-- UUAGC 0.9.14 (AbstractSyntaxDump.ag) module AbstractSyntaxDump where import Data.List import qualified Data.Map as Map import Pretty import PPUtil import AbstractSyntax import TokenDef -- AbstractSyntax.ag imports import Data.Set(Set) import Data.Map(Map) import Patterns (Pattern(..),Patterns) import Expression (Expression(..)) import CommonTypes -- Patterns.ag imports import UU.Scanner.Position(Pos) import CommonTypes (ConstructorIdent,Identifier) import UU.Scanner.Position(Pos) import HsToken -- Child ------------------------------------------------------- {- visit 0: synthesized attribute: pp : PP_Doc alternatives: alternative Child: child name : {Identifier} child tp : {Type} child inh : {Attributes} child syn : {Attributes} child higherOrder : {Bool} -} -- cata sem_Child :: Child -> T_Child sem_Child (Child _name _tp _inh _syn _higherOrder ) = (sem_Child_Child _name _tp _inh _syn _higherOrder ) -- semantic domain newtype T_Child = T_Child (( PP_Doc)) data Inh_Child = Inh_Child {} data Syn_Child = Syn_Child {pp_Syn_Child :: PP_Doc} wrap_Child :: T_Child -> Inh_Child -> Syn_Child wrap_Child (T_Child sem ) (Inh_Child ) = (let ( _lhsOpp) = (sem ) in (Syn_Child _lhsOpp )) sem_Child_Child :: Identifier -> Type -> Attributes -> Attributes -> Bool -> T_Child sem_Child_Child name_ tp_ inh_ syn_ higherOrder_ = (T_Child (let _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 35, column 33) _lhsOpp = ppNestInfo ["Child","Child"] [pp name_, ppShow tp_] [ppF "inh" $ ppMap inh_, ppF "syn" $ ppMap syn_] [] in ( _lhsOpp)) ) -- Children ---------------------------------------------------- {- visit 0: synthesized attributes: pp : PP_Doc ppL : [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]))) data Inh_Children = Inh_Children {} data Syn_Children = Syn_Children {pp_Syn_Children :: PP_Doc,ppL_Syn_Children :: [PP_Doc]} wrap_Children :: T_Children -> Inh_Children -> Syn_Children wrap_Children (T_Children sem ) (Inh_Children ) = (let ( _lhsOpp,_lhsOppL) = (sem ) in (Syn_Children _lhsOpp _lhsOppL )) sem_Children_Cons :: T_Child -> T_Children -> T_Children sem_Children_Cons (T_Child hd_ ) (T_Children tl_ ) = (T_Children (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _hdIpp :: PP_Doc _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 67, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp ( _hdIpp) = (hd_ ) ( _tlIpp,_tlIppL) = (tl_ ) in ( _lhsOpp,_lhsOppL)) ) sem_Children_Nil :: T_Children sem_Children_Nil = (T_Children (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 68, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty in ( _lhsOpp,_lhsOppL)) ) -- Expression -------------------------------------------------- {- visit 0: synthesized attribute: pp : 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)) data Inh_Expression = Inh_Expression {} data Syn_Expression = Syn_Expression {pp_Syn_Expression :: PP_Doc} wrap_Expression :: T_Expression -> Inh_Expression -> Syn_Expression wrap_Expression (T_Expression sem ) (Inh_Expression ) = (let ( _lhsOpp) = (sem ) in (Syn_Expression _lhsOpp )) sem_Expression_Expression :: Pos -> ([HsToken]) -> T_Expression sem_Expression_Expression pos_ tks_ = (T_Expression (let _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 50, column 25) _lhsOpp = ppNestInfo ["Expression","Expression"] [ppShow pos_] [ppF "txt" $ vlist . showTokens . tokensToStrings $ tks_] [] in ( _lhsOpp)) ) -- 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]))} -} -- cata sem_Grammar :: Grammar -> T_Grammar sem_Grammar (Grammar _typeSyns _useMap _derivings _wrappers _nonts _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap ) = (sem_Grammar_Grammar _typeSyns _useMap _derivings _wrappers (sem_Nonterminals _nonts ) _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap ) -- 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]))) -> T_Grammar sem_Grammar_Grammar typeSyns_ useMap_ derivings_ wrappers_ (T_Nonterminals nonts_ ) pragmas_ manualAttrOrderMap_ paramMap_ contextMap_ uniqueMap_ augmentsMap_ = (T_Grammar (let _lhsOpp :: PP_Doc _nontsIpp :: PP_Doc _nontsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 20, column 25) _lhsOpp = ppNestInfo ["Grammar","Grammar"] [] [ ppF "typeSyns" $ ppAssocL typeSyns_ , ppF "useMap" $ ppMap $ Map.map ppMap $ useMap_ , ppF "derivings" $ ppMap $ derivings_ , ppF "wrappers" $ ppShow $ wrappers_ , ppF "nonts" $ ppVList _nontsIppL ] [] ( _nontsIpp,_nontsIppL) = (nonts_ ) in ( _lhsOpp)) ) -- Nonterminal ------------------------------------------------- {- visit 0: synthesized attribute: pp : 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 (( PP_Doc)) data Inh_Nonterminal = Inh_Nonterminal {} data Syn_Nonterminal = Syn_Nonterminal {pp_Syn_Nonterminal :: PP_Doc} wrap_Nonterminal :: T_Nonterminal -> Inh_Nonterminal -> Syn_Nonterminal wrap_Nonterminal (T_Nonterminal sem ) (Inh_Nonterminal ) = (let ( _lhsOpp) = (sem ) in (Syn_Nonterminal _lhsOpp )) sem_Nonterminal_Nonterminal :: NontermIdent -> ([Identifier]) -> Attributes -> Attributes -> T_Productions -> T_Nonterminal sem_Nonterminal_Nonterminal nt_ params_ inh_ syn_ (T_Productions prods_ ) = (T_Nonterminal (let _lhsOpp :: PP_Doc _prodsIpp :: PP_Doc _prodsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 29, column 25) _lhsOpp = ppNestInfo ["Nonterminal","Nonterminal"] (pp nt_ : map pp params_) [ppF "inh" $ ppMap inh_, ppF "syn" $ ppMap syn_, ppF "prods" $ ppVList _prodsIppL] [] ( _prodsIpp,_prodsIppL) = (prods_ ) in ( _lhsOpp)) ) -- Nonterminals ------------------------------------------------ {- visit 0: synthesized attributes: pp : PP_Doc ppL : [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 (( PP_Doc,([PP_Doc]))) data Inh_Nonterminals = Inh_Nonterminals {} data Syn_Nonterminals = Syn_Nonterminals {pp_Syn_Nonterminals :: PP_Doc,ppL_Syn_Nonterminals :: [PP_Doc]} wrap_Nonterminals :: T_Nonterminals -> Inh_Nonterminals -> Syn_Nonterminals wrap_Nonterminals (T_Nonterminals sem ) (Inh_Nonterminals ) = (let ( _lhsOpp,_lhsOppL) = (sem ) in (Syn_Nonterminals _lhsOpp _lhsOppL )) sem_Nonterminals_Cons :: T_Nonterminal -> T_Nonterminals -> T_Nonterminals sem_Nonterminals_Cons (T_Nonterminal hd_ ) (T_Nonterminals tl_ ) = (T_Nonterminals (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _hdIpp :: PP_Doc _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 75, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp ( _hdIpp) = (hd_ ) ( _tlIpp,_tlIppL) = (tl_ ) in ( _lhsOpp,_lhsOppL)) ) sem_Nonterminals_Nil :: T_Nonterminals sem_Nonterminals_Nil = (T_Nonterminals (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 76, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty in ( _lhsOpp,_lhsOppL)) ) -- Pattern ----------------------------------------------------- {- visit 0: synthesized attributes: copy : SELF pp : PP_Doc 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,PP_Doc)) data Inh_Pattern = Inh_Pattern {} data Syn_Pattern = Syn_Pattern {copy_Syn_Pattern :: Pattern,pp_Syn_Pattern :: PP_Doc} wrap_Pattern :: T_Pattern -> Inh_Pattern -> Syn_Pattern wrap_Pattern (T_Pattern sem ) (Inh_Pattern ) = (let ( _lhsOcopy,_lhsOpp) = (sem ) in (Syn_Pattern _lhsOcopy _lhsOpp )) 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 _lhsOpp :: PP_Doc _lhsOcopy :: Pattern _patIcopy :: Pattern _patIpp :: PP_Doc _partsIcopy :: Patterns _partsIpp :: PP_Doc _partsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 46, column 33) _lhsOpp = ppNestInfo ["Pattern","Alias"] [pp field_, pp attr_] [ppF "pat" $ _patIpp] [] -- self rule _copy = Alias field_ attr_ _patIcopy _partsIcopy -- self rule _lhsOcopy = _copy ( _patIcopy,_patIpp) = (pat_ ) ( _partsIcopy,_partsIpp,_partsIppL) = (parts_ ) in ( _lhsOcopy,_lhsOpp)) ) sem_Pattern_Constr :: ConstructorIdent -> T_Patterns -> T_Pattern sem_Pattern_Constr name_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOpp :: PP_Doc _lhsOcopy :: Pattern _patsIcopy :: Patterns _patsIpp :: PP_Doc _patsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 44, column 33) _lhsOpp = ppNestInfo ["Pattern","Constr"] [pp name_] [ppF "pats" $ ppVList _patsIppL] [] -- self rule _copy = Constr name_ _patsIcopy -- self rule _lhsOcopy = _copy ( _patsIcopy,_patsIpp,_patsIppL) = (pats_ ) in ( _lhsOcopy,_lhsOpp)) ) sem_Pattern_Irrefutable :: T_Pattern -> T_Pattern sem_Pattern_Irrefutable (T_Pattern pat_ ) = (T_Pattern (let _lhsOpp :: PP_Doc _lhsOcopy :: Pattern _patIcopy :: Pattern _patIpp :: PP_Doc -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _patIpp -- self rule _copy = Irrefutable _patIcopy -- self rule _lhsOcopy = _copy ( _patIcopy,_patIpp) = (pat_ ) in ( _lhsOcopy,_lhsOpp)) ) sem_Pattern_Product :: Pos -> T_Patterns -> T_Pattern sem_Pattern_Product pos_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOpp :: PP_Doc _lhsOcopy :: Pattern _patsIcopy :: Patterns _patsIpp :: PP_Doc _patsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 45, column 33) _lhsOpp = ppNestInfo ["Pattern","Product"] [ppShow pos_] [ppF "pats" $ ppVList _patsIppL] [] -- self rule _copy = Product pos_ _patsIcopy -- self rule _lhsOcopy = _copy ( _patsIcopy,_patsIpp,_patsIppL) = (pats_ ) in ( _lhsOcopy,_lhsOpp)) ) sem_Pattern_Underscore :: Pos -> T_Pattern sem_Pattern_Underscore pos_ = (T_Pattern (let _lhsOpp :: PP_Doc _lhsOcopy :: Pattern -- "AbstractSyntaxDump.ag"(line 47, column 25) _lhsOpp = ppNestInfo ["Pattern","Underscore"] [ppShow pos_] [] [] -- self rule _copy = Underscore pos_ -- self rule _lhsOcopy = _copy in ( _lhsOcopy,_lhsOpp)) ) -- Patterns ---------------------------------------------------- {- visit 0: synthesized attributes: copy : SELF pp : PP_Doc ppL : [PP_Doc] 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,PP_Doc,([PP_Doc]))) data Inh_Patterns = Inh_Patterns {} data Syn_Patterns = Syn_Patterns {copy_Syn_Patterns :: Patterns,pp_Syn_Patterns :: PP_Doc,ppL_Syn_Patterns :: [PP_Doc]} wrap_Patterns :: T_Patterns -> Inh_Patterns -> Syn_Patterns wrap_Patterns (T_Patterns sem ) (Inh_Patterns ) = (let ( _lhsOcopy,_lhsOpp,_lhsOppL) = (sem ) in (Syn_Patterns _lhsOcopy _lhsOpp _lhsOppL )) sem_Patterns_Cons :: T_Pattern -> T_Patterns -> T_Patterns sem_Patterns_Cons (T_Pattern hd_ ) (T_Patterns tl_ ) = (T_Patterns (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _lhsOcopy :: Patterns _hdIcopy :: Pattern _hdIpp :: PP_Doc _tlIcopy :: Patterns _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 55, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp -- self rule _copy = (:) _hdIcopy _tlIcopy -- self rule _lhsOcopy = _copy ( _hdIcopy,_hdIpp) = (hd_ ) ( _tlIcopy,_tlIpp,_tlIppL) = (tl_ ) in ( _lhsOcopy,_lhsOpp,_lhsOppL)) ) sem_Patterns_Nil :: T_Patterns sem_Patterns_Nil = (T_Patterns (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _lhsOcopy :: Patterns -- "AbstractSyntaxDump.ag"(line 56, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty -- self rule _copy = [] -- self rule _lhsOcopy = _copy in ( _lhsOcopy,_lhsOpp,_lhsOppL)) ) -- Production -------------------------------------------------- {- visit 0: synthesized attribute: pp : 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)) data Inh_Production = Inh_Production {} data Syn_Production = Syn_Production {pp_Syn_Production :: PP_Doc} wrap_Production :: T_Production -> Inh_Production -> Syn_Production wrap_Production (T_Production sem ) (Inh_Production ) = (let ( _lhsOpp) = (sem ) in (Syn_Production _lhsOpp )) 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 (let _lhsOpp :: PP_Doc _childrenIpp :: PP_Doc _childrenIppL :: ([PP_Doc]) _rulesIpp :: PP_Doc _rulesIppL :: ([PP_Doc]) _typeSigsIpp :: PP_Doc _typeSigsIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 32, column 25) _lhsOpp = ppNestInfo ["Production","Production"] [pp con_] [ppF "children" $ ppVList _childrenIppL,ppF "rules" $ ppVList _rulesIppL,ppF "typeSigs" $ ppVList _typeSigsIppL] [] ( _childrenIpp,_childrenIppL) = (children_ ) ( _rulesIpp,_rulesIppL) = (rules_ ) ( _typeSigsIpp,_typeSigsIppL) = (typeSigs_ ) in ( _lhsOpp)) ) -- Productions ------------------------------------------------- {- visit 0: synthesized attributes: pp : PP_Doc ppL : [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]))) data Inh_Productions = Inh_Productions {} data Syn_Productions = Syn_Productions {pp_Syn_Productions :: PP_Doc,ppL_Syn_Productions :: [PP_Doc]} wrap_Productions :: T_Productions -> Inh_Productions -> Syn_Productions wrap_Productions (T_Productions sem ) (Inh_Productions ) = (let ( _lhsOpp,_lhsOppL) = (sem ) in (Syn_Productions _lhsOpp _lhsOppL )) sem_Productions_Cons :: T_Production -> T_Productions -> T_Productions sem_Productions_Cons (T_Production hd_ ) (T_Productions tl_ ) = (T_Productions (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _hdIpp :: PP_Doc _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 71, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp ( _hdIpp) = (hd_ ) ( _tlIpp,_tlIppL) = (tl_ ) in ( _lhsOpp,_lhsOppL)) ) sem_Productions_Nil :: T_Productions sem_Productions_Nil = (T_Productions (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 72, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty in ( _lhsOpp,_lhsOppL)) ) -- Rule -------------------------------------------------------- {- visit 0: synthesized attribute: pp : PP_Doc alternatives: alternative Rule: child pattern : Pattern child rhs : Expression child owrt : {Bool} child origin : {String} -} -- cata sem_Rule :: Rule -> T_Rule sem_Rule (Rule _pattern _rhs _owrt _origin ) = (sem_Rule_Rule (sem_Pattern _pattern ) (sem_Expression _rhs ) _owrt _origin ) -- semantic domain newtype T_Rule = T_Rule (( PP_Doc)) data Inh_Rule = Inh_Rule {} data Syn_Rule = Syn_Rule {pp_Syn_Rule :: PP_Doc} wrap_Rule :: T_Rule -> Inh_Rule -> Syn_Rule wrap_Rule (T_Rule sem ) (Inh_Rule ) = (let ( _lhsOpp) = (sem ) in (Syn_Rule _lhsOpp )) sem_Rule_Rule :: T_Pattern -> T_Expression -> Bool -> String -> T_Rule sem_Rule_Rule (T_Pattern pattern_ ) (T_Expression rhs_ ) owrt_ origin_ = (T_Rule (let _lhsOpp :: PP_Doc _patternIcopy :: Pattern _patternIpp :: PP_Doc _rhsIpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 38, column 33) _lhsOpp = ppNestInfo ["Rule","Rule"] [ppShow owrt_, pp origin_] [ppF "pattern" $ _patternIpp, ppF "rhs" $ _rhsIpp] [] ( _patternIcopy,_patternIpp) = (pattern_ ) ( _rhsIpp) = (rhs_ ) in ( _lhsOpp)) ) -- Rules ------------------------------------------------------- {- visit 0: synthesized attributes: pp : PP_Doc ppL : [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]))) data Inh_Rules = Inh_Rules {} data Syn_Rules = Syn_Rules {pp_Syn_Rules :: PP_Doc,ppL_Syn_Rules :: [PP_Doc]} wrap_Rules :: T_Rules -> Inh_Rules -> Syn_Rules wrap_Rules (T_Rules sem ) (Inh_Rules ) = (let ( _lhsOpp,_lhsOppL) = (sem ) in (Syn_Rules _lhsOpp _lhsOppL )) sem_Rules_Cons :: T_Rule -> T_Rules -> T_Rules sem_Rules_Cons (T_Rule hd_ ) (T_Rules tl_ ) = (T_Rules (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _hdIpp :: PP_Doc _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 63, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp ( _hdIpp) = (hd_ ) ( _tlIpp,_tlIppL) = (tl_ ) in ( _lhsOpp,_lhsOppL)) ) sem_Rules_Nil :: T_Rules sem_Rules_Nil = (T_Rules (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 64, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty in ( _lhsOpp,_lhsOppL)) ) -- TypeSig ----------------------------------------------------- {- visit 0: synthesized attribute: pp : PP_Doc 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 (( PP_Doc)) data Inh_TypeSig = Inh_TypeSig {} data Syn_TypeSig = Syn_TypeSig {pp_Syn_TypeSig :: PP_Doc} wrap_TypeSig :: T_TypeSig -> Inh_TypeSig -> Syn_TypeSig wrap_TypeSig (T_TypeSig sem ) (Inh_TypeSig ) = (let ( _lhsOpp) = (sem ) in (Syn_TypeSig _lhsOpp )) sem_TypeSig_TypeSig :: Identifier -> Type -> T_TypeSig sem_TypeSig_TypeSig name_ tp_ = (T_TypeSig (let _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 41, column 33) _lhsOpp = ppNestInfo ["TypeSig","TypeSig"] [pp name_, ppShow tp_] [] [] in ( _lhsOpp)) ) -- TypeSigs ---------------------------------------------------- {- visit 0: synthesized attributes: pp : PP_Doc ppL : [PP_Doc] 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 (( PP_Doc,([PP_Doc]))) data Inh_TypeSigs = Inh_TypeSigs {} data Syn_TypeSigs = Syn_TypeSigs {pp_Syn_TypeSigs :: PP_Doc,ppL_Syn_TypeSigs :: [PP_Doc]} wrap_TypeSigs :: T_TypeSigs -> Inh_TypeSigs -> Syn_TypeSigs wrap_TypeSigs (T_TypeSigs sem ) (Inh_TypeSigs ) = (let ( _lhsOpp,_lhsOppL) = (sem ) in (Syn_TypeSigs _lhsOpp _lhsOppL )) sem_TypeSigs_Cons :: T_TypeSig -> T_TypeSigs -> T_TypeSigs sem_TypeSigs_Cons (T_TypeSig hd_ ) (T_TypeSigs tl_ ) = (T_TypeSigs (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc _hdIpp :: PP_Doc _tlIpp :: PP_Doc _tlIppL :: ([PP_Doc]) -- "AbstractSyntaxDump.ag"(line 59, column 33) _lhsOppL = _hdIpp : _tlIppL -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = _hdIpp >-< _tlIpp ( _hdIpp) = (hd_ ) ( _tlIpp,_tlIppL) = (tl_ ) in ( _lhsOpp,_lhsOppL)) ) sem_TypeSigs_Nil :: T_TypeSigs sem_TypeSigs_Nil = (T_TypeSigs (let _lhsOppL :: ([PP_Doc]) _lhsOpp :: PP_Doc -- "AbstractSyntaxDump.ag"(line 60, column 33) _lhsOppL = [] -- use rule "AbstractSyntaxDump.ag"(line 17, column 58) _lhsOpp = empty in ( _lhsOpp,_lhsOppL)) )