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I'm reading the first section of the book "Scala in depth". In the first section, it gives an example which convert a java JdbcTemplate interface to scala:

Java code:

public interface JdbcTemplate {
  List query(PreparedStatementCreator psc,
    RowMapper rowMapper)
}

Scala code:

trait JdbcTemplate {
  def query[ResultItem](psc : Connection => PreparedStatement,
                        rowMapper : (ResultSet, Int) => ResultItem) : List[ResultItem]
}

Then it says:

With a few simple transformations, we've created an interface that works directly against functions. This is a more functional approach simply because scala's function traits allow composition. By the time you're finished reading this book, you'll be able to approach the design of this interface completely differently.

I can't understand "traits allow composition" here, since I can't find any "composition" in the example provided.

Do I miss anything?

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1  
Maybe the example does not use composition, but allows for composition. –  bwroga Dec 10 '13 at 14:42
    
I guess they mean trait mix-in composition –  Bask.ws Dec 10 '13 at 14:44
    
Maybe the word "this is" should be "there is"? –  Freewind Dec 10 '13 at 15:39

3 Answers 3

You've missed the first part of this phrase:

scala's function traits allow composition

In scala function is a simple object constructed from a trait like Function[-T, +R] and on all such traits you have two methods: andThen and compose.

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Interesting, but still not clear. If you can provide an example with the given code in the question, that will be great –  Freewind Dec 10 '13 at 15:32

Your code snippet is not a compositon sample but would allow for composition. Indeed, a trait alone composed nothing more than..itself with itself :)

Trait allows to compose at runtime thanks to the withkeyword.
Basically, it allows to add trait's methods to associated trait or class or even...runtime object!
Composition is known to be a runtime feature (its major benefit) and inheritance is known to be a compilation feature, thus static.

Here's a sample using trait composition at runtime:

val obj1 = new MyClass() with JdbcTemplate
//obj1.query .......

Compared to Java, if MySuperClass was a class or abstract class, you could still add/alter behaviour from elsewhere at runtime by implementing some kind of Strategy pattern etc... but it would require you to describe an interface + implementation..boring.
On the contrary, Trait allows to define method in one place.

That's why in scala, trait is said to "allow composition", and obviously, functional programming concept fit better with composition rather than inheritance.

UPDATE ----------------------

@Alexlv is right => the important word was Scala's FUNCTION traits. My above explanation still right, but doesn't correspond to what the author wanted to mean.
IMHO, he wanted to mean: Connection => PreparedStatement is a Function1, and as functions are fond of composition, it enables some nice processing providing from the functional programming word to generate the required query method parameter.

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The point the author is making is that replacing PreparedStatementCreator and RowMapper with function types yields a more functional API (surprise!). The API better supports code reuse since the psc and rowMapper functions can be composed from simple functional components. You might have functions, for example, that filter the ResultSet, extract various pieces of data, transform the data (map), aggregate it (fold), etc.

As @Alexiv pointed out, all Scala function objects (via the various Function traits) provide andThen and compose methods that support function composition.

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