%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[CgUpdate]{Manipulating update frames}
\begin{code}
-#include "HsVersions.h"
-
-module CgUpdate ( pushUpdateFrame ) where
+module CgUpdate ( pushUpdateFrame, reserveSeqFrame, pushSeqFrame ) where
-IMP_Ubiq(){-uitous-}
+#include "HsVersions.h"
import CgMonad
import AbsCSyn
-import Constants ( sTD_UF_SIZE, sCC_STD_UF_SIZE )
-import CgStackery ( allocUpdateFrame )
-import CmdLineOpts ( opt_SccProfilingOn )
-import Util ( assertPanic )
+import CgStackery ( allocStackTop, updateFrameSize, seqFrameSize )
+import CgUsages ( getVirtSp, getSpRelOffset )
+import Panic ( assertPanic )
\end{code}
to reflect the frame pushed.
\begin{code}
-pushUpdateFrame :: CAddrMode -> CAddrMode -> Code -> Code
+pushUpdateFrame :: CAddrMode -> Code -> Code
-pushUpdateFrame updatee vector code
- = let
- profiling_on = opt_SccProfilingOn
-
- -- frame_size *includes* the return address
- frame_size = if profiling_on
- then sCC_STD_UF_SIZE
- else sTD_UF_SIZE
- in
+pushUpdateFrame updatee code
+ =
+#ifdef DEBUG
getEndOfBlockInfo `thenFC` \ eob_info ->
- ASSERT(case eob_info of { EndOfBlockInfo _ _ InRetReg -> True; _ -> False})
- allocUpdateFrame frame_size vector (\ _ ->
+ ASSERT(case eob_info of { EndOfBlockInfo _ (OnStack _) -> True;
+ _ -> False})
+#endif
+
+ allocStackTop updateFrameSize `thenFC` \ _ ->
+ getVirtSp `thenFC` \ vsp ->
+
+ setEndOfBlockInfo (EndOfBlockInfo vsp UpdateCode) (
-- Emit the push macro
- absC (CMacroStmt PUSH_STD_UPD_FRAME [
+ absC (CMacroStmt PUSH_UPD_FRAME [
updatee,
- int_CLit0, -- Known to be zero because we have just
- int_CLit0 -- entered a thunk
+ int_CLit0 -- we just entered a closure, so must be zero
])
`thenC` code
)
int_CLit0 = mkIntCLit 0 -- out here to avoid pushUpdateFrame CAF (sigh)
+\end{code}
+
+We push a SEQ frame just before evaluating the scrutinee of a case, if
+the scrutinee has a polymorphic or function type. The SEQ frame acts
+as a barrier in case the scrutinee evaluates to a partial application.
-{- ---------------------
- What actually happens is something like this; but it got macro-ised
-
- = pushOnBStack (CReg CurCostCentre) `thenFC` \ _ ->
- pushOnBStack (CReg SuA) `thenFC` \ _ ->
- pushOnBStack (CReg SuB) `thenFC` \ _ ->
- pushOnBStack updatee `thenFC` \ _ ->
- pushOnBStack (CLabel sTD_UPD_RET_VEC_LABEL CodePtrRep) `thenFC` \ _ ->
-
- -- MAKE SuA, SuB POINT TO TOP OF A,B STACKS
- -- Remember, SpB hasn't yet been incremented to account for the
- -- 4-word update frame which has been pushed.
- -- This code seems crude, but effective...
- absC (AbsCStmts (CAssign (CReg SuA) (CReg SpA))
- (CAssign (CReg SuB) (CAddr (SpBRel 0 4))))
--------------------------- -}
+reserveSeqFrame takes the EndOfBlockInfo for the case expression and
+updates the sequel to a SeqFrame, reserving room for the frame at
+args_sp. When the scrutinee comes around to pushing a return address,
+it will also push the SEQ frame, using pushSeqFrame.
+
+\begin{code}
+reserveSeqFrame :: EndOfBlockInfo -> EndOfBlockInfo
+reserveSeqFrame (EndOfBlockInfo args_sp (CaseAlts amode stuff))
+ = EndOfBlockInfo (args_sp + seqFrameSize) (SeqFrame amode stuff)
+
+pushSeqFrame :: VirtualSpOffset -> FCode VirtualSpOffset
+pushSeqFrame args_sp
+ = getSpRelOffset args_sp `thenFC` \ sp_rel ->
+ absC (CMacroStmt PUSH_SEQ_FRAME [CAddr sp_rel]) `thenC`
+ returnFC (args_sp - seqFrameSize)
\end{code}