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authorGriffin Smith <root@gws.fyi>2019-09-15T17·00-0400
committerGriffin Smith <root@gws.fyi>2019-09-15T21·30-0400
commit58fce2ec1976b957c7e24a282964c62f7ddf7b02 (patch)
treed7746cd93bcdda4faac465574ae66ea6b481d106 /src/Xanthous/Util.hs
parent6678ac986c0ccdc2a809da4fc99de7bcc0eb21f4 (diff)
Progressively reveal the map to the player
As the character walks around the map, progressively reveal the entities
on the map to them, using an algorithm based on well known
circle-rasterizing and line-rasterizing algorithms to calculate lines of
sight that are potentially obscured by walls.
Diffstat (limited to 'src/Xanthous/Util.hs')
-rw-r--r--src/Xanthous/Util.hs149
1 files changed, 149 insertions, 0 deletions
diff --git a/src/Xanthous/Util.hs b/src/Xanthous/Util.hs
index cf1f80b82e39..439f9e8ffaef 100644
--- a/src/Xanthous/Util.hs
+++ b/src/Xanthous/Util.hs
@@ -1,4 +1,5 @@
 {-# LANGUAGE BangPatterns #-}
+{-# LANGUAGE AllowAmbiguousTypes #-}
 
 module Xanthous.Util
   ( EqEqProp(..)
@@ -6,12 +7,29 @@ module Xanthous.Util
   , foldlMapM
   , foldlMapM'
   , between
+
+  , appendVia
+
+    -- * Foldable
+    -- ** Uniqueness
+    -- *** Predicates on uniqueness
+  , isUniqueOf
+  , isUnique
+    -- *** Removing all duplicate elements in n * log n time
+  , uniqueOf
+  , unique
+    -- *** Removing sequentially duplicate elements in linear time
+  , uniqOf
+  , uniq
+    -- ** Bag sequence algorithms
+  , takeWhileInclusive
   ) where
 
 import Xanthous.Prelude hiding (foldr)
 
 import Test.QuickCheck.Checkers
 import Data.Foldable (foldr)
+import Data.Monoid
 
 newtype EqEqProp a = EqEqProp a
   deriving newtype Eq
@@ -44,3 +62,134 @@ between
   -> a -- ^ scrutinee
   -> Bool
 between lower upper x = x >= lower && x <= upper
+
+-- |
+-- >>> appendVia Sum 1 2
+-- 3
+appendVia :: (Rewrapping s t, Semigroup s) => (Unwrapped s -> s) -> Unwrapped s -> Unwrapped s -> Unwrapped s
+appendVia wrap x y = op wrap $ wrap x <> wrap y
+
+--------------------------------------------------------------------------------
+
+-- | Returns True if the targets of the given 'Fold' are unique per the 'Ord' instance for @a@
+--
+-- >>> isUniqueOf (folded . _1) ([(1, 2), (2, 2), (3, 2)] :: [(Int, Int)])
+-- True
+--
+-- >>> isUniqueOf (folded . _2) ([(1, 2), (2, 2), (3, 2)] :: [(Int, Int)])
+-- False
+--
+-- @
+-- 'isUniqueOf' :: Ord a => 'Getter' s a     -> s -> 'Bool'
+-- 'isUniqueOf' :: Ord a => 'Fold' s a       -> s -> 'Bool'
+-- 'isUniqueOf' :: Ord a => 'Lens'' s a      -> s -> 'Bool'
+-- 'isUniqueOf' :: Ord a => 'Iso'' s a       -> s -> 'Bool'
+-- 'isUniqueOf' :: Ord a => 'Traversal'' s a -> s -> 'Bool'
+-- 'isUniqueOf' :: Ord a => 'Prism'' s a     -> s -> 'Bool'
+-- @
+isUniqueOf :: Ord a => Getting (Endo (Set a, Bool)) s a -> s -> Bool
+isUniqueOf aFold = orOf _2 . foldrOf aFold rejectUnique (mempty, True)
+ where
+  rejectUnique x (seen, acc)
+    | seen ^. contains x = (seen, False)
+    | otherwise          = (seen & contains x .~ True, acc)
+
+-- | Returns true if the given 'Foldable' container contains only unique
+-- elements, as determined by the 'Ord' instance for @a@
+--
+-- >>> isUnique ([3, 1, 2] :: [Int])
+-- True
+--
+-- >>> isUnique ([1, 1, 2, 2, 3, 1] :: [Int])
+-- False
+isUnique :: (Foldable f, Ord a) => f a -> Bool
+isUnique = isUniqueOf folded
+
+
+-- | O(n * log n). Returns a monoidal, 'Cons'able container (a list, a Set,
+-- etc.) consisting of the unique (per the 'Ord' instance for @a@) targets of
+-- the given 'Fold'
+--
+-- >>> uniqueOf (folded . _2) ([(1, 2), (2, 2), (3, 2), (4, 3)] :: [(Int, Int)]) :: [Int]
+-- [2,3]
+--
+-- @
+-- 'uniqueOf' :: Ord a => 'Getter' s a     -> s -> [a]
+-- 'uniqueOf' :: Ord a => 'Fold' s a       -> s -> [a]
+-- 'uniqueOf' :: Ord a => 'Lens'' s a      -> s -> [a]
+-- 'uniqueOf' :: Ord a => 'Iso'' s a       -> s -> [a]
+-- 'uniqueOf' :: Ord a => 'Traversal'' s a -> s -> [a]
+-- 'uniqueOf' :: Ord a => 'Prism'' s a     -> s -> [a]
+-- @
+uniqueOf
+  :: (Monoid c, Ord w, Cons c c w w) => Getting (Endo (Set w, c)) a w -> a -> c
+uniqueOf aFold = snd . foldrOf aFold rejectUnique (mempty, mempty)
+ where
+  rejectUnique x (seen, acc)
+    | seen ^. contains x = (seen, acc)
+    | otherwise          = (seen & contains x .~ True, cons x acc)
+
+-- | Returns a monoidal, 'Cons'able container (a list, a Set, etc.) consisting
+-- of the unique (per the 'Ord' instance for @a@) contents of the given
+-- 'Foldable' container
+--
+-- >>> unique [1, 1, 2, 2, 3, 1] :: [Int]
+-- [2,3,1]
+
+-- >>> unique [1, 1, 2, 2, 3, 1] :: Set Int
+-- fromList [3,2,1]
+unique :: (Foldable f, Cons c c a a, Ord a, Monoid c) => f a -> c
+unique = uniqueOf folded
+
+--------------------------------------------------------------------------------
+
+-- | O(n). Returns a monoidal, 'Cons'able container (a list, a Vector, etc.)
+-- consisting of the targets of the given 'Fold' with sequential duplicate
+-- elements removed
+--
+-- This function (sorry for the confusing name) differs from 'uniqueOf' in that
+-- it only compares /sequentially/ duplicate elements (and thus operates in
+-- linear time).
+-- cf 'Data.Vector.uniq' and POSIX @uniq@ for the name
+--
+-- >>> uniqOf (folded . _2) ([(1, 2), (2, 2), (3, 1), (4, 2)] :: [(Int, Int)]) :: [Int]
+-- [2,1,2]
+--
+-- @
+-- 'uniqOf' :: Eq a => 'Getter' s a     -> s -> [a]
+-- 'uniqOf' :: Eq a => 'Fold' s a       -> s -> [a]
+-- 'uniqOf' :: Eq a => 'Lens'' s a      -> s -> [a]
+-- 'uniqOf' :: Eq a => 'Iso'' s a       -> s -> [a]
+-- 'uniqOf' :: Eq a => 'Traversal'' s a -> s -> [a]
+-- 'uniqOf' :: Eq a => 'Prism'' s a     -> s -> [a]
+-- @
+uniqOf :: (Monoid c, Cons c c w w, Eq w) => Getting (Endo (Maybe w, c)) a w -> a -> c
+uniqOf aFold = snd . foldrOf aFold rejectSeen (Nothing, mempty)
+  where
+    rejectSeen x (Nothing, acc) = (Just x, x <| acc)
+    rejectSeen x tup@(Just a, acc)
+      | x == a     = tup
+      | otherwise = (Just x, x <| acc)
+
+-- | O(n). Returns a monoidal, 'Cons'able container (a list, a Vector, etc.)
+-- consisting of the targets of the given 'Foldable' container with sequential
+-- duplicate elements removed
+--
+-- This function (sorry for the confusing name) differs from 'unique' in that
+-- it only compares /sequentially/ unique elements (and thus operates in linear
+-- time).
+-- cf 'Data.Vector.uniq' and POSIX @uniq@ for the name
+--
+-- >>> uniq [1, 1, 1, 2, 2, 2, 3, 3, 1] :: [Int]
+-- [1,2,3,1]
+--
+-- >>> uniq [1, 1, 1, 2, 2, 2, 3, 3, 1] :: Vector Int
+-- [1,2,3,1]
+--
+uniq :: (Foldable f, Eq a, Cons c c a a, Monoid c) => f a -> c
+uniq = uniqOf folded
+
+-- | Like 'takeWhile', but inclusive
+takeWhileInclusive :: (a -> Bool) -> [a] -> [a]
+takeWhileInclusive _ [] = []
+takeWhileInclusive p (x:xs) = x : if p x then takeWhileInclusive p xs else []