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What is the closest Swift equivalent of the following C & OpenMP code (assume that n is huge and f is simple):

#openmp parallel for
for (int i = 0; i < n; ++i) {
    a[i] = f(b[i]);

Parallelising a for loop with striding and dispatch_apply seems like a lot of work for such a routine task. Is there any clever shortcut?

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Maybe you need to use the other Swift: swift-lang.org –  Dave Clarke Jun 4 at 20:15
@DaveClarke: :) –  Jukka Suomela Jun 4 at 23:08

1 Answer 1

It appears (from the iBook) that there's not yet a swift-specific API/language feature for parallelism. Using GCD seems like the best option at this point, performance-wise. If you're looking for code brevity, you can just use the standard Objective-C idiom for concurrent array enumeration:

    var array : Int[] = [1,2,3,4]
    array.bridgeToObjectiveC().enumerateObjectsWithOptions(NSEnumerationOptions.Concurrent, {(obj: AnyObject!, index: Int, outStop: CMutablePointer<ObjCBool>) -> Void in
        // Do stuff
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I'd be very interested to see benchmarks comparing this kind of approach with (1) a straightforward single-threaded Swift implementation, and (2) an OpenMP-parallelised C implementation! –  Jukka Suomela Jun 4 at 13:09
If the single threaded swift implementation outperforms OpenMP then the workload was a bad candidate for parallelization in the first place. If the OpenMP version outperforms the single threaded swift, well... it's not surprising, really. I think the more interesting comparison would be swift using GCD for parallelism vs C using OpenMP. (And I would expect that for sufficiently parallel workloads, C would win, but it'd be an interesting test.) –  ipmcc Jun 4 at 13:13
I think you misunderstood my comment. I would like to see two different comparisons: (1) Swift NSEnumerationOptions.Concurrent parallelism vs. Swift single-threaded and (2) Swift NSEnumerationOptions.Concurrent parallelism vs. C OpenMP parallelism. –  Jukka Suomela Jun 4 at 13:22
w/r/t #1, my comment stands. Single threaded vs. parallel is uninteresting no matter what API is used, because it should be completely dominated by the question of how parallel the workload is in the first place. –  ipmcc Jun 4 at 13:24
No, I think benchmarking (1) is very important in order to learn if we can achieve near-optimal speedups with NSEnumerationOptions.Concurrent parallelism in Swift applications. I am not at all convinced that the overhead related to the implementation of enumerateObjectsWithOptions(NSEnumerationOptions.Concurrent) is negligible, especially if you need to bridge between Swift and ObjC. With C & OpenMP it is well-known that you can achieve near-optimal speedups (e.g., with 20 cores you can get almost 20-fold speedups in comparison with a single-threaded version); is this the case with Swift, too? –  Jukka Suomela Jun 4 at 13:47

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