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I am toying with the llvm Haskell package to generate LLVM IR code. Consider the following 2D aggregate LLVM array. It is an array of length 2 of arrays of length 4 of 8-bit integers.

[2 x [4 x i8]]

I have tried putting together a simple exercise, but I'm stuck. I'd like to go increment the value of each element in my array.

{- input 2D array

[ [1 , 2 , 3 , 4]
, [5 , 6 , 7 , 8] ]

-}

{- desired output 2D array

[ [3 , 4 , 5 , 6 ]
, [7 , 8 , 9 , 10] ]

-}

The challenge: to implement the nested forLoop.

{-# LANGUAGE ScopedTypeVariables #-}

module TwoDArray where

import Data.Int
import Data.Word
import LLVM.Core
import LLVM.Util.Loop
import Data.TypeLevel (D2,D4)

f :: CodeGenModule (Function (IO ()))
f = createNamedFunction ExternalLinkage "test" $ do
        let xss = [[1,2,3,4],[5,6,7,8]]
            height = 2
            width  = 4
        let arr = Array $ map Array xss :: Array D2 (Array D4 Word8)
        (ptr :: Value (Ptr (Array D2 (Array D4 Word8)))) <- malloc
        store (valueOf arr) ptr
        forLoop (valueOf 0) (valueOf (fromIntegral height) :: Value Int32) () $ \ h () -> do
           forLoop (valueOf 0) (valueOf (fromIntegral width) :: Value Int32) () $ \ w () -> do
             {- 1. load element at <h/w> position in 2D array arr -}
             {- 2. add 2 to the value as y -}
             {- 3. put value of y in to position <h/w> in 2D array arr -}
             ret ()
           ret ()
        return () -- better still, return the pointer `ptr`
share|improve this question
    
If you're willing to work with the new llvm-general bindings then I've written a similar "for" loop abstraction in the llvm-codegen package. Still experimental, but looks similar to what you want to do: github.com/sdiehl/llvm-codegen/blob/master/test/Saxpy.hs#L37 –  Stephen Diehl Jan 25 at 17:20

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