From 7e5ccb3402f97c1c7cff158147aeb863d429f885 Mon Sep 17 00:00:00 2001 From: Tom Smeding Date: Thu, 21 Nov 2024 13:49:25 +0100 Subject: [rsm]emptyArray --- src/Data/Array/Nested.hs | 3 +++ src/Data/Array/Nested/Internal/Mixed.hs | 15 +++++++++------ src/Data/Array/Nested/Internal/Ranked.hs | 9 ++++++--- src/Data/Array/Nested/Internal/Shaped.hs | 9 ++++++--- 4 files changed, 24 insertions(+), 12 deletions(-) (limited to 'src') diff --git a/src/Data/Array/Nested.hs b/src/Data/Array/Nested.hs index f987acc..b825691 100644 --- a/src/Data/Array/Nested.hs +++ b/src/Data/Array/Nested.hs @@ -8,6 +8,7 @@ module Data.Array.Nested ( ShR(.., ZSR, (:$:)), IShR, rshape, rrank, rsize, rindex, rindexPartial, rgenerate, rsumOuter1, rsumAllPrim, rtranspose, rappend, rconcat, rscalar, rfromVector, rtoVector, runScalar, + remptyArray, rrerank, rreplicate, rreplicateScal, rfromListOuter, rfromList1, rfromList1Prim, rtoListOuter, rtoList1, rfromListLinear, rfromListPrimLinear, rtoListLinear, @@ -29,6 +30,7 @@ module Data.Array.Nested ( sshape, srank, ssize, sindex, sindexPartial, sgenerate, ssumOuter1, ssumAllPrim, stranspose, sappend, sscalar, sfromVector, stoVector, sunScalar, -- TODO: sconcat? What should its type be? + semptyArray, srerank, sreplicate, sreplicateScal, sfromListOuter, sfromList1, sfromList1Prim, stoListOuter, stoList1, sfromListLinear, sfromListPrimLinear, stoListLinear, @@ -50,6 +52,7 @@ module Data.Array.Nested ( SMayNat(..), mshape, mrank, msize, mindex, mindexPartial, mgenerate, msumOuter1, msumAllPrim, mtranspose, mappend, mconcat, mscalar, mfromVector, mtoVector, munScalar, + memptyArray, mrerank, mreplicate, mreplicateScal, mfromListOuter, mfromList1, mfromList1Prim, mtoListOuter, mtoList1, mfromListLinear, mfromListPrimLinear, mtoListLinear, diff --git a/src/Data/Array/Nested/Internal/Mixed.hs b/src/Data/Array/Nested/Internal/Mixed.hs index 0e4f5e6..8d239cf 100644 --- a/src/Data/Array/Nested/Internal/Mixed.hs +++ b/src/Data/Array/Nested/Internal/Mixed.hs @@ -366,7 +366,7 @@ class Elt a where -- 'Data.Array.Nested.Shaped.sgenerate'. class Elt a => KnownElt a where -- | Create an empty array. The given shape must have size zero; this may or may not be checked. - memptyArray :: IShX sh -> Mixed sh a + memptyArrayUnsafe :: IShX sh -> Mixed sh a -- | Create uninitialised vectors for this array type, given the shape of -- this vector and an example for the contents. @@ -461,7 +461,7 @@ deriving via Primitive Float instance Elt Float deriving via Primitive () instance Elt () instance Storable a => KnownElt (Primitive a) where - memptyArray sh = M_Primitive sh (X.empty sh) + memptyArrayUnsafe sh = M_Primitive sh (X.empty sh) mvecsUnsafeNew sh _ = MV_Primitive <$> VSM.unsafeNew (shxSize sh) mvecsNewEmpty _ = MV_Primitive <$> VSM.unsafeNew 0 @@ -517,7 +517,7 @@ instance (Elt a, Elt b) => Elt (a, b) where mvecsFreeze sh (MV_Tup2 a b) = M_Tup2 <$> mvecsFreeze sh a <*> mvecsFreeze sh b instance (KnownElt a, KnownElt b) => KnownElt (a, b) where - memptyArray sh = M_Tup2 (memptyArray sh) (memptyArray sh) + memptyArrayUnsafe sh = M_Tup2 (memptyArrayUnsafe sh) (memptyArrayUnsafe sh) mvecsUnsafeNew sh (x, y) = MV_Tup2 <$> mvecsUnsafeNew sh x <*> mvecsUnsafeNew sh y mvecsNewEmpty _ = MV_Tup2 <$> mvecsNewEmpty (Proxy @a) <*> mvecsNewEmpty (Proxy @b) @@ -650,7 +650,7 @@ instance Elt a => Elt (Mixed sh' a) where mvecsFreeze sh (MV_Nest sh' vecs) = M_Nest sh <$> mvecsFreeze (shxAppend sh sh') vecs instance (KnownShX sh', KnownElt a) => KnownElt (Mixed sh' a) where - memptyArray sh = M_Nest sh (memptyArray (shxAppend sh (shxCompleteZeros (knownShX @sh')))) + memptyArrayUnsafe sh = M_Nest sh (memptyArrayUnsafe (shxAppend sh (shxCompleteZeros (knownShX @sh')))) mvecsUnsafeNew sh example | shxSize sh' == 0 = mvecsNewEmpty (Proxy @(Mixed sh' a)) @@ -661,6 +661,9 @@ instance (KnownShX sh', KnownElt a) => KnownElt (Mixed sh' a) where mvecsNewEmpty _ = MV_Nest (shxCompleteZeros (knownShX @sh')) <$> mvecsNewEmpty (Proxy @a) +memptyArray :: KnownElt a => IShX sh -> Mixed (Just 0 : sh) a +memptyArray sh = memptyArrayUnsafe (SKnown SNat :$% sh) + mrank :: Elt a => Mixed sh a -> SNat (Rank sh) mrank = shxRank . mshape @@ -687,12 +690,12 @@ msize = shxSize . mshape -- easily, hence the runtime check. mgenerate :: forall sh a. KnownElt a => IShX sh -> (IIxX sh -> a) -> Mixed sh a mgenerate sh f = case shxEnum sh of - [] -> memptyArray sh + [] -> memptyArrayUnsafe sh firstidx : restidxs -> let firstelem = f (ixxZero' sh) shapetree = mshapeTree firstelem in if mshapeTreeEmpty (Proxy @a) shapetree - then memptyArray sh + then memptyArrayUnsafe sh else runST $ do vecs <- mvecsUnsafeNew sh firstelem mvecsWrite sh firstidx firstelem vecs diff --git a/src/Data/Array/Nested/Internal/Ranked.hs b/src/Data/Array/Nested/Internal/Ranked.hs index 39a6018..9e8a7b2 100644 --- a/src/Data/Array/Nested/Internal/Ranked.hs +++ b/src/Data/Array/Nested/Internal/Ranked.hs @@ -165,11 +165,11 @@ instance Elt a => Elt (Ranked n a) where vecs) instance (KnownNat n, KnownElt a) => KnownElt (Ranked n a) where - memptyArray :: forall sh. IShX sh -> Mixed sh (Ranked n a) - memptyArray i + memptyArrayUnsafe :: forall sh. IShX sh -> Mixed sh (Ranked n a) + memptyArrayUnsafe i | Dict <- lemKnownReplicate (SNat @n) = coerce @(Mixed sh (Mixed (Replicate n Nothing) a)) @(Mixed sh (Ranked n a)) $ - memptyArray i + memptyArrayUnsafe i mvecsUnsafeNew idx (Ranked arr) | Dict <- lemKnownReplicate (SNat @n) @@ -229,6 +229,9 @@ instance (FloatElt a, NumElt a, PrimElt a, Num a) => Floating (Ranked n a) where log1mexp = arithPromoteRanked GHC.Float.log1mexp +remptyArray :: KnownElt a => Ranked 1 a +remptyArray = mtoRanked (memptyArray ZSX) + rshape :: Elt a => Ranked n a -> IShR n rshape (Ranked arr) = shCvtXR' (mshape arr) diff --git a/src/Data/Array/Nested/Internal/Shaped.hs b/src/Data/Array/Nested/Internal/Shaped.hs index e2f65c0..228d800 100644 --- a/src/Data/Array/Nested/Internal/Shaped.hs +++ b/src/Data/Array/Nested/Internal/Shaped.hs @@ -163,11 +163,11 @@ instance Elt a => Elt (Shaped sh a) where vecs) instance (KnownShS sh, KnownElt a) => KnownElt (Shaped sh a) where - memptyArray :: forall sh'. IShX sh' -> Mixed sh' (Shaped sh a) - memptyArray i + memptyArrayUnsafe :: forall sh'. IShX sh' -> Mixed sh' (Shaped sh a) + memptyArrayUnsafe i | Dict <- lemKnownMapJust (Proxy @sh) = coerce @(Mixed sh' (Mixed (MapJust sh) a)) @(Mixed sh' (Shaped sh a)) $ - memptyArray i + memptyArrayUnsafe i mvecsUnsafeNew idx (Shaped arr) | Dict <- lemKnownMapJust (Proxy @sh) @@ -239,6 +239,9 @@ instance (FloatElt a, NumElt a, PrimElt a, Floating a, KnownShS sh) => Floating log1mexp = arithPromoteShaped GHC.Float.log1mexp +semptyArray :: KnownElt a => ShS sh -> Shaped (0 : sh) a +semptyArray sh = Shaped (memptyArray (shCvtSX sh)) + sshape :: forall sh a. Elt a => Shaped sh a -> ShS sh sshape (Shaped arr) = shCvtXS' (mshape arr) -- cgit v1.2.3-70-g09d2