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Standard library for the SubScript extension of the Scala Programming Language
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/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2002-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala
package runtime
import scala.collection.{ Seq, IndexedSeq, TraversableView, AbstractIterator }
import scala.collection.mutable.WrappedArray
import scala.collection.immutable.{ StringLike, NumericRange, List, Stream, Nil, :: }
import scala.collection.generic.{ Sorted, IsTraversableLike }
import scala.reflect.{ ClassTag, classTag }
import scala.util.control.ControlThrowable
import java.lang.{ Class => jClass }
import java.lang.Double.doubleToLongBits
import java.lang.reflect.{ Modifier, Method => JMethod }
/** The object ScalaRunTime provides support methods required by
* the scala runtime. All these methods should be considered
* outside the API and subject to change or removal without notice.
*/
object ScalaRunTime {
def isArray(x: Any, atLevel: Int = 1): Boolean =
x != null && isArrayClass(x.getClass, atLevel)
private def isArrayClass(clazz: jClass[_], atLevel: Int): Boolean =
clazz.isArray && (atLevel == 1 || isArrayClass(clazz.getComponentType, atLevel - 1))
def isValueClass(clazz: jClass[_]) = clazz.isPrimitive()
// includes specialized subclasses and future proofed against hypothetical TupleN (for N > 22)
def isTuple(x: Any) = x != null && x.getClass.getName.startsWith("scala.Tuple")
def isAnyVal(x: Any) = x match {
case _: Byte | _: Short | _: Char | _: Int | _: Long | _: Float | _: Double | _: Boolean | _: Unit => true
case _ => false
}
// A helper method to make my life in the pattern matcher a lot easier.
def drop[Repr](coll: Repr, num: Int)(implicit traversable: IsTraversableLike[Repr]): Repr =
traversable conversion coll drop num
/** Return the class object representing an array with element class `clazz`.
*/
def arrayClass(clazz: jClass[_]): jClass[_] = {
// newInstance throws an exception if the erasure is Void.TYPE. see SI-5680
if (clazz == java.lang.Void.TYPE) classOf[Array[Unit]]
else java.lang.reflect.Array.newInstance(clazz, 0).getClass
}
/** Return the class object representing elements in arrays described by a given schematic.
*/
def arrayElementClass(schematic: Any): jClass[_] = schematic match {
case cls: jClass[_] => cls.getComponentType
case tag: ClassTag[_] => tag.runtimeClass
case _ =>
throw new UnsupportedOperationException(s"unsupported schematic $schematic (${schematic.getClass})")
}
/** Return the class object representing an unboxed value type,
* e.g., classOf[int], not classOf[java.lang.Integer]. The compiler
* rewrites expressions like 5.getClass to come here.
*/
def anyValClass[T <: AnyVal : ClassTag](value: T): jClass[T] =
classTag[T].runtimeClass.asInstanceOf[jClass[T]]
/** Retrieve generic array element */
def array_apply(xs: AnyRef, idx: Int): Any = {
xs match {
case x: Array[AnyRef] => x(idx).asInstanceOf[Any]
case x: Array[Int] => x(idx).asInstanceOf[Any]
case x: Array[Double] => x(idx).asInstanceOf[Any]
case x: Array[Long] => x(idx).asInstanceOf[Any]
case x: Array[Float] => x(idx).asInstanceOf[Any]
case x: Array[Char] => x(idx).asInstanceOf[Any]
case x: Array[Byte] => x(idx).asInstanceOf[Any]
case x: Array[Short] => x(idx).asInstanceOf[Any]
case x: Array[Boolean] => x(idx).asInstanceOf[Any]
case x: Array[Unit] => x(idx).asInstanceOf[Any]
case null => throw new NullPointerException
}
}
/** update generic array element */
def array_update(xs: AnyRef, idx: Int, value: Any): Unit = {
xs match {
case x: Array[AnyRef] => x(idx) = value.asInstanceOf[AnyRef]
case x: Array[Int] => x(idx) = value.asInstanceOf[Int]
case x: Array[Double] => x(idx) = value.asInstanceOf[Double]
case x: Array[Long] => x(idx) = value.asInstanceOf[Long]
case x: Array[Float] => x(idx) = value.asInstanceOf[Float]
case x: Array[Char] => x(idx) = value.asInstanceOf[Char]
case x: Array[Byte] => x(idx) = value.asInstanceOf[Byte]
case x: Array[Short] => x(idx) = value.asInstanceOf[Short]
case x: Array[Boolean] => x(idx) = value.asInstanceOf[Boolean]
case x: Array[Unit] => x(idx) = value.asInstanceOf[Unit]
case null => throw new NullPointerException
}
}
/** Get generic array length */
def array_length(xs: AnyRef): Int = xs match {
case x: Array[AnyRef] => x.length
case x: Array[Int] => x.length
case x: Array[Double] => x.length
case x: Array[Long] => x.length
case x: Array[Float] => x.length
case x: Array[Char] => x.length
case x: Array[Byte] => x.length
case x: Array[Short] => x.length
case x: Array[Boolean] => x.length
case x: Array[Unit] => x.length
case null => throw new NullPointerException
}
def array_clone(xs: AnyRef): AnyRef = xs match {
case x: Array[AnyRef] => ArrayRuntime.cloneArray(x)
case x: Array[Int] => ArrayRuntime.cloneArray(x)
case x: Array[Double] => ArrayRuntime.cloneArray(x)
case x: Array[Long] => ArrayRuntime.cloneArray(x)
case x: Array[Float] => ArrayRuntime.cloneArray(x)
case x: Array[Char] => ArrayRuntime.cloneArray(x)
case x: Array[Byte] => ArrayRuntime.cloneArray(x)
case x: Array[Short] => ArrayRuntime.cloneArray(x)
case x: Array[Boolean] => ArrayRuntime.cloneArray(x)
case x: Array[Unit] => x
case null => throw new NullPointerException
}
/** Convert an array to an object array.
* Needed to deal with vararg arguments of primitive types that are passed
* to a generic Java vararg parameter T ...
*/
def toObjectArray(src: AnyRef): Array[Object] = src match {
case x: Array[AnyRef] => x
case _ =>
val length = array_length(src)
val dest = new Array[Object](length)
for (i <- 0 until length)
array_update(dest, i, array_apply(src, i))
dest
}
def toArray[T](xs: scala.collection.Seq[T]) = {
val arr = new Array[AnyRef](xs.length)
var i = 0
for (x <- xs) {
arr(i) = x.asInstanceOf[AnyRef]
i += 1
}
arr
}
// Java bug: http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=4071957
// More background at ticket #2318.
def ensureAccessible(m: JMethod): JMethod = scala.reflect.ensureAccessible(m)
def checkInitialized[T <: AnyRef](x: T): T =
if (x == null) throw new UninitializedError else x
def _toString(x: Product): String =
x.productIterator.mkString(x.productPrefix + "(", ",", ")")
def _hashCode(x: Product): Int = scala.util.hashing.MurmurHash3.productHash(x)
/** A helper for case classes. */
def typedProductIterator[T](x: Product): Iterator[T] = {
new AbstractIterator[T] {
private var c: Int = 0
private val cmax = x.productArity
def hasNext = c < cmax
def next() = {
val result = x.productElement(c)
c += 1
result.asInstanceOf[T]
}
}
}
/** Fast path equality method for inlining; used when -optimise is set.
*/
@inline def inlinedEquals(x: Object, y: Object): Boolean =
if (x eq y) true
else if (x eq null) false
else if (x.isInstanceOf[java.lang.Number]) BoxesRunTime.equalsNumObject(x.asInstanceOf[java.lang.Number], y)
else if (x.isInstanceOf[java.lang.Character]) BoxesRunTime.equalsCharObject(x.asInstanceOf[java.lang.Character], y)
else x.equals(y)
def _equals(x: Product, y: Any): Boolean = y match {
case y: Product if x.productArity == y.productArity => x.productIterator sameElements y.productIterator
case _ => false
}
// hashcode -----------------------------------------------------------
//
// Note that these are the implementations called by ##, so they
// must not call ## themselves.
def hash(x: Any): Int =
if (x == null) 0
else if (x.isInstanceOf[java.lang.Number]) BoxesRunTime.hashFromNumber(x.asInstanceOf[java.lang.Number])
else x.hashCode
def hash(dv: Double): Int = {
val iv = dv.toInt
if (iv == dv) return iv
val lv = dv.toLong
if (lv == dv) return lv.hashCode
val fv = dv.toFloat
if (fv == dv) fv.hashCode else dv.hashCode
}
def hash(fv: Float): Int = {
val iv = fv.toInt
if (iv == fv) return iv
val lv = fv.toLong
if (lv == fv) hash(lv)
else fv.hashCode
}
def hash(lv: Long): Int = {
val low = lv.toInt
val lowSign = low >>> 31
val high = (lv >>> 32).toInt
low ^ (high + lowSign)
}
def hash(x: Number): Int = runtime.BoxesRunTime.hashFromNumber(x)
// The remaining overloads are here for completeness, but the compiler
// inlines these definitions directly so they're not generally used.
def hash(x: Int): Int = x
def hash(x: Short): Int = x.toInt
def hash(x: Byte): Int = x.toInt
def hash(x: Char): Int = x.toInt
def hash(x: Boolean): Int = if (x) true.hashCode else false.hashCode
def hash(x: Unit): Int = 0
/** A helper method for constructing case class equality methods,
* because existential types get in the way of a clean outcome and
* it's performing a series of Any/Any equals comparisons anyway.
* See ticket #2867 for specifics.
*/
def sameElements(xs1: scala.collection.Seq[Any], xs2: scala.collection.Seq[Any]) = xs1 sameElements xs2
/** Given any Scala value, convert it to a String.
*
* The primary motivation for this method is to provide a means for
* correctly obtaining a String representation of a value, while
* avoiding the pitfalls of naïvely calling toString on said value.
* In particular, it addresses the fact that (a) toString cannot be
* called on null and (b) depending on the apparent type of an
* array, toString may or may not print it in a human-readable form.
*
* @param arg the value to stringify
* @return a string representation of arg.
*/
def stringOf(arg: Any): String = stringOf(arg, scala.Int.MaxValue)
def stringOf(arg: Any, maxElements: Int): String = {
def packageOf(x: AnyRef) = x.getClass.getPackage match {
case null => ""
case p => p.getName
}
def isScalaClass(x: AnyRef) = packageOf(x) startsWith "scala."
def isScalaCompilerClass(x: AnyRef) = packageOf(x) startsWith "scala.tools.nsc."
// We use reflection because the scala.xml package might not be available
def isSubClassOf(potentialSubClass: Class[_], ofClass: String) =
try {
val classLoader = potentialSubClass.getClassLoader
val clazz = Class.forName(ofClass, /*initialize =*/ false, classLoader)
clazz.isAssignableFrom(potentialSubClass)
} catch {
case cnfe: ClassNotFoundException => false
}
def isXmlNode(potentialSubClass: Class[_]) = isSubClassOf(potentialSubClass, "scala.xml.Node")
def isXmlMetaData(potentialSubClass: Class[_]) = isSubClassOf(potentialSubClass, "scala.xml.MetaData")
// When doing our own iteration is dangerous
def useOwnToString(x: Any) = x match {
// Range/NumericRange have a custom toString to avoid walking a gazillion elements
case _: Range | _: NumericRange[_] => true
// Sorted collections to the wrong thing (for us) on iteration - ticket #3493
case _: Sorted[_, _] => true
// StringBuilder(a, b, c) and similar not so attractive
case _: StringLike[_] => true
// Don't want to evaluate any elements in a view
case _: TraversableView[_, _] => true
// Node extends NodeSeq extends Seq[Node] and MetaData extends Iterable[MetaData]
// -> catch those by isXmlNode and isXmlMetaData.
// Don't want to a) traverse infinity or b) be overly helpful with peoples' custom
// collections which may have useful toString methods - ticket #3710
// or c) print AbstractFiles which are somehow also Iterable[AbstractFile]s.
case x: Traversable[_] => !x.hasDefiniteSize || !isScalaClass(x) || isScalaCompilerClass(x) || isXmlNode(x.getClass) || isXmlMetaData(x.getClass)
// Otherwise, nothing could possibly go wrong
case _ => false
}
// A variation on inner for maps so they print -> instead of bare tuples
def mapInner(arg: Any): String = arg match {
case (k, v) => inner(k) + " -> " + inner(v)
case _ => inner(arg)
}
// Special casing Unit arrays, the value class which uses a reference array type.
def arrayToString(x: AnyRef) = {
if (x.getClass.getComponentType == classOf[BoxedUnit])
0 until (array_length(x) min maxElements) map (_ => "()") mkString ("Array(", ", ", ")")
else
WrappedArray make x take maxElements map inner mkString ("Array(", ", ", ")")
}
// The recursively applied attempt to prettify Array printing.
// Note that iterator is used if possible and foreach is used as a
// last resort, because the parallel collections "foreach" in a
// random order even on sequences.
def inner(arg: Any): String = arg match {
case null => "null"
case "" => "\"\""
case x: String => if (x.head.isWhitespace || x.last.isWhitespace) "\"" + x + "\"" else x
case x if useOwnToString(x) => x.toString
case x: AnyRef if isArray(x) => arrayToString(x)
case x: scala.collection.Map[_, _] => x.iterator take maxElements map mapInner mkString (x.stringPrefix + "(", ", ", ")")
case x: Iterable[_] => x.iterator take maxElements map inner mkString (x.stringPrefix + "(", ", ", ")")
case x: Traversable[_] => x take maxElements map inner mkString (x.stringPrefix + "(", ", ", ")")
case x: Product1[_] if isTuple(x) => "(" + inner(x._1) + ",)" // that special trailing comma
case x: Product if isTuple(x) => x.productIterator map inner mkString ("(", ",", ")")
case x => x.toString
}
// The try/catch is defense against iterables which aren't actually designed
// to be iterated, such as some scala.tools.nsc.io.AbstractFile derived classes.
try inner(arg)
catch {
case _: UnsupportedOperationException | _: AssertionError => "" + arg
}
}
/** stringOf formatted for use in a repl result. */
def replStringOf(arg: Any, maxElements: Int): String = {
val s = stringOf(arg, maxElements)
val nl = if (s contains "\n") "\n" else ""
nl + s + "\n"
}
def box[T](clazz: jClass[T]): jClass[_] = clazz match {
case java.lang.Byte.TYPE => classOf[java.lang.Byte]
case java.lang.Short.TYPE => classOf[java.lang.Short]
case java.lang.Character.TYPE => classOf[java.lang.Character]
case java.lang.Integer.TYPE => classOf[java.lang.Integer]
case java.lang.Long.TYPE => classOf[java.lang.Long]
case java.lang.Float.TYPE => classOf[java.lang.Float]
case java.lang.Double.TYPE => classOf[java.lang.Double]
case java.lang.Void.TYPE => classOf[scala.runtime.BoxedUnit]
case java.lang.Boolean.TYPE => classOf[java.lang.Boolean]
case _ => clazz
}
}