X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FcodeGen%2FCgForeignCall.hs;h=6e338061b46c1c471ac9370ef98465adef7b8972;hb=8a14a210f12644e5d6ef92fdfcddc8613eae0b2c;hp=c4af511b84243d0d2402afe434800d9654f06e43;hpb=bd3a364da7956c269d31645995d0d775c52f6a84;p=ghc-hetmet.git diff --git a/compiler/codeGen/CgForeignCall.hs b/compiler/codeGen/CgForeignCall.hs index c4af511..6e33806 100644 --- a/compiler/codeGen/CgForeignCall.hs +++ b/compiler/codeGen/CgForeignCall.hs @@ -1,3 +1,10 @@ +{-# OPTIONS -w #-} +-- The above warning supression flag is a temporary kludge. +-- While working on this module you are encouraged to remove it and fix +-- any warnings in the module. See +-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings +-- for details + ----------------------------------------------------------------------------- -- -- Code generation for foreign calls. @@ -17,8 +24,6 @@ module CgForeignCall ( emitOpenNursery, ) where -#include "HsVersions.h" - import StgSyn import CgProf import CgBindery @@ -29,18 +34,13 @@ import TysPrim import CLabel import Cmm import CmmUtils -import MachOp import SMRep import ForeignCall +import ClosureInfo import Constants import StaticFlags import Outputable - -import MachRegs (callerSaveVolatileRegs) - -- HACK: this is part of the NCG so we shouldn't use this, but we need - -- it for now to eliminate the need for saved regs to be in CmmCall. - -- The long term solution is to factor callerSaveVolatileRegs - -- from nativeGen into codeGen +import FastString import Control.Monad @@ -48,7 +48,7 @@ import Control.Monad -- Code generation for Foreign Calls cgForeignCall - :: [(CmmReg,MachHint)] -- where to put the results + :: HintedCmmFormals -- where to put the results -> ForeignCall -- the op -> [StgArg] -- arguments -> StgLiveVars -- live vars, in case we need to save them @@ -62,84 +62,96 @@ cgForeignCall results fcall stg_args live | (stg_arg, (rep,expr)) <- stg_args `zip` reps_n_amodes, nonVoidArg rep] - arg_hints = zip arg_exprs (map (typeHint.stgArgType) stg_args) + arg_hints = zipWith CmmHinted + arg_exprs (map (typeForeignHint.stgArgType) stg_args) -- in emitForeignCall results fcall arg_hints live emitForeignCall - :: [(CmmReg,MachHint)] -- where to put the results + :: HintedCmmFormals -- where to put the results -> ForeignCall -- the op - -> [(CmmExpr,MachHint)] -- arguments + -> [CmmHinted CmmExpr] -- arguments -> StgLiveVars -- live vars, in case we need to save them -> Code emitForeignCall results (CCall (CCallSpec target cconv safety)) args live = do vols <- getVolatileRegs live + srt <- getSRTInfo emitForeignCall' safety results - (CmmForeignCall cmm_target cconv) call_args (Just vols) + (CmmCallee cmm_target cconv) call_args (Just vols) srt CmmMayReturn where (call_args, cmm_target) = case target of StaticTarget lbl -> (args, CmmLit (CmmLabel (mkForeignLabel lbl call_size False))) - DynamicTarget -> case args of (fn,_):rest -> (rest, fn) + DynamicTarget -> case args of (CmmHinted fn _):rest -> (rest, fn) -- in the stdcall calling convention, the symbol needs @size appended -- to it, where size is the total number of bytes of arguments. We -- attach this info to the CLabel here, and the CLabel pretty printer -- will generate the suffix when the label is printed. call_size - | StdCallConv <- cconv = Just (sum (map (arg_size.cmmExprRep.fst) args)) + | StdCallConv <- cconv = Just (sum (map (arg_size.cmmExprType.hintlessCmm) args)) | otherwise = Nothing -- ToDo: this might not be correct for 64-bit API - arg_size rep = max (machRepByteWidth rep) wORD_SIZE + arg_size rep = max (widthInBytes (typeWidth rep)) wORD_SIZE -emitForeignCall results (DNCall _) args live +emitForeignCall _ (DNCall _) _ _ = panic "emitForeignCall: DNCall" -- alternative entry point, used by CmmParse emitForeignCall' :: Safety - -> [(CmmReg,MachHint)] -- where to put the results + -> HintedCmmFormals -- where to put the results -> CmmCallTarget -- the op - -> [(CmmExpr,MachHint)] -- arguments + -> [CmmHinted CmmExpr] -- arguments -> Maybe [GlobalReg] -- live vars, in case we need to save them + -> C_SRT -- the SRT of the calls continuation + -> CmmReturnInfo -> Code -emitForeignCall' safety results target args vols +emitForeignCall' safety results target args vols srt ret | not (playSafe safety) = do temp_args <- load_args_into_temps args let (caller_save, caller_load) = callerSaveVolatileRegs vols stmtsC caller_save - stmtC (CmmCall target results temp_args) + stmtC (CmmCall target results temp_args CmmUnsafe ret) stmtsC caller_load | otherwise = do - id <- newTemp wordRep + -- Both 'id' and 'new_base' are GCKindNonPtr because they're + -- RTS only objects and are not subject to garbage collection + id <- newTemp bWord + new_base <- newTemp (cmmRegType (CmmGlobal BaseReg)) temp_args <- load_args_into_temps args temp_target <- load_target_into_temp target let (caller_save, caller_load) = callerSaveVolatileRegs vols emitSaveThreadState stmtsC caller_save - stmtC (CmmCall (CmmForeignCall suspendThread CCallConv) - [(id,PtrHint)] - [ (CmmReg (CmmGlobal BaseReg), PtrHint) ] - ) - stmtC (CmmCall temp_target results temp_args) - stmtC (CmmCall (CmmForeignCall resumeThread CCallConv) - [ (CmmGlobal BaseReg, PtrHint) ] - -- Assign the result to BaseReg: we - -- might now have a different - -- Capability! - [ (CmmReg id, PtrHint) ] - ) + -- The CmmUnsafe arguments are only correct because this part + -- of the code hasn't been moved into the CPS pass yet. + -- Once that happens, this function will just emit a (CmmSafe srt) call, + -- and the CPS will be the one to convert that + -- to this sequence of three CmmUnsafe calls. + stmtC (CmmCall (CmmCallee suspendThread CCallConv) + [ CmmHinted id AddrHint ] + [ CmmHinted (CmmReg (CmmGlobal BaseReg)) AddrHint ] + CmmUnsafe ret) + stmtC (CmmCall temp_target results temp_args CmmUnsafe ret) + stmtC (CmmCall (CmmCallee resumeThread CCallConv) + [ CmmHinted new_base AddrHint ] + [ CmmHinted (CmmReg (CmmLocal id)) AddrHint ] + CmmUnsafe ret) + -- Assign the result to BaseReg: we + -- might now have a different Capability! + stmtC (CmmAssign (CmmGlobal BaseReg) (CmmReg (CmmLocal new_base))) stmtsC caller_load emitLoadThreadState -suspendThread = CmmLit (CmmLabel (mkRtsCodeLabel SLIT("suspendThread"))) -resumeThread = CmmLit (CmmLabel (mkRtsCodeLabel SLIT("resumeThread"))) +suspendThread = CmmLit (CmmLabel (mkRtsCodeLabel (sLit "suspendThread"))) +resumeThread = CmmLit (CmmLabel (mkRtsCodeLabel (sLit "resumeThread"))) -- we might need to load arguments into temporaries before @@ -150,24 +162,25 @@ resumeThread = CmmLit (CmmLabel (mkRtsCodeLabel SLIT("resumeThread"))) -- This is a HACK; really it should be done in the back end, but -- it's easier to generate the temporaries here. load_args_into_temps = mapM arg_assign_temp - where arg_assign_temp (e,hint) = do + where arg_assign_temp (CmmHinted e hint) = do tmp <- maybe_assign_temp e - return (tmp,hint) + return (CmmHinted tmp hint) -load_target_into_temp (CmmForeignCall expr conv) = do +load_target_into_temp (CmmCallee expr conv) = do tmp <- maybe_assign_temp expr - return (CmmForeignCall tmp conv) -load_target_info_temp other_target = + return (CmmCallee tmp conv) +load_target_into_temp other_target = return other_target maybe_assign_temp e | hasNoGlobalRegs e = return e | otherwise = do -- don't use assignTemp, it uses its own notion of "trivial" - -- expressions, which are wrong here - reg <- newTemp (cmmExprRep e) - stmtC (CmmAssign reg e) - return (CmmReg reg) + -- expressions, which are wrong here. + -- this is a NonPtr because it only duplicates an existing + reg <- newTemp (cmmExprType e) --TODO FIXME NOW + stmtC (CmmAssign (CmmLocal reg) e) + return (CmmReg (CmmLocal reg)) -- ----------------------------------------------------------------------------- -- Save/restore the thread state in the TSO @@ -187,36 +200,36 @@ emitSaveThreadState = do emitCloseNursery = stmtC $ CmmStore nursery_bdescr_free (cmmOffsetW stgHp 1) emitLoadThreadState = do - tso <- newTemp wordRep + tso <- newTemp bWord -- TODO FIXME NOW stmtsC [ -- tso = CurrentTSO; - CmmAssign tso stgCurrentTSO, + CmmAssign (CmmLocal tso) stgCurrentTSO, -- Sp = tso->sp; - CmmAssign sp (CmmLoad (cmmOffset (CmmReg tso) tso_SP) - wordRep), + CmmAssign sp (CmmLoad (cmmOffset (CmmReg (CmmLocal tso)) tso_SP) + bWord), -- SpLim = tso->stack + RESERVED_STACK_WORDS; - CmmAssign spLim (cmmOffsetW (cmmOffset (CmmReg tso) tso_STACK) + CmmAssign spLim (cmmOffsetW (cmmOffset (CmmReg (CmmLocal tso)) tso_STACK) rESERVED_STACK_WORDS) ] emitOpenNursery -- and load the current cost centre stack from the TSO when profiling: when opt_SccProfilingOn $ stmtC (CmmStore curCCSAddr - (CmmLoad (cmmOffset (CmmReg tso) tso_CCCS) wordRep)) + (CmmLoad (cmmOffset (CmmReg (CmmLocal tso)) tso_CCCS) bWord)) emitOpenNursery = stmtsC [ -- Hp = CurrentNursery->free - 1; - CmmAssign hp (cmmOffsetW (CmmLoad nursery_bdescr_free wordRep) (-1)), + CmmAssign hp (cmmOffsetW (CmmLoad nursery_bdescr_free gcWord) (-1)), -- HpLim = CurrentNursery->start + -- CurrentNursery->blocks*BLOCK_SIZE_W - 1; CmmAssign hpLim (cmmOffsetExpr - (CmmLoad nursery_bdescr_start wordRep) + (CmmLoad nursery_bdescr_start bWord) (cmmOffset (CmmMachOp mo_wordMul [ - CmmMachOp (MO_S_Conv I32 wordRep) - [CmmLoad nursery_bdescr_blocks I32], + CmmMachOp (MO_SS_Conv W32 wordWidth) + [CmmLoad nursery_bdescr_blocks b32], CmmLit (mkIntCLit bLOCK_SIZE) ]) (-1)