accelerate-llvm-native-1.4.0.0: src/Data/Array/Accelerate/LLVM/Native/CodeGen/Generate.hs
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeApplications #-}
-- |
-- Module : Data.Array.Accelerate.LLVM.Native.CodeGen.Generate
-- Copyright : [2014..2020] The Accelerate Team
-- License : BSD3
--
-- Maintainer : Trevor L. McDonell <trevor.mcdonell@gmail.com>
-- Stability : experimental
-- Portability : non-portable (GHC extensions)
--
module Data.Array.Accelerate.LLVM.Native.CodeGen.Generate
where
import Data.Array.Accelerate.Representation.Array
import Data.Array.Accelerate.Type
import Data.Array.Accelerate.LLVM.CodeGen.Array
import Data.Array.Accelerate.LLVM.CodeGen.Base
import Data.Array.Accelerate.LLVM.CodeGen.Environment
import Data.Array.Accelerate.LLVM.CodeGen.Monad
import Data.Array.Accelerate.LLVM.CodeGen.Sugar
import Data.Array.Accelerate.LLVM.Compile.Cache
import Data.Array.Accelerate.LLVM.Native.Target ( Native )
import Data.Array.Accelerate.LLVM.Native.CodeGen.Base
import Data.Array.Accelerate.LLVM.Native.CodeGen.Loop
-- Construct a new array by applying a function to each index. Each thread
-- processes multiple adjacent elements.
--
mkGenerate
:: UID
-> Gamma aenv
-> ArrayR (Array sh e)
-> IRFun1 Native aenv (sh -> e)
-> CodeGen Native (IROpenAcc Native aenv (Array sh e))
mkGenerate uid aenv repr apply =
let
(start, end, paramGang) = gangParam (arrayRshape repr)
(arrOut, paramOut) = mutableArray repr "out"
paramEnv = envParam aenv
shOut = irArrayShape arrOut
in
makeOpenAcc uid "generate" (paramGang ++ paramOut ++ paramEnv) $ do
imapNestFromTo (arrayRshape repr) start end shOut $ \ix i -> do
r <- app1 apply ix -- apply generator function
writeArray TypeInt arrOut i r -- store result