uuagc-0.9.6: src-derived/TfmToVisage.hs
-- UUAGC 0.9.5 (TfmToVisage.ag)
module TfmToVisage where
import AbstractSyntax
import VisagePatterns
import VisageSyntax
-- AbstractSyntax.ag imports
import Data.Set(Set)
import Data.Map(Map)
import Patterns (Pattern(..),Patterns)
import Expression (Expression(..))
import CommonTypes
-- Patterns.ag imports
import UU.Scanner.Position(Pos)
import CommonTypes (ConstructorIdent,Identifier)
import UU.Scanner.Position(Pos)
import HsToken
-- Maps a rule to a pair
-- Later, I expect to map to a list of rules, because we might need to unfold.
-- Checks that a certain alias is in fact a Var in the old representation of the AG system
isVar (Alias _ _ (Underscore _) _) = True
isVar _ = False
type VisageRuleMap = [(String, VisageRule)]
splitVRules :: [VisageRule] -> VisageRuleMap
splitVRules vrs = concat (map unfoldvrs vrs)
unfoldvrs :: VisageRule -> VisageRuleMap
unfoldvrs vr@(VRule attrfields _ _ _ _) = zip (map (getName . fst) attrfields) (map (copyRule vr) attrfields)
copyRule :: VisageRule -> (Identifier,Identifier) -> VisageRule
copyRule (VRule attrfields _ pat expr owrt) (field,attr) = VRule attrfields attr pat expr owrt
getForField :: String -> VisageRuleMap -> [VisageRule]
getForField field xs = map snd (filter ((field ==) . fst) xs)
{-
Delivers a map from fieldname to VisageRule with all references to others underscored.
So, (lhs.x, rt.y, loc.z) = (0,1,2) becomes something like
[("lhs", (lhs.x,_,_) = (0,1,2)
At this point, we do not use this anymore.
allways :: VisageRule -> VisageRuleMap
allways vr@(VRule vrfields _ _ _ _) = zip vrfields (map (underScoreRule vr) (nub vrfields))
splitVRules :: [VisageRule] -> VisageRuleMap
splitVRules vrs = concat (map allways vrs)
underScoreRule :: VisageRule -> String -> VisageRule
underScoreRule (VRule fields pat expr owrt rule) s = VRule fields (underScore s pat) expr owrt rule
underScore :: String -> VisagePattern -> VisagePattern
underScore field (VConstr name pats) = VConstr name (map (underScore field) pats)
underScore field (VProduct pos pats) = VProduct pos (map (underScore field) pats)
underScore field vp@(VVar vfield attr) =
if (field == getName vfield)
then vp
else (VUnderscore (getPos vfield))
-- Should I recurse into the pat of VAlias?
underScore field vp@(VAlias afield attr pat) =
if (field == getName afield)
then vp
else (VUnderscore (getPos afield))
underScore field vp@(VUnderscore pos) = vp
-}
-- Child -------------------------------------------------------
{-
visit 0:
inherited attribute:
rulemap : VisageRuleMap
synthesized attribute:
vchild : VisageChild
alternatives:
alternative Child:
child name : {Identifier}
child tp : {Type}
child inh : {Attributes}
child syn : {Attributes}
child higherOrder : {Bool}
-}
-- cata
sem_Child :: Child ->
T_Child
sem_Child (Child _name _tp _inh _syn _higherOrder) =
(sem_Child_Child _name _tp _inh _syn _higherOrder)
-- semantic domain
newtype T_Child = T_Child (VisageRuleMap ->
( VisageChild))
data Inh_Child = Inh_Child {rulemap_Inh_Child :: VisageRuleMap}
data Syn_Child = Syn_Child {vchild_Syn_Child :: VisageChild}
wrap_Child (T_Child sem) (Inh_Child _lhsIrulemap) =
(let ( _lhsOvchild) =
(sem _lhsIrulemap)
in (Syn_Child _lhsOvchild))
sem_Child_Child :: Identifier ->
Type ->
Attributes ->
Attributes ->
Bool ->
T_Child
sem_Child_Child name_ tp_ inh_ syn_ higherOrder_ =
(T_Child (\ _lhsIrulemap ->
(let _lhsOvchild :: VisageChild
-- "TfmToVisage.ag"(line 111, column 11)
_lhsOvchild =
VChild name_ tp_ inh_ syn_ (getForField (getName name_) _lhsIrulemap)
in ( _lhsOvchild))))
-- Children ----------------------------------------------------
{-
visit 0:
inherited attribute:
rulemap : VisageRuleMap
synthesized attribute:
vchildren : [VisageChild]
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 (VisageRuleMap ->
( ([VisageChild])))
data Inh_Children = Inh_Children {rulemap_Inh_Children :: VisageRuleMap}
data Syn_Children = Syn_Children {vchildren_Syn_Children :: [VisageChild]}
wrap_Children (T_Children sem) (Inh_Children _lhsIrulemap) =
(let ( _lhsOvchildren) =
(sem _lhsIrulemap)
in (Syn_Children _lhsOvchildren))
sem_Children_Cons :: T_Child ->
T_Children ->
T_Children
sem_Children_Cons (T_Child hd_) (T_Children tl_) =
(T_Children (\ _lhsIrulemap ->
(let _lhsOvchildren :: ([VisageChild])
_hdOrulemap :: VisageRuleMap
_tlOrulemap :: VisageRuleMap
_hdIvchild :: VisageChild
_tlIvchildren :: ([VisageChild])
-- "TfmToVisage.ag"(line 107, column 17)
_lhsOvchildren =
_hdIvchild : _tlIvchildren
-- copy rule (down)
_hdOrulemap =
_lhsIrulemap
-- copy rule (down)
_tlOrulemap =
_lhsIrulemap
( _hdIvchild) =
(hd_ _hdOrulemap)
( _tlIvchildren) =
(tl_ _tlOrulemap)
in ( _lhsOvchildren))))
sem_Children_Nil :: T_Children
sem_Children_Nil =
(T_Children (\ _lhsIrulemap ->
(let _lhsOvchildren :: ([VisageChild])
-- "TfmToVisage.ag"(line 108, column 17)
_lhsOvchildren =
[]
in ( _lhsOvchildren))))
-- Expression --------------------------------------------------
{-
visit 0:
synthesized attribute:
self : SELF
alternatives:
alternative Expression:
child pos : {Pos}
child tks : {[HsToken]}
visit 0:
local self : _
-}
-- cata
sem_Expression :: Expression ->
T_Expression
sem_Expression (Expression _pos _tks) =
(sem_Expression_Expression _pos _tks)
-- semantic domain
newtype T_Expression = T_Expression (( Expression))
data Inh_Expression = Inh_Expression {}
data Syn_Expression = Syn_Expression {self_Syn_Expression :: Expression}
wrap_Expression (T_Expression sem) (Inh_Expression ) =
(let ( _lhsOself) =
(sem )
in (Syn_Expression _lhsOself))
sem_Expression_Expression :: Pos ->
([HsToken]) ->
T_Expression
sem_Expression_Expression pos_ tks_ =
(T_Expression (let _lhsOself :: Expression
-- self rule
_self =
Expression pos_ tks_
-- self rule
_lhsOself =
_self
in ( _lhsOself)))
-- Grammar -----------------------------------------------------
{-
visit 0:
synthesized attribute:
visage : VisageGrammar
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}
-}
-- cata
sem_Grammar :: Grammar ->
T_Grammar
sem_Grammar (Grammar _typeSyns _useMap _derivings _wrappers _nonts _pragmas _manualAttrOrderMap _paramMap _contextMap) =
(sem_Grammar_Grammar _typeSyns _useMap _derivings _wrappers (sem_Nonterminals _nonts) _pragmas _manualAttrOrderMap _paramMap _contextMap)
-- semantic domain
newtype T_Grammar = T_Grammar (( VisageGrammar))
data Inh_Grammar = Inh_Grammar {}
data Syn_Grammar = Syn_Grammar {visage_Syn_Grammar :: VisageGrammar}
wrap_Grammar (T_Grammar sem) (Inh_Grammar ) =
(let ( _lhsOvisage) =
(sem )
in (Syn_Grammar _lhsOvisage))
sem_Grammar_Grammar :: TypeSyns ->
UseMap ->
Derivings ->
(Set NontermIdent) ->
T_Nonterminals ->
PragmaMap ->
AttrOrderMap ->
ParamMap ->
ContextMap ->
T_Grammar
sem_Grammar_Grammar typeSyns_ useMap_ derivings_ wrappers_ (T_Nonterminals nonts_) pragmas_ manualAttrOrderMap_ paramMap_ contextMap_ =
(T_Grammar (let _lhsOvisage :: VisageGrammar
_nontsIvnonts :: ([VisageNonterminal])
-- "TfmToVisage.ag"(line 86, column 17)
_lhsOvisage =
VGrammar _nontsIvnonts
( _nontsIvnonts) =
(nonts_ )
in ( _lhsOvisage)))
-- Nonterminal -------------------------------------------------
{-
visit 0:
synthesized attribute:
vnont : VisageNonterminal
alternatives:
alternative Nonterminal:
child nt : {NontermIdent}
child params : {[Identifier]}
child inh : {Attributes}
child syn : {Attributes}
child prods : Productions
-}
-- cata
sem_Nonterminal :: Nonterminal ->
T_Nonterminal
sem_Nonterminal (Nonterminal _nt _params _inh _syn _prods) =
(sem_Nonterminal_Nonterminal _nt _params _inh _syn (sem_Productions _prods))
-- semantic domain
newtype T_Nonterminal = T_Nonterminal (( VisageNonterminal))
data Inh_Nonterminal = Inh_Nonterminal {}
data Syn_Nonterminal = Syn_Nonterminal {vnont_Syn_Nonterminal :: VisageNonterminal}
wrap_Nonterminal (T_Nonterminal sem) (Inh_Nonterminal ) =
(let ( _lhsOvnont) =
(sem )
in (Syn_Nonterminal _lhsOvnont))
sem_Nonterminal_Nonterminal :: NontermIdent ->
([Identifier]) ->
Attributes ->
Attributes ->
T_Productions ->
T_Nonterminal
sem_Nonterminal_Nonterminal nt_ params_ inh_ syn_ (T_Productions prods_) =
(T_Nonterminal (let _lhsOvnont :: VisageNonterminal
_prodsIvprods :: ([VisageProduction])
-- "TfmToVisage.ag"(line 93, column 18)
_lhsOvnont =
VNonterminal nt_ inh_ syn_ _prodsIvprods
( _prodsIvprods) =
(prods_ )
in ( _lhsOvnont)))
-- Nonterminals ------------------------------------------------
{-
visit 0:
synthesized attribute:
vnonts : [VisageNonterminal]
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 (( ([VisageNonterminal])))
data Inh_Nonterminals = Inh_Nonterminals {}
data Syn_Nonterminals = Syn_Nonterminals {vnonts_Syn_Nonterminals :: [VisageNonterminal]}
wrap_Nonterminals (T_Nonterminals sem) (Inh_Nonterminals ) =
(let ( _lhsOvnonts) =
(sem )
in (Syn_Nonterminals _lhsOvnonts))
sem_Nonterminals_Cons :: T_Nonterminal ->
T_Nonterminals ->
T_Nonterminals
sem_Nonterminals_Cons (T_Nonterminal hd_) (T_Nonterminals tl_) =
(T_Nonterminals (let _lhsOvnonts :: ([VisageNonterminal])
_hdIvnont :: VisageNonterminal
_tlIvnonts :: ([VisageNonterminal])
-- "TfmToVisage.ag"(line 89, column 17)
_lhsOvnonts =
_hdIvnont : _tlIvnonts
( _hdIvnont) =
(hd_ )
( _tlIvnonts) =
(tl_ )
in ( _lhsOvnonts)))
sem_Nonterminals_Nil :: T_Nonterminals
sem_Nonterminals_Nil =
(T_Nonterminals (let _lhsOvnonts :: ([VisageNonterminal])
-- "TfmToVisage.ag"(line 90, column 17)
_lhsOvnonts =
[]
in ( _lhsOvnonts)))
-- Pattern -----------------------------------------------------
{-
visit 0:
synthesized attributes:
copy : SELF
fieldattrs : [(Identifier,Identifier)]
self : SELF
vpat : VisagePattern
alternatives:
alternative Alias:
child field : {Identifier}
child attr : {Identifier}
child pat : Pattern
child parts : Patterns
visit 0:
local copy : _
local self : _
alternative Constr:
child name : {ConstructorIdent}
child pats : Patterns
visit 0:
local copy : _
local self : _
alternative Irrefutable:
child pat : Pattern
visit 0:
local copy : _
local self : _
alternative Product:
child pos : {Pos}
child pats : Patterns
visit 0:
local copy : _
local self : _
alternative Underscore:
child pos : {Pos}
visit 0:
local copy : _
local self : _
-}
-- cata
sem_Pattern :: Pattern ->
T_Pattern
sem_Pattern (Alias _field _attr _pat _parts) =
(sem_Pattern_Alias _field _attr (sem_Pattern _pat) (sem_Patterns _parts))
sem_Pattern (Constr _name _pats) =
(sem_Pattern_Constr _name (sem_Patterns _pats))
sem_Pattern (Irrefutable _pat) =
(sem_Pattern_Irrefutable (sem_Pattern _pat))
sem_Pattern (Product _pos _pats) =
(sem_Pattern_Product _pos (sem_Patterns _pats))
sem_Pattern (Underscore _pos) =
(sem_Pattern_Underscore _pos)
-- semantic domain
newtype T_Pattern = T_Pattern (( Pattern,( [(Identifier,Identifier)] ),Pattern,VisagePattern))
data Inh_Pattern = Inh_Pattern {}
data Syn_Pattern = Syn_Pattern {copy_Syn_Pattern :: Pattern,fieldattrs_Syn_Pattern :: [(Identifier,Identifier)] ,self_Syn_Pattern :: Pattern,vpat_Syn_Pattern :: VisagePattern}
wrap_Pattern (T_Pattern sem) (Inh_Pattern ) =
(let ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat) =
(sem )
in (Syn_Pattern _lhsOcopy _lhsOfieldattrs _lhsOself _lhsOvpat))
sem_Pattern_Alias :: Identifier ->
Identifier ->
T_Pattern ->
T_Patterns ->
T_Pattern
sem_Pattern_Alias field_ attr_ (T_Pattern pat_) (T_Patterns parts_) =
(T_Pattern (let _lhsOvpat :: VisagePattern
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Pattern
_lhsOself :: Pattern
_patIcopy :: Pattern
_patIfieldattrs :: ( [(Identifier,Identifier)] )
_patIself :: Pattern
_patIvpat :: VisagePattern
_partsIcopy :: Patterns
_partsIfieldattrs :: ( [(Identifier,Identifier)] )
_partsIself :: Patterns
_partsIvpats :: ([VisagePattern])
-- "TfmToVisage.ag"(line 128, column 17)
_lhsOvpat =
if (isVar _self)
then VVar field_ attr_
else VAlias field_ attr_ _patIvpat
-- "TfmToVisage.ag"(line 137, column 17)
_lhsOfieldattrs =
[(field_, attr_)]
-- self rule
_copy =
Alias field_ attr_ _patIcopy _partsIcopy
-- self rule
_self =
Alias field_ attr_ _patIself _partsIself
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
( _patIcopy,_patIfieldattrs,_patIself,_patIvpat) =
(pat_ )
( _partsIcopy,_partsIfieldattrs,_partsIself,_partsIvpats) =
(parts_ )
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat)))
sem_Pattern_Constr :: ConstructorIdent ->
T_Patterns ->
T_Pattern
sem_Pattern_Constr name_ (T_Patterns pats_) =
(T_Pattern (let _lhsOvpat :: VisagePattern
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Pattern
_lhsOself :: Pattern
_patsIcopy :: Patterns
_patsIfieldattrs :: ( [(Identifier,Identifier)] )
_patsIself :: Patterns
_patsIvpats :: ([VisagePattern])
-- "TfmToVisage.ag"(line 126, column 17)
_lhsOvpat =
VConstr name_ _patsIvpats
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
_patsIfieldattrs
-- self rule
_copy =
Constr name_ _patsIcopy
-- self rule
_self =
Constr name_ _patsIself
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
( _patsIcopy,_patsIfieldattrs,_patsIself,_patsIvpats) =
(pats_ )
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat)))
sem_Pattern_Irrefutable :: T_Pattern ->
T_Pattern
sem_Pattern_Irrefutable (T_Pattern pat_) =
(T_Pattern (let _lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Pattern
_lhsOself :: Pattern
_lhsOvpat :: VisagePattern
_patIcopy :: Pattern
_patIfieldattrs :: ( [(Identifier,Identifier)] )
_patIself :: Pattern
_patIvpat :: VisagePattern
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
_patIfieldattrs
-- self rule
_copy =
Irrefutable _patIcopy
-- self rule
_self =
Irrefutable _patIself
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
-- copy rule (up)
_lhsOvpat =
_patIvpat
( _patIcopy,_patIfieldattrs,_patIself,_patIvpat) =
(pat_ )
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat)))
sem_Pattern_Product :: Pos ->
T_Patterns ->
T_Pattern
sem_Pattern_Product pos_ (T_Patterns pats_) =
(T_Pattern (let _lhsOvpat :: VisagePattern
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Pattern
_lhsOself :: Pattern
_patsIcopy :: Patterns
_patsIfieldattrs :: ( [(Identifier,Identifier)] )
_patsIself :: Patterns
_patsIvpats :: ([VisagePattern])
-- "TfmToVisage.ag"(line 127, column 17)
_lhsOvpat =
VProduct pos_ _patsIvpats
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
_patsIfieldattrs
-- self rule
_copy =
Product pos_ _patsIcopy
-- self rule
_self =
Product pos_ _patsIself
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
( _patsIcopy,_patsIfieldattrs,_patsIself,_patsIvpats) =
(pats_ )
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat)))
sem_Pattern_Underscore :: Pos ->
T_Pattern
sem_Pattern_Underscore pos_ =
(T_Pattern (let _lhsOvpat :: VisagePattern
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Pattern
_lhsOself :: Pattern
-- "TfmToVisage.ag"(line 131, column 17)
_lhsOvpat =
VUnderscore pos_
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
[]
-- self rule
_copy =
Underscore pos_
-- self rule
_self =
Underscore pos_
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpat)))
-- Patterns ----------------------------------------------------
{-
visit 0:
synthesized attributes:
copy : SELF
fieldattrs : [(Identifier,Identifier)]
self : SELF
vpats : [VisagePattern]
alternatives:
alternative Cons:
child hd : Pattern
child tl : Patterns
visit 0:
local copy : _
local self : _
alternative Nil:
visit 0:
local copy : _
local self : _
-}
-- cata
sem_Patterns :: Patterns ->
T_Patterns
sem_Patterns list =
(Prelude.foldr sem_Patterns_Cons sem_Patterns_Nil (Prelude.map sem_Pattern list))
-- semantic domain
newtype T_Patterns = T_Patterns (( Patterns,( [(Identifier,Identifier)] ),Patterns,([VisagePattern])))
data Inh_Patterns = Inh_Patterns {}
data Syn_Patterns = Syn_Patterns {copy_Syn_Patterns :: Patterns,fieldattrs_Syn_Patterns :: [(Identifier,Identifier)] ,self_Syn_Patterns :: Patterns,vpats_Syn_Patterns :: [VisagePattern]}
wrap_Patterns (T_Patterns sem) (Inh_Patterns ) =
(let ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpats) =
(sem )
in (Syn_Patterns _lhsOcopy _lhsOfieldattrs _lhsOself _lhsOvpats))
sem_Patterns_Cons :: T_Pattern ->
T_Patterns ->
T_Patterns
sem_Patterns_Cons (T_Pattern hd_) (T_Patterns tl_) =
(T_Patterns (let _lhsOvpats :: ([VisagePattern])
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Patterns
_lhsOself :: Patterns
_hdIcopy :: Pattern
_hdIfieldattrs :: ( [(Identifier,Identifier)] )
_hdIself :: Pattern
_hdIvpat :: VisagePattern
_tlIcopy :: Patterns
_tlIfieldattrs :: ( [(Identifier,Identifier)] )
_tlIself :: Patterns
_tlIvpats :: ([VisagePattern])
-- "TfmToVisage.ag"(line 122, column 17)
_lhsOvpats =
_hdIvpat : _tlIvpats
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
_hdIfieldattrs ++ _tlIfieldattrs
-- self rule
_copy =
(:) _hdIcopy _tlIcopy
-- self rule
_self =
(:) _hdIself _tlIself
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
( _hdIcopy,_hdIfieldattrs,_hdIself,_hdIvpat) =
(hd_ )
( _tlIcopy,_tlIfieldattrs,_tlIself,_tlIvpats) =
(tl_ )
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpats)))
sem_Patterns_Nil :: T_Patterns
sem_Patterns_Nil =
(T_Patterns (let _lhsOvpats :: ([VisagePattern])
_lhsOfieldattrs :: ( [(Identifier,Identifier)] )
_lhsOcopy :: Patterns
_lhsOself :: Patterns
-- "TfmToVisage.ag"(line 123, column 17)
_lhsOvpats =
[]
-- use rule "TfmToVisage.ag"(line 134, column 43)
_lhsOfieldattrs =
[]
-- self rule
_copy =
[]
-- self rule
_self =
[]
-- self rule
_lhsOcopy =
_copy
-- self rule
_lhsOself =
_self
in ( _lhsOcopy,_lhsOfieldattrs,_lhsOself,_lhsOvpats)))
-- Production --------------------------------------------------
{-
visit 0:
synthesized attribute:
vprod : VisageProduction
alternatives:
alternative Production:
child con : {ConstructorIdent}
child children : Children
child rules : Rules
child typeSigs : TypeSigs
visit 0:
local splitVRules : _
local locrules : _
local lhsrules : _
-}
-- 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 (( VisageProduction))
data Inh_Production = Inh_Production {}
data Syn_Production = Syn_Production {vprod_Syn_Production :: VisageProduction}
wrap_Production (T_Production sem) (Inh_Production ) =
(let ( _lhsOvprod) =
(sem )
in (Syn_Production _lhsOvprod))
sem_Production_Production :: ConstructorIdent ->
T_Children ->
T_Rules ->
T_TypeSigs ->
T_Production
sem_Production_Production con_ (T_Children children_) (T_Rules rules_) (T_TypeSigs typeSigs_) =
(T_Production (let _lhsOvprod :: VisageProduction
_childrenOrulemap :: VisageRuleMap
_childrenIvchildren :: ([VisageChild])
_rulesIvrules :: ([VisageRule])
-- "TfmToVisage.ag"(line 100, column 17)
_lhsOvprod =
VProduction con_ _childrenIvchildren _lhsrules _locrules
-- "TfmToVisage.ag"(line 101, column 17)
_splitVRules =
splitVRules _rulesIvrules
-- "TfmToVisage.ag"(line 102, column 17)
_locrules =
getForField "loc" _splitVRules
-- "TfmToVisage.ag"(line 103, column 17)
_lhsrules =
getForField "lhs" _splitVRules
-- "TfmToVisage.ag"(line 104, column 17)
_childrenOrulemap =
_splitVRules
( _childrenIvchildren) =
(children_ _childrenOrulemap)
( _rulesIvrules) =
(rules_ )
in ( _lhsOvprod)))
-- Productions -------------------------------------------------
{-
visit 0:
synthesized attribute:
vprods : [VisageProduction]
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 (( ([VisageProduction])))
data Inh_Productions = Inh_Productions {}
data Syn_Productions = Syn_Productions {vprods_Syn_Productions :: [VisageProduction]}
wrap_Productions (T_Productions sem) (Inh_Productions ) =
(let ( _lhsOvprods) =
(sem )
in (Syn_Productions _lhsOvprods))
sem_Productions_Cons :: T_Production ->
T_Productions ->
T_Productions
sem_Productions_Cons (T_Production hd_) (T_Productions tl_) =
(T_Productions (let _lhsOvprods :: ([VisageProduction])
_hdIvprod :: VisageProduction
_tlIvprods :: ([VisageProduction])
-- "TfmToVisage.ag"(line 96, column 17)
_lhsOvprods =
_hdIvprod : _tlIvprods
( _hdIvprod) =
(hd_ )
( _tlIvprods) =
(tl_ )
in ( _lhsOvprods)))
sem_Productions_Nil :: T_Productions
sem_Productions_Nil =
(T_Productions (let _lhsOvprods :: ([VisageProduction])
-- "TfmToVisage.ag"(line 97, column 17)
_lhsOvprods =
[]
in ( _lhsOvprods)))
-- Rule --------------------------------------------------------
{-
visit 0:
synthesized attribute:
vrule : VisageRule
alternatives:
alternative Rule:
child pattern : Pattern
child rhs : Expression
child owrt : {Bool}
child origin : {String}
-}
-- cata
sem_Rule :: Rule ->
T_Rule
sem_Rule (Rule _pattern _rhs _owrt _origin) =
(sem_Rule_Rule (sem_Pattern _pattern) (sem_Expression _rhs) _owrt _origin)
-- semantic domain
newtype T_Rule = T_Rule (( VisageRule))
data Inh_Rule = Inh_Rule {}
data Syn_Rule = Syn_Rule {vrule_Syn_Rule :: VisageRule}
wrap_Rule (T_Rule sem) (Inh_Rule ) =
(let ( _lhsOvrule) =
(sem )
in (Syn_Rule _lhsOvrule))
sem_Rule_Rule :: T_Pattern ->
T_Expression ->
Bool ->
String ->
T_Rule
sem_Rule_Rule (T_Pattern pattern_) (T_Expression rhs_) owrt_ origin_ =
(T_Rule (let _lhsOvrule :: VisageRule
_patternIcopy :: Pattern
_patternIfieldattrs :: ( [(Identifier,Identifier)] )
_patternIself :: Pattern
_patternIvpat :: VisagePattern
_rhsIself :: Expression
-- "TfmToVisage.ag"(line 119, column 11)
_lhsOvrule =
VRule _patternIfieldattrs undefined _patternIvpat _rhsIself owrt_
( _patternIcopy,_patternIfieldattrs,_patternIself,_patternIvpat) =
(pattern_ )
( _rhsIself) =
(rhs_ )
in ( _lhsOvrule)))
-- Rules -------------------------------------------------------
{-
visit 0:
synthesized attribute:
vrules : [VisageRule]
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 (( ([VisageRule])))
data Inh_Rules = Inh_Rules {}
data Syn_Rules = Syn_Rules {vrules_Syn_Rules :: [VisageRule]}
wrap_Rules (T_Rules sem) (Inh_Rules ) =
(let ( _lhsOvrules) =
(sem )
in (Syn_Rules _lhsOvrules))
sem_Rules_Cons :: T_Rule ->
T_Rules ->
T_Rules
sem_Rules_Cons (T_Rule hd_) (T_Rules tl_) =
(T_Rules (let _lhsOvrules :: ([VisageRule])
_hdIvrule :: VisageRule
_tlIvrules :: ([VisageRule])
-- "TfmToVisage.ag"(line 114, column 17)
_lhsOvrules =
_hdIvrule : _tlIvrules
( _hdIvrule) =
(hd_ )
( _tlIvrules) =
(tl_ )
in ( _lhsOvrules)))
sem_Rules_Nil :: T_Rules
sem_Rules_Nil =
(T_Rules (let _lhsOvrules :: ([VisageRule])
-- "TfmToVisage.ag"(line 115, column 17)
_lhsOvrules =
[]
in ( _lhsOvrules)))
-- TypeSig -----------------------------------------------------
{-
alternatives:
alternative TypeSig:
child name : {Identifier}
child tp : {Type}
-}
-- cata
sem_TypeSig :: TypeSig ->
T_TypeSig
sem_TypeSig (TypeSig _name _tp) =
(sem_TypeSig_TypeSig _name _tp)
-- semantic domain
newtype T_TypeSig = T_TypeSig (( ))
data Inh_TypeSig = Inh_TypeSig {}
data Syn_TypeSig = Syn_TypeSig {}
wrap_TypeSig (T_TypeSig sem) (Inh_TypeSig ) =
(let ( ) =
(sem )
in (Syn_TypeSig ))
sem_TypeSig_TypeSig :: Identifier ->
Type ->
T_TypeSig
sem_TypeSig_TypeSig name_ tp_ =
(T_TypeSig (let
in ( )))
-- TypeSigs ----------------------------------------------------
{-
alternatives:
alternative Cons:
child hd : TypeSig
child tl : TypeSigs
alternative Nil:
-}
-- cata
sem_TypeSigs :: TypeSigs ->
T_TypeSigs
sem_TypeSigs list =
(Prelude.foldr sem_TypeSigs_Cons sem_TypeSigs_Nil (Prelude.map sem_TypeSig list))
-- semantic domain
newtype T_TypeSigs = T_TypeSigs (( ))
data Inh_TypeSigs = Inh_TypeSigs {}
data Syn_TypeSigs = Syn_TypeSigs {}
wrap_TypeSigs (T_TypeSigs sem) (Inh_TypeSigs ) =
(let ( ) =
(sem )
in (Syn_TypeSigs ))
sem_TypeSigs_Cons :: T_TypeSig ->
T_TypeSigs ->
T_TypeSigs
sem_TypeSigs_Cons (T_TypeSig hd_) (T_TypeSigs tl_) =
(T_TypeSigs (let
in ( )))
sem_TypeSigs_Nil :: T_TypeSigs
sem_TypeSigs_Nil =
(T_TypeSigs (let
in ( )))