lower levels it is preserved with @let@/@letrec@s).
\begin{code}
-module DsBinds ( dsMonoBinds, AutoScc(..) ) where
+module DsBinds ( dsHsBinds, dsHsNestedBinds, AutoScc(..) ) where
#include "HsVersions.h"
-import {-# SOURCE #-} DsExpr( dsExpr )
+import {-# SOURCE #-} DsExpr( dsLExpr )
+import {-# SOURCE #-} Match( matchWrapper )
-import HsSyn -- lots of things
-import CoreSyn -- lots of things
-import CoreUtils ( exprType, mkInlineMe, mkSCC )
-import TcHsSyn ( TypecheckedMonoBinds )
import DsMonad
import DsGRHSs ( dsGuarded )
import DsUtils
-import Match ( matchWrapper )
-
-import BasicTypes ( RecFlag(..) )
-import CmdLineOpts ( opt_SccProfilingOn, opt_AutoSccsOnAllToplevs,
- opt_AutoSccsOnExportedToplevs, opt_AutoSccsOnDicts
- )
-import CostCentre ( CostCentre, mkAutoCC, IsCafCC(..) )
-import Id ( idType, idName, isUserExportedId, isSpecPragmaId, Id )
+
+import HsSyn -- lots of things
+import CoreSyn -- lots of things
+import CoreUtils ( exprType, mkInlineMe, mkSCC )
+
+import CmdLineOpts ( opt_AutoSccsOnAllToplevs, opt_AutoSccsOnExportedToplevs )
+import CostCentre ( mkAutoCC, IsCafCC(..) )
+import Id ( idType, idName, isExportedId, isSpecPragmaId, Id )
import NameSet
-import VarEnv
import VarSet
-import Type ( mkTyVarTy, isDictTy )
-import Subst ( mkTyVarSubst, substTy )
+import Type ( mkTyVarTy, substTyWith )
import TysWiredIn ( voidTy )
import Outputable
-
-import Maybe
-import IOExts (trace)
+import SrcLoc ( Located(..) )
+import Maybe ( isJust )
+import Bag ( bagToList )
+import Monad ( foldM )
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
-dsMonoBinds :: AutoScc -- scc annotation policy (see below)
- -> TypecheckedMonoBinds
- -> [(Id,CoreExpr)] -- Put this on the end (avoid quadratic append)
- -> DsM [(Id,CoreExpr)] -- Result
+dsHsNestedBinds :: LHsBinds Id -> DsM [(Id,CoreExpr)]
+dsHsNestedBinds binds = dsHsBinds NoSccs binds []
+
+dsHsBinds :: AutoScc -- scc annotation policy (see below)
+ -> LHsBinds Id
+ -> [(Id,CoreExpr)] -- Put this on the end (avoid quadratic append)
+ -> DsM [(Id,CoreExpr)] -- Result
-dsMonoBinds _ EmptyMonoBinds rest = returnDs rest
+dsHsBinds auto_scc binds rest
+ = foldM (dsLHsBind auto_scc) rest (bagToList binds)
-dsMonoBinds auto_scc (AndMonoBinds binds_1 binds_2) rest
- = dsMonoBinds auto_scc binds_2 rest `thenDs` \ rest' ->
- dsMonoBinds auto_scc binds_1 rest'
+dsLHsBind :: AutoScc
+ -> [(Id,CoreExpr)] -- Put this on the end (avoid quadratic append)
+ -> LHsBind Id
+ -> DsM [(Id,CoreExpr)] -- Result
+dsLHsBind auto_scc rest (L loc bind)
+ = putSrcSpanDs loc $ dsHsBind auto_scc rest bind
-dsMonoBinds _ (CoreMonoBind var core_expr) rest
- = returnDs ((var, core_expr) : rest)
+dsHsBind :: AutoScc
+ -> [(Id,CoreExpr)] -- Put this on the end (avoid quadratic append)
+ -> HsBind Id
+ -> DsM [(Id,CoreExpr)] -- Result
-dsMonoBinds _ (VarMonoBind var expr) rest
- = dsExpr expr `thenDs` \ core_expr ->
+dsHsBind auto_scc rest (VarBind var expr)
+ = dsLExpr expr `thenDs` \ core_expr ->
-- Dictionary bindings are always VarMonoBinds, so
-- we only need do this here
returnDs ((var, core_expr'') : rest)
-dsMonoBinds auto_scc (FunMonoBind fun _ matches locn) rest
- = putSrcLocDs locn $
- matchWrapper (FunMatch fun) matches error_string `thenDs` \ (args, body) ->
+dsHsBind auto_scc rest (FunBind (L _ fun) _ matches)
+ = matchWrapper (FunRhs (idName fun)) matches `thenDs` \ (args, body) ->
addAutoScc auto_scc (fun, mkLams args body) `thenDs` \ pair ->
returnDs (pair : rest)
- where
- error_string = "function " ++ showSDoc (ppr fun)
-dsMonoBinds auto_scc (PatMonoBind pat grhss locn) rest
- = putSrcLocDs locn $
- dsGuarded grhss `thenDs` \ body_expr ->
+dsHsBind auto_scc rest (PatBind pat grhss ty)
+ = dsGuarded grhss ty `thenDs` \ body_expr ->
mkSelectorBinds pat body_expr `thenDs` \ sel_binds ->
- mapDs (addAutoScc auto_scc) sel_binds `thenDs` \ sel_binds ->
+ mappM (addAutoScc auto_scc) sel_binds `thenDs` \ sel_binds ->
returnDs (sel_binds ++ rest)
-- Common special case: no type or dictionary abstraction
-dsMonoBinds auto_scc (AbsBinds [] [] exports inlines binds) rest
- = dsMonoBinds (addSccs auto_scc exports) binds []`thenDs` \ core_prs ->
- let
- exports' = [(global, Var local) | (_, global, local) <- exports]
+ -- For the (rare) case when there are some mixed-up
+ -- dictionary bindings (for which a Rec is convenient)
+ -- we reply on the enclosing dsBind to wrap a Rec around.
+dsHsBind auto_scc rest (AbsBinds [] [] exports inlines binds)
+ = dsHsBinds (addSccs auto_scc exports) binds []`thenDs` \ core_prs ->
+ let
+ core_prs' = addLocalInlines exports inlines core_prs
+ exports' = [(global, Var local) | (_, global, local) <- exports]
in
- returnDs (addLocalInlines exports inlines core_prs ++ exports' ++ rest)
+ returnDs (core_prs' ++ exports' ++ rest)
-- Another common case: one exported variable
-- Non-recursive bindings come through this way
-dsMonoBinds auto_scc
- (AbsBinds all_tyvars dicts exps@[(tyvars, global, local)] inlines binds) rest
+dsHsBind auto_scc rest
+ (AbsBinds all_tyvars dicts exps@[(tyvars, global, local)] inlines binds)
= ASSERT( all (`elem` tyvars) all_tyvars )
- dsMonoBinds (addSccs auto_scc exps) binds [] `thenDs` \ core_prs ->
+ dsHsBinds (addSccs auto_scc exps) binds [] `thenDs` \ core_prs ->
let
-- Always treat the binds as recursive, because the typechecker
-- makes rather mixed-up dictionary bindings
- core_binds = [Rec core_prs]
- global' = (global, mkInline (idName global `elemNameSet` inlines) $
+ core_bind = Rec core_prs
+
+ -- The mkInline does directly what the
+ -- addLocalInlines do in the other cases
+ export' = (global, mkInline (idName global `elemNameSet` inlines) $
mkLams tyvars $ mkLams dicts $
- mkDsLets core_binds (Var local))
+ Let core_bind (Var local))
in
- returnDs (global' : rest)
+ returnDs (export' : rest)
-dsMonoBinds auto_scc (AbsBinds all_tyvars dicts exports inlines binds) rest
- = dsMonoBinds (addSccs auto_scc exports) binds []`thenDs` \ core_prs ->
+dsHsBind auto_scc rest (AbsBinds all_tyvars dicts exports inlines binds)
+ = dsHsBinds (addSccs auto_scc exports) binds []`thenDs` \ core_prs ->
let
- core_binds = [Rec (addLocalInlines exports inlines core_prs)]
+ -- Rec because of mixed-up dictionary bindings
+ core_bind = Rec (addLocalInlines exports inlines core_prs)
tup_expr = mkTupleExpr locals
tup_ty = exprType tup_expr
poly_tup_expr = mkLams all_tyvars $ mkLams dicts $
- mkDsLets core_binds tup_expr
+ Let core_bind tup_expr
locals = [local | (_, _, local) <- exports]
local_tys = map idType locals
in
let
dict_args = map Var dicts
- mk_bind (tyvars, global, local) n -- locals !! n == local
+ mk_bind ((tyvars, global, local), n) -- locals !! n == local
= -- Need to make fresh locals to bind in the selector, because
-- some of the tyvars will be bound to voidTy
- newSysLocalsDs (map (substTy env) local_tys) `thenDs` \ locals' ->
- newSysLocalDs (substTy env tup_ty) `thenDs` \ tup_id ->
+ newSysLocalsDs (map substitute local_tys) `thenDs` \ locals' ->
+ newSysLocalDs (substitute tup_ty) `thenDs` \ tup_id ->
returnDs (global, mkLams tyvars $ mkLams dicts $
mkTupleSelector locals' (locals' !! n) tup_id $
mkApps (mkTyApps (Var poly_tup_id) ty_args) dict_args)
where
mk_ty_arg all_tyvar | all_tyvar `elem` tyvars = mkTyVarTy all_tyvar
| otherwise = voidTy
- ty_args = map mk_ty_arg all_tyvars
- env = mkTyVarSubst all_tyvars ty_args
+ ty_args = map mk_ty_arg all_tyvars
+ substitute = substTyWith all_tyvars ty_args
in
- zipWithDs mk_bind exports [0..] `thenDs` \ export_binds ->
+ mappM mk_bind (exports `zip` [0..]) `thenDs` \ export_binds ->
-- don't scc (auto-)annotate the tuple itself.
returnDs ((poly_tup_id, poly_tup_expr) : (export_binds ++ rest))
\end{code}
addSccs TopLevel exports
= TopLevelAddSccs (\id -> case [ exp | (_,exp,loc) <- exports, loc == id ] of
(exp:_) | opt_AutoSccsOnAllToplevs ||
- (isUserExportedId exp &&
+ (isExportedId exp &&
opt_AutoSccsOnExportedToplevs)
-> Just exp
_ -> Nothing)
-> DsM (Id, CoreExpr)
addAutoScc (TopLevelAddSccs auto_scc_fn) pair@(bndr, core_expr)
- | do_auto_scc && worthSCC core_expr
+ | do_auto_scc
= getModuleDs `thenDs` \ mod ->
returnDs (bndr, mkSCC (mkAutoCC top_bndr mod NotCafCC) core_expr)
where do_auto_scc = isJust maybe_auto_scc
addAutoScc _ pair
= returnDs pair
-
-noUserSCC (Note (SCC _) _) = False
-worthSCC core_expr = True
\end{code}
If profiling and dealing with a dict binding,