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Diffstat (limited to 'core/src/main/scala/interface.scala')
-rw-r--r-- | core/src/main/scala/interface.scala | 157 |
1 files changed, 0 insertions, 157 deletions
diff --git a/core/src/main/scala/interface.scala b/core/src/main/scala/interface.scala deleted file mode 100644 index 54f8ce3..0000000 --- a/core/src/main/scala/interface.scala +++ /dev/null @@ -1,157 +0,0 @@ -package magnolia - -import language.higherKinds - -/** represents a subtype of a sealed trait - * - * @tparam Typeclass type constructor for the typeclass being derived - * @tparam Type generic type of this parameter */ -trait Subtype[Typeclass[_], Type] { - - /** the type of subtype */ - type SType <: Type - - /** the name of the subtype - * - * This is the fully-qualified name of the type of subclass. */ - def label: String - - /** the typeclass instance associated with this subtype - * - * This is the instance of the type `Typeclass[SType]` which will have been discovered by - * implicit search, or derived by Magnolia. */ - def typeclass: Typeclass[SType] - - /** partial function defined the subset of values of `Type` which have the type of this subtype */ - def cast: PartialFunction[Type, SType] -} - -/** represents a parameter of a case class - * - * @tparam Typeclass type constructor for the typeclass being derived - * @tparam Type generic type of this parameter */ -trait Param[Typeclass[_], Type] { - - /** the type of the parameter being represented - * - * For exmaple, for a case class, - * <pre> - * case class Person(name: String, age: Int) - * </pre> - * the [[Param]] instance corresponding to the `age` parameter would have a [[PType]] equal to - * the type [[scala.Int]]. However, in practice, this type will never be universally quantified. - */ - type PType - - /** the name of the parameter */ - def label: String - - /** the typeclass instance associated with this parameter - * - * This is the instance of the type `Typeclass[PType]` which will have been discovered by - * implicit search, or derived by Magnolia. - * - * Its type is existentially quantified on this [[Param]] instance, and depending on the - * nature of the particular typeclass, it may either accept or produce types which are also - * existentially quantified on this same [[Param]] instance. */ - def typeclass: Typeclass[PType] - - /** provides the default value for this parameter, as defined in the case class constructor */ - def default: Option[PType] - - /** dereferences a value of the case class type, `Type`, to access the value of the parameter - * being represented - * - * When programming generically, against an unknown case class, with unknown parameter names - * and types, it is not possible to directly access the parameter values without reflection, - * which is undesirable. This method, whose implementation is provided by the Magnolia macro, - * will dereference a case class instance to access the parameter corresponding to this - * [[Param]]. - * - * Whilst the type of the resultant parameter value cannot be universally known at the use, its - * type will be existentially quantified on this [[Param]] instance, and the return type of the - * corresponding `typeclass` method will be existentially quantified on the same value. This is - * sufficient for the compiler to determine that the two values are compatible, and the value may - * be applied to the typeclass (in whatever way that particular typeclass provides). - * - * @param param the instance of the case class to be dereferenced - * @return the parameter value */ - def dereference(param: Type): PType -} - -/** represents a case class or case object and the context required to construct a new typeclass - * instance corresponding to it - * - * Instances of [[CaseClass]] provide access to all of the parameters of the case class, the full - * name of the case class type, and a boolean to determine whether the type is a case class or case - * object. - * - * @param typeName the name of the case class - * @param isObject true only if this represents a case object rather than a case class - * @param parametersArray an array of [[Param]] values for this case class - * @tparam Typeclass type constructor for the typeclass being derived - * @tparam Type generic type of this parameter */ -abstract class CaseClass[Typeclass[_], Type] private[magnolia] ( - val typeName: String, - val isObject: Boolean, - val isValueClass: Boolean, - parametersArray: Array[Param[Typeclass, Type]] -) { - - /** constructs a new instance of the case class type - * - * This method will be implemented by the Magnolia macro to make it possible to construct - * instances of case classes generically in user code, that is, without knowing their type - * concretely. - * - * To construct a new case class instance, the method takes a lambda which defines how each - * parameter in the new case class should be constructed. See the [[Param]] class for more - * information on constructing parameter values from a [[Param]] instance. - * - * @param makeParam lambda for converting a generic [[Param]] into the value to be used for - * this parameter in the construction of a new instance of the case class - * @return a new instance of the case class */ - def construct[Return](makeParam: Param[Typeclass, Type] => Return): Type - - /** a sequence of [[Param]] objects representing all of the parameters in the case class - * - * For efficiency, this sequence is implemented by an `Array`, but upcast to a - * [[scala.collection.Seq]] to hide the mutable collection API. */ - def parameters: Seq[Param[Typeclass, Type]] = parametersArray -} - -/** represents a sealed trait and the context required to construct a new typeclass instance - * corresponding to it - * - * Instances of `SealedTrait` provide access to all of the component subtypes of the sealed trait - * which form a coproduct, and to the fully-qualified name of the sealed trait. - * - * @param typeName the name of the sealed trait - * @param subtypesArray an array of [[Subtype]] instances for each subtype in the sealed trait - * @tparam Typeclass type constructor for the typeclass being derived - * @tparam Type generic type of this parameter */ -final class SealedTrait[Typeclass[_], Type](val typeName: String, - subtypesArray: Array[Subtype[Typeclass, Type]]) { - - /** a sequence of all the subtypes of this sealed trait */ - def subtypes: Seq[Subtype[Typeclass, Type]] = subtypesArray - - /** convenience method for delegating typeclass application to the typeclass corresponding to the - * subtype of the sealed trait which matches the type of the `value` - * - * @tparam Return the return type of the lambda, which should be inferred - * @param value the instance of the generic type whose value should be used to match on a - * particular subtype of the sealed trait - * @param handle lambda for applying the value to the typeclass for the particular subtype which - * matches - * @return the result of applying the `handle` lambda to subtype of the sealed trait which - * matches the parameter `value` */ - def dispatch[Return](value: Type)(handle: Subtype[Typeclass, Type] => Return): Return = - subtypes - .map { sub => - sub.cast.andThen { v => - handle(sub) - } - } - .reduce(_ orElse _)(value) -} |