-- Terms
mkHsPar, mkHsApp, mkHsConApp, mkSimpleHsAlt,
mkSimpleMatch, unguardedGRHSs, unguardedRHS,
- mkMatchGroup, mkMatch, mkHsLam,
- mkHsWrap, mkLHsWrap, mkHsWrapCoI, coiToHsWrapper, mkHsDictLet,
- mkHsOpApp, mkHsDo,
+ mkMatchGroup, mkMatch, mkHsLam, mkHsIf,
+ mkHsWrap, mkLHsWrap, mkHsWrapCo, mkLHsWrapCo,
+ coToHsWrapper, mkHsDictLet, mkHsLams,
+ mkHsOpApp, mkHsDo, mkHsComp, mkHsWrapPat, mkHsWrapPatCo,
nlHsTyApp, nlHsVar, nlHsLit, nlHsApp, nlHsApps, nlHsIntLit, nlHsVarApps,
nlHsDo, nlHsOpApp, nlHsLam, nlHsPar, nlHsIf, nlHsCase, nlList,
mkLHsTupleExpr, mkLHsVarTuple, missingTupArg,
- -- Bindigns
- mkFunBind, mkVarBind, mkHsVarBind, mk_easy_FunBind, mk_FunBind,
+ -- Bindings
+ mkFunBind, mkVarBind, mkHsVarBind, mk_easy_FunBind,
-- Literals
mkHsIntegral, mkHsFractional, mkHsIsString, mkHsString,
nlHsAppTy, nlHsTyVar, nlHsFunTy, nlHsTyConApp,
-- Stmts
- mkTransformStmt, mkTransformByStmt, mkExprStmt, mkBindStmt,
- mkGroupUsingStmt, mkGroupByStmt, mkGroupByUsingStmt,
+ mkTransformStmt, mkTransformByStmt, mkExprStmt, mkBindStmt, mkLastStmt,
+ emptyTransStmt, mkGroupUsingStmt, mkGroupByStmt, mkGroupByUsingStmt,
emptyRecStmt, mkRecStmt,
-- Template Haskell
noRebindableInfo,
-- Collecting binders
- collectLocalBinders, collectHsValBinders,
+ collectLocalBinders, collectHsValBinders, collectHsBindListBinders,
collectHsBindsBinders, collectHsBindBinders, collectMethodBinders,
collectPatBinders, collectPatsBinders,
collectLStmtsBinders, collectStmtsBinders,
collectLStmtBinders, collectStmtBinders,
- collectSigTysFromPats, collectSigTysFromPat
+ collectSigTysFromPats, collectSigTysFromPat,
+
+ hsTyClDeclBinders, hsTyClDeclsBinders,
+ hsForeignDeclsBinders, hsGroupBinders,
+
+ -- Collecting implicit binders
+ lStmtsImplicits, hsValBindsImplicits, lPatImplicits
) where
+import HsDecls
import HsBinds
import HsExpr
import HsPat
import RdrName
import Var
import Coercion
-import Type
+import TypeRep
import DataCon
import Name
import NameSet
import BasicTypes
import SrcLoc
import FastString
-import Outputable
import Util
import Bag
+
+import Data.Either
\end{code}
mkHsWrap co_fn e | isIdHsWrapper co_fn = e
| otherwise = HsWrap co_fn e
-mkHsWrapCoI :: CoercionI -> HsExpr id -> HsExpr id
-mkHsWrapCoI IdCo e = e
-mkHsWrapCoI (ACo co) e = mkHsWrap (WpCast co) e
+mkHsWrapCo :: Coercion -> HsExpr id -> HsExpr id
+mkHsWrapCo (Refl _) e = e
+mkHsWrapCo co e = mkHsWrap (WpCast co) e
+
+mkLHsWrapCo :: Coercion -> LHsExpr id -> LHsExpr id
+mkLHsWrapCo (Refl _) e = e
+mkLHsWrapCo co (L loc e) = L loc (mkHsWrap (WpCast co) e)
-coiToHsWrapper :: CoercionI -> HsWrapper
-coiToHsWrapper IdCo = idHsWrapper
-coiToHsWrapper (ACo co) = WpCast co
+coToHsWrapper :: Coercion -> HsWrapper
+coToHsWrapper (Refl _) = idHsWrapper
+coToHsWrapper co = WpCast co
+
+mkHsWrapPat :: HsWrapper -> Pat id -> Type -> Pat id
+mkHsWrapPat co_fn p ty | isIdHsWrapper co_fn = p
+ | otherwise = CoPat co_fn p ty
+
+mkHsWrapPatCo :: Coercion -> Pat id -> Type -> Pat id
+mkHsWrapPatCo (Refl _) pat _ = pat
+mkHsWrapPatCo co pat ty = CoPat (WpCast co) pat ty
mkHsLam :: [LPat id] -> LHsExpr id -> LHsExpr id
mkHsLam pats body = mkHsPar (L (getLoc body) (HsLam matches))
mkMatchGroup :: [LMatch id] -> MatchGroup id
mkMatchGroup matches = MatchGroup matches placeHolderType
-mkHsDictLet :: LHsBinds Id -> LHsExpr Id -> LHsExpr Id
--- Used for the dictionary bindings gotten from TcSimplify
--- We make them recursive to be on the safe side
-mkHsDictLet binds expr
- | isEmptyLHsBinds binds = expr
- | otherwise = L (getLoc expr) (HsLet (HsValBinds val_binds) expr)
- where
- val_binds = ValBindsOut [(Recursive, binds)] []
+mkHsLams :: [TyVar] -> [EvVar] -> LHsExpr Id -> LHsExpr Id
+mkHsLams tyvars dicts expr = mkLHsWrap (mkWpTyLams tyvars <.> mkWpLams dicts) expr
+
+mkHsDictLet :: TcEvBinds -> LHsExpr Id -> LHsExpr Id
+mkHsDictLet ev_binds expr = mkLHsWrap (mkWpLet ev_binds) expr
mkHsConApp :: DataCon -> [Type] -> [HsExpr Id] -> LHsExpr Id
-- Used for constructing dictionary terms etc, so no locations
-- See RnEnv.lookupSyntaxName
mkHsIntegral :: Integer -> PostTcType -> HsOverLit id
-mkHsFractional :: Rational -> PostTcType -> HsOverLit id
+mkHsFractional :: FractionalLit -> PostTcType -> HsOverLit id
mkHsIsString :: FastString -> PostTcType -> HsOverLit id
-mkHsDo :: HsStmtContext Name -> [LStmt id] -> LHsExpr id -> HsExpr id
+mkHsDo :: HsStmtContext Name -> [LStmt id] -> HsExpr id
+mkHsComp :: HsStmtContext Name -> [LStmt id] -> LHsExpr id -> HsExpr id
mkNPat :: HsOverLit id -> Maybe (SyntaxExpr id) -> Pat id
mkNPlusKPat :: Located id -> HsOverLit id -> Pat id
-mkTransformStmt :: [LStmt idL] -> LHsExpr idR -> StmtLR idL idR
-mkTransformByStmt :: [LStmt idL] -> LHsExpr idR -> LHsExpr idR -> StmtLR idL idR
-
+mkLastStmt :: LHsExpr idR -> StmtLR idL idR
mkExprStmt :: LHsExpr idR -> StmtLR idL idR
mkBindStmt :: LPat idL -> LHsExpr idR -> StmtLR idL idR
noRebindableInfo :: Bool
noRebindableInfo = error "noRebindableInfo" -- Just another placeholder;
-mkHsDo ctxt stmts body = HsDo ctxt stmts body placeHolderType
+mkHsDo ctxt stmts = HsDo ctxt stmts placeHolderType
+mkHsComp ctxt stmts expr = mkHsDo ctxt (stmts ++ [last_stmt])
+ where
+ last_stmt = L (getLoc expr) $ mkLastStmt expr
+
+mkHsIf :: LHsExpr id -> LHsExpr id -> LHsExpr id -> HsExpr id
+mkHsIf c a b = HsIf (Just noSyntaxExpr) c a b
mkNPat lit neg = NPat lit neg noSyntaxExpr
mkNPlusKPat id lit = NPlusKPat id lit noSyntaxExpr noSyntaxExpr
-mkTransformStmt stmts usingExpr = TransformStmt stmts [] usingExpr Nothing
-mkTransformByStmt stmts usingExpr byExpr = TransformStmt stmts [] usingExpr (Just byExpr)
-
+mkTransformStmt :: [LStmt idL] -> LHsExpr idR -> StmtLR idL idR
+mkTransformByStmt :: [LStmt idL] -> LHsExpr idR -> LHsExpr idR -> StmtLR idL idR
mkGroupUsingStmt :: [LStmt idL] -> LHsExpr idR -> StmtLR idL idR
mkGroupByStmt :: [LStmt idL] -> LHsExpr idR -> StmtLR idL idR
mkGroupByUsingStmt :: [LStmt idL] -> LHsExpr idR -> LHsExpr idR -> StmtLR idL idR
-mkGroupUsingStmt stmts usingExpr = GroupStmt stmts [] Nothing (Left usingExpr)
-mkGroupByStmt stmts byExpr = GroupStmt stmts [] (Just byExpr) (Right noSyntaxExpr)
-mkGroupByUsingStmt stmts byExpr usingExpr = GroupStmt stmts [] (Just byExpr) (Left usingExpr)
-
-mkExprStmt expr = ExprStmt expr noSyntaxExpr placeHolderType
+emptyTransStmt :: StmtLR idL idR
+emptyTransStmt = TransStmt { trS_form = undefined, trS_stmts = [], trS_bndrs = []
+ , trS_by = Nothing, trS_using = noLoc noSyntaxExpr
+ , trS_ret = noSyntaxExpr, trS_bind = noSyntaxExpr
+ , trS_fmap = noSyntaxExpr }
+mkTransformStmt ss u = emptyTransStmt { trS_form = ThenForm, trS_stmts = ss, trS_using = u }
+mkTransformByStmt ss u b = emptyTransStmt { trS_form = ThenForm, trS_stmts = ss, trS_using = u, trS_by = Just b }
+mkGroupByStmt ss b = emptyTransStmt { trS_form = GroupFormB, trS_stmts = ss, trS_by = Just b }
+mkGroupUsingStmt ss u = emptyTransStmt { trS_form = GroupFormU, trS_stmts = ss, trS_using = u }
+mkGroupByUsingStmt ss b u = emptyTransStmt { trS_form = GroupFormU, trS_stmts = ss
+ , trS_by = Just b, trS_using = u }
+
+mkLastStmt expr = LastStmt expr noSyntaxExpr
+mkExprStmt expr = ExprStmt expr noSyntaxExpr noSyntaxExpr placeHolderType
mkBindStmt pat expr = BindStmt pat expr noSyntaxExpr noSyntaxExpr
emptyRecStmt = RecStmt { recS_stmts = [], recS_later_ids = [], recS_rec_ids = []
, recS_ret_fn = noSyntaxExpr, recS_mfix_fn = noSyntaxExpr
, recS_bind_fn = noSyntaxExpr
- , recS_rec_rets = [], recS_dicts = emptyLHsBinds }
+ , recS_rec_rets = [], recS_ret_ty = placeHolderType }
mkRecStmt stmts = emptyRecStmt { recS_stmts = stmts }
nlWildPat :: LPat id
nlWildPat = noLoc (WildPat placeHolderType) -- Pre-typechecking
-nlHsDo :: HsStmtContext Name -> [LStmt id] -> LHsExpr id -> LHsExpr id
-nlHsDo ctxt stmts body = noLoc (mkHsDo ctxt stmts body)
+nlHsDo :: HsStmtContext Name -> [LStmt id] -> LHsExpr id
+nlHsDo ctxt stmts = noLoc (mkHsDo ctxt stmts)
nlHsOpApp :: LHsExpr id -> id -> LHsExpr id -> LHsExpr id
nlHsOpApp e1 op e2 = noLoc (mkHsOpApp e1 op e2)
nlHsLam match = noLoc (HsLam (mkMatchGroup [match]))
nlHsPar e = noLoc (HsPar e)
-nlHsIf cond true false = noLoc (HsIf cond true false)
+nlHsIf cond true false = noLoc (mkHsIf cond true false)
nlHsCase expr matches = noLoc (HsCase expr (mkMatchGroup matches))
nlList exprs = noLoc (ExplicitList placeHolderType exprs)
= L loc $ mkFunBind (L loc fun) [mkMatch pats expr emptyLocalBinds]
------------
-mk_FunBind :: SrcSpan -> id
- -> [([LPat id], LHsExpr id)]
- -> LHsBind id
-
-mk_FunBind _ _ [] = panic "TcGenDeriv:mk_FunBind"
-mk_FunBind loc fun pats_and_exprs
- = L loc $ mkFunBind (L loc fun) matches
- where
- matches = [mkMatch p e emptyLocalBinds | (p,e) <-pats_and_exprs]
-
-------------
mkMatch :: [LPat id] -> LHsExpr id -> HsLocalBinds id -> LMatch id
mkMatch pats expr binds
= noLoc (Match (map paren pats) Nothing
Note [Collect binders only after renaming]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
These functions should only be used on HsSyn *after* the renamer,
-to reuturn a [Name] or [Id]. Before renaming the record punning
+to return a [Name] or [Id]. Before renaming the record punning
and wild-card mechanism makes it hard to know what is bound.
So these functions should not be applied to (HsSyn RdrName)
collectHsBindsBinders :: LHsBindsLR idL idR -> [idL]
collectHsBindsBinders binds = collect_binds binds []
+collectHsBindListBinders :: [LHsBindLR idL idR] -> [idL]
+collectHsBindListBinders = foldr (collect_bind . unLoc) []
+
collect_binds :: LHsBindsLR idL idR -> [idL] -> [idL]
collect_binds binds acc = foldrBag (collect_bind . unLoc) acc binds
-- Id Binders for a Stmt... [but what about pattern-sig type vars]?
collectStmtBinders (BindStmt pat _ _ _) = collectPatBinders pat
collectStmtBinders (LetStmt binds) = collectLocalBinders binds
-collectStmtBinders (ExprStmt _ _ _) = []
-collectStmtBinders (ParStmt xs) = collectLStmtsBinders
+collectStmtBinders (ExprStmt {}) = []
+collectStmtBinders (LastStmt {}) = []
+collectStmtBinders (ParStmt xs _ _ _) = collectLStmtsBinders
$ concatMap fst xs
-collectStmtBinders (TransformStmt stmts _ _ _) = collectLStmtsBinders stmts
-collectStmtBinders (GroupStmt stmts _ _ _) = collectLStmtsBinders stmts
-collectStmtBinders (RecStmt { recS_stmts = ss }) = collectLStmtsBinders ss
+collectStmtBinders (TransStmt { trS_stmts = stmts }) = collectLStmtsBinders stmts
+collectStmtBinders (RecStmt { recS_stmts = ss }) = collectLStmtsBinders ss
----------------- Patterns --------------------------
= go pat
where
go (VarPat var) = var : bndrs
- go (VarPatOut var bs) = var : collect_binds bs bndrs
go (WildPat _) = bndrs
go (LazyPat pat) = collect_lpat pat bndrs
go (BangPat pat) = collect_lpat pat bndrs
go (SigPatIn pat _) = collect_lpat pat bndrs
go (SigPatOut pat _) = collect_lpat pat bndrs
go (QuasiQuotePat _) = bndrs
- go (TypePat _) = bndrs
go (CoPat _ pat _) = go pat
\end{code}
variables bound by the lazy pattern are n,m, *not* the dictionary d.
So in mkSelectorBinds in DsUtils, we want just m,n as the variables bound.
+\begin{code}
+hsGroupBinders :: HsGroup Name -> [Name]
+hsGroupBinders (HsGroup { hs_valds = val_decls, hs_tyclds = tycl_decls,
+ hs_instds = inst_decls, hs_fords = foreign_decls })
+-- Collect the binders of a Group
+ = collectHsValBinders val_decls
+ ++ hsTyClDeclsBinders tycl_decls inst_decls
+ ++ hsForeignDeclsBinders foreign_decls
+
+hsForeignDeclsBinders :: [LForeignDecl Name] -> [Name]
+hsForeignDeclsBinders foreign_decls
+ = [n | L _ (ForeignImport (L _ n) _ _) <- foreign_decls]
+
+hsTyClDeclsBinders :: [[LTyClDecl Name]] -> [Located (InstDecl Name)] -> [Name]
+hsTyClDeclsBinders tycl_decls inst_decls
+ = [n | d <- instDeclATs inst_decls ++ concat tycl_decls
+ , L _ n <- hsTyClDeclBinders d]
+
+hsTyClDeclBinders :: Eq name => Located (TyClDecl name) -> [Located name]
+-- ^ Returns all the /binding/ names of the decl, along with their SrcLocs.
+-- The first one is guaranteed to be the name of the decl. For record fields
+-- mentioned in multiple constructors, the SrcLoc will be from the first
+-- occurence. We use the equality to filter out duplicate field names
+
+hsTyClDeclBinders (L _ (TyFamily {tcdLName = name})) = [name]
+hsTyClDeclBinders (L _ (TySynonym {tcdLName = name})) = [name]
+hsTyClDeclBinders (L _ (ForeignType {tcdLName = name})) = [name]
+
+hsTyClDeclBinders (L _ (ClassDecl {tcdLName = cls_name, tcdSigs = sigs, tcdATs = ats}))
+ = cls_name :
+ concatMap hsTyClDeclBinders ats ++ [n | L _ (TypeSig n _) <- sigs]
+
+hsTyClDeclBinders (L _ (TyData {tcdLName = tc_name, tcdCons = cons}))
+ = tc_name : hsConDeclsBinders cons
+
+hsConDeclsBinders :: (Eq name) => [LConDecl name] -> [Located name]
+ -- See hsTyClDeclBinders for what this does
+ -- The function is boringly complicated because of the records
+ -- And since we only have equality, we have to be a little careful
+hsConDeclsBinders cons
+ = snd (foldl do_one ([], []) cons)
+ where
+ do_one (flds_seen, acc) (L _ (ConDecl { con_name = lname, con_details = RecCon flds }))
+ = (map unLoc new_flds ++ flds_seen, lname : new_flds ++ acc)
+ where
+ new_flds = filterOut (\f -> unLoc f `elem` flds_seen)
+ (map cd_fld_name flds)
+
+ do_one (flds_seen, acc) (L _ (ConDecl { con_name = lname }))
+ = (flds_seen, lname:acc)
+\end{code}
+
+
+%************************************************************************
+%* *
+ Collecting binders the user did not write
+%* *
+%************************************************************************
+
+The job of this family of functions is to run through binding sites and find the set of all Names
+that were defined "implicitly", without being explicitly written by the user.
+
+The main purpose is to find names introduced by record wildcards so that we can avoid
+warning the user when they don't use those names (#4404)
+
+\begin{code}
+lStmtsImplicits :: [LStmtLR Name idR] -> NameSet
+lStmtsImplicits = hs_lstmts
+ where
+ hs_lstmts :: [LStmtLR Name idR] -> NameSet
+ hs_lstmts = foldr (\stmt rest -> unionNameSets (hs_stmt (unLoc stmt)) rest) emptyNameSet
+
+ hs_stmt (BindStmt pat _ _ _) = lPatImplicits pat
+ hs_stmt (LetStmt binds) = hs_local_binds binds
+ hs_stmt (ExprStmt {}) = emptyNameSet
+ hs_stmt (LastStmt {}) = emptyNameSet
+ hs_stmt (ParStmt xs _ _ _) = hs_lstmts $ concatMap fst xs
+
+ hs_stmt (TransStmt { trS_stmts = stmts }) = hs_lstmts stmts
+ hs_stmt (RecStmt { recS_stmts = ss }) = hs_lstmts ss
+
+ hs_local_binds (HsValBinds val_binds) = hsValBindsImplicits val_binds
+ hs_local_binds (HsIPBinds _) = emptyNameSet
+ hs_local_binds EmptyLocalBinds = emptyNameSet
+
+hsValBindsImplicits :: HsValBindsLR Name idR -> NameSet
+hsValBindsImplicits (ValBindsOut binds _)
+ = foldr (unionNameSets . lhsBindsImplicits . snd) emptyNameSet binds
+hsValBindsImplicits (ValBindsIn binds _)
+ = lhsBindsImplicits binds
+
+lhsBindsImplicits :: LHsBindsLR Name idR -> NameSet
+lhsBindsImplicits = foldBag unionNameSets lhs_bind emptyNameSet
+ where
+ lhs_bind (L _ (PatBind { pat_lhs = lpat })) = lPatImplicits lpat
+ lhs_bind _ = emptyNameSet
+
+lPatImplicits :: LPat Name -> NameSet
+lPatImplicits = hs_lpat
+ where
+ hs_lpat (L _ pat) = hs_pat pat
+
+ hs_lpats = foldr (\pat rest -> hs_lpat pat `unionNameSets` rest) emptyNameSet
+
+ hs_pat (LazyPat pat) = hs_lpat pat
+ hs_pat (BangPat pat) = hs_lpat pat
+ hs_pat (AsPat _ pat) = hs_lpat pat
+ hs_pat (ViewPat _ pat _) = hs_lpat pat
+ hs_pat (ParPat pat) = hs_lpat pat
+ hs_pat (ListPat pats _) = hs_lpats pats
+ hs_pat (PArrPat pats _) = hs_lpats pats
+ hs_pat (TuplePat pats _ _) = hs_lpats pats
+
+ hs_pat (SigPatIn pat _) = hs_lpat pat
+ hs_pat (SigPatOut pat _) = hs_lpat pat
+ hs_pat (CoPat _ pat _) = hs_pat pat
+
+ hs_pat (ConPatIn _ ps) = details ps
+ hs_pat (ConPatOut {pat_args=ps}) = details ps
+
+ hs_pat _ = emptyNameSet
+
+ details (PrefixCon ps) = hs_lpats ps
+ details (RecCon fs) = hs_lpats explicit `unionNameSets` mkNameSet (collectPatsBinders implicit)
+ where (explicit, implicit) = partitionEithers [if pat_explicit then Left pat else Right pat
+ | (i, fld) <- [0..] `zip` rec_flds fs
+ , let pat = hsRecFieldArg fld
+ pat_explicit = maybe True (i<) (rec_dotdot fs)]
+ details (InfixCon p1 p2) = hs_lpat p1 `unionNameSets` hs_lpat p2
+\end{code}
+
+
%************************************************************************
%* *
Collecting type signatures from patterns
collect_sig_pat :: Pat name -> [LHsType name] -> [LHsType name]
collect_sig_pat (SigPatIn pat ty) acc = collect_sig_lpat pat (ty:acc)
-collect_sig_pat (TypePat ty) acc = ty:acc
collect_sig_pat (LazyPat pat) acc = collect_sig_lpat pat acc
collect_sig_pat (BangPat pat) acc = collect_sig_lpat pat acc