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Disclaimer: I came to Scala from C#, where I really appreciated LINQ. Therefore, I immediately felt at home with iterators and sequences. I missed yield "C# style", but I was able to cook my own with continuations... even if it pays a performance penalty.

Now, when I miss some method over collections in C#, I just define it as an extension method, and the compiler does a very nice job of treating code efficiently. In Scala, I use the Pimp enrich My Library approach, but I am a little bit worried about performances.

Contrary to my "yield iterator", however, this is a recognized and common patter. Does the Scala compiler optimize it, removing the creation of the temporary object?

class RichFoo(f: Foo) {
  def baz = f.bar()
  def baz2 = f.bar() * 2
}
object RichFoo {
  implicit def foo2Rich(f: Foo) = new RichFoo(f)
}

// on the caller side
val f : Foo = ....
f.baz
f.baz2
// this translates, literally, to new RichFoo(f).baz, new RichFoo(f).baz2

If not, why? It looks like a good and safe optimization to me. Can I "hint" or "force" the compiler in the right direction? Which faster alternatives are there?

I would like to use the pattern for my collection of algorithms over iterators/iterable, so I can write them as filter/map/etc collection.baz(lambda).bar(lambda2) but I am afraid it will prove to be too "heavy". (Compared to the more efficient/direct, but ugly bar(lambda2, baz(lambda, collection))

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1  
The fastest alternative to the date is to use implicit value classes (available in 2.10) so compiler will try as hard as it can to elide those rich wrapper classes and to inline methods you've introduced. –  om-nom-nom Mar 7 '13 at 13:58
    
@om-nom-nom sounds good... are there any posts/papers/... where can I read how is it done and which are the performance benefits? Also, what can I do if I'm stuck with 2.9.1? –  Lorenzo Dematté Mar 7 '13 at 14:00
3  
Aside from pretty good spec on value classes and implicit classes you may start with this post. Sadly looks like unlike another proposal those two features won't be backported to 2.9.4 (which is binary compatible with 2.9.1 and planned to come out in august). –  om-nom-nom Mar 7 '13 at 14:05
    
@om-nom-nom thank you, the spec on value classes is what I was looking for. Am I right that this optimization will also work for native types? I'm thinking of Int here (without boxing?), or Array[T]? –  Lorenzo Dematté Mar 7 '13 at 14:09
    
As @RégisJean-Gilles pointed to me some time ago, although this feature named value classes, it should work with both primitive and reference types underneath, so looks like pimping Array[T] should be fine. –  om-nom-nom Mar 7 '13 at 14:12

1 Answer 1

up vote 3 down vote accepted

As @om-nom-nom comments, the solution here (in 2.10) is to use an implicit value class.

implicit class RichFoo(val f : Foo) extends AnyVal {
  def baz = f.bar()
  def bax = f.bar()
}

RichFoo exists now at compile time, but at runtime this is optimized into a static method call, and so should impose no performance penalty.

See Value classes (SIP)

See also Mark Harrah's Introduction to Value Classes which gives a good overview from the usage perspective.

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