-- UUAGC 0.9.30 (AG2AspectAG.ag) module AG2AspectAG where {-# LINE 7 "AG2AspectAG.ag" #-} import Data.Char import Data.List import qualified Data.Map as Map import qualified Data.Set as Set import Data.Maybe import Pretty import PPUtil import AbstractSyntax import TokenDef import CommonTypes {-# LINE 20 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 2 "./AbstractSyntax.ag" #-} -- AbstractSyntax.ag imports import Data.Set(Set) import Data.Map(Map) import Patterns (Pattern(..),Patterns) import Expression (Expression(..)) import CommonTypes {-# LINE 30 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 2 "./Patterns.ag" #-} -- Patterns.ag imports import UU.Scanner.Position(Pos) import CommonTypes (ConstructorIdent,Identifier) {-# LINE 37 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 2 "./Expression.ag" #-} import UU.Scanner.Position(Pos) import HsToken {-# LINE 43 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 2 "./HsToken.ag" #-} import CommonTypes import UU.Scanner.Position(Pos) {-# LINE 49 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 22 "AG2AspectAG.ag" #-} pragmaAspectAG = pp "{-# LANGUAGE EmptyDataDecls, NoMonomorphismRestriction , TypeSynonymInstances, MultiParamTypeClasses, FlexibleContexts #-}" importAspectAG = pp "import Language.Grammars.AspectAG" >-< pp "import Language.Grammars.AspectAG.Derive" >-< pp "import Data.HList.Label4" >-< pp "import Data.HList.TypeEqGeneric1" >-< pp "import Data.HList.TypeCastGeneric1" {-# LINE 60 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 142 "AG2AspectAG.ag" #-} defAtts = pp "data Att_inh; att_inh = proxy :: Proxy Att_inh" >-< pp "data Att_syn; att_syn = proxy :: Proxy Att_syn" >-< pp "data Att_loc; att_loc = proxy :: Proxy Att_loc" defTAtt t@(f:r) ppN atts = let tT = (toUpper f) : r fields = ppCommas (map (\(a,t) -> ppListSep "" "" "_" [pp a, pp tT, ppN ] >|< pp " ::" >|< ppShow t) $ Map.assocs atts) in pp ("data " ++ tT ++ "_") >|< ppN >|< pp (" = " ++ tT ++ "_") >|< ppN >|< pp " { " >|< fields >|< pp " }" defLocalAtts ppNt ppProd total actual (l:ls) = ppListSep "" "" "_" [pp l, ppNt, ppProd] >|< ppListSep "(" ")" "," (replicate (actual-1) "_" ++ "x" : replicate (total-actual) "_") >|< pp " = x" >-< defLocalAtts ppNt ppProd total (actual+1) ls defLocalAtts _ _ _ _ [] = empty {-# LINE 84 "../src-derived/AG2AspectAG.hs" #-} {-# LINE 235 "AG2AspectAG.ag" #-} defInhRule ppNt prod ch rules chids locals = let ppAtt = ppListSep "" "" "_" [pp "inh", ppNt, pp prod] in ppAtt >|< pp " = inhdefM att_inh listNt $" >-< indent 4 "do " >-< indent 5 "loc <- at loc" >-< indent 5 "lhs <- at lhs" >-< indent 5 ch >-< indent 5 "return $" >-< indent 6 (foldr (>-<) (pp "emptyRecord") (map (chRule ppNt prod rules chids locals) chids)) chRule ppNt prod rules chids locals (idCh,tp) = let chName = ppListSep "" "" "_" [pp "ch", pp idCh, ppNt, pp prod] ppTp = ppShow tp chRules = ppCommas $ mapRuleDefs (== idCh) rules chids locals in if (isNonterminal tp) then chName >|< ".=." >-< indent 1 "Inh_" >|< ppShow tp >|< pp " {" >-< indent 2 chRules >-< indent 1 "} .*. " else empty defSynRule ppNt prod ch rules chids locals = let ppAtt = ppListSep "" "" "_" [pp "syn", ppNt, pp prod] ppTAtt = "Syn_" >|< ppNt in ppAtt >|< pp " = syndefM att_syn $" >-< indent 4 "do " >-< indent 5 "loc <- at loc" >-< indent 5 "lhs <- at lhs" >-< indent 5 ch >-< indent 5 "return $" >-< indent 6 ppTAtt >|< pp " {" >-< indent 7 (ppCommas $ mapRuleDefs ((== "lhs") . show) rules chids locals) >-< indent 6 "}" defLocRule ppNt prod ch rules chids locals = let ppAtt = ppListSep "" "" "_" [pp "loc", ppNt, pp prod] ppTAtt = ppListSep "" "" "_" [pp "Loc", ppNt, pp prod] in ppAtt >|< pp " = locdefM att_loc $" >-< indent 4 "do " >-< indent 5 "loc <- at loc" >-< indent 5 "lhs <- at lhs" >-< indent 5 ch >-< indent 5 "return $" >-< indent 6 (ppListSep "(" ")" "," $ mapRuleDefs ((== "loc") . show) rules chids locals) defInstRules ppNt prod ch rules chids locals = let ppAsp = ppListSep "" "" "_" [pp "inst", ppNt, pp prod] instRules = filter ((=="inst") . show . fst . fst) rules ppAtt att = ppListSep "`ext` " "" "_" [pp "inst_ch", pp att, ppNt, pp prod] in ppAsp >|< pp " = emptyRule " >|< (map (ppAtt . snd . fst) instRules) >-< (vlist $ map (defInstRule ppNt prod ch chids locals) instRules) defInstRule ppNt prod ch chids locals ((_,att),rule) = let ppAtt = ppListSep "" "" "_" [pp "ch", pp att, ppNt, pp prod] in pp "inst_" >|< ppAtt >|< pp " = instdefM " >|< ppAtt >|< pp " $" >-< indent 4 "do " >-< indent 5 "loc <- at loc" >-< indent 5 "lhs <- at lhs" >-< indent 5 ch >-< indent 5 "return $" >-< indent 6 (rule chids locals) mapRuleDefs filt rules chids locals = map appSnd $ sortBy cmpFst $ filter ( filt . fst . fst) rules where cmpFst (a,_) (b,_) = compare a b appSnd rule = (snd rule) chids locals defRule ppNt (field,att) rhs = \chids locals -> let ppAtt = case (show field) of "lhs" -> att >|< "_" >|< pp "Syn" >|< pp "_" >|< ppNt >|< " = " "loc" -> empty "inst" -> empty otherwise -> att >|< "_" >|< pp "Inh" >|< pp "_" >|< (maybe (error $ "lhs field " ++ show field ++" is not a child") ppShow (lookup field chids)) >|< " = " in ppAtt >|< (rhs field chids locals) rhsRule ppNt ppProd tks field chids locals = hv_sp $ map (token2PP ppNt ppProd field chids locals) tks token2PP ppNt ppProd field chids locals tk = case tk of AGLocal var _ _ -> if (elem var locals) then (ppListSep "(" "" "_" [pp var, ppNt, ppProd]) >|< pp " (loc # att_loc))" else pp var AGField field attr _ _ -> let ppChT = maybe (error $ "rhs field " ++ show field ++ " is not a child") ppShow (lookup field chids) ppAtt = case (show field) of "lhs" -> pp "att_inh" "loc" -> pp "att_loc" otherwise -> pp "att_syn" ppSubAtt = case (show field) of "lhs" -> ppListSep "" "" "_" [pp (getName attr), pp "Inh", ppNt] "loc" -> ppListSep "" "" "_" [pp (getName attr), ppNt, ppProd] otherwise -> ppListSep "" "" "_" [pp (getName attr), pp "Syn", ppChT] in pp "(" >|< ppSubAtt >|< " (" >|< pp (getName field) >|< " # " >|< ppAtt >|< "))" HsToken value _ -> pp value CharToken value _ -> pp $ show value StrToken value _ -> pp $ show value Err mesg _ -> pp $ " ***" ++ mesg ++ "*** " {-# LINE 190 "../src-derived/AG2AspectAG.hs" #-} -- Child ------------------------------------------------------- {- visit 0: inherited attributes: ppNt : PP_Doc ppProd : PP_Doc synthesized attributes: idCL : [(Identifier,Type)] ppCSF : [(Identifier,PP_Doc)] ppDL : [PP_Doc] ppL : PP_Doc ppR : PP_Doc alternatives: alternative Child: child name : {Identifier} child tp : {Type} child inh : {Attributes} child syn : {Attributes} child virtual : {Maybe (Maybe Type)} -} -- cata sem_Child :: Child -> T_Child sem_Child (Child _name _tp _inh _syn _virtual ) = (sem_Child_Child _name _tp _inh _syn _virtual ) -- semantic domain newtype T_Child = T_Child (PP_Doc -> PP_Doc -> ( ([(Identifier,Type)]),([(Identifier,PP_Doc)]),([PP_Doc]),PP_Doc,PP_Doc)) data Inh_Child = Inh_Child {ppNt_Inh_Child :: PP_Doc,ppProd_Inh_Child :: PP_Doc} data Syn_Child = Syn_Child {idCL_Syn_Child :: ([(Identifier,Type)]),ppCSF_Syn_Child :: ([(Identifier,PP_Doc)]),ppDL_Syn_Child :: ([PP_Doc]),ppL_Syn_Child :: PP_Doc,ppR_Syn_Child :: PP_Doc} wrap_Child :: T_Child -> Inh_Child -> Syn_Child wrap_Child (T_Child sem ) (Inh_Child _lhsIppNt _lhsIppProd ) = (let ( _lhsOidCL,_lhsOppCSF,_lhsOppDL,_lhsOppL,_lhsOppR) = sem _lhsIppNt _lhsIppProd in (Syn_Child _lhsOidCL _lhsOppCSF _lhsOppDL _lhsOppL _lhsOppR )) sem_Child_Child :: Identifier -> Type -> Attributes -> Attributes -> (Maybe (Maybe Type)) -> T_Child sem_Child_Child name_ tp_ inh_ syn_ virtual_ = (T_Child (\ _lhsIppNt _lhsIppProd -> (let _lhsOppDL :: ([PP_Doc]) _lhsOppL :: PP_Doc _lhsOppR :: PP_Doc _lhsOidCL :: ([(Identifier,Type)]) _lhsOppCSF :: ([(Identifier,PP_Doc)]) -- "AG2AspectAG.ag"(line 93, column 25) _lhsOppDL = ({-# LINE 93 "AG2AspectAG.ag" #-} case virtual_ of Nothing -> let chName = ppListSep "" "" "_" [pp name_, _lhsIppNt, _lhsIppProd] in [ chName >|< pp " :: " >|< ppShow tp_ ] otherwise -> [] {-# LINE 249 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 118, column 25) _lhsOppL = ({-# LINE 118 "AG2AspectAG.ag" #-} let chName = ppListSep "" "" "_" [pp name_, _lhsIppNt, _lhsIppProd] in pp "data Ch_" >|< chName >|< pp "; " >|< pp "ch_" >|< chName >|< pp " = proxy :: " >|< case virtual_ of Nothing -> pp "Proxy " >|< pp "(Ch_" >|< chName >|< ", " >|< ppShow tp_ >|< pp ")" otherwise -> pp "SemType " >|< ppShow tp_ >|< pp " nt => Proxy " >|< pp "(Ch_" >|< chName >|< pp ", nt)" {-# LINE 260 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 196, column 25) _lhsOppR = ({-# LINE 196 "AG2AspectAG.ag" #-} let chName = ppListSep "" "" "_" [pp name_, _lhsIppNt, _lhsIppProd] in pp name_ >|< " <- at ch_" >|< chName {-# LINE 266 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 227, column 25) _lhsOidCL = ({-# LINE 227 "AG2AspectAG.ag" #-} [ (name_, case (stripPrefix "T_" (show tp_)) of Nothing -> tp_ Just t -> NT (Ident t undefined) [] ) ] {-# LINE 274 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 389, column 25) _lhsOppCSF = ({-# LINE 389 "AG2AspectAG.ag" #-} let ppProd = ppListSep "" "" "_" [_lhsIppNt,_lhsIppProd] ppChi = ppListSep "" "" "_" [pp "ch", pp name_, ppProd] semC = if (isNonterminal tp_) then pp "sem_" >|< ppShow tp_ >|< pp " _" >|< pp name_ else pp "sem_Lit _" >|< pp name_ in case virtual_ of Nothing -> [(name_, ppChi >|< pp " .=. (" >|< semC >|< pp ") .*. ")] otherwise -> [] {-# LINE 287 "AG2AspectAG.hs" #-}) in ( _lhsOidCL,_lhsOppCSF,_lhsOppDL,_lhsOppL,_lhsOppR))) ) -- Children ---------------------------------------------------- {- visit 0: inherited attributes: ppNt : PP_Doc ppProd : PP_Doc synthesized attributes: idCL : [(Identifier,Type)] ppCSF : [(Identifier,PP_Doc)] ppDL : [PP_Doc] ppL : PP_Doc ppR : PP_Doc alternatives: alternative Cons: child hd : Child child tl : Children alternative Nil: -} -- cata sem_Children :: Children -> T_Children sem_Children list = (Prelude.foldr sem_Children_Cons sem_Children_Nil (Prelude.map sem_Child list) ) -- semantic domain newtype T_Children = T_Children (PP_Doc -> PP_Doc -> ( ([(Identifier,Type)]),([(Identifier,PP_Doc)]),([PP_Doc]),PP_Doc,PP_Doc)) data Inh_Children = Inh_Children {ppNt_Inh_Children :: PP_Doc,ppProd_Inh_Children :: PP_Doc} data Syn_Children = Syn_Children {idCL_Syn_Children :: ([(Identifier,Type)]),ppCSF_Syn_Children :: ([(Identifier,PP_Doc)]),ppDL_Syn_Children :: ([PP_Doc]),ppL_Syn_Children :: PP_Doc,ppR_Syn_Children :: PP_Doc} wrap_Children :: T_Children -> Inh_Children -> Syn_Children wrap_Children (T_Children sem ) (Inh_Children _lhsIppNt _lhsIppProd ) = (let ( _lhsOidCL,_lhsOppCSF,_lhsOppDL,_lhsOppL,_lhsOppR) = sem _lhsIppNt _lhsIppProd in (Syn_Children _lhsOidCL _lhsOppCSF _lhsOppDL _lhsOppL _lhsOppR )) sem_Children_Cons :: T_Child -> T_Children -> T_Children sem_Children_Cons (T_Child hd_ ) (T_Children tl_ ) = (T_Children (\ _lhsIppNt _lhsIppProd -> (let _lhsOppDL :: ([PP_Doc]) _lhsOidCL :: ([(Identifier,Type)]) _lhsOppCSF :: ([(Identifier,PP_Doc)]) _lhsOppL :: PP_Doc _lhsOppR :: PP_Doc _hdOppNt :: PP_Doc _hdOppProd :: PP_Doc _tlOppNt :: PP_Doc _tlOppProd :: PP_Doc _hdIidCL :: ([(Identifier,Type)]) _hdIppCSF :: ([(Identifier,PP_Doc)]) _hdIppDL :: ([PP_Doc]) _hdIppL :: PP_Doc _hdIppR :: PP_Doc _tlIidCL :: ([(Identifier,Type)]) _tlIppCSF :: ([(Identifier,PP_Doc)]) _tlIppDL :: ([PP_Doc]) _tlIppL :: PP_Doc _tlIppR :: PP_Doc -- "AG2AspectAG.ag"(line 89, column 33) _lhsOppDL = ({-# LINE 89 "AG2AspectAG.ag" #-} _hdIppDL ++ _tlIppDL {-# LINE 353 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 225, column 31) _lhsOidCL = ({-# LINE 225 "AG2AspectAG.ag" #-} _hdIidCL ++ _tlIidCL {-# LINE 358 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 385, column 34) _lhsOppCSF = ({-# LINE 385 "AG2AspectAG.ag" #-} _hdIppCSF ++ _tlIppCSF {-# LINE 363 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} _hdIppL >-< _tlIppL {-# LINE 368 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} _hdIppR >-< _tlIppR {-# LINE 373 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 378 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOppProd = ({-# LINE 53 "AG2AspectAG.ag" #-} _lhsIppProd {-# LINE 383 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 388 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOppProd = ({-# LINE 53 "AG2AspectAG.ag" #-} _lhsIppProd {-# LINE 393 "AG2AspectAG.hs" #-}) ( _hdIidCL,_hdIppCSF,_hdIppDL,_hdIppL,_hdIppR) = hd_ _hdOppNt _hdOppProd ( _tlIidCL,_tlIppCSF,_tlIppDL,_tlIppL,_tlIppR) = tl_ _tlOppNt _tlOppProd in ( _lhsOidCL,_lhsOppCSF,_lhsOppDL,_lhsOppL,_lhsOppR))) ) sem_Children_Nil :: T_Children sem_Children_Nil = (T_Children (\ _lhsIppNt _lhsIppProd -> (let _lhsOppDL :: ([PP_Doc]) _lhsOidCL :: ([(Identifier,Type)]) _lhsOppCSF :: ([(Identifier,PP_Doc)]) _lhsOppL :: PP_Doc _lhsOppR :: PP_Doc -- "AG2AspectAG.ag"(line 90, column 33) _lhsOppDL = ({-# LINE 90 "AG2AspectAG.ag" #-} [] {-# LINE 412 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 225, column 31) _lhsOidCL = ({-# LINE 225 "AG2AspectAG.ag" #-} [] {-# LINE 417 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 385, column 34) _lhsOppCSF = ({-# LINE 385 "AG2AspectAG.ag" #-} [] {-# LINE 422 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} empty {-# LINE 427 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} empty {-# LINE 432 "AG2AspectAG.hs" #-}) in ( _lhsOidCL,_lhsOppCSF,_lhsOppDL,_lhsOppL,_lhsOppR))) ) -- Expression -------------------------------------------------- {- visit 0: inherited attributes: ppNt : PP_Doc ppProd : PP_Doc synthesized attribute: ppRE : Identifier -> [(Identifier,Type)] -> [Identifier] -> PP_Doc alternatives: alternative Expression: child pos : {Pos} child tks : {[HsToken]} -} -- cata sem_Expression :: Expression -> T_Expression sem_Expression (Expression _pos _tks ) = (sem_Expression_Expression _pos _tks ) -- semantic domain newtype T_Expression = T_Expression (PP_Doc -> PP_Doc -> ( (Identifier -> [(Identifier,Type)] -> [Identifier] -> PP_Doc))) data Inh_Expression = Inh_Expression {ppNt_Inh_Expression :: PP_Doc,ppProd_Inh_Expression :: PP_Doc} data Syn_Expression = Syn_Expression {ppRE_Syn_Expression :: (Identifier -> [(Identifier,Type)] -> [Identifier] -> PP_Doc)} wrap_Expression :: T_Expression -> Inh_Expression -> Syn_Expression wrap_Expression (T_Expression sem ) (Inh_Expression _lhsIppNt _lhsIppProd ) = (let ( _lhsOppRE) = sem _lhsIppNt _lhsIppProd in (Syn_Expression _lhsOppRE )) sem_Expression_Expression :: Pos -> ([HsToken]) -> T_Expression sem_Expression_Expression pos_ tks_ = (T_Expression (\ _lhsIppNt _lhsIppProd -> (let _lhsOppRE :: (Identifier -> [(Identifier,Type)] -> [Identifier] -> PP_Doc) -- "AG2AspectAG.ag"(line 221, column 25) _lhsOppRE = ({-# LINE 221 "AG2AspectAG.ag" #-} rhsRule _lhsIppNt _lhsIppProd tks_ {-# LINE 475 "AG2AspectAG.hs" #-}) in ( _lhsOppRE))) ) -- Grammar ----------------------------------------------------- {- visit 0: synthesized attribute: pp : PP_Doc alternatives: alternative Grammar: child typeSyns : {TypeSyns} child useMap : {UseMap} child derivings : {Derivings} child wrappers : {Set NontermIdent} child nonts : Nonterminals child pragmas : {PragmaMap} child manualAttrOrderMap : {AttrOrderMap} child paramMap : {ParamMap} child contextMap : {ContextMap} child uniqueMap : {UniqueMap} child augmentsMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))} child aroundsMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))} child mergeMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier, [Identifier], Expression)))} -} -- cata sem_Grammar :: Grammar -> T_Grammar sem_Grammar (Grammar _typeSyns _useMap _derivings _wrappers _nonts _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap _aroundsMap _mergeMap ) = (sem_Grammar_Grammar _typeSyns _useMap _derivings _wrappers (sem_Nonterminals _nonts ) _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap _aroundsMap _mergeMap ) -- semantic domain newtype T_Grammar = T_Grammar (( PP_Doc)) data Inh_Grammar = Inh_Grammar {} data Syn_Grammar = Syn_Grammar {pp_Syn_Grammar :: PP_Doc} wrap_Grammar :: T_Grammar -> Inh_Grammar -> Syn_Grammar wrap_Grammar (T_Grammar sem ) (Inh_Grammar ) = (let ( _lhsOpp) = sem in (Syn_Grammar _lhsOpp )) sem_Grammar_Grammar :: TypeSyns -> UseMap -> Derivings -> (Set NontermIdent) -> T_Nonterminals -> PragmaMap -> AttrOrderMap -> ParamMap -> ContextMap -> UniqueMap -> (Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) -> (Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) -> (Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier, [Identifier], Expression)))) -> T_Grammar sem_Grammar_Grammar typeSyns_ useMap_ derivings_ wrappers_ (T_Nonterminals nonts_ ) pragmas_ manualAttrOrderMap_ paramMap_ contextMap_ uniqueMap_ augmentsMap_ aroundsMap_ mergeMap_ = (T_Grammar (let _lhsOpp :: PP_Doc _nontsOderivs :: Derivings _nontsOtSyns :: TypeSyns _nontsIppA :: PP_Doc _nontsIppD :: PP_Doc _nontsIppL :: PP_Doc _nontsIppNtL :: PP_Doc _nontsIppR :: PP_Doc _nontsIppS :: PP_Doc _nontsIppW :: PP_Doc -- "AG2AspectAG.ag"(line 36, column 25) _lhsOpp = ({-# LINE 36 "AG2AspectAG.ag" #-} pp "-- datatypes" >-< _nontsIppD >-< pp "-- labels" >-< _nontsIppL >-< pp "-- attributes" >-< defAtts >-< _nontsIppA >-< pp "-- rules" >-< pp "listNt = " >|< _nontsIppNtL >-< _nontsIppR >-< pp "-- semantic functions" >-< _nontsIppS >-< pp "-- wrappers" >-< _nontsIppW {-# LINE 547 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 63, column 25) _nontsOderivs = ({-# LINE 63 "AG2AspectAG.ag" #-} derivings_ {-# LINE 552 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 102, column 34) _nontsOtSyns = ({-# LINE 102 "AG2AspectAG.ag" #-} typeSyns_ {-# LINE 557 "AG2AspectAG.hs" #-}) ( _nontsIppA,_nontsIppD,_nontsIppL,_nontsIppNtL,_nontsIppR,_nontsIppS,_nontsIppW) = nonts_ _nontsOderivs _nontsOtSyns in ( _lhsOpp)) ) -- HsToken ----------------------------------------------------- {- alternatives: alternative AGField: child field : {Identifier} child attr : {Identifier} child pos : {Pos} child rdesc : {Maybe String} alternative AGLocal: child var : {Identifier} child pos : {Pos} child rdesc : {Maybe String} alternative CharToken: child value : {String} child pos : {Pos} alternative Err: child mesg : {String} child pos : {Pos} alternative HsToken: child value : {String} child pos : {Pos} alternative StrToken: child value : {String} child pos : {Pos} -} -- cata sem_HsToken :: HsToken -> T_HsToken sem_HsToken (AGField _field _attr _pos _rdesc ) = (sem_HsToken_AGField _field _attr _pos _rdesc ) sem_HsToken (AGLocal _var _pos _rdesc ) = (sem_HsToken_AGLocal _var _pos _rdesc ) sem_HsToken (CharToken _value _pos ) = (sem_HsToken_CharToken _value _pos ) sem_HsToken (Err _mesg _pos ) = (sem_HsToken_Err _mesg _pos ) sem_HsToken (HsToken _value _pos ) = (sem_HsToken_HsToken _value _pos ) sem_HsToken (StrToken _value _pos ) = (sem_HsToken_StrToken _value _pos ) -- semantic domain newtype T_HsToken = T_HsToken (( )) data Inh_HsToken = Inh_HsToken {} data Syn_HsToken = Syn_HsToken {} wrap_HsToken :: T_HsToken -> Inh_HsToken -> Syn_HsToken wrap_HsToken (T_HsToken sem ) (Inh_HsToken ) = (let ( ) = sem in (Syn_HsToken )) sem_HsToken_AGField :: Identifier -> Identifier -> Pos -> (Maybe String) -> T_HsToken sem_HsToken_AGField field_ attr_ pos_ rdesc_ = (T_HsToken (let in ( )) ) sem_HsToken_AGLocal :: Identifier -> Pos -> (Maybe String) -> T_HsToken sem_HsToken_AGLocal var_ pos_ rdesc_ = (T_HsToken (let in ( )) ) sem_HsToken_CharToken :: String -> Pos -> T_HsToken sem_HsToken_CharToken value_ pos_ = (T_HsToken (let in ( )) ) sem_HsToken_Err :: String -> Pos -> T_HsToken sem_HsToken_Err mesg_ pos_ = (T_HsToken (let in ( )) ) sem_HsToken_HsToken :: String -> Pos -> T_HsToken sem_HsToken_HsToken value_ pos_ = (T_HsToken (let in ( )) ) sem_HsToken_StrToken :: String -> Pos -> T_HsToken sem_HsToken_StrToken value_ pos_ = (T_HsToken (let in ( )) ) -- HsTokens ---------------------------------------------------- {- alternatives: alternative Cons: child hd : HsToken child tl : HsTokens alternative Nil: -} -- cata sem_HsTokens :: HsTokens -> T_HsTokens sem_HsTokens list = (Prelude.foldr sem_HsTokens_Cons sem_HsTokens_Nil (Prelude.map sem_HsToken list) ) -- semantic domain newtype T_HsTokens = T_HsTokens (( )) data Inh_HsTokens = Inh_HsTokens {} data Syn_HsTokens = Syn_HsTokens {} wrap_HsTokens :: T_HsTokens -> Inh_HsTokens -> Syn_HsTokens wrap_HsTokens (T_HsTokens sem ) (Inh_HsTokens ) = (let ( ) = sem in (Syn_HsTokens )) sem_HsTokens_Cons :: T_HsToken -> T_HsTokens -> T_HsTokens sem_HsTokens_Cons (T_HsToken hd_ ) (T_HsTokens tl_ ) = (T_HsTokens (let in ( )) ) sem_HsTokens_Nil :: T_HsTokens sem_HsTokens_Nil = (T_HsTokens (let in ( )) ) -- HsTokensRoot ------------------------------------------------ {- alternatives: alternative HsTokensRoot: child tokens : HsTokens -} -- cata sem_HsTokensRoot :: HsTokensRoot -> T_HsTokensRoot sem_HsTokensRoot (HsTokensRoot _tokens ) = (sem_HsTokensRoot_HsTokensRoot (sem_HsTokens _tokens ) ) -- semantic domain newtype T_HsTokensRoot = T_HsTokensRoot (( )) data Inh_HsTokensRoot = Inh_HsTokensRoot {} data Syn_HsTokensRoot = Syn_HsTokensRoot {} wrap_HsTokensRoot :: T_HsTokensRoot -> Inh_HsTokensRoot -> Syn_HsTokensRoot wrap_HsTokensRoot (T_HsTokensRoot sem ) (Inh_HsTokensRoot ) = (let ( ) = sem in (Syn_HsTokensRoot )) sem_HsTokensRoot_HsTokensRoot :: T_HsTokens -> T_HsTokensRoot sem_HsTokensRoot_HsTokensRoot (T_HsTokens tokens_ ) = (T_HsTokensRoot (let in ( )) ) -- Nonterminal ------------------------------------------------- {- visit 0: inherited attributes: derivs : Derivings tSyns : TypeSyns synthesized attributes: ppA : PP_Doc ppD : PP_Doc ppL : PP_Doc ppNtL : PP_Doc ppR : PP_Doc ppS : PP_Doc ppW : PP_Doc alternatives: alternative Nonterminal: child nt : {NontermIdent} child params : {[Identifier]} child inh : {Attributes} child syn : {Attributes} child prods : Productions -} -- cata sem_Nonterminal :: Nonterminal -> T_Nonterminal sem_Nonterminal (Nonterminal _nt _params _inh _syn _prods ) = (sem_Nonterminal_Nonterminal _nt _params _inh _syn (sem_Productions _prods ) ) -- semantic domain newtype T_Nonterminal = T_Nonterminal (Derivings -> TypeSyns -> ( PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc)) data Inh_Nonterminal = Inh_Nonterminal {derivs_Inh_Nonterminal :: Derivings,tSyns_Inh_Nonterminal :: TypeSyns} data Syn_Nonterminal = Syn_Nonterminal {ppA_Syn_Nonterminal :: PP_Doc,ppD_Syn_Nonterminal :: PP_Doc,ppL_Syn_Nonterminal :: PP_Doc,ppNtL_Syn_Nonterminal :: PP_Doc,ppR_Syn_Nonterminal :: PP_Doc,ppS_Syn_Nonterminal :: PP_Doc,ppW_Syn_Nonterminal :: PP_Doc} wrap_Nonterminal :: T_Nonterminal -> Inh_Nonterminal -> Syn_Nonterminal wrap_Nonterminal (T_Nonterminal sem ) (Inh_Nonterminal _lhsIderivs _lhsItSyns ) = (let ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppNtL,_lhsOppR,_lhsOppS,_lhsOppW) = sem _lhsIderivs _lhsItSyns in (Syn_Nonterminal _lhsOppA _lhsOppD _lhsOppL _lhsOppNtL _lhsOppR _lhsOppS _lhsOppW )) sem_Nonterminal_Nonterminal :: NontermIdent -> ([Identifier]) -> Attributes -> Attributes -> T_Productions -> T_Nonterminal sem_Nonterminal_Nonterminal nt_ params_ inh_ syn_ (T_Productions prods_ ) = (T_Nonterminal (\ _lhsIderivs _lhsItSyns -> (let _prodsOppNt :: PP_Doc _lhsOppD :: PP_Doc _lhsOppL :: PP_Doc _lhsOppA :: PP_Doc _lhsOppNtL :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppW :: PP_Doc _prodsIppA :: PP_Doc _prodsIppDL :: ([PP_Doc]) _prodsIppL :: PP_Doc _prodsIppR :: PP_Doc _prodsIppS :: PP_Doc _prodsIppSF :: PP_Doc -- "AG2AspectAG.ag"(line 50, column 25) _prodsOppNt = ({-# LINE 50 "AG2AspectAG.ag" #-} pp nt_ {-# LINE 775 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 69, column 25) _lhsOppD = ({-# LINE 69 "AG2AspectAG.ag" #-} case (lookup nt_ _lhsItSyns) of Nothing -> pp "data " >|< pp nt_ >|< " = " >|< vlist_sep " | " _prodsIppDL >-< case (Map.lookup nt_ _lhsIderivs) of Just ntds -> pp " deriving " >|< (ppListSep "(" ")" ", " $ Set.elems ntds) Nothing -> empty Just tp -> pp "type " >|< pp nt_ >|< " = " >|< ppShow tp {-# LINE 785 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 113, column 25) _lhsOppL = ({-# LINE 113 "AG2AspectAG.ag" #-} pp "nt_" >|< pp nt_ >|< " = proxy :: Proxy " >|< pp nt_ >-< _prodsIppL {-# LINE 791 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 135, column 25) _lhsOppA = ({-# LINE 135 "AG2AspectAG.ag" #-} defTAtt "inh" (pp nt_) inh_ >-< defTAtt "syn" (pp nt_) syn_ >-< _prodsIppA {-# LINE 798 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 180, column 25) _lhsOppNtL = ({-# LINE 180 "AG2AspectAG.ag" #-} pp "nt_" >|< pp nt_ >|< pp " .*. " {-# LINE 803 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 187, column 25) _lhsOppR = ({-# LINE 187 "AG2AspectAG.ag" #-} pp "----" >|< pp nt_ >-< _prodsIppR {-# LINE 808 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 347, column 25) _lhsOppS = ({-# LINE 347 "AG2AspectAG.ag" #-} let ppNt = pp nt_ in pp "----" >|< ppNt >-< pp "type T_" >|< ppNt >|< pp " = " >|< pp "(Record (HCons (LVPair (Proxy Att_inh) Inh_" >|< ppNt >|< pp ") HNil)) -> " >|< pp "(Record (HCons (LVPair (Proxy Att_syn) Syn_" >|< ppNt >|< pp ") HNil))" >-< pp "instance SemType T_" >|< ppNt >|< pp " " >|< ppNt >-< _prodsIppS >-< pp "-- sem_" >|< ppNt >|< pp " :: " >|< ppNt >|< pp " -> T_" >|< ppNt >-< _prodsIppSF {-# LINE 821 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 406, column 25) _lhsOppW = ({-# LINE 406 "AG2AspectAG.ag" #-} pp "wrap_" >|< pp nt_ >|< pp " sem _inh = " >-< pp " let (Record (HCons _syn HNil)) = sem (att_inh .=. _inh .*. emptyRecord)" >|< pp " in (valueLVPair _syn)" {-# LINE 828 "AG2AspectAG.hs" #-}) ( _prodsIppA,_prodsIppDL,_prodsIppL,_prodsIppR,_prodsIppS,_prodsIppSF) = prods_ _prodsOppNt in ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppNtL,_lhsOppR,_lhsOppS,_lhsOppW))) ) -- Nonterminals ------------------------------------------------ {- visit 0: inherited attributes: derivs : Derivings tSyns : TypeSyns synthesized attributes: ppA : PP_Doc ppD : PP_Doc ppL : PP_Doc ppNtL : PP_Doc ppR : PP_Doc ppS : PP_Doc ppW : PP_Doc alternatives: alternative Cons: child hd : Nonterminal child tl : Nonterminals alternative Nil: -} -- cata sem_Nonterminals :: Nonterminals -> T_Nonterminals sem_Nonterminals list = (Prelude.foldr sem_Nonterminals_Cons sem_Nonterminals_Nil (Prelude.map sem_Nonterminal list) ) -- semantic domain newtype T_Nonterminals = T_Nonterminals (Derivings -> TypeSyns -> ( PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc)) data Inh_Nonterminals = Inh_Nonterminals {derivs_Inh_Nonterminals :: Derivings,tSyns_Inh_Nonterminals :: TypeSyns} data Syn_Nonterminals = Syn_Nonterminals {ppA_Syn_Nonterminals :: PP_Doc,ppD_Syn_Nonterminals :: PP_Doc,ppL_Syn_Nonterminals :: PP_Doc,ppNtL_Syn_Nonterminals :: PP_Doc,ppR_Syn_Nonterminals :: PP_Doc,ppS_Syn_Nonterminals :: PP_Doc,ppW_Syn_Nonterminals :: PP_Doc} wrap_Nonterminals :: T_Nonterminals -> Inh_Nonterminals -> Syn_Nonterminals wrap_Nonterminals (T_Nonterminals sem ) (Inh_Nonterminals _lhsIderivs _lhsItSyns ) = (let ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppNtL,_lhsOppR,_lhsOppS,_lhsOppW) = sem _lhsIderivs _lhsItSyns in (Syn_Nonterminals _lhsOppA _lhsOppD _lhsOppL _lhsOppNtL _lhsOppR _lhsOppS _lhsOppW )) sem_Nonterminals_Cons :: T_Nonterminal -> T_Nonterminals -> T_Nonterminals sem_Nonterminals_Cons (T_Nonterminal hd_ ) (T_Nonterminals tl_ ) = (T_Nonterminals (\ _lhsIderivs _lhsItSyns -> (let _lhsOppA :: PP_Doc _lhsOppD :: PP_Doc _lhsOppL :: PP_Doc _lhsOppNtL :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppW :: PP_Doc _hdOderivs :: Derivings _hdOtSyns :: TypeSyns _tlOderivs :: Derivings _tlOtSyns :: TypeSyns _hdIppA :: PP_Doc _hdIppD :: PP_Doc _hdIppL :: PP_Doc _hdIppNtL :: PP_Doc _hdIppR :: PP_Doc _hdIppS :: PP_Doc _hdIppW :: PP_Doc _tlIppA :: PP_Doc _tlIppD :: PP_Doc _tlIppL :: PP_Doc _tlIppNtL :: PP_Doc _tlIppR :: PP_Doc _tlIppS :: PP_Doc _tlIppW :: PP_Doc -- use rule "AG2AspectAG.ag"(line 132, column 64) _lhsOppA = ({-# LINE 132 "AG2AspectAG.ag" #-} _hdIppA >-< _tlIppA {-# LINE 904 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 66, column 52) _lhsOppD = ({-# LINE 66 "AG2AspectAG.ag" #-} _hdIppD >-< _tlIppD {-# LINE 909 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} _hdIppL >-< _tlIppL {-# LINE 914 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 177, column 44) _lhsOppNtL = ({-# LINE 177 "AG2AspectAG.ag" #-} _hdIppNtL >|< _tlIppNtL {-# LINE 919 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} _hdIppR >-< _tlIppR {-# LINE 924 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 344, column 64) _lhsOppS = ({-# LINE 344 "AG2AspectAG.ag" #-} _hdIppS >-< _tlIppS {-# LINE 929 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 403, column 42) _lhsOppW = ({-# LINE 403 "AG2AspectAG.ag" #-} _hdIppW >-< _tlIppW {-# LINE 934 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOderivs = ({-# LINE 60 "AG2AspectAG.ag" #-} _lhsIderivs {-# LINE 939 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOtSyns = ({-# LINE 99 "AG2AspectAG.ag" #-} _lhsItSyns {-# LINE 944 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOderivs = ({-# LINE 60 "AG2AspectAG.ag" #-} _lhsIderivs {-# LINE 949 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOtSyns = ({-# LINE 99 "AG2AspectAG.ag" #-} _lhsItSyns {-# LINE 954 "AG2AspectAG.hs" #-}) ( _hdIppA,_hdIppD,_hdIppL,_hdIppNtL,_hdIppR,_hdIppS,_hdIppW) = hd_ _hdOderivs _hdOtSyns ( _tlIppA,_tlIppD,_tlIppL,_tlIppNtL,_tlIppR,_tlIppS,_tlIppW) = tl_ _tlOderivs _tlOtSyns in ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppNtL,_lhsOppR,_lhsOppS,_lhsOppW))) ) sem_Nonterminals_Nil :: T_Nonterminals sem_Nonterminals_Nil = (T_Nonterminals (\ _lhsIderivs _lhsItSyns -> (let _lhsOppA :: PP_Doc _lhsOppD :: PP_Doc _lhsOppL :: PP_Doc _lhsOppNtL :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppW :: PP_Doc -- use rule "AG2AspectAG.ag"(line 132, column 64) _lhsOppA = ({-# LINE 132 "AG2AspectAG.ag" #-} empty {-# LINE 975 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 66, column 52) _lhsOppD = ({-# LINE 66 "AG2AspectAG.ag" #-} empty {-# LINE 980 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} empty {-# LINE 985 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 177, column 44) _lhsOppNtL = ({-# LINE 177 "AG2AspectAG.ag" #-} pp "hNil" {-# LINE 990 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} empty {-# LINE 995 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 344, column 64) _lhsOppS = ({-# LINE 344 "AG2AspectAG.ag" #-} empty {-# LINE 1000 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 403, column 42) _lhsOppW = ({-# LINE 403 "AG2AspectAG.ag" #-} empty {-# LINE 1005 "AG2AspectAG.hs" #-}) in ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppNtL,_lhsOppR,_lhsOppS,_lhsOppW))) ) -- Pattern ----------------------------------------------------- {- visit 0: synthesized attributes: copy : SELF info : (Identifier, Identifier) alternatives: alternative Alias: child field : {Identifier} child attr : {Identifier} child pat : Pattern child parts : Patterns visit 0: local copy : _ alternative Constr: child name : {ConstructorIdent} child pats : Patterns visit 0: local copy : _ alternative Irrefutable: child pat : Pattern visit 0: local copy : _ alternative Product: child pos : {Pos} child pats : Patterns visit 0: local copy : _ alternative Underscore: child pos : {Pos} visit 0: local copy : _ -} -- cata sem_Pattern :: Pattern -> T_Pattern sem_Pattern (Alias _field _attr _pat _parts ) = (sem_Pattern_Alias _field _attr (sem_Pattern _pat ) (sem_Patterns _parts ) ) sem_Pattern (Constr _name _pats ) = (sem_Pattern_Constr _name (sem_Patterns _pats ) ) sem_Pattern (Irrefutable _pat ) = (sem_Pattern_Irrefutable (sem_Pattern _pat ) ) sem_Pattern (Product _pos _pats ) = (sem_Pattern_Product _pos (sem_Patterns _pats ) ) sem_Pattern (Underscore _pos ) = (sem_Pattern_Underscore _pos ) -- semantic domain newtype T_Pattern = T_Pattern (( Pattern ,((Identifier, Identifier)))) data Inh_Pattern = Inh_Pattern {} data Syn_Pattern = Syn_Pattern {copy_Syn_Pattern :: Pattern ,info_Syn_Pattern :: ((Identifier, Identifier))} wrap_Pattern :: T_Pattern -> Inh_Pattern -> Syn_Pattern wrap_Pattern (T_Pattern sem ) (Inh_Pattern ) = (let ( _lhsOcopy,_lhsOinfo) = sem in (Syn_Pattern _lhsOcopy _lhsOinfo )) sem_Pattern_Alias :: Identifier -> Identifier -> T_Pattern -> T_Patterns -> T_Pattern sem_Pattern_Alias field_ attr_ (T_Pattern pat_ ) (T_Patterns parts_ ) = (T_Pattern (let _lhsOinfo :: ((Identifier, Identifier)) _lhsOcopy :: Pattern _patIcopy :: Pattern _patIinfo :: ((Identifier, Identifier)) _partsIcopy :: Patterns -- "AG2AspectAG.ag"(line 204, column 25) _lhsOinfo = ({-# LINE 204 "AG2AspectAG.ag" #-} (field_, attr_) {-# LINE 1078 "AG2AspectAG.hs" #-}) -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} Alias field_ attr_ _patIcopy _partsIcopy {-# LINE 1083 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1088 "AG2AspectAG.hs" #-}) ( _patIcopy,_patIinfo) = pat_ ( _partsIcopy) = parts_ in ( _lhsOcopy,_lhsOinfo)) ) sem_Pattern_Constr :: ConstructorIdent -> T_Patterns -> T_Pattern sem_Pattern_Constr name_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOinfo :: ((Identifier, Identifier)) _lhsOcopy :: Pattern _patsIcopy :: Patterns -- "AG2AspectAG.ag"(line 205, column 25) _lhsOinfo = ({-# LINE 205 "AG2AspectAG.ag" #-} error "Pattern Constr undefined!!" {-# LINE 1105 "AG2AspectAG.hs" #-}) -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} Constr name_ _patsIcopy {-# LINE 1110 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1115 "AG2AspectAG.hs" #-}) ( _patsIcopy) = pats_ in ( _lhsOcopy,_lhsOinfo)) ) sem_Pattern_Irrefutable :: T_Pattern -> T_Pattern sem_Pattern_Irrefutable (T_Pattern pat_ ) = (T_Pattern (let _lhsOcopy :: Pattern _lhsOinfo :: ((Identifier, Identifier)) _patIcopy :: Pattern _patIinfo :: ((Identifier, Identifier)) -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} Irrefutable _patIcopy {-# LINE 1130 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1135 "AG2AspectAG.hs" #-}) -- copy rule (up) _lhsOinfo = ({-# LINE 202 "AG2AspectAG.ag" #-} _patIinfo {-# LINE 1140 "AG2AspectAG.hs" #-}) ( _patIcopy,_patIinfo) = pat_ in ( _lhsOcopy,_lhsOinfo)) ) sem_Pattern_Product :: Pos -> T_Patterns -> T_Pattern sem_Pattern_Product pos_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOinfo :: ((Identifier, Identifier)) _lhsOcopy :: Pattern _patsIcopy :: Patterns -- "AG2AspectAG.ag"(line 206, column 25) _lhsOinfo = ({-# LINE 206 "AG2AspectAG.ag" #-} error "Pattern Product undefined!!" {-# LINE 1155 "AG2AspectAG.hs" #-}) -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} Product pos_ _patsIcopy {-# LINE 1160 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1165 "AG2AspectAG.hs" #-}) ( _patsIcopy) = pats_ in ( _lhsOcopy,_lhsOinfo)) ) sem_Pattern_Underscore :: Pos -> T_Pattern sem_Pattern_Underscore pos_ = (T_Pattern (let _lhsOinfo :: ((Identifier, Identifier)) _lhsOcopy :: Pattern -- "AG2AspectAG.ag"(line 207, column 25) _lhsOinfo = ({-# LINE 207 "AG2AspectAG.ag" #-} error "Pattern Underscore undefined!!" {-# LINE 1178 "AG2AspectAG.hs" #-}) -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} Underscore pos_ {-# LINE 1183 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1188 "AG2AspectAG.hs" #-}) in ( _lhsOcopy,_lhsOinfo)) ) -- Patterns ---------------------------------------------------- {- visit 0: synthesized attribute: copy : SELF alternatives: alternative Cons: child hd : Pattern child tl : Patterns visit 0: local copy : _ alternative Nil: visit 0: local copy : _ -} -- cata sem_Patterns :: Patterns -> T_Patterns sem_Patterns list = (Prelude.foldr sem_Patterns_Cons sem_Patterns_Nil (Prelude.map sem_Pattern list) ) -- semantic domain newtype T_Patterns = T_Patterns (( Patterns )) data Inh_Patterns = Inh_Patterns {} data Syn_Patterns = Syn_Patterns {copy_Syn_Patterns :: Patterns } wrap_Patterns :: T_Patterns -> Inh_Patterns -> Syn_Patterns wrap_Patterns (T_Patterns sem ) (Inh_Patterns ) = (let ( _lhsOcopy) = sem in (Syn_Patterns _lhsOcopy )) sem_Patterns_Cons :: T_Pattern -> T_Patterns -> T_Patterns sem_Patterns_Cons (T_Pattern hd_ ) (T_Patterns tl_ ) = (T_Patterns (let _lhsOcopy :: Patterns _hdIcopy :: Pattern _hdIinfo :: ((Identifier, Identifier)) _tlIcopy :: Patterns -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} (:) _hdIcopy _tlIcopy {-# LINE 1232 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1237 "AG2AspectAG.hs" #-}) ( _hdIcopy,_hdIinfo) = hd_ ( _tlIcopy) = tl_ in ( _lhsOcopy)) ) sem_Patterns_Nil :: T_Patterns sem_Patterns_Nil = (T_Patterns (let _lhsOcopy :: Patterns -- self rule _copy = ({-# LINE 23 "./Patterns.ag" #-} [] {-# LINE 1250 "AG2AspectAG.hs" #-}) -- self rule _lhsOcopy = ({-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 1255 "AG2AspectAG.hs" #-}) in ( _lhsOcopy)) ) -- Production -------------------------------------------------- {- visit 0: inherited attribute: ppNt : PP_Doc synthesized attributes: ppA : PP_Doc ppD : PP_Doc ppL : PP_Doc ppR : PP_Doc ppS : PP_Doc ppSF : PP_Doc alternatives: alternative Production: child con : {ConstructorIdent} child children : Children child rules : Rules child typeSigs : TypeSigs -} -- cata sem_Production :: Production -> T_Production sem_Production (Production _con _children _rules _typeSigs ) = (sem_Production_Production _con (sem_Children _children ) (sem_Rules _rules ) (sem_TypeSigs _typeSigs ) ) -- semantic domain newtype T_Production = T_Production (PP_Doc -> ( PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc,PP_Doc)) data Inh_Production = Inh_Production {ppNt_Inh_Production :: PP_Doc} data Syn_Production = Syn_Production {ppA_Syn_Production :: PP_Doc,ppD_Syn_Production :: PP_Doc,ppL_Syn_Production :: PP_Doc,ppR_Syn_Production :: PP_Doc,ppS_Syn_Production :: PP_Doc,ppSF_Syn_Production :: PP_Doc} wrap_Production :: T_Production -> Inh_Production -> Syn_Production wrap_Production (T_Production sem ) (Inh_Production _lhsIppNt ) = (let ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppR,_lhsOppS,_lhsOppSF) = sem _lhsIppNt in (Syn_Production _lhsOppA _lhsOppD _lhsOppL _lhsOppR _lhsOppS _lhsOppSF )) sem_Production_Production :: ConstructorIdent -> T_Children -> T_Rules -> T_TypeSigs -> T_Production sem_Production_Production con_ (T_Children children_ ) (T_Rules rules_ ) (T_TypeSigs typeSigs_ ) = (T_Production (\ _lhsIppNt -> (let _childrenOppProd :: PP_Doc _rulesOppProd :: PP_Doc _lhsOppD :: PP_Doc _lhsOppA :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppSF :: PP_Doc _lhsOppL :: PP_Doc _childrenOppNt :: PP_Doc _rulesOppNt :: PP_Doc _childrenIidCL :: ([(Identifier,Type)]) _childrenIppCSF :: ([(Identifier,PP_Doc)]) _childrenIppDL :: ([PP_Doc]) _childrenIppL :: PP_Doc _childrenIppR :: PP_Doc _rulesIlocals :: ([Identifier]) _rulesIppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) -- "AG2AspectAG.ag"(line 56, column 25) _childrenOppProd = ({-# LINE 56 "AG2AspectAG.ag" #-} pp con_ {-# LINE 1320 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 57, column 25) _rulesOppProd = ({-# LINE 57 "AG2AspectAG.ag" #-} pp con_ {-# LINE 1325 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 78, column 25) _lhsOppD = ({-# LINE 78 "AG2AspectAG.ag" #-} let prodName = ppListSep "" "" "_" [_lhsIppNt, pp con_] in prodName >|< ppListSep " {" "}" ", " _childrenIppDL {-# LINE 1331 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 140, column 25) _lhsOppA = ({-# LINE 140 "AG2AspectAG.ag" #-} defLocalAtts _lhsIppNt (pp con_) (length _rulesIlocals) 1 $ sort _rulesIlocals {-# LINE 1336 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 190, column 25) _lhsOppR = ({-# LINE 190 "AG2AspectAG.ag" #-} defInstRules _lhsIppNt con_ _childrenIppR _rulesIppRL _childrenIidCL _rulesIlocals >-< defLocRule _lhsIppNt con_ _childrenIppR _rulesIppRL _childrenIidCL _rulesIlocals >-< defInhRule _lhsIppNt con_ _childrenIppR _rulesIppRL _childrenIidCL _rulesIlocals >-< defSynRule _lhsIppNt con_ _childrenIppR _rulesIppRL _childrenIidCL _rulesIlocals {-# LINE 1344 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 359, column 25) _lhsOppS = ({-# LINE 359 "AG2AspectAG.ag" #-} let ppProd = ppListSep "" "" "_" [_lhsIppNt, pp con_] in pp "asp_" >|< ppProd >|< pp " = inh_" >|< ppProd >|< pp " `ext` syn_" >|< ppProd >|< pp " `ext` loc_" >|< ppProd >|< pp " `ext` inst_" >|< ppProd >-< pp "sem_" >|< ppProd >|< pp " = knit asp_" >|< ppProd {-# LINE 1354 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 370, column 25) _lhsOppSF = ({-# LINE 370 "AG2AspectAG.ag" #-} let chi = _childrenIppCSF ppProd = ppListSep "" "" "_" [_lhsIppNt,pp con_] ppPattern = case (show con_) of "Cons" -> ppParams (ppListSep "" "" " : ") "Nil" -> pp "[]" otherwise -> ppProd >|< pp " " >|< (ppParams ppSpaced) ppParams f = f $ map (((>|<) (pp "_")) . fst) chi in pp "sem_" >|< _lhsIppNt >|< pp " (" >|< ppPattern >|< ") = sem_" >|< ppProd >|< pp " (" >|< map snd chi >|< pp "emptyRecord)" {-# LINE 1367 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} _childrenIppL {-# LINE 1372 "AG2AspectAG.hs" #-}) -- copy rule (down) _childrenOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1377 "AG2AspectAG.hs" #-}) -- copy rule (down) _rulesOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1382 "AG2AspectAG.hs" #-}) ( _childrenIidCL,_childrenIppCSF,_childrenIppDL,_childrenIppL,_childrenIppR) = children_ _childrenOppNt _childrenOppProd ( _rulesIlocals,_rulesIppRL) = rules_ _rulesOppNt _rulesOppProd in ( _lhsOppA,_lhsOppD,_lhsOppL,_lhsOppR,_lhsOppS,_lhsOppSF))) ) -- Productions ------------------------------------------------- {- visit 0: inherited attribute: ppNt : PP_Doc synthesized attributes: ppA : PP_Doc ppDL : [PP_Doc] ppL : PP_Doc ppR : PP_Doc ppS : PP_Doc ppSF : PP_Doc alternatives: alternative Cons: child hd : Production child tl : Productions alternative Nil: -} -- cata sem_Productions :: Productions -> T_Productions sem_Productions list = (Prelude.foldr sem_Productions_Cons sem_Productions_Nil (Prelude.map sem_Production list) ) -- semantic domain newtype T_Productions = T_Productions (PP_Doc -> ( PP_Doc,([PP_Doc]),PP_Doc,PP_Doc,PP_Doc,PP_Doc)) data Inh_Productions = Inh_Productions {ppNt_Inh_Productions :: PP_Doc} data Syn_Productions = Syn_Productions {ppA_Syn_Productions :: PP_Doc,ppDL_Syn_Productions :: ([PP_Doc]),ppL_Syn_Productions :: PP_Doc,ppR_Syn_Productions :: PP_Doc,ppS_Syn_Productions :: PP_Doc,ppSF_Syn_Productions :: PP_Doc} wrap_Productions :: T_Productions -> Inh_Productions -> Syn_Productions wrap_Productions (T_Productions sem ) (Inh_Productions _lhsIppNt ) = (let ( _lhsOppA,_lhsOppDL,_lhsOppL,_lhsOppR,_lhsOppS,_lhsOppSF) = sem _lhsIppNt in (Syn_Productions _lhsOppA _lhsOppDL _lhsOppL _lhsOppR _lhsOppS _lhsOppSF )) sem_Productions_Cons :: T_Production -> T_Productions -> T_Productions sem_Productions_Cons (T_Production hd_ ) (T_Productions tl_ ) = (T_Productions (\ _lhsIppNt -> (let _lhsOppDL :: ([PP_Doc]) _lhsOppA :: PP_Doc _lhsOppL :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppSF :: PP_Doc _hdOppNt :: PP_Doc _tlOppNt :: PP_Doc _hdIppA :: PP_Doc _hdIppD :: PP_Doc _hdIppL :: PP_Doc _hdIppR :: PP_Doc _hdIppS :: PP_Doc _hdIppSF :: PP_Doc _tlIppA :: PP_Doc _tlIppDL :: ([PP_Doc]) _tlIppL :: PP_Doc _tlIppR :: PP_Doc _tlIppS :: PP_Doc _tlIppSF :: PP_Doc -- "AG2AspectAG.ag"(line 85, column 33) _lhsOppDL = ({-# LINE 85 "AG2AspectAG.ag" #-} _hdIppD : _tlIppDL {-# LINE 1451 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 132, column 64) _lhsOppA = ({-# LINE 132 "AG2AspectAG.ag" #-} _hdIppA >-< _tlIppA {-# LINE 1456 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} _hdIppL >-< _tlIppL {-# LINE 1461 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} _hdIppR >-< _tlIppR {-# LINE 1466 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 344, column 64) _lhsOppS = ({-# LINE 344 "AG2AspectAG.ag" #-} _hdIppS >-< _tlIppS {-# LINE 1471 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 368, column 41) _lhsOppSF = ({-# LINE 368 "AG2AspectAG.ag" #-} _hdIppSF >-< _tlIppSF {-# LINE 1476 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1481 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1486 "AG2AspectAG.hs" #-}) ( _hdIppA,_hdIppD,_hdIppL,_hdIppR,_hdIppS,_hdIppSF) = hd_ _hdOppNt ( _tlIppA,_tlIppDL,_tlIppL,_tlIppR,_tlIppS,_tlIppSF) = tl_ _tlOppNt in ( _lhsOppA,_lhsOppDL,_lhsOppL,_lhsOppR,_lhsOppS,_lhsOppSF))) ) sem_Productions_Nil :: T_Productions sem_Productions_Nil = (T_Productions (\ _lhsIppNt -> (let _lhsOppDL :: ([PP_Doc]) _lhsOppA :: PP_Doc _lhsOppL :: PP_Doc _lhsOppR :: PP_Doc _lhsOppS :: PP_Doc _lhsOppSF :: PP_Doc -- "AG2AspectAG.ag"(line 86, column 33) _lhsOppDL = ({-# LINE 86 "AG2AspectAG.ag" #-} [] {-# LINE 1505 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 132, column 64) _lhsOppA = ({-# LINE 132 "AG2AspectAG.ag" #-} empty {-# LINE 1510 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 110, column 79) _lhsOppL = ({-# LINE 110 "AG2AspectAG.ag" #-} empty {-# LINE 1515 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 184, column 79) _lhsOppR = ({-# LINE 184 "AG2AspectAG.ag" #-} empty {-# LINE 1520 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 344, column 64) _lhsOppS = ({-# LINE 344 "AG2AspectAG.ag" #-} empty {-# LINE 1525 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 368, column 41) _lhsOppSF = ({-# LINE 368 "AG2AspectAG.ag" #-} empty {-# LINE 1530 "AG2AspectAG.hs" #-}) in ( _lhsOppA,_lhsOppDL,_lhsOppL,_lhsOppR,_lhsOppS,_lhsOppSF))) ) -- Rule -------------------------------------------------------- {- visit 0: inherited attributes: ppNt : PP_Doc ppProd : PP_Doc synthesized attributes: locals : [Identifier] ppRL : [((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)] alternatives: alternative Rule: child mbName : {Maybe Identifier} child pattern : Pattern child rhs : Expression child owrt : {Bool} child origin : {String} child explicit : {Bool} -} -- cata sem_Rule :: Rule -> T_Rule sem_Rule (Rule _mbName _pattern _rhs _owrt _origin _explicit ) = (sem_Rule_Rule _mbName (sem_Pattern _pattern ) (sem_Expression _rhs ) _owrt _origin _explicit ) -- semantic domain newtype T_Rule = T_Rule (PP_Doc -> PP_Doc -> ( ([Identifier]),([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]))) data Inh_Rule = Inh_Rule {ppNt_Inh_Rule :: PP_Doc,ppProd_Inh_Rule :: PP_Doc} data Syn_Rule = Syn_Rule {locals_Syn_Rule :: ([Identifier]),ppRL_Syn_Rule :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)])} wrap_Rule :: T_Rule -> Inh_Rule -> Syn_Rule wrap_Rule (T_Rule sem ) (Inh_Rule _lhsIppNt _lhsIppProd ) = (let ( _lhsOlocals,_lhsOppRL) = sem _lhsIppNt _lhsIppProd in (Syn_Rule _lhsOlocals _lhsOppRL )) sem_Rule_Rule :: (Maybe Identifier) -> T_Pattern -> T_Expression -> Bool -> String -> Bool -> T_Rule sem_Rule_Rule mbName_ (T_Pattern pattern_ ) (T_Expression rhs_ ) owrt_ origin_ explicit_ = (T_Rule (\ _lhsIppNt _lhsIppProd -> (let _lhsOlocals :: ([Identifier]) _lhsOppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) _rhsOppNt :: PP_Doc _rhsOppProd :: PP_Doc _patternIcopy :: Pattern _patternIinfo :: ((Identifier, Identifier)) _rhsIppRE :: (Identifier -> [(Identifier,Type)] -> [Identifier] -> PP_Doc) -- "AG2AspectAG.ag"(line 170, column 25) _lhsOlocals = ({-# LINE 170 "AG2AspectAG.ag" #-} if (show (fst _patternIinfo) == "loc") then [ snd _patternIinfo ] else [ ] {-# LINE 1590 "AG2AspectAG.hs" #-}) -- "AG2AspectAG.ag"(line 217, column 33) _lhsOppRL = ({-# LINE 217 "AG2AspectAG.ag" #-} [ (_patternIinfo, defRule _lhsIppNt _patternIinfo _rhsIppRE) ] {-# LINE 1595 "AG2AspectAG.hs" #-}) -- copy rule (down) _rhsOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1600 "AG2AspectAG.hs" #-}) -- copy rule (down) _rhsOppProd = ({-# LINE 53 "AG2AspectAG.ag" #-} _lhsIppProd {-# LINE 1605 "AG2AspectAG.hs" #-}) ( _patternIcopy,_patternIinfo) = pattern_ ( _rhsIppRE) = rhs_ _rhsOppNt _rhsOppProd in ( _lhsOlocals,_lhsOppRL))) ) -- Rules ------------------------------------------------------- {- visit 0: inherited attributes: ppNt : PP_Doc ppProd : PP_Doc synthesized attributes: locals : [Identifier] ppRL : [((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)] alternatives: alternative Cons: child hd : Rule child tl : Rules alternative Nil: -} -- cata sem_Rules :: Rules -> T_Rules sem_Rules list = (Prelude.foldr sem_Rules_Cons sem_Rules_Nil (Prelude.map sem_Rule list) ) -- semantic domain newtype T_Rules = T_Rules (PP_Doc -> PP_Doc -> ( ([Identifier]),([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]))) data Inh_Rules = Inh_Rules {ppNt_Inh_Rules :: PP_Doc,ppProd_Inh_Rules :: PP_Doc} data Syn_Rules = Syn_Rules {locals_Syn_Rules :: ([Identifier]),ppRL_Syn_Rules :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)])} wrap_Rules :: T_Rules -> Inh_Rules -> Syn_Rules wrap_Rules (T_Rules sem ) (Inh_Rules _lhsIppNt _lhsIppProd ) = (let ( _lhsOlocals,_lhsOppRL) = sem _lhsIppNt _lhsIppProd in (Syn_Rules _lhsOlocals _lhsOppRL )) sem_Rules_Cons :: T_Rule -> T_Rules -> T_Rules sem_Rules_Cons (T_Rule hd_ ) (T_Rules tl_ ) = (T_Rules (\ _lhsIppNt _lhsIppProd -> (let _lhsOppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) _lhsOlocals :: ([Identifier]) _hdOppNt :: PP_Doc _hdOppProd :: PP_Doc _tlOppNt :: PP_Doc _tlOppProd :: PP_Doc _hdIlocals :: ([Identifier]) _hdIppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) _tlIlocals :: ([Identifier]) _tlIppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) -- "AG2AspectAG.ag"(line 213, column 33) _lhsOppRL = ({-# LINE 213 "AG2AspectAG.ag" #-} _hdIppRL ++ _tlIppRL {-# LINE 1663 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 166, column 30) _lhsOlocals = ({-# LINE 166 "AG2AspectAG.ag" #-} _hdIlocals ++ _tlIlocals {-# LINE 1668 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1673 "AG2AspectAG.hs" #-}) -- copy rule (down) _hdOppProd = ({-# LINE 53 "AG2AspectAG.ag" #-} _lhsIppProd {-# LINE 1678 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOppNt = ({-# LINE 47 "AG2AspectAG.ag" #-} _lhsIppNt {-# LINE 1683 "AG2AspectAG.hs" #-}) -- copy rule (down) _tlOppProd = ({-# LINE 53 "AG2AspectAG.ag" #-} _lhsIppProd {-# LINE 1688 "AG2AspectAG.hs" #-}) ( _hdIlocals,_hdIppRL) = hd_ _hdOppNt _hdOppProd ( _tlIlocals,_tlIppRL) = tl_ _tlOppNt _tlOppProd in ( _lhsOlocals,_lhsOppRL))) ) sem_Rules_Nil :: T_Rules sem_Rules_Nil = (T_Rules (\ _lhsIppNt _lhsIppProd -> (let _lhsOppRL :: ([((Identifier,Identifier),[(Identifier,Type)] -> [Identifier] -> PP_Doc)]) _lhsOlocals :: ([Identifier]) -- "AG2AspectAG.ag"(line 214, column 33) _lhsOppRL = ({-# LINE 214 "AG2AspectAG.ag" #-} [] {-# LINE 1704 "AG2AspectAG.hs" #-}) -- use rule "AG2AspectAG.ag"(line 166, column 30) _lhsOlocals = ({-# LINE 166 "AG2AspectAG.ag" #-} [] {-# LINE 1709 "AG2AspectAG.hs" #-}) in ( _lhsOlocals,_lhsOppRL))) ) -- TypeSig ----------------------------------------------------- {- alternatives: alternative TypeSig: child name : {Identifier} child tp : {Type} -} -- cata sem_TypeSig :: TypeSig -> T_TypeSig sem_TypeSig (TypeSig _name _tp ) = (sem_TypeSig_TypeSig _name _tp ) -- semantic domain newtype T_TypeSig = T_TypeSig (( )) data Inh_TypeSig = Inh_TypeSig {} data Syn_TypeSig = Syn_TypeSig {} wrap_TypeSig :: T_TypeSig -> Inh_TypeSig -> Syn_TypeSig wrap_TypeSig (T_TypeSig sem ) (Inh_TypeSig ) = (let ( ) = sem in (Syn_TypeSig )) sem_TypeSig_TypeSig :: Identifier -> Type -> T_TypeSig sem_TypeSig_TypeSig name_ tp_ = (T_TypeSig (let in ( )) ) -- TypeSigs ---------------------------------------------------- {- alternatives: alternative Cons: child hd : TypeSig child tl : TypeSigs alternative Nil: -} -- cata sem_TypeSigs :: TypeSigs -> T_TypeSigs sem_TypeSigs list = (Prelude.foldr sem_TypeSigs_Cons sem_TypeSigs_Nil (Prelude.map sem_TypeSig list) ) -- semantic domain newtype T_TypeSigs = T_TypeSigs (( )) data Inh_TypeSigs = Inh_TypeSigs {} data Syn_TypeSigs = Syn_TypeSigs {} wrap_TypeSigs :: T_TypeSigs -> Inh_TypeSigs -> Syn_TypeSigs wrap_TypeSigs (T_TypeSigs sem ) (Inh_TypeSigs ) = (let ( ) = sem in (Syn_TypeSigs )) sem_TypeSigs_Cons :: T_TypeSig -> T_TypeSigs -> T_TypeSigs sem_TypeSigs_Cons (T_TypeSig hd_ ) (T_TypeSigs tl_ ) = (T_TypeSigs (let in ( )) ) sem_TypeSigs_Nil :: T_TypeSigs sem_TypeSigs_Nil = (T_TypeSigs (let in ( )) )