X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2FcodeGen%2FCgCon.lhs;h=87680087764f3aa094dce3fc75bc081a11876f82;hp=91d7098f3efd488a0c404e4f1a80742a3c873003;hb=18691d440f90a3dff4ef538091c886af505e5cf5;hpb=6015a94f9108a502150565577b66c23650796639 diff --git a/compiler/codeGen/CgCon.lhs b/compiler/codeGen/CgCon.lhs index 91d7098..8768008 100644 --- a/compiler/codeGen/CgCon.lhs +++ b/compiler/codeGen/CgCon.lhs @@ -32,21 +32,23 @@ import CgTicky import CgInfoTbls import CLabel import ClosureInfo -import CmmUtils -import Cmm +import OldCmmUtils +import OldCmm import SMRep import CostCentre import Constants import TyCon import DataCon import Id +import IdInfo import Type import PrelInfo import Outputable import ListSetOps -#ifdef DEBUG -import Util ( lengthIs ) -#endif +import Util +import Module +import FastString +import StaticFlags \end{code} @@ -63,9 +65,9 @@ cgTopRhsCon :: Id -- Name of thing bound to this RHS -> FCode (Id, CgIdInfo) cgTopRhsCon id con args = do { - ; this_pkg <- getThisPackage #if mingw32_TARGET_OS -- Windows DLLs have a problem with static cross-DLL refs. + ; this_pkg <- getThisPackage ; ASSERT( not (isDllConApp this_pkg con args) ) return () #endif ; ASSERT( args `lengthIs` dataConRepArity con ) return () @@ -76,9 +78,9 @@ cgTopRhsCon id con args ; let name = idName id lf_info = mkConLFInfo con - closure_label = mkClosureLabel this_pkg name + closure_label = mkClosureLabel name $ idCafInfo id caffy = any stgArgHasCafRefs args - (closure_info, amodes_w_offsets) = layOutStaticConstr this_pkg con amodes + (closure_info, amodes_w_offsets) = layOutStaticConstr con amodes closure_rep = mkStaticClosureFields closure_info dontCareCCS -- Because it's static data @@ -134,10 +136,10 @@ which have exclusively size-zero (VoidRep) args, we generate no code at all. \begin{code} -buildDynCon binder cc con [] - = do this_pkg <- getThisPackage - returnFC (taggedStableIdInfo binder - (mkLblExpr (mkClosureLabel this_pkg (dataConName con))) +buildDynCon binder _ con [] + = returnFC (taggedStableIdInfo binder + (mkLblExpr (mkClosureLabel (dataConName con) + (idCafInfo binder))) (mkConLFInfo con) con) \end{code} @@ -163,28 +165,40 @@ which is guaranteed in range. Because of this, we use can safely return an addressing mode. +We don't support this optimisation when compiling into Windows DLLs yet +because they don't support cross package data references well. + \begin{code} -buildDynCon binder cc con [arg_amode] + + +buildDynCon binder _ con [arg_amode] | maybeIntLikeCon con +#if defined(mingw32_TARGET_OS) + , not opt_PIC +#endif , (_, CmmLit (CmmInt val _)) <- arg_amode , let val_int = (fromIntegral val) :: Int , val_int <= mAX_INTLIKE && val_int >= mIN_INTLIKE - = do { let intlike_lbl = mkRtsDataLabel SLIT("stg_INTLIKE_closure") + = do { let intlike_lbl = mkCmmGcPtrLabel rtsPackageId (fsLit "stg_INTLIKE_closure") offsetW = (val_int - mIN_INTLIKE) * (fixedHdrSize + 1) -- INTLIKE closures consist of a header and one word payload intlike_amode = CmmLit (cmmLabelOffW intlike_lbl offsetW) ; returnFC (taggedStableIdInfo binder intlike_amode (mkConLFInfo con) con) } -buildDynCon binder cc con [arg_amode] +buildDynCon binder _ con [arg_amode] | maybeCharLikeCon con +#if defined(mingw32_TARGET_OS) + , not opt_PIC +#endif , (_, CmmLit (CmmInt val _)) <- arg_amode , let val_int = (fromIntegral val) :: Int , val_int <= mAX_CHARLIKE && val_int >= mIN_CHARLIKE - = do { let charlike_lbl = mkRtsDataLabel SLIT("stg_CHARLIKE_closure") + = do { let charlike_lbl = mkCmmGcPtrLabel rtsPackageId (fsLit "stg_CHARLIKE_closure") offsetW = (val_int - mIN_CHARLIKE) * (fixedHdrSize + 1) -- CHARLIKE closures consist of a header and one word payload charlike_amode = CmmLit (cmmLabelOffW charlike_lbl offsetW) ; returnFC (taggedStableIdInfo binder charlike_amode (mkConLFInfo con) con) } + \end{code} Now the general case. @@ -192,9 +206,8 @@ Now the general case. \begin{code} buildDynCon binder ccs con args = do { - ; this_pkg <- getThisPackage ; let - (closure_info, amodes_w_offsets) = layOutDynConstr this_pkg con args + (closure_info, amodes_w_offsets) = layOutDynConstr con args ; hp_off <- allocDynClosure closure_info use_cc blame_cc amodes_w_offsets ; returnFC (taggedHeapIdInfo binder hp_off lf_info con) } @@ -224,12 +237,12 @@ found a $con$. \begin{code} bindConArgs :: DataCon -> [Id] -> Code bindConArgs con args - = do this_pkg <- getThisPackage + = do let -- The binding below forces the masking out of the tag bits -- when accessing the constructor field. bind_arg (arg, offset) = bindNewToUntagNode arg offset (mkLFArgument arg) (tagForCon con) - (_, args_w_offsets) = layOutDynConstr this_pkg con (addIdReps args) + (_, args_w_offsets) = layOutDynConstr con (addIdReps args) -- ASSERT(not (isUnboxedTupleCon con)) return () mapCs bind_arg args_w_offsets @@ -297,6 +310,11 @@ sure the @amodes@ passed don't conflict with each other. cgReturnDataCon :: DataCon -> [(CgRep, CmmExpr)] -> Code cgReturnDataCon con amodes + | isUnboxedTupleCon con = returnUnboxedTuple amodes + -- when profiling we can't shortcut here, we have to enter the closure + -- for it to be marked as "used" for LDV profiling. + | opt_SccProfilingOn = build_it_then enter_it + | otherwise = ASSERT( amodes `lengthIs` dataConRepArity con ) do { EndOfBlockInfo _ sequel <- getEndOfBlockInfo ; case sequel of @@ -320,11 +338,12 @@ cgReturnDataCon con amodes | isDeadBinder bndr -> performReturn (jump_to deflt_lbl) | otherwise -> build_it_then (jump_to deflt_lbl) } - other_sequel -- The usual case - | isUnboxedTupleCon con -> returnUnboxedTuple amodes - | otherwise -> build_it_then emitReturnInstr + _otherwise -- The usual case + -> build_it_then emitReturnInstr } where + enter_it = stmtsC [ CmmAssign nodeReg (cmmUntag (CmmReg nodeReg)), + CmmJump (entryCode (closureInfoPtr (CmmReg nodeReg))) [] ] jump_to lbl = stmtC (CmmJump (CmmLit lbl) []) build_it_then return_code = do { -- BUILD THE OBJECT IN THE HEAP @@ -392,11 +411,13 @@ cgTyCon tycon -- datatype closure table (for enumeration types) -- to (say) PrelBase_$wTrue_closure, which is defined in code_stuff -- Note that the closure pointers are tagged. + + -- XXX comment says to put table after constructor decls, but + -- code appears to put it before --- NR 16 Aug 2007 ; extra <- if isEnumerationTyCon tycon then do - tbl <- getCmm (emitRODataLits (mkLocalClosureTableLabel - (tyConName tycon)) - [ CmmLabelOff (mkLocalClosureLabel (dataConName con)) (tagForCon con) + tbl <- getCmm (emitRODataLits "cgTyCon" (mkLocalClosureTableLabel (tyConName tycon) NoCafRefs) + [ CmmLabelOff (mkLocalClosureLabel (dataConName con) NoCafRefs) (tagForCon con) | con <- tyConDataCons tycon]) return [tbl] else @@ -413,7 +434,6 @@ static closure, for a constructor. cgDataCon :: DataCon -> Code cgDataCon data_con = do { -- Don't need any dynamic closure code for zero-arity constructors - this_pkg <- getThisPackage ; let -- To allow the debuggers, interpreters, etc to cope with @@ -421,16 +441,16 @@ cgDataCon data_con -- time), we take care that info-table contains the -- information we need. (static_cl_info, _) = - layOutStaticConstr this_pkg data_con arg_reps + layOutStaticConstr data_con arg_reps (dyn_cl_info, arg_things) = - layOutDynConstr this_pkg data_con arg_reps + layOutDynConstr data_con arg_reps emit_info cl_info ticky_code = do { code_blks <- getCgStmts the_code ; emitClosureCodeAndInfoTable cl_info [] code_blks } where - the_code = do { ticky_code + the_code = do { _ <- ticky_code ; ldvEnter (CmmReg nodeReg) ; body_code }