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I translated this spline interpolation algorithm from apache.commons.math from Java into Scala in the most straightforward way I could think of (see below). The function I ended up with runs 2 to 3 times slower than the original Java code. My guess is that the problem stems from the extra loops coming from the calls to Array.fill, but I can't think of a straightforward way to get rid of them. Any suggestions on how to make this code perform better? (It would also be nice to write it in a more concise and/or functional way -- suggestions on that front would be appreciated as well.)

type Real = Double

def mySplineInterpolate(x: Array[Real], y: Array[Real]) = {

  if (x.length != y.length)
    throw new DimensionMismatchException(x.length, y.length)

  if (x.length < 3)
    throw new NumberIsTooSmallException(x.length, 3, true)

  // Number of intervals.  The number of data points is n + 1.                                                                         
  val n = x.length - 1

  // Differences between knot points                                                                                                   
  val h = Array.tabulate(n)(i => x(i+1) - x(i))

  var mu: Array[Real] = Array.fill(n)(0)
  var z: Array[Real] = Array.fill(n+1)(0)
  var i = 1
  while (i < n) {
    val g = 2.0 * (x(i+1) - x(i-1)) - h(i-1) * mu(i-1)
    mu(i) = h(i) / g
    z(i) = (3.0 * (y(i+1) * h(i-1) - y(i) * (x(i+1) - x(i-1))+ y(i-1) * h(i)) /
            (h(i-1) * h(i)) - h(i-1) * z(i-1)) / g
    i += 1
  }

  // cubic spline coefficients --  b is linear, c quadratic, d is cubic (original y's are constants)                                   
  var b: Array[Real] = Array.fill(n)(0)
  var c: Array[Real] = Array.fill(n+1)(0)
  var d: Array[Real] = Array.fill(n)(0)

  var j = n-1
  while (j >= 0) {
    c(j) = z(j) - mu(j) * c(j + 1)
    b(j) = (y(j+1) - y(j)) / h(j) - h(j) * (c(j+1) + 2.0 * c(j)) / 3.0
    d(j) = (c(j+1) - c(j)) / (3.0 * h(j))
    j -= 1
  }

  Array.tabulate(n)(i => Polynomial(Array(y(i), b(i), c(i), d(i))))
}
share|improve this question
    
scala is built on top of java, so its not surprising that it will not be faster. – AlexWien Jan 15 '13 at 3:35
5  
No, Scala is built on top of the JVM, and the compiler can emit JVM bytecode directly. Also, Scala is often the same speed as Java and, in some cases (e.g. when using specialization), is faster. However, to get code of equivalent speed, one sometimes has to write non-idiomatic Scala. I suggest the OP profile his code to see where the time is being spent in the Scala & Java code. – nomad Jan 15 '13 at 3:39

You can get rid of all the Array.fill since a new array is always initialized with 0 or null, depending on whether it is a value or a reference (booleans are initialized with false, and characters with \0).

You might be able to simplify the loops by zipping arrays, but you'll only make it slower. The only way functional programming (on the JVM anyway) is going to help you make this faster is if you make it non-strict, such as with a Stream or a view, and then you go ahead and not use all of it.

share|improve this answer
    
Ok, replacing the Array.fills with Array.ofDims almost recovers the performance of the Java version. Thanks. – davidsd Jan 15 '13 at 4:17
    
@davidsd I didn't see any multidimensional arrays there. A simple new Array[Real](n) ought to suffice, though only now I see you are working with Real, not Double. – Daniel C. Sobral Jan 15 '13 at 15:00
    
Ack -- I should have included this in the code above, but I'm using type Real = Double at the moment. What's the difference between Array.ofDim[Real](n) and new Array[Real](n)? – davidsd Jan 15 '13 at 16:08
    
@davidsd The ofDim method is just intended for multidimensional arrays -- I'm surprised a single dimensional version of it even exists. It is implemented in terms of new Array, though, so you are just adding an extra layer of indirection by using it. – Daniel C. Sobral Jan 15 '13 at 23:26

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