#endif /* GHCI */
import RnSource ( rnSrcDecls, findSplice )
-import RnBinds ( rnLocalBindsAndThen, rnValBindsLHS, rnValBindsRHS,
+import RnBinds ( rnLocalBindsAndThen, rnLocalValBindsLHS, rnLocalValBindsRHS,
rnMatchGroup, makeMiniFixityEnv)
import HsSyn
import TcRnMonad
import LoadIface ( loadInterfaceForName )
import UniqSet
import Data.List
-import Util ( isSingleton )
+import Util ( isSingleton, snocView )
import ListSetOps ( removeDups )
import Outputable
import SrcLoc
rnLExpr arg `thenM` \ (arg',fvArg) ->
return (HsApp fun' arg', fvFun `plusFV` fvArg)
-rnExpr (OpApp e1 (L op_loc (HsVar op_rdr)) _ e2)
- = do { (e1', fv_e1) <- rnLExpr e1
+rnExpr (OpApp e1 (L op_loc (HsVar op_rdr)) _ e2)
+ = do { (e1', fv_e1) <- rnLExpr e1
; (e2', fv_e2) <- rnLExpr e2
; op_name <- setSrcSpan op_loc (lookupOccRn op_rdr)
; (op', fv_op) <- finishHsVar op_name
; fixity <- lookupFixityRn op_name
; final_e <- mkOpAppRn e1' (L op_loc op') fixity e2'
; return (final_e, fv_e1 `plusFV` fv_op `plusFV` fv_e2) }
+rnExpr (OpApp _ other_op _ _)
+ = failWith (vcat [ hang (ptext (sLit "Operator application with a non-variable operator:"))
+ 2 (ppr other_op)
+ , ptext (sLit "(Probably resulting from a Template Haskell splice)") ])
rnExpr (NegApp e _)
= rnLExpr e `thenM` \ (e', fv_e) ->
rnLExpr expr `thenM` \ (expr',fvExpr) ->
return (HsLet binds' expr', fvExpr)
-rnExpr (HsDo do_or_lc stmts body _)
- = do { ((stmts', body'), fvs) <- rnStmts do_or_lc stmts $
- rnLExpr body
- ; return (HsDo do_or_lc stmts' body' placeHolderType, fvs) }
+rnExpr (HsDo do_or_lc stmts _)
+ = do { ((stmts', _), fvs) <- rnStmts do_or_lc stmts (\ _ -> return ((), emptyFVs))
+ ; return ( HsDo do_or_lc stmts' placeHolderType, fvs ) }
rnExpr (ExplicitList _ exps)
= rnExprs exps `thenM` \ (exps', fvs) ->
where
doc = text "In an expression type signature"
-rnExpr (HsIf p b1 b2)
- = rnLExpr p `thenM` \ (p', fvP) ->
- rnLExpr b1 `thenM` \ (b1', fvB1) ->
- rnLExpr b2 `thenM` \ (b2', fvB2) ->
- return (HsIf p' b1' b2', plusFVs [fvP, fvB1, fvB2])
+rnExpr (HsIf _ p b1 b2)
+ = do { (p', fvP) <- rnLExpr p
+ ; (b1', fvB1) <- rnLExpr b1
+ ; (b2', fvB2) <- rnLExpr b2
+ ; (mb_ite, fvITE) <- lookupIfThenElse
+ ; return (HsIf mb_ite p' b1' b2', plusFVs [fvITE, fvP, fvB1, fvB2]) }
rnExpr (HsType a)
= rnHsTypeFVs doc a `thenM` \ (t, fvT) ->
-- infix form
rnExpr (HsArrForm op (Just _) [arg1, arg2])
= escapeArrowScope (rnLExpr op)
- `thenM` \ (op'@(L _ (HsVar op_name)),fv_op) ->
+ `thenM` \ (op',fv_op) ->
+ let L _ (HsVar op_name) = op' in
rnCmdTop arg1 `thenM` \ (arg1',fv_arg1) ->
rnCmdTop arg2 `thenM` \ (arg2',fv_arg2) ->
convertOpFormsCmd (HsCase exp matches)
= HsCase exp (convertOpFormsMatch matches)
-convertOpFormsCmd (HsIf exp c1 c2)
- = HsIf exp (convertOpFormsLCmd c1) (convertOpFormsLCmd c2)
+convertOpFormsCmd (HsIf f exp c1 c2)
+ = HsIf f exp (convertOpFormsLCmd c1) (convertOpFormsLCmd c2)
convertOpFormsCmd (HsLet binds cmd)
= HsLet binds (convertOpFormsLCmd cmd)
-convertOpFormsCmd (HsDo ctxt stmts body ty)
- = HsDo ctxt (map (fmap convertOpFormsStmt) stmts)
- (convertOpFormsLCmd body) ty
+convertOpFormsCmd (HsDo DoExpr stmts ty)
+ = HsDo ArrowExpr (map (fmap convertOpFormsStmt) stmts) ty
+ -- Mark the HsDo as begin the body of an arrow command
-- Anything else is unchanged. This includes HsArrForm (already done),
-- things with no sub-commands, and illegal commands (which will be
convertOpFormsStmt :: StmtLR id id -> StmtLR id id
convertOpFormsStmt (BindStmt pat cmd _ _)
= BindStmt pat (convertOpFormsLCmd cmd) noSyntaxExpr noSyntaxExpr
-convertOpFormsStmt (ExprStmt cmd _ _)
- = ExprStmt (convertOpFormsLCmd cmd) noSyntaxExpr placeHolderType
+convertOpFormsStmt (ExprStmt cmd _ _ _)
+ = ExprStmt (convertOpFormsLCmd cmd) noSyntaxExpr noSyntaxExpr placeHolderType
convertOpFormsStmt stmt@(RecStmt { recS_stmts = stmts })
= stmt { recS_stmts = map (fmap convertOpFormsStmt) stmts }
convertOpFormsStmt stmt = stmt
methodNamesCmd (HsPar c) = methodNamesLCmd c
-methodNamesCmd (HsIf _ c1 c2)
+methodNamesCmd (HsIf _ _ c1 c2)
= methodNamesLCmd c1 `plusFV` methodNamesLCmd c2 `addOneFV` choiceAName
-methodNamesCmd (HsLet _ c) = methodNamesLCmd c
-
-methodNamesCmd (HsDo _ stmts body _)
- = methodNamesStmts stmts `plusFV` methodNamesLCmd body
-
-methodNamesCmd (HsApp c _) = methodNamesLCmd c
-
-methodNamesCmd (HsLam match) = methodNamesMatch match
+methodNamesCmd (HsLet _ c) = methodNamesLCmd c
+methodNamesCmd (HsDo _ stmts _) = methodNamesStmts stmts
+methodNamesCmd (HsApp c _) = methodNamesLCmd c
+methodNamesCmd (HsLam match) = methodNamesMatch match
methodNamesCmd (HsCase _ matches)
= methodNamesMatch matches `addOneFV` choiceAName
methodNamesLStmt = methodNamesStmt . unLoc
methodNamesStmt :: StmtLR Name Name -> FreeVars
-methodNamesStmt (ExprStmt cmd _ _) = methodNamesLCmd cmd
+methodNamesStmt (LastStmt cmd _) = methodNamesLCmd cmd
+methodNamesStmt (ExprStmt cmd _ _ _) = methodNamesLCmd cmd
methodNamesStmt (BindStmt _ cmd _ _) = methodNamesLCmd cmd
methodNamesStmt (RecStmt { recS_stmts = stmts }) = methodNamesStmts stmts `addOneFV` loopAName
methodNamesStmt (LetStmt _) = emptyFVs
-methodNamesStmt (ParStmt _) = emptyFVs
-methodNamesStmt (TransformStmt {}) = emptyFVs
-methodNamesStmt (GroupStmt {}) = emptyFVs
- -- ParStmt, TransformStmt and GroupStmt can't occur in commands, but it's not convenient to error
+methodNamesStmt (ParStmt _ _ _ _) = emptyFVs
+methodNamesStmt (TransStmt {}) = emptyFVs
+ -- ParStmt and TransStmt can't occur in commands, but it's not convenient to error
-- here so we just do what's convenient
\end{code}
\begin{code}
rnBracket :: HsBracket RdrName -> RnM (HsBracket Name, FreeVars)
-rnBracket (VarBr n) = do { name <- lookupOccRn n
- ; this_mod <- getModule
- ; unless (nameIsLocalOrFrom this_mod name) $ -- Reason: deprecation checking asumes the
- do { _ <- loadInterfaceForName msg name -- home interface is loaded, and this is the
- ; return () } -- only way that is going to happen
- ; return (VarBr name, unitFV name) }
- where
- msg = ptext (sLit "Need interface for Template Haskell quoted Name")
+rnBracket (VarBr n)
+ = do { name <- lookupOccRn n
+ ; this_mod <- getModule
+ ; unless (nameIsLocalOrFrom this_mod name) $ -- Reason: deprecation checking assumes
+ do { _ <- loadInterfaceForName msg name -- the home interface is loaded, and
+ ; return () } -- this is the only way that is going
+ -- to happen
+ ; return (VarBr name, unitFV name) }
+ where
+ msg = ptext (sLit "Need interface for Template Haskell quoted Name")
rnBracket (ExpBr e) = do { (e', fvs) <- rnLExpr e
; return (ExpBr e', fvs) }
rnSrcDecls group
-- Discard the tcg_env; it contains only extra info about fixity
- ; traceRn (text "rnBracket dec" <+> (ppr (tcg_dus tcg_env) $$ ppr (duUses (tcg_dus tcg_env))))
+ ; traceRn (text "rnBracket dec" <+> (ppr (tcg_dus tcg_env) $$
+ ppr (duUses (tcg_dus tcg_env))))
; return (DecBrG group', duUses (tcg_dus tcg_env)) }
rnBracket (DecBrG _) = panic "rnBracket: unexpected DecBrG"
%************************************************************************
\begin{code}
-rnStmts :: HsStmtContext Name -> [LStmt RdrName]
- -> RnM (thing, FreeVars)
- -> RnM (([LStmt Name], thing), FreeVars)
+rnStmts :: HsStmtContext Name -> [LStmt RdrName]
+ -> ([Name] -> RnM (thing, FreeVars))
+ -> RnM (([LStmt Name], thing), FreeVars)
-- Variables bound by the Stmts, and mentioned in thing_inside,
-- do not appear in the result FreeVars
-rnStmts (MDoExpr _) stmts thing_inside = rnMDoStmts stmts thing_inside
-rnStmts ctxt stmts thing_inside = rnNormalStmts ctxt stmts (\ _ -> thing_inside)
-
-rnNormalStmts :: HsStmtContext Name -> [LStmt RdrName]
- -> ([Name] -> RnM (thing, FreeVars))
- -> RnM (([LStmt Name], thing), FreeVars)
--- Variables bound by the Stmts, and mentioned in thing_inside,
--- do not appear in the result FreeVars
---
--- Renaming a single RecStmt can give a sequence of smaller Stmts
+rnStmts ctxt [] thing_inside
+ = do { checkEmptyStmts ctxt
+ ; (thing, fvs) <- thing_inside []
+ ; return (([], thing), fvs) }
+
+rnStmts MDoExpr stmts thing_inside -- Deal with mdo
+ = -- Behave like do { rec { ...all but last... }; last }
+ do { ((stmts1, (stmts2, thing)), fvs)
+ <- rnStmt MDoExpr (noLoc $ mkRecStmt all_but_last) $ \ _ ->
+ do { last_stmt' <- checkLastStmt MDoExpr last_stmt
+ ; rnStmt MDoExpr last_stmt' thing_inside }
+ ; return (((stmts1 ++ stmts2), thing), fvs) }
+ where
+ Just (all_but_last, last_stmt) = snocView stmts
-rnNormalStmts _ [] thing_inside
- = do { (res, fvs) <- thing_inside []
- ; return (([], res), fvs) }
+rnStmts ctxt (lstmt@(L loc _) : lstmts) thing_inside
+ | null lstmts
+ = setSrcSpan loc $
+ do { lstmt' <- checkLastStmt ctxt lstmt
+ ; rnStmt ctxt lstmt' thing_inside }
-rnNormalStmts ctxt (stmt@(L loc _) : stmts) thing_inside
+ | otherwise
= do { ((stmts1, (stmts2, thing)), fvs)
- <- setSrcSpan loc $
- rnStmt ctxt stmt $ \ bndrs1 ->
- rnNormalStmts ctxt stmts $ \ bndrs2 ->
- thing_inside (bndrs1 ++ bndrs2)
+ <- setSrcSpan loc $
+ do { checkStmt ctxt lstmt
+ ; rnStmt ctxt lstmt $ \ bndrs1 ->
+ rnStmts ctxt lstmts $ \ bndrs2 ->
+ thing_inside (bndrs1 ++ bndrs2) }
; return (((stmts1 ++ stmts2), thing), fvs) }
-
-rnStmt :: HsStmtContext Name -> LStmt RdrName
+----------------------
+rnStmt :: HsStmtContext Name
+ -> LStmt RdrName
-> ([Name] -> RnM (thing, FreeVars))
-> RnM (([LStmt Name], thing), FreeVars)
-- Variables bound by the Stmt, and mentioned in thing_inside,
-- do not appear in the result FreeVars
-rnStmt _ (L loc (ExprStmt expr _ _)) thing_inside
+rnStmt ctxt (L loc (LastStmt expr _)) thing_inside
+ = do { (expr', fv_expr) <- rnLExpr expr
+ ; (ret_op, fvs1) <- lookupStmtName ctxt returnMName
+ ; (thing, fvs3) <- thing_inside []
+ ; return (([L loc (LastStmt expr' ret_op)], thing),
+ fv_expr `plusFV` fvs1 `plusFV` fvs3) }
+
+rnStmt ctxt (L loc (ExprStmt expr _ _ _)) thing_inside
= do { (expr', fv_expr) <- rnLExpr expr
- ; (then_op, fvs1) <- lookupSyntaxName thenMName
- ; (thing, fvs2) <- thing_inside []
- ; return (([L loc (ExprStmt expr' then_op placeHolderType)], thing),
- fv_expr `plusFV` fvs1 `plusFV` fvs2) }
+ ; (then_op, fvs1) <- lookupStmtName ctxt thenMName
+ ; (guard_op, fvs2) <- if isListCompExpr ctxt
+ then lookupStmtName ctxt guardMName
+ else return (noSyntaxExpr, emptyFVs)
+ -- Only list/parr/monad comprehensions use 'guard'
+ -- Also for sub-stmts of same eg [ e | x<-xs, gd | blah ]
+ -- Here "gd" is a guard
+ ; (thing, fvs3) <- thing_inside []
+ ; return (([L loc (ExprStmt expr' then_op guard_op placeHolderType)], thing),
+ fv_expr `plusFV` fvs1 `plusFV` fvs2 `plusFV` fvs3) }
rnStmt ctxt (L loc (BindStmt pat expr _ _)) thing_inside
= do { (expr', fv_expr) <- rnLExpr expr
-- The binders do not scope over the expression
- ; (bind_op, fvs1) <- lookupSyntaxName bindMName
- ; (fail_op, fvs2) <- lookupSyntaxName failMName
+ ; (bind_op, fvs1) <- lookupStmtName ctxt bindMName
+ ; (fail_op, fvs2) <- lookupStmtName ctxt failMName
; rnPat (StmtCtxt ctxt) pat $ \ pat' -> do
{ (thing, fvs3) <- thing_inside (collectPatBinders pat')
; return (([L loc (BindStmt pat' expr' bind_op fail_op)], thing),
-- fv_expr shouldn't really be filtered by the rnPatsAndThen
-- but it does not matter because the names are unique
-rnStmt ctxt (L loc (LetStmt binds)) thing_inside
- = do { checkLetStmt ctxt binds
- ; rnLocalBindsAndThen binds $ \binds' -> do
+rnStmt _ (L loc (LetStmt binds)) thing_inside
+ = do { rnLocalBindsAndThen binds $ \binds' -> do
{ (thing, fvs) <- thing_inside (collectLocalBinders binds')
; return (([L loc (LetStmt binds')], thing), fvs) } }
rnStmt ctxt (L _ (RecStmt { recS_stmts = rec_stmts })) thing_inside
- = do { checkRecStmt ctxt
-
+ = do {
-- Step1: Bring all the binders of the mdo into scope
-- (Remember that this also removes the binders from the
-- finally-returned free-vars.)
-- for which it's the fwd refs within the bind itself
-- (This set may not be empty, because we're in a recursive
-- context.)
- ; rn_rec_stmts_and_then rec_stmts $ \ segs -> do
+ ; rnRecStmtsAndThen rec_stmts $ \ segs -> do
{ let bndrs = nameSetToList $ foldr (unionNameSets . (\(ds,_,_,_) -> ds))
emptyNameSet segs
; (thing, fvs_later) <- thing_inside bndrs
- ; (return_op, fvs1) <- lookupSyntaxName returnMName
- ; (mfix_op, fvs2) <- lookupSyntaxName mfixName
- ; (bind_op, fvs3) <- lookupSyntaxName bindMName
+ ; (return_op, fvs1) <- lookupStmtName ctxt returnMName
+ ; (mfix_op, fvs2) <- lookupStmtName ctxt mfixName
+ ; (bind_op, fvs3) <- lookupStmtName ctxt bindMName
; let
-- Step 2: Fill in the fwd refs.
-- The segments are all singletons, but their fwd-ref
; return ((rec_stmts', thing), fvs `plusFV` fvs1 `plusFV` fvs2 `plusFV` fvs3) } }
-rnStmt ctxt (L loc (ParStmt segs)) thing_inside
- = do { checkParStmt ctxt
- ; ((segs', thing), fvs) <- rnParallelStmts (ParStmtCtxt ctxt) segs thing_inside
- ; return (([L loc (ParStmt segs')], thing), fvs) }
-
-rnStmt ctxt (L loc (TransformStmt stmts _ using by)) thing_inside
- = do { checkTransformStmt ctxt
-
- ; (using', fvs1) <- rnLExpr using
-
- ; ((stmts', (by', used_bndrs, thing)), fvs2)
- <- rnNormalStmts (TransformStmtCtxt ctxt) stmts $ \ bndrs ->
- do { (by', fvs_by) <- case by of
- Nothing -> return (Nothing, emptyFVs)
- Just e -> do { (e', fvs) <- rnLExpr e; return (Just e', fvs) }
- ; (thing, fvs_thing) <- thing_inside bndrs
- ; let fvs = fvs_by `plusFV` fvs_thing
- used_bndrs = filter (`elemNameSet` fvs_thing) bndrs
- ; return ((by', used_bndrs, thing), fvs) }
-
- ; return (([L loc (TransformStmt stmts' used_bndrs using' by')], thing),
- fvs1 `plusFV` fvs2) }
-
-rnStmt ctxt (L loc (GroupStmt stmts _ by using)) thing_inside
- = do { checkTransformStmt ctxt
-
- -- Rename the 'using' expression in the context before the transform is begun
- ; (using', fvs1) <- case using of
- Left e -> do { (e', fvs) <- rnLExpr e; return (Left e', fvs) }
- Right _ -> do { (e', fvs) <- lookupSyntaxName groupWithName
- ; return (Right e', fvs) }
+rnStmt ctxt (L loc (ParStmt segs _ _ _)) thing_inside
+ = do { (mzip_op, fvs1) <- lookupStmtName ctxt mzipName
+ ; (bind_op, fvs2) <- lookupStmtName ctxt bindMName
+ ; (return_op, fvs3) <- lookupStmtName ctxt returnMName
+ ; ((segs', thing), fvs4) <- rnParallelStmts (ParStmtCtxt ctxt) segs thing_inside
+ ; return ( ([L loc (ParStmt segs' mzip_op bind_op return_op)], thing)
+ , fvs1 `plusFV` fvs2 `plusFV` fvs3 `plusFV` fvs4) }
+
+rnStmt ctxt (L loc (TransStmt { trS_stmts = stmts, trS_by = by, trS_form = form
+ , trS_using = using })) thing_inside
+ = do { -- Rename the 'using' expression in the context before the transform is begun
+ (using', fvs1) <- case form of
+ GroupFormB -> do { (e,fvs) <- lookupStmtName ctxt groupMName
+ ; return (noLoc e, fvs) }
+ _ -> rnLExpr using
-- Rename the stmts and the 'by' expression
-- Keep track of the variables mentioned in the 'by' expression
; ((stmts', (by', used_bndrs, thing)), fvs2)
- <- rnNormalStmts (TransformStmtCtxt ctxt) stmts $ \ bndrs ->
+ <- rnStmts (TransStmtCtxt ctxt) stmts $ \ bndrs ->
do { (by', fvs_by) <- mapMaybeFvRn rnLExpr by
; (thing, fvs_thing) <- thing_inside bndrs
; let fvs = fvs_by `plusFV` fvs_thing
used_bndrs = filter (`elemNameSet` fvs) bndrs
+ -- The paper (Fig 5) has a bug here; we must treat any free varaible
+ -- of the "thing inside", **or of the by-expression**, as used
; return ((by', used_bndrs, thing), fvs) }
- ; let all_fvs = fvs1 `plusFV` fvs2
+ -- Lookup `return`, `(>>=)` and `liftM` for monad comprehensions
+ ; (return_op, fvs3) <- lookupStmtName ctxt returnMName
+ ; (bind_op, fvs4) <- lookupStmtName ctxt bindMName
+ ; (fmap_op, fvs5) <- case form of
+ ThenForm -> return (noSyntaxExpr, emptyFVs)
+ _ -> lookupStmtName ctxt fmapName
+
+ ; let all_fvs = fvs1 `plusFV` fvs2 `plusFV` fvs3
+ `plusFV` fvs4 `plusFV` fvs5
bndr_map = used_bndrs `zip` used_bndrs
- -- See Note [GroupStmt binder map] in HsExpr
+ -- See Note [TransStmt binder map] in HsExpr
; traceRn (text "rnStmt: implicitly rebound these used binders:" <+> ppr bndr_map)
- ; return (([L loc (GroupStmt stmts' bndr_map by' using')], thing), all_fvs) }
-
+ ; return (([L loc (TransStmt { trS_stmts = stmts', trS_bndrs = bndr_map
+ , trS_by = by', trS_using = using', trS_form = form
+ , trS_ret = return_op, trS_bind = bind_op
+ , trS_fmap = fmap_op })], thing), all_fvs) }
type ParSeg id = ([LStmt id], [id]) -- The Names are bound by the Stmts
rn_segs env bndrs_so_far ((stmts,_) : segs)
= do { ((stmts', (used_bndrs, segs', thing)), fvs)
- <- rnNormalStmts ctxt stmts $ \ bndrs ->
+ <- rnStmts ctxt stmts $ \ bndrs ->
setLocalRdrEnv env $ do
{ ((segs', thing), fvs) <- rn_segs env (bndrs ++ bndrs_so_far) segs
; let used_bndrs = filter (`elemNameSet` fvs) bndrs
cmpByOcc n1 n2 = nameOccName n1 `compare` nameOccName n2
dupErr vs = addErr (ptext (sLit "Duplicate binding in parallel list comprehension for:")
<+> quotes (ppr (head vs)))
+
+lookupStmtName :: HsStmtContext Name -> Name -> RnM (HsExpr Name, FreeVars)
+-- Like lookupSyntaxName, but ListComp/PArrComp are never rebindable
+-- Neither is ArrowExpr, which has its own desugarer in DsArrows
+lookupStmtName ctxt n
+ = case ctxt of
+ ListComp -> not_rebindable
+ PArrComp -> not_rebindable
+ ArrowExpr -> not_rebindable
+ PatGuard {} -> not_rebindable
+
+ DoExpr -> rebindable
+ MDoExpr -> rebindable
+ MonadComp -> rebindable
+ GhciStmt -> rebindable -- I suppose?
+
+ ParStmtCtxt c -> lookupStmtName c n -- Look inside to
+ TransStmtCtxt c -> lookupStmtName c n -- the parent context
+ where
+ rebindable = lookupSyntaxName n
+ not_rebindable = return (HsVar n, emptyFVs)
\end{code}
Note [Renaming parallel Stmts]
stmts) -- Either Stmt or [Stmt]
-----------------------------------------------------
-
-rnMDoStmts :: [LStmt RdrName]
- -> RnM (thing, FreeVars)
- -> RnM (([LStmt Name], thing), FreeVars)
-rnMDoStmts stmts thing_inside
- = rn_rec_stmts_and_then stmts $ \ segs -> do
- { (thing, fvs_later) <- thing_inside
- ; let segs_w_fwd_refs = addFwdRefs segs
- grouped_segs = glomSegments segs_w_fwd_refs
- (stmts', fvs) = segsToStmts emptyRecStmt grouped_segs fvs_later
- ; return ((stmts', thing), fvs) }
-
----------------------------------------------
-
-- wrapper that does both the left- and right-hand sides
-rn_rec_stmts_and_then :: [LStmt RdrName]
+rnRecStmtsAndThen :: [LStmt RdrName]
-- assumes that the FreeVars returned includes
-- the FreeVars of the Segments
-> ([Segment (LStmt Name)] -> RnM (a, FreeVars))
-> RnM (a, FreeVars)
-rn_rec_stmts_and_then s cont
+rnRecStmtsAndThen s cont
= do { -- (A) Make the mini fixity env for all of the stmts
fix_env <- makeMiniFixityEnv (collectRecStmtsFixities s)
-- ...bring them and their fixities into scope
; let bound_names = collectLStmtsBinders (map fst new_lhs_and_fv)
+ -- Fake uses of variables introduced implicitly (warning suppression, see #4404)
+ implicit_uses = lStmtsImplicits (map fst new_lhs_and_fv)
; bindLocalNamesFV bound_names $
addLocalFixities fix_env bound_names $ do
-- (C) do the right-hand-sides and thing-inside
{ segs <- rn_rec_stmts bound_names new_lhs_and_fv
; (res, fvs) <- cont segs
- ; warnUnusedLocalBinds bound_names fvs
+ ; warnUnusedLocalBinds bound_names (fvs `unionNameSets` implicit_uses)
; return (res, fvs) }}
-- get all the fixity decls in any Let stmt
-- so we don't bother to compute it accurately in the other cases
-> RnM [(LStmtLR Name RdrName, FreeVars)]
-rn_rec_stmt_lhs _ (L loc (ExprStmt expr a b)) = return [(L loc (ExprStmt expr a b),
- -- this is actually correct
- emptyFVs)]
+rn_rec_stmt_lhs _ (L loc (ExprStmt expr a b c))
+ = return [(L loc (ExprStmt expr a b c), emptyFVs)]
+
+rn_rec_stmt_lhs _ (L loc (LastStmt expr a))
+ = return [(L loc (LastStmt expr a), emptyFVs)]
rn_rec_stmt_lhs fix_env (L loc (BindStmt pat expr a b))
= do
= failWith (badIpBinds (ptext (sLit "an mdo expression")) binds)
rn_rec_stmt_lhs fix_env (L loc (LetStmt (HsValBinds binds)))
- = do (_bound_names, binds') <- rnValBindsLHS fix_env binds
+ = do (_bound_names, binds') <- rnLocalValBindsLHS fix_env binds
return [(L loc (LetStmt (HsValBinds binds')),
-- Warning: this is bogus; see function invariant
emptyFVs
rn_rec_stmt_lhs fix_env (L _ (RecStmt { recS_stmts = stmts })) -- Flatten Rec inside Rec
= rn_rec_stmts_lhs fix_env stmts
-rn_rec_stmt_lhs _ stmt@(L _ (ParStmt _)) -- Syntactically illegal in mdo
- = pprPanic "rn_rec_stmt" (ppr stmt)
-
-rn_rec_stmt_lhs _ stmt@(L _ (TransformStmt {})) -- Syntactically illegal in mdo
+rn_rec_stmt_lhs _ stmt@(L _ (ParStmt _ _ _ _)) -- Syntactically illegal in mdo
= pprPanic "rn_rec_stmt" (ppr stmt)
-rn_rec_stmt_lhs _ stmt@(L _ (GroupStmt {})) -- Syntactically illegal in mdo
+rn_rec_stmt_lhs _ stmt@(L _ (TransStmt {})) -- Syntactically illegal in mdo
= pprPanic "rn_rec_stmt" (ppr stmt)
rn_rec_stmt_lhs _ (L _ (LetStmt EmptyLocalBinds))
-- Rename a Stmt that is inside a RecStmt (or mdo)
-- Assumes all binders are already in scope
-- Turns each stmt into a singleton Stmt
-rn_rec_stmt _ (L loc (ExprStmt expr _ _)) _
+rn_rec_stmt _ (L loc (LastStmt expr _)) _
+ = do { (expr', fv_expr) <- rnLExpr expr
+ ; (ret_op, fvs1) <- lookupSyntaxName returnMName
+ ; return [(emptyNameSet, fv_expr `plusFV` fvs1, emptyNameSet,
+ L loc (LastStmt expr' ret_op))] }
+
+rn_rec_stmt _ (L loc (ExprStmt expr _ _ _)) _
= rnLExpr expr `thenM` \ (expr', fvs) ->
lookupSyntaxName thenMName `thenM` \ (then_op, fvs1) ->
return [(emptyNameSet, fvs `plusFV` fvs1, emptyNameSet,
- L loc (ExprStmt expr' then_op placeHolderType))]
+ L loc (ExprStmt expr' then_op noSyntaxExpr placeHolderType))]
rn_rec_stmt _ (L loc (BindStmt pat' expr _ _)) fv_pat
= rnLExpr expr `thenM` \ (expr', fv_expr) ->
rn_rec_stmt all_bndrs (L loc (LetStmt (HsValBinds binds'))) _ = do
(binds', du_binds) <-
- -- fixities and unused are handled above in rn_rec_stmts_and_then
- rnValBindsRHS (mkNameSet all_bndrs) binds'
+ -- fixities and unused are handled above in rnRecStmtsAndThen
+ rnLocalValBindsRHS (mkNameSet all_bndrs) binds'
return [(duDefs du_binds, allUses du_binds,
emptyNameSet, L loc (LetStmt (HsValBinds binds')))]
rn_rec_stmt _ stmt@(L _ (ParStmt {})) _ -- Syntactically illegal in mdo
= pprPanic "rn_rec_stmt: ParStmt" (ppr stmt)
-rn_rec_stmt _ stmt@(L _ (TransformStmt {})) _ -- Syntactically illegal in mdo
- = pprPanic "rn_rec_stmt: TransformStmt" (ppr stmt)
-
-rn_rec_stmt _ stmt@(L _ (GroupStmt {})) _ -- Syntactically illegal in mdo
- = pprPanic "rn_rec_stmt: GroupStmt" (ppr stmt)
+rn_rec_stmt _ stmt@(L _ (TransStmt {})) _ -- Syntactically illegal in mdo
+ = pprPanic "rn_rec_stmt: TransStmt" (ppr stmt)
rn_rec_stmt _ (L _ (LetStmt EmptyLocalBinds)) _
= panic "rn_rec_stmt: LetStmt EmptyLocalBinds"
%************************************************************************
\begin{code}
+checkEmptyStmts :: HsStmtContext Name -> RnM ()
+-- We've seen an empty sequence of Stmts... is that ok?
+checkEmptyStmts ctxt
+ = unless (okEmpty ctxt) (addErr (emptyErr ctxt))
-----------------------
--- Checking when a particular Stmt is ok
-checkLetStmt :: HsStmtContext Name -> HsLocalBinds RdrName -> RnM ()
-checkLetStmt (ParStmtCtxt _) (HsIPBinds binds) = addErr (badIpBinds (ptext (sLit "a parallel list comprehension:")) binds)
-checkLetStmt _ctxt _binds = return ()
- -- We do not allow implicit-parameter bindings in a parallel
- -- list comprehension. I'm not sure what it might mean.
+okEmpty :: HsStmtContext a -> Bool
+okEmpty (PatGuard {}) = True
+okEmpty _ = False
----------
-checkRecStmt :: HsStmtContext Name -> RnM ()
-checkRecStmt (MDoExpr {}) = return () -- Recursive stmt ok in 'mdo'
-checkRecStmt (DoExpr {}) = return () -- and in 'do'
-checkRecStmt ctxt = addErr msg
- where
- msg = ptext (sLit "Illegal 'rec' stmt in") <+> pprStmtContext ctxt
+emptyErr :: HsStmtContext Name -> SDoc
+emptyErr (ParStmtCtxt {}) = ptext (sLit "Empty statement group in parallel comprehension")
+emptyErr (TransStmtCtxt {}) = ptext (sLit "Empty statement group preceding 'group' or 'then'")
+emptyErr ctxt = ptext (sLit "Empty") <+> pprStmtContext ctxt
----------
-checkParStmt :: HsStmtContext Name -> RnM ()
-checkParStmt _
- = do { parallel_list_comp <- xoptM Opt_ParallelListComp
- ; checkErr parallel_list_comp msg }
+----------------------
+checkLastStmt :: HsStmtContext Name
+ -> LStmt RdrName
+ -> RnM (LStmt RdrName)
+checkLastStmt ctxt lstmt@(L loc stmt)
+ = case ctxt of
+ ListComp -> check_comp
+ MonadComp -> check_comp
+ PArrComp -> check_comp
+ ArrowExpr -> check_do
+ DoExpr -> check_do
+ MDoExpr -> check_do
+ _ -> check_other
where
- msg = ptext (sLit "Illegal parallel list comprehension: use -XParallelListComp")
+ check_do -- Expect ExprStmt, and change it to LastStmt
+ = case stmt of
+ ExprStmt e _ _ _ -> return (L loc (mkLastStmt e))
+ LastStmt {} -> return lstmt -- "Deriving" clauses may generate a
+ -- LastStmt directly (unlike the parser)
+ _ -> do { addErr (hang last_error 2 (ppr stmt)); return lstmt }
+ last_error = (ptext (sLit "The last statement in") <+> pprAStmtContext ctxt
+ <+> ptext (sLit "must be an expression"))
+
+ check_comp -- Expect LastStmt; this should be enforced by the parser!
+ = case stmt of
+ LastStmt {} -> return lstmt
+ _ -> pprPanic "checkLastStmt" (ppr lstmt)
+
+ check_other -- Behave just as if this wasn't the last stmt
+ = do { checkStmt ctxt lstmt; return lstmt }
----------
-checkTransformStmt :: HsStmtContext Name -> RnM ()
-checkTransformStmt ListComp -- Ensure we are really within a list comprehension because otherwise the
- -- desugarer will break when we come to operate on a parallel array
- = do { transform_list_comp <- xoptM Opt_TransformListComp
- ; checkErr transform_list_comp msg }
- where
- msg = ptext (sLit "Illegal transform or grouping list comprehension: use -XTransformListComp")
-checkTransformStmt (ParStmtCtxt ctxt) = checkTransformStmt ctxt -- Ok to nest inside a parallel comprehension
-checkTransformStmt (TransformStmtCtxt ctxt) = checkTransformStmt ctxt -- Ok to nest inside a parallel comprehension
-checkTransformStmt ctxt = addErr msg
+-- Checking when a particular Stmt is ok
+checkStmt :: HsStmtContext Name
+ -> LStmt RdrName
+ -> RnM ()
+checkStmt ctxt (L _ stmt)
+ = do { dflags <- getDOpts
+ ; case okStmt dflags ctxt stmt of
+ Nothing -> return ()
+ Just extra -> addErr (msg $$ extra) }
where
- msg = ptext (sLit "Illegal transform or grouping in") <+> pprStmtContext ctxt
+ msg = sep [ ptext (sLit "Unexpected") <+> pprStmtCat stmt <+> ptext (sLit "statement")
+ , ptext (sLit "in") <+> pprAStmtContext ctxt ]
+
+pprStmtCat :: Stmt a -> SDoc
+pprStmtCat (TransStmt {}) = ptext (sLit "transform")
+pprStmtCat (LastStmt {}) = ptext (sLit "return expression")
+pprStmtCat (ExprStmt {}) = ptext (sLit "exprssion")
+pprStmtCat (BindStmt {}) = ptext (sLit "binding")
+pprStmtCat (LetStmt {}) = ptext (sLit "let")
+pprStmtCat (RecStmt {}) = ptext (sLit "rec")
+pprStmtCat (ParStmt {}) = ptext (sLit "parallel")
+
+------------
+isOK, notOK :: Maybe SDoc
+isOK = Nothing
+notOK = Just empty
+
+okStmt, okDoStmt, okCompStmt, okParStmt, okPArrStmt
+ :: DynFlags -> HsStmtContext Name
+ -> Stmt RdrName -> Maybe SDoc
+-- Return Nothing if OK, (Just extra) if not ok
+-- The "extra" is an SDoc that is appended to an generic error message
+
+okStmt dflags ctxt stmt
+ = case ctxt of
+ PatGuard {} -> okPatGuardStmt stmt
+ ParStmtCtxt ctxt -> okParStmt dflags ctxt stmt
+ DoExpr -> okDoStmt dflags ctxt stmt
+ MDoExpr -> okDoStmt dflags ctxt stmt
+ ArrowExpr -> okDoStmt dflags ctxt stmt
+ GhciStmt -> okDoStmt dflags ctxt stmt
+ ListComp -> okCompStmt dflags ctxt stmt
+ MonadComp -> okCompStmt dflags ctxt stmt
+ PArrComp -> okPArrStmt dflags ctxt stmt
+ TransStmtCtxt ctxt -> okStmt dflags ctxt stmt
+
+-------------
+okPatGuardStmt :: Stmt RdrName -> Maybe SDoc
+okPatGuardStmt stmt
+ = case stmt of
+ ExprStmt {} -> isOK
+ BindStmt {} -> isOK
+ LetStmt {} -> isOK
+ _ -> notOK
+
+-------------
+okParStmt dflags ctxt stmt
+ = case stmt of
+ LetStmt (HsIPBinds {}) -> notOK
+ _ -> okStmt dflags ctxt stmt
+
+----------------
+okDoStmt dflags ctxt stmt
+ = case stmt of
+ RecStmt {}
+ | Opt_DoRec `xopt` dflags -> isOK
+ | ArrowExpr <- ctxt -> isOK -- Arrows allows 'rec'
+ | otherwise -> Just (ptext (sLit "Use -XDoRec"))
+ BindStmt {} -> isOK
+ LetStmt {} -> isOK
+ ExprStmt {} -> isOK
+ _ -> notOK
+
+----------------
+okCompStmt dflags _ stmt
+ = case stmt of
+ BindStmt {} -> isOK
+ LetStmt {} -> isOK
+ ExprStmt {} -> isOK
+ ParStmt {}
+ | Opt_ParallelListComp `xopt` dflags -> isOK
+ | otherwise -> Just (ptext (sLit "Use -XParallelListComp"))
+ TransStmt {}
+ | Opt_TransformListComp `xopt` dflags -> isOK
+ | otherwise -> Just (ptext (sLit "Use -XTransformListComp"))
+ RecStmt {} -> notOK
+ LastStmt {} -> notOK -- Should not happen (dealt with by checkLastStmt)
+
+----------------
+okPArrStmt dflags _ stmt
+ = case stmt of
+ BindStmt {} -> isOK
+ LetStmt {} -> isOK
+ ExprStmt {} -> isOK
+ ParStmt {}
+ | Opt_ParallelListComp `xopt` dflags -> isOK
+ | otherwise -> Just (ptext (sLit "Use -XParallelListComp"))
+ TransStmt {} -> notOK
+ RecStmt {} -> notOK
+ LastStmt {} -> notOK -- Should not happen (dealt with by checkLastStmt)
---------
checkTupleSection :: [HsTupArg RdrName] -> RnM ()