ducktape is a library for boilerplate-less and configurable transformations between case classes and enums/sealed traits for Scala 3. Directly inspired by chimney.
If this project interests you, please drop a π - these things are worthless but give me a dopamine rush nonetheless.
libraryDependencies += "io.github.arainko" %% "ducktape" % "0.2.6"
// or if you're using Scala.js or Scala Native
libraryDependencies += "io.github.arainko" %%% "ducktape" % "0.2.6"
NOTE: the version scheme is set to early-semver
You're currently browsing the documentation for ducktape 0.2.x
, if you're looking for the 0.1.x
docs go here: https://github.com/arainko/ducktape/tree/series/0.1.x
Head on over to the docs site!
ducktape
is all about painlessly transforming between similiarly structured case classes/enums/sealed traits:
import java.time.Instant
import io.github.arainko.ducktape.*
// imagine this is a wire model of some kind - JSON, protobuf, avro, what have you...
object wire {
final case class Person(
firstName: String,
lastName: String,
paymentMethods: List[wire.PaymentMethod],
status: wire.Status,
updatedAt: Option[Instant],
)
enum Status:
case Registered, PendingRegistration, Removed
enum PaymentMethod:
case Card(name: String, digits: Long, expires: Instant)
case PayPal(email: String)
case Cash
}
object domain {
final case class Person( // <-- fields reshuffled
lastName: String,
firstName: String,
status: Option[domain.Status], // <-- 'status' in the domain model is optional
paymentMethods: Vector[domain.Payment], // <-- collection type changed from a List to a Vector
updatedAt: Option[Instant],
)
enum Status:
case Registered, PendingRegistration, Removed
case PendingRemoval // <-- additional enum case
enum Payment:
case Card(name: String, digits: Long, expires: Instant)
case PayPal(email: String)
case Cash
}
val wirePerson: wire.Person = wire.Person(
"John",
"Doe",
List(
wire.PaymentMethod.Cash,
wire.PaymentMethod.PayPal("john@doe.com"),
wire.PaymentMethod.Card("J. Doe", 12345, Instant.now)
),
wire.Status.PendingRegistration,
Some(Instant.ofEpochSecond(0))
)
val domainPerson = wirePerson.to[domain.Person]
// domainPerson: Person = Person(
// lastName = "Doe",
// firstName = "John",
// status = Some(value = PendingRegistration),
// paymentMethods = Vector(
// Cash,
// PayPal(email = "john@doe.com"),
// Card(
// name = "J. Doe",
// digits = 12345L,
// expires = 2024-03-10T00:21:33.860394305Z
// )
// ),
// updatedAt = Some(value = 1970-01-01T00:00:00Z)
// )
Click to see the generated code
(({
val paymentMethods$2: Vector[Payment] = MdocApp.this.wirePerson.paymentMethods
.map[Payment]((src: PaymentMethod) =>
if (src.isInstanceOf[Card])
new Card(
name = src.asInstanceOf[Card].name,
digits = src.asInstanceOf[Card].digits,
expires = src.asInstanceOf[Card].expires
)
else if (src.isInstanceOf[PayPal]) new PayPal(email = src.asInstanceOf[PayPal].email)
else if (src.isInstanceOf[Cash.type]) MdocApp.this.domain.Payment.Cash
else throw new RuntimeException("Unhandled case. This is most likely a bug in ducktape.")
)
.to[Vector[Payment]](iterableFactory[Payment])
val status$2: Some[Status] = Some.apply[Status](
if (MdocApp.this.wirePerson.status.isInstanceOf[Registered.type]) MdocApp.this.domain.Status.Registered
else if (MdocApp.this.wirePerson.status.isInstanceOf[PendingRegistration.type])
MdocApp.this.domain.Status.PendingRegistration
else if (MdocApp.this.wirePerson.status.isInstanceOf[Removed.type]) MdocApp.this.domain.Status.Removed
else throw new RuntimeException("Unhandled case. This is most likely a bug in ducktape.")
)
new Person(
lastName = MdocApp.this.wirePerson.lastName,
firstName = MdocApp.this.wirePerson.firstName,
status = status$2,
paymentMethods = paymentMethods$2,
updatedAt = MdocApp.this.wirePerson.updatedAt
)
}: Person): Person)
But now imagine that your wire model differs ever so slightly from your domain model, maybe the wire model's PaymentMethod.Card
doesn't have the name
field for some inexplicable reason...
object wire {
final case class Person(
firstName: String,
lastName: String,
paymentMethods: List[wire.PaymentMethod],
status: wire.Status,
updatedAt: Option[Instant],
)
enum Status:
case Registered, PendingRegistration, Removed
enum PaymentMethod:
case Card(digits: Long, expires: Instant) // <-- poof, 'name' is gone
case PayPal(email: String)
case Cash
}
val wirePerson: wire.Person = wire.Person(
"John",
"Doe",
List(
wire.PaymentMethod.Cash,
wire.PaymentMethod.PayPal("john@doe.com"),
wire.PaymentMethod.Card(12345, Instant.now)
),
wire.Status.PendingRegistration,
Some(Instant.ofEpochSecond(0))
)
...and when you try to transform between these two representations the compiler now yells at you.
val domainPerson = wirePerson.to[domain.Person]
// error:
// No field 'name' found in MdocApp0.this.wire.PaymentMethod.Card @ Person.paymentMethods.element.at[MdocApp0.this.domain.Payment.Card].name
// given Transformer[Int, String] = int => int.toString
// ^
Now onto dealing with that, let's first examine the error message:
No field 'name' found in MdocApp0.this.wire.PaymentMethod.Card @ Person.paymentMethods.element.at[MdocApp0.this.domain.Payment.Card].name
especially the part after @
:
Person.paymentMethods.element.at[MdocApp0.this.domain.Payment.Card].name
the thing above is basically a path to the field/subtype under which ducktape
was not able to create a transformation, these are meant to be copy-pastable for when you're actually trying to fix the error, eg. by setting the name
field to a constant value:
val domainPerson =
wirePerson
.into[domain.Person]
.transform(Field.const(_.paymentMethods.element.at[domain.Payment.Card].name, "CONST NAME"))
// domainPerson: Person = Person(
// lastName = "Doe",
// firstName = "John",
// status = Some(value = PendingRegistration),
// paymentMethods = Vector(
// Cash,
// PayPal(email = "john@doe.com"),
// Card(
// name = "CONST NAME",
// digits = 12345L,
// expires = 2024-03-10T00:21:33.864184449Z
// )
// ),
// updatedAt = Some(value = 1970-01-01T00:00:00Z)
// )
Click to see the generated code
{
val AppliedBuilder_this: AppliedBuilder[Person, Person] = into[Person](MdocApp2.this.wirePerson1)[MdocApp2.this.domain.Person]
{
val value$proxy3: Person = AppliedBuilder_this.inline$value
{
val paymentMethods$4: Vector[Payment] = value$proxy3.paymentMethods
.map[Payment]((src: PaymentMethod) =>
if (src.isInstanceOf[Card])
new Card(name = "CONST NAME", digits = src.asInstanceOf[Card].digits, expires = src.asInstanceOf[Card].expires)
else if (src.isInstanceOf[PayPal]) new PayPal(email = src.asInstanceOf[PayPal].email)
else if (src.isInstanceOf[Cash.type]) MdocApp2.this.domain.Payment.Cash
else throw new RuntimeException("Unhandled case. This is most likely a bug in ducktape.")
)
.to[Vector[Payment]](iterableFactory[Payment])
val status$4: Some[Status] = Some.apply[Status](
if (value$proxy3.status.isInstanceOf[Registered.type]) MdocApp2.this.domain.Status.Registered
else if (value$proxy3.status.isInstanceOf[PendingRegistration.type]) MdocApp2.this.domain.Status.PendingRegistration
else if (value$proxy3.status.isInstanceOf[Removed.type]) MdocApp2.this.domain.Status.Removed
else throw new RuntimeException("Unhandled case. This is most likely a bug in ducktape.")
)
new Person(
lastName = value$proxy3.lastName,
firstName = value$proxy3.firstName,
status = status$4,
paymentMethods = paymentMethods$4,
updatedAt = value$proxy3.updatedAt
)
}: Person
}: Person
}