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Of course I realize all types do have a common ancestor, but what I mean is this:

In dynamically-typed languages, it is a common practice to have 'mixed' return types. A common case is a function which attempts to retrieve data from a database, then returns either an object (initialized with the found data) or FALSE (in the event no data was found).

A little pseudocode to demonstrate just such an anti-pattern:

function getObjectFromDatabase(object_id) {
  if(result = db_fetch_object("SELECT * FROM objects WHERE id = %d", object_id) {
    return result
  } else {
    return FALSE
  }
}

If data is found for my object id, I get a DB record back as an object. If not, I get a boolean value. Then, of course, it is on me, the client, to handle multiple possible return types.

Is the only way to accomplish this in Scala to find a common ancestor for all possible return types and declare that as the return type in the signature?

// Like so:
def getObjectFromDatabase(objectId: Int): Any = {
   val result = dbFetchObject("SELECT * FROM objects WHERE id = %d", object_id) 
   if(result) {
     return result
   } else {
     return false
  }
}

Or is it possible to annotate multiple possible return types?

(Note that I do not hope it is possible to do this, as I would prefer it to be enforced that function return types are as unambiguous as possible. It would come as a relief to me to learn that the language forbids ambiguous return types, which is more the reason I am asking.)

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3 Answers 3

up vote 9 down vote accepted

What you are looking for is called a tagged union, variant, variant record, discriminated union, disjoint union, or sum type.

Combined with product types, they become algebraic datatypes.

Scala does not have direct support for algebraic datatypes, but it doesn't need to, because they can be easily modeled by inheritance. (Scala does have the sealed modifier to support closed ADTs.)

In your example, if you know that the return type is either SomeType or SomeOtherType, you can model it like this:

sealed trait ReturnType

final case class SomeType extends ReturnType
final case class SomeOtherType extends ReturnType

def meth: ReturnType

If you don't know what the return types are, only that there are two of them, then you can model it similarly:

sealed trait ReturnType[A, B]

final case class Type1[A, B](a: A) extends ReturnType[A, B]
final case class Type2[A, B](b: B) extends ReturnType[A, B]

def meth: ReturnType[A, B]

This is actually a well-known datatype called an Either (because it holds either an A or a B), and is present in Scala's standard library as scala.util.Either.

But in your specific case, there is a more specific type, called Maybe or Option, which encapsulates the idea that a value maybe exists or maybe not. It looks something like this:

sealed trait Maybe[T]

case object None extends Maybe[Nothing]
final case class Just[T](value: T) extends Maybe[T]

def meth: Maybe[T]

Again, this is already provided by Scala as scala.Option.

The advantage of Either over Option is that it allows you to also return information in the failure case instead of only indicating that there is no value you can also say why there is no value. (By convention, the left side of the Either is the error, the right side is the "useful" value.)

The advantage of Option is that it is a monad. (Note: you can make Either a monad by biasing it either to the left or the right.)

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If you will you know at runtime what type you are querying for in each call, your signature could be as:

def getObjectFromDatabase[T](object_id: Int): T = {

Or, to simulate your if/else logic there, I would recommend using Option here:

def getObjectFromDatabase[T](object_id: Int): Option[T] = {
  ...
  if(result) Some(result)
  else None
}

Example usage:

val result = getObjectFromDatabase[String](123123).getOrElse(whatever_you_need)
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Yes, use Either:

def getObjectFromDatabase(objectId: Int): Either[Boolean, DbResult] = {
   val result = dbFetchObject("SELECT * FROM objects WHERE id = %d", object_id) 
   if (result) Right(result) else Left(false)

}

getObjectFromDatabase(id) match {
  case Right(result) => // do something with result
  case Left(bool) => // do something with bool
}

Or, if the no results case doesn't need a specific value, use Option:

def getObjectFromDatabase(objectId: Int): Option[DbResult] = {
   val result = dbFetchObject("SELECT * FROM objects WHERE id = %d", object_id) 
   if (result) Some(result) else None
}

getObjectFromDatabase(id) match {
  case Some(result) => // do something with result
  case None => // do something about no results
}

See Tony Morris' Option Cheat Sheet for a list of the most common methods you can call on Option and how they translate to pattern matching.

Two other alternatives are Validation from scalaz and Try, new in Scala 2.10.

For Validation there are some really good answers on StackOverflow, for example: Method parameters validation in Scala, with for comprehension and monads.

For Try see this blog post: The Neophyte's Guide to Scala Part 6: Error Handling With Try. The same author has good posts on Option and Either.

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