{-# LANGUAGE CPP #-} {-# LANGUAGE ForeignFunctionInterface #-} {-# LANGUAGE GHCForeignImportPrim #-} {-# LANGUAGE MagicHash #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE UnliftedFFITypes #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE DeriveTraversable #-} module GHC.Exts.Heap.Closures ( -- * Closures Closure , GenClosure(..) , PrimType(..) , allClosures #if __GLASGOW_HASKELL__ >= 809 -- The closureSize# primop is unsupported on earlier GHC releases but we -- build ghc-heap as a boot library so it must be buildable. Drop this once -- we are guaranteed to bootstsrap with GHC >= 8.9. , closureSize #endif -- * Boxes , Box(..) , areBoxesEqual , asBox ) where import Prelude -- See note [Why do we import Prelude here?] import GHC.Exts.Heap.Constants #if defined(PROFILING) import GHC.Exts.Heap.InfoTableProf #else import GHC.Exts.Heap.InfoTable -- `ghc -M` currently doesn't properly account for ways when generating -- dependencies (#15197). This import ensures correct build-ordering between -- this module and GHC.Exts.Heap.InfoTableProf. It should be removed when #15197 -- is fixed. import GHC.Exts.Heap.InfoTableProf () #endif import Data.Bits import Data.Int import Data.Word import GHC.Exts import GHC.Generics import Numeric ------------------------------------------------------------------------ -- Boxes foreign import prim "Ghclib_aToWordzh" aToWord# :: Any -> Word# foreign import prim "Ghclib_reallyUnsafePtrEqualityUpToTag" reallyUnsafePtrEqualityUpToTag# :: Any -> Any -> Int# -- | An arbitrary Haskell value in a safe Box. The point is that even -- unevaluated thunks can safely be moved around inside the Box, and when -- required, e.g. in 'getBoxedClosureData', the function knows how far it has -- to evaluate the argument. data Box = Box Any instance Show Box where -- From libraries/base/GHC/Ptr.lhs showsPrec _ (Box a) rs = -- unsafePerformIO (print "↓" >> pClosure a) `seq` pad_out (showHex addr "") ++ (if tag>0 then "/" ++ show tag else "") ++ rs where ptr = W# (aToWord# a) tag = ptr .&. fromIntegral tAG_MASK -- ((1 `shiftL` TAG_BITS) -1) addr = ptr - tag pad_out ls = '0':'x':ls -- |This takes an arbitrary value and puts it into a box. -- Note that calls like -- -- > asBox (head list) -- -- will put the thunk \"head list\" into the box, /not/ the element at the head -- of the list. For that, use careful case expressions: -- -- > case list of x:_ -> asBox x asBox :: a -> Box asBox x = Box (unsafeCoerce# x) -- | Boxes can be compared, but this is not pure, as different heap objects can, -- after garbage collection, become the same object. areBoxesEqual :: Box -> Box -> IO Bool areBoxesEqual (Box a) (Box b) = case reallyUnsafePtrEqualityUpToTag# a b of 0# -> pure False _ -> pure True ------------------------------------------------------------------------ -- Closures type Closure = GenClosure Box -- | This is the representation of a Haskell value on the heap. It reflects -- <https://gitlab.haskell.org/ghc/ghc/blob/master/includes/rts/storage/Closures.h> -- -- The data type is parametrized by the type to store references in. Usually -- this is a 'Box' with the type synonym 'Closure'. -- -- All Heap objects have the same basic layout. A header containing a pointer -- to the info table and a payload with various fields. The @info@ field below -- always refers to the info table pointed to by the header. The remaining -- fields are the payload. -- -- See -- <https://gitlab.haskell.org/ghc/ghc/wikis/commentary/rts/storage/heap-objects> -- for more information. data GenClosure b = -- | A data constructor ConstrClosure { info :: !StgInfoTable , ptrArgs :: ![b] -- ^ Pointer arguments , dataArgs :: ![Word] -- ^ Non-pointer arguments , pkg :: !String -- ^ Package name , modl :: !String -- ^ Module name , name :: !String -- ^ Constructor name } -- | A function | FunClosure { info :: !StgInfoTable , ptrArgs :: ![b] -- ^ Pointer arguments , dataArgs :: ![Word] -- ^ Non-pointer arguments } -- | A thunk, an expression not obviously in head normal form | ThunkClosure { info :: !StgInfoTable , ptrArgs :: ![b] -- ^ Pointer arguments , dataArgs :: ![Word] -- ^ Non-pointer arguments } -- | A thunk which performs a simple selection operation | SelectorClosure { info :: !StgInfoTable , selectee :: !b -- ^ Pointer to the object being -- selected from } -- | An unsaturated function application | PAPClosure { info :: !StgInfoTable , arity :: !HalfWord -- ^ Arity of the partial application , n_args :: !HalfWord -- ^ Size of the payload in words , fun :: !b -- ^ Pointer to a 'FunClosure' , payload :: ![b] -- ^ Sequence of already applied -- arguments } -- In GHCi, if Linker.h would allow a reverse lookup, we could for exported -- functions fun actually find the name here. -- At least the other direction works via "lookupSymbol -- base_GHCziBase_zpzp_closure" and yields the same address (up to tags) -- | A function application | APClosure { info :: !StgInfoTable , arity :: !HalfWord -- ^ Always 0 , n_args :: !HalfWord -- ^ Size of payload in words , fun :: !b -- ^ Pointer to a 'FunClosure' , payload :: ![b] -- ^ Sequence of already applied -- arguments } -- | A suspended thunk evaluation | APStackClosure { info :: !StgInfoTable , fun :: !b -- ^ Function closure , payload :: ![b] -- ^ Stack right before suspension } -- | A pointer to another closure, introduced when a thunk is updated -- to point at its value | IndClosure { info :: !StgInfoTable , indirectee :: !b -- ^ Target closure } -- | A byte-code object (BCO) which can be interpreted by GHC's byte-code -- interpreter (e.g. as used by GHCi) | BCOClosure { info :: !StgInfoTable , instrs :: !b -- ^ A pointer to an ArrWords -- of instructions , literals :: !b -- ^ A pointer to an ArrWords -- of literals , bcoptrs :: !b -- ^ A pointer to an ArrWords -- of byte code objects , arity :: !HalfWord -- ^ The arity of this BCO , size :: !HalfWord -- ^ The size of this BCO in words , bitmap :: ![Word] -- ^ An StgLargeBitmap describing the -- pointerhood of its args/free vars } -- | A thunk under evaluation by another thread | BlackholeClosure { info :: !StgInfoTable , indirectee :: !b -- ^ The target closure } -- | A @ByteArray#@ | ArrWordsClosure { info :: !StgInfoTable , bytes :: !Word -- ^ Size of array in bytes , arrWords :: ![Word] -- ^ Array payload } -- | A @MutableByteArray#@ | MutArrClosure { info :: !StgInfoTable , mccPtrs :: !Word -- ^ Number of pointers , mccSize :: !Word -- ^ ?? Closures.h vs ClosureMacros.h , mccPayload :: ![b] -- ^ Array payload -- Card table ignored } -- | A @SmallMutableArray#@ -- -- @since 8.10.1 | SmallMutArrClosure { info :: !StgInfoTable , mccPtrs :: !Word -- ^ Number of pointers , mccPayload :: ![b] -- ^ Array payload } -- | An @MVar#@, with a queue of thread state objects blocking on them | MVarClosure { info :: !StgInfoTable , queueHead :: !b -- ^ Pointer to head of queue , queueTail :: !b -- ^ Pointer to tail of queue , value :: !b -- ^ Pointer to closure } -- | A @MutVar#@ | MutVarClosure { info :: !StgInfoTable , var :: !b -- ^ Pointer to contents } -- | An STM blocking queue. | BlockingQueueClosure { info :: !StgInfoTable , link :: !b -- ^ ?? Here so it looks like an IND , blackHole :: !b -- ^ The blackhole closure , owner :: !b -- ^ The owning thread state object , queue :: !b -- ^ ?? } | WeakClosure { info :: !StgInfoTable , cfinalizers :: !b , key :: !b , value :: !b , finalizer :: !b , link :: !b -- ^ next weak pointer for the capability, can be NULL. } ------------------------------------------------------------ -- Unboxed unlifted closures -- | Primitive Int | IntClosure { ptipe :: PrimType , intVal :: !Int } -- | Primitive Word | WordClosure { ptipe :: PrimType , wordVal :: !Word } -- | Primitive Int64 | Int64Closure { ptipe :: PrimType , int64Val :: !Int64 } -- | Primitive Word64 | Word64Closure { ptipe :: PrimType , word64Val :: !Word64 } -- | Primitive Addr | AddrClosure { ptipe :: PrimType , addrVal :: !Int } -- | Primitive Float | FloatClosure { ptipe :: PrimType , floatVal :: !Float } -- | Primitive Double | DoubleClosure { ptipe :: PrimType , doubleVal :: !Double } ----------------------------------------------------------- -- Anything else -- | Another kind of closure | OtherClosure { info :: !StgInfoTable , hvalues :: ![b] , rawWords :: ![Word] } | UnsupportedClosure { info :: !StgInfoTable } deriving (Show, Generic, Functor, Foldable, Traversable) data PrimType = PInt | PWord | PInt64 | PWord64 | PAddr | PFloat | PDouble deriving (Eq, Show, Generic) -- | For generic code, this function returns all referenced closures. allClosures :: GenClosure b -> [b] allClosures (ConstrClosure {..}) = ptrArgs allClosures (ThunkClosure {..}) = ptrArgs allClosures (SelectorClosure {..}) = [selectee] allClosures (IndClosure {..}) = [indirectee] allClosures (BlackholeClosure {..}) = [indirectee] allClosures (APClosure {..}) = fun:payload allClosures (PAPClosure {..}) = fun:payload allClosures (APStackClosure {..}) = fun:payload allClosures (BCOClosure {..}) = [instrs,literals,bcoptrs] allClosures (ArrWordsClosure {}) = [] allClosures (MutArrClosure {..}) = mccPayload allClosures (SmallMutArrClosure {..}) = mccPayload allClosures (MutVarClosure {..}) = [var] allClosures (MVarClosure {..}) = [queueHead,queueTail,value] allClosures (FunClosure {..}) = ptrArgs allClosures (BlockingQueueClosure {..}) = [link, blackHole, owner, queue] allClosures (WeakClosure {..}) = [cfinalizers, key, value, finalizer, link] allClosures (OtherClosure {..}) = hvalues allClosures _ = [] #if __GLASGOW_HASKELL__ >= 809 -- | Get the size of a closure in words. -- -- @since 8.10.1 closureSize :: Box -> Int closureSize (Box x) = I# (closureSize# x) #endif