/* NSC -- new Scala compiler * Copyright 2005-2013 LAMP/EPFL * @author Martin Odersky */ package scala.reflect package api /** * <span class="badge badge-red" style="float: right;">EXPERIMENTAL</span> * * According to the section 6.24 "Constant Expressions" of the Scala language specification, * certain expressions (dubbed ''constant expressions'') can be evaluated by the Scala compiler at compile-time. * * [[scala.reflect.api.Constants#Constant]] instances represent certain kinds of these expressions * (with values stored in the `value` field and its strongly-typed views named `booleanValue`, `intValue` etc.), namely: * 1. Literals of primitive value classes (bytes, shorts, ints, longs, floats, doubles, chars, booleans and voids). * 1. String literals. * 1. References to classes (typically constructed with [[scala.Predef#classOf]]). * 1. References to enumeration values. * * Such constants are used to represent literals in abstract syntax trees (the [[scala.reflect.api.Trees#Literal]] node) * and literal arguments for Java class file annotations (the [[scala.reflect.api.Annotations#LiteralArgument]] class). * * === Example === * * The `value` field deserves some explanation. Primitive and string values are represented as themselves, whereas * references to classes and enums are a bit roundabout. * * Class references are represented as instances of [[scala.reflect.api.Types#Type]] * (because when the Scala compiler processes a class reference, the underlying runtime class might not yet have been compiled). * To convert such a reference to a runtime class, one should use the `runtimeClass` method of a mirror such as [[scala.reflect.api.Mirrors#RuntimeMirror]] * (the simplest way to get such a mirror is using [[scala.reflect.runtime.package#currentMirror]]). * * Enumeration value references are represented as instances of [[scala.reflect.api.Symbols#Symbol]], which on JVM point to methods * that return underlying enum values. To inspect an underlying enumeration or to get runtime value of a reference to an enum, * one should use a [[scala.reflect.api.Mirrors#RuntimeMirror]] (the simplest way to get such a mirror is again [[scala.reflect.runtime.package#currentMirror]]). * {{{ * enum JavaSimpleEnumeration { FOO, BAR } * * import java.lang.annotation.*; * @Retention(RetentionPolicy.RUNTIME) * @Target({ElementType.TYPE}) * public @interface JavaSimpleAnnotation { * Class<?> classRef(); * JavaSimpleEnumeration enumRef(); * } * * @JavaSimpleAnnotation( * classRef = JavaAnnottee.class, * enumRef = JavaSimpleEnumeration.BAR * ) * public class JavaAnnottee {} * }}} * {{{ * import scala.reflect.runtime.universe._ * import scala.reflect.runtime.{currentMirror => cm} * * object Test extends App { * val jann = typeOf[JavaAnnottee].typeSymbol.annotations(0).javaArgs * def jarg(name: String) = jann(newTermName(name)).asInstanceOf[LiteralArgument].value * * val classRef = jarg("classRef").typeValue * println(showRaw(classRef)) // TypeRef(ThisType(<empty>), JavaAnnottee, List()) * println(cm.runtimeClass(classRef)) // class JavaAnnottee * * val enumRef = jarg("enumRef").symbolValue * println(enumRef) // value BAR * * val siblings = enumRef.owner.typeSignature.declarations * val enumValues = siblings.filter(sym => sym.isVal && sym.isPublic) * println(enumValues) // Scope{ * // final val FOO: JavaSimpleEnumeration; * // final val BAR: JavaSimpleEnumeration * // } * * // doesn't work because of https://issues.scala-lang.org/browse/SI-6459 * // val enumValue = mirror.reflectField(enumRef.asTerm).get * val enumClass = cm.runtimeClass(enumRef.owner.asClass) * val enumValue = enumClass.getDeclaredField(enumRef.name.toString).get(null) * println(enumValue) // BAR * } * }}} * * @contentDiagram hideNodes "*Api" * @group ReflectionAPI */ trait Constants { self: Universe => /** * This "virtual" case class represents the reflection interface for literal expressions which can not be further * broken down or evaluated, such as "true", "0", "classOf[List]". Such values become parts of the Scala abstract * syntax tree representing the program. The constants * correspond to section 6.24 "Constant Expressions" of the * [[http://www.scala-lang.org/docu/files/ScalaReference.pdf Scala language specification]]. * * Such constants are used to represent literals in abstract syntax trees (the [[scala.reflect.api.Trees#Literal]] node) * and literal arguments for Java class file annotations (the [[scala.reflect.api.Annotations#LiteralArgument]] class). * * Constants can be matched against and can be constructed directly, as if they were case classes: * {{{ * assert(Constant(true).value == true) * Constant(true) match { * case Constant(s: String) => println("A string: " + s) * case Constant(b: Boolean) => println("A boolean value: " + b) * case Constant(x) => println("Something else: " + x) * } * }}} * * `Constant` instances can wrap certain kinds of these expressions: * 1. Literals of primitive value classes ([[scala.Byte `Byte`]], [[scala.Short `Short`]], [[scala.Int `Int`]], [[scala.Long `Long`]], [[scala.Float `Float`]], [[scala.Double `Double`]], [[scala.Char `Char`]], [[scala.Boolean `Boolean`]] and [[scala.Unit `Unit`]]) - represented directly as the corresponding type * 1. String literals - represented as instances of the `String`. * 1. References to classes, typically constructed with [[scala.Predef#classOf]] - represented as [[scala.reflect.api.Types#Type types]]. * 1. References to enumeration values - represented as [[scala.reflect.api.Symbols#Symbol symbols]]. * * Class references are represented as instances of [[scala.reflect.api.Types#Type]] * (because when the Scala compiler processes a class reference, the underlying runtime class might not yet have * been compiled). To convert such a reference to a runtime class, one should use the [[scala.reflect.api.Mirrors#RuntimeMirror#runtimeClass `runtimeClass`]] method of a * mirror such as [[scala.reflect.api.Mirrors#RuntimeMirror `RuntimeMirror`]] (the simplest way to get such a mirror is using * [[scala.reflect.runtime#currentMirror `scala.reflect.runtime.currentMirror`]]). * * Enumeration value references are represented as instances of [[scala.reflect.api.Symbols#Symbol]], which on JVM point to methods * that return underlying enum values. To inspect an underlying enumeration or to get runtime value of a reference to an enum, * one should use a [[scala.reflect.api.Mirrors#RuntimeMirror]] (the simplest way to get such a mirror is again [[scala.reflect.runtime.package#currentMirror]]). * * Usage example: * {{{ * enum JavaSimpleEnumeration { FOO, BAR } * * import java.lang.annotation.*; * @Retention(RetentionPolicy.RUNTIME) * @Target({ElementType.TYPE}) * public @interface JavaSimpleAnnotation { * Class<?> classRef(); * JavaSimpleEnumeration enumRef(); * } * * @JavaSimpleAnnotation( * classRef = JavaAnnottee.class, * enumRef = JavaSimpleEnumeration.BAR * ) * public class JavaAnnottee {} * }}} * {{{ * import scala.reflect.runtime.universe._ * import scala.reflect.runtime.{currentMirror => cm} * * object Test extends App { * val jann = typeOf[JavaAnnottee].typeSymbol.annotations(0).javaArgs * def jarg(name: String) = jann(newTermName(name)) match { * // Constant is always wrapped into a Literal or LiteralArgument tree node * case LiteralArgument(ct: Constant) => value * case _ => sys.error("Not a constant") * } * * val classRef = jarg("classRef").value.asInstanceOf[Type] * // ideally one should match instead of casting * println(showRaw(classRef)) // TypeRef(ThisType(<empty>), JavaAnnottee, List()) * println(cm.runtimeClass(classRef)) // class JavaAnnottee * * val enumRef = jarg("enumRef").value.asInstanceOf[Symbol] * // ideally one should match instead of casting * println(enumRef) // value BAR * * val siblings = enumRef.owner.typeSignature.declarations * val enumValues = siblings.filter(sym => sym.isVal && sym.isPublic) * println(enumValues) // Scope{ * // final val FOO: JavaSimpleEnumeration; * // final val BAR: JavaSimpleEnumeration * // } * * // doesn't work because of https://issues.scala-lang.org/browse/SI-6459 * // val enumValue = mirror.reflectField(enumRef.asTerm).get * val enumClass = cm.runtimeClass(enumRef.owner.asClass) * val enumValue = enumClass.getDeclaredField(enumRef.name.toString).get(null) * println(enumValue) // BAR * } * }}} * @template * @group Constants */ type Constant >: Null <: AnyRef with ConstantApi /** A tag that preserves the identity of the `Constant` abstract type from erasure. * Can be used for pattern matching, instance tests, serialization and likes. * @group Tags */ implicit val ConstantTag: ClassTag[Constant] /** The constructor/extractor for `Constant` instances. * @group Extractors */ val Constant: ConstantExtractor /** An extractor class to create and pattern match with syntax `Constant(value)` * where `value` is the Scala value of the constant. * @group Extractors */ abstract class ConstantExtractor { /** A factory method that produces [[Constant `Constant`]] instances. * * Notice that not any value can be passed to a constant: it must be either a primitive, a `String`, a * [[scala.reflect.api.Types#Type type]] or a [[scala.reflect.api.Symbols#Symbol symbol]]. * See [[Constant the `Constant` class]] for more information. */ def apply(value: Any): Constant /** An extractor that enables writing pattern matches against the [[Constant `Constant`]] class. */ def unapply(arg: Constant): Option[Any] } /** The API of [[Constant]] instances. * @group API */ abstract class ConstantApi { /** Payload of the constant, that can be accessed directly or pattern matched against. */ val value: Any /** Scala type that describes the constant. It is generated automatically based on the type of the value. */ def tpe: Type } }