-- UUAGC 0.9.14 (Transform.ag) module Transform where {-# LINE 8 "Transform.ag" #-} import Control.Monad(mplus,mzero) import List (partition, elem, nub,intersperse) import Data.Maybe import qualified Data.Map as Map import Data.Map (Map) import Data.Set as Set (Set, member, union, toList, fromList, empty, singleton, member, unions, size, fold, intersection, difference, insert) import qualified Data.Sequence as Seq import Data.Sequence(Seq, empty, (><),fromList) import Data.Foldable(toList) import UU.Scanner.Position(noPos) import ConcreteSyntax import AbstractSyntax import ErrorMessages import Patterns (Patterns(..),Pattern(..)) import Expression (Expression(..)) import HsToken import Options import CommonTypes {-# LINE 28 "../src-derived/Transform.hs" #-} {-# LINE 2 "./ConcreteSyntax.ag" #-} import UU.Scanner.Position (Pos) import Patterns (Pattern) import Expression (Expression) import CommonTypes {-# LINE 36 "../src-derived/Transform.hs" #-} {-# LINE 2 "./Patterns.ag" #-} -- Patterns.ag imports import UU.Scanner.Position(Pos) import CommonTypes (ConstructorIdent,Identifier) {-# LINE 43 "../src-derived/Transform.hs" #-} {-# LINE 99 "Transform.ag" #-} type DefinedSets = Map Identifier (Set NontermIdent) {-# LINE 46 "../src-derived/Transform.hs" #-} {-# LINE 119 "Transform.ag" #-} type FieldMap = [(Identifier, Type)] {-# LINE 50 "../src-derived/Transform.hs" #-} {-# LINE 120 "Transform.ag" #-} type DataTypes = Map.Map NontermIdent (Map.Map ConstructorIdent FieldMap) {-# LINE 54 "../src-derived/Transform.hs" #-} {-# LINE 140 "Transform.ag" #-} type AttrName = (Identifier,Identifier) {-# LINE 58 "../src-derived/Transform.hs" #-} {-# LINE 141 "Transform.ag" #-} type RuleInfo = ([AttrName]->Pattern, Expression, [AttrName], Bool, String) {-# LINE 62 "../src-derived/Transform.hs" #-} {-# LINE 142 "Transform.ag" #-} type SigInfo = (Identifier,Type) {-# LINE 66 "../src-derived/Transform.hs" #-} {-# LINE 143 "Transform.ag" #-} type UniqueInfo = (Identifier,Identifier) {-# LINE 70 "../src-derived/Transform.hs" #-} {-# LINE 144 "Transform.ag" #-} type AugmentInfo = (Identifier,Expression) {-# LINE 74 "../src-derived/Transform.hs" #-} {-# LINE 145 "Transform.ag" #-} type AroundInfo = (Identifier,Expression) {-# LINE 78 "../src-derived/Transform.hs" #-} {-# LINE 192 "Transform.ag" #-} checkDuplicate :: (Identifier -> Identifier -> Error) -> Identifier -> val -> Map Identifier val -> (Map Identifier val,Seq Error) checkDuplicate dupError key val m = case Map.lookupIndex key m of Just ix -> let (key',_) = Map.elemAt ix m in (m,Seq.singleton (dupError key key')) Nothing -> (Map.insert key val m,Seq.empty) checkDuplicates :: (Identifier -> Identifier -> Error) -> [(Identifier, val)] -> Map Identifier val -> (Map Identifier val,Seq Error) checkDuplicates dupError new m = foldErrors check m new where check = uncurry (checkDuplicate dupError) foldErrors f e xs = foldl g (e,Seq.empty) xs where g ~(e,es) x = let (e',es') = f x e in (e', es >< es') checkForDuplicates :: (Identifier -> Identifier -> Error) -> [Identifier] -> [Error] checkForDuplicates err [] = [] checkForDuplicates err (x:xs) = let (same,other) = List.partition (equalId x) xs in map (err x) same ++ checkForDuplicates err other equalId :: Identifier -> Identifier -> Bool equalId x y = getName x == getName y {-# LINE 109 "../src-derived/Transform.hs" #-} {-# LINE 317 "Transform.ag" #-} type RulesAndErrors = ([Rule], Seq Error) type SigsAndErrors = ([TypeSig], Seq Error) type InstsAndErrors = ([(Identifier, Type)], Seq Error) type UniquesAndErrors = (Map Identifier Identifier, Seq Error) type AugmentsAndErrors = (Map Identifier [Expression], Seq Error) type AroundsAndErrors = (Map Identifier [Expression], Seq Error) type AttrOverwrite = Map AttrName Bool type AccumRuleCheck = (RulesAndErrors, AttrOverwrite) type AccumDefiCheck = (Seq Error, AttrOverwrite, [AttrName], [AttrName]) checkRules :: Map NontermIdent (Attributes, Attributes) -> Map NontermIdent (Map ConstructorIdent FieldMap) -> Map NontermIdent (Map ConstructorIdent [Identifier]) -> Map NontermIdent (Map ConstructorIdent [SigInfo]) -> NontermIdent -> ConstructorIdent -> [RuleInfo] -> RulesAndErrors checkRules attributes fields allinsts allsigs nt con rs = let fieldmap :: FieldMap fieldmap = (_LHS,NT nt undefined) : (_LOC,NT undefined undefined) : (_INST, NT undefined undefined) : (_FIRST, NT undefined undefined) : (_LAST, NT undefined undefined) : Map.findWithDefault [] con (Map.findWithDefault Map.empty nt fields) ++ mapMaybe (\instNm -> lookup instNm sigs >>= \tp -> return (instNm, tp)) (Map.findWithDefault [] con (Map.findWithDefault Map.empty nt allinsts)) sigs = Map.findWithDefault [] con (Map.findWithDefault Map.empty nt allsigs) hasAttrib f tp attr = Map.member attr (f (Map.findWithDefault (Map.empty,Map.empty) tp attributes)) checkRule :: RuleInfo -> AccumRuleCheck -> AccumRuleCheck checkRule (pat,exp,as,owrt,str) ((r1,e1),m1) = let (e2,m2,u2,b2) = foldr (checkDefi owrt) (e1,m1,[],[]) as in ( (Rule (pat u2) exp owrt str : r1, e2), m2) checkDefi :: Bool -> AttrName -> AccumDefiCheck -> AccumDefiCheck checkDefi owrt fa@(field,attr) (e,m,u,bs) = case lookup field fieldmap of Just (NT tp _) -> let tp' = maybe tp id (deforestedNt tp) in if field == _LOC || field == _INST || field == _FIRST || field == _LAST || hasAttrib (if getName field==getName _LHS then snd else fst) tp' attr then case Map.lookupIndex fa m of Just ix -> let ((_,attr2),b) = Map.elemAt ix m in if b && not (fa `elem` bs) then ( e, Map.insert fa owrt m, fa:u, fa:bs) else (((Seq.<|)) (DupRule nt con field attr2 attr) e, m, fa:u, bs) Nothing -> ( e, Map.insert fa owrt m, u, fa:bs) else (((Seq.<|)) (SuperfluousRule nt con field attr) e, m, fa:u, bs) _ -> (((Seq.<|)) (UndefChild nt con field) e, m, fa:u, bs ) in fst (foldr checkRule (([],Seq.empty),Map.empty) rs) checkSigs :: NontermIdent -> ConstructorIdent -> [SigInfo] -> SigsAndErrors checkSigs nt con sis = let checkSig (ide,typ) (sigs,errs) = if ide `elem` map (\(TypeSig n t)-> n) sigs then (sigs, ((Seq.<|)) (DupSig nt con ide) errs) -- else if not (ide `elem` locattrdefs) -- then (sigs, ((Seq.<|)) (SupSig nt con ide) errs) else (TypeSig ide typ:sigs, errs) in foldr checkSig ([],Seq.empty) sis checkInsts :: Set NontermIdent -> Map NontermIdent (Map ConstructorIdent [SigInfo]) -> Map NontermIdent (Map ConstructorIdent [(Identifier, Type)]) -> NontermIdent -> ConstructorIdent -> [Identifier] -> InstsAndErrors checkInsts allNts sigMap fieldMap nt con = foldr (\inst (insts, errs) -> checkDup inst insts errs $ maybe (insts, Seq.singleton (MissingInstSig nt con inst) >< errs) (\info@(_, NT nm _) -> case nm `Set.member` allNts of True -> (info : insts, errs) False | take 2 (getName nm) == "T_" -> let nm' = Ident (drop 2 (getName nm)) (getPos nm) in case nm' `Set.member` allNts of True -> (info : insts, errs) False -> (insts, Seq.singleton (UndefNont nm') >< errs) | otherwise -> (insts, Seq.singleton (UndefNont nm) >< errs) ) $ findSig inst ) ([], Seq.empty) where sigs = Map.findWithDefault [] con (Map.findWithDefault Map.empty nt sigMap) findSig name = do tp@(NT _ _) <- lookup name sigs return (name, tp) checkDup name insts errs e = let fields = Map.findWithDefault [] con $ Map.findWithDefault Map.empty nt fieldMap walk [] = Nothing walk ((i,_): fs) | i == name = Just name | otherwise = walk fs in case walk fields of Just occ -> (insts, Seq.singleton (DupChild nt con name occ) >< errs) Nothing -> e checkUniques :: Map NontermIdent (Attributes, Attributes) -> NontermIdent -> ConstructorIdent -> [UniqueInfo] -> UniquesAndErrors checkUniques allAttrs nt con uniques = let checkUnique (ident,ref) (us,errs) = if ident `Map.member` us then (us, ((Seq.<|)) (DupUnique nt con ident) errs) else if Map.member ref inhs && Map.member ref syns then (Map.insert ident ref us, errs) else (us, ((Seq.<|)) (MissingUnique nt ref) errs) (inhs,syns) = Map.findWithDefault (Map.empty,Map.empty) nt allAttrs in foldr checkUnique (Map.empty, Seq.empty) uniques checkAugments :: Map NontermIdent (Attributes, Attributes) -> NontermIdent -> ConstructorIdent -> [AugmentInfo] -> AugmentsAndErrors checkAugments allAttrs nt con augments = let checkAugment (ident,expr) (as,errs) = if ident `Map.member` as then (Map.update (\vs -> Just (vs ++ [expr])) ident as, errs) else if Map.member ident syns then (Map.insert ident [expr] as, errs) else (as, ((Seq.<|)) (MissingSyn nt ident) errs) (inhs,syns) = Map.findWithDefault (Map.empty,Map.empty) nt allAttrs in foldr checkAugment (Map.empty, Seq.empty) augments checkArounds :: Map NontermIdent (Map ConstructorIdent [(Identifier, Type)]) -> NontermIdent -> ConstructorIdent -> [AroundInfo] -> AroundsAndErrors checkArounds fieldMap nt con arounds = let checkAround (ident,expr) (as,errs) = if ident `Map.member` as then (Map.update (\vs -> Just (vs ++ [expr])) ident as, errs) else case lookup ident fields of Just (NT _ _) -> (Map.insert ident [expr] as, errs) _ -> (as, ((Seq.<|)) (UndefChild nt con ident) errs) fields = Map.findWithDefault [] con (Map.findWithDefault Map.empty nt fieldMap) in foldr checkAround (Map.empty, Seq.empty) arounds unionunionplusplus = Map.unionWith (Map.unionWith (++)) {-# LINE 236 "../src-derived/Transform.hs" #-} {-# LINE 444 "Transform.ag" #-} mkUniqueRules :: Options -> Map NontermIdent (Map ConstructorIdent [(Identifier, Type)]) -> Map NontermIdent (Attributes,Attributes) -> NontermIdent -> ConstructorIdent -> Map Identifier Identifier -> [Rule] mkUniqueRules opts allFields allAttrDecls nt con usMap = map apply groups where fields = Map.findWithDefault [] con (Map.findWithDefault Map.empty nt allFields) groups = Map.assocs $ Map.foldWithKey (\i r m -> Map.insertWith (++) r [i] m) Map.empty usMap apply (ref,us) = mkRule ref (findOutField ref) us findOutField ref = case [ chld | (chld,NT tp _) <- fields, tp `hasSyn` ref] of [] -> _LHS (x:_) -> x hasSyn tp ref = Map.member ref $ snd $ Map.findWithDefault (Map.empty,Map.empty) tp allAttrDecls mkRule ref outFld locAttrs = let pat = Product noPos (attr outFld ref : [attr _LOC u | u <- locAttrs ]) rhs = Expression noPos $ wrap ref $ foldr gencase (finalout locAttrs) locAttrs -- [HsToken ("mkUniques" ++ show (length locAttrs) ++ " ") noPos, AGField _LHS ref noPos Nothing] in Rule pat rhs False "-- generated by the unique rule mechanism." attr fld a = Alias fld a (Underscore noPos) [] gencase nm outp = h ("case " ++ uniqueDispenser opts ++ " __cont of { (__cont, " ++ getName nm ++ ") -> ") ++ outp ++ h "}" h s = [HsToken s noPos] finalout us = h ("(__cont, " ++ concat (intersperse "," (map getName us)) ++ ")") wrap ref inp = h "case " ++ [AGField _LHS ref noPos Nothing] ++ h " of { __cont | __cont `seq` True -> " ++ inp ++ h "}" {-# LINE 263 "../src-derived/Transform.hs" #-} {-# LINE 614 "Transform.ag" #-} flattenDatas :: DataTypes -> Map NontermIdent (Set NontermIdent) flattenDatas ds = Map.map flatten ds where flatten cs = Set.fromList [ nt | (_,NT nt _) <- concatMap snd (Map.toList cs)] reachableFrom :: Map NontermIdent (Set NontermIdent) -> Set NontermIdent -> Set NontermIdent reachableFrom table nts = reach nts where reach nts = let nts' = Set.unions (nts : [ ns | nt <- Set.toList nts , let ns = Map.findWithDefault Set.empty nt table ]) in if Set.size nts' > Set.size nts then reach nts' else nts invert :: Map NontermIdent (Set NontermIdent) -> Map NontermIdent (Set NontermIdent) invert m = foldr inv Map.empty (Map.toList m) where inv (x,ns) m = fold (\n m -> Map.insertWith Set.union n (Set.singleton x) m) m ns path :: Map NontermIdent (Set NontermIdent) -> NontermIdent -> NontermIdent -> Set NontermIdent path table from to = let children = Map.findWithDefault Set.empty from table forward = reachableFrom table children backward = reachableFrom (invert table) (Set.singleton to) in Set.intersection forward backward {-# LINE 288 "../src-derived/Transform.hs" #-} {-# LINE 722 "Transform.ag" #-} pragmaMapUnion :: PragmaMap -> PragmaMap -> PragmaMap pragmaMapUnion = Map.unionWith (Map.unionWith Set.union) pragmaMapSingle :: NontermIdent -> ConstructorIdent -> Set Identifier -> PragmaMap pragmaMapSingle nt con nms = Map.singleton nt (Map.singleton con nms) {-# LINE 297 "../src-derived/Transform.hs" #-} {-# LINE 754 "Transform.ag" #-} orderMapUnion :: AttrOrderMap -> AttrOrderMap -> AttrOrderMap orderMapUnion = Map.unionWith (Map.unionWith Set.union) orderMapSingle :: NontermIdent -> ConstructorIdent -> Set Dependency -> AttrOrderMap orderMapSingle nt con deps = Map.singleton nt (Map.singleton con deps) {-# LINE 306 "../src-derived/Transform.hs" #-} {-# LINE 780 "Transform.ag" #-} mergeParams :: ParamMap -> ParamMap -> ParamMap mergeParams = Map.unionWith (++) {-# LINE 312 "../src-derived/Transform.hs" #-} {-# LINE 803 "Transform.ag" #-} mergeCtx :: ContextMap -> ContextMap -> ContextMap mergeCtx = Map.unionWith nubconcat where nubconcat a b = nub (a ++ b) {-# LINE 320 "../src-derived/Transform.hs" #-} {-# LINE 816 "Transform.ag" #-} mergeDerivings m1 m2 = foldr (\(n,cs) m -> Map.insertWith Set.union n cs m) m2 (Map.toList m1) {-# LINE 325 "../src-derived/Transform.hs" #-} {-# LINE 827 "Transform.ag" #-} merge x y = foldr f y (Map.toList x) where f ~(k,v) m = Map.insertWith (Map.union) k v m {-# LINE 331 "../src-derived/Transform.hs" #-} {-# LINE 854 "Transform.ag" #-} checkAttrs allFields nts inherited synthesized decls = foldErrors check decls nts where check nt decls | not (nt `Map.member` allFields) = (decls,Seq.singleton(UndefNont nt)) | otherwise = let (inh,syn) = Map.findWithDefault (Map.empty,Map.empty) nt decls (inh',einh) = checkDuplicates (DupInhAttr nt) inherited inh (syn',esyn) = checkDuplicates (DupSynAttr nt) synthesized syn in (Map.insert nt (inh',syn') decls,einh >< esyn) {-# LINE 341 "../src-derived/Transform.hs" #-} {-# LINE 865 "Transform.ag" #-} addSelf name atMap = let (eInh,eSyn) = Map.findWithDefault(Map.empty,Map.empty) name atMap in Map.insert name (eInh, Map.insert (Ident "self" noPos) (NT _SELF []) eSyn)atMap {-# LINE 347 "../src-derived/Transform.hs" #-} {-# LINE 995 "Transform.ag" #-} makeType :: Set NontermIdent -> Type -> Type makeType nts tp@(NT x _) | x == _SELF = tp | Set.member x nts = tp | otherwise = Haskell (typeToHaskellString Nothing [] tp) makeType _ tp = tp {-# LINE 356 "../src-derived/Transform.hs" #-} {-# LINE 1002 "Transform.ag" #-} constructGrammar :: Set NontermIdent -> ParamMap -> DataTypes -> Map NontermIdent (Attributes, Attributes) -> Map NontermIdent (Map Identifier (String, String, String)) -> Derivings -> Set NontermIdent -> Map NontermIdent (Map ConstructorIdent [Rule]) -> Map NontermIdent (Map ConstructorIdent [TypeSig]) -> Map NontermIdent (Map ConstructorIdent [(Identifier, Type)]) -> TypeSyns -> PragmaMap -> AttrOrderMap -> ContextMap -> UniqueMap -> Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])) -> Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])) -> Grammar constructGrammar nts ntParams gram attrs uses derivings wrappers allrules tsigs allinsts tsyns pragmaMap orderMap contextMap uniqueMap augmentsMap aroundsMap = let gr = [ (nt,Map.toList alts) | (nt,alts) <- Map.toList gram] nonts = map nont gr nont (nt,alts) = let (inh,syn) = Map.findWithDefault (Map.empty,Map.empty) nt attrs rmap = Map.findWithDefault Map.empty nt allrules tsmap = Map.findWithDefault Map.empty nt tsigs instsmap = Map.findWithDefault Map.empty nt allinsts params = Map.findWithDefault [] nt ntParams alt (con,flds) = let rules = maybe [] id (Map.lookup con rmap) tsigs = maybe [] id (Map.lookup con tsmap) insts = maybe [] id (Map.lookup con instsmap) cldrn = map (child False) flds ++ map (child True) insts child isVirtual (nm, tp) = let (inh,syn) = case tp of NT nt _ -> let nt' = maybe nt id (deforestedNt nt) in Map.findWithDefault (Map.empty,Map.empty) nt' attrs _ -> (Map.empty,Map.empty) in Child nm tp inh syn isVirtual in Production con cldrn rules tsigs in Nonterminal nt params inh syn (map alt alts) in Grammar tsyns uses derivings wrappers nonts pragmaMap orderMap ntParams contextMap uniqueMap augmentsMap aroundsMap {-# LINE 401 "../src-derived/Transform.hs" #-} {-# LINE 1046 "Transform.ag" #-} mapUnionWithSetUnion = Map.unionWith Set.union mapUnionWithPlusPlus = Map.unionWith (++) {-# LINE 407 "../src-derived/Transform.hs" #-} -- AG ---------------------------------------------------------- {- visit 0: inherited attribute: options : Options synthesized attributes: blocks : Blocks errors : Seq Error moduleDecl : Maybe (String,String,String) output : Grammar pragmas : Options -> Options alternatives: alternative AG: child elems : Elems visit 0: local allFields : _ local allConstrs : _ local allRules : _ local allSigs : _ local allInsts : _ local allUniques : _ local allAugments : _ local allArounds : _ local augmentSigs : _ local allRulesErrs : _ local allSigsErrs : _ local allInstsErrs : _ local allUniquesErrs : _ local allAugmentErrs : _ local allAroundsErrs : _ local checkedRulesPre : _ local checkedSigs : _ local checkedInsts : _ local checkedUniques : _ local checkedAugments : _ local checkedArounds : _ local checkedRules : _ local errs1 : _ local errs2 : _ local errs3 : _ local errs4 : _ local errs5 : _ local errs6 : _ local errs7 : _ local errs8 : _ local errs9 : _ local allNonterminals : _ local allAttrDecls : _ -} -- cata sem_AG :: AG -> T_AG sem_AG (AG _elems ) = (sem_AG_AG (sem_Elems _elems ) ) -- semantic domain newtype T_AG = T_AG (Options -> ( Blocks,(Seq Error),(Maybe (String,String,String)),Grammar,(Options -> Options))) data Inh_AG = Inh_AG {options_Inh_AG :: !(Options)} data Syn_AG = Syn_AG {blocks_Syn_AG :: !(Blocks),errors_Syn_AG :: !(Seq Error),moduleDecl_Syn_AG :: !(Maybe (String,String,String)),output_Syn_AG :: !(Grammar),pragmas_Syn_AG :: !(Options -> Options)} wrap_AG :: T_AG -> Inh_AG -> Syn_AG wrap_AG (T_AG sem ) (Inh_AG _lhsIoptions ) = (let ( _lhsOblocks,_lhsOerrors,_lhsOmoduleDecl,_lhsOoutput,_lhsOpragmas) = (sem _lhsIoptions ) in (Syn_AG _lhsOblocks _lhsOerrors _lhsOmoduleDecl _lhsOoutput _lhsOpragmas )) sem_AG_AG :: T_Elems -> T_AG sem_AG_AG (T_Elems elems_ ) = (T_AG (\ _lhsIoptions -> (let _lhsOoutput :: Grammar _lhsOerrors :: (Seq Error) _elemsOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _elemsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _elemsOdefinedSets :: DefinedSets _elemsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOblocks :: Blocks _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOpragmas :: (Options -> Options) _elemsOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _elemsOallFields :: DataTypes _elemsOallNonterminals :: (Set NontermIdent) _elemsIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _elemsIattrOrderCollect :: AttrOrderMap _elemsIblocks :: Blocks _elemsIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _elemsIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _elemsIcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _elemsIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _elemsIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _elemsIcollectedNames :: (Set Identifier) _elemsIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _elemsIcollectedSetNames :: (Set Identifier) _elemsIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _elemsIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _elemsIctxCollect :: ContextMap _elemsIdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _elemsIderivings :: Derivings _elemsIerrors :: (Seq Error) _elemsImoduleDecl :: (Maybe (String,String,String)) _elemsIparamsCollect :: ParamMap _elemsIpragmas :: (Options -> Options) _elemsIsemPragmasCollect :: PragmaMap _elemsItypeSyns :: TypeSyns _elemsIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _elemsIwrappers :: (Set NontermIdent) -- "Transform.ag"(line 51, column 8) _lhsOoutput = {-# LINE 51 "Transform.ag" #-} constructGrammar _allNonterminals _elemsIparamsCollect _allFields _allAttrDecls _elemsIuseMap _elemsIderivings (if wrappers _lhsIoptions then _allNonterminals else _elemsIwrappers) _checkedRules _checkedSigs _checkedInsts _elemsItypeSyns _elemsIsemPragmasCollect _elemsIattrOrderCollect _elemsIctxCollect _checkedUniques _checkedAugments _checkedArounds {-# LINE 534 "Transform.hs" #-} -- "Transform.ag"(line 243, column 10) _allFields = {-# LINE 243 "Transform.ag" #-} let f (nt,con,fm) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con fm) in foldr f (Map.empty) _elemsIcollectedFields {-# LINE 540 "Transform.hs" #-} -- "Transform.ag"(line 246, column 10) _allConstrs = {-# LINE 246 "Transform.ag" #-} let f (nt,con,_) = Map.insertWith (++) nt [con] in foldr f (Map.empty) _elemsIcollectedFields {-# LINE 546 "Transform.hs" #-} -- "Transform.ag"(line 249, column 10) _allRules = {-# LINE 249 "Transform.ag" #-} let f (nt,con,r) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con [r]) in foldr f (Map.empty) _elemsIcollectedRules {-# LINE 552 "Transform.hs" #-} -- "Transform.ag"(line 252, column 10) _allSigs = {-# LINE 252 "Transform.ag" #-} let f (nt,con,t) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con [t]) typeof nt r = Map.findWithDefault (Haskell "") r $ fst $ Map.findWithDefault (Map.empty,Map.empty) nt _allAttrDecls in foldr f (Map.empty) ( _elemsIcollectedSigs ++ [ (nt, con, (ident,typeof nt ref)) | (nt, con, us) <- _elemsIcollectedUniques, (ident,ref) <- us ] ) {-# LINE 561 "Transform.hs" #-} -- "Transform.ag"(line 258, column 10) _allInsts = {-# LINE 258 "Transform.ag" #-} let f (nt,con,is) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con is) in foldr f (Map.empty) _elemsIcollectedInsts {-# LINE 567 "Transform.hs" #-} -- "Transform.ag"(line 261, column 10) _allUniques = {-# LINE 261 "Transform.ag" #-} let f (nt,con,us) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con us) in foldr f (Map.empty) _elemsIcollectedUniques {-# LINE 573 "Transform.hs" #-} -- "Transform.ag"(line 263, column 10) _allAugments = {-# LINE 263 "Transform.ag" #-} let f (nt,con,as) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con as) in foldr f Map.empty _elemsIcollectedAugments {-# LINE 579 "Transform.hs" #-} -- "Transform.ag"(line 265, column 10) _allArounds = {-# LINE 265 "Transform.ag" #-} let f (nt,con,as) = Map.insertWith (Map.unionWith (++)) nt (Map.singleton con as) in foldr f Map.empty _elemsIcollectedArounds {-# LINE 585 "Transform.hs" #-} -- "Transform.ag"(line 268, column 10) _augmentSigs = {-# LINE 268 "Transform.ag" #-} let gen mp = [] in Map.map (Map.map gen) _allAugments {-# LINE 591 "Transform.hs" #-} -- "Transform.ag"(line 271, column 10) _allRulesErrs = {-# LINE 271 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkRules _allAttrDecls _allFields _allInsts _allSigs )) _allRules {-# LINE 596 "Transform.hs" #-} -- "Transform.ag"(line 272, column 10) _allSigsErrs = {-# LINE 272 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkSigs )) _allSigs {-# LINE 601 "Transform.hs" #-} -- "Transform.ag"(line 273, column 10) _allInstsErrs = {-# LINE 273 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkInsts _allNonterminals _allSigs _allFields )) _allInsts {-# LINE 606 "Transform.hs" #-} -- "Transform.ag"(line 274, column 10) _allUniquesErrs = {-# LINE 274 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkUniques _allAttrDecls )) _allUniques {-# LINE 611 "Transform.hs" #-} -- "Transform.ag"(line 275, column 10) _allAugmentErrs = {-# LINE 275 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkAugments _allAttrDecls )) _allAugments {-# LINE 616 "Transform.hs" #-} -- "Transform.ag"(line 276, column 10) _allAroundsErrs = {-# LINE 276 "Transform.ag" #-} Map.mapWithKey (Map.mapWithKey . (checkArounds _allFields )) _allArounds {-# LINE 621 "Transform.hs" #-} -- "Transform.ag"(line 278, column 10) _checkedRulesPre = {-# LINE 278 "Transform.ag" #-} Map.map (Map.map fst) _allRulesErrs {-# LINE 626 "Transform.hs" #-} -- "Transform.ag"(line 279, column 10) _checkedSigs = {-# LINE 279 "Transform.ag" #-} Map.map (Map.map fst) _allSigsErrs `unionunionplusplus` _augmentSigs {-# LINE 631 "Transform.hs" #-} -- "Transform.ag"(line 280, column 10) _checkedInsts = {-# LINE 280 "Transform.ag" #-} Map.map (Map.map fst) _allInstsErrs {-# LINE 636 "Transform.hs" #-} -- "Transform.ag"(line 281, column 10) _checkedUniques = {-# LINE 281 "Transform.ag" #-} Map.map (Map.map fst) _allUniquesErrs {-# LINE 641 "Transform.hs" #-} -- "Transform.ag"(line 282, column 10) _checkedAugments = {-# LINE 282 "Transform.ag" #-} Map.map (Map.map fst) _allAugmentErrs {-# LINE 646 "Transform.hs" #-} -- "Transform.ag"(line 283, column 10) _checkedArounds = {-# LINE 283 "Transform.ag" #-} Map.map (Map.map fst) _allAroundsErrs {-# LINE 651 "Transform.hs" #-} -- "Transform.ag"(line 284, column 10) _checkedRules = {-# LINE 284 "Transform.ag" #-} Map.unionWith (Map.unionWith (++)) _checkedRulesPre (Map.mapWithKey (Map.mapWithKey . (mkUniqueRules _lhsIoptions _allFields _allAttrDecls )) _checkedUniques ) {-# LINE 656 "Transform.hs" #-} -- "Transform.ag"(line 286, column 10) _errs1 = {-# LINE 286 "Transform.ag" #-} let f = checkForDuplicates (DupSynonym) in Seq.fromList . f . map fst $ _elemsItypeSyns {-# LINE 662 "Transform.hs" #-} -- "Transform.ag"(line 289, column 10) _errs2 = {-# LINE 289 "Transform.ag" #-} let g nt (con,fm) = checkForDuplicates (DupChild nt con) (map fst fm) f (nt,cfm) = concat . map (g nt) . Map.toList $ cfm in Seq.fromList . concat . map f . Map.toList $ _allFields {-# LINE 669 "Transform.hs" #-} -- "Transform.ag"(line 293, column 10) _errs3 = {-# LINE 293 "Transform.ag" #-} let f (nt,cons) = checkForDuplicates (DupAlt nt) cons in Seq.empty {-# LINE 675 "Transform.hs" #-} -- "Transform.ag"(line 297, column 10) _errs4 = {-# LINE 297 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allRulesErrs {-# LINE 681 "Transform.hs" #-} -- "Transform.ag"(line 300, column 10) _errs5 = {-# LINE 300 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allSigsErrs {-# LINE 687 "Transform.hs" #-} -- "Transform.ag"(line 303, column 10) _errs6 = {-# LINE 303 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allInstsErrs {-# LINE 693 "Transform.hs" #-} -- "Transform.ag"(line 306, column 10) _errs7 = {-# LINE 306 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allUniquesErrs {-# LINE 699 "Transform.hs" #-} -- "Transform.ag"(line 309, column 10) _errs8 = {-# LINE 309 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allAugmentErrs {-# LINE 705 "Transform.hs" #-} -- "Transform.ag"(line 312, column 10) _errs9 = {-# LINE 312 "Transform.ag" #-} let f m s = Map.fold ((><) . snd) s m in Map.fold f Seq.empty _allAroundsErrs {-# LINE 711 "Transform.hs" #-} -- "Transform.ag"(line 315, column 10) _lhsOerrors = {-# LINE 315 "Transform.ag" #-} _elemsIerrors >< _errs1 >< _errs2 >< _errs3 >< _errs4 >< _errs5 >< _errs6 >< _errs7 >< _errs8 >< _errs9 {-# LINE 716 "Transform.hs" #-} -- "Transform.ag"(line 487, column 10) _allNonterminals = {-# LINE 487 "Transform.ag" #-} _elemsIcollectedNames `Set.difference` _elemsIcollectedSetNames {-# LINE 721 "Transform.hs" #-} -- "Transform.ag"(line 507, column 8) _elemsOallConstructors = {-# LINE 507 "Transform.ag" #-} _elemsIcollectedConstructorsMap {-# LINE 726 "Transform.hs" #-} -- "Transform.ag"(line 580, column 8) _elemsOdefSets = {-# LINE 580 "Transform.ag" #-} Map.fromList (map (\x->(x,(Set.singleton x, Set.empty))) (Set.toList _allNonterminals )) {-# LINE 731 "Transform.hs" #-} -- "Transform.ag"(line 581, column 8) _elemsOdefinedSets = {-# LINE 581 "Transform.ag" #-} Map.map fst _elemsIdefSets {-# LINE 736 "Transform.hs" #-} -- "Transform.ag"(line 833, column 8) _elemsOattrDecls = {-# LINE 833 "Transform.ag" #-} Map.empty {-# LINE 741 "Transform.hs" #-} -- "Transform.ag"(line 872, column 9) _allAttrDecls = {-# LINE 872 "Transform.ag" #-} if withSelf _lhsIoptions then foldr addSelf _elemsIattrDecls (Set.toList _allNonterminals ) else _elemsIattrDecls {-# LINE 748 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} _elemsIblocks {-# LINE 753 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} _elemsImoduleDecl {-# LINE 758 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} _elemsIpragmas {-# LINE 763 "Transform.hs" #-} -- copy rule (from local) _elemsOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _allAttrDecls {-# LINE 768 "Transform.hs" #-} -- copy rule (from local) _elemsOallFields = {-# LINE 126 "Transform.ag" #-} _allFields {-# LINE 773 "Transform.hs" #-} -- copy rule (from local) _elemsOallNonterminals = {-# LINE 86 "Transform.ag" #-} _allNonterminals {-# LINE 778 "Transform.hs" #-} ( _elemsIattrDecls,_elemsIattrOrderCollect,_elemsIblocks,_elemsIcollectedArounds,_elemsIcollectedAugments,_elemsIcollectedConstructorsMap,_elemsIcollectedFields,_elemsIcollectedInsts,_elemsIcollectedNames,_elemsIcollectedRules,_elemsIcollectedSetNames,_elemsIcollectedSigs,_elemsIcollectedUniques,_elemsIctxCollect,_elemsIdefSets,_elemsIderivings,_elemsIerrors,_elemsImoduleDecl,_elemsIparamsCollect,_elemsIpragmas,_elemsIsemPragmasCollect,_elemsItypeSyns,_elemsIuseMap,_elemsIwrappers) = (elems_ _elemsOallAttrDecls _elemsOallConstructors _elemsOallFields _elemsOallNonterminals _elemsOattrDecls _elemsOdefSets _elemsOdefinedSets ) in ( _lhsOblocks,_lhsOerrors,_lhsOmoduleDecl,_lhsOoutput,_lhsOpragmas))) ) -- Alt --------------------------------------------------------- {- visit 0: inherited attributes: allConstructors : Map NontermIdent (Set ConstructorIdent) allNonterminals : Set NontermIdent nts : Set NontermIdent synthesized attributes: collectedConstructorNames : Set ConstructorIdent collectedFields : [(NontermIdent, ConstructorIdent, FieldMap)] alternatives: alternative Alt: child pos : {Pos} child names : ConstructorSet child fields : {Fields} -} -- cata sem_Alt :: Alt -> T_Alt sem_Alt (Alt _pos _names _fields ) = (sem_Alt_Alt _pos (sem_ConstructorSet _names ) _fields ) -- semantic domain newtype T_Alt = T_Alt ((Map NontermIdent (Set ConstructorIdent)) -> (Set NontermIdent) -> (Set NontermIdent) -> ( (Set ConstructorIdent),([(NontermIdent, ConstructorIdent, FieldMap)]))) data Inh_Alt = Inh_Alt {allConstructors_Inh_Alt :: !(Map NontermIdent (Set ConstructorIdent)),allNonterminals_Inh_Alt :: !(Set NontermIdent),nts_Inh_Alt :: !(Set NontermIdent)} data Syn_Alt = Syn_Alt {collectedConstructorNames_Syn_Alt :: !(Set ConstructorIdent),collectedFields_Syn_Alt :: !([(NontermIdent, ConstructorIdent, FieldMap)])} wrap_Alt :: T_Alt -> Inh_Alt -> Syn_Alt wrap_Alt (T_Alt sem ) (Inh_Alt _lhsIallConstructors _lhsIallNonterminals _lhsInts ) = (let ( _lhsOcollectedConstructorNames,_lhsOcollectedFields) = (sem _lhsIallConstructors _lhsIallNonterminals _lhsInts ) in (Syn_Alt _lhsOcollectedConstructorNames _lhsOcollectedFields )) sem_Alt_Alt :: Pos -> T_ConstructorSet -> Fields -> T_Alt sem_Alt_Alt pos_ (T_ConstructorSet names_ ) fields_ = (T_Alt (\ _lhsIallConstructors _lhsIallNonterminals _lhsInts -> (let _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _namesIcollectedConstructorNames :: (Set ConstructorIdent) _namesIconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _namesIerrors :: (Seq Error) -- "Transform.ag"(line 228, column 10) _lhsOcollectedFields = {-# LINE 228 "Transform.ag" #-} let fieldTable = [ (attr, makeType _lhsIallNonterminals tp) | (attr, tp) <- fields_ ] in [ (nt, con, fieldTable) | nt <- Set.toList _lhsInts , con <- Set.toList (_namesIconstructors (Map.findWithDefault Set.empty nt _lhsIallConstructors)) ] {-# LINE 841 "Transform.hs" #-} -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} _namesIcollectedConstructorNames {-# LINE 846 "Transform.hs" #-} ( _namesIcollectedConstructorNames,_namesIconstructors,_namesIerrors) = (names_ ) in ( _lhsOcollectedConstructorNames,_lhsOcollectedFields))) ) -- Alts -------------------------------------------------------- {- visit 0: inherited attributes: allConstructors : Map NontermIdent (Set ConstructorIdent) allNonterminals : Set NontermIdent nts : Set NontermIdent synthesized attributes: collectedConstructorNames : Set ConstructorIdent collectedFields : [(NontermIdent, ConstructorIdent, FieldMap)] alternatives: alternative Cons: child hd : Alt child tl : Alts alternative Nil: -} -- cata sem_Alts :: Alts -> T_Alts sem_Alts list = (Prelude.foldr sem_Alts_Cons sem_Alts_Nil (Prelude.map sem_Alt list) ) -- semantic domain newtype T_Alts = T_Alts ((Map NontermIdent (Set ConstructorIdent)) -> (Set NontermIdent) -> (Set NontermIdent) -> ( (Set ConstructorIdent),([(NontermIdent, ConstructorIdent, FieldMap)]))) data Inh_Alts = Inh_Alts {allConstructors_Inh_Alts :: !(Map NontermIdent (Set ConstructorIdent)),allNonterminals_Inh_Alts :: !(Set NontermIdent),nts_Inh_Alts :: !(Set NontermIdent)} data Syn_Alts = Syn_Alts {collectedConstructorNames_Syn_Alts :: !(Set ConstructorIdent),collectedFields_Syn_Alts :: !([(NontermIdent, ConstructorIdent, FieldMap)])} wrap_Alts :: T_Alts -> Inh_Alts -> Syn_Alts wrap_Alts (T_Alts sem ) (Inh_Alts _lhsIallConstructors _lhsIallNonterminals _lhsInts ) = (let ( _lhsOcollectedConstructorNames,_lhsOcollectedFields) = (sem _lhsIallConstructors _lhsIallNonterminals _lhsInts ) in (Syn_Alts _lhsOcollectedConstructorNames _lhsOcollectedFields )) sem_Alts_Cons :: T_Alt -> T_Alts -> T_Alts sem_Alts_Cons (T_Alt hd_ ) (T_Alts tl_ ) = (T_Alts (\ _lhsIallConstructors _lhsIallNonterminals _lhsInts -> (let _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _hdOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _hdOallNonterminals :: (Set NontermIdent) _hdOnts :: (Set NontermIdent) _tlOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _tlOallNonterminals :: (Set NontermIdent) _tlOnts :: (Set NontermIdent) _hdIcollectedConstructorNames :: (Set ConstructorIdent) _hdIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _tlIcollectedConstructorNames :: (Set ConstructorIdent) _tlIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} _hdIcollectedConstructorNames `Set.union` _tlIcollectedConstructorNames {-# LINE 908 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} _hdIcollectedFields ++ _tlIcollectedFields {-# LINE 913 "Transform.hs" #-} -- copy rule (down) _hdOallConstructors = {-# LINE 94 "Transform.ag" #-} _lhsIallConstructors {-# LINE 918 "Transform.hs" #-} -- copy rule (down) _hdOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 923 "Transform.hs" #-} -- copy rule (down) _hdOnts = {-# LINE 163 "Transform.ag" #-} _lhsInts {-# LINE 928 "Transform.hs" #-} -- copy rule (down) _tlOallConstructors = {-# LINE 94 "Transform.ag" #-} _lhsIallConstructors {-# LINE 933 "Transform.hs" #-} -- copy rule (down) _tlOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 938 "Transform.hs" #-} -- copy rule (down) _tlOnts = {-# LINE 163 "Transform.ag" #-} _lhsInts {-# LINE 943 "Transform.hs" #-} ( _hdIcollectedConstructorNames,_hdIcollectedFields) = (hd_ _hdOallConstructors _hdOallNonterminals _hdOnts ) ( _tlIcollectedConstructorNames,_tlIcollectedFields) = (tl_ _tlOallConstructors _tlOallNonterminals _tlOnts ) in ( _lhsOcollectedConstructorNames,_lhsOcollectedFields))) ) sem_Alts_Nil :: T_Alts sem_Alts_Nil = (T_Alts (\ _lhsIallConstructors _lhsIallNonterminals _lhsInts -> (let _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} Set.empty {-# LINE 960 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 965 "Transform.hs" #-} in ( _lhsOcollectedConstructorNames,_lhsOcollectedFields))) ) -- Attrs ------------------------------------------------------- {- visit 0: inherited attributes: allFields : DataTypes allNonterminals : Set NontermIdent nts : Set NontermIdent chained attribute: attrDecls : Map NontermIdent (Attributes, Attributes) synthesized attributes: errors : Seq Error useMap : Map NontermIdent (Map Identifier (String,String,String)) alternatives: alternative Attrs: child pos : {Pos} child inh : {AttrNames} child chn : {AttrNames} child syn : {AttrNames} visit 0: local _tup1 : _ local attrDecls : _ local errors : _ local _tup2 : _ local inherited : _ local synthesized : _ local useMap : _ -} -- cata sem_Attrs :: Attrs -> T_Attrs sem_Attrs (Attrs _pos _inh _chn _syn ) = (sem_Attrs_Attrs _pos _inh _chn _syn ) -- semantic domain newtype T_Attrs = T_Attrs (DataTypes -> (Set NontermIdent) -> (Map NontermIdent (Attributes, Attributes)) -> (Set NontermIdent) -> ( (Map NontermIdent (Attributes, Attributes)),(Seq Error),(Map NontermIdent (Map Identifier (String,String,String))))) data Inh_Attrs = Inh_Attrs {allFields_Inh_Attrs :: !(DataTypes),allNonterminals_Inh_Attrs :: !(Set NontermIdent),attrDecls_Inh_Attrs :: !(Map NontermIdent (Attributes, Attributes)),nts_Inh_Attrs :: !(Set NontermIdent)} data Syn_Attrs = Syn_Attrs {attrDecls_Syn_Attrs :: !(Map NontermIdent (Attributes, Attributes)),errors_Syn_Attrs :: !(Seq Error),useMap_Syn_Attrs :: !(Map NontermIdent (Map Identifier (String,String,String)))} wrap_Attrs :: T_Attrs -> Inh_Attrs -> Syn_Attrs wrap_Attrs (T_Attrs sem ) (Inh_Attrs _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsInts ) = (let ( _lhsOattrDecls,_lhsOerrors,_lhsOuseMap) = (sem _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsInts ) in (Syn_Attrs _lhsOattrDecls _lhsOerrors _lhsOuseMap )) sem_Attrs_Attrs :: Pos -> AttrNames -> AttrNames -> AttrNames -> T_Attrs sem_Attrs_Attrs pos_ inh_ chn_ syn_ = (T_Attrs (\ _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsInts -> (let _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOerrors :: (Seq Error) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) -- "Transform.ag"(line 841, column 15) __tup1 = {-# LINE 841 "Transform.ag" #-} checkAttrs _lhsIallFields (Set.toList _lhsInts) _inherited _synthesized _lhsIattrDecls {-# LINE 1031 "Transform.hs" #-} -- "Transform.ag"(line 841, column 15) (_attrDecls,_) = {-# LINE 841 "Transform.ag" #-} __tup1 {-# LINE 1036 "Transform.hs" #-} -- "Transform.ag"(line 841, column 15) (_,_errors) = {-# LINE 841 "Transform.ag" #-} __tup1 {-# LINE 1041 "Transform.hs" #-} -- "Transform.ag"(line 843, column 15) __tup2 = {-# LINE 843 "Transform.ag" #-} let splitAttrs xs = unzip [ ((n,makeType _lhsIallNonterminals t),(n,ud)) | (n,t,ud) <- xs ] (inh,_) = splitAttrs inh_ (chn,uses1) = splitAttrs chn_ (syn,uses2) = splitAttrs syn_ isUse (n,(e1,e2,_)) = not (null e1 || null e2) in (inh++chn,chn++syn, Map.fromList (Prelude.filter isUse (uses1++uses2))) {-# LINE 1053 "Transform.hs" #-} -- "Transform.ag"(line 843, column 15) (_inherited,_,_) = {-# LINE 843 "Transform.ag" #-} __tup2 {-# LINE 1058 "Transform.hs" #-} -- "Transform.ag"(line 843, column 15) (_,_synthesized,_) = {-# LINE 843 "Transform.ag" #-} __tup2 {-# LINE 1063 "Transform.hs" #-} -- "Transform.ag"(line 843, column 15) (_,_,_useMap) = {-# LINE 843 "Transform.ag" #-} __tup2 {-# LINE 1068 "Transform.hs" #-} -- "Transform.ag"(line 851, column 11) _lhsOuseMap = {-# LINE 851 "Transform.ag" #-} Map.fromList (zip (Set.toList _lhsInts) (repeat _useMap)) {-# LINE 1073 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _errors {-# LINE 1078 "Transform.hs" #-} -- copy rule (from local) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _attrDecls {-# LINE 1083 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOerrors,_lhsOuseMap))) ) -- ConstructorSet ---------------------------------------------- {- visit 0: synthesized attributes: collectedConstructorNames : Set ConstructorIdent constructors : (Set ConstructorIdent->Set ConstructorIdent) errors : Seq Error alternatives: alternative CAll: alternative CDifference: child set1 : ConstructorSet child set2 : ConstructorSet alternative CName: child name : {ConstructorIdent} alternative CUnion: child set1 : ConstructorSet child set2 : ConstructorSet -} -- cata sem_ConstructorSet :: ConstructorSet -> T_ConstructorSet sem_ConstructorSet (CAll ) = (sem_ConstructorSet_CAll ) sem_ConstructorSet (CDifference _set1 _set2 ) = (sem_ConstructorSet_CDifference (sem_ConstructorSet _set1 ) (sem_ConstructorSet _set2 ) ) sem_ConstructorSet (CName _name ) = (sem_ConstructorSet_CName _name ) sem_ConstructorSet (CUnion _set1 _set2 ) = (sem_ConstructorSet_CUnion (sem_ConstructorSet _set1 ) (sem_ConstructorSet _set2 ) ) -- semantic domain newtype T_ConstructorSet = T_ConstructorSet (( (Set ConstructorIdent),((Set ConstructorIdent->Set ConstructorIdent)),(Seq Error))) data Inh_ConstructorSet = Inh_ConstructorSet {} data Syn_ConstructorSet = Syn_ConstructorSet {collectedConstructorNames_Syn_ConstructorSet :: !(Set ConstructorIdent),constructors_Syn_ConstructorSet :: !((Set ConstructorIdent->Set ConstructorIdent)),errors_Syn_ConstructorSet :: !(Seq Error)} wrap_ConstructorSet :: T_ConstructorSet -> Inh_ConstructorSet -> Syn_ConstructorSet wrap_ConstructorSet (T_ConstructorSet sem ) (Inh_ConstructorSet ) = (let ( _lhsOcollectedConstructorNames,_lhsOconstructors,_lhsOerrors) = (sem ) in (Syn_ConstructorSet _lhsOcollectedConstructorNames _lhsOconstructors _lhsOerrors )) sem_ConstructorSet_CAll :: T_ConstructorSet sem_ConstructorSet_CAll = (T_ConstructorSet (let _lhsOconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOerrors :: (Seq Error) -- "Transform.ag"(line 647, column 17) _lhsOconstructors = {-# LINE 647 "Transform.ag" #-} \ds -> ds {-# LINE 1134 "Transform.hs" #-} -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} Set.empty {-# LINE 1139 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 1144 "Transform.hs" #-} in ( _lhsOcollectedConstructorNames,_lhsOconstructors,_lhsOerrors)) ) sem_ConstructorSet_CDifference :: T_ConstructorSet -> T_ConstructorSet -> T_ConstructorSet sem_ConstructorSet_CDifference (T_ConstructorSet set1_ ) (T_ConstructorSet set2_ ) = (T_ConstructorSet (let _lhsOconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOerrors :: (Seq Error) _set1IcollectedConstructorNames :: (Set ConstructorIdent) _set1Iconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _set1Ierrors :: (Seq Error) _set2IcollectedConstructorNames :: (Set ConstructorIdent) _set2Iconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _set2Ierrors :: (Seq Error) -- "Transform.ag"(line 646, column 17) _lhsOconstructors = {-# LINE 646 "Transform.ag" #-} \ds -> _set1Iconstructors ds `Set.difference` _set2Iconstructors ds {-# LINE 1163 "Transform.hs" #-} -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} _set1IcollectedConstructorNames `Set.union` _set2IcollectedConstructorNames {-# LINE 1168 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _set1Ierrors Seq.>< _set2Ierrors {-# LINE 1173 "Transform.hs" #-} ( _set1IcollectedConstructorNames,_set1Iconstructors,_set1Ierrors) = (set1_ ) ( _set2IcollectedConstructorNames,_set2Iconstructors,_set2Ierrors) = (set2_ ) in ( _lhsOcollectedConstructorNames,_lhsOconstructors,_lhsOerrors)) ) sem_ConstructorSet_CName :: ConstructorIdent -> T_ConstructorSet sem_ConstructorSet_CName name_ = (T_ConstructorSet (let _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _lhsOerrors :: (Seq Error) -- "Transform.ag"(line 495, column 11) _lhsOcollectedConstructorNames = {-# LINE 495 "Transform.ag" #-} Set.singleton name_ {-# LINE 1189 "Transform.hs" #-} -- "Transform.ag"(line 644, column 17) _lhsOconstructors = {-# LINE 644 "Transform.ag" #-} \ds -> Set.singleton name_ {-# LINE 1194 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 1199 "Transform.hs" #-} in ( _lhsOcollectedConstructorNames,_lhsOconstructors,_lhsOerrors)) ) sem_ConstructorSet_CUnion :: T_ConstructorSet -> T_ConstructorSet -> T_ConstructorSet sem_ConstructorSet_CUnion (T_ConstructorSet set1_ ) (T_ConstructorSet set2_ ) = (T_ConstructorSet (let _lhsOconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _lhsOcollectedConstructorNames :: (Set ConstructorIdent) _lhsOerrors :: (Seq Error) _set1IcollectedConstructorNames :: (Set ConstructorIdent) _set1Iconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _set1Ierrors :: (Seq Error) _set2IcollectedConstructorNames :: (Set ConstructorIdent) _set2Iconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _set2Ierrors :: (Seq Error) -- "Transform.ag"(line 645, column 17) _lhsOconstructors = {-# LINE 645 "Transform.ag" #-} \ds -> _set1Iconstructors ds `Set.union` _set2Iconstructors ds {-# LINE 1218 "Transform.hs" #-} -- use rule "Transform.ag"(line 91, column 62) _lhsOcollectedConstructorNames = {-# LINE 91 "Transform.ag" #-} _set1IcollectedConstructorNames `Set.union` _set2IcollectedConstructorNames {-# LINE 1223 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _set1Ierrors Seq.>< _set2Ierrors {-# LINE 1228 "Transform.hs" #-} ( _set1IcollectedConstructorNames,_set1Iconstructors,_set1Ierrors) = (set1_ ) ( _set2IcollectedConstructorNames,_set2Iconstructors,_set2Ierrors) = (set2_ ) in ( _lhsOcollectedConstructorNames,_lhsOconstructors,_lhsOerrors)) ) -- Elem -------------------------------------------------------- {- visit 0: inherited attributes: allAttrDecls : Map NontermIdent (Attributes, Attributes) allConstructors : Map NontermIdent (Set ConstructorIdent) allFields : DataTypes allNonterminals : Set NontermIdent definedSets : DefinedSets chained attributes: attrDecls : Map NontermIdent (Attributes, Attributes) defSets : Map Identifier (Set NontermIdent,Set Identifier) synthesized attributes: attrOrderCollect : AttrOrderMap blocks : Blocks collectedArounds : [ (NontermIdent, ConstructorIdent, [AroundInfo]) ] collectedAugments : [ (NontermIdent, ConstructorIdent, [AugmentInfo]) ] collectedConstructorsMap : Map NontermIdent (Set ConstructorIdent) collectedFields : [(NontermIdent, ConstructorIdent, FieldMap)] collectedInsts : [ (NontermIdent, ConstructorIdent, [Identifier]) ] collectedNames : Set Identifier collectedRules : [ (NontermIdent, ConstructorIdent, RuleInfo)] collectedSetNames : Set Identifier collectedSigs : [ (NontermIdent, ConstructorIdent, SigInfo) ] collectedUniques : [ (NontermIdent, ConstructorIdent, [UniqueInfo]) ] ctxCollect : ContextMap derivings : Derivings errors : Seq Error moduleDecl : Maybe (String,String,String) paramsCollect : ParamMap pragmas : Options -> Options semPragmasCollect : PragmaMap typeSyns : TypeSyns useMap : Map NontermIdent (Map Identifier (String,String,String)) wrappers : Set NontermIdent alternatives: alternative Attr: child pos : {Pos} child ctx : {ClassContext} child names : NontSet child attrs : Attrs alternative Data: child pos : {Pos} child ctx : {ClassContext} child names : NontSet child params : {[Identifier]} child attrs : Attrs child alts : Alts child ext : {Bool} alternative Deriving: child pos : {Pos} child set : NontSet child classes : {[NontermIdent]} alternative Module: child pos : {Pos} child name : {String} child exports : {String} child imports : {String} alternative Pragma: child pos : {Pos} child names : {[NontermIdent]} alternative Sem: child pos : {Pos} child ctx : {ClassContext} child names : NontSet child attrs : Attrs child alts : SemAlts alternative Set: child pos : {Pos} child name : {NontermIdent} child set : NontSet visit 0: local _tup3 : _ local defSets2 : _ local errs : _ alternative Txt: child pos : {Pos} child name : {Identifier} child mbNt : {Maybe NontermIdent} child lines : {[String]} visit 0: local blockInfo : _ local blockValue : _ alternative Type: child pos : {Pos} child ctx : {ClassContext} child name : {NontermIdent} child params : {[Identifier]} child type : {ComplexType} visit 0: local expanded : _ local argType : _ alternative Wrapper: child pos : {Pos} child set : NontSet -} -- cata sem_Elem :: Elem -> T_Elem sem_Elem (Attr _pos _ctx _names _attrs ) = (sem_Elem_Attr _pos _ctx (sem_NontSet _names ) (sem_Attrs _attrs ) ) sem_Elem (Data _pos _ctx _names _params _attrs _alts _ext ) = (sem_Elem_Data _pos _ctx (sem_NontSet _names ) _params (sem_Attrs _attrs ) (sem_Alts _alts ) _ext ) sem_Elem (Deriving _pos _set _classes ) = (sem_Elem_Deriving _pos (sem_NontSet _set ) _classes ) sem_Elem (Module _pos _name _exports _imports ) = (sem_Elem_Module _pos _name _exports _imports ) sem_Elem (Pragma _pos _names ) = (sem_Elem_Pragma _pos _names ) sem_Elem (Sem _pos _ctx _names _attrs _alts ) = (sem_Elem_Sem _pos _ctx (sem_NontSet _names ) (sem_Attrs _attrs ) (sem_SemAlts _alts ) ) sem_Elem (Set _pos _name _set ) = (sem_Elem_Set _pos _name (sem_NontSet _set ) ) sem_Elem (Txt _pos _name _mbNt _lines ) = (sem_Elem_Txt _pos _name _mbNt _lines ) sem_Elem (Type _pos _ctx _name _params _type ) = (sem_Elem_Type _pos _ctx _name _params _type ) sem_Elem (Wrapper _pos _set ) = (sem_Elem_Wrapper _pos (sem_NontSet _set ) ) -- semantic domain newtype T_Elem = T_Elem ((Map NontermIdent (Attributes, Attributes)) -> (Map NontermIdent (Set ConstructorIdent)) -> DataTypes -> (Set NontermIdent) -> (Map NontermIdent (Attributes, Attributes)) -> (Map Identifier (Set NontermIdent,Set Identifier)) -> DefinedSets -> ( (Map NontermIdent (Attributes, Attributes)),AttrOrderMap,Blocks,([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),(Map NontermIdent (Set ConstructorIdent)),([(NontermIdent, ConstructorIdent, FieldMap)]),([ (NontermIdent, ConstructorIdent, [Identifier]) ]),(Set Identifier),([ (NontermIdent, ConstructorIdent, RuleInfo)]),(Set Identifier),([ (NontermIdent, ConstructorIdent, SigInfo) ]),([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),ContextMap,(Map Identifier (Set NontermIdent,Set Identifier)),Derivings,(Seq Error),(Maybe (String,String,String)),ParamMap,(Options -> Options),PragmaMap,TypeSyns,(Map NontermIdent (Map Identifier (String,String,String))),(Set NontermIdent))) data Inh_Elem = Inh_Elem {allAttrDecls_Inh_Elem :: !(Map NontermIdent (Attributes, Attributes)),allConstructors_Inh_Elem :: !(Map NontermIdent (Set ConstructorIdent)),allFields_Inh_Elem :: !(DataTypes),allNonterminals_Inh_Elem :: !(Set NontermIdent),attrDecls_Inh_Elem :: !(Map NontermIdent (Attributes, Attributes)),defSets_Inh_Elem :: !(Map Identifier (Set NontermIdent,Set Identifier)),definedSets_Inh_Elem :: !(DefinedSets)} data Syn_Elem = Syn_Elem {attrDecls_Syn_Elem :: !(Map NontermIdent (Attributes, Attributes)),attrOrderCollect_Syn_Elem :: !(AttrOrderMap),blocks_Syn_Elem :: !(Blocks),collectedArounds_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),collectedAugments_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),collectedConstructorsMap_Syn_Elem :: !(Map NontermIdent (Set ConstructorIdent)),collectedFields_Syn_Elem :: !([(NontermIdent, ConstructorIdent, FieldMap)]),collectedInsts_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, [Identifier]) ]),collectedNames_Syn_Elem :: !(Set Identifier),collectedRules_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, RuleInfo)]),collectedSetNames_Syn_Elem :: !(Set Identifier),collectedSigs_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, SigInfo) ]),collectedUniques_Syn_Elem :: !([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),ctxCollect_Syn_Elem :: !(ContextMap),defSets_Syn_Elem :: !(Map Identifier (Set NontermIdent,Set Identifier)),derivings_Syn_Elem :: !(Derivings),errors_Syn_Elem :: !(Seq Error),moduleDecl_Syn_Elem :: !(Maybe (String,String,String)),paramsCollect_Syn_Elem :: !(ParamMap),pragmas_Syn_Elem :: !(Options -> Options),semPragmasCollect_Syn_Elem :: !(PragmaMap),typeSyns_Syn_Elem :: !(TypeSyns),useMap_Syn_Elem :: !(Map NontermIdent (Map Identifier (String,String,String))),wrappers_Syn_Elem :: !(Set NontermIdent)} wrap_Elem :: T_Elem -> Inh_Elem -> Syn_Elem wrap_Elem (T_Elem sem ) (Inh_Elem _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets ) = (let ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers) = (sem _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets ) in (Syn_Elem _lhsOattrDecls _lhsOattrOrderCollect _lhsOblocks _lhsOcollectedArounds _lhsOcollectedAugments _lhsOcollectedConstructorsMap _lhsOcollectedFields _lhsOcollectedInsts _lhsOcollectedNames _lhsOcollectedRules _lhsOcollectedSetNames _lhsOcollectedSigs _lhsOcollectedUniques _lhsOctxCollect _lhsOdefSets _lhsOderivings _lhsOerrors _lhsOmoduleDecl _lhsOparamsCollect _lhsOpragmas _lhsOsemPragmasCollect _lhsOtypeSyns _lhsOuseMap _lhsOwrappers )) sem_Elem_Attr :: Pos -> ClassContext -> T_NontSet -> T_Attrs -> T_Elem sem_Elem_Attr pos_ ctx_ (T_NontSet names_ ) (T_Attrs attrs_ ) = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOctxCollect :: ContextMap _attrsOnts :: (Set NontermIdent) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _namesOallFields :: DataTypes _namesOallNonterminals :: (Set NontermIdent) _namesOdefinedSets :: DefinedSets _attrsOallFields :: DataTypes _attrsOallNonterminals :: (Set NontermIdent) _attrsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _namesIcollectedNames :: (Set Identifier) _namesIerrors :: (Seq Error) _namesInontSet :: (Set NontermIdent) _attrsIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _attrsIerrors :: (Seq Error) _attrsIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) -- "Transform.ag"(line 793, column 7) _lhsOctxCollect = {-# LINE 793 "Transform.ag" #-} if null ctx_ then Map.empty else Map.fromList [(nt, ctx_) | nt <- Set.toList _namesInontSet] {-# LINE 1427 "Transform.hs" #-} -- "Transform.ag"(line 837, column 10) _attrsOnts = {-# LINE 837 "Transform.ag" #-} _namesInontSet {-# LINE 1432 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 1437 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 1442 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 1447 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 1452 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 1457 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 1462 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 1467 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _namesIcollectedNames {-# LINE 1472 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 1477 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 1482 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 1487 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 1492 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 1497 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _namesIerrors Seq.>< _attrsIerrors {-# LINE 1502 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 1507 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 1512 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 1517 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 1522 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 1527 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} _attrsIuseMap {-# LINE 1532 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 1537 "Transform.hs" #-} -- copy rule (up) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _attrsIattrDecls {-# LINE 1542 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 1547 "Transform.hs" #-} -- copy rule (down) _namesOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 1552 "Transform.hs" #-} -- copy rule (down) _namesOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1557 "Transform.hs" #-} -- copy rule (down) _namesOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 1562 "Transform.hs" #-} -- copy rule (down) _attrsOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 1567 "Transform.hs" #-} -- copy rule (down) _attrsOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1572 "Transform.hs" #-} -- copy rule (down) _attrsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 1577 "Transform.hs" #-} ( _namesIcollectedNames,_namesIerrors,_namesInontSet) = (names_ _namesOallFields _namesOallNonterminals _namesOdefinedSets ) ( _attrsIattrDecls,_attrsIerrors,_attrsIuseMap) = (attrs_ _attrsOallFields _attrsOallNonterminals _attrsOattrDecls _attrsOnts ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Data :: Pos -> ClassContext -> T_NontSet -> ([Identifier]) -> T_Attrs -> T_Alts -> Bool -> T_Elem sem_Elem_Data pos_ ctx_ (T_NontSet names_ ) params_ (T_Attrs attrs_ ) (T_Alts alts_ ) ext_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _altsOnts :: (Set NontermIdent) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOparamsCollect :: ParamMap _lhsOctxCollect :: ContextMap _attrsOnts :: (Set NontermIdent) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _namesOallFields :: DataTypes _namesOallNonterminals :: (Set NontermIdent) _namesOdefinedSets :: DefinedSets _attrsOallFields :: DataTypes _attrsOallNonterminals :: (Set NontermIdent) _attrsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _altsOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _altsOallNonterminals :: (Set NontermIdent) _namesIcollectedNames :: (Set Identifier) _namesIerrors :: (Seq Error) _namesInontSet :: (Set NontermIdent) _attrsIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _attrsIerrors :: (Seq Error) _attrsIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _altsIcollectedConstructorNames :: (Set ConstructorIdent) _altsIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) -- "Transform.ag"(line 166, column 10) _altsOnts = {-# LINE 166 "Transform.ag" #-} _namesInontSet {-# LINE 1645 "Transform.hs" #-} -- "Transform.ag"(line 501, column 11) _lhsOcollectedConstructorsMap = {-# LINE 501 "Transform.ag" #-} Map.fromList [ (n, _altsIcollectedConstructorNames) | n <- Set.toList _namesInontSet ] {-# LINE 1653 "Transform.hs" #-} -- "Transform.ag"(line 770, column 7) _lhsOparamsCollect = {-# LINE 770 "Transform.ag" #-} if null params_ then Map.empty else Map.fromList [(nt, params_) | nt <- Set.toList _namesInontSet] {-# LINE 1660 "Transform.hs" #-} -- "Transform.ag"(line 793, column 7) _lhsOctxCollect = {-# LINE 793 "Transform.ag" #-} if null ctx_ then Map.empty else Map.fromList [(nt, ctx_) | nt <- Set.toList _namesInontSet] {-# LINE 1667 "Transform.hs" #-} -- "Transform.ag"(line 836, column 10) _attrsOnts = {-# LINE 836 "Transform.ag" #-} _namesInontSet {-# LINE 1672 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 1677 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 1682 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 1687 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 1692 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} _altsIcollectedFields {-# LINE 1697 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 1702 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _namesIcollectedNames {-# LINE 1707 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 1712 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 1717 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 1722 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 1727 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 1732 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _namesIerrors Seq.>< _attrsIerrors {-# LINE 1737 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 1742 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 1747 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 1752 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 1757 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} _attrsIuseMap {-# LINE 1762 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 1767 "Transform.hs" #-} -- copy rule (up) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _attrsIattrDecls {-# LINE 1772 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 1777 "Transform.hs" #-} -- copy rule (down) _namesOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 1782 "Transform.hs" #-} -- copy rule (down) _namesOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1787 "Transform.hs" #-} -- copy rule (down) _namesOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 1792 "Transform.hs" #-} -- copy rule (down) _attrsOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 1797 "Transform.hs" #-} -- copy rule (down) _attrsOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1802 "Transform.hs" #-} -- copy rule (down) _attrsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 1807 "Transform.hs" #-} -- copy rule (down) _altsOallConstructors = {-# LINE 94 "Transform.ag" #-} _lhsIallConstructors {-# LINE 1812 "Transform.hs" #-} -- copy rule (down) _altsOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1817 "Transform.hs" #-} ( _namesIcollectedNames,_namesIerrors,_namesInontSet) = (names_ _namesOallFields _namesOallNonterminals _namesOdefinedSets ) ( _attrsIattrDecls,_attrsIerrors,_attrsIuseMap) = (attrs_ _attrsOallFields _attrsOallNonterminals _attrsOattrDecls _attrsOnts ) ( _altsIcollectedConstructorNames,_altsIcollectedFields) = (alts_ _altsOallConstructors _altsOallNonterminals _altsOnts ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Deriving :: Pos -> T_NontSet -> ([NontermIdent]) -> T_Elem sem_Elem_Deriving pos_ (T_NontSet set_ ) classes_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOderivings :: Derivings _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _setOallFields :: DataTypes _setOallNonterminals :: (Set NontermIdent) _setOdefinedSets :: DefinedSets _setIcollectedNames :: (Set Identifier) _setIerrors :: (Seq Error) _setInontSet :: (Set NontermIdent) -- "Transform.ag"(line 821, column 14) _lhsOderivings = {-# LINE 821 "Transform.ag" #-} Map.fromList [(nt,Set.fromList classes_) | nt <- Set.toList _setInontSet] {-# LINE 1871 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 1876 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 1881 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 1886 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 1891 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 1896 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 1901 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 1906 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _setIcollectedNames {-# LINE 1911 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 1916 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 1921 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 1926 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 1931 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 1936 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _setIerrors {-# LINE 1941 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 1946 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 1951 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 1956 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 1961 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 1966 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 1971 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 1976 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 1981 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 1986 "Transform.hs" #-} -- copy rule (down) _setOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 1991 "Transform.hs" #-} -- copy rule (down) _setOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 1996 "Transform.hs" #-} -- copy rule (down) _setOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 2001 "Transform.hs" #-} ( _setIcollectedNames,_setIerrors,_setInontSet) = (set_ _setOallFields _setOallNonterminals _setOdefinedSets ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Module :: Pos -> String -> String -> String -> T_Elem sem_Elem_Module pos_ name_ exports_ imports_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) -- "Transform.ag"(line 989, column 7) _lhsOmoduleDecl = {-# LINE 989 "Transform.ag" #-} Just (name_, exports_, imports_) {-# LINE 2046 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 2051 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 2056 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 2061 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 2066 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 2071 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 2076 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 2081 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 2086 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 2091 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 2096 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 2101 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 2106 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 2111 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 2116 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 2121 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 2126 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 2131 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 2136 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 2141 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 2146 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 2151 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 2156 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 2161 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Pragma :: Pos -> ([NontermIdent]) -> T_Elem sem_Elem_Pragma pos_ names_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOpragmas :: (Options -> Options) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) -- "Transform.ag"(line 665, column 13) _lhsOpragmas = {-# LINE 665 "Transform.ag" #-} let mk n o = case getName n of "gencatas" -> o { folds = True } "nogencatas" -> o { folds = False } "gendatas" -> o { dataTypes = True } "nogendatas" -> o { dataTypes = False } "gensems" -> o { semfuns = True } "nogensems" -> o { semfuns = False } "gentypesigs" -> o { typeSigs = True } "nogentypesigs"-> o { typeSigs = False } "nocycle" -> o { withCycle = False } "cycle" -> o { withCycle = True } "nostrictdata" -> o { strictData = False } "strictdata" -> o { strictData = True } "nostrictcase" -> o { strictCases = False } "strictcase" -> o { strictCases = True } "strictercase" -> o { strictCases = True, stricterCases = True } "nostrictwrap" -> o { strictWrap = False } "strictwrap" -> o { strictWrap = True } "novisit" -> o { visit = False } "visit" -> o { visit = True } "nocase" -> o { cases = False } "case" -> o { cases = True } "noseq" -> o { withSeq = False } "seq" -> o { withSeq = True } "nounbox" -> o { unbox = False } "unbox" -> o { unbox = True } "bangpats" -> o { bangpats = True } "nooptimize" -> o { cases = False , visit = False } "optimize" -> o { cases = True , visit = True } "strictsem" -> o { strictSems = True } "gentraces" -> o { genTraces = True } "genusetraces" -> o { genUseTraces = True } "splitsems" -> o { splitSems = True } "gencostcentres" -> o { genCostCentres = True } "sepsemmods" -> o { sepSemMods = True } "genlinepragmas" -> o { genLinePragmas = True } "newtypes" -> o { newtypes = True } "nonewtypes" -> o { newtypes = False } _ -> o in \o -> foldr mk o names_ {-# LINE 2241 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 2246 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 2251 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 2256 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 2261 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 2266 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 2271 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 2276 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 2281 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 2286 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 2291 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 2296 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 2301 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 2306 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 2311 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 2316 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 2321 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 2326 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 2331 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 2336 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 2341 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 2346 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 2351 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 2356 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Sem :: Pos -> ClassContext -> T_NontSet -> T_Attrs -> T_SemAlts -> T_Elem sem_Elem_Sem pos_ ctx_ (T_NontSet names_ ) (T_Attrs attrs_ ) (T_SemAlts alts_ ) = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _altsOnts :: (Set NontermIdent) _lhsOctxCollect :: ContextMap _attrsOnts :: (Set NontermIdent) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _namesOallFields :: DataTypes _namesOallNonterminals :: (Set NontermIdent) _namesOdefinedSets :: DefinedSets _attrsOallFields :: DataTypes _attrsOallNonterminals :: (Set NontermIdent) _attrsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _altsOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _altsOallFields :: DataTypes _namesIcollectedNames :: (Set Identifier) _namesIerrors :: (Seq Error) _namesInontSet :: (Set NontermIdent) _attrsIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _attrsIerrors :: (Seq Error) _attrsIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _altsIattrOrderCollect :: AttrOrderMap _altsIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _altsIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _altsIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _altsIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _altsIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _altsIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _altsIerrors :: (Seq Error) _altsIsemPragmasCollect :: PragmaMap -- "Transform.ag"(line 167, column 10) _altsOnts = {-# LINE 167 "Transform.ag" #-} _namesInontSet {-# LINE 2425 "Transform.hs" #-} -- "Transform.ag"(line 793, column 7) _lhsOctxCollect = {-# LINE 793 "Transform.ag" #-} if null ctx_ then Map.empty else Map.fromList [(nt, ctx_) | nt <- Set.toList _namesInontSet] {-# LINE 2432 "Transform.hs" #-} -- "Transform.ag"(line 838, column 10) _attrsOnts = {-# LINE 838 "Transform.ag" #-} _namesInontSet {-# LINE 2437 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} _altsIattrOrderCollect {-# LINE 2442 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 2447 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} _altsIcollectedArounds {-# LINE 2452 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} _altsIcollectedAugments {-# LINE 2457 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 2462 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 2467 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} _altsIcollectedInsts {-# LINE 2472 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _namesIcollectedNames {-# LINE 2477 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} _altsIcollectedRules {-# LINE 2482 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 2487 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} _altsIcollectedSigs {-# LINE 2492 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} _altsIcollectedUniques {-# LINE 2497 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 2502 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _namesIerrors Seq.>< _attrsIerrors Seq.>< _altsIerrors {-# LINE 2507 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 2512 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 2517 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 2522 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} _altsIsemPragmasCollect {-# LINE 2527 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 2532 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} _attrsIuseMap {-# LINE 2537 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 2542 "Transform.hs" #-} -- copy rule (up) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _attrsIattrDecls {-# LINE 2547 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 2552 "Transform.hs" #-} -- copy rule (down) _namesOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 2557 "Transform.hs" #-} -- copy rule (down) _namesOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 2562 "Transform.hs" #-} -- copy rule (down) _namesOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 2567 "Transform.hs" #-} -- copy rule (down) _attrsOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 2572 "Transform.hs" #-} -- copy rule (down) _attrsOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 2577 "Transform.hs" #-} -- copy rule (down) _attrsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 2582 "Transform.hs" #-} -- copy rule (down) _altsOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _lhsIallAttrDecls {-# LINE 2587 "Transform.hs" #-} -- copy rule (down) _altsOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 2592 "Transform.hs" #-} ( _namesIcollectedNames,_namesIerrors,_namesInontSet) = (names_ _namesOallFields _namesOallNonterminals _namesOdefinedSets ) ( _attrsIattrDecls,_attrsIerrors,_attrsIuseMap) = (attrs_ _attrsOallFields _attrsOallNonterminals _attrsOattrDecls _attrsOnts ) ( _altsIattrOrderCollect,_altsIcollectedArounds,_altsIcollectedAugments,_altsIcollectedInsts,_altsIcollectedRules,_altsIcollectedSigs,_altsIcollectedUniques,_altsIerrors,_altsIsemPragmasCollect) = (alts_ _altsOallAttrDecls _altsOallFields _altsOnts ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Set :: Pos -> NontermIdent -> T_NontSet -> T_Elem sem_Elem_Set pos_ name_ (T_NontSet set_ ) = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOcollectedSetNames :: (Set Identifier) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _lhsOerrors :: (Seq Error) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _setOallFields :: DataTypes _setOallNonterminals :: (Set NontermIdent) _setOdefinedSets :: DefinedSets _setIcollectedNames :: (Set Identifier) _setIerrors :: (Seq Error) _setInontSet :: (Set NontermIdent) -- "Transform.ag"(line 478, column 10) _lhsOcollectedSetNames = {-# LINE 478 "Transform.ag" #-} Set.singleton name_ {-# LINE 2646 "Transform.hs" #-} -- "Transform.ag"(line 585, column 13) __tup3 = {-# LINE 585 "Transform.ag" #-} let allUsedNames = Set.unions [ maybe (Set.singleton n) snd (Map.lookup n _lhsIdefSets) | n <- Set.toList _setIcollectedNames ] (nontSet,e1) | Set.member name_ allUsedNames = (Set.empty, Seq.singleton(CyclicSet name_)) | otherwise = (_setInontSet, Seq.empty) (res, e2) = checkDuplicate DupSet name_ (nontSet,Set.insert name_ allUsedNames) _lhsIdefSets in (res, e1 Seq.>< e2) {-# LINE 2660 "Transform.hs" #-} -- "Transform.ag"(line 585, column 13) (_defSets2,_) = {-# LINE 585 "Transform.ag" #-} __tup3 {-# LINE 2665 "Transform.hs" #-} -- "Transform.ag"(line 585, column 13) (_,_errs) = {-# LINE 585 "Transform.ag" #-} __tup3 {-# LINE 2670 "Transform.hs" #-} -- "Transform.ag"(line 595, column 9) _lhsOdefSets = {-# LINE 595 "Transform.ag" #-} _defSets2 {-# LINE 2675 "Transform.hs" #-} -- "Transform.ag"(line 595, column 9) _lhsOerrors = {-# LINE 596 "Transform.ag" #-} _errs >< _setIerrors {-# LINE 2680 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 2685 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 2690 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 2695 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 2700 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 2705 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 2710 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 2715 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _setIcollectedNames {-# LINE 2720 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 2725 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 2730 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 2735 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 2740 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 2745 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 2750 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 2755 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 2760 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 2765 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 2770 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 2775 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 2780 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 2785 "Transform.hs" #-} -- copy rule (down) _setOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 2790 "Transform.hs" #-} -- copy rule (down) _setOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 2795 "Transform.hs" #-} -- copy rule (down) _setOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 2800 "Transform.hs" #-} ( _setIcollectedNames,_setIerrors,_setInontSet) = (set_ _setOallFields _setOallNonterminals _setOdefinedSets ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Txt :: Pos -> Identifier -> (Maybe NontermIdent) -> ([String]) -> T_Elem sem_Elem_Txt pos_ name_ mbNt_ lines_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOblocks :: Blocks _lhsOattrOrderCollect :: AttrOrderMap _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) -- "Transform.ag"(line 176, column 10) _blockInfo = {-# LINE 176 "Transform.ag" #-} ( let nm = getName name_ in if nm == "imports" then BlockImport else if nm == "optpragmas" then BlockPragma else BlockOther , mbNt_ ) {-# LINE 2852 "Transform.hs" #-} -- "Transform.ag"(line 184, column 10) _blockValue = {-# LINE 184 "Transform.ag" #-} [(lines_, pos_)] {-# LINE 2857 "Transform.hs" #-} -- "Transform.ag"(line 185, column 10) _lhsOblocks = {-# LINE 185 "Transform.ag" #-} Map.singleton _blockInfo _blockValue {-# LINE 2862 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 2867 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 2872 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 2877 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 2882 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 2887 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 2892 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 2897 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 2902 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 2907 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 2912 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 2917 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 2922 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 2927 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 2932 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 2937 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 2942 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 2947 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 2952 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 2957 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 2962 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 2967 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 2972 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 2977 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Type :: Pos -> ClassContext -> NontermIdent -> ([Identifier]) -> ComplexType -> T_Elem sem_Elem_Type pos_ ctx_ name_ params_ type_ = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedNames :: (Set Identifier) _lhsOtypeSyns :: TypeSyns _lhsOparamsCollect :: ParamMap _lhsOctxCollect :: ContextMap _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) -- "Transform.ag"(line 238, column 10) _lhsOcollectedFields = {-# LINE 238 "Transform.ag" #-} map (\(x,y)->(name_, x, y)) _expanded {-# LINE 3021 "Transform.hs" #-} -- "Transform.ag"(line 481, column 11) _lhsOcollectedNames = {-# LINE 481 "Transform.ag" #-} Set.singleton name_ {-# LINE 3026 "Transform.hs" #-} -- "Transform.ag"(line 535, column 11) _expanded = {-# LINE 535 "Transform.ag" #-} case _argType of List tp -> [(Ident "Cons" pos_, [(Ident "hd" pos_, tp) ,(Ident "tl" pos_, NT name_ (map getName params_)) ] ) ,(Ident "Nil" pos_, []) ] Maybe tp -> [(Ident "Just" pos_, [(Ident "just" pos_, tp) ] ) ,(Ident "Nothing" pos_, []) ] Either tp1 tp2 -> [ (Ident "Left" pos_, [(Ident "left" pos_, tp1) ]) , (Ident "Right" pos_, [(Ident "right" pos_, tp2) ]) ] Map tp1 tp2 -> [ (Ident "Entry" pos_, [ (Ident "key" pos_, tp1) , (Ident "val" pos_, tp2) , (Ident "tl" pos_, NT name_ (map getName params_)) ]) , (Ident "Nil" pos_, []) ] IntMap tp -> [ (Ident "Entry" pos_, [ (Ident "key" pos_, Haskell "Int") , (Ident "val" pos_, tp) , (Ident "tl" pos_, NT name_ (map getName params_)) ]) , (Ident "Nil" pos_, []) ] Tuple xs -> [(Ident "Tuple" pos_, xs)] {-# LINE 3059 "Transform.hs" #-} -- "Transform.ag"(line 564, column 11) _argType = {-# LINE 564 "Transform.ag" #-} case type_ of Maybe tp -> Maybe ( makeType _lhsIallNonterminals tp) Either tp1 tp2 -> Either ( makeType _lhsIallNonterminals tp1) (makeType _lhsIallNonterminals tp2) List tp -> List ( makeType _lhsIallNonterminals tp) Tuple xs -> Tuple [(f,makeType _lhsIallNonterminals tp) | (f,tp) <- xs] Map tp1 tp2 -> Map ( makeType _lhsIallNonterminals tp1) (makeType _lhsIallNonterminals tp2) IntMap tp -> IntMap ( makeType _lhsIallNonterminals tp) {-# LINE 3070 "Transform.hs" #-} -- "Transform.ag"(line 571, column 11) _lhsOtypeSyns = {-# LINE 571 "Transform.ag" #-} [(name_,_argType)] {-# LINE 3075 "Transform.hs" #-} -- "Transform.ag"(line 776, column 7) _lhsOparamsCollect = {-# LINE 776 "Transform.ag" #-} if null params_ then Map.empty else Map.singleton name_ params_ {-# LINE 3082 "Transform.hs" #-} -- "Transform.ag"(line 799, column 7) _lhsOctxCollect = {-# LINE 799 "Transform.ag" #-} if null ctx_ then Map.empty else Map.singleton name_ ctx_ {-# LINE 3089 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 3094 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 3099 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 3104 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 3109 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 3114 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 3119 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 3124 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 3129 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 3134 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 3139 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 3144 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 3149 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 3154 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 3159 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 3164 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 3169 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 3174 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 3179 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 3184 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elem_Wrapper :: Pos -> T_NontSet -> T_Elem sem_Elem_Wrapper pos_ (T_NontSet set_ ) = (T_Elem (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOwrappers :: (Set NontermIdent) _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _setOallFields :: DataTypes _setOallNonterminals :: (Set NontermIdent) _setOdefinedSets :: DefinedSets _setIcollectedNames :: (Set Identifier) _setIerrors :: (Seq Error) _setInontSet :: (Set NontermIdent) -- "Transform.ag"(line 656, column 13) _lhsOwrappers = {-# LINE 656 "Transform.ag" #-} _setInontSet {-# LINE 3231 "Transform.hs" #-} -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 3236 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 3241 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 3246 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 3251 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 3256 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 3261 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 3266 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _setIcollectedNames {-# LINE 3271 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 3276 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 3281 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 3286 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 3291 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 3296 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 3301 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _setIerrors {-# LINE 3306 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 3311 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 3316 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 3321 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 3326 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 3331 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 3336 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 3341 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 3346 "Transform.hs" #-} -- copy rule (down) _setOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 3351 "Transform.hs" #-} -- copy rule (down) _setOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 3356 "Transform.hs" #-} -- copy rule (down) _setOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 3361 "Transform.hs" #-} ( _setIcollectedNames,_setIerrors,_setInontSet) = (set_ _setOallFields _setOallNonterminals _setOdefinedSets ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) -- Elems ------------------------------------------------------- {- visit 0: inherited attributes: allAttrDecls : Map NontermIdent (Attributes, Attributes) allConstructors : Map NontermIdent (Set ConstructorIdent) allFields : DataTypes allNonterminals : Set NontermIdent definedSets : DefinedSets chained attributes: attrDecls : Map NontermIdent (Attributes, Attributes) defSets : Map Identifier (Set NontermIdent,Set Identifier) synthesized attributes: attrOrderCollect : AttrOrderMap blocks : Blocks collectedArounds : [ (NontermIdent, ConstructorIdent, [AroundInfo]) ] collectedAugments : [ (NontermIdent, ConstructorIdent, [AugmentInfo]) ] collectedConstructorsMap : Map NontermIdent (Set ConstructorIdent) collectedFields : [(NontermIdent, ConstructorIdent, FieldMap)] collectedInsts : [ (NontermIdent, ConstructorIdent, [Identifier]) ] collectedNames : Set Identifier collectedRules : [ (NontermIdent, ConstructorIdent, RuleInfo)] collectedSetNames : Set Identifier collectedSigs : [ (NontermIdent, ConstructorIdent, SigInfo) ] collectedUniques : [ (NontermIdent, ConstructorIdent, [UniqueInfo]) ] ctxCollect : ContextMap derivings : Derivings errors : Seq Error moduleDecl : Maybe (String,String,String) paramsCollect : ParamMap pragmas : Options -> Options semPragmasCollect : PragmaMap typeSyns : TypeSyns useMap : Map NontermIdent (Map Identifier (String,String,String)) wrappers : Set NontermIdent alternatives: alternative Cons: child hd : Elem child tl : Elems alternative Nil: -} -- cata sem_Elems :: Elems -> T_Elems sem_Elems list = (Prelude.foldr sem_Elems_Cons sem_Elems_Nil (Prelude.map sem_Elem list) ) -- semantic domain newtype T_Elems = T_Elems ((Map NontermIdent (Attributes, Attributes)) -> (Map NontermIdent (Set ConstructorIdent)) -> DataTypes -> (Set NontermIdent) -> (Map NontermIdent (Attributes, Attributes)) -> (Map Identifier (Set NontermIdent,Set Identifier)) -> DefinedSets -> ( (Map NontermIdent (Attributes, Attributes)),AttrOrderMap,Blocks,([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),(Map NontermIdent (Set ConstructorIdent)),([(NontermIdent, ConstructorIdent, FieldMap)]),([ (NontermIdent, ConstructorIdent, [Identifier]) ]),(Set Identifier),([ (NontermIdent, ConstructorIdent, RuleInfo)]),(Set Identifier),([ (NontermIdent, ConstructorIdent, SigInfo) ]),([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),ContextMap,(Map Identifier (Set NontermIdent,Set Identifier)),Derivings,(Seq Error),(Maybe (String,String,String)),ParamMap,(Options -> Options),PragmaMap,TypeSyns,(Map NontermIdent (Map Identifier (String,String,String))),(Set NontermIdent))) data Inh_Elems = Inh_Elems {allAttrDecls_Inh_Elems :: !(Map NontermIdent (Attributes, Attributes)),allConstructors_Inh_Elems :: !(Map NontermIdent (Set ConstructorIdent)),allFields_Inh_Elems :: !(DataTypes),allNonterminals_Inh_Elems :: !(Set NontermIdent),attrDecls_Inh_Elems :: !(Map NontermIdent (Attributes, Attributes)),defSets_Inh_Elems :: !(Map Identifier (Set NontermIdent,Set Identifier)),definedSets_Inh_Elems :: !(DefinedSets)} data Syn_Elems = Syn_Elems {attrDecls_Syn_Elems :: !(Map NontermIdent (Attributes, Attributes)),attrOrderCollect_Syn_Elems :: !(AttrOrderMap),blocks_Syn_Elems :: !(Blocks),collectedArounds_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),collectedAugments_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),collectedConstructorsMap_Syn_Elems :: !(Map NontermIdent (Set ConstructorIdent)),collectedFields_Syn_Elems :: !([(NontermIdent, ConstructorIdent, FieldMap)]),collectedInsts_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, [Identifier]) ]),collectedNames_Syn_Elems :: !(Set Identifier),collectedRules_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, RuleInfo)]),collectedSetNames_Syn_Elems :: !(Set Identifier),collectedSigs_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, SigInfo) ]),collectedUniques_Syn_Elems :: !([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),ctxCollect_Syn_Elems :: !(ContextMap),defSets_Syn_Elems :: !(Map Identifier (Set NontermIdent,Set Identifier)),derivings_Syn_Elems :: !(Derivings),errors_Syn_Elems :: !(Seq Error),moduleDecl_Syn_Elems :: !(Maybe (String,String,String)),paramsCollect_Syn_Elems :: !(ParamMap),pragmas_Syn_Elems :: !(Options -> Options),semPragmasCollect_Syn_Elems :: !(PragmaMap),typeSyns_Syn_Elems :: !(TypeSyns),useMap_Syn_Elems :: !(Map NontermIdent (Map Identifier (String,String,String))),wrappers_Syn_Elems :: !(Set NontermIdent)} wrap_Elems :: T_Elems -> Inh_Elems -> Syn_Elems wrap_Elems (T_Elems sem ) (Inh_Elems _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets ) = (let ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers) = (sem _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets ) in (Syn_Elems _lhsOattrDecls _lhsOattrOrderCollect _lhsOblocks _lhsOcollectedArounds _lhsOcollectedAugments _lhsOcollectedConstructorsMap _lhsOcollectedFields _lhsOcollectedInsts _lhsOcollectedNames _lhsOcollectedRules _lhsOcollectedSetNames _lhsOcollectedSigs _lhsOcollectedUniques _lhsOctxCollect _lhsOdefSets _lhsOderivings _lhsOerrors _lhsOmoduleDecl _lhsOparamsCollect _lhsOpragmas _lhsOsemPragmasCollect _lhsOtypeSyns _lhsOuseMap _lhsOwrappers )) sem_Elems_Cons :: T_Elem -> T_Elems -> T_Elems sem_Elems_Cons (T_Elem hd_ ) (T_Elems tl_ ) = (T_Elems (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _hdOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _hdOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _hdOallFields :: DataTypes _hdOallNonterminals :: (Set NontermIdent) _hdOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _hdOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _hdOdefinedSets :: DefinedSets _tlOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _tlOallConstructors :: (Map NontermIdent (Set ConstructorIdent)) _tlOallFields :: DataTypes _tlOallNonterminals :: (Set NontermIdent) _tlOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _tlOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _tlOdefinedSets :: DefinedSets _hdIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _hdIattrOrderCollect :: AttrOrderMap _hdIblocks :: Blocks _hdIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _hdIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _hdIcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _hdIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _hdIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _hdIcollectedNames :: (Set Identifier) _hdIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _hdIcollectedSetNames :: (Set Identifier) _hdIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _hdIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _hdIctxCollect :: ContextMap _hdIdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _hdIderivings :: Derivings _hdIerrors :: (Seq Error) _hdImoduleDecl :: (Maybe (String,String,String)) _hdIparamsCollect :: ParamMap _hdIpragmas :: (Options -> Options) _hdIsemPragmasCollect :: PragmaMap _hdItypeSyns :: TypeSyns _hdIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _hdIwrappers :: (Set NontermIdent) _tlIattrDecls :: (Map NontermIdent (Attributes, Attributes)) _tlIattrOrderCollect :: AttrOrderMap _tlIblocks :: Blocks _tlIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _tlIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _tlIcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _tlIcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _tlIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _tlIcollectedNames :: (Set Identifier) _tlIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _tlIcollectedSetNames :: (Set Identifier) _tlIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _tlIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _tlIctxCollect :: ContextMap _tlIdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) _tlIderivings :: Derivings _tlIerrors :: (Seq Error) _tlImoduleDecl :: (Maybe (String,String,String)) _tlIparamsCollect :: ParamMap _tlIpragmas :: (Options -> Options) _tlIsemPragmasCollect :: PragmaMap _tlItypeSyns :: TypeSyns _tlIuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _tlIwrappers :: (Set NontermIdent) -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} _hdIattrOrderCollect `orderMapUnion` _tlIattrOrderCollect {-# LINE 3530 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} _hdIblocks `mapUnionWithPlusPlus` _tlIblocks {-# LINE 3535 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} _hdIcollectedArounds ++ _tlIcollectedArounds {-# LINE 3540 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} _hdIcollectedAugments ++ _tlIcollectedAugments {-# LINE 3545 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} _hdIcollectedConstructorsMap `mapUnionWithSetUnion` _tlIcollectedConstructorsMap {-# LINE 3550 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} _hdIcollectedFields ++ _tlIcollectedFields {-# LINE 3555 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} _hdIcollectedInsts ++ _tlIcollectedInsts {-# LINE 3560 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _hdIcollectedNames `Set.union` _tlIcollectedNames {-# LINE 3565 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} _hdIcollectedRules ++ _tlIcollectedRules {-# LINE 3570 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} _hdIcollectedSetNames `Set.union` _tlIcollectedSetNames {-# LINE 3575 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} _hdIcollectedSigs ++ _tlIcollectedSigs {-# LINE 3580 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} _hdIcollectedUniques ++ _tlIcollectedUniques {-# LINE 3585 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} _hdIctxCollect `mergeCtx` _tlIctxCollect {-# LINE 3590 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} _hdIderivings `mergeDerivings` _tlIderivings {-# LINE 3595 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _hdIerrors Seq.>< _tlIerrors {-# LINE 3600 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} _hdImoduleDecl `mplus` _tlImoduleDecl {-# LINE 3605 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} _hdIparamsCollect `mergeParams` _tlIparamsCollect {-# LINE 3610 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} _hdIpragmas . _tlIpragmas {-# LINE 3615 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} _hdIsemPragmasCollect `pragmaMapUnion` _tlIsemPragmasCollect {-# LINE 3620 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} _hdItypeSyns ++ _tlItypeSyns {-# LINE 3625 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} _hdIuseMap `merge` _tlIuseMap {-# LINE 3630 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} _hdIwrappers `Set.union` _tlIwrappers {-# LINE 3635 "Transform.hs" #-} -- copy rule (up) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _tlIattrDecls {-# LINE 3640 "Transform.hs" #-} -- copy rule (up) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _tlIdefSets {-# LINE 3645 "Transform.hs" #-} -- copy rule (down) _hdOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _lhsIallAttrDecls {-# LINE 3650 "Transform.hs" #-} -- copy rule (down) _hdOallConstructors = {-# LINE 94 "Transform.ag" #-} _lhsIallConstructors {-# LINE 3655 "Transform.hs" #-} -- copy rule (down) _hdOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 3660 "Transform.hs" #-} -- copy rule (down) _hdOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 3665 "Transform.hs" #-} -- copy rule (down) _hdOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 3670 "Transform.hs" #-} -- copy rule (down) _hdOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 3675 "Transform.hs" #-} -- copy rule (down) _hdOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 3680 "Transform.hs" #-} -- copy rule (down) _tlOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _lhsIallAttrDecls {-# LINE 3685 "Transform.hs" #-} -- copy rule (down) _tlOallConstructors = {-# LINE 94 "Transform.ag" #-} _lhsIallConstructors {-# LINE 3690 "Transform.hs" #-} -- copy rule (down) _tlOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 3695 "Transform.hs" #-} -- copy rule (down) _tlOallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 3700 "Transform.hs" #-} -- copy rule (chain) _tlOattrDecls = {-# LINE 134 "Transform.ag" #-} _hdIattrDecls {-# LINE 3705 "Transform.hs" #-} -- copy rule (chain) _tlOdefSets = {-# LINE 102 "Transform.ag" #-} _hdIdefSets {-# LINE 3710 "Transform.hs" #-} -- copy rule (down) _tlOdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 3715 "Transform.hs" #-} ( _hdIattrDecls,_hdIattrOrderCollect,_hdIblocks,_hdIcollectedArounds,_hdIcollectedAugments,_hdIcollectedConstructorsMap,_hdIcollectedFields,_hdIcollectedInsts,_hdIcollectedNames,_hdIcollectedRules,_hdIcollectedSetNames,_hdIcollectedSigs,_hdIcollectedUniques,_hdIctxCollect,_hdIdefSets,_hdIderivings,_hdIerrors,_hdImoduleDecl,_hdIparamsCollect,_hdIpragmas,_hdIsemPragmasCollect,_hdItypeSyns,_hdIuseMap,_hdIwrappers) = (hd_ _hdOallAttrDecls _hdOallConstructors _hdOallFields _hdOallNonterminals _hdOattrDecls _hdOdefSets _hdOdefinedSets ) ( _tlIattrDecls,_tlIattrOrderCollect,_tlIblocks,_tlIcollectedArounds,_tlIcollectedAugments,_tlIcollectedConstructorsMap,_tlIcollectedFields,_tlIcollectedInsts,_tlIcollectedNames,_tlIcollectedRules,_tlIcollectedSetNames,_tlIcollectedSigs,_tlIcollectedUniques,_tlIctxCollect,_tlIdefSets,_tlIderivings,_tlIerrors,_tlImoduleDecl,_tlIparamsCollect,_tlIpragmas,_tlIsemPragmasCollect,_tlItypeSyns,_tlIuseMap,_tlIwrappers) = (tl_ _tlOallAttrDecls _tlOallConstructors _tlOallFields _tlOallNonterminals _tlOattrDecls _tlOdefSets _tlOdefinedSets ) in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) sem_Elems_Nil :: T_Elems sem_Elems_Nil = (T_Elems (\ _lhsIallAttrDecls _lhsIallConstructors _lhsIallFields _lhsIallNonterminals _lhsIattrDecls _lhsIdefSets _lhsIdefinedSets -> (let _lhsOattrOrderCollect :: AttrOrderMap _lhsOblocks :: Blocks _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedConstructorsMap :: (Map NontermIdent (Set ConstructorIdent)) _lhsOcollectedFields :: ([(NontermIdent, ConstructorIdent, FieldMap)]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedNames :: (Set Identifier) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSetNames :: (Set Identifier) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOctxCollect :: ContextMap _lhsOderivings :: Derivings _lhsOerrors :: (Seq Error) _lhsOmoduleDecl :: (Maybe (String,String,String)) _lhsOparamsCollect :: ParamMap _lhsOpragmas :: (Options -> Options) _lhsOsemPragmasCollect :: PragmaMap _lhsOtypeSyns :: TypeSyns _lhsOuseMap :: (Map NontermIdent (Map Identifier (String,String,String))) _lhsOwrappers :: (Set NontermIdent) _lhsOattrDecls :: (Map NontermIdent (Attributes, Attributes)) _lhsOdefSets :: (Map Identifier (Set NontermIdent,Set Identifier)) -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 3758 "Transform.hs" #-} -- use rule "Transform.ag"(line 44, column 19) _lhsOblocks = {-# LINE 44 "Transform.ag" #-} Map.empty {-# LINE 3763 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 3768 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 3773 "Transform.hs" #-} -- use rule "Transform.ag"(line 92, column 48) _lhsOcollectedConstructorsMap = {-# LINE 92 "Transform.ag" #-} Map.empty {-# LINE 3778 "Transform.hs" #-} -- use rule "Transform.ag"(line 123, column 28) _lhsOcollectedFields = {-# LINE 123 "Transform.ag" #-} [] {-# LINE 3783 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 3788 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 3793 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 3798 "Transform.hs" #-} -- use rule "Transform.ag"(line 83, column 50) _lhsOcollectedSetNames = {-# LINE 83 "Transform.ag" #-} Set.empty {-# LINE 3803 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 3808 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 3813 "Transform.hs" #-} -- use rule "Transform.ag"(line 789, column 34) _lhsOctxCollect = {-# LINE 789 "Transform.ag" #-} Map.empty {-# LINE 3818 "Transform.hs" #-} -- use rule "Transform.ag"(line 814, column 33) _lhsOderivings = {-# LINE 814 "Transform.ag" #-} Map.empty {-# LINE 3823 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 3828 "Transform.hs" #-} -- use rule "Transform.ag"(line 985, column 37) _lhsOmoduleDecl = {-# LINE 985 "Transform.ag" #-} mzero {-# LINE 3833 "Transform.hs" #-} -- use rule "Transform.ag"(line 766, column 37) _lhsOparamsCollect = {-# LINE 766 "Transform.ag" #-} Map.empty {-# LINE 3838 "Transform.hs" #-} -- use rule "Transform.ag"(line 662, column 34) _lhsOpragmas = {-# LINE 662 "Transform.ag" #-} id {-# LINE 3843 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 3848 "Transform.hs" #-} -- use rule "Transform.ag"(line 522, column 32) _lhsOtypeSyns = {-# LINE 522 "Transform.ag" #-} [] {-# LINE 3853 "Transform.hs" #-} -- use rule "Transform.ag"(line 135, column 15) _lhsOuseMap = {-# LINE 135 "Transform.ag" #-} Map.empty {-# LINE 3858 "Transform.hs" #-} -- use rule "Transform.ag"(line 653, column 32) _lhsOwrappers = {-# LINE 653 "Transform.ag" #-} Set.empty {-# LINE 3863 "Transform.hs" #-} -- copy rule (chain) _lhsOattrDecls = {-# LINE 134 "Transform.ag" #-} _lhsIattrDecls {-# LINE 3868 "Transform.hs" #-} -- copy rule (chain) _lhsOdefSets = {-# LINE 102 "Transform.ag" #-} _lhsIdefSets {-# LINE 3873 "Transform.hs" #-} in ( _lhsOattrDecls,_lhsOattrOrderCollect,_lhsOblocks,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedConstructorsMap,_lhsOcollectedFields,_lhsOcollectedInsts,_lhsOcollectedNames,_lhsOcollectedRules,_lhsOcollectedSetNames,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOctxCollect,_lhsOdefSets,_lhsOderivings,_lhsOerrors,_lhsOmoduleDecl,_lhsOparamsCollect,_lhsOpragmas,_lhsOsemPragmasCollect,_lhsOtypeSyns,_lhsOuseMap,_lhsOwrappers))) ) -- NontSet ----------------------------------------------------- {- visit 0: inherited attributes: allFields : DataTypes allNonterminals : Set NontermIdent definedSets : DefinedSets synthesized attributes: collectedNames : Set Identifier errors : Seq Error nontSet : Set NontermIdent alternatives: alternative All: alternative Difference: child set1 : NontSet child set2 : NontSet alternative Intersect: child set1 : NontSet child set2 : NontSet alternative NamedSet: child name : {NontermIdent} visit 0: local _tup4 : _ local nontSet : _ local errors : _ alternative Path: child from : {NontermIdent} child to : {NontermIdent} alternative Union: child set1 : NontSet child set2 : NontSet -} -- cata sem_NontSet :: NontSet -> T_NontSet sem_NontSet (All ) = (sem_NontSet_All ) sem_NontSet (Difference _set1 _set2 ) = (sem_NontSet_Difference (sem_NontSet _set1 ) (sem_NontSet _set2 ) ) sem_NontSet (Intersect _set1 _set2 ) = (sem_NontSet_Intersect (sem_NontSet _set1 ) (sem_NontSet _set2 ) ) sem_NontSet (NamedSet _name ) = (sem_NontSet_NamedSet _name ) sem_NontSet (Path _from _to ) = (sem_NontSet_Path _from _to ) sem_NontSet (Union _set1 _set2 ) = (sem_NontSet_Union (sem_NontSet _set1 ) (sem_NontSet _set2 ) ) -- semantic domain newtype T_NontSet = T_NontSet (DataTypes -> (Set NontermIdent) -> DefinedSets -> ( (Set Identifier),(Seq Error),(Set NontermIdent))) data Inh_NontSet = Inh_NontSet {allFields_Inh_NontSet :: !(DataTypes),allNonterminals_Inh_NontSet :: !(Set NontermIdent),definedSets_Inh_NontSet :: !(DefinedSets)} data Syn_NontSet = Syn_NontSet {collectedNames_Syn_NontSet :: !(Set Identifier),errors_Syn_NontSet :: !(Seq Error),nontSet_Syn_NontSet :: !(Set NontermIdent)} wrap_NontSet :: T_NontSet -> Inh_NontSet -> Syn_NontSet wrap_NontSet (T_NontSet sem ) (Inh_NontSet _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets ) = (let ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet) = (sem _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets ) in (Syn_NontSet _lhsOcollectedNames _lhsOerrors _lhsOnontSet )) sem_NontSet_All :: T_NontSet sem_NontSet_All = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOnontSet :: (Set NontermIdent) _lhsOcollectedNames :: (Set Identifier) _lhsOerrors :: (Seq Error) -- "Transform.ag"(line 599, column 16) _lhsOnontSet = {-# LINE 599 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 3948 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 3953 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 3958 "Transform.hs" #-} in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) sem_NontSet_Difference :: T_NontSet -> T_NontSet -> T_NontSet sem_NontSet_Difference (T_NontSet set1_ ) (T_NontSet set2_ ) = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOnontSet :: (Set NontermIdent) _lhsOcollectedNames :: (Set Identifier) _lhsOerrors :: (Seq Error) _set1OallFields :: DataTypes _set1OallNonterminals :: (Set NontermIdent) _set1OdefinedSets :: DefinedSets _set2OallFields :: DataTypes _set2OallNonterminals :: (Set NontermIdent) _set2OdefinedSets :: DefinedSets _set1IcollectedNames :: (Set Identifier) _set1Ierrors :: (Seq Error) _set1InontSet :: (Set NontermIdent) _set2IcollectedNames :: (Set Identifier) _set2Ierrors :: (Seq Error) _set2InontSet :: (Set NontermIdent) -- "Transform.ag"(line 605, column 16) _lhsOnontSet = {-# LINE 605 "Transform.ag" #-} Set.difference _set1InontSet _set2InontSet {-# LINE 3986 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _set1IcollectedNames `Set.union` _set2IcollectedNames {-# LINE 3991 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _set1Ierrors Seq.>< _set2Ierrors {-# LINE 3996 "Transform.hs" #-} -- copy rule (down) _set1OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4001 "Transform.hs" #-} -- copy rule (down) _set1OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4006 "Transform.hs" #-} -- copy rule (down) _set1OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4011 "Transform.hs" #-} -- copy rule (down) _set2OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4016 "Transform.hs" #-} -- copy rule (down) _set2OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4021 "Transform.hs" #-} -- copy rule (down) _set2OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4026 "Transform.hs" #-} ( _set1IcollectedNames,_set1Ierrors,_set1InontSet) = (set1_ _set1OallFields _set1OallNonterminals _set1OdefinedSets ) ( _set2IcollectedNames,_set2Ierrors,_set2InontSet) = (set2_ _set2OallFields _set2OallNonterminals _set2OdefinedSets ) in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) sem_NontSet_Intersect :: T_NontSet -> T_NontSet -> T_NontSet sem_NontSet_Intersect (T_NontSet set1_ ) (T_NontSet set2_ ) = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOnontSet :: (Set NontermIdent) _lhsOcollectedNames :: (Set Identifier) _lhsOerrors :: (Seq Error) _set1OallFields :: DataTypes _set1OallNonterminals :: (Set NontermIdent) _set1OdefinedSets :: DefinedSets _set2OallFields :: DataTypes _set2OallNonterminals :: (Set NontermIdent) _set2OdefinedSets :: DefinedSets _set1IcollectedNames :: (Set Identifier) _set1Ierrors :: (Seq Error) _set1InontSet :: (Set NontermIdent) _set2IcollectedNames :: (Set Identifier) _set2Ierrors :: (Seq Error) _set2InontSet :: (Set NontermIdent) -- "Transform.ag"(line 604, column 16) _lhsOnontSet = {-# LINE 604 "Transform.ag" #-} Set.intersection _set1InontSet _set2InontSet {-# LINE 4058 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _set1IcollectedNames `Set.union` _set2IcollectedNames {-# LINE 4063 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _set1Ierrors Seq.>< _set2Ierrors {-# LINE 4068 "Transform.hs" #-} -- copy rule (down) _set1OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4073 "Transform.hs" #-} -- copy rule (down) _set1OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4078 "Transform.hs" #-} -- copy rule (down) _set1OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4083 "Transform.hs" #-} -- copy rule (down) _set2OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4088 "Transform.hs" #-} -- copy rule (down) _set2OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4093 "Transform.hs" #-} -- copy rule (down) _set2OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4098 "Transform.hs" #-} ( _set1IcollectedNames,_set1Ierrors,_set1InontSet) = (set1_ _set1OallFields _set1OallNonterminals _set1OdefinedSets ) ( _set2IcollectedNames,_set2Ierrors,_set2InontSet) = (set2_ _set2OallFields _set2OallNonterminals _set2OdefinedSets ) in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) sem_NontSet_NamedSet :: NontermIdent -> T_NontSet sem_NontSet_NamedSet name_ = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOcollectedNames :: (Set Identifier) _lhsOerrors :: (Seq Error) _lhsOnontSet :: (Set NontermIdent) -- "Transform.ag"(line 484, column 14) _lhsOcollectedNames = {-# LINE 484 "Transform.ag" #-} Set.singleton name_ {-# LINE 4117 "Transform.hs" #-} -- "Transform.ag"(line 600, column 20) __tup4 = {-# LINE 600 "Transform.ag" #-} case Map.lookup name_ _lhsIdefinedSets of Nothing -> (Set.empty, Seq.singleton (UndefNont name_)) Just set -> (set, Seq.empty) {-# LINE 4124 "Transform.hs" #-} -- "Transform.ag"(line 600, column 20) (_nontSet,_) = {-# LINE 600 "Transform.ag" #-} __tup4 {-# LINE 4129 "Transform.hs" #-} -- "Transform.ag"(line 600, column 20) (_,_errors) = {-# LINE 600 "Transform.ag" #-} __tup4 {-# LINE 4134 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _errors {-# LINE 4139 "Transform.hs" #-} -- copy rule (from local) _lhsOnontSet = {-# LINE 110 "Transform.ag" #-} _nontSet {-# LINE 4144 "Transform.hs" #-} in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) sem_NontSet_Path :: NontermIdent -> NontermIdent -> T_NontSet sem_NontSet_Path from_ to_ = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOnontSet :: (Set NontermIdent) _lhsOerrors :: (Seq Error) _lhsOcollectedNames :: (Set Identifier) -- "Transform.ag"(line 606, column 16) _lhsOnontSet = {-# LINE 606 "Transform.ag" #-} let table = flattenDatas _lhsIallFields in path table from_ to_ {-# LINE 4161 "Transform.hs" #-} -- "Transform.ag"(line 608, column 16) _lhsOerrors = {-# LINE 608 "Transform.ag" #-} let check name | Set.member name _lhsIallNonterminals = Seq.empty | otherwise = Seq.singleton (UndefNont name) in check from_ >< check to_ {-# LINE 4169 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} Set.empty {-# LINE 4174 "Transform.hs" #-} in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) sem_NontSet_Union :: T_NontSet -> T_NontSet -> T_NontSet sem_NontSet_Union (T_NontSet set1_ ) (T_NontSet set2_ ) = (T_NontSet (\ _lhsIallFields _lhsIallNonterminals _lhsIdefinedSets -> (let _lhsOnontSet :: (Set NontermIdent) _lhsOcollectedNames :: (Set Identifier) _lhsOerrors :: (Seq Error) _set1OallFields :: DataTypes _set1OallNonterminals :: (Set NontermIdent) _set1OdefinedSets :: DefinedSets _set2OallFields :: DataTypes _set2OallNonterminals :: (Set NontermIdent) _set2OdefinedSets :: DefinedSets _set1IcollectedNames :: (Set Identifier) _set1Ierrors :: (Seq Error) _set1InontSet :: (Set NontermIdent) _set2IcollectedNames :: (Set Identifier) _set2Ierrors :: (Seq Error) _set2InontSet :: (Set NontermIdent) -- "Transform.ag"(line 603, column 16) _lhsOnontSet = {-# LINE 603 "Transform.ag" #-} Set.union _set1InontSet _set2InontSet {-# LINE 4202 "Transform.hs" #-} -- use rule "Transform.ag"(line 84, column 50) _lhsOcollectedNames = {-# LINE 84 "Transform.ag" #-} _set1IcollectedNames `Set.union` _set2IcollectedNames {-# LINE 4207 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _set1Ierrors Seq.>< _set2Ierrors {-# LINE 4212 "Transform.hs" #-} -- copy rule (down) _set1OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4217 "Transform.hs" #-} -- copy rule (down) _set1OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4222 "Transform.hs" #-} -- copy rule (down) _set1OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4227 "Transform.hs" #-} -- copy rule (down) _set2OallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4232 "Transform.hs" #-} -- copy rule (down) _set2OallNonterminals = {-# LINE 86 "Transform.ag" #-} _lhsIallNonterminals {-# LINE 4237 "Transform.hs" #-} -- copy rule (down) _set2OdefinedSets = {-# LINE 105 "Transform.ag" #-} _lhsIdefinedSets {-# LINE 4242 "Transform.hs" #-} ( _set1IcollectedNames,_set1Ierrors,_set1InontSet) = (set1_ _set1OallFields _set1OallNonterminals _set1OdefinedSets ) ( _set2IcollectedNames,_set2Ierrors,_set2InontSet) = (set2_ _set2OallFields _set2OallNonterminals _set2OdefinedSets ) in ( _lhsOcollectedNames,_lhsOerrors,_lhsOnontSet))) ) -- Pattern ----------------------------------------------------- {- visit 0: synthesized attributes: copy : SELF definedAttrs : [AttrName] definedInsts : [Identifier] patunder : [AttrName]->Pattern stpos : Pos 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,([AttrName]),([Identifier]),([AttrName]->Pattern),Pos)) data Inh_Pattern = Inh_Pattern {} data Syn_Pattern = Syn_Pattern {copy_Syn_Pattern :: !(Pattern),definedAttrs_Syn_Pattern :: !([AttrName]),definedInsts_Syn_Pattern :: !([Identifier]),patunder_Syn_Pattern :: !([AttrName]->Pattern),stpos_Syn_Pattern :: !(Pos)} wrap_Pattern :: T_Pattern -> Inh_Pattern -> Syn_Pattern wrap_Pattern (T_Pattern sem ) (Inh_Pattern ) = (let ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos) = (sem ) in (Syn_Pattern _lhsOcopy _lhsOdefinedAttrs _lhsOdefinedInsts _lhsOpatunder _lhsOstpos )) 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 _lhsOdefinedAttrs :: ([AttrName]) _lhsOpatunder :: ([AttrName]->Pattern) _lhsOdefinedInsts :: ([Identifier]) _lhsOstpos :: Pos _lhsOcopy :: Pattern _patIcopy :: Pattern _patIdefinedAttrs :: ([AttrName]) _patIdefinedInsts :: ([Identifier]) _patIpatunder :: ([AttrName]->Pattern) _patIstpos :: Pos _partsIcopy :: Patterns _partsIdefinedAttrs :: ([AttrName]) _partsIdefinedInsts :: ([Identifier]) _partsIpatunder :: ([AttrName]->Patterns) -- "Transform.ag"(line 961, column 11) _lhsOdefinedAttrs = {-# LINE 961 "Transform.ag" #-} (field_, attr_) : _patIdefinedAttrs {-# LINE 4332 "Transform.hs" #-} -- "Transform.ag"(line 962, column 11) _lhsOpatunder = {-# LINE 962 "Transform.ag" #-} \us -> if ((field_,attr_) `elem` us) then Underscore noPos else _copy {-# LINE 4337 "Transform.hs" #-} -- "Transform.ag"(line 963, column 11) _lhsOdefinedInsts = {-# LINE 963 "Transform.ag" #-} (if field_ == _INST then [attr_] else []) ++ _patIdefinedInsts {-# LINE 4342 "Transform.hs" #-} -- "Transform.ag"(line 978, column 16) _lhsOstpos = {-# LINE 978 "Transform.ag" #-} getPos field_ {-# LINE 4347 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} Alias field_ attr_ _patIcopy _partsIcopy {-# LINE 4352 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4357 "Transform.hs" #-} ( _patIcopy,_patIdefinedAttrs,_patIdefinedInsts,_patIpatunder,_patIstpos) = (pat_ ) ( _partsIcopy,_partsIdefinedAttrs,_partsIdefinedInsts,_partsIpatunder) = (parts_ ) in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos)) ) sem_Pattern_Constr :: ConstructorIdent -> T_Patterns -> T_Pattern sem_Pattern_Constr name_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOpatunder :: ([AttrName]->Pattern) _lhsOstpos :: Pos _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Pattern _patsIcopy :: Patterns _patsIdefinedAttrs :: ([AttrName]) _patsIdefinedInsts :: ([Identifier]) _patsIpatunder :: ([AttrName]->Patterns) -- "Transform.ag"(line 965, column 12) _lhsOpatunder = {-# LINE 965 "Transform.ag" #-} \us -> Constr name_ (_patsIpatunder us) {-# LINE 4380 "Transform.hs" #-} -- "Transform.ag"(line 976, column 16) _lhsOstpos = {-# LINE 976 "Transform.ag" #-} getPos name_ {-# LINE 4385 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} _patsIdefinedAttrs {-# LINE 4390 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _patsIdefinedInsts {-# LINE 4395 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} Constr name_ _patsIcopy {-# LINE 4400 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4405 "Transform.hs" #-} ( _patsIcopy,_patsIdefinedAttrs,_patsIdefinedInsts,_patsIpatunder) = (pats_ ) in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos)) ) sem_Pattern_Irrefutable :: T_Pattern -> T_Pattern sem_Pattern_Irrefutable (T_Pattern pat_ ) = (T_Pattern (let _lhsOpatunder :: ([AttrName]->Pattern) _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Pattern _lhsOstpos :: Pos _patIcopy :: Pattern _patIdefinedAttrs :: ([AttrName]) _patIdefinedInsts :: ([Identifier]) _patIpatunder :: ([AttrName]->Pattern) _patIstpos :: Pos -- "Transform.ag"(line 967, column 17) _lhsOpatunder = {-# LINE 967 "Transform.ag" #-} \us -> Irrefutable (_patIpatunder us) {-# LINE 4426 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} _patIdefinedAttrs {-# LINE 4431 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _patIdefinedInsts {-# LINE 4436 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} Irrefutable _patIcopy {-# LINE 4441 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4446 "Transform.hs" #-} -- copy rule (up) _lhsOstpos = {-# LINE 973 "Transform.ag" #-} _patIstpos {-# LINE 4451 "Transform.hs" #-} ( _patIcopy,_patIdefinedAttrs,_patIdefinedInsts,_patIpatunder,_patIstpos) = (pat_ ) in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos)) ) sem_Pattern_Product :: Pos -> T_Patterns -> T_Pattern sem_Pattern_Product pos_ (T_Patterns pats_ ) = (T_Pattern (let _lhsOpatunder :: ([AttrName]->Pattern) _lhsOstpos :: Pos _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Pattern _patsIcopy :: Patterns _patsIdefinedAttrs :: ([AttrName]) _patsIdefinedInsts :: ([Identifier]) _patsIpatunder :: ([AttrName]->Patterns) -- "Transform.ag"(line 966, column 13) _lhsOpatunder = {-# LINE 966 "Transform.ag" #-} \us -> Product pos_ (_patsIpatunder us) {-# LINE 4472 "Transform.hs" #-} -- "Transform.ag"(line 977, column 16) _lhsOstpos = {-# LINE 977 "Transform.ag" #-} pos_ {-# LINE 4477 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} _patsIdefinedAttrs {-# LINE 4482 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _patsIdefinedInsts {-# LINE 4487 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} Product pos_ _patsIcopy {-# LINE 4492 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4497 "Transform.hs" #-} ( _patsIcopy,_patsIdefinedAttrs,_patsIdefinedInsts,_patsIpatunder) = (pats_ ) in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos)) ) sem_Pattern_Underscore :: Pos -> T_Pattern sem_Pattern_Underscore pos_ = (T_Pattern (let _lhsOpatunder :: ([AttrName]->Pattern) _lhsOstpos :: Pos _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Pattern -- "Transform.ag"(line 964, column 16) _lhsOpatunder = {-# LINE 964 "Transform.ag" #-} \us -> _copy {-# LINE 4513 "Transform.hs" #-} -- "Transform.ag"(line 979, column 16) _lhsOstpos = {-# LINE 979 "Transform.ag" #-} pos_ {-# LINE 4518 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} [] {-# LINE 4523 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 4528 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} Underscore pos_ {-# LINE 4533 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4538 "Transform.hs" #-} in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder,_lhsOstpos)) ) -- Patterns ---------------------------------------------------- {- visit 0: synthesized attributes: copy : SELF definedAttrs : [AttrName] definedInsts : [Identifier] patunder : [AttrName]->Patterns 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,([AttrName]),([Identifier]),([AttrName]->Patterns))) data Inh_Patterns = Inh_Patterns {} data Syn_Patterns = Syn_Patterns {copy_Syn_Patterns :: !(Patterns),definedAttrs_Syn_Patterns :: !([AttrName]),definedInsts_Syn_Patterns :: !([Identifier]),patunder_Syn_Patterns :: !([AttrName]->Patterns)} wrap_Patterns :: T_Patterns -> Inh_Patterns -> Syn_Patterns wrap_Patterns (T_Patterns sem ) (Inh_Patterns ) = (let ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder) = (sem ) in (Syn_Patterns _lhsOcopy _lhsOdefinedAttrs _lhsOdefinedInsts _lhsOpatunder )) sem_Patterns_Cons :: T_Pattern -> T_Patterns -> T_Patterns sem_Patterns_Cons (T_Pattern hd_ ) (T_Patterns tl_ ) = (T_Patterns (let _lhsOpatunder :: ([AttrName]->Patterns) _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Patterns _hdIcopy :: Pattern _hdIdefinedAttrs :: ([AttrName]) _hdIdefinedInsts :: ([Identifier]) _hdIpatunder :: ([AttrName]->Pattern) _hdIstpos :: Pos _tlIcopy :: Patterns _tlIdefinedAttrs :: ([AttrName]) _tlIdefinedInsts :: ([Identifier]) _tlIpatunder :: ([AttrName]->Patterns) -- "Transform.ag"(line 971, column 10) _lhsOpatunder = {-# LINE 971 "Transform.ag" #-} \us -> (_hdIpatunder us) : (_tlIpatunder us) {-# LINE 4595 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} _hdIdefinedAttrs ++ _tlIdefinedAttrs {-# LINE 4600 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _hdIdefinedInsts ++ _tlIdefinedInsts {-# LINE 4605 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} (:) _hdIcopy _tlIcopy {-# LINE 4610 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4615 "Transform.hs" #-} ( _hdIcopy,_hdIdefinedAttrs,_hdIdefinedInsts,_hdIpatunder,_hdIstpos) = (hd_ ) ( _tlIcopy,_tlIdefinedAttrs,_tlIdefinedInsts,_tlIpatunder) = (tl_ ) in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder)) ) sem_Patterns_Nil :: T_Patterns sem_Patterns_Nil = (T_Patterns (let _lhsOpatunder :: ([AttrName]->Patterns) _lhsOdefinedAttrs :: ([AttrName]) _lhsOdefinedInsts :: ([Identifier]) _lhsOcopy :: Patterns -- "Transform.ag"(line 970, column 9) _lhsOpatunder = {-# LINE 970 "Transform.ag" #-} \us -> [] {-# LINE 4631 "Transform.hs" #-} -- use rule "Transform.ag"(line 956, column 42) _lhsOdefinedAttrs = {-# LINE 956 "Transform.ag" #-} [] {-# LINE 4636 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 4641 "Transform.hs" #-} -- self rule _copy = {-# LINE 23 "./Patterns.ag" #-} [] {-# LINE 4646 "Transform.hs" #-} -- self rule _lhsOcopy = {-# LINE 23 "./Patterns.ag" #-} _copy {-# LINE 4651 "Transform.hs" #-} in ( _lhsOcopy,_lhsOdefinedAttrs,_lhsOdefinedInsts,_lhsOpatunder)) ) -- SemAlt ------------------------------------------------------ {- visit 0: inherited attributes: allAttrDecls : Map NontermIdent (Attributes, Attributes) allFields : DataTypes nts : Set NontermIdent synthesized attributes: attrOrderCollect : AttrOrderMap collectedArounds : [ (NontermIdent, ConstructorIdent, [AroundInfo]) ] collectedAugments : [ (NontermIdent, ConstructorIdent, [AugmentInfo]) ] collectedInsts : [ (NontermIdent, ConstructorIdent, [Identifier]) ] collectedRules : [ (NontermIdent, ConstructorIdent, RuleInfo)] collectedSigs : [ (NontermIdent, ConstructorIdent, SigInfo) ] collectedUniques : [ (NontermIdent, ConstructorIdent, [UniqueInfo]) ] errors : Seq Error semPragmasCollect : PragmaMap alternatives: alternative SemAlt: child pos : {Pos} child constructorSet : ConstructorSet child rules : SemDefs visit 0: local pragmaNames : _ local attrOrders : _ local coninfo : _ -} -- cata sem_SemAlt :: SemAlt -> T_SemAlt sem_SemAlt (SemAlt _pos _constructorSet _rules ) = (sem_SemAlt_SemAlt _pos (sem_ConstructorSet _constructorSet ) (sem_SemDefs _rules ) ) -- semantic domain newtype T_SemAlt = T_SemAlt ((Map NontermIdent (Attributes, Attributes)) -> DataTypes -> (Set NontermIdent) -> ( AttrOrderMap,([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),([ (NontermIdent, ConstructorIdent, [Identifier]) ]),([ (NontermIdent, ConstructorIdent, RuleInfo)]),([ (NontermIdent, ConstructorIdent, SigInfo) ]),([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),(Seq Error),PragmaMap)) data Inh_SemAlt = Inh_SemAlt {allAttrDecls_Inh_SemAlt :: !(Map NontermIdent (Attributes, Attributes)),allFields_Inh_SemAlt :: !(DataTypes),nts_Inh_SemAlt :: !(Set NontermIdent)} data Syn_SemAlt = Syn_SemAlt {attrOrderCollect_Syn_SemAlt :: !(AttrOrderMap),collectedArounds_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),collectedAugments_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),collectedInsts_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, [Identifier]) ]),collectedRules_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, RuleInfo)]),collectedSigs_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, SigInfo) ]),collectedUniques_Syn_SemAlt :: !([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),errors_Syn_SemAlt :: !(Seq Error),semPragmasCollect_Syn_SemAlt :: !(PragmaMap)} wrap_SemAlt :: T_SemAlt -> Inh_SemAlt -> Syn_SemAlt wrap_SemAlt (T_SemAlt sem ) (Inh_SemAlt _lhsIallAttrDecls _lhsIallFields _lhsInts ) = (let ( _lhsOattrOrderCollect,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedInsts,_lhsOcollectedRules,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOerrors,_lhsOsemPragmasCollect) = (sem _lhsIallAttrDecls _lhsIallFields _lhsInts ) in (Syn_SemAlt _lhsOattrOrderCollect _lhsOcollectedArounds _lhsOcollectedAugments _lhsOcollectedInsts _lhsOcollectedRules _lhsOcollectedSigs _lhsOcollectedUniques _lhsOerrors _lhsOsemPragmasCollect )) sem_SemAlt_SemAlt :: Pos -> T_ConstructorSet -> T_SemDefs -> T_SemAlt sem_SemAlt_SemAlt pos_ (T_ConstructorSet constructorSet_ ) (T_SemDefs rules_ ) = (T_SemAlt (\ _lhsIallAttrDecls _lhsIallFields _lhsInts -> (let _lhsOsemPragmasCollect :: PragmaMap _lhsOattrOrderCollect :: AttrOrderMap _lhsOerrors :: (Seq Error) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _constructorSetIcollectedConstructorNames :: (Set ConstructorIdent) _constructorSetIconstructors :: ((Set ConstructorIdent->Set ConstructorIdent)) _constructorSetIerrors :: (Seq Error) _rulesIaroundInfos :: ([AroundInfo]) _rulesIaugmentInfos :: ([AugmentInfo]) _rulesIdefinedInsts :: ([Identifier]) _rulesIorderDepsCollect :: (Set Dependency) _rulesIpragmaNamesCollect :: ([Identifier]) _rulesIruleInfos :: ([RuleInfo]) _rulesIsigInfos :: ([SigInfo]) _rulesIuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 710, column 7) _pragmaNames = {-# LINE 710 "Transform.ag" #-} Set.fromList _rulesIpragmaNamesCollect {-# LINE 4731 "Transform.hs" #-} -- "Transform.ag"(line 711, column 7) _lhsOsemPragmasCollect = {-# LINE 711 "Transform.ag" #-} foldr pragmaMapUnion Map.empty [ pragmaMapSingle nt con _pragmaNames | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4739 "Transform.hs" #-} -- "Transform.ag"(line 739, column 7) _attrOrders = {-# LINE 739 "Transform.ag" #-} [ orderMapSingle nt con _rulesIorderDepsCollect | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4747 "Transform.hs" #-} -- "Transform.ag"(line 745, column 7) _lhsOattrOrderCollect = {-# LINE 745 "Transform.ag" #-} foldr orderMapUnion Map.empty _attrOrders {-# LINE 4752 "Transform.hs" #-} -- "Transform.ag"(line 890, column 12) _coninfo = {-# LINE 890 "Transform.ag" #-} [ (nt, conset, conkeys) | nt <- Set.toList _lhsInts , let conmap = Map.findWithDefault Map.empty nt _lhsIallFields , let conkeys = Set.fromList (Map.keys conmap) , let conset = _constructorSetIconstructors conkeys ] {-# LINE 4762 "Transform.hs" #-} -- "Transform.ag"(line 897, column 12) _lhsOerrors = {-# LINE 897 "Transform.ag" #-} Seq.fromList [ UndefAlt nt con | (nt, conset, conkeys) <- _coninfo , con <- Set.toList (Set.difference conset conkeys) ] {-# LINE 4771 "Transform.hs" #-} -- "Transform.ag"(line 902, column 12) _lhsOcollectedRules = {-# LINE 902 "Transform.ag" #-} [ (nt,con,r) | (nt, conset, _) <- _coninfo , con <- Set.toList conset , r <- _rulesIruleInfos ] {-# LINE 4780 "Transform.hs" #-} -- "Transform.ag"(line 908, column 12) _lhsOcollectedSigs = {-# LINE 908 "Transform.ag" #-} [ (nt,con,ts) | (nt, conset, _) <- _coninfo , con <- Set.toList conset , ts <- _rulesIsigInfos ] {-# LINE 4789 "Transform.hs" #-} -- "Transform.ag"(line 915, column 12) _lhsOcollectedInsts = {-# LINE 915 "Transform.ag" #-} [ (nt,con,_rulesIdefinedInsts) | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4797 "Transform.hs" #-} -- "Transform.ag"(line 921, column 12) _lhsOcollectedUniques = {-# LINE 921 "Transform.ag" #-} [ (nt,con,_rulesIuniqueInfos) | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4805 "Transform.hs" #-} -- "Transform.ag"(line 927, column 12) _lhsOcollectedAugments = {-# LINE 927 "Transform.ag" #-} [ (nt, con, _rulesIaugmentInfos) | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4813 "Transform.hs" #-} -- "Transform.ag"(line 933, column 12) _lhsOcollectedArounds = {-# LINE 933 "Transform.ag" #-} [ (nt, con, _rulesIaroundInfos) | (nt, conset, _) <- _coninfo , con <- Set.toList conset ] {-# LINE 4821 "Transform.hs" #-} ( _constructorSetIcollectedConstructorNames,_constructorSetIconstructors,_constructorSetIerrors) = (constructorSet_ ) ( _rulesIaroundInfos,_rulesIaugmentInfos,_rulesIdefinedInsts,_rulesIorderDepsCollect,_rulesIpragmaNamesCollect,_rulesIruleInfos,_rulesIsigInfos,_rulesIuniqueInfos) = (rules_ ) in ( _lhsOattrOrderCollect,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedInsts,_lhsOcollectedRules,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOerrors,_lhsOsemPragmasCollect))) ) -- SemAlts ----------------------------------------------------- {- visit 0: inherited attributes: allAttrDecls : Map NontermIdent (Attributes, Attributes) allFields : DataTypes nts : Set NontermIdent synthesized attributes: attrOrderCollect : AttrOrderMap collectedArounds : [ (NontermIdent, ConstructorIdent, [AroundInfo]) ] collectedAugments : [ (NontermIdent, ConstructorIdent, [AugmentInfo]) ] collectedInsts : [ (NontermIdent, ConstructorIdent, [Identifier]) ] collectedRules : [ (NontermIdent, ConstructorIdent, RuleInfo)] collectedSigs : [ (NontermIdent, ConstructorIdent, SigInfo) ] collectedUniques : [ (NontermIdent, ConstructorIdent, [UniqueInfo]) ] errors : Seq Error semPragmasCollect : PragmaMap alternatives: alternative Cons: child hd : SemAlt child tl : SemAlts alternative Nil: -} -- cata sem_SemAlts :: SemAlts -> T_SemAlts sem_SemAlts list = (Prelude.foldr sem_SemAlts_Cons sem_SemAlts_Nil (Prelude.map sem_SemAlt list) ) -- semantic domain newtype T_SemAlts = T_SemAlts ((Map NontermIdent (Attributes, Attributes)) -> DataTypes -> (Set NontermIdent) -> ( AttrOrderMap,([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),([ (NontermIdent, ConstructorIdent, [Identifier]) ]),([ (NontermIdent, ConstructorIdent, RuleInfo)]),([ (NontermIdent, ConstructorIdent, SigInfo) ]),([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),(Seq Error),PragmaMap)) data Inh_SemAlts = Inh_SemAlts {allAttrDecls_Inh_SemAlts :: !(Map NontermIdent (Attributes, Attributes)),allFields_Inh_SemAlts :: !(DataTypes),nts_Inh_SemAlts :: !(Set NontermIdent)} data Syn_SemAlts = Syn_SemAlts {attrOrderCollect_Syn_SemAlts :: !(AttrOrderMap),collectedArounds_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]),collectedAugments_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]),collectedInsts_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, [Identifier]) ]),collectedRules_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, RuleInfo)]),collectedSigs_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, SigInfo) ]),collectedUniques_Syn_SemAlts :: !([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]),errors_Syn_SemAlts :: !(Seq Error),semPragmasCollect_Syn_SemAlts :: !(PragmaMap)} wrap_SemAlts :: T_SemAlts -> Inh_SemAlts -> Syn_SemAlts wrap_SemAlts (T_SemAlts sem ) (Inh_SemAlts _lhsIallAttrDecls _lhsIallFields _lhsInts ) = (let ( _lhsOattrOrderCollect,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedInsts,_lhsOcollectedRules,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOerrors,_lhsOsemPragmasCollect) = (sem _lhsIallAttrDecls _lhsIallFields _lhsInts ) in (Syn_SemAlts _lhsOattrOrderCollect _lhsOcollectedArounds _lhsOcollectedAugments _lhsOcollectedInsts _lhsOcollectedRules _lhsOcollectedSigs _lhsOcollectedUniques _lhsOerrors _lhsOsemPragmasCollect )) sem_SemAlts_Cons :: T_SemAlt -> T_SemAlts -> T_SemAlts sem_SemAlts_Cons (T_SemAlt hd_ ) (T_SemAlts tl_ ) = (T_SemAlts (\ _lhsIallAttrDecls _lhsIallFields _lhsInts -> (let _lhsOattrOrderCollect :: AttrOrderMap _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOerrors :: (Seq Error) _lhsOsemPragmasCollect :: PragmaMap _hdOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _hdOallFields :: DataTypes _hdOnts :: (Set NontermIdent) _tlOallAttrDecls :: (Map NontermIdent (Attributes, Attributes)) _tlOallFields :: DataTypes _tlOnts :: (Set NontermIdent) _hdIattrOrderCollect :: AttrOrderMap _hdIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _hdIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _hdIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _hdIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _hdIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _hdIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _hdIerrors :: (Seq Error) _hdIsemPragmasCollect :: PragmaMap _tlIattrOrderCollect :: AttrOrderMap _tlIcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _tlIcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _tlIcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _tlIcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _tlIcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _tlIcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _tlIerrors :: (Seq Error) _tlIsemPragmasCollect :: PragmaMap -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} _hdIattrOrderCollect `orderMapUnion` _tlIattrOrderCollect {-# LINE 4913 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} _hdIcollectedArounds ++ _tlIcollectedArounds {-# LINE 4918 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} _hdIcollectedAugments ++ _tlIcollectedAugments {-# LINE 4923 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} _hdIcollectedInsts ++ _tlIcollectedInsts {-# LINE 4928 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} _hdIcollectedRules ++ _tlIcollectedRules {-# LINE 4933 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} _hdIcollectedSigs ++ _tlIcollectedSigs {-# LINE 4938 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} _hdIcollectedUniques ++ _tlIcollectedUniques {-# LINE 4943 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} _hdIerrors Seq.>< _tlIerrors {-# LINE 4948 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} _hdIsemPragmasCollect `pragmaMapUnion` _tlIsemPragmasCollect {-# LINE 4953 "Transform.hs" #-} -- copy rule (down) _hdOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _lhsIallAttrDecls {-# LINE 4958 "Transform.hs" #-} -- copy rule (down) _hdOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4963 "Transform.hs" #-} -- copy rule (down) _hdOnts = {-# LINE 163 "Transform.ag" #-} _lhsInts {-# LINE 4968 "Transform.hs" #-} -- copy rule (down) _tlOallAttrDecls = {-# LINE 735 "Transform.ag" #-} _lhsIallAttrDecls {-# LINE 4973 "Transform.hs" #-} -- copy rule (down) _tlOallFields = {-# LINE 126 "Transform.ag" #-} _lhsIallFields {-# LINE 4978 "Transform.hs" #-} -- copy rule (down) _tlOnts = {-# LINE 163 "Transform.ag" #-} _lhsInts {-# LINE 4983 "Transform.hs" #-} ( _hdIattrOrderCollect,_hdIcollectedArounds,_hdIcollectedAugments,_hdIcollectedInsts,_hdIcollectedRules,_hdIcollectedSigs,_hdIcollectedUniques,_hdIerrors,_hdIsemPragmasCollect) = (hd_ _hdOallAttrDecls _hdOallFields _hdOnts ) ( _tlIattrOrderCollect,_tlIcollectedArounds,_tlIcollectedAugments,_tlIcollectedInsts,_tlIcollectedRules,_tlIcollectedSigs,_tlIcollectedUniques,_tlIerrors,_tlIsemPragmasCollect) = (tl_ _tlOallAttrDecls _tlOallFields _tlOnts ) in ( _lhsOattrOrderCollect,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedInsts,_lhsOcollectedRules,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOerrors,_lhsOsemPragmasCollect))) ) sem_SemAlts_Nil :: T_SemAlts sem_SemAlts_Nil = (T_SemAlts (\ _lhsIallAttrDecls _lhsIallFields _lhsInts -> (let _lhsOattrOrderCollect :: AttrOrderMap _lhsOcollectedArounds :: ([ (NontermIdent, ConstructorIdent, [AroundInfo]) ]) _lhsOcollectedAugments :: ([ (NontermIdent, ConstructorIdent, [AugmentInfo]) ]) _lhsOcollectedInsts :: ([ (NontermIdent, ConstructorIdent, [Identifier]) ]) _lhsOcollectedRules :: ([ (NontermIdent, ConstructorIdent, RuleInfo)]) _lhsOcollectedSigs :: ([ (NontermIdent, ConstructorIdent, SigInfo) ]) _lhsOcollectedUniques :: ([ (NontermIdent, ConstructorIdent, [UniqueInfo]) ]) _lhsOerrors :: (Seq Error) _lhsOsemPragmasCollect :: PragmaMap -- use rule "Transform.ag"(line 734, column 55) _lhsOattrOrderCollect = {-# LINE 734 "Transform.ag" #-} Map.empty {-# LINE 5007 "Transform.hs" #-} -- use rule "Transform.ag"(line 153, column 32) _lhsOcollectedArounds = {-# LINE 153 "Transform.ag" #-} [] {-# LINE 5012 "Transform.hs" #-} -- use rule "Transform.ag"(line 152, column 32) _lhsOcollectedAugments = {-# LINE 152 "Transform.ag" #-} [] {-# LINE 5017 "Transform.hs" #-} -- use rule "Transform.ag"(line 150, column 32) _lhsOcollectedInsts = {-# LINE 150 "Transform.ag" #-} [] {-# LINE 5022 "Transform.hs" #-} -- use rule "Transform.ag"(line 148, column 32) _lhsOcollectedRules = {-# LINE 148 "Transform.ag" #-} [] {-# LINE 5027 "Transform.hs" #-} -- use rule "Transform.ag"(line 149, column 32) _lhsOcollectedSigs = {-# LINE 149 "Transform.ag" #-} [] {-# LINE 5032 "Transform.hs" #-} -- use rule "Transform.ag"(line 151, column 32) _lhsOcollectedUniques = {-# LINE 151 "Transform.ag" #-} [] {-# LINE 5037 "Transform.hs" #-} -- use rule "Transform.ag"(line 42, column 19) _lhsOerrors = {-# LINE 42 "Transform.ag" #-} Seq.empty {-# LINE 5042 "Transform.hs" #-} -- use rule "Transform.ag"(line 706, column 56) _lhsOsemPragmasCollect = {-# LINE 706 "Transform.ag" #-} Map.empty {-# LINE 5047 "Transform.hs" #-} in ( _lhsOattrOrderCollect,_lhsOcollectedArounds,_lhsOcollectedAugments,_lhsOcollectedInsts,_lhsOcollectedRules,_lhsOcollectedSigs,_lhsOcollectedUniques,_lhsOerrors,_lhsOsemPragmasCollect))) ) -- SemDef ------------------------------------------------------ {- visit 0: synthesized attributes: aroundInfos : [AroundInfo] augmentInfos : [AugmentInfo] definedInsts : [Identifier] orderDepsCollect : Set Dependency pragmaNamesCollect : [Identifier] ruleInfos : [RuleInfo] sigInfos : [SigInfo] uniqueInfos : [UniqueInfo] alternatives: alternative AroundDef: child ident : {Identifier} child rhs : {Expression} alternative AttrOrderBefore: child before : {[(Identifier,Identifier)]} child after : {[(Identifier,Identifier)]} visit 0: local dependency : _ alternative AugmentDef: child ident : {Identifier} child rhs : {Expression} alternative Def: child pos : {Pos} child pattern : Pattern child rhs : {Expression} child owrt : {Bool} alternative SemPragma: child names : {[NontermIdent]} alternative TypeDef: child ident : {Identifier} child tp : {Type} alternative UniqueDef: child ident : {Identifier} child ref : {Identifier} -} -- cata sem_SemDef :: SemDef -> T_SemDef sem_SemDef (AroundDef _ident _rhs ) = (sem_SemDef_AroundDef _ident _rhs ) sem_SemDef (AttrOrderBefore _before _after ) = (sem_SemDef_AttrOrderBefore _before _after ) sem_SemDef (AugmentDef _ident _rhs ) = (sem_SemDef_AugmentDef _ident _rhs ) sem_SemDef (Def _pos _pattern _rhs _owrt ) = (sem_SemDef_Def _pos (sem_Pattern _pattern ) _rhs _owrt ) sem_SemDef (SemPragma _names ) = (sem_SemDef_SemPragma _names ) sem_SemDef (TypeDef _ident _tp ) = (sem_SemDef_TypeDef _ident _tp ) sem_SemDef (UniqueDef _ident _ref ) = (sem_SemDef_UniqueDef _ident _ref ) -- semantic domain newtype T_SemDef = T_SemDef (( ([AroundInfo]),([AugmentInfo]),([Identifier]),(Set Dependency),([Identifier]),([RuleInfo]),([SigInfo]),([UniqueInfo]))) data Inh_SemDef = Inh_SemDef {} data Syn_SemDef = Syn_SemDef {aroundInfos_Syn_SemDef :: !([AroundInfo]),augmentInfos_Syn_SemDef :: !([AugmentInfo]),definedInsts_Syn_SemDef :: !([Identifier]),orderDepsCollect_Syn_SemDef :: !(Set Dependency),pragmaNamesCollect_Syn_SemDef :: !([Identifier]),ruleInfos_Syn_SemDef :: !([RuleInfo]),sigInfos_Syn_SemDef :: !([SigInfo]),uniqueInfos_Syn_SemDef :: !([UniqueInfo])} wrap_SemDef :: T_SemDef -> Inh_SemDef -> Syn_SemDef wrap_SemDef (T_SemDef sem ) (Inh_SemDef ) = (let ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos) = (sem ) in (Syn_SemDef _lhsOaroundInfos _lhsOaugmentInfos _lhsOdefinedInsts _lhsOorderDepsCollect _lhsOpragmaNamesCollect _lhsOruleInfos _lhsOsigInfos _lhsOuniqueInfos )) sem_SemDef_AroundDef :: Identifier -> Expression -> T_SemDef sem_SemDef_AroundDef ident_ rhs_ = (T_SemDef (let _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 952, column 17) _lhsOaroundInfos = {-# LINE 952 "Transform.ag" #-} [ (ident_, rhs_) ] {-# LINE 5131 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5136 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5141 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5146 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5151 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5156 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5161 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5166 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_AttrOrderBefore :: ([(Identifier,Identifier)]) -> ([(Identifier,Identifier)]) -> T_SemDef sem_SemDef_AttrOrderBefore before_ after_ = (T_SemDef (let _lhsOorderDepsCollect :: (Set Dependency) _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 751, column 7) _dependency = {-# LINE 751 "Transform.ag" #-} [ Dependency b a | b <- before_, a <- after_ ] {-# LINE 5184 "Transform.hs" #-} -- "Transform.ag"(line 752, column 7) _lhsOorderDepsCollect = {-# LINE 752 "Transform.ag" #-} Set.fromList _dependency {-# LINE 5189 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5194 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5199 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5204 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5209 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5214 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5219 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5224 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_AugmentDef :: Identifier -> Expression -> T_SemDef sem_SemDef_AugmentDef ident_ rhs_ = (T_SemDef (let _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOaroundInfos :: ([AroundInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 949, column 17) _lhsOaugmentInfos = {-# LINE 949 "Transform.ag" #-} [ (ident_, rhs_) ] {-# LINE 5242 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5247 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5252 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5257 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5262 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5267 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5272 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5277 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_Def :: Pos -> T_Pattern -> Expression -> Bool -> T_SemDef sem_SemDef_Def pos_ (T_Pattern pattern_ ) rhs_ owrt_ = (T_SemDef (let _lhsOruleInfos :: ([RuleInfo]) _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) _patternIcopy :: Pattern _patternIdefinedAttrs :: ([AttrName]) _patternIdefinedInsts :: ([Identifier]) _patternIpatunder :: ([AttrName]->Pattern) _patternIstpos :: Pos -- "Transform.ag"(line 940, column 10) _lhsOruleInfos = {-# LINE 940 "Transform.ag" #-} [ (_patternIpatunder, rhs_, _patternIdefinedAttrs, owrt_, show _patternIstpos) ] {-# LINE 5302 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5307 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5312 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _patternIdefinedInsts {-# LINE 5317 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5322 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5327 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5332 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5337 "Transform.hs" #-} ( _patternIcopy,_patternIdefinedAttrs,_patternIdefinedInsts,_patternIpatunder,_patternIstpos) = (pattern_ ) in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_SemPragma :: ([NontermIdent]) -> T_SemDef sem_SemDef_SemPragma names_ = (T_SemDef (let _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 720, column 7) _lhsOpragmaNamesCollect = {-# LINE 720 "Transform.ag" #-} names_ {-# LINE 5356 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5361 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5366 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5371 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5376 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5381 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5386 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5391 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_TypeDef :: Identifier -> Type -> T_SemDef sem_SemDef_TypeDef ident_ tp_ = (T_SemDef (let _lhsOsigInfos :: ([SigInfo]) _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- "Transform.ag"(line 943, column 14) _lhsOsigInfos = {-# LINE 943 "Transform.ag" #-} [ (ident_, tp_) ] {-# LINE 5409 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5414 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5419 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5424 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5429 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5434 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5439 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5444 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDef_UniqueDef :: Identifier -> Identifier -> T_SemDef sem_SemDef_UniqueDef ident_ ref_ = (T_SemDef (let _lhsOuniqueInfos :: ([UniqueInfo]) _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) -- "Transform.ag"(line 946, column 16) _lhsOuniqueInfos = {-# LINE 946 "Transform.ag" #-} [ (ident_, ref_) ] {-# LINE 5462 "Transform.hs" #-} -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5467 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5472 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5477 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5482 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5487 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5492 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5497 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) -- SemDefs ----------------------------------------------------- {- visit 0: synthesized attributes: aroundInfos : [AroundInfo] augmentInfos : [AugmentInfo] definedInsts : [Identifier] orderDepsCollect : Set Dependency pragmaNamesCollect : [Identifier] ruleInfos : [RuleInfo] sigInfos : [SigInfo] uniqueInfos : [UniqueInfo] alternatives: alternative Cons: child hd : SemDef child tl : SemDefs alternative Nil: -} -- cata sem_SemDefs :: SemDefs -> T_SemDefs sem_SemDefs list = (Prelude.foldr sem_SemDefs_Cons sem_SemDefs_Nil (Prelude.map sem_SemDef list) ) -- semantic domain newtype T_SemDefs = T_SemDefs (( ([AroundInfo]),([AugmentInfo]),([Identifier]),(Set Dependency),([Identifier]),([RuleInfo]),([SigInfo]),([UniqueInfo]))) data Inh_SemDefs = Inh_SemDefs {} data Syn_SemDefs = Syn_SemDefs {aroundInfos_Syn_SemDefs :: !([AroundInfo]),augmentInfos_Syn_SemDefs :: !([AugmentInfo]),definedInsts_Syn_SemDefs :: !([Identifier]),orderDepsCollect_Syn_SemDefs :: !(Set Dependency),pragmaNamesCollect_Syn_SemDefs :: !([Identifier]),ruleInfos_Syn_SemDefs :: !([RuleInfo]),sigInfos_Syn_SemDefs :: !([SigInfo]),uniqueInfos_Syn_SemDefs :: !([UniqueInfo])} wrap_SemDefs :: T_SemDefs -> Inh_SemDefs -> Syn_SemDefs wrap_SemDefs (T_SemDefs sem ) (Inh_SemDefs ) = (let ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos) = (sem ) in (Syn_SemDefs _lhsOaroundInfos _lhsOaugmentInfos _lhsOdefinedInsts _lhsOorderDepsCollect _lhsOpragmaNamesCollect _lhsOruleInfos _lhsOsigInfos _lhsOuniqueInfos )) sem_SemDefs_Cons :: T_SemDef -> T_SemDefs -> T_SemDefs sem_SemDefs_Cons (T_SemDef hd_ ) (T_SemDefs tl_ ) = (T_SemDefs (let _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) _hdIaroundInfos :: ([AroundInfo]) _hdIaugmentInfos :: ([AugmentInfo]) _hdIdefinedInsts :: ([Identifier]) _hdIorderDepsCollect :: (Set Dependency) _hdIpragmaNamesCollect :: ([Identifier]) _hdIruleInfos :: ([RuleInfo]) _hdIsigInfos :: ([SigInfo]) _hdIuniqueInfos :: ([UniqueInfo]) _tlIaroundInfos :: ([AroundInfo]) _tlIaugmentInfos :: ([AugmentInfo]) _tlIdefinedInsts :: ([Identifier]) _tlIorderDepsCollect :: (Set Dependency) _tlIpragmaNamesCollect :: ([Identifier]) _tlIruleInfos :: ([RuleInfo]) _tlIsigInfos :: ([SigInfo]) _tlIuniqueInfos :: ([UniqueInfo]) -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} _hdIaroundInfos ++ _tlIaroundInfos {-# LINE 5565 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} _hdIaugmentInfos ++ _tlIaugmentInfos {-# LINE 5570 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} _hdIdefinedInsts ++ _tlIdefinedInsts {-# LINE 5575 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} _hdIorderDepsCollect `Set.union` _tlIorderDepsCollect {-# LINE 5580 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} _hdIpragmaNamesCollect ++ _tlIpragmaNamesCollect {-# LINE 5585 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} _hdIruleInfos ++ _tlIruleInfos {-# LINE 5590 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} _hdIsigInfos ++ _tlIsigInfos {-# LINE 5595 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} _hdIuniqueInfos ++ _tlIuniqueInfos {-# LINE 5600 "Transform.hs" #-} ( _hdIaroundInfos,_hdIaugmentInfos,_hdIdefinedInsts,_hdIorderDepsCollect,_hdIpragmaNamesCollect,_hdIruleInfos,_hdIsigInfos,_hdIuniqueInfos) = (hd_ ) ( _tlIaroundInfos,_tlIaugmentInfos,_tlIdefinedInsts,_tlIorderDepsCollect,_tlIpragmaNamesCollect,_tlIruleInfos,_tlIsigInfos,_tlIuniqueInfos) = (tl_ ) in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) ) sem_SemDefs_Nil :: T_SemDefs sem_SemDefs_Nil = (T_SemDefs (let _lhsOaroundInfos :: ([AroundInfo]) _lhsOaugmentInfos :: ([AugmentInfo]) _lhsOdefinedInsts :: ([Identifier]) _lhsOorderDepsCollect :: (Set Dependency) _lhsOpragmaNamesCollect :: ([Identifier]) _lhsOruleInfos :: ([RuleInfo]) _lhsOsigInfos :: ([SigInfo]) _lhsOuniqueInfos :: ([UniqueInfo]) -- use rule "Transform.ag"(line 885, column 40) _lhsOaroundInfos = {-# LINE 885 "Transform.ag" #-} [] {-# LINE 5620 "Transform.hs" #-} -- use rule "Transform.ag"(line 884, column 40) _lhsOaugmentInfos = {-# LINE 884 "Transform.ag" #-} [] {-# LINE 5625 "Transform.hs" #-} -- use rule "Transform.ag"(line 955, column 55) _lhsOdefinedInsts = {-# LINE 955 "Transform.ag" #-} [] {-# LINE 5630 "Transform.hs" #-} -- use rule "Transform.ag"(line 747, column 44) _lhsOorderDepsCollect = {-# LINE 747 "Transform.ag" #-} Set.empty {-# LINE 5635 "Transform.hs" #-} -- use rule "Transform.ag"(line 716, column 46) _lhsOpragmaNamesCollect = {-# LINE 716 "Transform.ag" #-} [] {-# LINE 5640 "Transform.hs" #-} -- use rule "Transform.ag"(line 881, column 40) _lhsOruleInfos = {-# LINE 881 "Transform.ag" #-} [] {-# LINE 5645 "Transform.hs" #-} -- use rule "Transform.ag"(line 882, column 40) _lhsOsigInfos = {-# LINE 882 "Transform.ag" #-} [] {-# LINE 5650 "Transform.hs" #-} -- use rule "Transform.ag"(line 883, column 40) _lhsOuniqueInfos = {-# LINE 883 "Transform.ag" #-} [] {-# LINE 5655 "Transform.hs" #-} in ( _lhsOaroundInfos,_lhsOaugmentInfos,_lhsOdefinedInsts,_lhsOorderDepsCollect,_lhsOpragmaNamesCollect,_lhsOruleInfos,_lhsOsigInfos,_lhsOuniqueInfos)) )