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I am reading scala in action (manning edition) and there is a chapter on this pattern with a code sample:

class PureSquare(val side: Int) {
def newSide(s: Int): PureSquare = new PureSquare(s)
def area = side * side
}

The book has a link supposed to explain the pattern. Unfortunately, the link is broken and I can't find it.

Would someone be able to explain this pattern and how this piece of code is supposed to work?

Because I don't see how newSide is called when calling the area function.

Thank you

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1 Answer 1

up vote 5 down vote accepted

You're right: newSide doesn't directly change the area, but it creates a new PureSquare with a different side length.

It's meant to show how to work with purely functional objects (with no mutable internal state) while coping with the need to make changes within our program

Using this pattern any object you create remains technically immutable but you can "simulate" changing the object by calling the proper method (in this case newSide)

An example worth 100 explanations

val square1 = new PureSquare(1)
assert(square1.area == 1)

//this is similar to changing the side of square1
val square2 = square1.newSide(2)

//and the area changes consequently
assert(square2.area == 4)
//while the original call is still referentially transparent [*]
assert(square1.area == 1)

[*] http://en.wikipedia.org/wiki/Referential_transparency_(computer_science)

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OK so each time you want to change the side, you have to call newSide which actually creates a new object, making the object immutable. thanks for your answer! –  unludo Sep 25 '13 at 8:58
2  
@unludo But anything with a reference to the old version will not see a change. This is actually seen as a good thing, since it allows sane concurrency, avoids synchronisation deadlocks and so on. –  itsbruce Sep 25 '13 at 15:52

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