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/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2007-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala.reflect
import scala.collection.mutable.{ WrappedArray, ArrayBuilder }
import java.lang.{ Class => jClass }
@deprecated("Use scala.reflect.ClassTag instead", "2.10.0")
trait ClassManifestDeprecatedApis[T] extends OptManifest[T] {
self: ClassManifest[T] =>
@deprecated("Use runtimeClass instead", "2.10.0")
def erasure: jClass[_] = runtimeClass
private def subtype(sub: jClass[_], sup: jClass[_]): Boolean = {
def loop(left: Set[jClass[_]], seen: Set[jClass[_]]): Boolean = {
left.nonEmpty && {
val next = left.head
val supers = next.getInterfaces.toSet ++ Option(next.getSuperclass)
supers(sup) || {
val xs = left ++ supers filterNot seen
loop(xs - next, seen + next)
}
}
}
loop(Set(sub), Set())
}
private def subargs(args1: List[OptManifest[_]], args2: List[OptManifest[_]]) = (args1 corresponds args2) {
// !!! [Martin] this is wrong, need to take variance into account
case (x: ClassManifest[_], y: ClassManifest[_]) => x <:< y
case (x, y) => (x eq NoManifest) && (y eq NoManifest)
}
/** Tests whether the type represented by this manifest is a subtype
* of the type represented by `that` manifest, subject to the limitations
* described in the header.
*/
@deprecated("Use scala.reflect.runtime.universe.TypeTag for subtype checking instead", "2.10.0")
def <:<(that: ClassManifest[_]): Boolean = {
// All types which could conform to these types will override <:<.
def cannotMatch = {
import Manifest._
that.isInstanceOf[AnyValManifest[_]] || (that eq AnyVal) || (that eq Nothing) || (that eq Null)
}
// This is wrong, and I don't know how it can be made right
// without more development of Manifests, due to arity-defying
// relationships like:
//
// List[String] <: AnyRef
// Map[Int, Int] <: Iterable[(Int, Int)]
//
// Given the manifest for Map[A, B] how do I determine that a
// supertype has single type argument (A, B) ? I don't see how we
// can say whether X <:< Y when type arguments are involved except
// when the erasure is the same, even before considering variance.
!cannotMatch && {
// this part is wrong for not considering variance
if (this.erasure == that.erasure)
subargs(this.typeArguments, that.typeArguments)
// this part is wrong for punting unless the rhs has no type
// arguments, but it's better than a blindfolded pinata swing.
else
that.typeArguments.isEmpty && subtype(this.erasure, that.erasure)
}
}
/** Tests whether the type represented by this manifest is a supertype
* of the type represented by `that` manifest, subject to the limitations
* described in the header.
*/
@deprecated("Use scala.reflect.runtime.universe.TypeTag for subtype checking instead", "2.10.0")
def >:>(that: ClassManifest[_]): Boolean =
that <:< this
override def canEqual(other: Any) = other match {
case _: ClassManifest[_] => true
case _ => false
}
protected def arrayClass[T](tp: jClass[_]): jClass[Array[T]] =
java.lang.reflect.Array.newInstance(tp, 0).getClass.asInstanceOf[jClass[Array[T]]]
@deprecated("Use wrap instead", "2.10.0")
def arrayManifest: ClassManifest[Array[T]] =
ClassManifest.classType[Array[T]](arrayClass[T](erasure), this)
override def newArray(len: Int): Array[T] =
java.lang.reflect.Array.newInstance(erasure, len).asInstanceOf[Array[T]]
@deprecated("Use wrap.newArray instead", "2.10.0")
def newArray2(len: Int): Array[Array[T]] =
java.lang.reflect.Array.newInstance(arrayClass[T](erasure), len)
.asInstanceOf[Array[Array[T]]]
@deprecated("Use wrap.wrap.newArray instead", "2.10.0")
def newArray3(len: Int): Array[Array[Array[T]]] =
java.lang.reflect.Array.newInstance(arrayClass[Array[T]](arrayClass[T](erasure)), len)
.asInstanceOf[Array[Array[Array[T]]]]
@deprecated("Use wrap.wrap.wrap.newArray instead", "2.10.0")
def newArray4(len: Int): Array[Array[Array[Array[T]]]] =
java.lang.reflect.Array.newInstance(arrayClass[Array[Array[T]]](arrayClass[Array[T]](arrayClass[T](erasure))), len)
.asInstanceOf[Array[Array[Array[Array[T]]]]]
@deprecated("Use wrap.wrap.wrap.wrap.newArray instead", "2.10.0")
def newArray5(len: Int): Array[Array[Array[Array[Array[T]]]]] =
java.lang.reflect.Array.newInstance(arrayClass[Array[Array[Array[T]]]](arrayClass[Array[Array[T]]](arrayClass[Array[T]](arrayClass[T](erasure)))), len)
.asInstanceOf[Array[Array[Array[Array[Array[T]]]]]]
@deprecated("Create WrappedArray directly instead", "2.10.0")
def newWrappedArray(len: Int): WrappedArray[T] =
// it's safe to assume T <: AnyRef here because the method is overridden for all value type manifests
new WrappedArray.ofRef[T with AnyRef](newArray(len).asInstanceOf[Array[T with AnyRef]]).asInstanceOf[WrappedArray[T]]
@deprecated("Use ArrayBuilder.make(this) instead", "2.10.0")
def newArrayBuilder(): ArrayBuilder[T] =
// it's safe to assume T <: AnyRef here because the method is overridden for all value type manifests
new ArrayBuilder.ofRef[T with AnyRef]()(this.asInstanceOf[ClassManifest[T with AnyRef]]).asInstanceOf[ArrayBuilder[T]]
@deprecated("Use scala.reflect.runtime.universe.TypeTag to capture type structure instead", "2.10.0")
def typeArguments: List[OptManifest[_]] = List()
protected def argString =
if (typeArguments.nonEmpty) typeArguments.mkString("[", ", ", "]")
else if (erasure.isArray) "["+ClassManifest.fromClass(erasure.getComponentType)+"]"
else ""
}
/** `ClassManifestFactory` defines factory methods for manifests.
* It is intended for use by the compiler and should not be used in client code.
*
* Unlike `ClassManifest`, 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.
*
* In a perfect world, we would just remove the @deprecated annotation from `ClassManifest` the object
* and then delete it in 2.11. After all, that object is explicitly marked as internal, so noone should use it.
* However a lot of existing libraries disregarded the scaladoc that comes with `ClassManifest`,
* so we need to somehow nudge them into migrating prior to removing stuff out of the blue.
* Hence we've introduced this design decision as the lesser of two evils.
*/
object ClassManifestFactory {
val Byte = ManifestFactory.Byte
val Short = ManifestFactory.Short
val Char = ManifestFactory.Char
val Int = ManifestFactory.Int
val Long = ManifestFactory.Long
val Float = ManifestFactory.Float
val Double = ManifestFactory.Double
val Boolean = ManifestFactory.Boolean
val Unit = ManifestFactory.Unit
val Any = ManifestFactory.Any
val Object = ManifestFactory.Object
val AnyVal = ManifestFactory.AnyVal
val Nothing = ManifestFactory.Nothing
val Null = ManifestFactory.Null
def fromClass[T](clazz: jClass[T]): ClassManifest[T] = clazz match {
case java.lang.Byte.TYPE => Byte.asInstanceOf[ClassManifest[T]]
case java.lang.Short.TYPE => Short.asInstanceOf[ClassManifest[T]]
case java.lang.Character.TYPE => Char.asInstanceOf[ClassManifest[T]]
case java.lang.Integer.TYPE => Int.asInstanceOf[ClassManifest[T]]
case java.lang.Long.TYPE => Long.asInstanceOf[ClassManifest[T]]
case java.lang.Float.TYPE => Float.asInstanceOf[ClassManifest[T]]
case java.lang.Double.TYPE => Double.asInstanceOf[ClassManifest[T]]
case java.lang.Boolean.TYPE => Boolean.asInstanceOf[ClassManifest[T]]
case java.lang.Void.TYPE => Unit.asInstanceOf[ClassManifest[T]]
case _ => classType[T with AnyRef](clazz).asInstanceOf[ClassManifest[T]]
}
def singleType[T <: AnyRef](value: AnyRef): Manifest[T] = Manifest.singleType(value)
/** ClassManifest for the class type `clazz`, 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: jClass[_]): ClassManifest[T] =
new ClassTypeManifest[T](None, clazz, Nil)
/** ClassManifest for the class type `clazz[args]`, where `clazz` is
* a top-level or static class and `args` are its type arguments */
def classType[T](clazz: jClass[_], arg1: OptManifest[_], args: OptManifest[_]*): ClassManifest[T] =
new ClassTypeManifest[T](None, clazz, arg1 :: args.toList)
/** ClassManifest 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: OptManifest[_], clazz: jClass[_], args: OptManifest[_]*): ClassManifest[T] =
new ClassTypeManifest[T](Some(prefix), clazz, args.toList)
def arrayType[T](arg: OptManifest[_]): ClassManifest[Array[T]] = arg match {
case NoManifest => Object.asInstanceOf[ClassManifest[Array[T]]]
case m: ClassManifest[_] => m.asInstanceOf[ClassManifest[T]].arrayManifest
}
/** ClassManifest 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: OptManifest[_], name: String, clazz: jClass[_], args: OptManifest[_]*): ClassManifest[T] =
new ClassManifest[T] {
override def runtimeClass = clazz
override val typeArguments = args.toList
override def toString = prefix.toString+"#"+name+argString
}
/** ClassManifest 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.
* todo: remove after next boostrap
*/
def abstractType[T](prefix: OptManifest[_], name: String, upperbound: ClassManifest[_], args: OptManifest[_]*): ClassManifest[T] =
new ClassManifest[T] {
override def runtimeClass = upperbound.erasure
override val typeArguments = args.toList
override def toString = prefix.toString+"#"+name+argString
}
}
/** Manifest for the class type `clazz[args]`, where `clazz` is
* a top-level or static class */
private class ClassTypeManifest[T](
prefix: Option[OptManifest[_]],
val runtimeClass: jClass[_],
override val typeArguments: List[OptManifest[_]]) extends ClassManifest[T]
{
override def toString =
(if (prefix.isEmpty) "" else prefix.get.toString+"#") +
(if (erasure.isArray) "Array" else erasure.getName) +
argString
}
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