/* Magnolia, version 0.7.1. Copyright 2018 Jon Pretty, Propensive Ltd. * * The primary distribution site is: http://co.ntextu.al/ * * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software distributed under the * License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, * either express or implied. See the License for the specific language governing permissions * and limitations under the License. */ package magnolia.examples import magnolia._ import scala.language.experimental.macros /** typeclass for testing the equality of two values of the same type */ trait Eq[T] { def equal(value: T, value2: T): Boolean } /** companion object to [[Eq]] */ object Eq { /** type constructor for the equality typeclass */ type Typeclass[T] = Eq[T] /** defines equality for this case class in terms of equality for all its parameters */ def combine[T](ctx: CaseClass[Eq, T]): Eq[T] = new Eq[T] { def equal(value1: T, value2: T) = ctx.parameters.forall { param => param.typeclass.equal(param.dereference(value1), param.dereference(value2)) } } /** choose which equality subtype to defer to * * Note that in addition to dispatching based on the type of the first parameter to the `equal` * method, we check that the second parameter is the same type. */ def dispatch[T](ctx: SealedTrait[Eq, T]): Eq[T] = new Eq[T] { def equal(value1: T, value2: T): Boolean = ctx.dispatch(value1) { case sub => sub.cast.isDefinedAt(value2) && sub.typeclass.equal(sub.cast(value1), sub.cast(value2)) } } /** equality typeclass instance for strings */ implicit val string: Eq[String] = new Eq[String] { def equal(v1: String, v2: String) = v1 == v2 } /** equality typeclass instance for integers */ implicit val int: Eq[Int] = new Eq[Int] { def equal(v1: Int, v2: Int) = v1 == v2 } /** binds the Magnolia macro to the `gen` method */ implicit def gen[T]: Eq[T] = macro Magnolia.gen[T] }