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If you're writing code that's using lots of beautiful, immutable data structures, case classes appear to be a godsend, giving you all of the following for free with just one keyword:

  • Everything immutable by default
  • Getters automatically defined
  • Decent toString() implementation
  • Compliant equals() and hashCode()
  • Companion object with unapply() method for matching

But what are the disadvantages of defining an immutable data structure as a case class?

What restrictions does it place on the class or its clients?

Are there situations where you should prefer a non-case class?

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See this related question: stackoverflow.com/q/4635765/156410 –  David Jan 11 '11 at 2:10
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closed as not constructive by casperOne Jan 12 '13 at 15:35

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3 Answers

up vote 22 down vote accepted

One big disadvantage: case classes can't be extended via subclassing.

Other advantages you missed, listed for completeness: compliant serialization/deserialization, no need to use "new" keyword to create.

I prefer non-case classes for objects with mutable state, private state, or no state (e.g. most singleton components). Case classes for pretty much everything else.

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You can subclass a case class. The subclass can't be a case class too — that's the restriction. –  Seth Tisue Jan 12 '11 at 14:37
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First the good bits:

Everything immutable by default

Yes, and can even be overridden (using var) if you need it

Getters automatically defined

Possible in any class by prefixing params with val

Decent toString() implementation

Yes, very useful, but doable by hand on any class if necessary

Compliant equals() and hashCode()

Combined with easy pattern-matching, this is the main reason that people use case classes

Companion object with unapply() method for matching

Also possible to do by hand on any class by using extractors

This list should also include the uber-powerful copy method, one of the best things to come to Scala 2.8


Then the bad, there are only a handful of real restrictions with case classes:

You can't define apply in the companion object using the same signature as the compiler-generated method

In practice though, this is rarely a problem. Changing behaviour of the generated apply method is guaranteed to surprise users and should be strongly discouraged, the only justification for doing so is to validate input parameters - a task best done in the main constructor body (which also makes the validation available when using copy)

You can't subclass

True, though it's still possible for a case class to itself be a descendant. One common pattern is to build up a class hierarchy of traits, using case classes as the leaf nodes of the tree.

It's also worth noting the sealed modifier. Any subclass of a trait with this modifier must be declared in the same file. When pattern-matching against instances of the trait, the compiler can then warn you if you haven't checked for all possible concrete subclasses. When combined with case classes this can offer you a very high level level of confidence in your code if it compiles without warning.

As a subclass of Product, case classes can't have more than 22 parameters

No real workaround, except to stop abusing classes with this many params :)

Also...

One other restriction sometimes noted is that Scala doesn't (currently) support lazy params (like lazy vals, but as parameters). The workaround to this is to use a by-name param and assign it to a lazy val in the constructor. Unfortunately, by-name params don't mix with pattern matching, which prevents the technique being used with case classes as it breaks the compiler-generated extractor.

This is relevant if you want to implement highly-functional lazy data structures, and will hopefully be resolved with the addition of lazy params to a future release of Scala.

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Thanks for the comprehensive answer. I think everything exception "You can't subclass" is probably unlikely to phase me anytime soon. –  Graham Lea Jan 12 '11 at 10:18
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You can subclass a case class. The subclass can't be a case class too — that's the restriction. –  Seth Tisue Jan 12 '11 at 14:38
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I think the TDD principle apply here: do not over-design. When you declare something to be a case class, you are declaring a lot of functionality. That will decrease the flexibility you have in changing the class in the future.

For example, a case class has an equals method over the constructor parameters. You may not care about that when you first write your class, but, latter, may decide you want equality to ignore some of these parameters, or do something a bit different. However, client code may be written in the mean time that depends on case class equality.

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I don't think client code should depend on the exact meaning of 'equals'; it is up to a class to decide what 'equals' means to it. The class author should be free to change the implementation of 'equals' down the line. –  pkaeding Feb 1 '11 at 6:16
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@pkaeding You are free to not have client code depend on any private method. Everything that is public is a contract you have agreed to. –  Daniel C. Sobral Feb 1 '11 at 14:50
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@DanielC.Sobral True, but the exact implementation of equals() (which fields it is based on) isn't necessarily in the contract. At least, you could explicitly exclude it from the contract when you first write the class. –  herman Oct 6 '13 at 9:13
    
@herman The contract is everything the code does, documented or not, and even including things you tell people they should not rely on. Anything the code does will end up being relied upon by clients, if the code is used enough. The point I'm making is that any equals you provide will end up being relied upon -- even the reference equals if you write a class and do not override it. So the less code you add, the less there will be for other code to rely upon -- and YOU CAN'T WRITE AN EQUALS before you actually know what you'll need it to do, and that's the premise of the question. –  Daniel C. Sobral Oct 7 '13 at 4:37
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@DanielC.Sobral You're contradicting yourself: you say people will even rely on the default equals implementation (which compares object identity). If that's true, and you write a different equals implementation later, their code will also break. Anyway, if you specify pre/post conditions and invariants, and people ignore them, that's their problem. –  herman Oct 8 '13 at 10:13
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