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I searched in Google to find the differences between a case class and a class. Everyone mentions that when you want to do pattern matching on the class, use case class. Otherwise use classes and also mentioning some extra perks like equals and hascode overriding. But are these the only reasons why one should use a case class instead of class?

I guess there should be some very important reason for this feature in Scala. What is the explanation or is there a resource to learn more about the Scala case classes from?

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5 Answers

up vote 68 down vote accepted

Case classes can be seen as plain and immutable data-holding objects that should exclusively depend on their constructor arguments.

This functional concept allows us to

  • use a compact initialisation syntax (Node(1, Leaf(2), None)))
  • decompose them using pattern matching
  • have equality comparisons implicitly defined

In combination with inheritance, case classes are used to mimic algebraic datatypes.

If an object performs stateful computations on the inside or exhibits other kinds of complex behaviour, it should be an ordinary class.

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@Teja: In some way. ADT's are kinda parameterized enums, extremely powerful and typesafe. –  Dario Feb 22 '10 at 18:59
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Sealed case classes are used to mimic algebraic datatypes. Otherwise the number of subclasses is not limited. –  Thomas Jung Feb 23 '10 at 8:46
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@Thomas: Correctly spoken, case classes deriving from sealed abstract classes mimic closed algebraic datatypes whereas the ADT is otherwise open. –  Dario Feb 23 '10 at 13:02
1  
@Dario ... and the type is otherwise open and not and a ADT. :-) –  Thomas Jung Feb 23 '10 at 13:21
1  
@Thomas: Yep, it's merely an existential ;) –  Dario Feb 23 '10 at 14:10
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Technically, there is no difference between a class and a case class -- even if the compiler does optimize some stuff when using case classes. However, a case class is used to do away with boiler plate for a specific pattern, which is implementing algebraic data types.

A very simple example of such types are trees. A binary tree, for instance, can be implemented like this:

sealed abstract class Tree
case class Node(left: Tree, right: Tree) extends Tree
case class Leaf[A](value: A) extends Tree
case object EmptyLeaf extends Tree

That enable us to do the following:

// DSL-like assignment:
val treeA = Node(EmptyLeaf, Leaf(5))
val treeB = Node(Node(Leaf(2), Leaf(3)), Leaf(5))

// On Scala 2.8, modification through cloning:
val treeC = treeA.copy(left = treeB.left)

// Pretty printing:
println("Tree A: "+treeA)
println("Tree B: "+treeB)
println("Tree C: "+treeC)

// Comparison:
println("Tree A == Tree B: %s" format (treeA == treeB).toString)
println("Tree B == Tree C: %s" format (treeB == treeC).toString)

// Pattern matching:
treeA match {
  case Node(EmptyLeaf, right) => println("Can be reduced to "+right)
  case Node(left, EmptyLeaf) => println("Can be reduced to "+left)
  case _ => println(treeA+" cannot be reduced")
}

// Pattern matches can be safely done, because the compiler warns about
// non-exaustive matches:
def checkTree(t: Tree) = t match {
  case Node(EmptyLeaf, Node(left, right)) =>
  // case Node(EmptyLeaf, Leaf(el)) =>
  case Node(Node(left, right), EmptyLeaf) =>
  case Node(Leaf(el), EmptyLeaf) =>
  case Node(Node(l1, r1), Node(l2, r2)) =>
  case Node(Leaf(e1), Leaf(e2)) =>
  case Node(Node(left, right), Leaf(el)) =>
  case Node(Leaf(el), Node(left, right)) =>
  // case Node(EmptyLeaf, EmptyLeaf) =>
  case Leaf(el) =>
  case EmptyLeaf =>
}

Note that trees construct and deconstruct (through pattern match) with the same syntax, which is also exactly how they are printed (minus spaces).

And they can also be used with hash maps or sets, since they have a valid, stable hashCode.

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  • Case classes can be pattern matched
  • Case classes automatically define hashcode and equals
  • Case classes automatically define getter methods for the constructor arguments.

(You already mentioned all but the last one).

Those are the only differences to regular classes.

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Setters are not generated for case classes unless "var" is specified in the constructor argument, in which case you get the same getter/setter generation as regular classes. –  Mitch Blevins Feb 22 '10 at 18:52
    
@Mitch: True, my bad. Fixed now. –  sepp2k Feb 22 '10 at 18:56
    
You omitted 2 differences, see my answer. –  Shelby Moore III Sep 7 '13 at 5:08
    
@MitchBlevins, regular classes don't always have getter/setter generation. –  Shelby Moore III Sep 12 '13 at 8:09
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No one mentioned that case classes are also instances of Product and thus inherit these methods:

def productElement(n: Int): Any
def productArity: Int
def productIterator: Iterator[Any]

where the productArity returns the number of class parameters, productElement(i) returns the ith parameter, and productIterator allows iterating through them.

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They aren't instances of Product1, Product2, etc., however. –  Jean-Philippe Pellet Jan 13 '11 at 16:43
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No one mentioned that case classes have val constructor parameters yet this is also the default for regular classes (which I think is an inconsistency in the design of Scala). Dario implied such where he noted they are "immutable".

Note you can override the default by prepending the each constructor argument with var for case classes. However, making case classes mutable causes their equals and hashCode methods to be time variant.[1]

sepp2k already mentioned that case classes automatically generate equals and hashCode methods.

Also no one mentioned that case classes automatically create a companion object with the same name as the class, which contains apply and unapply methods. The apply method enables constructing instances without prepending with new. The unapply extractor method enables the pattern matching that others mentioned.

Also the compiler optimizes the speed of match-case pattern matching for case classes[2].

[1] Case Classes Are Cool

[2] Case Classes and Extractors, pg 15.

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