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How do you represent a rectangular 2-dimensional (or multidimensional) array data structure in Scala?

That is, each row has the same length, verified at compile time, but the dimensions are determined at runtime?

Seq[Seq[A]] has the desired interface, but it permits the user to provide a "ragged" array, which can result in a run-time failure.

Seq[(A, A, A, A, A, A)] (and similar) does verify that the lengths are the same, but it also forces this length to be specified at compile time.

Example interface

Here's an example interface of what I mean (of course, the inner dimension doesn't have to be tuples; it could be specified as lists or some other type):

// Function that takes a rectangular array
def processArray(arr : RectArray2D[Int]) = {
    // do something that assumes all rows of RectArray are the same length

// Calling the function (OK)
    ( 0,  1,  2,  3),
    (10, 11, 12, 13),
    (20, 21, 22, 23)
// Compile-time error
    ( 0,  1,  2,  3),
    (10, 11, 12),
    (20, 21, 22, 23, 24)
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Can you please add a code sample of the desired interface and where compiler errors would be raised? –  Omer van Kloeten Jul 17 '12 at 8:56
@OmervanKloeten: Added. –  Mechanical snail Jul 17 '12 at 18:39
thanks, I added my own answer for your use-case. –  Omer van Kloeten Jul 18 '12 at 11:53
By the way, your example is flawed. What you call 'valid' is a 4x3 rectangle, not a square. –  Omer van Kloeten Jul 18 '12 at 17:41
It doesn't have to be square. –  Mechanical snail Jul 19 '12 at 4:47

3 Answers 3

up vote 5 down vote accepted

This is possible using the Shapeless library's sized types:

import shapeless._

def foo[A, N <: Nat](rect: Seq[Sized[Seq[A], N]]) = rect

val a = Seq(Sized(1, 2, 3), Sized(4, 5, 6))
val b = Seq(Sized(1, 2, 3), Sized(4, 5))

Now foo(a) compiles, but foo(b) doesn't.

This allows us to write something very close to your desired interface:

case class RectArray2D[A, N <: Nat](rows: Sized[Seq[A], N]*)

def processArray(arr: RectArray2D[Int, _]) = {
  // Run-time confirmation of what we've verified at compile-time.
  require(arr.rows.map(_.size).distinct.size == 1)
  // Do something.

// Compiles and runs.
  Sized( 0,  1,  2,  3),
  Sized(10, 11, 12, 13),
  Sized(20, 21, 22, 23)

// Doesn't compile.
  Sized( 0,  1,  2,  3),
  Sized(10, 11, 12),
  Sized(20, 21, 22, 23)
share|improve this answer
This may be what the author was looking for however the length is being specified at compile time as well in this solution. It would be even more impressive to find a solution that derived a length to use from io and then constructed the array. –  Neil Essy Jul 17 '12 at 7:29
But foo in this version is generic over the length, unlike the Seq[(A, A, A)] approach. I guess I don't understand how you could have both compile-time safety and a length you got from IO. –  Travis Brown Jul 17 '12 at 7:42
@Mechanical snail: With Travis Brown's comment in mind, you might be better of creating a matrix class that internally uses a Seq[Seq[A]], and that uses encapsulation to ensure that the user cannot violate the invariants of the internal representation. –  Malte Schwerhoff Jul 17 '12 at 7:46
That's along the lines that I was thinking. You can't use the type system to verify something that is specified at runtime. Encapsulation is the way to go here. –  Neil Essy Jul 17 '12 at 7:55

Using encapsulation to ensure proper size.

final class Matrix[T]( cols: Int, rows: Int ) {
  private val container: Array[Array[T]] = Array.ofDim[T]( cols, rows )
  def get( col: Int, row: Int ) = container(col)(row)
  def set( col: Int, row: Int )( value: T ) { container(col)(row) = value } 
share|improve this answer
But presumably the author knows about encapsulation. It's probably the better solution for most real problems, but it's not the same as being able to verify at compile time that a collection some client is giving you has certain properties, which is what the question is asking for. –  Travis Brown Jul 17 '12 at 8:04

Note: I misread the question, mistaking a rectangle for a square. Oh, well, if you're looking for squares, this would fit. Otherwise, you should go with @Travis Brown's answer.

This solution may not be the most generic one, but it coincides with the way Tuple classes are defined in Scala.

class Rect[T] private (val data: Seq[T])

object Rect {
    def apply[T](a1: (T, T), a2: (T, T)) = new Rect(Seq(a1, a2))
    def apply[T](a1: (T, T, T), a2: (T, T, T), a3: (T, T, T)) = new Rect(Seq(a1, a2, a3))
    // Continued...

     (1, 2, 3),
     (3, 4, 5),
     (5, 6, 7))

This is the interface you were looking for and the compiler will stop you if you have invalid-sized rows, columns or type of element.

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