X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FcodeGen%2FCgForeignCall.hs;h=e9a542e5d1d9c97de48fda7aabb61d05ce4196e5;hb=e4417dcd4679da9c6b18c02ff667199c572bed89;hp=822a04366c702472172adf2700fe0f5cdc6f2e13;hpb=123e4528172dc8fada65daa168cdb0175f56549f;p=ghc-hetmet.git

diff --git a/compiler/codeGen/CgForeignCall.hs b/compiler/codeGen/CgForeignCall.hs
index 822a043..e9a542e 100644
--- a/compiler/codeGen/CgForeignCall.hs
+++ b/compiler/codeGen/CgForeignCall.hs
@@ -1,8 +1,15 @@
+{-# 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.
 --
--- (c) The University of Glasgow 2004
+-- (c) The University of Glasgow 2004-2006
 --
 -----------------------------------------------------------------------------
 
@@ -19,30 +26,32 @@ module CgForeignCall (
 
 #include "HsVersions.h"
 
-import StgSyn		( StgLiveVars, StgArg, stgArgType )
-import CgProf		( curCCS, curCCSAddr )
-import CgBindery	( getVolatileRegs, getArgAmodes )
+import StgSyn
+import CgProf
+import CgBindery
 import CgMonad
-import CgUtils		( cmmOffsetW, cmmOffsetB, newTemp )
-import Type		( tyConAppTyCon, repType )
+import CgUtils
+import Type
 import TysPrim
-import CLabel		( mkForeignLabel, mkRtsCodeLabel )
+import CLabel
 import Cmm
 import CmmUtils
 import MachOp
 import SMRep
 import ForeignCall
+import ClosureInfo
 import Constants
-import StaticFlags	( opt_SccProfilingOn )
+import StaticFlags
 import Outputable
+import FastString
 
-import Monad		( when )
+import Control.Monad
 
 -- -----------------------------------------------------------------------------
 -- Code generation for Foreign Calls
 
 cgForeignCall
-	:: [(CmmReg,MachHint)]	-- where to put the results
+	:: CmmFormals	-- where to put the results
 	-> ForeignCall		-- the op
 	-> [StgArg]		-- arguments
 	-> StgLiveVars	-- live vars, in case we need to save them
@@ -56,79 +65,94 @@ 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 (typeHint.stgArgType) stg_args)
   -- in
   emitForeignCall results fcall arg_hints live
 
 
 emitForeignCall
-	:: [(CmmReg,MachHint)]	-- where to put the results
+	:: CmmFormals	-- 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.cmmExprRep.hintlessCmm) args))
 	| otherwise            = Nothing
 
 	-- ToDo: this might not be correct for 64-bit API
       arg_size rep = max (machRepByteWidth 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
+	-> CmmFormals	-- 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
-    stmtC (CmmCall target results temp_args vols)
+    let (caller_save, caller_load) = callerSaveVolatileRegs vols
+    stmtsC caller_save
+    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 <- newNonPtrTemp wordRep
+    new_base <- newNonPtrTemp (cmmRegRep (CmmGlobal BaseReg))
     temp_args <- load_args_into_temps args
     temp_target <- load_target_into_temp target
+    let (caller_save, caller_load) = callerSaveVolatileRegs vols
     emitSaveThreadState
-    stmtC (CmmCall (CmmForeignCall suspendThread CCallConv) 
-			[(id,PtrHint)]
-			[ (CmmReg (CmmGlobal BaseReg), PtrHint) ] 
-			vols
-			)
-    stmtC (CmmCall temp_target results temp_args vols)
-    stmtC (CmmCall (CmmForeignCall resumeThread CCallConv) 
-			[ (CmmGlobal BaseReg, PtrHint) ]
-				-- Assign the result to BaseReg: we
-				-- might now have a different
-				-- Capability!
-			[ (CmmReg id, PtrHint) ]
-			vols
-			)
+    stmtsC caller_save
+    -- 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 will be the one to convert that
+    -- to this sequence of three CmmUnsafe calls.
+    stmtC (CmmCall (CmmCallee suspendThread CCallConv) 
+			[ CmmHinted id PtrHint ]
+			[ CmmHinted (CmmReg (CmmGlobal BaseReg)) PtrHint ] 
+			CmmUnsafe ret)
+    stmtC (CmmCall temp_target results temp_args CmmUnsafe ret)
+    stmtC (CmmCall (CmmCallee resumeThread CCallConv) 
+			[ CmmHinted new_base PtrHint ]
+			[ CmmHinted (CmmReg (CmmLocal id)) PtrHint ]
+			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")))
 
@@ -141,24 +165,25 @@ 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 <- newNonPtrTemp (cmmExprRep e) --TODO FIXME NOW
+	stmtC (CmmAssign (CmmLocal reg) e)
+	return (CmmReg (CmmLocal reg))
 
 -- -----------------------------------------------------------------------------
 -- Save/restore the thread state in the TSO
@@ -178,22 +203,22 @@ emitSaveThreadState = do
 emitCloseNursery = stmtC $ CmmStore nursery_bdescr_free (cmmOffsetW stgHp 1)
 
 emitLoadThreadState = do
-  tso <- newTemp wordRep
+  tso <- newNonPtrTemp wordRep -- TODO FIXME NOW
   stmtsC [
 	-- tso = CurrentTSO;
-  	CmmAssign tso stgCurrentTSO,
+  	CmmAssign (CmmLocal tso) stgCurrentTSO,
 	-- Sp = tso->sp;
-	CmmAssign sp (CmmLoad (cmmOffset (CmmReg tso) tso_SP)
+	CmmAssign sp (CmmLoad (cmmOffset (CmmReg (CmmLocal tso)) tso_SP)
 	                      wordRep),
 	-- 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) wordRep))
 
 emitOpenNursery = stmtsC [
         -- Hp = CurrentNursery->free - 1;