Are there any best-practice guidelines on when to use case classes (or case objects) vs extending Enumeration in Scala?
They seem to offer some of the same benefits.
One big difference is that
Then you can do:
This is useful when wishing to persist enumerations (for example, to a database) or create them from data residing in files. However, I find in general that enumerations are a bit clumsy in Scala and have the feel of an awkward add-on, so I now tend to use
So now I have the advantage of...
As @chaotic3quilibrium pointed out (with some corrections to ease reading):
To follow up on the other answers here, the main drawbacks of
The advantages of using case classes over Enumerations are:
The advantages of using Enumerations instead of case classes are:
So in general, if you just need a list of simple constants by name, use enumerations. Otherwise, if you need something a bit more complex or want the extra safety of the compiler telling you if you have all matches specified, use case classes.
Another disadvantage of case classes versus Enumerations when you will need to iterate or filter across all instances. This is a built-in capability of Enumeration (and Java enums as well) while case classes don't automatically support such capability.
In other words: "there's no easy way to get a list of the total set of enumerated values with case classes".
I've seen various versions of making a case class mimic an enumeration. Here is my version:
Which allows you to construct case classes that look like the following:
Maybe someone could come up with a better trick than simply adding a each case class to the list like I did. This was all I could come up with at the time.
Case objects already return their name for their toString methods, so passing it in separately is unnecessary. Here is a version similar to jho's (convenience methods omitted for brevity):
Objects are lazy; by using vals instead we can drop the list but have to repeat the name:
If you don't mind some cheating, you can pre-load your enumeration values using the reflection API or something like Google Reflections. Non-lazy case objects give you the cleanest syntax:
Nice and clean, with all the advantages of case classes and Java enumerations. Personally, I define the enumeration values outside of the object to better match idiomatic Scala code:
UPDATE: The code below has a bug, described here. The test program below works, but if you were to use DayOfWeek.Mon (for example) before DayOfWeek itself, it would fail because DayOfWeek has not been initialized (use of an inner object does not cause an outer object to be initialized). You can still use this code if you do something like
If you want
then the following may be of interest. Feedback welcome.
In this implementation there are abstract Enum and EnumVal base classes, which you extend. We'll see those classes in a minute, but first, here's how you would define an enum:
Note that you have to use each enum value (call its apply method) to bring it to life. [I wish inner objects weren't lazy unless I specifically ask for them to be. I think.]
We could of course add methods/data to DayOfWeek, Val, or the individual case objects if we so desired.
And here's how you would use such an enum:
Here's what you get when you compile it:
You can replace "day match" with "( day: @unchecked ) match" where you don't want such warnings, or simply include a catch-all case at the end.
When you run the above program, you get this output:
Note that since the List and Maps are immutable, you can easily remove elements to create subsets, without breaking the enum itself.
Here is the Enum class itself (and EnumVal within it):
And here is a more advanced use of it which controls the IDs and adds data/methods to the Val abstraction and to the enum itself:
I've been going back and forth on these two options the last few times I've needed them. Up until recently, my preference has been for the sealed trait/case object option.
1) Scala Enumeration Declaration
2) Sealed Traits + Case Objects
While neither of these really meet all of what a java enumeration gives you, below are the pros and cons:
Pros: -Functions for instantiating with option or directly assuming accurate (easier when loading from a persistent store) -Iteration over all possible values is supported
Cons: -Compilation warning for non-exhaustive search is not supported (makes pattern matching less ideal)
Case Objects/Sealed traits
Pros: -Using sealed traits, we can pre-instantiate some values while others can be injected at creation time -full support for pattern matching (apply/unapply methods defined)
Cons: -Instantiating from a persistent store - you often have to use pattern matching here or define your own list of all possible 'enum values'
What ultimately made me change my opinion was something like the following snippet:
So I think my preference going forward is to use Enumerations when the values are intended to be accessed from a repository and case objects/sealed traits otherwise.
If you are serious about maintaining interoperability with other JVM languages (e.g. Java) then the best option is to write Java enums. Those work transparently from both Scala and Java code, which is more than can be said for
I have created a solution with two classes; Enumeration and EnumerationDecorated, located in this Gist. I didn't post the code into this thread as the file for Enumeration was quite large (+400 lines - contains lots of comments explaining implementation context).
To start, let's make sure we are working from the same basic idea of what an enumeration is. Let's define an enumeration mostly in terms of the
Next, let's look at boiled down versions of the three most common solution patterns posted:
The following items from the enumeration definition are not available:
For my current projects, I don't have the benefit of taking the risks around the Scala/Java mixed project pathway. And even if I could choose to do a mixed project, item 7 is critical for allowing me to catch compile time issues if/when I either add/remove enumeration members, or am writing some new code to deal with existing enumeration members.
The following items from the enumeration definition are not available:
It's arguable it really meets enumeration definition items 5 and 6. For 5, it's a stretch to claim it's efficient. For 6, it's not really easy to extend to hold additional associated singleton-ness data.
The following items from the enumeration definition are not available (happens to be identical to the list for directly using the Java Enum):
Again for my current projects, item 7 is critical for allowing me to catch compile time issues if/when I either add/remove enumeration members, or am writing some new code to deal with existing enumeration members.
So, given the above definition of an enumeration, none of the above three solutions work as they do not provide everything outlined in the enumeration definition above:
Each of these solutions can be eventually reworked/expanded/refactored to attempt to cover some of each one's missing requirements. However, neither the Java
In that regard, I set about working with the
As my solution is two traits; Enumeration and EnumerationDecorated, and since the
Here's what the solution ends up looking like using the same data idea as above (fully commented version available here) and implemented in
This is an example usage of a new pair of enumeration traits I created (located in this Gist) to implement all of the capabilities desired and outlined in the enumeration definition.
One concern expressed is that the enumeration member names must be repeated (
Given these two issues, I had to give up trying to generate an implied ordering and had to explicitly require the client define and declare it with some sort of ordered set notion. As the Scala collections do not have an insert ordered set implementation, the best I could do was use a
And given the design required this second list/set ordering
I have a nice simple lib here that allows you to use sealed traits/classes as enum values without having to maintain your own list of values. It relies on a simple macro that is not dependent on the buggy
I'm pasting you the code here expecting it could be useful, and also that others could improve it.