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I wrote an answer to the first Project Euler question:

Add all the natural numbers below one thousand that are multiples of 3 or 5.

The first thing that came to me was:

(1 until 1000).filter(i => (i % 3 == 0 || i % 5 == 0)).foldLeft(0)(_ + _)

but it's slow (it takes 125 ms), so I rewrote it, simply thinking of 'another way' versus 'the faster way'

(1 until 1000).foldLeft(0){
    (total, x) =>
        x match {
            case i if (i % 3 == 0 || i % 5 ==0) => i + total // Add
            case _ => total //skip

This is much faster (only 2 ms). Why? I'm guess the second version uses only the Range generator and doesn't manifest a fully realized collection in any way, doing it all in one pass, both faster and with less memory. Am I right?

Here the code on IdeOne:

share|improve this question
How did you measure that the code is "orders of magnitude faster"? On my extremely old, extremely slow laptop, in the Scala interpreter, the version you claim is "orders of magnitude slower" takes less than 300 µs (that's micro seconds), so how long does the fast version take? Does it go backwards in time? Most high-performance JVMs need about 5 seconds just to warm up their caches and stuff, before they even reach full speed. (The C2 compiler in the HotSpot JVM, which is the optimizing compiler, doesn't even compile a method until it has run 20000 times.) – Jörg W Mittag Jan 25 '11 at 16:22
The second version seems to be around 3 times faster (by my totally unscientific measurement using (1 to 10000000) in the REPL). I wouldn't call that "orders of magnitude", but still. – Knut Arne Vedaa Jan 25 '11 at 16:33
@Jörg: you can see the running times at his ideone link, but I'll edit that information into the question so it's not lost if the ideone link ever goes away. – Ken Bloom Jan 25 '11 at 16:57
You can learn about this and many other noteworthy things from this great document: Everybody should read this before coding. I know I should have. – Raphael Jan 25 '11 at 17:12
Seeing the code on IDEOne I noted some serious problems. There's a single iteration of each code, and the "slower" version comes first. In practice, the inner loop of the slower version is "training" the JVM for the common functions that will be later called by the "faster" version. See here, where I just inverted the two pieces of code, which one is faster: – Daniel C. Sobral Jan 25 '11 at 18:07
up vote 21 down vote accepted

The problem, as others have said, is that filter creates a new collection. The alternative withFilter doesn't, but that doesn't have a foldLeft. Also, using .view, .iterator or .toStream would all avoid creating the new collection in various ways, but they are all slower here than the first method you used, which I thought somewhat strange at first.

But, then... See, 1 until 1000 is a Range, whose size is actually very small, because it doesn't store each element. Also, Range's foreach is extremely optimized, and is even specialized, which is not the case of any of the other collections. Since foldLeft is implemented as a foreach, as long as you stay with a Range you get to enjoy its optimized methods.

(_: Range).foreach:

@inline final override def foreach[@specialized(Unit) U](f: Int => U) {
    if (length > 0) {
        val last = this.last
        var i = start
        while (i != last) {
            i += step

(_: Range).view.foreach

def foreach[U](f: A => U): Unit = 

(_: Range).view.iterator

override def iterator: Iterator[A] = new Elements(0, length)

protected class Elements(start: Int, end: Int) extends BufferedIterator[A] with Serializable {
  private var i = start

  def hasNext: Boolean = i < end

  def next: A = 
    if (i < end) {
      val x = self(i)
      i += 1
    } else

  def head = 
    if (i < end) self(i) else

  /** $super
   *  '''Note:''' `drop` is overridden to enable fast searching in the middle of indexed sequences.
  override def drop(n: Int): Iterator[A] =
    if (n > 0) new Elements(i + n, end) else this

  /** $super
   *  '''Note:''' `take` is overridden to be symmetric to `drop`.
  override def take(n: Int): Iterator[A] =
    if (n <= 0) Iterator.empty.buffered
    else if (i + n < end) new Elements(i, i + n) 
    else this

(_: Range).view.iterator.foreach

def foreach[U](f: A =>  U) { while (hasNext) f(next()) }

And that, of course, doesn't even count the filter between view and foldLeft:

override def filter(p: A => Boolean): This = newFiltered(p).asInstanceOf[This]

protected def newFiltered(p: A => Boolean): Transformed[A] = new Filtered { val pred = p }

trait Filtered extends Transformed[A] {
  protected[this] val pred: A => Boolean 
  override def foreach[U](f: A => U) {
    for (x <- self)
      if (pred(x)) f(x)
  override def stringPrefix = self.stringPrefix+"F"
share|improve this answer
For what it's worth... This gets my vote for best answer so far. – Kevin Wright Jan 25 '11 at 18:22
Agreed. I gave it to your first Kevin, and I apologize for changing it, but it is this answer that has helped me understand what's going on. – andyczerwonka Jan 25 '11 at 19:44
@arcticpenguin - Quite right too, I wouldn't have it any other way! – Kevin Wright Jan 25 '11 at 20:44

Try making the collection lazy first, so

(1 until 1000).view.filter...

instead of

(1 until 1000).filter...

That should avoid the cost of building an intermediate collection. You might also get better performance from using sum instead of foldLeft(0)(_ + _), it's always possible that some collection type might have a more efficient way to sum numbers. If not, it's still cleaner and more declarative...

share|improve this answer
Beat me to it. Nice touch with sum. – Raphael Jan 25 '11 at 17:10
Once I warm up the JVM, the difference is less than the original post. Adding the view brings it down even more, to where they're basically the same. – andyczerwonka Jan 25 '11 at 17:54
I don't know about you, but my tests on the trunk I have here makes it actually slower than without the view. – Daniel C. Sobral Jan 25 '11 at 17:55
@arcticpenguin Curious, I'm just not seeing that here. In fact, the version with view is slower here than without. – Daniel C. Sobral Jan 25 '11 at 17:59
Here's my code... – andyczerwonka Jan 25 '11 at 18:13

Looking through the code, it looks like filter does build a new Seq on which the foldLeft is called. The second skips that bit. It's not so much the memory, although that can't but help, but that the filtered collection is never built at all. All that work is never done.

Range uses TranversableLike.filter, which looks like this:

def filter(p: A => Boolean): Repr = {
  val b = newBuilder
  for (x <- this) 
    if (p(x)) b += x

I think it's the += on line 4 that's the difference. Filtering in foldLeft eliminates it.

share|improve this answer
Interesting. The GHC Haskell compiler would probably perform some kind of stream fusion here, and essentially turn the first version into the second one on its own. Unfortunately, stuff like this is really hard to achieve for an impure language like Scala (especially if you add dynamic method dispatch into the mix). The compiler would probably have to prove that both the blocks supplied to filter and foldLeft are referentially transparent, as well as prove that there's no funny subclassing going on. – Jörg W Mittag Jan 25 '11 at 16:28
@Jörg W Mittag: True. One wonders if calling toStream on the Range would help. Probably not. But we're well into micro-optimization land here. – sblundy Jan 25 '11 at 16:40

filter creates a whole new sequence on which then foldLeft is called. Try:

(1 until 1000).view.filter(i => (i % 3 == 0 || i % 5 == 0)).reduceLeft(_+_)

This will prevent said effect, merely wrapping the original thing. Exchanging foldLeft with reduceLeft is only cosmetic (in this case).

share|improve this answer
Note: exchanging foldLeft with reduceLeft is only cosmetic here because you happen to know a priori that the list is non-empty. In general, you need to fold to avoid a potential exception. – Aaron Novstrup Jan 25 '11 at 18:51

Now the challenge is, can you think of a yet more efficient way? Not that your solution is too slow in this case, but how well does it scale? What if instead of 1000, it was 1000000000? There is a solution that could compute the latter case just as quickly as the former.

share|improve this answer
def arithProg(a:Int, d:Int, n:Int): Long = n * (2 * a + (n - 1) * d.toLong) / 2; def find(n: Int):Long = arithProg (3, 3, n/3) + arithProg (5, 5, n/5) - arithProg (15, 15, n/15); println(find(1000000000 - 1)) What do I win? – Luigi Plinge Jun 8 '11 at 4:55

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