小猫 - 模棱两可的进口(再次)
Kittens - ambiguous imports (again)
这个答案 展示了在使用 Kitten 时如何使用对象来提供类型类的自定义实现。将相同的原则应用于以下代码虽然不起作用:
package com.xxx.yyy.zzz
import cats._, cats.derived._, cats.implicits._
object Test extends App {
case class Inner(double: Double)
case class Outer(inner: Inner, s: String)
implicit object doubleEq extends Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
implicit val outerEq: Eq[Outer] = {
import derived.auto.eq._
derived.semi.eq[Outer]
}
implicitly[Eq[Double]]
val testCC1 = Outer(Inner(1.01d), "BlahBlahBlah")
val testCC2 = Outer(Inner(1.00d), "BlahBlahBlah")
println(testCC1 === testCC2)
}
implicitly[Eq[Double]] 再次表明我有不明确的含义:
Error:(20, 13) ambiguous implicit values:
both value catsKernelStdOrderForDouble in trait DoubleInstances of type => cats.kernel.Order[Double] with cats.kernel.Hash[Double]
and object doubleEq in object Test of type com.xxx.yyy.zzz.Test.doubleEq.type
match expected type cats.Eq[Double]
implicitly[Eq[Double]]
我该如何解决这个问题?我真的不想挑选我导入的 cats 隐式,因为这不是很可扩展!
更改导入。不要导入 cats.instances.double._
import cats._, cats.derived._
import cats.instances.string._ // Outer uses Double and String
import cats.syntax.eq._ // for ===
两者都
implicit val doubleEq: Eq[Double] = new Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
和
implicit object doubleEq extends Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
工作。
http://eed3si9n.com/herding-cats/import-guide.html
https://blog.softwaremill.com/9-tips-about-using-cats-in-scala-you-might-want-to-know-e1bafd365f88 建议 2)
再玩一点 - 这似乎给了我想要的东西:
import cats._
import cats.derived._
import cats.syntax.eq._
import derived.auto.eq._
object CustomImplicits extends cats.instances.AllInstances {
implicit object doubleEq extends Eq[Double] {
def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
}
object Test extends App {
case class Inner(double: Double)
case class Outer(inner: Inner, s: String)
import CustomImplicits._
implicitly[Eq[Double]]
val testCC1 = Outer(Inner(1.01d), "BlahBlahBlah")
val testCC2 = Outer(Inner(1.00d), "BlahBlahBlah")
val testCC3= Outer(Inner(2.00d), "BlahBlahBlah")
println(testCC1 === testCC2) //True
println(testCC2 === testCC3) //False
}
这个答案
package com.xxx.yyy.zzz
import cats._, cats.derived._, cats.implicits._
object Test extends App {
case class Inner(double: Double)
case class Outer(inner: Inner, s: String)
implicit object doubleEq extends Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
implicit val outerEq: Eq[Outer] = {
import derived.auto.eq._
derived.semi.eq[Outer]
}
implicitly[Eq[Double]]
val testCC1 = Outer(Inner(1.01d), "BlahBlahBlah")
val testCC2 = Outer(Inner(1.00d), "BlahBlahBlah")
println(testCC1 === testCC2)
}
implicitly[Eq[Double]] 再次表明我有不明确的含义:
Error:(20, 13) ambiguous implicit values:
both value catsKernelStdOrderForDouble in trait DoubleInstances of type => cats.kernel.Order[Double] with cats.kernel.Hash[Double]
and object doubleEq in object Test of type com.xxx.yyy.zzz.Test.doubleEq.type
match expected type cats.Eq[Double]
implicitly[Eq[Double]]
我该如何解决这个问题?我真的不想挑选我导入的 cats 隐式,因为这不是很可扩展!
更改导入。不要导入 cats.instances.double._
import cats._, cats.derived._
import cats.instances.string._ // Outer uses Double and String
import cats.syntax.eq._ // for ===
两者都
implicit val doubleEq: Eq[Double] = new Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
和
implicit object doubleEq extends Eq[Double] {
override def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
工作。
http://eed3si9n.com/herding-cats/import-guide.html
https://blog.softwaremill.com/9-tips-about-using-cats-in-scala-you-might-want-to-know-e1bafd365f88 建议 2)
再玩一点 - 这似乎给了我想要的东西:
import cats._
import cats.derived._
import cats.syntax.eq._
import derived.auto.eq._
object CustomImplicits extends cats.instances.AllInstances {
implicit object doubleEq extends Eq[Double] {
def eqv(x: Double, y: Double): Boolean = Math.abs(x - y) < 0.1
}
}
object Test extends App {
case class Inner(double: Double)
case class Outer(inner: Inner, s: String)
import CustomImplicits._
implicitly[Eq[Double]]
val testCC1 = Outer(Inner(1.01d), "BlahBlahBlah")
val testCC2 = Outer(Inner(1.00d), "BlahBlahBlah")
val testCC3= Outer(Inner(2.00d), "BlahBlahBlah")
println(testCC1 === testCC2) //True
println(testCC2 === testCC3) //False
}