{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE Rank2Types #-}
module Data.Equality.Graph.Lens where
import qualified Data.IntMap.Strict as IM
import qualified Data.Set as S
import Data.Functor.Identity
import Data.Functor.Const
import Data.Equality.Utils.SizedList
import Data.Equality.Graph.Internal
import Data.Equality.Graph.Classes.Id
import Data.Equality.Graph.Nodes
import Data.Equality.Graph.Classes
import Data.Equality.Graph.ReprUnionFind
type Lens' s a = forall f. Functor f => (a -> f a) -> (s -> f s)
_class :: ClassId -> Lens' (EGraph a l) (EClass a l)
_class :: forall a (l :: * -> *). ClassId -> Lens' (EGraph a l) (EClass a l)
_class ClassId
i EClass a l -> f (EClass a l)
afa EGraph a l
s =
let canon_id :: ClassId
canon_id = ClassId -> ReprUnionFind -> ClassId
findRepr ClassId
i (EGraph a l -> ReprUnionFind
forall analysis (language :: * -> *).
EGraph analysis language -> ReprUnionFind
unionFind EGraph a l
s)
in (\EClass a l
c' -> EGraph a l
s { classes :: ClassIdMap (EClass a l)
classes = ClassId
-> EClass a l -> ClassIdMap (EClass a l) -> ClassIdMap (EClass a l)
forall a. ClassId -> a -> IntMap a -> IntMap a
IM.insert ClassId
canon_id EClass a l
c' (EGraph a l -> ClassIdMap (EClass a l)
forall analysis (language :: * -> *).
EGraph analysis language -> ClassIdMap (EClass analysis language)
classes EGraph a l
s) }) (EClass a l -> EGraph a l) -> f (EClass a l) -> f (EGraph a l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> EClass a l -> f (EClass a l)
afa (EGraph a l -> ClassIdMap (EClass a l)
forall analysis (language :: * -> *).
EGraph analysis language -> ClassIdMap (EClass analysis language)
classes EGraph a l
s ClassIdMap (EClass a l) -> ClassId -> EClass a l
forall a. IntMap a -> ClassId -> a
IM.! ClassId
canon_id)
{-# INLINE _class #-}
_memo :: Lens' (EGraph a l) (NodeMap l ClassId)
_memo :: forall a (l :: * -> *) (f :: * -> *).
Functor f =>
(NodeMap l ClassId -> f (NodeMap l ClassId))
-> EGraph a l -> f (EGraph a l)
_memo NodeMap l ClassId -> f (NodeMap l ClassId)
afa EGraph a l
egr = (\NodeMap l ClassId
m1 -> EGraph a l
egr {memo :: NodeMap l ClassId
memo = NodeMap l ClassId
m1}) (NodeMap l ClassId -> EGraph a l)
-> f (NodeMap l ClassId) -> f (EGraph a l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NodeMap l ClassId -> f (NodeMap l ClassId)
afa (EGraph a l -> NodeMap l ClassId
forall analysis (language :: * -> *).
EGraph analysis language -> Memo language
memo EGraph a l
egr)
{-# INLINE _memo #-}
_classes :: Lens' (EGraph a l) (ClassIdMap (EClass a l))
_classes :: forall a (l :: * -> *) (f :: * -> *).
Functor f =>
(ClassIdMap (EClass a l) -> f (ClassIdMap (EClass a l)))
-> EGraph a l -> f (EGraph a l)
_classes ClassIdMap (EClass a l) -> f (ClassIdMap (EClass a l))
afa EGraph a l
egr = (\ClassIdMap (EClass a l)
m1 -> EGraph a l
egr {classes :: ClassIdMap (EClass a l)
classes = ClassIdMap (EClass a l)
m1}) (ClassIdMap (EClass a l) -> EGraph a l)
-> f (ClassIdMap (EClass a l)) -> f (EGraph a l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> ClassIdMap (EClass a l) -> f (ClassIdMap (EClass a l))
afa (EGraph a l -> ClassIdMap (EClass a l)
forall analysis (language :: * -> *).
EGraph analysis language -> ClassIdMap (EClass analysis language)
classes EGraph a l
egr)
{-# INLINE _classes #-}
_data :: Lens' (EClass domain l) domain
_data :: forall domain (l :: * -> *) (f :: * -> *).
Functor f =>
(domain -> f domain) -> EClass domain l -> f (EClass domain l)
_data domain -> f domain
afa EClass{domain
ClassId
Set (ENode l)
SList (ClassId, ENode l)
eClassId :: ClassId
eClassNodes :: Set (ENode l)
eClassData :: domain
eClassParents :: SList (ClassId, ENode l)
eClassId :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> ClassId
eClassNodes :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> Set (ENode language)
eClassData :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> analysis_domain
eClassParents :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> SList (ClassId, ENode language)
..} = (\domain
d1 -> ClassId
-> Set (ENode l)
-> domain
-> SList (ClassId, ENode l)
-> EClass domain l
forall analysis_domain (language :: * -> *).
ClassId
-> Set (ENode language)
-> analysis_domain
-> SList (ClassId, ENode language)
-> EClass analysis_domain language
EClass ClassId
eClassId Set (ENode l)
eClassNodes domain
d1 SList (ClassId, ENode l)
eClassParents) (domain -> EClass domain l) -> f domain -> f (EClass domain l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> domain -> f domain
afa domain
eClassData
{-# INLINE _data #-}
_parents :: Lens' (EClass a l) (SList (ClassId, ENode l))
_parents :: forall a (l :: * -> *) (f :: * -> *).
Functor f =>
(SList (ClassId, ENode l) -> f (SList (ClassId, ENode l)))
-> EClass a l -> f (EClass a l)
_parents SList (ClassId, ENode l) -> f (SList (ClassId, ENode l))
afa EClass{a
ClassId
Set (ENode l)
SList (ClassId, ENode l)
eClassId :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> ClassId
eClassNodes :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> Set (ENode language)
eClassData :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> analysis_domain
eClassParents :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> SList (ClassId, ENode language)
eClassId :: ClassId
eClassNodes :: Set (ENode l)
eClassData :: a
eClassParents :: SList (ClassId, ENode l)
..} = ClassId
-> Set (ENode l) -> a -> SList (ClassId, ENode l) -> EClass a l
forall analysis_domain (language :: * -> *).
ClassId
-> Set (ENode language)
-> analysis_domain
-> SList (ClassId, ENode language)
-> EClass analysis_domain language
EClass ClassId
eClassId Set (ENode l)
eClassNodes a
eClassData (SList (ClassId, ENode l) -> EClass a l)
-> f (SList (ClassId, ENode l)) -> f (EClass a l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> SList (ClassId, ENode l) -> f (SList (ClassId, ENode l))
afa SList (ClassId, ENode l)
eClassParents
{-# INLINE _parents #-}
_nodes :: Lens' (EClass a l) (S.Set (ENode l))
_nodes :: forall a (l :: * -> *) (f :: * -> *).
Functor f =>
(Set (ENode l) -> f (Set (ENode l)))
-> EClass a l -> f (EClass a l)
_nodes Set (ENode l) -> f (Set (ENode l))
afa EClass{a
ClassId
Set (ENode l)
SList (ClassId, ENode l)
eClassId :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> ClassId
eClassNodes :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> Set (ENode language)
eClassData :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> analysis_domain
eClassParents :: forall analysis_domain (language :: * -> *).
EClass analysis_domain language -> SList (ClassId, ENode language)
eClassId :: ClassId
eClassNodes :: Set (ENode l)
eClassData :: a
eClassParents :: SList (ClassId, ENode l)
..} = (\Set (ENode l)
ns -> ClassId
-> Set (ENode l) -> a -> SList (ClassId, ENode l) -> EClass a l
forall analysis_domain (language :: * -> *).
ClassId
-> Set (ENode language)
-> analysis_domain
-> SList (ClassId, ENode language)
-> EClass analysis_domain language
EClass ClassId
eClassId Set (ENode l)
ns a
eClassData SList (ClassId, ENode l)
eClassParents) (Set (ENode l) -> EClass a l)
-> f (Set (ENode l)) -> f (EClass a l)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Set (ENode l) -> f (Set (ENode l))
afa Set (ENode l)
eClassNodes
{-# INLINE _nodes #-}
(^.) :: s -> Lens' s a -> a
^. :: forall s a. s -> Lens' s a -> a
(^.) s
s Lens' s a
ln = Lens' s a -> s -> a
forall s a. Lens' s a -> s -> a
view (a -> f a) -> s -> f s
Lens' s a
ln s
s
infixl 8 ^.
{-# INLINE (^.) #-}
(.~) :: Lens' s a -> a -> (s -> s)
.~ :: forall s a. Lens' s a -> a -> s -> s
(.~) = Lens' s a -> a -> s -> s
forall s a. Lens' s a -> a -> s -> s
set
infixr 4 .~
{-# INLINE (.~) #-}
(%~) :: Lens' s a -> (a -> a) -> (s -> s)
%~ :: forall s a. Lens' s a -> (a -> a) -> s -> s
(%~) = Lens' s a -> (a -> a) -> s -> s
forall s a. Lens' s a -> (a -> a) -> s -> s
over
infixr 4 %~
{-# INLINE (%~) #-}
view :: Lens' s a -> (s -> a)
view :: forall s a. Lens' s a -> s -> a
view Lens' s a
ln = Const a s -> a
forall {k} a (b :: k). Const a b -> a
getConst (Const a s -> a) -> (s -> Const a s) -> s -> a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> Const a a) -> s -> Const a s
Lens' s a
ln a -> Const a a
forall {k} a (b :: k). a -> Const a b
Const
{-# INLINE view #-}
set :: Lens' s a -> a -> (s -> s)
set :: forall s a. Lens' s a -> a -> s -> s
set Lens' s a
ln a
x = Lens' s a -> (a -> a) -> s -> s
forall s a. Lens' s a -> (a -> a) -> s -> s
over (a -> f a) -> s -> f s
Lens' s a
ln (a -> a -> a
forall a b. a -> b -> a
const a
x)
{-# INLINE set #-}
over :: Lens' s a -> (a -> a) -> (s -> s)
over :: forall s a. Lens' s a -> (a -> a) -> s -> s
over Lens' s a
ln a -> a
f = Identity s -> s
forall a. Identity a -> a
runIdentity (Identity s -> s) -> (s -> Identity s) -> s -> s
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (a -> Identity a) -> s -> Identity s
Lens' s a
ln (a -> Identity a
forall a. a -> Identity a
Identity (a -> Identity a) -> (a -> a) -> a -> Identity a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> a
f)
{-# INLINE over #-}