\section[RnSource]{Main pass of renamer}
\begin{code}
-{-# OPTIONS -w #-}
--- The above warning supression flag is a temporary kludge.
--- While working on this module you are encouraged to remove it and fix
--- any warnings in the module. See
--- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
--- for details
-
module RnSource (
rnSrcDecls, addTcgDUs,
rnTyClDecls,
lookupOccRn, newLocalsRn,
bindLocatedLocalsFV, bindPatSigTyVarsFV,
bindTyVarsRn, extendTyVarEnvFVRn,
- bindLocalNames, checkDupNames, mapFvRn, lookupGreLocalRn,
+ bindLocalNames, checkDupRdrNames, mapFvRn,
)
-import RnNames (importsFromLocalDecls, extendRdrEnvRn)
-import HscTypes (GenAvailInfo(..))
+import RnNames ( getLocalNonValBinders, extendGlobalRdrEnvRn )
+import HscTypes ( GenAvailInfo(..) )
import RnHsDoc ( rnHsDoc, rnMbLHsDoc )
import TcRnMonad
-import HscTypes ( FixityEnv, FixItem(..), Deprecations(..), plusDeprecs )
+import HscTypes ( Warnings(..), plusWarns )
import Class ( FunDep )
import Name ( Name, nameOccName )
import NameSet
import NameEnv
-import UniqFM
import OccName
import Outputable
+import Bag
+import FastString
import SrcLoc ( Located(..), unLoc, noLoc )
import DynFlags ( DynFlag(..) )
-import Maybes ( seqMaybe )
import Maybe ( isNothing )
-import Monad ( liftM, when )
import BasicTypes ( Boxity(..) )
-import ListSetOps (findDupsEq, mkLookupFun)
+import ListSetOps (findDupsEq)
+
+import Control.Monad
+\end{code}
+
+\begin{code}
+-- XXX
+thenM :: Monad a => a b -> (b -> a c) -> a c
+thenM = (>>=)
+
+thenM_ :: Monad a => a b -> a c -> a c
+thenM_ = (>>)
+
+returnM :: Monad m => a -> m a
+returnM = return
+
+mappM :: (Monad m) => (a -> m b) -> [a] -> m [b]
+mappM = mapM
+
+mappM_ :: (Monad m) => (a -> m b) -> [a] -> m ()
+mappM_ = mapM_
+
+checkM :: Monad m => Bool -> m () -> m ()
+checkM = unless
\end{code}
@rnSourceDecl@ `renames' declarations.
\begin{code}
--- brings the binders of the group into scope in the appropriate places;
+-- Brings the binders of the group into scope in the appropriate places;
-- does NOT assume that anything is in scope already
--
--- the Bool determines whether (True) names in the group shadow existing
+-- The Bool determines whether (True) names in the group shadow existing
-- Unquals in the global environment (used in Template Haskell) or
-- (False) whether duplicates are reported as an error
rnSrcDecls :: Bool -> HsGroup RdrName -> RnM (TcGblEnv, HsGroup Name)
hs_instds = inst_decls,
hs_derivds = deriv_decls,
hs_fixds = fix_decls,
- hs_depds = deprec_decls,
+ hs_warnds = warn_decls,
hs_fords = foreign_decls,
hs_defds = default_decls,
hs_ruleds = rule_decls,
local_fix_env <- makeMiniFixityEnv fix_decls;
-- (B) Bring top level binders (and their fixities) into scope,
- -- except for the value bindings, which get brought in below.
- inNewEnv (importsFromLocalDecls shadowP group local_fix_env) $ \ tcg_env -> do {
+ -- *except* for the value bindings, which get brought in below.
+ avails <- getLocalNonValBinders group ;
+ tc_envs <- extendGlobalRdrEnvRn shadowP avails local_fix_env ;
+ setEnvs tc_envs $ do {
failIfErrsM ; -- No point in continuing if (say) we have duplicate declarations
-- extend the record field env.
-- This depends on the data constructors and field names being in
-- scope from (B) above
- inNewEnv (extendRecordFieldEnv tycl_decls) $ \ tcg_env -> do {
+ inNewEnv (extendRecordFieldEnv tycl_decls) $ \ _ -> do {
-- (D) Rename the left-hand sides of the value bindings.
-- This depends on everything from (B) being in scope,
let { lhs_binders = map unLoc $ collectHsValBinders new_lhs;
lhs_avails = map Avail lhs_binders
} ;
- inNewEnv (extendRdrEnvRn shadowP (tcg_rdr_env tcg_env, tcg_fix_env tcg_env)
- lhs_avails local_fix_env
- >>= \ (new_rdr_env, new_fix_env) ->
- return (tcg_env { tcg_rdr_env = new_rdr_env,
- tcg_fix_env = new_fix_env
- })) $ \tcg_env -> do {
+ (tcg_env, tcl_env) <- extendGlobalRdrEnvRn shadowP lhs_avails local_fix_env ;
+ setEnvs (tcg_env, tcl_env) $ do {
-- Now everything is in scope, as the remaining renaming assumes.
-- rename deprec decls;
-- check for duplicates and ensure that deprecated things are defined locally
-- at the moment, we don't keep these around past renaming
- rn_deprecs <- rnSrcDeprecDecls deprec_decls ;
+ rn_warns <- rnSrcWarnDecls warn_decls ;
-- (H) Rename Everything else
-- (I) Compute the results and return
let {rn_group = HsGroup { hs_valds = rn_val_decls,
- hs_tyclds = rn_tycl_decls,
- hs_instds = rn_inst_decls,
+ hs_tyclds = rn_tycl_decls,
+ hs_instds = rn_inst_decls,
hs_derivds = rn_deriv_decls,
- hs_fixds = rn_fix_decls,
- hs_depds = [], -- deprecs are returned in the tcg_env (see below)
- -- not in the HsGroup
- hs_fords = rn_foreign_decls,
- hs_defds = rn_default_decls,
- hs_ruleds = rn_rule_decls,
+ hs_fixds = rn_fix_decls,
+ hs_warnds = [], -- warns are returned in the tcg_env
+ -- (see below) not in the HsGroup
+ hs_fords = rn_foreign_decls,
+ hs_defds = rn_default_decls,
+ hs_ruleds = rn_rule_decls,
hs_docs = rn_docs } ;
other_fvs = plusFVs [src_fvs1, src_fvs2, src_fvs6, src_fvs3,
final_tcg_env = let tcg_env' = (tcg_env `addTcgDUs` src_dus)
in -- we return the deprecs in the env, not in the HsGroup above
- tcg_env' { tcg_deprecs = tcg_deprecs tcg_env' `plusDeprecs` rn_deprecs };
+ tcg_env' { tcg_warns = tcg_warns tcg_env' `plusWarns` rn_warns };
} ;
traceRn (text "finish rnSrc" <+> ppr rn_group) ;
rnTyClDecls :: [LTyClDecl RdrName] -> RnM [LTyClDecl Name]
-- Used for external core
-rnTyClDecls tycl_decls = do (decls', fvs) <- rnList rnTyClDecl tycl_decls
+rnTyClDecls tycl_decls = do (decls', _fvs) <- rnList rnTyClDecl tycl_decls
return decls'
addTcgDUs :: TcGblEnv -> DefUses -> TcGblEnv
-- Rename the fixity decls, so we can put
-- the renamed decls in the renamed syntax tree
-- Errors if the thing being fixed is not defined locally.
+--
+-- The returned FixitySigs are not actually used for anything,
+-- except perhaps the GHCi API
rnSrcFixityDecls fix_decls
= do fix_decls <- mapM rn_decl fix_decls
return (concat fix_decls)
-- GHC extension: look up both the tycon and data con
-- for con-like things; hence returning a list
-- If neither are in scope, report an error; otherwise
- -- add both to the fixity env
+ -- return a fixity sig for each (slightly odd)
rn_decl (L loc (FixitySig (L name_loc rdr_name) fixity))
= setSrcSpan name_loc $
-- this lookup will fail if the definition isn't local
\begin{code}
-- checks that the deprecations are defined locally, and that there are no duplicates
-rnSrcDeprecDecls :: [LDeprecDecl RdrName] -> RnM Deprecations
-rnSrcDeprecDecls []
- = returnM NoDeprecs
+rnSrcWarnDecls :: [LWarnDecl RdrName] -> RnM Warnings
+rnSrcWarnDecls []
+ = returnM NoWarnings
-rnSrcDeprecDecls decls
+rnSrcWarnDecls decls
= do { -- check for duplicates
- ; mappM_ (\ (lrdr:lrdr':_) -> addLocErr lrdr (dupDeprecDecl lrdr')) deprec_rdr_dups
+ ; mappM_ (\ (lrdr:lrdr':_) -> addLocErr lrdr (dupWarnDecl lrdr')) warn_rdr_dups
; mappM (addLocM rn_deprec) decls `thenM` \ pairs_s ->
- returnM (DeprecSome ((concat pairs_s))) }
+ returnM (WarnSome ((concat pairs_s))) }
where
- rn_deprec (Deprecation rdr_name txt)
+ rn_deprec (Warning rdr_name txt)
-- ensures that the names are defined locally
= lookupLocalDataTcNames rdr_name `thenM` \ names ->
returnM [(nameOccName name, txt) | name <- names]
-- look for duplicates among the OccNames;
-- we check that the names are defined above
-- invt: the lists returned by findDupsEq always have at least two elements
- deprec_rdr_dups = findDupsEq (\ x -> \ y -> rdrNameOcc (unLoc x) == rdrNameOcc (unLoc y))
- (map (\ (L loc (Deprecation rdr_name _)) -> L loc rdr_name) decls)
+ warn_rdr_dups = findDupsEq (\ x -> \ y -> rdrNameOcc (unLoc x) == rdrNameOcc (unLoc y))
+ (map (\ (L loc (Warning rdr_name _)) -> L loc rdr_name) decls)
-dupDeprecDecl (L loc _) rdr_name
- = vcat [ptext SLIT("Multiple deprecation declarations for") <+> quotes (ppr rdr_name),
- ptext SLIT("also at ") <+> ppr loc]
+dupWarnDecl :: Located RdrName -> RdrName -> SDoc
+-- Located RdrName -> DeprecDecl RdrName -> SDoc
+dupWarnDecl (L loc _) rdr_name
+ = vcat [ptext (sLit "Multiple warning declarations for") <+> quotes (ppr rdr_name),
+ ptext (sLit "also at ") <+> ppr loc]
\end{code}
%*********************************************************
\begin{code}
+rnDefaultDecl :: DefaultDecl RdrName -> RnM (DefaultDecl Name, FreeVars)
rnDefaultDecl (DefaultDecl tys)
= mapFvRn (rnHsTypeFVs doc_str) tys `thenM` \ (tys', fvs) ->
returnM (DefaultDecl tys', fvs)
%*********************************************************
\begin{code}
+rnHsForeignDecl :: ForeignDecl RdrName -> RnM (ForeignDecl Name, FreeVars)
rnHsForeignDecl (ForeignImport name ty spec)
= lookupLocatedTopBndrRn name `thenM` \ name' ->
rnHsTypeFVs (fo_decl_msg name) ty `thenM` \ (ty', fvs) ->
-- we add it to the free-variable list. It might, for example,
-- be imported from another module
-fo_decl_msg name = ptext SLIT("In the foreign declaration for") <+> ppr name
+fo_decl_msg :: Located RdrName -> SDoc
+fo_decl_msg name = ptext (sLit "In the foreign declaration for") <+> ppr name
\end{code}
%*********************************************************
\begin{code}
+rnSrcInstDecl :: InstDecl RdrName -> RnM (InstDecl Name, FreeVars)
rnSrcInstDecl (InstDecl inst_ty mbinds uprags ats)
-- Used for both source and interface file decls
= rnHsSigType (text "an instance decl") inst_ty `thenM` \ inst_ty' ->
- -- Rename the associated types
- -- The typechecker (not the renamer) checks that all
- -- the declarations are for the right class
- let
- at_doc = text "In the associated types of an instance declaration"
- at_names = map (head . tyClDeclNames . unLoc) ats
- in
- checkDupNames at_doc at_names `thenM_`
- rnATInsts ats `thenM` \ (ats', at_fvs) ->
-
-- Rename the bindings
-- The typechecker (not the renamer) checks that all
-- the bindings are for the right class
meth_names = collectHsBindLocatedBinders mbinds
(inst_tyvars, _, cls,_) = splitHsInstDeclTy (unLoc inst_ty')
in
- checkDupNames meth_doc meth_names `thenM_`
+ checkDupRdrNames meth_doc meth_names `thenM_`
+ -- Check that the same method is not given twice in the
+ -- same instance decl instance C T where
+ -- f x = ...
+ -- g y = ...
+ -- f x = ...
+ -- We must use checkDupRdrNames because the Name of the
+ -- method is the Name of the class selector, whose SrcSpan
+ -- points to the class declaration
+
extendTyVarEnvForMethodBinds inst_tyvars (
-- (Slightly strangely) the forall-d tyvars scope over
-- the method bindings too
- rnMethodBinds cls (\n->[]) -- No scoped tyvars
+ rnMethodBinds cls (\_ -> []) -- No scoped tyvars
[] mbinds
) `thenM` \ (mbinds', meth_fvs) ->
+ -- Rename the associated types
+ -- The typechecker (not the renamer) checks that all
+ -- the declarations are for the right class
+ let
+ at_doc = text "In the associated types of an instance declaration"
+ at_names = map (head . tyClDeclNames . unLoc) ats
+ in
+ checkDupRdrNames at_doc at_names `thenM_`
+ -- See notes with checkDupRdrNames for methods, above
+
+ rnATInsts ats `thenM` \ (ats', at_fvs) ->
+
-- Rename the prags and signatures.
-- Note that the type variables are not in scope here,
-- so that instance Eq a => Eq (T a) where
-- But the (unqualified) method names are in scope
let
binders = collectHsBindBinders mbinds'
- ok_sig = okInstDclSig (mkNameSet binders)
+ bndr_set = mkNameSet binders
in
- bindLocalNames binders (renameSigs ok_sig uprags) `thenM` \ uprags' ->
+ bindLocalNames binders
+ (renameSigs (Just bndr_set) okInstDclSig uprags) `thenM` \ uprags' ->
returnM (InstDecl inst_ty' mbinds' uprags' ats',
meth_fvs `plusFV` at_fvs
type variable environment iff -fglasgow-exts
\begin{code}
+extendTyVarEnvForMethodBinds :: [LHsTyVarBndr Name]
+ -> RnM (Bag (LHsBind Name), FreeVars)
+ -> RnM (Bag (LHsBind Name), FreeVars)
extendTyVarEnvForMethodBinds tyvars thing_inside
= do { scoped_tvs <- doptM Opt_ScopedTypeVariables
; if scoped_tvs then
%*********************************************************
\begin{code}
-rnHsRuleDecl (HsRule rule_name act vars lhs fv_lhs rhs fv_rhs)
+rnHsRuleDecl :: RuleDecl RdrName -> RnM (RuleDecl Name, FreeVars)
+rnHsRuleDecl (HsRule rule_name act vars lhs _fv_lhs rhs _fv_rhs)
= bindPatSigTyVarsFV (collectRuleBndrSigTys vars) $
bindLocatedLocalsFV doc (map get_var vars) $ \ ids ->
get_var (RuleBndr v) = v
get_var (RuleBndrSig v _) = v
- rn_var (RuleBndr (L loc v), id)
+ rn_var (RuleBndr (L loc _), id)
= returnM (RuleBndr (L loc id), emptyFVs)
- rn_var (RuleBndrSig (L loc v) t, id)
+ rn_var (RuleBndrSig (L loc _) t, id)
= rnHsTypeFVs doc t `thenM` \ (t', fvs) ->
returnM (RuleBndrSig (L loc id) t', fvs)
+badRuleVar :: FastString -> Name -> SDoc
badRuleVar name var
- = sep [ptext SLIT("Rule") <+> doubleQuotes (ftext name) <> colon,
- ptext SLIT("Forall'd variable") <+> quotes (ppr var) <+>
- ptext SLIT("does not appear on left hand side")]
+ = sep [ptext (sLit "Rule") <+> doubleQuotes (ftext name) <> colon,
+ ptext (sLit "Forall'd variable") <+> quotes (ppr var) <+>
+ ptext (sLit "does not appear on left hand side")]
\end{code}
Note [Rule LHS validity checking]
check_e is commented out.
\begin{code}
+checkValidRule :: FastString -> [Name] -> LHsExpr Name -> NameSet -> RnM ()
checkValidRule rule_name ids lhs' fv_lhs'
= do { -- Check for the form of the LHS
case (validRuleLhs ids lhs') of
-- Check that LHS vars are all bound
; let bad_vars = [var | var <- ids, not (var `elemNameSet` fv_lhs')]
- ; mappM (addErr . badRuleVar rule_name) bad_vars }
+ ; mapM_ (addErr . badRuleVar rule_name) bad_vars }
validRuleLhs :: [Name] -> LHsExpr Name -> Maybe (HsExpr Name)
-- Nothing => OK
validRuleLhs foralls lhs
= checkl lhs
where
- checkl (L loc e) = check e
+ checkl (L _ e) = check e
- check (OpApp e1 op _ e2) = checkl op `seqMaybe` checkl_e e1 `seqMaybe` checkl_e e2
- check (HsApp e1 e2) = checkl e1 `seqMaybe` checkl_e e2
+ check (OpApp e1 op _ e2) = checkl op `mplus` checkl_e e1 `mplus` checkl_e e2
+ check (HsApp e1 e2) = checkl e1 `mplus` checkl_e e2
check (HsVar v) | v `notElem` foralls = Nothing
check other = Just other -- Failure
-- Check an argument
- checkl_e (L loc e) = Nothing -- Was (check_e e); see Note [Rule LHS validity checking]
+ checkl_e (L _ _e) = Nothing -- Was (check_e e); see Note [Rule LHS validity checking]
{- Commented out; see Note [Rule LHS validity checking] above
check_e (HsVar v) = Nothing
check_e (HsLit e) = Nothing
check_e (HsOverLit e) = Nothing
- check_e (OpApp e1 op _ e2) = checkl_e e1 `seqMaybe` checkl_e op `seqMaybe` checkl_e e2
- check_e (HsApp e1 e2) = checkl_e e1 `seqMaybe` checkl_e e2
+ check_e (OpApp e1 op _ e2) = checkl_e e1 `mplus` checkl_e op `mplus` checkl_e e2
+ check_e (HsApp e1 e2) = checkl_e e1 `mplus` checkl_e e2
check_e (NegApp e _) = checkl_e e
check_e (ExplicitList _ es) = checkl_es es
check_e (ExplicitTuple es _) = checkl_es es
check_e other = Just other -- Fails
- checkl_es es = foldr (seqMaybe . checkl_e) Nothing es
+ checkl_es es = foldr (mplus . checkl_e) Nothing es
-}
+badRuleLhsErr :: FastString -> LHsExpr Name -> HsExpr Name -> SDoc
badRuleLhsErr name lhs bad_e
- = sep [ptext SLIT("Rule") <+> ftext name <> colon,
- nest 4 (vcat [ptext SLIT("Illegal expression:") <+> ppr bad_e,
- ptext SLIT("in left-hand side:") <+> ppr lhs])]
+ = sep [ptext (sLit "Rule") <+> ftext name <> colon,
+ nest 4 (vcat [ptext (sLit "Illegal expression:") <+> ppr bad_e,
+ ptext (sLit "in left-hand side:") <+> ppr lhs])]
$$
- ptext SLIT("LHS must be of form (f e1 .. en) where f is not forall'd")
+ ptext (sLit "LHS must be of form (f e1 .. en) where f is not forall'd")
\end{code}
However, we can also do some scoping checks at the same time.
\begin{code}
+rnTyClDecl :: TyClDecl RdrName -> RnM (TyClDecl Name, FreeVars)
rnTyClDecl (ForeignType {tcdLName = name, tcdFoType = fo_type, tcdExtName = ext_name})
= lookupLocatedTopBndrRn name `thenM` \ name' ->
returnM (ForeignType {tcdLName = name', tcdFoType = fo_type, tcdExtName = ext_name},
; context' <- rnContext data_doc context
; typats' <- rnTyPats data_doc typatsMaybe
; (derivs', deriv_fvs) <- rn_derivs derivs
- ; checkDupNames data_doc con_names
; condecls' <- rnConDecls (unLoc tycon') condecls
+ -- No need to check for duplicate constructor decls
+ -- since that is done by RnNames.extendGlobalRdrEnvRn
; returnM (TyData {tcdND = new_or_data, tcdCtxt = context',
tcdLName = tycon', tcdTyVars = tyvars',
tcdTyPats = typats', tcdKindSig = Nothing,
-- do not scope over the constructor signatures
-- data T a where { T1 :: forall b. b-> b }
; (derivs', deriv_fvs) <- rn_derivs derivs
- ; checkDupNames data_doc con_names
; condecls' <- rnConDecls (unLoc tycon') condecls
+ -- No need to check for duplicate constructor decls
+ -- since that is done by RnNames.extendGlobalRdrEnvRn
; returnM (TyData {tcdND = new_or_data, tcdCtxt = noLoc [],
tcdLName = tycon', tcdTyVars = tyvars',
tcdTyPats = Nothing, tcdKindSig = sig,
is_vanilla = case condecls of -- Yuk
[] -> True
L _ (ConDecl { con_res = ResTyH98 }) : _ -> True
- other -> False
+ _ -> False
none Nothing = True
none (Just []) = True
none _ = False
data_doc = text "In the data type declaration for" <+> quotes (ppr tycon)
- con_names = map con_names_helper condecls
-
- con_names_helper (L _ c) = con_name c
rn_derivs Nothing = returnM (Nothing, emptyFVs)
rn_derivs (Just ds) = rnLHsTypes data_doc ds `thenM` \ ds' ->
{ context' <- rnContext cls_doc context
; fds' <- rnFds cls_doc fds
; (ats', ats_fvs) <- rnATs ats
- ; sigs' <- renameSigs okClsDclSig sigs
+ ; sigs' <- renameSigs Nothing okClsDclSig sigs
; return (tyvars', context', fds', ats', ats_fvs, sigs') }
- -- Check for duplicates among the associated types
- ; let at_rdr_names_w_locs = [tcdLName ty | L _ ty <- ats]
- ; checkDupNames at_doc at_rdr_names_w_locs
+ -- No need to check for duplicate associated type decls
+ -- since that is done by RnNames.extendGlobalRdrEnvRn
-- Check the signatures
-- First process the class op sigs (op_sigs), then the fixity sigs (non_op_sigs).
; let sig_rdr_names_w_locs = [op | L _ (TypeSig op _) <- sigs]
- ; checkDupNames sig_doc sig_rdr_names_w_locs
+ ; checkDupRdrNames sig_doc sig_rdr_names_w_locs
-- Typechecker is responsible for checking that we only
-- give default-method bindings for things in this class.
-- The renamer *could* check this for class decls, but can't
; (mbinds', meth_fvs)
<- extendTyVarEnvForMethodBinds tyvars' $ do
{ name_env <- getLocalRdrEnv
- ; let meth_rdr_names_w_locs = collectHsBindLocatedBinders mbinds
- gen_rdr_tyvars_w_locs = [ tv | tv <- extractGenericPatTyVars mbinds,
+ ; let gen_rdr_tyvars_w_locs = [ tv | tv <- extractGenericPatTyVars mbinds,
not (unLoc tv `elemLocalRdrEnv` name_env) ]
- ; checkDupNames meth_doc meth_rdr_names_w_locs
+ -- No need to check for duplicate method signatures
+ -- since that is done by RnNames.extendGlobalRdrEnvRn
+ -- and the methods are already in scope
; gen_tyvars <- newLocalsRn gen_rdr_tyvars_w_locs
; rnMethodBinds (unLoc cname') (mkSigTvFn sigs') gen_tyvars mbinds }
meth_fvs `plusFV`
ats_fvs) }
where
- meth_doc = text "In the default-methods for class" <+> ppr cname
cls_doc = text "In the declaration for class" <+> ppr cname
sig_doc = text "In the signatures for class" <+> ppr cname
- at_doc = text "In the associated types for class" <+> ppr cname
-badGadtStupidTheta tycon
- = vcat [ptext SLIT("No context is allowed on a GADT-style data declaration"),
- ptext SLIT("(You can put a context on each contructor, though.)")]
+badGadtStupidTheta :: Located RdrName -> SDoc
+badGadtStupidTheta _
+ = vcat [ptext (sLit "No context is allowed on a GADT-style data declaration"),
+ ptext (sLit "(You can put a context on each contructor, though.)")]
\end{code}
%*********************************************************
rnTyPats doc (Just typats) = liftM Just $ rnLHsTypes doc typats
rnConDecls :: Name -> [LConDecl RdrName] -> RnM [LConDecl Name]
-rnConDecls tycon condecls
+rnConDecls _tycon condecls
= mappM (wrapLocM rnConDecl) condecls
rnConDecl :: ConDecl RdrName -> RnM (ConDecl Name)
doc = text "In the definition of data constructor" <+> quotes (ppr name)
get_rdr_tvs tys = extractHsRhoRdrTyVars cxt (noLoc (HsTupleTy Boxed tys))
+rnConResult :: SDoc
+ -> HsConDetails (LHsType Name) [ConDeclField Name]
+ -> ResType RdrName
+ -> RnM (HsConDetails (LHsType Name) [ConDeclField Name],
+ ResType Name)
rnConResult _ details ResTyH98 = return (details, ResTyH98)
rnConResult doc details (ResTyGADT ty) = do
-- We can split it up, now the renamer has dealt with fixities
case details of
PrefixCon _xs -> ASSERT( null _xs ) return (PrefixCon arg_tys, ResTyGADT res_ty)
- RecCon fields -> return (details, ResTyGADT ty')
+ RecCon _ -> return (details, ResTyGADT ty')
InfixCon {} -> panic "rnConResult"
+rnConDeclDetails :: SDoc
+ -> HsConDetails (LHsType RdrName) [ConDeclField RdrName]
+ -> RnM (HsConDetails (LHsType Name) [ConDeclField Name])
rnConDeclDetails doc (PrefixCon tys)
= mappM (rnLHsType doc) tys `thenM` \ new_tys ->
returnM (PrefixCon new_tys)
returnM (InfixCon new_ty1 new_ty2)
rnConDeclDetails doc (RecCon fields)
- = do { checkDupNames doc (map cd_fld_name fields)
- ; new_fields <- mappM (rnField doc) fields
+ = do { new_fields <- mappM (rnField doc) fields
+ -- No need to check for duplicate fields
+ -- since that is done by RnNames.extendGlobalRdrEnvRn
; return (RecCon new_fields) }
+rnField :: SDoc -> ConDeclField RdrName -> RnM (ConDeclField Name)
rnField doc (ConDeclField name ty haddock_doc)
= lookupLocatedTopBndrRn name `thenM` \ new_name ->
rnLHsType doc ty `thenM` \ new_ty ->
tcdLName = tycon, tcdTyVars = tyvars})
bindIdxVars =
do { checkM (isDataFlavour flavour -- for synonyms,
- || not (null tyvars)) $ addErr needOneIdx -- #indexes >= 1
+ || not (null tyvars)) $ addErr needOneIdx -- no. of indexes >= 1
; bindIdxVars (family_doc tycon) tyvars $ \tyvars' -> do {
; tycon' <- lookupLocatedTopBndrRn tycon
; returnM (TyFamily {tcdFlavour = flavour, tcdLName = tycon',
where
isDataFlavour DataFamily = True
isDataFlavour _ = False
+rnFamily d _ = pprPanic "rnFamily" (ppr d)
+family_doc :: Located RdrName -> SDoc
family_doc tycon = text "In the family declaration for" <+> quotes (ppr tycon)
+
+needOneIdx :: SDoc
needOneIdx = text "Type family declarations requires at least one type index"
-- Rename associated type declarations (in classes)
; checkForDups ltvs
}
- rdrName `ltvElem` [] = False
+ _ `ltvElem` [] = False
rdrName `ltvElem` (L _ tv:ltvs)
| rdrName == hsTyVarName tv = True
| otherwise = rdrName `ltvElem` ltvs
+noPatterns :: SDoc
noPatterns = text "Default definition for an associated synonym cannot have"
<+> text "type pattern"
-repeatedTyVar tv = ptext SLIT("Illegal repeated type variable") <+>
+repeatedTyVar :: HsTyVarBndr RdrName -> SDoc
+repeatedTyVar tv = ptext (sLit "Illegal repeated type variable") <+>
quotes (ppr tv)
-- This data decl will parse OK
-- data T = :% Int Int
-- from interface files, which always print in prefix form
+checkConName :: RdrName -> TcRn ()
checkConName name = checkErr (isRdrDataCon name) (badDataCon name)
+badDataCon :: RdrName -> SDoc
badDataCon name
- = hsep [ptext SLIT("Illegal data constructor name"), quotes (ppr name)]
+ = hsep [ptext (sLit "Illegal data constructor name"), quotes (ppr name)]
\end{code}
; return $ unLoc x'}
get (L _ (TyData { tcdCons = cons })) env = foldrM get_con env cons
- get other env = return env
+ get _ env = return env
get_con (L _ (ConDecl { con_name = con, con_details = RecCon flds })) env
= do { con' <- lookup con
; flds' <- mappM lookup (map cd_fld_name flds)
; return $ extendNameEnv env con' flds' }
- get_con other env
+ get_con _ env
= return env
\end{code}
rnHsTyVars doc tys2 `thenM` \ tys2' ->
returnM (tys1', tys2')
-rnHsTyVars doc tvs = mappM (rnHsTyvar doc) tvs
-rnHsTyvar doc tyvar = lookupOccRn tyvar
+rnHsTyVars :: SDoc -> [RdrName] -> RnM [Name]
+rnHsTyVars doc tvs = mappM (rnHsTyVar doc) tvs
+
+rnHsTyVar :: SDoc -> RdrName -> RnM Name
+rnHsTyVar _doc tyvar = lookupOccRn tyvar
\end{code}
; return (HsSplice n' expr', fvs `plusFV` lcl_names `plusFV` gbl_names) }
+checkTH :: Outputable a => a -> String -> RnM ()
#ifdef GHCI
-checkTH e what = returnM () -- OK
+checkTH _ _ = returnM () -- OK
#else
checkTH e what -- Raise an error in a stage-1 compiler
- = addErr (vcat [ptext SLIT("Template Haskell") <+> text what <+>
- ptext SLIT("illegal in a stage-1 compiler"),
+ = addErr (vcat [ptext (sLit "Template Haskell") <+> text what <+>
+ ptext (sLit "illegal in a stage-1 compiler"),
nest 2 (ppr e)])
#endif
\end{code}