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I would like to compose checks that return Scalaz 7 Validations. I made a simple example of parsing a sequence of words and constructing a Person object from them. Parsing can fail at many steps and we fail-fast in that case, with the error message of what was the failure. The example below is totally made up and stupid as is, but is as close to what I want to achieve as I could provide.

Looking at my for comprehension below, it seems there must be a better way to compose validations than that.

  1. Initial sequence is changed a few times, from seq to seq2 to seq3. When calling for example lastNameValidation, it needs to explicitly be called with seq2, even though it is called right after seq2 = onlyShort(seq).
  2. I read about Kleisli arrow composition, when one can compose A => M[B] and B => M[C] to get an arrow A => M[C] (where M is a monad). However, I here don't always compose things in such a way that the next step would reuse computation from the previous one. That, and I couldn't get Kleisli arrow composition work with Scalaz 7.

Code:

import scalaz._, Scalaz._

case class Address(streetName: String, streetNumber: Int)
case class Person(name: String, lastName: String, age: Int, address: Address)

def nameValidation(seq: List[String]) = seq.find(Set("John", "Carol", "Susan").contains(_)).toSuccess("Name not found")
def lastNameValidation(seq: List[String]) = seq.find(Set("Kennedy", "Hardy", "Taplin").contains(_)).toSuccess("Last name not found")
def lengthValidation(lastName: String) = lastName.size.success[String]
def dyValidation(lastName: String) = if (!lastName.contains("dy")) Failure("Not the person") else Success(123)
def streetNumberValidation(seq: List[String]) = seq.find(_.forall(_.isDigit)).map(_.toInt).toSuccess("Could not extract street number")
def streetValidation(seq: List[String]) = seq.find(Set("Bush Street", "Pine Street", "Market Street").contains(_)).toSuccess("Street not found")

def onlyShort(seq: List[String]) = seq.filter(_.size < 15)
def omitGarbage(seq: List[String]) = seq.filter(_ != "garbage")

def createPerson(seq: List[String]) = for {
  name <- nameValidation(seq)
  seq2 = onlyShort(seq)
  lastName <- lastNameValidation(seq2)
  length <- lengthValidation(lastName)
  dy <- dyValidation(lastName)
  seq3 = omitGarbage(seq2)
  streetNumber <- streetNumberValidation(seq3)
  street <- streetValidation(seq3)
} yield Person(name, lastName, 80, Address(street, streetNumber))

createPerson(List("255", "a very long string", "Bush Street", "Hardy", "San Francisco", "John", "garbage"))

createPerson(List("a very long string", "Bush Street", "Hardy", "San Francisco", "John", "garbage"))

Any scalaz/functional guru's advice is very welcome!

REPL:

scala> import scalaz._, Scalaz._
import scalaz._
import Scalaz._

scala> case class Address(streetName: String, streetNumber: Int)
defined class Address

scala> case class Person(name: String, lastName: String, age: Int, address: Address)
defined class Person

scala> def nameValidation(seq: List[String]) = seq.find(Set("John", "Carol", "Susan").contains(_)).toSuccess("Name not found")
nameValidation: (seq: List[String])scalaz.Validation[java.lang.String,String]

scala> def lastNameValidation(seq: List[String]) = seq.find(Set("Kennedy", "Hardy", "Taplin").contains(_)).toSuccess("Last name not found")
lastNameValidation: (seq: List[String])scalaz.Validation[java.lang.String,String]

scala> def lengthValidation(lastName: String) = lastName.size.success[String]
lengthValidation: (lastName: String)scalaz.Validation[String,Int]

scala> def dyValidation(lastName: String) = if (!lastName.contains("dy")) Failure("Not the person") else Success(123)
dyValidation: (lastName: String)Product with Serializable with scalaz.Validation[java.lang.String,Int]

scala> def streetNumberValidation(seq: List[String]) = seq.find(_.forall(_.isDigit)).map(_.toInt).toSuccess("Could not extract street number")
streetNumberValidation: (seq: List[String])scalaz.Validation[java.lang.String,Int]

scala> def streetValidation(seq: List[String]) = seq.find(Set("Bush Street", "Pine Street", "Market Street").contains(_)).toSuccess("Street not found")
streetValidation: (seq: List[String])scalaz.Validation[java.lang.String,String]

scala> def onlyShort(seq: List[String]) = seq.filter(_.size < 15)
onlyShort: (seq: List[String])List[String]

scala> def omitGarbage(seq: List[String]) = seq.filter(_ != "garbage")
omitGarbage: (seq: List[String])List[String]

scala> def createPerson(seq: List[String]) = for {
     |   name <- nameValidation(seq)
     |   seq2 = onlyShort(seq)
     |   lastName <- lastNameValidation(seq2)
     |   length <- lengthValidation(lastName)
     |   dy <- dyValidation(lastName)
     |   seq3 = omitGarbage(seq2)
     |   streetNumber <- streetNumberValidation(seq3)
     |   street <- streetValidation(seq3)
     | } yield Person(name, lastName, 80, Address(street, streetNumber))
createPerson: (seq: List[String])scalaz.Validation[java.lang.String,Person]

scala> createPerson(List("255", "a very long string", "Bush Street", "Hardy", "San Francisco", "John", "garbage"))
res19: scalaz.Validation[java.lang.String,Person] = Success(Person(John,Hardy,80,Address(Bush Street,255)))

scala> createPerson(List("a very long string", "Bush Street", "Hardy", "San Francisco", "John", "garbage"))
res20: scalaz.Validation[java.lang.String,Person] = Failure(Could not extract street number)
share|improve this question
3  
Two quick comments. First, if you don't want to accumulate failures, use \/ (or plain old Either), not Validation. Second, digging values out of a big list of strings is inherently messy, and if you can't break the problem down into smaller stages I think this is about as clean as you're going to get. –  Travis Brown Feb 20 at 2:00
    
Either is not a Monad, so I could not compose it nicely with for-comprehension (I needed to call .right to get right projection). Validation is right-leaning by default, so it's possible to compose it nicely with for comprehensions. Another thing was that interleaving <- and = with Either just did not work. Haven't tried \/ though. –  Grega Kešpret Feb 20 at 5:16
1  
Validation isn't a monad, either, and there's some debate about whether it should even have the flatMap method that makes the for-comprehension syntax possible. \/ is a monad, and is essentially just a right-biased Either with some convenient additional operations. –  Travis Brown Feb 20 at 10:56

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