module MkZipCfgCmm
( mkNop, mkAssign, mkStore, mkCall, mkCmmCall, mkSafeCall, mkUnsafeCall, mkFinalCall
, mkJump, mkForeignJump, mkJumpGC, mkCbranch, mkSwitch, mkReturn
- , mkReturnSimple, mkComment, copyIn, copyOut
+ , mkReturnSimple, mkComment, copyInOflow, copyInSlot, copyOutOflow, copyOutSlot
, mkEntry, mkCmmIfThenElse, mkCmmIfThen, mkCmmWhileDo
, (<*>), catAGraphs, mkLabel, mkBranch
, emptyAGraph, withFreshLabel, withUnique, outOfLine
, lgraphOfAGraph, graphOfAGraph, labelAGraph
- , CmmZ, CmmTopZ, CmmGraph, CmmBlock, CmmAGraph
+ , CmmZ, CmmTopZ, CmmGraph, CmmBlock, CmmAGraph, CmmStackInfo
, Middle, Last, Convention(..), ForeignConvention(..), MidCallTarget(..), Transfer(..)
- , emptyStackInfo, stackStubExpr, pprAGraph
+ , stackStubExpr, pprAGraph
)
where
import ForeignCall
import MkZipCfg
import Panic
+import SMRep (ByteOff)
import StaticFlags
import ZipCfg
type CmmGraph = LGraph Middle Last
type CmmAGraph = AGraph Middle Last
type CmmBlock = Block Middle Last
-type CmmZ = GenCmm CmmStatic CmmInfo CmmGraph
-type CmmTopZ = GenCmmTop CmmStatic CmmInfo CmmGraph
+type CmmStackInfo = (ByteOff, Maybe ByteOff)
+ -- probably want a record; (SP offset on entry, update frame space)
+type CmmZ = GenCmm CmmStatic CmmInfo (CmmStackInfo, CmmGraph)
+type CmmTopZ = GenCmmTop CmmStatic CmmInfo (CmmStackInfo, CmmGraph)
data Transfer = Call | Jump | Ret deriving Eq
= withFreshLabel "end of if" $ \endif ->
withFreshLabel "start of then" $ \tid ->
mkCbranch e tid endif <*>
- mkLabel tid emptyStackInfo <*> tbranch <*> mkBranch endif <*>
- mkLabel endif emptyStackInfo
+ mkLabel tid <*> tbranch <*> mkBranch endif <*>
+ mkLabel endif
stackStubExpr :: Width -> CmmExpr
stackStubExpr w = CmmLit (CmmInt 0 w)
+-- When we copy in parameters, we usually want to put overflow
+-- parameters on the stack, but sometimes we want to pass
+-- the variables in their spill slots.
+-- Therefore, for copying arguments and results, we provide different
+-- functions to pass the arguments in an overflow area and to pass them in spill slots.
+copyInOflow :: Convention -> Bool -> Area -> CmmFormals -> (Int, CmmAGraph)
+copyInSlot :: Convention -> Bool -> CmmFormals -> CmmAGraph
+copyOutOflow :: Convention -> Transfer -> Area -> CmmActuals -> UpdFrameOffset ->
+ (Int, [Middle])
+copyOutSlot :: Convention -> Transfer -> [LocalReg] -> [Middle]
+ -- why a list of middles here instead of an AGraph?
+
+copyInOflow = copyIn oneCopyOflowI
+copyInSlot c i f = snd $ copyIn oneCopySlotI c i (panic "no area for copying to slots") f
+
+type SlotCopier = Area -> (LocalReg, ByteOff) -> (ByteOff, CmmAGraph) ->
+ (ByteOff, CmmAGraph)
+type CopyIn = SlotCopier -> Convention -> Bool -> Area -> CmmFormals ->
+ (ByteOff, CmmAGraph)
+
-- Return the number of bytes used for copying arguments, as well as the
-- instructions to copy the arguments.
-copyIn :: Convention -> Bool -> Area -> CmmFormals -> (Int, AGraph Middle Last)
-copyIn conv isCall area formals =
- foldr ci (init_offset, mkNop) $ assignArgumentsPos conv isCall localRegType formals
+copyIn :: CopyIn
+copyIn oflow conv isCall area formals =
+ foldr ci (init_offset, mkNop) args'
where ci (reg, RegisterParam r) (n, ms) =
(n, mkAssign (CmmLocal reg) (CmmReg $ CmmGlobal r) <*> ms)
- ci (reg, StackParam off) (n, ms) =
- let ty = localRegType reg
- off' = off + init_offset
- in (max n off',
- mkAssign (CmmLocal reg) (CmmLoad (CmmStackSlot area off') ty) <*> ms)
- init_offset = widthInBytes wordWidth
+ ci (r, StackParam off) (n, ms) = oflow area (r, off) (n, ms)
+ init_offset = widthInBytes wordWidth -- infotable
+ args = assignArgumentsPos conv isCall localRegType formals
+ args' = foldl adjust [] args
+ where adjust rst (v, StackParam off) = (v, StackParam (off + init_offset)) : rst
+ adjust rst x@(_, RegisterParam _) = x : rst
+
+-- Copy-in one arg, using overflow space if needed.
+oneCopyOflowI, oneCopySlotI :: SlotCopier
+oneCopyOflowI area (reg, off) (n, ms) =
+ (max n off, mkAssign (CmmLocal reg) (CmmLoad (CmmStackSlot area off) ty) <*> ms)
+ where ty = localRegType reg
+
+-- Copy-in one arg, using spill slots if needed -- used for calling conventions at
+-- a procpoint that is not a return point. The offset is irrelevant here...
+oneCopySlotI _ (reg, _) (n, ms) =
+ (n, mkAssign (CmmLocal reg) (CmmLoad (CmmStackSlot (RegSlot reg) w) ty) <*> ms)
+ where ty = localRegType reg
+ w = widthInBytes (typeWidth ty)
+
+
+-- Factoring out the common parts of the copyout functions yielded something
+-- more complicated:
-- The argument layout function ignores the pointer to the info table, so we slot that
-- in here. When copying-out to a young area, we set the info table for return
-- and adjust the offsets of the other parameters.
-- If this is a call instruction, we adjust the offsets of the other parameters.
-copyOut :: Convention -> Transfer -> Area -> CmmActuals -> UpdFrameOffset -> (Int, [Middle])
-copyOut conv transfer area@(CallArea a) actuals updfr_off =
+copyOutOflow conv transfer area@(CallArea a) actuals updfr_off =
foldr co (init_offset, []) args'
- where args = assignArgumentsPos conv skip_node cmmExprType actuals
- skip_node = transfer /= Ret
+ where co (v, RegisterParam r) (n, ms) = (n, MidAssign (CmmGlobal r) v : ms)
+ co (v, StackParam off) (n, ms) =
+ (max n off, MidStore (CmmStackSlot area off) v : ms)
(setRA, init_offset) =
case a of Young id@(BlockId _) -> -- set RA if making a call
if transfer == Call then
- ([(CmmLit (CmmBlock id), StackParam init_offset)], ra_width)
+ ([(CmmLit (CmmBlock id), StackParam init_offset)],
+ widthInBytes wordWidth)
else ([], 0)
Old -> ([], updfr_off)
- ra_width = widthInBytes wordWidth
+ args = assignArgumentsPos conv (transfer /= Ret) cmmExprType actuals
args' = foldl adjust setRA args
where adjust rst (v, StackParam off) = (v, StackParam (off + init_offset)) : rst
adjust rst x@(_, RegisterParam _) = x : rst
- co (v, RegisterParam r) (n, ms) = (n, MidAssign (CmmGlobal r) v : ms)
- co (v, StackParam off) (n, ms) =
- (max n off, MidStore (CmmStackSlot area off) v : ms)
-copyOut _ _ (RegSlot _) _ _ = panic "cannot copy arguments into a register slot"
+copyOutOflow _ _ (RegSlot _) _ _ = panic "cannot copy arguments into a register slot"
+
+-- Args passed only in registers and stack slots; no overflow space.
+-- No return address may apply!
+copyOutSlot conv transfer actuals = foldr co [] args
+ where co (v, RegisterParam r) ms = MidAssign (CmmGlobal r) (toExp v) : ms
+ co (v, StackParam off) ms =
+ MidStore (CmmStackSlot (RegSlot v) off) (toExp v) : ms
+ toExp r = CmmReg (CmmLocal r)
+ args = assignArgumentsPos conv (transfer /= Ret) localRegType actuals
+
+-- oneCopySlotO _ (reg, _) (n, ms) =
+-- (n, MidStore (CmmStackSlot (RegSlot reg) w) reg : ms)
+-- where w = widthInBytes (typeWidth (localRegType reg))
mkEntry :: BlockId -> Convention -> CmmFormals -> (Int, CmmAGraph)
-mkEntry _ conv formals = copyIn conv False (CallArea Old) formals
+mkEntry _ conv formals = copyInOflow conv False (CallArea Old) formals
lastWithArgs :: Transfer -> Area -> Convention -> CmmActuals -> UpdFrameOffset ->
- (Int -> Last) -> CmmAGraph
+ (ByteOff -> Last) -> CmmAGraph
lastWithArgs transfer area conv actuals updfr_off last =
- let (outArgs, copies) = copyOut conv transfer area actuals updfr_off in
+ let (outArgs, copies) = copyOutOflow conv transfer area actuals updfr_off in
mkMiddles copies <*> mkLast (last outArgs)
-- The area created for the jump and return arguments is the same area as the
-- procedure entry.
old :: Area
old = CallArea Old
-toCall :: CmmExpr -> Maybe BlockId -> UpdFrameOffset -> Int -> Last
-toCall e cont updfr_off arg_space = LastCall e cont arg_space (Just updfr_off)
+toCall :: CmmExpr -> Maybe BlockId -> UpdFrameOffset -> ByteOff -> ByteOff -> Last
+toCall e cont updfr_off res_space arg_space =
+ LastCall e cont arg_space res_space (Just updfr_off)
mkJump e actuals updfr_off =
- lastWithArgs Jump old Native actuals updfr_off $ toCall e Nothing updfr_off
+ lastWithArgs Jump old Native actuals updfr_off $ toCall e Nothing updfr_off 0
mkJumpGC e actuals updfr_off =
- lastWithArgs Jump old GC actuals updfr_off $ toCall e Nothing updfr_off
+ lastWithArgs Jump old GC actuals updfr_off $ toCall e Nothing updfr_off 0
mkForeignJump conv e actuals updfr_off =
- lastWithArgs Jump old conv actuals updfr_off $ toCall e Nothing updfr_off
+ lastWithArgs Jump old conv actuals updfr_off $ toCall e Nothing updfr_off 0
mkReturn e actuals updfr_off =
- lastWithArgs Ret old Native actuals updfr_off $ toCall e Nothing updfr_off
+ lastWithArgs Ret old Native actuals updfr_off $ toCall e Nothing updfr_off 0
-- where e = CmmLoad (CmmStackSlot (CallArea Old) updfr_off) gcWord
mkReturnSimple actuals updfr_off =
- lastWithArgs Ret old Native actuals updfr_off $ toCall e Nothing updfr_off
+ lastWithArgs Ret old Native actuals updfr_off $ toCall e Nothing updfr_off 0
where e = CmmLoad (CmmStackSlot (CallArea Old) updfr_off) gcWord
mkFinalCall f _ actuals updfr_off =
- lastWithArgs Call old Native actuals updfr_off $ toCall f Nothing updfr_off
+ lastWithArgs Call old Native actuals updfr_off $ toCall f Nothing updfr_off 0
mkCmmCall f results actuals = mkCall f Native results actuals
mkCall f conv results actuals updfr_off =
withFreshLabel "call successor" $ \k ->
let area = CallArea $ Young k
- (off, copyin) = copyIn conv False area results
+ (off, copyin) = copyInOflow conv False area results
copyout = lastWithArgs Call area conv actuals updfr_off
- (toCall f (Just k) updfr_off)
- in (copyout <*> mkLabel k (StackInfo (Just off) (Just updfr_off))
- <*> copyin)
+ (toCall f (Just k) updfr_off off)
+ in (copyout <*> mkLabel k <*> copyin)