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Within the confines of a single matrix related method that works with large multidimensional arrays performance and memory usage are critical. We have a need to mutate elements of the array in place and thus are working with ArrayBuffer's (not Array's).

Given this use case is there a way to use for .. yield that would generate an ArrayBuffer (or at the least a mutable collection) instead of immutable?

The following code displays the intent - though it does not compile:

def classify(inarr: Array[Double], arrarr: Array[Array[Double]], labels: Array[String], K: Int): String = {
 ...     
var diffmat: ArrayBuffer[ArrayBuffer[Double]] = for (row <- arrarr) yield {
  (ArrayBuffer[Double]() /: (row zip inarr)) {
    (outrow, cell) => outrow += cell._1 - cell._2
  }
}

The compilation error is :

Expression Array[ArrayBuffer[Double]] does not conform to expected type ArrayBuffer[ArrayBuffer[Double]]
share|improve this question
    
Can you specify the types is arrarr and inarr? –  Brian Nov 26 '13 at 21:28
    
@brian sure, adding to OP –  javadba Nov 26 '13 at 21:35
    
By the way, ArrayBuffer is a lousy place to put Doubles when you care critically about performance and memory; they're boxed. If you can make your innermost layer Array[Double] you will see a dramatic increase in performance (at least 2x speed and size for heavy computation). So do it this way to get it working, but go back and change it to a faster form once you really want to optimize. –  Rex Kerr Nov 27 '13 at 23:37
    
@RexKerr Thx for that input. The next two steps involve in -place mutation of all elements of the array[buffer]. So then .. how to tradeoff non-boxed/fast (but immutable?) Array vs slower -but mutable ArrayBuffer? –  javadba Nov 28 '13 at 2:08
    
@javadba - You can do in-place mutation of elements of an Array. I'm not sure what your use case is where this isn't sufficient. (You do need an ArrayBuffer to conveniently add and remove elements.) –  Rex Kerr Nov 29 '13 at 16:08

1 Answer 1

up vote 3 down vote accepted

Ah... a case for the "magick sprinkles" of breakOut. Not only does it give you the collection type you want - it does it efficiently, without wasting an extra transformation.

object Foo {
  import scala.collection.mutable.ArrayBuffer
  import scala.collection.breakOut
  val inarr: Array[Double] = Array()
  val arrarr: Array[Array[Double]] = Array()

  var diffmat: ArrayBuffer[ArrayBuffer[Double]] = (for (row <- arrarr) yield {
    (ArrayBuffer[Double]() /: (row zip inarr)) {
      (outrow, cell) => outrow += cell._1 - cell._2
    }
  })(breakOut)
}

The definitive writeup (IMHO) of this is Daniel Sobral's answer.

share|improve this answer
    
This does not seem to change the return type from Array to ArrayBuffer.. but i will consult DS's answer in your provided link. –  javadba Nov 26 '13 at 23:35
    
After viewing Daniel's answer, breakout is interesting yes - but does not appear to address the return type of Array vs ArrayBuffer. Feel free to clarify. BTW your code above did not compile for me -same error as OP. –  javadba Nov 27 '13 at 1:14
    
@javadba - I re-did it on this machine and copied and pasted the whole thing into the answer (see above), to avoid any typos. I don't know what to tell you as to why it doesn't work for you. I'm on 2.10, but as long as you're past 2.8 I don't know that it matters. –  Ed Staub Nov 27 '13 at 1:43
    
Yes after you fixed the syntax error it does now work. This is useful. –  javadba Nov 27 '13 at 3:07

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