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Being new to scala and a current java developer, scala was designed to encourage the use of immutability to class design.

How does this translate practically to the design of classes? The only thing that is brought to my mind is case classes. Are case classes strongly encouraged for defining data? Example? How else is immutability encouraged in Scala design of classes?

As a java developer, classes defining data were mutable. The equivalent Scala classes should be defined as case classes?

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I don't understand why people want to close this question. The question looks clear to me, and not at all subjective. – Daniel C. Sobral Nov 3 '11 at 20:24
    
thanks Daniel. I hope this question is not closed before others can share their answers as well. – onejigtwojig Nov 3 '11 at 22:08
    
Here is a possible implementation for a cyclic domain model: stackoverflow.com/questions/22540385/… – jhegedus Mar 20 '14 at 17:16
up vote 10 down vote accepted

Well, case classes certainly help, but the biggest contributor is probably the collection library. The default collections are immutable, and the methods are geared toward manipulating collections by producing new ones instead of mutating. Since the immutable collections are persistent, that doesn't require copying the whole collection, which is something one often has to do in Java.

Beyond that, for-comprehensions are monadic comprehensions, which is helpful in doing immutable tasks, there's tail recursion optimization, which is very important in immutable algorithms, and general attention to immutability in many libraries, such as parser combinators and xml.

Finally, note that you have to ask for a var to get some mutability. Parameters are immutable, and val is just as short as var. Contrast this with Java, where parameters are mutable, and you need to add a final keyword to get immutability. Whereas in Scala it is as easy or easier to stay immutable, in Java it is easier to stay mutable.

Addendum

Persistent data structures are data structures that share parts between modified versions of it. This might be a bit difficult to understand, so let's consider Scala's List, which is pretty basic and easy to understand.

A Scala List is composed of two classes, known as cons and Nil. The former is actually written :: in Scala, but I'll refer to it by the traditional name.

Nil is the empty list. It doesn't contain anything. Methods that depend on the list not being empty, such as head and tail throw exceptions, while others work ok.

Naturally, cons must then represent a non-empty list. In fact, cons has exactly two elements: a value, and a list. These elements are known as head and tail.

So a list with three elements is composed of three cons, since each cons will hold only one value, plus a Nil. It must have a Nil because a cons must point to a list. As lists are not circular, then one of the cons must point to something other than a cons.

One example of such list is this:

val list = 1 :: 2 :: 3 :: Nil

Now, the components of a Scala List are immutable. One cannot change neither the value nor the list of a cons. One benefit of immutability is that you never need to copy the collection before passing or after receiving it from some other method: you know that list cannot change.

Now, let's consider what would happen if I modified that list. Let's consider two modifications: removing the first element and prepending a new element.

We can remove one element with the method tail, whose name is not a coincidence at all. So, we write:

val list2 = list.tail

And list2 will point to the same list that list's tail is pointing. Nothing at all was created: we simply reused part of list. So, let's prepend an element to list2 then:

val list3 = 0 :: list2

We created a new cons there. This new cons has a value (a head) equal to 0, and its tail points to list2. Note that both list and list3 point to the same list2. These elements are being shared by both list and list3.

There are many other persistent data structures. The very fact that the data you are manipulating is immutable makes it easy to share components.

One can find more information about this subject on the book by Chris Okasaki, Purely Functional Data Structures, or on his freely available thesis by the same name.

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Either I don't understand your last paragraph or it is seriously misleading. You make it sound as if having var instead of val would grant you mutability while it only allows you to reassign some variable. – Raphael Nov 3 '11 at 22:06
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@Raphael, reassigning a variable is mutability. Any identifier declared as var is mutable, and any class with a var property is considered mutable. – Dan Simon Nov 3 '11 at 22:16
    
Daniel, could you say more about persistent part, please? There is some copy-on-change mechanism, or something else? – om-nom-nom Nov 3 '11 at 23:06
    
@om-nom-nom Ok, wrote more about that than the original question... – Daniel C. Sobral Nov 4 '11 at 2:25
    
@Raphael All mutability can be reduced to a var somewhere. If I have a val pointing to a mutable object, then that object is mutable because it has a var, or refers directly or indirectly to some other object that has one. In fact, we can state the reverse: in the absence of var (and rules-breaking reflection), everything is immutable. Of course, one can be immutable and still have side effects, with I/O. – Daniel C. Sobral Nov 4 '11 at 2:28

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