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Why do wet get the “Can't vectorise expression GHC.Prim.Int#” error in DPH programs?

I was trying to implement the nqueens problem using DPH but I ended up with the Can't vectorise GHC.Prim.Int# error. When I googled for the error I found a GHC Bug which talks about vectorizing literals used for pattern matching (http://haskell.1045720.n5.nabble.com/GHC-5702-Can-t-vectorise-pattern-matching-on-numeric-literals-td5076659.html). I am not sure if this is the same bug. My code is as follows,

``````{-# LANGUAGE ParallelArrays #-}
{-# OPTIONS_GHC -fvectorise #-}
module NQueensP (nqueens_wrapper)
where

import qualified Prelude
import Data.Array.Parallel
import Data.Array.Parallel.Prelude
import Data.Array.Parallel.Prelude.Int as I
import qualified Data.Array.Parallel.PArray as P

isSafe i q n  = isSafeHelper i (Prelude.zip (P.toList (toPArrayP q)) [n, n I.- 1..1])
where isSafeHelper i []  = True
isSafeHelper i (x:xs) = (i I.== Prelude.fst x) && I.abs(i I.-
(Prelude.fst x)) I./= I.abs(n I.- (Prelude.snd x)) &&
isSafeHelper i xs

nqueens_wrapper::Int -> PArray (PArray Int)
nqueens_wrapper n = toPArrayP (mapP toPArrayP (nqueens n 0))

nqueens::Int -> Int -> [:[:Int:]:]
nqueens n 1 = [:[:i:] | i <- (enumFromToP 1 n) :]
nqueens n k = [: [:i:] +:+ q | i <- oneton, q <- boards, isSafe i q k:]
where boards = nqueens n (k I.- 1)
oneton = (enumFromToP 1 n)
``````

Please let me know if I am doing something wrong. I am using GHC 7.4.1.

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Yes, this seems to be related to the bug you referred to. The error you get stems from this line:

``````nqueens n 1 = [:[:i:] | i <- (enumFromToP 1 n) :]
``````

Apparently, you can't use n-patterns with `-fvectorise` enabled. Let's manually desugar this line to remove the n-pattern:

``````nqueens n w | w I.== 1 = [:[:i:] | i <- (enumFromToP 1 n) :]
``````

We have now dealt with one cryptic error message. This doesn't mean that we're done, because the next error message seems just as cryptic:

``````*** Vectorisation error ***
Tycon not vectorised:  []
``````

The problem with `isSafe` (I think) is that you're using a lot of data types and variables that weren't compiled with `-fvectorise`. This means you can't just use linked lists (`Tycon not vectorised: []`), `Prelude.fst`, `Prelude.snd`, or `Prelude.zip`, unless you redefine those structures in your module. (Annoyingly enough, I can't even use `(.)` without redefining it.)

We will have to rewrite `isSafe`. Let's look at the first line of it:

``````isSafe i q n  = isSafeHelper i (Prelude.zip (P.toList (toPArrayP q)) [n, n I.- 1..1])
``````

We can't use `Prelude.zip`, but we could use `zipP` instead, which means we don't have to convert `q` anymore. However, our decreasing list should be rewritten using DPH combinators. Stupidly enough, `enumFromThenToP` doesn't exist, so instead, we'll say `mapP (n I.-) (enumFromToP 0 (n I.- 1))` to get the parallel equivalent of `[n, n I.- 1..1]`. So this line becomes:

``````isSafe i q n  = isSafeHelper i (zipP q (mapP (n I.-) (enumFromToP 0 (n I.- 1))))
``````

Now for `isSafeHelper`:

``````isSafeHelper i [] = True
isSafeHelper i (x:xs)
= (i I.== Prelude.fst x)
&& I.abs(i I.- (Prelude.fst x)) I./= I.abs(n I.- (Prelude.snd x))
&& isSafeHelper i xs
``````

Because `Prelude.fst` and `Prelude.snd` are unavailable, you can fix this by just extracting these parts of the tuple in the pattern itself:

``````isSafeHelper i [] = True
isSafeHelper i ((x1,x2):xs)
= (i I.== x1)
&& I.abs(i I.- x) I./= I.abs(n I.- x2)
&& isSafeHelper i xs
``````

But, of course, it still won't compile: your argument will be a parallel list, not a Prelude-style linked list. To deal with this, we're going to rewrite this in a more functional style, using the function `all`:

``````isSafeHelper i xs = all (isSafePredicate i) xs

isSafePredicate i (x1,x2)
= (i I.== x1)
&& I.abs(i I.- x) I./= I.abs(n I.- x2)
``````

`all` still works on linked lists, but note that you're not manually deconstructing the list in your own function. Wouldn't it be nice if there were an `allP` for parallel lists? It would, but there isn't. It's not hard to write it, though:

``````allP :: (a -> Bool) -> [: a :] -> Bool
allP p arr = andP (mapP p arr)
``````

Putting it all together, you can write `isSafe` as follows:

``````isSafe i q n = allP (isSafePredicate i n) (zipP q ntoone)
where
isSafePredicate i n (x1, x2)
= (i I.== x1)
&& I.abs(i I.- x1) I./= I.abs(n I.- x2)
ntoone = mapP (n I.-) (enumFromToP 0 (n I.- 1))
``````

`nqueens_wrapper` seems fine as it is. Your code should now compile.

A few notes:

• I don't know whether it works (I get `*** Exception: crossMapP: not implemented`, and don't know how to fix it), but it looks like it should.
• Rewriting `isSafe` the other way around won't work. If you try to work with `Prelude` numbers in `Prelude` lists, you'll end up with the complaint about `Int#` again. I think this is because `isSafe` is used by at least one vectorised function `nqueens`.
• Don't include `Data.Array.Parallel.Prelude`. The module description says so:

This module should not be explicitly imported in user code anymore. User code should only import Parallel and, until the vectoriser supports type classes, the type-specific modules.

• Don't go crazy with local definitions. `isSafeHelper` is missing its `n` argument in your version.

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