\begin{code}
module RnBinds (
- rnTopBinds, rnTopMonoBinds,
- rnMethodBinds, renameSigs,
- rnBinds,
- unknownSigErr
+ rnTopMonoBinds, rnMonoBinds, rnMethodBinds,
+ renameSigs, renameSigsFVs, unknownSigErr
) where
#include "HsVersions.h"
-import {-# SOURCE #-} RnSource ( rnHsSigType )
import HsSyn
import HsBinds ( eqHsSig, sigName, hsSigDoc )
import RdrHsSyn
import RnHsSyn
-import RnMonad
+import TcRnMonad
+import RnTypes ( rnHsSigType, rnHsType )
import RnExpr ( rnMatch, rnGRHSs, rnPat, checkPrecMatch )
-import RnEnv ( bindLocatedLocalsRn, lookupBndrRn,
- lookupGlobalOccRn, lookupOccRn, lookupSigOccRn,
- warnUnusedLocalBinds, mapFvRn,
- FreeVars, emptyFVs, plusFV, plusFVs, unitFV, addOneFV,
- unknownNameErr
+import RnEnv ( bindLocatedLocalsRn, lookupBndrRn, lookupInstDeclBndr,
+ lookupSigOccRn, bindPatSigTyVars, bindLocalFixities,
+ warnUnusedLocalBinds, mapFvRn, extendTyVarEnvFVRn,
)
-import CmdLineOpts ( opt_WarnMissingSigs )
+import CmdLineOpts ( DynFlag(..) )
import Digraph ( stronglyConnComp, SCC(..) )
-import Name ( OccName, Name, nameOccName, mkUnboundName, isUnboundName )
+import Name ( Name, nameOccName, nameSrcLoc )
import NameSet
-import RdrName ( RdrName, rdrNameOcc )
-import BasicTypes ( RecFlag(..), TopLevelFlag(..) )
-import Util ( thenCmp, removeDups )
+import RdrName ( RdrName, rdrNameOcc )
+import BasicTypes ( RecFlag(..), FixitySig(..) )
import List ( partition )
-import ListSetOps ( minusList )
-import Bag ( bagToList )
-import FiniteMap ( lookupFM, listToFM )
-import Maybe ( isJust )
import Outputable
+import PrelNames ( isUnboundName )
\end{code}
-- ToDo: Put the annotations into the monad, so that they arrive in the proper
\begin{code}
type VertexTag = Int
-type Cycle = [VertexTag]
-type Edge = (VertexTag, VertexTag)
\end{code}
%************************************************************************
%* *
%************************************************************************
-@rnTopBinds@ assumes that the environment already
+@rnTopMonoBinds@ assumes that the environment already
contains bindings for the binders of this particular binding.
\begin{code}
-rnTopBinds :: RdrNameHsBinds -> RnMS (RenamedHsBinds, FreeVars)
-
-rnTopBinds EmptyBinds = returnRn (EmptyBinds, emptyFVs)
-rnTopBinds (MonoBind bind sigs _) = rnTopMonoBinds bind sigs
- -- The parser doesn't produce other forms
-
-
-rnTopMonoBinds EmptyMonoBinds sigs
- = returnRn (EmptyBinds, emptyFVs)
-
rnTopMonoBinds mbinds sigs
- = mapRn lookupBndrRn binder_rdr_names `thenRn` \ binder_names ->
+ = mappM lookupBndrRn binder_rdr_names `thenM` \ binder_names ->
+ bindPatSigTyVars (collectSigTysFromMonoBinds mbinds) $
let
bndr_name_set = mkNameSet binder_names
in
- renameSigs (okBindSig bndr_name_set) sigs `thenRn` \ (siglist, sig_fvs) ->
- let
- type_sig_vars = [n | Sig n _ _ <- siglist]
- un_sigd_binders | opt_WarnMissingSigs = nameSetToList (delListFromNameSet bndr_name_set type_sig_vars)
- | otherwise = []
- in
- mapRn_ (addWarnRn.missingSigWarn) un_sigd_binders `thenRn_`
-
- rn_mono_binds siglist mbinds `thenRn` \ (final_binds, bind_fvs) ->
- returnRn (final_binds, bind_fvs `plusFV` sig_fvs)
+ renameSigsFVs (okBindSig bndr_name_set) sigs `thenM` \ (siglist, sig_fvs) ->
+
+ ifOptM Opt_WarnMissingSigs (
+ let
+ type_sig_vars = [n | Sig n _ _ <- siglist]
+ un_sigd_binders = nameSetToList (delListFromNameSet bndr_name_set type_sig_vars)
+ in
+ mappM_ missingSigWarn un_sigd_binders
+ ) `thenM_`
+
+ rn_mono_binds siglist mbinds `thenM` \ (final_binds, bind_fvs) ->
+ returnM (final_binds, bind_fvs `plusFV` sig_fvs)
where
- binder_rdr_names = map fst (bagToList (collectMonoBinders mbinds))
+ binder_rdr_names = collectMonoBinders mbinds
\end{code}
%************************************************************************
\end{itemize}
%
\begin{code}
-rnBinds :: RdrNameHsBinds
- -> (RenamedHsBinds -> RnMS (result, FreeVars))
- -> RnMS (result, FreeVars)
-
-rnBinds EmptyBinds thing_inside = thing_inside EmptyBinds
-rnBinds (MonoBind bind sigs _) thing_inside = rnMonoBinds bind sigs thing_inside
- -- the parser doesn't produce other forms
-
-
rnMonoBinds :: RdrNameMonoBinds
-> [RdrNameSig]
- -> (RenamedHsBinds -> RnMS (result, FreeVars))
- -> RnMS (result, FreeVars)
-
-rnMonoBinds EmptyMonoBinds sigs thing_inside = thing_inside EmptyBinds
+ -> (RenamedHsBinds -> RnM (result, FreeVars))
+ -> RnM (result, FreeVars)
rnMonoBinds mbinds sigs thing_inside -- Non-empty monobinds
= -- Extract all the binders in this group,
-- and extend current scope, inventing new names for the new binders
-- This also checks that the names form a set
- bindLocatedLocalsRn (text "a binding group") mbinders_w_srclocs
- $ \ new_mbinders ->
+ bindLocatedLocalsRn doc mbinders_w_srclocs $ \ new_mbinders ->
+ bindPatSigTyVars (collectSigTysFromMonoBinds mbinds) $
let
binder_set = mkNameSet new_mbinders
in
-- Rename the signatures
- renameSigs (okBindSig binder_set) sigs `thenRn` \ (siglist, sig_fvs) ->
+ renameSigsFVs (okBindSig binder_set) sigs `thenM` \ (siglist, sig_fvs) ->
-- Report the fixity declarations in this group that
-- don't refer to any of the group's binders.
-- Then install the fixity declarations that do apply here
-- Notice that they scope over thing_inside too
- let
- fixity_sigs = [(name,sig) | FixSig sig@(FixitySig name _ _) <- siglist ]
- in
- extendFixityEnv fixity_sigs $
+ bindLocalFixities [sig | FixSig sig <- siglist ] $
- rn_mono_binds siglist mbinds `thenRn` \ (binds, bind_fvs) ->
+ rn_mono_binds siglist mbinds `thenM` \ (binds, bind_fvs) ->
-- Now do the "thing inside", and deal with the free-variable calculations
- thing_inside binds `thenRn` \ (result,result_fvs) ->
+ thing_inside binds `thenM` \ (result,result_fvs) ->
let
all_fvs = result_fvs `plusFV` bind_fvs `plusFV` sig_fvs
unused_binders = nameSetToList (binder_set `minusNameSet` all_fvs)
in
- warnUnusedLocalBinds unused_binders `thenRn_`
- returnRn (result, delListFromNameSet all_fvs new_mbinders)
+ warnUnusedLocalBinds unused_binders `thenM_`
+ returnM (result, delListFromNameSet all_fvs new_mbinders)
where
- mbinders_w_srclocs = bagToList (collectMonoBinders mbinds)
+ mbinders_w_srclocs = collectLocatedMonoBinders mbinds
+ doc = text "In the binding group for" <+> pp_bndrs mbinders_w_srclocs
+ pp_bndrs [(b,_)] = quotes (ppr b)
+ pp_bndrs bs = fsep (punctuate comma [ppr b | (b,_) <- bs])
\end{code}
\begin{code}
rn_mono_binds :: [RenamedSig] -- Signatures attached to this group
-> RdrNameMonoBinds
- -> RnMS (RenamedHsBinds, --
- FreeVars) -- Free variables
+ -> RnM (RenamedHsBinds, -- Dependency analysed
+ FreeVars) -- Free variables
rn_mono_binds siglist mbinds
=
-- Rename the bindings, returning a MonoBindsInfo
-- which is a list of indivisible vertices so far as
-- the strongly-connected-components (SCC) analysis is concerned
- flattenMonoBinds siglist mbinds `thenRn` \ mbinds_info ->
+ flattenMonoBinds siglist mbinds `thenM` \ mbinds_info ->
-- Do the SCC analysis
let
edges = mkEdges (mbinds_info `zip` [(0::Int)..])
scc_result = stronglyConnComp edges
- final_binds = foldr1 ThenBinds (map reconstructCycle scc_result)
+ final_binds = foldr (ThenBinds . reconstructCycle) EmptyBinds scc_result
-- Deal with bound and free-var calculation
rhs_fvs = plusFVs [fvs | (_,fvs,_,_) <- mbinds_info]
in
- returnRn (final_binds, rhs_fvs)
+ returnM (final_binds, rhs_fvs)
\end{code}
@flattenMonoBinds@ is ever-so-slightly magical in that it sticks
\begin{code}
flattenMonoBinds :: [RenamedSig] -- Signatures
-> RdrNameMonoBinds
- -> RnMS [FlatMonoBindsInfo]
+ -> RnM [FlatMonoBindsInfo]
-flattenMonoBinds sigs EmptyMonoBinds = returnRn []
+flattenMonoBinds sigs EmptyMonoBinds = returnM []
flattenMonoBinds sigs (AndMonoBinds bs1 bs2)
- = flattenMonoBinds sigs bs1 `thenRn` \ flat1 ->
- flattenMonoBinds sigs bs2 `thenRn` \ flat2 ->
- returnRn (flat1 ++ flat2)
+ = flattenMonoBinds sigs bs1 `thenM` \ flat1 ->
+ flattenMonoBinds sigs bs2 `thenM` \ flat2 ->
+ returnM (flat1 ++ flat2)
flattenMonoBinds sigs (PatMonoBind pat grhss locn)
- = pushSrcLocRn locn $
- rnPat pat `thenRn` \ (pat', pat_fvs) ->
+ = addSrcLoc locn $
+ rnPat pat `thenM` \ (pat', pat_fvs) ->
-- Find which things are bound in this group
let
names_bound_here = mkNameSet (collectPatBinders pat')
in
- sigsForMe names_bound_here sigs `thenRn` \ sigs_for_me ->
- rnGRHSs grhss `thenRn` \ (grhss', fvs) ->
- returnRn
+ sigsForMe names_bound_here sigs `thenM` \ sigs_for_me ->
+ rnGRHSs grhss `thenM` \ (grhss', fvs) ->
+ returnM
[(names_bound_here,
fvs `plusFV` pat_fvs,
PatMonoBind pat' grhss' locn,
)]
flattenMonoBinds sigs (FunMonoBind name inf matches locn)
- = pushSrcLocRn locn $
- lookupBndrRn name `thenRn` \ new_name ->
+ = addSrcLoc locn $
+ lookupBndrRn name `thenM` \ new_name ->
let
names_bound_here = unitNameSet new_name
in
- sigsForMe names_bound_here sigs `thenRn` \ sigs_for_me ->
- mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->
- mapRn_ (checkPrecMatch inf new_name) new_matches `thenRn_`
- returnRn
+ sigsForMe names_bound_here sigs `thenM` \ sigs_for_me ->
+ mapFvRn (rnMatch (FunRhs name)) matches `thenM` \ (new_matches, fvs) ->
+ mappM_ (checkPrecMatch inf new_name) new_matches `thenM_`
+ returnM
[(unitNameSet new_name,
fvs,
FunMonoBind new_name inf new_matches locn,
sigsForMe names_bound_here sigs
- = foldlRn check [] (filter (sigForThisGroup names_bound_here) sigs)
+ = foldlM check [] (filter (sigForThisGroup names_bound_here) sigs)
where
check sigs sig = case filter (eqHsSig sig) sigs of
- [] -> returnRn (sig:sigs)
- other -> dupSigDeclErr sig `thenRn_`
- returnRn sigs
+ [] -> returnM (sig:sigs)
+ other -> dupSigDeclErr sig `thenM_`
+ returnM sigs
\end{code}
a binder.
\begin{code}
-rnMethodBinds :: RdrNameMonoBinds -> RnMS (RenamedMonoBinds, FreeVars)
+rnMethodBinds :: Name -- Class name
+ -> [Name] -- Names for generic type variables
+ -> RdrNameMonoBinds
+ -> RnM (RenamedMonoBinds, FreeVars)
-rnMethodBinds EmptyMonoBinds = returnRn (EmptyMonoBinds, emptyFVs)
+rnMethodBinds cls gen_tyvars EmptyMonoBinds = returnM (EmptyMonoBinds, emptyFVs)
-rnMethodBinds (AndMonoBinds mb1 mb2)
- = rnMethodBinds mb1 `thenRn` \ (mb1', fvs1) ->
- rnMethodBinds mb2 `thenRn` \ (mb2', fvs2) ->
- returnRn (mb1' `AndMonoBinds` mb2', fvs1 `plusFV` fvs2)
+rnMethodBinds cls gen_tyvars (AndMonoBinds mb1 mb2)
+ = rnMethodBinds cls gen_tyvars mb1 `thenM` \ (mb1', fvs1) ->
+ rnMethodBinds cls gen_tyvars mb2 `thenM` \ (mb2', fvs2) ->
+ returnM (mb1' `AndMonoBinds` mb2', fvs1 `plusFV` fvs2)
-rnMethodBinds (FunMonoBind name inf matches locn)
- = pushSrcLocRn locn $
+rnMethodBinds cls gen_tyvars (FunMonoBind name inf matches locn)
+ = addSrcLoc locn $
- lookupGlobalOccRn name `thenRn` \ sel_name ->
+ lookupInstDeclBndr cls name `thenM` \ sel_name ->
-- We use the selector name as the binder
- mapFvRn rnMatch matches `thenRn` \ (new_matches, fvs) ->
- mapRn_ (checkPrecMatch inf sel_name) new_matches `thenRn_`
- returnRn (FunMonoBind sel_name inf new_matches locn, fvs `addOneFV` sel_name)
+ mapFvRn rn_match matches `thenM` \ (new_matches, fvs) ->
+ mappM_ (checkPrecMatch inf sel_name) new_matches `thenM_`
+ returnM (FunMonoBind sel_name inf new_matches locn, fvs `addOneFV` sel_name)
+ where
+ -- Gruesome; bring into scope the correct members of the generic type variables
+ -- See comments in RnSource.rnSourceDecl(ClassDecl)
+ rn_match match@(Match (TypePat ty : _) _ _)
+ = extendTyVarEnvFVRn gen_tvs (rnMatch (FunRhs name) match)
+ where
+ tvs = map rdrNameOcc (extractHsTyRdrNames ty)
+ gen_tvs = [tv | tv <- gen_tyvars, nameOccName tv `elem` tvs]
+
+ rn_match match = rnMatch (FunRhs name) match
+
-- Can't handle method pattern-bindings which bind multiple methods.
-rnMethodBinds mbind@(PatMonoBind other_pat _ locn)
- = pushSrcLocRn locn $
- failWithRn (EmptyMonoBinds, emptyFVs) (methodBindErr mbind)
+rnMethodBinds cls gen_tyvars mbind@(PatMonoBind other_pat _ locn)
+ = addSrcLoc locn (addErr (methodBindErr mbind)) `thenM_`
+ returnM (EmptyMonoBinds, emptyFVs)
\end{code}
signatures. We'd only need this if we wanted to report unused tyvars.
\begin{code}
+renameSigsFVs ok_sig sigs
+ = renameSigs ok_sig sigs `thenM` \ sigs' ->
+ returnM (sigs', hsSigsFVs sigs')
+
renameSigs :: (RenamedSig -> Bool) -- OK-sig predicate
-> [RdrNameSig]
- -> RnMS ([RenamedSig], FreeVars)
+ -> RnM [RenamedSig]
-renameSigs ok_sig [] = returnRn ([], emptyFVs) -- Common shortcut
+renameSigs ok_sig [] = returnM []
renameSigs ok_sig sigs
= -- Rename the signatures
- mapFvRn renameSig sigs `thenRn` \ (sigs', fvs) ->
+ mappM renameSig sigs `thenM` \ sigs' ->
-- Check for (a) duplicate signatures
-- (b) signatures for things not in this group
Nothing -> True
(goods, bads) = partition ok_sig in_scope
in
- mapRn_ unknownSigErr bads `thenRn_`
- returnRn (goods, fvs)
+ mappM_ unknownSigErr bads `thenM_`
+ returnM goods
-- We use lookupSigOccRn in the signatures, which is a little bit unsatisfactory
-- because this won't work for:
-- is in scope. (I'm assuming that Baz.op isn't in scope unqualified.)
-- Doesn't seem worth much trouble to sort this.
-renameSig :: Sig RdrName -> RnMS (Sig Name, FreeVars)
-
+renameSig :: Sig RdrName -> RnM (Sig Name)
+-- ClassOpSig is renamed elsewhere.
renameSig (Sig v ty src_loc)
- = pushSrcLocRn src_loc $
- lookupSigOccRn v `thenRn` \ new_v ->
- rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->
- returnRn (Sig new_v new_ty src_loc, fvs `addOneFV` new_v)
+ = addSrcLoc src_loc $
+ lookupSigOccRn v `thenM` \ new_v ->
+ rnHsSigType (quotes (ppr v)) ty `thenM` \ new_ty ->
+ returnM (Sig new_v new_ty src_loc)
renameSig (SpecInstSig ty src_loc)
- = pushSrcLocRn src_loc $
- rnHsSigType (text "A SPECIALISE instance pragma") ty `thenRn` \ (new_ty, fvs) ->
- returnRn (SpecInstSig new_ty src_loc, fvs)
+ = addSrcLoc src_loc $
+ rnHsType (text "A SPECIALISE instance pragma") ty `thenM` \ new_ty ->
+ returnM (SpecInstSig new_ty src_loc)
renameSig (SpecSig v ty src_loc)
- = pushSrcLocRn src_loc $
- lookupSigOccRn v `thenRn` \ new_v ->
- rnHsSigType (quotes (ppr v)) ty `thenRn` \ (new_ty,fvs) ->
- returnRn (SpecSig new_v new_ty src_loc, fvs `addOneFV` new_v)
+ = addSrcLoc src_loc $
+ lookupSigOccRn v `thenM` \ new_v ->
+ rnHsSigType (quotes (ppr v)) ty `thenM` \ new_ty ->
+ returnM (SpecSig new_v new_ty src_loc)
renameSig (FixSig (FixitySig v fix src_loc))
- = pushSrcLocRn src_loc $
- lookupSigOccRn v `thenRn` \ new_v ->
- returnRn (FixSig (FixitySig new_v fix src_loc), unitFV new_v)
-
-renameSig (InlineSig v p src_loc)
- = pushSrcLocRn src_loc $
- lookupSigOccRn v `thenRn` \ new_v ->
- returnRn (InlineSig new_v p src_loc, unitFV new_v)
-
-renameSig (NoInlineSig v p src_loc)
- = pushSrcLocRn src_loc $
- lookupSigOccRn v `thenRn` \ new_v ->
- returnRn (NoInlineSig new_v p src_loc, unitFV new_v)
-\end{code}
-
-\begin{code}
-renameIE :: (RdrName -> RnMS Name) -> IE RdrName -> RnMS (IE Name, FreeVars)
-renameIE lookup_occ_nm (IEVar v)
- = lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (IEVar new_v, unitFV new_v)
-
-renameIE lookup_occ_nm (IEThingAbs v)
- = lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (IEThingAbs new_v, unitFV new_v)
-
-renameIE lookup_occ_nm (IEThingAll v)
- = lookup_occ_nm v `thenRn` \ new_v ->
- returnRn (IEThingAll new_v, unitFV new_v)
-
-renameIE lookup_occ_nm (IEThingWith v vs)
- = lookup_occ_nm v `thenRn` \ new_v ->
- mapRn lookup_occ_nm vs `thenRn` \ new_vs ->
- returnRn (IEThingWith new_v new_vs, plusFVs [ unitFV x | x <- new_v:new_vs ])
-
-renameIE lookup_occ_nm (IEModuleContents m)
- = returnRn (IEModuleContents m, emptyFVs)
+ = addSrcLoc src_loc $
+ lookupSigOccRn v `thenM` \ new_v ->
+ returnM (FixSig (FixitySig new_v fix src_loc))
+
+renameSig (InlineSig b v p src_loc)
+ = addSrcLoc src_loc $
+ lookupSigOccRn v `thenM` \ new_v ->
+ returnM (InlineSig b new_v p src_loc)
\end{code}
\begin{code}
dupSigDeclErr sig
- = pushSrcLocRn loc $
- addErrRn (sep [ptext SLIT("Duplicate") <+> ptext what_it_is <> colon,
+ = addSrcLoc loc $
+ addErr (sep [ptext SLIT("Duplicate") <+> what_it_is <> colon,
ppr sig])
where
(what_it_is, loc) = hsSigDoc sig
unknownSigErr sig
- = pushSrcLocRn loc $
- addErrRn (sep [ptext SLIT("Misplaced") <+> ptext what_it_is <> colon,
+ = addSrcLoc loc $
+ addErr (sep [ptext SLIT("Misplaced") <+> what_it_is <> colon,
ppr sig])
where
(what_it_is, loc) = hsSigDoc sig
missingSigWarn var
- = sep [ptext SLIT("definition but no type signature for"), quotes (ppr var)]
+ = addSrcLoc (nameSrcLoc var) $
+ addWarn (sep [ptext SLIT("Definition but no type signature for"), quotes (ppr var)])
methodBindErr mbind
= hang (ptext SLIT("Can't handle multiple methods defined by one pattern binding"))