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-rw-r--r--src/Data/Array/Nested/Internal.hs40
1 files changed, 20 insertions, 20 deletions
diff --git a/src/Data/Array/Nested/Internal.hs b/src/Data/Array/Nested/Internal.hs
index badb910..a05ff84 100644
--- a/src/Data/Array/Nested/Internal.hs
+++ b/src/Data/Array/Nested/Internal.hs
@@ -421,7 +421,7 @@ newtype Primitive a = Primitive a
-- | Element types that are primitive; arrays of these types are just a newtype
-- wrapper over an array.
-class PrimElt a where
+class Storable a => PrimElt a where
fromPrimitive :: Mixed sh (Primitive a) -> Mixed sh a
toPrimitive :: Mixed sh a -> Mixed sh (Primitive a)
@@ -881,13 +881,13 @@ mappend arr1 arr2 = mlift2 (snm :!% ssh) f arr1 arr2
mfromVectorP :: forall sh a. Storable a => IShX sh -> VS.Vector a -> Mixed sh (Primitive a)
mfromVectorP sh v = M_Primitive sh (X.fromVector sh v)
-mfromVector :: forall sh a. (Storable a, PrimElt a) => IShX sh -> VS.Vector a -> Mixed sh a
+mfromVector :: forall sh a. PrimElt a => IShX sh -> VS.Vector a -> Mixed sh a
mfromVector sh v = fromPrimitive (mfromVectorP sh v)
mtoVectorP :: Storable a => Mixed sh (Primitive a) -> VS.Vector a
mtoVectorP (M_Primitive _ v) = X.toVector v
-mtoVector :: (Storable a, PrimElt a) => Mixed sh a -> VS.Vector a
+mtoVector :: PrimElt a => Mixed sh a -> VS.Vector a
mtoVector arr = mtoVectorP (coerce toPrimitive arr)
mfromList :: Elt a => NonEmpty a -> Mixed '[Nothing] a
@@ -910,7 +910,7 @@ mrerankP ssh sh2 f (M_Primitive sh arr) =
(\a -> let M_Primitive _ r = f (M_Primitive sh1 a) in r)
arr)
-mrerank :: forall sh1 sh2 sh a. (Storable a, PrimElt a)
+mrerank :: forall sh1 sh2 sh a. PrimElt a
=> StaticShX sh -> IShX sh2
-> (Mixed sh1 a -> Mixed sh2 a)
-> Mixed (sh ++ sh1) a -> Mixed (sh ++ sh2) a
@@ -920,7 +920,7 @@ mrerank ssh sh2 f (toPrimitive -> arr) =
mreplicateP :: forall sh a. Storable a => IShX sh -> a -> Mixed sh (Primitive a)
mreplicateP sh x = M_Primitive sh (X.replicate sh x)
-mreplicate :: forall sh a. (Storable a, PrimElt a)
+mreplicate :: forall sh a. PrimElt a
=> IShX sh -> a -> Mixed sh a
mreplicate sh x = fromPrimitive (mreplicateP sh x)
@@ -953,18 +953,18 @@ mfromXArrayPrimP ssh arr = M_Primitive (X.shape ssh arr) arr
mfromXArrayPrim :: PrimElt a => StaticShX sh -> XArray sh a -> Mixed sh a
mfromXArrayPrim = (fromPrimitive .) . mfromXArrayPrimP
-mliftPrim :: (Storable a, PrimElt a)
+mliftPrim :: PrimElt a
=> (a -> a)
-> Mixed sh a -> Mixed sh a
mliftPrim f (toPrimitive -> M_Primitive sh (X.XArray arr)) = fromPrimitive $ M_Primitive sh (X.XArray (S.mapA f arr))
-mliftPrim2 :: (Storable a, PrimElt a)
+mliftPrim2 :: PrimElt a
=> (a -> a -> a)
-> Mixed sh a -> Mixed sh a -> Mixed sh a
mliftPrim2 f (toPrimitive -> M_Primitive sh (X.XArray arr1)) (toPrimitive -> M_Primitive _ (X.XArray arr2)) =
fromPrimitive $ M_Primitive sh (X.XArray (S.zipWithA f arr1 arr2))
-instance (Storable a, Num a, PrimElt a) => Num (Mixed sh a) where
+instance (Num a, PrimElt a) => Num (Mixed sh a) where
(+) = mliftPrim2 (+)
(-) = mliftPrim2 (-)
(*) = mliftPrim2 (*)
@@ -1248,7 +1248,7 @@ arithPromoteRanked2 :: forall n a. PrimElt a
-> Ranked n a -> Ranked n a -> Ranked n a
arithPromoteRanked2 = coerce
-instance (Storable a, Num a, PrimElt a) => Num (Ranked n a) where
+instance (Num a, PrimElt a) => Num (Ranked n a) where
(+) = arithPromoteRanked2 (+)
(-) = arithPromoteRanked2 (-)
(*) = arithPromoteRanked2 (*)
@@ -1346,7 +1346,7 @@ rsumOuter1P (Ranked (M_Primitive sh arr))
, _ :$% shT <- sh
= Ranked (M_Primitive shT (X.sumOuter (SUnknown () :!% ZKX) (X.staticShapeFrom shT) arr))
-rsumOuter1 :: forall n a. (Storable a, Num a, PrimElt a)
+rsumOuter1 :: forall n a. (Num a, PrimElt a)
=> Ranked (n + 1) a -> Ranked n a
rsumOuter1 = coerce fromPrimitive . rsumOuter1P @n @a . coerce toPrimitive
@@ -1378,13 +1378,13 @@ rfromVectorP sh v
| Dict <- lemKnownReplicate (snatFromShR sh)
= Ranked (mfromVectorP (shCvtRX sh) v)
-rfromVector :: forall n a. (Storable a, PrimElt a) => IShR n -> VS.Vector a -> Ranked n a
+rfromVector :: forall n a. PrimElt a => IShR n -> VS.Vector a -> Ranked n a
rfromVector sh v = coerce fromPrimitive (rfromVectorP sh v)
rtoVectorP :: Storable a => Ranked n (Primitive a) -> VS.Vector a
rtoVectorP = coerce mtoVectorP
-rtoVector :: (Storable a, PrimElt a) => Ranked n a -> VS.Vector a
+rtoVector :: PrimElt a => Ranked n a -> VS.Vector a
rtoVector = coerce mtoVector
rfromList1 :: forall n a. Elt a => NonEmpty (Ranked n a) -> Ranked (n + 1) a
@@ -1417,7 +1417,7 @@ rrerankP sn sh2 f (Ranked arr)
(\a -> let Ranked r = f (Ranked a) in r)
arr)
-rrerank :: forall n1 n2 n a. (Storable a, PrimElt a)
+rrerank :: forall n1 n2 n a. PrimElt a
=> SNat n -> IShR n2
-> (Ranked n1 a -> Ranked n2 a)
-> Ranked (n + n1) a -> Ranked (n + n2) a
@@ -1429,7 +1429,7 @@ rreplicateP sh x
| Dict <- lemKnownReplicate (snatFromShR sh)
= Ranked (mreplicateP (shCvtRX sh) x)
-rreplicate :: forall n a. (Storable a, PrimElt a)
+rreplicate :: forall n a. PrimElt a
=> IShR n -> a -> Ranked n a
rreplicate sh x = coerce fromPrimitive (rreplicateP sh x)
@@ -1492,7 +1492,7 @@ arithPromoteShaped2 :: forall sh a. PrimElt a
-> Shaped sh a -> Shaped sh a -> Shaped sh a
arithPromoteShaped2 = coerce
-instance (Storable a, Num a, PrimElt a) => Num (Shaped sh a) where
+instance (Num a, PrimElt a) => Num (Shaped sh a) where
(+) = arithPromoteShaped2 (+)
(-) = arithPromoteShaped2 (-)
(*) = arithPromoteShaped2 (*)
@@ -1571,7 +1571,7 @@ ssumOuter1P :: forall sh n a. (Storable a, Num a)
ssumOuter1P (Shaped (M_Primitive (SKnown sn :$% sh) arr)) =
Shaped (M_Primitive sh (X.sumOuter (SKnown sn :!% ZKX) (X.staticShapeFrom sh) arr))
-ssumOuter1 :: forall sh n a. (Storable a, Num a, PrimElt a)
+ssumOuter1 :: forall sh n a. (Num a, PrimElt a)
=> Shaped (n : sh) a -> Shaped sh a
ssumOuter1 = coerce fromPrimitive . ssumOuter1P @sh @n @a . coerce toPrimitive
@@ -1636,13 +1636,13 @@ sscalar x = Shaped (mscalar x)
sfromVectorP :: Storable a => ShS sh -> VS.Vector a -> Shaped sh (Primitive a)
sfromVectorP sh v = Shaped (mfromVectorP (shCvtSX sh) v)
-sfromVector :: (Storable a, PrimElt a) => ShS sh -> VS.Vector a -> Shaped sh a
+sfromVector :: PrimElt a => ShS sh -> VS.Vector a -> Shaped sh a
sfromVector sh v = coerce fromPrimitive (sfromVectorP sh v)
stoVectorP :: Storable a => Shaped sh (Primitive a) -> VS.Vector a
stoVectorP = coerce mtoVectorP
-stoVector :: (Storable a, PrimElt a) => Shaped sh a -> VS.Vector a
+stoVector :: PrimElt a => Shaped sh a -> VS.Vector a
stoVector = coerce mtoVector
sfromList1 :: Elt a => SNat n -> NonEmpty (Shaped sh a) -> Shaped (n : sh) a
@@ -1672,7 +1672,7 @@ srerankP sh sh2 f sarr@(Shaped arr)
(\a -> let Shaped r = f (Shaped a) in r)
arr)
-srerank :: forall sh1 sh2 sh a. (Storable a, PrimElt a)
+srerank :: forall sh1 sh2 sh a. PrimElt a
=> StaticShX sh -> IShX sh2
-> (Mixed sh1 a -> Mixed sh2 a)
-> Mixed (sh ++ sh1) a -> Mixed (sh ++ sh2) a
@@ -1682,7 +1682,7 @@ srerank ssh sh2 f (toPrimitive -> arr) =
sreplicateP :: forall sh a. Storable a => ShS sh -> a -> Shaped sh (Primitive a)
sreplicateP sh x = Shaped (mreplicateP (shCvtSX sh) x)
-sreplicate :: (Storable a, PrimElt a) => ShS sh -> a -> Shaped sh a
+sreplicate :: PrimElt a => ShS sh -> a -> Shaped sh a
sreplicate sh x = coerce fromPrimitive (sreplicateP sh x)
sslice :: Elt a => SNat i -> SNat n -> Shaped (i + n + k : sh) a -> Shaped (n : sh) a