UPDATE: I've edited the title and added this text to better explain what I'm trying to achieve: I'm trying to create a new application from the ground up, but don't want the business layer to know about the persistence layer, in the same way one would not want the business layer to know about a REST API layer. Below is an example of a persistence layer that I would like to use. I'm looking for good advice on integrating with this i.e. I need help with the design/architecture to cleanly split the responsibilities between business logic and persistence logic. Maybe a concept along the line of marshalling and unmarshalling of persistence objects to domain objects.
From a SLICK (a.k.a. ScalaQuery) test example, this is how you create a many-to-many database relationship. This will create 3 tables: a, b and a_to_b, where a_to_b keeps links of rows in table a and b.
object A extends Table[(Int, String)]("a") {
def id = column[Int]("id", O.PrimaryKey)
def s = column[String]("s")
def * = id ~ s
def bs = AToB.filter(_.aId === id).flatMap(_.bFK)
}
object B extends Table[(Int, String)]("b") {
def id = column[Int]("id", O.PrimaryKey)
def s = column[String]("s")
def * = id ~ s
def as = AToB.filter(_.bId === id).flatMap(_.aFK)
}
object AToB extends Table[(Int, Int)]("a_to_b") {
def aId = column[Int]("a")
def bId = column[Int]("b")
def * = aId ~ bId
def aFK = foreignKey("a_fk", aId, A)(a => a.id)
def bFK = foreignKey("b_fk", bId, B)(b => b.id)
}
(A.ddl ++ B.ddl ++ AToB.ddl).create
A.insertAll(1 -> "a", 2 -> "b", 3 -> "c")
B.insertAll(1 -> "x", 2 -> "y", 3 -> "z")
AToB.insertAll(1 -> 1, 1 -> 2, 2 -> 2, 2 -> 3)
val q1 = for {
a <- A if a.id >= 2
b <- a.bs
} yield (a.s, b.s)
q1.foreach(x => println(" "+x))
assertEquals(Set(("b","y"), ("b","z")), q1.list.toSet)
As my next step, I would like to take this up one level (I still want to use SLICK but wrap it nicely), to working with objects. So in pseudo code it would be great to do something like:
objectOfTypeA.save()
objectOfTypeB.save()
linkAtoB.save(ojectOfTypeA, objectOfTypeB)
Or, something like that. I have my ideas on how I might approach this in Java, but I'm starting to realize that some of my object-oriented ideas from pure OO languages are starting to fail me. Can anyone please give me some pointers as to how approach this problem in Scala.
For example: Do I create simple objects that just wrap or extend the table objects, and then include these (composition) into another class that manages them?
Any ideas, guidance, example (please), that will help me better approach this problem as a designer and coder will be greatly appreciated.
A good solution for simple persistence requirements is the ActiveRecord pattern: http://en.wikipedia.org/wiki/Active_record_pattern . This is implemented in Ruby and in Play! framework 1.2, and you can easily implement it in Scala in a stand-alone application
The only requirement is to have a singleton DB or a singleton service to get a reference to the DB you require. I personally would go for an implementation based on the following:
Exploiting the power of implicits, you could obtain an amazing syntax:
trait ActiveRecordHandler[T]{
def save(t:T):T
def delete[A<:Serializable](primaryKey:A):Option[T]
def find(query:String):Traversable[T]
}
object ActiveRecordHandler {
// Note that an implicit val inside an object with the same name as the trait
// is one of the way to have the implicit in scope.
implicit val myClassHandler = new ActiveRecordHandler[MyClass] {
def save(myClass:MyClass) = myClass
def delete[A <: Serializable](primaryKey: A) = None
def find(query: String) = List(MyClass("hello"),MyClass("goodbye"))
}
}
trait ActiveRecord[RecordType] {
self:RecordType=>
def save(implicit activeRecordHandler:ActiveRecordHandler[RecordType]):RecordType = activeRecordHandler.save(this)
def delete[A<:Serializable](primaryKey:A)(implicit activeRecordHandler:ActiveRecordHandler[RecordType]):Option[RecordType] = activeRecordHandler.delete(primaryKey)
}
case class MyClass(name:String) extends ActiveRecord[MyClass]
object MyClass {
def main(args:Array[String]) = {
MyClass("10").save
}
}
With such a solution, you only need your class to extends ActiveRecord[T] and have an implicit ActiveRecordHandler[T] to handle this.
There is actually also an implementation: https://github.com/aselab/scala-activerecord which is based on similar idea, but instead of making the ActiveRecord having an abstract type, it declares a generic companion object.
A general but very important comment on the ActiveRecord pattern is that it helps meet simple requirements in terms of persistence, but cannot deal with more complex requirements: for example is when you want to persist multiple objects under the same transaction.
If your application requires more complex persistence logic, the best approach is to introduce a persistence service which exposes only a limited set of functions to the client classes, for example
def persist(objectsofTypeA:Traversable[A],objectsOfTypeB:Traversable[B])
Please also note that according to your application complexity, you might want to expose this logic in different fashions: