\begin{code}
module RnSource (
- rnSrcDecls, addTcgDUs, rnTyClDecls
+ rnSrcDecls, addTcgDUs, rnTyClDecls, findSplice
) where
#include "HsVersions.h"
import {-# SOURCE #-} RnExpr( rnLExpr )
+#ifdef GHCI
+import {-# SOURCE #-} TcSplice ( runQuasiQuoteDecl )
+#endif /* GHCI */
import HsSyn
import RdrName ( RdrName, isRdrDataCon, elemLocalRdrEnv, rdrNameOcc )
makeMiniFixityEnv)
import RnEnv ( lookupLocalDataTcNames, lookupLocatedOccRn,
lookupTopBndrRn, lookupLocatedTopBndrRn,
- lookupOccRn, newLocalsRn,
+ lookupOccRn, newLocalBndrsRn, bindLocalNamesFV,
bindLocatedLocalsFV, bindPatSigTyVarsFV,
- bindTyVarsRn, extendTyVarEnvFVRn,
- bindLocalNames, checkDupRdrNames, mapFvRn,
- checkM
+ bindTyVarsRn, bindTyVarsFV, extendTyVarEnvFVRn,
+ bindLocalNames, checkDupRdrNames, mapFvRn
)
import RnNames ( getLocalNonValBinders, extendGlobalRdrEnvRn )
import HscTypes ( GenAvailInfo(..), availsToNameSet )
import RnHsDoc ( rnHsDoc, rnMbLHsDoc )
import TcRnMonad
+import ForeignCall ( CCallTarget(..) )
+import Module
import HscTypes ( Warnings(..), plusWarns )
import Class ( FunDep )
import Name ( Name, nameOccName )
import Outputable
import Bag
import FastString
+import Util ( filterOut )
import SrcLoc
-import DynFlags ( DynFlag(..) )
-import Maybe ( isNothing )
+import DynFlags
+import HscTypes ( HscEnv, hsc_dflags )
import BasicTypes ( Boxity(..) )
-
-import ListSetOps (findDupsEq)
+import ListSetOps ( findDupsEq )
+import Digraph ( SCC, flattenSCC, stronglyConnCompFromEdgedVertices )
import Control.Monad
+import Maybes( orElse )
+import Data.Maybe
\end{code}
\begin{code}
-- does NOT assume that anything is in scope already
rnSrcDecls :: HsGroup RdrName -> RnM (TcGblEnv, HsGroup Name)
-- Rename a HsGroup; used for normal source files *and* hs-boot files
-rnSrcDecls group@(HsGroup {hs_valds = val_decls,
- hs_tyclds = tycl_decls,
- hs_instds = inst_decls,
- hs_derivds = deriv_decls,
- hs_fixds = fix_decls,
- hs_warnds = warn_decls,
- hs_annds = ann_decls,
- hs_fords = foreign_decls,
- hs_defds = default_decls,
- hs_ruleds = rule_decls,
- hs_docs = docs })
+rnSrcDecls group@(HsGroup { hs_valds = val_decls,
+ hs_tyclds = tycl_decls,
+ hs_instds = inst_decls,
+ hs_derivds = deriv_decls,
+ hs_fixds = fix_decls,
+ hs_warnds = warn_decls,
+ hs_annds = ann_decls,
+ hs_fords = foreign_decls,
+ hs_defds = default_decls,
+ hs_ruleds = rule_decls,
+ hs_vects = vect_decls,
+ hs_docs = docs })
= do {
-- (A) Process the fixity declarations, creating a mapping from
-- FastStrings to FixItems.
-- It uses the fixity env from (A) to bind fixities for view patterns.
new_lhs <- rnTopBindsLHS local_fix_env val_decls ;
-- bind the LHSes (and their fixities) in the global rdr environment
- let { val_binders = map unLoc $ collectHsValBinders new_lhs ;
+ let { val_binders = collectHsValBinders new_lhs ;
val_bndr_set = mkNameSet val_binders ;
all_bndr_set = val_bndr_set `unionNameSets` availsToNameSet tc_avails ;
val_avails = map Avail val_binders
-- means we'll only report a declaration as unused if it isn't
-- mentioned at all. Ah well.
traceRn (text "Start rnTyClDecls") ;
- (rn_tycl_decls, src_fvs1) <- rnList rnTyClDecl tycl_decls ;
+ (rn_tycl_decls, src_fvs1) <- rnTyClDecls tycl_decls ;
-- (F) Rename Value declarations right-hand sides
traceRn (text "Start rnmono") ;
- (rn_val_decls, bind_dus) <- rnTopBindsRHS val_bndr_set new_lhs ;
+ (rn_val_decls, bind_dus) <- rnTopBindsRHS new_lhs ;
traceRn (text "finish rnmono" <+> ppr rn_val_decls) ;
-- (G) Rename Fixity and deprecations
(rn_inst_decls, src_fvs2) <- rnList rnSrcInstDecl inst_decls ;
(rn_rule_decls, src_fvs3) <- setOptM Opt_ScopedTypeVariables $
- rnList rnHsRuleDecl rule_decls ;
- -- Inside RULES, scoped type variables are on
- (rn_foreign_decls, src_fvs4) <- rnList rnHsForeignDecl foreign_decls ;
- (rn_ann_decls, src_fvs5) <- rnList rnAnnDecl ann_decls ;
- (rn_default_decls, src_fvs6) <- rnList rnDefaultDecl default_decls ;
- (rn_deriv_decls, src_fvs7) <- rnList rnSrcDerivDecl deriv_decls ;
+ rnList rnHsRuleDecl rule_decls ;
+ -- Inside RULES, scoped type variables are on
+ (rn_vect_decls, src_fvs4) <- rnList rnHsVectDecl vect_decls ;
+ (rn_foreign_decls, src_fvs5) <- rnList rnHsForeignDecl foreign_decls ;
+ (rn_ann_decls, src_fvs6) <- rnList rnAnnDecl ann_decls ;
+ (rn_default_decls, src_fvs7) <- rnList rnDefaultDecl default_decls ;
+ (rn_deriv_decls, src_fvs8) <- rnList rnSrcDerivDecl deriv_decls ;
-- Haddock docs; no free vars
rn_docs <- mapM (wrapLocM rnDocDecl) docs ;
-- (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,
+ let {rn_group = HsGroup { hs_valds = rn_val_decls,
+ hs_tyclds = rn_tycl_decls,
+ hs_instds = rn_inst_decls,
hs_derivds = rn_deriv_decls,
- hs_fixds = rn_fix_decls,
- hs_warnds = [], -- warns are returned in the tcg_env
+ 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_annds = rn_ann_decls,
+ hs_annds = rn_ann_decls,
hs_defds = rn_default_decls,
hs_ruleds = rn_rule_decls,
+ hs_vects = rn_vect_decls,
hs_docs = rn_docs } ;
- other_fvs = plusFVs [src_fvs1, src_fvs2, src_fvs3, src_fvs4,
- src_fvs5, src_fvs6, src_fvs7] ;
- src_dus = bind_dus `plusDU` usesOnly other_fvs;
- -- Note: src_dus will contain *uses* for locally-defined types
- -- and classes, but no *defs* for them. (Because rnTyClDecl
- -- returns only the uses.) This is a little
- -- surprising but it doesn't actually matter at all.
-
- 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_warns = tcg_warns tcg_env' `plusWarns` rn_warns };
+ tycl_bndrs = hsTyClDeclsBinders rn_tycl_decls rn_inst_decls ;
+ ford_bndrs = hsForeignDeclsBinders rn_foreign_decls ;
+ other_def = (Just (mkNameSet tycl_bndrs `unionNameSets` mkNameSet ford_bndrs), emptyNameSet) ;
+ other_fvs = plusFVs [src_fvs1, src_fvs2, src_fvs3, src_fvs4,
+ src_fvs5, src_fvs6, src_fvs7, src_fvs8] ;
+ -- It is tiresome to gather the binders from type and class decls
+
+ src_dus = [other_def] `plusDU` bind_dus `plusDU` usesOnly other_fvs ;
+ -- Instance decls may have occurrences of things bound in bind_dus
+ -- so we must put other_fvs last
+
+ 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_warns = tcg_warns tcg_env' `plusWarns` rn_warns };
} ;
traceRn (text "finish rnSrc" <+> ppr rn_group) ;
traceRn (text "finish Dus" <+> ppr src_dus ) ;
- return (final_tcg_env , rn_group)
+ return (final_tcg_env, rn_group)
}}}}
-- some utils because we do this a bunch above
inNewEnv env cont = do e <- env
setGblEnv e $ cont e
-rnTyClDecls :: [LTyClDecl RdrName] -> RnM [LTyClDecl Name]
--- Used for external core
-rnTyClDecls tycl_decls = do (decls', _fvs) <- rnList rnTyClDecl tycl_decls
- return decls'
-
addTcgDUs :: TcGblEnv -> DefUses -> TcGblEnv
-- This function could be defined lower down in the module hierarchy,
-- but there doesn't seem anywhere very logical to put it.
%*********************************************************
\begin{code}
-rnDocDecl :: DocDecl RdrName -> RnM (DocDecl Name)
+rnDocDecl :: DocDecl -> RnM DocDecl
rnDocDecl (DocCommentNext doc) = do
rn_doc <- rnHsDoc doc
return (DocCommentNext rn_doc)
rnSrcWarnDecls bound_names decls
= do { -- check for duplicates
- ; mapM_ (\ (lrdr:lrdr':_) -> addLocErr lrdr (dupWarnDecl lrdr')) warn_rdr_dups
- ; mapM (addLocM rn_deprec) decls `thenM` \ pairs_s ->
- return (WarnSome ((concat pairs_s))) }
+ ; mapM_ (\ dups -> let (L loc rdr:lrdr':_) = dups
+ in addErrAt loc (dupWarnDecl lrdr' rdr))
+ warn_rdr_dups
+ ; pairs_s <- mapM (addLocM rn_deprec) decls
+ ; return (WarnSome ((concat pairs_s))) }
where
rn_deprec (Warning rdr_name txt)
-- ensures that the names are defined locally
\begin{code}
rnHsForeignDecl :: ForeignDecl RdrName -> RnM (ForeignDecl Name, FreeVars)
rnHsForeignDecl (ForeignImport name ty spec)
- = lookupLocatedTopBndrRn name `thenM` \ name' ->
+ = getTopEnv `thenM` \ (topEnv :: HscEnv) ->
+ lookupLocatedTopBndrRn name `thenM` \ name' ->
rnHsTypeFVs (fo_decl_msg name) ty `thenM` \ (ty', fvs) ->
- return (ForeignImport name' ty' spec, fvs)
+
+ -- Mark any PackageTarget style imports as coming from the current package
+ let packageId = thisPackage $ hsc_dflags topEnv
+ spec' = patchForeignImport packageId spec
+
+ in return (ForeignImport name' ty' spec', fvs)
rnHsForeignDecl (ForeignExport name ty spec)
= lookupLocatedOccRn name `thenM` \ name' ->
fo_decl_msg :: Located RdrName -> SDoc
fo_decl_msg name = ptext (sLit "In the foreign declaration for") <+> ppr name
+
+
+-- | For Windows DLLs we need to know what packages imported symbols are from
+-- to generate correct calls. Imported symbols are tagged with the current
+-- package, so if they get inlined across a package boundry we'll still
+-- know where they're from.
+--
+patchForeignImport :: PackageId -> ForeignImport -> ForeignImport
+patchForeignImport packageId (CImport cconv safety fs spec)
+ = CImport cconv safety fs (patchCImportSpec packageId spec)
+
+patchCImportSpec :: PackageId -> CImportSpec -> CImportSpec
+patchCImportSpec packageId spec
+ = case spec of
+ CFunction callTarget -> CFunction $ patchCCallTarget packageId callTarget
+ _ -> spec
+
+patchCCallTarget :: PackageId -> CCallTarget -> CCallTarget
+patchCCallTarget packageId callTarget
+ = case callTarget of
+ StaticTarget label Nothing
+ -> StaticTarget label (Just packageId)
+
+ _ -> callTarget
+
+
\end{code}
-- The typechecker (not the renamer) checks that all
-- the bindings are for the right class
let
- meth_doc = text "In the bindings in an instance declaration"
- meth_names = collectHsBindLocatedBinders mbinds
+ meth_names = collectMethodBinders mbinds
(inst_tyvars, _, cls,_) = splitHsInstDeclTy (unLoc inst_ty')
in
- checkDupRdrNames meth_doc meth_names `thenM_`
+ checkDupRdrNames meth_names `thenM_`
-- Check that the same method is not given twice in the
-- same instance decl instance C T where
-- f x = ...
-- 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
+ at_names = map (head . hsTyClDeclBinders) ats
in
- checkDupRdrNames at_doc at_names `thenM_`
+ checkDupRdrNames at_names `thenM_`
-- See notes with checkDupRdrNames for methods, above
rnATInsts ats `thenM` \ (ats', at_fvs) ->
--
-- But the (unqualified) method names are in scope
let
- binders = collectHsBindBinders mbinds'
+ binders = collectHsBindsBinders mbinds'
bndr_set = mkNameSet binders
in
bindLocalNames binders
-> RnM (Bag (LHsBind Name), FreeVars)
-> RnM (Bag (LHsBind Name), FreeVars)
extendTyVarEnvForMethodBinds tyvars thing_inside
- = do { scoped_tvs <- doptM Opt_ScopedTypeVariables
+ = do { scoped_tvs <- xoptM Opt_ScopedTypeVariables
; if scoped_tvs then
extendTyVarEnvFVRn (map hsLTyVarName tyvars) thing_inside
else
\begin{code}
rnSrcDerivDecl :: DerivDecl RdrName -> RnM (DerivDecl Name, FreeVars)
rnSrcDerivDecl (DerivDecl ty)
- = do ty' <- rnLHsType (text "a deriving decl") ty
- let fvs = extractHsTyNames ty'
- return (DerivDecl ty', fvs)
+ = do { standalone_deriv_ok <- xoptM Opt_StandaloneDeriving
+ ; unless standalone_deriv_ok (addErr standaloneDerivErr)
+ ; ty' <- rnLHsType (text "a deriving decl") ty
+ ; let fvs = extractHsTyNames ty'
+ ; return (DerivDecl ty', fvs) }
+
+standaloneDerivErr :: SDoc
+standaloneDerivErr
+ = hang (ptext (sLit "Illegal standalone deriving declaration"))
+ 2 (ptext (sLit "Use -XStandaloneDeriving to enable this extension"))
\end{code}
%*********************************************************
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 ->
+ bindLocatedLocalsFV (map get_var vars) $ \ ids ->
do { (vars', fv_vars) <- mapFvRn rn_var (vars `zip` ids)
-- NB: The binders in a rule are always Ids
-- We don't (yet) support type variables
%*********************************************************
+%* *
+\subsection{Vectorisation declarations}
+%* *
+%*********************************************************
+
+\begin{code}
+rnHsVectDecl :: VectDecl RdrName -> RnM (VectDecl Name, FreeVars)
+rnHsVectDecl (HsVect var Nothing)
+ = do { var' <- wrapLocM lookupTopBndrRn var
+ ; return (HsVect var' Nothing, unitFV (unLoc var'))
+ }
+rnHsVectDecl (HsVect var (Just rhs))
+ = do { var' <- wrapLocM lookupTopBndrRn var
+ ; (rhs', fv_rhs) <- rnLExpr rhs
+ ; return (HsVect var' (Just rhs'), fv_rhs `addOneFV` unLoc var')
+ }
+\end{code}
+
+%*********************************************************
%* *
\subsection{Type, class and iface sig declarations}
%* *
However, we can also do some scoping checks at the same time.
\begin{code}
+rnTyClDecls :: [[LTyClDecl RdrName]] -> RnM ([[LTyClDecl Name]], FreeVars)
+-- Renamed the declarations and do depedency analysis on them
+rnTyClDecls tycl_ds
+ = do { ds_w_fvs <- mapM (wrapLocFstM rnTyClDecl) (concat tycl_ds)
+
+ ; let sccs :: [SCC (LTyClDecl Name)]
+ sccs = depAnalTyClDecls ds_w_fvs
+
+ all_fvs = foldr (plusFV . snd) emptyFVs ds_w_fvs
+
+ ; return (map flattenSCC sccs, all_fvs) }
+
rnTyClDecl :: TyClDecl RdrName -> RnM (TyClDecl Name, FreeVars)
-rnTyClDecl (ForeignType {tcdLName = name, tcdFoType = fo_type, tcdExtName = ext_name})
+rnTyClDecl (ForeignType {tcdLName = name, tcdExtName = ext_name})
= lookupLocatedTopBndrRn name `thenM` \ name' ->
- return (ForeignType {tcdLName = name', tcdFoType = fo_type, tcdExtName = ext_name},
+ return (ForeignType {tcdLName = name', tcdExtName = ext_name},
emptyFVs)
-- all flavours of type family declarations ("type family", "newtype fanily",
-- and "data family")
-rnTyClDecl (tydecl@TyFamily {}) =
- rnFamily tydecl bindTyVarsRn
+rnTyClDecl tydecl@TyFamily {} = rnFamily tydecl bindTyVarsFV
-- "data", "newtype", "data instance, and "newtype instance" declarations
rnTyClDecl tydecl@TyData {tcdND = new_or_data, tcdCtxt = context,
tcdLName = tycon, tcdTyVars = tyvars,
- tcdTyPats = typatsMaybe, tcdCons = condecls,
+ tcdTyPats = typats, tcdCons = condecls,
tcdKindSig = sig, tcdDerivs = derivs}
- | is_vanilla -- Normal Haskell data type decl
- = ASSERT( isNothing sig ) -- In normal H98 form, kind signature on the
- -- data type is syntactically illegal
- ASSERT( distinctTyVarBndrs tyvars ) -- Tyvars should be distinct
- do { bindTyVarsRn data_doc tyvars $ \ tyvars' -> do
- { tycon' <- if isFamInstDecl tydecl
- then lookupLocatedOccRn tycon -- may be imported family
- else lookupLocatedTopBndrRn tycon
- ; context' <- rnContext data_doc context
- ; typats' <- rnTyPats data_doc typatsMaybe
- ; condecls' <- rnConDecls (unLoc tycon') condecls
- -- No need to check for duplicate constructor decls
- -- since that is done by RnNames.extendGlobalRdrEnvRn
- ; (derivs', deriv_fvs) <- rn_derivs derivs
- ; return (TyData {tcdND = new_or_data, tcdCtxt = context',
- tcdLName = tycon', tcdTyVars = tyvars',
- tcdTyPats = typats', tcdKindSig = Nothing,
- tcdCons = condecls', tcdDerivs = derivs'},
- delFVs (map hsLTyVarName tyvars') $
- extractHsCtxtTyNames context' `plusFV`
- plusFVs (map conDeclFVs condecls') `plusFV`
- deriv_fvs `plusFV`
- (if isFamInstDecl tydecl
- then unitFV (unLoc tycon') -- type instance => use
- else emptyFVs))
- } }
-
- | otherwise -- GADT
= do { tycon' <- if isFamInstDecl tydecl
then lookupLocatedOccRn tycon -- may be imported family
else lookupLocatedTopBndrRn tycon
- ; checkTc (null (unLoc context)) (badGadtStupidTheta tycon)
- ; (tyvars', typats')
- <- bindTyVarsRn data_doc tyvars $ \ tyvars' -> do
- { typats' <- rnTyPats data_doc typatsMaybe
- ; return (tyvars', typats') }
- -- For GADTs, the type variables in the declaration
- -- do not scope over the constructor signatures
- -- data T a where { T1 :: forall b. b-> b }
-
- ; condecls' <- rnConDecls (unLoc tycon') condecls
+ ; checkTc (h98_style || null (unLoc context))
+ (badGadtStupidTheta tycon)
+ ; ((tyvars', context', typats', derivs'), stuff_fvs)
+ <- bindTyVarsFV tyvars $ \ tyvars' -> do
+ -- Checks for distinct tyvars
+ { context' <- rnContext data_doc context
+ ; (typats', fvs1) <- rnTyPats data_doc tycon' typats
+ ; (derivs', fvs2) <- rn_derivs derivs
+ ; let fvs = fvs1 `plusFV` fvs2 `plusFV`
+ extractHsCtxtTyNames context'
+ ; return ((tyvars', context', typats', derivs'), fvs) }
+
+ -- For the constructor declarations, bring into scope the tyvars
+ -- bound by the header, but *only* in the H98 case
+ -- Reason: for GADTs, the type variables in the declaration
+ -- do not scope over the constructor signatures
+ -- data T a where { T1 :: forall b. b-> b }
+ ; let tc_tvs_in_scope | h98_style = hsLTyVarNames tyvars'
+ | otherwise = []
+ ; (condecls', con_fvs) <- bindLocalNamesFV tc_tvs_in_scope $
+ rnConDecls condecls
-- No need to check for duplicate constructor decls
-- since that is done by RnNames.extendGlobalRdrEnvRn
- ; (derivs', deriv_fvs) <- rn_derivs derivs
- ; return (TyData {tcdND = new_or_data, tcdCtxt = noLoc [],
+ ; return (TyData {tcdND = new_or_data, tcdCtxt = context',
tcdLName = tycon', tcdTyVars = tyvars',
tcdTyPats = typats', tcdKindSig = sig,
tcdCons = condecls', tcdDerivs = derivs'},
- plusFVs (map conDeclFVs condecls') `plusFV`
- deriv_fvs `plusFV`
- (if isFamInstDecl tydecl
- then unitFV (unLoc tycon') -- type instance => use
- else emptyFVs))
+ con_fvs `plusFV` stuff_fvs)
}
where
- is_vanilla = case condecls of -- Yuk
- [] -> True
- L _ (ConDecl { con_res = ResTyH98 }) : _ -> True
- _ -> False
-
+ h98_style = case condecls of -- Note [Stupid theta]
+ L _ (ConDecl { con_res = ResTyGADT {} }) : _ -> False
+ _ -> True
+
data_doc = text "In the data type declaration for" <+> quotes (ppr tycon)
rn_derivs Nothing = return (Nothing, emptyFVs)
-- "type" and "type instance" declarations
rnTyClDecl tydecl@(TySynonym {tcdLName = name, tcdTyVars = tyvars,
- tcdTyPats = typatsMaybe, tcdSynRhs = ty})
- = ASSERT( distinctTyVarBndrs tyvars ) -- Tyvars should be distinct
- do { bindTyVarsRn syn_doc tyvars $ \ tyvars' -> do
- { name' <- if isFamInstDecl tydecl
- then lookupLocatedOccRn name -- may be imported family
- else lookupLocatedTopBndrRn name
- ; typats' <- rnTyPats syn_doc typatsMaybe
- ; (ty', fvs) <- rnHsTypeFVs syn_doc ty
- ; return (TySynonym {tcdLName = name', tcdTyVars = tyvars',
- tcdTyPats = typats', tcdSynRhs = ty'},
- delFVs (map hsLTyVarName tyvars') $
- fvs `plusFV`
- (if isFamInstDecl tydecl
- then unitFV (unLoc name') -- type instance => use
- else emptyFVs))
- } }
+ tcdTyPats = typats, tcdSynRhs = ty})
+ = bindTyVarsFV tyvars $ \ tyvars' -> do
+ { -- Checks for distinct tyvars
+ name' <- if isFamInstDecl tydecl
+ then lookupLocatedOccRn name -- may be imported family
+ else lookupLocatedTopBndrRn name
+ ; (typats',fvs1) <- rnTyPats syn_doc name' typats
+ ; (ty', fvs2) <- rnHsTypeFVs syn_doc ty
+ ; return (TySynonym { tcdLName = name', tcdTyVars = tyvars'
+ , tcdTyPats = typats', tcdSynRhs = ty'},
+ fvs1 `plusFV` fvs2) }
where
syn_doc = text "In the declaration for type synonym" <+> quotes (ppr name)
= do { cname' <- lookupLocatedTopBndrRn cname
-- Tyvars scope over superclass context and method signatures
- ; (tyvars', context', fds', ats', ats_fvs, sigs')
- <- bindTyVarsRn cls_doc tyvars $ \ tyvars' -> do
+ ; ((tyvars', context', fds', ats', sigs'), stuff_fvs)
+ <- bindTyVarsFV tyvars $ \ tyvars' -> do
+ -- Checks for distinct tyvars
{ context' <- rnContext cls_doc context
; fds' <- rnFds cls_doc fds
- ; (ats', ats_fvs) <- rnATs ats
+ ; (ats', at_fvs) <- rnATs ats
; sigs' <- renameSigs Nothing okClsDclSig sigs
- ; return (tyvars', context', fds', ats', ats_fvs, sigs') }
+ ; let fvs = at_fvs `plusFV`
+ extractHsCtxtTyNames context' `plusFV`
+ hsSigsFVs sigs'
+ -- The fundeps have no free variables
+ ; return ((tyvars', context', fds', ats', sigs'), fvs) }
-- 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]
- ; checkDupRdrNames sig_doc sig_rdr_names_w_locs
+ ; checkDupRdrNames 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
-- 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
+ ; gen_tyvars <- newLocalBndrsRn gen_rdr_tyvars_w_locs
; rnMethodBinds (unLoc cname') (mkSigTvFn sigs') gen_tyvars mbinds }
-- Haddock docs
; return (ClassDecl { tcdCtxt = context', tcdLName = cname',
tcdTyVars = tyvars', tcdFDs = fds', tcdSigs = sigs',
tcdMeths = mbinds', tcdATs = ats', tcdDocs = docs'},
-
- delFVs (map hsLTyVarName tyvars') $
- extractHsCtxtTyNames context' `plusFV`
- plusFVs (map extractFunDepNames (map unLoc fds')) `plusFV`
- hsSigsFVs sigs' `plusFV`
- meth_fvs `plusFV`
- ats_fvs) }
+ meth_fvs `plusFV` stuff_fvs) }
where
cls_doc = text "In the declaration for class" <+> ppr cname
- sig_doc = text "In the signatures for class" <+> ppr cname
-
-distinctTyVarBndrs :: [LHsTyVarBndr RdrName] -> Bool
--- The tyvar binders should have distinct names
-distinctTyVarBndrs tvs
- = null (findDupsEq eq tvs)
- where
- eq (L _ v1) (L _ v2) = hsTyVarName v1 == hsTyVarName v2
badGadtStupidTheta :: Located RdrName -> SDoc
badGadtStupidTheta _
ptext (sLit "(You can put a context on each contructor, though.)")]
\end{code}
+Note [Stupid theta]
+~~~~~~~~~~~~~~~~~~~
+Trac #3850 complains about a regression wrt 6.10 for
+ data Show a => T a
+There is no reason not to allow the stupid theta if there are no data
+constructors. It's still stupid, but does no harm, and I don't want
+to cause programs to break unnecessarily (notably HList). So if there
+are no data constructors we allow h98_style = True
+
+
+\begin{code}
+depAnalTyClDecls :: [(LTyClDecl Name, FreeVars)] -> [SCC (LTyClDecl Name)]
+-- See Note [Dependency analysis of type and class decls]
+depAnalTyClDecls ds_w_fvs
+ = stronglyConnCompFromEdgedVertices edges
+ where
+ edges = [ (d, tcdName (unLoc d), map get_assoc (nameSetToList fvs))
+ | (d, fvs) <- ds_w_fvs ]
+ get_assoc n = lookupNameEnv assoc_env n `orElse` n
+ assoc_env = mkNameEnv [ (tcdName assoc_decl, cls_name)
+ | (L _ (ClassDecl { tcdLName = L _ cls_name
+ , tcdATs = ats }) ,_) <- ds_w_fvs
+ , L _ assoc_decl <- ats ]
+\end{code}
+
+Note [Dependency analysis of type and class decls]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+We need to do dependency analysis on type and class declarations
+else we get bad error messages. Consider
+
+ data T f a = MkT f a
+ data S f a = MkS f (T f a)
+
+This has a kind error, but the error message is better if you
+check T first, (fixing its kind) and *then* S. If you do kind
+inference together, you might get an error reported in S, which
+is jolly confusing. See Trac #4875
+
%*********************************************************
%* *
%*********************************************************
\begin{code}
+rnTyPats :: SDoc -> Located Name -> Maybe [LHsType RdrName] -> RnM (Maybe [LHsType Name], FreeVars)
-- Although, we are processing type patterns here, all type variables will
-- already be in scope (they are the same as in the 'tcdTyVars' field of the
-- type declaration to which these patterns belong)
---
-rnTyPats :: SDoc -> Maybe [LHsType RdrName] -> RnM (Maybe [LHsType Name])
-rnTyPats _ Nothing = return Nothing
-rnTyPats doc (Just typats) = liftM Just $ rnLHsTypes doc typats
-
-rnConDecls :: Name -> [LConDecl RdrName] -> RnM [LConDecl Name]
-rnConDecls _tycon condecls
- = mapM (wrapLocM rnConDecl) condecls
+rnTyPats _ _ Nothing
+ = return (Nothing, emptyFVs)
+rnTyPats doc tc (Just typats)
+ = do { typats' <- rnLHsTypes doc typats
+ ; let fvs = addOneFV (extractHsTyNames_s typats') (unLoc tc)
+ -- type instance => use, hence addOneFV
+ ; return (Just typats', fvs) }
+
+rnConDecls :: [LConDecl RdrName] -> RnM ([LConDecl Name], FreeVars)
+rnConDecls condecls
+ = do { condecls' <- mapM (wrapLocM rnConDecl) condecls
+ ; return (condecls', plusFVs (map conDeclFVs condecls')) }
rnConDecl :: ConDecl RdrName -> RnM (ConDecl Name)
rnConDecl decl@(ConDecl { con_name = name, con_qvars = tvs
- , con_cxt = cxt, con_details = details
- , con_res = res_ty, con_doc = mb_doc
- , con_old_rec = old_rec, con_explicit = expl })
+ , con_cxt = cxt, con_details = details
+ , con_res = res_ty, con_doc = mb_doc
+ , con_old_rec = old_rec, con_explicit = expl })
= do { addLocM checkConName name
; when old_rec (addWarn (deprecRecSyntax decl))
-
; new_name <- lookupLocatedTopBndrRn name
- ; name_env <- getLocalRdrEnv
-
- -- For H98 syntax, the tvs are the existential ones
- -- For GADT syntax, the tvs are all the quantified tyvars
- -- Hence the 'filter' in the ResTyH98 case only
- ; let not_in_scope = not . (`elemLocalRdrEnv` name_env) . unLoc
- arg_tys = hsConDeclArgTys details
- implicit_tvs = case res_ty of
- ResTyH98 -> filter not_in_scope $
- get_rdr_tvs arg_tys
- ResTyGADT ty -> get_rdr_tvs (ty : arg_tys)
+
+ -- For H98 syntax, the tvs are the existential ones
+ -- For GADT syntax, the tvs are all the quantified tyvars
+ -- Hence the 'filter' in the ResTyH98 case only
+ ; rdr_env <- getLocalRdrEnv
+ ; let in_scope = (`elemLocalRdrEnv` rdr_env) . unLoc
+ arg_tys = hsConDeclArgTys details
+ implicit_tvs = case res_ty of
+ ResTyH98 -> filterOut in_scope (get_rdr_tvs arg_tys)
+ ResTyGADT ty -> get_rdr_tvs (ty : arg_tys)
new_tvs = case expl of
Explicit -> tvs
Implicit -> userHsTyVarBndrs implicit_tvs
; mb_doc' <- rnMbLHsDoc mb_doc
- ; bindTyVarsRn doc new_tvs $ \new_tyvars -> do
+ ; bindTyVarsRn new_tvs $ \new_tyvars -> do
{ new_context <- rnContext doc cxt
; new_details <- rnConDeclDetails doc details
; (new_details', new_res_ty) <- rnConResult doc new_details res_ty
-- are usage occurences for associated types.
--
rnFamily :: TyClDecl RdrName
- -> (SDoc -> [LHsTyVarBndr RdrName] ->
+ -> ([LHsTyVarBndr RdrName] ->
([LHsTyVarBndr Name] -> RnM (TyClDecl Name, FreeVars)) ->
RnM (TyClDecl Name, FreeVars))
-> RnM (TyClDecl Name, FreeVars)
rnFamily (tydecl@TyFamily {tcdFlavour = flavour,
tcdLName = tycon, tcdTyVars = tyvars})
bindIdxVars =
- do { bindIdxVars (family_doc tycon) tyvars $ \tyvars' -> do {
+ do { bindIdxVars tyvars $ \tyvars' -> do {
; tycon' <- lookupLocatedTopBndrRn tycon
; return (TyFamily {tcdFlavour = flavour, tcdLName = tycon',
tcdTyVars = tyvars', tcdKind = tcdKind tydecl},
} }
rnFamily d _ = pprPanic "rnFamily" (ppr d)
-family_doc :: Located RdrName -> SDoc
-family_doc tycon = text "In the family declaration for" <+> quotes (ppr tycon)
-
-- Rename associated type declarations (in classes)
--
-- * This can be family declarations and (default) type instances
rn_at (tydecl@TyFamily {}) = rnFamily tydecl lookupIdxVars
rn_at (tydecl@TySynonym {}) =
do
- checkM (isNothing (tcdTyPats tydecl)) $ addErr noPatterns
+ unless (isNothing (tcdTyPats tydecl)) $ addErr noPatterns
rnTyClDecl tydecl
rn_at _ = panic "RnSource.rnATs: invalid TyClDecl"
- lookupIdxVars _ tyvars cont =
- do { checkForDups tyvars;
+ lookupIdxVars tyvars cont =
+ do { checkForDups tyvars
; tyvars' <- mapM lookupIdxVar tyvars
; cont tyvars'
}
Get the mapping from constructors to fields for this module.
It's convenient to do this after the data type decls have been renamed
\begin{code}
-extendRecordFieldEnv :: [LTyClDecl RdrName] -> [LInstDecl RdrName] -> TcM TcGblEnv
+extendRecordFieldEnv :: [[LTyClDecl RdrName]] -> [LInstDecl RdrName] -> TcM TcGblEnv
extendRecordFieldEnv tycl_decls inst_decls
= do { tcg_env <- getGblEnv
; field_env' <- foldrM get_con (tcg_field_env tcg_env) all_data_cons
all_data_cons :: [ConDecl RdrName]
all_data_cons = [con | L _ (TyData { tcdCons = cons }) <- all_tycl_decls
, L _ con <- cons ]
- all_tycl_decls = at_tycl_decls ++ tycl_decls
- at_tycl_decls = [at | L _ (InstDecl _ _ _ ats) <- inst_decls, at <- ats]
- -- Do not forget associated types!
+ all_tycl_decls = at_tycl_decls ++ concat tycl_decls
+ at_tycl_decls = instDeclATs inst_decls -- Do not forget associated types!
get_con (ConDecl { con_name = con, con_details = RecCon flds })
(RecFields env fld_set)
\end{code}
+%*********************************************************
+%* *
+ findSplice
+%* *
+%*********************************************************
+
+This code marches down the declarations, looking for the first
+Template Haskell splice. As it does so it
+ a) groups the declarations into a HsGroup
+ b) runs any top-level quasi-quotes
+
+\begin{code}
+findSplice :: [LHsDecl RdrName] -> RnM (HsGroup RdrName, Maybe (SpliceDecl RdrName, [LHsDecl RdrName]))
+findSplice ds = addl emptyRdrGroup ds
+
+addl :: HsGroup RdrName -> [LHsDecl RdrName]
+ -> RnM (HsGroup RdrName, Maybe (SpliceDecl RdrName, [LHsDecl RdrName]))
+-- This stuff reverses the declarations (again) but it doesn't matter
+addl gp [] = return (gp, Nothing)
+addl gp (L l d : ds) = add gp l d ds
+
+
+add :: HsGroup RdrName -> SrcSpan -> HsDecl RdrName -> [LHsDecl RdrName]
+ -> RnM (HsGroup RdrName, Maybe (SpliceDecl RdrName, [LHsDecl RdrName]))
+
+add gp loc (SpliceD splice@(SpliceDecl _ flag)) ds
+ = do { -- We've found a top-level splice. If it is an *implicit* one
+ -- (i.e. a naked top level expression)
+ case flag of
+ Explicit -> return ()
+ Implicit -> do { th_on <- xoptM Opt_TemplateHaskell
+ ; unless th_on $ setSrcSpan loc $
+ failWith badImplicitSplice }
+
+ ; return (gp, Just (splice, ds)) }
+ where
+ badImplicitSplice = ptext (sLit "Parse error: naked expression at top level")
+
+#ifndef GHCI
+add _ _ (QuasiQuoteD qq) _
+ = pprPanic "Can't do QuasiQuote declarations without GHCi" (ppr qq)
+#else
+add gp _ (QuasiQuoteD qq) ds -- Expand quasiquotes
+ = do { ds' <- runQuasiQuoteDecl qq
+ ; addl gp (ds' ++ ds) }
+#endif
+
+-- Class declarations: pull out the fixity signatures to the top
+add gp@(HsGroup {hs_tyclds = ts, hs_fixds = fs}) l (TyClD d) ds
+ | isClassDecl d
+ = let fsigs = [ L l f | L l (FixSig f) <- tcdSigs d ] in
+ addl (gp { hs_tyclds = add_tycld (L l d) ts, hs_fixds = fsigs ++ fs}) ds
+ | otherwise
+ = addl (gp { hs_tyclds = add_tycld (L l d) ts }) ds
+
+-- Signatures: fixity sigs go a different place than all others
+add gp@(HsGroup {hs_fixds = ts}) l (SigD (FixSig f)) ds
+ = addl (gp {hs_fixds = L l f : ts}) ds
+add gp@(HsGroup {hs_valds = ts}) l (SigD d) ds
+ = addl (gp {hs_valds = add_sig (L l d) ts}) ds
+
+-- Value declarations: use add_bind
+add gp@(HsGroup {hs_valds = ts}) l (ValD d) ds
+ = addl (gp { hs_valds = add_bind (L l d) ts }) ds
+
+-- The rest are routine
+add gp@(HsGroup {hs_instds = ts}) l (InstD d) ds
+ = addl (gp { hs_instds = L l d : ts }) ds
+add gp@(HsGroup {hs_derivds = ts}) l (DerivD d) ds
+ = addl (gp { hs_derivds = L l d : ts }) ds
+add gp@(HsGroup {hs_defds = ts}) l (DefD d) ds
+ = addl (gp { hs_defds = L l d : ts }) ds
+add gp@(HsGroup {hs_fords = ts}) l (ForD d) ds
+ = addl (gp { hs_fords = L l d : ts }) ds
+add gp@(HsGroup {hs_warnds = ts}) l (WarningD d) ds
+ = addl (gp { hs_warnds = L l d : ts }) ds
+add gp@(HsGroup {hs_annds = ts}) l (AnnD d) ds
+ = addl (gp { hs_annds = L l d : ts }) ds
+add gp@(HsGroup {hs_ruleds = ts}) l (RuleD d) ds
+ = addl (gp { hs_ruleds = L l d : ts }) ds
+add gp@(HsGroup {hs_vects = ts}) l (VectD d) ds
+ = addl (gp { hs_vects = L l d : ts }) ds
+add gp l (DocD d) ds
+ = addl (gp { hs_docs = (L l d) : (hs_docs gp) }) ds
+
+add_tycld :: LTyClDecl a -> [[LTyClDecl a]] -> [[LTyClDecl a]]
+add_tycld d [] = [[d]]
+add_tycld d (ds:dss) = (d:ds) : dss
+
+add_bind :: LHsBind a -> HsValBinds a -> HsValBinds a
+add_bind b (ValBindsIn bs sigs) = ValBindsIn (bs `snocBag` b) sigs
+add_bind _ (ValBindsOut {}) = panic "RdrHsSyn:add_bind"
+
+add_sig :: LSig a -> HsValBinds a -> HsValBinds a
+add_sig s (ValBindsIn bs sigs) = ValBindsIn bs (s:sigs)
+add_sig _ (ValBindsOut {}) = panic "RdrHsSyn:add_sig"
+\end{code}
\ No newline at end of file