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authorSylvain Henry <sylvain@haskus.fr>2019-08-13 17:26:32 +0200
committerSylvain Henry <sylvain@haskus.fr>2019-09-10 00:04:50 +0200
commit447864a94a1679b5b079e08bb7208a0005381cef (patch)
treebaa469c52620ce7ae02def3e5e6a6f109cc89f40 /compiler/GHC/StgToCmm.hs
parent270fbe8512f04b6107755fa22bdec62205c0a567 (diff)
downloadhaskell-447864a94a1679b5b079e08bb7208a0005381cef.tar.gz
Module hierarchy: StgToCmm (#13009)
Add StgToCmm module hierarchy. Platform modules that are used in several other places (NCG, LLVM codegen, Cmm transformations) are put into GHC.Platform.
Diffstat (limited to 'compiler/GHC/StgToCmm.hs')
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diff --git a/compiler/GHC/StgToCmm.hs b/compiler/GHC/StgToCmm.hs
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+{-# LANGUAGE CPP #-}
+{-# LANGUAGE DataKinds #-}
+
+-----------------------------------------------------------------------------
+--
+-- Stg to C-- code generation
+--
+-- (c) The University of Glasgow 2004-2006
+--
+-----------------------------------------------------------------------------
+
+module GHC.StgToCmm ( codeGen ) where
+
+#include "HsVersions.h"
+
+import GhcPrelude as Prelude
+
+import GHC.StgToCmm.Prof (initCostCentres, ldvEnter)
+import GHC.StgToCmm.Monad
+import GHC.StgToCmm.Env
+import GHC.StgToCmm.Bind
+import GHC.StgToCmm.Con
+import GHC.StgToCmm.Layout
+import GHC.StgToCmm.Utils
+import GHC.StgToCmm.Closure
+import GHC.StgToCmm.Hpc
+import GHC.StgToCmm.Ticky
+
+import Cmm
+import CmmUtils
+import CLabel
+
+import StgSyn
+import DynFlags
+import ErrUtils
+
+import HscTypes
+import CostCentre
+import Id
+import IdInfo
+import RepType
+import DataCon
+import TyCon
+import Module
+import Outputable
+import Stream
+import BasicTypes
+import VarSet ( isEmptyDVarSet )
+
+import OrdList
+import MkGraph
+
+import Data.IORef
+import Control.Monad (when,void)
+import Util
+
+codeGen :: DynFlags
+ -> Module
+ -> [TyCon]
+ -> CollectedCCs -- (Local/global) cost-centres needing declaring/registering.
+ -> [CgStgTopBinding] -- Bindings to convert
+ -> HpcInfo
+ -> Stream IO CmmGroup () -- Output as a stream, so codegen can
+ -- be interleaved with output
+
+codeGen dflags this_mod data_tycons
+ cost_centre_info stg_binds hpc_info
+ = do { -- cg: run the code generator, and yield the resulting CmmGroup
+ -- Using an IORef to store the state is a bit crude, but otherwise
+ -- we would need to add a state monad layer.
+ ; cgref <- liftIO $ newIORef =<< initC
+ ; let cg :: FCode () -> Stream IO CmmGroup ()
+ cg fcode = do
+ cmm <- liftIO . withTiming (return dflags) (text "STG -> Cmm") (`seq` ()) $ do
+ st <- readIORef cgref
+ let (a,st') = runC dflags this_mod st (getCmm fcode)
+
+ -- NB. stub-out cgs_tops and cgs_stmts. This fixes
+ -- a big space leak. DO NOT REMOVE!
+ writeIORef cgref $! st'{ cgs_tops = nilOL,
+ cgs_stmts = mkNop }
+ return a
+ yield cmm
+
+ -- Note [codegen-split-init] the cmm_init block must come
+ -- FIRST. This is because when -split-objs is on we need to
+ -- combine this block with its initialisation routines; see
+ -- Note [pipeline-split-init].
+ ; cg (mkModuleInit cost_centre_info this_mod hpc_info)
+
+ ; mapM_ (cg . cgTopBinding dflags) stg_binds
+
+ -- Put datatype_stuff after code_stuff, because the
+ -- datatype closure table (for enumeration types) to
+ -- (say) PrelBase_True_closure, which is defined in
+ -- code_stuff
+ ; let do_tycon tycon = do
+ -- Generate a table of static closures for an
+ -- enumeration type Note that the closure pointers are
+ -- tagged.
+ when (isEnumerationTyCon tycon) $ cg (cgEnumerationTyCon tycon)
+ mapM_ (cg . cgDataCon) (tyConDataCons tycon)
+
+ ; mapM_ do_tycon data_tycons
+ }
+
+---------------------------------------------------------------
+-- Top-level bindings
+---------------------------------------------------------------
+
+{- 'cgTopBinding' is only used for top-level bindings, since they need
+to be allocated statically (not in the heap) and need to be labelled.
+No unboxed bindings can happen at top level.
+
+In the code below, the static bindings are accumulated in the
+@MkCgState@, and transferred into the ``statics'' slot by @forkStatics@.
+This is so that we can write the top level processing in a compositional
+style, with the increasing static environment being plumbed as a state
+variable. -}
+
+cgTopBinding :: DynFlags -> CgStgTopBinding -> FCode ()
+cgTopBinding dflags (StgTopLifted (StgNonRec id rhs))
+ = do { let (info, fcode) = cgTopRhs dflags NonRecursive id rhs
+ ; fcode
+ ; addBindC info
+ }
+
+cgTopBinding dflags (StgTopLifted (StgRec pairs))
+ = do { let (bndrs, rhss) = unzip pairs
+ ; let pairs' = zip bndrs rhss
+ r = unzipWith (cgTopRhs dflags Recursive) pairs'
+ (infos, fcodes) = unzip r
+ ; addBindsC infos
+ ; sequence_ fcodes
+ }
+
+cgTopBinding dflags (StgTopStringLit id str)
+ = do { let label = mkBytesLabel (idName id)
+ ; let (lit, decl) = mkByteStringCLit label str
+ ; emitDecl decl
+ ; addBindC (litIdInfo dflags id mkLFStringLit lit)
+ }
+
+cgTopRhs :: DynFlags -> RecFlag -> Id -> CgStgRhs -> (CgIdInfo, FCode ())
+ -- The Id is passed along for setting up a binding...
+
+cgTopRhs dflags _rec bndr (StgRhsCon _cc con args)
+ = cgTopRhsCon dflags bndr con (assertNonVoidStgArgs args)
+ -- con args are always non-void,
+ -- see Note [Post-unarisation invariants] in UnariseStg
+
+cgTopRhs dflags rec bndr (StgRhsClosure fvs cc upd_flag args body)
+ = ASSERT(isEmptyDVarSet fvs) -- There should be no free variables
+ cgTopRhsClosure dflags rec bndr cc upd_flag args body
+
+
+---------------------------------------------------------------
+-- Module initialisation code
+---------------------------------------------------------------
+
+mkModuleInit
+ :: CollectedCCs -- cost centre info
+ -> Module
+ -> HpcInfo
+ -> FCode ()
+
+mkModuleInit cost_centre_info this_mod hpc_info
+ = do { initHpc this_mod hpc_info
+ ; initCostCentres cost_centre_info
+ }
+
+
+---------------------------------------------------------------
+-- Generating static stuff for algebraic data types
+---------------------------------------------------------------
+
+
+cgEnumerationTyCon :: TyCon -> FCode ()
+cgEnumerationTyCon tycon
+ = do dflags <- getDynFlags
+ emitRODataLits (mkLocalClosureTableLabel (tyConName tycon) NoCafRefs)
+ [ CmmLabelOff (mkLocalClosureLabel (dataConName con) NoCafRefs)
+ (tagForCon dflags con)
+ | con <- tyConDataCons tycon]
+
+
+cgDataCon :: DataCon -> FCode ()
+-- Generate the entry code, info tables, and (for niladic constructor)
+-- the static closure, for a constructor.
+cgDataCon data_con
+ = do { dflags <- getDynFlags
+ ; let
+ (tot_wds, -- #ptr_wds + #nonptr_wds
+ ptr_wds) -- #ptr_wds
+ = mkVirtConstrSizes dflags arg_reps
+
+ nonptr_wds = tot_wds - ptr_wds
+
+ dyn_info_tbl =
+ mkDataConInfoTable dflags data_con False ptr_wds nonptr_wds
+
+ -- We're generating info tables, so we don't know and care about
+ -- what the actual arguments are. Using () here as the place holder.
+ arg_reps :: [NonVoid PrimRep]
+ arg_reps = [ NonVoid rep_ty
+ | ty <- dataConRepArgTys data_con
+ , rep_ty <- typePrimRep ty
+ , not (isVoidRep rep_ty) ]
+
+ ; emitClosureAndInfoTable dyn_info_tbl NativeDirectCall [] $
+ -- NB: the closure pointer is assumed *untagged* on
+ -- entry to a constructor. If the pointer is tagged,
+ -- then we should not be entering it. This assumption
+ -- is used in ldvEnter and when tagging the pointer to
+ -- return it.
+ -- NB 2: We don't set CC when entering data (WDP 94/06)
+ do { tickyEnterDynCon
+ ; ldvEnter (CmmReg nodeReg)
+ ; tickyReturnOldCon (length arg_reps)
+ ; void $ emitReturn [cmmOffsetB dflags (CmmReg nodeReg) (tagForCon dflags data_con)]
+ }
+ -- The case continuation code expects a tagged pointer
+ }