/* __ *\ ** ________ ___ / / ___ Scala API ** ** / __/ __// _ | / / / _ | (c) 2007-2013, LAMP/EPFL ** ** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** ** /____/\___/_/ |_/____/_/ | | ** ** |/ ** \* */ package scala.reflect import scala.collection.mutable.{ ArrayBuilder, WrappedArray } /** A `Manifest[T]` is an opaque descriptor for type T. Its supported use * is to give access to the erasure of the type as a `Class` instance, as * is necessary for the creation of native `Arrays` if the class is not * known at compile time. * * The type-relation operators `<:<` and `=:=` should be considered * approximations only, as there are numerous aspects of type conformance * which are not yet adequately represented in manifests. * * Example usages: {{{ def arr[T] = new Array[T](0) // does not compile def arr[T](implicit m: Manifest[T]) = new Array[T](0) // compiles def arr[T: Manifest] = new Array[T](0) // shorthand for the preceding // Methods manifest, classManifest, and optManifest are in [[scala.Predef]]. def isApproxSubType[T: Manifest, U: Manifest] = manifest[T] <:< manifest[U] isApproxSubType[List[String], List[AnyRef]] // true isApproxSubType[List[String], List[Int]] // false def methods[T: ClassManifest] = classManifest[T].erasure.getMethods def retType[T: ClassManifest](name: String) = methods[T] find (_.getName == name) map (_.getGenericReturnType) retType[Map[_, _]]("values") // Some(scala.collection.Iterable<B>) }}} * */ @scala.annotation.implicitNotFound(msg = "No Manifest available for ${T}.") // TODO undeprecated until Scala reflection becomes non-experimental // @deprecated("Use scala.reflect.ClassTag (to capture erasures) or scala.reflect.runtime.universe.TypeTag (to capture types) or both instead", "2.10.0") trait Manifest[T] extends ClassManifest[T] with Equals { override def typeArguments: List[Manifest[_]] = Nil override def arrayManifest: Manifest[Array[T]] = Manifest.classType[Array[T]](arrayClass[T](erasure), this) override def canEqual(that: Any): Boolean = that match { case _: Manifest[_] => true case _ => false } /** Note: testing for erasure here is important, as it is many times * faster than <:< and rules out most comparisons. */ override def equals(that: Any): Boolean = that match { case m: Manifest[_] => (m canEqual this) && (this.erasure == m.erasure) && (this <:< m) && (m <:< this) case _ => false } override def hashCode = this.erasure.## } // TODO undeprecated until Scala reflection becomes non-experimental // @deprecated("Use type tags and manually check the corresponding class or type instead", "2.10.0") abstract class AnyValManifest[T <: AnyVal](override val toString: String) extends Manifest[T] with Equals { override def <:<(that: ClassManifest[_]): Boolean = (that eq this) || (that eq Manifest.Any) || (that eq Manifest.AnyVal) override def canEqual(other: Any) = other match { case _: AnyValManifest[_] => true case _ => false } override def equals(that: Any): Boolean = this eq that.asInstanceOf[AnyRef] override val hashCode = System.identityHashCode(this) } /** `ManifestFactory` defines factory methods for manifests. * It is intended for use by the compiler and should not be used in client code. * * Unlike `Manifest`, this factory isn't annotated with a deprecation warning. * This is done to prevent avalanches of deprecation warnings in the code that calls methods with manifests. * Why so complicated? Read up the comments for `ClassManifestFactory`. */ object ManifestFactory { def valueManifests: List[AnyValManifest[_]] = List(Byte, Short, Char, Int, Long, Float, Double, Boolean, Unit) val Byte: AnyValManifest[Byte] = new AnyValManifest[scala.Byte]("Byte") { def runtimeClass = java.lang.Byte.TYPE override def newArray(len: Int): Array[Byte] = new Array[Byte](len) override def newWrappedArray(len: Int): WrappedArray[Byte] = new WrappedArray.ofByte(new Array[Byte](len)) override def newArrayBuilder(): ArrayBuilder[Byte] = new ArrayBuilder.ofByte() private def readResolve(): Any = Manifest.Byte } val Short: AnyValManifest[Short] = new AnyValManifest[scala.Short]("Short") { def runtimeClass = java.lang.Short.TYPE override def newArray(len: Int): Array[Short] = new Array[Short](len) override def newWrappedArray(len: Int): WrappedArray[Short] = new WrappedArray.ofShort(new Array[Short](len)) override def newArrayBuilder(): ArrayBuilder[Short] = new ArrayBuilder.ofShort() private def readResolve(): Any = Manifest.Short } val Char: AnyValManifest[Char] = new AnyValManifest[scala.Char]("Char") { def runtimeClass = java.lang.Character.TYPE override def newArray(len: Int): Array[Char] = new Array[Char](len) override def newWrappedArray(len: Int): WrappedArray[Char] = new WrappedArray.ofChar(new Array[Char](len)) override def newArrayBuilder(): ArrayBuilder[Char] = new ArrayBuilder.ofChar() private def readResolve(): Any = Manifest.Char } val Int: AnyValManifest[Int] = new AnyValManifest[scala.Int]("Int") { def runtimeClass = java.lang.Integer.TYPE override def newArray(len: Int): Array[Int] = new Array[Int](len) override def newWrappedArray(len: Int): WrappedArray[Int] = new WrappedArray.ofInt(new Array[Int](len)) override def newArrayBuilder(): ArrayBuilder[Int] = new ArrayBuilder.ofInt() private def readResolve(): Any = Manifest.Int } val Long: AnyValManifest[Long] = new AnyValManifest[scala.Long]("Long") { def runtimeClass = java.lang.Long.TYPE override def newArray(len: Int): Array[Long] = new Array[Long](len) override def newWrappedArray(len: Int): WrappedArray[Long] = new WrappedArray.ofLong(new Array[Long](len)) override def newArrayBuilder(): ArrayBuilder[Long] = new ArrayBuilder.ofLong() private def readResolve(): Any = Manifest.Long } val Float: AnyValManifest[Float] = new AnyValManifest[scala.Float]("Float") { def runtimeClass = java.lang.Float.TYPE override def newArray(len: Int): Array[Float] = new Array[Float](len) override def newWrappedArray(len: Int): WrappedArray[Float] = new WrappedArray.ofFloat(new Array[Float](len)) override def newArrayBuilder(): ArrayBuilder[Float] = new ArrayBuilder.ofFloat() private def readResolve(): Any = Manifest.Float } val Double: AnyValManifest[Double] = new AnyValManifest[scala.Double]("Double") { def runtimeClass = java.lang.Double.TYPE override def newArray(len: Int): Array[Double] = new Array[Double](len) override def newWrappedArray(len: Int): WrappedArray[Double] = new WrappedArray.ofDouble(new Array[Double](len)) override def newArrayBuilder(): ArrayBuilder[Double] = new ArrayBuilder.ofDouble() private def readResolve(): Any = Manifest.Double } val Boolean: AnyValManifest[Boolean] = new AnyValManifest[scala.Boolean]("Boolean") { def runtimeClass = java.lang.Boolean.TYPE override def newArray(len: Int): Array[Boolean] = new Array[Boolean](len) override def newWrappedArray(len: Int): WrappedArray[Boolean] = new WrappedArray.ofBoolean(new Array[Boolean](len)) override def newArrayBuilder(): ArrayBuilder[Boolean] = new ArrayBuilder.ofBoolean() private def readResolve(): Any = Manifest.Boolean } val Unit: AnyValManifest[Unit] = new AnyValManifest[scala.Unit]("Unit") { def runtimeClass = java.lang.Void.TYPE override def newArray(len: Int): Array[Unit] = new Array[Unit](len) override def newWrappedArray(len: Int): WrappedArray[Unit] = new WrappedArray.ofUnit(new Array[Unit](len)) override def newArrayBuilder(): ArrayBuilder[Unit] = new ArrayBuilder.ofUnit() private def readResolve(): Any = Manifest.Unit } private val ObjectTYPE = classOf[java.lang.Object] private val NothingTYPE = classOf[scala.runtime.Nothing$] private val NullTYPE = classOf[scala.runtime.Null$] val Any: Manifest[scala.Any] = new PhantomManifest[scala.Any](ObjectTYPE, "Any") { override def <:<(that: ClassManifest[_]): Boolean = (that eq this) private def readResolve(): Any = Manifest.Any } val Object: Manifest[java.lang.Object] = new PhantomManifest[java.lang.Object](ObjectTYPE, "Object") { override def <:<(that: ClassManifest[_]): Boolean = (that eq this) || (that eq Any) private def readResolve(): Any = Manifest.Object } val AnyRef: Manifest[scala.AnyRef] = Object.asInstanceOf[Manifest[scala.AnyRef]] val AnyVal: Manifest[scala.AnyVal] = new PhantomManifest[scala.AnyVal](ObjectTYPE, "AnyVal") { override def <:<(that: ClassManifest[_]): Boolean = (that eq this) || (that eq Any) private def readResolve(): Any = Manifest.AnyVal } val Null: Manifest[scala.Null] = new PhantomManifest[scala.Null](NullTYPE, "Null") { override def <:<(that: ClassManifest[_]): Boolean = (that ne null) && (that ne Nothing) && !(that <:< AnyVal) private def readResolve(): Any = Manifest.Null } val Nothing: Manifest[scala.Nothing] = new PhantomManifest[scala.Nothing](NothingTYPE, "Nothing") { override def <:<(that: ClassManifest[_]): Boolean = (that ne null) private def readResolve(): Any = Manifest.Nothing } private class SingletonTypeManifest[T <: AnyRef](value: AnyRef) extends Manifest[T] { lazy val runtimeClass = value.getClass override lazy val toString = value.toString + ".type" } /** Manifest for the singleton type `value.type`. */ def singleType[T <: AnyRef](value: AnyRef): Manifest[T] = new SingletonTypeManifest[T](value) /** Manifest for the class type `clazz[args]`, where `clazz` is * a top-level or static class. * @note This no-prefix, no-arguments case is separate because we * it's called from ScalaRunTime.boxArray itself. If we * pass varargs as arrays into this, we get an infinitely recursive call * to boxArray. (Besides, having a separate case is more efficient) */ def classType[T](clazz: Predef.Class[_]): Manifest[T] = new ClassTypeManifest[T](None, clazz, Nil) /** Manifest for the class type `clazz`, where `clazz` is * a top-level or static class and args are its type arguments. */ def classType[T](clazz: Predef.Class[T], arg1: Manifest[_], args: Manifest[_]*): Manifest[T] = new ClassTypeManifest[T](None, clazz, arg1 :: args.toList) /** Manifest for the class type `clazz[args]`, where `clazz` is * a class with non-package prefix type `prefix` and type arguments `args`. */ def classType[T](prefix: Manifest[_], clazz: Predef.Class[_], args: Manifest[_]*): Manifest[T] = new ClassTypeManifest[T](Some(prefix), clazz, args.toList) private abstract class PhantomManifest[T](_runtimeClass: Predef.Class[_], override val toString: String) extends ClassTypeManifest[T](None, _runtimeClass, Nil) { override def equals(that: Any): Boolean = this eq that.asInstanceOf[AnyRef] override val hashCode = System.identityHashCode(this) } /** Manifest for the class type `clazz[args]`, where `clazz` is * a top-level or static class. */ private class ClassTypeManifest[T](prefix: Option[Manifest[_]], val runtimeClass: Predef.Class[_], override val typeArguments: List[Manifest[_]]) extends Manifest[T] { override def toString = (if (prefix.isEmpty) "" else prefix.get.toString+"#") + (if (erasure.isArray) "Array" else erasure.getName) + argString } def arrayType[T](arg: Manifest[_]): Manifest[Array[T]] = arg.asInstanceOf[Manifest[T]].arrayManifest /** Manifest for the abstract type `prefix # name'. `upperBound` is not * strictly necessary as it could be obtained by reflection. It was * added so that erasure can be calculated without reflection. */ def abstractType[T](prefix: Manifest[_], name: String, upperBound: Predef.Class[_], args: Manifest[_]*): Manifest[T] = new Manifest[T] { def runtimeClass = upperBound override val typeArguments = args.toList override def toString = prefix.toString+"#"+name+argString } /** Manifest for the unknown type `_ >: L <: U` in an existential. */ def wildcardType[T](lowerBound: Manifest[_], upperBound: Manifest[_]): Manifest[T] = new Manifest[T] { def runtimeClass = upperBound.erasure override def toString = "_" + (if (lowerBound eq Nothing) "" else " >: "+lowerBound) + (if (upperBound eq Nothing) "" else " <: "+upperBound) } /** Manifest for the intersection type `parents_0 with ... with parents_n'. */ def intersectionType[T](parents: Manifest[_]*): Manifest[T] = new Manifest[T] { def runtimeClass = parents.head.erasure override def toString = parents.mkString(" with ") } }