path: root/src/Xanthous/Data/EntityMap.hs



{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE DeriveTraversable  #-}
{-# LANGUAGE TupleSections      #-}
{-# LANGUAGE TemplateHaskell    #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE DeriveFunctor      #-}
--------------------------------------------------------------------------------
module Xanthous.Data.EntityMap
  ( EntityMap
  , _EntityMap
  , EntityID
  , emptyEntityMap
  , insertAt
  , insertAtReturningID
  , fromEIDsAndPositioned
  , toEIDsAndPositioned
  , atPosition
  , atPositionWithIDs
  , positions
  , lookup
  , lookupWithPosition
  -- , positionedEntities
  , neighbors
  , Deduplicate(..)

  -- * debug
  , byID
  , byPosition

  ) where
--------------------------------------------------------------------------------
import Xanthous.Prelude hiding (lookup)
import Xanthous.Data
  ( Position
  , Positioned(..)
  , positioned
  , Neighbors(..)
  , neighborPositions
  )
import Xanthous.Orphans ()
import Xanthous.Util (EqEqProp(..))
--------------------------------------------------------------------------------
import Data.Monoid (Endo(..))
import Test.QuickCheck (Arbitrary(..))
import Test.QuickCheck.Checkers (EqProp)
--------------------------------------------------------------------------------
type EntityID = Word32
type NonNullVector a = NonNull (Vector a)

data EntityMap a where
  EntityMap ::
    { _byPosition :: Map Position (NonNullVector EntityID)
    , _byID       :: HashMap EntityID (Positioned a)
    , _lastID     :: EntityID
    } -> EntityMap a
  deriving stock (Functor, Foldable, Traversable, Generic)
deriving via (EqEqProp (EntityMap a)) instance Eq a => EqProp (EntityMap a)
makeLenses ''EntityMap

byIDInvariantError :: forall a. a
byIDInvariantError = error $ "Invariant violation: All EntityIDs in byPosition "
  <> "must point to entityIDs in byID"

instance Eq a => Eq (EntityMap a) where
  em₁ == em₂ = em₁ ^. _EntityMap == em₂ ^. _EntityMap

instance Show a => Show (EntityMap a) where
  show em = "_EntityMap # " <> show (em ^. _EntityMap)

instance Arbitrary a => Arbitrary (EntityMap a) where
  arbitrary = review _EntityMap <$> arbitrary

type instance Index (EntityMap a) = EntityID
type instance IxValue (EntityMap a) = (Positioned a)
instance Ixed (EntityMap a) where ix eid = at eid . traverse

instance At (EntityMap a) where
  at eid = lens (view $ byID . at eid) setter
    where
      setter :: EntityMap a -> Maybe (Positioned a) -> EntityMap a
      setter m Nothing = fromMaybe m $ do
        Positioned pos _ <- m ^. byID . at eid
        pure $ m
          & removeEIDAtPos pos
          & byID . at eid .~ Nothing
      setter m (Just pe@(Positioned pos _)) = m
        & (case lookupWithPosition eid m of
             Nothing -> id
             Just (Positioned origPos _) -> removeEIDAtPos origPos
          )
        & byID . at eid ?~ pe
        & byPosition . at pos %~ \case
            Nothing -> Just $ ncons eid mempty
            Just es -> Just $ eid <| es
      removeEIDAtPos pos =
        byPosition . at pos %~ (>>= fromNullable . nfilter (/= eid))

instance Semigroup (EntityMap a) where
  em₁ <> em₂ = alaf Endo foldMap (uncurry insertAt) (em₂ ^. _EntityMap) em₁

instance Monoid (EntityMap a) where
  mempty = emptyEntityMap

instance FunctorWithIndex EntityID EntityMap

instance FoldableWithIndex EntityID EntityMap

instance TraversableWithIndex EntityID EntityMap where
  itraversed = byID . itraversed . rmap sequenceA . distrib
  itraverse = itraverseOf itraversed

type instance Element (EntityMap a) = a
instance MonoFoldable (EntityMap a)

emptyEntityMap :: EntityMap a
emptyEntityMap = EntityMap mempty mempty 0

newtype Deduplicate a = Deduplicate (EntityMap a)
  deriving stock (Show, Traversable, Generic)
  deriving newtype (Eq, Functor, Foldable, EqProp, Arbitrary)

instance Semigroup (Deduplicate a) where
  (Deduplicate em₁) <> (Deduplicate em₂) =
    let _byID = em₁ ^. byID <> em₂ ^. byID
        _byPosition = mempty &~ do
          ifor_ _byID $ \eid (Positioned pos _) ->
            at pos %= \case
              Just eids -> Just $ eid <| eids
              Nothing -> Just $ ncons eid mempty
        _lastID = fromMaybe 1 $ maximumOf (ifolded . asIndex) _byID
    in Deduplicate EntityMap{..}


--------------------------------------------------------------------------------

_EntityMap :: Iso' (EntityMap a) [(Position, a)]
_EntityMap = iso hither yon
  where
    hither :: EntityMap a -> [(Position, a)]
    hither em = do
       (pos, eids) <- em ^. byPosition . _Wrapped
       eid <- toList eids
       ent <- em ^.. byID . at eid . folded . positioned
       pure (pos, ent)
    yon :: [(Position, a)] -> EntityMap a
    yon poses = alaf Endo foldMap (uncurry insertAt) poses emptyEntityMap


insertAtReturningID :: forall a. Position -> a -> EntityMap a -> (EntityID, EntityMap a)
insertAtReturningID pos e em =
  let (eid, em') = em & lastID <+~ 1
  in em'
     & byID . at eid ?~ Positioned pos e
     & byPosition . at pos %~ \case
       Nothing -> Just $ ncons eid mempty
       Just es -> Just $ eid <| es
     & (eid, )

insertAt :: forall a. Position -> a -> EntityMap a -> EntityMap a
insertAt pos e = snd . insertAtReturningID pos e

atPosition :: forall a. Position -> Lens' (EntityMap a) (Vector a)
atPosition pos = lens getter setter
  where
    getter em =
      let eids :: Vector EntityID
          eids = maybe mempty toNullable $ em ^. byPosition . at pos
      in getEIDAssume em <$> eids
    setter em Empty = em & byPosition . at pos .~ Nothing
    setter em entities = alaf Endo foldMap (insertAt pos) entities em

getEIDAssume :: EntityMap a -> EntityID -> a
getEIDAssume em eid = fromMaybe byIDInvariantError
  $ em ^? byID . ix eid . positioned

atPositionWithIDs :: Position -> EntityMap a -> Vector (EntityID, Positioned a)
atPositionWithIDs pos em =
  let eids = maybe mempty toNullable $ em ^. byPosition . at pos
  in (id &&& Positioned pos . getEIDAssume em) <$> eids

fromEIDsAndPositioned
  :: (MonoFoldable mono, Element mono ~ (EntityID, Positioned a))
  => mono
  -> EntityMap a
fromEIDsAndPositioned eps = newLastID $ alaf Endo foldMap insert' eps mempty
  where
    insert' (eid, pe@(Positioned pos _))
      = (byID . at eid ?~ pe)
      . (byPosition . at pos %~ \case
            Just eids -> Just $ eid <| eids
            Nothing   -> Just $ ncons eid mempty
        )
    newLastID em = em & lastID
      .~ fromMaybe 1
         (maximumOf (ifolded . asIndex) (em ^. byID))

toEIDsAndPositioned :: EntityMap a -> [(EntityID, Positioned a)]
toEIDsAndPositioned = itoListOf $ byID . ifolded

positions :: EntityMap a -> [Position]
positions = toListOf $ byPosition . to keys . folded

lookupWithPosition :: EntityID -> EntityMap a -> Maybe (Positioned a)
lookupWithPosition eid = view $ byID . at eid

lookup :: EntityID -> EntityMap a -> Maybe a
lookup eid = fmap (view positioned) . lookupWithPosition eid

-- unlawful :(
-- positionedEntities :: IndexedTraversal EntityID (EntityMap a) (EntityMap b) (Positioned a) (Positioned b)
-- positionedEntities = byID . itraversed

neighbors :: Position -> EntityMap a -> Neighbors (Vector a)
neighbors pos em = (\p -> view (atPosition p) em) <$> neighborPositions pos

--------------------------------------------------------------------------------
makeWrapped ''Deduplicate
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE DeriveTraversable  #-}
{-# LANGUAGE TupleSections      #-}
{-# LANGUAGE TemplateHaskell    #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE DeriveFunctor      #-}
--------------------------------------------------------------------------------
module Xanthous.Data.EntityMap
  ( EntityMap
  , _EntityMap
  , EntityID
  , emptyEntityMap
  , insertAt
  , insertAtReturningID
  , fromEIDsAndPositioned
  , toEIDsAndPositioned
  , atPosition
  , atPositionWithIDs
  , positions
  , lookup
  , lookupWithPosition
  -- , positionedEntities
  , neighbors
  , Deduplicate(..)

  -- * debug
  , byID
  , byPosition

  ) where
--------------------------------------------------------------------------------
import Xanthous.Prelude hiding (lookup)
import Xanthous.Data
  ( Position
  , Positioned(..)
  , positioned
  , Neighbors(..)
  , neighborPositions
  )
import Xanthous.Orphans ()
import Xanthous.Util (EqEqProp(..))
--------------------------------------------------------------------------------
import Data.Monoid (Endo(..))
import Test.QuickCheck (Arbitrary(..))
import Test.QuickCheck.Checkers (EqProp)
--------------------------------------------------------------------------------
type EntityID = Word32
type NonNullVector a = NonNull (Vector a)

data EntityMap a where
  EntityMap ::
    { _byPosition :: Map Position (NonNullVector EntityID)
    , _byID       :: HashMap EntityID (Positioned a)
    , _lastID     :: EntityID
    } -> EntityMap a
  deriving stock (Functor, Foldable, Traversable, Generic)
deriving via (EqEqProp (EntityMap a)) instance Eq a => EqProp (EntityMap a)
makeLenses ''EntityMap

byIDInvariantError :: forall a. a
byIDInvariantError = error $ "Invariant violation: All EntityIDs in byPosition "
  <> "must point to entityIDs in byID"

instance Eq a => Eq (EntityMap a) where
  em₁ == em₂ = em₁ ^. _EntityMap == em₂ ^. _EntityMap

instance Show a => Show (EntityMap a) where
  show em = "_EntityMap # " <> show (em ^. _EntityMap)

instance Arbitrary a => Arbitrary (EntityMap a) where
  arbitrary = review _EntityMap <$> arbitrary

type instance Index (EntityMap a) = EntityID
type instance IxValue (EntityMap a) = (Positioned a)
instance Ixed (EntityMap a) where ix eid = at eid . traverse

instance At (EntityMap a) where
  at eid = lens (view $ byID . at eid) setter
    where
      setter :: EntityMap a -> Maybe (Positioned a) -> EntityMap a
      setter m Nothing = fromMaybe m $ do
        Positioned pos _ <- m ^. byID . at eid
        pure $ m
          & removeEIDAtPos pos
          & byID . at eid .~ Nothing
      setter m (Just pe@(Positioned pos _)) = m
        & (case lookupWithPosition eid m of
             Nothing -> id
             Just (Positioned origPos _) -> removeEIDAtPos origPos
          )
        & byID . at eid ?~ pe
        & byPosition . at pos %~ \case
            Nothing -> Just $ ncons eid mempty
            Just es -> Just $ eid <| es
      removeEIDAtPos pos =
        byPosition . at pos %~ (>>= fromNullable . nfilter (/= eid))

instance Semigroup (EntityMap a) where
  em₁ <> em₂ = alaf Endo foldMap (uncurry insertAt) (em₂ ^. _EntityMap) em₁

instance Monoid (EntityMap a) where
  mempty = emptyEntityMap

instance FunctorWithIndex EntityID EntityMap

instance FoldableWithIndex EntityID EntityMap

instance TraversableWithIndex EntityID EntityMap where
  itraversed = byID . itraversed . rmap sequenceA . distrib
  itraverse = itraverseOf itraversed

type instance Element (EntityMap a) = a
instance MonoFoldable (EntityMap a)

emptyEntityMap :: EntityMap a
emptyEntityMap = EntityMap mempty mempty 0

newtype Deduplicate a = Deduplicate (EntityMap a)
  deriving stock (Show, Traversable, Generic)
  deriving newtype (Eq, Functor, Foldable, EqProp, Arbitrary)

instance Semigroup (Deduplicate a) where
  (Deduplicate em₁) <> (Deduplicate em₂) =
    let _byID = em₁ ^. byID <> em₂ ^. byID
        _byPosition = mempty &~ do
          ifor_ _byID $ \eid (Positioned pos _) ->
            at pos %= \case
              Just eids -> Just $ eid <| eids
              Nothing -> Just $ ncons eid mempty
        _lastID = fromMaybe 1 $ maximumOf (ifolded . asIndex) _byID
    in Deduplicate EntityMap{..}


--------------------------------------------------------------------------------

_EntityMap :: Iso' (EntityMap a) [(Position, a)]
_EntityMap = iso hither yon
  where
    hither :: EntityMap a -> [(Position, a)]
    hither em = do
       (pos, eids) <- em ^. byPosition . _Wrapped
       eid <- toList eids
       ent <- em ^.. byID . at eid . folded . positioned
       pure (pos, ent)
    yon :: [(Position, a)] -> EntityMap a
    yon poses = alaf Endo foldMap (uncurry insertAt) poses emptyEntityMap


insertAtReturningID :: forall a. Position -> a -> EntityMap a -> (EntityID, EntityMap a)
insertAtReturningID pos e em =
  let (eid, em') = em & lastID <+~ 1
  in em'
     & byID . at eid ?~ Positioned pos e
     & byPosition . at pos %~ \case
       Nothing -> Just $ ncons eid mempty
       Just es -> Just $ eid <| es
     & (eid, )

insertAt :: forall a. Position -> a -> EntityMap a -> EntityMap a
insertAt pos e = snd . insertAtReturningID pos e

atPosition :: forall a. Position -> Lens' (EntityMap a) (Vector a)
atPosition pos = lens getter setter
  where
    getter em =
      let eids :: Vector EntityID
          eids = maybe mempty toNullable $ em ^. byPosition . at pos
      in getEIDAssume em <$> eids
    setter em Empty = em & byPosition . at pos .~ Nothing
    setter em entities = alaf Endo foldMap (insertAt pos) entities em

getEIDAssume :: EntityMap a -> EntityID -> a
getEIDAssume em eid = fromMaybe byIDInvariantError
  $ em ^? byID . ix eid . positioned

atPositionWithIDs :: Position -> EntityMap a -> Vector (EntityID, Positioned a)
atPositionWithIDs pos em =
  let eids = maybe mempty toNullable $ em ^. byPosition . at pos
  in (id &&& Positioned pos . getEIDAssume em) <$> eids

fromEIDsAndPositioned
  :: (MonoFoldable mono, Element mono ~ (EntityID, Positioned a))
  => mono
  -> EntityMap a
fromEIDsAndPositioned eps = newLastID $ alaf Endo foldMap insert' eps mempty
  where
    insert' (eid, pe@(Positioned pos _))
      = (byID . at eid ?~ pe)
      . (byPosition . at pos %~ \case
            Just eids -> Just $ eid <| eids
            Nothing   -> Just $ ncons eid mempty
        )
    newLastID em = em & lastID
      .~ fromMaybe 1
         (maximumOf (ifolded . asIndex) (em ^. byID))

toEIDsAndPositioned :: EntityMap a -> [(EntityID, Positioned a)]
toEIDsAndPositioned = itoListOf $ byID . ifolded

positions :: EntityMap a -> [Position]
positions = toListOf $ byPosition . to keys . folded

lookupWithPosition :: EntityID -> EntityMap a -> Maybe (Positioned a)
lookupWithPosition eid = view $ byID . at eid

lookup :: EntityID -> EntityMap a -> Maybe a
lookup eid = fmap (view positioned) . lookupWithPosition eid

-- unlawful :(
-- positionedEntities :: IndexedTraversal EntityID (EntityMap a) (EntityMap b) (Positioned a) (Positioned b)
-- positionedEntities = byID . itraversed

neighbors :: Position -> EntityMap a -> Neighbors (Vector a)
neighbors pos em = (\p -> view (atPosition p) em) <$> neighborPositions pos

--------------------------------------------------------------------------------
makeWrapped ''Deduplicate