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|
#ifdef DEFINE_INSTANCES
data instance MVector s (a, b)
= MV_2 {-# UNPACK #-} !Int !(MVector s a)
!(MVector s b)
data instance Vector (a, b)
= V_2 {-# UNPACK #-} !Int !(Vector a)
!(Vector b)
instance (Unbox a, Unbox b) => Unbox (a, b)
instance (Unbox a, Unbox b) => M.MVector MVector (a, b) where
{-# INLINE basicLength #-}
basicLength (MV_2 n_ as bs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (MV_2 n_ as bs)
= MV_2 m_ (M.basicUnsafeSlice i_ m_ as)
(M.basicUnsafeSlice i_ m_ bs)
{-# INLINE basicOverlaps #-}
basicOverlaps (MV_2 n_1 as1 bs1) (MV_2 n_2 as2 bs2)
= M.basicOverlaps as1 as2
|| M.basicOverlaps bs1 bs2
{-# INLINE basicUnsafeNew #-}
basicUnsafeNew n_
= do
as <- M.basicUnsafeNew n_
bs <- M.basicUnsafeNew n_
return $ MV_2 n_ as bs
{-# INLINE basicUnsafeReplicate #-}
basicUnsafeReplicate n_ (a, b)
= do
as <- M.basicUnsafeReplicate n_ a
bs <- M.basicUnsafeReplicate n_ b
return $ MV_2 n_ as bs
{-# INLINE basicUnsafeRead #-}
basicUnsafeRead (MV_2 n_ as bs) i_
= do
a <- M.basicUnsafeRead as i_
b <- M.basicUnsafeRead bs i_
return (a, b)
{-# INLINE basicUnsafeWrite #-}
basicUnsafeWrite (MV_2 n_ as bs) i_ (a, b)
= do
M.basicUnsafeWrite as i_ a
M.basicUnsafeWrite bs i_ b
{-# INLINE basicClear #-}
basicClear (MV_2 n_ as bs)
= do
M.basicClear as
M.basicClear bs
{-# INLINE basicSet #-}
basicSet (MV_2 n_ as bs) (a, b)
= do
M.basicSet as a
M.basicSet bs b
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_2 n_1 as1 bs1) (MV_2 n_2 as2 bs2)
= do
M.basicUnsafeCopy as1 as2
M.basicUnsafeCopy bs1 bs2
{-# INLINE basicUnsafeMove #-}
basicUnsafeMove (MV_2 n_1 as1 bs1) (MV_2 n_2 as2 bs2)
= do
M.basicUnsafeMove as1 as2
M.basicUnsafeMove bs1 bs2
{-# INLINE basicUnsafeGrow #-}
basicUnsafeGrow (MV_2 n_ as bs) m_
= do
as' <- M.basicUnsafeGrow as m_
bs' <- M.basicUnsafeGrow bs m_
return $ MV_2 (m_+n_) as' bs'
instance (Unbox a, Unbox b) => G.Vector Vector (a, b) where
{-# INLINE basicUnsafeFreeze #-}
basicUnsafeFreeze (MV_2 n_ as bs)
= do
as' <- G.basicUnsafeFreeze as
bs' <- G.basicUnsafeFreeze bs
return $ V_2 n_ as' bs'
{-# INLINE basicUnsafeThaw #-}
basicUnsafeThaw (V_2 n_ as bs)
= do
as' <- G.basicUnsafeThaw as
bs' <- G.basicUnsafeThaw bs
return $ MV_2 n_ as' bs'
{-# INLINE basicLength #-}
basicLength (V_2 n_ as bs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (V_2 n_ as bs)
= V_2 m_ (G.basicUnsafeSlice i_ m_ as)
(G.basicUnsafeSlice i_ m_ bs)
{-# INLINE basicUnsafeIndexM #-}
basicUnsafeIndexM (V_2 n_ as bs) i_
= do
a <- G.basicUnsafeIndexM as i_
b <- G.basicUnsafeIndexM bs i_
return (a, b)
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_2 n_1 as1 bs1) (V_2 n_2 as2 bs2)
= do
G.basicUnsafeCopy as1 as2
G.basicUnsafeCopy bs1 bs2
{-# INLINE elemseq #-}
elemseq _ (a, b)
= G.elemseq (undefined :: Vector a) a
. G.elemseq (undefined :: Vector b) b
#endif
#ifdef DEFINE_MUTABLE
-- | /O(1)/ Zip 2 vectors
zip :: (Unbox a, Unbox b) => MVector s a ->
MVector s b -> MVector s (a, b)
{-# INLINE_STREAM zip #-}
zip as bs = MV_2 len (unsafeSlice 0 len as) (unsafeSlice 0 len bs)
where len = length as `delayed_min` length bs
-- | /O(1)/ Unzip 2 vectors
unzip :: (Unbox a, Unbox b) => MVector s (a, b) -> (MVector s a,
MVector s b)
{-# INLINE unzip #-}
unzip (MV_2 n_ as bs) = (as, bs)
#endif
#ifdef DEFINE_IMMUTABLE
-- | /O(1)/ Zip 2 vectors
zip :: (Unbox a, Unbox b) => Vector a -> Vector b -> Vector (a, b)
{-# INLINE_STREAM zip #-}
zip as bs = V_2 len (unsafeSlice 0 len as) (unsafeSlice 0 len bs)
where len = length as `delayed_min` length bs
{-# RULES "stream/zip [Vector.Unboxed]" forall as bs .
G.stream (zip as bs) = Stream.zipWith (,) (G.stream as)
(G.stream bs)
#-}
-- | /O(1)/ Unzip 2 vectors
unzip :: (Unbox a, Unbox b) => Vector (a, b) -> (Vector a,
Vector b)
{-# INLINE unzip #-}
unzip (V_2 n_ as bs) = (as, bs)
#endif
#ifdef DEFINE_INSTANCES
data instance MVector s (a, b, c)
= MV_3 {-# UNPACK #-} !Int !(MVector s a)
!(MVector s b)
!(MVector s c)
data instance Vector (a, b, c)
= V_3 {-# UNPACK #-} !Int !(Vector a)
!(Vector b)
!(Vector c)
instance (Unbox a, Unbox b, Unbox c) => Unbox (a, b, c)
instance (Unbox a,
Unbox b,
Unbox c) => M.MVector MVector (a, b, c) where
{-# INLINE basicLength #-}
basicLength (MV_3 n_ as bs cs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (MV_3 n_ as bs cs)
= MV_3 m_ (M.basicUnsafeSlice i_ m_ as)
(M.basicUnsafeSlice i_ m_ bs)
(M.basicUnsafeSlice i_ m_ cs)
{-# INLINE basicOverlaps #-}
basicOverlaps (MV_3 n_1 as1 bs1 cs1) (MV_3 n_2 as2 bs2 cs2)
= M.basicOverlaps as1 as2
|| M.basicOverlaps bs1 bs2
|| M.basicOverlaps cs1 cs2
{-# INLINE basicUnsafeNew #-}
basicUnsafeNew n_
= do
as <- M.basicUnsafeNew n_
bs <- M.basicUnsafeNew n_
cs <- M.basicUnsafeNew n_
return $ MV_3 n_ as bs cs
{-# INLINE basicUnsafeReplicate #-}
basicUnsafeReplicate n_ (a, b, c)
= do
as <- M.basicUnsafeReplicate n_ a
bs <- M.basicUnsafeReplicate n_ b
cs <- M.basicUnsafeReplicate n_ c
return $ MV_3 n_ as bs cs
{-# INLINE basicUnsafeRead #-}
basicUnsafeRead (MV_3 n_ as bs cs) i_
= do
a <- M.basicUnsafeRead as i_
b <- M.basicUnsafeRead bs i_
c <- M.basicUnsafeRead cs i_
return (a, b, c)
{-# INLINE basicUnsafeWrite #-}
basicUnsafeWrite (MV_3 n_ as bs cs) i_ (a, b, c)
= do
M.basicUnsafeWrite as i_ a
M.basicUnsafeWrite bs i_ b
M.basicUnsafeWrite cs i_ c
{-# INLINE basicClear #-}
basicClear (MV_3 n_ as bs cs)
= do
M.basicClear as
M.basicClear bs
M.basicClear cs
{-# INLINE basicSet #-}
basicSet (MV_3 n_ as bs cs) (a, b, c)
= do
M.basicSet as a
M.basicSet bs b
M.basicSet cs c
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_3 n_1 as1 bs1 cs1) (MV_3 n_2 as2 bs2 cs2)
= do
M.basicUnsafeCopy as1 as2
M.basicUnsafeCopy bs1 bs2
M.basicUnsafeCopy cs1 cs2
{-# INLINE basicUnsafeMove #-}
basicUnsafeMove (MV_3 n_1 as1 bs1 cs1) (MV_3 n_2 as2 bs2 cs2)
= do
M.basicUnsafeMove as1 as2
M.basicUnsafeMove bs1 bs2
M.basicUnsafeMove cs1 cs2
{-# INLINE basicUnsafeGrow #-}
basicUnsafeGrow (MV_3 n_ as bs cs) m_
= do
as' <- M.basicUnsafeGrow as m_
bs' <- M.basicUnsafeGrow bs m_
cs' <- M.basicUnsafeGrow cs m_
return $ MV_3 (m_+n_) as' bs' cs'
instance (Unbox a,
Unbox b,
Unbox c) => G.Vector Vector (a, b, c) where
{-# INLINE basicUnsafeFreeze #-}
basicUnsafeFreeze (MV_3 n_ as bs cs)
= do
as' <- G.basicUnsafeFreeze as
bs' <- G.basicUnsafeFreeze bs
cs' <- G.basicUnsafeFreeze cs
return $ V_3 n_ as' bs' cs'
{-# INLINE basicUnsafeThaw #-}
basicUnsafeThaw (V_3 n_ as bs cs)
= do
as' <- G.basicUnsafeThaw as
bs' <- G.basicUnsafeThaw bs
cs' <- G.basicUnsafeThaw cs
return $ MV_3 n_ as' bs' cs'
{-# INLINE basicLength #-}
basicLength (V_3 n_ as bs cs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (V_3 n_ as bs cs)
= V_3 m_ (G.basicUnsafeSlice i_ m_ as)
(G.basicUnsafeSlice i_ m_ bs)
(G.basicUnsafeSlice i_ m_ cs)
{-# INLINE basicUnsafeIndexM #-}
basicUnsafeIndexM (V_3 n_ as bs cs) i_
= do
a <- G.basicUnsafeIndexM as i_
b <- G.basicUnsafeIndexM bs i_
c <- G.basicUnsafeIndexM cs i_
return (a, b, c)
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_3 n_1 as1 bs1 cs1) (V_3 n_2 as2 bs2 cs2)
= do
G.basicUnsafeCopy as1 as2
G.basicUnsafeCopy bs1 bs2
G.basicUnsafeCopy cs1 cs2
{-# INLINE elemseq #-}
elemseq _ (a, b, c)
= G.elemseq (undefined :: Vector a) a
. G.elemseq (undefined :: Vector b) b
. G.elemseq (undefined :: Vector c) c
#endif
#ifdef DEFINE_MUTABLE
-- | /O(1)/ Zip 3 vectors
zip3 :: (Unbox a, Unbox b, Unbox c) => MVector s a ->
MVector s b ->
MVector s c -> MVector s (a, b, c)
{-# INLINE_STREAM zip3 #-}
zip3 as bs cs = MV_3 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
where
len = length as `delayed_min` length bs `delayed_min` length cs
-- | /O(1)/ Unzip 3 vectors
unzip3 :: (Unbox a,
Unbox b,
Unbox c) => MVector s (a, b, c) -> (MVector s a,
MVector s b,
MVector s c)
{-# INLINE unzip3 #-}
unzip3 (MV_3 n_ as bs cs) = (as, bs, cs)
#endif
#ifdef DEFINE_IMMUTABLE
-- | /O(1)/ Zip 3 vectors
zip3 :: (Unbox a, Unbox b, Unbox c) => Vector a ->
Vector b ->
Vector c -> Vector (a, b, c)
{-# INLINE_STREAM zip3 #-}
zip3 as bs cs = V_3 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
where
len = length as `delayed_min` length bs `delayed_min` length cs
{-# RULES "stream/zip3 [Vector.Unboxed]" forall as bs cs .
G.stream (zip3 as bs cs) = Stream.zipWith3 (, ,) (G.stream as)
(G.stream bs)
(G.stream cs)
#-}
-- | /O(1)/ Unzip 3 vectors
unzip3 :: (Unbox a,
Unbox b,
Unbox c) => Vector (a, b, c) -> (Vector a, Vector b, Vector c)
{-# INLINE unzip3 #-}
unzip3 (V_3 n_ as bs cs) = (as, bs, cs)
#endif
#ifdef DEFINE_INSTANCES
data instance MVector s (a, b, c, d)
= MV_4 {-# UNPACK #-} !Int !(MVector s a)
!(MVector s b)
!(MVector s c)
!(MVector s d)
data instance Vector (a, b, c, d)
= V_4 {-# UNPACK #-} !Int !(Vector a)
!(Vector b)
!(Vector c)
!(Vector d)
instance (Unbox a, Unbox b, Unbox c, Unbox d) => Unbox (a, b, c, d)
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d) => M.MVector MVector (a, b, c, d) where
{-# INLINE basicLength #-}
basicLength (MV_4 n_ as bs cs ds) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (MV_4 n_ as bs cs ds)
= MV_4 m_ (M.basicUnsafeSlice i_ m_ as)
(M.basicUnsafeSlice i_ m_ bs)
(M.basicUnsafeSlice i_ m_ cs)
(M.basicUnsafeSlice i_ m_ ds)
{-# INLINE basicOverlaps #-}
basicOverlaps (MV_4 n_1 as1 bs1 cs1 ds1) (MV_4 n_2 as2 bs2 cs2 ds2)
= M.basicOverlaps as1 as2
|| M.basicOverlaps bs1 bs2
|| M.basicOverlaps cs1 cs2
|| M.basicOverlaps ds1 ds2
{-# INLINE basicUnsafeNew #-}
basicUnsafeNew n_
= do
as <- M.basicUnsafeNew n_
bs <- M.basicUnsafeNew n_
cs <- M.basicUnsafeNew n_
ds <- M.basicUnsafeNew n_
return $ MV_4 n_ as bs cs ds
{-# INLINE basicUnsafeReplicate #-}
basicUnsafeReplicate n_ (a, b, c, d)
= do
as <- M.basicUnsafeReplicate n_ a
bs <- M.basicUnsafeReplicate n_ b
cs <- M.basicUnsafeReplicate n_ c
ds <- M.basicUnsafeReplicate n_ d
return $ MV_4 n_ as bs cs ds
{-# INLINE basicUnsafeRead #-}
basicUnsafeRead (MV_4 n_ as bs cs ds) i_
= do
a <- M.basicUnsafeRead as i_
b <- M.basicUnsafeRead bs i_
c <- M.basicUnsafeRead cs i_
d <- M.basicUnsafeRead ds i_
return (a, b, c, d)
{-# INLINE basicUnsafeWrite #-}
basicUnsafeWrite (MV_4 n_ as bs cs ds) i_ (a, b, c, d)
= do
M.basicUnsafeWrite as i_ a
M.basicUnsafeWrite bs i_ b
M.basicUnsafeWrite cs i_ c
M.basicUnsafeWrite ds i_ d
{-# INLINE basicClear #-}
basicClear (MV_4 n_ as bs cs ds)
= do
M.basicClear as
M.basicClear bs
M.basicClear cs
M.basicClear ds
{-# INLINE basicSet #-}
basicSet (MV_4 n_ as bs cs ds) (a, b, c, d)
= do
M.basicSet as a
M.basicSet bs b
M.basicSet cs c
M.basicSet ds d
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_4 n_1 as1 bs1 cs1 ds1) (MV_4 n_2 as2
bs2
cs2
ds2)
= do
M.basicUnsafeCopy as1 as2
M.basicUnsafeCopy bs1 bs2
M.basicUnsafeCopy cs1 cs2
M.basicUnsafeCopy ds1 ds2
{-# INLINE basicUnsafeMove #-}
basicUnsafeMove (MV_4 n_1 as1 bs1 cs1 ds1) (MV_4 n_2 as2
bs2
cs2
ds2)
= do
M.basicUnsafeMove as1 as2
M.basicUnsafeMove bs1 bs2
M.basicUnsafeMove cs1 cs2
M.basicUnsafeMove ds1 ds2
{-# INLINE basicUnsafeGrow #-}
basicUnsafeGrow (MV_4 n_ as bs cs ds) m_
= do
as' <- M.basicUnsafeGrow as m_
bs' <- M.basicUnsafeGrow bs m_
cs' <- M.basicUnsafeGrow cs m_
ds' <- M.basicUnsafeGrow ds m_
return $ MV_4 (m_+n_) as' bs' cs' ds'
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d) => G.Vector Vector (a, b, c, d) where
{-# INLINE basicUnsafeFreeze #-}
basicUnsafeFreeze (MV_4 n_ as bs cs ds)
= do
as' <- G.basicUnsafeFreeze as
bs' <- G.basicUnsafeFreeze bs
cs' <- G.basicUnsafeFreeze cs
ds' <- G.basicUnsafeFreeze ds
return $ V_4 n_ as' bs' cs' ds'
{-# INLINE basicUnsafeThaw #-}
basicUnsafeThaw (V_4 n_ as bs cs ds)
= do
as' <- G.basicUnsafeThaw as
bs' <- G.basicUnsafeThaw bs
cs' <- G.basicUnsafeThaw cs
ds' <- G.basicUnsafeThaw ds
return $ MV_4 n_ as' bs' cs' ds'
{-# INLINE basicLength #-}
basicLength (V_4 n_ as bs cs ds) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (V_4 n_ as bs cs ds)
= V_4 m_ (G.basicUnsafeSlice i_ m_ as)
(G.basicUnsafeSlice i_ m_ bs)
(G.basicUnsafeSlice i_ m_ cs)
(G.basicUnsafeSlice i_ m_ ds)
{-# INLINE basicUnsafeIndexM #-}
basicUnsafeIndexM (V_4 n_ as bs cs ds) i_
= do
a <- G.basicUnsafeIndexM as i_
b <- G.basicUnsafeIndexM bs i_
c <- G.basicUnsafeIndexM cs i_
d <- G.basicUnsafeIndexM ds i_
return (a, b, c, d)
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_4 n_1 as1 bs1 cs1 ds1) (V_4 n_2 as2
bs2
cs2
ds2)
= do
G.basicUnsafeCopy as1 as2
G.basicUnsafeCopy bs1 bs2
G.basicUnsafeCopy cs1 cs2
G.basicUnsafeCopy ds1 ds2
{-# INLINE elemseq #-}
elemseq _ (a, b, c, d)
= G.elemseq (undefined :: Vector a) a
. G.elemseq (undefined :: Vector b) b
. G.elemseq (undefined :: Vector c) c
. G.elemseq (undefined :: Vector d) d
#endif
#ifdef DEFINE_MUTABLE
-- | /O(1)/ Zip 4 vectors
zip4 :: (Unbox a, Unbox b, Unbox c, Unbox d) => MVector s a ->
MVector s b ->
MVector s c ->
MVector s d -> MVector s (a, b, c, d)
{-# INLINE_STREAM zip4 #-}
zip4 as bs cs ds = MV_4 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds
-- | /O(1)/ Unzip 4 vectors
unzip4 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d) => MVector s (a, b, c, d) -> (MVector s a,
MVector s b,
MVector s c,
MVector s d)
{-# INLINE unzip4 #-}
unzip4 (MV_4 n_ as bs cs ds) = (as, bs, cs, ds)
#endif
#ifdef DEFINE_IMMUTABLE
-- | /O(1)/ Zip 4 vectors
zip4 :: (Unbox a, Unbox b, Unbox c, Unbox d) => Vector a ->
Vector b ->
Vector c ->
Vector d -> Vector (a, b, c, d)
{-# INLINE_STREAM zip4 #-}
zip4 as bs cs ds = V_4 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds
{-# RULES "stream/zip4 [Vector.Unboxed]" forall as bs cs ds .
G.stream (zip4 as bs cs ds) = Stream.zipWith4 (, , ,) (G.stream as)
(G.stream bs)
(G.stream cs)
(G.stream ds)
#-}
-- | /O(1)/ Unzip 4 vectors
unzip4 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d) => Vector (a, b, c, d) -> (Vector a,
Vector b,
Vector c,
Vector d)
{-# INLINE unzip4 #-}
unzip4 (V_4 n_ as bs cs ds) = (as, bs, cs, ds)
#endif
#ifdef DEFINE_INSTANCES
data instance MVector s (a, b, c, d, e)
= MV_5 {-# UNPACK #-} !Int !(MVector s a)
!(MVector s b)
!(MVector s c)
!(MVector s d)
!(MVector s e)
data instance Vector (a, b, c, d, e)
= V_5 {-# UNPACK #-} !Int !(Vector a)
!(Vector b)
!(Vector c)
!(Vector d)
!(Vector e)
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => Unbox (a, b, c, d, e)
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => M.MVector MVector (a, b, c, d, e) where
{-# INLINE basicLength #-}
basicLength (MV_5 n_ as bs cs ds es) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (MV_5 n_ as bs cs ds es)
= MV_5 m_ (M.basicUnsafeSlice i_ m_ as)
(M.basicUnsafeSlice i_ m_ bs)
(M.basicUnsafeSlice i_ m_ cs)
(M.basicUnsafeSlice i_ m_ ds)
(M.basicUnsafeSlice i_ m_ es)
{-# INLINE basicOverlaps #-}
basicOverlaps (MV_5 n_1 as1 bs1 cs1 ds1 es1) (MV_5 n_2 as2
bs2
cs2
ds2
es2)
= M.basicOverlaps as1 as2
|| M.basicOverlaps bs1 bs2
|| M.basicOverlaps cs1 cs2
|| M.basicOverlaps ds1 ds2
|| M.basicOverlaps es1 es2
{-# INLINE basicUnsafeNew #-}
basicUnsafeNew n_
= do
as <- M.basicUnsafeNew n_
bs <- M.basicUnsafeNew n_
cs <- M.basicUnsafeNew n_
ds <- M.basicUnsafeNew n_
es <- M.basicUnsafeNew n_
return $ MV_5 n_ as bs cs ds es
{-# INLINE basicUnsafeReplicate #-}
basicUnsafeReplicate n_ (a, b, c, d, e)
= do
as <- M.basicUnsafeReplicate n_ a
bs <- M.basicUnsafeReplicate n_ b
cs <- M.basicUnsafeReplicate n_ c
ds <- M.basicUnsafeReplicate n_ d
es <- M.basicUnsafeReplicate n_ e
return $ MV_5 n_ as bs cs ds es
{-# INLINE basicUnsafeRead #-}
basicUnsafeRead (MV_5 n_ as bs cs ds es) i_
= do
a <- M.basicUnsafeRead as i_
b <- M.basicUnsafeRead bs i_
c <- M.basicUnsafeRead cs i_
d <- M.basicUnsafeRead ds i_
e <- M.basicUnsafeRead es i_
return (a, b, c, d, e)
{-# INLINE basicUnsafeWrite #-}
basicUnsafeWrite (MV_5 n_ as bs cs ds es) i_ (a, b, c, d, e)
= do
M.basicUnsafeWrite as i_ a
M.basicUnsafeWrite bs i_ b
M.basicUnsafeWrite cs i_ c
M.basicUnsafeWrite ds i_ d
M.basicUnsafeWrite es i_ e
{-# INLINE basicClear #-}
basicClear (MV_5 n_ as bs cs ds es)
= do
M.basicClear as
M.basicClear bs
M.basicClear cs
M.basicClear ds
M.basicClear es
{-# INLINE basicSet #-}
basicSet (MV_5 n_ as bs cs ds es) (a, b, c, d, e)
= do
M.basicSet as a
M.basicSet bs b
M.basicSet cs c
M.basicSet ds d
M.basicSet es e
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_5 n_1 as1 bs1 cs1 ds1 es1) (MV_5 n_2 as2
bs2
cs2
ds2
es2)
= do
M.basicUnsafeCopy as1 as2
M.basicUnsafeCopy bs1 bs2
M.basicUnsafeCopy cs1 cs2
M.basicUnsafeCopy ds1 ds2
M.basicUnsafeCopy es1 es2
{-# INLINE basicUnsafeMove #-}
basicUnsafeMove (MV_5 n_1 as1 bs1 cs1 ds1 es1) (MV_5 n_2 as2
bs2
cs2
ds2
es2)
= do
M.basicUnsafeMove as1 as2
M.basicUnsafeMove bs1 bs2
M.basicUnsafeMove cs1 cs2
M.basicUnsafeMove ds1 ds2
M.basicUnsafeMove es1 es2
{-# INLINE basicUnsafeGrow #-}
basicUnsafeGrow (MV_5 n_ as bs cs ds es) m_
= do
as' <- M.basicUnsafeGrow as m_
bs' <- M.basicUnsafeGrow bs m_
cs' <- M.basicUnsafeGrow cs m_
ds' <- M.basicUnsafeGrow ds m_
es' <- M.basicUnsafeGrow es m_
return $ MV_5 (m_+n_) as' bs' cs' ds' es'
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => G.Vector Vector (a, b, c, d, e) where
{-# INLINE basicUnsafeFreeze #-}
basicUnsafeFreeze (MV_5 n_ as bs cs ds es)
= do
as' <- G.basicUnsafeFreeze as
bs' <- G.basicUnsafeFreeze bs
cs' <- G.basicUnsafeFreeze cs
ds' <- G.basicUnsafeFreeze ds
es' <- G.basicUnsafeFreeze es
return $ V_5 n_ as' bs' cs' ds' es'
{-# INLINE basicUnsafeThaw #-}
basicUnsafeThaw (V_5 n_ as bs cs ds es)
= do
as' <- G.basicUnsafeThaw as
bs' <- G.basicUnsafeThaw bs
cs' <- G.basicUnsafeThaw cs
ds' <- G.basicUnsafeThaw ds
es' <- G.basicUnsafeThaw es
return $ MV_5 n_ as' bs' cs' ds' es'
{-# INLINE basicLength #-}
basicLength (V_5 n_ as bs cs ds es) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (V_5 n_ as bs cs ds es)
= V_5 m_ (G.basicUnsafeSlice i_ m_ as)
(G.basicUnsafeSlice i_ m_ bs)
(G.basicUnsafeSlice i_ m_ cs)
(G.basicUnsafeSlice i_ m_ ds)
(G.basicUnsafeSlice i_ m_ es)
{-# INLINE basicUnsafeIndexM #-}
basicUnsafeIndexM (V_5 n_ as bs cs ds es) i_
= do
a <- G.basicUnsafeIndexM as i_
b <- G.basicUnsafeIndexM bs i_
c <- G.basicUnsafeIndexM cs i_
d <- G.basicUnsafeIndexM ds i_
e <- G.basicUnsafeIndexM es i_
return (a, b, c, d, e)
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_5 n_1 as1 bs1 cs1 ds1 es1) (V_5 n_2 as2
bs2
cs2
ds2
es2)
= do
G.basicUnsafeCopy as1 as2
G.basicUnsafeCopy bs1 bs2
G.basicUnsafeCopy cs1 cs2
G.basicUnsafeCopy ds1 ds2
G.basicUnsafeCopy es1 es2
{-# INLINE elemseq #-}
elemseq _ (a, b, c, d, e)
= G.elemseq (undefined :: Vector a) a
. G.elemseq (undefined :: Vector b) b
. G.elemseq (undefined :: Vector c) c
. G.elemseq (undefined :: Vector d) d
. G.elemseq (undefined :: Vector e) e
#endif
#ifdef DEFINE_MUTABLE
-- | /O(1)/ Zip 5 vectors
zip5 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => MVector s a ->
MVector s b ->
MVector s c ->
MVector s d ->
MVector s e -> MVector s (a, b, c, d, e)
{-# INLINE_STREAM zip5 #-}
zip5 as bs cs ds es = MV_5 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
(unsafeSlice 0 len es)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds `delayed_min`
length es
-- | /O(1)/ Unzip 5 vectors
unzip5 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => MVector s (a, b, c, d, e) -> (MVector s a,
MVector s b,
MVector s c,
MVector s d,
MVector s e)
{-# INLINE unzip5 #-}
unzip5 (MV_5 n_ as bs cs ds es) = (as, bs, cs, ds, es)
#endif
#ifdef DEFINE_IMMUTABLE
-- | /O(1)/ Zip 5 vectors
zip5 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => Vector a ->
Vector b ->
Vector c ->
Vector d ->
Vector e -> Vector (a, b, c, d, e)
{-# INLINE_STREAM zip5 #-}
zip5 as bs cs ds es = V_5 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
(unsafeSlice 0 len es)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds `delayed_min`
length es
{-# RULES "stream/zip5 [Vector.Unboxed]" forall as bs cs ds es .
G.stream (zip5 as
bs
cs
ds
es) = Stream.zipWith5 (, , , ,) (G.stream as)
(G.stream bs)
(G.stream cs)
(G.stream ds)
(G.stream es)
#-}
-- | /O(1)/ Unzip 5 vectors
unzip5 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e) => Vector (a, b, c, d, e) -> (Vector a,
Vector b,
Vector c,
Vector d,
Vector e)
{-# INLINE unzip5 #-}
unzip5 (V_5 n_ as bs cs ds es) = (as, bs, cs, ds, es)
#endif
#ifdef DEFINE_INSTANCES
data instance MVector s (a, b, c, d, e, f)
= MV_6 {-# UNPACK #-} !Int !(MVector s a)
!(MVector s b)
!(MVector s c)
!(MVector s d)
!(MVector s e)
!(MVector s f)
data instance Vector (a, b, c, d, e, f)
= V_6 {-# UNPACK #-} !Int !(Vector a)
!(Vector b)
!(Vector c)
!(Vector d)
!(Vector e)
!(Vector f)
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => Unbox (a, b, c, d, e, f)
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => M.MVector MVector (a, b, c, d, e, f) where
{-# INLINE basicLength #-}
basicLength (MV_6 n_ as bs cs ds es fs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (MV_6 n_ as bs cs ds es fs)
= MV_6 m_ (M.basicUnsafeSlice i_ m_ as)
(M.basicUnsafeSlice i_ m_ bs)
(M.basicUnsafeSlice i_ m_ cs)
(M.basicUnsafeSlice i_ m_ ds)
(M.basicUnsafeSlice i_ m_ es)
(M.basicUnsafeSlice i_ m_ fs)
{-# INLINE basicOverlaps #-}
basicOverlaps (MV_6 n_1 as1 bs1 cs1 ds1 es1 fs1) (MV_6 n_2 as2
bs2
cs2
ds2
es2
fs2)
= M.basicOverlaps as1 as2
|| M.basicOverlaps bs1 bs2
|| M.basicOverlaps cs1 cs2
|| M.basicOverlaps ds1 ds2
|| M.basicOverlaps es1 es2
|| M.basicOverlaps fs1 fs2
{-# INLINE basicUnsafeNew #-}
basicUnsafeNew n_
= do
as <- M.basicUnsafeNew n_
bs <- M.basicUnsafeNew n_
cs <- M.basicUnsafeNew n_
ds <- M.basicUnsafeNew n_
es <- M.basicUnsafeNew n_
fs <- M.basicUnsafeNew n_
return $ MV_6 n_ as bs cs ds es fs
{-# INLINE basicUnsafeReplicate #-}
basicUnsafeReplicate n_ (a, b, c, d, e, f)
= do
as <- M.basicUnsafeReplicate n_ a
bs <- M.basicUnsafeReplicate n_ b
cs <- M.basicUnsafeReplicate n_ c
ds <- M.basicUnsafeReplicate n_ d
es <- M.basicUnsafeReplicate n_ e
fs <- M.basicUnsafeReplicate n_ f
return $ MV_6 n_ as bs cs ds es fs
{-# INLINE basicUnsafeRead #-}
basicUnsafeRead (MV_6 n_ as bs cs ds es fs) i_
= do
a <- M.basicUnsafeRead as i_
b <- M.basicUnsafeRead bs i_
c <- M.basicUnsafeRead cs i_
d <- M.basicUnsafeRead ds i_
e <- M.basicUnsafeRead es i_
f <- M.basicUnsafeRead fs i_
return (a, b, c, d, e, f)
{-# INLINE basicUnsafeWrite #-}
basicUnsafeWrite (MV_6 n_ as bs cs ds es fs) i_ (a, b, c, d, e, f)
= do
M.basicUnsafeWrite as i_ a
M.basicUnsafeWrite bs i_ b
M.basicUnsafeWrite cs i_ c
M.basicUnsafeWrite ds i_ d
M.basicUnsafeWrite es i_ e
M.basicUnsafeWrite fs i_ f
{-# INLINE basicClear #-}
basicClear (MV_6 n_ as bs cs ds es fs)
= do
M.basicClear as
M.basicClear bs
M.basicClear cs
M.basicClear ds
M.basicClear es
M.basicClear fs
{-# INLINE basicSet #-}
basicSet (MV_6 n_ as bs cs ds es fs) (a, b, c, d, e, f)
= do
M.basicSet as a
M.basicSet bs b
M.basicSet cs c
M.basicSet ds d
M.basicSet es e
M.basicSet fs f
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_6 n_1 as1 bs1 cs1 ds1 es1 fs1) (MV_6 n_2 as2
bs2
cs2
ds2
es2
fs2)
= do
M.basicUnsafeCopy as1 as2
M.basicUnsafeCopy bs1 bs2
M.basicUnsafeCopy cs1 cs2
M.basicUnsafeCopy ds1 ds2
M.basicUnsafeCopy es1 es2
M.basicUnsafeCopy fs1 fs2
{-# INLINE basicUnsafeMove #-}
basicUnsafeMove (MV_6 n_1 as1 bs1 cs1 ds1 es1 fs1) (MV_6 n_2 as2
bs2
cs2
ds2
es2
fs2)
= do
M.basicUnsafeMove as1 as2
M.basicUnsafeMove bs1 bs2
M.basicUnsafeMove cs1 cs2
M.basicUnsafeMove ds1 ds2
M.basicUnsafeMove es1 es2
M.basicUnsafeMove fs1 fs2
{-# INLINE basicUnsafeGrow #-}
basicUnsafeGrow (MV_6 n_ as bs cs ds es fs) m_
= do
as' <- M.basicUnsafeGrow as m_
bs' <- M.basicUnsafeGrow bs m_
cs' <- M.basicUnsafeGrow cs m_
ds' <- M.basicUnsafeGrow ds m_
es' <- M.basicUnsafeGrow es m_
fs' <- M.basicUnsafeGrow fs m_
return $ MV_6 (m_+n_) as' bs' cs' ds' es' fs'
instance (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => G.Vector Vector (a, b, c, d, e, f) where
{-# INLINE basicUnsafeFreeze #-}
basicUnsafeFreeze (MV_6 n_ as bs cs ds es fs)
= do
as' <- G.basicUnsafeFreeze as
bs' <- G.basicUnsafeFreeze bs
cs' <- G.basicUnsafeFreeze cs
ds' <- G.basicUnsafeFreeze ds
es' <- G.basicUnsafeFreeze es
fs' <- G.basicUnsafeFreeze fs
return $ V_6 n_ as' bs' cs' ds' es' fs'
{-# INLINE basicUnsafeThaw #-}
basicUnsafeThaw (V_6 n_ as bs cs ds es fs)
= do
as' <- G.basicUnsafeThaw as
bs' <- G.basicUnsafeThaw bs
cs' <- G.basicUnsafeThaw cs
ds' <- G.basicUnsafeThaw ds
es' <- G.basicUnsafeThaw es
fs' <- G.basicUnsafeThaw fs
return $ MV_6 n_ as' bs' cs' ds' es' fs'
{-# INLINE basicLength #-}
basicLength (V_6 n_ as bs cs ds es fs) = n_
{-# INLINE basicUnsafeSlice #-}
basicUnsafeSlice i_ m_ (V_6 n_ as bs cs ds es fs)
= V_6 m_ (G.basicUnsafeSlice i_ m_ as)
(G.basicUnsafeSlice i_ m_ bs)
(G.basicUnsafeSlice i_ m_ cs)
(G.basicUnsafeSlice i_ m_ ds)
(G.basicUnsafeSlice i_ m_ es)
(G.basicUnsafeSlice i_ m_ fs)
{-# INLINE basicUnsafeIndexM #-}
basicUnsafeIndexM (V_6 n_ as bs cs ds es fs) i_
= do
a <- G.basicUnsafeIndexM as i_
b <- G.basicUnsafeIndexM bs i_
c <- G.basicUnsafeIndexM cs i_
d <- G.basicUnsafeIndexM ds i_
e <- G.basicUnsafeIndexM es i_
f <- G.basicUnsafeIndexM fs i_
return (a, b, c, d, e, f)
{-# INLINE basicUnsafeCopy #-}
basicUnsafeCopy (MV_6 n_1 as1 bs1 cs1 ds1 es1 fs1) (V_6 n_2 as2
bs2
cs2
ds2
es2
fs2)
= do
G.basicUnsafeCopy as1 as2
G.basicUnsafeCopy bs1 bs2
G.basicUnsafeCopy cs1 cs2
G.basicUnsafeCopy ds1 ds2
G.basicUnsafeCopy es1 es2
G.basicUnsafeCopy fs1 fs2
{-# INLINE elemseq #-}
elemseq _ (a, b, c, d, e, f)
= G.elemseq (undefined :: Vector a) a
. G.elemseq (undefined :: Vector b) b
. G.elemseq (undefined :: Vector c) c
. G.elemseq (undefined :: Vector d) d
. G.elemseq (undefined :: Vector e) e
. G.elemseq (undefined :: Vector f) f
#endif
#ifdef DEFINE_MUTABLE
-- | /O(1)/ Zip 6 vectors
zip6 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => MVector s a ->
MVector s b ->
MVector s c ->
MVector s d ->
MVector s e ->
MVector s f -> MVector s (a, b, c, d, e, f)
{-# INLINE_STREAM zip6 #-}
zip6 as bs cs ds es fs = MV_6 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
(unsafeSlice 0 len es)
(unsafeSlice 0 len fs)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds `delayed_min`
length es `delayed_min`
length fs
-- | /O(1)/ Unzip 6 vectors
unzip6 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => MVector s (a, b, c, d, e, f) -> (MVector s a,
MVector s b,
MVector s c,
MVector s d,
MVector s e,
MVector s f)
{-# INLINE unzip6 #-}
unzip6 (MV_6 n_ as bs cs ds es fs) = (as, bs, cs, ds, es, fs)
#endif
#ifdef DEFINE_IMMUTABLE
-- | /O(1)/ Zip 6 vectors
zip6 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => Vector a ->
Vector b ->
Vector c ->
Vector d ->
Vector e ->
Vector f -> Vector (a, b, c, d, e, f)
{-# INLINE_STREAM zip6 #-}
zip6 as bs cs ds es fs = V_6 len (unsafeSlice 0 len as)
(unsafeSlice 0 len bs)
(unsafeSlice 0 len cs)
(unsafeSlice 0 len ds)
(unsafeSlice 0 len es)
(unsafeSlice 0 len fs)
where
len = length as `delayed_min`
length bs `delayed_min`
length cs `delayed_min`
length ds `delayed_min`
length es `delayed_min`
length fs
{-# RULES "stream/zip6 [Vector.Unboxed]" forall as bs cs ds es fs .
G.stream (zip6 as
bs
cs
ds
es
fs) = Stream.zipWith6 (, , , , ,) (G.stream as)
(G.stream bs)
(G.stream cs)
(G.stream ds)
(G.stream es)
(G.stream fs)
#-}
-- | /O(1)/ Unzip 6 vectors
unzip6 :: (Unbox a,
Unbox b,
Unbox c,
Unbox d,
Unbox e,
Unbox f) => Vector (a, b, c, d, e, f) -> (Vector a,
Vector b,
Vector c,
Vector d,
Vector e,
Vector f)
{-# INLINE unzip6 #-}
unzip6 (V_6 n_ as bs cs ds es fs) = (as, bs, cs, ds, es, fs)
#endif
|
