uuagc-0.9.30: src-derived/Order.hs
-- UUAGC 0.9.29 (Order.ag)
module Order where
{-# LINE 9 "Order.ag" #-}
-- From uuagc
import CommonTypes
import Patterns
import ErrorMessages
import AbstractSyntax
import Code hiding (Type)
import qualified Code
import Expression
import Options
import SequentialComputation
import SequentialTypes
import CodeSyntax
import GrammarInfo
import HsToken(HsTokensRoot(HsTokensRoot))
import HsTokenScanner(lexTokens)
import SemHsTokens(sem_HsTokensRoot,wrap_HsTokensRoot, Syn_HsTokensRoot(..),Inh_HsTokensRoot(..))
-- From uulib
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.Sequence as Seq
import Data.Map(Map)
import Data.Set(Set)
import Data.Sequence(Seq, (><))
import UU.Util.Utils
import UU.Scanner.Position(Pos(..),initPos)
import Data.Foldable(toList)
-- From haskell libraries
import Control.Monad(liftM)
import qualified Data.Array as Array
import Data.Array((!),bounds,inRange)
import Data.List(elemIndex,partition,sort,mapAccumL,find,nubBy,intersperse,groupBy,transpose)
import qualified Data.Tree as Tree
import Maybe
{-# LINE 42 "../src-derived/Order.hs" #-}
{-# LINE 2 "./Patterns.ag" #-}
-- Patterns.ag imports
import UU.Scanner.Position(Pos)
import CommonTypes (ConstructorIdent,Identifier)
{-# LINE 49 "../src-derived/Order.hs" #-}
{-# LINE 2 "./Expression.ag" #-}
import UU.Scanner.Position(Pos)
import HsToken
{-# LINE 55 "../src-derived/Order.hs" #-}
{-# LINE 2 "./AbstractSyntax.ag" #-}
-- AbstractSyntax.ag imports
import Data.Set(Set)
import Data.Map(Map)
import Patterns (Pattern(..),Patterns)
import Expression (Expression(..))
import CommonTypes
{-# LINE 65 "../src-derived/Order.hs" #-}
{-# LINE 46 "Order.ag" #-}
-- Terminates with an error if the key is not in the map
findWithErr1 :: (Ord k, Show k) => String -> k -> Map k a -> a
findWithErr1 s k
= Map.findWithDefault (error ("findWithErr1 " ++ s ++ ": key " ++ show k ++ " not in map.")) k
findWithErr2 :: (Ord k, Show k, Show a) => k -> Map k a -> a
findWithErr2 k m
= Map.findWithDefault (error ("findWithErr2: key " ++ show k ++ " not in map: " ++ show m)) k m
{-# LINE 76 "../src-derived/Order.hs" #-}
{-# LINE 71 "Order.ag" #-}
startsWith :: String -> String -> Bool
startsWith k h = k == take (length k) h
{-# LINE 82 "../src-derived/Order.hs" #-}
{-# LINE 138 "Order.ag" #-}
getNtName :: Type -> NontermIdent
getNtName (NT nt _) = maybe nt id (deforestedNt nt)
getNtName _ = nullIdent
{-# LINE 89 "../src-derived/Order.hs" #-}
{-# LINE 166 "Order.ag" #-}
data AltAttr = AltAttr Identifier Identifier Bool
deriving (Eq, Ord, Show)
{-# LINE 95 "../src-derived/Order.hs" #-}
{-# LINE 238 "Order.ag" #-}
substSelf nt tp
= case tp of
NT n tps | n == _SELF -> NT nt tps
_ -> tp
haskellTupel :: [Type] -> Maybe Type
haskellTupel ts = Just ( Haskell ( '(' : (concat (intersperse "," (map show ts))) ++ ")" ))
{-# LINE 106 "../src-derived/Order.hs" #-}
{-# LINE 687 "Order.ag" #-}
swap (a,b) = (b,a)
showPath :: Table CRule -> [Vertex] -> [String]
showPath ruleTable path
= let look a | inRange (bounds ruleTable) a = [showOrigin (ruleTable ! a)]
| otherwise = ["Vertex " ++ show a]
showOrigin cr | getHasCode cr && getName (getAttr cr) /= "self" = prettyCRule cr ++ " (" ++ show (getPos (getAttr cr)) ++ ")"
| otherwise = prettyCRule cr
in concatMap look path
showPathLocal :: Table CRule -> [Vertex] -> [String]
showPathLocal _ [] = []
showPathLocal ruleTable xs = showP (xs++[-1])
where showP [] = []
showP (v1:v2:vs) = let line = step v1 v2
lines = showP vs
in line:lines
step v1 v2 = " - " ++ a1
where r1 = ruleTable ! v1
a1 = show (getAttr r1)
limitTo :: Int -> [String] -> [String]
limitTo _ [] = []
limitTo 0 _ = ["....etcetera, etcetera...."]
limitTo n (x:xs) = x : limitTo (n-1) xs
showPathNice :: Table CRule -> [Vertex] -> [String]
showPathNice _ [] = []
showPathNice ruleTable xs = limitTo 100 (showP ((-1):xs++[-1]))
where [maxf, maxa, maxn, maxc] = maxWidths ruleTable (take 100 xs)
showP [] = []
showP (v1:v2:vs) = let line = step v1 v2
lines = showP vs
in if null line then lines else line:lines
step v1 v2 | last && first = induced
| last && isSyn r1 = "pass up " ++ alignR maxf "" ++ " " ++ alignL maxa a1 ++ " in " ++ alignR maxn n1 ++ "|" ++ c1 ++ induced
| first&& not(isSyn r2) = "get from above " ++ alignR maxf "" ++ " " ++ alignL maxa a2 ++ " in " ++ alignR maxn n2 ++ "|" ++ c2
| last = "pass down " ++ alignR maxf f1 ++ "." ++ a1 ++ induced
| isSyn r2 = "get from below " ++ alignR maxf f2 ++ "." ++ alignL maxa a2 ++ " in " ++ alignR maxn n2 ++ "|" ++ c2
| isLocal r1 = if head a1 == '_'
then ""
else "calculate " ++ alignR maxf "loc" ++ "." ++ a1
| otherwise = "pass down " ++ alignR maxf f1 ++ "." ++ alignL maxa a1 ++ " to " ++ alignR maxn n2 ++ "|" ++ c2
where
first = v1<0
last = v2<0
r1 = ruleTable ! v1
r2 = ruleTable ! v2
a1 = show (getAttr r1)
a2 = show (getAttr r2)
f1 = show (getField r1)
f2 = show (getField r2)
n1 = show (getLhsNt r1)
n2 = show (getLhsNt r2)
c1 = show (getCon r1)
c2 = show (getCon r2)
induced | v2== -2 = " INDUCED dependency to "
| otherwise = ""
maxWidths ruleTable vs
= map maximum (transpose (map getWidth vs))
where getWidth v | v<0 = [0,0,0,0]
| otherwise = map (length . show . ($ (ruleTable!v))) [getField, getAttr, getLhsNt, getCon]
alignL n xs | k<n = xs ++ replicate (n-k) ' '
| otherwise = xs
where k = length xs
alignR n xs | k<n = replicate (n-k) ' ' ++ xs
| otherwise = xs
where k = length xs
localCycleErr :: Table CRule -> Bool -> Route -> Error
localCycleErr ruleTable o_visit (s:path)
= let cr = ruleTable ! s
attr = getAttr cr
nt = getLhsNt cr
con = getCon cr
in LocalCirc nt con attr o_visit (showPathLocal ruleTable path)
instCycleErr :: Table CRule -> Bool -> Route -> Error
instCycleErr ruleTable o_visit (s:path)
= let cr = ruleTable ! s
attr = getAttr cr
nt = getLhsNt cr
con = getCon cr
in InstCirc nt con attr o_visit (showPathLocal ruleTable path)
directCycleErrs :: Table NTAttr -> Table CRule -> Bool -> [EdgeRoutes] -> [Error]
directCycleErrs attrTable ruleTable o_visit xs
= let getNont v = case attrTable ! v of
NTASyn nt _ _ -> nt
NTAInh nt _ _ -> nt
getAttr v = case attrTable ! v of
NTASyn _ a _ -> a
NTAInh _ a _ -> a
sameNont ((v1,_),_,_) ((v2,_),_,_) = getNont v1 == getNont v2
procCycle ((v1,v2),p1,p2) = ((getAttr v1, getAttr v2), showPathNice ruleTable p1, showPathNice ruleTable p2)
wrapGroup gr@(((v1,_),_,_):_) = DirectCirc (getNont v1) o_visit (map procCycle gr)
in map wrapGroup (groupBy sameNont xs)
inducedCycleErrs :: Table NTAttr -> Table CRule -> CInterfaceMap -> [EdgeRoutes] -> [Error]
inducedCycleErrs attrTable ruleTable cim xs
= let getNont v = case attrTable ! v of
NTASyn nt _ _ -> nt
NTAInh nt _ _ -> nt
getAttr v = case attrTable ! v of
NTASyn _ a _ -> a
NTAInh _ a _ -> a
sameNont ((v1,_),_,_) ((v2,_),_,_) = getNont v1 == getNont v2
procCycle ((v1,v2),p1,p2) = ((getAttr v1, getAttr v2), showPathNice ruleTable p1, showPathNice ruleTable p2)
wrapGroup gr@(((v1,_),_,_):_) = InducedCirc (getNont v1) (findWithErr1 "inducedCycleErr.cinter" (getNont v1) cim) (map procCycle gr)
in map wrapGroup (groupBy sameNont xs)
{-# LINE 226 "../src-derived/Order.hs" #-}
-- Child -------------------------------------------------------
{-
visit 0:
inherited attributes:
allfields : [(Identifier,Type,Maybe (Maybe Type))]
allnts : [Identifier]
attrs : [(Identifier,Identifier)]
con : Identifier
inh : Attributes
mergeMap : Map Identifier (Identifier,[Identifier])
nt : Identifier
o_unbox : Bool
syn : Attributes
synthesized attributes:
attributes : [(Identifier,Attributes,Attributes)]
collectChildrenInhs : Map Identifier Attributes
collectChildrenSyns : Map Identifier Attributes
errors : Seq Error
field : (Identifier,Type,Maybe (Maybe Type))
gathAltAttrs : [AltAttr]
gathRules : Seq CRule
inhs : Seq (Identifier,Attributes)
nts : Seq (Identifier,NontermIdent)
singlevisits : [CRule]
terminals : [Identifier]
alternatives:
alternative Child:
child name : {Identifier}
child tp : {Type}
child inh : {Attributes}
child syn : {Attributes}
child virtual : {Maybe (Maybe Type)}
visit 0:
local maptolocal : _
local gathRules : _
-}
-- cata
sem_Child :: Child ->
T_Child
sem_Child (Child _name _tp _inh _syn _virtual ) =
(sem_Child_Child _name _tp _inh _syn _virtual )
-- semantic domain
newtype T_Child = T_Child (([(Identifier,Type,Maybe (Maybe Type))]) ->
([Identifier]) ->
([(Identifier,Identifier)]) ->
Identifier ->
Attributes ->
(Map Identifier (Identifier,[Identifier])) ->
Identifier ->
Bool ->
Attributes ->
( ([(Identifier,Attributes,Attributes)]),(Map Identifier Attributes ),(Map Identifier Attributes ),(Seq Error),((Identifier,Type,Maybe (Maybe Type))),([AltAttr]),(Seq CRule),(Seq (Identifier,Attributes)),(Seq (Identifier,NontermIdent)),([CRule]),([Identifier])))
data Inh_Child = Inh_Child {allfields_Inh_Child :: !(([(Identifier,Type,Maybe (Maybe Type))])),allnts_Inh_Child :: !(([Identifier])),attrs_Inh_Child :: !(([(Identifier,Identifier)])),con_Inh_Child :: !(Identifier),inh_Inh_Child :: !(Attributes),mergeMap_Inh_Child :: !((Map Identifier (Identifier,[Identifier]))),nt_Inh_Child :: !(Identifier),o_unbox_Inh_Child :: !(Bool),syn_Inh_Child :: !(Attributes)}
data Syn_Child = Syn_Child {attributes_Syn_Child :: !(([(Identifier,Attributes,Attributes)])),collectChildrenInhs_Syn_Child :: !((Map Identifier Attributes )),collectChildrenSyns_Syn_Child :: !((Map Identifier Attributes )),errors_Syn_Child :: !((Seq Error)),field_Syn_Child :: !(((Identifier,Type,Maybe (Maybe Type)))),gathAltAttrs_Syn_Child :: !(([AltAttr])),gathRules_Syn_Child :: !((Seq CRule)),inhs_Syn_Child :: !((Seq (Identifier,Attributes))),nts_Syn_Child :: !((Seq (Identifier,NontermIdent))),singlevisits_Syn_Child :: !(([CRule])),terminals_Syn_Child :: !(([Identifier]))}
wrap_Child :: T_Child ->
Inh_Child ->
Syn_Child
wrap_Child (T_Child sem ) (Inh_Child _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsIinh _lhsImergeMap _lhsInt _lhsIo_unbox _lhsIsyn ) =
(let ( _lhsOattributes,_lhsOcollectChildrenInhs,_lhsOcollectChildrenSyns,_lhsOerrors,_lhsOfield,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinhs,_lhsOnts,_lhsOsinglevisits,_lhsOterminals) =
(sem _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsIinh _lhsImergeMap _lhsInt _lhsIo_unbox _lhsIsyn )
in (Syn_Child _lhsOattributes _lhsOcollectChildrenInhs _lhsOcollectChildrenSyns _lhsOerrors _lhsOfield _lhsOgathAltAttrs _lhsOgathRules _lhsOinhs _lhsOnts _lhsOsinglevisits _lhsOterminals ))
sem_Child_Child :: Identifier ->
Type ->
Attributes ->
Attributes ->
(Maybe (Maybe Type)) ->
T_Child
sem_Child_Child name_ tp_ inh_ syn_ virtual_ =
(T_Child (\ _lhsIallfields
_lhsIallnts
_lhsIattrs
_lhsIcon
_lhsIinh
_lhsImergeMap
_lhsInt
_lhsIo_unbox
_lhsIsyn ->
(let _lhsOgathAltAttrs :: ([AltAttr])
_lhsOnts :: (Seq (Identifier,NontermIdent))
_lhsOinhs :: (Seq (Identifier,Attributes))
_lhsOcollectChildrenSyns :: (Map Identifier Attributes )
_lhsOcollectChildrenInhs :: (Map Identifier Attributes )
_lhsOsinglevisits :: ([CRule])
_lhsOterminals :: ([Identifier])
_lhsOattributes :: ([(Identifier,Attributes,Attributes)])
_lhsOfield :: ((Identifier,Type,Maybe (Maybe Type)))
_lhsOerrors :: (Seq Error)
_lhsOgathRules :: (Seq CRule)
-- "Order.ag"(line 177, column 13)
_maptolocal =
({-# LINE 177 "Order.ag" #-}
case tp_ of
NT nt _ -> Map.null syn_
_ -> True
{-# LINE 321 "Order.hs" #-})
-- "Order.ag"(line 180, column 13)
_lhsOgathAltAttrs =
({-# LINE 180 "Order.ag" #-}
if _maptolocal
then [ AltAttr _LOC name_ True ]
else [ AltAttr name_ syn True | syn <- Map.keys syn_ ]
{-# LINE 328 "Order.hs" #-})
-- "Order.ag"(line 195, column 13)
_lhsOnts =
({-# LINE 195 "Order.ag" #-}
Seq.singleton (name_,getNtName tp_)
{-# LINE 333 "Order.hs" #-})
-- "Order.ag"(line 196, column 13)
_lhsOinhs =
({-# LINE 196 "Order.ag" #-}
Seq.singleton (name_,inh_)
{-# LINE 338 "Order.hs" #-})
-- "Order.ag"(line 212, column 13)
_gathRules =
({-# LINE 212 "Order.ag" #-}
if _maptolocal
then Seq.singleton (cRuleTerminal name_ _lhsInt _lhsIcon tp_)
else Seq.fromList [ cRuleRhsSyn syn _lhsInt _lhsIcon tp name_ (getNtName tp_) | (syn,tp) <- Map.assocs syn_]
{-# LINE 345 "Order.hs" #-})
-- "Order.ag"(line 346, column 12)
_lhsOcollectChildrenSyns =
({-# LINE 346 "Order.ag" #-}
Map.singleton name_ syn_
{-# LINE 350 "Order.hs" #-})
-- "Order.ag"(line 347, column 12)
_lhsOcollectChildrenInhs =
({-# LINE 347 "Order.ag" #-}
Map.singleton name_ inh_
{-# LINE 355 "Order.hs" #-})
-- "Order.ag"(line 613, column 11)
_lhsOsinglevisits =
({-# LINE 613 "Order.ag" #-}
if _maptolocal
then []
else [CChildVisit name_ (getNtName tp_) 0 inh_ syn_ True]
{-# LINE 362 "Order.hs" #-})
-- "Order.ag"(line 638, column 11)
_lhsOterminals =
({-# LINE 638 "Order.ag" #-}
if _maptolocal
then [name_]
else []
{-# LINE 369 "Order.hs" #-})
-- "Order.ag"(line 667, column 11)
_lhsOattributes =
({-# LINE 667 "Order.ag" #-}
[(name_, inh_, syn_)]
{-# LINE 374 "Order.hs" #-})
-- "Order.ag"(line 671, column 11)
_lhsOfield =
({-# LINE 671 "Order.ag" #-}
(name_, tp_, virtual_)
{-# LINE 379 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 384 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
_gathRules
{-# LINE 389 "Order.hs" #-})
in ( _lhsOattributes,_lhsOcollectChildrenInhs,_lhsOcollectChildrenSyns,_lhsOerrors,_lhsOfield,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinhs,_lhsOnts,_lhsOsinglevisits,_lhsOterminals))) )
-- Children ----------------------------------------------------
{-
visit 0:
inherited attributes:
allfields : [(Identifier,Type,Maybe (Maybe Type))]
allnts : [Identifier]
attrs : [(Identifier,Identifier)]
con : Identifier
inh : Attributes
mergeMap : Map Identifier (Identifier,[Identifier])
nt : Identifier
o_unbox : Bool
syn : Attributes
synthesized attributes:
attributes : [(Identifier,Attributes,Attributes)]
collectChildrenInhs : Map Identifier Attributes
collectChildrenSyns : Map Identifier Attributes
errors : Seq Error
fields : [(Identifier,Type,Maybe (Maybe Type))]
gathAltAttrs : [AltAttr]
gathRules : Seq CRule
inhs : Seq (Identifier,Attributes)
nts : Seq (Identifier,NontermIdent)
singlevisits : [CRule]
terminals : [Identifier]
alternatives:
alternative Cons:
child hd : Child
child tl : Children
alternative Nil:
-}
-- cata
sem_Children :: Children ->
T_Children
sem_Children list =
(Prelude.foldr sem_Children_Cons sem_Children_Nil (Prelude.map sem_Child list) )
-- semantic domain
newtype T_Children = T_Children (([(Identifier,Type,Maybe (Maybe Type))]) ->
([Identifier]) ->
([(Identifier,Identifier)]) ->
Identifier ->
Attributes ->
(Map Identifier (Identifier,[Identifier])) ->
Identifier ->
Bool ->
Attributes ->
( ([(Identifier,Attributes,Attributes)]),(Map Identifier Attributes ),(Map Identifier Attributes ),(Seq Error),([(Identifier,Type,Maybe (Maybe Type))]),([AltAttr]),(Seq CRule),(Seq (Identifier,Attributes)),(Seq (Identifier,NontermIdent)),([CRule]),([Identifier])))
data Inh_Children = Inh_Children {allfields_Inh_Children :: !(([(Identifier,Type,Maybe (Maybe Type))])),allnts_Inh_Children :: !(([Identifier])),attrs_Inh_Children :: !(([(Identifier,Identifier)])),con_Inh_Children :: !(Identifier),inh_Inh_Children :: !(Attributes),mergeMap_Inh_Children :: !((Map Identifier (Identifier,[Identifier]))),nt_Inh_Children :: !(Identifier),o_unbox_Inh_Children :: !(Bool),syn_Inh_Children :: !(Attributes)}
data Syn_Children = Syn_Children {attributes_Syn_Children :: !(([(Identifier,Attributes,Attributes)])),collectChildrenInhs_Syn_Children :: !((Map Identifier Attributes )),collectChildrenSyns_Syn_Children :: !((Map Identifier Attributes )),errors_Syn_Children :: !((Seq Error)),fields_Syn_Children :: !(([(Identifier,Type,Maybe (Maybe Type))])),gathAltAttrs_Syn_Children :: !(([AltAttr])),gathRules_Syn_Children :: !((Seq CRule)),inhs_Syn_Children :: !((Seq (Identifier,Attributes))),nts_Syn_Children :: !((Seq (Identifier,NontermIdent))),singlevisits_Syn_Children :: !(([CRule])),terminals_Syn_Children :: !(([Identifier]))}
wrap_Children :: T_Children ->
Inh_Children ->
Syn_Children
wrap_Children (T_Children sem ) (Inh_Children _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsIinh _lhsImergeMap _lhsInt _lhsIo_unbox _lhsIsyn ) =
(let ( _lhsOattributes,_lhsOcollectChildrenInhs,_lhsOcollectChildrenSyns,_lhsOerrors,_lhsOfields,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinhs,_lhsOnts,_lhsOsinglevisits,_lhsOterminals) =
(sem _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsIinh _lhsImergeMap _lhsInt _lhsIo_unbox _lhsIsyn )
in (Syn_Children _lhsOattributes _lhsOcollectChildrenInhs _lhsOcollectChildrenSyns _lhsOerrors _lhsOfields _lhsOgathAltAttrs _lhsOgathRules _lhsOinhs _lhsOnts _lhsOsinglevisits _lhsOterminals ))
sem_Children_Cons :: T_Child ->
T_Children ->
T_Children
sem_Children_Cons (T_Child hd_ ) (T_Children tl_ ) =
(T_Children (\ _lhsIallfields
_lhsIallnts
_lhsIattrs
_lhsIcon
_lhsIinh
_lhsImergeMap
_lhsInt
_lhsIo_unbox
_lhsIsyn ->
(let _lhsOfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_lhsOattributes :: ([(Identifier,Attributes,Attributes)])
_lhsOcollectChildrenInhs :: (Map Identifier Attributes )
_lhsOcollectChildrenSyns :: (Map Identifier Attributes )
_lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOgathRules :: (Seq CRule)
_lhsOinhs :: (Seq (Identifier,Attributes))
_lhsOnts :: (Seq (Identifier,NontermIdent))
_lhsOsinglevisits :: ([CRule])
_lhsOterminals :: ([Identifier])
_hdOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_hdOallnts :: ([Identifier])
_hdOattrs :: ([(Identifier,Identifier)])
_hdOcon :: Identifier
_hdOinh :: Attributes
_hdOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_hdOnt :: Identifier
_hdOo_unbox :: Bool
_hdOsyn :: Attributes
_tlOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_tlOallnts :: ([Identifier])
_tlOattrs :: ([(Identifier,Identifier)])
_tlOcon :: Identifier
_tlOinh :: Attributes
_tlOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_tlOnt :: Identifier
_tlOo_unbox :: Bool
_tlOsyn :: Attributes
_hdIattributes :: ([(Identifier,Attributes,Attributes)])
_hdIcollectChildrenInhs :: (Map Identifier Attributes )
_hdIcollectChildrenSyns :: (Map Identifier Attributes )
_hdIerrors :: (Seq Error)
_hdIfield :: ((Identifier,Type,Maybe (Maybe Type)))
_hdIgathAltAttrs :: ([AltAttr])
_hdIgathRules :: (Seq CRule)
_hdIinhs :: (Seq (Identifier,Attributes))
_hdInts :: (Seq (Identifier,NontermIdent))
_hdIsinglevisits :: ([CRule])
_hdIterminals :: ([Identifier])
_tlIattributes :: ([(Identifier,Attributes,Attributes)])
_tlIcollectChildrenInhs :: (Map Identifier Attributes )
_tlIcollectChildrenSyns :: (Map Identifier Attributes )
_tlIerrors :: (Seq Error)
_tlIfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_tlIgathAltAttrs :: ([AltAttr])
_tlIgathRules :: (Seq CRule)
_tlIinhs :: (Seq (Identifier,Attributes))
_tlInts :: (Seq (Identifier,NontermIdent))
_tlIsinglevisits :: ([CRule])
_tlIterminals :: ([Identifier])
-- "Order.ag"(line 674, column 11)
_lhsOfields =
({-# LINE 674 "Order.ag" #-}
_hdIfield : _tlIfields
{-# LINE 515 "Order.hs" #-})
-- use rule "Order.ag"(line 665, column 32)
_lhsOattributes =
({-# LINE 665 "Order.ag" #-}
_hdIattributes ++ _tlIattributes
{-# LINE 520 "Order.hs" #-})
-- use rule "Order.ag"(line 344, column 68)
_lhsOcollectChildrenInhs =
({-# LINE 344 "Order.ag" #-}
_hdIcollectChildrenInhs `Map.union` _tlIcollectChildrenInhs
{-# LINE 525 "Order.hs" #-})
-- use rule "Order.ag"(line 344, column 68)
_lhsOcollectChildrenSyns =
({-# LINE 344 "Order.ag" #-}
_hdIcollectChildrenSyns `Map.union` _tlIcollectChildrenSyns
{-# LINE 530 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_hdIerrors Seq.>< _tlIerrors
{-# LINE 535 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_hdIgathAltAttrs ++ _tlIgathAltAttrs
{-# LINE 540 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
_hdIgathRules Seq.>< _tlIgathRules
{-# LINE 545 "Order.hs" #-})
-- use rule "Order.ag"(line 193, column 20)
_lhsOinhs =
({-# LINE 193 "Order.ag" #-}
_hdIinhs Seq.>< _tlIinhs
{-# LINE 550 "Order.hs" #-})
-- use rule "Order.ag"(line 192, column 19)
_lhsOnts =
({-# LINE 192 "Order.ag" #-}
_hdInts Seq.>< _tlInts
{-# LINE 555 "Order.hs" #-})
-- use rule "Order.ag"(line 611, column 40)
_lhsOsinglevisits =
({-# LINE 611 "Order.ag" #-}
_hdIsinglevisits ++ _tlIsinglevisits
{-# LINE 560 "Order.hs" #-})
-- use rule "Order.ag"(line 636, column 38)
_lhsOterminals =
({-# LINE 636 "Order.ag" #-}
_hdIterminals ++ _tlIterminals
{-# LINE 565 "Order.hs" #-})
-- copy rule (down)
_hdOallfields =
({-# LINE 654 "Order.ag" #-}
_lhsIallfields
{-# LINE 570 "Order.hs" #-})
-- copy rule (down)
_hdOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 575 "Order.hs" #-})
-- copy rule (down)
_hdOattrs =
({-# LINE 654 "Order.ag" #-}
_lhsIattrs
{-# LINE 580 "Order.hs" #-})
-- copy rule (down)
_hdOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 585 "Order.hs" #-})
-- copy rule (down)
_hdOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 590 "Order.hs" #-})
-- copy rule (down)
_hdOmergeMap =
({-# LINE 362 "Order.ag" #-}
_lhsImergeMap
{-# LINE 595 "Order.hs" #-})
-- copy rule (down)
_hdOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 600 "Order.hs" #-})
-- copy rule (down)
_hdOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 605 "Order.hs" #-})
-- copy rule (down)
_hdOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 610 "Order.hs" #-})
-- copy rule (down)
_tlOallfields =
({-# LINE 654 "Order.ag" #-}
_lhsIallfields
{-# LINE 615 "Order.hs" #-})
-- copy rule (down)
_tlOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 620 "Order.hs" #-})
-- copy rule (down)
_tlOattrs =
({-# LINE 654 "Order.ag" #-}
_lhsIattrs
{-# LINE 625 "Order.hs" #-})
-- copy rule (down)
_tlOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 630 "Order.hs" #-})
-- copy rule (down)
_tlOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 635 "Order.hs" #-})
-- copy rule (down)
_tlOmergeMap =
({-# LINE 362 "Order.ag" #-}
_lhsImergeMap
{-# LINE 640 "Order.hs" #-})
-- copy rule (down)
_tlOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 645 "Order.hs" #-})
-- copy rule (down)
_tlOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 650 "Order.hs" #-})
-- copy rule (down)
_tlOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 655 "Order.hs" #-})
( _hdIattributes,_hdIcollectChildrenInhs,_hdIcollectChildrenSyns,_hdIerrors,_hdIfield,_hdIgathAltAttrs,_hdIgathRules,_hdIinhs,_hdInts,_hdIsinglevisits,_hdIterminals) =
(hd_ _hdOallfields _hdOallnts _hdOattrs _hdOcon _hdOinh _hdOmergeMap _hdOnt _hdOo_unbox _hdOsyn )
( _tlIattributes,_tlIcollectChildrenInhs,_tlIcollectChildrenSyns,_tlIerrors,_tlIfields,_tlIgathAltAttrs,_tlIgathRules,_tlIinhs,_tlInts,_tlIsinglevisits,_tlIterminals) =
(tl_ _tlOallfields _tlOallnts _tlOattrs _tlOcon _tlOinh _tlOmergeMap _tlOnt _tlOo_unbox _tlOsyn )
in ( _lhsOattributes,_lhsOcollectChildrenInhs,_lhsOcollectChildrenSyns,_lhsOerrors,_lhsOfields,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinhs,_lhsOnts,_lhsOsinglevisits,_lhsOterminals))) )
sem_Children_Nil :: T_Children
sem_Children_Nil =
(T_Children (\ _lhsIallfields
_lhsIallnts
_lhsIattrs
_lhsIcon
_lhsIinh
_lhsImergeMap
_lhsInt
_lhsIo_unbox
_lhsIsyn ->
(let _lhsOfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_lhsOattributes :: ([(Identifier,Attributes,Attributes)])
_lhsOcollectChildrenInhs :: (Map Identifier Attributes )
_lhsOcollectChildrenSyns :: (Map Identifier Attributes )
_lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOgathRules :: (Seq CRule)
_lhsOinhs :: (Seq (Identifier,Attributes))
_lhsOnts :: (Seq (Identifier,NontermIdent))
_lhsOsinglevisits :: ([CRule])
_lhsOterminals :: ([Identifier])
-- "Order.ag"(line 675, column 11)
_lhsOfields =
({-# LINE 675 "Order.ag" #-}
[]
{-# LINE 687 "Order.hs" #-})
-- use rule "Order.ag"(line 665, column 32)
_lhsOattributes =
({-# LINE 665 "Order.ag" #-}
[]
{-# LINE 692 "Order.hs" #-})
-- use rule "Order.ag"(line 344, column 68)
_lhsOcollectChildrenInhs =
({-# LINE 344 "Order.ag" #-}
Map.empty
{-# LINE 697 "Order.hs" #-})
-- use rule "Order.ag"(line 344, column 68)
_lhsOcollectChildrenSyns =
({-# LINE 344 "Order.ag" #-}
Map.empty
{-# LINE 702 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 707 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
[]
{-# LINE 712 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
Seq.empty
{-# LINE 717 "Order.hs" #-})
-- use rule "Order.ag"(line 193, column 20)
_lhsOinhs =
({-# LINE 193 "Order.ag" #-}
Seq.empty
{-# LINE 722 "Order.hs" #-})
-- use rule "Order.ag"(line 192, column 19)
_lhsOnts =
({-# LINE 192 "Order.ag" #-}
Seq.empty
{-# LINE 727 "Order.hs" #-})
-- use rule "Order.ag"(line 611, column 40)
_lhsOsinglevisits =
({-# LINE 611 "Order.ag" #-}
[]
{-# LINE 732 "Order.hs" #-})
-- use rule "Order.ag"(line 636, column 38)
_lhsOterminals =
({-# LINE 636 "Order.ag" #-}
[]
{-# LINE 737 "Order.hs" #-})
in ( _lhsOattributes,_lhsOcollectChildrenInhs,_lhsOcollectChildrenSyns,_lhsOerrors,_lhsOfields,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinhs,_lhsOnts,_lhsOsinglevisits,_lhsOterminals))) )
-- Expression --------------------------------------------------
{-
visit 0:
inherited attributes:
allfields : [(Identifier,Type,Maybe (Maybe Type))]
allnts : [Identifier]
attrs : [(Identifier,Identifier)]
con : Identifier
mergeMap : Map Identifier (Identifier,[Identifier])
nt : Identifier
synthesized attributes:
allRhsVars : Set (Identifier,Identifier)
copy : SELF
errors : Seq Error
textLines : [String]
usedAttrs : [(Identifier,Identifier)]
usedFields : [Identifier]
usedLocals : [Identifier]
alternatives:
alternative Expression:
child pos : {Pos}
child tks : {[HsToken]}
visit 0:
local _tup1 : _
local errors : _
local textLines : _
local usedAttrs : _
local usedLocals : _
local usedFields : _
local copy : _
-}
-- cata
sem_Expression :: Expression ->
T_Expression
sem_Expression (Expression _pos _tks ) =
(sem_Expression_Expression _pos _tks )
-- semantic domain
newtype T_Expression = T_Expression (([(Identifier,Type,Maybe (Maybe Type))]) ->
([Identifier]) ->
([(Identifier,Identifier)]) ->
Identifier ->
(Map Identifier (Identifier,[Identifier])) ->
Identifier ->
( (Set (Identifier,Identifier)),Expression ,(Seq Error),([String]),([(Identifier,Identifier)]),([Identifier]),([Identifier])))
data Inh_Expression = Inh_Expression {allfields_Inh_Expression :: !(([(Identifier,Type,Maybe (Maybe Type))])),allnts_Inh_Expression :: !(([Identifier])),attrs_Inh_Expression :: !(([(Identifier,Identifier)])),con_Inh_Expression :: !(Identifier),mergeMap_Inh_Expression :: !((Map Identifier (Identifier,[Identifier]))),nt_Inh_Expression :: !(Identifier)}
data Syn_Expression = Syn_Expression {allRhsVars_Syn_Expression :: !((Set (Identifier,Identifier))),copy_Syn_Expression :: !(Expression ),errors_Syn_Expression :: !((Seq Error)),textLines_Syn_Expression :: !(([String])),usedAttrs_Syn_Expression :: !(([(Identifier,Identifier)])),usedFields_Syn_Expression :: !(([Identifier])),usedLocals_Syn_Expression :: !(([Identifier]))}
wrap_Expression :: T_Expression ->
Inh_Expression ->
Syn_Expression
wrap_Expression (T_Expression sem ) (Inh_Expression _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsImergeMap _lhsInt ) =
(let ( _lhsOallRhsVars,_lhsOcopy,_lhsOerrors,_lhsOtextLines,_lhsOusedAttrs,_lhsOusedFields,_lhsOusedLocals) =
(sem _lhsIallfields _lhsIallnts _lhsIattrs _lhsIcon _lhsImergeMap _lhsInt )
in (Syn_Expression _lhsOallRhsVars _lhsOcopy _lhsOerrors _lhsOtextLines _lhsOusedAttrs _lhsOusedFields _lhsOusedLocals ))
sem_Expression_Expression :: Pos ->
([HsToken]) ->
T_Expression
sem_Expression_Expression pos_ tks_ =
(T_Expression (\ _lhsIallfields
_lhsIallnts
_lhsIattrs
_lhsIcon
_lhsImergeMap
_lhsInt ->
(let _lhsOallRhsVars :: (Set (Identifier,Identifier))
_lhsOcopy :: Expression
_lhsOerrors :: (Seq Error)
_lhsOtextLines :: ([String])
_lhsOusedAttrs :: ([(Identifier,Identifier)])
_lhsOusedFields :: ([Identifier])
_lhsOusedLocals :: ([Identifier])
-- "Order.ag"(line 464, column 21)
__tup1 =
({-# LINE 464 "Order.ag" #-}
let mergedChildren = [ x | (_,xs) <- Map.elems _lhsImergeMap, x <- xs ]
attrsIn = filter (\(fld,_) -> not (fld `elem` mergedChildren)) _lhsIattrs
inherited = Inh_HsTokensRoot
{ attrs_Inh_HsTokensRoot = attrsIn
, con_Inh_HsTokensRoot = _lhsIcon
, allfields_Inh_HsTokensRoot = _lhsIallfields
, allnts_Inh_HsTokensRoot = _lhsIallnts
, nt_Inh_HsTokensRoot = _lhsInt
}
synthesized = wrap_HsTokensRoot (sem_HsTokensRoot (HsTokensRoot tks_)) inherited
in case synthesized of
Syn_HsTokensRoot
{ errors_Syn_HsTokensRoot = errors
, textLines_Syn_HsTokensRoot = textLines
, usedAttrs_Syn_HsTokensRoot = usedAttrs
, usedLocals_Syn_HsTokensRoot = usedLocals
, usedFields_Syn_HsTokensRoot = usedFields
} -> let extraAttrs = [ (src,attr)
| (fld,attr) <- usedAttrs, let mbMerged = Map.lookup fld _lhsImergeMap, isJust mbMerged
, let (Just (_, srcs)) = mbMerged, src <- srcs ]
usedAttrs' = usedAttrs ++ extraAttrs
in (errors,textLines,usedAttrs',usedLocals,usedFields)
{-# LINE 834 "Order.hs" #-})
-- "Order.ag"(line 464, column 21)
(_errors,_,_,_,_) =
({-# LINE 464 "Order.ag" #-}
__tup1
{-# LINE 839 "Order.hs" #-})
-- "Order.ag"(line 464, column 21)
(_,_textLines,_,_,_) =
({-# LINE 464 "Order.ag" #-}
__tup1
{-# LINE 844 "Order.hs" #-})
-- "Order.ag"(line 464, column 21)
(_,_,_usedAttrs,_,_) =
({-# LINE 464 "Order.ag" #-}
__tup1
{-# LINE 849 "Order.hs" #-})
-- "Order.ag"(line 464, column 21)
(_,_,_,_usedLocals,_) =
({-# LINE 464 "Order.ag" #-}
__tup1
{-# LINE 854 "Order.hs" #-})
-- "Order.ag"(line 464, column 21)
(_,_,_,_,_usedFields) =
({-# LINE 464 "Order.ag" #-}
__tup1
{-# LINE 859 "Order.hs" #-})
-- "Order.ag"(line 488, column 17)
_lhsOallRhsVars =
({-# LINE 488 "Order.ag" #-}
Set.fromList _usedAttrs
`Set.union`
Set.fromList [ (_LOC, l) | l <- _usedLocals ]
`Set.union`
Set.fromList [ (_FIELD, fld) | fld <- _usedFields ]
{-# LINE 868 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 457 "Order.ag" #-}
Expression pos_ tks_
{-# LINE 873 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 457 "Order.ag" #-}
_copy
{-# LINE 878 "Order.hs" #-})
-- copy rule (from local)
_lhsOerrors =
({-# LINE 452 "Order.ag" #-}
_errors
{-# LINE 883 "Order.hs" #-})
-- copy rule (from local)
_lhsOtextLines =
({-# LINE 456 "Order.ag" #-}
_textLines
{-# LINE 888 "Order.hs" #-})
-- copy rule (from local)
_lhsOusedAttrs =
({-# LINE 454 "Order.ag" #-}
_usedAttrs
{-# LINE 893 "Order.hs" #-})
-- copy rule (from local)
_lhsOusedFields =
({-# LINE 455 "Order.ag" #-}
_usedFields
{-# LINE 898 "Order.hs" #-})
-- copy rule (from local)
_lhsOusedLocals =
({-# LINE 453 "Order.ag" #-}
_usedLocals
{-# LINE 903 "Order.hs" #-})
in ( _lhsOallRhsVars,_lhsOcopy,_lhsOerrors,_lhsOtextLines,_lhsOusedAttrs,_lhsOusedFields,_lhsOusedLocals))) )
-- Grammar -----------------------------------------------------
{-
visit 0:
inherited attribute:
options : Options
synthesized attributes:
errors : Seq Error
nAutoRules : Int
nExplicitRules : Int
output : CGrammar
alternatives:
alternative Grammar:
child typeSyns : {TypeSyns}
child useMap : {UseMap}
child derivings : {Derivings}
child wrappers : {Set NontermIdent}
child nonts : Nonterminals
child pragmas : {PragmaMap}
child manualAttrOrderMap : {AttrOrderMap}
child paramMap : {ParamMap}
child contextMap : {ContextMap}
child uniqueMap : {UniqueMap}
child augmentsMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))}
child aroundsMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))}
child mergeMap : {Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier, [Identifier], Expression)))}
visit 0:
local o_dovisit : _
local ruleTable : _
local attrTable : _
local attrVertex : _
local tdpToTds : _
local tdsToTdp : _
local directDep : _
local instDep : _
local aroundDep : _
local mergeDep : _
local info : _
local _tup2 : _
local cInterfaceMap : _
local cVisitsMap : _
local cyclesErrors : _
local aroundMap : _
local mergeMap : _
-}
-- cata
sem_Grammar :: Grammar ->
T_Grammar
sem_Grammar (Grammar _typeSyns _useMap _derivings _wrappers _nonts _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap _aroundsMap _mergeMap ) =
(sem_Grammar_Grammar _typeSyns _useMap _derivings _wrappers (sem_Nonterminals _nonts ) _pragmas _manualAttrOrderMap _paramMap _contextMap _uniqueMap _augmentsMap _aroundsMap _mergeMap )
-- semantic domain
newtype T_Grammar = T_Grammar (Options ->
( (Seq Error),Int,Int,CGrammar))
data Inh_Grammar = Inh_Grammar {options_Inh_Grammar :: !(Options)}
data Syn_Grammar = Syn_Grammar {errors_Syn_Grammar :: !((Seq Error)),nAutoRules_Syn_Grammar :: !(Int),nExplicitRules_Syn_Grammar :: !(Int),output_Syn_Grammar :: !(CGrammar)}
wrap_Grammar :: T_Grammar ->
Inh_Grammar ->
Syn_Grammar
wrap_Grammar (T_Grammar sem ) (Inh_Grammar _lhsIoptions ) =
(let ( _lhsOerrors,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOoutput) =
(sem _lhsIoptions )
in (Syn_Grammar _lhsOerrors _lhsOnAutoRules _lhsOnExplicitRules _lhsOoutput ))
sem_Grammar_Grammar :: TypeSyns ->
UseMap ->
Derivings ->
(Set NontermIdent) ->
T_Nonterminals ->
PragmaMap ->
AttrOrderMap ->
ParamMap ->
ContextMap ->
UniqueMap ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier, [Identifier], Expression)))) ->
T_Grammar
sem_Grammar_Grammar typeSyns_ useMap_ derivings_ wrappers_ (T_Nonterminals nonts_ ) pragmas_ manualAttrOrderMap_ paramMap_ contextMap_ uniqueMap_ augmentsMap_ aroundsMap_ mergeMap_ =
(T_Grammar (\ _lhsIoptions ->
(let _nontsOo_cata :: Bool
_nontsOo_data :: Bool
_nontsOo_sig :: Bool
_nontsOo_sem :: Bool
_nontsOo_rename :: Bool
_nontsOo_newtypes :: Bool
_nontsOo_wantvisit :: Bool
_nontsOo_unbox :: Bool
_nontsOo_case :: Bool
_nontsOprefix :: String
_nontsOvcount :: Int
_nontsOmanualAttrDepMap :: AttrOrderMap
_nontsOaroundMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])))
_nontsOacount :: Int
_lhsOerrors :: (Seq Error)
_lhsOoutput :: CGrammar
_nontsOallnts :: ([Identifier])
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_nontsOcInterfaceMap :: CInterfaceMap
_nontsOcVisitsMap :: CVisitsMap
_nontsOmergeMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))))
_nontsOo_dovisit :: Bool
_nontsIacount :: Int
_nontsIadditionalDep :: (Seq Edge)
_nontsIaranges :: (Seq (Int,Int,Int))
_nontsIaroundDep :: (Seq Edge)
_nontsIcNonterminals :: CNonterminals
_nontsIdirectDep :: (Seq Edge)
_nontsIerrors :: (Seq Error)
_nontsIinstDep :: (Seq Edge)
_nontsImergeDep :: (Seq Edge)
_nontsInAutoRules :: Int
_nontsInExplicitRules :: Int
_nontsInonts :: ([(NontermIdent,[ConstructorIdent])])
_nontsIntattrs :: (Seq (Vertex,NTAttr))
_nontsIrules :: (Seq (Vertex,CRule))
_nontsIvcount :: Int
-- "Order.ag"(line 123, column 17)
_o_dovisit =
({-# LINE 123 "Order.ag" #-}
visit _lhsIoptions && null _cyclesErrors
{-# LINE 1024 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_cata =
({-# LINE 124 "Order.ag" #-}
folds _lhsIoptions
{-# LINE 1029 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_data =
({-# LINE 125 "Order.ag" #-}
dataTypes _lhsIoptions
{-# LINE 1034 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_sig =
({-# LINE 126 "Order.ag" #-}
typeSigs _lhsIoptions
{-# LINE 1039 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_sem =
({-# LINE 127 "Order.ag" #-}
semfuns _lhsIoptions
{-# LINE 1044 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_rename =
({-# LINE 128 "Order.ag" #-}
rename _lhsIoptions
{-# LINE 1049 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_newtypes =
({-# LINE 129 "Order.ag" #-}
newtypes _lhsIoptions
{-# LINE 1054 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_wantvisit =
({-# LINE 130 "Order.ag" #-}
visit _lhsIoptions
{-# LINE 1059 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_unbox =
({-# LINE 131 "Order.ag" #-}
unbox _lhsIoptions
{-# LINE 1064 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOo_case =
({-# LINE 132 "Order.ag" #-}
cases _lhsIoptions
{-# LINE 1069 "Order.hs" #-})
-- "Order.ag"(line 124, column 17)
_nontsOprefix =
({-# LINE 133 "Order.ag" #-}
prefix _lhsIoptions
{-# LINE 1074 "Order.hs" #-})
-- "Order.ag"(line 261, column 15)
_nontsOvcount =
({-# LINE 261 "Order.ag" #-}
0
{-# LINE 1079 "Order.hs" #-})
-- "Order.ag"(line 287, column 7)
_nontsOmanualAttrDepMap =
({-# LINE 287 "Order.ag" #-}
manualAttrOrderMap_
{-# LINE 1084 "Order.hs" #-})
-- "Order.ag"(line 416, column 14)
_nontsOaroundMap =
({-# LINE 416 "Order.ag" #-}
aroundsMap_
{-# LINE 1089 "Order.hs" #-})
-- "Order.ag"(line 503, column 13)
_nontsOacount =
({-# LINE 503 "Order.ag" #-}
0
{-# LINE 1094 "Order.hs" #-})
-- "Order.ag"(line 541, column 13)
_ruleTable =
({-# LINE 541 "Order.ag" #-}
Array.array (0,_nontsIvcount-1) (toList _nontsIrules)
{-# LINE 1099 "Order.hs" #-})
-- "Order.ag"(line 542, column 13)
_attrTable =
({-# LINE 542 "Order.ag" #-}
Array.array (0,_nontsIacount-1) (toList _nontsIntattrs)
{-# LINE 1104 "Order.hs" #-})
-- "Order.ag"(line 543, column 13)
_attrVertex =
({-# LINE 543 "Order.ag" #-}
Map.fromList (map swap (toList _nontsIntattrs))
{-# LINE 1109 "Order.hs" #-})
-- "Order.ag"(line 544, column 13)
_tdpToTds =
({-# LINE 544 "Order.ag" #-}
[ (s, maybe (-1) (\v -> findWithErr1 "Grammar.tdpToTds" v _attrVertex) (ntattr cr))
| (s,cr) <- toList _nontsIrules]
{-# LINE 1115 "Order.hs" #-})
-- "Order.ag"(line 546, column 13)
_tdsToTdp =
({-# LINE 546 "Order.ag" #-}
let eq (_,v) (_,v') = v == v'
conv ((s,v):svs) | v == -1 = Nothing
| otherwise = Just (v,s:map fst svs)
in mapMaybe conv (eqClasses eq _tdpToTds)
{-# LINE 1123 "Order.hs" #-})
-- "Order.ag"(line 550, column 13)
_directDep =
({-# LINE 550 "Order.ag" #-}
toList (_nontsIdirectDep Seq.>< _nontsIadditionalDep)
{-# LINE 1128 "Order.hs" #-})
-- "Order.ag"(line 551, column 13)
_instDep =
({-# LINE 551 "Order.ag" #-}
toList _nontsIinstDep
{-# LINE 1133 "Order.hs" #-})
-- "Order.ag"(line 552, column 13)
_aroundDep =
({-# LINE 552 "Order.ag" #-}
toList _nontsIaroundDep
{-# LINE 1138 "Order.hs" #-})
-- "Order.ag"(line 553, column 13)
_mergeDep =
({-# LINE 553 "Order.ag" #-}
toList _nontsImergeDep
{-# LINE 1143 "Order.hs" #-})
-- "Order.ag"(line 554, column 13)
_info =
({-# LINE 554 "Order.ag" #-}
let def [] = -1
def (v:vs) = v
in Info { tdsToTdp = Array.array (0,_nontsIacount-1) _tdsToTdp
, tdpToTds = Array.array (0,_nontsIvcount-1) _tdpToTds
, attrTable = _attrTable
, ruleTable = _ruleTable
, lmh = toList _nontsIaranges
, nonts = _nontsInonts
, wraps = wrappers_
}
{-# LINE 1157 "Order.hs" #-})
-- "Order.ag"(line 565, column 17)
__tup2 =
({-# LINE 565 "Order.ag" #-}
case computeSequential _info _directDep (_instDep ++ _aroundDep ++ _mergeDep ) of
CycleFree cim cvm -> ( cim
, cvm
, []
)
LocalCycle errs -> ( error "No interfaces for AG with local cycles"
, error "No visit sub-sequences for AG with local cycles"
, map (localCycleErr _ruleTable (visit _lhsIoptions)) errs
)
InstCycle errs -> ( error "No interfaces for AG with cycles through insts"
, error "No visit sub-sequences for AG with cycles through insts"
, map (instCycleErr _ruleTable (visit _lhsIoptions)) errs
)
DirectCycle errs -> ( error "No interfaces for AG with direct cycles"
, error "No visit sub-sequences for AG with direct cycles"
, directCycleErrs _attrTable _ruleTable (visit _lhsIoptions) errs
)
InducedCycle cim errs -> ( cim
, error "No visit sub-sequences for AG with induced cycles"
, inducedCycleErrs _attrTable _ruleTable cim errs
)
{-# LINE 1182 "Order.hs" #-})
-- "Order.ag"(line 565, column 17)
(_cInterfaceMap,_,_) =
({-# LINE 565 "Order.ag" #-}
__tup2
{-# LINE 1187 "Order.hs" #-})
-- "Order.ag"(line 565, column 17)
(_,_cVisitsMap,_) =
({-# LINE 565 "Order.ag" #-}
__tup2
{-# LINE 1192 "Order.hs" #-})
-- "Order.ag"(line 565, column 17)
(_,_,_cyclesErrors) =
({-# LINE 565 "Order.ag" #-}
__tup2
{-# LINE 1197 "Order.hs" #-})
-- "Order.ag"(line 587, column 13)
_lhsOerrors =
({-# LINE 587 "Order.ag" #-}
(if withCycle _lhsIoptions then Seq.fromList _cyclesErrors else Seq.empty)
Seq.>< _nontsIerrors
{-# LINE 1203 "Order.hs" #-})
-- "Order.ag"(line 619, column 15)
_lhsOoutput =
({-# LINE 619 "Order.ag" #-}
CGrammar typeSyns_ derivings_ wrappers_ _nontsIcNonterminals pragmas_ paramMap_ contextMap_ _aroundMap _mergeMap _o_dovisit
{-# LINE 1208 "Order.hs" #-})
-- "Order.ag"(line 632, column 14)
_aroundMap =
({-# LINE 632 "Order.ag" #-}
Map.map (Map.map Map.keysSet) aroundsMap_
{-# LINE 1213 "Order.hs" #-})
-- "Order.ag"(line 633, column 14)
_mergeMap =
({-# LINE 633 "Order.ag" #-}
Map.map (Map.map (Map.map (\(nt,srcs,_) -> (nt,srcs)))) mergeMap_
{-# LINE 1218 "Order.hs" #-})
-- "Order.ag"(line 650, column 13)
_nontsOallnts =
({-# LINE 650 "Order.ag" #-}
map fst (_nontsInonts)
{-# LINE 1223 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_nontsInAutoRules
{-# LINE 1228 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_nontsInExplicitRules
{-# LINE 1233 "Order.hs" #-})
-- copy rule (from local)
_nontsOcInterfaceMap =
({-# LINE 594 "Order.ag" #-}
_cInterfaceMap
{-# LINE 1238 "Order.hs" #-})
-- copy rule (from local)
_nontsOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_cVisitsMap
{-# LINE 1243 "Order.hs" #-})
-- copy rule (from local)
_nontsOmergeMap =
({-# LINE 354 "Order.ag" #-}
_mergeMap
{-# LINE 1248 "Order.hs" #-})
-- copy rule (from local)
_nontsOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_o_dovisit
{-# LINE 1253 "Order.hs" #-})
( _nontsIacount,_nontsIadditionalDep,_nontsIaranges,_nontsIaroundDep,_nontsIcNonterminals,_nontsIdirectDep,_nontsIerrors,_nontsIinstDep,_nontsImergeDep,_nontsInAutoRules,_nontsInExplicitRules,_nontsInonts,_nontsIntattrs,_nontsIrules,_nontsIvcount) =
(nonts_ _nontsOacount _nontsOallnts _nontsOaroundMap _nontsOcInterfaceMap _nontsOcVisitsMap _nontsOmanualAttrDepMap _nontsOmergeMap _nontsOo_case _nontsOo_cata _nontsOo_data _nontsOo_dovisit _nontsOo_newtypes _nontsOo_rename _nontsOo_sem _nontsOo_sig _nontsOo_unbox _nontsOo_wantvisit _nontsOprefix _nontsOvcount )
in ( _lhsOerrors,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOoutput))) )
-- Nonterminal -------------------------------------------------
{-
visit 0:
inherited attributes:
allnts : [Identifier]
aroundMap : Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))
cInterfaceMap : CInterfaceMap
cVisitsMap : CVisitsMap
manualAttrDepMap : AttrOrderMap
mergeMap : Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))
o_case : Bool
o_cata : Bool
o_data : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_unbox : Bool
o_wantvisit : Bool
prefix : String
chained attributes:
acount : Int
vcount : Int
synthesized attributes:
additionalDep : Seq Edge
aranges : Seq (Int,Int,Int)
aroundDep : Seq Edge
cNonterminal : CNonterminal
directDep : Seq Edge
errors : Seq Error
instDep : Seq Edge
mergeDep : Seq Edge
nAutoRules : Int
nExplicitRules : Int
nonts : [(NontermIdent,[ConstructorIdent])]
ntattrs : Seq (Vertex,NTAttr)
rules : Seq (Vertex,CRule)
alternatives:
alternative Nonterminal:
child nt : {NontermIdent}
child params : {[Identifier]}
child inh : {Attributes}
child syn : {Attributes}
child prods : Productions
visit 0:
local mergeMap : _
local aroundMap : _
local ntattrs : _
local cInter : _
-}
-- cata
sem_Nonterminal :: Nonterminal ->
T_Nonterminal
sem_Nonterminal (Nonterminal _nt _params _inh _syn _prods ) =
(sem_Nonterminal_Nonterminal _nt _params _inh _syn (sem_Productions _prods ) )
-- semantic domain
newtype T_Nonterminal = T_Nonterminal (Int ->
([Identifier]) ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) ->
CInterfaceMap ->
CVisitsMap ->
AttrOrderMap ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))) ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Int ->
( Int,(Seq Edge),(Seq (Int,Int,Int)),(Seq Edge),CNonterminal,(Seq Edge),(Seq Error),(Seq Edge),(Seq Edge),Int,Int,([(NontermIdent,[ConstructorIdent])]),(Seq (Vertex,NTAttr)),(Seq (Vertex,CRule)),Int))
data Inh_Nonterminal = Inh_Nonterminal {acount_Inh_Nonterminal :: !(Int),allnts_Inh_Nonterminal :: !(([Identifier])),aroundMap_Inh_Nonterminal :: !((Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])))),cInterfaceMap_Inh_Nonterminal :: !(CInterfaceMap),cVisitsMap_Inh_Nonterminal :: !(CVisitsMap),manualAttrDepMap_Inh_Nonterminal :: !(AttrOrderMap),mergeMap_Inh_Nonterminal :: !((Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))))),o_case_Inh_Nonterminal :: !(Bool),o_cata_Inh_Nonterminal :: !(Bool),o_data_Inh_Nonterminal :: !(Bool),o_dovisit_Inh_Nonterminal :: !(Bool),o_newtypes_Inh_Nonterminal :: !(Bool),o_rename_Inh_Nonterminal :: !(Bool),o_sem_Inh_Nonterminal :: !(Bool),o_sig_Inh_Nonterminal :: !(Bool),o_unbox_Inh_Nonterminal :: !(Bool),o_wantvisit_Inh_Nonterminal :: !(Bool),prefix_Inh_Nonterminal :: !(String),vcount_Inh_Nonterminal :: !(Int)}
data Syn_Nonterminal = Syn_Nonterminal {acount_Syn_Nonterminal :: !(Int),additionalDep_Syn_Nonterminal :: !((Seq Edge)),aranges_Syn_Nonterminal :: !((Seq (Int,Int,Int))),aroundDep_Syn_Nonterminal :: !((Seq Edge)),cNonterminal_Syn_Nonterminal :: !(CNonterminal),directDep_Syn_Nonterminal :: !((Seq Edge)),errors_Syn_Nonterminal :: !((Seq Error)),instDep_Syn_Nonterminal :: !((Seq Edge)),mergeDep_Syn_Nonterminal :: !((Seq Edge)),nAutoRules_Syn_Nonterminal :: !(Int),nExplicitRules_Syn_Nonterminal :: !(Int),nonts_Syn_Nonterminal :: !(([(NontermIdent,[ConstructorIdent])])),ntattrs_Syn_Nonterminal :: !((Seq (Vertex,NTAttr))),rules_Syn_Nonterminal :: !((Seq (Vertex,CRule))),vcount_Syn_Nonterminal :: !(Int)}
wrap_Nonterminal :: T_Nonterminal ->
Inh_Nonterminal ->
Syn_Nonterminal
wrap_Nonterminal (T_Nonterminal sem ) (Inh_Nonterminal _lhsIacount _lhsIallnts _lhsIaroundMap _lhsIcInterfaceMap _lhsIcVisitsMap _lhsImanualAttrDepMap _lhsImergeMap _lhsIo_case _lhsIo_cata _lhsIo_data _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIvcount ) =
(let ( _lhsOacount,_lhsOadditionalDep,_lhsOaranges,_lhsOaroundDep,_lhsOcNonterminal,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOnonts,_lhsOntattrs,_lhsOrules,_lhsOvcount) =
(sem _lhsIacount _lhsIallnts _lhsIaroundMap _lhsIcInterfaceMap _lhsIcVisitsMap _lhsImanualAttrDepMap _lhsImergeMap _lhsIo_case _lhsIo_cata _lhsIo_data _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIvcount )
in (Syn_Nonterminal _lhsOacount _lhsOadditionalDep _lhsOaranges _lhsOaroundDep _lhsOcNonterminal _lhsOdirectDep _lhsOerrors _lhsOinstDep _lhsOmergeDep _lhsOnAutoRules _lhsOnExplicitRules _lhsOnonts _lhsOntattrs _lhsOrules _lhsOvcount ))
sem_Nonterminal_Nonterminal :: NontermIdent ->
([Identifier]) ->
Attributes ->
Attributes ->
T_Productions ->
T_Nonterminal
sem_Nonterminal_Nonterminal nt_ params_ inh_ syn_ (T_Productions prods_ ) =
(T_Nonterminal (\ _lhsIacount
_lhsIallnts
_lhsIaroundMap
_lhsIcInterfaceMap
_lhsIcVisitsMap
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsIo_case
_lhsIo_cata
_lhsIo_data
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIvcount ->
(let _prodsOnt :: Identifier
_prodsOinh :: Attributes
_prodsOsyn :: Attributes
_lhsOntattrs :: (Seq (Vertex,NTAttr))
_lhsOacount :: Int
_lhsOaranges :: (Seq (Int,Int,Int))
_lhsOnonts :: ([(NontermIdent,[ConstructorIdent])])
_lhsOcNonterminal :: CNonterminal
_lhsOadditionalDep :: (Seq Edge)
_lhsOaroundDep :: (Seq Edge)
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOmergeDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOvcount :: Int
_prodsOallnts :: ([Identifier])
_prodsOaroundMap :: (Map ConstructorIdent (Map Identifier [Expression]))
_prodsOcVisitsMap :: CVisitsMap
_prodsOmanualAttrDepMap :: AttrOrderMap
_prodsOmergeMap :: (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))
_prodsOo_case :: Bool
_prodsOo_cata :: Bool
_prodsOo_dovisit :: Bool
_prodsOo_newtypes :: Bool
_prodsOo_rename :: Bool
_prodsOo_sem :: Bool
_prodsOo_sig :: Bool
_prodsOo_unbox :: Bool
_prodsOo_wantvisit :: Bool
_prodsOprefix :: String
_prodsOvcount :: Int
_prodsIadditionalDep :: (Seq Edge)
_prodsIaroundDep :: (Seq Edge)
_prodsIcProductions :: CProductions
_prodsIcons :: ([ConstructorIdent])
_prodsIdirectDep :: (Seq Edge)
_prodsIerrors :: (Seq Error)
_prodsIinstDep :: (Seq Edge)
_prodsImergeDep :: (Seq Edge)
_prodsInAutoRules :: Int
_prodsInExplicitRules :: Int
_prodsIrules :: (Seq (Vertex,CRule))
_prodsIvcount :: Int
-- "Order.ag"(line 97, column 17)
_prodsOnt =
({-# LINE 97 "Order.ag" #-}
nt_
{-# LINE 1419 "Order.hs" #-})
-- "Order.ag"(line 100, column 17)
_prodsOinh =
({-# LINE 100 "Order.ag" #-}
inh_
{-# LINE 1424 "Order.hs" #-})
-- "Order.ag"(line 101, column 17)
_prodsOsyn =
({-# LINE 101 "Order.ag" #-}
syn_
{-# LINE 1429 "Order.hs" #-})
-- "Order.ag"(line 359, column 32)
_mergeMap =
({-# LINE 359 "Order.ag" #-}
Map.findWithDefault Map.empty nt_ _lhsImergeMap
{-# LINE 1434 "Order.hs" #-})
-- "Order.ag"(line 412, column 32)
_aroundMap =
({-# LINE 412 "Order.ag" #-}
Map.findWithDefault Map.empty nt_ _lhsIaroundMap
{-# LINE 1439 "Order.hs" #-})
-- "Order.ag"(line 506, column 17)
_ntattrs =
({-# LINE 506 "Order.ag" #-}
[ NTAInh nt_ inh tp | (inh,tp) <- Map.assocs inh_ ]
++ [NTASyn nt_ syn tp | (syn,tp) <- Map.assocs syn_ ]
{-# LINE 1445 "Order.hs" #-})
-- "Order.ag"(line 508, column 17)
_lhsOntattrs =
({-# LINE 508 "Order.ag" #-}
Seq.fromList (zip [_lhsIacount ..] _ntattrs)
{-# LINE 1450 "Order.hs" #-})
-- "Order.ag"(line 509, column 17)
_lhsOacount =
({-# LINE 509 "Order.ag" #-}
_lhsIacount + Map.size inh_ + Map.size syn_
{-# LINE 1455 "Order.hs" #-})
-- "Order.ag"(line 510, column 17)
_lhsOaranges =
({-# LINE 510 "Order.ag" #-}
Seq.singleton
(_lhsIacount
,_lhsIacount + Map.size inh_
,_lhsIacount + Map.size syn_ + Map.size inh_ - 1)
{-# LINE 1463 "Order.hs" #-})
-- "Order.ag"(line 519, column 19)
_lhsOnonts =
({-# LINE 519 "Order.ag" #-}
[(nt_,_prodsIcons)]
{-# LINE 1468 "Order.hs" #-})
-- "Order.ag"(line 596, column 19)
_cInter =
({-# LINE 596 "Order.ag" #-}
if _lhsIo_dovisit
then findWithErr1 "Nonterminal.cInter" nt_ _lhsIcInterfaceMap
else CInterface [CSegment inh_ syn_]
{-# LINE 1475 "Order.hs" #-})
-- "Order.ag"(line 624, column 19)
_lhsOcNonterminal =
({-# LINE 624 "Order.ag" #-}
CNonterminal nt_ params_ inh_ syn_ _prodsIcProductions _cInter
{-# LINE 1480 "Order.hs" #-})
-- use rule "Order.ag"(line 283, column 60)
_lhsOadditionalDep =
({-# LINE 283 "Order.ag" #-}
_prodsIadditionalDep
{-# LINE 1485 "Order.hs" #-})
-- use rule "Order.ag"(line 404, column 24)
_lhsOaroundDep =
({-# LINE 404 "Order.ag" #-}
_prodsIaroundDep
{-# LINE 1490 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
_prodsIdirectDep
{-# LINE 1495 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_prodsIerrors
{-# LINE 1500 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
_prodsIinstDep
{-# LINE 1505 "Order.hs" #-})
-- use rule "Order.ag"(line 367, column 18)
_lhsOmergeDep =
({-# LINE 367 "Order.ag" #-}
_prodsImergeDep
{-# LINE 1510 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_prodsInAutoRules
{-# LINE 1515 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_prodsInExplicitRules
{-# LINE 1520 "Order.hs" #-})
-- use rule "Order.ag"(line 259, column 18)
_lhsOrules =
({-# LINE 259 "Order.ag" #-}
_prodsIrules
{-# LINE 1525 "Order.hs" #-})
-- copy rule (up)
_lhsOvcount =
({-# LINE 258 "Order.ag" #-}
_prodsIvcount
{-# LINE 1530 "Order.hs" #-})
-- copy rule (down)
_prodsOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 1535 "Order.hs" #-})
-- copy rule (from local)
_prodsOaroundMap =
({-# LINE 410 "Order.ag" #-}
_aroundMap
{-# LINE 1540 "Order.hs" #-})
-- copy rule (down)
_prodsOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_lhsIcVisitsMap
{-# LINE 1545 "Order.hs" #-})
-- copy rule (down)
_prodsOmanualAttrDepMap =
({-# LINE 283 "Order.ag" #-}
_lhsImanualAttrDepMap
{-# LINE 1550 "Order.hs" #-})
-- copy rule (from local)
_prodsOmergeMap =
({-# LINE 357 "Order.ag" #-}
_mergeMap
{-# LINE 1555 "Order.hs" #-})
-- copy rule (down)
_prodsOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 1560 "Order.hs" #-})
-- copy rule (down)
_prodsOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 1565 "Order.hs" #-})
-- copy rule (down)
_prodsOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 1570 "Order.hs" #-})
-- copy rule (down)
_prodsOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 1575 "Order.hs" #-})
-- copy rule (down)
_prodsOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 1580 "Order.hs" #-})
-- copy rule (down)
_prodsOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 1585 "Order.hs" #-})
-- copy rule (down)
_prodsOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 1590 "Order.hs" #-})
-- copy rule (down)
_prodsOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 1595 "Order.hs" #-})
-- copy rule (down)
_prodsOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 1600 "Order.hs" #-})
-- copy rule (down)
_prodsOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 1605 "Order.hs" #-})
-- copy rule (down)
_prodsOvcount =
({-# LINE 258 "Order.ag" #-}
_lhsIvcount
{-# LINE 1610 "Order.hs" #-})
( _prodsIadditionalDep,_prodsIaroundDep,_prodsIcProductions,_prodsIcons,_prodsIdirectDep,_prodsIerrors,_prodsIinstDep,_prodsImergeDep,_prodsInAutoRules,_prodsInExplicitRules,_prodsIrules,_prodsIvcount) =
(prods_ _prodsOallnts _prodsOaroundMap _prodsOcVisitsMap _prodsOinh _prodsOmanualAttrDepMap _prodsOmergeMap _prodsOnt _prodsOo_case _prodsOo_cata _prodsOo_dovisit _prodsOo_newtypes _prodsOo_rename _prodsOo_sem _prodsOo_sig _prodsOo_unbox _prodsOo_wantvisit _prodsOprefix _prodsOsyn _prodsOvcount )
in ( _lhsOacount,_lhsOadditionalDep,_lhsOaranges,_lhsOaroundDep,_lhsOcNonterminal,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOnonts,_lhsOntattrs,_lhsOrules,_lhsOvcount))) )
-- Nonterminals ------------------------------------------------
{-
visit 0:
inherited attributes:
allnts : [Identifier]
aroundMap : Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))
cInterfaceMap : CInterfaceMap
cVisitsMap : CVisitsMap
manualAttrDepMap : AttrOrderMap
mergeMap : Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))
o_case : Bool
o_cata : Bool
o_data : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_unbox : Bool
o_wantvisit : Bool
prefix : String
chained attributes:
acount : Int
vcount : Int
synthesized attributes:
additionalDep : Seq Edge
aranges : Seq (Int,Int,Int)
aroundDep : Seq Edge
cNonterminals : CNonterminals
directDep : Seq Edge
errors : Seq Error
instDep : Seq Edge
mergeDep : Seq Edge
nAutoRules : Int
nExplicitRules : Int
nonts : [(NontermIdent,[ConstructorIdent])]
ntattrs : Seq (Vertex,NTAttr)
rules : Seq (Vertex,CRule)
alternatives:
alternative Cons:
child hd : Nonterminal
child tl : Nonterminals
alternative Nil:
-}
-- cata
sem_Nonterminals :: Nonterminals ->
T_Nonterminals
sem_Nonterminals list =
(Prelude.foldr sem_Nonterminals_Cons sem_Nonterminals_Nil (Prelude.map sem_Nonterminal list) )
-- semantic domain
newtype T_Nonterminals = T_Nonterminals (Int ->
([Identifier]) ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression]))) ->
CInterfaceMap ->
CVisitsMap ->
AttrOrderMap ->
(Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))) ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Int ->
( Int,(Seq Edge),(Seq (Int,Int,Int)),(Seq Edge),CNonterminals,(Seq Edge),(Seq Error),(Seq Edge),(Seq Edge),Int,Int,([(NontermIdent,[ConstructorIdent])]),(Seq (Vertex,NTAttr)),(Seq (Vertex,CRule)),Int))
data Inh_Nonterminals = Inh_Nonterminals {acount_Inh_Nonterminals :: !(Int),allnts_Inh_Nonterminals :: !(([Identifier])),aroundMap_Inh_Nonterminals :: !((Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])))),cInterfaceMap_Inh_Nonterminals :: !(CInterfaceMap),cVisitsMap_Inh_Nonterminals :: !(CVisitsMap),manualAttrDepMap_Inh_Nonterminals :: !(AttrOrderMap),mergeMap_Inh_Nonterminals :: !((Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))))),o_case_Inh_Nonterminals :: !(Bool),o_cata_Inh_Nonterminals :: !(Bool),o_data_Inh_Nonterminals :: !(Bool),o_dovisit_Inh_Nonterminals :: !(Bool),o_newtypes_Inh_Nonterminals :: !(Bool),o_rename_Inh_Nonterminals :: !(Bool),o_sem_Inh_Nonterminals :: !(Bool),o_sig_Inh_Nonterminals :: !(Bool),o_unbox_Inh_Nonterminals :: !(Bool),o_wantvisit_Inh_Nonterminals :: !(Bool),prefix_Inh_Nonterminals :: !(String),vcount_Inh_Nonterminals :: !(Int)}
data Syn_Nonterminals = Syn_Nonterminals {acount_Syn_Nonterminals :: !(Int),additionalDep_Syn_Nonterminals :: !((Seq Edge)),aranges_Syn_Nonterminals :: !((Seq (Int,Int,Int))),aroundDep_Syn_Nonterminals :: !((Seq Edge)),cNonterminals_Syn_Nonterminals :: !(CNonterminals),directDep_Syn_Nonterminals :: !((Seq Edge)),errors_Syn_Nonterminals :: !((Seq Error)),instDep_Syn_Nonterminals :: !((Seq Edge)),mergeDep_Syn_Nonterminals :: !((Seq Edge)),nAutoRules_Syn_Nonterminals :: !(Int),nExplicitRules_Syn_Nonterminals :: !(Int),nonts_Syn_Nonterminals :: !(([(NontermIdent,[ConstructorIdent])])),ntattrs_Syn_Nonterminals :: !((Seq (Vertex,NTAttr))),rules_Syn_Nonterminals :: !((Seq (Vertex,CRule))),vcount_Syn_Nonterminals :: !(Int)}
wrap_Nonterminals :: T_Nonterminals ->
Inh_Nonterminals ->
Syn_Nonterminals
wrap_Nonterminals (T_Nonterminals sem ) (Inh_Nonterminals _lhsIacount _lhsIallnts _lhsIaroundMap _lhsIcInterfaceMap _lhsIcVisitsMap _lhsImanualAttrDepMap _lhsImergeMap _lhsIo_case _lhsIo_cata _lhsIo_data _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIvcount ) =
(let ( _lhsOacount,_lhsOadditionalDep,_lhsOaranges,_lhsOaroundDep,_lhsOcNonterminals,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOnonts,_lhsOntattrs,_lhsOrules,_lhsOvcount) =
(sem _lhsIacount _lhsIallnts _lhsIaroundMap _lhsIcInterfaceMap _lhsIcVisitsMap _lhsImanualAttrDepMap _lhsImergeMap _lhsIo_case _lhsIo_cata _lhsIo_data _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIvcount )
in (Syn_Nonterminals _lhsOacount _lhsOadditionalDep _lhsOaranges _lhsOaroundDep _lhsOcNonterminals _lhsOdirectDep _lhsOerrors _lhsOinstDep _lhsOmergeDep _lhsOnAutoRules _lhsOnExplicitRules _lhsOnonts _lhsOntattrs _lhsOrules _lhsOvcount ))
sem_Nonterminals_Cons :: T_Nonterminal ->
T_Nonterminals ->
T_Nonterminals
sem_Nonterminals_Cons (T_Nonterminal hd_ ) (T_Nonterminals tl_ ) =
(T_Nonterminals (\ _lhsIacount
_lhsIallnts
_lhsIaroundMap
_lhsIcInterfaceMap
_lhsIcVisitsMap
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsIo_case
_lhsIo_cata
_lhsIo_data
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIvcount ->
(let _lhsOcNonterminals :: CNonterminals
_lhsOadditionalDep :: (Seq Edge)
_lhsOaranges :: (Seq (Int,Int,Int))
_lhsOaroundDep :: (Seq Edge)
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOmergeDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_lhsOnonts :: ([(NontermIdent,[ConstructorIdent])])
_lhsOntattrs :: (Seq (Vertex,NTAttr))
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOacount :: Int
_lhsOvcount :: Int
_hdOacount :: Int
_hdOallnts :: ([Identifier])
_hdOaroundMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])))
_hdOcInterfaceMap :: CInterfaceMap
_hdOcVisitsMap :: CVisitsMap
_hdOmanualAttrDepMap :: AttrOrderMap
_hdOmergeMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))))
_hdOo_case :: Bool
_hdOo_cata :: Bool
_hdOo_data :: Bool
_hdOo_dovisit :: Bool
_hdOo_newtypes :: Bool
_hdOo_rename :: Bool
_hdOo_sem :: Bool
_hdOo_sig :: Bool
_hdOo_unbox :: Bool
_hdOo_wantvisit :: Bool
_hdOprefix :: String
_hdOvcount :: Int
_tlOacount :: Int
_tlOallnts :: ([Identifier])
_tlOaroundMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier [Expression])))
_tlOcInterfaceMap :: CInterfaceMap
_tlOcVisitsMap :: CVisitsMap
_tlOmanualAttrDepMap :: AttrOrderMap
_tlOmergeMap :: (Map NontermIdent (Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))))
_tlOo_case :: Bool
_tlOo_cata :: Bool
_tlOo_data :: Bool
_tlOo_dovisit :: Bool
_tlOo_newtypes :: Bool
_tlOo_rename :: Bool
_tlOo_sem :: Bool
_tlOo_sig :: Bool
_tlOo_unbox :: Bool
_tlOo_wantvisit :: Bool
_tlOprefix :: String
_tlOvcount :: Int
_hdIacount :: Int
_hdIadditionalDep :: (Seq Edge)
_hdIaranges :: (Seq (Int,Int,Int))
_hdIaroundDep :: (Seq Edge)
_hdIcNonterminal :: CNonterminal
_hdIdirectDep :: (Seq Edge)
_hdIerrors :: (Seq Error)
_hdIinstDep :: (Seq Edge)
_hdImergeDep :: (Seq Edge)
_hdInAutoRules :: Int
_hdInExplicitRules :: Int
_hdInonts :: ([(NontermIdent,[ConstructorIdent])])
_hdIntattrs :: (Seq (Vertex,NTAttr))
_hdIrules :: (Seq (Vertex,CRule))
_hdIvcount :: Int
_tlIacount :: Int
_tlIadditionalDep :: (Seq Edge)
_tlIaranges :: (Seq (Int,Int,Int))
_tlIaroundDep :: (Seq Edge)
_tlIcNonterminals :: CNonterminals
_tlIdirectDep :: (Seq Edge)
_tlIerrors :: (Seq Error)
_tlIinstDep :: (Seq Edge)
_tlImergeDep :: (Seq Edge)
_tlInAutoRules :: Int
_tlInExplicitRules :: Int
_tlInonts :: ([(NontermIdent,[ConstructorIdent])])
_tlIntattrs :: (Seq (Vertex,NTAttr))
_tlIrules :: (Seq (Vertex,CRule))
_tlIvcount :: Int
-- "Order.ag"(line 621, column 12)
_lhsOcNonterminals =
({-# LINE 621 "Order.ag" #-}
_hdIcNonterminal : _tlIcNonterminals
{-# LINE 1803 "Order.hs" #-})
-- use rule "Order.ag"(line 283, column 60)
_lhsOadditionalDep =
({-# LINE 283 "Order.ag" #-}
_hdIadditionalDep Seq.>< _tlIadditionalDep
{-# LINE 1808 "Order.hs" #-})
-- use rule "Order.ag"(line 500, column 36)
_lhsOaranges =
({-# LINE 500 "Order.ag" #-}
_hdIaranges Seq.>< _tlIaranges
{-# LINE 1813 "Order.hs" #-})
-- use rule "Order.ag"(line 404, column 24)
_lhsOaroundDep =
({-# LINE 404 "Order.ag" #-}
_hdIaroundDep Seq.>< _tlIaroundDep
{-# LINE 1818 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
_hdIdirectDep Seq.>< _tlIdirectDep
{-# LINE 1823 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_hdIerrors Seq.>< _tlIerrors
{-# LINE 1828 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
_hdIinstDep Seq.>< _tlIinstDep
{-# LINE 1833 "Order.hs" #-})
-- use rule "Order.ag"(line 367, column 18)
_lhsOmergeDep =
({-# LINE 367 "Order.ag" #-}
_hdImergeDep Seq.>< _tlImergeDep
{-# LINE 1838 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_hdInAutoRules + _tlInAutoRules
{-# LINE 1843 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_hdInExplicitRules + _tlInExplicitRules
{-# LINE 1848 "Order.hs" #-})
-- use rule "Order.ag"(line 517, column 43)
_lhsOnonts =
({-# LINE 517 "Order.ag" #-}
_hdInonts ++ _tlInonts
{-# LINE 1853 "Order.hs" #-})
-- use rule "Order.ag"(line 499, column 35)
_lhsOntattrs =
({-# LINE 499 "Order.ag" #-}
_hdIntattrs Seq.>< _tlIntattrs
{-# LINE 1858 "Order.hs" #-})
-- use rule "Order.ag"(line 259, column 18)
_lhsOrules =
({-# LINE 259 "Order.ag" #-}
_hdIrules Seq.>< _tlIrules
{-# LINE 1863 "Order.hs" #-})
-- copy rule (up)
_lhsOacount =
({-# LINE 499 "Order.ag" #-}
_tlIacount
{-# LINE 1868 "Order.hs" #-})
-- copy rule (up)
_lhsOvcount =
({-# LINE 258 "Order.ag" #-}
_tlIvcount
{-# LINE 1873 "Order.hs" #-})
-- copy rule (down)
_hdOacount =
({-# LINE 499 "Order.ag" #-}
_lhsIacount
{-# LINE 1878 "Order.hs" #-})
-- copy rule (down)
_hdOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 1883 "Order.hs" #-})
-- copy rule (down)
_hdOaroundMap =
({-# LINE 407 "Order.ag" #-}
_lhsIaroundMap
{-# LINE 1888 "Order.hs" #-})
-- copy rule (down)
_hdOcInterfaceMap =
({-# LINE 594 "Order.ag" #-}
_lhsIcInterfaceMap
{-# LINE 1893 "Order.hs" #-})
-- copy rule (down)
_hdOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_lhsIcVisitsMap
{-# LINE 1898 "Order.hs" #-})
-- copy rule (down)
_hdOmanualAttrDepMap =
({-# LINE 283 "Order.ag" #-}
_lhsImanualAttrDepMap
{-# LINE 1903 "Order.hs" #-})
-- copy rule (down)
_hdOmergeMap =
({-# LINE 354 "Order.ag" #-}
_lhsImergeMap
{-# LINE 1908 "Order.hs" #-})
-- copy rule (down)
_hdOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 1913 "Order.hs" #-})
-- copy rule (down)
_hdOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 1918 "Order.hs" #-})
-- copy rule (down)
_hdOo_data =
({-# LINE 120 "Order.ag" #-}
_lhsIo_data
{-# LINE 1923 "Order.hs" #-})
-- copy rule (down)
_hdOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 1928 "Order.hs" #-})
-- copy rule (down)
_hdOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 1933 "Order.hs" #-})
-- copy rule (down)
_hdOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 1938 "Order.hs" #-})
-- copy rule (down)
_hdOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 1943 "Order.hs" #-})
-- copy rule (down)
_hdOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 1948 "Order.hs" #-})
-- copy rule (down)
_hdOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 1953 "Order.hs" #-})
-- copy rule (down)
_hdOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 1958 "Order.hs" #-})
-- copy rule (down)
_hdOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 1963 "Order.hs" #-})
-- copy rule (down)
_hdOvcount =
({-# LINE 258 "Order.ag" #-}
_lhsIvcount
{-# LINE 1968 "Order.hs" #-})
-- copy rule (chain)
_tlOacount =
({-# LINE 499 "Order.ag" #-}
_hdIacount
{-# LINE 1973 "Order.hs" #-})
-- copy rule (down)
_tlOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 1978 "Order.hs" #-})
-- copy rule (down)
_tlOaroundMap =
({-# LINE 407 "Order.ag" #-}
_lhsIaroundMap
{-# LINE 1983 "Order.hs" #-})
-- copy rule (down)
_tlOcInterfaceMap =
({-# LINE 594 "Order.ag" #-}
_lhsIcInterfaceMap
{-# LINE 1988 "Order.hs" #-})
-- copy rule (down)
_tlOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_lhsIcVisitsMap
{-# LINE 1993 "Order.hs" #-})
-- copy rule (down)
_tlOmanualAttrDepMap =
({-# LINE 283 "Order.ag" #-}
_lhsImanualAttrDepMap
{-# LINE 1998 "Order.hs" #-})
-- copy rule (down)
_tlOmergeMap =
({-# LINE 354 "Order.ag" #-}
_lhsImergeMap
{-# LINE 2003 "Order.hs" #-})
-- copy rule (down)
_tlOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 2008 "Order.hs" #-})
-- copy rule (down)
_tlOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 2013 "Order.hs" #-})
-- copy rule (down)
_tlOo_data =
({-# LINE 120 "Order.ag" #-}
_lhsIo_data
{-# LINE 2018 "Order.hs" #-})
-- copy rule (down)
_tlOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 2023 "Order.hs" #-})
-- copy rule (down)
_tlOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 2028 "Order.hs" #-})
-- copy rule (down)
_tlOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 2033 "Order.hs" #-})
-- copy rule (down)
_tlOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 2038 "Order.hs" #-})
-- copy rule (down)
_tlOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 2043 "Order.hs" #-})
-- copy rule (down)
_tlOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 2048 "Order.hs" #-})
-- copy rule (down)
_tlOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 2053 "Order.hs" #-})
-- copy rule (down)
_tlOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 2058 "Order.hs" #-})
-- copy rule (chain)
_tlOvcount =
({-# LINE 258 "Order.ag" #-}
_hdIvcount
{-# LINE 2063 "Order.hs" #-})
( _hdIacount,_hdIadditionalDep,_hdIaranges,_hdIaroundDep,_hdIcNonterminal,_hdIdirectDep,_hdIerrors,_hdIinstDep,_hdImergeDep,_hdInAutoRules,_hdInExplicitRules,_hdInonts,_hdIntattrs,_hdIrules,_hdIvcount) =
(hd_ _hdOacount _hdOallnts _hdOaroundMap _hdOcInterfaceMap _hdOcVisitsMap _hdOmanualAttrDepMap _hdOmergeMap _hdOo_case _hdOo_cata _hdOo_data _hdOo_dovisit _hdOo_newtypes _hdOo_rename _hdOo_sem _hdOo_sig _hdOo_unbox _hdOo_wantvisit _hdOprefix _hdOvcount )
( _tlIacount,_tlIadditionalDep,_tlIaranges,_tlIaroundDep,_tlIcNonterminals,_tlIdirectDep,_tlIerrors,_tlIinstDep,_tlImergeDep,_tlInAutoRules,_tlInExplicitRules,_tlInonts,_tlIntattrs,_tlIrules,_tlIvcount) =
(tl_ _tlOacount _tlOallnts _tlOaroundMap _tlOcInterfaceMap _tlOcVisitsMap _tlOmanualAttrDepMap _tlOmergeMap _tlOo_case _tlOo_cata _tlOo_data _tlOo_dovisit _tlOo_newtypes _tlOo_rename _tlOo_sem _tlOo_sig _tlOo_unbox _tlOo_wantvisit _tlOprefix _tlOvcount )
in ( _lhsOacount,_lhsOadditionalDep,_lhsOaranges,_lhsOaroundDep,_lhsOcNonterminals,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOnonts,_lhsOntattrs,_lhsOrules,_lhsOvcount))) )
sem_Nonterminals_Nil :: T_Nonterminals
sem_Nonterminals_Nil =
(T_Nonterminals (\ _lhsIacount
_lhsIallnts
_lhsIaroundMap
_lhsIcInterfaceMap
_lhsIcVisitsMap
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsIo_case
_lhsIo_cata
_lhsIo_data
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIvcount ->
(let _lhsOcNonterminals :: CNonterminals
_lhsOadditionalDep :: (Seq Edge)
_lhsOaranges :: (Seq (Int,Int,Int))
_lhsOaroundDep :: (Seq Edge)
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOmergeDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_lhsOnonts :: ([(NontermIdent,[ConstructorIdent])])
_lhsOntattrs :: (Seq (Vertex,NTAttr))
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOacount :: Int
_lhsOvcount :: Int
-- "Order.ag"(line 622, column 12)
_lhsOcNonterminals =
({-# LINE 622 "Order.ag" #-}
[]
{-# LINE 2109 "Order.hs" #-})
-- use rule "Order.ag"(line 283, column 60)
_lhsOadditionalDep =
({-# LINE 283 "Order.ag" #-}
Seq.empty
{-# LINE 2114 "Order.hs" #-})
-- use rule "Order.ag"(line 500, column 36)
_lhsOaranges =
({-# LINE 500 "Order.ag" #-}
Seq.empty
{-# LINE 2119 "Order.hs" #-})
-- use rule "Order.ag"(line 404, column 24)
_lhsOaroundDep =
({-# LINE 404 "Order.ag" #-}
Seq.empty
{-# LINE 2124 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
Seq.empty
{-# LINE 2129 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 2134 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
Seq.empty
{-# LINE 2139 "Order.hs" #-})
-- use rule "Order.ag"(line 367, column 18)
_lhsOmergeDep =
({-# LINE 367 "Order.ag" #-}
Seq.empty
{-# LINE 2144 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 2149 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 2154 "Order.hs" #-})
-- use rule "Order.ag"(line 517, column 43)
_lhsOnonts =
({-# LINE 517 "Order.ag" #-}
[]
{-# LINE 2159 "Order.hs" #-})
-- use rule "Order.ag"(line 499, column 35)
_lhsOntattrs =
({-# LINE 499 "Order.ag" #-}
Seq.empty
{-# LINE 2164 "Order.hs" #-})
-- use rule "Order.ag"(line 259, column 18)
_lhsOrules =
({-# LINE 259 "Order.ag" #-}
Seq.empty
{-# LINE 2169 "Order.hs" #-})
-- copy rule (chain)
_lhsOacount =
({-# LINE 499 "Order.ag" #-}
_lhsIacount
{-# LINE 2174 "Order.hs" #-})
-- copy rule (chain)
_lhsOvcount =
({-# LINE 258 "Order.ag" #-}
_lhsIvcount
{-# LINE 2179 "Order.hs" #-})
in ( _lhsOacount,_lhsOadditionalDep,_lhsOaranges,_lhsOaroundDep,_lhsOcNonterminals,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOnonts,_lhsOntattrs,_lhsOrules,_lhsOvcount))) )
-- Pattern -----------------------------------------------------
{-
visit 0:
inherited attributes:
allTypeSigs : Map Identifier Type
altAttrs : Map AltAttr Vertex
con : Identifier
inh : Attributes
nt : Identifier
syn : Attributes
synthesized attributes:
copy : SELF
errors : Seq Error
gathAltAttrs : [AltAttr]
instVars : [Identifier]
locVars : [Identifier]
patternAttrs : [(Identifier,Identifier,Bool,Patterns)]
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 ((Map Identifier Type) ->
(Map AltAttr Vertex) ->
Identifier ->
Attributes ->
Identifier ->
Attributes ->
( Pattern ,(Seq Error),([AltAttr]),([Identifier]),([Identifier]),([(Identifier,Identifier,Bool,Patterns)])))
data Inh_Pattern = Inh_Pattern {allTypeSigs_Inh_Pattern :: !((Map Identifier Type)),altAttrs_Inh_Pattern :: !((Map AltAttr Vertex)),con_Inh_Pattern :: !(Identifier),inh_Inh_Pattern :: !(Attributes),nt_Inh_Pattern :: !(Identifier),syn_Inh_Pattern :: !(Attributes)}
data Syn_Pattern = Syn_Pattern {copy_Syn_Pattern :: !(Pattern ),errors_Syn_Pattern :: !((Seq Error)),gathAltAttrs_Syn_Pattern :: !(([AltAttr])),instVars_Syn_Pattern :: !(([Identifier])),locVars_Syn_Pattern :: !(([Identifier])),patternAttrs_Syn_Pattern :: !(([(Identifier,Identifier,Bool,Patterns)]))}
wrap_Pattern :: T_Pattern ->
Inh_Pattern ->
Syn_Pattern
wrap_Pattern (T_Pattern sem ) (Inh_Pattern _lhsIallTypeSigs _lhsIaltAttrs _lhsIcon _lhsIinh _lhsInt _lhsIsyn ) =
(let ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs) =
(sem _lhsIallTypeSigs _lhsIaltAttrs _lhsIcon _lhsIinh _lhsInt _lhsIsyn )
in (Syn_Pattern _lhsOcopy _lhsOerrors _lhsOgathAltAttrs _lhsOinstVars _lhsOlocVars _lhsOpatternAttrs ))
sem_Pattern_Alias :: Identifier ->
Identifier ->
T_Pattern ->
T_Patterns ->
T_Pattern
sem_Pattern_Alias field_ attr_ (T_Pattern pat_ ) (T_Patterns parts_ ) =
(T_Pattern (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOgathAltAttrs :: ([AltAttr])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOlocVars :: ([Identifier])
_lhsOinstVars :: ([Identifier])
_lhsOerrors :: (Seq Error)
_lhsOcopy :: Pattern
_patOallTypeSigs :: (Map Identifier Type)
_patOaltAttrs :: (Map AltAttr Vertex)
_patOcon :: Identifier
_patOinh :: Attributes
_patOnt :: Identifier
_patOsyn :: Attributes
_partsOallTypeSigs :: (Map Identifier Type)
_partsOaltAttrs :: (Map AltAttr Vertex)
_partsOcon :: Identifier
_partsOinh :: Attributes
_partsOnt :: Identifier
_partsOsyn :: Attributes
_patIcopy :: Pattern
_patIerrors :: (Seq Error)
_patIgathAltAttrs :: ([AltAttr])
_patIinstVars :: ([Identifier])
_patIlocVars :: ([Identifier])
_patIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_partsIcopy :: Patterns
_partsIerrors :: (Seq Error)
_partsIgathAltAttrs :: ([AltAttr])
_partsIinstVars :: ([Identifier])
_partsIlocVars :: ([Identifier])
_partsIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
-- "Order.ag"(line 184, column 12)
_lhsOgathAltAttrs =
({-# LINE 184 "Order.ag" #-}
[AltAttr field_ attr_ (field_ == _LOC || field_ == _INST)]
{-# LINE 2301 "Order.hs" #-})
-- "Order.ag"(line 252, column 12)
_lhsOpatternAttrs =
({-# LINE 252 "Order.ag" #-}
[(field_,attr_,(field_ == _LOC || field_ == _INST),_partsIcopy)]
{-# LINE 2306 "Order.hs" #-})
-- "Order.ag"(line 680, column 14)
_lhsOlocVars =
({-# LINE 680 "Order.ag" #-}
if field_ == _LOC
then [attr_]
else []
{-# LINE 2313 "Order.hs" #-})
-- "Order.ag"(line 683, column 14)
_lhsOinstVars =
({-# LINE 683 "Order.ag" #-}
if field_ == _INST
then [attr_]
else []
{-# LINE 2320 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_patIerrors Seq.>< _partsIerrors
{-# LINE 2325 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
Alias field_ attr_ _patIcopy _partsIcopy
{-# LINE 2330 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2335 "Order.hs" #-})
-- copy rule (down)
_patOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2340 "Order.hs" #-})
-- copy rule (down)
_patOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2345 "Order.hs" #-})
-- copy rule (down)
_patOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2350 "Order.hs" #-})
-- copy rule (down)
_patOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2355 "Order.hs" #-})
-- copy rule (down)
_patOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2360 "Order.hs" #-})
-- copy rule (down)
_patOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2365 "Order.hs" #-})
-- copy rule (down)
_partsOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2370 "Order.hs" #-})
-- copy rule (down)
_partsOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2375 "Order.hs" #-})
-- copy rule (down)
_partsOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2380 "Order.hs" #-})
-- copy rule (down)
_partsOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2385 "Order.hs" #-})
-- copy rule (down)
_partsOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2390 "Order.hs" #-})
-- copy rule (down)
_partsOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2395 "Order.hs" #-})
( _patIcopy,_patIerrors,_patIgathAltAttrs,_patIinstVars,_patIlocVars,_patIpatternAttrs) =
(pat_ _patOallTypeSigs _patOaltAttrs _patOcon _patOinh _patOnt _patOsyn )
( _partsIcopy,_partsIerrors,_partsIgathAltAttrs,_partsIinstVars,_partsIlocVars,_partsIpatternAttrs) =
(parts_ _partsOallTypeSigs _partsOaltAttrs _partsOcon _partsOinh _partsOnt _partsOsyn )
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
sem_Pattern_Constr :: ConstructorIdent ->
T_Patterns ->
T_Pattern
sem_Pattern_Constr name_ (T_Patterns pats_ ) =
(T_Pattern (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Pattern
_patsOallTypeSigs :: (Map Identifier Type)
_patsOaltAttrs :: (Map AltAttr Vertex)
_patsOcon :: Identifier
_patsOinh :: Attributes
_patsOnt :: Identifier
_patsOsyn :: Attributes
_patsIcopy :: Patterns
_patsIerrors :: (Seq Error)
_patsIgathAltAttrs :: ([AltAttr])
_patsIinstVars :: ([Identifier])
_patsIlocVars :: ([Identifier])
_patsIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_patsIerrors
{-# LINE 2433 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_patsIgathAltAttrs
{-# LINE 2438 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_patsIinstVars
{-# LINE 2443 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_patsIlocVars
{-# LINE 2448 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
_patsIpatternAttrs
{-# LINE 2453 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
Constr name_ _patsIcopy
{-# LINE 2458 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2463 "Order.hs" #-})
-- copy rule (down)
_patsOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2468 "Order.hs" #-})
-- copy rule (down)
_patsOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2473 "Order.hs" #-})
-- copy rule (down)
_patsOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2478 "Order.hs" #-})
-- copy rule (down)
_patsOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2483 "Order.hs" #-})
-- copy rule (down)
_patsOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2488 "Order.hs" #-})
-- copy rule (down)
_patsOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2493 "Order.hs" #-})
( _patsIcopy,_patsIerrors,_patsIgathAltAttrs,_patsIinstVars,_patsIlocVars,_patsIpatternAttrs) =
(pats_ _patsOallTypeSigs _patsOaltAttrs _patsOcon _patsOinh _patsOnt _patsOsyn )
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
sem_Pattern_Irrefutable :: T_Pattern ->
T_Pattern
sem_Pattern_Irrefutable (T_Pattern pat_ ) =
(T_Pattern (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Pattern
_patOallTypeSigs :: (Map Identifier Type)
_patOaltAttrs :: (Map AltAttr Vertex)
_patOcon :: Identifier
_patOinh :: Attributes
_patOnt :: Identifier
_patOsyn :: Attributes
_patIcopy :: Pattern
_patIerrors :: (Seq Error)
_patIgathAltAttrs :: ([AltAttr])
_patIinstVars :: ([Identifier])
_patIlocVars :: ([Identifier])
_patIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_patIerrors
{-# LINE 2528 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_patIgathAltAttrs
{-# LINE 2533 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_patIinstVars
{-# LINE 2538 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_patIlocVars
{-# LINE 2543 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
_patIpatternAttrs
{-# LINE 2548 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
Irrefutable _patIcopy
{-# LINE 2553 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2558 "Order.hs" #-})
-- copy rule (down)
_patOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2563 "Order.hs" #-})
-- copy rule (down)
_patOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2568 "Order.hs" #-})
-- copy rule (down)
_patOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2573 "Order.hs" #-})
-- copy rule (down)
_patOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2578 "Order.hs" #-})
-- copy rule (down)
_patOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2583 "Order.hs" #-})
-- copy rule (down)
_patOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2588 "Order.hs" #-})
( _patIcopy,_patIerrors,_patIgathAltAttrs,_patIinstVars,_patIlocVars,_patIpatternAttrs) =
(pat_ _patOallTypeSigs _patOaltAttrs _patOcon _patOinh _patOnt _patOsyn )
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
sem_Pattern_Product :: Pos ->
T_Patterns ->
T_Pattern
sem_Pattern_Product pos_ (T_Patterns pats_ ) =
(T_Pattern (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Pattern
_patsOallTypeSigs :: (Map Identifier Type)
_patsOaltAttrs :: (Map AltAttr Vertex)
_patsOcon :: Identifier
_patsOinh :: Attributes
_patsOnt :: Identifier
_patsOsyn :: Attributes
_patsIcopy :: Patterns
_patsIerrors :: (Seq Error)
_patsIgathAltAttrs :: ([AltAttr])
_patsIinstVars :: ([Identifier])
_patsIlocVars :: ([Identifier])
_patsIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_patsIerrors
{-# LINE 2624 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_patsIgathAltAttrs
{-# LINE 2629 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_patsIinstVars
{-# LINE 2634 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_patsIlocVars
{-# LINE 2639 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
_patsIpatternAttrs
{-# LINE 2644 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
Product pos_ _patsIcopy
{-# LINE 2649 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2654 "Order.hs" #-})
-- copy rule (down)
_patsOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2659 "Order.hs" #-})
-- copy rule (down)
_patsOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2664 "Order.hs" #-})
-- copy rule (down)
_patsOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2669 "Order.hs" #-})
-- copy rule (down)
_patsOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2674 "Order.hs" #-})
-- copy rule (down)
_patsOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2679 "Order.hs" #-})
-- copy rule (down)
_patsOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2684 "Order.hs" #-})
( _patsIcopy,_patsIerrors,_patsIgathAltAttrs,_patsIinstVars,_patsIlocVars,_patsIpatternAttrs) =
(pats_ _patsOallTypeSigs _patsOaltAttrs _patsOcon _patsOinh _patsOnt _patsOsyn )
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
sem_Pattern_Underscore :: Pos ->
T_Pattern
sem_Pattern_Underscore pos_ =
(T_Pattern (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Pattern
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 2707 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
[]
{-# LINE 2712 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 2717 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 2722 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
[]
{-# LINE 2727 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
Underscore pos_
{-# LINE 2732 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2737 "Order.hs" #-})
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
-- Patterns ----------------------------------------------------
{-
visit 0:
inherited attributes:
allTypeSigs : Map Identifier Type
altAttrs : Map AltAttr Vertex
con : Identifier
inh : Attributes
nt : Identifier
syn : Attributes
synthesized attributes:
copy : SELF
errors : Seq Error
gathAltAttrs : [AltAttr]
instVars : [Identifier]
locVars : [Identifier]
patternAttrs : [(Identifier,Identifier,Bool,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 ((Map Identifier Type) ->
(Map AltAttr Vertex) ->
Identifier ->
Attributes ->
Identifier ->
Attributes ->
( Patterns ,(Seq Error),([AltAttr]),([Identifier]),([Identifier]),([(Identifier,Identifier,Bool,Patterns)])))
data Inh_Patterns = Inh_Patterns {allTypeSigs_Inh_Patterns :: !((Map Identifier Type)),altAttrs_Inh_Patterns :: !((Map AltAttr Vertex)),con_Inh_Patterns :: !(Identifier),inh_Inh_Patterns :: !(Attributes),nt_Inh_Patterns :: !(Identifier),syn_Inh_Patterns :: !(Attributes)}
data Syn_Patterns = Syn_Patterns {copy_Syn_Patterns :: !(Patterns ),errors_Syn_Patterns :: !((Seq Error)),gathAltAttrs_Syn_Patterns :: !(([AltAttr])),instVars_Syn_Patterns :: !(([Identifier])),locVars_Syn_Patterns :: !(([Identifier])),patternAttrs_Syn_Patterns :: !(([(Identifier,Identifier,Bool,Patterns)]))}
wrap_Patterns :: T_Patterns ->
Inh_Patterns ->
Syn_Patterns
wrap_Patterns (T_Patterns sem ) (Inh_Patterns _lhsIallTypeSigs _lhsIaltAttrs _lhsIcon _lhsIinh _lhsInt _lhsIsyn ) =
(let ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs) =
(sem _lhsIallTypeSigs _lhsIaltAttrs _lhsIcon _lhsIinh _lhsInt _lhsIsyn )
in (Syn_Patterns _lhsOcopy _lhsOerrors _lhsOgathAltAttrs _lhsOinstVars _lhsOlocVars _lhsOpatternAttrs ))
sem_Patterns_Cons :: T_Pattern ->
T_Patterns ->
T_Patterns
sem_Patterns_Cons (T_Pattern hd_ ) (T_Patterns tl_ ) =
(T_Patterns (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Patterns
_hdOallTypeSigs :: (Map Identifier Type)
_hdOaltAttrs :: (Map AltAttr Vertex)
_hdOcon :: Identifier
_hdOinh :: Attributes
_hdOnt :: Identifier
_hdOsyn :: Attributes
_tlOallTypeSigs :: (Map Identifier Type)
_tlOaltAttrs :: (Map AltAttr Vertex)
_tlOcon :: Identifier
_tlOinh :: Attributes
_tlOnt :: Identifier
_tlOsyn :: Attributes
_hdIcopy :: Pattern
_hdIerrors :: (Seq Error)
_hdIgathAltAttrs :: ([AltAttr])
_hdIinstVars :: ([Identifier])
_hdIlocVars :: ([Identifier])
_hdIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_tlIcopy :: Patterns
_tlIerrors :: (Seq Error)
_tlIgathAltAttrs :: ([AltAttr])
_tlIinstVars :: ([Identifier])
_tlIlocVars :: ([Identifier])
_tlIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_hdIerrors Seq.>< _tlIerrors
{-# LINE 2832 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_hdIgathAltAttrs ++ _tlIgathAltAttrs
{-# LINE 2837 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_hdIinstVars ++ _tlIinstVars
{-# LINE 2842 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_hdIlocVars ++ _tlIlocVars
{-# LINE 2847 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
_hdIpatternAttrs ++ _tlIpatternAttrs
{-# LINE 2852 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
(:) _hdIcopy _tlIcopy
{-# LINE 2857 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2862 "Order.hs" #-})
-- copy rule (down)
_hdOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2867 "Order.hs" #-})
-- copy rule (down)
_hdOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2872 "Order.hs" #-})
-- copy rule (down)
_hdOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2877 "Order.hs" #-})
-- copy rule (down)
_hdOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2882 "Order.hs" #-})
-- copy rule (down)
_hdOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2887 "Order.hs" #-})
-- copy rule (down)
_hdOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2892 "Order.hs" #-})
-- copy rule (down)
_tlOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 2897 "Order.hs" #-})
-- copy rule (down)
_tlOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 2902 "Order.hs" #-})
-- copy rule (down)
_tlOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 2907 "Order.hs" #-})
-- copy rule (down)
_tlOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 2912 "Order.hs" #-})
-- copy rule (down)
_tlOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 2917 "Order.hs" #-})
-- copy rule (down)
_tlOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 2922 "Order.hs" #-})
( _hdIcopy,_hdIerrors,_hdIgathAltAttrs,_hdIinstVars,_hdIlocVars,_hdIpatternAttrs) =
(hd_ _hdOallTypeSigs _hdOaltAttrs _hdOcon _hdOinh _hdOnt _hdOsyn )
( _tlIcopy,_tlIerrors,_tlIgathAltAttrs,_tlIinstVars,_tlIlocVars,_tlIpatternAttrs) =
(tl_ _tlOallTypeSigs _tlOaltAttrs _tlOcon _tlOinh _tlOnt _tlOsyn )
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
sem_Patterns_Nil :: T_Patterns
sem_Patterns_Nil =
(T_Patterns (\ _lhsIallTypeSigs
_lhsIaltAttrs
_lhsIcon
_lhsIinh
_lhsInt
_lhsIsyn ->
(let _lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_lhsOcopy :: Patterns
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 2946 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
[]
{-# LINE 2951 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 2956 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 2961 "Order.hs" #-})
-- use rule "Order.ag"(line 249, column 42)
_lhsOpatternAttrs =
({-# LINE 249 "Order.ag" #-}
[]
{-# LINE 2966 "Order.hs" #-})
-- self rule
_copy =
({-# LINE 23 "./Patterns.ag" #-}
[]
{-# LINE 2971 "Order.hs" #-})
-- self rule
_lhsOcopy =
({-# LINE 23 "./Patterns.ag" #-}
_copy
{-# LINE 2976 "Order.hs" #-})
in ( _lhsOcopy,_lhsOerrors,_lhsOgathAltAttrs,_lhsOinstVars,_lhsOlocVars,_lhsOpatternAttrs))) )
-- Production --------------------------------------------------
{-
visit 0:
inherited attributes:
allnts : [Identifier]
aroundMap : Map ConstructorIdent (Map Identifier [Expression])
cVisitsMap : CVisitsMap
inh : Attributes
manualAttrDepMap : AttrOrderMap
mergeMap : Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))
nt : Identifier
o_case : Bool
o_cata : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_unbox : Bool
o_wantvisit : Bool
prefix : String
syn : Attributes
chained attribute:
vcount : Int
synthesized attributes:
additionalDep : Seq Edge
aroundDep : Seq Edge
cProduction : CProduction
cons : [ConstructorIdent]
directDep : Seq Edge
errors : Seq Error
instDep : Seq Edge
mergeDep : Seq Edge
nAutoRules : Int
nExplicitRules : Int
rules : Seq (Vertex,CRule)
alternatives:
alternative Production:
child con : {ConstructorIdent}
child children : Children
child rules : Rules
child typeSigs : TypeSigs
visit 0:
local gathAltAttrs : _
local altAttrs : _
local inhRules : _
local gathRules : _
local manualDeps : _
local mergeMap : _
local mergeDep1 : _
local mergeDep2 : _
local aroundMap : _
local aroundDep1 : _
local aroundDep2 : _
local cVisits : _
local allfields : _
local attrs : _
local inhnames : _
local synnames : _
-}
-- cata
sem_Production :: Production ->
T_Production
sem_Production (Production _con _children _rules _typeSigs ) =
(sem_Production_Production _con (sem_Children _children ) (sem_Rules _rules ) (sem_TypeSigs _typeSigs ) )
-- semantic domain
newtype T_Production = T_Production (([Identifier]) ->
(Map ConstructorIdent (Map Identifier [Expression])) ->
CVisitsMap ->
Attributes ->
AttrOrderMap ->
(Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))) ->
Identifier ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Attributes ->
Int ->
( (Seq Edge),(Seq Edge),CProduction,([ConstructorIdent]),(Seq Edge),(Seq Error),(Seq Edge),(Seq Edge),Int,Int,(Seq (Vertex,CRule)),Int))
data Inh_Production = Inh_Production {allnts_Inh_Production :: !(([Identifier])),aroundMap_Inh_Production :: !((Map ConstructorIdent (Map Identifier [Expression]))),cVisitsMap_Inh_Production :: !(CVisitsMap),inh_Inh_Production :: !(Attributes),manualAttrDepMap_Inh_Production :: !(AttrOrderMap),mergeMap_Inh_Production :: !((Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))),nt_Inh_Production :: !(Identifier),o_case_Inh_Production :: !(Bool),o_cata_Inh_Production :: !(Bool),o_dovisit_Inh_Production :: !(Bool),o_newtypes_Inh_Production :: !(Bool),o_rename_Inh_Production :: !(Bool),o_sem_Inh_Production :: !(Bool),o_sig_Inh_Production :: !(Bool),o_unbox_Inh_Production :: !(Bool),o_wantvisit_Inh_Production :: !(Bool),prefix_Inh_Production :: !(String),syn_Inh_Production :: !(Attributes),vcount_Inh_Production :: !(Int)}
data Syn_Production = Syn_Production {additionalDep_Syn_Production :: !((Seq Edge)),aroundDep_Syn_Production :: !((Seq Edge)),cProduction_Syn_Production :: !(CProduction),cons_Syn_Production :: !(([ConstructorIdent])),directDep_Syn_Production :: !((Seq Edge)),errors_Syn_Production :: !((Seq Error)),instDep_Syn_Production :: !((Seq Edge)),mergeDep_Syn_Production :: !((Seq Edge)),nAutoRules_Syn_Production :: !(Int),nExplicitRules_Syn_Production :: !(Int),rules_Syn_Production :: !((Seq (Vertex,CRule))),vcount_Syn_Production :: !(Int)}
wrap_Production :: T_Production ->
Inh_Production ->
Syn_Production
wrap_Production (T_Production sem ) (Inh_Production _lhsIallnts _lhsIaroundMap _lhsIcVisitsMap _lhsIinh _lhsImanualAttrDepMap _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIvcount ) =
(let ( _lhsOadditionalDep,_lhsOaroundDep,_lhsOcProduction,_lhsOcons,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOrules,_lhsOvcount) =
(sem _lhsIallnts _lhsIaroundMap _lhsIcVisitsMap _lhsIinh _lhsImanualAttrDepMap _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIvcount )
in (Syn_Production _lhsOadditionalDep _lhsOaroundDep _lhsOcProduction _lhsOcons _lhsOdirectDep _lhsOerrors _lhsOinstDep _lhsOmergeDep _lhsOnAutoRules _lhsOnExplicitRules _lhsOrules _lhsOvcount ))
sem_Production_Production :: ConstructorIdent ->
T_Children ->
T_Rules ->
T_TypeSigs ->
T_Production
sem_Production_Production con_ (T_Children children_ ) (T_Rules rules_ ) (T_TypeSigs typeSigs_ ) =
(T_Production (\ _lhsIallnts
_lhsIaroundMap
_lhsIcVisitsMap
_lhsIinh
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIvcount ->
(let _childrenOcon :: Identifier
_rulesOcon :: Identifier
_rulesOchildNts :: (Map Identifier NontermIdent)
_rulesOchildInhs :: (Map Identifier Attributes)
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOvcount :: Int
_lhsOadditionalDep :: (Seq Edge)
_rulesOsynsOfChildren :: (Map Identifier Attributes)
_rulesOinhsOfChildren :: (Map Identifier Attributes)
_lhsOmergeDep :: (Seq Edge)
_lhsOaroundDep :: (Seq Edge)
_lhsOcons :: ([ConstructorIdent])
_typeSigsOtypeSigs :: (Map Identifier Type)
_rulesOallTypeSigs :: (Map Identifier Type)
_lhsOcProduction :: CProduction
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_childrenOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_childrenOallnts :: ([Identifier])
_childrenOattrs :: ([(Identifier,Identifier)])
_childrenOinh :: Attributes
_childrenOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_childrenOnt :: Identifier
_childrenOo_unbox :: Bool
_childrenOsyn :: Attributes
_rulesOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_rulesOallnts :: ([Identifier])
_rulesOaltAttrs :: (Map AltAttr Vertex)
_rulesOattrs :: ([(Identifier,Identifier)])
_rulesOinh :: Attributes
_rulesOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_rulesOnt :: Identifier
_rulesOo_case :: Bool
_rulesOo_cata :: Bool
_rulesOo_dovisit :: Bool
_rulesOo_newtypes :: Bool
_rulesOo_rename :: Bool
_rulesOo_sem :: Bool
_rulesOo_sig :: Bool
_rulesOo_wantvisit :: Bool
_rulesOprefix :: String
_rulesOsyn :: Attributes
_childrenIattributes :: ([(Identifier,Attributes,Attributes)])
_childrenIcollectChildrenInhs :: (Map Identifier Attributes )
_childrenIcollectChildrenSyns :: (Map Identifier Attributes )
_childrenIerrors :: (Seq Error)
_childrenIfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_childrenIgathAltAttrs :: ([AltAttr])
_childrenIgathRules :: (Seq CRule)
_childrenIinhs :: (Seq (Identifier,Attributes))
_childrenInts :: (Seq (Identifier,NontermIdent))
_childrenIsinglevisits :: ([CRule])
_childrenIterminals :: ([Identifier])
_rulesIdirectDep :: (Seq Edge)
_rulesIerrors :: (Seq Error)
_rulesIgathAltAttrs :: ([AltAttr])
_rulesIgathRules :: (Seq CRule)
_rulesIinstDep :: (Seq Edge)
_rulesIinstVars :: ([Identifier])
_rulesIlocVars :: ([Identifier])
_rulesInAutoRules :: Int
_rulesInExplicitRules :: Int
_typeSigsItypeSigs :: (Map Identifier Type)
-- "Order.ag"(line 93, column 16)
_childrenOcon =
({-# LINE 93 "Order.ag" #-}
con_
{-# LINE 3168 "Order.hs" #-})
-- "Order.ag"(line 95, column 16)
_rulesOcon =
({-# LINE 95 "Order.ag" #-}
con_
{-# LINE 3173 "Order.hs" #-})
-- "Order.ag"(line 172, column 18)
_gathAltAttrs =
({-# LINE 172 "Order.ag" #-}
[ AltAttr _LHS inh True | inh <- Map.keys _lhsIinh ]
++ _childrenIgathAltAttrs
++ _rulesIgathAltAttrs
{-# LINE 3180 "Order.hs" #-})
-- "Order.ag"(line 188, column 17)
_altAttrs =
({-# LINE 188 "Order.ag" #-}
Map.fromList (zip _gathAltAttrs [_lhsIvcount..])
{-# LINE 3185 "Order.hs" #-})
-- "Order.ag"(line 201, column 18)
_rulesOchildNts =
({-# LINE 201 "Order.ag" #-}
Map.fromList (toList _childrenInts)
{-# LINE 3190 "Order.hs" #-})
-- "Order.ag"(line 202, column 19)
_rulesOchildInhs =
({-# LINE 202 "Order.ag" #-}
Map.fromList (toList _childrenIinhs)
{-# LINE 3195 "Order.hs" #-})
-- "Order.ag"(line 208, column 18)
_inhRules =
({-# LINE 208 "Order.ag" #-}
[ cRuleLhsInh inh _lhsInt con_ tp | (inh,tp) <- Map.assocs _lhsIinh ]
{-# LINE 3200 "Order.hs" #-})
-- "Order.ag"(line 209, column 19)
_gathRules =
({-# LINE 209 "Order.ag" #-}
_inhRules ++ toList (_childrenIgathRules Seq.>< _rulesIgathRules)
{-# LINE 3205 "Order.hs" #-})
-- "Order.ag"(line 263, column 18)
_lhsOrules =
({-# LINE 263 "Order.ag" #-}
Seq.fromList (zip [_lhsIvcount..] _gathRules)
{-# LINE 3210 "Order.hs" #-})
-- "Order.ag"(line 264, column 19)
_lhsOvcount =
({-# LINE 264 "Order.ag" #-}
_lhsIvcount + length _gathRules
{-# LINE 3215 "Order.hs" #-})
-- "Order.ag"(line 291, column 7)
_manualDeps =
({-# LINE 291 "Order.ag" #-}
Set.toList $ Map.findWithDefault Set.empty con_ $ Map.findWithDefault Map.empty _lhsInt _lhsImanualAttrDepMap
{-# LINE 3220 "Order.hs" #-})
-- "Order.ag"(line 294, column 7)
_lhsOadditionalDep =
({-# LINE 294 "Order.ag" #-}
Seq.fromList [ (vertex True occA, vertex False occB)
| Dependency occA occB <- _manualDeps
, let vertex inout (OccAttr child nm)
| child == _LOC = findWithErr2 (AltAttr _LOC nm True) _altAttrs
| otherwise = findWithErr2 (AltAttr child nm inout) _altAttrs
vertex _ (OccRule nm)
= findWithErr2 (AltAttr _LOC (Ident ("_rule_" ++ show nm) (getPos nm)) True) _altAttrs
]
{-# LINE 3232 "Order.hs" #-})
-- "Order.ag"(line 341, column 17)
_rulesOsynsOfChildren =
({-# LINE 341 "Order.ag" #-}
_childrenIcollectChildrenSyns
{-# LINE 3237 "Order.hs" #-})
-- "Order.ag"(line 342, column 17)
_rulesOinhsOfChildren =
({-# LINE 342 "Order.ag" #-}
_childrenIcollectChildrenInhs
{-# LINE 3242 "Order.hs" #-})
-- "Order.ag"(line 360, column 32)
_mergeMap =
({-# LINE 360 "Order.ag" #-}
Map.findWithDefault Map.empty con_ _lhsImergeMap
{-# LINE 3247 "Order.hs" #-})
-- "Order.ag"(line 371, column 7)
_lhsOmergeDep =
({-# LINE 371 "Order.ag" #-}
_mergeDep1 Seq.>< _mergeDep2
{-# LINE 3252 "Order.hs" #-})
-- "Order.ag"(line 372, column 7)
_mergeDep1 =
({-# LINE 372 "Order.ag" #-}
Seq.fromList $
[ (childVert, synVert)
| childNm <- Map.keys _mergeMap
, synNm <- Map.keys (findWithErr2 childNm _childrenIcollectChildrenSyns)
, let childNm' = Ident (show childNm ++ "_merge") (getPos childNm)
childAttr = AltAttr _LOC childNm' True
synAttr = AltAttr childNm synNm True
childVert = findWithErr2 childAttr _altAttrs
synVert = findWithErr2 synAttr _altAttrs
]
{-# LINE 3266 "Order.hs" #-})
-- "Order.ag"(line 383, column 7)
_mergeDep2 =
({-# LINE 383 "Order.ag" #-}
Seq.fromList $
[ (mergedVert, sourceVert)
| (childNm, (_,cs)) <- Map.assocs _mergeMap
, c <- cs
, synNm <- Map.keys (findWithErr2 childNm _childrenIcollectChildrenSyns)
, let sourceAttr = AltAttr childNm synNm True
mergedAttr = AltAttr c synNm True
sourceVert = findWithErr2 sourceAttr _altAttrs
mergedVert = findWithErr2 mergedAttr _altAttrs
]
{-# LINE 3280 "Order.hs" #-})
-- "Order.ag"(line 413, column 32)
_aroundMap =
({-# LINE 413 "Order.ag" #-}
Map.findWithDefault Map.empty con_ _lhsIaroundMap
{-# LINE 3285 "Order.hs" #-})
-- "Order.ag"(line 420, column 6)
_aroundDep1 =
({-# LINE 420 "Order.ag" #-}
Seq.fromList $
[ (childVert, synVert)
| childNm <- Map.keys _aroundMap
, synNm <- Map.keys (findWithErr2 childNm _childrenIcollectChildrenSyns)
, let childNm' = Ident (show childNm ++ "_around") (getPos childNm)
childAttr = AltAttr _LOC childNm' True
synAttr = AltAttr childNm synNm True
childVert = findWithErr2 childAttr _altAttrs
synVert = findWithErr2 synAttr _altAttrs
]
{-# LINE 3299 "Order.hs" #-})
-- "Order.ag"(line 431, column 6)
_aroundDep2 =
({-# LINE 431 "Order.ag" #-}
Seq.fromList $
[ (childVert, inhVert)
| childNm <- Map.keys _aroundMap
, inhNm <- Map.keys (findWithErr2 childNm _childrenIcollectChildrenInhs)
, let childNm' = Ident (show childNm ++ "_around") (getPos childNm)
childAttr = AltAttr _LOC childNm' True
inhAttr = AltAttr childNm inhNm False
childVert = findWithErr2 childAttr _altAttrs
inhVert = findWithErr2 inhAttr _altAttrs
]
{-# LINE 3313 "Order.hs" #-})
-- "Order.ag"(line 442, column 6)
_lhsOaroundDep =
({-# LINE 442 "Order.ag" #-}
_aroundDep1 Seq.>< _aroundDep2
{-# LINE 3318 "Order.hs" #-})
-- "Order.ag"(line 522, column 18)
_lhsOcons =
({-# LINE 522 "Order.ag" #-}
[con_]
{-# LINE 3323 "Order.hs" #-})
-- "Order.ag"(line 529, column 16)
_typeSigsOtypeSigs =
({-# LINE 529 "Order.ag" #-}
Map.empty
{-# LINE 3328 "Order.hs" #-})
-- "Order.ag"(line 535, column 17)
_rulesOallTypeSigs =
({-# LINE 535 "Order.ag" #-}
_typeSigsItypeSigs
{-# LINE 3333 "Order.hs" #-})
-- "Order.ag"(line 603, column 17)
_cVisits =
({-# LINE 603 "Order.ag" #-}
if _lhsIo_dovisit
then let prodsVisitsMap = findWithErr1 "Production.cVisits.nt" _lhsInt _lhsIcVisitsMap
visits = findWithErr1 "Production.cVisits.con" con_ prodsVisitsMap
in visits
else let vss = nubBy eqCRuleDefines _gathRules ++ _childrenIsinglevisits
in [CVisit _lhsIinh _lhsIsyn vss [] False]
{-# LINE 3343 "Order.hs" #-})
-- "Order.ag"(line 629, column 18)
_lhsOcProduction =
({-# LINE 629 "Order.ag" #-}
CProduction con_ _cVisits _childrenIfields _childrenIterminals
{-# LINE 3348 "Order.hs" #-})
-- "Order.ag"(line 657, column 16)
_allfields =
({-# LINE 657 "Order.ag" #-}
_childrenIfields
{-# LINE 3353 "Order.hs" #-})
-- "Order.ag"(line 657, column 16)
_attrs =
({-# LINE 658 "Order.ag" #-}
map ((,) _LOC) _rulesIlocVars ++
map ((,) _INST) _rulesIinstVars ++
map ((,) _LHS) _inhnames ++
concat [map ((,) nm) (Map.keys as) | (nm,_,as) <- _childrenIattributes]
{-# LINE 3361 "Order.hs" #-})
-- "Order.ag"(line 657, column 16)
_inhnames =
({-# LINE 662 "Order.ag" #-}
Map.keys _lhsIinh
{-# LINE 3366 "Order.hs" #-})
-- "Order.ag"(line 657, column 16)
_synnames =
({-# LINE 663 "Order.ag" #-}
Map.keys _lhsIsyn
{-# LINE 3371 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
_rulesIdirectDep
{-# LINE 3376 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_childrenIerrors Seq.>< _rulesIerrors
{-# LINE 3381 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
_rulesIinstDep
{-# LINE 3386 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_rulesInAutoRules
{-# LINE 3391 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_rulesInExplicitRules
{-# LINE 3396 "Order.hs" #-})
-- copy rule (from local)
_childrenOallfields =
({-# LINE 654 "Order.ag" #-}
_allfields
{-# LINE 3401 "Order.hs" #-})
-- copy rule (down)
_childrenOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 3406 "Order.hs" #-})
-- copy rule (from local)
_childrenOattrs =
({-# LINE 654 "Order.ag" #-}
_attrs
{-# LINE 3411 "Order.hs" #-})
-- copy rule (down)
_childrenOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 3416 "Order.hs" #-})
-- copy rule (from local)
_childrenOmergeMap =
({-# LINE 362 "Order.ag" #-}
_mergeMap
{-# LINE 3421 "Order.hs" #-})
-- copy rule (down)
_childrenOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 3426 "Order.hs" #-})
-- copy rule (down)
_childrenOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 3431 "Order.hs" #-})
-- copy rule (down)
_childrenOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 3436 "Order.hs" #-})
-- copy rule (from local)
_rulesOallfields =
({-# LINE 654 "Order.ag" #-}
_allfields
{-# LINE 3441 "Order.hs" #-})
-- copy rule (down)
_rulesOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 3446 "Order.hs" #-})
-- copy rule (from local)
_rulesOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_altAttrs
{-# LINE 3451 "Order.hs" #-})
-- copy rule (from local)
_rulesOattrs =
({-# LINE 654 "Order.ag" #-}
_attrs
{-# LINE 3456 "Order.hs" #-})
-- copy rule (down)
_rulesOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 3461 "Order.hs" #-})
-- copy rule (from local)
_rulesOmergeMap =
({-# LINE 362 "Order.ag" #-}
_mergeMap
{-# LINE 3466 "Order.hs" #-})
-- copy rule (down)
_rulesOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 3471 "Order.hs" #-})
-- copy rule (down)
_rulesOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 3476 "Order.hs" #-})
-- copy rule (down)
_rulesOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 3481 "Order.hs" #-})
-- copy rule (down)
_rulesOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 3486 "Order.hs" #-})
-- copy rule (down)
_rulesOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 3491 "Order.hs" #-})
-- copy rule (down)
_rulesOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 3496 "Order.hs" #-})
-- copy rule (down)
_rulesOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 3501 "Order.hs" #-})
-- copy rule (down)
_rulesOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 3506 "Order.hs" #-})
-- copy rule (down)
_rulesOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 3511 "Order.hs" #-})
-- copy rule (down)
_rulesOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 3516 "Order.hs" #-})
-- copy rule (down)
_rulesOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 3521 "Order.hs" #-})
( _childrenIattributes,_childrenIcollectChildrenInhs,_childrenIcollectChildrenSyns,_childrenIerrors,_childrenIfields,_childrenIgathAltAttrs,_childrenIgathRules,_childrenIinhs,_childrenInts,_childrenIsinglevisits,_childrenIterminals) =
(children_ _childrenOallfields _childrenOallnts _childrenOattrs _childrenOcon _childrenOinh _childrenOmergeMap _childrenOnt _childrenOo_unbox _childrenOsyn )
( _rulesIdirectDep,_rulesIerrors,_rulesIgathAltAttrs,_rulesIgathRules,_rulesIinstDep,_rulesIinstVars,_rulesIlocVars,_rulesInAutoRules,_rulesInExplicitRules) =
(rules_ _rulesOallTypeSigs _rulesOallfields _rulesOallnts _rulesOaltAttrs _rulesOattrs _rulesOchildInhs _rulesOchildNts _rulesOcon _rulesOinh _rulesOinhsOfChildren _rulesOmergeMap _rulesOnt _rulesOo_case _rulesOo_cata _rulesOo_dovisit _rulesOo_newtypes _rulesOo_rename _rulesOo_sem _rulesOo_sig _rulesOo_wantvisit _rulesOprefix _rulesOsyn _rulesOsynsOfChildren )
( _typeSigsItypeSigs) =
(typeSigs_ _typeSigsOtypeSigs )
in ( _lhsOadditionalDep,_lhsOaroundDep,_lhsOcProduction,_lhsOcons,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOrules,_lhsOvcount))) )
-- Productions -------------------------------------------------
{-
visit 0:
inherited attributes:
allnts : [Identifier]
aroundMap : Map ConstructorIdent (Map Identifier [Expression])
cVisitsMap : CVisitsMap
inh : Attributes
manualAttrDepMap : AttrOrderMap
mergeMap : Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))
nt : Identifier
o_case : Bool
o_cata : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_unbox : Bool
o_wantvisit : Bool
prefix : String
syn : Attributes
chained attribute:
vcount : Int
synthesized attributes:
additionalDep : Seq Edge
aroundDep : Seq Edge
cProductions : CProductions
cons : [ConstructorIdent]
directDep : Seq Edge
errors : Seq Error
instDep : Seq Edge
mergeDep : Seq Edge
nAutoRules : Int
nExplicitRules : Int
rules : Seq (Vertex,CRule)
alternatives:
alternative Cons:
child hd : Production
child tl : Productions
alternative Nil:
-}
-- cata
sem_Productions :: Productions ->
T_Productions
sem_Productions list =
(Prelude.foldr sem_Productions_Cons sem_Productions_Nil (Prelude.map sem_Production list) )
-- semantic domain
newtype T_Productions = T_Productions (([Identifier]) ->
(Map ConstructorIdent (Map Identifier [Expression])) ->
CVisitsMap ->
Attributes ->
AttrOrderMap ->
(Map ConstructorIdent (Map Identifier (Identifier,[Identifier]))) ->
Identifier ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Attributes ->
Int ->
( (Seq Edge),(Seq Edge),CProductions,([ConstructorIdent]),(Seq Edge),(Seq Error),(Seq Edge),(Seq Edge),Int,Int,(Seq (Vertex,CRule)),Int))
data Inh_Productions = Inh_Productions {allnts_Inh_Productions :: !(([Identifier])),aroundMap_Inh_Productions :: !((Map ConstructorIdent (Map Identifier [Expression]))),cVisitsMap_Inh_Productions :: !(CVisitsMap),inh_Inh_Productions :: !(Attributes),manualAttrDepMap_Inh_Productions :: !(AttrOrderMap),mergeMap_Inh_Productions :: !((Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))),nt_Inh_Productions :: !(Identifier),o_case_Inh_Productions :: !(Bool),o_cata_Inh_Productions :: !(Bool),o_dovisit_Inh_Productions :: !(Bool),o_newtypes_Inh_Productions :: !(Bool),o_rename_Inh_Productions :: !(Bool),o_sem_Inh_Productions :: !(Bool),o_sig_Inh_Productions :: !(Bool),o_unbox_Inh_Productions :: !(Bool),o_wantvisit_Inh_Productions :: !(Bool),prefix_Inh_Productions :: !(String),syn_Inh_Productions :: !(Attributes),vcount_Inh_Productions :: !(Int)}
data Syn_Productions = Syn_Productions {additionalDep_Syn_Productions :: !((Seq Edge)),aroundDep_Syn_Productions :: !((Seq Edge)),cProductions_Syn_Productions :: !(CProductions),cons_Syn_Productions :: !(([ConstructorIdent])),directDep_Syn_Productions :: !((Seq Edge)),errors_Syn_Productions :: !((Seq Error)),instDep_Syn_Productions :: !((Seq Edge)),mergeDep_Syn_Productions :: !((Seq Edge)),nAutoRules_Syn_Productions :: !(Int),nExplicitRules_Syn_Productions :: !(Int),rules_Syn_Productions :: !((Seq (Vertex,CRule))),vcount_Syn_Productions :: !(Int)}
wrap_Productions :: T_Productions ->
Inh_Productions ->
Syn_Productions
wrap_Productions (T_Productions sem ) (Inh_Productions _lhsIallnts _lhsIaroundMap _lhsIcVisitsMap _lhsIinh _lhsImanualAttrDepMap _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIvcount ) =
(let ( _lhsOadditionalDep,_lhsOaroundDep,_lhsOcProductions,_lhsOcons,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOrules,_lhsOvcount) =
(sem _lhsIallnts _lhsIaroundMap _lhsIcVisitsMap _lhsIinh _lhsImanualAttrDepMap _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_unbox _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIvcount )
in (Syn_Productions _lhsOadditionalDep _lhsOaroundDep _lhsOcProductions _lhsOcons _lhsOdirectDep _lhsOerrors _lhsOinstDep _lhsOmergeDep _lhsOnAutoRules _lhsOnExplicitRules _lhsOrules _lhsOvcount ))
sem_Productions_Cons :: T_Production ->
T_Productions ->
T_Productions
sem_Productions_Cons (T_Production hd_ ) (T_Productions tl_ ) =
(T_Productions (\ _lhsIallnts
_lhsIaroundMap
_lhsIcVisitsMap
_lhsIinh
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIvcount ->
(let _lhsOcProductions :: CProductions
_lhsOadditionalDep :: (Seq Edge)
_lhsOaroundDep :: (Seq Edge)
_lhsOcons :: ([ConstructorIdent])
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOmergeDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOvcount :: Int
_hdOallnts :: ([Identifier])
_hdOaroundMap :: (Map ConstructorIdent (Map Identifier [Expression]))
_hdOcVisitsMap :: CVisitsMap
_hdOinh :: Attributes
_hdOmanualAttrDepMap :: AttrOrderMap
_hdOmergeMap :: (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))
_hdOnt :: Identifier
_hdOo_case :: Bool
_hdOo_cata :: Bool
_hdOo_dovisit :: Bool
_hdOo_newtypes :: Bool
_hdOo_rename :: Bool
_hdOo_sem :: Bool
_hdOo_sig :: Bool
_hdOo_unbox :: Bool
_hdOo_wantvisit :: Bool
_hdOprefix :: String
_hdOsyn :: Attributes
_hdOvcount :: Int
_tlOallnts :: ([Identifier])
_tlOaroundMap :: (Map ConstructorIdent (Map Identifier [Expression]))
_tlOcVisitsMap :: CVisitsMap
_tlOinh :: Attributes
_tlOmanualAttrDepMap :: AttrOrderMap
_tlOmergeMap :: (Map ConstructorIdent (Map Identifier (Identifier,[Identifier])))
_tlOnt :: Identifier
_tlOo_case :: Bool
_tlOo_cata :: Bool
_tlOo_dovisit :: Bool
_tlOo_newtypes :: Bool
_tlOo_rename :: Bool
_tlOo_sem :: Bool
_tlOo_sig :: Bool
_tlOo_unbox :: Bool
_tlOo_wantvisit :: Bool
_tlOprefix :: String
_tlOsyn :: Attributes
_tlOvcount :: Int
_hdIadditionalDep :: (Seq Edge)
_hdIaroundDep :: (Seq Edge)
_hdIcProduction :: CProduction
_hdIcons :: ([ConstructorIdent])
_hdIdirectDep :: (Seq Edge)
_hdIerrors :: (Seq Error)
_hdIinstDep :: (Seq Edge)
_hdImergeDep :: (Seq Edge)
_hdInAutoRules :: Int
_hdInExplicitRules :: Int
_hdIrules :: (Seq (Vertex,CRule))
_hdIvcount :: Int
_tlIadditionalDep :: (Seq Edge)
_tlIaroundDep :: (Seq Edge)
_tlIcProductions :: CProductions
_tlIcons :: ([ConstructorIdent])
_tlIdirectDep :: (Seq Edge)
_tlIerrors :: (Seq Error)
_tlIinstDep :: (Seq Edge)
_tlImergeDep :: (Seq Edge)
_tlInAutoRules :: Int
_tlInExplicitRules :: Int
_tlIrules :: (Seq (Vertex,CRule))
_tlIvcount :: Int
-- "Order.ag"(line 626, column 12)
_lhsOcProductions =
({-# LINE 626 "Order.ag" #-}
_hdIcProduction : _tlIcProductions
{-# LINE 3707 "Order.hs" #-})
-- use rule "Order.ag"(line 283, column 60)
_lhsOadditionalDep =
({-# LINE 283 "Order.ag" #-}
_hdIadditionalDep Seq.>< _tlIadditionalDep
{-# LINE 3712 "Order.hs" #-})
-- use rule "Order.ag"(line 404, column 24)
_lhsOaroundDep =
({-# LINE 404 "Order.ag" #-}
_hdIaroundDep Seq.>< _tlIaroundDep
{-# LINE 3717 "Order.hs" #-})
-- use rule "Order.ag"(line 520, column 40)
_lhsOcons =
({-# LINE 520 "Order.ag" #-}
_hdIcons ++ _tlIcons
{-# LINE 3722 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
_hdIdirectDep Seq.>< _tlIdirectDep
{-# LINE 3727 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_hdIerrors Seq.>< _tlIerrors
{-# LINE 3732 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
_hdIinstDep Seq.>< _tlIinstDep
{-# LINE 3737 "Order.hs" #-})
-- use rule "Order.ag"(line 367, column 18)
_lhsOmergeDep =
({-# LINE 367 "Order.ag" #-}
_hdImergeDep Seq.>< _tlImergeDep
{-# LINE 3742 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_hdInAutoRules + _tlInAutoRules
{-# LINE 3747 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_hdInExplicitRules + _tlInExplicitRules
{-# LINE 3752 "Order.hs" #-})
-- use rule "Order.ag"(line 259, column 18)
_lhsOrules =
({-# LINE 259 "Order.ag" #-}
_hdIrules Seq.>< _tlIrules
{-# LINE 3757 "Order.hs" #-})
-- copy rule (up)
_lhsOvcount =
({-# LINE 258 "Order.ag" #-}
_tlIvcount
{-# LINE 3762 "Order.hs" #-})
-- copy rule (down)
_hdOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 3767 "Order.hs" #-})
-- copy rule (down)
_hdOaroundMap =
({-# LINE 410 "Order.ag" #-}
_lhsIaroundMap
{-# LINE 3772 "Order.hs" #-})
-- copy rule (down)
_hdOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_lhsIcVisitsMap
{-# LINE 3777 "Order.hs" #-})
-- copy rule (down)
_hdOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 3782 "Order.hs" #-})
-- copy rule (down)
_hdOmanualAttrDepMap =
({-# LINE 283 "Order.ag" #-}
_lhsImanualAttrDepMap
{-# LINE 3787 "Order.hs" #-})
-- copy rule (down)
_hdOmergeMap =
({-# LINE 357 "Order.ag" #-}
_lhsImergeMap
{-# LINE 3792 "Order.hs" #-})
-- copy rule (down)
_hdOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 3797 "Order.hs" #-})
-- copy rule (down)
_hdOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 3802 "Order.hs" #-})
-- copy rule (down)
_hdOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 3807 "Order.hs" #-})
-- copy rule (down)
_hdOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 3812 "Order.hs" #-})
-- copy rule (down)
_hdOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 3817 "Order.hs" #-})
-- copy rule (down)
_hdOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 3822 "Order.hs" #-})
-- copy rule (down)
_hdOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 3827 "Order.hs" #-})
-- copy rule (down)
_hdOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 3832 "Order.hs" #-})
-- copy rule (down)
_hdOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 3837 "Order.hs" #-})
-- copy rule (down)
_hdOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 3842 "Order.hs" #-})
-- copy rule (down)
_hdOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 3847 "Order.hs" #-})
-- copy rule (down)
_hdOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 3852 "Order.hs" #-})
-- copy rule (down)
_hdOvcount =
({-# LINE 258 "Order.ag" #-}
_lhsIvcount
{-# LINE 3857 "Order.hs" #-})
-- copy rule (down)
_tlOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 3862 "Order.hs" #-})
-- copy rule (down)
_tlOaroundMap =
({-# LINE 410 "Order.ag" #-}
_lhsIaroundMap
{-# LINE 3867 "Order.hs" #-})
-- copy rule (down)
_tlOcVisitsMap =
({-# LINE 601 "Order.ag" #-}
_lhsIcVisitsMap
{-# LINE 3872 "Order.hs" #-})
-- copy rule (down)
_tlOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 3877 "Order.hs" #-})
-- copy rule (down)
_tlOmanualAttrDepMap =
({-# LINE 283 "Order.ag" #-}
_lhsImanualAttrDepMap
{-# LINE 3882 "Order.hs" #-})
-- copy rule (down)
_tlOmergeMap =
({-# LINE 357 "Order.ag" #-}
_lhsImergeMap
{-# LINE 3887 "Order.hs" #-})
-- copy rule (down)
_tlOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 3892 "Order.hs" #-})
-- copy rule (down)
_tlOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 3897 "Order.hs" #-})
-- copy rule (down)
_tlOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 3902 "Order.hs" #-})
-- copy rule (down)
_tlOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 3907 "Order.hs" #-})
-- copy rule (down)
_tlOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 3912 "Order.hs" #-})
-- copy rule (down)
_tlOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 3917 "Order.hs" #-})
-- copy rule (down)
_tlOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 3922 "Order.hs" #-})
-- copy rule (down)
_tlOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 3927 "Order.hs" #-})
-- copy rule (down)
_tlOo_unbox =
({-# LINE 119 "Order.ag" #-}
_lhsIo_unbox
{-# LINE 3932 "Order.hs" #-})
-- copy rule (down)
_tlOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 3937 "Order.hs" #-})
-- copy rule (down)
_tlOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 3942 "Order.hs" #-})
-- copy rule (down)
_tlOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 3947 "Order.hs" #-})
-- copy rule (chain)
_tlOvcount =
({-# LINE 258 "Order.ag" #-}
_hdIvcount
{-# LINE 3952 "Order.hs" #-})
( _hdIadditionalDep,_hdIaroundDep,_hdIcProduction,_hdIcons,_hdIdirectDep,_hdIerrors,_hdIinstDep,_hdImergeDep,_hdInAutoRules,_hdInExplicitRules,_hdIrules,_hdIvcount) =
(hd_ _hdOallnts _hdOaroundMap _hdOcVisitsMap _hdOinh _hdOmanualAttrDepMap _hdOmergeMap _hdOnt _hdOo_case _hdOo_cata _hdOo_dovisit _hdOo_newtypes _hdOo_rename _hdOo_sem _hdOo_sig _hdOo_unbox _hdOo_wantvisit _hdOprefix _hdOsyn _hdOvcount )
( _tlIadditionalDep,_tlIaroundDep,_tlIcProductions,_tlIcons,_tlIdirectDep,_tlIerrors,_tlIinstDep,_tlImergeDep,_tlInAutoRules,_tlInExplicitRules,_tlIrules,_tlIvcount) =
(tl_ _tlOallnts _tlOaroundMap _tlOcVisitsMap _tlOinh _tlOmanualAttrDepMap _tlOmergeMap _tlOnt _tlOo_case _tlOo_cata _tlOo_dovisit _tlOo_newtypes _tlOo_rename _tlOo_sem _tlOo_sig _tlOo_unbox _tlOo_wantvisit _tlOprefix _tlOsyn _tlOvcount )
in ( _lhsOadditionalDep,_lhsOaroundDep,_lhsOcProductions,_lhsOcons,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOrules,_lhsOvcount))) )
sem_Productions_Nil :: T_Productions
sem_Productions_Nil =
(T_Productions (\ _lhsIallnts
_lhsIaroundMap
_lhsIcVisitsMap
_lhsIinh
_lhsImanualAttrDepMap
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_unbox
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIvcount ->
(let _lhsOcProductions :: CProductions
_lhsOadditionalDep :: (Seq Edge)
_lhsOaroundDep :: (Seq Edge)
_lhsOcons :: ([ConstructorIdent])
_lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOinstDep :: (Seq Edge)
_lhsOmergeDep :: (Seq Edge)
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_lhsOrules :: (Seq (Vertex,CRule))
_lhsOvcount :: Int
-- "Order.ag"(line 627, column 12)
_lhsOcProductions =
({-# LINE 627 "Order.ag" #-}
[]
{-# LINE 3995 "Order.hs" #-})
-- use rule "Order.ag"(line 283, column 60)
_lhsOadditionalDep =
({-# LINE 283 "Order.ag" #-}
Seq.empty
{-# LINE 4000 "Order.hs" #-})
-- use rule "Order.ag"(line 404, column 24)
_lhsOaroundDep =
({-# LINE 404 "Order.ag" #-}
Seq.empty
{-# LINE 4005 "Order.hs" #-})
-- use rule "Order.ag"(line 520, column 40)
_lhsOcons =
({-# LINE 520 "Order.ag" #-}
[]
{-# LINE 4010 "Order.hs" #-})
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
Seq.empty
{-# LINE 4015 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 4020 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
Seq.empty
{-# LINE 4025 "Order.hs" #-})
-- use rule "Order.ag"(line 367, column 18)
_lhsOmergeDep =
({-# LINE 367 "Order.ag" #-}
Seq.empty
{-# LINE 4030 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 4035 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 4040 "Order.hs" #-})
-- use rule "Order.ag"(line 259, column 18)
_lhsOrules =
({-# LINE 259 "Order.ag" #-}
Seq.empty
{-# LINE 4045 "Order.hs" #-})
-- copy rule (chain)
_lhsOvcount =
({-# LINE 258 "Order.ag" #-}
_lhsIvcount
{-# LINE 4050 "Order.hs" #-})
in ( _lhsOadditionalDep,_lhsOaroundDep,_lhsOcProductions,_lhsOcons,_lhsOdirectDep,_lhsOerrors,_lhsOinstDep,_lhsOmergeDep,_lhsOnAutoRules,_lhsOnExplicitRules,_lhsOrules,_lhsOvcount))) )
-- Rule --------------------------------------------------------
{-
visit 0:
inherited attributes:
allTypeSigs : Map Identifier Type
allfields : [(Identifier,Type,Maybe (Maybe Type))]
allnts : [Identifier]
altAttrs : Map AltAttr Vertex
attrs : [(Identifier,Identifier)]
childInhs : Map Identifier Attributes
childNts : Map Identifier NontermIdent
con : Identifier
inh : Attributes
inhsOfChildren : Map Identifier Attributes
mergeMap : Map Identifier (Identifier,[Identifier])
nt : Identifier
o_case : Bool
o_cata : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_wantvisit : Bool
prefix : String
syn : Attributes
synsOfChildren : Map Identifier Attributes
synthesized attributes:
directDep : Seq Edge
errors : Seq Error
gathAltAttrs : [AltAttr]
gathRules : Seq CRule
instDep : Seq Edge
instVars : [Identifier]
locVars : [Identifier]
nAutoRules : Int
nExplicitRules : Int
alternatives:
alternative Rule:
child mbName : {Maybe Identifier}
child pattern : Pattern
child rhs : Expression
child owrt : {Bool}
child origin : {String}
child explicit : {Bool}
visit 0:
local defines : _
local gathRules : _
local instDep1 : _
local instDep2 : _
-}
-- cata
sem_Rule :: Rule ->
T_Rule
sem_Rule (Rule _mbName _pattern _rhs _owrt _origin _explicit ) =
(sem_Rule_Rule _mbName (sem_Pattern _pattern ) (sem_Expression _rhs ) _owrt _origin _explicit )
-- semantic domain
newtype T_Rule = T_Rule ((Map Identifier Type) ->
([(Identifier,Type,Maybe (Maybe Type))]) ->
([Identifier]) ->
(Map AltAttr Vertex) ->
([(Identifier,Identifier)]) ->
(Map Identifier Attributes) ->
(Map Identifier NontermIdent) ->
Identifier ->
Attributes ->
(Map Identifier Attributes) ->
(Map Identifier (Identifier,[Identifier])) ->
Identifier ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Attributes ->
(Map Identifier Attributes) ->
( (Seq Edge),(Seq Error),([AltAttr]),(Seq CRule),(Seq Edge),([Identifier]),([Identifier]),Int,Int))
data Inh_Rule = Inh_Rule {allTypeSigs_Inh_Rule :: !((Map Identifier Type)),allfields_Inh_Rule :: !(([(Identifier,Type,Maybe (Maybe Type))])),allnts_Inh_Rule :: !(([Identifier])),altAttrs_Inh_Rule :: !((Map AltAttr Vertex)),attrs_Inh_Rule :: !(([(Identifier,Identifier)])),childInhs_Inh_Rule :: !((Map Identifier Attributes)),childNts_Inh_Rule :: !((Map Identifier NontermIdent)),con_Inh_Rule :: !(Identifier),inh_Inh_Rule :: !(Attributes),inhsOfChildren_Inh_Rule :: !((Map Identifier Attributes)),mergeMap_Inh_Rule :: !((Map Identifier (Identifier,[Identifier]))),nt_Inh_Rule :: !(Identifier),o_case_Inh_Rule :: !(Bool),o_cata_Inh_Rule :: !(Bool),o_dovisit_Inh_Rule :: !(Bool),o_newtypes_Inh_Rule :: !(Bool),o_rename_Inh_Rule :: !(Bool),o_sem_Inh_Rule :: !(Bool),o_sig_Inh_Rule :: !(Bool),o_wantvisit_Inh_Rule :: !(Bool),prefix_Inh_Rule :: !(String),syn_Inh_Rule :: !(Attributes),synsOfChildren_Inh_Rule :: !((Map Identifier Attributes))}
data Syn_Rule = Syn_Rule {directDep_Syn_Rule :: !((Seq Edge)),errors_Syn_Rule :: !((Seq Error)),gathAltAttrs_Syn_Rule :: !(([AltAttr])),gathRules_Syn_Rule :: !((Seq CRule)),instDep_Syn_Rule :: !((Seq Edge)),instVars_Syn_Rule :: !(([Identifier])),locVars_Syn_Rule :: !(([Identifier])),nAutoRules_Syn_Rule :: !(Int),nExplicitRules_Syn_Rule :: !(Int)}
wrap_Rule :: T_Rule ->
Inh_Rule ->
Syn_Rule
wrap_Rule (T_Rule sem ) (Inh_Rule _lhsIallTypeSigs _lhsIallfields _lhsIallnts _lhsIaltAttrs _lhsIattrs _lhsIchildInhs _lhsIchildNts _lhsIcon _lhsIinh _lhsIinhsOfChildren _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIsynsOfChildren ) =
(let ( _lhsOdirectDep,_lhsOerrors,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinstDep,_lhsOinstVars,_lhsOlocVars,_lhsOnAutoRules,_lhsOnExplicitRules) =
(sem _lhsIallTypeSigs _lhsIallfields _lhsIallnts _lhsIaltAttrs _lhsIattrs _lhsIchildInhs _lhsIchildNts _lhsIcon _lhsIinh _lhsIinhsOfChildren _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIsynsOfChildren )
in (Syn_Rule _lhsOdirectDep _lhsOerrors _lhsOgathAltAttrs _lhsOgathRules _lhsOinstDep _lhsOinstVars _lhsOlocVars _lhsOnAutoRules _lhsOnExplicitRules ))
sem_Rule_Rule :: (Maybe Identifier) ->
T_Pattern ->
T_Expression ->
Bool ->
String ->
Bool ->
T_Rule
sem_Rule_Rule mbName_ (T_Pattern pattern_ ) (T_Expression rhs_ ) owrt_ origin_ explicit_ =
(T_Rule (\ _lhsIallTypeSigs
_lhsIallfields
_lhsIallnts
_lhsIaltAttrs
_lhsIattrs
_lhsIchildInhs
_lhsIchildNts
_lhsIcon
_lhsIinh
_lhsIinhsOfChildren
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIsynsOfChildren ->
(let _lhsOnExplicitRules :: Int
_lhsOnAutoRules :: Int
_lhsOdirectDep :: (Seq Edge)
_lhsOinstDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOgathRules :: (Seq CRule)
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_patternOallTypeSigs :: (Map Identifier Type)
_patternOaltAttrs :: (Map AltAttr Vertex)
_patternOcon :: Identifier
_patternOinh :: Attributes
_patternOnt :: Identifier
_patternOsyn :: Attributes
_rhsOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_rhsOallnts :: ([Identifier])
_rhsOattrs :: ([(Identifier,Identifier)])
_rhsOcon :: Identifier
_rhsOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_rhsOnt :: Identifier
_patternIcopy :: Pattern
_patternIerrors :: (Seq Error)
_patternIgathAltAttrs :: ([AltAttr])
_patternIinstVars :: ([Identifier])
_patternIlocVars :: ([Identifier])
_patternIpatternAttrs :: ([(Identifier,Identifier,Bool,Patterns)])
_rhsIallRhsVars :: (Set (Identifier,Identifier))
_rhsIcopy :: Expression
_rhsIerrors :: (Seq Error)
_rhsItextLines :: ([String])
_rhsIusedAttrs :: ([(Identifier,Identifier)])
_rhsIusedFields :: ([Identifier])
_rhsIusedLocals :: ([Identifier])
-- "Order.ag"(line 64, column 11)
_lhsOnExplicitRules =
({-# LINE 64 "Order.ag" #-}
if explicit_
then 1
else 0
{-# LINE 4213 "Order.hs" #-})
-- "Order.ag"(line 67, column 11)
_lhsOnAutoRules =
({-# LINE 67 "Order.ag" #-}
if startsWith "use rule" origin_ || startsWith "copy rule" origin_
then 1
else 0
{-# LINE 4220 "Order.hs" #-})
-- "Order.ag"(line 217, column 12)
_defines =
({-# LINE 217 "Order.ag" #-}
let tp field attr parts | field == _LOC || field == _INST
= case parts of
[] -> Map.lookup attr _lhsIallTypeSigs
_ -> (sequence (map typ parts)) >>= (haskellTupel . map (substSelf _lhsInt))
| field == _LHS = Map.lookup attr _lhsIsyn
| otherwise = Map.lookup attr (findWithErr1 "Rule.defines.tp" field _lhsIchildInhs)
typ :: Pattern -> Maybe Type
typ (Alias field attr _ parts) = tp field attr parts
typ (Underscore _) = Nothing
typ (Product _ pats) = tp _LOC undefined pats
typ _ = Nothing
in Map.fromList [ (findWithErr1 "Rule.defines" aa _lhsIaltAttrs, (field,attr,(tp field attr parts)))
| (field,attr,isLocalOrInst,parts) <- _patternIpatternAttrs
, let aa = AltAttr field attr isLocalOrInst
]
{-# LINE 4239 "Order.hs" #-})
-- "Order.ag"(line 233, column 12)
_gathRules =
({-# LINE 233 "Order.ag" #-}
let childnt field = Map.lookup field _lhsIchildNts
in Seq.fromList [ CRule attr False True _lhsInt _lhsIcon field (childnt field) tp _patternIcopy _rhsItextLines _defines owrt_ origin_ _rhsIallRhsVars explicit_ mbName_
| (field,attr,tp) <- Map.elems _defines
]
{-# LINE 4247 "Order.hs" #-})
-- "Order.ag"(line 271, column 12)
_lhsOdirectDep =
({-# LINE 271 "Order.ag" #-}
let defined = Map.keys _defines
used = [ Map.lookup (AltAttr field attr True) _lhsIaltAttrs | (field,attr) <- _rhsIusedAttrs]
++ [ Map.lookup (AltAttr _LOC attr True) _lhsIaltAttrs | attr <- _rhsIusedLocals ++ _rhsIusedFields ]
in Seq.fromList [ (x,y) | Just x <- used, y <- defined ]
{-# LINE 4255 "Order.hs" #-})
-- "Order.ag"(line 315, column 6)
_instDep1 =
({-# LINE 315 "Order.ag" #-}
Seq.fromList $
[ (instVert, synVert)
| (field,instNm,_) <- Map.elems _defines
, field == _INST
, synNm <- Map.keys (findWithErr2 instNm _lhsIsynsOfChildren)
, let instAttr = AltAttr _INST instNm True
synAttr = AltAttr instNm synNm True
instVert = findWithErr2 instAttr _lhsIaltAttrs
synVert = findWithErr2 synAttr _lhsIaltAttrs
]
{-# LINE 4269 "Order.hs" #-})
-- "Order.ag"(line 326, column 6)
_instDep2 =
({-# LINE 326 "Order.ag" #-}
Seq.fromList $
[ (instVert, inhVert)
| (field,instNm,_) <- Map.elems _defines
, field == _INST
, inhNm <- Map.keys (findWithErr2 instNm _lhsIinhsOfChildren)
, let instAttr = AltAttr _INST instNm True
inhAttr = AltAttr instNm inhNm False
instVert = findWithErr2 instAttr _lhsIaltAttrs
inhVert = findWithErr2 inhAttr _lhsIaltAttrs
]
{-# LINE 4283 "Order.hs" #-})
-- "Order.ag"(line 337, column 6)
_lhsOinstDep =
({-# LINE 337 "Order.ag" #-}
_instDep1 Seq.>< _instDep2
{-# LINE 4288 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_patternIerrors Seq.>< _rhsIerrors
{-# LINE 4293 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_patternIgathAltAttrs
{-# LINE 4298 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
_gathRules
{-# LINE 4303 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_patternIinstVars
{-# LINE 4308 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_patternIlocVars
{-# LINE 4313 "Order.hs" #-})
-- copy rule (down)
_patternOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 4318 "Order.hs" #-})
-- copy rule (down)
_patternOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 4323 "Order.hs" #-})
-- copy rule (down)
_patternOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 4328 "Order.hs" #-})
-- copy rule (down)
_patternOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 4333 "Order.hs" #-})
-- copy rule (down)
_patternOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 4338 "Order.hs" #-})
-- copy rule (down)
_patternOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 4343 "Order.hs" #-})
-- copy rule (down)
_rhsOallfields =
({-# LINE 448 "Order.ag" #-}
_lhsIallfields
{-# LINE 4348 "Order.hs" #-})
-- copy rule (down)
_rhsOallnts =
({-# LINE 449 "Order.ag" #-}
_lhsIallnts
{-# LINE 4353 "Order.hs" #-})
-- copy rule (down)
_rhsOattrs =
({-# LINE 450 "Order.ag" #-}
_lhsIattrs
{-# LINE 4358 "Order.hs" #-})
-- copy rule (down)
_rhsOcon =
({-# LINE 447 "Order.ag" #-}
_lhsIcon
{-# LINE 4363 "Order.hs" #-})
-- copy rule (down)
_rhsOmergeMap =
({-# LINE 362 "Order.ag" #-}
_lhsImergeMap
{-# LINE 4368 "Order.hs" #-})
-- copy rule (down)
_rhsOnt =
({-# LINE 447 "Order.ag" #-}
_lhsInt
{-# LINE 4373 "Order.hs" #-})
( _patternIcopy,_patternIerrors,_patternIgathAltAttrs,_patternIinstVars,_patternIlocVars,_patternIpatternAttrs) =
(pattern_ _patternOallTypeSigs _patternOaltAttrs _patternOcon _patternOinh _patternOnt _patternOsyn )
( _rhsIallRhsVars,_rhsIcopy,_rhsIerrors,_rhsItextLines,_rhsIusedAttrs,_rhsIusedFields,_rhsIusedLocals) =
(rhs_ _rhsOallfields _rhsOallnts _rhsOattrs _rhsOcon _rhsOmergeMap _rhsOnt )
in ( _lhsOdirectDep,_lhsOerrors,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinstDep,_lhsOinstVars,_lhsOlocVars,_lhsOnAutoRules,_lhsOnExplicitRules))) )
-- Rules -------------------------------------------------------
{-
visit 0:
inherited attributes:
allTypeSigs : Map Identifier Type
allfields : [(Identifier,Type,Maybe (Maybe Type))]
allnts : [Identifier]
altAttrs : Map AltAttr Vertex
attrs : [(Identifier,Identifier)]
childInhs : Map Identifier Attributes
childNts : Map Identifier NontermIdent
con : Identifier
inh : Attributes
inhsOfChildren : Map Identifier Attributes
mergeMap : Map Identifier (Identifier,[Identifier])
nt : Identifier
o_case : Bool
o_cata : Bool
o_dovisit : Bool
o_newtypes : Bool
o_rename : Bool
o_sem : Bool
o_sig : Bool
o_wantvisit : Bool
prefix : String
syn : Attributes
synsOfChildren : Map Identifier Attributes
synthesized attributes:
directDep : Seq Edge
errors : Seq Error
gathAltAttrs : [AltAttr]
gathRules : Seq CRule
instDep : Seq Edge
instVars : [Identifier]
locVars : [Identifier]
nAutoRules : Int
nExplicitRules : Int
alternatives:
alternative Cons:
child hd : Rule
child tl : Rules
alternative Nil:
-}
-- cata
sem_Rules :: Rules ->
T_Rules
sem_Rules list =
(Prelude.foldr sem_Rules_Cons sem_Rules_Nil (Prelude.map sem_Rule list) )
-- semantic domain
newtype T_Rules = T_Rules ((Map Identifier Type) ->
([(Identifier,Type,Maybe (Maybe Type))]) ->
([Identifier]) ->
(Map AltAttr Vertex) ->
([(Identifier,Identifier)]) ->
(Map Identifier Attributes) ->
(Map Identifier NontermIdent) ->
Identifier ->
Attributes ->
(Map Identifier Attributes) ->
(Map Identifier (Identifier,[Identifier])) ->
Identifier ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
Bool ->
String ->
Attributes ->
(Map Identifier Attributes) ->
( (Seq Edge),(Seq Error),([AltAttr]),(Seq CRule),(Seq Edge),([Identifier]),([Identifier]),Int,Int))
data Inh_Rules = Inh_Rules {allTypeSigs_Inh_Rules :: !((Map Identifier Type)),allfields_Inh_Rules :: !(([(Identifier,Type,Maybe (Maybe Type))])),allnts_Inh_Rules :: !(([Identifier])),altAttrs_Inh_Rules :: !((Map AltAttr Vertex)),attrs_Inh_Rules :: !(([(Identifier,Identifier)])),childInhs_Inh_Rules :: !((Map Identifier Attributes)),childNts_Inh_Rules :: !((Map Identifier NontermIdent)),con_Inh_Rules :: !(Identifier),inh_Inh_Rules :: !(Attributes),inhsOfChildren_Inh_Rules :: !((Map Identifier Attributes)),mergeMap_Inh_Rules :: !((Map Identifier (Identifier,[Identifier]))),nt_Inh_Rules :: !(Identifier),o_case_Inh_Rules :: !(Bool),o_cata_Inh_Rules :: !(Bool),o_dovisit_Inh_Rules :: !(Bool),o_newtypes_Inh_Rules :: !(Bool),o_rename_Inh_Rules :: !(Bool),o_sem_Inh_Rules :: !(Bool),o_sig_Inh_Rules :: !(Bool),o_wantvisit_Inh_Rules :: !(Bool),prefix_Inh_Rules :: !(String),syn_Inh_Rules :: !(Attributes),synsOfChildren_Inh_Rules :: !((Map Identifier Attributes))}
data Syn_Rules = Syn_Rules {directDep_Syn_Rules :: !((Seq Edge)),errors_Syn_Rules :: !((Seq Error)),gathAltAttrs_Syn_Rules :: !(([AltAttr])),gathRules_Syn_Rules :: !((Seq CRule)),instDep_Syn_Rules :: !((Seq Edge)),instVars_Syn_Rules :: !(([Identifier])),locVars_Syn_Rules :: !(([Identifier])),nAutoRules_Syn_Rules :: !(Int),nExplicitRules_Syn_Rules :: !(Int)}
wrap_Rules :: T_Rules ->
Inh_Rules ->
Syn_Rules
wrap_Rules (T_Rules sem ) (Inh_Rules _lhsIallTypeSigs _lhsIallfields _lhsIallnts _lhsIaltAttrs _lhsIattrs _lhsIchildInhs _lhsIchildNts _lhsIcon _lhsIinh _lhsIinhsOfChildren _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIsynsOfChildren ) =
(let ( _lhsOdirectDep,_lhsOerrors,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinstDep,_lhsOinstVars,_lhsOlocVars,_lhsOnAutoRules,_lhsOnExplicitRules) =
(sem _lhsIallTypeSigs _lhsIallfields _lhsIallnts _lhsIaltAttrs _lhsIattrs _lhsIchildInhs _lhsIchildNts _lhsIcon _lhsIinh _lhsIinhsOfChildren _lhsImergeMap _lhsInt _lhsIo_case _lhsIo_cata _lhsIo_dovisit _lhsIo_newtypes _lhsIo_rename _lhsIo_sem _lhsIo_sig _lhsIo_wantvisit _lhsIprefix _lhsIsyn _lhsIsynsOfChildren )
in (Syn_Rules _lhsOdirectDep _lhsOerrors _lhsOgathAltAttrs _lhsOgathRules _lhsOinstDep _lhsOinstVars _lhsOlocVars _lhsOnAutoRules _lhsOnExplicitRules ))
sem_Rules_Cons :: T_Rule ->
T_Rules ->
T_Rules
sem_Rules_Cons (T_Rule hd_ ) (T_Rules tl_ ) =
(T_Rules (\ _lhsIallTypeSigs
_lhsIallfields
_lhsIallnts
_lhsIaltAttrs
_lhsIattrs
_lhsIchildInhs
_lhsIchildNts
_lhsIcon
_lhsIinh
_lhsIinhsOfChildren
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIsynsOfChildren ->
(let _lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOgathRules :: (Seq CRule)
_lhsOinstDep :: (Seq Edge)
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
_hdOallTypeSigs :: (Map Identifier Type)
_hdOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_hdOallnts :: ([Identifier])
_hdOaltAttrs :: (Map AltAttr Vertex)
_hdOattrs :: ([(Identifier,Identifier)])
_hdOchildInhs :: (Map Identifier Attributes)
_hdOchildNts :: (Map Identifier NontermIdent)
_hdOcon :: Identifier
_hdOinh :: Attributes
_hdOinhsOfChildren :: (Map Identifier Attributes)
_hdOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_hdOnt :: Identifier
_hdOo_case :: Bool
_hdOo_cata :: Bool
_hdOo_dovisit :: Bool
_hdOo_newtypes :: Bool
_hdOo_rename :: Bool
_hdOo_sem :: Bool
_hdOo_sig :: Bool
_hdOo_wantvisit :: Bool
_hdOprefix :: String
_hdOsyn :: Attributes
_hdOsynsOfChildren :: (Map Identifier Attributes)
_tlOallTypeSigs :: (Map Identifier Type)
_tlOallfields :: ([(Identifier,Type,Maybe (Maybe Type))])
_tlOallnts :: ([Identifier])
_tlOaltAttrs :: (Map AltAttr Vertex)
_tlOattrs :: ([(Identifier,Identifier)])
_tlOchildInhs :: (Map Identifier Attributes)
_tlOchildNts :: (Map Identifier NontermIdent)
_tlOcon :: Identifier
_tlOinh :: Attributes
_tlOinhsOfChildren :: (Map Identifier Attributes)
_tlOmergeMap :: (Map Identifier (Identifier,[Identifier]))
_tlOnt :: Identifier
_tlOo_case :: Bool
_tlOo_cata :: Bool
_tlOo_dovisit :: Bool
_tlOo_newtypes :: Bool
_tlOo_rename :: Bool
_tlOo_sem :: Bool
_tlOo_sig :: Bool
_tlOo_wantvisit :: Bool
_tlOprefix :: String
_tlOsyn :: Attributes
_tlOsynsOfChildren :: (Map Identifier Attributes)
_hdIdirectDep :: (Seq Edge)
_hdIerrors :: (Seq Error)
_hdIgathAltAttrs :: ([AltAttr])
_hdIgathRules :: (Seq CRule)
_hdIinstDep :: (Seq Edge)
_hdIinstVars :: ([Identifier])
_hdIlocVars :: ([Identifier])
_hdInAutoRules :: Int
_hdInExplicitRules :: Int
_tlIdirectDep :: (Seq Edge)
_tlIerrors :: (Seq Error)
_tlIgathAltAttrs :: ([AltAttr])
_tlIgathRules :: (Seq CRule)
_tlIinstDep :: (Seq Edge)
_tlIinstVars :: ([Identifier])
_tlIlocVars :: ([Identifier])
_tlInAutoRules :: Int
_tlInExplicitRules :: Int
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
_hdIdirectDep Seq.>< _tlIdirectDep
{-# LINE 4565 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
_hdIerrors Seq.>< _tlIerrors
{-# LINE 4570 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
_hdIgathAltAttrs ++ _tlIgathAltAttrs
{-# LINE 4575 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
_hdIgathRules Seq.>< _tlIgathRules
{-# LINE 4580 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
_hdIinstDep Seq.>< _tlIinstDep
{-# LINE 4585 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
_hdIinstVars ++ _tlIinstVars
{-# LINE 4590 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
_hdIlocVars ++ _tlIlocVars
{-# LINE 4595 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
_hdInAutoRules + _tlInAutoRules
{-# LINE 4600 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
_hdInExplicitRules + _tlInExplicitRules
{-# LINE 4605 "Order.hs" #-})
-- copy rule (down)
_hdOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 4610 "Order.hs" #-})
-- copy rule (down)
_hdOallfields =
({-# LINE 654 "Order.ag" #-}
_lhsIallfields
{-# LINE 4615 "Order.hs" #-})
-- copy rule (down)
_hdOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 4620 "Order.hs" #-})
-- copy rule (down)
_hdOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 4625 "Order.hs" #-})
-- copy rule (down)
_hdOattrs =
({-# LINE 654 "Order.ag" #-}
_lhsIattrs
{-# LINE 4630 "Order.hs" #-})
-- copy rule (down)
_hdOchildInhs =
({-# LINE 199 "Order.ag" #-}
_lhsIchildInhs
{-# LINE 4635 "Order.hs" #-})
-- copy rule (down)
_hdOchildNts =
({-# LINE 198 "Order.ag" #-}
_lhsIchildNts
{-# LINE 4640 "Order.hs" #-})
-- copy rule (down)
_hdOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 4645 "Order.hs" #-})
-- copy rule (down)
_hdOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 4650 "Order.hs" #-})
-- copy rule (down)
_hdOinhsOfChildren =
({-# LINE 339 "Order.ag" #-}
_lhsIinhsOfChildren
{-# LINE 4655 "Order.hs" #-})
-- copy rule (down)
_hdOmergeMap =
({-# LINE 362 "Order.ag" #-}
_lhsImergeMap
{-# LINE 4660 "Order.hs" #-})
-- copy rule (down)
_hdOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 4665 "Order.hs" #-})
-- copy rule (down)
_hdOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 4670 "Order.hs" #-})
-- copy rule (down)
_hdOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 4675 "Order.hs" #-})
-- copy rule (down)
_hdOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 4680 "Order.hs" #-})
-- copy rule (down)
_hdOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 4685 "Order.hs" #-})
-- copy rule (down)
_hdOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 4690 "Order.hs" #-})
-- copy rule (down)
_hdOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 4695 "Order.hs" #-})
-- copy rule (down)
_hdOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 4700 "Order.hs" #-})
-- copy rule (down)
_hdOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 4705 "Order.hs" #-})
-- copy rule (down)
_hdOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 4710 "Order.hs" #-})
-- copy rule (down)
_hdOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 4715 "Order.hs" #-})
-- copy rule (down)
_hdOsynsOfChildren =
({-# LINE 339 "Order.ag" #-}
_lhsIsynsOfChildren
{-# LINE 4720 "Order.hs" #-})
-- copy rule (down)
_tlOallTypeSigs =
({-# LINE 533 "Order.ag" #-}
_lhsIallTypeSigs
{-# LINE 4725 "Order.hs" #-})
-- copy rule (down)
_tlOallfields =
({-# LINE 654 "Order.ag" #-}
_lhsIallfields
{-# LINE 4730 "Order.hs" #-})
-- copy rule (down)
_tlOallnts =
({-# LINE 647 "Order.ag" #-}
_lhsIallnts
{-# LINE 4735 "Order.hs" #-})
-- copy rule (down)
_tlOaltAttrs =
({-# LINE 186 "Order.ag" #-}
_lhsIaltAttrs
{-# LINE 4740 "Order.hs" #-})
-- copy rule (down)
_tlOattrs =
({-# LINE 654 "Order.ag" #-}
_lhsIattrs
{-# LINE 4745 "Order.hs" #-})
-- copy rule (down)
_tlOchildInhs =
({-# LINE 199 "Order.ag" #-}
_lhsIchildInhs
{-# LINE 4750 "Order.hs" #-})
-- copy rule (down)
_tlOchildNts =
({-# LINE 198 "Order.ag" #-}
_lhsIchildNts
{-# LINE 4755 "Order.hs" #-})
-- copy rule (down)
_tlOcon =
({-# LINE 90 "Order.ag" #-}
_lhsIcon
{-# LINE 4760 "Order.hs" #-})
-- copy rule (down)
_tlOinh =
({-# LINE 89 "Order.ag" #-}
_lhsIinh
{-# LINE 4765 "Order.hs" #-})
-- copy rule (down)
_tlOinhsOfChildren =
({-# LINE 339 "Order.ag" #-}
_lhsIinhsOfChildren
{-# LINE 4770 "Order.hs" #-})
-- copy rule (down)
_tlOmergeMap =
({-# LINE 362 "Order.ag" #-}
_lhsImergeMap
{-# LINE 4775 "Order.hs" #-})
-- copy rule (down)
_tlOnt =
({-# LINE 89 "Order.ag" #-}
_lhsInt
{-# LINE 4780 "Order.hs" #-})
-- copy rule (down)
_tlOo_case =
({-# LINE 117 "Order.ag" #-}
_lhsIo_case
{-# LINE 4785 "Order.hs" #-})
-- copy rule (down)
_tlOo_cata =
({-# LINE 111 "Order.ag" #-}
_lhsIo_cata
{-# LINE 4790 "Order.hs" #-})
-- copy rule (down)
_tlOo_dovisit =
({-# LINE 116 "Order.ag" #-}
_lhsIo_dovisit
{-# LINE 4795 "Order.hs" #-})
-- copy rule (down)
_tlOo_newtypes =
({-# LINE 110 "Order.ag" #-}
_lhsIo_newtypes
{-# LINE 4800 "Order.hs" #-})
-- copy rule (down)
_tlOo_rename =
({-# LINE 114 "Order.ag" #-}
_lhsIo_rename
{-# LINE 4805 "Order.hs" #-})
-- copy rule (down)
_tlOo_sem =
({-# LINE 113 "Order.ag" #-}
_lhsIo_sem
{-# LINE 4810 "Order.hs" #-})
-- copy rule (down)
_tlOo_sig =
({-# LINE 112 "Order.ag" #-}
_lhsIo_sig
{-# LINE 4815 "Order.hs" #-})
-- copy rule (down)
_tlOo_wantvisit =
({-# LINE 115 "Order.ag" #-}
_lhsIo_wantvisit
{-# LINE 4820 "Order.hs" #-})
-- copy rule (down)
_tlOprefix =
({-# LINE 118 "Order.ag" #-}
_lhsIprefix
{-# LINE 4825 "Order.hs" #-})
-- copy rule (down)
_tlOsyn =
({-# LINE 89 "Order.ag" #-}
_lhsIsyn
{-# LINE 4830 "Order.hs" #-})
-- copy rule (down)
_tlOsynsOfChildren =
({-# LINE 339 "Order.ag" #-}
_lhsIsynsOfChildren
{-# LINE 4835 "Order.hs" #-})
( _hdIdirectDep,_hdIerrors,_hdIgathAltAttrs,_hdIgathRules,_hdIinstDep,_hdIinstVars,_hdIlocVars,_hdInAutoRules,_hdInExplicitRules) =
(hd_ _hdOallTypeSigs _hdOallfields _hdOallnts _hdOaltAttrs _hdOattrs _hdOchildInhs _hdOchildNts _hdOcon _hdOinh _hdOinhsOfChildren _hdOmergeMap _hdOnt _hdOo_case _hdOo_cata _hdOo_dovisit _hdOo_newtypes _hdOo_rename _hdOo_sem _hdOo_sig _hdOo_wantvisit _hdOprefix _hdOsyn _hdOsynsOfChildren )
( _tlIdirectDep,_tlIerrors,_tlIgathAltAttrs,_tlIgathRules,_tlIinstDep,_tlIinstVars,_tlIlocVars,_tlInAutoRules,_tlInExplicitRules) =
(tl_ _tlOallTypeSigs _tlOallfields _tlOallnts _tlOaltAttrs _tlOattrs _tlOchildInhs _tlOchildNts _tlOcon _tlOinh _tlOinhsOfChildren _tlOmergeMap _tlOnt _tlOo_case _tlOo_cata _tlOo_dovisit _tlOo_newtypes _tlOo_rename _tlOo_sem _tlOo_sig _tlOo_wantvisit _tlOprefix _tlOsyn _tlOsynsOfChildren )
in ( _lhsOdirectDep,_lhsOerrors,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinstDep,_lhsOinstVars,_lhsOlocVars,_lhsOnAutoRules,_lhsOnExplicitRules))) )
sem_Rules_Nil :: T_Rules
sem_Rules_Nil =
(T_Rules (\ _lhsIallTypeSigs
_lhsIallfields
_lhsIallnts
_lhsIaltAttrs
_lhsIattrs
_lhsIchildInhs
_lhsIchildNts
_lhsIcon
_lhsIinh
_lhsIinhsOfChildren
_lhsImergeMap
_lhsInt
_lhsIo_case
_lhsIo_cata
_lhsIo_dovisit
_lhsIo_newtypes
_lhsIo_rename
_lhsIo_sem
_lhsIo_sig
_lhsIo_wantvisit
_lhsIprefix
_lhsIsyn
_lhsIsynsOfChildren ->
(let _lhsOdirectDep :: (Seq Edge)
_lhsOerrors :: (Seq Error)
_lhsOgathAltAttrs :: ([AltAttr])
_lhsOgathRules :: (Seq CRule)
_lhsOinstDep :: (Seq Edge)
_lhsOinstVars :: ([Identifier])
_lhsOlocVars :: ([Identifier])
_lhsOnAutoRules :: Int
_lhsOnExplicitRules :: Int
-- use rule "Order.ag"(line 269, column 33)
_lhsOdirectDep =
({-# LINE 269 "Order.ag" #-}
Seq.empty
{-# LINE 4879 "Order.hs" #-})
-- use rule "Order.ag"(line 84, column 70)
_lhsOerrors =
({-# LINE 84 "Order.ag" #-}
Seq.empty
{-# LINE 4884 "Order.hs" #-})
-- use rule "Order.ag"(line 170, column 68)
_lhsOgathAltAttrs =
({-# LINE 170 "Order.ag" #-}
[]
{-# LINE 4889 "Order.hs" #-})
-- use rule "Order.ag"(line 206, column 23)
_lhsOgathRules =
({-# LINE 206 "Order.ag" #-}
Seq.empty
{-# LINE 4894 "Order.hs" #-})
-- use rule "Order.ag"(line 312, column 31)
_lhsOinstDep =
({-# LINE 312 "Order.ag" #-}
Seq.empty
{-# LINE 4899 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 86)
_lhsOinstVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 4904 "Order.hs" #-})
-- use rule "Order.ag"(line 677, column 48)
_lhsOlocVars =
({-# LINE 677 "Order.ag" #-}
[]
{-# LINE 4909 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnAutoRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 4914 "Order.hs" #-})
-- use rule "Order.ag"(line 61, column 105)
_lhsOnExplicitRules =
({-# LINE 61 "Order.ag" #-}
0
{-# LINE 4919 "Order.hs" #-})
in ( _lhsOdirectDep,_lhsOerrors,_lhsOgathAltAttrs,_lhsOgathRules,_lhsOinstDep,_lhsOinstVars,_lhsOlocVars,_lhsOnAutoRules,_lhsOnExplicitRules))) )
-- TypeSig -----------------------------------------------------
{-
visit 0:
chained attribute:
typeSigs : Map Identifier Type
alternatives:
alternative TypeSig:
child name : {Identifier}
child tp : {Type}
-}
-- cata
sem_TypeSig :: TypeSig ->
T_TypeSig
sem_TypeSig (TypeSig _name _tp ) =
(sem_TypeSig_TypeSig _name _tp )
-- semantic domain
newtype T_TypeSig = T_TypeSig ((Map Identifier Type) ->
( (Map Identifier Type)))
data Inh_TypeSig = Inh_TypeSig {typeSigs_Inh_TypeSig :: !((Map Identifier Type))}
data Syn_TypeSig = Syn_TypeSig {typeSigs_Syn_TypeSig :: !((Map Identifier Type))}
wrap_TypeSig :: T_TypeSig ->
Inh_TypeSig ->
Syn_TypeSig
wrap_TypeSig (T_TypeSig sem ) (Inh_TypeSig _lhsItypeSigs ) =
(let ( _lhsOtypeSigs) =
(sem _lhsItypeSigs )
in (Syn_TypeSig _lhsOtypeSigs ))
sem_TypeSig_TypeSig :: Identifier ->
Type ->
T_TypeSig
sem_TypeSig_TypeSig name_ tp_ =
(T_TypeSig (\ _lhsItypeSigs ->
(let _lhsOtypeSigs :: (Map Identifier Type)
-- "Order.ag"(line 531, column 13)
_lhsOtypeSigs =
({-# LINE 531 "Order.ag" #-}
Map.insert name_ tp_ _lhsItypeSigs
{-# LINE 4958 "Order.hs" #-})
in ( _lhsOtypeSigs))) )
-- TypeSigs ----------------------------------------------------
{-
visit 0:
chained attribute:
typeSigs : Map Identifier Type
alternatives:
alternative Cons:
child hd : TypeSig
child tl : TypeSigs
alternative Nil:
-}
-- cata
sem_TypeSigs :: TypeSigs ->
T_TypeSigs
sem_TypeSigs list =
(Prelude.foldr sem_TypeSigs_Cons sem_TypeSigs_Nil (Prelude.map sem_TypeSig list) )
-- semantic domain
newtype T_TypeSigs = T_TypeSigs ((Map Identifier Type) ->
( (Map Identifier Type)))
data Inh_TypeSigs = Inh_TypeSigs {typeSigs_Inh_TypeSigs :: !((Map Identifier Type))}
data Syn_TypeSigs = Syn_TypeSigs {typeSigs_Syn_TypeSigs :: !((Map Identifier Type))}
wrap_TypeSigs :: T_TypeSigs ->
Inh_TypeSigs ->
Syn_TypeSigs
wrap_TypeSigs (T_TypeSigs sem ) (Inh_TypeSigs _lhsItypeSigs ) =
(let ( _lhsOtypeSigs) =
(sem _lhsItypeSigs )
in (Syn_TypeSigs _lhsOtypeSigs ))
sem_TypeSigs_Cons :: T_TypeSig ->
T_TypeSigs ->
T_TypeSigs
sem_TypeSigs_Cons (T_TypeSig hd_ ) (T_TypeSigs tl_ ) =
(T_TypeSigs (\ _lhsItypeSigs ->
(let _lhsOtypeSigs :: (Map Identifier Type)
_hdOtypeSigs :: (Map Identifier Type)
_tlOtypeSigs :: (Map Identifier Type)
_hdItypeSigs :: (Map Identifier Type)
_tlItypeSigs :: (Map Identifier Type)
-- copy rule (up)
_lhsOtypeSigs =
({-# LINE 527 "Order.ag" #-}
_tlItypeSigs
{-# LINE 5002 "Order.hs" #-})
-- copy rule (down)
_hdOtypeSigs =
({-# LINE 527 "Order.ag" #-}
_lhsItypeSigs
{-# LINE 5007 "Order.hs" #-})
-- copy rule (chain)
_tlOtypeSigs =
({-# LINE 527 "Order.ag" #-}
_hdItypeSigs
{-# LINE 5012 "Order.hs" #-})
( _hdItypeSigs) =
(hd_ _hdOtypeSigs )
( _tlItypeSigs) =
(tl_ _tlOtypeSigs )
in ( _lhsOtypeSigs))) )
sem_TypeSigs_Nil :: T_TypeSigs
sem_TypeSigs_Nil =
(T_TypeSigs (\ _lhsItypeSigs ->
(let _lhsOtypeSigs :: (Map Identifier Type)
-- copy rule (chain)
_lhsOtypeSigs =
({-# LINE 527 "Order.ag" #-}
_lhsItypeSigs
{-# LINE 5026 "Order.hs" #-})
in ( _lhsOtypeSigs))) )