-- | -- Module : Data.Array.Accelerate -- Copyright : [2008..2009] Manuel M T Chakravarty, Gabriele Keller, Sean Lee -- License : BSD3 -- -- Maintainer : Manuel M T Chakravarty -- Stability : experimental -- Portability : non-portable (GHC extensions) -- -- This module defines an embedded language of array computations for -- high-performance computing. Computations on multi-dimensional, regular -- arrays are expressed in the form of parameterised collective operations -- (such as maps, reductions, and permutations). These computations are online -- compiled and executed on a range of architectures. -- -- /Abstract interface/ -- -- The types representing array computations are only exported abstractly — -- i.e., client code can generate array computations and submit them for -- for execution, but it cannot inspect these computations. This is to allow -- for more flexibility for future extensions of this library. -- -- /Code execution/ -- -- Access to the various backends is via a 'run' function in -- backend-specific toplevel modules. Currently, we have the following: -- -- * "Data.Array.Accelerate.Interpreter": simple interpreter in Haskell as a -- reference implementation defining the semantics of the Accelerate language module Data.Array.Accelerate ( -- * Scalar element types Int, Int8, Int16, Int32, Int64, Word, Word8, Word16, Word32, Word64, CShort, CUShort, CInt, CUInt, CLong, CULong, CLLong, CULLong, Float, Double, CFloat, CDouble, Bool, Char, CChar, CSChar, CUChar, -- * Array data types Array, Scalar, Vector, Segments, -- * Array element types Elem, -- * Array shapes & indices Ix(dim, size), All(..), SliceIx(..), DIM0, DIM1, DIM2, DIM3, DIM4, DIM5, -- * Operations to use Accelerate arrays from plain Haskell arrayShape, indexArray, fromIArray, toIArray, fromList, toList, -- * The /Accelerate/ language module Data.Array.Accelerate.Language, ) where -- friends import Data.Array.Accelerate.Type import Data.Array.Accelerate.Array.Sugar hiding ((!), shape) import qualified Data.Array.Accelerate.Array.Sugar as Sugar import Data.Array.Accelerate.Language -- Renamings -- -- rename as '(!)' is already used by the EDSL for indexing -- |Array indexing in plain Haskell code -- indexArray :: Array dim e -> dim -> e indexArray = (Sugar.!) -- rename as 'shape' is already used by the EDSL to query an array's shape -- |Array shape in plain Haskell code -- arrayShape :: Ix dim => Array dim e -> dim arrayShape = Sugar.shape