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I know there is a clean way to map a function f:A => B over an array, foo of type Array[A] to get an Array[B] via foo.map{f}.

Is there a clean way to map f over bar:Array[Array[A]] to get an Array[Array[B]] that preserves the array structure of bar while mapping all of the A elements to elements of type B?

In general, is there a way to map the elements of arrays of arbitrary dimensions (i.e. not just 2D but 3D, 4D, etc.).

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This tempts me to write my own multi-dimensional array type. –  dave Apr 7 '12 at 14:44
@dave -- Awesome, let me know how it goes. –  dsg Apr 7 '12 at 18:39

1 Answer 1

up vote 5 down vote accepted

You can map within the map:


I doubt there's a type-safe way to map arrays of arbitrary dimensions, since arrays of different dimensions are of different types. But it's simple enough to keep nesting map calls:

scala> val bam = new Array[Array[Array[Array[Array[A]]]]](0)
bam: Array[Array[Array[Array[Array[A]]]]] = Array()

scala> bam.map(_.map(_.map(_.map(_.map(f)))))
res1: Array[Array[Array[Array[Array[B]]]]] = Array()

Actually, I found that shapeless has "generic map and fold operations over arbitrarily nested data structures". I haven't tested with Array, but it looks like it works with other data structures.

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Updated answer to reference shapeless. Very cool! –  dave Apr 7 '12 at 1:25
This shapeless project looks pretty cool, but it seems like overkill to install shapeless into my project for just this small use case. Any insight into how shapeless everywhere(f)(bam) works? Like what are the implicits you need? –  dsg Apr 7 '12 at 4:34
One point to mention, I would expect that using shapeless to do this will incur a penalty in terms of compile-time, which increases as the depth increases; hence I wouldn't use this too much in your code. I'd also question the sense of your data structure in general (from a readability/maintenance perspective) - unless you are doing some scientific programming. In which case, you very possibly do not want to incur the runtime boxing overhead of using map on an Array (assuming that A is primitive). –  oxbow_lakes Apr 7 '12 at 10:55
@dsg I agree shapeless is overkill here, but you can easily create your own set of methods to map arrays of different dimensions, e.g. def map2[A: Manifest, B: Manifest](a: Array[Array[A]])(f: A => B) = a map (_ map f). (Manifest is a context bound required specifically for Arrays.) You can't overload on type parameters, but you can create map3, map4 etc that work with arrays of different dimensions. –  Luigi Plinge Apr 7 '12 at 11:57
also, body of map3 could be simply a map (map2(_)(f)), and so on for higher dimensions –  Luigi Plinge Apr 7 '12 at 12:06

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