I am trying to implement a tensor (multi-dimensional arrays) in a numerical processing library. The signature of the Tensor implementation is something as shown (cutting down on irrelevant parts of the signature):

final class Tensor[V](val data: Array[V], val shape: IndexedSeq[Int])

One of the concerns here is the performance of IndexedSeq[Int] (because they are backed by scala.collection.Vector). Being a numerical processing library, performance is a big concern here. I would like to swap out the default Vector-backed IndexedSeq with an Array-backed one.

I would like pointers as to what would be the best approach to do this (other than just reproducing the complete code for IndexedSeq from Scala collections and changing the relevant parts.) Thank you.

  • Do you have evidence that a Vector has worse performance than an Array? – Mike Allen Mar 13 '18 at 12:38
  • @MikeAllen lihaoyi.com/post/BenchmarkingScalaCollections.html : This blog post has decent evidence towards the same. – suj1th Mar 13 '18 at 12:43
  • Thanks! I hadn't seen that before. I guess for lookups, etc. Array is way faster than Vector. It seems that you don't have too many options beyond manually implementing IndexedSeq using an Array. It appears that you only need to implement apply and length, so it shouldn't be too tough. – Mike Allen Mar 13 '18 at 12:52
  • You worry about performance of the Vector in shape? How many entries does shape have? Even for convolutional neural networks for videos with three color channels it's something... I don't know... less than 32? Even if you have only 2 entries in each dimension, a 100-dimensional tensor with floats would already be >5GB large. Would the representation of shape really matter here? – Andrey Tyukin Mar 13 '18 at 14:30
  • @AndreyTyukin At first glance, I agree this can be seen as a case of premature optimization. But, in my defence, I chose the simplest case where I need to replace IndexedSeq in my code, to make my premise clear and short enough for an SO question. – suj1th Mar 13 '18 at 16:03

Would this suffice?

final class FastVector[+T](a: Array[T]) extends IndexedSeq[T] {
  override def apply(idx: Int) = a(idx)
  override def length = a.length

You would then use FastVector as your IndexedSeq type. All of the capabilities of an IndexedSeq are provided by the concrete methods of that trait, so map, filter, etc. are all available to you as well.

| improve this answer | |
  • Why not just make the shape private in Tensor itself? – Andrey Tyukin Mar 13 '18 at 14:32
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    I'd actually consider specializing to Array[Int] if you only need it and guarantee there is no boxing there. Also, extend IndexedSeqOptimized not IndexedSeq directly. – Alexey Romanov Mar 13 '18 at 14:42
  • @AndreyTyukin I guess because it's not private in the OP's signature. It looks like shape needs to be publicly visible. – Mike Allen Mar 13 '18 at 14:43
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    @suj1th I'm not sure whether this will be an issue in practice. The class I've proposed is simply a wrapper for an Array, so it doesn't do any boxing/unboxing if all you're doing is retrieving values from class instances. – Mike Allen Mar 13 '18 at 16:15
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    @suj1th Just one word of caution: if the wrapped array is accessible elsewhere, it's possible for its contents to be modified outside of the protection afforded by the wrapper. You can ensure that's not the case by writing factory methods that copy or create their own arrays. – Mike Allen Mar 13 '18 at 17:18

In your example, you can do two things:

  1. don't make the data field public (i.e. val), so that outside code cannot access it
  2. construct the data Array your-self, i.e in the constructor of Tensor, so that there isn't any ref to the array outside of the Tensor instance


class Tensor[V] private (data: Array[V], shape: Array[Int])

object Tensor{
  def vector[V](input: Seq[V]) = new Tensor(input.toArray, Array(1))
  def matrix[V](input: Seq[V], w: Int, h: Int) = new Tensor(input.toArray, Array(w,h))

// example use
Tensor.vector(1 to 20)
Tensor.matrix(1 to 20, 5, 4)

Also, in general there exist a wrapper around Array that is an IndexedSeq: WrappedArray. You can do it such as: val iSeq: IndexedSeq[Int] = Array(42) and Scala will automatically wrap the Array into a WrappedArray.

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    WrappedArray is mutable. – Mike Allen Mar 13 '18 at 13:47
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    ;-) Yeah, unfortunate, because an immutable WrappedArray is exactly what the OP is looking for. – Mike Allen Mar 13 '18 at 13:49
  • @Juh_ Sadly, I do not have control over the signature of the constructors. So, I cannot make data private. – suj1th Mar 13 '18 at 16:12
  • @MikeAllen I agree "immutable WrappedArray" is a better way to state what I am looking for :) – suj1th Mar 13 '18 at 16:14

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