Changelog for ghc-prim-0.11.0
0.12.0
-
Shipped with GHC 9.10.1
-
Add unaligned addr access primops. These primops will be emulated on platforms that don't support unaligned access.
readWord8OffAddrAsChar# :: Addr# -> Int# -> State# s -> (# State# s, Char# #) readWord8OffAddrAsAddr# :: Addr# -> Int# -> State# s -> (# State# s, Addr# #) readWord8OffAddrAsFloat# :: Addr# -> Int# -> State# s -> (# State# s, Float# #) readWord8OffAddrAsDouble# :: Addr# -> Int# -> State# s -> (# State# s, Double# #) readWord8OffAddrAsStablePtr# :: Addr# -> Int# -> State# s -> (# State# s, StablePtr# #) readWord8OffAddrAsInt16# :: Addr# -> Int# -> State# s -> (# State# s, Int16# #) readWord8OffAddrAsInt32# :: Addr# -> Int# -> State# s -> (# State# s, Int32# #) readWord8OffAddrAsInt64# :: Addr# -> Int# -> State# s -> (# State# s, Int64# #) readWord8OffAddrAsInt# :: Addr# -> Int# -> State# s -> (# State# s, Int# #) readWord8OffAddrAsWord16# :: Addr# -> Int# -> State# s -> (# State# s, Word16# #) readWord8OffAddrAsWord32# :: Addr# -> Int# -> State# s -> (# State# s, Word32# #) readWord8OffAddrAsWord64# :: Addr# -> Int# -> State# s -> (# State# s, Word64# #) readWord8OffAddrAsWord# :: Addr# -> Int# -> State# s -> (# State# s, Word# #) indexWord8OffAddrAsChar# :: Addr# -> Int# -> Char# indexWord8OffAddrAsAddr# :: Addr# -> Int# -> Addr# indexWord8OffAddrAsFloat# :: Addr# -> Int# -> Float# indexWord8OffAddrAsDouble# :: Addr# -> Int# -> Double# indexWord8OffAddrAsStablePtr# :: Addr# -> Int# -> StablePtr# indexWord8OffAddrAsInt16# :: Addr# -> Int# -> Int16# indexWord8OffAddrAsInt32# :: Addr# -> Int# -> Int32# indexWord8OffAddrAsInt64# :: Addr# -> Int# -> Int64# indexWord8OffAddrAsInt# :: Addr# -> Int# -> Int# indexWord8OffAddrAsWord16# :: Addr# -> Int# -> Word16# indexWord8OffAddrAsWord32# :: Addr# -> Int# -> Word32# indexWord8OffAddrAsWord64# :: Addr# -> Int# -> Word64# indexWord8OffAddrAsWord# :: Addr# -> Int# -> Word# writeWord8OffAddrAsChar# :: Addr# -> Int# -> Char# -> State# s -> State# s writeWord8OffAddrAsAddr# :: Addr# -> Int# -> Addr# -> State# s -> State# s writeWord8OffAddrAsFloat# :: Addr# -> Int# -> Float# -> State# s -> State# s writeWord8OffAddrAsDouble# :: Addr# -> Int# -> Double# -> State# s -> State# s writeWord8OffAddrAsStablePtr# :: Addr# -> Int# -> StablePtr# -> State# s -> State# s writeWord8OffAddrAsInt16# :: Addr# -> Int# -> Int16# -> State# s -> State# s writeWord8OffAddrAsInt32# :: Addr# -> Int# -> Int32# -> State# s -> State# s writeWord8OffAddrAsInt64# :: Addr# -> Int# -> Int64# -> State# s -> State# s writeWord8OffAddrAsInt# :: Addr# -> Int# -> Int# -> State# s -> State# s writeWord8OffAddrAsWord16# :: Addr# -> Int# -> Word16# -> State# s -> State# s writeWord8OffAddrAsWord32# :: Addr# -> Int# -> Word32# -> State# s -> State# s writeWord8OffAddrAsWord64# :: Addr# -> Int# -> Word64# -> State# s -> State# s writeWord8OffAddrAsWord# :: Addr# -> Int# -> Word# -> State# s -> State# s
-
The
unsafeThawByteArray#
primop was added, serving as a inverse to the existingunsafeFreezeByteArray#
primop (see #22710). -
dataToTag#
has been moved toGHC.Magic
and made the sole method of a new class:type DataToTag :: forall {lev :: Levity}. TYPE (BoxedRep lev) -> Constraint class DataToTag a where dataToTag# :: a -> Int#
In particular, it is now applicable only at some (not all) lifted types. However, if
t
is an algebraic data type (i.e.t
matches adata
ordata instance
declaration) with all of its constructors in scope and the levity oft
is statically known, then the constraintDataToTag t
can always be solved. -
Renamed several built-in tycon syntaxes to avoid punning:
- Unboxed tuple tycons are now
Tuple#<N>
- Unboxed sum tycons are now
Sum#<N>
- Constraint tuple classes are now
CTuple<N>
- Unit tycons are now
Unit#
,CUnit
. - Solo tycons are now
Solo#
,CSolo
. Tuple<N>
have been moved back toGHC.Tuple
.
See [https://github.com/ghc-proposals/ghc-proposals/blob/master/proposals/0475-tuple-syntax.rst].
- Unboxed tuple tycons are now
0.11.0
-
Shipped with GHC 9.8.1
-
Primitive pointer comparison functions are now levity-polymorphic, e.g.
sameArray# :: forall {l} (a :: TYPE (BoxedRep l)). Array# a -> Array# a -> Int#
This change affects the following functions:
sameArray#
,sameMutableArray#
,sameSmallArray#
,sameSmallMutableArray#
,sameMutVar#
,sameTVar#
,sameMVar#
sameIOPort#
,eqStableName#
.
-
keepAlive#
andtouch#
are now polymorphic in their state token (#23163; CLC#152) -
Several new primops were added:
copyMutableByteArrayNonOverlapping#
copyAddrToAddr#
copyAddrToAddrNonOverlapping#
setAddrRange#
-
New primops for fused multiply-add operations. These primops combine a multiplication and an addition, compiling to a single instruction when the
-mfma
flag is enabled and the architecture supports it.The new primops are
fmaddFloat#, fmsubFloat#, fnmaddFloat#, fnmsubFloat# :: Float# -> Float# -> Float# -> Float#
andfmaddDouble#, fmsubDouble#, fnmaddDouble#, fnmsubDouble# :: Double# -> Double# -> Double# -> Double#
.These implement the following operations, while performing one single rounding at the end, leading to a more accurate result:
fmaddFloat# x y z
,fmaddDouble# x y z
computex * y + z
.fmsubFloat# x y z
,fmsubDouble# x y z
computex * y - z
.fnmaddFloat# x y z
,fnmaddDouble# x y z
compute- x * y + z
.fnmsubFloat# x y z
,fnmsubDouble# x y z
compute- x * y - z
.
Warning: on unsupported architectures, the software emulation provided by the fallback to the C standard library is not guaranteed to be IEEE-compliant.
-
Unit
,Tuple0
,Tuple1
,Tuple2
,Tuple3
and so on (up toTuple64
) are now exported fromGHC.Tuple.Prim
and reexported fromGHC.Tuple
. GHC now uses these as the actual names for tuple data types. As a result, the "brackets with commas" syntax (e.g.()
,(,)
, etc.) now becomes just an alias to these names. This change may affect tools and libraries that rely on type names, such asGeneric
and Template Haskell.
0.10.0
-
Shipped with GHC 9.6.1
-
The
listThreads#
primop was added, allowing the user to enumerate all threads (running and blocked) in the program:listThreads# :: State# RealWorld -> (# State# RealWorld, Array# ThreadId# #)
-
The type of the
labelThread#
primop was changed from:labelThread# :: ThreadId# -> Addr# -> State# RealWorld -> State# RealWorld
to
labelThread# :: ThreadId# -> ByteArray# -> State# RealWorld -> State# RealWorld
Where the
ByteArray#
must contain a UTF-8-encoded string. -
The
threadLabel#
primop was added, allowing the user to query the label of a givenThreadId#
. -
isByteArrayPinned#
now only considers an array pinned if it was explicitly pinned by the user. This is required to avoid ghc issue #22255 which showed that the old behaviour could cause segfaults when used in combination with compact regions. We are working on ways to allow users and library authors to get back the performance benefits of the old behaviour where possible. -
List
is now exported fromGHC.Types
.
0.9.0 August 2022
-
Shipped with GHC 9.4.1
-
magicDict
has been renamed towithDict
and is now defined inGHC.Magic.Dict
instead ofGHC.Prim
.withDict
now has the type:withDict :: forall {rr :: RuntimeRep} st dt (r :: TYPE rr). st -> (dt => r) -> r
Unlike
magicDict
,withDict
can be used without defining an intermediate data type. For example, thewithTypeable
function from theData.Typeable
module can now be defined as:withTypeable :: forall k (a :: k) rep (r :: TYPE rep). () => TypeRep a -> (Typeable a => r) -> r withTypeable rep k = withDict @(TypeRep a) @(Typeable a) rep k
Note that the explicit type applications are required, as the call to
withDict
would be ambiguous otherwise. -
Primitive types and functions which handle boxed values are now levity-polymorphic, meaning that they now also work with unlifted boxed values (i.e. values whose type has kind
TYPE (BoxedRep Unlifted)
).The following type constructors are now levity-polymorphic:
-
Array#
,SmallArray#
,Weak#
,StablePtr#
,StableName#
, -
MutableArray#
,SmallMutableArray#
,MutVar#
,TVar#
,MVar#
,IOPort#
.
For example,
Array#
used to have kind:Type -> UnliftedType
but it now has kind:
forall {l :: Levity}. TYPE (BoxedRep l) -> UnliftedType
Similarly,
MutVar#
used to have kind:Type -> Type -> UnliftedType
but it now has kind:
forall {l :: Levity}. Type -> TYPE (BoxedRep l) -> UnliftedType
This means that in
Array# a
,MutableArray# s a
,MutVar# s a
, ..., the element typea
, must always be boxed, but it can now either be lifted or unlifted. In particular, arrays and mutable variables can now be used to store other arrays and mutable variables.All functions which use these updated primitive types are also levity-polymorphic:
-
all array operations (reading/writing/copying/...), for both arrays and small arrays, mutable and immutable:
-
newArray#
,readArray#
,writeArray#
,sizeofArray#
,sizeofMutableArray#
,indexArray#
,unsafeFreezeArray#
,unsafeThawArray#
,copyArray#
,copyMutableArray#
,cloneArray#
,cloneMutableArray#
,freezeArray#
,thawArray#
,casArray#
, -
newSmallArray#
,shrinkSmallMutableArray#
,readSmallArray#
,writeSmallArray#
,sizeofSmallArray#
,getSizeofSmallMutableArray#
,indexSmallArray#
,unsafeFreezeSmallArray#
,unsafeThawSmallArray#
,copySmallArray#
,copySmallMutableArray#
,cloneSmallArray#
,cloneSmallMutableArray#
,freezeSmallArray#
,thawSmallArray#
,casSmallArray#
,
-
-
newMutVar#
,readMutVar#
,writeMutVar#
,casMutVar#
, -
operations on
MVar#
andTVar#
:-
newTVar#
,readTVar#
,readTVarIO#
,writeTVar#
, -
newMVar#
,takeMVar#
,tryTakeMVar#
,putMVar#
,tryPutMVar#
,readMVar#
,tryReadMVar#
,
-
-
STM
operationsatomically#
,retry#
,catchRetry#
andcatchSTM#
. -
newIOPort#
,readIOPort#
,writeIOPort#
, -
mkWeak#
,mkWeakNoFinalizer#
,addCFinalizerToWeak#
,deRefWeak#
,finalizeWeak#
, -
makeStablePtr#
,deRefStablePtr#
,eqStablePtr#
,makeStableName#
,stableNameToInt#
,
For example, the full type of
newMutVar#
is now:newMutVar# :: forall {l :: Levity} s (a :: TYPE (BoxedRep l)). a -> State# s -> (# State# s, MVar# s a #)
and the full type of
writeSmallArray#
is:writeSmallArray# :: forall {l :: Levity} s (a :: TYPE ('BoxedRep l)). SmallMutableArray# s a -> Int# -> a -> State# s -> State# s
-
-
ArrayArray#
andMutableArrayArray#
have been moved fromGHC.Prim
toGHC.Exts
. They are deprecated, because their functionality is now subsumed byArray#
andMutableArray#
. -
mkWeak#
,mkWeakNoFinalizer#
,touch#
andkeepAlive#
are now levity-polymorphic instead of representation-polymorphic. For instance:mkWeakNoFinalizer# :: forall {l :: Levity} {k :: Levity} (a :: TYPE ('BoxedRep l)) (b :: TYPE ('BoxedRep k)). a -> b -> State# RealWorld -> (# State# RealWorld, Weak# b #)
That is, the type signature now quantifies over the
Levity
ofa
instead of itsRuntimeRep
. In addition, this variable is now inferred, instead of specified, meaning that it is no longer eligible for visible type application. Note thatb
is now also levity-polymorphic, due to the change outlined in the previous point. -
Primitive functions for throwing and catching exceptions are now more polymorphic than before. For example,
catch#
now has type:catch# :: forall {r :: RuntimeRep} {l :: Levity} (a :: TYPE r) (b :: TYPE ('BoxedRep l)). ( State# RealWorld -> (# State# RealWorld, a #) ) -> ( b -> State# RealWorld -> (# State# RealWorld, a #) ) -> State# RealWorld -> (# State# RealWorld, a #)
The following functions are concerned:
-
catch#
, -
raise#
,raiseIO#
, -
maskAsyncExceptions#
,maskUninterruptible#
,unmaskAsyncExceptions#
.
Note in particular that
raise#
is now both representation-polymorphic (with an inferredRuntimeRep
argument) and levity-polymorphic, with type:raise# :: forall {l :: Levity} {r :: RuntimeRep} (a :: TYPE (BoxedRep l)) (b :: TYPE r). a -> b
-
-
fork#
andforkOn#
are now representation-polymorphic. For example,fork#
now has type: ::fork# :: forall {r :: RuntimeRep} (a :: TYPE r). (State# RealWorld -> (# State# RealWorld, a #)) -> (State# RealWorld -> (# State# RealWorld, a #))
-
reallyUnsafePtrEquality#
has been made more general, as it is now both levity-polymorphic and heterogeneous:reallyUnsafePtrEquality# :: forall {l :: Levity} {k :: Levity} (a :: TYPE (BoxedRep l)) (b :: TYPE (BoxedRep k)) . a -> b -> Int#
This means that
reallyUnsafePtrEquality#
can be used on primitive arrays such asArray#
andByteArray#
. It can also be used on values of different types, without needing to callunsafeCoerce#
. -
The following functions have been moved from
GHC.Prim
toGHC.Exts
:sameMutableArray#
,sameSmallMutableArray#
,sameMutableByteArray#
andsameMutableArrayArray#
,sameMutVar#
,sameTVar#
andsameMVar#
,sameIOPort#
,eqStableName#
.
-
The following functions have been added to
GHC.Exts
:sameArray# :: Array# a -> Array# a -> Int# sameSmallArray# :: SmallArray# a -> SmallArray# a -> Int# sameByteArray# :: ByteArray# -> ByteArray# -> Int# sameArrayArray# :: ArrayArray# -> ArrayArray# -> Int#
0.8.0
-
Change array access primops to use type with size maxing the element size:
index{Int,Word}<N>Array# :: ByteArray# -> Int# -> {Int,Word}<N>#
indexWord8ArrayAs{Int,Word}<N># :: ByteArray# -> Int# -> {Int,Word}<N>#
read{Int,Word}<N>Array# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, {Int,Word}<N># #)
write{Int,Word}<N>Array# :: MutableByteArray# s -> Int# -> {Int,Word}<N># -> State# s -> State# s
readWord8ArrayAs{Int,Word}<N># :: MutableByteArray# s -> Int# -> State# s -> (# State# s, {Int,Word}<N># #)
writeWord8ArrayAs{Int,Word}<N># :: MutableByteArray# s -> Int# -> {Int,Word}<N># -> State# s -> State# s
This was already the for the 64-bit access primops, but not the smaller ones.
-
Rename some numeric prim type conversion primops:
extend{Int,Word}<N>#
->extend<N>To{Int,Word}#
narrow{Int,Word}<N>#
->intTo{Int,Word}<N>#
-
Add primops for atomic compare and swap for sizes other that wordsize:
casInt8Array# :: MutableByteArray# s -> Int# -> Int8# -> Int8# -> State# s -> (# State# s, Int8# #) casInt16Array# :: MutableByteArray# s -> Int# -> Int16# -> Int16# -> State# s -> (# State# s, Int16# #) casInt32Array# :: MutableByteArray# s -> Int# -> Int32# -> Int32# -> State# s -> (# State# s, Int32# #) casInt64Array# :: MutableByteArray# s -> Int# -> Int64# -> Int64# -> State# s -> (# State# s, Int64# #) atomicCasWord8Addr# :: Addr# -> Word8# -> Word8# -> State# s -> (# State# s, Word8# #) atomicCasWord16Addr# :: Addr# -> Word16# -> Word16# -> State# s -> (# State# s, Word16# #) atomicCasWord32Addr# :: Addr# -> Word32# -> Word32# -> State# s -> (# State# s, Word32# #) atomicCasWord64Addr# :: Addr# -> WORD64 -> WORD64 -> State# s -> (# State# s, WORD64 #)
0.7.0
-
Shipped with GHC 9.0.1
-
Add known-key
cstringLength#
toGHC.CString
. This is just the C functionstrlen
, but a built-in rewrite rule allows GHC to compute the result at compile time when the argument is known. -
In order to support unicode better the following functions in
GHC.CString
gained UTF8 counterparts:unpackAppendCStringUtf8# :: Addr# -> [Char] -> [Char] unpackFoldrCStringUtf8# :: Addr# -> (Char -> a -> a) -> a -> a
-
unpackFoldrCString* variants can now inline in phase [0].
If the folding function is known this allows for unboxing of the Char argument resulting in much faster code.
-
Renamed the singleton tuple
GHC.Tuple.Unit
toGHC.Tuple.Solo
. -
Add primops for atomic exchange:
atomicExchangeAddrAddr# :: Addr# -> Addr# -> State# s -> (# State# s, Addr# #) atomicExchangeWordAddr# :: Addr# -> Word# -> State# s -> (# State# s, Word# #)
-
Add primops for atomic compare and swap at a given Addr#:
atomicCasAddrAddr# :: Addr# -> Addr# -> Addr# -> State# s -> (# State# s, Addr# #) atomicCasWordAddr# :: Addr# -> Word# -> Word# -> State# s -> (# State# s, Word# #)
-
Add an explicit fixity for
(~)
and(~~)
:infix 4 ~, ~~
-
Introduce
keepAlive#
to replacetouch#
in controlling object lifetime without the soundness issues of the latter (see #17760).
0.6.1
-
Shipped with GHC 8.10.1
-
Add primop for shrinking
SmallMutableArray#
toGHC.Prim
:shrinkSmallMutableArray# :: SmallMutableArray# s a -> Int# -> State# s -> State# s
Note that
resizeSmallMutableArray#
is not included as as primitive. It has been implemented in library space inGHC.Exts
. See the release notes ofbase
. -
Added to
GHC.Prim
:closureSize# :: a -> Int#
-
Added to
GHC.Prim
:bitReverse# :: Word# -> Word# bitReverse8# :: Word# -> Word# bitReverse16# :: Word# -> Word# bitReverse32# :: Word# -> Word# bitReverse64# :: Word# -> Word#
bitReverse#
is a primop that, for aWord
of 8, 16, 32 or 64 bits, reverses the order of its bits e.g.0b110001
becomes0b100011
. These primitives use optimized machine instructions when available. -
Add Int# multiplication primop:
timesInt2# :: Int# -> Int# -> (# Int#, Int#, Int# #)
timesInt2#
computes the multiplication of its two parameters and returns a triple (isHighNeeded,high,low) where high and low are respectively the high and low bits of the double-word result. isHighNeeded is a cheap way to test if the high word is a sign-extension of the low word (isHighNeeded = 0#) or not (isHighNeeded = 1#).
0.6.0
-
Shipped with GHC 8.8.1
-
Added to
GHC.Prim
:traceBinaryEvent# :: Addr# -> Int# -> State# s -> State# s
0.5.3
-
Shipped with GHC 8.6.1
-
Added to
GHC.Prim
:addWordC# :: Word# -> Word# -> (# Word#, Int# #)
-
unpackClosure#
can now unpack any valid Haskell closure. Previously it returned empty pointer and non-pointer arrays for thunks. -
Add unaligned bytearray access primops (#4442)
readWord8ArrayAsChar# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Char# #) readWord8ArrayAsAddr# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Addr# #) readWord8ArrayAsFloat# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Float# #) readWord8ArrayAsDouble# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Double# #) readWord8ArrayAsStablePtr# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, StablePtr# #) readWord8ArrayAsInt16# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Int16# #) readWord8ArrayAsInt32# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Int32# #) readWord8ArrayAsInt64# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Int64# #) readWord8ArrayAsInt# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Int# #) readWord8ArrayAsWord16# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Word16# #) readWord8ArrayAsWord32# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Word32# #) readWord8ArrayAsWord64# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Word64# #) readWord8ArrayAsWord# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, Word# #) writeWord8ArrayAsChar# :: MutableByteArray# s -> Int# -> Char# -> State# s -> State# s writeWord8ArrayAsAddr# :: MutableByteArray# s -> Int# -> Addr# -> State# s -> State# s writeWord8ArrayAsFloat# :: MutableByteArray# s -> Int# -> Float# -> State# s -> State# s writeWord8ArrayAsDouble# :: MutableByteArray# s -> Int# -> Double# -> State# s -> State# s writeWord8ArrayAsStablePtr# :: MutableByteArray# s -> Int# -> StablePtr# -> State# s -> State# s writeWord8ArrayAsInt16# :: MutableByteArray# s -> Int# -> Int16# -> State# s -> State# s writeWord8ArrayAsInt32# :: MutableByteArray# s -> Int# -> Int32# -> State# s -> State# s writeWord8ArrayAsInt64# :: MutableByteArray# s -> Int# -> Int64# -> State# s -> State# s writeWord8ArrayAsInt# :: MutableByteArray# s -> Int# -> Int# -> State# s -> State# s writeWord8ArrayAsWord16# :: MutableByteArray# s -> Int# -> Word16# -> State# s -> State# s writeWord8ArrayAsWord32# :: MutableByteArray# s -> Int# -> Word32# -> State# s -> State# s writeWord8ArrayAsWord64# :: MutableByteArray# s -> Int# -> Word64# -> State# s -> State# s writeWord8ArrayAsWord# :: MutableByteArray# s -> Int# -> Word# -> State# s -> State# s
0.5.2.0
-
Shipped with GHC 8.4.1
-
Added to
GHC.Prim
:compareByteArrays# :: ByteArray# -> Int# -> ByteArray# -> Int# -> Int# -> Int#
-
Don't allocate a thunk for each unpacked UTF-8 character in
unpackCStringUtf8#
0.5.1.1 November 2017
-
Shipped with GHC 8.2.2
-
Changed strictness properties of
catchRetry#
(#14171)
0.5.1.0 July 2017
-
Shipped with GHC 8.2.1
-
Added to
GHC.Prim
:fabsDouble# :: Double# -> Double# fabsFloat# :: Float# -> Float# isByteArrayPinned# :: ByteArray# -> Int# isMutableByteArrayPinned# :: MutableByteArray# s -> Int# anyToAddr# :: a -> State# (RealWorld) -> (# State# (RealWorld),Addr# #)
-
New primitives for compact regions in
GHC.Prim
:Compact# compactNew# compactResize# compactContains# compactContainsAny# compactGetFirstBlock# compactGetNextBlock# compactAllocateBlock# compactFixupPointers# compactAdd# compactAddWithSharing# compactSize#
-
Generalised
noDuplicate#
fromnoDuplicate# :: State# (RealWorld) -> State# (RealWorld)
to
noDuplicate# :: State# s -> State# s
0.5.0.0
-
Shipped with GHC 8.0.1
-
GHC.Classes
: newclass IP (a :: Symbol) b | a -> b
-
GHC.Prim
: changed type signatures fromcheck# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> (# State# RealWorld, () #) finalizeWeak# :: Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, State# RealWorld -> (# State# RealWorld, () #) #) mkWeak# :: a -> b -> c -> State# RealWorld -> (# State# RealWorld, Weak# b #)
to
check# :: (State# RealWorld -> (# State# RealWorld, a #)) -> State# RealWorld -> State# RealWorld finalizeWeak# :: Weak# a -> State# RealWorld -> (# State# RealWorld, Int#, State# RealWorld -> (# State# RealWorld, b #) #) mkWeak# :: a -> b -> (State# RealWorld -> (# State# RealWorld, c #)) -> State# RealWorld -> (# State# RealWorld, Weak# b #)
-
Removed from
GHC.Prim
:parAt# :: b -> a -> Int# -> Int# -> Int# -> Int# -> c -> Int# parAtAbs# :: a -> Int# -> Int# -> Int# -> Int# -> Int# -> b -> Int# parAtForNow# :: b -> a -> Int# -> Int# -> Int# -> Int# -> c -> Int# parAtRel# :: a -> Int# -> Int# -> Int# -> Int# -> Int# -> b -> Int# parGlobal# :: a -> Int# -> Int# -> Int# -> Int# -> b -> Int# parLocal# :: a -> Int# -> Int# -> Int# -> Int# -> b -> Int#
-
Added to
GHC.Prim
:getSizeofMutableByteArray# :: MutableByteArray# d -> State# d -> (# State# d, Int# #) subWordC# :: Word# -> Word# -> (# Word#, Int# #) runRW# :: (State# RealWorld -> (# State# RealWorld, o #)) -> (# State# RealWorld, o #)
-
Added to
GHC.Types
:data Module = Module TrName TrName data Nat data Symbol data TrName = TrNameS Addr# | TrNameD [Char] data TyCon = TyCon Word# Word# Module TrName