uhc-light-1.1.9.4: src/UHC/Light/Compiler/Core/UsedModNms.hs
-- UUAGC 0.9.52.1 (build/103/lib-ehc/UHC/Light/Compiler/Core/UsedModNm)
module UHC.Light.Compiler.Core.UsedModNms(cmodUsedModNms) where
import qualified Data.Set as Set
import Data.Maybe
import UHC.Light.Compiler.Base.Common
import UHC.Light.Compiler.Base.HsName.Builtin
import UHC.Light.Compiler.Core
import UHC.Light.Compiler.Ty
cmodUsedModNms
:: CModule
-> ( HsNameS -- usedModNmS
, HsNameS -- introducedModNmS
)
cmodUsedModNms m
= ( usedModNmS_Syn_CodeAGItf t
, introducedModNmS_Syn_CodeAGItf t
)
where t = wrap_CodeAGItf (sem_CodeAGItf (CodeAGItf_AGItf m)) Inh_CodeAGItf
collapseToModNm :: HsNameS -> HsNameS
collapseToModNm = Set.unions . Set.toList . Set.map (Set.fromList . maybeToList . hsnQualifier)
-- CAlt --------------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Alt:
child pat : CPat
child expr : CExpr
-}
-- cata
sem_CAlt :: CAlt ->
T_CAlt
sem_CAlt (CAlt_Alt _pat _expr) =
(sem_CAlt_Alt (sem_CPat _pat) (sem_CExpr _expr))
-- semantic domain
type T_CAlt = ( HsNameS)
sem_CAlt_Alt :: T_CPat ->
T_CExpr ->
T_CAlt
sem_CAlt_Alt pat_ expr_ =
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (pat_) of
{ ( _patIfldNmL,_patIusedNmS) ->
(case (_exprIusedNmS `Set.difference` Set.fromList _patIfldNmL) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }) })
-- CAltL -------------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Cons:
child hd : CAlt
child tl : CAltL
alternative Nil:
-}
-- cata
sem_CAltL :: CAltL ->
T_CAltL
sem_CAltL list =
(Prelude.foldr sem_CAltL_Cons sem_CAltL_Nil (Prelude.map sem_CAlt list))
-- semantic domain
type T_CAltL = ( HsNameS)
sem_CAltL_Cons :: T_CAlt ->
T_CAltL ->
T_CAltL
sem_CAltL_Cons hd_ tl_ =
(case (tl_) of
{ ( _tlIusedNmS) ->
(case (hd_) of
{ ( _hdIusedNmS) ->
(case (_hdIusedNmS `Set.union` _tlIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }) })
sem_CAltL_Nil :: T_CAltL
sem_CAltL_Nil =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
-- CBind -------------------------------------------------------
{-
visit 0:
synthesized attributes:
introducedNmS : HsNameS
nm : HsName
usedNmS : HsNameS
alternatives:
alternative Bind:
child nm : {HsName}
child bindAspects : CBoundL
-}
-- cata
sem_CBind :: CBind ->
T_CBind
sem_CBind (CBind_Bind _nm _bindAspects) =
(sem_CBind_Bind _nm (sem_CBoundL _bindAspects))
-- semantic domain
type T_CBind = ( HsNameS,HsName,HsNameS)
sem_CBind_Bind :: HsName ->
T_CBoundL ->
T_CBind
sem_CBind_Bind nm_ bindAspects_ =
(case (Set.singleton nm_) of
{ _lhsOintroducedNmS ->
(case (nm_) of
{ _lhsOnm ->
(case (nm_) of
{ _bindAspectsOnm ->
(case (bindAspects_ _bindAspectsOnm) of
{ ( _bindAspectsIusedNmS) ->
(case (_bindAspectsIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOnm,_lhsOusedNmS) }) }) }) }) })
-- CBindAnn ----------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Coe:
child coe : {()}
-}
-- cata
sem_CBindAnn :: CBindAnn ->
T_CBindAnn
sem_CBindAnn (CBindAnn_Coe _coe) =
(sem_CBindAnn_Coe _coe)
-- semantic domain
type T_CBindAnn = ( HsNameS)
sem_CBindAnn_Coe :: (()) ->
T_CBindAnn
sem_CBindAnn_Coe coe_ =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
-- CBindAnnL ---------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Cons:
child hd : CBindAnn
child tl : CBindAnnL
alternative Nil:
-}
-- cata
sem_CBindAnnL :: CBindAnnL ->
T_CBindAnnL
sem_CBindAnnL list =
(Prelude.foldr sem_CBindAnnL_Cons sem_CBindAnnL_Nil (Prelude.map sem_CBindAnn list))
-- semantic domain
type T_CBindAnnL = ( HsNameS)
sem_CBindAnnL_Cons :: T_CBindAnn ->
T_CBindAnnL ->
T_CBindAnnL
sem_CBindAnnL_Cons hd_ tl_ =
(case (tl_) of
{ ( _tlIusedNmS) ->
(case (hd_) of
{ ( _hdIusedNmS) ->
(case (_hdIusedNmS `Set.union` _tlIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }) })
sem_CBindAnnL_Nil :: T_CBindAnnL
sem_CBindAnnL_Nil =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
-- CBindL ------------------------------------------------------
{-
visit 0:
synthesized attributes:
introducedNmS : HsNameS
usedNmS : HsNameS
alternatives:
alternative Cons:
child hd : CBind
child tl : CBindL
alternative Nil:
-}
-- cata
sem_CBindL :: CBindL ->
T_CBindL
sem_CBindL list =
(Prelude.foldr sem_CBindL_Cons sem_CBindL_Nil (Prelude.map sem_CBind list))
-- semantic domain
type T_CBindL = ( HsNameS,HsNameS)
sem_CBindL_Cons :: T_CBind ->
T_CBindL ->
T_CBindL
sem_CBindL_Cons hd_ tl_ =
(case (tl_) of
{ ( _tlIintroducedNmS,_tlIusedNmS) ->
(case (hd_) of
{ ( _hdIintroducedNmS,_hdInm,_hdIusedNmS) ->
(case (_hdIintroducedNmS `Set.union` _tlIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_hdIusedNmS `Set.union` _tlIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) })
sem_CBindL_Nil :: T_CBindL
sem_CBindL_Nil =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
-- CBound ------------------------------------------------------
{-
visit 0:
inherited attribute:
nm : HsName
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Bind:
child expr : CExpr
alternative Val:
child aspectKeyS : {ACoreBindAspectKeyS}
child mlev : {MetaLev}
child lbl : {CLbl}
child expr : CExpr
alternative Ty:
child aspectKeyS : {ACoreBindAspectKeyS}
child ty : {Ty}
alternative FFE:
child callconv : {FFIWay}
child expEnt : {ForeignEnt}
child expr : CExpr
child ty : {Ty}
-}
-- cata
sem_CBound :: CBound ->
T_CBound
sem_CBound (CBound_Bind _expr) =
(sem_CBound_Bind (sem_CExpr _expr))
sem_CBound (CBound_Val _aspectKeyS _mlev _lbl _expr) =
(sem_CBound_Val _aspectKeyS _mlev _lbl (sem_CExpr _expr))
sem_CBound (CBound_Ty _aspectKeyS _ty) =
(sem_CBound_Ty _aspectKeyS _ty)
sem_CBound (CBound_FFE _callconv _expEnt _expr _ty) =
(sem_CBound_FFE _callconv _expEnt (sem_CExpr _expr) _ty)
-- semantic domain
type T_CBound = HsName ->
( HsNameS)
sem_CBound_Bind :: T_CExpr ->
T_CBound
sem_CBound_Bind expr_ =
(\ _lhsInm ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }))
sem_CBound_Val :: ACoreBindAspectKeyS ->
MetaLev ->
CLbl ->
T_CExpr ->
T_CBound
sem_CBound_Val aspectKeyS_ mlev_ lbl_ expr_ =
(\ _lhsInm ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }))
sem_CBound_Ty :: ACoreBindAspectKeyS ->
Ty ->
T_CBound
sem_CBound_Ty aspectKeyS_ ty_ =
(\ _lhsInm ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }))
sem_CBound_FFE :: FFIWay ->
ForeignEnt ->
T_CExpr ->
Ty ->
T_CBound
sem_CBound_FFE callconv_ expEnt_ expr_ ty_ =
(\ _lhsInm ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }))
-- CBoundL -----------------------------------------------------
{-
visit 0:
inherited attribute:
nm : HsName
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Cons:
child hd : CBound
child tl : CBoundL
alternative Nil:
-}
-- cata
sem_CBoundL :: CBoundL ->
T_CBoundL
sem_CBoundL list =
(Prelude.foldr sem_CBoundL_Cons sem_CBoundL_Nil (Prelude.map sem_CBound list))
-- semantic domain
type T_CBoundL = HsName ->
( HsNameS)
sem_CBoundL_Cons :: T_CBound ->
T_CBoundL ->
T_CBoundL
sem_CBoundL_Cons hd_ tl_ =
(\ _lhsInm ->
(case (_lhsInm) of
{ _tlOnm ->
(case (tl_ _tlOnm) of
{ ( _tlIusedNmS) ->
(case (_lhsInm) of
{ _hdOnm ->
(case (hd_ _hdOnm) of
{ ( _hdIusedNmS) ->
(case (_hdIusedNmS `Set.union` _tlIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }) }) }) }) }))
sem_CBoundL_Nil :: T_CBoundL
sem_CBoundL_Nil =
(\ _lhsInm ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) }))
-- CDataCon ----------------------------------------------------
{-
alternatives:
alternative Con:
child conNm : {HsName}
child tagNr : {Int}
child arity : {Int}
-}
-- cata
sem_CDataCon :: CDataCon ->
T_CDataCon
sem_CDataCon (CDataCon_Con _conNm _tagNr _arity) =
(sem_CDataCon_Con _conNm _tagNr _arity)
-- semantic domain
type T_CDataCon = ( )
sem_CDataCon_Con :: HsName ->
Int ->
Int ->
T_CDataCon
sem_CDataCon_Con conNm_ tagNr_ arity_ =
( )
-- CDataConL ---------------------------------------------------
{-
alternatives:
alternative Cons:
child hd : CDataCon
child tl : CDataConL
alternative Nil:
-}
-- cata
sem_CDataConL :: CDataConL ->
T_CDataConL
sem_CDataConL list =
(Prelude.foldr sem_CDataConL_Cons sem_CDataConL_Nil (Prelude.map sem_CDataCon list))
-- semantic domain
type T_CDataConL = ( )
sem_CDataConL_Cons :: T_CDataCon ->
T_CDataConL ->
T_CDataConL
sem_CDataConL_Cons hd_ tl_ =
( )
sem_CDataConL_Nil :: T_CDataConL
sem_CDataConL_Nil =
( )
-- CDeclMeta ---------------------------------------------------
{-
alternatives:
alternative Data:
child tyNm : {HsName}
child dataCons : CDataConL
-}
-- cata
sem_CDeclMeta :: CDeclMeta ->
T_CDeclMeta
sem_CDeclMeta (CDeclMeta_Data _tyNm _dataCons) =
(sem_CDeclMeta_Data _tyNm (sem_CDataConL _dataCons))
-- semantic domain
type T_CDeclMeta = ( )
sem_CDeclMeta_Data :: HsName ->
T_CDataConL ->
T_CDeclMeta
sem_CDeclMeta_Data tyNm_ dataCons_ =
( )
-- CDeclMetaL --------------------------------------------------
{-
alternatives:
alternative Cons:
child hd : CDeclMeta
child tl : CDeclMetaL
alternative Nil:
-}
-- cata
sem_CDeclMetaL :: CDeclMetaL ->
T_CDeclMetaL
sem_CDeclMetaL list =
(Prelude.foldr sem_CDeclMetaL_Cons sem_CDeclMetaL_Nil (Prelude.map sem_CDeclMeta list))
-- semantic domain
type T_CDeclMetaL = ( )
sem_CDeclMetaL_Cons :: T_CDeclMeta ->
T_CDeclMetaL ->
T_CDeclMetaL
sem_CDeclMetaL_Cons hd_ tl_ =
( )
sem_CDeclMetaL_Nil :: T_CDeclMetaL
sem_CDeclMetaL_Nil =
( )
-- CExport -----------------------------------------------------
{-
alternatives:
alternative Export:
child nm : {HsName}
alternative ExportData:
child nm : {HsName}
child mbConNmL : {Maybe [HsName]}
-}
-- cata
sem_CExport :: CExport ->
T_CExport
sem_CExport (CExport_Export _nm) =
(sem_CExport_Export _nm)
sem_CExport (CExport_ExportData _nm _mbConNmL) =
(sem_CExport_ExportData _nm _mbConNmL)
-- semantic domain
type T_CExport = ( )
sem_CExport_Export :: HsName ->
T_CExport
sem_CExport_Export nm_ =
( )
sem_CExport_ExportData :: HsName ->
(Maybe [HsName]) ->
T_CExport
sem_CExport_ExportData nm_ mbConNmL_ =
( )
-- CExportL ----------------------------------------------------
{-
alternatives:
alternative Cons:
child hd : CExport
child tl : CExportL
alternative Nil:
-}
-- cata
sem_CExportL :: CExportL ->
T_CExportL
sem_CExportL list =
(Prelude.foldr sem_CExportL_Cons sem_CExportL_Nil (Prelude.map sem_CExport list))
-- semantic domain
type T_CExportL = ( )
sem_CExportL_Cons :: T_CExport ->
T_CExportL ->
T_CExportL
sem_CExportL_Cons hd_ tl_ =
( )
sem_CExportL_Nil :: T_CExportL
sem_CExportL_Nil =
( )
-- CExpr -------------------------------------------------------
{-
visit 0:
synthesized attributes:
introducedNmS : HsNameS
usedNmS : HsNameS
alternatives:
alternative Var:
child ref : {ACoreBindRef}
visit 0:
local nm : {HsName}
alternative Int:
child int : {Int}
alternative Char:
child char : {Char}
alternative String:
child str : {String}
alternative Integer:
child integer : {Integer}
alternative Tup:
child tag : {CTag}
alternative Let:
child categ : {CBindCateg}
child binds : CBindL
child body : CExpr
visit 0:
local usedNmSInBody : _
local usedNmSInBinds : _
alternative App:
child func : CExpr
child arg : CBound
alternative Lam:
child bind : CBind
child body : CExpr
visit 0:
local argNm : _
alternative Case:
child expr : CExpr
child alts : CAltL
child dflt : CExpr
alternative CaseAltFail:
child failReason : {CaseAltFailReason}
child errorExpr : CExpr
alternative TupDel:
child expr : CExpr
child tag : {CTag}
child nm : {HsName}
child offset : CExpr
alternative TupIns:
child expr : CExpr
child tag : {CTag}
child nm : {HsName}
child offset : CExpr
child fldExpr : CExpr
alternative TupUpd:
child expr : CExpr
child tag : {CTag}
child nm : {HsName}
child offset : CExpr
child fldExpr : CExpr
alternative FFI:
child callconv : {FFIWay}
child safety : {String}
child impEnt : {ForeignEnt}
child ty : {Ty}
alternative Dbg:
child info : {String}
alternative Hole:
child uid : {UID}
alternative HoleLet:
child bindsUid : {UID}
child body : CExpr
alternative CoeArg:
alternative ImplsApp:
child func : CExpr
child uid : {ImplsVarId}
alternative ImplsLam:
child uid : {ImplsVarId}
child body : CExpr
alternative Ann:
child ann : CExprAnn
child expr : CExpr
-}
-- cata
sem_CExpr :: CExpr ->
T_CExpr
sem_CExpr (CExpr_Var _ref) =
(sem_CExpr_Var _ref)
sem_CExpr (CExpr_Int _int) =
(sem_CExpr_Int _int)
sem_CExpr (CExpr_Char _char) =
(sem_CExpr_Char _char)
sem_CExpr (CExpr_String _str) =
(sem_CExpr_String _str)
sem_CExpr (CExpr_Integer _integer) =
(sem_CExpr_Integer _integer)
sem_CExpr (CExpr_Tup _tag) =
(sem_CExpr_Tup _tag)
sem_CExpr (CExpr_Let _categ _binds _body) =
(sem_CExpr_Let _categ (sem_CBindL _binds) (sem_CExpr _body))
sem_CExpr (CExpr_App _func _arg) =
(sem_CExpr_App (sem_CExpr _func) (sem_CBound _arg))
sem_CExpr (CExpr_Lam _bind _body) =
(sem_CExpr_Lam (sem_CBind _bind) (sem_CExpr _body))
sem_CExpr (CExpr_Case _expr _alts _dflt) =
(sem_CExpr_Case (sem_CExpr _expr) (sem_CAltL _alts) (sem_CExpr _dflt))
sem_CExpr (CExpr_CaseAltFail _failReason _errorExpr) =
(sem_CExpr_CaseAltFail _failReason (sem_CExpr _errorExpr))
sem_CExpr (CExpr_TupDel _expr _tag _nm _offset) =
(sem_CExpr_TupDel (sem_CExpr _expr) _tag _nm (sem_CExpr _offset))
sem_CExpr (CExpr_TupIns _expr _tag _nm _offset _fldExpr) =
(sem_CExpr_TupIns (sem_CExpr _expr) _tag _nm (sem_CExpr _offset) (sem_CExpr _fldExpr))
sem_CExpr (CExpr_TupUpd _expr _tag _nm _offset _fldExpr) =
(sem_CExpr_TupUpd (sem_CExpr _expr) _tag _nm (sem_CExpr _offset) (sem_CExpr _fldExpr))
sem_CExpr (CExpr_FFI _callconv _safety _impEnt _ty) =
(sem_CExpr_FFI _callconv _safety _impEnt _ty)
sem_CExpr (CExpr_Dbg _info) =
(sem_CExpr_Dbg _info)
sem_CExpr (CExpr_Hole _uid) =
(sem_CExpr_Hole _uid)
sem_CExpr (CExpr_HoleLet _bindsUid _body) =
(sem_CExpr_HoleLet _bindsUid (sem_CExpr _body))
sem_CExpr (CExpr_CoeArg) =
(sem_CExpr_CoeArg)
sem_CExpr (CExpr_ImplsApp _func _uid) =
(sem_CExpr_ImplsApp (sem_CExpr _func) _uid)
sem_CExpr (CExpr_ImplsLam _uid _body) =
(sem_CExpr_ImplsLam _uid (sem_CExpr _body))
sem_CExpr (CExpr_Ann _ann _expr) =
(sem_CExpr_Ann (sem_CExprAnn _ann) (sem_CExpr _expr))
-- semantic domain
type T_CExpr = ( HsNameS,HsNameS)
sem_CExpr_Var :: ACoreBindRef ->
T_CExpr
sem_CExpr_Var ref_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (acbrefNm ref_) of
{ _nm ->
(case (Set.singleton _nm) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
sem_CExpr_Int :: Int ->
T_CExpr
sem_CExpr_Int int_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Char :: Char ->
T_CExpr
sem_CExpr_Char char_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_String :: String ->
T_CExpr
sem_CExpr_String str_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Integer :: Integer ->
T_CExpr
sem_CExpr_Integer integer_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Tup :: CTag ->
T_CExpr
sem_CExpr_Tup tag_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Let :: CBindCateg ->
T_CBindL ->
T_CExpr ->
T_CExpr
sem_CExpr_Let categ_ binds_ body_ =
(case (body_) of
{ ( _bodyIintroducedNmS,_bodyIusedNmS) ->
(case (binds_) of
{ ( _bindsIintroducedNmS,_bindsIusedNmS) ->
(case (_bindsIintroducedNmS `Set.union` _bodyIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_bodyIusedNmS `Set.difference` _bindsIintroducedNmS) of
{ _usedNmSInBody ->
(case (case categ_ of
CBindCateg_Rec -> _bindsIusedNmS `Set.difference` _bindsIintroducedNmS
_ -> _bindsIusedNmS) of
{ _usedNmSInBinds ->
(case (_usedNmSInBinds `Set.union` _usedNmSInBody) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) }) })
sem_CExpr_App :: T_CExpr ->
T_CBound ->
T_CExpr
sem_CExpr_App func_ arg_ =
(case (func_) of
{ ( _funcIintroducedNmS,_funcIusedNmS) ->
(case (_funcIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (hsnUnknown) of
{ _argOnm ->
(case (arg_ _argOnm) of
{ ( _argIusedNmS) ->
(case (_funcIusedNmS `Set.union` _argIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) })
sem_CExpr_Lam :: T_CBind ->
T_CExpr ->
T_CExpr
sem_CExpr_Lam bind_ body_ =
(case (body_) of
{ ( _bodyIintroducedNmS,_bodyIusedNmS) ->
(case (bind_) of
{ ( _bindIintroducedNmS,_bindInm,_bindIusedNmS) ->
(case (_bindIintroducedNmS `Set.union` _bodyIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_bindInm) of
{ _argNm ->
(case (Set.delete _argNm _bodyIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) })
sem_CExpr_Case :: T_CExpr ->
T_CAltL ->
T_CExpr ->
T_CExpr
sem_CExpr_Case expr_ alts_ dflt_ =
(case (dflt_) of
{ ( _dfltIintroducedNmS,_dfltIusedNmS) ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS `Set.union` _dfltIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (alts_) of
{ ( _altsIusedNmS) ->
(case (_exprIusedNmS `Set.union` _altsIusedNmS `Set.union` _dfltIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) })
sem_CExpr_CaseAltFail :: CaseAltFailReason ->
T_CExpr ->
T_CExpr
sem_CExpr_CaseAltFail failReason_ errorExpr_ =
(case (errorExpr_) of
{ ( _errorExprIintroducedNmS,_errorExprIusedNmS) ->
(case (_errorExprIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_errorExprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
sem_CExpr_TupDel :: T_CExpr ->
CTag ->
HsName ->
T_CExpr ->
T_CExpr
sem_CExpr_TupDel expr_ tag_ nm_ offset_ =
(case (offset_) of
{ ( _offsetIintroducedNmS,_offsetIusedNmS) ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS `Set.union` _offsetIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_exprIusedNmS `Set.union` _offsetIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) })
sem_CExpr_TupIns :: T_CExpr ->
CTag ->
HsName ->
T_CExpr ->
T_CExpr ->
T_CExpr
sem_CExpr_TupIns expr_ tag_ nm_ offset_ fldExpr_ =
(case (fldExpr_) of
{ ( _fldExprIintroducedNmS,_fldExprIusedNmS) ->
(case (offset_) of
{ ( _offsetIintroducedNmS,_offsetIusedNmS) ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS `Set.union` _offsetIintroducedNmS `Set.union` _fldExprIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_exprIusedNmS `Set.union` _offsetIusedNmS `Set.union` _fldExprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) })
sem_CExpr_TupUpd :: T_CExpr ->
CTag ->
HsName ->
T_CExpr ->
T_CExpr ->
T_CExpr
sem_CExpr_TupUpd expr_ tag_ nm_ offset_ fldExpr_ =
(case (fldExpr_) of
{ ( _fldExprIintroducedNmS,_fldExprIusedNmS) ->
(case (offset_) of
{ ( _offsetIintroducedNmS,_offsetIusedNmS) ->
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS `Set.union` _offsetIintroducedNmS `Set.union` _fldExprIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_exprIusedNmS `Set.union` _offsetIusedNmS `Set.union` _fldExprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) }) })
sem_CExpr_FFI :: FFIWay ->
String ->
ForeignEnt ->
Ty ->
T_CExpr
sem_CExpr_FFI callconv_ safety_ impEnt_ ty_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Dbg :: String ->
T_CExpr
sem_CExpr_Dbg info_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_Hole :: UID ->
T_CExpr
sem_CExpr_Hole uid_ =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_HoleLet :: UID ->
T_CExpr ->
T_CExpr
sem_CExpr_HoleLet bindsUid_ body_ =
(case (body_) of
{ ( _bodyIintroducedNmS,_bodyIusedNmS) ->
(case (_bodyIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_bodyIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
sem_CExpr_CoeArg :: T_CExpr
sem_CExpr_CoeArg =
(case (Set.empty) of
{ _lhsOintroducedNmS ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) })
sem_CExpr_ImplsApp :: T_CExpr ->
ImplsVarId ->
T_CExpr
sem_CExpr_ImplsApp func_ uid_ =
(case (func_) of
{ ( _funcIintroducedNmS,_funcIusedNmS) ->
(case (_funcIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_funcIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
sem_CExpr_ImplsLam :: ImplsVarId ->
T_CExpr ->
T_CExpr
sem_CExpr_ImplsLam uid_ body_ =
(case (body_) of
{ ( _bodyIintroducedNmS,_bodyIusedNmS) ->
(case (_bodyIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_bodyIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
sem_CExpr_Ann :: T_CExprAnn ->
T_CExpr ->
T_CExpr
sem_CExpr_Ann ann_ expr_ =
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (ann_) of
{ ( _annIusedNmS) ->
(case (_annIusedNmS `Set.union` _exprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) }) })
-- CExprAnn ----------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Ty:
child ty : {Ty}
alternative Debug:
child info : {String}
-}
-- cata
sem_CExprAnn :: CExprAnn ->
T_CExprAnn
sem_CExprAnn (CExprAnn_Ty _ty) =
(sem_CExprAnn_Ty _ty)
sem_CExprAnn (CExprAnn_Debug _info) =
(sem_CExprAnn_Debug _info)
-- semantic domain
type T_CExprAnn = ( HsNameS)
sem_CExprAnn_Ty :: Ty ->
T_CExprAnn
sem_CExprAnn_Ty ty_ =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
sem_CExprAnn_Debug :: String ->
T_CExprAnn
sem_CExprAnn_Debug info_ =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
-- CImport -----------------------------------------------------
{-
alternatives:
alternative Import:
child nm : {HsName}
-}
-- cata
sem_CImport :: CImport ->
T_CImport
sem_CImport (CImport_Import _nm) =
(sem_CImport_Import _nm)
-- semantic domain
type T_CImport = ( )
sem_CImport_Import :: HsName ->
T_CImport
sem_CImport_Import nm_ =
( )
-- CImportL ----------------------------------------------------
{-
alternatives:
alternative Cons:
child hd : CImport
child tl : CImportL
alternative Nil:
-}
-- cata
sem_CImportL :: CImportL ->
T_CImportL
sem_CImportL list =
(Prelude.foldr sem_CImportL_Cons sem_CImportL_Nil (Prelude.map sem_CImport list))
-- semantic domain
type T_CImportL = ( )
sem_CImportL_Cons :: T_CImport ->
T_CImportL ->
T_CImportL
sem_CImportL_Cons hd_ tl_ =
( )
sem_CImportL_Nil :: T_CImportL
sem_CImportL_Nil =
( )
-- CModule -----------------------------------------------------
{-
visit 0:
synthesized attributes:
introducedNmS : HsNameS
usedNmS : HsNameS
alternatives:
alternative Mod:
child moduleNm : {HsName}
child exports : CExportL
child imports : CImportL
child declMetas : CDeclMetaL
child expr : CExpr
-}
-- cata
sem_CModule :: CModule ->
T_CModule
sem_CModule (CModule_Mod _moduleNm _exports _imports _declMetas _expr) =
(sem_CModule_Mod _moduleNm (sem_CExportL _exports) (sem_CImportL _imports) (sem_CDeclMetaL _declMetas) (sem_CExpr _expr))
-- semantic domain
type T_CModule = ( HsNameS,HsNameS)
sem_CModule_Mod :: HsName ->
T_CExportL ->
T_CImportL ->
T_CDeclMetaL ->
T_CExpr ->
T_CModule
sem_CModule_Mod moduleNm_ exports_ imports_ declMetas_ expr_ =
(case (expr_) of
{ ( _exprIintroducedNmS,_exprIusedNmS) ->
(case (_exprIintroducedNmS) of
{ _lhsOintroducedNmS ->
(case (_exprIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOintroducedNmS,_lhsOusedNmS) }) }) })
-- CPat --------------------------------------------------------
{-
visit 0:
synthesized attributes:
fldNmL : [HsName]
usedNmS : HsNameS
alternatives:
alternative Var:
child pnm : {HsName}
alternative Con:
child tag : {CTag}
child rest : CPatRest
child binds : CPatFldL
alternative Int:
child int : {Int}
alternative Char:
child char : {Char}
alternative BoolExpr:
child cexpr : {CExpr}
-}
-- cata
sem_CPat :: CPat ->
T_CPat
sem_CPat (CPat_Var _pnm) =
(sem_CPat_Var _pnm)
sem_CPat (CPat_Con _tag _rest _binds) =
(sem_CPat_Con _tag (sem_CPatRest _rest) (sem_CPatFldL _binds))
sem_CPat (CPat_Int _int) =
(sem_CPat_Int _int)
sem_CPat (CPat_Char _char) =
(sem_CPat_Char _char)
sem_CPat (CPat_BoolExpr _cexpr) =
(sem_CPat_BoolExpr _cexpr)
-- semantic domain
type T_CPat = ( ([HsName]),HsNameS)
sem_CPat_Var :: HsName ->
T_CPat
sem_CPat_Var pnm_ =
(case ([]) of
{ _lhsOfldNmL ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) })
sem_CPat_Con :: CTag ->
T_CPatRest ->
T_CPatFldL ->
T_CPat
sem_CPat_Con tag_ rest_ binds_ =
(case (binds_) of
{ ( _bindsIfldNmL,_bindsIusedNmS) ->
(case (_bindsIfldNmL) of
{ _lhsOfldNmL ->
(case (rest_) of
{ ( _restIusedNmS) ->
(case (_restIusedNmS `Set.union` _bindsIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) }) }) })
sem_CPat_Int :: Int ->
T_CPat
sem_CPat_Int int_ =
(case ([]) of
{ _lhsOfldNmL ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) })
sem_CPat_Char :: Char ->
T_CPat
sem_CPat_Char char_ =
(case ([]) of
{ _lhsOfldNmL ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) })
sem_CPat_BoolExpr :: CExpr ->
T_CPat
sem_CPat_BoolExpr cexpr_ =
(case ([]) of
{ _lhsOfldNmL ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) })
-- CPatFld -----------------------------------------------------
{-
visit 0:
synthesized attributes:
fldNmL : [HsName]
usedNmS : HsNameS
alternatives:
alternative Fld:
child lbl : {HsName}
child offset : CExpr
child bind : CBind
child fldAnns : CBindAnnL
visit 0:
local fldNm : _
-}
-- cata
sem_CPatFld :: CPatFld ->
T_CPatFld
sem_CPatFld (CPatFld_Fld _lbl _offset _bind _fldAnns) =
(sem_CPatFld_Fld _lbl (sem_CExpr _offset) (sem_CBind _bind) (sem_CBindAnnL _fldAnns))
-- semantic domain
type T_CPatFld = ( ([HsName]),HsNameS)
sem_CPatFld_Fld :: HsName ->
T_CExpr ->
T_CBind ->
T_CBindAnnL ->
T_CPatFld
sem_CPatFld_Fld lbl_ offset_ bind_ fldAnns_ =
(case (bind_) of
{ ( _bindIintroducedNmS,_bindInm,_bindIusedNmS) ->
(case (_bindInm) of
{ _fldNm ->
(case ([_fldNm]) of
{ _lhsOfldNmL ->
(case (fldAnns_) of
{ ( _fldAnnsIusedNmS) ->
(case (offset_) of
{ ( _offsetIintroducedNmS,_offsetIusedNmS) ->
(case (_offsetIusedNmS `Set.union` _bindIusedNmS `Set.union` _fldAnnsIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) }) }) }) }) })
-- CPatFldL ----------------------------------------------------
{-
visit 0:
synthesized attributes:
fldNmL : [HsName]
usedNmS : HsNameS
alternatives:
alternative Cons:
child hd : CPatFld
child tl : CPatFldL
alternative Nil:
-}
-- cata
sem_CPatFldL :: CPatFldL ->
T_CPatFldL
sem_CPatFldL list =
(Prelude.foldr sem_CPatFldL_Cons sem_CPatFldL_Nil (Prelude.map sem_CPatFld list))
-- semantic domain
type T_CPatFldL = ( ([HsName]),HsNameS)
sem_CPatFldL_Cons :: T_CPatFld ->
T_CPatFldL ->
T_CPatFldL
sem_CPatFldL_Cons hd_ tl_ =
(case (tl_) of
{ ( _tlIfldNmL,_tlIusedNmS) ->
(case (hd_) of
{ ( _hdIfldNmL,_hdIusedNmS) ->
(case (_hdIfldNmL ++ _tlIfldNmL) of
{ _lhsOfldNmL ->
(case (_hdIusedNmS `Set.union` _tlIusedNmS) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) }) }) })
sem_CPatFldL_Nil :: T_CPatFldL
sem_CPatFldL_Nil =
(case ([]) of
{ _lhsOfldNmL ->
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOfldNmL,_lhsOusedNmS) }) })
-- CPatRest ----------------------------------------------------
{-
visit 0:
synthesized attribute:
usedNmS : HsNameS
alternatives:
alternative Var:
child nm : {HsName}
alternative Empty:
-}
-- cata
sem_CPatRest :: CPatRest ->
T_CPatRest
sem_CPatRest (CPatRest_Var _nm) =
(sem_CPatRest_Var _nm)
sem_CPatRest (CPatRest_Empty) =
(sem_CPatRest_Empty)
-- semantic domain
type T_CPatRest = ( HsNameS)
sem_CPatRest_Var :: HsName ->
T_CPatRest
sem_CPatRest_Var nm_ =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
sem_CPatRest_Empty :: T_CPatRest
sem_CPatRest_Empty =
(case (Set.empty) of
{ _lhsOusedNmS ->
( _lhsOusedNmS) })
-- CodeAGItf ---------------------------------------------------
{-
visit 0:
synthesized attributes:
introducedModNmS : HsNameS
usedModNmS : HsNameS
alternatives:
alternative AGItf:
child module : CModule
-}
-- cata
sem_CodeAGItf :: CodeAGItf ->
T_CodeAGItf
sem_CodeAGItf (CodeAGItf_AGItf _module) =
(sem_CodeAGItf_AGItf (sem_CModule _module))
-- semantic domain
type T_CodeAGItf = ( HsNameS,HsNameS)
data Inh_CodeAGItf = Inh_CodeAGItf {}
data Syn_CodeAGItf = Syn_CodeAGItf {introducedModNmS_Syn_CodeAGItf :: !(HsNameS),usedModNmS_Syn_CodeAGItf :: !(HsNameS)}
wrap_CodeAGItf :: T_CodeAGItf ->
Inh_CodeAGItf ->
Syn_CodeAGItf
wrap_CodeAGItf sem (Inh_CodeAGItf) =
(let ( _lhsOintroducedModNmS,_lhsOusedModNmS) = sem
in (Syn_CodeAGItf _lhsOintroducedModNmS _lhsOusedModNmS))
sem_CodeAGItf_AGItf :: T_CModule ->
T_CodeAGItf
sem_CodeAGItf_AGItf module_ =
(case (module_) of
{ ( _moduleIintroducedNmS,_moduleIusedNmS) ->
(case (collapseToModNm _moduleIintroducedNmS) of
{ _lhsOintroducedModNmS ->
(case (collapseToModNm $ _moduleIusedNmS `Set.difference` _moduleIintroducedNmS) of
{ _lhsOusedModNmS ->
( _lhsOintroducedModNmS,_lhsOusedModNmS) }) }) })