{-# OPTIONS_GHC -fno-warn-orphans #-}
module Agda.TypeChecking.Serialise.Instances.Abstract where
import qualified Data.Map as Map
import qualified Data.Set as Set
import Agda.Syntax.Common
import qualified Agda.Syntax.Abstract as A
import Agda.Syntax.Info
import Agda.Syntax.Scope.Base
import Agda.Syntax.Fixity
import Agda.TypeChecking.Serialise.Base
import Agda.TypeChecking.Serialise.Instances.Common ()
import Agda.Utils.Functor
import Agda.Utils.Lens
import Agda.Utils.Impossible
instance EmbPrj A.BindName where
icod_ :: BindName -> S Int32
icod_ (A.BindName Name
a) = (Name -> BindName) -> Arrows (Domains (Name -> BindName)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Name -> BindName
A.BindName Name
a
value :: Int32 -> R BindName
value = (Name -> BindName) -> Int32 -> R (CoDomain (Name -> BindName))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN Name -> BindName
A.BindName
instance EmbPrj Scope where
icod_ :: Scope -> S Int32
icod_ (Scope ModuleName
a [ModuleName]
b ScopeNameSpaces
c Map QName ModuleName
d Maybe DataOrRecordModule
e) = (ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope)
-> Arrows
(Domains
(ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope
Scope ModuleName
a [ModuleName]
b ScopeNameSpaces
c Map QName ModuleName
d Maybe DataOrRecordModule
e
value :: Int32 -> R Scope
value = (ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope)
-> Int32
-> R (CoDomain
(ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN ModuleName
-> [ModuleName]
-> ScopeNameSpaces
-> Map QName ModuleName
-> Maybe DataOrRecordModule
-> Scope
Scope
instance EmbPrj DataOrRecordModule where
icod_ :: DataOrRecordModule -> S Int32
icod_ DataOrRecordModule
IsDataModule = DataOrRecordModule -> Arrows (Domains DataOrRecordModule) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' DataOrRecordModule
IsDataModule
icod_ DataOrRecordModule
IsRecordModule = Int32
-> DataOrRecordModule
-> Arrows (Domains DataOrRecordModule) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
0 DataOrRecordModule
IsRecordModule
value :: Int32 -> R DataOrRecordModule
value = (Node -> R DataOrRecordModule) -> Int32 -> R DataOrRecordModule
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase ((Node -> R DataOrRecordModule) -> Int32 -> R DataOrRecordModule)
-> (Node -> R DataOrRecordModule) -> Int32 -> R DataOrRecordModule
forall a b. (a -> b) -> a -> b
$ \case
[] -> DataOrRecordModule
-> Arrows
(Constant Int32 (Domains DataOrRecordModule))
(R (CoDomain DataOrRecordModule))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN DataOrRecordModule
IsDataModule
[Int32
0] -> DataOrRecordModule
-> Arrows
(Constant Int32 (Domains DataOrRecordModule))
(R (CoDomain DataOrRecordModule))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN DataOrRecordModule
IsRecordModule
Node
_ -> R DataOrRecordModule
forall a. R a
malformed
instance EmbPrj NameSpaceId where
icod_ :: NameSpaceId -> S Int32
icod_ NameSpaceId
PublicNS = NameSpaceId -> Arrows (Domains NameSpaceId) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' NameSpaceId
PublicNS
icod_ NameSpaceId
PrivateNS = Int32 -> NameSpaceId -> Arrows (Domains NameSpaceId) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 NameSpaceId
PrivateNS
icod_ NameSpaceId
ImportedNS = Int32 -> NameSpaceId -> Arrows (Domains NameSpaceId) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
2 NameSpaceId
ImportedNS
value :: Int32 -> R NameSpaceId
value = (Node -> R NameSpaceId) -> Int32 -> R NameSpaceId
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R NameSpaceId
forall {a}. (Eq a, Num a) => [a] -> R NameSpaceId
valu where
valu :: [a]
-> Arrows
(Constant Int32 (Domains NameSpaceId)) (R (CoDomain NameSpaceId))
valu [] = NameSpaceId
-> Arrows
(Constant Int32 (Domains NameSpaceId)) (R (CoDomain NameSpaceId))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN NameSpaceId
PublicNS
valu [a
1] = NameSpaceId
-> Arrows
(Constant Int32 (Domains NameSpaceId)) (R (CoDomain NameSpaceId))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN NameSpaceId
PrivateNS
valu [a
2] = NameSpaceId
-> Arrows
(Constant Int32 (Domains NameSpaceId)) (R (CoDomain NameSpaceId))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN NameSpaceId
ImportedNS
valu [a]
_ = R NameSpaceId
Arrows
(Constant Int32 (Domains NameSpaceId)) (R (CoDomain NameSpaceId))
forall a. R a
malformed
instance EmbPrj Access where
icod_ :: Access -> S Int32
icod_ (PrivateAccess Origin
UserWritten) = Int32 -> () -> Arrows (Domains ()) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
0 ()
icod_ PrivateAccess{} = Int32 -> () -> Arrows (Domains ()) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 ()
icod_ Access
PublicAccess = Access -> Arrows (Domains Access) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Access
PublicAccess
value :: Int32 -> R Access
value = (Node -> R Access) -> Int32 -> R Access
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R Access
forall {a}. (Eq a, Num a) => [a] -> R Access
valu where
valu :: [a]
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
valu [a
0] = Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access)))
-> Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall a b. (a -> b) -> a -> b
$ Origin -> Access
PrivateAccess Origin
UserWritten
valu [a
1] = Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access)))
-> Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall a b. (a -> b) -> a -> b
$ Origin -> Access
PrivateAccess Origin
Inserted
valu [] = Access
-> Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Access
PublicAccess
valu [a]
_ = R Access
Arrows (Constant Int32 (Domains Access)) (R (CoDomain Access))
forall a. R a
malformed
instance EmbPrj NameSpace where
icod_ :: NameSpace -> S Int32
icod_ (NameSpace NamesInScope
a ModulesInScope
b InScopeSet
c) = (NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace)
-> Arrows
(Domains
(NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace
NameSpace NamesInScope
a ModulesInScope
b InScopeSet
c
value :: Int32 -> R NameSpace
value = (NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace)
-> Int32
-> R (CoDomain
(NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN NamesInScope -> ModulesInScope -> InScopeSet -> NameSpace
NameSpace
instance EmbPrj WhyInScope where
icod_ :: WhyInScope -> S Int32
icod_ WhyInScope
Defined = WhyInScope -> Arrows (Domains WhyInScope) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' WhyInScope
Defined
icod_ (Opened QName
a WhyInScope
b) = Int32
-> (QName -> WhyInScope -> WhyInScope)
-> Arrows (Domains (QName -> WhyInScope -> WhyInScope)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
0 QName -> WhyInScope -> WhyInScope
Opened QName
a WhyInScope
b
icod_ (Applied QName
a WhyInScope
b) = Int32
-> (QName -> WhyInScope -> WhyInScope)
-> Arrows (Domains (QName -> WhyInScope -> WhyInScope)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 QName -> WhyInScope -> WhyInScope
Applied QName
a WhyInScope
b
value :: Int32 -> R WhyInScope
value = (Node -> R WhyInScope) -> Int32 -> R WhyInScope
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R WhyInScope
valu where
valu :: Node
-> Arrows
(Constant Int32 (Domains WhyInScope)) (R (CoDomain WhyInScope))
valu [] = WhyInScope
-> Arrows
(Constant Int32 (Domains WhyInScope)) (R (CoDomain WhyInScope))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN WhyInScope
Defined
valu [Int32
0, Int32
a, Int32
b] = (QName -> WhyInScope -> WhyInScope)
-> Arrows
(Constant Int32 (Domains (QName -> WhyInScope -> WhyInScope)))
(R (CoDomain (QName -> WhyInScope -> WhyInScope)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN QName -> WhyInScope -> WhyInScope
Opened Int32
a Int32
b
valu [Int32
1, Int32
a, Int32
b] = (QName -> WhyInScope -> WhyInScope)
-> Arrows
(Constant Int32 (Domains (QName -> WhyInScope -> WhyInScope)))
(R (CoDomain (QName -> WhyInScope -> WhyInScope)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN QName -> WhyInScope -> WhyInScope
Applied Int32
a Int32
b
valu Node
_ = R WhyInScope
Arrows
(Constant Int32 (Domains WhyInScope)) (R (CoDomain WhyInScope))
forall a. R a
malformed
data AbsNameWithFixity = AbsNameWithFixity Fixity A.QName KindOfName WhyInScope NameMetadata
toAbsName :: AbsNameWithFixity -> AbstractName
toAbsName :: AbsNameWithFixity -> AbstractName
toAbsName (AbsNameWithFixity Fixity
fx QName
a KindOfName
b WhyInScope
c NameMetadata
d) = QName -> KindOfName -> WhyInScope -> NameMetadata -> AbstractName
AbsName (Lens' Fixity QName -> LensSet Fixity QName
forall i o. Lens' i o -> LensSet i o
set (Fixity -> f Fixity) -> QName -> f QName
forall a. LensFixity a => Lens' Fixity a
Lens' Fixity QName
lensFixity Fixity
fx QName
a) KindOfName
b WhyInScope
c NameMetadata
d
fromAbsName :: AbstractName -> AbsNameWithFixity
fromAbsName :: AbstractName -> AbsNameWithFixity
fromAbsName (AbsName QName
a KindOfName
b WhyInScope
c NameMetadata
d) = Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity
AbsNameWithFixity (QName
a QName -> Lens' Fixity QName -> Fixity
forall o i. o -> Lens' i o -> i
^. (Fixity -> f Fixity) -> QName -> f QName
forall a. LensFixity a => Lens' Fixity a
Lens' Fixity QName
lensFixity) QName
a KindOfName
b WhyInScope
c NameMetadata
d
instance EmbPrj AbsNameWithFixity where
icod_ :: AbsNameWithFixity -> S Int32
icod_ (AbsNameWithFixity Fixity
a QName
b KindOfName
c WhyInScope
d NameMetadata
e) = (Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity)
-> Arrows
(Domains
(Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity
AbsNameWithFixity Fixity
a QName
b KindOfName
c WhyInScope
d NameMetadata
e
value :: Int32 -> R AbsNameWithFixity
value = (Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity)
-> Int32
-> R (CoDomain
(Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN Fixity
-> QName
-> KindOfName
-> WhyInScope
-> NameMetadata
-> AbsNameWithFixity
AbsNameWithFixity
instance EmbPrj AbstractName where
icod_ :: AbstractName -> S Int32
icod_ AbstractName
a = AbsNameWithFixity -> S Int32
forall a. EmbPrj a => a -> S Int32
icod_ (AbstractName -> AbsNameWithFixity
fromAbsName AbstractName
a)
value :: Int32 -> R AbstractName
value = AbsNameWithFixity -> AbstractName
toAbsName (AbsNameWithFixity -> AbstractName)
-> (Int32 -> R AbsNameWithFixity) -> Int32 -> R AbstractName
forall (m :: * -> *) b c a.
Functor m =>
(b -> c) -> (a -> m b) -> a -> m c
<.> Int32 -> R AbsNameWithFixity
forall a. EmbPrj a => Int32 -> R a
value
instance EmbPrj NameMetadata where
icod_ :: NameMetadata -> S Int32
icod_ NameMetadata
NoMetadata = NameMetadata -> Arrows (Domains NameMetadata) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' NameMetadata
NoMetadata
icod_ (GeneralizedVarsMetadata Map QName Name
a) = (Map QName Name -> NameMetadata)
-> Arrows (Domains (Map QName Name -> NameMetadata)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Map QName Name -> NameMetadata
GeneralizedVarsMetadata Map QName Name
a
value :: Int32 -> R NameMetadata
value = (Node -> R NameMetadata) -> Int32 -> R NameMetadata
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R NameMetadata
valu where
valu :: Node
-> Arrows
(Constant Int32 (Domains NameMetadata)) (R (CoDomain NameMetadata))
valu [] = NameMetadata
-> Arrows
(Constant Int32 (Domains NameMetadata)) (R (CoDomain NameMetadata))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN NameMetadata
NoMetadata
valu [Int32
a] = (Map QName Name -> NameMetadata)
-> Arrows
(Constant Int32 (Domains (Map QName Name -> NameMetadata)))
(R (CoDomain (Map QName Name -> NameMetadata)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Map QName Name -> NameMetadata
GeneralizedVarsMetadata Int32
a
valu Node
_ = R NameMetadata
Arrows
(Constant Int32 (Domains NameMetadata)) (R (CoDomain NameMetadata))
forall a. R a
malformed
instance EmbPrj A.Suffix where
icod_ :: Suffix -> S Int32
icod_ Suffix
A.NoSuffix = Suffix -> Arrows (Domains Suffix) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Suffix
A.NoSuffix
icod_ (A.Suffix Integer
a) = (Integer -> Suffix)
-> Arrows (Domains (Integer -> Suffix)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Integer -> Suffix
A.Suffix Integer
a
value :: Int32 -> R Suffix
value = (Node -> R Suffix) -> Int32 -> R Suffix
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R Suffix
valu where
valu :: Node
-> Arrows (Constant Int32 (Domains Suffix)) (R (CoDomain Suffix))
valu [] = Suffix
-> Arrows (Constant Int32 (Domains Suffix)) (R (CoDomain Suffix))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Suffix
A.NoSuffix
valu [Int32
a] = (Integer -> Suffix)
-> Arrows
(Constant Int32 (Domains (Integer -> Suffix)))
(R (CoDomain (Integer -> Suffix)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Integer -> Suffix
A.Suffix Int32
a
valu Node
_ = R Suffix
Arrows (Constant Int32 (Domains Suffix)) (R (CoDomain Suffix))
forall a. R a
malformed
instance EmbPrj AbstractModule where
icod_ :: AbstractModule -> S Int32
icod_ (AbsModule ModuleName
a WhyInScope
b) = (ModuleName -> WhyInScope -> AbstractModule)
-> Arrows
(Domains (ModuleName -> WhyInScope -> AbstractModule)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' ModuleName -> WhyInScope -> AbstractModule
AbsModule ModuleName
a WhyInScope
b
value :: Int32 -> R AbstractModule
value = (ModuleName -> WhyInScope -> AbstractModule)
-> Int32
-> R (CoDomain (ModuleName -> WhyInScope -> AbstractModule))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN ModuleName -> WhyInScope -> AbstractModule
AbsModule
instance EmbPrj KindOfName where
instance EmbPrj BindingSource where
icod_ :: BindingSource -> S Int32
icod_ BindingSource
LambdaBound = BindingSource -> Arrows (Domains BindingSource) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' BindingSource
LambdaBound
icod_ BindingSource
PatternBound = Int32 -> BindingSource -> Arrows (Domains BindingSource) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 BindingSource
PatternBound
icod_ BindingSource
LetBound = Int32 -> BindingSource -> Arrows (Domains BindingSource) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
2 BindingSource
LetBound
icod_ BindingSource
WithBound = Int32 -> BindingSource -> Arrows (Domains BindingSource) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
3 BindingSource
WithBound
value :: Int32 -> R BindingSource
value = (Node -> R BindingSource) -> Int32 -> R BindingSource
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R BindingSource
forall {a}. (Eq a, Num a) => [a] -> R BindingSource
valu where
valu :: [a]
-> Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
valu [] = BindingSource
-> Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN BindingSource
LambdaBound
valu [a
1] = BindingSource
-> Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN BindingSource
PatternBound
valu [a
2] = BindingSource
-> Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN BindingSource
LetBound
valu [a
3] = BindingSource
-> Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN BindingSource
WithBound
valu [a]
_ = R BindingSource
Arrows
(Constant Int32 (Domains BindingSource))
(R (CoDomain BindingSource))
forall a. R a
malformed
instance EmbPrj LocalVar where
icod_ :: LocalVar -> S Int32
icod_ (LocalVar Name
a BindingSource
b [AbstractName]
c) = (Name -> BindingSource -> [AbstractName] -> LocalVar)
-> Arrows
(Domains (Name -> BindingSource -> [AbstractName] -> LocalVar))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Name -> BindingSource -> [AbstractName] -> LocalVar
LocalVar Name
a BindingSource
b [AbstractName]
c
value :: Int32 -> R LocalVar
value = (Name -> BindingSource -> [AbstractName] -> LocalVar)
-> Int32
-> R (CoDomain
(Name -> BindingSource -> [AbstractName] -> LocalVar))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN Name -> BindingSource -> [AbstractName] -> LocalVar
LocalVar
instance EmbPrj ConPatInfo where
icod_ :: ConPatInfo -> S Int32
icod_ (ConPatInfo ConOrigin
a PatInfo
_ ConPatLazy
b) = (ConOrigin -> ConPatLazy -> ConPatInfo)
-> Arrows
(Domains (ConOrigin -> ConPatLazy -> ConPatInfo)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' (\ConOrigin
a ConPatLazy
b -> ConOrigin -> PatInfo -> ConPatLazy -> ConPatInfo
ConPatInfo ConOrigin
a PatInfo
patNoRange ConPatLazy
b) ConOrigin
a ConPatLazy
b
value :: Int32 -> R ConPatInfo
value = (ConOrigin -> ConPatLazy -> ConPatInfo)
-> Int32 -> R (CoDomain (ConOrigin -> ConPatLazy -> ConPatInfo))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN ((ConOrigin -> ConPatLazy -> ConPatInfo)
-> Int32 -> R (CoDomain (ConOrigin -> ConPatLazy -> ConPatInfo)))
-> (ConOrigin -> ConPatLazy -> ConPatInfo)
-> Int32
-> R (CoDomain (ConOrigin -> ConPatLazy -> ConPatInfo))
forall a b. (a -> b) -> a -> b
$ \ConOrigin
a ConPatLazy
b -> ConOrigin -> PatInfo -> ConPatLazy -> ConPatInfo
ConPatInfo ConOrigin
a PatInfo
patNoRange ConPatLazy
b
instance EmbPrj ConPatLazy
instance EmbPrj a => EmbPrj (A.Pattern' a) where
icod_ :: Pattern' a -> S Int32
icod_ (A.VarP BindName
a) = Int32
-> (BindName -> Pattern' Any)
-> Arrows (Domains (BindName -> Pattern' Any)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
0 BindName -> Pattern' Any
forall e. BindName -> Pattern' e
A.VarP BindName
a
icod_ (A.ConP ConPatInfo
a AmbiguousQName
b NAPs a
c) = Int32
-> (ConPatInfo -> AmbiguousQName -> NAPs a -> Pattern' a)
-> Arrows
(Domains (ConPatInfo -> AmbiguousQName -> NAPs a -> Pattern' a))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 ConPatInfo -> AmbiguousQName -> NAPs a -> Pattern' a
forall e. ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.ConP ConPatInfo
a AmbiguousQName
b NAPs a
c
icod_ (A.DefP PatInfo
p AmbiguousQName
a NAPs a
b) = Int32
-> (AmbiguousQName -> NAPs a -> Pattern' a)
-> Arrows
(Domains (AmbiguousQName -> NAPs a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
2 (PatInfo -> AmbiguousQName -> NAPs a -> Pattern' a
forall e. PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.DefP PatInfo
p) AmbiguousQName
a NAPs a
b
icod_ t :: Pattern' a
t@(A.WildP PatInfo
p) = Int32 -> Pattern' a -> Arrows (Domains (Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
3 Pattern' a
t
icod_ (A.AsP PatInfo
p BindName
a Pattern' a
b) = Int32
-> (BindName -> Pattern' a -> Pattern' a)
-> Arrows
(Domains (BindName -> Pattern' a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
4 (PatInfo -> BindName -> Pattern' a -> Pattern' a
forall e. PatInfo -> BindName -> Pattern' e -> Pattern' e
A.AsP PatInfo
p) BindName
a Pattern' a
b
icod_ (A.DotP PatInfo
p a
a) = Int32
-> (a -> Pattern' a)
-> Arrows (Domains (a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
5 (PatInfo -> a -> Pattern' a
forall e. PatInfo -> e -> Pattern' e
A.DotP PatInfo
p) a
a
icod_ t :: Pattern' a
t@(A.AbsurdP PatInfo
_) = Int32 -> Pattern' a -> Arrows (Domains (Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
6 Pattern' a
t
icod_ (A.LitP PatInfo
i Literal
a) = Int32
-> (Literal -> Pattern' Any)
-> Arrows (Domains (Literal -> Pattern' Any)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
7 (PatInfo -> Literal -> Pattern' Any
forall e. PatInfo -> Literal -> Pattern' e
A.LitP PatInfo
i) Literal
a
icod_ (A.ProjP PatInfo
p ProjOrigin
a AmbiguousQName
b) = Int32
-> (ProjOrigin -> AmbiguousQName -> Pattern' Any)
-> Arrows
(Domains (ProjOrigin -> AmbiguousQName -> Pattern' Any)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
8 (PatInfo -> ProjOrigin -> AmbiguousQName -> Pattern' Any
forall e. PatInfo -> ProjOrigin -> AmbiguousQName -> Pattern' e
A.ProjP PatInfo
p) ProjOrigin
a AmbiguousQName
b
icod_ (A.PatternSynP PatInfo
p AmbiguousQName
a NAPs a
b) = Int32
-> (AmbiguousQName -> NAPs a -> Pattern' a)
-> Arrows
(Domains (AmbiguousQName -> NAPs a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
9 (PatInfo -> AmbiguousQName -> NAPs a -> Pattern' a
forall e. PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.PatternSynP PatInfo
p) AmbiguousQName
a NAPs a
b
icod_ (A.RecP PatInfo
p [FieldAssignment' (Pattern' a)]
a) = Int32
-> ([FieldAssignment' (Pattern' a)] -> Pattern' a)
-> Arrows
(Domains ([FieldAssignment' (Pattern' a)] -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
10 (PatInfo -> [FieldAssignment' (Pattern' a)] -> Pattern' a
forall e. PatInfo -> [FieldAssignment' (Pattern' e)] -> Pattern' e
A.RecP PatInfo
p) [FieldAssignment' (Pattern' a)]
a
icod_ (A.EqualP PatInfo
_ [(a, a)]
a) = S Int32
forall a. HasCallStack => a
__IMPOSSIBLE__
icod_ (A.WithP PatInfo
i Pattern' a
a) = Int32
-> (Pattern' a -> Pattern' a)
-> Arrows (Domains (Pattern' a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
11 (PatInfo -> Pattern' a -> Pattern' a
forall e. PatInfo -> Pattern' e -> Pattern' e
A.WithP PatInfo
i) Pattern' a
a
icod_ (A.AnnP PatInfo
i a
a Pattern' a
p) = Int32
-> (a -> Pattern' a -> Pattern' a)
-> Arrows (Domains (a -> Pattern' a -> Pattern' a)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
12 (PatInfo -> a -> Pattern' a -> Pattern' a
forall e. PatInfo -> e -> Pattern' e -> Pattern' e
A.AnnP PatInfo
i) a
a Pattern' a
p
value :: Int32 -> R (Pattern' a)
value = (Node -> R (Pattern' a)) -> Int32 -> R (Pattern' a)
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R (Pattern' a)
forall {e}. EmbPrj e => Node -> R (Pattern' e)
valu where
valu :: Node -> R (Pattern' e)
valu [Int32
0, Int32
a] = (BindName -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (BindName -> Pattern' e)))
(R (CoDomain (BindName -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN BindName -> Pattern' e
forall e. BindName -> Pattern' e
A.VarP Int32
a
valu [Int32
1, Int32
a, Int32
b, Int32
c] = (ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e)
-> Arrows
(Constant
Int32
(Domains (ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e)))
(R (CoDomain
(ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
forall e. ConPatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.ConP Int32
a Int32
b Int32
c
valu [Int32
2, Int32
a, Int32
b] = (AmbiguousQName -> NAPs e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (AmbiguousQName -> NAPs e -> Pattern' e)))
(R (CoDomain (AmbiguousQName -> NAPs e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
forall e. PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.DefP PatInfo
i) Int32
a Int32
b
valu [Int32
3] = Pattern' e
-> Arrows
(Constant Int32 (Domains (Pattern' e))) (R (CoDomain (Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> Pattern' e
forall e. PatInfo -> Pattern' e
A.WildP PatInfo
i)
valu [Int32
4, Int32
a, Int32
b] = (BindName -> Pattern' e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (BindName -> Pattern' e -> Pattern' e)))
(R (CoDomain (BindName -> Pattern' e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> BindName -> Pattern' e -> Pattern' e
forall e. PatInfo -> BindName -> Pattern' e -> Pattern' e
A.AsP PatInfo
i) Int32
a Int32
b
valu [Int32
5, Int32
a] = (e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (e -> Pattern' e)))
(R (CoDomain (e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> e -> Pattern' e
forall e. PatInfo -> e -> Pattern' e
A.DotP PatInfo
i) Int32
a
valu [Int32
6] = Pattern' e
-> Arrows
(Constant Int32 (Domains (Pattern' e))) (R (CoDomain (Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> Pattern' e
forall e. PatInfo -> Pattern' e
A.AbsurdP PatInfo
i)
valu [Int32
7, Int32
a] = (Literal -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (Literal -> Pattern' e)))
(R (CoDomain (Literal -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> Literal -> Pattern' e
forall e. PatInfo -> Literal -> Pattern' e
A.LitP PatInfo
i) Int32
a
valu [Int32
8, Int32
a, Int32
b] = (ProjOrigin -> AmbiguousQName -> Pattern' e)
-> Arrows
(Constant
Int32 (Domains (ProjOrigin -> AmbiguousQName -> Pattern' e)))
(R (CoDomain (ProjOrigin -> AmbiguousQName -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> ProjOrigin -> AmbiguousQName -> Pattern' e
forall e. PatInfo -> ProjOrigin -> AmbiguousQName -> Pattern' e
A.ProjP PatInfo
i) Int32
a Int32
b
valu [Int32
9, Int32
a, Int32
b] = (AmbiguousQName -> NAPs e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (AmbiguousQName -> NAPs e -> Pattern' e)))
(R (CoDomain (AmbiguousQName -> NAPs e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
forall e. PatInfo -> AmbiguousQName -> NAPs e -> Pattern' e
A.PatternSynP PatInfo
i) Int32
a Int32
b
valu [Int32
10, Int32
a] = ([FieldAssignment' (Pattern' e)] -> Pattern' e)
-> Arrows
(Constant
Int32 (Domains ([FieldAssignment' (Pattern' e)] -> Pattern' e)))
(R (CoDomain ([FieldAssignment' (Pattern' e)] -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> [FieldAssignment' (Pattern' e)] -> Pattern' e
forall e. PatInfo -> [FieldAssignment' (Pattern' e)] -> Pattern' e
A.RecP PatInfo
i) Int32
a
valu [Int32
11, Int32
a] = (Pattern' e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (Pattern' e -> Pattern' e)))
(R (CoDomain (Pattern' e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> Pattern' e -> Pattern' e
forall e. PatInfo -> Pattern' e -> Pattern' e
A.WithP PatInfo
i) Int32
a
valu [Int32
12, Int32
a, Int32
b] = (e -> Pattern' e -> Pattern' e)
-> Arrows
(Constant Int32 (Domains (e -> Pattern' e -> Pattern' e)))
(R (CoDomain (e -> Pattern' e -> Pattern' e)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN (PatInfo -> e -> Pattern' e -> Pattern' e
forall e. PatInfo -> e -> Pattern' e -> Pattern' e
A.AnnP PatInfo
i) Int32
a Int32
b
valu Node
_ = R (Pattern' e)
forall a. R a
malformed
i :: PatInfo
i = PatInfo
patNoRange
instance EmbPrj ParenPreference where
icod_ :: ParenPreference -> S Int32
icod_ ParenPreference
PreferParen = ParenPreference -> Arrows (Domains ParenPreference) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' ParenPreference
PreferParen
icod_ ParenPreference
PreferParenless = Int32
-> ParenPreference -> Arrows (Domains ParenPreference) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 ParenPreference
PreferParenless
value :: Int32 -> R ParenPreference
value = (Node -> R ParenPreference) -> Int32 -> R ParenPreference
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R ParenPreference
forall {a}. (Eq a, Num a) => [a] -> R ParenPreference
valu where
valu :: [a]
-> Arrows
(Constant Int32 (Domains ParenPreference))
(R (CoDomain ParenPreference))
valu [] = ParenPreference
-> Arrows
(Constant Int32 (Domains ParenPreference))
(R (CoDomain ParenPreference))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN ParenPreference
PreferParen
valu [a
1] = ParenPreference
-> Arrows
(Constant Int32 (Domains ParenPreference))
(R (CoDomain ParenPreference))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN ParenPreference
PreferParenless
valu [a]
_ = R ParenPreference
Arrows
(Constant Int32 (Domains ParenPreference))
(R (CoDomain ParenPreference))
forall a. R a
malformed
instance EmbPrj Precedence where
icod_ :: Precedence -> S Int32
icod_ Precedence
TopCtx = Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' Precedence
TopCtx
icod_ Precedence
FunctionSpaceDomainCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
1 Precedence
FunctionSpaceDomainCtx
icod_ (LeftOperandCtx Fixity
a) = Int32
-> (Fixity -> Precedence)
-> Arrows (Domains (Fixity -> Precedence)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
2 Fixity -> Precedence
LeftOperandCtx Fixity
a
icod_ (RightOperandCtx Fixity
a ParenPreference
b) = Int32
-> (Fixity -> ParenPreference -> Precedence)
-> Arrows
(Domains (Fixity -> ParenPreference -> Precedence)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
3 Fixity -> ParenPreference -> Precedence
RightOperandCtx Fixity
a ParenPreference
b
icod_ Precedence
FunctionCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
4 Precedence
FunctionCtx
icod_ (ArgumentCtx ParenPreference
a) = Int32
-> (ParenPreference -> Precedence)
-> Arrows (Domains (ParenPreference -> Precedence)) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
5 ParenPreference -> Precedence
ArgumentCtx ParenPreference
a
icod_ Precedence
InsideOperandCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
6 Precedence
InsideOperandCtx
icod_ Precedence
WithFunCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
7 Precedence
WithFunCtx
icod_ Precedence
WithArgCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
8 Precedence
WithArgCtx
icod_ Precedence
DotPatternCtx = Int32 -> Precedence -> Arrows (Domains Precedence) (S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
Int32 -> t -> Arrows (Domains t) (S Int32)
icodeN Int32
9 Precedence
DotPatternCtx
value :: Int32 -> R Precedence
value = (Node -> R Precedence) -> Int32 -> R Precedence
forall a. EmbPrj a => (Node -> R a) -> Int32 -> R a
vcase Node -> R Precedence
valu where
valu :: Node
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
valu [] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
TopCtx
valu [Int32
1] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
FunctionSpaceDomainCtx
valu [Int32
2, Int32
a] = (Fixity -> Precedence)
-> Arrows
(Constant Int32 (Domains (Fixity -> Precedence)))
(R (CoDomain (Fixity -> Precedence)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Fixity -> Precedence
LeftOperandCtx Int32
a
valu [Int32
3, Int32
a, Int32
b] = (Fixity -> ParenPreference -> Precedence)
-> Arrows
(Constant
Int32 (Domains (Fixity -> ParenPreference -> Precedence)))
(R (CoDomain (Fixity -> ParenPreference -> Precedence)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Fixity -> ParenPreference -> Precedence
RightOperandCtx Int32
a Int32
b
valu [Int32
4] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
FunctionCtx
valu [Int32
5, Int32
a] = (ParenPreference -> Precedence)
-> Arrows
(Constant Int32 (Domains (ParenPreference -> Precedence)))
(R (CoDomain (ParenPreference -> Precedence)))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN ParenPreference -> Precedence
ArgumentCtx Int32
a
valu [Int32
6] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
InsideOperandCtx
valu [Int32
7] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
WithFunCtx
valu [Int32
8] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
WithArgCtx
valu [Int32
9] = Precedence
-> Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall t.
(VALU t (IsBase t),
Currying (Constant Int32 (Domains t)) (R (CoDomain t)),
All EmbPrj (Domains t)) =>
t -> Arrows (Constant Int32 (Domains t)) (R (CoDomain t))
valuN Precedence
DotPatternCtx
valu Node
_ = R Precedence
Arrows
(Constant Int32 (Domains Precedence)) (R (CoDomain Precedence))
forall a. R a
malformed
instance EmbPrj ScopeInfo where
icod_ :: ScopeInfo -> S Int32
icod_ (ScopeInfo ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e NameMap
f ModuleMap
g InScopeSet
h Fixities
i Polarities
j) = (ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> ScopeInfo)
-> Arrows
(Domains
(ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> ScopeInfo))
(S Int32)
forall t.
(ICODE t (IsBase t), Currying (Domains t) (S Int32),
All EmbPrj (Domains t)) =>
t -> Arrows (Domains t) (S Int32)
icodeN' (\ ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e -> ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> NameMap
-> ModuleMap
-> InScopeSet
-> Fixities
-> Polarities
-> ScopeInfo
ScopeInfo ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e NameMap
f ModuleMap
g InScopeSet
h Fixities
i Polarities
j) ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e
value :: Int32 -> R ScopeInfo
value = (ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> ScopeInfo)
-> Int32
-> R (CoDomain
(ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> ScopeInfo))
forall t.
(VALU t (IsBase t), All EmbPrj (CoDomain t : Domains t)) =>
t -> Int32 -> R (CoDomain t)
valueN (\ ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e -> ModuleName
-> Map ModuleName Scope
-> LocalVars
-> LocalVars
-> PrecedenceStack
-> NameMap
-> ModuleMap
-> InScopeSet
-> Fixities
-> Polarities
-> ScopeInfo
ScopeInfo ModuleName
a Map ModuleName Scope
b LocalVars
c LocalVars
d PrecedenceStack
e NameMap
forall k a. Map k a
Map.empty ModuleMap
forall k a. Map k a
Map.empty InScopeSet
forall a. Set a
Set.empty Fixities
forall k a. Map k a
Map.empty Polarities
forall k a. Map k a
Map.empty)
instance EmbPrj NameOrModule