package magnolia.tests
import magnolia._
import estrapade._
import contextual.data.scalac._
import contextual.data.fqt._
import contextual.data.txt._
import scala.util._
sealed trait Tree[+T]
case class Leaf[+L](value: L) extends Tree[L]
case class Branch[+B](left: Tree[B], right: Tree[B]) extends Tree[B]
sealed trait Entity
case class Company(name: String) extends Entity
case class Person(name: String, age: Int) extends Entity
case class Address(line1: String, occupant: Person)
class Length(val value: Int) extends AnyVal
case class Lunchbox(fruit: Fruit, drink: String)
object Fruit {
import examples._
implicit val showFruit: Show[String, Fruit] =
new Show[String, Fruit] { def show(f: Fruit): String = f.name }
}
case class Fruit(name: String)
case class Item(name: String, quantity: Int = 1, price: Int)
sealed trait Color
case object Red extends Color
case object Green extends Color
case object Blue extends Color
case class `%%`(`/`: Int, `#`: String)
case class Param(a: String, b: String)
case class Test(param: Param)
object Test {
def apply(): Test = Test(Param("", ""))
def apply(a: String)(implicit b: Int): Test = Test(Param(a, b.toString))
def apply(a: String, b: String): Test = Test(Param(a, b))
}
sealed trait Politician[+S]
case class Accountable[+S](slogan: S) extends Politician[S]
case class Corrupt[+S, +L <: Seq[Company]](slogan: S, lobby: L) extends Politician[S]
sealed trait Box[+A]
case class SimpleBox[+A](value: A) extends Box[A]
case class LabelledBox[+A, L <: String](value: A, var label: L) extends Box[A]
object Tests extends TestApp {
def tests() = for (i <- 1 to 1000) {
import examples._
test("construct a Show product instance with alternative apply functions") {
import examples._
Show.gen[Test].show(Test("a", "b"))
}.assert(_ == """Test(param=Param(a=a,b=b))""")
test("construct a Show product instance") {
import examples._
Show.gen[Person].show(Person("John Smith", 34))
}.assert(_ == """Person(name=John Smith,age=34)""")
test("construct a Show coproduct instance") {
import examples._
Show.gen[Person].show(Person("John Smith", 34))
}.assert(_ == "Person(name=John Smith,age=34)")
test("serialize a Branch") {
import magnolia.examples._
implicitly[Show[String, Branch[String]]].show(Branch(Leaf("LHS"), Leaf("RHS")))
}.assert(_ == "Branch(left=Leaf(value=LHS),right=Leaf(value=RHS))")
test("local implicit beats Magnolia") {
import magnolia.examples._
implicit val showPerson: Show[String, Person] = new Show[String, Person] {
def show(p: Person) = "nobody"
}
implicitly[Show[String, Address]].show(Address("Home", Person("John Smith", 44)))
}.assert(_ == "Address(line1=Home,occupant=nobody)")
test("even low-priority implicit beats Magnolia for nested case") {
import magnolia.examples._
import Show.gen
implicitly[Show[String, Lunchbox]].show(Lunchbox(Fruit("apple"), "lemonade"))
}.assert(_ == "Lunchbox(fruit=apple,drink=lemonade)")
test("low-priority implicit does not beat Magnolia when not nested") {
import magnolia.examples._
import Show.gen
implicitly[Show[String, Fruit]].show(Fruit("apple"))
}.assert(_ == "Fruit(name=apple)")
test("typeclass implicit scope has lower priority than ADT implicit scope") {
import magnolia.examples._
implicitly[Show[String, Fruit]].show(Fruit("apple"))
}.assert(_ == "apple")
test("test equality false") {
import examples._
Eq.gen[Entity].equal(Person("John Smith", 34), Person("", 0))
}.assert(_ == false)
test("test equality true") {
import examples._
Eq.gen[Entity].equal(Person("John Smith", 34), Person("John Smith", 34))
}.assert(_ == true)
test("test branch equality true") {
import examples._
Eq.gen[Tree[String]].equal(Branch(Leaf("one"), Leaf("two")), Branch(Leaf("one"), Leaf("two")))
}.assert(_ == true)
test("construct a default value") {
Default.gen[Entity].default
}.assert(_ == Company(""))
test("construction of Show instance for Leaf") {
scalac"""
import magnolia.examples._
implicitly[Show[String, Leaf[java.lang.String]]]
"""
}.assert(_ == Returns(fqt"magnolia.examples.Show[String,magnolia.tests.Leaf[String]]"))
test("construction of Show instance for Tree") {
scalac"""
import magnolia.examples._
implicitly[Show[String, Tree[String]]]
"""
}.assert(_ == Returns(fqt"magnolia.examples.Show[String,magnolia.tests.Tree[String]]"))
test("serialize a Leaf") {
implicitly[Show[String, Leaf[String]]].show(Leaf("testing"))
}.assert(_ == "Leaf(value=testing)")
test("serialize a Branch as a Tree") {
implicitly[Show[String, Tree[String]]].show(Branch(Leaf("LHS"), Leaf("RHS")))
}.assert(_ == "Branch(left=Leaf(value=LHS),right=Leaf(value=RHS))")
test("serialize case object") {
implicitly[Show[String, Red.type]].show(Red)
}.assert(_ == "Red()")
test("access default constructor values") {
implicitly[Default[Item]].default
}.assert(_ == Item("", 1, 0))
test("serialize case object as a sealed trait") {
implicitly[Show[String, Color]].show(Blue)
}.assert(_ == "Blue()")
test("decode a company") {
Decoder.gen[Company].decode("""Company(name=Acme Inc)""")
}.assert(_ == Company("Acme Inc"))
test("decode a Person as an Entity") {
implicitly[Decoder[Entity]].decode("""magnolia.tests.Person(name=John Smith,age=32)""")
}.assert(_ == Person("John Smith", 32))
test("decode a nested product") {
implicitly[Decoder[Address]].decode(
"""Address(line1=53 High Street,occupant=Person(name=Richard Jones,age=44))"""
)
}.assert(_ == Address("53 High Street", Person("Richard Jones", 44)))
test("show error stack") {
scalac"""
import magnolia.examples._
case class Alpha(integer: Double)
case class Beta(alpha: Alpha)
Show.gen[Beta]
"""
}.assert(_ == TypecheckError(txt"""magnolia: could not find typeclass for type Double
| in parameter 'integer' of product type Alpha
| in parameter 'alpha' of product type Beta
|"""))
test("not attempt to instantiate Unit when producing error stack") {
scalac"""
import magnolia.examples._
case class Gamma(unit: Unit)
Show.gen[Gamma]
"""
}.assert(_ == TypecheckError(txt"""magnolia: could not find typeclass for type Unit
| in parameter 'unit' of product type Gamma
|"""))
test("typenames and labels are not encoded") {
implicitly[Show[String, `%%`]].show(`%%`(1, "two"))
}.assert(_ == "%%(/=1,#=two)")
val tupleDerivation = test("derive for a tuple") {
implicitly[Show[String, (Int, String)]]
}.returns()
test("serialize a tuple") {
tupleDerivation().show((42, "Hello World"))
}.assert(_ == "Tuple2(_1=42,_2=Hello World)")
test("serialize a value class") {
Show.gen[Length].show(new Length(100))
}.assert(_ == "100")
// Corrupt being covariant in L <: Seq[Company] enables the derivation for Corrupt[String, _]
test("show a Politician with covariant lobby") {
Show.gen[Politician[String]].show(Corrupt("wall", Seq(Company("Alice Inc"))))
}.assert(_ == "Corrupt(slogan=wall,lobby=[Company(name=Alice Inc)])")
// LabelledBox being invariant in L <: String prohibits the derivation for LabelledBox[Int, _]
test("can't show a Box with invariant label") {
scalac"Show.gen[Box[Int]]"
}.assert { _ == TypecheckError(
txt"""magnolia: could not find typeclass for type L
| in parameter 'label' of product type magnolia.tests.LabelledBox[Int, _ <: String]
| in coproduct type magnolia.tests.Box[Int]
|""")
}
}
}