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Easy and Efficient Data Validation with Cats - ...

Easy and Efficient Data Validation with Cats - Typelevel Summit 2017 NYC

Often when we create a client/server application, we need to validate the requests: can the user associated to the request perform this operation? Can they access or modify the data? Is the input well-formed? When the data validation component in our application is not well designed, the code can quickly become not expressive enough and probably difficult to maintain. Business rules don’t help, adding more and more requirements to add in our validation, making it more and more complex to clearly represent and maintain. At the same time when the validation fails, it should be fairly straight forward to understand why the request was rejected, so that actions can be taken accordingly. This talk introduces Cats, a Scala library based on category theory, and some of its most interesting components for data validation. In particular, we’ll discuss some options to achieve efficient and expressive data validation. We will also argue that, compared to other options in the language, Cats is particularly suited for the task thanks to its easy-to-use data types and more approachable syntax. Throughout the talk, you will see numerous examples on how data validation can be achieved in a clean and robust way, and how we can easily integrate it in our code, without any specific knowledge of category theory.

Daniela Sfregola

March 23, 2017
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  1. DATA VALIDATION > In almost every application > Can be

    come complex quite quickly > Needs to be maintained
  2. MAP scala> Some("daniela").map(s => "yo " + s) res0: Option[String]

    = Some(yo daniela) scala> None.map(s => "yo " + s) res1: Option[String] = None
  3. FLATMAP map + flatten scala> Some("daniela").flatMap(s => Some("yo " +

    s)) res2: Option[String] = Some(yo daniela) scala> None.flatMap(s => Some("yo " + s)) res3: Option[String] = None
  4. FOR-COMPREHENSION map + flatMap + filter scala > for {

    a <- Some(1); b <- Some(5) } yield a + b res4: Option[Int] = Some(6) scala > for { a <- Some(1); b <- None } yield a + b res5: Option[Int] = None
  5. OPTION package scala sealed abstract class Option[+A] final case class

    Some[+A](x: A) extends Option[A] case object None extends Option[Nothing] def map[B](f: A => B): Option[B] = ??? def flatMap[B](f: A => Option[B]): Option[B] = ???
  6. OPTION case class Data(email: String, phone: String) def validateEmail(e: String):

    Option[String] = ??? def validatePhone(p: String): Option[String] = ??? def validateData(d: Data): Option[Data] = for { validEmail <- validateEmail(d.email) validPhone <- validatePhone(d.phone) } yield Data(validEmail, validPhone)
  7. OPTION val okEmail = "[email protected]"; val badEmail = "email.com" val

    okPhone = "+1 1234567890123"; val badPhone = "not-a-valid-phone" > validateData(Data(okEmail, okPhone)) res0: Option[Data] = Some(Data([email protected],+1 1234567890123)) > validateData(Data(badEmail, badPhone)) res1: Option[Data] = None > validateData(Data(okEmail, badPhone)) res2: Option[Data] = None > validateData(Data(badEmail, okPhone)) res3: Option[Data] = None
  8. EITHER (2.11) package scala.util sealed abstract class Either[+A, +B] final

    case class Left[+A, +B](a: A) extends Either[A, B] final case class Right[+A, +B](b: B) extends Either[A, B] // no map // no flatMap
  9. EITHER (2.11) package scala.util final case class LeftProjection[+A, +B](e: Either[A,

    B]) final case class RightProjection[+A, +B](e: Either[A, B]) /** * Right(12).left.map(x => "flower") // Result: Right(12) * Left(12).left.map(x => "flower") // Result: Left("flower") * * Right(12).right.map(x => "flower") // Result: Right("flower") * Left(12).right.map(x => "flower") // Result: Left(12) **/ // same for flatmap!
  10. EITHER (2.11) case class Data(email: String, phone: String) def validateEmail(e:

    String): Either[List[String], String] = ??? def validatePhone(p: String): Either[List[String], String] = ??? def validateData(d: Data): Either[List[String], Data] = { val validEmail = validateEmail(d.email) val validPhone = validatePhone(d.phone) (validEmail, validPhone) match { case (Right(e), Right(p)) => Right(Data(e, p)) case (Left(errE), Left(errP)) => Left(errE ++ errP) case (Left(errE), _) => Left(errE) case (_, Left(errP)) => Left(errP) } }
  11. EITHER (2.11) val okEmail = "[email protected]"; val badEmail = "email.com"

    val okPhone = "+1 1234567890123"; val badPhone = "not-a-valid-phone" > validateData(Data(okEmail, okPhone)) res0: Either[List[String],Data] = Right(Data([email protected],+1 1234567890123)) > validateData(Data(badEmail, badPhone)) res1: Either[List[String],Data] = Left(List("Invalid email format", "Phone number must be numeric")) > validateData(Data(okEmail, badPhone)) res2: Either[List[String],Data] = Left(List("Phone number must be numeric")) > validateData(Data(badEmail, okPhone)) res3: Either[List[String],Data] = Left(List("Invalid email format"))
  12. EITHER (2.11) Which one is the error? Which one is

    the valid value? Either is not biased* *things have changed in Scala 2.12
  13. EITHER (2.12) package scala.util sealed abstract class Either[+A, +B] final

    case class Left[+A, +B](a: A) extends Either[A, B] final case class Right[+A, +B](b: B) extends Either[A, B] def map[Y](f: B => Y): Either[A, Y] = ??? def flatMap[AA >: A, Y](f: B => Either[AA, Y]): Either[AA, Y] = ???
  14. EITHER (2.12) package scala.util final case class LeftProjection[+A, +B](e: Either[A,

    B]) final case class RightProjection[+A, +B](e: Either[A, B]) // right projection used by default /** * Right(12).left.map(x => "flower") // Result: Right(12) * Left(12).left.map(x => "flower") // Result: Left("flower") * * Right(12).right.map(x => "flower") // Result: Right("flower") * Left(12).right.map(x => "flower") // Result: Left(12) **/ // same for flatmap!
  15. EITHER (2.12) case class Data(email: String, phone: String) def validateEmail(e:

    String): Either[List[String], String] = ??? def validatePhone(p: String): Either[List[String], String] = ??? def validateData(d: Data): Either[List[String], Data] = for { validEmail <- validateEmail(d.email) validPhone <- validatePhone(d.phone) } yield Data(validEmail, validPhone)
  16. EITHER (2.12) val okEmail = "[email protected]"; val badEmail = "email.com"

    val okPhone = "+1 1234567890123"; val badPhone = "not-a-valid-phone" > validateData(Data(okEmail, okPhone)) res0: Either[List[String],Data] = Right(Data([email protected],+1 1234567890123)) > validateData(Data(badEmail, badPhone)) res1: Either[List[String],Data] = Left(List("Invalid email format")) > validateData(Data(okEmail, badPhone)) res2: Either[List[String],Data] = Left(List("Phone number must be numeric")) > validateData(Data(badEmail, okPhone)) res3: Either[List[String],Data] = Left(List("Invalid email format"))
  17. EITHER (2.12) > only one validation is performed > ideal

    only when error accumulation is not needed
  18. VALIDATED package cats.data sealed abstract class Validated[+E, +A] final case

    class Valid[+A](a: A) extends Validated[Nothing, A] final case class Invalid[+E](e: E) extends Validated[E, Nothing] def map[B](f: A => B): Validated[E,B] // no flatmap //...but we have something else *really* useful!
  19. VALIDATED AND APPLY* import cats.Apply import cats.data.Validated import cats.implicits._ def

    accumulate[E, A1, A2, B](v1: Validated[E, A1], v2: Validated[E, A2]) (f: (A1, A2) => B): Validated[E, B] = (v1 |@| v2).map(f) // same as: Apply[Validated[E, ?]].map2(v1,v2)(f) * More info on Apply at http://typelevel.org/cats/typeclasses/applicative.html
  20. VALIDATED import cats.implicits._ import cats.data.Validated case class Data(email: String, phone:

    String) def validateEmail(e: String): Validated[List[String], String] = ??? def validatePhone(p: String): Validated[List[String], String] = ??? def validateData(d: Data): Validated[List[String], Data] = { val validEmail = validateEmail(d.email) val validPhone = validatePhone(d.phone) (validEmail |@| validPhone).map(Data) }
  21. VALIDATED val okEmail = "[email protected]"; val badEmail = "email.com" val

    okPhone = "+1 1234567890123"; val badPhone = "not-a-valid-phone" > validateData(Data(okEmail, okPhone)) res0: cats.data.Validated[List[String],Data] = Valid(Data([email protected],+1 1234567890123)) > validateData(Data(badEmail, badPhone)) res1: cats.data.Validated[List[String],Data] = Invalid(List("Invalid email format", "Phone number must be numeric")) > validateData(Data(okEmail, badPhone)) res2: cats.data.Validated[List[String],Data] = Invalid(List("Phone number must be numeric")) > validateData(Data(badEmail, okPhone)) res3: cats.data.Validated[List[String],Data] = Invalid(List("Invalid email format"))
  22. USE AN EXPRESSIVE ERROR TYPE object ErrorCode extends Enumeration {

    type ErrorCode = Value val InvalidEmailFormat, ..., PhoneMustBeNumeric = Value } import ErrorCode._ case class Err(code: ErrorCode, msg: String)
  23. OUR FINAL SOLUTION import cats.data._ import cats.implicits._ case class Data(email:

    String, phone: String) def validateEmail(e: String): ValidatedNel[Err, String] = ??? def validatePhone(p: String): ValidatedNel[Err, String] = ??? def validateData(d: Data): ValidatedNel[Err, Data] = { val validEmail = validateEmail(d.email) val validPhone = validatePhone(d.phone) validEmail |@| validPhone map (Data) }
  24. VALIDATEDNEL + ERR val okEmail = "[email protected]"; val badEmail =

    "email.com" val okPhone = "+1 1234567890123"; val badPhone = "not-a-valid-phone" > validateData(Data(okEmail, okPhone)) res0: cats.data.ValidatedNel[Err,Data] = Valid(Data([email protected],+1 1234567890123)) > validateData(Data(badEmail, badPhone)) res1: cats.data.ValidatedNel[Err,Data] = Invalid(NonEmptyList( Err("InvalidEmailFormat","Invalid email format"), Err("PhoneMustBeNumeric","Phone number must be numeric"))) > validateData(Data(okEmail, badPhone)) res2: cats.data.ValidatedNel[Err,Data] = Invalid(NonEmptyList( Err("PhoneMustBeNumeric","Phone number must be numeric"))) > validateData(Data(badEmail, okPhone)) res3: cats.data.ValidatedNel[Err,Data] = Invalid(NonEmptyList( Err("InvalidEmailFormat","Invalid email format")))
  25. STEP 1 > Pick an error representation > stick to

    it! case class Err(code: ErrorCode, msg: String)
  26. A CONCRETE EXAMPLE sealed trait Err { val code: String

    val msg: String val values: Seq[AnyRef] } case class BadRequest(code: String, msg: String) extends Err { val values = Seq.empty } case class NotFound(code: String, msg: String, values: Seq[AnyRef]) extends Err
  27. A CONCRETE EXAMPLE type Validation[T] = ValidatedNel[Err, T] import cats.data._

    object Validation extends AccumulateArities { def success[T](t: T): Validation[T] = Validated.valid(t) def failure[T](e: Err): Validation[T] = Validated.invalidNel(e) }
  28. A CONCRETE EXAMPLE trait AccumulateArities { /** Accumulate function for

    Validation[T] of arity 2 */ def accumulate[T1,T2,Z](v1: Validation[T1], v2: Validation[T2]) (f: (T1,T2) => Z): Validation[Z] = Apply[Validation].map2(v1,v2)(f) /** Accumulate function for Validation[T] of arity 3 */ def accumulate[T1,T2,T3,Z](v1: Validation[T1], v2: Validation[T2], v3: Validation[T3]) (f: (T1,T2,T3) => Z): Validation[Z] = Apply[Validation].map3(v1,v2,v3)(f) // ...until arity 22! }
  29. SUMMARY > Do not reinvent the wheel > Choose an

    expressive type > Customise the solution to your needs