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+%
+% (c) The Univserity of Glasgow 1992-2004
+%
+
+ Data structures which describe closures, and
+ operations over those data structures
+
+ Nothing monadic in here
+
+Much of the rationale for these things is in the ``details'' part of
+the STG paper.
+
+\begin{code}
+module ClosureInfo (
+ ClosureInfo, LambdaFormInfo, SMRep, -- all abstract
+ StandardFormInfo,
+
+ ArgDescr(..), Liveness(..),
+ C_SRT(..), needsSRT,
+
+ mkLFThunk, mkLFReEntrant, mkConLFInfo, mkSelectorLFInfo,
+ mkApLFInfo, mkLFImported, mkLFArgument, mkLFLetNoEscape,
+
+ mkClosureInfo, mkConInfo,
+
+ closureSize, closureNonHdrSize,
+ closureGoodStuffSize, closurePtrsSize,
+ slopSize,
+
+ closureName, infoTableLabelFromCI,
+ closureLabelFromCI, closureSRT,
+ closureLFInfo, isLFThunk,closureSMRep, closureUpdReqd,
+ closureNeedsUpdSpace, closureIsThunk,
+ closureSingleEntry, closureReEntrant, isConstrClosure_maybe,
+ closureFunInfo, isStandardFormThunk, isKnownFun,
+
+ enterIdLabel, enterLocalIdLabel, enterReturnPtLabel,
+
+ nodeMustPointToIt,
+ CallMethod(..), getCallMethod,
+
+ blackHoleOnEntry,
+
+ staticClosureRequired,
+ getClosureType,
+
+ isToplevClosure,
+ closureValDescr, closureTypeDescr, -- profiling
+
+ isStaticClosure,
+ cafBlackHoleClosureInfo, seCafBlackHoleClosureInfo,
+
+ staticClosureNeedsLink,
+ ) where
+
+#include "../includes/MachDeps.h"
+#include "HsVersions.h"
+
+import StgSyn
+import SMRep -- all of it
+
+import CLabel
+
+import Constants ( mIN_PAYLOAD_SIZE )
+import Packages ( isDllName, HomeModules )
+import StaticFlags ( opt_SccProfilingOn, opt_OmitBlackHoling,
+ opt_Parallel, opt_DoTickyProfiling )
+import Id ( Id, idType, idArity, idName )
+import DataCon ( DataCon, dataConTyCon, isNullaryRepDataCon, dataConName )
+import Name ( Name, nameUnique, getOccName, getOccString )
+import OccName ( occNameString )
+import Type ( isUnLiftedType, Type, repType, splitTyConApp_maybe )
+import TcType ( tcSplitSigmaTy )
+import TyCon ( isFunTyCon, isAbstractTyCon )
+import BasicTypes ( TopLevelFlag(..), isNotTopLevel, isTopLevel, ipNameName )
+import FastString
+import Outputable
+import Constants
+
+import TypeRep -- TEMP
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-datatypes]{Data types for closure information}
+%* *
+%************************************************************************
+
+Information about a closure, from the code generator's point of view.
+
+A ClosureInfo decribes the info pointer of a closure. It has
+enough information
+ a) to construct the info table itself
+ b) to allocate a closure containing that info pointer (i.e.
+ it knows the info table label)
+
+We make a ClosureInfo for
+ - each let binding (both top level and not)
+ - each data constructor (for its shared static and
+ dynamic info tables)
+
+\begin{code}
+data ClosureInfo
+ = ClosureInfo {
+ closureName :: !Name, -- The thing bound to this closure
+ closureLFInfo :: !LambdaFormInfo, -- NOTE: not an LFCon (see below)
+ closureSMRep :: !SMRep, -- representation used by storage mgr
+ closureSRT :: !C_SRT, -- What SRT applies to this closure
+ closureType :: !Type, -- Type of closure (ToDo: remove)
+ closureDescr :: !String -- closure description (for profiling)
+ }
+
+ -- Constructor closures don't have a unique info table label (they use
+ -- the constructor's info table), and they don't have an SRT.
+ | ConInfo {
+ closureCon :: !DataCon,
+ closureSMRep :: !SMRep,
+ closureDllCon :: !Bool -- is in a separate DLL
+ }
+
+-- C_SRT is what StgSyn.SRT gets translated to...
+-- we add a label for the table, and expect only the 'offset/length' form
+
+data C_SRT = NoC_SRT
+ | C_SRT !CLabel !WordOff !StgHalfWord {-bitmap or escape-}
+
+needsSRT :: C_SRT -> Bool
+needsSRT NoC_SRT = False
+needsSRT (C_SRT _ _ _) = True
+\end{code}
+
+%************************************************************************
+%* *
+\subsubsection[LambdaFormInfo-datatype]{@LambdaFormInfo@: source-derivable info}
+%* *
+%************************************************************************
+
+Information about an identifier, from the code generator's point of
+view. Every identifier is bound to a LambdaFormInfo in the
+environment, which gives the code generator enough info to be able to
+tail call or return that identifier.
+
+Note that a closure is usually bound to an identifier, so a
+ClosureInfo contains a LambdaFormInfo.
+
+\begin{code}
+data LambdaFormInfo
+ = LFReEntrant -- Reentrant closure (a function)
+ TopLevelFlag -- True if top level
+ !Int -- Arity. Invariant: always > 0
+ !Bool -- True <=> no fvs
+ ArgDescr -- Argument descriptor (should reall be in ClosureInfo)
+
+ | LFCon -- A saturated constructor application
+ DataCon -- The constructor
+
+ | LFThunk -- Thunk (zero arity)
+ TopLevelFlag
+ !Bool -- True <=> no free vars
+ !Bool -- True <=> updatable (i.e., *not* single-entry)
+ StandardFormInfo
+ !Bool -- True <=> *might* be a function type
+
+ | LFUnknown -- Used for function arguments and imported things.
+ -- We know nothing about this closure. Treat like
+ -- updatable "LFThunk"...
+ -- Imported things which we do know something about use
+ -- one of the other LF constructors (eg LFReEntrant for
+ -- known functions)
+ !Bool -- True <=> *might* be a function type
+
+ | LFLetNoEscape -- See LetNoEscape module for precise description of
+ -- these "lets".
+ !Int -- arity;
+
+ | LFBlackHole -- Used for the closures allocated to hold the result
+ -- of a CAF. We want the target of the update frame to
+ -- be in the heap, so we make a black hole to hold it.
+ CLabel -- Flavour (info label, eg CAF_BLACKHOLE_info).
+
+
+-------------------------
+-- An ArgDsecr describes the argument pattern of a function
+
+data ArgDescr
+ = ArgSpec -- Fits one of the standard patterns
+ !Int -- RTS type identifier ARG_P, ARG_N, ...
+
+ | ArgGen -- General case
+ Liveness -- Details about the arguments
+
+
+-------------------------
+-- We represent liveness bitmaps as a Bitmap (whose internal
+-- representation really is a bitmap). These are pinned onto case return
+-- vectors to indicate the state of the stack for the garbage collector.
+--
+-- In the compiled program, liveness bitmaps that fit inside a single
+-- word (StgWord) are stored as a single word, while larger bitmaps are
+-- stored as a pointer to an array of words.
+
+data Liveness
+ = SmallLiveness -- Liveness info that fits in one word
+ StgWord -- Here's the bitmap
+
+ | BigLiveness -- Liveness info witha a multi-word bitmap
+ CLabel -- Label for the bitmap
+
+
+-------------------------
+-- StandardFormInfo tells whether this thunk has one of
+-- a small number of standard forms
+
+data StandardFormInfo
+ = NonStandardThunk
+ -- Not of of the standard forms
+
+ | SelectorThunk
+ -- A SelectorThunk is of form
+ -- case x of
+ -- con a1,..,an -> ak
+ -- and the constructor is from a single-constr type.
+ WordOff -- 0-origin offset of ak within the "goods" of
+ -- constructor (Recall that the a1,...,an may be laid
+ -- out in the heap in a non-obvious order.)
+
+ | ApThunk
+ -- An ApThunk is of form
+ -- x1 ... xn
+ -- The code for the thunk just pushes x2..xn on the stack and enters x1.
+ -- There are a few of these (for 1 <= n <= MAX_SPEC_AP_SIZE) pre-compiled
+ -- in the RTS to save space.
+ Int -- Arity, n
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-construction]{Functions which build LFInfos}
+%* *
+%************************************************************************
+
+\begin{code}
+mkLFReEntrant :: TopLevelFlag -- True of top level
+ -> [Id] -- Free vars
+ -> [Id] -- Args
+ -> ArgDescr -- Argument descriptor
+ -> LambdaFormInfo
+
+mkLFReEntrant top fvs args arg_descr
+ = LFReEntrant top (length args) (null fvs) arg_descr
+
+mkLFThunk thunk_ty top fvs upd_flag
+ = ASSERT( not (isUpdatable upd_flag) || not (isUnLiftedType thunk_ty) )
+ LFThunk top (null fvs)
+ (isUpdatable upd_flag)
+ NonStandardThunk
+ (might_be_a_function thunk_ty)
+
+might_be_a_function :: Type -> Bool
+might_be_a_function ty
+ | Just (tc,_) <- splitTyConApp_maybe (repType ty),
+ not (isFunTyCon tc) && not (isAbstractTyCon tc) = False
+ -- don't forget to check for abstract types, which might
+ -- be functions too.
+ | otherwise = True
+\end{code}
+
+@mkConLFInfo@ is similar, for constructors.
+
+\begin{code}
+mkConLFInfo :: DataCon -> LambdaFormInfo
+mkConLFInfo con = LFCon con
+
+mkSelectorLFInfo id offset updatable
+ = LFThunk NotTopLevel False updatable (SelectorThunk offset)
+ (might_be_a_function (idType id))
+
+mkApLFInfo id upd_flag arity
+ = LFThunk NotTopLevel (arity == 0) (isUpdatable upd_flag) (ApThunk arity)
+ (might_be_a_function (idType id))
+\end{code}
+
+Miscellaneous LF-infos.
+
+\begin{code}
+mkLFArgument id = LFUnknown (might_be_a_function (idType id))
+
+mkLFLetNoEscape = LFLetNoEscape
+
+mkLFImported :: Id -> LambdaFormInfo
+mkLFImported id
+ = case idArity id of
+ n | n > 0 -> LFReEntrant TopLevel n True (panic "arg_descr") -- n > 0
+ other -> mkLFArgument id -- Not sure of exact arity
+\end{code}
+
+\begin{code}
+isLFThunk :: LambdaFormInfo -> Bool
+isLFThunk (LFThunk _ _ _ _ _) = True
+isLFThunk (LFBlackHole _) = True
+ -- return True for a blackhole: this function is used to determine
+ -- whether to use the thunk header in SMP mode, and a blackhole
+ -- must have one.
+isLFThunk _ = False
+\end{code}
+
+%************************************************************************
+%* *
+ Building ClosureInfos
+%* *
+%************************************************************************
+
+\begin{code}
+mkClosureInfo :: Bool -- Is static
+ -> Id
+ -> LambdaFormInfo
+ -> Int -> Int -- Total and pointer words
+ -> C_SRT
+ -> String -- String descriptor
+ -> ClosureInfo
+mkClosureInfo is_static id lf_info tot_wds ptr_wds srt_info descr
+ = ClosureInfo { closureName = name,
+ closureLFInfo = lf_info,
+ closureSMRep = sm_rep,
+ closureSRT = srt_info,
+ closureType = idType id,
+ closureDescr = descr }
+ where
+ name = idName id
+ sm_rep = chooseSMRep is_static lf_info tot_wds ptr_wds
+
+mkConInfo :: HomeModules
+ -> Bool -- Is static
+ -> DataCon
+ -> Int -> Int -- Total and pointer words
+ -> ClosureInfo
+mkConInfo hmods is_static data_con tot_wds ptr_wds
+ = ConInfo { closureSMRep = sm_rep,
+ closureCon = data_con,
+ closureDllCon = isDllName hmods (dataConName data_con) }
+ where
+ sm_rep = chooseSMRep is_static (mkConLFInfo data_con) tot_wds ptr_wds
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-sizes]{Functions about closure {\em sizes}}
+%* *
+%************************************************************************
+
+\begin{code}
+closureSize :: ClosureInfo -> WordOff
+closureSize cl_info = hdr_size + closureNonHdrSize cl_info
+ where hdr_size | closureIsThunk cl_info = thunkHdrSize
+ | otherwise = fixedHdrSize
+ -- All thunks use thunkHdrSize, even if they are non-updatable.
+ -- this is because we don't have separate closure types for
+ -- updatable vs. non-updatable thunks, so the GC can't tell the
+ -- difference. If we ever have significant numbers of non-
+ -- updatable thunks, it might be worth fixing this.
+
+closureNonHdrSize :: ClosureInfo -> WordOff
+closureNonHdrSize cl_info
+ = tot_wds + computeSlopSize tot_wds cl_info
+ where
+ tot_wds = closureGoodStuffSize cl_info
+
+closureGoodStuffSize :: ClosureInfo -> WordOff
+closureGoodStuffSize cl_info
+ = let (ptrs, nonptrs) = sizes_from_SMRep (closureSMRep cl_info)
+ in ptrs + nonptrs
+
+closurePtrsSize :: ClosureInfo -> WordOff
+closurePtrsSize cl_info
+ = let (ptrs, _) = sizes_from_SMRep (closureSMRep cl_info)
+ in ptrs
+
+-- not exported:
+sizes_from_SMRep :: SMRep -> (WordOff,WordOff)
+sizes_from_SMRep (GenericRep _ ptrs nonptrs _) = (ptrs, nonptrs)
+sizes_from_SMRep BlackHoleRep = (0, 0)
+\end{code}
+
+Computing slop size. WARNING: this looks dodgy --- it has deep
+knowledge of what the storage manager does with the various
+representations...
+
+Slop Requirements: every thunk gets an extra padding word in the
+header, which takes the the updated value.
+
+\begin{code}
+slopSize cl_info = computeSlopSize payload_size cl_info
+ where payload_size = closureGoodStuffSize cl_info
+
+computeSlopSize :: WordOff -> ClosureInfo -> WordOff
+computeSlopSize payload_size cl_info
+ = max 0 (minPayloadSize smrep updatable - payload_size)
+ where
+ smrep = closureSMRep cl_info
+ updatable = closureNeedsUpdSpace cl_info
+
+-- we leave space for an update if either (a) the closure is updatable
+-- or (b) it is a static thunk. This is because a static thunk needs
+-- a static link field in a predictable place (after the slop), regardless
+-- of whether it is updatable or not.
+closureNeedsUpdSpace (ClosureInfo { closureLFInfo =
+ LFThunk TopLevel _ _ _ _ }) = True
+closureNeedsUpdSpace cl_info = closureUpdReqd cl_info
+
+minPayloadSize :: SMRep -> Bool -> WordOff
+minPayloadSize smrep updatable
+ = case smrep of
+ BlackHoleRep -> min_upd_size
+ GenericRep _ _ _ _ | updatable -> min_upd_size
+ GenericRep True _ _ _ -> 0 -- static
+ GenericRep False _ _ _ -> mIN_PAYLOAD_SIZE
+ -- ^^^^^___ dynamic
+ where
+ min_upd_size =
+ ASSERT(mIN_PAYLOAD_SIZE <= sIZEOF_StgSMPThunkHeader)
+ 0 -- check that we already have enough
+ -- room for mIN_SIZE_NonUpdHeapObject,
+ -- due to the extra header word in SMP
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[SMreps]{Choosing SM reps}
+%* *
+%************************************************************************
+
+\begin{code}
+chooseSMRep
+ :: Bool -- True <=> static closure
+ -> LambdaFormInfo
+ -> WordOff -> WordOff -- Tot wds, ptr wds
+ -> SMRep
+
+chooseSMRep is_static lf_info tot_wds ptr_wds
+ = let
+ nonptr_wds = tot_wds - ptr_wds
+ closure_type = getClosureType is_static ptr_wds lf_info
+ in
+ GenericRep is_static ptr_wds nonptr_wds closure_type
+
+-- We *do* get non-updatable top-level thunks sometimes. eg. f = g
+-- gets compiled to a jump to g (if g has non-zero arity), instead of
+-- messing around with update frames and PAPs. We set the closure type
+-- to FUN_STATIC in this case.
+
+getClosureType :: Bool -> WordOff -> LambdaFormInfo -> ClosureType
+getClosureType is_static ptr_wds lf_info
+ = case lf_info of
+ LFCon con | is_static && ptr_wds == 0 -> ConstrNoCaf
+ | otherwise -> Constr
+ LFReEntrant _ _ _ _ -> Fun
+ LFThunk _ _ _ (SelectorThunk _) _ -> ThunkSelector
+ LFThunk _ _ _ _ _ -> Thunk
+ _ -> panic "getClosureType"
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-4-questions]{Four major questions about @ClosureInfo@}
+%* *
+%************************************************************************
+
+Be sure to see the stg-details notes about these...
+
+\begin{code}
+nodeMustPointToIt :: LambdaFormInfo -> Bool
+nodeMustPointToIt (LFReEntrant top _ no_fvs _)
+ = not no_fvs || -- Certainly if it has fvs we need to point to it
+ isNotTopLevel top
+ -- If it is not top level we will point to it
+ -- We can have a \r closure with no_fvs which
+ -- is not top level as special case cgRhsClosure
+ -- has been dissabled in favour of let floating
+
+ -- For lex_profiling we also access the cost centre for a
+ -- non-inherited function i.e. not top level
+ -- the not top case above ensures this is ok.
+
+nodeMustPointToIt (LFCon _) = True
+
+ -- Strictly speaking, the above two don't need Node to point
+ -- to it if the arity = 0. But this is a *really* unlikely
+ -- situation. If we know it's nil (say) and we are entering
+ -- it. Eg: let x = [] in x then we will certainly have inlined
+ -- x, since nil is a simple atom. So we gain little by not
+ -- having Node point to known zero-arity things. On the other
+ -- hand, we do lose something; Patrick's code for figuring out
+ -- when something has been updated but not entered relies on
+ -- having Node point to the result of an update. SLPJ
+ -- 27/11/92.
+
+nodeMustPointToIt (LFThunk _ no_fvs updatable NonStandardThunk _)
+ = updatable || not no_fvs || opt_SccProfilingOn
+ -- For the non-updatable (single-entry case):
+ --
+ -- True if has fvs (in which case we need access to them, and we
+ -- should black-hole it)
+ -- or profiling (in which case we need to recover the cost centre
+ -- from inside it)
+
+nodeMustPointToIt (LFThunk _ no_fvs updatable some_standard_form_thunk _)
+ = True -- Node must point to any standard-form thunk
+
+nodeMustPointToIt (LFUnknown _) = True
+nodeMustPointToIt (LFBlackHole _) = True -- BH entry may require Node to point
+nodeMustPointToIt (LFLetNoEscape _) = False
+\end{code}
+
+The entry conventions depend on the type of closure being entered,
+whether or not it has free variables, and whether we're running
+sequentially or in parallel.
+
+\begin{tabular}{lllll}
+Closure Characteristics & Parallel & Node Req'd & Argument Passing & Enter Via \\
+Unknown & no & yes & stack & node \\
+Known fun ($\ge$ 1 arg), no fvs & no & no & registers & fast entry (enough args) \\
+\ & \ & \ & \ & slow entry (otherwise) \\
+Known fun ($\ge$ 1 arg), fvs & no & yes & registers & fast entry (enough args) \\
+0 arg, no fvs @\r,\s@ & no & no & n/a & direct entry \\
+0 arg, no fvs @\u@ & no & yes & n/a & node \\
+0 arg, fvs @\r,\s@ & no & yes & n/a & direct entry \\
+0 arg, fvs @\u@ & no & yes & n/a & node \\
+
+Unknown & yes & yes & stack & node \\
+Known fun ($\ge$ 1 arg), no fvs & yes & no & registers & fast entry (enough args) \\
+\ & \ & \ & \ & slow entry (otherwise) \\
+Known fun ($\ge$ 1 arg), fvs & yes & yes & registers & node \\
+0 arg, no fvs @\r,\s@ & yes & no & n/a & direct entry \\
+0 arg, no fvs @\u@ & yes & yes & n/a & node \\
+0 arg, fvs @\r,\s@ & yes & yes & n/a & node \\
+0 arg, fvs @\u@ & yes & yes & n/a & node\\
+\end{tabular}
+
+When black-holing, single-entry closures could also be entered via node
+(rather than directly) to catch double-entry.
+
+\begin{code}
+data CallMethod
+ = EnterIt -- no args, not a function
+
+ | JumpToIt CLabel -- no args, not a function, but we
+ -- know what its entry code is
+
+ | ReturnIt -- it's a function, but we have
+ -- zero args to apply to it, so just
+ -- return it.
+
+ | ReturnCon DataCon -- It's a data constructor, just return it
+
+ | SlowCall -- Unknown fun, or known fun with
+ -- too few args.
+
+ | DirectEntry -- Jump directly, with args in regs
+ CLabel -- The code label
+ Int -- Its arity
+
+getCallMethod :: HomeModules
+ -> Name -- Function being applied
+ -> LambdaFormInfo -- Its info
+ -> Int -- Number of available arguments
+ -> CallMethod
+
+getCallMethod hmods name lf_info n_args
+ | nodeMustPointToIt lf_info && opt_Parallel
+ = -- If we're parallel, then we must always enter via node.
+ -- The reason is that the closure may have been
+ -- fetched since we allocated it.
+ EnterIt
+
+getCallMethod hmods name (LFReEntrant _ arity _ _) n_args
+ | n_args == 0 = ASSERT( arity /= 0 )
+ ReturnIt -- No args at all
+ | n_args < arity = SlowCall -- Not enough args
+ | otherwise = DirectEntry (enterIdLabel hmods name) arity
+
+getCallMethod hmods name (LFCon con) n_args
+ = ASSERT( n_args == 0 )
+ ReturnCon con
+
+getCallMethod hmods name (LFThunk _ _ updatable std_form_info is_fun) n_args
+ | is_fun -- Must always "call" a function-typed
+ = SlowCall -- thing, cannot just enter it [in eval/apply, the entry code
+ -- is the fast-entry code]
+
+ | updatable || opt_DoTickyProfiling -- to catch double entry
+ {- OLD: || opt_SMP
+ I decided to remove this, because in SMP mode it doesn't matter
+ if we enter the same thunk multiple times, so the optimisation
+ of jumping directly to the entry code is still valid. --SDM
+ -}
+ = ASSERT( n_args == 0 ) EnterIt
+
+ | otherwise -- Jump direct to code for single-entry thunks
+ = ASSERT( n_args == 0 )
+ JumpToIt (thunkEntryLabel hmods name std_form_info updatable)
+
+getCallMethod hmods name (LFUnknown True) n_args
+ = SlowCall -- might be a function
+
+getCallMethod hmods name (LFUnknown False) n_args
+ = ASSERT2 ( n_args == 0, ppr name <+> ppr n_args )
+ EnterIt -- Not a function
+
+getCallMethod hmods name (LFBlackHole _) n_args
+ = SlowCall -- Presumably the black hole has by now
+ -- been updated, but we don't know with
+ -- what, so we slow call it
+
+getCallMethod hmods name (LFLetNoEscape 0) n_args
+ = JumpToIt (enterReturnPtLabel (nameUnique name))
+
+getCallMethod hmods name (LFLetNoEscape arity) n_args
+ | n_args == arity = DirectEntry (enterReturnPtLabel (nameUnique name)) arity
+ | otherwise = pprPanic "let-no-escape: " (ppr name <+> ppr arity)
+
+blackHoleOnEntry :: ClosureInfo -> Bool
+-- Static closures are never themselves black-holed.
+-- Updatable ones will be overwritten with a CAFList cell, which points to a
+-- black hole;
+-- Single-entry ones have no fvs to plug, and we trust they don't form part
+-- of a loop.
+
+blackHoleOnEntry ConInfo{} = False
+blackHoleOnEntry (ClosureInfo { closureLFInfo = lf_info, closureSMRep = rep })
+ | isStaticRep rep
+ = False -- Never black-hole a static closure
+
+ | otherwise
+ = case lf_info of
+ LFReEntrant _ _ _ _ -> False
+ LFLetNoEscape _ -> False
+ LFThunk _ no_fvs updatable _ _
+ -> if updatable
+ then not opt_OmitBlackHoling
+ else opt_DoTickyProfiling || not no_fvs
+ -- the former to catch double entry,
+ -- and the latter to plug space-leaks. KSW/SDM 1999-04.
+
+ other -> panic "blackHoleOnEntry" -- Should never happen
+
+isStandardFormThunk :: LambdaFormInfo -> Bool
+isStandardFormThunk (LFThunk _ _ _ (SelectorThunk _) _) = True
+isStandardFormThunk (LFThunk _ _ _ (ApThunk _) _) = True
+isStandardFormThunk other_lf_info = False
+
+isKnownFun :: LambdaFormInfo -> Bool
+isKnownFun (LFReEntrant _ _ _ _) = True
+isKnownFun (LFLetNoEscape _) = True
+isKnownFun _ = False
+\end{code}
+
+-----------------------------------------------------------------------------
+SRT-related stuff
+
+\begin{code}
+staticClosureNeedsLink :: ClosureInfo -> Bool
+-- A static closure needs a link field to aid the GC when traversing
+-- the static closure graph. But it only needs such a field if either
+-- a) it has an SRT
+-- b) it's a constructor with one or more pointer fields
+-- In case (b), the constructor's fields themselves play the role
+-- of the SRT.
+staticClosureNeedsLink (ClosureInfo { closureSRT = srt })
+ = needsSRT srt
+staticClosureNeedsLink (ConInfo { closureSMRep = sm_rep, closureCon = con })
+ = not (isNullaryRepDataCon con) && not_nocaf_constr
+ where
+ not_nocaf_constr =
+ case sm_rep of
+ GenericRep _ _ _ ConstrNoCaf -> False
+ _other -> True
+\end{code}
+
+Avoiding generating entries and info tables
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+At present, for every function we generate all of the following,
+just in case. But they aren't always all needed, as noted below:
+
+[NB1: all of this applies only to *functions*. Thunks always
+have closure, info table, and entry code.]
+
+[NB2: All are needed if the function is *exported*, just to play safe.]
+
+
+* Fast-entry code ALWAYS NEEDED
+
+* Slow-entry code
+ Needed iff (a) we have any un-saturated calls to the function
+ OR (b) the function is passed as an arg
+ OR (c) we're in the parallel world and the function has free vars
+ [Reason: in parallel world, we always enter functions
+ with free vars via the closure.]
+
+* The function closure
+ Needed iff (a) we have any un-saturated calls to the function
+ OR (b) the function is passed as an arg
+ OR (c) if the function has free vars (ie not top level)
+
+ Why case (a) here? Because if the arg-satis check fails,
+ UpdatePAP stuffs a pointer to the function closure in the PAP.
+ [Could be changed; UpdatePAP could stuff in a code ptr instead,
+ but doesn't seem worth it.]
+
+ [NB: these conditions imply that we might need the closure
+ without the slow-entry code. Here's how.
+
+ f x y = let g w = ...x..y..w...
+ in
+ ...(g t)...
+
+ Here we need a closure for g which contains x and y,
+ but since the calls are all saturated we just jump to the
+ fast entry point for g, with R1 pointing to the closure for g.]
+
+
+* Standard info table
+ Needed iff (a) we have any un-saturated calls to the function
+ OR (b) the function is passed as an arg
+ OR (c) the function has free vars (ie not top level)
+
+ NB. In the sequential world, (c) is only required so that the function closure has
+ an info table to point to, to keep the storage manager happy.
+ If (c) alone is true we could fake up an info table by choosing
+ one of a standard family of info tables, whose entry code just
+ bombs out.
+
+ [NB In the parallel world (c) is needed regardless because
+ we enter functions with free vars via the closure.]
+
+ If (c) is retained, then we'll sometimes generate an info table
+ (for storage mgr purposes) without slow-entry code. Then we need
+ to use an error label in the info table to substitute for the absent
+ slow entry code.
+
+\begin{code}
+staticClosureRequired
+ :: Name
+ -> StgBinderInfo
+ -> LambdaFormInfo
+ -> Bool
+staticClosureRequired binder bndr_info
+ (LFReEntrant top_level _ _ _) -- It's a function
+ = ASSERT( isTopLevel top_level )
+ -- Assumption: it's a top-level, no-free-var binding
+ not (satCallsOnly bndr_info)
+
+staticClosureRequired binder other_binder_info other_lf_info = True
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-misc-funs]{Misc functions about @ClosureInfo@, etc.}
+%* *
+%************************************************************************
+
+\begin{code}
+
+isStaticClosure :: ClosureInfo -> Bool
+isStaticClosure cl_info = isStaticRep (closureSMRep cl_info)
+
+closureUpdReqd :: ClosureInfo -> Bool
+closureUpdReqd ClosureInfo{ closureLFInfo = lf_info } = lfUpdatable lf_info
+closureUpdReqd ConInfo{} = False
+
+lfUpdatable :: LambdaFormInfo -> Bool
+lfUpdatable (LFThunk _ _ upd _ _) = upd
+lfUpdatable (LFBlackHole _) = True
+ -- Black-hole closures are allocated to receive the results of an
+ -- alg case with a named default... so they need to be updated.
+lfUpdatable _ = False
+
+closureIsThunk :: ClosureInfo -> Bool
+closureIsThunk ClosureInfo{ closureLFInfo = lf_info } = isLFThunk lf_info
+closureIsThunk ConInfo{} = False
+
+closureSingleEntry :: ClosureInfo -> Bool
+closureSingleEntry (ClosureInfo { closureLFInfo = LFThunk _ _ upd _ _}) = not upd
+closureSingleEntry other_closure = False
+
+closureReEntrant :: ClosureInfo -> Bool
+closureReEntrant (ClosureInfo { closureLFInfo = LFReEntrant _ _ _ _ }) = True
+closureReEntrant other_closure = False
+
+isConstrClosure_maybe :: ClosureInfo -> Maybe DataCon
+isConstrClosure_maybe (ConInfo { closureCon = data_con }) = Just data_con
+isConstrClosure_maybe _ = Nothing
+
+closureFunInfo :: ClosureInfo -> Maybe (Int, ArgDescr)
+closureFunInfo (ClosureInfo { closureLFInfo = LFReEntrant _ arity _ arg_desc})
+ = Just (arity, arg_desc)
+closureFunInfo _
+ = Nothing
+\end{code}
+
+\begin{code}
+isToplevClosure :: ClosureInfo -> Bool
+isToplevClosure (ClosureInfo { closureLFInfo = lf_info })
+ = case lf_info of
+ LFReEntrant TopLevel _ _ _ -> True
+ LFThunk TopLevel _ _ _ _ -> True
+ other -> False
+isToplevClosure _ = False
+\end{code}
+
+Label generation.
+
+\begin{code}
+infoTableLabelFromCI :: ClosureInfo -> CLabel
+infoTableLabelFromCI (ClosureInfo { closureName = name,
+ closureLFInfo = lf_info,
+ closureSMRep = rep })
+ = case lf_info of
+ LFBlackHole info -> info
+
+ LFThunk _ _ upd_flag (SelectorThunk offset) _ ->
+ mkSelectorInfoLabel upd_flag offset
+
+ LFThunk _ _ upd_flag (ApThunk arity) _ ->
+ mkApInfoTableLabel upd_flag arity
+
+ LFThunk{} -> mkLocalInfoTableLabel name
+
+ LFReEntrant _ _ _ _ -> mkLocalInfoTableLabel name
+
+ other -> panic "infoTableLabelFromCI"
+
+infoTableLabelFromCI (ConInfo { closureCon = con,
+ closureSMRep = rep,
+ closureDllCon = dll })
+ | isStaticRep rep = mkStaticInfoTableLabel name dll
+ | otherwise = mkConInfoTableLabel name dll
+ where
+ name = dataConName con
+
+-- ClosureInfo for a closure (as opposed to a constructor) is always local
+closureLabelFromCI (ClosureInfo { closureName = nm }) = mkLocalClosureLabel nm
+closureLabelFromCI _ = panic "closureLabelFromCI"
+
+-- thunkEntryLabel is a local help function, not exported. It's used from both
+-- entryLabelFromCI and getCallMethod.
+
+thunkEntryLabel hmods thunk_id (ApThunk arity) is_updatable
+ = enterApLabel is_updatable arity
+thunkEntryLabel hmods thunk_id (SelectorThunk offset) upd_flag
+ = enterSelectorLabel upd_flag offset
+thunkEntryLabel hmods thunk_id _ is_updatable
+ = enterIdLabel hmods thunk_id
+
+enterApLabel is_updatable arity
+ | tablesNextToCode = mkApInfoTableLabel is_updatable arity
+ | otherwise = mkApEntryLabel is_updatable arity
+
+enterSelectorLabel upd_flag offset
+ | tablesNextToCode = mkSelectorInfoLabel upd_flag offset
+ | otherwise = mkSelectorEntryLabel upd_flag offset
+
+enterIdLabel hmods id
+ | tablesNextToCode = mkInfoTableLabel hmods id
+ | otherwise = mkEntryLabel hmods id
+
+enterLocalIdLabel id
+ | tablesNextToCode = mkLocalInfoTableLabel id
+ | otherwise = mkLocalEntryLabel id
+
+enterReturnPtLabel name
+ | tablesNextToCode = mkReturnInfoLabel name
+ | otherwise = mkReturnPtLabel name
+\end{code}
+
+
+We need a black-hole closure info to pass to @allocDynClosure@ when we
+want to allocate the black hole on entry to a CAF. These are the only
+ways to build an LFBlackHole, maintaining the invariant that it really
+is a black hole and not something else.
+
+\begin{code}
+cafBlackHoleClosureInfo (ClosureInfo { closureName = nm,
+ closureType = ty })
+ = ClosureInfo { closureName = nm,
+ closureLFInfo = LFBlackHole mkCAFBlackHoleInfoTableLabel,
+ closureSMRep = BlackHoleRep,
+ closureSRT = NoC_SRT,
+ closureType = ty,
+ closureDescr = "" }
+cafBlackHoleClosureInfo _ = panic "cafBlackHoleClosureInfo"
+
+seCafBlackHoleClosureInfo (ClosureInfo { closureName = nm,
+ closureType = ty })
+ = ClosureInfo { closureName = nm,
+ closureLFInfo = LFBlackHole mkSECAFBlackHoleInfoTableLabel,
+ closureSMRep = BlackHoleRep,
+ closureSRT = NoC_SRT,
+ closureType = ty,
+ closureDescr = "" }
+seCafBlackHoleClosureInfo _ = panic "seCafBlackHoleClosureInfo"
+\end{code}
+
+%************************************************************************
+%* *
+\subsection[ClosureInfo-Profiling-funs]{Misc functions about for profiling info.}
+%* *
+%************************************************************************
+
+Profiling requires two pieces of information to be determined for
+each closure's info table --- description and type.
+
+The description is stored directly in the @CClosureInfoTable@ when the
+info table is built.
+
+The type is determined from the type information stored with the @Id@
+in the closure info using @closureTypeDescr@.
+
+\begin{code}
+closureValDescr, closureTypeDescr :: ClosureInfo -> String
+closureValDescr (ClosureInfo {closureDescr = descr})
+ = descr
+closureValDescr (ConInfo {closureCon = con})
+ = occNameString (getOccName con)
+
+closureTypeDescr (ClosureInfo { closureType = ty })
+ = getTyDescription ty
+closureTypeDescr (ConInfo { closureCon = data_con })
+ = occNameString (getOccName (dataConTyCon data_con))
+
+getTyDescription :: Type -> String
+getTyDescription ty
+ = case (tcSplitSigmaTy ty) of { (_, _, tau_ty) ->
+ case tau_ty of
+ TyVarTy _ -> "*"
+ AppTy fun _ -> getTyDescription fun
+ FunTy _ res -> '-' : '>' : fun_result res
+ TyConApp tycon _ -> getOccString tycon
+ NoteTy (FTVNote _) ty -> getTyDescription ty
+ PredTy sty -> getPredTyDescription sty
+ ForAllTy _ ty -> getTyDescription ty
+ }
+ where
+ fun_result (FunTy _ res) = '>' : fun_result res
+ fun_result other = getTyDescription other
+
+getPredTyDescription (ClassP cl tys) = getOccString cl
+getPredTyDescription (IParam ip ty) = getOccString (ipNameName ip)
+\end{code}
+
+
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