module Data.Array.Knead.Parameterized.Slice (
T,
apply,
Linear,
passAny,
pass,
pick,
extrude,
(Core.$:.),
) where
import qualified Data.Array.Knead.Parameterized.Private as Priv
import Data.Array.Knead.Parameterized.Private (Array(Array), )
import qualified Data.Array.Knead.Simple.Slice as Slice
import qualified Data.Array.Knead.Simple.Private as Core
import qualified Data.Array.Knead.Index.Linear as Linear
import qualified Data.Array.Knead.Index.Nested.Shape as Shape
import qualified Data.Array.Knead.Parameter as Param
import qualified Data.Array.Knead.Expression as Expr
import Data.Array.Knead.Expression (Exp, )
import Data.Array.Knead.Index.Linear ((:.), )
import qualified LLVM.Extra.Multi.Value.Memory as MultiValueMemory
import qualified LLVM.Extra.Multi.Value as MultiValue
import Foreign.Storable (Storable, )
data T p sh0 sh1 =
forall parameter context.
(Storable parameter, MultiValueMemory.C parameter) =>
Cons {
_core :: MultiValue.T parameter -> Slice.T sh0 sh1,
_createContext :: p -> IO (context, parameter),
_deleteContext :: context -> IO ()
}
apply ::
(Shape.C sh0, Shape.C sh1, MultiValue.C a) =>
T p sh0 sh1 ->
Array p sh0 a ->
Array p sh1 a
apply (Cons slice createSlice deleteSlice) (Array arr createArr deleteArr) =
Array
(\p ->
case MultiValue.unzip p of
(paramSlice, paramArr) ->
Slice.apply (slice paramSlice) (arr paramArr))
(Priv.combineCreate createSlice createArr)
(Priv.combineDelete deleteSlice deleteArr)
type Linear p sh0 sh1 = T p (Linear.Shape sh0) (Linear.Shape sh1)
passAny :: Linear p sh sh
passAny =
Cons (const Slice.passAny) (Priv.createPlain $ const ()) Priv.deletePlain
pass ::
Linear p sh0 sh1 ->
Linear p (sh0:.i) (sh1:.i)
pass (Cons slice create delete) = Cons (Slice.pass . slice) create delete
pick ::
(MultiValueMemory.C i, Storable i) =>
Param.T p i ->
Linear p sh0 sh1 ->
Linear p (sh0:.i) sh1
pick = lift Slice.pick
extrude ::
(MultiValueMemory.C i, Storable i) =>
Param.T p i ->
Linear p sh0 sh1 ->
Linear p sh0 (sh1:.i)
extrude = lift Slice.extrude
lift ::
(MultiValueMemory.C i, Storable i) =>
(Exp i -> Slice.Linear sh0 sh1 -> Slice.Linear sh2 sh3) ->
Param.T p i ->
Linear p sh0 sh1 -> Linear p sh2 sh3
lift f i (Cons slice create delete) =
Param.withMulti i $ \getI valueI ->
Cons
(\p ->
case MultiValue.unzip p of
(slicep, ip) ->
f (Expr.lift0 (valueI ip)) (slice slicep))
(\p -> do
(ctx, param) <- create p
return (ctx, (param, getI p)))
delete
instance Core.Process (T p sh0 sh1) where