezeSmallArray# :: SmallMutableArray# d a -> Int# -> Int# -> State# d -> (# State# d, SmallArray# a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
thawSmallArray# :: SmallArray# a -> Int# -> Int# -> State# d -> (# State# d, SmallMutableArray# d a #) Source #
Given a source array, an offset into the source array, and a number of elements to copy, create a new array with the elements from the source array. The provided array must fully contain the specified range, but this is not checked.
Warning: this can fail with an unchecked exception.
casSmallArray# :: SmallMutableArray# d a -> Int# -> a -> a -> State# d -> (# State# d, Int#, a #) Source #
Unsafe, machine-level atomic compare and swap on an element within an array.
See the documentation of casArray#
.
newByteArray# :: Int# -> State# d -> (# State# d, MutableByteArray# d #) Source #
Create a new mutable byte array of specified size (in bytes), in the specified state thread.
newPinnedByteArray# :: Int# -> State# d -> (# State# d, MutableByteArray# d #) Source #
Create a mutable byte array that the GC guarantees not to move.
newAlignedPinnedByteArray# :: Int# -> Int# -> State# d -> (# State# d, MutableByteArray# d #) Source #
Create a mutable byte array, aligned by the specified amount, that the GC guarantees not to move.
isMutableByteArrayPinned# :: MutableByteArray# d -> Int# Source #
Determine whether a MutableByteArray#
is guaranteed not to move
during GC.
isByteArrayPinned# :: ByteArray# -> Int# Source #
Determine whether a ByteArray#
is guaranteed not to move during GC.
byteArrayContents# :: ByteArray# -> Addr# Source #
Intended for use with pinned arrays; otherwise very unsafe!
sameMutableByteArray# :: MutableByteArray# d -> MutableByteArray# d -> Int# Source #
shrinkMutableByteArray# :: MutableByteArray# d -> Int# -> State# d -> State# d Source #
Shrink mutable byte array to new specified size (in bytes), in
the specified state thread. The new size argument must be less than or
equal to the current size as reported by sizeofMutableByteArray#
.
resizeMutableByteArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, MutableByteArray# d #) Source #
Resize (unpinned) mutable byte array to new specified size (in bytes).
The returned MutableByteArray#
is either the original
MutableByteArray#
resized in-place or, if not possible, a newly
allocated (unpinned) MutableByteArray#
(with the original content
copied over).
To avoid undefined behaviour, the original MutableByteArray#
shall
not be accessed anymore after a resizeMutableByteArray#
has been
performed. Moreover, no reference to the old one should be kept in order
to allow garbage collection of the original MutableByteArray#
in
case a new MutableByteArray#
had to be allocated.
unsafeFreezeByteArray# :: MutableByteArray# d -> State# d -> (# State# d, ByteArray# #) Source #
Make a mutable byte array immutable, without copying.
sizeofByteArray# :: ByteArray# -> Int# Source #
Return the size of the array in bytes.
sizeofMutableByteArray# :: MutableByteArray# d -> Int# Source #
Return the size of the array in bytes. Note that this is deprecated as it is unsafe in the presence of resize operations on the same byte array.
getSizeofMutableByteArray# :: MutableByteArray# d -> State# d -> (# State# d, Int# #) Source #
Return the number of elements in the array.
indexCharArray# :: ByteArray# -> Int# -> Char# Source #
Read 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWideCharArray# :: ByteArray# -> Int# -> Char# Source #
Read 31-bit character; offset in 4-byte words.
Warning: this can fail with an unchecked exception.
indexIntArray# :: ByteArray# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexWordArray# :: ByteArray# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
indexAddrArray# :: ByteArray# -> Int# -> Addr# Source #
Warning: this can fail with an unchecked exception.
indexFloatArray# :: ByteArray# -> Int# -> Float# Source #
Warning: this can fail with an unchecked exception.
indexDoubleArray# :: ByteArray# -> Int# -> Double# Source #
Warning: this can fail with an unchecked exception.
indexStablePtrArray# :: ByteArray# -> Int# -> StablePtr# a Source #
Warning: this can fail with an unchecked exception.
indexInt8Array# :: ByteArray# -> Int# -> Int# Source #
Read 8-bit integer; offset in bytes.
Warning: this can fail with an unchecked exception.
indexInt16Array# :: ByteArray# -> Int# -> Int# Source #
Read 16-bit integer; offset in 16-bit words.
Warning: this can fail with an unchecked exception.
indexInt32Array# :: ByteArray# -> Int# -> Int# Source #
Read 32-bit integer; offset in 32-bit words.
Warning: this can fail with an unchecked exception.
indexInt64Array# :: ByteArray# -> Int# -> Int# Source #
Read 64-bit integer; offset in 64-bit words.
Warning: this can fail with an unchecked exception.
indexWord8Array# :: ByteArray# -> Int# -> Word# Source #
Read 8-bit word; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord16Array# :: ByteArray# -> Int# -> Word# Source #
Read 16-bit word; offset in 16-bit words.
Warning: this can fail with an unchecked exception.
indexWord32Array# :: ByteArray# -> Int# -> Word# Source #
Read 32-bit word; offset in 32-bit words.
Warning: this can fail with an unchecked exception.
indexWord64Array# :: ByteArray# -> Int# -> Word# Source #
Read 64-bit word; offset in 64-bit words.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsChar# :: ByteArray# -> Int# -> Char# Source #
Read 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsWideChar# :: ByteArray# -> Int# -> Char# Source #
Read 31-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsAddr# :: ByteArray# -> Int# -> Addr# Source #
Read address; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsFloat# :: ByteArray# -> Int# -> Float# Source #
Read float; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsDouble# :: ByteArray# -> Int# -> Double# Source #
Read double; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsStablePtr# :: ByteArray# -> Int# -> StablePtr# a Source #
Read stable pointer; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsInt16# :: ByteArray# -> Int# -> Int# Source #
Read 16-bit int; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsInt32# :: ByteArray# -> Int# -> Int# Source #
Read 32-bit int; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsInt64# :: ByteArray# -> Int# -> Int# Source #
Read 64-bit int; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsInt# :: ByteArray# -> Int# -> Int# Source #
Read int; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsWord16# :: ByteArray# -> Int# -> Word# Source #
Read 16-bit word; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsWord32# :: ByteArray# -> Int# -> Word# Source #
Read 32-bit word; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsWord64# :: ByteArray# -> Int# -> Word# Source #
Read 64-bit word; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWord8ArrayAsWord# :: ByteArray# -> Int# -> Word# Source #
Read word; offset in bytes.
Warning: this can fail with an unchecked exception.
readCharArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #) Source #
Read 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
readWideCharArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #) Source #
Read 31-bit character; offset in 4-byte words.
Warning: this can fail with an unchecked exception.
readIntArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Read integer; offset in machine words.
Warning: this can fail with an unchecked exception.
readWordArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Read word; offset in machine words.
Warning: this can fail with an unchecked exception.
readAddrArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Addr# #) Source #
Warning: this can fail with an unchecked exception.
readFloatArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Float# #) Source #
Warning: this can fail with an unchecked exception.
readDoubleArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Double# #) Source #
Warning: this can fail with an unchecked exception.
readStablePtrArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, StablePtr# a #) Source #
Warning: this can fail with an unchecked exception.
readInt8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsChar# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsWideChar# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Char# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsAddr# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Addr# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsFloat# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Float# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsDouble# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Double# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsStablePtr# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, StablePtr# a #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsInt16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsInt32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsInt64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsInt# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsWord16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsWord32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsWord64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord8ArrayAsWord# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
writeCharArray# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d Source #
Write 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
writeWideCharArray# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d Source #
Write 31-bit character; offset in 4-byte words.
Warning: this can fail with an unchecked exception.
writeIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWordArray# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeAddrArray# :: MutableByteArray# d -> Int# -> Addr# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeFloatArray# :: MutableByteArray# d -> Int# -> Float# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeDoubleArray# :: MutableByteArray# d -> Int# -> Double# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeStablePtrArray# :: MutableByteArray# d -> Int# -> StablePtr# a -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt8Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt16Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt32Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt64Array# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord16Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord32Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord64Array# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsChar# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsWideChar# :: MutableByteArray# d -> Int# -> Char# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsAddr# :: MutableByteArray# d -> Int# -> Addr# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsFloat# :: MutableByteArray# d -> Int# -> Float# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsDouble# :: MutableByteArray# d -> Int# -> Double# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsStablePtr# :: MutableByteArray# d -> Int# -> StablePtr# a -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsInt16# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsInt32# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsInt64# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsInt# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsWord16# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsWord32# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsWord64# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8ArrayAsWord# :: MutableByteArray# d -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
compareByteArrays# :: ByteArray# -> Int# -> ByteArray# -> Int# -> Int# -> Int# Source #
compareByteArrays# src1 src1_ofs src2 src2_ofs n
compares
n
bytes starting at offset src1_ofs
in the first
ByteArray#
src1
to the range of n
bytes
(i.e. same length) starting at offset src2_ofs
of the second
ByteArray#
src2
. Both arrays must fully contain the
specified ranges, but this is not checked. Returns an Int#
less than, equal to, or greater than zero if the range is found,
respectively, to be byte-wise lexicographically less than, to
match, or be greater than the second range.
Warning: this can fail with an unchecked exception.
copyByteArray# :: ByteArray# -> Int# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
copyByteArray# src src_ofs dst dst_ofs n
copies the range
starting at offset src_ofs
of length n
from the
ByteArray#
src
to the MutableByteArray#
dst
starting at offset dst_ofs
. Both arrays must fully contain
the specified ranges, but this is not checked. The two arrays must
not be the same array in different states, but this is not checked
either.
Warning: this can fail with an unchecked exception.
copyMutableByteArray# :: MutableByteArray# d -> Int# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Copy a range of the first MutableByteArray# to the specified region in the second MutableByteArray#. Both arrays must fully contain the specified ranges, but this is not checked. The regions are allowed to overlap, although this is only possible when the same array is provided as both the source and the destination.
Warning: this can fail with an unchecked exception.
copyByteArrayToAddr# :: ByteArray# -> Int# -> Addr# -> Int# -> State# d -> State# d Source #
Copy a range of the ByteArray# to the memory range starting at the Addr#. The ByteArray# and the memory region at Addr# must fully contain the specified ranges, but this is not checked. The Addr# must not point into the ByteArray# (e.g. if the ByteArray# were pinned), but this is not checked either.
Warning: this can fail with an unchecked exception.
copyMutableByteArrayToAddr# :: MutableByteArray# d -> Int# -> Addr# -> Int# -> State# d -> State# d Source #
Copy a range of the MutableByteArray# to the memory range starting at the Addr#. The MutableByteArray# and the memory region at Addr# must fully contain the specified ranges, but this is not checked. The Addr# must not point into the MutableByteArray# (e.g. if the MutableByteArray# were pinned), but this is not checked either.
Warning: this can fail with an unchecked exception.
copyAddrToByteArray# :: Addr# -> MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Copy a memory range starting at the Addr# to the specified range in the MutableByteArray#. The memory region at Addr# and the ByteArray# must fully contain the specified ranges, but this is not checked. The Addr# must not point into the MutableByteArray# (e.g. if the MutableByteArray# were pinned), but this is not checked either.
Warning: this can fail with an unchecked exception.
setByteArray# :: MutableByteArray# d -> Int# -> Int# -> Int# -> State# d -> State# d Source #
setByteArray# ba off len c
sets the byte range [off, off+len]
of
the MutableByteArray#
to the byte c
.
Warning: this can fail with an unchecked exception.
atomicReadIntArray# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array and an offset in machine words, read an element. The index is assumed to be in bounds. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
atomicWriteIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> State# d Source #
Given an array and an offset in machine words, write an element. The index is assumed to be in bounds. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
casIntArray# :: MutableByteArray# d -> Int# -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, an offset in machine words, the expected old value, and the new value, perform an atomic compare and swap i.e. write the new value if the current value matches the provided old value. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchAddIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to add, atomically add the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchSubIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to subtract, atomically substract the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchAndIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to AND, atomically AND the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchNandIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to NAND, atomically NAND the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchOrIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to OR, atomically OR the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
fetchXorIntArray# :: MutableByteArray# d -> Int# -> Int# -> State# d -> (# State# d, Int# #) Source #
Given an array, and offset in machine words, and a value to XOR, atomically XOR the value to the element. Returns the value of the element before the operation. Implies a full memory barrier.
Warning: this can fail with an unchecked exception.
newArrayArray# :: Int# -> State# d -> (# State# d, MutableArrayArray# d #) Source #
Create a new mutable array of arrays with the specified number of elements, in the specified state thread, with each element recursively referring to the newly created array.
sameMutableArrayArray# :: MutableArrayArray# d -> MutableArrayArray# d -> Int# Source #
unsafeFreezeArrayArray# :: MutableArrayArray# d -> State# d -> (# State# d, ArrayArray# #) Source #
Make a mutable array of arrays immutable, without copying.
sizeofArrayArray# :: ArrayArray# -> Int# Source #
Return the number of elements in the array.
sizeofMutableArrayArray# :: MutableArrayArray# d -> Int# Source #
Return the number of elements in the array.
indexByteArrayArray# :: ArrayArray# -> Int# -> ByteArray# Source #
Warning: this can fail with an unchecked exception.
indexArrayArrayArray# :: ArrayArray# -> Int# -> ArrayArray# Source #
Warning: this can fail with an unchecked exception.
readByteArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, ByteArray# #) Source #
Warning: this can fail with an unchecked exception.
readMutableByteArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, MutableByteArray# d #) Source #
Warning: this can fail with an unchecked exception.
readArrayArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, ArrayArray# #) Source #
Warning: this can fail with an unchecked exception.
readMutableArrayArrayArray# :: MutableArrayArray# d -> Int# -> State# d -> (# State# d, MutableArrayArray# d #) Source #
Warning: this can fail with an unchecked exception.
writeByteArrayArray# :: MutableArrayArray# d -> Int# -> ByteArray# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeMutableByteArrayArray# :: MutableArrayArray# d -> Int# -> MutableByteArray# d -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeArrayArrayArray# :: MutableArrayArray# d -> Int# -> ArrayArray# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeMutableArrayArrayArray# :: MutableArrayArray# d -> Int# -> MutableArrayArray# d -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
copyArrayArray# :: ArrayArray# -> Int# -> MutableArrayArray# d -> Int# -> Int# -> State# d -> State# d Source #
Copy a range of the ArrayArray# to the specified region in the MutableArrayArray#. Both arrays must fully contain the specified ranges, but this is not checked. The two arrays must not be the same array in different states, but this is not checked either.
Warning: this can fail with an unchecked exception.
copyMutableArrayArray# :: MutableArrayArray# d -> Int# -> MutableArrayArray# d -> Int# -> Int# -> State# d -> State# d Source #
Copy a range of the first MutableArrayArray# to the specified region in the second MutableArrayArray#. Both arrays must fully contain the specified ranges, but this is not checked. The regions are allowed to overlap, although this is only possible when the same array is provided as both the source and the destination.
Warning: this can fail with an unchecked exception.
minusAddr# :: Addr# -> Addr# -> Int# Source #
Result is meaningless if two Addr#
s are so far apart that their
difference doesn't fit in an Int#
.
remAddr# :: Addr# -> Int# -> Int# Source #
Return the remainder when the Addr#
arg, treated like an Int#
,
is divided by the Int#
arg.
indexCharOffAddr# :: Addr# -> Int# -> Char# Source #
Reads 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
indexWideCharOffAddr# :: Addr# -> Int# -> Char# Source #
Reads 31-bit character; offset in 4-byte words.
Warning: this can fail with an unchecked exception.
indexIntOffAddr# :: Addr# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexWordOffAddr# :: Addr# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
indexAddrOffAddr# :: Addr# -> Int# -> Addr# Source #
Warning: this can fail with an unchecked exception.
indexFloatOffAddr# :: Addr# -> Int# -> Float# Source #
Warning: this can fail with an unchecked exception.
indexDoubleOffAddr# :: Addr# -> Int# -> Double# Source #
Warning: this can fail with an unchecked exception.
indexStablePtrOffAddr# :: Addr# -> Int# -> StablePtr# a Source #
Warning: this can fail with an unchecked exception.
indexInt8OffAddr# :: Addr# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexInt16OffAddr# :: Addr# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexInt32OffAddr# :: Addr# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexInt64OffAddr# :: Addr# -> Int# -> Int# Source #
Warning: this can fail with an unchecked exception.
indexWord8OffAddr# :: Addr# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
indexWord16OffAddr# :: Addr# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
indexWord32OffAddr# :: Addr# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
indexWord64OffAddr# :: Addr# -> Int# -> Word# Source #
Warning: this can fail with an unchecked exception.
readCharOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Char# #) Source #
Reads 8-bit character; offset in bytes.
Warning: this can fail with an unchecked exception.
readWideCharOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Char# #) Source #
Reads 31-bit character; offset in 4-byte words.
Warning: this can fail with an unchecked exception.
readIntOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWordOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readAddrOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Addr# #) Source #
Warning: this can fail with an unchecked exception.
readFloatOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Float# #) Source #
Warning: this can fail with an unchecked exception.
readDoubleOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Double# #) Source #
Warning: this can fail with an unchecked exception.
readStablePtrOffAddr# :: Addr# -> Int# -> State# d -> (# State# d, StablePtr# a #) Source #
Warning: this can fail with an unchecked exception.
readInt8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readInt64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int# #) Source #
Warning: this can fail with an unchecked exception.
readWord8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
readWord64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word# #) Source #
Warning: this can fail with an unchecked exception.
writeCharOffAddr# :: Addr# -> Int# -> Char# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWideCharOffAddr# :: Addr# -> Int# -> Char# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeIntOffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWordOffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeAddrOffAddr# :: Addr# -> Int# -> Addr# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeFloatOffAddr# :: Addr# -> Int# -> Float# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeDoubleOffAddr# :: Addr# -> Int# -> Double# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeStablePtrOffAddr# :: Addr# -> Int# -> StablePtr# a -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt8OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt16OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt32OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeInt64OffAddr# :: Addr# -> Int# -> Int# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord8OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord16OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord32OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
writeWord64OffAddr# :: Addr# -> Int# -> Word# -> State# d -> State# d Source #
Warning: this can fail with an unchecked exception.
newMutVar# :: a -> State# d -> (# State# d, MutVar# d a #) Source #
Create MutVar#
with specified initial value in specified state thread.
readMutVar# :: MutVar# d a -> State# d -> (# State# d, a #) Source #
Read contents of MutVar#
. Result is not yet evaluated.
atomicModifyMutVar2# :: MutVar# d a -> (a -> c) -> State# d -> (# State# d, a, c #) Source #
Modify the contents of a MutVar#
, returning the previous
contents and the result of applying the given function to the
previous contents. Note that this isn't strictly
speaking the correct type for this function; it should really be
MutVar# s a -> (a -> (a,b)) -> State# s -> (# State# s, a, (a, b) #)
,
but we don't know about pairs here.
Warning: this can fail with an unchecked exception.
atomicModifyMutVar_# :: MutVar# d a -> (a -> a) -> State# d -> (# State# d, a, a #) Source #
Modify the contents of a MutVar#
, returning the previous
contents and the result of applying the given function to the
previous contents.
Warning: this can fail with an unchecked exception.
catch# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (b -> State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
raise# :: forall b (q :: RuntimeRep) (a :: TYPE q). b -> a Source #
maskAsyncExceptions# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
maskUninterruptible# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
unmaskAsyncExceptions# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
atomically# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
catchRetry# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
catchSTM# :: (State# RealWorld -> (# State# RealWorld, a #)) -> (b -> State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, a #) Source #
newTVar# :: a -> State# d -> (# State# d, TVar# d a #) Source #
Create a new TVar#
holding a specified initial value.
readTVar# :: TVar# d a -> State# d -> (# State# d, a #) Source #
Read contents of TVar#
. Result is not yet evaluated.
readTVarIO# :: TVar# d a -> State# d -> (# State# d, a #) Source #
Read contents of TVar#
outside an STM transaction
takeMVar# :: MVar# d a -> State# d -> (# State# d, a #) Source #
If MVar#
is empty, block until it becomes full.
Then remove and return its contents, and set it empty.
tryTakeMVar# :: MVar# d a -> State# d -> (# State# d, Int#, a #) Source #
If MVar#
is empty, immediately return with integer 0 and value undefined.
Otherwise, return with integer 1 and contents of MVar#
, and set MVar#
empty.
putMVar# :: MVar# d a -> a -> State# d -> State# d Source #
If MVar#
is full, block until it becomes empty.
Then store value arg as its new contents.
tryPutMVar# :: MVar# d a -> a -> State# d -> (# State# d, Int# #) Source #
If MVar#
is full, immediately return with integer 0.
Otherwise, store value arg as MVar#
's new contents, and return with integer 1.
readMVar# :: MVar# d a -> State# d -> (# State# d, a #) Source #
If MVar#
is empty, block until it becomes full.
Then read its contents without modifying the MVar, without possibility
of intervention from other threads.
tryReadMVar# :: MVar# d a -> State# d -> (# State# d, Int#, a #) Source #
If MVar#
is empty, immediately return with integer 0 and value undefined.
Otherwise, return with integer 1 and contents of MVar#
.
isEmptyMVar# :: MVar# d a -> State# d -> (# State# d, Int# #) Source #
Return 1 if MVar#
is empty; 0 otherwise.
waitRead# :: Int# -> State# d -> State# d Source #
Block until input is available on specified file descriptor.
waitWrite# :: Int# -> State# d -> State# d Source #
Block until output is possible on specified file descriptor.
noDuplicate# :: State# d -> State# d Source #
mkWeak# :: forall (q :: RuntimeRep) (a :: TYPE q) b c. a -> b -> (State# RealWorld -> (# State# RealWorld, c #)) -> State# RealWorld -> (# State# RealWorld, Weak# b #) Source #
mkWeak# k v finalizer s
creates a weak reference to value k
,
with an associated reference to some value v
. If k
is still
alive then v
can be retrieved using deRefWeak#
. Note that
the type of k
must be represented by a pointer (i.e. of kind TYPE 'LiftedRep
or TYPE 'UnliftedRep
).
mkWeakNoFinalizer# :: forall (q :: RuntimeRep) (a :: TYPE q) b. a -> b -> State# RealWorld -> (# State# RealWorld, Weak# b #) Source #
addCFinalizerToWeak# :: Addr# -> Addr# -> Int# -> Addr# -> Weak# b -> State# RealWorld -> (# State# RealWorld, Int# #) Source #
addCFinalizerToWeak# fptr ptr flag eptr w
attaches a C
function pointer fptr
to a weak pointer w
as a finalizer. If
flag
is zero, fptr
will be called with one argument,
ptr
. Otherwise, it will be called with two arguments,
eptr
and ptr
. addCFinalizerToWeak#
returns
1 on success, or 0 if w
is already dead.
finalizeWeak# :: Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, State# RealWorld -> (# State# RealWorld, b #) #) Source #
Finalize a weak pointer. The return value is an unboxed tuple
containing the new state of the world and an "unboxed Maybe",
represented by an Int#
and a (possibly invalid) finalization
action. An Int#
of 1
indicates that the finalizer is valid. The
return value b
from the finalizer should be ignored.
touch# :: forall (q :: RuntimeRep) (a :: TYPE q). a -> State# RealWorld -> State# RealWorld Source #
makeStablePtr# :: a -> State# RealWorld -> (# State# RealWorld, StablePtr# a #) Source #
deRefStablePtr# :: StablePtr# a -> State# RealWorld -> (# State# RealWorld, a #) Source #
eqStablePtr# :: StablePtr# a -> StablePtr# a -> Int# Source #
makeStableName# :: a -> State# RealWorld -> (# State# RealWorld, StableName# a #) Source #
eqStableName# :: StableName# a -> StableName# b -> Int# Source #
stableNameToInt# :: StableName# a -> Int# Source #
compactNew# :: Word# -> State# RealWorld -> (# State# RealWorld, Compact# #) Source #
Create a new CNF with a single compact block. The argument is the capacity of the compact block (in bytes, not words). The capacity is rounded up to a multiple of the allocator block size and is capped to one mega block.
compactResize# :: Compact# -> Word# -> State# RealWorld -> State# RealWorld Source #
Set the new allocation size of the CNF. This value (in bytes) determines the capacity of each compact block in the CNF. It does not retroactively affect existing compact blocks in the CNF.
compactContains# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, Int# #) Source #
Returns 1# if the object is contained in the CNF, 0# otherwise.
compactContainsAny# :: a -> State# RealWorld -> (# State# RealWorld, Int# #) Source #
Returns 1# if the object is in any CNF at all, 0# otherwise.
compactGetFirstBlock# :: Compact# -> State# RealWorld -> (# State# RealWorld, Addr#, Word# #) Source #
Returns the address and the utilized size (in bytes) of the first compact block of a CNF.
compactGetNextBlock# :: Compact# -> Addr# -> State# RealWorld -> (# State# RealWorld, Addr#, Word# #) Source #
Given a CNF and the address of one its compact blocks, returns the
next compact block and its utilized size, or nullAddr#
if the
argument was the last compact block in the CNF.
compactAllocateBlock# :: Word# -> Addr# -> State# RealWorld -> (# State# RealWorld, Addr# #) Source #
Attempt to allocate a compact block with the capacity (in
bytes) given by the first argument. The Addr#
is a pointer
to previous compact block of the CNF or nullAddr#
to create a
new CNF with a single compact block.
The resulting block is not known to the GC until
compactFixupPointers#
is called on it, and care must be taken
so that the address does not escape or memory will be leaked.
compactFixupPointers# :: Addr# -> Addr# -> State# RealWorld -> (# State# RealWorld, Compact#, Addr# #) Source #
Given the pointer to the first block of a CNF and the address of the root object in the old address space, fix up the internal pointers inside the CNF to account for a different position in memory than when it was serialized. This method must be called exactly once after importing a serialized CNF. It returns the new CNF and the new adjusted root address.
compactAdd# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, a #) Source #
Recursively add a closure and its transitive closure to a
Compact#
(a CNF), evaluating any unevaluated components
at the same time. Note: compactAdd#
is not thread-safe, so
only one thread may call compactAdd#
with a particular
Compact#
at any given time. The primop does not
enforce any mutual exclusion; the caller is expected to
arrange this.
compactAddWithSharing# :: Compact# -> a -> State# RealWorld -> (# State# RealWorld, a #) Source #
Like compactAdd#
, but retains sharing and cycles
during compaction.
compactSize# :: Compact# -> State# RealWorld -> (# State# RealWorld, Word# #) Source #
Return the total capacity (in bytes) of all the compact blocks in the CNF.
reallyUnsafePtrEquality# :: a -> a -> Int# Source #
Returns 1#
if the given pointers are equal and 0#
otherwise.
Warning: this can fail with an unchecked exception.
numSparks# :: State# d -> (# State# d, Int# #) Source #
Returns the number of sparks in the local spark pool.
dataToTag# :: a -> Int# Source #
tagToEnum# :: Int# -> a Source #
addrToAny# :: Addr# -> (# a #) Source #
Convert an Addr#
to a followable Any type.
anyToAddr# :: a -> State# RealWorld -> (# State# RealWorld, Addr# #) Source #
Retrieve the address of any Haskell value. This is
essentially an unsafeCoerce#
, but if implemented as such
the core lint pass complains and fails to compile.
As a primop, it is opaque to core/stg, and only appears
in cmm (where the copy propagation pass will get rid of it).
Note that "a" must be a value, not a thunk! It's too late
for strictness analysis to enforce this, so you're on your
own to guarantee this. Also note that Addr#
is not a GC
pointer - up to you to guarantee that it does not become
a dangling pointer immediately after you get it.
mkApUpd0# :: BCO# -> (# a #) Source #
Wrap a BCO in a AP_UPD
thunk which will be updated with the value of
the BCO when evaluated.
newBCO# :: ByteArray# -> ByteArray# -> Array# a -> Int# -> ByteArray# -> State# d -> (# State# d, BCO# #) Source #
newBCO# instrs lits ptrs arity bitmap
creates a new bytecode object. The
resulting object encodes a function of the given arity with the instructions
encoded in instrs
, and a static reference table usage bitmap given by
bitmap
.
unpackClosure# :: a -> (# Addr#, ByteArray#, Array# b #) Source #
unpackClosure# closure
copies the closure and pointers in the
payload of the given closure into two new arrays, and returns a pointer to
the first word of the closure's info table, a non-pointer array for the raw
bytes of the closure, and a pointer array for the pointers in the payload.
closureSize# :: a -> Int# Source #
closureSize# closure
returns the size of the given closure in
machine words.
getApStackVal# :: a -> Int# -> (# Int#, b #) Source #
getCurrentCCS# :: a -> State# d -> (# State# d, Addr# #) Source #
Returns the current CostCentreStack
(value is NULL
if
not profiling). Takes a dummy argument which can be used to
avoid the call to getCurrentCCS#
being floated out by the
simplifier, which would result in an uninformative stack
("CAF").
clearCCS# :: (State# d -> (# State# d, a #)) -> State# d -> (# State# d, a #) Source #
Run the supplied IO action with an empty CCS. For example, this is used by the interpreter to run an interpreted computation without the call stack showing that it was invoked from GHC.
traceEvent# :: Addr# -> State# d -> State# d Source #
Emits an event via the RTS tracing framework. The contents
of the event is the zero-terminated byte string passed as the first
argument. The event will be emitted either to the .eventlog
file,
or to stderr, depending on the runtime RTS flags.
traceBinaryEvent# :: Addr# -> Int# -> State# d -> State# d Source #
Emits an event via the RTS tracing framework. The contents
of the event is the binary object passed as the first argument with
the the given length passed as the second argument. The event will be
emitted to the .eventlog
file.
traceMarker# :: Addr# -> State# d -> State# d Source #
Emits a marker event via the RTS tracing framework. The contents
of the event is the zero-terminated byte string passed as the first
argument. The event will be emitted either to the .eventlog
file,
or to stderr, depending on the runtime RTS flags.
setThreadAllocationCounter# :: Int# -> State# RealWorld -> State# RealWorld Source #
Sets the allocation counter for the current thread to the given value.
broadcastInt8X16# :: Int# -> Int8X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt16X8# :: Int# -> Int16X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt32X4# :: Int# -> Int32X4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt64X2# :: Int# -> Int64X2# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt8X32# :: Int# -> Int8X32# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt16X16# :: Int# -> Int16X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt32X8# :: Int# -> Int32X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt64X4# :: Int# -> Int64X4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt8X64# :: Int# -> Int8X64# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt16X32# :: Int# -> Int16X32# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt32X16# :: Int# -> Int32X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastInt64X8# :: Int# -> Int64X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord8X16# :: Word# -> Word8X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord16X8# :: Word# -> Word16X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord32X4# :: Word# -> Word32X4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord64X2# :: Word# -> Word64X2# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord8X32# :: Word# -> Word8X32# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord16X16# :: Word# -> Word16X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord32X8# :: Word# -> Word32X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord64X4# :: Word# -> Word64X4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord8X64# :: Word# -> Word8X64# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord16X32# :: Word# -> Word16X32# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord32X16# :: Word# -> Word32X16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastWord64X8# :: Word# -> Word64X8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastFloatX4# :: Float# -> FloatX4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastDoubleX2# :: Double# -> DoubleX2# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastFloatX8# :: Float# -> FloatX8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastDoubleX4# :: Double# -> DoubleX4# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastFloatX16# :: Float# -> FloatX16# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
broadcastDoubleX8# :: Double# -> DoubleX8# Source #
Broadcast a scalar to all elements of a vector.
Warning: this is only available on LLVM.
packInt8X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt16X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt32X4# :: (# Int#, Int#, Int#, Int# #) -> Int32X4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt64X2# :: (# Int#, Int# #) -> Int64X2# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt8X32# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X32# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt16X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt32X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int32X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt64X4# :: (# Int#, Int#, Int#, Int# #) -> Int64X4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt8X64# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int8X64# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt16X32# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int16X32# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt32X16# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int32X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packInt64X8# :: (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) -> Int64X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord8X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord16X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord32X4# :: (# Word#, Word#, Word#, Word# #) -> Word32X4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord64X2# :: (# Word#, Word# #) -> Word64X2# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord8X32# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X32# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord16X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord32X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word32X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord64X4# :: (# Word#, Word#, Word#, Word# #) -> Word64X4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord8X64# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word8X64# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord16X32# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word16X32# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord32X16# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word32X16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packWord64X8# :: (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) -> Word64X8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packFloatX4# :: (# Float#, Float#, Float#, Float# #) -> FloatX4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packDoubleX2# :: (# Double#, Double# #) -> DoubleX2# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packFloatX8# :: (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) -> FloatX8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packDoubleX4# :: (# Double#, Double#, Double#, Double# #) -> DoubleX4# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packFloatX16# :: (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) -> FloatX16# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
packDoubleX8# :: (# Double#, Double#, Double#, Double#, Double#, Double#, Double#, Double# #) -> DoubleX8# Source #
Pack the elements of an unboxed tuple into a vector.
Warning: this is only available on LLVM.
unpackInt8X16# :: Int8X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt16X8# :: Int16X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt32X4# :: Int32X4# -> (# Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt64X2# :: Int64X2# -> (# Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt8X32# :: Int8X32# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt16X16# :: Int16X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt32X8# :: Int32X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt64X4# :: Int64X4# -> (# Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt8X64# :: Int8X64# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt16X32# :: Int16X32# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt32X16# :: Int32X16# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackInt64X8# :: Int64X8# -> (# Int#, Int#, Int#, Int#, Int#, Int#, Int#, Int# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord8X16# :: Word8X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord16X8# :: Word16X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord32X4# :: Word32X4# -> (# Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord64X2# :: Word64X2# -> (# Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord8X32# :: Word8X32# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord16X16# :: Word16X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord32X8# :: Word32X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord64X4# :: Word64X4# -> (# Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord8X64# :: Word8X64# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord16X32# :: Word16X32# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord32X16# :: Word32X16# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackWord64X8# :: Word64X8# -> (# Word#, Word#, Word#, Word#, Word#, Word#, Word#, Word# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackFloatX4# :: FloatX4# -> (# Float#, Float#, Float#, Float# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackDoubleX2# :: DoubleX2# -> (# Double#, Double# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackFloatX8# :: FloatX8# -> (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackDoubleX4# :: DoubleX4# -> (# Double#, Double#, Double#, Double# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackFloatX16# :: FloatX16# -> (# Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float#, Float# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
unpackDoubleX8# :: DoubleX8# -> (# Double#, Double#, Double#, Double#, Double#, Double#, Double#, Double# #) Source #
Unpack the elements of a vector into an unboxed tuple. #
Warning: this is only available on LLVM.
insertInt8X16# :: Int8X16# -> Int# -> Int# -> Int8X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt16X8# :: Int16X8# -> Int# -> Int# -> Int16X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt32X4# :: Int32X4# -> Int# -> Int# -> Int32X4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt64X2# :: Int64X2# -> Int# -> Int# -> Int64X2# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt8X32# :: Int8X32# -> Int# -> Int# -> Int8X32# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt16X16# :: Int16X16# -> Int# -> Int# -> Int16X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt32X8# :: Int32X8# -> Int# -> Int# -> Int32X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt64X4# :: Int64X4# -> Int# -> Int# -> Int64X4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt8X64# :: Int8X64# -> Int# -> Int# -> Int8X64# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt16X32# :: Int16X32# -> Int# -> Int# -> Int16X32# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt32X16# :: Int32X16# -> Int# -> Int# -> Int32X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertInt64X8# :: Int64X8# -> Int# -> Int# -> Int64X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord8X16# :: Word8X16# -> Word# -> Int# -> Word8X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord16X8# :: Word16X8# -> Word# -> Int# -> Word16X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord32X4# :: Word32X4# -> Word# -> Int# -> Word32X4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord64X2# :: Word64X2# -> Word# -> Int# -> Word64X2# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord8X32# :: Word8X32# -> Word# -> Int# -> Word8X32# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord16X16# :: Word16X16# -> Word# -> Int# -> Word16X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord32X8# :: Word32X8# -> Word# -> Int# -> Word32X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord64X4# :: Word64X4# -> Word# -> Int# -> Word64X4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord8X64# :: Word8X64# -> Word# -> Int# -> Word8X64# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord16X32# :: Word16X32# -> Word# -> Int# -> Word16X32# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord32X16# :: Word32X16# -> Word# -> Int# -> Word32X16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertWord64X8# :: Word64X8# -> Word# -> Int# -> Word64X8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertFloatX4# :: FloatX4# -> Float# -> Int# -> FloatX4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertDoubleX2# :: DoubleX2# -> Double# -> Int# -> DoubleX2# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertFloatX8# :: FloatX8# -> Float# -> Int# -> FloatX8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertDoubleX4# :: DoubleX4# -> Double# -> Int# -> DoubleX4# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertFloatX16# :: FloatX16# -> Float# -> Int# -> FloatX16# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
insertDoubleX8# :: DoubleX8# -> Double# -> Int# -> DoubleX8# Source #
Insert a scalar at the given position in a vector.
Warning: this is only available on LLVM and can fail with an unchecked exception.
plusInt8X16# :: Int8X16# -> Int8X16# -> Int8X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt16X8# :: Int16X8# -> Int16X8# -> Int16X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt32X4# :: Int32X4# -> Int32X4# -> Int32X4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt64X2# :: Int64X2# -> Int64X2# -> Int64X2# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt8X32# :: Int8X32# -> Int8X32# -> Int8X32# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt16X16# :: Int16X16# -> Int16X16# -> Int16X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt32X8# :: Int32X8# -> Int32X8# -> Int32X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt64X4# :: Int64X4# -> Int64X4# -> Int64X4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt8X64# :: Int8X64# -> Int8X64# -> Int8X64# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt16X32# :: Int16X32# -> Int16X32# -> Int16X32# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt32X16# :: Int32X16# -> Int32X16# -> Int32X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusInt64X8# :: Int64X8# -> Int64X8# -> Int64X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord8X16# :: Word8X16# -> Word8X16# -> Word8X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord16X8# :: Word16X8# -> Word16X8# -> Word16X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord32X4# :: Word32X4# -> Word32X4# -> Word32X4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord64X2# :: Word64X2# -> Word64X2# -> Word64X2# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord8X32# :: Word8X32# -> Word8X32# -> Word8X32# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord16X16# :: Word16X16# -> Word16X16# -> Word16X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord32X8# :: Word32X8# -> Word32X8# -> Word32X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord64X4# :: Word64X4# -> Word64X4# -> Word64X4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord8X64# :: Word8X64# -> Word8X64# -> Word8X64# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord16X32# :: Word16X32# -> Word16X32# -> Word16X32# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord32X16# :: Word32X16# -> Word32X16# -> Word32X16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusWord64X8# :: Word64X8# -> Word64X8# -> Word64X8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusFloatX4# :: FloatX4# -> FloatX4# -> FloatX4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusFloatX8# :: FloatX8# -> FloatX8# -> FloatX8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusFloatX16# :: FloatX16# -> FloatX16# -> FloatX16# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
plusDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8# Source #
Add two vectors element-wise.
Warning: this is only available on LLVM.
minusInt8X16# :: Int8X16# -> Int8X16# -> Int8X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt16X8# :: Int16X8# -> Int16X8# -> Int16X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt32X4# :: Int32X4# -> Int32X4# -> Int32X4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt64X2# :: Int64X2# -> Int64X2# -> Int64X2# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt8X32# :: Int8X32# -> Int8X32# -> Int8X32# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt16X16# :: Int16X16# -> Int16X16# -> Int16X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt32X8# :: Int32X8# -> Int32X8# -> Int32X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt64X4# :: Int64X4# -> Int64X4# -> Int64X4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt8X64# :: Int8X64# -> Int8X64# -> Int8X64# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt16X32# :: Int16X32# -> Int16X32# -> Int16X32# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt32X16# :: Int32X16# -> Int32X16# -> Int32X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusInt64X8# :: Int64X8# -> Int64X8# -> Int64X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord8X16# :: Word8X16# -> Word8X16# -> Word8X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord16X8# :: Word16X8# -> Word16X8# -> Word16X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord32X4# :: Word32X4# -> Word32X4# -> Word32X4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord64X2# :: Word64X2# -> Word64X2# -> Word64X2# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord8X32# :: Word8X32# -> Word8X32# -> Word8X32# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord16X16# :: Word16X16# -> Word16X16# -> Word16X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord32X8# :: Word32X8# -> Word32X8# -> Word32X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord64X4# :: Word64X4# -> Word64X4# -> Word64X4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord8X64# :: Word8X64# -> Word8X64# -> Word8X64# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord16X32# :: Word16X32# -> Word16X32# -> Word16X32# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord32X16# :: Word32X16# -> Word32X16# -> Word32X16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusWord64X8# :: Word64X8# -> Word64X8# -> Word64X8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusFloatX4# :: FloatX4# -> FloatX4# -> FloatX4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusFloatX8# :: FloatX8# -> FloatX8# -> FloatX8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusFloatX16# :: FloatX16# -> FloatX16# -> FloatX16# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
minusDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8# Source #
Subtract two vectors element-wise.
Warning: this is only available on LLVM.
timesInt8X16# :: Int8X16# -> Int8X16# -> Int8X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt16X8# :: Int16X8# -> Int16X8# -> Int16X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt32X4# :: Int32X4# -> Int32X4# -> Int32X4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt64X2# :: Int64X2# -> Int64X2# -> Int64X2# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt8X32# :: Int8X32# -> Int8X32# -> Int8X32# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt16X16# :: Int16X16# -> Int16X16# -> Int16X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt32X8# :: Int32X8# -> Int32X8# -> Int32X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt64X4# :: Int64X4# -> Int64X4# -> Int64X4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt8X64# :: Int8X64# -> Int8X64# -> Int8X64# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt16X32# :: Int16X32# -> Int16X32# -> Int16X32# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt32X16# :: Int32X16# -> Int32X16# -> Int32X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesInt64X8# :: Int64X8# -> Int64X8# -> Int64X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord8X16# :: Word8X16# -> Word8X16# -> Word8X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord16X8# :: Word16X8# -> Word16X8# -> Word16X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord32X4# :: Word32X4# -> Word32X4# -> Word32X4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord64X2# :: Word64X2# -> Word64X2# -> Word64X2# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord8X32# :: Word8X32# -> Word8X32# -> Word8X32# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord16X16# :: Word16X16# -> Word16X16# -> Word16X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord32X8# :: Word32X8# -> Word32X8# -> Word32X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord64X4# :: Word64X4# -> Word64X4# -> Word64X4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord8X64# :: Word8X64# -> Word8X64# -> Word8X64# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord16X32# :: Word16X32# -> Word16X32# -> Word16X32# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord32X16# :: Word32X16# -> Word32X16# -> Word32X16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesWord64X8# :: Word64X8# -> Word64X8# -> Word64X8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesFloatX4# :: FloatX4# -> FloatX4# -> FloatX4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesFloatX8# :: FloatX8# -> FloatX8# -> FloatX8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesFloatX16# :: FloatX16# -> FloatX16# -> FloatX16# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
timesDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8# Source #
Multiply two vectors element-wise.
Warning: this is only available on LLVM.
divideFloatX4# :: FloatX4# -> FloatX4# -> FloatX4# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
divideDoubleX2# :: DoubleX2# -> DoubleX2# -> DoubleX2# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
divideFloatX8# :: FloatX8# -> FloatX8# -> FloatX8# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
divideDoubleX4# :: DoubleX4# -> DoubleX4# -> DoubleX4# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
divideFloatX16# :: FloatX16# -> FloatX16# -> FloatX16# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
divideDoubleX8# :: DoubleX8# -> DoubleX8# -> DoubleX8# Source #
Divide two vectors element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt8X16# :: Int8X16# -> Int8X16# -> Int8X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt16X8# :: Int16X8# -> Int16X8# -> Int16X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt32X4# :: Int32X4# -> Int32X4# -> Int32X4# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt64X2# :: Int64X2# -> Int64X2# -> Int64X2# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt8X32# :: Int8X32# -> Int8X32# -> Int8X32# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt16X16# :: Int16X16# -> Int16X16# -> Int16X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt32X8# :: Int32X8# -> Int32X8# -> Int32X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt64X4# :: Int64X4# -> Int64X4# -> Int64X4# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt8X64# :: Int8X64# -> Int8X64# -> Int8X64# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt16X32# :: Int16X32# -> Int16X32# -> Int16X32# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt32X16# :: Int32X16# -> Int32X16# -> Int32X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotInt64X8# :: Int64X8# -> Int64X8# -> Int64X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord8X16# :: Word8X16# -> Word8X16# -> Word8X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord16X8# :: Word16X8# -> Word16X8# -> Word16X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord32X4# :: Word32X4# -> Word32X4# -> Word32X4# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord64X2# :: Word64X2# -> Word64X2# -> Word64X2# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord8X32# :: Word8X32# -> Word8X32# -> Word8X32# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord16X16# :: Word16X16# -> Word16X16# -> Word16X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord32X8# :: Word32X8# -> Word32X8# -> Word32X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord64X4# :: Word64X4# -> Word64X4# -> Word64X4# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord8X64# :: Word8X64# -> Word8X64# -> Word8X64# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord16X32# :: Word16X32# -> Word16X32# -> Word16X32# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord32X16# :: Word32X16# -> Word32X16# -> Word32X16# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
quotWord64X8# :: Word64X8# -> Word64X8# -> Word64X8# Source #
Rounds towards zero element-wise.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt8X16# :: Int8X16# -> Int8X16# -> Int8X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt16X8# :: Int16X8# -> Int16X8# -> Int16X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt32X4# :: Int32X4# -> Int32X4# -> Int32X4# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt64X2# :: Int64X2# -> Int64X2# -> Int64X2# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt8X32# :: Int8X32# -> Int8X32# -> Int8X32# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt16X16# :: Int16X16# -> Int16X16# -> Int16X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt32X8# :: Int32X8# -> Int32X8# -> Int32X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt64X4# :: Int64X4# -> Int64X4# -> Int64X4# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt8X64# :: Int8X64# -> Int8X64# -> Int8X64# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt16X32# :: Int16X32# -> Int16X32# -> Int16X32# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt32X16# :: Int32X16# -> Int32X16# -> Int32X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remInt64X8# :: Int64X8# -> Int64X8# -> Int64X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord8X16# :: Word8X16# -> Word8X16# -> Word8X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord16X8# :: Word16X8# -> Word16X8# -> Word16X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord32X4# :: Word32X4# -> Word32X4# -> Word32X4# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord64X2# :: Word64X2# -> Word64X2# -> Word64X2# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord8X32# :: Word8X32# -> Word8X32# -> Word8X32# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord16X16# :: Word16X16# -> Word16X16# -> Word16X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord32X8# :: Word32X8# -> Word32X8# -> Word32X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord64X4# :: Word64X4# -> Word64X4# -> Word64X4# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord8X64# :: Word8X64# -> Word8X64# -> Word8X64# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord16X32# :: Word16X32# -> Word16X32# -> Word16X32# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord32X16# :: Word32X16# -> Word32X16# -> Word32X16# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
remWord64X8# :: Word64X8# -> Word64X8# -> Word64X8# Source #
Satisfies (quot# x y) times# y plus# (rem# x y) == x
.
Warning: this is only available on LLVM and can fail with an unchecked exception.
negateInt8X16# :: Int8X16# -> Int8X16# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt16X8# :: Int16X8# -> Int16X8# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt32X4# :: Int32X4# -> Int32X4# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt64X2# :: Int64X2# -> Int64X2# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt8X32# :: Int8X32# -> Int8X32# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt16X16# :: Int16X16# -> Int16X16# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt32X8# :: Int32X8# -> Int32X8# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt64X4# :: Int64X4# -> Int64X4# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt8X64# :: Int8X64# -> Int8X64# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt16X32# :: Int16X32# -> Int16X32# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt32X16# :: Int32X16# -> Int32X16# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateInt64X8# :: Int64X8# -> Int64X8# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateFloatX4# :: FloatX4# -> FloatX4# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateDoubleX2# :: DoubleX2# -> DoubleX2# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateFloatX8# :: FloatX8# -> FloatX8# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateDoubleX4# :: DoubleX4# -> DoubleX4# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateFloatX16# :: FloatX16# -> FloatX16# Source #
Negate element-wise.
Warning: this is only available on LLVM.
negateDoubleX8# :: DoubleX8# -> DoubleX8# Source #
Negate element-wise.
Warning: this is only available on LLVM.
indexInt8X16Array# :: ByteArray# -> Int# -> Int8X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X8Array# :: ByteArray# -> Int# -> Int16X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X4Array# :: ByteArray# -> Int# -> Int32X4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X2Array# :: ByteArray# -> Int# -> Int64X2# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8X32Array# :: ByteArray# -> Int# -> Int8X32# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X16Array# :: ByteArray# -> Int# -> Int16X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X8Array# :: ByteArray# -> Int# -> Int32X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X4Array# :: ByteArray# -> Int# -> Int64X4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8X64Array# :: ByteArray# -> Int# -> Int8X64# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X32Array# :: ByteArray# -> Int# -> Int16X32# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X16Array# :: ByteArray# -> Int# -> Int32X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X8Array# :: ByteArray# -> Int# -> Int64X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X16Array# :: ByteArray# -> Int# -> Word8X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X8Array# :: ByteArray# -> Int# -> Word16X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X4Array# :: ByteArray# -> Int# -> Word32X4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X2Array# :: ByteArray# -> Int# -> Word64X2# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X32Array# :: ByteArray# -> Int# -> Word8X32# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X16Array# :: ByteArray# -> Int# -> Word16X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X8Array# :: ByteArray# -> Int# -> Word32X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X4Array# :: ByteArray# -> Int# -> Word64X4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X64Array# :: ByteArray# -> Int# -> Word8X64# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X32Array# :: ByteArray# -> Int# -> Word16X32# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X16Array# :: ByteArray# -> Int# -> Word32X16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X8Array# :: ByteArray# -> Int# -> Word64X8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX4Array# :: ByteArray# -> Int# -> FloatX4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX2Array# :: ByteArray# -> Int# -> DoubleX2# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX8Array# :: ByteArray# -> Int# -> FloatX8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX4Array# :: ByteArray# -> Int# -> DoubleX4# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX16Array# :: ByteArray# -> Int# -> FloatX16# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX8Array# :: ByteArray# -> Int# -> DoubleX8# Source #
Read a vector from specified index of immutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X2# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X32# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X64# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X32# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X2# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X32# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X64Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X64# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X32Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X32# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX2Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX2# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX4Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX4# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX16Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX16# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX8Array# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX8# #) Source #
Read a vector from specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X16Array# :: MutableByteArray# d -> Int# -> Int8X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X8Array# :: MutableByteArray# d -> Int# -> Int16X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X4Array# :: MutableByteArray# d -> Int# -> Int32X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X2Array# :: MutableByteArray# d -> Int# -> Int64X2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X32Array# :: MutableByteArray# d -> Int# -> Int8X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X16Array# :: MutableByteArray# d -> Int# -> Int16X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X8Array# :: MutableByteArray# d -> Int# -> Int32X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X4Array# :: MutableByteArray# d -> Int# -> Int64X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X64Array# :: MutableByteArray# d -> Int# -> Int8X64# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X32Array# :: MutableByteArray# d -> Int# -> Int16X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X16Array# :: MutableByteArray# d -> Int# -> Int32X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X8Array# :: MutableByteArray# d -> Int# -> Int64X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X16Array# :: MutableByteArray# d -> Int# -> Word8X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X8Array# :: MutableByteArray# d -> Int# -> Word16X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X4Array# :: MutableByteArray# d -> Int# -> Word32X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X2Array# :: MutableByteArray# d -> Int# -> Word64X2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X32Array# :: MutableByteArray# d -> Int# -> Word8X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X16Array# :: MutableByteArray# d -> Int# -> Word16X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X8Array# :: MutableByteArray# d -> Int# -> Word32X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X4Array# :: MutableByteArray# d -> Int# -> Word64X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X64Array# :: MutableByteArray# d -> Int# -> Word8X64# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X32Array# :: MutableByteArray# d -> Int# -> Word16X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X16Array# :: MutableByteArray# d -> Int# -> Word32X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X8Array# :: MutableByteArray# d -> Int# -> Word64X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX4Array# :: MutableByteArray# d -> Int# -> FloatX4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX2Array# :: MutableByteArray# d -> Int# -> DoubleX2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX8Array# :: MutableByteArray# d -> Int# -> FloatX8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX4Array# :: MutableByteArray# d -> Int# -> DoubleX4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX16Array# :: MutableByteArray# d -> Int# -> FloatX16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX8Array# :: MutableByteArray# d -> Int# -> DoubleX8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8X16OffAddr# :: Addr# -> Int# -> Int8X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X8OffAddr# :: Addr# -> Int# -> Int16X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X4OffAddr# :: Addr# -> Int# -> Int32X4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X2OffAddr# :: Addr# -> Int# -> Int64X2# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8X32OffAddr# :: Addr# -> Int# -> Int8X32# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X16OffAddr# :: Addr# -> Int# -> Int16X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X8OffAddr# :: Addr# -> Int# -> Int32X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X4OffAddr# :: Addr# -> Int# -> Int64X4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8X64OffAddr# :: Addr# -> Int# -> Int8X64# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16X32OffAddr# :: Addr# -> Int# -> Int16X32# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32X16OffAddr# :: Addr# -> Int# -> Int32X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64X8OffAddr# :: Addr# -> Int# -> Int64X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X16OffAddr# :: Addr# -> Int# -> Word8X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X8OffAddr# :: Addr# -> Int# -> Word16X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X4OffAddr# :: Addr# -> Int# -> Word32X4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X2OffAddr# :: Addr# -> Int# -> Word64X2# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X32OffAddr# :: Addr# -> Int# -> Word8X32# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X16OffAddr# :: Addr# -> Int# -> Word16X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X8OffAddr# :: Addr# -> Int# -> Word32X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X4OffAddr# :: Addr# -> Int# -> Word64X4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8X64OffAddr# :: Addr# -> Int# -> Word8X64# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16X32OffAddr# :: Addr# -> Int# -> Word16X32# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32X16OffAddr# :: Addr# -> Int# -> Word32X16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64X8OffAddr# :: Addr# -> Int# -> Word64X8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX4OffAddr# :: Addr# -> Int# -> FloatX4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX2OffAddr# :: Addr# -> Int# -> DoubleX2# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX8OffAddr# :: Addr# -> Int# -> FloatX8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX4OffAddr# :: Addr# -> Int# -> DoubleX4# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatX16OffAddr# :: Addr# -> Int# -> FloatX16# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleX8OffAddr# :: Addr# -> Int# -> DoubleX8# Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X2# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X32# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8X64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int8X64# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int16X32# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int32X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Int64X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X2# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X32# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8X64OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word8X64# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16X32OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word16X32# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32X16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word32X16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64X8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, Word64X8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX2OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX2# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX4OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX4# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatX16OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, FloatX16# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleX8OffAddr# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX8# #) Source #
Reads vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X16OffAddr# :: Addr# -> Int# -> Int8X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X8OffAddr# :: Addr# -> Int# -> Int16X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X4OffAddr# :: Addr# -> Int# -> Int32X4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X2OffAddr# :: Addr# -> Int# -> Int64X2# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X32OffAddr# :: Addr# -> Int# -> Int8X32# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X16OffAddr# :: Addr# -> Int# -> Int16X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X8OffAddr# :: Addr# -> Int# -> Int32X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X4OffAddr# :: Addr# -> Int# -> Int64X4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8X64OffAddr# :: Addr# -> Int# -> Int8X64# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16X32OffAddr# :: Addr# -> Int# -> Int16X32# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32X16OffAddr# :: Addr# -> Int# -> Int32X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64X8OffAddr# :: Addr# -> Int# -> Int64X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X16OffAddr# :: Addr# -> Int# -> Word8X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X8OffAddr# :: Addr# -> Int# -> Word16X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X4OffAddr# :: Addr# -> Int# -> Word32X4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X2OffAddr# :: Addr# -> Int# -> Word64X2# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X32OffAddr# :: Addr# -> Int# -> Word8X32# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X16OffAddr# :: Addr# -> Int# -> Word16X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X8OffAddr# :: Addr# -> Int# -> Word32X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X4OffAddr# :: Addr# -> Int# -> Word64X4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8X64OffAddr# :: Addr# -> Int# -> Word8X64# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16X32OffAddr# :: Addr# -> Int# -> Word16X32# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32X16OffAddr# :: Addr# -> Int# -> Word32X16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64X8OffAddr# :: Addr# -> Int# -> Word64X8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX4OffAddr# :: Addr# -> Int# -> FloatX4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX2OffAddr# :: Addr# -> Int# -> DoubleX2# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX8OffAddr# :: Addr# -> Int# -> FloatX8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX4OffAddr# :: Addr# -> Int# -> DoubleX4# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatX16OffAddr# :: Addr# -> Int# -> FloatX16# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleX8OffAddr# :: Addr# -> Int# -> DoubleX8# -> State# d -> State# d Source #
Write vector; offset in bytes.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8ArrayAsInt8X16# :: ByteArray# -> Int# -> Int8X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16ArrayAsInt16X8# :: ByteArray# -> Int# -> Int16X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32ArrayAsInt32X4# :: ByteArray# -> Int# -> Int32X4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64ArrayAsInt64X2# :: ByteArray# -> Int# -> Int64X2# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8ArrayAsInt8X32# :: ByteArray# -> Int# -> Int8X32# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16ArrayAsInt16X16# :: ByteArray# -> Int# -> Int16X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32ArrayAsInt32X8# :: ByteArray# -> Int# -> Int32X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64ArrayAsInt64X4# :: ByteArray# -> Int# -> Int64X4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8ArrayAsInt8X64# :: ByteArray# -> Int# -> Int8X64# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16ArrayAsInt16X32# :: ByteArray# -> Int# -> Int16X32# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32ArrayAsInt32X16# :: ByteArray# -> Int# -> Int32X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64ArrayAsInt64X8# :: ByteArray# -> Int# -> Int64X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8ArrayAsWord8X16# :: ByteArray# -> Int# -> Word8X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16ArrayAsWord16X8# :: ByteArray# -> Int# -> Word16X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32ArrayAsWord32X4# :: ByteArray# -> Int# -> Word32X4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64ArrayAsWord64X2# :: ByteArray# -> Int# -> Word64X2# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8ArrayAsWord8X32# :: ByteArray# -> Int# -> Word8X32# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16ArrayAsWord16X16# :: ByteArray# -> Int# -> Word16X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32ArrayAsWord32X8# :: ByteArray# -> Int# -> Word32X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64ArrayAsWord64X4# :: ByteArray# -> Int# -> Word64X4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8ArrayAsWord8X64# :: ByteArray# -> Int# -> Word8X64# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16ArrayAsWord16X32# :: ByteArray# -> Int# -> Word16X32# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32ArrayAsWord32X16# :: ByteArray# -> Int# -> Word32X16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64ArrayAsWord64X8# :: ByteArray# -> Int# -> Word64X8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatArrayAsFloatX4# :: ByteArray# -> Int# -> FloatX4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleArrayAsDoubleX2# :: ByteArray# -> Int# -> DoubleX2# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatArrayAsFloatX8# :: ByteArray# -> Int# -> FloatX8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleArrayAsDoubleX4# :: ByteArray# -> Int# -> DoubleX4# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatArrayAsFloatX16# :: ByteArray# -> Int# -> FloatX16# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleArrayAsDoubleX8# :: ByteArray# -> Int# -> DoubleX8# Source #
Read a vector from specified index of immutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8ArrayAsInt8X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16ArrayAsInt16X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32ArrayAsInt32X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64ArrayAsInt64X2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X2# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8ArrayAsInt8X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X32# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16ArrayAsInt16X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32ArrayAsInt32X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64ArrayAsInt64X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8ArrayAsInt8X64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int8X64# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16ArrayAsInt16X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int16X32# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32ArrayAsInt32X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int32X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64ArrayAsInt64X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Int64X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8ArrayAsWord8X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16ArrayAsWord16X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32ArrayAsWord32X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64ArrayAsWord64X2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X2# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8ArrayAsWord8X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X32# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16ArrayAsWord16X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32ArrayAsWord32X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64ArrayAsWord64X4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8ArrayAsWord8X64# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word8X64# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16ArrayAsWord16X32# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word16X32# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32ArrayAsWord32X16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word32X16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64ArrayAsWord64X8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, Word64X8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatArrayAsFloatX4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleArrayAsDoubleX2# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX2# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatArrayAsFloatX8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleArrayAsDoubleX4# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX4# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatArrayAsFloatX16# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, FloatX16# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleArrayAsDoubleX8# :: MutableByteArray# d -> Int# -> State# d -> (# State# d, DoubleX8# #) Source #
Read a vector from specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8ArrayAsInt8X16# :: MutableByteArray# d -> Int# -> Int8X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16ArrayAsInt16X8# :: MutableByteArray# d -> Int# -> Int16X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32ArrayAsInt32X4# :: MutableByteArray# d -> Int# -> Int32X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64ArrayAsInt64X2# :: MutableByteArray# d -> Int# -> Int64X2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8ArrayAsInt8X32# :: MutableByteArray# d -> Int# -> Int8X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16ArrayAsInt16X16# :: MutableByteArray# d -> Int# -> Int16X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32ArrayAsInt32X8# :: MutableByteArray# d -> Int# -> Int32X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64ArrayAsInt64X4# :: MutableByteArray# d -> Int# -> Int64X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8ArrayAsInt8X64# :: MutableByteArray# d -> Int# -> Int8X64# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16ArrayAsInt16X32# :: MutableByteArray# d -> Int# -> Int16X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32ArrayAsInt32X16# :: MutableByteArray# d -> Int# -> Int32X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64ArrayAsInt64X8# :: MutableByteArray# d -> Int# -> Int64X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8ArrayAsWord8X16# :: MutableByteArray# d -> Int# -> Word8X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16ArrayAsWord16X8# :: MutableByteArray# d -> Int# -> Word16X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32ArrayAsWord32X4# :: MutableByteArray# d -> Int# -> Word32X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64ArrayAsWord64X2# :: MutableByteArray# d -> Int# -> Word64X2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8ArrayAsWord8X32# :: MutableByteArray# d -> Int# -> Word8X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16ArrayAsWord16X16# :: MutableByteArray# d -> Int# -> Word16X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32ArrayAsWord32X8# :: MutableByteArray# d -> Int# -> Word32X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64ArrayAsWord64X4# :: MutableByteArray# d -> Int# -> Word64X4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8ArrayAsWord8X64# :: MutableByteArray# d -> Int# -> Word8X64# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16ArrayAsWord16X32# :: MutableByteArray# d -> Int# -> Word16X32# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32ArrayAsWord32X16# :: MutableByteArray# d -> Int# -> Word32X16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64ArrayAsWord64X8# :: MutableByteArray# d -> Int# -> Word64X8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatArrayAsFloatX4# :: MutableByteArray# d -> Int# -> FloatX4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleArrayAsDoubleX2# :: MutableByteArray# d -> Int# -> DoubleX2# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatArrayAsFloatX8# :: MutableByteArray# d -> Int# -> FloatX8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleArrayAsDoubleX4# :: MutableByteArray# d -> Int# -> DoubleX4# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatArrayAsFloatX16# :: MutableByteArray# d -> Int# -> FloatX16# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleArrayAsDoubleX8# :: MutableByteArray# d -> Int# -> DoubleX8# -> State# d -> State# d Source #
Write a vector to specified index of mutable array of scalars; offset is in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8OffAddrAsInt8X16# :: Addr# -> Int# -> Int8X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16OffAddrAsInt16X8# :: Addr# -> Int# -> Int16X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32OffAddrAsInt32X4# :: Addr# -> Int# -> Int32X4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64OffAddrAsInt64X2# :: Addr# -> Int# -> Int64X2# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8OffAddrAsInt8X32# :: Addr# -> Int# -> Int8X32# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16OffAddrAsInt16X16# :: Addr# -> Int# -> Int16X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32OffAddrAsInt32X8# :: Addr# -> Int# -> Int32X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64OffAddrAsInt64X4# :: Addr# -> Int# -> Int64X4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt8OffAddrAsInt8X64# :: Addr# -> Int# -> Int8X64# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt16OffAddrAsInt16X32# :: Addr# -> Int# -> Int16X32# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt32OffAddrAsInt32X16# :: Addr# -> Int# -> Int32X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexInt64OffAddrAsInt64X8# :: Addr# -> Int# -> Int64X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8OffAddrAsWord8X16# :: Addr# -> Int# -> Word8X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16OffAddrAsWord16X8# :: Addr# -> Int# -> Word16X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32OffAddrAsWord32X4# :: Addr# -> Int# -> Word32X4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64OffAddrAsWord64X2# :: Addr# -> Int# -> Word64X2# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8OffAddrAsWord8X32# :: Addr# -> Int# -> Word8X32# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16OffAddrAsWord16X16# :: Addr# -> Int# -> Word16X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32OffAddrAsWord32X8# :: Addr# -> Int# -> Word32X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64OffAddrAsWord64X4# :: Addr# -> Int# -> Word64X4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord8OffAddrAsWord8X64# :: Addr# -> Int# -> Word8X64# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord16OffAddrAsWord16X32# :: Addr# -> Int# -> Word16X32# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord32OffAddrAsWord32X16# :: Addr# -> Int# -> Word32X16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexWord64OffAddrAsWord64X8# :: Addr# -> Int# -> Word64X8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatOffAddrAsFloatX4# :: Addr# -> Int# -> FloatX4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> DoubleX2# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatOffAddrAsFloatX8# :: Addr# -> Int# -> FloatX8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> DoubleX4# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexFloatOffAddrAsFloatX16# :: Addr# -> Int# -> FloatX16# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
indexDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> DoubleX8# Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8OffAddrAsInt8X16# :: Addr# -> Int# -> State# d -> (# State# d, Int8X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16OffAddrAsInt16X8# :: Addr# -> Int# -> State# d -> (# State# d, Int16X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32OffAddrAsInt32X4# :: Addr# -> Int# -> State# d -> (# State# d, Int32X4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64OffAddrAsInt64X2# :: Addr# -> Int# -> State# d -> (# State# d, Int64X2# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8OffAddrAsInt8X32# :: Addr# -> Int# -> State# d -> (# State# d, Int8X32# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16OffAddrAsInt16X16# :: Addr# -> Int# -> State# d -> (# State# d, Int16X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32OffAddrAsInt32X8# :: Addr# -> Int# -> State# d -> (# State# d, Int32X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64OffAddrAsInt64X4# :: Addr# -> Int# -> State# d -> (# State# d, Int64X4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt8OffAddrAsInt8X64# :: Addr# -> Int# -> State# d -> (# State# d, Int8X64# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt16OffAddrAsInt16X32# :: Addr# -> Int# -> State# d -> (# State# d, Int16X32# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt32OffAddrAsInt32X16# :: Addr# -> Int# -> State# d -> (# State# d, Int32X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readInt64OffAddrAsInt64X8# :: Addr# -> Int# -> State# d -> (# State# d, Int64X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8OffAddrAsWord8X16# :: Addr# -> Int# -> State# d -> (# State# d, Word8X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16OffAddrAsWord16X8# :: Addr# -> Int# -> State# d -> (# State# d, Word16X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32OffAddrAsWord32X4# :: Addr# -> Int# -> State# d -> (# State# d, Word32X4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64OffAddrAsWord64X2# :: Addr# -> Int# -> State# d -> (# State# d, Word64X2# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8OffAddrAsWord8X32# :: Addr# -> Int# -> State# d -> (# State# d, Word8X32# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16OffAddrAsWord16X16# :: Addr# -> Int# -> State# d -> (# State# d, Word16X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32OffAddrAsWord32X8# :: Addr# -> Int# -> State# d -> (# State# d, Word32X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64OffAddrAsWord64X4# :: Addr# -> Int# -> State# d -> (# State# d, Word64X4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord8OffAddrAsWord8X64# :: Addr# -> Int# -> State# d -> (# State# d, Word8X64# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord16OffAddrAsWord16X32# :: Addr# -> Int# -> State# d -> (# State# d, Word16X32# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord32OffAddrAsWord32X16# :: Addr# -> Int# -> State# d -> (# State# d, Word32X16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readWord64OffAddrAsWord64X8# :: Addr# -> Int# -> State# d -> (# State# d, Word64X8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatOffAddrAsFloatX4# :: Addr# -> Int# -> State# d -> (# State# d, FloatX4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX2# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatOffAddrAsFloatX8# :: Addr# -> Int# -> State# d -> (# State# d, FloatX8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX4# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readFloatOffAddrAsFloatX16# :: Addr# -> Int# -> State# d -> (# State# d, FloatX16# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
readDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> State# d -> (# State# d, DoubleX8# #) Source #
Reads vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8OffAddrAsInt8X16# :: Addr# -> Int# -> Int8X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16OffAddrAsInt16X8# :: Addr# -> Int# -> Int16X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32OffAddrAsInt32X4# :: Addr# -> Int# -> Int32X4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64OffAddrAsInt64X2# :: Addr# -> Int# -> Int64X2# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8OffAddrAsInt8X32# :: Addr# -> Int# -> Int8X32# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16OffAddrAsInt16X16# :: Addr# -> Int# -> Int16X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32OffAddrAsInt32X8# :: Addr# -> Int# -> Int32X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64OffAddrAsInt64X4# :: Addr# -> Int# -> Int64X4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt8OffAddrAsInt8X64# :: Addr# -> Int# -> Int8X64# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt16OffAddrAsInt16X32# :: Addr# -> Int# -> Int16X32# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt32OffAddrAsInt32X16# :: Addr# -> Int# -> Int32X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeInt64OffAddrAsInt64X8# :: Addr# -> Int# -> Int64X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8OffAddrAsWord8X16# :: Addr# -> Int# -> Word8X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16OffAddrAsWord16X8# :: Addr# -> Int# -> Word16X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32OffAddrAsWord32X4# :: Addr# -> Int# -> Word32X4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64OffAddrAsWord64X2# :: Addr# -> Int# -> Word64X2# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8OffAddrAsWord8X32# :: Addr# -> Int# -> Word8X32# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16OffAddrAsWord16X16# :: Addr# -> Int# -> Word16X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32OffAddrAsWord32X8# :: Addr# -> Int# -> Word32X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64OffAddrAsWord64X4# :: Addr# -> Int# -> Word64X4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord8OffAddrAsWord8X64# :: Addr# -> Int# -> Word8X64# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord16OffAddrAsWord16X32# :: Addr# -> Int# -> Word16X32# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord32OffAddrAsWord32X16# :: Addr# -> Int# -> Word32X16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeWord64OffAddrAsWord64X8# :: Addr# -> Int# -> Word64X8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatOffAddrAsFloatX4# :: Addr# -> Int# -> FloatX4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleOffAddrAsDoubleX2# :: Addr# -> Int# -> DoubleX2# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatOffAddrAsFloatX8# :: Addr# -> Int# -> FloatX8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleOffAddrAsDoubleX4# :: Addr# -> Int# -> DoubleX4# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeFloatOffAddrAsFloatX16# :: Addr# -> Int# -> FloatX16# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
writeDoubleOffAddrAsDoubleX8# :: Addr# -> Int# -> DoubleX8# -> State# d -> State# d Source #
Write vector; offset in scalar elements.
Warning: this is only available on LLVM and can fail with an unchecked exception.
prefetchByteArray3# :: ByteArray# -> Int# -> State# d -> State# d Source #
prefetchMutableByteArray3# :: MutableByteArray# d -> Int# -> State# d -> State# d Source #
prefetchValue3# :: a -> State# d -> State# d Source #
prefetchByteArray2# :: ByteArray# -> Int# -> State# d -> State# d Source #
prefetchMutableByteArray2# :: MutableByteArray# d -> Int# -> State# d -> State# d Source #
prefetchValue2# :: a -> State# d -> State# d Source #
prefetchByteArray1# :: ByteArray# -> Int# -> State# d -> State# d Source #
prefetchMutableByteArray1# :: MutableByteArray# d -> Int# -> State# d -> State# d Source #
prefetchValue1# :: a -> State# d -> State# d Source #
prefetchByteArray0# :: ByteArray# -> Int# -> State# d -> State# d Source #
prefetchMutableByteArray0# :: MutableByteArray# d -> Int# -> State# d -> State# d Source #
prefetchValue0# :: a -> State# d -> State# d Source #
module GHC.Prim.Ext
shiftL# :: Word# -> Int# -> Word# Source #
Shift the argument left by the specified number of bits (which must be non-negative).
shiftRL# :: Word# -> Int# -> Word# Source #
Shift the argument right by the specified number of bits (which must be non-negative). The RL means "right, logical" (as opposed to RA for arithmetic) (although an arithmetic right shift wouldn't make sense for Word#)
iShiftL# :: Int# -> Int# -> Int# Source #
Shift the argument left by the specified number of bits (which must be non-negative).
iShiftRA# :: Int# -> Int# -> Int# Source #
Shift the argument right (signed) by the specified number of bits (which must be non-negative). The RA means "right, arithmetic" (as opposed to RL for logical)
iShiftRL# :: Int# -> Int# -> Int# Source #
Shift the argument right (unsigned) by the specified number of bits (which must be non-negative). The RL means "right, logical" (as opposed to RA for arithmetic)
isTrue# :: Int# -> Bool Source #
Alias for tagToEnum#
. Returns True if its parameter is 1# and False
if it is 0#.
Compat wrapper
atomicModifyMutVar# :: MutVar# s a -> (a -> b) -> State# s -> (# State# s, c #) Source #
An implementation of the old atomicModifyMutVar#
primop in
terms of the new atomicModifyMutVar2#
primop, for backwards
compatibility. The type of this function is a bit bogus. It's
best to think of it as having type
atomicModifyMutVar# :: MutVar# s a -> (a -> (a, b)) -> State# s -> ( s, b #)
but there may be code that uses this with other two-field record types.
Resize functions
Resizing arrays of boxed elements is currently handled in library space (rather than being a primop) since there is not an efficient way to grow arrays. However, resize operations may become primops in a future release of GHC.
resizeSmallMutableArray# Source #
:: SmallMutableArray# s a | Array to resize |
-> Int# | New size of array |
-> a | Newly created slots initialized to this element. Only used when array is grown. |
-> State# s | |
-> (# State# s, SmallMutableArray# s a #) |
Resize a mutable array to new specified size. The returned
SmallMutableArray#
is either the original SmallMutableArray#
resized in-place or, if not possible, a newly allocated
SmallMutableArray#
with the original content copied over.
To avoid undefined behaviour, the original SmallMutableArray#
shall
not be accessed anymore after a resizeSmallMutableArray#
has been
performed. Moreover, no reference to the old one should be kept in order
to allow garbage collection of the original SmallMutableArray#
in
case a new SmallMutableArray#
had to be allocated.
Since: base-4.14.0.0
Fusion
Overloaded string literals
class IsString a where Source #
Class for string-like datastructures; used by the overloaded string extension (-XOverloadedStrings in GHC).
fromString :: String -> a Source #
Instances
a ~ Char => IsString [a] Source # |
Since: base-2.1 |
Defined in Data.String fromString :: String -> [a] Source # | |
IsString a => IsString (Identity a) Source # | Since: base-4.9.0.0 |
Defined in Data.String fromString :: String -> Identity a Source # | |
IsString a => IsString (Const a b) Source # | Since: base-4.9.0.0 |
Defined in Data.String fromString :: String -> Const a b Source # |
Debugging
breakpoint :: a -> a Source #
breakpointCond :: Bool -> a -> a Source #
Ids with special behaviour
The lazy
function restrains strictness analysis a little. The
call lazy e
means the same as e
, but lazy
has a magical
property so far as strictness analysis is concerned: it is lazy in
its first argument, even though its semantics is strict. After
strictness analysis has run, calls to lazy
are inlined to be the
identity function.
This behaviour is occasionally useful when controlling evaluation
order. Notably, lazy
is used in the library definition of
par
:
par :: a -> b -> b par x y = case (par# x) of _ -> lazy y
If lazy
were not lazy, par
would look strict in
y
which would defeat the whole purpose of par
.
Like seq
, the argument of lazy
can have an unboxed type.
The call inline f
arranges that f
is inlined, regardless of
its size. More precisely, the call inline f
rewrites to the
right-hand side of f
's definition. This allows the programmer to
control inlining from a particular call site rather than the
definition site of the function (c.f. INLINE
pragmas).
This inlining occurs regardless of the argument to the call or the
size of f
's definition; it is unconditional. The main caveat is
that f
's definition must be visible to the compiler; it is
therefore recommended to mark the function with an INLINABLE
pragma at its definition so that GHC guarantees to record its
unfolding regardless of size.
If no inlining takes place, the inline
function expands to the
identity function in Phase zero, so its use imposes no overhead.
oneShot :: forall (q :: RuntimeRep) (r :: RuntimeRep) (a :: TYPE q) (b :: TYPE r). (a -> b) -> a -> b Source #
The oneShot
function can be used to give a hint to the compiler that its
argument will be called at most once, which may (or may not) enable certain
optimizations. It can be useful to improve the performance of code in continuation
passing style.
If oneShot
is used wrongly, then it may be that computations whose result
that would otherwise be shared are re-evaluated every time they are used. Otherwise,
the use of oneShot
is safe.
oneShot
is representation polymorphic: the type variables may refer to lifted
or unlifted types.
Running RealWorld
state thread
Safe coercions
These are available from the Trustworthy module Data.Coerce as well
Since: base-4.7.0.0
coerce :: forall (k :: RuntimeRep) (a :: TYPE k) (b :: TYPE k). Coercible a b => a -> b Source #
The function coerce
allows you to safely convert between values of
types that have the same representation with no run-time overhead. In the
simplest case you can use it instead of a newtype constructor, to go from
the newtype's concrete type to the abstract type. But it also works in
more complicated settings, e.g. converting a list of newtypes to a list of
concrete types.
This function is runtime-representation polymorphic, but the
RuntimeRep
type argument is marked as Inferred
, meaning
that it is not available for visible type application. This means
the typechecker will accept coerce @Int @Age 42
.
class a ~R# b => Coercible (a :: k) (b :: k) Source #
Coercible
is a two-parameter class that has instances for types a
and b
if
the compiler can infer that they have the same representation. This class
does not have regular instances; instead they are created on-the-fly during
type-checking. Trying to manually declare an instance of Coercible
is an error.
Nevertheless one can pretend that the following three kinds of instances exist. First, as a trivial base-case:
instance Coercible a a
Furthermore, for every type constructor there is
an instance that allows to coerce under the type constructor. For
example, let D
be a prototypical type constructor (data
or
newtype
) with three type arguments, which have roles nominal
,
representational
resp. phantom
. Then there is an instance of
the form
instance Coercible b b' => Coercible (D a b c) (D a b' c')
Note that the nominal
type arguments are equal, the
representational
type arguments can differ, but need to have a
Coercible
instance themself, and the phantom
type arguments can be
changed arbitrarily.
The third kind of instance exists for every newtype NT = MkNT T
and
comes in two variants, namely
instance Coercible a T => Coercible a NT
instance Coercible T b => Coercible NT b
This instance is only usable if the constructor MkNT
is in scope.
If, as a library author of a type constructor like Set a
, you
want to prevent a user of your module to write
coerce :: Set T -> Set NT
,
you need to set the role of Set
's type parameter to nominal
,
by writing
type role Set nominal
For more details about this feature, please refer to Safe Coercions by Joachim Breitner, Richard A. Eisenberg, Simon Peyton Jones and Stephanie Weirich.
Since: ghc-prim-4.7.0.0
Equality
class a ~# b => (a :: k0) ~~ (b :: k1) Source #
Lifted, heterogeneous equality. By lifted, we mean that it
can be bogus (deferred type error). By heterogeneous, the two
types a
and b
might have different kinds. Because ~~
can
appear unexpectedly in error messages to users who do not care
about the difference between heterogeneous equality ~~
and
homogeneous equality ~
, this is printed as ~
unless
-fprint-equality-relations
is set.
Representation polymorphism
data TYPE (a :: RuntimeRep) Source #
Instances
Functor f => Generic1 (f :.: g :: k -> Type) Source # | Since: base-4.9.0.0 |
Functor f => Generic1 (Compose f g :: k -> Type) Source # | Since: base-4.9.0.0 |
Monad (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Monad (Proxy :: Type -> Type) Source # | Since: base-4.7.0.0 |
Functor (V1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (Proxy :: Type -> Type) Source # | Since: base-4.7.0.0 |
Applicative (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Applicative (Proxy :: Type -> Type) Source # | Since: base-4.7.0.0 |
Foldable (V1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => V1 m -> m Source # foldMap :: Monoid m => (a -> m) -> V1 a -> m Source # foldMap' :: Monoid m => (a -> m) -> V1 a -> m Source # foldr :: (a -> b -> b) -> b -> V1 a -> b Source # foldr' :: (a -> b -> b) -> b -> V1 a -> b Source # foldl :: (b -> a -> b) -> b -> V1 a -> b Source # foldl' :: (b -> a -> b) -> b -> V1 a -> b Source # foldr1 :: (a -> a -> a) -> V1 a -> a Source # foldl1 :: (a -> a -> a) -> V1 a -> a Source # toList :: V1 a -> [a] Source # length :: V1 a -> Int Source # elem :: Eq a => a -> V1 a -> Bool Source # maximum :: Ord a => V1 a -> a Source # minimum :: Ord a => V1 a -> a Source # | |
Foldable (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => U1 m -> m Source # foldMap :: Monoid m => (a -> m) -> U1 a -> m Source # foldMap' :: Monoid m => (a -> m) -> U1 a -> m Source # foldr :: (a -> b -> b) -> b -> U1 a -> b Source # foldr' :: (a -> b -> b) -> b -> U1 a -> b Source # foldl :: (b -> a -> b) -> b -> U1 a -> b Source # foldl' :: (b -> a -> b) -> b -> U1 a -> b Source # foldr1 :: (a -> a -> a) -> U1 a -> a Source # foldl1 :: (a -> a -> a) -> U1 a -> a Source # toList :: U1 a -> [a] Source # length :: U1 a -> Int Source # elem :: Eq a => a -> U1 a -> Bool Source # maximum :: Ord a => U1 a -> a Source # minimum :: Ord a => U1 a -> a Source # | |
Foldable (UAddr :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UAddr m -> m Source # foldMap :: Monoid m => (a -> m) -> UAddr a -> m Source # foldMap' :: Monoid m => (a -> m) -> UAddr a -> m Source # foldr :: (a -> b -> b) -> b -> UAddr a -> b Source # foldr' :: (a -> b -> b) -> b -> UAddr a -> b Source # foldl :: (b -> a -> b) -> b -> UAddr a -> b Source # foldl' :: (b -> a -> b) -> b -> UAddr a -> b Source # foldr1 :: (a -> a -> a) -> UAddr a -> a Source # foldl1 :: (a -> a -> a) -> UAddr a -> a Source # toList :: UAddr a -> [a] Source # null :: UAddr a -> Bool Source # length :: UAddr a -> Int Source # elem :: Eq a => a -> UAddr a -> Bool Source # maximum :: Ord a => UAddr a -> a Source # minimum :: Ord a => UAddr a -> a Source # | |
Foldable (UChar :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UChar m -> m Source # foldMap :: Monoid m => (a -> m) -> UChar a -> m Source # foldMap' :: Monoid m => (a -> m) -> UChar a -> m Source # foldr :: (a -> b -> b) -> b -> UChar a -> b Source # foldr' :: (a -> b -> b) -> b -> UChar a -> b Source # foldl :: (b -> a -> b) -> b -> UChar a -> b Source # foldl' :: (b -> a -> b) -> b -> UChar a -> b Source # foldr1 :: (a -> a -> a) -> UChar a -> a Source # foldl1 :: (a -> a -> a) -> UChar a -> a Source # toList :: UChar a -> [a] Source # null :: UChar a -> Bool Source # length :: UChar a -> Int Source # elem :: Eq a => a -> UChar a -> Bool Source # maximum :: Ord a => UChar a -> a Source # minimum :: Ord a => UChar a -> a Source # | |
Foldable (UDouble :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UDouble m -> m Source # foldMap :: Monoid m => (a -> m) -> UDouble a -> m Source # foldMap' :: Monoid m => (a -> m) -> UDouble a -> m Source # foldr :: (a -> b -> b) -> b -> UDouble a -> b Source # foldr' :: (a -> b -> b) -> b -> UDouble a -> b Source # foldl :: (b -> a -> b) -> b -> UDouble a -> b Source # foldl' :: (b -> a -> b) -> b -> UDouble a -> b Source # foldr1 :: (a -> a -> a) -> UDouble a -> a Source # foldl1 :: (a -> a -> a) -> UDouble a -> a Source # toList :: UDouble a -> [a] Source # null :: UDouble a -> Bool Source # length :: UDouble a -> Int Source # elem :: Eq a => a -> UDouble a -> Bool Source # maximum :: Ord a => UDouble a -> a Source # minimum :: Ord a => UDouble a -> a Source # | |
Foldable (UFloat :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UFloat m -> m Source # foldMap :: Monoid m => (a -> m) -> UFloat a -> m Source # foldMap' :: Monoid m => (a -> m) -> UFloat a -> m Source # foldr :: (a -> b -> b) -> b -> UFloat a -> b Source # foldr' :: (a -> b -> b) -> b -> UFloat a -> b Source # foldl :: (b -> a -> b) -> b -> UFloat a -> b Source # foldl' :: (b -> a -> b) -> b -> UFloat a -> b Source # foldr1 :: (a -> a -> a) -> UFloat a -> a Source # foldl1 :: (a -> a -> a) -> UFloat a -> a Source # toList :: UFloat a -> [a] Source # null :: UFloat a -> Bool Source # length :: UFloat a -> Int Source # elem :: Eq a => a -> UFloat a -> Bool Source # maximum :: Ord a => UFloat a -> a Source # minimum :: Ord a => UFloat a -> a Source # | |
Foldable (UInt :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UInt m -> m Source # foldMap :: Monoid m => (a -> m) -> UInt a -> m Source # foldMap' :: Monoid m => (a -> m) -> UInt a -> m Source # foldr :: (a -> b -> b) -> b -> UInt a -> b Source # foldr' :: (a -> b -> b) -> b -> UInt a -> b Source # foldl :: (b -> a -> b) -> b -> UInt a -> b Source # foldl' :: (b -> a -> b) -> b -> UInt a -> b Source # foldr1 :: (a -> a -> a) -> UInt a -> a Source # foldl1 :: (a -> a -> a) -> UInt a -> a Source # toList :: UInt a -> [a] Source # null :: UInt a -> Bool Source # length :: UInt a -> Int Source # elem :: Eq a => a -> UInt a -> Bool Source # maximum :: Ord a => UInt a -> a Source # minimum :: Ord a => UInt a -> a Source # | |
Foldable (UWord :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => UWord m -> m Source # foldMap :: Monoid m => (a -> m) -> UWord a -> m Source # foldMap' :: Monoid m => (a -> m) -> UWord a -> m Source # foldr :: (a -> b -> b) -> b -> UWord a -> b Source # foldr' :: (a -> b -> b) -> b -> UWord a -> b Source # foldl :: (b -> a -> b) -> b -> UWord a -> b Source # foldl' :: (b -> a -> b) -> b -> UWord a -> b Source # foldr1 :: (a -> a -> a) -> UWord a -> a Source # foldl1 :: (a -> a -> a) -> UWord a -> a Source # toList :: UWord a -> [a] Source # null :: UWord a -> Bool Source # length :: UWord a -> Int Source # elem :: Eq a => a -> UWord a -> Bool Source # maximum :: Ord a => UWord a -> a Source # minimum :: Ord a => UWord a -> a Source # | |
Foldable (Proxy :: Type -> Type) Source # | Since: base-4.7.0.0 |
Defined in Data.Foldable fold :: Monoid m => Proxy m -> m Source # foldMap :: Monoid m => (a -> m) -> Proxy a -> m Source # foldMap' :: Monoid m => (a -> m) -> Proxy a -> m Source # foldr :: (a -> b -> b) -> b -> Proxy a -> b Source # foldr' :: (a -> b -> b) -> b -> Proxy a -> b Source # foldl :: (b -> a -> b) -> b -> Proxy a -> b Source # foldl' :: (b -> a -> b) -> b -> Proxy a -> b Source # foldr1 :: (a -> a -> a) -> Proxy a -> a Source # foldl1 :: (a -> a -> a) -> Proxy a -> a Source # toList :: Proxy a -> [a] Source # null :: Proxy a -> Bool Source # length :: Proxy a -> Int Source # elem :: Eq a => a -> Proxy a -> Bool Source # maximum :: Ord a => Proxy a -> a Source # minimum :: Ord a => Proxy a -> a Source # | |
Traversable (V1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (UAddr :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (UChar :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (UDouble :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
Traversable (UFloat :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (UInt :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (UWord :: Type -> Type) Source # | Since: base-4.9.0.0 |
Traversable (Proxy :: Type -> Type) Source # | Since: base-4.7.0.0 |
MonadPlus (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
MonadPlus (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Alternative (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
Alternative (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
MonadZip (U1 :: Type -> Type) Source # | Since: base-4.9.0.0 |
MonadZip (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Show2 (Const :: Type -> Type -> Type) Source # | Since: base-4.9.0.0 |
Read2 (Const :: Type -> Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes liftReadsPrec2 :: (Int -> ReadS a) -> ReadS [a] -> (Int -> ReadS b) -> ReadS [b] -> Int -> ReadS (Const a b) Source # liftReadList2 :: (Int -> ReadS a) -> ReadS [a] -> (Int -> ReadS b) -> ReadS [b] -> ReadS [Const a b] Source # liftReadPrec2 :: ReadPrec a -> ReadPrec [a] -> ReadPrec b -> ReadPrec [b] -> ReadPrec (Const a b) Source # liftReadListPrec2 :: ReadPrec a -> ReadPrec [a] -> ReadPrec b -> ReadPrec [b] -> ReadPrec [Const a b] Source # | |
Ord2 (Const :: Type -> Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
Eq2 (Const :: Type -> Type -> Type) Source # | Since: base-4.9.0.0 |
Show1 (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Read1 (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (Proxy a) Source # liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [Proxy a] Source # liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (Proxy a) Source # liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [Proxy a] Source # | |
Ord1 (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
Eq1 (Proxy :: Type -> Type) Source # | Since: base-4.9.0.0 |
Bifunctor (Const :: Type -> Type -> Type) Source # | Since: base-4.8.0.0 |
Bifoldable (Const :: Type -> Type -> Type) Source # | Since: base-4.10.0.0 |
Bitraversable (Const :: Type -> Type -> Type) Source # | Since: base-4.10.0.0 |
Defined in Data.Bitraversable bitraverse :: Applicative f => (a -> f c) -> (b -> f d) -> Const a b -> f (Const c d) Source # | |
Contravariant (V1 :: Type -> Type) Source # | |
Contravariant (U1 :: Type -> Type) Source # | |
Contravariant (Proxy :: Type -> Type) Source # | |
Generic1 [] Source # | Since: base-4.6.0.0 |
Generic1 Maybe Source # | Since: base-4.6.0.0 |
Generic1 Par1 Source # | Since: base-4.9.0.0 |
Generic1 NonEmpty Source # | Since: base-4.6.0.0 |
Generic1 Down Source # | Since: base-4.12.0.0 |
Generic1 Product Source # | Since: base-4.7.0.0 |
Generic1 Sum Source # | Since: base-4.7.0.0 |
Generic1 Dual Source # | Since: base-4.7.0.0 |
Generic1 Last Source # | Since: base-4.7.0.0 |
Generic1 First Source # | Since: base-4.7.0.0 |
Generic1 Identity Source # | Since: base-4.8.0.0 |
Generic1 ZipList Source # | Since: base-4.7.0.0 |
Generic1 Option Source # | Since: base-4.9.0.0 |
Generic1 WrappedMonoid Source # | Since: base-4.9.0.0 |
Defined in Data.Semigroup type Rep1 WrappedMonoid :: k -> Type Source # from1 :: forall (a :: k). WrappedMonoid a -> Rep1 WrappedMonoid a Source # to1 :: forall (a :: k). Rep1 WrappedMonoid a -> WrappedMonoid a Source # | |
Generic1 Last Source # | Since: base-4.9.0.0 |
Generic1 First Source # | Since: base-4.9.0.0 |
Generic1 Max Source # | Since: base-4.9.0.0 |
Generic1 Min Source # | Since: base-4.9.0.0 |
Generic1 Complex Source # | Since: base-4.9.0.0 |
Category Op Source # | |
HasResolution E12 Source # | Since: base-2.1 |
Defined in Data.Fixed resolution :: p E12 -> Integer Source # | |
HasResolution E9 Source # | Since: base-4.1.0.0 |
Defined in Data.Fixed resolution :: p E9 -> Integer Source # | |
HasResolution E6 Source # | Since: base-2.1 |
Defined in Data.Fixed resolution :: p E6 -> Integer Source # | |
HasResolution E3 Source # | Since: base-4.1.0.0 |
Defined in Data.Fixed resolution :: p E3 -> Integer Source # | |
HasResolution E2 Source # | Since: base-4.1.0.0 |
Defined in Data.Fixed resolution :: p E2 -> Integer Source # | |
HasResolution E1 Source # | Since: base-4.1.0.0 |
Defined in Data.Fixed resolution :: p E1 -> Integer Source # | |
HasResolution E0 Source # | Since: base-4.1.0.0 |
Defined in Data.Fixed resolution :: p E0 -> Integer Source # | |
Generic1 (Either a :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 ((,) a :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 (WrappedMonad m :: Type -> Type) Source # | Since: base-4.7.0.0 |
Defined in Control.Applicative type Rep1 (WrappedMonad m) :: k -> Type Source # from1 :: forall (a :: k). WrappedMonad m a -> Rep1 (WrappedMonad m) a Source # to1 :: forall (a :: k). Rep1 (WrappedMonad m) a -> WrappedMonad m a Source # | |
Generic1 (Arg a :: Type -> Type) Source # | Since: base-4.9.0.0 |
Monad m => Category (Kleisli m :: Type -> Type -> Type) Source # | Since: base-3.0 |
Generic1 ((,,) a b :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 (Kleisli m a :: Type -> Type) Source # | Since: base-4.14.0.0 |
Generic1 (WrappedArrow a b :: Type -> Type) Source # | Since: base-4.7.0.0 |
Defined in Control.Applicative type Rep1 (WrappedArrow a b) :: k -> Type Source # from1 :: forall (a0 :: k). WrappedArrow a b a0 -> Rep1 (WrappedArrow a b) a0 Source # to1 :: forall (a0 :: k). Rep1 (WrappedArrow a b) a0 -> WrappedArrow a b a0 Source # | |
Category ((->) :: Type -> Type -> Type) Source # | Since: base-3.0 |
Generic1 ((,,,) a b c :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 ((,,,,) a b c d :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 ((,,,,,) a b c d e :: Type -> Type) Source # | Since: base-4.6.0.0 |
Generic1 ((,,,,,,) a b c d e f :: Type -> Type) Source # | Since: base-4.6.0.0 |
Monad f => Monad (Rec1 f) Source # | Since: base-4.9.0.0 |
Monad f => Monad (Alt f) Source # | Since: base-4.8.0.0 |
Monad f => Monad (Ap f) Source # | Since: base-4.12.0.0 |
Data p => Data (V1 p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> V1 p -> c (V1 p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (V1 p) Source # toConstr :: V1 p -> Constr Source # dataTypeOf :: V1 p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (V1 p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (V1 p)) Source # gmapT :: (forall b. Data b => b -> b) -> V1 p -> V1 p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> V1 p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> V1 p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> V1 p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> V1 p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> V1 p -> m (V1 p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> V1 p -> m (V1 p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> V1 p -> m (V1 p) Source # | |
Data p => Data (U1 p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> U1 p -> c (U1 p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (U1 p) Source # toConstr :: U1 p -> Constr Source # dataTypeOf :: U1 p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (U1 p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (U1 p)) Source # gmapT :: (forall b. Data b => b -> b) -> U1 p -> U1 p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> U1 p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> U1 p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> U1 p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> U1 p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> U1 p -> m (U1 p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> U1 p -> m (U1 p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> U1 p -> m (U1 p) Source # | |
Data t => Data (Proxy t) Source # | Since: base-4.7.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Proxy t -> c (Proxy t) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Proxy t) Source # toConstr :: Proxy t -> Constr Source # dataTypeOf :: Proxy t -> DataType Source # dataCast1 :: Typeable t0 => (forall d. Data d => c (t0 d)) -> Maybe (c (Proxy t)) Source # dataCast2 :: Typeable t0 => (forall d e. (Data d, Data e) => c (t0 d e)) -> Maybe (c (Proxy t)) Source # gmapT :: (forall b. Data b => b -> b) -> Proxy t -> Proxy t Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Proxy t -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Proxy t -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Proxy t -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Proxy t -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Proxy t -> m (Proxy t) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Proxy t -> m (Proxy t) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Proxy t -> m (Proxy t) Source # | |
Functor f => Functor (Rec1 f) Source # | Since: base-4.9.0.0 |
Functor (URec Char :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Double :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Float :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Int :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec Word :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor (URec (Ptr ()) :: Type -> Type) Source # | Since: base-4.9.0.0 |
Functor f => Functor (Alt f) Source # | Since: base-4.8.0.0 |
Functor f => Functor (Ap f) Source # | Since: base-4.12.0.0 |
Functor (Const m :: Type -> Type) Source # | Since: base-2.1 |
MonadFix f => MonadFix (Rec1 f) Source # | Since: base-4.9.0.0 |
MonadFix f => MonadFix (Alt f) Source # | Since: base-4.8.0.0 |
MonadFix f => MonadFix (Ap f) Source # | Since: base-4.12.0.0 |
MonadFail f => MonadFail (Ap f) Source # | Since: base-4.12.0.0 |
Applicative f => Applicative (Rec1 f) Source # | Since: base-4.9.0.0 |
Applicative f => Applicative (Alt f) Source # | Since: base-4.8.0.0 |
Applicative f => Applicative (Ap f) Source # | Since: base-4.12.0.0 |
Monoid m => Applicative (Const m :: Type -> Type) Source # | Since: base-2.0.1 |
Foldable f => Foldable (Rec1 f) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => Rec1 f m -> m Source # foldMap :: Monoid m => (a -> m) -> Rec1 f a -> m Source # foldMap' :: Monoid m => (a -> m) -> Rec1 f a -> m Source # foldr :: (a -> b -> b) -> b -> Rec1 f a -> b Source # foldr' :: (a -> b -> b) -> b -> Rec1 f a -> b Source # foldl :: (b -> a -> b) -> b -> Rec1 f a -> b Source # foldl' :: (b -> a -> b) -> b -> Rec1 f a -> b Source # foldr1 :: (a -> a -> a) -> Rec1 f a -> a Source # foldl1 :: (a -> a -> a) -> Rec1 f a -> a Source # toList :: Rec1 f a -> [a] Source # null :: Rec1 f a -> Bool Source # length :: Rec1 f a -> Int Source # elem :: Eq a => a -> Rec1 f a -> Bool Source # maximum :: Ord a => Rec1 f a -> a Source # minimum :: Ord a => Rec1 f a -> a Source # | |
Foldable f => Foldable (Alt f) Source # | Since: base-4.12.0.0 |
Defined in Data.Foldable fold :: Monoid m => Alt f m -> m Source # foldMap :: Monoid m => (a -> m) -> Alt f a -> m Source # foldMap' :: Monoid m => (a -> m) -> Alt f a -> m Source # foldr :: (a -> b -> b) -> b -> Alt f a -> b Source # foldr' :: (a -> b -> b) -> b -> Alt f a -> b Source # foldl :: (b -> a -> b) -> b -> Alt f a -> b Source # foldl' :: (b -> a -> b) -> b -> Alt f a -> b Source # foldr1 :: (a -> a -> a) -> Alt f a -> a Source # foldl1 :: (a -> a -> a) -> Alt f a -> a Source # toList :: Alt f a -> [a] Source # null :: Alt f a -> Bool Source # length :: Alt f a -> Int Source # elem :: Eq a => a -> Alt f a -> Bool Source # maximum :: Ord a => Alt f a -> a Source # minimum :: Ord a => Alt f a -> a Source # | |
Foldable f => Foldable (Ap f) Source # | Since: base-4.12.0.0 |
Defined in Data.Foldable fold :: Monoid m => Ap f m -> m Source # foldMap :: Monoid m => (a -> m) -> Ap f a -> m Source # foldMap' :: Monoid m => (a -> m) -> Ap f a -> m Source # foldr :: (a -> b -> b) -> b -> Ap f a -> b Source # foldr' :: (a -> b -> b) -> b -> Ap f a -> b Source # foldl :: (b -> a -> b) -> b -> Ap f a -> b Source # foldl' :: (b -> a -> b) -> b -> Ap f a -> b Source # foldr1 :: (a -> a -> a) -> Ap f a -> a Source # foldl1 :: (a -> a -> a) -> Ap f a -> a Source # toList :: Ap f a -> [a] Source # null :: Ap f a -> Bool Source # length :: Ap f a -> Int Source # elem :: Eq a => a -> Ap f a -> Bool Source # maximum :: Ord a => Ap f a -> a Source # minimum :: Ord a => Ap f a -> a Source # | |
Foldable (Const m :: Type -> Type) Source # | Since: base-4.7.0.0 |
Defined in Data.Functor.Const fold :: Monoid m0 => Const m m0 -> m0 Source # foldMap :: Monoid m0 => (a -> m0) -> Const m a -> m0 Source # foldMap' :: Monoid m0 => (a -> m0) -> Const m a -> m0 Source # foldr :: (a -> b -> b) -> b -> Const m a -> b Source # foldr' :: (a -> b -> b) -> b -> Const m a -> b Source # foldl :: (b -> a -> b) -> b -> Const m a -> b Source # foldl' :: (b -> a -> b) -> b -> Const m a -> b Source # foldr1 :: (a -> a -> a) -> Const m a -> a Source # foldl1 :: (a -> a -> a) -> Const m a -> a Source # toList :: Const m a -> [a] Source # null :: Const m a -> Bool Source # length :: Const m a -> Int Source # elem :: Eq a => a -> Const m a -> Bool Source # maximum :: Ord a => Const m a -> a Source # minimum :: Ord a => Const m a -> a Source # | |
Traversable f => Traversable (Rec1 f) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
Traversable f => Traversable (Alt f) Source # | Since: base-4.12.0.0 |
Traversable f => Traversable (Ap f) Source # | Since: base-4.12.0.0 |
Traversable (Const m :: Type -> Type) Source # | Since: base-4.7.0.0 |
Defined in Data.Traversable | |
MonadPlus f => MonadPlus (Rec1 f) Source # | Since: base-4.9.0.0 |
MonadPlus f => MonadPlus (Alt f) Source # | Since: base-4.8.0.0 |
MonadPlus f => MonadPlus (Ap f) Source # | Since: base-4.12.0.0 |
Alternative f => Alternative (Rec1 f) Source # | Since: base-4.9.0.0 |
Alternative f => Alternative (Alt f) Source # | Since: base-4.8.0.0 |
Alternative f => Alternative (Ap f) Source # | Since: base-4.12.0.0 |
MonadZip f => MonadZip (Rec1 f) Source # | Since: base-4.9.0.0 |
MonadZip f => MonadZip (Alt f) Source # | Since: base-4.8.0.0 |
Show a => Show1 (Const a :: Type -> Type) Source # | Since: base-4.9.0.0 |
Read a => Read1 (Const a :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes liftReadsPrec :: (Int -> ReadS a0) -> ReadS [a0] -> Int -> ReadS (Const a a0) Source # liftReadList :: (Int -> ReadS a0) -> ReadS [a0] -> ReadS [Const a a0] Source # liftReadPrec :: ReadPrec a0 -> ReadPrec [a0] -> ReadPrec (Const a a0) Source # liftReadListPrec :: ReadPrec a0 -> ReadPrec [a0] -> ReadPrec [Const a a0] Source # | |
Ord a => Ord1 (Const a :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Classes | |
Eq a => Eq1 (Const a :: Type -> Type) Source # | Since: base-4.9.0.0 |
Bifunctor (K1 i :: Type -> Type -> Type) Source # | Since: base-4.9.0.0 |
Bifoldable (K1 i :: Type -> Type -> Type) Source # | Since: base-4.10.0.0 |
Bitraversable (K1 i :: Type -> Type -> Type) Source # | Since: base-4.10.0.0 |
Defined in Data.Bitraversable bitraverse :: Applicative f => (a -> f c) -> (b -> f d) -> K1 i a b -> f (K1 i c d) Source # | |
Contravariant f => Contravariant (Rec1 f) Source # | |
Contravariant f => Contravariant (Alt f) Source # | |
Contravariant (Const a :: Type -> Type) Source # | |
(Applicative f, Bounded a) => Bounded (Ap f a) Source # | Since: base-4.12.0.0 |
(Monad f, Monad g) => Monad (f :*: g) Source # | Since: base-4.9.0.0 |
(Monad f, Monad g) => Monad (Product f g) Source # | Since: base-4.9.0.0 |
(Data (f p), Typeable f, Data p) => Data (Rec1 f p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Rec1 f p -> c (Rec1 f p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Rec1 f p) Source # toConstr :: Rec1 f p -> Constr Source # dataTypeOf :: Rec1 f p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Rec1 f p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Rec1 f p)) Source # gmapT :: (forall b. Data b => b -> b) -> Rec1 f p -> Rec1 f p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Rec1 f p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Rec1 f p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Rec1 f p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Rec1 f p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Rec1 f p -> m (Rec1 f p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Rec1 f p -> m (Rec1 f p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Rec1 f p -> m (Rec1 f p) Source # | |
(a ~ b, Data a) => Data (a :~: b) Source # | Since: base-4.7.0.0 |
Defined in Data.Data gfoldl :: (forall d b0. Data d => c (d -> b0) -> d -> c b0) -> (forall g. g -> c g) -> (a :~: b) -> c (a :~: b) Source # gunfold :: (forall b0 r. Data b0 => c (b0 -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (a :~: b) Source # toConstr :: (a :~: b) -> Constr Source # dataTypeOf :: (a :~: b) -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (a :~: b)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (a :~: b)) Source # gmapT :: (forall b0. Data b0 => b0 -> b0) -> (a :~: b) -> a :~: b Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> (a :~: b) -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> (a :~: b) -> r Source # gmapQ :: (forall d. Data d => d -> u) -> (a :~: b) -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> (a :~: b) -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> (a :~: b) -> m (a :~: b) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> (a :~: b) -> m (a :~: b) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> (a :~: b) -> m (a :~: b) Source # | |
(Coercible a b, Data a, Data b) => Data (Coercion a b) Source # | Since: base-4.7.0.0 |
Defined in Data.Data gfoldl :: (forall d b0. Data d => c (d -> b0) -> d -> c b0) -> (forall g. g -> c g) -> Coercion a b -> c (Coercion a b) Source # gunfold :: (forall b0 r. Data b0 => c (b0 -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Coercion a b) Source # toConstr :: Coercion a b -> Constr Source # dataTypeOf :: Coercion a b -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Coercion a b)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Coercion a b)) Source # gmapT :: (forall b0. Data b0 => b0 -> b0) -> Coercion a b -> Coercion a b Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Coercion a b -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Coercion a b -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Coercion a b -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Coercion a b -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Coercion a b -> m (Coercion a b) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Coercion a b -> m (Coercion a b) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Coercion a b -> m (Coercion a b) Source # | |
(Data (f a), Data a, Typeable f) => Data (Alt f a) Source # | Since: base-4.8.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Alt f a -> c (Alt f a) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Alt f a) Source # toConstr :: Alt f a -> Constr Source # dataTypeOf :: Alt f a -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Alt f a)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Alt f a)) Source # gmapT :: (forall b. Data b => b -> b) -> Alt f a -> Alt f a Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Alt f a -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Alt f a -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Alt f a -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Alt f a -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Alt f a -> m (Alt f a) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Alt f a -> m (Alt f a) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Alt f a -> m (Alt f a) Source # | |
(Data (f a), Data a, Typeable f) => Data (Ap f a) Source # | Since: base-4.12.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Ap f a -> c (Ap f a) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Ap f a) Source # toConstr :: Ap f a -> Constr Source # dataTypeOf :: Ap f a -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Ap f a)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Ap f a)) Source # gmapT :: (forall b. Data b => b -> b) -> Ap f a -> Ap f a Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Ap f a -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Ap f a -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Ap f a -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Ap f a -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Ap f a -> m (Ap f a) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Ap f a -> m (Ap f a) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Ap f a -> m (Ap f a) Source # | |
Functor (K1 i c :: Type -> Type) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (f :+: g) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (f :*: g) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (Sum f g) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (Product f g) Source # | Since: base-4.9.0.0 |
(Applicative f, Num a) => Num (Ap f a) Source # | Since: base-4.12.0.0 |
(MonadFix f, MonadFix g) => MonadFix (f :*: g) Source # | Since: base-4.9.0.0 |
(MonadFix f, MonadFix g) => MonadFix (Product f g) Source # | Since: base-4.9.0.0 |
IsString a => IsString (Const a b) Source # | Since: base-4.9.0.0 |
Defined in Data.String fromString :: String -> Const a b Source # | |
Monoid c => Applicative (K1 i c :: Type -> Type) Source # | Since: base-4.12.0.0 |
(Applicative f, Applicative g) => Applicative (f :*: g) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
(Applicative f, Applicative g) => Applicative (Product f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product pure :: a -> Product f g a Source # (<*>) :: Product f g (a -> b) -> Product f g a -> Product f g b Source # liftA2 :: (a -> b -> c) -> Product f g a -> Product f g b -> Product f g c Source # (*>) :: Product f g a -> Product f g b -> Product f g b Source # (<*) :: Product f g a -> Product f g b -> Product f g a Source # | |
Foldable (K1 i c :: Type -> Type) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => K1 i c m -> m Source # foldMap :: Monoid m => (a -> m) -> K1 i c a -> m Source # foldMap' :: Monoid m => (a -> m) -> K1 i c a -> m Source # foldr :: (a -> b -> b) -> b -> K1 i c a -> b Source # foldr' :: (a -> b -> b) -> b -> K1 i c a -> b Source # foldl :: (b -> a -> b) -> b -> K1 i c a -> b Source # foldl' :: (b -> a -> b) -> b -> K1 i c a -> b Source # foldr1 :: (a -> a -> a) -> K1 i c a -> a Source # foldl1 :: (a -> a -> a) -> K1 i c a -> a Source # toList :: K1 i c a -> [a] Source # null :: K1 i c a -> Bool Source # length :: K1 i c a -> Int Source # elem :: Eq a => a -> K1 i c a -> Bool Source # maximum :: Ord a => K1 i c a -> a Source # minimum :: Ord a => K1 i c a -> a Source # | |
(Foldable f, Foldable g) => Foldable (f :+: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => (f :+: g) m -> m Source # foldMap :: Monoid m => (a -> m) -> (f :+: g) a -> m Source # foldMap' :: Monoid m => (a -> m) -> (f :+: g) a -> m Source # foldr :: (a -> b -> b) -> b -> (f :+: g) a -> b Source # foldr' :: (a -> b -> b) -> b -> (f :+: g) a -> b Source # foldl :: (b -> a -> b) -> b -> (f :+: g) a -> b Source # foldl' :: (b -> a -> b) -> b -> (f :+: g) a -> b Source # foldr1 :: (a -> a -> a) -> (f :+: g) a -> a Source # foldl1 :: (a -> a -> a) -> (f :+: g) a -> a Source # toList :: (f :+: g) a -> [a] Source # null :: (f :+: g) a -> Bool Source # length :: (f :+: g) a -> Int Source # elem :: Eq a => a -> (f :+: g) a -> Bool Source # maximum :: Ord a => (f :+: g) a -> a Source # minimum :: Ord a => (f :+: g) a -> a Source # | |
(Foldable f, Foldable g) => Foldable (f :*: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => (f :*: g) m -> m Source # foldMap :: Monoid m => (a -> m) -> (f :*: g) a -> m Source # foldMap' :: Monoid m => (a -> m) -> (f :*: g) a -> m Source # foldr :: (a -> b -> b) -> b -> (f :*: g) a -> b Source # foldr' :: (a -> b -> b) -> b -> (f :*: g) a -> b Source # foldl :: (b -> a -> b) -> b -> (f :*: g) a -> b Source # foldl' :: (b -> a -> b) -> b -> (f :*: g) a -> b Source # foldr1 :: (a -> a -> a) -> (f :*: g) a -> a Source # foldl1 :: (a -> a -> a) -> (f :*: g) a -> a Source # toList :: (f :*: g) a -> [a] Source # null :: (f :*: g) a -> Bool Source # length :: (f :*: g) a -> Int Source # elem :: Eq a => a -> (f :*: g) a -> Bool Source # maximum :: Ord a => (f :*: g) a -> a Source # minimum :: Ord a => (f :*: g) a -> a Source # | |
(Foldable f, Foldable g) => Foldable (Sum f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum fold :: Monoid m => Sum f g m -> m Source # foldMap :: Monoid m => (a -> m) -> Sum f g a -> m Source # foldMap' :: Monoid m => (a -> m) -> Sum f g a -> m Source # foldr :: (a -> b -> b) -> b -> Sum f g a -> b Source # foldr' :: (a -> b -> b) -> b -> Sum f g a -> b Source # foldl :: (b -> a -> b) -> b -> Sum f g a -> b Source # foldl' :: (b -> a -> b) -> b -> Sum f g a -> b Source # foldr1 :: (a -> a -> a) -> Sum f g a -> a Source # foldl1 :: (a -> a -> a) -> Sum f g a -> a Source # toList :: Sum f g a -> [a] Source # null :: Sum f g a -> Bool Source # length :: Sum f g a -> Int Source # elem :: Eq a => a -> Sum f g a -> Bool Source # maximum :: Ord a => Sum f g a -> a Source # minimum :: Ord a => Sum f g a -> a Source # | |
(Foldable f, Foldable g) => Foldable (Product f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product fold :: Monoid m => Product f g m -> m Source # foldMap :: Monoid m => (a -> m) -> Product f g a -> m Source # foldMap' :: Monoid m => (a -> m) -> Product f g a -> m Source # foldr :: (a -> b -> b) -> b -> Product f g a -> b Source # foldr' :: (a -> b -> b) -> b -> Product f g a -> b Source # foldl :: (b -> a -> b) -> b -> Product f g a -> b Source # foldl' :: (b -> a -> b) -> b -> Product f g a -> b Source # foldr1 :: (a -> a -> a) -> Product f g a -> a Source # foldl1 :: (a -> a -> a) -> Product f g a -> a Source # toList :: Product f g a -> [a] Source # null :: Product f g a -> Bool Source # length :: Product f g a -> Int Source # elem :: Eq a => a -> Product f g a -> Bool Source # maximum :: Ord a => Product f g a -> a Source # minimum :: Ord a => Product f g a -> a Source # | |
Traversable (K1 i c :: Type -> Type) Source # | Since: base-4.9.0.0 |
(Traversable f, Traversable g) => Traversable (f :+: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
(Traversable f, Traversable g) => Traversable (f :*: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
(Traversable f, Traversable g) => Traversable (Sum f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum | |
(Traversable f, Traversable g) => Traversable (Product f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product traverse :: Applicative f0 => (a -> f0 b) -> Product f g a -> f0 (Product f g b) Source # sequenceA :: Applicative f0 => Product f g (f0 a) -> f0 (Product f g a) Source # mapM :: Monad m => (a -> m b) -> Product f g a -> m (Product f g b) Source # sequence :: Monad m => Product f g (m a) -> m (Product f g a) Source # | |
Alternative f => Semigroup (Alt f a) Source # | Since: base-4.9.0.0 |
(Applicative f, Semigroup a) => Semigroup (Ap f a) Source # | Since: base-4.12.0.0 |
Alternative f => Monoid (Alt f a) Source # | Since: base-4.8.0.0 |
(Applicative f, Monoid a) => Monoid (Ap f a) Source # | Since: base-4.12.0.0 |
(MonadPlus f, MonadPlus g) => MonadPlus (f :*: g) Source # | Since: base-4.9.0.0 |
(MonadPlus f, MonadPlus g) => MonadPlus (Product f g) Source # | Since: base-4.9.0.0 |
(Alternative f, Alternative g) => Alternative (f :*: g) Source # | Since: base-4.9.0.0 |
(Alternative f, Alternative g) => Alternative (Product f g) Source # | Since: base-4.9.0.0 |
(MonadZip f, MonadZip g) => MonadZip (f :*: g) Source # | Since: base-4.9.0.0 |
(MonadZip f, MonadZip g) => MonadZip (Product f g) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g) => Show1 (Sum f g) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g) => Show1 (Product f g) Source # | Since: base-4.9.0.0 |
(Read1 f, Read1 g) => Read1 (Sum f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (Sum f g a) Source # liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [Sum f g a] Source # liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (Sum f g a) Source # liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [Sum f g a] Source # | |
(Read1 f, Read1 g) => Read1 (Product f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (Product f g a) Source # liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [Product f g a] Source # liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (Product f g a) Source # liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [Product f g a] Source # | |
(Ord1 f, Ord1 g) => Ord1 (Sum f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum | |
(Ord1 f, Ord1 g) => Ord1 (Product f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product | |
(Eq1 f, Eq1 g) => Eq1 (Sum f g) Source # | Since: base-4.9.0.0 |
(Eq1 f, Eq1 g) => Eq1 (Product f g) Source # | Since: base-4.9.0.0 |
Contravariant (K1 i c :: Type -> Type) Source # | |
(Contravariant f, Contravariant g) => Contravariant (f :+: g) Source # | |
(Contravariant f, Contravariant g) => Contravariant (f :*: g) Source # | |
(Contravariant f, Contravariant g) => Contravariant (Sum f g) Source # | |
(Contravariant f, Contravariant g) => Contravariant (Product f g) Source # | |
(Eq1 f, Eq1 g, Eq a) => Eq (Sum f g a) Source # | Since: base-4.9.0.0 |
(Eq1 f, Eq1 g, Eq a) => Eq (Product f g a) Source # | Since: base-4.9.0.0 |
Monad f => Monad (M1 i c f) Source # | Since: base-4.9.0.0 |
(Typeable i, Data p, Data c) => Data (K1 i c p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c0 (d -> b) -> d -> c0 b) -> (forall g. g -> c0 g) -> K1 i c p -> c0 (K1 i c p) Source # gunfold :: (forall b r. Data b => c0 (b -> r) -> c0 r) -> (forall r. r -> c0 r) -> Constr -> c0 (K1 i c p) Source # toConstr :: K1 i c p -> Constr Source # dataTypeOf :: K1 i c p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c0 (t d)) -> Maybe (c0 (K1 i c p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c0 (t d e)) -> Maybe (c0 (K1 i c p)) Source # gmapT :: (forall b. Data b => b -> b) -> K1 i c p -> K1 i c p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> K1 i c p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> K1 i c p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> K1 i c p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> K1 i c p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> K1 i c p -> m (K1 i c p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> K1 i c p -> m (K1 i c p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> K1 i c p -> m (K1 i c p) Source # | |
(Typeable f, Typeable g, Data p, Data (f p), Data (g p)) => Data ((f :+: g) p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g0. g0 -> c g0) -> (f :+: g) p -> c ((f :+: g) p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c ((f :+: g) p) Source # toConstr :: (f :+: g) p -> Constr Source # dataTypeOf :: (f :+: g) p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c ((f :+: g) p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c ((f :+: g) p)) Source # gmapT :: (forall b. Data b => b -> b) -> (f :+: g) p -> (f :+: g) p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> (f :+: g) p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> (f :+: g) p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> (f :+: g) p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> (f :+: g) p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> (f :+: g) p -> m ((f :+: g) p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :+: g) p -> m ((f :+: g) p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :+: g) p -> m ((f :+: g) p) Source # | |
(Typeable f, Typeable g, Data p, Data (f p), Data (g p)) => Data ((f :*: g) p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g0. g0 -> c g0) -> (f :*: g) p -> c ((f :*: g) p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c ((f :*: g) p) Source # toConstr :: (f :*: g) p -> Constr Source # dataTypeOf :: (f :*: g) p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c ((f :*: g) p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c ((f :*: g) p)) Source # gmapT :: (forall b. Data b => b -> b) -> (f :*: g) p -> (f :*: g) p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> (f :*: g) p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> (f :*: g) p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> (f :*: g) p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> (f :*: g) p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> (f :*: g) p -> m ((f :*: g) p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :*: g) p -> m ((f :*: g) p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :*: g) p -> m ((f :*: g) p) Source # | |
Functor f => Functor (M1 i c f) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (f :.: g) Source # | Since: base-4.9.0.0 |
(Functor f, Functor g) => Functor (Compose f g) Source # | Since: base-4.9.0.0 |
(Ord1 f, Ord1 g, Ord a) => Ord (Sum f g a) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Sum | |
(Ord1 f, Ord1 g, Ord a) => Ord (Product f g a) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Product compare :: Product f g a -> Product f g a -> Ordering Source # (<) :: Product f g a -> Product f g a -> Bool Source # (<=) :: Product f g a -> Product f g a -> Bool Source # (>) :: Product f g a -> Product f g a -> Bool Source # (>=) :: Product f g a -> Product f g a -> Bool Source # max :: Product f g a -> Product f g a -> Product f g a Source # min :: Product f g a -> Product f g a -> Product f g a Source # | |
(Read1 f, Read1 g, Read a) => Read (Sum f g a) Source # | Since: base-4.9.0.0 |
(Read1 f, Read1 g, Read a) => Read (Product f g a) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g, Show a) => Show (Sum f g a) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g, Show a) => Show (Product f g a) Source # | Since: base-4.9.0.0 |
MonadFix f => MonadFix (M1 i c f) Source # | Since: base-4.9.0.0 |
Applicative f => Applicative (M1 i c f) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
(Applicative f, Applicative g) => Applicative (f :.: g) Source # | Since: base-4.9.0.0 |
Defined in GHC.Generics | |
(Applicative f, Applicative g) => Applicative (Compose f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose pure :: a -> Compose f g a Source # (<*>) :: Compose f g (a -> b) -> Compose f g a -> Compose f g b Source # liftA2 :: (a -> b -> c) -> Compose f g a -> Compose f g b -> Compose f g c Source # (*>) :: Compose f g a -> Compose f g b -> Compose f g b Source # (<*) :: Compose f g a -> Compose f g b -> Compose f g a Source # | |
Foldable f => Foldable (M1 i c f) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => M1 i c f m -> m Source # foldMap :: Monoid m => (a -> m) -> M1 i c f a -> m Source # foldMap' :: Monoid m => (a -> m) -> M1 i c f a -> m Source # foldr :: (a -> b -> b) -> b -> M1 i c f a -> b Source # foldr' :: (a -> b -> b) -> b -> M1 i c f a -> b Source # foldl :: (b -> a -> b) -> b -> M1 i c f a -> b Source # foldl' :: (b -> a -> b) -> b -> M1 i c f a -> b Source # foldr1 :: (a -> a -> a) -> M1 i c f a -> a Source # foldl1 :: (a -> a -> a) -> M1 i c f a -> a Source # toList :: M1 i c f a -> [a] Source # null :: M1 i c f a -> Bool Source # length :: M1 i c f a -> Int Source # elem :: Eq a => a -> M1 i c f a -> Bool Source # maximum :: Ord a => M1 i c f a -> a Source # minimum :: Ord a => M1 i c f a -> a Source # | |
(Foldable f, Foldable g) => Foldable (f :.: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Foldable fold :: Monoid m => (f :.: g) m -> m Source # foldMap :: Monoid m => (a -> m) -> (f :.: g) a -> m Source # foldMap' :: Monoid m => (a -> m) -> (f :.: g) a -> m Source # foldr :: (a -> b -> b) -> b -> (f :.: g) a -> b Source # foldr' :: (a -> b -> b) -> b -> (f :.: g) a -> b Source # foldl :: (b -> a -> b) -> b -> (f :.: g) a -> b Source # foldl' :: (b -> a -> b) -> b -> (f :.: g) a -> b Source # foldr1 :: (a -> a -> a) -> (f :.: g) a -> a Source # foldl1 :: (a -> a -> a) -> (f :.: g) a -> a Source # toList :: (f :.: g) a -> [a] Source # null :: (f :.: g) a -> Bool Source # length :: (f :.: g) a -> Int Source # elem :: Eq a => a -> (f :.: g) a -> Bool Source # maximum :: Ord a => (f :.: g) a -> a Source # minimum :: Ord a => (f :.: g) a -> a Source # | |
(Foldable f, Foldable g) => Foldable (Compose f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose fold :: Monoid m => Compose f g m -> m Source # foldMap :: Monoid m => (a -> m) -> Compose f g a -> m Source # foldMap' :: Monoid m => (a -> m) -> Compose f g a -> m Source # foldr :: (a -> b -> b) -> b -> Compose f g a -> b Source # foldr' :: (a -> b -> b) -> b -> Compose f g a -> b Source # foldl :: (b -> a -> b) -> b -> Compose f g a -> b Source # foldl' :: (b -> a -> b) -> b -> Compose f g a -> b Source # foldr1 :: (a -> a -> a) -> Compose f g a -> a Source # foldl1 :: (a -> a -> a) -> Compose f g a -> a Source # toList :: Compose f g a -> [a] Source # null :: Compose f g a -> Bool Source # length :: Compose f g a -> Int Source # elem :: Eq a => a -> Compose f g a -> Bool Source # maximum :: Ord a => Compose f g a -> a Source # minimum :: Ord a => Compose f g a -> a Source # | |
Traversable f => Traversable (M1 i c f) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
(Traversable f, Traversable g) => Traversable (f :.: g) Source # | Since: base-4.9.0.0 |
Defined in Data.Traversable | |
(Traversable f, Traversable g) => Traversable (Compose f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose traverse :: Applicative f0 => (a -> f0 b) -> Compose f g a -> f0 (Compose f g b) Source # sequenceA :: Applicative f0 => Compose f g (f0 a) -> f0 (Compose f g a) Source # mapM :: Monad m => (a -> m b) -> Compose f g a -> m (Compose f g b) Source # sequence :: Monad m => Compose f g (m a) -> m (Compose f g a) Source # | |
MonadPlus f => MonadPlus (M1 i c f) Source # | Since: base-4.9.0.0 |
Alternative f => Alternative (M1 i c f) Source # | Since: base-4.9.0.0 |
(Alternative f, Applicative g) => Alternative (f :.: g) Source # | Since: base-4.9.0.0 |
(Alternative f, Applicative g) => Alternative (Compose f g) Source # | Since: base-4.9.0.0 |
MonadZip f => MonadZip (M1 i c f) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g) => Show1 (Compose f g) Source # | Since: base-4.9.0.0 |
(Read1 f, Read1 g) => Read1 (Compose f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (Compose f g a) Source # liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [Compose f g a] Source # liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (Compose f g a) Source # liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [Compose f g a] Source # | |
(Ord1 f, Ord1 g) => Ord1 (Compose f g) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose | |
(Eq1 f, Eq1 g) => Eq1 (Compose f g) Source # | Since: base-4.9.0.0 |
Contravariant f => Contravariant (M1 i c f) Source # | |
(Functor f, Contravariant g) => Contravariant (f :.: g) Source # | |
(Functor f, Contravariant g) => Contravariant (Compose f g) Source # | |
(Eq1 f, Eq1 g, Eq a) => Eq (Compose f g a) Source # | Since: base-4.9.0.0 |
(Data p, Data (f p), Typeable c, Typeable i, Typeable f) => Data (M1 i c f p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c0 (d -> b) -> d -> c0 b) -> (forall g. g -> c0 g) -> M1 i c f p -> c0 (M1 i c f p) Source # gunfold :: (forall b r. Data b => c0 (b -> r) -> c0 r) -> (forall r. r -> c0 r) -> Constr -> c0 (M1 i c f p) Source # toConstr :: M1 i c f p -> Constr Source # dataTypeOf :: M1 i c f p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c0 (t d)) -> Maybe (c0 (M1 i c f p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c0 (t d e)) -> Maybe (c0 (M1 i c f p)) Source # gmapT :: (forall b. Data b => b -> b) -> M1 i c f p -> M1 i c f p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> M1 i c f p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> M1 i c f p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> M1 i c f p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> M1 i c f p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> M1 i c f p -> m (M1 i c f p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> M1 i c f p -> m (M1 i c f p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> M1 i c f p -> m (M1 i c f p) Source # | |
(Typeable f, Typeable g, Data p, Data (f (g p))) => Data ((f :.: g) p) Source # | Since: base-4.9.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g0. g0 -> c g0) -> (f :.: g) p -> c ((f :.: g) p) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c ((f :.: g) p) Source # toConstr :: (f :.: g) p -> Constr Source # dataTypeOf :: (f :.: g) p -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c ((f :.: g) p)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c ((f :.: g) p)) Source # gmapT :: (forall b. Data b => b -> b) -> (f :.: g) p -> (f :.: g) p Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> (f :.: g) p -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> (f :.: g) p -> r Source # gmapQ :: (forall d. Data d => d -> u) -> (f :.: g) p -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> (f :.: g) p -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> (f :.: g) p -> m ((f :.: g) p) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :.: g) p -> m ((f :.: g) p) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> (f :.: g) p -> m ((f :.: g) p) Source # | |
(Ord1 f, Ord1 g, Ord a) => Ord (Compose f g a) Source # | Since: base-4.9.0.0 |
Defined in Data.Functor.Compose compare :: Compose f g a -> Compose f g a -> Ordering Source # (<) :: Compose f g a -> Compose f g a -> Bool Source # (<=) :: Compose f g a -> Compose f g a -> Bool Source # (>) :: Compose f g a -> Compose f g a -> Bool Source # (>=) :: Compose f g a -> Compose f g a -> Bool Source # max :: Compose f g a -> Compose f g a -> Compose f g a Source # min :: Compose f g a -> Compose f g a -> Compose f g a Source # | |
(Read1 f, Read1 g, Read a) => Read (Compose f g a) Source # | Since: base-4.9.0.0 |
(Show1 f, Show1 g, Show a) => Show (Compose f g a) Source # | Since: base-4.9.0.0 |
type Rep1 (f :.: g :: k -> Type) Source # | |
Defined in GHC.Generics | |
type Rep1 (Compose f g :: k -> Type) Source # | |
Defined in Data.Functor.Compose | |
type Rep1 [] Source # | |
Defined in GHC.Generics type Rep1 [] = D1 ('MetaData "[]" "GHC.Types" "ghc-prim" 'False) (C1 ('MetaCons "[]" 'PrefixI 'False) (U1 :: Type -> Type) :+: C1 ('MetaCons ":" ('InfixI 'LeftAssociative 9) 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1 :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec1 []))) | |
type Rep1 Maybe Source # | |
type Rep1 Par1 Source # | |
Defined in GHC.Generics | |
type Rep1 NonEmpty Source # | |
Defined in GHC.Generics type Rep1 NonEmpty = D1 ('MetaData "NonEmpty" "GHC.Base" "base" 'False) (C1 ('MetaCons ":|" ('InfixI 'LeftAssociative 9) 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1 :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec1 []))) | |
type Rep1 Down Source # | |
Defined in GHC.Generics | |
type Rep1 Product Source # | |
Defined in Data.Semigroup.Internal | |
type Rep1 Sum Source # | |
Defined in Data.Semigroup.Internal | |
type Rep1 Dual Source # | |
Defined in Data.Semigroup.Internal | |
type Rep1 Last Source # | |
Defined in Data.Monoid | |
type Rep1 First Source # | |
Defined in Data.Monoid | |
type Rep1 Identity Source # | |
Defined in Data.Functor.Identity | |
type Rep1 ZipList Source # | |
Defined in Control.Applicative | |
type Rep1 Option Source # | |
Defined in Data.Semigroup | |
type Rep1 WrappedMonoid Source # | |
Defined in Data.Semigroup type Rep1 WrappedMonoid = D1 ('MetaData "WrappedMonoid" "Data.Semigroup" "base" 'True) (C1 ('MetaCons "WrapMonoid" 'PrefixI 'True) (S1 ('MetaSel ('Just "unwrapMonoid") 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)) | |
type Rep1 Last Source # | |
Defined in Data.Semigroup | |
type Rep1 First Source # | |
Defined in Data.Semigroup | |
type Rep1 Max Source # | |
Defined in Data.Semigroup | |
type Rep1 Min Source # | |
Defined in Data.Semigroup | |
type Rep1 Complex Source # | |
Defined in Data.Complex type Rep1 Complex = D1 ('MetaData "Complex" "Data.Complex" "base" 'False) (C1 ('MetaCons ":+" ('InfixI 'NotAssociative 6) 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'SourceStrict 'DecidedStrict) Par1 :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'SourceStrict 'DecidedStrict) Par1)) | |
type Rep1 (Either a :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 (Either a :: Type -> Type) = D1 ('MetaData "Either" "Data.Either" "base" 'False) (C1 ('MetaCons "Left" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a)) :+: C1 ('MetaCons "Right" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)) | |
type Rep1 ((,) a :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,) a :: Type -> Type) = D1 ('MetaData "(,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,)" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)) | |
type Rep1 (WrappedMonad m :: Type -> Type) Source # | |
Defined in Control.Applicative type Rep1 (WrappedMonad m :: Type -> Type) = D1 ('MetaData "WrappedMonad" "Control.Applicative" "base" 'True) (C1 ('MetaCons "WrapMonad" 'PrefixI 'True) (S1 ('MetaSel ('Just "unwrapMonad") 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec1 m))) | |
type Rep1 (Arg a :: Type -> Type) Source # | |
Defined in Data.Semigroup type Rep1 (Arg a :: Type -> Type) = D1 ('MetaData "Arg" "Data.Semigroup" "base" 'False) (C1 ('MetaCons "Arg" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)) | |
type Rep1 ((,,) a b :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,,) a b :: Type -> Type) = D1 ('MetaData "(,,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,,)" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1))) | |
type Rep1 (Kleisli m a :: Type -> Type) Source # | |
type Rep1 (WrappedArrow a b :: Type -> Type) Source # | |
Defined in Control.Applicative type Rep1 (WrappedArrow a b :: Type -> Type) = D1 ('MetaData "WrappedArrow" "Control.Applicative" "base" 'True) (C1 ('MetaCons "WrapArrow" 'PrefixI 'True) (S1 ('MetaSel ('Just "unwrapArrow") 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec1 (a b)))) | |
type Rep1 ((,,,) a b c :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,,,) a b c :: Type -> Type) = D1 ('MetaData "(,,,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,,,)" 'PrefixI 'False) ((S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b)) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 c) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1))) | |
type Rep1 ((,,,,) a b c d :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,,,,) a b c d :: Type -> Type) = D1 ('MetaData "(,,,,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,,,,)" 'PrefixI 'False) ((S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b)) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 c) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 d) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)))) | |
type Rep1 ((,,,,,) a b c d e :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,,,,,) a b c d e :: Type -> Type) = D1 ('MetaData "(,,,,,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,,,,,)" 'PrefixI 'False) ((S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 c))) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 d) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 e) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)))) | |
type Rep1 ((,,,,,,) a b c d e f :: Type -> Type) Source # | |
Defined in GHC.Generics type Rep1 ((,,,,,,) a b c d e f :: Type -> Type) = D1 ('MetaData "(,,,,,,)" "GHC.Tuple" "ghc-prim" 'False) (C1 ('MetaCons "(,,,,,,)" 'PrefixI 'False) ((S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 a) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 b) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 c))) :*: ((S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 d) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 e)) :*: (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 f) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) Par1)))) |
data RuntimeRep Source #
GHC maintains a property that the kind of all inhabited types
(as distinct from type constructors or type-level data) tells us
the runtime representation of values of that type. This datatype
encodes the choice of runtime value.
Note that TYPE
is parameterised by RuntimeRep
; this is precisely
what we mean by the fact that a type's kind encodes the runtime
representation.
For boxed values (that is, values that are represented by a pointer), a further distinction is made, between lifted types (that contain ⊥), and unlifted ones (that don't).
VecRep VecCount VecElem | a SIMD vector type |
TupleRep [RuntimeRep] | An unboxed tuple of the given reps |
SumRep [RuntimeRep] | An unboxed sum of the given reps |
LiftedRep | lifted; represented by a pointer |
UnliftedRep | unlifted; represented by a pointer |
IntRep | signed, word-sized value |
Int8Rep | signed, 8-bit value |
Int16Rep | signed, 16-bit value |
Int32Rep | signed, 32-bit value |
Int64Rep | signed, 64-bit value (on 32-bit only) |
WordRep | unsigned, word-sized value |
Word8Rep | unsigned, 8-bit value |
Word16Rep | unsigned, 16-bit value |
Word32Rep | unsigned, 32-bit value |
Word64Rep | unsigned, 64-bit value (on 32-bit only) |
AddrRep | A pointer, but not to a Haskell value |
FloatRep | a 32-bit floating point number |
DoubleRep | a 64-bit floating point number |
Length of a SIMD vector type
Instances
Bounded VecCount Source # | Since: base-4.10.0.0 |
Enum VecCount Source # | Since: base-4.10.0.0 |
Defined in GHC.Enum succ :: VecCount -> VecCount Source # pred :: VecCount -> VecCount Source # toEnum :: Int -> VecCount Source # fromEnum :: VecCount -> Int Source # enumFrom :: VecCount -> [VecCount] Source # enumFromThen :: VecCount -> VecCount -> [VecCount] Source # enumFromTo :: VecCount -> VecCount -> [VecCount] Source # enumFromThenTo :: VecCount -> VecCount -> VecCount -> [VecCount] Source # | |
Show VecCount Source # | Since: base-4.11.0.0 |
Element of a SIMD vector type
Int8ElemRep | |
Int16ElemRep | |
Int32ElemRep | |
Int64ElemRep | |
Word8ElemRep | |
Word16ElemRep | |
Word32ElemRep | |
Word64ElemRep | |
FloatElemRep | |
DoubleElemRep |
Instances
Bounded VecElem Source # | Since: base-4.10.0.0 |
Enum VecElem Source # | Since: base-4.10.0.0 |
Defined in GHC.Enum succ :: VecElem -> VecElem Source # pred :: VecElem -> VecElem Source # toEnum :: Int -> VecElem Source # fromEnum :: VecElem -> Int Source # enumFrom :: VecElem -> [VecElem] Source # enumFromThen :: VecElem -> VecElem -> [VecElem] Source # enumFromTo :: VecElem -> VecElem -> [VecElem] Source # enumFromThenTo :: VecElem -> VecElem -> VecElem -> [VecElem] Source # | |
Show VecElem Source # | Since: base-4.11.0.0 |
Transform comprehensions
The Down
type allows you to reverse sort order conveniently. A value of type
contains a value of type Down
aa
(represented as
).
If Down
aa
has an
instance associated with it then comparing two
values thus wrapped will give you the opposite of their normal sort order.
This is particularly useful when sorting in generalised list comprehensions,
as in: Ord
then sortWith by
Down
x
Since: base-4.6.0.0
Instances
Monad Down Source # | Since: base-4.11.0.0 |
Functor Down Source # | Since: base-4.11.0.0 |
MonadFix Down Source # | Since: base-4.12.0.0 |
Applicative Down Source # | Since: base-4.11.0.0 |
Foldable Down Source # | Since: base-4.12.0.0 |
Defined in Data.Foldable fold :: Monoid m => Down m -> m Source # foldMap :: Monoid m => (a -> m) -> Down a -> m Source # foldMap' :: Monoid m => (a -> m) -> Down a -> m Source # foldr :: (a -> b -> b) -> b -> Down a -> b Source # foldr' :: (a -> b -> b) -> b -> Down a -> b Source # foldl :: (b -> a -> b) -> b -> Down a -> b Source # foldl' :: (b -> a -> b) -> b -> Down a -> b Source # foldr1 :: (a -> a -> a) -> Down a -> a Source # foldl1 :: (a -> a -> a) -> Down a -> a Source # toList :: Down a -> [a] Source # null :: Down a -> Bool Source # length :: Down a -> Int Source # elem :: Eq a => a -> Down a -> Bool Source # maximum :: Ord a => Down a -> a Source # minimum :: Ord a => Down a -> a Source # | |
Traversable Down Source # | Since: base-4.12.0.0 |
MonadZip Down Source # | Since: base-4.12.0.0 |
Show1 Down Source # | Since: base-4.12.0.0 |
Read1 Down Source # | Since: base-4.12.0.0 |
Defined in Data.Functor.Classes liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (Down a) Source # liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [Down a] Source # liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (Down a) Source # liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [Down a] Source # | |
Ord1 Down Source # | Since: base-4.12.0.0 |
Defined in Data.Functor.Classes | |
Eq1 Down Source # | Since: base-4.12.0.0 |
Bounded a => Bounded (Down a) Source # | Since: base-4.14.0.0 |
Enum a => Enum (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord succ :: Down a -> Down a Source # pred :: Down a -> Down a Source # toEnum :: Int -> Down a Source # fromEnum :: Down a -> Int Source # enumFrom :: Down a -> [Down a] Source # enumFromThen :: Down a -> Down a -> [Down a] Source # enumFromTo :: Down a -> Down a -> [Down a] Source # enumFromThenTo :: Down a -> Down a -> Down a -> [Down a] Source # | |
Eq a => Eq (Down a) Source # | Since: base-4.6.0.0 |
Floating a => Floating (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord exp :: Down a -> Down a Source # log :: Down a -> Down a Source # sqrt :: Down a -> Down a Source # (**) :: Down a -> Down a -> Down a Source # logBase :: Down a -> Down a -> Down a Source # sin :: Down a -> Down a Source # cos :: Down a -> Down a Source # tan :: Down a -> Down a Source # asin :: Down a -> Down a Source # acos :: Down a -> Down a Source # atan :: Down a -> Down a Source # sinh :: Down a -> Down a Source # cosh :: Down a -> Down a Source # tanh :: Down a -> Down a Source # asinh :: Down a -> Down a Source # acosh :: Down a -> Down a Source # atanh :: Down a -> Down a Source # log1p :: Down a -> Down a Source # expm1 :: Down a -> Down a Source # | |
Fractional a => Fractional (Down a) Source # | Since: base-4.14.0.0 |
Integral a => Integral (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord | |
Data a => Data (Down a) Source # | Since: base-4.12.0.0 |
Defined in Data.Data gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> Down a -> c (Down a) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (Down a) Source # toConstr :: Down a -> Constr Source # dataTypeOf :: Down a -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (Down a)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (Down a)) Source # gmapT :: (forall b. Data b => b -> b) -> Down a -> Down a Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> Down a -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> Down a -> r Source # gmapQ :: (forall d. Data d => d -> u) -> Down a -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> Down a -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> Down a -> m (Down a) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> Down a -> m (Down a) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> Down a -> m (Down a) Source # | |
Num a => Num (Down a) Source # | Since: base-4.11.0.0 |
Ord a => Ord (Down a) Source # | Since: base-4.6.0.0 |
Defined in Data.Ord | |
Read a => Read (Down a) Source # | This instance would be equivalent to the derived instances of the
Since: base-4.7.0.0 |
Real a => Real (Down a) Source # | Since: base-4.14.0.0 |
RealFloat a => RealFloat (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord floatRadix :: Down a -> Integer Source # floatDigits :: Down a -> Int Source # floatRange :: Down a -> (Int, Int) Source # decodeFloat :: Down a -> (Integer, Int) Source # encodeFloat :: Integer -> Int -> Down a Source # exponent :: Down a -> Int Source # significand :: Down a -> Down a Source # scaleFloat :: Int -> Down a -> Down a Source # isNaN :: Down a -> Bool Source # isInfinite :: Down a -> Bool Source # isDenormalized :: Down a -> Bool Source # isNegativeZero :: Down a -> Bool Source # | |
RealFrac a => RealFrac (Down a) Source # | Since: base-4.14.0.0 |
Show a => Show (Down a) Source # | This instance would be equivalent to the derived instances of the
Since: base-4.7.0.0 |
Ix a => Ix (Down a) Source # | Since: base-4.14.0.0 |
Generic (Down a) Source # | Since: base-4.12.0.0 |
Semigroup a => Semigroup (Down a) Source # | Since: base-4.11.0.0 |
Monoid a => Monoid (Down a) Source # | Since: base-4.11.0.0 |
FiniteBits a => FiniteBits (Down a) Source # | Since: base-4.14.0.0 |
Bits a => Bits (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord (.&.) :: Down a -> Down a -> Down a Source # (.|.) :: Down a -> Down a -> Down a Source # xor :: Down a -> Down a -> Down a Source # complement :: Down a -> Down a Source # shift :: Down a -> Int -> Down a Source # rotate :: Down a -> Int -> Down a Source # setBit :: Down a -> Int -> Down a Source # clearBit :: Down a -> Int -> Down a Source # complementBit :: Down a -> Int -> Down a Source # testBit :: Down a -> Int -> Bool Source # bitSizeMaybe :: Down a -> Maybe Int Source # bitSize :: Down a -> Int Source # isSigned :: Down a -> Bool Source # shiftL :: Down a -> Int -> Down a Source # unsafeShiftL :: Down a -> Int -> Down a Source # shiftR :: Down a -> Int -> Down a Source # unsafeShiftR :: Down a -> Int -> Down a Source # rotateL :: Down a -> Int -> Down a Source # | |
Storable a => Storable (Down a) Source # | Since: base-4.14.0.0 |
Defined in Data.Ord sizeOf :: Down a -> Int Source # alignment :: Down a -> Int Source # peekElemOff :: Ptr (Down a) -> Int -> IO (Down a) Source # pokeElemOff :: Ptr (Down a) -> Int -> Down a -> IO () Source # peekByteOff :: Ptr b -> Int -> IO (Down a) Source # pokeByteOff :: Ptr b -> Int -> Down a -> IO () Source # | |
Generic1 Down Source # | Since: base-4.12.0.0 |
type Rep (Down a) Source # | |
Defined in GHC.Generics | |
type Rep1 Down Source # | |
Defined in GHC.Generics |
groupWith :: Ord b => (a -> b) -> [a] -> [[a]] Source #
The groupWith
function uses the user supplied function which
projects an element out of every list element in order to first sort the
input list and then to form groups by equality on these projected elements
sortWith :: Ord b => (a -> b) -> [a] -> [a] Source #
The sortWith
function sorts a list of elements using the
user supplied function to project something out of each element
the :: Eq a => [a] -> a Source #
the
ensures that all the elements of the list are identical
and then returns that unique element
Event logging
traceEvent :: String -> IO () Source #
Deprecated: Use traceEvent
or traceEventIO
SpecConstr annotations
data SpecConstrAnnotation Source #
Instances
The call stack
currentCallStack :: IO [String] Source #
Returns a [String]
representing the current call stack. This
can be useful for debugging.
The implementation uses the call-stack simulation maintained by the
profiler, so it only works if the program was compiled with -prof
and contains suitable SCC annotations (e.g. by using -fprof-auto
).
Otherwise, the list returned is likely to be empty or
uninformative.
Since: base-4.5.0.0
The Constraint kind
data Constraint Source #
The kind of constraints, like Show a
The Any type
type family Any :: k where ... Source #
The type constructor Any
is type to which you can unsafely coerce any
lifted type, and back. More concretely, for a lifted type t
and
value x :: t
, -- unsafeCoerce (unsafeCoerce x :: Any) :: t
is equivalent
to x
.
Overloaded lists
The IsList
class and its methods are intended to be used in
conjunction with the OverloadedLists extension.
Since: base-4.7.0.0
fromList :: [Item l] -> l Source #
The fromList
function constructs the structure l
from the given
list of Item l
fromListN :: Int -> [Item l] -> l Source #
The fromListN
function takes the input list's length as a hint. Its
behaviour should be equivalent to fromList
. The hint can be used to
construct the structure l
more efficiently compared to fromList
. If
the given hint does not equal to the input list's length the behaviour of
fromListN
is not specified.
toList :: l -> [Item l] Source #
The toList
function extracts a list of Item l
from the structure l
.
It should satisfy fromList . toList = id.
Instances
IsList CallStack Source # | Be aware that 'fromList . toList = id' only for unfrozen Since: base-4.9.0.0 |
IsList Version Source # | Since: base-4.8.0.0 |
IsList [a] Source # | Since: base-4.7.0.0 |
IsList (NonEmpty a) Source # | Since: base-4.9.0.0 |
IsList (ZipList a) Source # | Since: base-4.15.0.0 |