How to make a Strategy in Haskell Control.Parallel.Strategies?

Update: I just found this documentation page. Wish there was a link to it from the documentation that I'd been using, which seemed to be the definitive API doc. But maybe it's a new, unreleased work.

Update 2: This documentation has given me a lot better idea how to use the Control.Parallel.Strategies module. However I haven't quite solved the problem... see end of question.

I've been trying to use parListChunk or some other parallel control features in Haskell. But I can't figure out how to use them. Warning: I'm a Haskell noob. I learned some things about functional programming with Scheme about 20 years ago (!).

Here's my non-parallelized function:

``````possibKs n r = [ (k, (hanoiRCountK n k r)) | k <- [1 .. n-1] ]
``````

I want to parallelize it, something like this naive attempt:

``````possibKs n r
| n < parCutoff  = results
| otherwise      = parListChunk parChunkSize results
where results = [ (k, (hanoiRCountK n k r)) | k <- [1 .. n-1] ]
``````

But that structure isn't right for parListChunk. The docs say:

``````parListChunk :: Int -> Strategy a -> Strategy [a]
``````

parListChunk sequentially applies a strategy to chunks (sub-sequences) of a list in parallel. Useful to increase grain size

Good, that's what I want. But how to use it? I haven't been able to find any examples of this. If I'm understanding the type declaration, parListChunk is a function that takes an `Int` and a `Strategy<a>` (borrowing C++ parametrized type notation to help check that I really am understanding this right), and returns a `Strategy<[a]>`. In my case I'm dealing with `Int` for `a` so parListChunk will need an `Int` argument and a `Strategy<Int>`. So what is a `Strategy` and how do I produce one? And once I have successfully used parListChunk, what do I do with the `Strategy` it spits out?

The Strategy type is defined like this:

``````type Strategy a = a -> Done
``````

(And that is all the documentation for Strategy.) So a `Strategy<Int>` is a function that takes a parameter of type Int and returns Done. Apparently it causes its argument to get evaluated at a certain time or something. Where do I get one, and what kind should I use?

The following functions appear to return Strategies:

``````sPar :: a -> Strategy b
sSeq :: a -> Strategy b
r0 :: Strategy a
rwhnf :: Strategy a
``````

But none of them let you determine the type parameter -- they produce a `Strategy<b>` when you give parameter `a`, or else you don't get to supply parameter `a`! What's up with that?? Beyond that, I have no idea what these mean.

I did find one example of the similar function parList being used on SO:

``````return . maximum \$ map optimize xs `using` parList
``````

It uses this funky `using` function, which is declared:

``````using :: a -> Strategy a -> a
``````

Fair enough... in my case I probably want `a` to be `[Int]`, so it takes a list of Ints and a `Strategy<[Int]>` and (does something? applies the strategy to the list? and) returns a list of Ints. So I tried to follow the parList example and changed my `otherwise` guard to:

``````| otherwise      = results `using` parListChunk parChunkSize
``````

but I must admit I'm still shooting in the dark... I can't quite follow the type signatures around. So it's not too surprising that the above gives an error:

``````Couldn't match expected type `[(Int, Integer)]'
against inferred type `a -> Eval a'
Probable cause: `parListChunk' is applied to too few arguments
In the second argument of `using', namely
`parListChunk parChunkSize'
In the expression: results `using` parListChunk parChunkSize
``````

Can someone tell me what to use for the `Strategy a` argument to parListChunk? and how to use the `Strategy [a]` returned by parListChunk?

New part

Looking at Basic Strategies, I think I need to use the `rseq` strategy. Probably. So I try

``````| otherwise      = results `using` (parListChunk parChunkSize rseq)
``````

But GHC says rseq is "not in scope". These API docs say there is no rseq in the package but sSeq seems to have replaced it. OK, so I used sSeq, but it's "not in scope" either. Even though I'm importing `Control.Parallel.Strategies`.

``````Loading package deepseq-1.1.0.0 ... linking ... done.
``````

So apparently that tells what version of the parallel package I have: 2.2.0.1. But I don't see information in the API docs about what version is described there. If I shouldn't use rseq or sSeq, what should I use? How come Edward was able to use parList?

-

OK, I got the code working. I got it to compile by using `rwhnf` instead of `rseq`:

``````| otherwise      = results `using` (parListChunk parChunkSize rwhnf)
``````

According to this source code, `rwhnf` was renamed to `rseq` in version 3. So I guess my version of the Parallel package is obsolete with respect to this documentation. :-S

I guess that's part of the price of using "experimental" packages.

Anyway, the code compiles and runs. Whether it's doing anything useful with parallelism is another question...

-
Make sure you run the executable with +RTS -N to use multiple cores. If you enable +RTS -s to show statistics, you can see how efficiently work is being spread across cores. For finer-grained tuning, use ThreadScope (research.microsoft.com/en-us/projects/threadscope). – John L Sep 9 '10 at 22:07
Thanks, @John. In WinGCHi, I have "ghc --interactive -threaded" in the GHCi Startup options. I guess that's not enough? Can I even run multithreaded programs inside WinGCHi? – LarsH Sep 9 '10 at 22:13
IIRC ghci always uses the threaded runtime (e.g. -threaded is implicit). Just specify the runtime options you'd like in the startup options and you should be fine. If you don't use -N, the default is to stay on one core even with the threaded runtime. – John L Sep 9 '10 at 23:23