GF/src is now for 2.9, and the new sources are in src-3.0 - keep it this way until the release of GF 3

1 files changed, 143 insertions, 0 deletions

diff --git a/src-3.0/GF/Data/Assoc.hs b/src-3.0/GF/Data/Assoc.hs
new file mode 100644
index 000000000..f775319ea
--- /dev/null
+++ b/src-3.0/GF/Data/Assoc.hs
@@ -0,0 +1,143 @@
+----------------------------------------------------------------------
+-- |
+-- Module      : Assoc
+-- Maintainer  : Peter Ljunglöf
+-- Stability   : Stable
+-- Portability : Haskell 98
+--
+-- > CVS $Date: 2005/05/09 09:28:44 $ 
+-- > CVS $Author: peb $
+-- > CVS $Revision: 1.4 $
+--
+-- Association lists, or finite maps,
+-- including sets as maps with result type @()@.
+-- function names stolen from module @Array@.
+-- /O(log n)/ key lookup
+-----------------------------------------------------------------------------
+
+module GF.Data.Assoc ( Assoc,
+		       Set,
+		       emptyAssoc,
+		       emptySet,
+		       listAssoc,
+		       listSet,
+		       accumAssoc,
+		       aAssocs,
+		       aElems,
+		       assocMap,
+		       assocFilter,
+		       lookupAssoc,
+		       lookupWith,
+		       (?),
+		       (?=)
+		     ) where
+
+import GF.Data.SortedList 
+
+infixl 9 ?, ?=
+
+-- | a set is a finite map with empty values
+type Set a = Assoc a ()
+
+emptyAssoc :: Ord a => Assoc a b
+emptySet   :: Ord a => Set a
+
+-- | creating a finite map from a sorted key-value list 
+listAssoc   :: Ord a => SList (a, b) -> Assoc a b
+
+-- | creating a set from a sorted list
+listSet     :: Ord a => SList a -> Set a
+
+-- | building a finite map from a list of keys and 'b's, 
+-- and a function that combines a sorted list of 'b's into a value
+accumAssoc :: (Ord a, Ord c) => (SList c -> b) -> [(a, c)] -> Assoc a b
+
+-- | all key-value pairs from an association list
+aAssocs :: Ord a => Assoc a b -> SList (a, b)
+
+-- | all keys from an association list
+aElems  :: Ord a => Assoc a b -> SList a
+
+-- fmap :: Ord a => (b -> b') -> Assoc a b -> Assoc a b'
+
+-- | mapping values to other values.
+-- the mapping function can take the key as information
+assocMap :: Ord a => (a -> b -> b') -> Assoc a b -> Assoc a b'
+
+assocFilter :: Ord a => (b -> Bool) -> Assoc a b -> Assoc a b
+assocFilter pred = listAssoc . filter (pred . snd) . aAssocs
+
+-- | monadic lookup function,
+-- returning failure if the key does not exist
+lookupAssoc :: (Ord a, Monad m) => Assoc a b -> a -> m b
+
+-- | if the key does not exist, 
+-- the first argument is returned
+lookupWith :: Ord a => b -> Assoc a b -> a -> b
+
+-- | if the values are monadic, we can return the value type
+(?) :: (Ord a, Monad m) => Assoc a (m b) -> a -> m b
+
+-- | checking wheter the map contains a given key 
+(?=) :: Ord a => Assoc a b -> a -> Bool
+
+
+------------------------------------------------------------
+
+data Assoc a b = ANil | ANode (Assoc a b) a b (Assoc a b)
+		 deriving (Eq, Ord, Show)
+
+emptyAssoc = ANil
+emptySet   = emptyAssoc
+
+listAssoc as = assoc
+  where (assoc, [])     = sl2bst (length as) as
+	sl2bst 0 xs     = (ANil, xs)
+	sl2bst 1 (x:xs) = (ANode ANil (fst x) (snd x) ANil, xs)
+	sl2bst n xs     = (ANode left (fst x) (snd x) right, zs)
+          where llen    = (n-1) `div` 2
+                rlen    = n - 1 - llen
+                (left, x:ys) = sl2bst llen xs
+                (right, zs)  = sl2bst rlen ys
+
+listSet as = listAssoc (zip as (repeat ()))
+
+accumAssoc join = listAssoc . map (mapSnd join) . groupPairs . nubsort
+    where mapSnd f (a, b) = (a, f b)
+
+aAssocs as = prs as []
+    where prs ANil = id
+	  prs (ANode left a b right) = prs left . ((a,b) :) . prs right
+
+aElems = map fst . aAssocs
+
+
+instance Ord a => Functor (Assoc a) where
+    fmap f = assocMap (const f)
+
+assocMap f ANil = ANil
+assocMap f (ANode left a b right) = ANode (assocMap f left) a (f a b) (assocMap f right)
+
+
+lookupAssoc ANil _ = fail "key not found"
+lookupAssoc (ANode left a b right) a' = case compare a a' of
+					  GT -> lookupAssoc left  a'
+					  LT -> lookupAssoc right a'
+					  EQ -> return b
+
+lookupWith z ANil _ = z
+lookupWith z (ANode left a b right) a' = case compare a a' of
+					   GT -> lookupWith z left  a'
+					   LT -> lookupWith z right a'
+					   EQ -> b
+
+(?) = lookupWith (fail "key not found")
+
+(?=) = \assoc -> maybe False (const True) . lookupAssoc assoc 
+
+
+
+
+
+
+