2

This is possibly a naive question. I have a case class 'Book', defined below:

case class Book(title : String, authors : List[String])

In my main method, I define a few Book records as follows:

val books = List(
  Book(title = "Book1", authors = List("Author1", "Author2")),
  Book(title = "Book2", authors = List("Author3", "Author4")),
  Book(title = "Book3", authors = List("Author2", "Author5")),
  Book(title = "Book4", authors = List("Author6", "Author3")),
  Book(title = "Book5", authors = List("Author7", "Author8")),
  Book(title = "Book6", authors = List("Author5", "Author9"))
)

I am writing a query to retrieve the names of authors who have authored more than one book, and my query is as below:

val authorsWithMoreThanTwoBooks =
      (for {

        b1 <- books
        b2 <- books
        if b1.title != b2.title
        a1 <- b1.authors
        a2 <- b2.authors
        if a1 == a2
      } yield a1)

println(authorsWithMoreThanTwoBooks)

This prints List(Author2, Author3, Author2, Author5, Author3, Author5) (the name of the authors appearing twice which is quite expected, since every pair of books will be taken twice, like (b1,b2) and (b2,b1)).

Of course I could use distinct to solve this problem , but another way is to create the records not in a List but in a Set :

val books = Set(
  Book(title = "Book1", authors = List("Author1", "Author2")),
  Book(title = "Book2", authors = List("Author3", "Author4")),
  Book(title = "Book3", authors = List("Author2", "Author5")),
  Book(title = "Book4", authors = List("Author6", "Author3")),
  Book(title = "Book5", authors = List("Author7", "Author8")),
  Book(title = "Book6", authors = List("Author5", "Author9"))
)

Output after for expression and println: Set(Author5, Author2, Author3)

Why does this behavior happen? Why does the for expression on Set generate another Set and not a List? Is it possible to get a List of the relevant authors with the duplicate values if ever required?

5
  • How set can contain duplicates?
    – Nyavro
    Mar 3, 2016 at 7:50
  • They can't, that's what I meant to say there. Did I miss anything? Mar 3, 2016 at 7:54
  • My question is that why are we getting a Set from the for expression on the latter definition of 'books', and not a List. Updated my question accordingly. Mar 3, 2016 at 7:57
  • Did you manage to solve it? If you feel I haven't really answered your question, feel free to explain what's still puzzling you.
    – slouc
    Apr 3, 2016 at 11:14
  • I did manage to solve it, had lost track of the question, Thanks for the help. Apr 4, 2016 at 6:43

1 Answer 1

4

In Scala, for expressions are actually translated by the compiler into combinations of higher order functions:

  • using a for that yields something is translated into combinations of map, flatMap, and withFilter

  • using a for that doesn't yield anything is translated into withFilter and foreach

If you are unfamiliar with this, perhaps you should look it up somewhere (here's one option).

So, your construct

for {
  b1 <- books
  b2 <- books 
  if b1.title != b2.title
  a1 <- b1.authors
  a2 <- b2.authors 
  if a1 == a2
} yield a1

is translated into

books.flatMap(b1 => books
  .filter(b2 => b1.title != b2.title)
  .flatMap(b2 => b1.authors
  .flatMap(a1 => b2.authors
  .filter(a2 => a1 == a2)
  .map(a2 => a1))))

Flatmapping two Sets generates a Set. Flatmapping Set of Lists also generates a Set. There is actually much more to this than it seems (it goes back to category theory since Set is a monad in this case and flatMap is one of its natural transformations, but that's just a digression).

Anyway, I'm not sure what you mean by your last question, but if you want to keep the original books collection as a Set and get the duplicates using a for expression, you can simply invoke .toList on the books before operating on them. This way the whole for expression with work on a List instead of a Set.

P.S.

This shows that the nature of for expressions is much closer to functional programming constructs such as monads and functors (which are manipulated using flatMap and map respectively) than it is to a classical for loop. Unlike classical for loops which are a typical imperative programming construct, for expressions in Scala are completely functional constructs since they are a chain of higher-order functions map, flatMap, filter and foreach. Note that this means that you can use for expressions with not just collections, but anything that supports those functions (e.g. you can use them with Option or Future). It's not a naive question at all and if you were unaware of this so far, it's important to know this. Of course, you don't need to be able to transform any given for expression into chains of maps and flatMaps in the middle of the night, but you should be aware of the fact that it uses those functions "under the hood".

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