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(Apologies if this has been asked before - I can't believe it hasn't, but I couldn't find one. Perhaps my search-fu is weak.)

For years I've "known" that Java has no native function to scale an array (i.e. multiply each element by a constant). So I've been doing this:

for (int i=0; i<array.length; i++) {
  array[i] = array[i] * scaleFactor;
}

Is this actually the most efficient way (in this application, for example, it's an array of around 10000 doubles)? Or is there a better way?

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4  
if you're interested in micro-optimization then what you wrote can typically be speed up by using "loop unrolling": en.wikipedia.org/wiki/Loop_unwinding However the JVM may be already be doing that for you should that part of the code be called repeatedly. The HotSpot VM even has an XX:LoopUnrollLimit= option to "control" that behavior. –  TacticalCoder Oct 17 '11 at 10:28
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6 Answers 6

up vote 11 down vote accepted

Looks absolutely fine to me. I can't think of a more efficient way. Obviously try to put that code in one place rather than having the actual code all over the place, but other than that, no obvious problems.

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Only other suggestion I can offer is to lazily scale whereby you only pay the cost of multiplication on accessing each element; e.g.

public class MyArray {
  private final double[] arr;
  private double scale = 1.0;

  public MyArray(double[] arr) {
    this.arr = arr;
  }

  public double getScale() {
    return scale;
  }

  public void setScale(double scale) {
    this.scale = scale;
  }

  public double elementAt(int i) {
    return arr[i] * scale;
  }
}

Obviously this is only better in certain situations:

  • When your array is huge AND
  • You are only accessing a few elements AND
  • You are typically accessing these elements once.

In other situations it's a micro-optimisation with no real benefit on modern CPUs.

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In this case, it might be better to internally use an ArrayList<T> and condense it into an array when requested. –  0xCAFEBABE Oct 17 '11 at 10:08
    
@0xCAFEBABE: I would say that depends entirely on whether the OP expects the array to vary in size. If not, better to save on memory and use primitives. –  Adamski Oct 17 '11 at 10:41
    
My application will be reading the entire array at once and it's of a fixed size, so my guess would be that "lazy" scaling and using an ArrayList would both be less efficient. –  Ian Renton Nov 15 '11 at 9:50
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The "better way" is to write array[i] *= scaleFactor; instead of array[i] = array[i] * scaleFactor;. :-)

Really, that's just syntactic sugar though - the compiled output (and hence performance) should be exactly the same. As Jon says, you're not going to be able to get any better performance, but personally I'll take a reduction in typing any day.

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Only thing I can think to add in addition to Adamski and Jon Skeet is that if it happens to be an array of ints/longs and you're scaling by a power of 2, then you might get a slight improvement by using bitshift operators. YMMV though, since it will depend on the compiler (and possibly even the VM).

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"it will depend on the VM" depend on the compiler rather than the VM, surely? –  Raedwald Oct 18 '11 at 12:14
    
Um, yeah. Corrected. It could potentially depend on hardware too (bitshift could take as long as multiply) so I sort of stand by my point. :) –  Baqueta Oct 18 '11 at 14:28
    
@Raedwald: it will depend on the JIT compiler which is generally considered part of the VM. Optimization is not considered the job of a Java-to-bytecode compiler. –  Michael Borgwardt Oct 18 '11 at 14:31
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You could work with threads, to reduce the runtime, but the bottom line is you would include this code and let each thread run a part of the for loop so the resulting program is as efficient as yours; it's just made faster

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The code is (I'm pretty sure) memory bound, not CPU bound. So, more threads/CPU power won't make any difference. I guess it'll just run slower. However, if you write a program to prove me wrong, I'll upvote! –  Ishtar Oct 17 '11 at 10:24
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Looks optimal to me.

Don't fall for false optimisations like declaring the array length in a final field outside the loop. This works for Collections by avoiding repeat method calls to .size() and Strings avoiding method calls to .length() but on an array .length is already a public final field.

Also, looping backwards towards zero might be an assembly language optimisation but in a high level language like Java the VM will take care of any obvious tweaks.

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