dph-par-0.4.0: Data structures for Nested Data-Parallel Haskell. Source code Contents Index

Data.Array.Parallel.Lifted

Synopsis

data PArray a = PArray Int# (PData a) data family PData a data PA a = PA { toPRepr :: a -> PRepr a fromPRepr :: PRepr a -> a toArrPRepr :: PData a -> PData (PRepr a) fromArrPRepr :: PData (PRepr a) -> PData a dictPRepr :: PR (PRepr a) } lengthPA# :: PArray a -> Int# dataPA# :: PArray a -> PData a replicatePA# :: PA a -> Int# -> a -> PArray a replicatelPA# :: PA a -> Segd -> PArray a -> PArray a repeatPA# :: PA a -> Int# -> PArray a -> PArray a repeatcPA# :: PA a -> Array Int -> Segd -> PArray a -> PArray a emptyPA :: PA a -> PArray a indexPA# :: PA a -> PArray a -> Int# -> a extractPA# :: PA a -> PArray a -> Int# -> Int# -> PArray a bpermutePA# :: PA a -> PArray a -> Int# -> Array Int -> PArray a appPA# :: PA a -> PArray a -> PArray a -> PArray a applPA# :: PA a -> Segd -> PArray a -> Segd -> PArray a -> PArray a packPA# :: PA a -> PArray a -> Int# -> Array Bool -> PArray a combine2PA# :: PA a -> Int# -> Sel2 -> PArray a -> PArray a -> PArray a fromListPA# :: PA a -> Int# -> [a] -> PArray a fromListPA :: PA a -> [a] -> PArray a nfPA :: PA a -> PArray a -> () replicatePD :: PA a -> T_replicatePR a replicatelPD :: PA a -> T_replicatelPR a repeatPD :: PA a -> T_repeatPR a repeatcPD :: PA a -> T_repeatcPR a emptyPD :: PA a -> T_emptyPR a indexPD :: PA a -> T_indexPR a extractPD :: PA a -> T_extractPR a bpermutePD :: PA a -> T_bpermutePR a appPD :: PA a -> T_appPR a applPD :: PA a -> T_applPR a packPD :: PA a -> T_packPR a combine2PD :: PA a -> T_combine2PR a fromListPD :: PA a -> T_fromListPR a fromListPD :: PA a -> T_fromListPR a nfPD :: PA a -> T_nfPR a type family PRepr a data PR a = PR { emptyPR :: T_emptyPR a replicatePR :: T_replicatePR a replicatelPR :: T_replicatelPR a repeatPR :: T_repeatPR a repeatcPR :: T_repeatcPR a indexPR :: T_indexPR a extractPR :: T_extractPR a bpermutePR :: T_bpermutePR a appPR :: T_appPR a applPR :: T_applPR a packPR :: T_packPR a combine2PR :: T_combine2PR a fromListPR :: T_fromListPR a nfPR :: T_nfPR a } mkPR :: PA a -> PR a mkReprPA :: a ~ PRepr a => PR a -> PA a type T_replicatePR a = Int# -> a -> PData a type T_replicatelPR a = Segd -> PData a -> PData a type T_repeatPR a = Int# -> Int# -> PData a -> PData a type T_repeatcPR a = Int# -> Array Int -> Segd -> PData a -> PData a type T_emptyPR a = PData a type T_indexPR a = PData a -> Int# -> a type T_extractPR a = PData a -> Int# -> Int# -> PData a type T_bpermutePR a = PData a -> Int# -> Array Int -> PData a type T_appPR a = PData a -> PData a -> PData a type T_applPR a = Segd -> PData a -> Segd -> PData a -> PData a type T_packPR a = PData a -> Int# -> Array Bool -> PData a type T_combine2PR a = Int# -> Sel2 -> PData a -> PData a -> PData a type T_fromListPR a = Int# -> [a] -> PData a type T_fromListPR a = Int# -> [a] -> PData a type T_nfPR a = PData a -> () data family PData a dPA_Int :: PA Int dPR_Int :: PR Int dPA_Word8 :: PA Word8 dPR_Word8 :: PR Word8 dPA_Double :: PA Double dPR_Double :: PR Double dPA_Bool :: PA Bool dPA_Unit :: PA () dPA_2 :: PA a -> PA b -> PA (a, b) dPA_3 :: PA a -> PA b -> PA c -> PA (a, b, c) dPA_4 :: PA a -> PA b -> PA c -> PA d -> PA (a, b, c, d) dPA_5 :: PA a -> PA b -> PA c -> PA d -> PA e -> PA (a, b, c, d, e) dPA_PArray :: PA a -> PA (PArray a) data a :-> b ($:) :: forall a b. (a :-> b) -> a -> b ($:^) :: forall a b. PArray (a :-> b) -> PArray a -> PArray b dPA_Clo :: PA a -> PA b -> PA (a :-> b)

Documentation

data PArray a Source

Lifted parallel arrays Constructors PArray Int# (PData a) Instances (Elt a, Show a) => Show (PArray a)

data family PData a Source

data PA a Source

Dictionaries Constructors PA toPRepr :: a -> PRepr a fromPRepr :: PRepr a -> a toArrPRepr :: PData a -> PData (PRepr a) fromArrPRepr :: PData (PRepr a) -> PData a dictPRepr :: PR (PRepr a)

lengthPA# :: PArray a -> Int# Source

dataPA# :: PArray a -> PData a Source

replicatePA# :: PA a -> Int# -> a -> PArray a Source

replicatelPA# :: PA a -> Segd -> PArray a -> PArray a Source

repeatPA# :: PA a -> Int# -> PArray a -> PArray a Source

repeatcPA# :: PA a -> Array Int -> Segd -> PArray a -> PArray a Source

emptyPA :: PA a -> PArray a Source

indexPA# :: PA a -> PArray a -> Int# -> a Source

extractPA# :: PA a -> PArray a -> Int# -> Int# -> PArray a Source

bpermutePA# :: PA a -> PArray a -> Int# -> Array Int -> PArray a Source

appPA# :: PA a -> PArray a -> PArray a -> PArray a Source

applPA# :: PA a -> Segd -> PArray a -> Segd -> PArray a -> PArray a Source

packPA# :: PA a -> PArray a -> Int# -> Array Bool -> PArray a Source

combine2PA# :: PA a -> Int# -> Sel2 -> PArray a -> PArray a -> PArray a Source

fromListPA# :: PA a -> Int# -> [a] -> PArray a Source

fromListPA :: PA a -> [a] -> PArray a Source

nfPA :: PA a -> PArray a -> () Source

replicatePD :: PA a -> T_replicatePR a Source

replicatelPD :: PA a -> T_replicatelPR a Source

repeatPD :: PA a -> T_repeatPR a Source

repeatcPD :: PA a -> T_repeatcPR a Source

emptyPD :: PA a -> T_emptyPR a Source

indexPD :: PA a -> T_indexPR a Source

extractPD :: PA a -> T_extractPR a Source

bpermutePD :: PA a -> T_bpermutePR a Source

appPD :: PA a -> T_appPR a Source

applPD :: PA a -> T_applPR a Source

packPD :: PA a -> T_packPR a Source

combine2PD :: PA a -> T_combine2PR a Source

fromListPD :: PA a -> T_fromListPR a Source

fromListPD :: PA a -> T_fromListPR a Source

nfPD :: PA a -> T_nfPR a Source

type family PRepr a Source

Representation types

data PR a Source

Constructors PR emptyPR :: T_emptyPR a replicatePR :: T_replicatePR a replicatelPR :: T_replicatelPR a repeatPR :: T_repeatPR a repeatcPR :: T_repeatcPR a indexPR :: T_indexPR a extractPR :: T_extractPR a bpermutePR :: T_bpermutePR a appPR :: T_appPR a applPR :: T_applPR a packPR :: T_packPR a combine2PR :: T_combine2PR a fromListPR :: T_fromListPR a nfPR :: T_nfPR a

mkPR :: PA a -> PR a Source

mkReprPA :: a ~ PRepr a => PR a -> PA a Source

type T_replicatePR a = Int# -> a -> PData a Source

type T_replicatelPR a = Segd -> PData a -> PData a Source

type T_repeatPR a = Int# -> Int# -> PData a -> PData a Source

type T_repeatcPR a = Int# -> Array Int -> Segd -> PData a -> PData a Source

type T_emptyPR a = PData a Source

type T_indexPR a = PData a -> Int# -> a Source

type T_extractPR a = PData a -> Int# -> Int# -> PData a Source

type T_bpermutePR a = PData a -> Int# -> Array Int -> PData a Source

type T_appPR a = PData a -> PData a -> PData a Source

type T_applPR a = Segd -> PData a -> Segd -> PData a -> PData a Source

type T_packPR a = PData a -> Int# -> Array Bool -> PData a Source

type T_combine2PR a = Int# -> Sel2 -> PData a -> PData a -> PData a Source

type T_fromListPR a = Int# -> [a] -> PData a Source

type T_fromListPR a = Int# -> [a] -> PData a Source

type T_nfPR a = PData a -> () Source

data family PData a Source

dPA_Int :: PA Int Source

dPR_Int :: PR Int Source

dPA_Word8 :: PA Word8 Source

dPR_Word8 :: PR Word8 Source

dPA_Double :: PA Double Source

dPR_Double :: PR Double Source

dPA_Bool :: PA Bool Source

dPA_Unit :: PA () Source

dPA_2 :: PA a -> PA b -> PA (a, b) Source

dPA_3 :: PA a -> PA b -> PA c -> PA (a, b, c) Source

dPA_4 :: PA a -> PA b -> PA c -> PA d -> PA (a, b, c, d) Source

dPA_5 :: PA a -> PA b -> PA c -> PA d -> PA e -> PA (a, b, c, d, e) Source

dPA_PArray :: PA a -> PA (PArray a) Source

data a :-> b Source

The type of closures

($:) :: forall a b. (a :-> b) -> a -> b Source

Closure application

($:^) :: forall a b. PArray (a :-> b) -> PArray a -> PArray b Source

Lifted closure application

dPA_Clo :: PA a -> PA b -> PA (a :-> b) Source

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