Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance. Project price only 1 $
You can buy this project and download/modify it how often you want.
/*
* Scala (https://www.scala-lang.org)
*
* Copyright EPFL and Lightbend, Inc.
*
* Licensed under Apache License 2.0
* (http://www.apache.org/licenses/LICENSE-2.0).
*
* See the NOTICE file distributed with this work for
* additional information regarding copyright ownership.
*/
package scala
package collection
import scala.util.hashing.MurmurHash3
import java.lang.String
import scala.annotation.nowarn
/** Base trait for set collections.
*/
trait Set[A]
extends Iterable[A]
with SetOps[A, Set, Set[A]]
with Equals
with IterableFactoryDefaults[A, Set] {
def canEqual(that: Any) = true
override def equals(that: Any): Boolean =
(this eq that.asInstanceOf[AnyRef]) || (that match {
case set: Set[A] if set.canEqual(this) =>
(this.size == set.size) && this.subsetOf(set)
case _ =>
false
})
override def hashCode(): Int = MurmurHash3.setHash(toIterable)
override def iterableFactory: IterableFactory[Set] = Set
@nowarn("""cat=deprecation&origin=scala\.collection\.Iterable\.stringPrefix""")
override protected[this] def stringPrefix: String = "Set"
override def toString(): String = super[Iterable].toString() // Because `Function1` overrides `toString` too
}
/** Base trait for set operations
*
* @define coll set
* @define Coll `Set`
*/
trait SetOps[A, +CC[_], +C <: SetOps[A, CC, C]]
extends IterableOps[A, CC, C]
with (A => Boolean) {
def contains(elem: A): Boolean
/** Tests if some element is contained in this set.
*
* This method is equivalent to `contains`. It allows sets to be interpreted as predicates.
* @param elem the element to test for membership.
* @return `true` if `elem` is contained in this set, `false` otherwise.
*/
@`inline` final def apply(elem: A): Boolean = this.contains(elem)
/** Tests whether this set is a subset of another set.
*
* @param that the set to test.
* @return `true` if this set is a subset of `that`, i.e. if
* every element of this set is also an element of `that`.
*/
def subsetOf(that: Set[A]): Boolean = this.forall(that)
/** An iterator over all subsets of this set of the given size.
* If the requested size is impossible, an empty iterator is returned.
*
* @param len the size of the subsets.
* @return the iterator.
*/
def subsets(len: Int): Iterator[C] = {
if (len < 0 || len > size) Iterator.empty
else new SubsetsItr(toIterable.to(IndexedSeq), len)
}
/** An iterator over all subsets of this set.
*
* @return the iterator.
*/
def subsets(): Iterator[C] = new AbstractIterator[C] {
private[this] val elms = toIterable.to(IndexedSeq)
private[this] var len = 0
private[this] var itr: Iterator[C] = Iterator.empty
def hasNext = len <= elms.size || itr.hasNext
def next() = {
if (!itr.hasNext) {
if (len > elms.size) Iterator.empty.next()
else {
itr = new SubsetsItr(elms, len)
len += 1
}
}
itr.next()
}
}
/** An Iterator including all subsets containing exactly len elements.
* If the elements in 'This' type is ordered, then the subsets will also be in the same order.
* ListSet(1,2,3).subsets => {{1},{2},{3},{1,2},{1,3},{2,3},{1,2,3}}
*
* $willForceEvaluation
*
*/
private class SubsetsItr(elms: IndexedSeq[A], len: Int) extends AbstractIterator[C] {
private[this] val idxs = Array.range(0, len+1)
private[this] var _hasNext = true
idxs(len) = elms.size
def hasNext = _hasNext
@throws[NoSuchElementException]
def next(): C = {
if (!hasNext) Iterator.empty.next()
val buf = newSpecificBuilder
idxs.slice(0, len) foreach (idx => buf += elms(idx))
val result = buf.result()
var i = len - 1
while (i >= 0 && idxs(i) == idxs(i+1)-1) i -= 1
if (i < 0) _hasNext = false
else {
idxs(i) += 1
for (j <- (i+1) until len)
idxs(j) = idxs(j-1) + 1
}
result
}
}
/** Computes the intersection between this set and another set.
*
* @param that the set to intersect with.
* @return a new set consisting of all elements that are both in this
* set and in the given set `that`.
*/
def intersect(that: Set[A]): C = this.filter(that)
/** Alias for `intersect` */
@`inline` final def & (that: Set[A]): C = intersect(that)
/** Computes the difference of this set and another set.
*
* @param that the set of elements to exclude.
* @return a set containing those elements of this
* set that are not also contained in the given set `that`.
*/
def diff(that: Set[A]): C
/** Alias for `diff` */
@`inline` final def &~ (that: Set[A]): C = this diff that
@deprecated("Consider requiring an immutable Set", "2.13.0")
def -- (that: IterableOnce[A]): C = fromSpecific(coll.toSet.removedAll(that))
@deprecated("Consider requiring an immutable Set or fall back to Set.diff", "2.13.0")
def - (elem: A): C = diff(Set(elem))
@deprecated("Use &- with an explicit collection argument instead of - with varargs", "2.13.0")
def - (elem1: A, elem2: A, elems: A*): C = diff(elems.toSet + elem1 + elem2)
/** Creates a new $coll by adding all elements contained in another collection to this $coll, omitting duplicates.
*
* This method takes a collection of elements and adds all elements, omitting duplicates, into $coll.
*
* Example:
* {{{
* scala> val a = Set(1, 2) concat Set(2, 3)
* a: scala.collection.immutable.Set[Int] = Set(1, 2, 3)
* }}}
*
* @param that the collection containing the elements to add.
* @return a new $coll with the given elements added, omitting duplicates.
*/
def concat(that: collection.IterableOnce[A]): C = fromSpecific(that match {
case that: collection.Iterable[A] => new View.Concat(toIterable, that)
case _ => iterator.concat(that.iterator)
})
@deprecated("Consider requiring an immutable Set or fall back to Set.union", "2.13.0")
def + (elem: A): C = fromSpecific(new View.Appended(toIterable, elem))
@deprecated("Use ++ with an explicit collection argument instead of + with varargs", "2.13.0")
def + (elem1: A, elem2: A, elems: A*): C = fromSpecific(new View.Concat(new View.Appended(new View.Appended(toIterable, elem1), elem2), elems))
/** Alias for `concat` */
@`inline` final def ++ (that: collection.IterableOnce[A]): C = concat(that)
/** Computes the union between of set and another set.
*
* @param that the set to form the union with.
* @return a new set consisting of all elements that are in this
* set or in the given set `that`.
*/
@`inline` final def union(that: Set[A]): C = concat(that)
/** Alias for `union` */
@`inline` final def | (that: Set[A]): C = concat(that)
}
/**
* $factoryInfo
* @define coll set
* @define Coll `Set`
*/
@SerialVersionUID(3L)
object Set extends IterableFactory.Delegate[Set](immutable.Set)
/** Explicit instantiation of the `Set` trait to reduce class file size in subclasses. */
abstract class AbstractSet[A] extends AbstractIterable[A] with Set[A]