%
% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
-% $Id: CgClosure.lhs,v 1.44 2000/12/06 13:19:49 simonmar Exp $
+% $Id: CgClosure.lhs,v 1.53 2001/11/23 11:47:12 simonmar Exp $
%
\section[CgClosure]{Code generation for closures}
import ClosureInfo -- lots and lots of stuff
import CmdLineOpts ( opt_GranMacros, opt_SccProfilingOn, opt_DoTickyProfiling )
import CostCentre
-import Id ( Id, idName, idType, idPrimRep, setIdName )
-import Name ( Name, isLocalName, globaliseName )
+import Id ( Id, idName, idType, idPrimRep )
+import Name ( Name, isLocalName )
import Module ( Module, pprModule )
import ListSetOps ( minusList )
import PrimRep ( PrimRep(..) )
import PprType ( showTypeCategory )
-import Util ( isIn )
-import CmdLineOpts ( opt_SccProfilingOn, opt_EnsureSplittableC )
+import Util ( isIn, splitAtList )
+import CmdLineOpts ( opt_SccProfilingOn )
import Outputable
import Name ( nameOccName )
cgTopRhsClosure :: Id
-> CostCentreStack -- Optional cost centre annotation
-> StgBinderInfo
+ -> SRT
-> [Id] -- Args
-> StgExpr
-> LambdaFormInfo
-> FCode (Id, CgIdInfo)
-cgTopRhsClosure id ccs binder_info args body lf_info
+cgTopRhsClosure id ccs binder_info srt args body lf_info
=
-- LAY OUT THE OBJECT
+ getSRTInfo srt `thenFC` \ srt_info ->
let
name = idName id
- closure_info = layOutStaticNoFVClosure name lf_info
+ closure_info = layOutStaticNoFVClosure name lf_info srt_info
closure_label = mkClosureLabel name
cg_id_info = stableAmodeIdInfo id (CLbl closure_label PtrRep) lf_info
in
getArgAmodes payload `thenFC` \ amodes ->
let
(closure_info, amodes_w_offsets)
- = layOutDynClosure (idName binder) getAmodeRep amodes lf_info
+ = layOutDynClosure (idName binder) getAmodeRep amodes lf_info NoC_SRT
+ -- No SRT for a standard-form closure
(use_cc, blame_cc) = chooseDynCostCentres cc args fvs body
in
cgRhsClosure :: Id
-> CostCentreStack -- Optional cost centre annotation
-> StgBinderInfo
+ -> SRT
-> [Id] -- Free vars
-> [Id] -- Args
-> StgExpr
-> LambdaFormInfo
-> FCode (Id, CgIdInfo)
-cgRhsClosure binder cc binder_info fvs args body lf_info
+cgRhsClosure binder cc binder_info srt fvs args body lf_info
= (
-- LAY OUT THE OBJECT
--
else fvs
in
mapFCs getCAddrModeAndInfo reduced_fvs `thenFC` \ fvs_w_amodes_and_info ->
+ getSRTInfo srt `thenFC` \ srt_info ->
let
closure_info :: ClosureInfo
bind_details :: [((Id, CAddrMode, LambdaFormInfo), VirtualHeapOffset)]
(closure_info, bind_details)
- = layOutDynClosure (idName binder) get_kind fvs_w_amodes_and_info lf_info
+ = layOutDynClosure (idName binder) get_kind
+ fvs_w_amodes_and_info lf_info srt_info
bind_fv ((id, _, lf_info), offset) = bindNewToNode id offset lf_info
is_box = case body of { StgApp fun [] -> True; _ -> False }
body_code = profCtrC SLIT("TICK_ENT_THK") [] `thenC`
+ -- node always points when profiling, so this is ok:
+ ldvEnter `thenC`
thunkWrapper closure_info body_label (
- -- We only enter cc after setting up update so that cc
- -- of enclosing scope will be recorded in update frame
- -- CAF/DICT functions will be subsumed by this enclosing cc
+ -- We only enter cc after setting up update so
+ -- that cc of enclosing scope will be recorded
+ -- in update frame CAF/DICT functions will be
+ -- subsumed by this enclosing cc
enterCostCentreCode closure_info cc IsThunk is_box `thenC`
- cgExpr body)
+ cgExpr body
+ )
\end{code}
If there is {\em at least one argument}, then this closure is in
--
arg_regs = case entry_conv of
DirectEntry lbl arity regs -> regs
- other -> trace ("*** closureCodeBody:arg_regs " ++ (pprHWL entry_conv) ++ "(HWL ignored; no args passed in regs)") []
+ other -> [] -- "(HWL ignored; no args passed in regs)"
- pprHWL :: EntryConvention -> String
- pprHWL (ViaNode) = "ViaNode"
- pprHWL (StdEntry cl) = "StdEntry"
- pprHWL (DirectEntry cl i l) = "DirectEntry"
-
- num_arg_regs = length arg_regs
-
- (reg_args, stk_args) = splitAt num_arg_regs all_args
+ (reg_args, stk_args) = splitAtList arg_regs all_args
(sp_stk_args, stk_offsets, stk_tags)
= mkTaggedVirtStkOffsets vSp idPrimRep stk_args
-- see argSatisfactionCheck for new version
-- fast_entry_code = forceHeapCheck [] True fast_entry_code'
- fast_entry_code
- = moduleName `thenFC` \ mod_name ->
- profCtrC SLIT("TICK_CTR") [
- CLbl ticky_ctr_label DataPtrRep,
- mkCString (_PK_ (ppr_for_ticky_name mod_name name)),
- mkIntCLit stg_arity, -- total # of args
- mkIntCLit sp_stk_args, -- # passed on stk
- mkCString (_PK_ (map (showTypeCategory . idType) all_args))
- ] `thenC`
-
- profCtrC SLIT("TICK_ENT_FUN_DIRECT") [
- CLbl ticky_ctr_label DataPtrRep
- ] `thenC`
+ fast_entry_code = do
+ mod_name <- moduleName
+ profCtrC SLIT("TICK_CTR") [
+ CLbl ticky_ctr_label DataPtrRep,
+ mkCString (_PK_ (ppr_for_ticky_name mod_name name)),
+ mkIntCLit stg_arity, -- total # of args
+ mkIntCLit sp_stk_args, -- # passed on stk
+ mkCString (_PK_ (map (showTypeCategory . idType) all_args))
+ ]
+ let prof =
+ profCtrC SLIT("TICK_ENT_FUN_DIRECT") [
+ CLbl ticky_ctr_label DataPtrRep
+ ]
-- Nuked for now; see comment at end of file
-- CString (_PK_ (show_wrapper_name wrapper_maybe)),
-- Bind args to regs/stack as appropriate, and
-- record expected position of sps.
- bindArgsToRegs reg_args arg_regs `thenC`
- mapCs bindNewToStack stk_offsets `thenC`
- setRealAndVirtualSp sp_stk_args `thenC`
+ bindArgsToRegs reg_args arg_regs
+ mapCs bindNewToStack stk_offsets
+ setRealAndVirtualSp sp_stk_args
-- free up the stack slots containing tags
- freeStackSlots (map fst stk_tags) `thenC`
+ freeStackSlots (map fst stk_tags)
-- Enter the closures cc, if required
- enterCostCentreCode closure_info cc IsFunction False `thenC`
+ enterCostCentreCode closure_info cc IsFunction False
-- Do the business
- funWrapper closure_info arg_regs stk_tags info_label (cgExpr body)
+ funWrapper closure_info arg_regs stk_tags info_label
+ (prof >> cgExpr body)
in
setTickyCtrLabel ticky_ctr_label (
forkAbsC (if slow_code_needed then slow_entry_code else absC AbsCNop)
`thenFC` \ slow_abs_c ->
forkAbsC fast_entry_code `thenFC` \ fast_abs_c ->
- moduleName `thenFC` \ mod_name ->
+ moduleName `thenFC` \ mod_name ->
-- Now either construct the info table, or put the fast code in alone
-- (We never have slow code without an info table)
= if not opt_SccProfilingOn then
nopC
else
- ASSERT(not (noCCSAttached ccs))
+ ASSERT2(not (noCCSAttached ccs), ppr (closureName closure_info) <+> ppr ccs)
if isSubsumedCCS ccs then
ASSERT(isToplevClosure closure_info)
ASSERT(is_thunk == IsFunction)
costCentresC SLIT("ENTER_CCS_FSUB") []
- else if isCurrentCCS ccs then
+ else if isDerivedFromCurrentCCS ccs then
if re_entrant && not is_box
then costCentresC SLIT("ENTER_CCS_FCL") [CReg node]
else costCentresC SLIT("ENTER_CCS_TCL") [CReg node]
-> Code
funWrapper closure_info arg_regs stk_tags info_label fun_body
= -- Stack overflow check
- nodeMustPointToIt (closureLFInfo closure_info) `thenFC` \ node_points ->
- -- HWL chu' ngoq:
+ nodeMustPointToIt (closureLFInfo closure_info) `thenFC` \ node_points ->
+
+ -- enter for Ldv profiling
+ (if node_points then ldvEnter else nopC) `thenC`
+
(if opt_GranMacros
then yield arg_regs node_points
- else absC AbsCNop) `thenC`
+ else absC AbsCNop) `thenC`
-- heap and/or stack checks
fastEntryChecks arg_regs stk_tags info_label node_points (
in
(use_cc, blame_cc)
\end{code}
-
-
-