It's a doubt about parallel strategies and `parMap`

(Control.Parallel.Strategies)

It's about `parMap rseq`

equivalence with `parMap rpar`

.

Since `parMap`

uses `parList`

it evaluates in parallel so using either `rseq`

or `rpar`

will evaluate in parallel to WHNF. Isn't it ?

Update:

Since

```
parMap strat f = (`using` parList strat) . map f
parList = parTraversable
parTraversable strat = evalTraversable (rpar `dot` strat)
evalTraversable = traverse
strat2 `dot` strat1 = strat2 . runEval . strat1
```

`parMap rseq`

uses the strategy

```
rpar `dot` rseq
```

which gives:

```
rpar . runEval . rseq
```

which gives:

```
(\x -> x `par` return x) . runEval . (\x -> x `pseq` return x)
```

It is hard to think about the result.

Update:

I see, the lazy evaluation takes the first function of the composition first, and

```
(\x -> x `par` return x)
```

grants that every element in the traversable container will be sparked for a parallel computation when possible.

So we could add that *(rpar dot rseq)* is equivalent to

*(rseq*, isn't it?

`dot`

rpar)And that `parMap rpar`

is redundant in that it generates two sparks for every traversable element. !!