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-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/App.hs45
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/Entities.hs68
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/EntityChar.hs56
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/EntityMap.hs277
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/EntityMap/Graphics.hs72
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/Levels.hs180
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/Memo.hs98
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/NestedMap.hs227
-rw-r--r--users/grfn/xanthous/src/Xanthous/Data/VectorBag.hs100
9 files changed, 1123 insertions, 0 deletions
diff --git a/users/grfn/xanthous/src/Xanthous/Data/App.hs b/users/grfn/xanthous/src/Xanthous/Data/App.hs
new file mode 100644
index 000000000000..a2cfcb8001cb
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/App.hs
@@ -0,0 +1,45 @@
+--------------------------------------------------------------------------------
+module Xanthous.Data.App
+  ( Panel(..)
+  , ResourceName(..)
+  , AppEvent(..)
+  ) where
+--------------------------------------------------------------------------------
+import Xanthous.Prelude
+--------------------------------------------------------------------------------
+import Test.QuickCheck
+import Test.QuickCheck.Instances.Text ()
+import Data.Aeson (ToJSON, FromJSON)
+--------------------------------------------------------------------------------
+import Xanthous.Util.QuickCheck
+--------------------------------------------------------------------------------
+
+-- | Enum for "panels" displayed in the game's UI.
+data Panel
+  = -- | A panel displaying the character's inventory
+    InventoryPanel
+  | -- | A panel describing an item in the inventory in detail
+    --
+    -- The argument is the full description of the item
+    ItemDescriptionPanel Text
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function, ToJSON, FromJSON)
+  deriving Arbitrary via GenericArbitrary Panel
+
+
+data ResourceName
+  = MapViewport -- ^ The main viewport where we display the game content
+  | Character   -- ^ The character
+  | MessageBox  -- ^ The box where we display messages to the user
+  | Prompt      -- ^ The game's prompt
+  | Panel Panel -- ^ A panel in the game
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function, ToJSON, FromJSON)
+  deriving Arbitrary via GenericArbitrary ResourceName
+
+data AppEvent
+  = AutoContinue -- ^ Continue whatever autocommand has been requested by the
+                 --   user
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function, ToJSON, FromJSON)
+  deriving Arbitrary via GenericArbitrary AppEvent
diff --git a/users/grfn/xanthous/src/Xanthous/Data/Entities.hs b/users/grfn/xanthous/src/Xanthous/Data/Entities.hs
new file mode 100644
index 000000000000..39953410f2f3
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/Entities.hs
@@ -0,0 +1,68 @@
+{-# LANGUAGE TemplateHaskell #-}
+{-# LANGUAGE RecordWildCards #-}
+--------------------------------------------------------------------------------
+module Xanthous.Data.Entities
+  ( -- * Collisions
+    Collision(..)
+  , _Stop
+  , _Combat
+    -- * Entity Attributes
+  , EntityAttributes(..)
+  , blocksVision
+  , blocksObject
+  , collision
+  , defaultEntityAttributes
+  ) where
+--------------------------------------------------------------------------------
+import           Xanthous.Prelude
+--------------------------------------------------------------------------------
+import           Data.Aeson (ToJSON(..), FromJSON(..), (.:?), (.!=), withObject)
+import           Data.Aeson.Generic.DerivingVia
+import           Xanthous.Util.QuickCheck (GenericArbitrary(..))
+import           Test.QuickCheck
+--------------------------------------------------------------------------------
+
+data Collision
+  = Stop   -- ^ Can't move through this
+  | Combat -- ^ Moving into this equates to hitting it with a stick
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function)
+  deriving Arbitrary via GenericArbitrary Collision
+  deriving (ToJSON, FromJSON)
+       via WithOptions '[ AllNullaryToStringTag 'True ]
+           Collision
+makePrisms ''Collision
+
+-- | Attributes of an entity
+data EntityAttributes = EntityAttributes
+  { _blocksVision :: Bool
+    -- | Does this entity block a large object from being put in the same tile as
+    -- it - eg a a door being closed on it
+  , _blocksObject :: Bool
+    -- | What type of collision happens when moving into this entity?
+  , _collision :: Collision
+  }
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function)
+  deriving Arbitrary via GenericArbitrary EntityAttributes
+  deriving (ToJSON)
+       via WithOptions '[ FieldLabelModifier '[Drop 1] ]
+           EntityAttributes
+makeLenses ''EntityAttributes
+
+instance FromJSON EntityAttributes where
+  parseJSON = withObject "EntityAttributes" $ \o -> do
+    _blocksVision <- o .:? "blocksVision"
+                      .!= _blocksVision defaultEntityAttributes
+    _blocksObject <- o .:? "blocksObject"
+                      .!= _blocksObject defaultEntityAttributes
+    _collision    <- o .:? "collision"
+                      .!= _collision defaultEntityAttributes
+    pure EntityAttributes {..}
+
+defaultEntityAttributes :: EntityAttributes
+defaultEntityAttributes = EntityAttributes
+  { _blocksVision = False
+  , _blocksObject = False
+  , _collision    = Stop
+  }
diff --git a/users/grfn/xanthous/src/Xanthous/Data/EntityChar.hs b/users/grfn/xanthous/src/Xanthous/Data/EntityChar.hs
new file mode 100644
index 000000000000..855a3462daee
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/EntityChar.hs
@@ -0,0 +1,56 @@
+{-# LANGUAGE RoleAnnotations      #-}
+{-# LANGUAGE RecordWildCards      #-}
+{-# LANGUAGE UndecidableInstances #-}
+{-# LANGUAGE GADTs                #-}
+{-# LANGUAGE AllowAmbiguousTypes  #-}
+{-# LANGUAGE TemplateHaskell      #-}
+--------------------------------------------------------------------------------
+module Xanthous.Data.EntityChar
+  ( EntityChar(..)
+  , HasChar(..)
+  , HasStyle(..)
+  ) where
+--------------------------------------------------------------------------------
+import           Xanthous.Prelude hiding ((.=))
+--------------------------------------------------------------------------------
+import qualified Graphics.Vty.Attributes as Vty
+import           Test.QuickCheck
+import           Data.Aeson
+--------------------------------------------------------------------------------
+import           Xanthous.Orphans ()
+import           Xanthous.Util.QuickCheck (GenericArbitrary(..))
+--------------------------------------------------------------------------------
+
+
+class HasChar s a | s -> a where
+  char :: Lens' s a
+  {-# MINIMAL char #-}
+
+data EntityChar = EntityChar
+  { _char :: Char
+  , _style :: Vty.Attr
+  }
+  deriving stock (Show, Eq, Ord, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function)
+  deriving Arbitrary via GenericArbitrary EntityChar
+makeFieldsNoPrefix ''EntityChar
+
+instance FromJSON EntityChar where
+  parseJSON (String (chr :< Empty)) = pure $ EntityChar chr Vty.defAttr
+  parseJSON (Object o) = do
+    (EntityChar _char _) <- o .: "char"
+    _style <- o .:? "style" .!= Vty.defAttr
+    pure EntityChar {..}
+  parseJSON _ = fail "Invalid type, expected string or object"
+
+instance ToJSON EntityChar where
+  toJSON (EntityChar chr styl)
+    | styl == Vty.defAttr = String $ chr <| Empty
+    | otherwise = object
+      [ "char" .= chr
+      , "style" .= styl
+      ]
+
+instance IsString EntityChar where
+  fromString [ch] = EntityChar ch Vty.defAttr
+  fromString _ = error "Entity char must only be a single character"
diff --git a/users/grfn/xanthous/src/Xanthous/Data/EntityMap.hs b/users/grfn/xanthous/src/Xanthous/Data/EntityMap.hs
new file mode 100644
index 000000000000..1d9c4d46cdc9
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/EntityMap.hs
@@ -0,0 +1,277 @@
+{-# 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
+  , positionOf
+  -- , positionedEntities
+  , neighbors
+  , Deduplicate(..)
+
+  -- * debug
+  , byID
+  , byPosition
+  , lastID
+
+  ) where
+--------------------------------------------------------------------------------
+import Xanthous.Prelude hiding (lookup)
+import Xanthous.Data
+  ( Position
+  , Positioned(..)
+  , positioned
+  , Neighbors(..)
+  , neighborPositions, position
+  )
+import Xanthous.Data.VectorBag
+import Xanthous.Orphans ()
+import Xanthous.Util (EqEqProp(..))
+--------------------------------------------------------------------------------
+import Data.Monoid (Endo(..))
+import Test.QuickCheck (Arbitrary(..), CoArbitrary, Function)
+import Test.QuickCheck.Checkers (EqProp)
+import Test.QuickCheck.Instances.UnorderedContainers ()
+import Test.QuickCheck.Instances.Vector ()
+import Text.Show (showString, showParen)
+import Data.Aeson
+--------------------------------------------------------------------------------
+
+type EntityID = Word32
+type NonNullSet a = NonNull (Set a)
+
+data EntityMap a where
+  EntityMap ::
+    { _byPosition :: Map Position (NonNullSet EntityID)
+    , _byID       :: HashMap EntityID (Positioned a)
+    , _lastID     :: EntityID
+    } -> EntityMap a
+  deriving stock (Functor, Foldable, Traversable, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function)
+deriving via (EqEqProp (EntityMap a)) instance (Eq a, Ord a) => EqProp (EntityMap a)
+makeLenses ''EntityMap
+
+instance ToJSON a => ToJSON (EntityMap a) where
+  toJSON = toJSON . toEIDsAndPositioned
+
+
+instance FromJSON a => FromJSON (EntityMap a) where
+  parseJSON = fmap (fromEIDsAndPositioned @[_]) . parseJSON
+
+byIDInvariantError :: forall a. a
+byIDInvariantError = error $ "Invariant violation: All EntityIDs in byPosition "
+  <> "must point to entityIDs in byID"
+
+instance (Ord a, Eq a) => Eq (EntityMap a) where
+  -- em₁ == em₂ = em₁ ^. _EntityMap == em₂ ^. _EntityMap
+  (==) = (==) `on` view (_EntityMap . to sort)
+
+deriving stock instance (Ord a) => Ord (EntityMap a)
+
+instance Show a => Show (EntityMap a) where
+  showsPrec pr em
+    = showParen (pr > 10)
+    $ showString
+    . ("fromEIDsAndPositioned " <>)
+    . show
+    . toEIDsAndPositioned
+    $ em
+
+instance Arbitrary a => Arbitrary (EntityMap a) where
+  arbitrary = review _EntityMap <$> arbitrary
+  shrink em = review _EntityMap <$> shrink (em ^. _EntityMap)
+
+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 $ opoint eid
+            Just es -> Just $ ninsertSet eid es
+      removeEIDAtPos pos =
+        byPosition . at pos %~ (>>= fromNullable . ndeleteSet 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 $ ninsertSet eid eids
+              Nothing -> Just $ opoint eid
+        _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 $ opoint eid
+       Just es -> Just $ ninsertSet eid es
+     & (eid, )
+
+insertAt :: forall a. Position -> a -> EntityMap a -> EntityMap a
+insertAt pos e = snd . insertAtReturningID pos e
+
+atPosition :: forall a. (Ord a, Show a) => Position -> Lens' (EntityMap a) (VectorBag a)
+atPosition pos = lens getter setter
+  where
+    getter em =
+      let eids :: VectorBag EntityID
+          eids = maybe mempty (VectorBag . toVector . toNullable)
+                 $ em ^. byPosition . at pos
+      in getEIDAssume em <$> eids
+    setter em Empty = em & byPosition . at pos .~ Nothing
+    setter em (sort -> entities) =
+      let origEIDs = maybe Empty toNullable $ em ^. byPosition . at pos
+          origEntitiesWithIDs =
+            sortOn snd $ toList origEIDs <&> \eid -> (eid, getEIDAssume em eid)
+          go alles₁@((eid, e₁) :< es₁) -- orig
+             (e₂ :< es₂)               -- new
+            | e₁ == e₂
+              -- same, do nothing
+            = let (eids, lastEID, byID') = go es₁ es₂
+              in (insertSet eid eids, lastEID, byID')
+            | otherwise
+              -- e₂ is new, generate a new ID for it
+            = let (eids, lastEID, byID') = go alles₁ es₂
+                  eid' = succ lastEID
+              in (insertSet eid' eids, eid', byID' & at eid' ?~ Positioned pos e₂)
+          go Empty Empty = (mempty, em ^. lastID, em ^. byID)
+          go orig Empty =
+            let byID' = foldr deleteMap (em ^. byID) $ map fst orig
+            in (mempty, em ^. lastID, byID')
+          go Empty (new :< news) =
+            let (eids, lastEID, byID') = go Empty news
+                eid' = succ lastEID
+            in (insertSet eid' eids, eid', byID' & at eid' ?~ Positioned pos new)
+          go _ _ = error "unreachable"
+          (eidsAtPosition, newLastID, newByID) = go origEntitiesWithIDs entities
+      in em & byPosition . at pos .~ fromNullable eidsAtPosition
+            & byID .~ newByID
+            & lastID .~ newLastID
+
+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 (toVector . toNullable)
+             $ em ^. byPosition . at pos
+  in (id &&& Positioned pos . getEIDAssume em) <$> eids
+
+fromEIDsAndPositioned
+  :: forall mono a. (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 $ ninsertSet eid eids
+            Nothing   -> Just $ opoint eid
+        )
+    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 :: (Ord a, Show a) => Position -> EntityMap a -> Neighbors (VectorBag a)
+neighbors pos em = (\p -> view (atPosition p) em) <$> neighborPositions pos
+
+-- | Traversal to the position of the entity with the given ID
+positionOf :: EntityID -> Traversal' (EntityMap a) Position
+positionOf eid = ix eid . position
+
+--------------------------------------------------------------------------------
+makeWrapped ''Deduplicate
diff --git a/users/grfn/xanthous/src/Xanthous/Data/EntityMap/Graphics.hs b/users/grfn/xanthous/src/Xanthous/Data/EntityMap/Graphics.hs
new file mode 100644
index 000000000000..1398c611cf20
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/EntityMap/Graphics.hs
@@ -0,0 +1,72 @@
+--------------------------------------------------------------------------------
+module Xanthous.Data.EntityMap.Graphics
+  ( visiblePositions
+  , visibleEntities
+  , lineOfSight
+  , linesOfSight
+  , canSee
+  ) where
+--------------------------------------------------------------------------------
+import Xanthous.Prelude hiding (lines)
+--------------------------------------------------------------------------------
+import Xanthous.Util (takeWhileInclusive)
+import Xanthous.Data
+import Xanthous.Data.Entities
+import Xanthous.Data.EntityMap
+import Xanthous.Game.State
+import Xanthous.Util.Graphics (circle, line)
+--------------------------------------------------------------------------------
+
+-- | Returns a set of positions that are visible, when taking into account
+-- 'blocksVision', from the given position, within the given radius.
+visiblePositions
+  :: Entity e
+  => Position
+  -> Word -- ^ Vision radius
+  -> EntityMap e
+  -> Set Position
+visiblePositions pos radius
+  = setFromList . positions . visibleEntities pos radius
+
+-- | Returns a list of entities on the *line of sight* from the first position
+-- to the second position
+lineOfSight
+  :: forall e. Entity e
+  => Position -- ^ Origin
+  -> Position -- ^ Destination
+  -> EntityMap e
+  -> [(Position, Vector (EntityID, e))]
+lineOfSight (view _Position -> origin) (view _Position -> destination) em =
+  takeWhileInclusive (none (view blocksVision . entityAttributes . snd) . snd)
+    $ getPositionedAt <$> line origin destination
+  where
+    getPositionedAt :: V2 Int -> (Position, Vector (EntityID, e))
+    getPositionedAt (review _Position -> p) =
+      (p, over _2 (view positioned) <$> atPositionWithIDs p em)
+
+-- | Returns a list of individual lines of sight, each of which is a list of
+-- entities at positions on that line of sight
+linesOfSight
+  :: forall e. Entity e
+  => Position    -- ^ Centerpoint
+  -> Word        -- ^ Radius
+  -> EntityMap e
+  -> [[(Position, Vector (EntityID, e))]]
+linesOfSight pos visionRadius em =
+  radius <&> \edge -> lineOfSight pos (_Position # edge) em
+  where
+    radius = circle (pos ^. _Position) $ fromIntegral visionRadius
+
+-- | Given a point and a radius of vision, returns a list of all entities that
+-- are *visible* (eg, not blocked by an entity that obscures vision) from that
+-- point
+visibleEntities :: Entity e => Position -> Word -> EntityMap e -> EntityMap e
+visibleEntities pos visionRadius
+  = fromEIDsAndPositioned
+  . foldMap (\(p, es) -> over _2 (Positioned p) <$> es)
+  . fold
+  . linesOfSight pos visionRadius
+
+canSee :: Entity e => (e -> Bool) -> Position -> Word -> EntityMap e -> Bool
+canSee match pos radius = any match . visibleEntities pos radius
+-- ^ this might be optimizable
diff --git a/users/grfn/xanthous/src/Xanthous/Data/Levels.hs b/users/grfn/xanthous/src/Xanthous/Data/Levels.hs
new file mode 100644
index 000000000000..13251d8afdf2
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/Levels.hs
@@ -0,0 +1,180 @@
+{-# LANGUAGE StandaloneDeriving #-}
+{-# LANGUAGE RecordWildCards #-}
+{-# LANGUAGE TemplateHaskell #-}
+--------------------------------------------------------------------------------
+module Xanthous.Data.Levels
+  ( Levels
+  , allLevels
+  , numLevels
+  , nextLevel
+  , prevLevel
+  , mkLevels1
+  , mkLevels
+  , oneLevel
+  , current
+  , ComonadStore(..)
+  ) where
+--------------------------------------------------------------------------------
+import           Xanthous.Prelude hiding ((<.>), Empty, foldMap)
+import           Xanthous.Util (between, EqProp, EqEqProp(..))
+import           Xanthous.Util.Comonad (current)
+import           Xanthous.Orphans ()
+--------------------------------------------------------------------------------
+import           Control.Comonad.Store
+import           Control.Comonad.Store.Zipper
+import           Data.Aeson (ToJSON(..), FromJSON(..))
+import           Data.Aeson.Generic.DerivingVia
+import           Data.Functor.Apply
+import           Data.Foldable (foldMap)
+import           Data.List.NonEmpty (NonEmpty)
+import qualified Data.List.NonEmpty as NE
+import           Data.Maybe (fromJust)
+import           Data.Sequence (Seq((:<|), Empty))
+import           Data.Semigroup.Foldable.Class
+import           Data.Text (replace)
+import           Test.QuickCheck
+--------------------------------------------------------------------------------
+
+-- | Collection of levels plus a pointer to the current level
+--
+-- Navigation is via the 'Comonad' instance. We can get the current level with
+-- 'extract':
+--
+--     extract @Levels :: Levels level -> level
+--
+-- For access to and modification of the level, use
+-- 'Xanthous.Util.Comonad.current'
+newtype Levels a = Levels { levelZipper :: Zipper Seq a }
+    deriving stock (Generic)
+    deriving (Functor, Comonad, Foldable) via (Zipper Seq)
+
+type instance Element (Levels a) = a
+instance MonoFoldable (Levels a)
+instance MonoFunctor (Levels a)
+instance MonoTraversable (Levels a)
+
+instance ComonadStore Word Levels where
+  pos = toEnum . pos . levelZipper
+  peek i = peek (fromEnum i) . levelZipper
+
+instance Traversable Levels where
+  traverse f (Levels z) = Levels <$> traverse f z
+
+instance Foldable1 Levels
+
+instance Traversable1 Levels where
+  traverse1 f levs@(Levels z) = seek (pos levs) . partialMkLevels <$> go (unzipper z)
+    where
+      go Empty = error "empty seq, unreachable"
+      go (x :<| xs) = (<|) <$> f x <.> go xs
+
+-- | Always takes the position of the latter element
+instance Semigroup (Levels a) where
+  levs₁ <> levs₂
+    = seek (pos levs₂)
+    . partialMkLevels
+    $ allLevels levs₁ <> allLevels levs₂
+
+-- | The number of levels stored in 'Levels'
+--
+-- Equivalent to 'Data.Foldable.length', but likely faster
+numLevels :: Levels a -> Word
+numLevels = toEnum . size . levelZipper
+
+-- | Make Levels from a Seq. Throws an error if the seq is not empty
+partialMkLevels :: Seq a -> Levels a
+partialMkLevels = Levels . fromJust . zipper
+
+-- | Make Levels from a possibly-empty structure
+mkLevels :: Foldable1 f => f level -> Maybe (Levels level)
+mkLevels = fmap Levels . zipper . foldMap pure
+
+-- | Make Levels from a non-empty structure
+mkLevels1 :: Foldable1 f => f level -> Levels level
+mkLevels1 = fromJust . mkLevels
+
+oneLevel :: a -> Levels a
+oneLevel = mkLevels1 . Identity
+
+-- | Get a sequence of all the levels
+allLevels :: Levels a -> Seq a
+allLevels = unzipper . levelZipper
+
+-- | Step to the next level, generating a new level if necessary using the given
+-- applicative action
+nextLevel
+  :: Applicative m
+  => m level -- ^ Generate a new level, if necessary
+  -> Levels level
+  -> m (Levels level)
+nextLevel genLevel levs
+  | succ (pos levs) < numLevels levs
+  = pure $ seeks succ levs
+  | otherwise
+  = genLevel <&> \level ->
+      seek (pos levs + 1) . partialMkLevels $ allLevels levs |> level
+
+-- | Go to the previous level. Returns Nothing if 'pos' is 0
+prevLevel :: Levels level -> Maybe (Levels level)
+prevLevel levs | pos levs == 0 = Nothing
+               | otherwise = Just $ seeks pred levs
+
+--------------------------------------------------------------------------------
+
+-- | alternate, slower representation of Levels we can Iso into to perform
+-- various operations
+data AltLevels a = AltLevels
+  { _levels :: NonEmpty a
+  , _currentLevel :: Word -- ^ invariant: is within the bounds of _levels
+  }
+  deriving stock (Show, Eq, Generic)
+  deriving anyclass (NFData, CoArbitrary, Function)
+  deriving (ToJSON, FromJSON)
+       via WithOptions '[ FieldLabelModifier '[Drop 1] ]
+           (AltLevels a)
+makeLenses ''AltLevels
+
+alt :: Iso (Levels a) (Levels b) (AltLevels a) (AltLevels b)
+alt = iso hither yon
+  where
+    hither levs = AltLevels (NE.fromList . toList $ allLevels levs) (pos levs)
+    yon (AltLevels levs curr) = seek curr $ mkLevels1 levs
+
+instance Eq a => Eq (Levels a) where
+  (==) = (==) `on` view alt
+
+deriving via EqEqProp (Levels a) instance Eq a => EqProp (Levels a)
+
+instance Show a => Show (Levels a) where
+  show = unpack . replace "AltLevels" "Levels" . pack . show . view alt
+
+instance NFData a => NFData (Levels a) where
+  rnf = rnf . view alt
+
+instance ToJSON a => ToJSON (Levels a) where
+  toJSON = toJSON . view alt
+
+instance FromJSON a => FromJSON (Levels a) where
+  parseJSON = fmap (review alt) . parseJSON
+
+instance Arbitrary a => Arbitrary (AltLevels a) where
+  arbitrary = do
+    _levels <- arbitrary
+    _currentLevel <- choose (0, pred . toEnum . length $ _levels)
+    pure AltLevels {..}
+  shrink als = do
+    _levels <- shrink $ als ^. levels
+    _currentLevel <- filter (between 0 $ pred . toEnum . length $ _levels)
+                    $ shrink $ als ^. currentLevel
+    pure AltLevels {..}
+
+
+instance Arbitrary a => Arbitrary (Levels a) where
+  arbitrary = review alt <$> arbitrary
+  shrink = fmap (review alt) . shrink . view alt
+
+instance CoArbitrary a => CoArbitrary (Levels a) where
+  coarbitrary = coarbitrary . view alt
+
+instance Function a => Function (Levels a) where
+  function = functionMap (view alt) (review alt)
diff --git a/users/grfn/xanthous/src/Xanthous/Data/Memo.hs b/users/grfn/xanthous/src/Xanthous/Data/Memo.hs
new file mode 100644
index 000000000000..2b2ee0f96028
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/Memo.hs
@@ -0,0 +1,98 @@
+--------------------------------------------------------------------------------
+-- | Memoized values
+--------------------------------------------------------------------------------
+module Xanthous.Data.Memo
+  ( Memoized(UnMemoized)
+  , memoizeWith
+  , getMemoized
+  , runMemoized
+  , fillWith
+  , fillWithM
+  ) where
+--------------------------------------------------------------------------------
+import Xanthous.Prelude
+import Data.Aeson (FromJSON, ToJSON)
+import Test.QuickCheck (Arbitrary (arbitrary), oneof, CoArbitrary, Function)
+import Test.QuickCheck.Checkers (EqProp)
+import Xanthous.Util (EqEqProp(EqEqProp))
+import Control.Monad.State.Class (MonadState)
+--------------------------------------------------------------------------------
+
+-- | A memoized value, keyed by a key
+--
+-- If key is different than what is stored here, then val is invalid
+data Memoized key val = Memoized key val | UnMemoized
+  deriving stock (Show, Eq, Generic)
+  deriving anyclass (Hashable, FromJSON, ToJSON, NFData, CoArbitrary, Function)
+  deriving EqProp via EqEqProp (Memoized key val)
+
+instance (Arbitrary k, Arbitrary v) => Arbitrary (Memoized k v) where
+  arbitrary = oneof [ pure UnMemoized
+                    , Memoized <$> arbitrary <*> arbitrary
+                    ]
+
+-- | Construct a memoized value with the given key
+memoizeWith :: forall key val. key -> val -> Memoized key val
+memoizeWith = Memoized
+{-# INLINE memoizeWith #-}
+
+-- | Retrieve a memoized value providing the key. If the value is unmemoized or
+-- the keys do not match, returns Nothing.
+--
+-- >>> getMemoized 1 (memoizeWith @Int @Int 1 2)
+-- Just 2
+--
+-- >>> getMemoized 2 (memoizeWith @Int @Int 1 2)
+-- Nothing
+--
+-- >>> getMemoized 1 (UnMemoized :: Memoized Int Int)
+-- Nothing
+getMemoized :: Eq key => key -> Memoized key val -> Maybe val
+getMemoized key (Memoized key' v)
+  | key == key' = Just v
+  | otherwise = Nothing
+getMemoized _ UnMemoized = Nothing
+{-# INLINE getMemoized #-}
+
+-- | Get a memoized value using an applicative action to obtain the key
+runMemoized
+  :: (Eq key, Applicative m)
+  => Memoized key val
+  -> m key
+  -> m (Maybe val)
+runMemoized m mk = getMemoized <$> mk <*> pure m
+
+-- | In a monadic state containing a 'MemoState', look up the current memoized
+-- target of some lens keyed by k, filling it with v if not present and
+-- returning either the new or old value
+fillWith
+  :: forall m s k v.
+    (MonadState s m, Eq k)
+  => Lens' s (Memoized k v)
+  -> k
+  -> v
+  -> m v
+fillWith l k v' = do
+  uses l (getMemoized k) >>= \case
+    Just v -> pure v
+    Nothing -> do
+      l .= memoizeWith k v'
+      pure v'
+
+-- | In a monadic state, look up the current memoized target of some lens keyed
+-- by k, filling it with the result of some monadic action v if not present and
+-- returning either the new or old value
+fillWithM
+  :: forall m s k v.
+    (MonadState s m, Eq k)
+  => Lens' s (Memoized k v)
+  -> k
+  -> m v
+  -> m v
+fillWithM l k mv = do
+  uses l (getMemoized k) >>= \case
+    Just v -> pure v
+    Nothing -> do
+      v' <- mv
+      l .= memoizeWith k v'
+      pure v'
diff --git a/users/grfn/xanthous/src/Xanthous/Data/NestedMap.hs b/users/grfn/xanthous/src/Xanthous/Data/NestedMap.hs
new file mode 100644
index 000000000000..1b875d448302
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/NestedMap.hs
@@ -0,0 +1,227 @@
+{-# LANGUAGE PartialTypeSignatures #-}
+{-# LANGUAGE UndecidableInstances  #-}
+{-# LANGUAGE QuantifiedConstraints #-}
+{-# LANGUAGE StandaloneDeriving    #-}
+{-# LANGUAGE PolyKinds             #-}
+--------------------------------------------------------------------------------
+module Xanthous.Data.NestedMap
+  ( NestedMapVal(..)
+  , NestedMap(..)
+  , lookup
+  , lookupVal
+  , insert
+
+    -- *
+  , (:->)
+  , BifunctorFunctor'(..)
+  , BifunctorMonad'(..)
+  ) where
+--------------------------------------------------------------------------------
+import           Xanthous.Prelude hiding (lookup, foldMap)
+import qualified Xanthous.Prelude as P
+--------------------------------------------------------------------------------
+import           Test.QuickCheck
+import           Data.Aeson
+import           Data.Function (fix)
+import           Data.Foldable (Foldable(..))
+import           Data.List.NonEmpty (NonEmpty(..))
+import qualified Data.List.NonEmpty as NE
+--------------------------------------------------------------------------------
+
+-- | Natural transformations on bifunctors
+type (:->) p q = forall a b. p a b -> q a b
+infixr 0 :->
+
+class (forall b. Bifunctor b => Bifunctor (t b)) => BifunctorFunctor' t where
+  bifmap' :: (Bifunctor p, Bifunctor q) => (p :-> q) -> t p :-> t q
+
+class BifunctorFunctor' t => BifunctorMonad' t where
+  bireturn' :: (Bifunctor p) => p :-> t p
+
+  bibind' :: (Bifunctor p, Bifunctor q) => (p :-> t q) -> t p :-> t q
+  bibind' f = bijoin' . bifmap' f
+
+  bijoin' :: (Bifunctor p) => t (t p) :-> t p
+  bijoin' = bibind' id
+
+  {-# MINIMAL bireturn', (bibind' | bijoin') #-}
+
+--------------------------------------------------------------------------------
+
+data NestedMapVal m k v = Val v | Nested (NestedMap m k v)
+
+deriving stock instance
+  ( forall k' v'. (Show k', Show v') => Show (m k' v')
+  , Show k
+  , Show v
+  ) => Show (NestedMapVal m k v)
+
+deriving stock instance
+  ( forall k' v'. (Eq k', Eq v') => Eq (m k' v')
+  , Eq k
+  , Eq v
+  ) => Eq (NestedMapVal m k v)
+
+instance
+  forall m k v.
+  ( Arbitrary (m k v)
+  , Arbitrary (m k (NestedMapVal m k v))
+  , Arbitrary k
+  , Arbitrary v
+  , IsMap (m k (NestedMapVal m k v))
+  , MapValue (m k (NestedMapVal m k v)) ~ (NestedMapVal m k v)
+  , ContainerKey (m k (NestedMapVal m k v)) ~ k
+  ) => Arbitrary (NestedMapVal m k v) where
+  arbitrary = sized . fix $ \gen n ->
+    let nst = fmap (NestedMap . mapFromList)
+            . listOf
+            $ (,) <$> arbitrary @k <*> gen (n `div` 2)
+    in if n == 0
+       then Val <$> arbitrary
+       else oneof [ Val <$> arbitrary
+                  , Nested <$> nst]
+  shrink (Val v) = Val <$> shrink v
+  shrink (Nested mkv) = Nested <$> shrink mkv
+
+instance Functor (m k) => Functor (NestedMapVal m k) where
+  fmap f (Val v) = Val $ f v
+  fmap f (Nested m) = Nested $ fmap f m
+
+instance Bifunctor m => Bifunctor (NestedMapVal m) where
+  bimap _ g (Val v) = Val $ g v
+  bimap f g (Nested m) = Nested $ bimap f g m
+
+instance BifunctorFunctor' NestedMapVal where
+  bifmap' _ (Val v) = Val v
+  bifmap' f (Nested m) = Nested $ bifmap' f m
+
+instance (ToJSONKey k, ToJSON v, ToJSON (m k (NestedMapVal m k v)))
+       => ToJSON (NestedMapVal m k v) where
+  toJSON (Val v) = toJSON v
+  toJSON (Nested m) = toJSON m
+
+instance Foldable (m k) => Foldable (NestedMapVal m k) where
+  foldMap f (Val v) = f v
+  foldMap f (Nested m) = foldMap f m
+
+-- _NestedMapVal
+--   :: forall m k v m' k' v'.
+--     ( IsMap (m k v), IsMap (m' k' v')
+--     , IsMap (m [k] v), IsMap (m' [k'] v')
+--     , ContainerKey (m k v) ~ k, ContainerKey (m' k' v') ~ k'
+--     , ContainerKey (m [k] v) ~ [k], ContainerKey (m' [k'] v') ~ [k']
+--     , MapValue (m k v) ~ v, MapValue (m' k' v') ~ v'
+--     , MapValue (m [k] v) ~ v, MapValue (m' [k'] v') ~ v'
+--     )
+--   => Iso (NestedMapVal m k v)
+--         (NestedMapVal m' k' v')
+--         (m [k] v)
+--         (m' [k'] v')
+-- _NestedMapVal = iso hither yon
+--   where
+--     hither :: NestedMapVal m k v -> m [k] v
+--     hither (Val v) = singletonMap [] v
+--     hither (Nested m) = bimap _ _ $ m ^. _NestedMap
+--     yon = _
+
+--------------------------------------------------------------------------------
+
+newtype NestedMap m k v = NestedMap (m k (NestedMapVal m k v))
+
+deriving stock instance
+  ( forall k' v'. (Eq k', Eq v') => Eq (m k' v')
+  , Eq k
+  , Eq v
+  ) => Eq (NestedMap m k v)
+
+deriving stock instance
+  ( forall k' v'. (Show k', Show v') => Show (m k' v')
+  , Show k
+  , Show v
+  ) => Show (NestedMap m k v)
+
+instance Arbitrary (m k (NestedMapVal m k v))
+       => Arbitrary (NestedMap m k v) where
+  arbitrary = NestedMap <$> arbitrary
+  shrink (NestedMap m) = NestedMap <$> shrink m
+
+instance Functor (m k) => Functor (NestedMap m k) where
+  fmap f (NestedMap m) = NestedMap $ fmap (fmap f) m
+
+instance Bifunctor m => Bifunctor (NestedMap m) where
+  bimap f g (NestedMap m) = NestedMap $ bimap f (bimap f g) m
+
+instance BifunctorFunctor' NestedMap where
+  bifmap' f (NestedMap m) = NestedMap . f $ bimap id (bifmap' f) m
+
+instance (ToJSONKey k, ToJSON v, ToJSON (m k (NestedMapVal m k v)))
+       => ToJSON (NestedMap m k v) where
+  toJSON (NestedMap m) = toJSON m
+
+instance Foldable (m k) => Foldable (NestedMap m k) where
+  foldMap f (NestedMap m) = foldMap (foldMap f) m
+
+--------------------------------------------------------------------------------
+
+lookup
+  :: ( IsMap (m k (NestedMapVal m k v))
+    , MapValue (m k (NestedMapVal m k v)) ~ (NestedMapVal m k v)
+    , ContainerKey (m k (NestedMapVal m k v)) ~ k
+    )
+  => NonEmpty k
+  -> NestedMap m k v
+  -> Maybe (NestedMapVal m k v)
+lookup (p :| []) (NestedMap vs) = P.lookup p vs
+lookup (p :| (p₁ : ps)) (NestedMap vs) = P.lookup p vs >>= \case
+  (Val _) -> Nothing
+  (Nested vs') -> lookup (p₁ :| ps) vs'
+
+lookupVal
+  :: ( IsMap (m k (NestedMapVal m k v))
+    , MapValue (m k (NestedMapVal m k v)) ~ (NestedMapVal m k v)
+    , ContainerKey (m k (NestedMapVal m k v)) ~ k
+    )
+  => NonEmpty k
+  -> NestedMap m k v
+  -> Maybe v
+lookupVal ks m
+  | Just (Val v) <- lookup ks m = Just v
+  | otherwise                  = Nothing
+
+insert
+  :: ( IsMap (m k (NestedMapVal m k v))
+    , MapValue (m k (NestedMapVal m k v)) ~ (NestedMapVal m k v)
+    , ContainerKey (m k (NestedMapVal m k v)) ~ k
+    )
+  => NonEmpty k
+  -> v
+  -> NestedMap m k v
+  -> NestedMap m k v
+insert (k :| []) v (NestedMap m) = NestedMap $ P.insertMap k (Val v) m
+insert (k₁ :| (k₂ : ks)) v (NestedMap m) = NestedMap $ alterMap upd k₁ m
+  where
+    upd (Just (Nested nm)) = Just . Nested $ insert (k₂ :| ks) v nm
+    upd _ = Just $
+      let (kΩ :| ks') = NE.reverse (k₂ :| ks)
+      in P.foldl'
+         (\m' k -> Nested . NestedMap . singletonMap k $ m')
+         (Nested . NestedMap . singletonMap kΩ $ Val v)
+         ks'
+
+-- _NestedMap
+--   :: ( IsMap (m k v), IsMap (m' k' v')
+--     , IsMap (m (NonEmpty k) v), IsMap (m' (NonEmpty k') v')
+--     , ContainerKey (m k v) ~ k, ContainerKey (m' k' v') ~ k'
+--     , ContainerKey (m (NonEmpty k) v) ~ (NonEmpty k)
+--     , ContainerKey (m' (NonEmpty k') v') ~ (NonEmpty k')
+--     , MapValue (m k v) ~ v, MapValue (m' k' v') ~ v'
+--     , MapValue (m (NonEmpty k) v) ~ v, MapValue (m' (NonEmpty k') v') ~ v'
+--     )
+--   => Iso (NestedMap m k v)
+--         (NestedMap m' k' v')
+--         (m (NonEmpty k) v)
+--         (m' (NonEmpty k') v')
+-- _NestedMap = iso undefined yon
+--   where
+--     hither (NestedMap m) = undefined . mapToList $ m
+--     yon mkv = undefined
diff --git a/users/grfn/xanthous/src/Xanthous/Data/VectorBag.hs b/users/grfn/xanthous/src/Xanthous/Data/VectorBag.hs
new file mode 100644
index 000000000000..2e6d48062a45
--- /dev/null
+++ b/users/grfn/xanthous/src/Xanthous/Data/VectorBag.hs
@@ -0,0 +1,100 @@
+{-# LANGUAGE UndecidableInstances #-}
+{-# LANGUAGE StandaloneDeriving #-}
+{-# LANGUAGE DeriveTraversable #-}
+{-# LANGUAGE TemplateHaskell #-}
+--------------------------------------------------------------------------------
+module Xanthous.Data.VectorBag
+  (VectorBag(..)
+  ) where
+--------------------------------------------------------------------------------
+import           Xanthous.Prelude
+import           Data.Aeson
+import qualified Data.Vector as V
+import           Test.QuickCheck
+import           Test.QuickCheck.Instances.Vector ()
+--------------------------------------------------------------------------------
+
+-- | Acts exactly like a Vector, except ignores order when testing for equality
+newtype VectorBag a = VectorBag (Vector a)
+  deriving stock
+    ( Traversable
+    , Generic
+    )
+  deriving newtype
+    ( Show
+    , Read
+    , Foldable
+    , FromJSON
+    , FromJSON1
+    , ToJSON
+    , Reversing
+    , Applicative
+    , Functor
+    , Monad
+    , Monoid
+    , Semigroup
+    , Arbitrary
+    , CoArbitrary
+    , Filterable
+    )
+makeWrapped ''VectorBag
+
+instance Function a => Function (VectorBag a) where
+  function = functionMap (\(VectorBag v) -> v) VectorBag
+
+type instance Element (VectorBag a) = a
+deriving via (Vector a) instance MonoFoldable (VectorBag a)
+deriving via (Vector a) instance GrowingAppend (VectorBag a)
+deriving via (Vector a) instance SemiSequence (VectorBag a)
+deriving via (Vector a) instance MonoPointed (VectorBag a)
+deriving via (Vector a) instance MonoFunctor (VectorBag a)
+
+instance Cons (VectorBag a) (VectorBag b) a b where
+  _Cons = prism (\(x, VectorBag xs) -> VectorBag $ x <| xs) $ \(VectorBag v) ->
+    if V.null v
+    then Left (VectorBag mempty)
+    else Right (V.unsafeHead v, VectorBag $ V.unsafeTail v)
+
+instance AsEmpty (VectorBag a) where
+  _Empty = prism' (const $ VectorBag Empty) $ \case
+    (VectorBag Empty) -> Just ()
+    _ -> Nothing
+
+instance Witherable VectorBag where
+  wither f (VectorBag v) = VectorBag <$> wither f v
+  witherM f (VectorBag v) = VectorBag <$> witherM f v
+  filterA p (VectorBag v) = VectorBag <$> filterA p v
+
+{-
+    TODO:
+    , Ixed
+    , FoldableWithIndex
+    , FunctorWithIndex
+    , TraversableWithIndex
+    , Snoc
+    , Each
+-}
+
+instance Ord a => Eq (VectorBag a) where
+  (==) = (==) `on` (view _Wrapped . sort)
+
+instance Ord a => Ord (VectorBag a) where
+  compare = compare  `on` (view _Wrapped . sort)
+
+instance MonoTraversable (VectorBag a) where
+  otraverse f (VectorBag v) = VectorBag <$> otraverse f v
+
+instance IsSequence (VectorBag a) where
+  fromList = VectorBag . fromList
+  break prd (VectorBag v) = bimap VectorBag VectorBag $ break prd v
+  span prd (VectorBag v) = bimap VectorBag VectorBag $ span prd v
+  dropWhile prd (VectorBag v) = VectorBag $ dropWhile prd v
+  takeWhile prd (VectorBag v) = VectorBag $ takeWhile prd v
+  splitAt idx (VectorBag v) = bimap VectorBag VectorBag $ splitAt idx v
+  unsafeSplitAt idx (VectorBag v) =
+    bimap VectorBag VectorBag $ unsafeSplitAt idx v
+  take n (VectorBag v) = VectorBag $ take n v
+  unsafeTake n (VectorBag v) = VectorBag $ unsafeTake n v
+  drop n (VectorBag v) = VectorBag $ drop n v
+  unsafeDrop n (VectorBag v) = VectorBag $ unsafeDrop n v
+  partition p (VectorBag v) = bimap VectorBag VectorBag $ partition p v