akka.util.Index.scala Maven / Gradle / Ivy
/*
* Copyright (C) 2009-2019 Lightbend Inc.
*/
package akka.util
import annotation.tailrec
import java.util.concurrent.{ ConcurrentHashMap, ConcurrentSkipListSet }
import java.util.Comparator
import scala.collection.JavaConverters.collectionAsScalaIterableConverter
import akka.util.ccompat.JavaConverters._
import com.github.ghik.silencer.silent
/**
* An implementation of a ConcurrentMultiMap
* Adds/remove is serialized over the specified key
* Reads are fully concurrent <-- el-cheapo
*/
class Index[K, V](val mapSize: Int, val valueComparator: Comparator[V]) {
def this(mapSize: Int, cmp: (V, V) => Int) =
this(mapSize, new Comparator[V] {
def compare(a: V, b: V): Int = cmp(a, b)
})
private val container = new ConcurrentHashMap[K, ConcurrentSkipListSet[V]](mapSize)
private val emptySet = new ConcurrentSkipListSet[V]
/**
* Associates the value of type V with the key of type K
* @return true if the value didn't exist for the key previously, and false otherwise
*/
def put(key: K, value: V): Boolean = {
//Tailrecursive spin-locking put
@tailrec
def spinPut(k: K, v: V): Boolean = {
var retry = false
var added = false
val set = container.get(k)
if (set ne null) {
set.synchronized {
if (set.isEmpty) retry = true //IF the set is empty then it has been removed, so signal retry
else { //Else add the value to the set and signal that retry is not needed
added = set.add(v)
retry = false
}
}
} else {
val newSet = new ConcurrentSkipListSet[V](valueComparator)
newSet.add(v)
// Parry for two simultaneous putIfAbsent(id,newSet)
val oldSet = container.putIfAbsent(k, newSet)
if (oldSet ne null) {
oldSet.synchronized {
if (oldSet.isEmpty) retry = true //IF the set is empty then it has been removed, so signal retry
else { //Else try to add the value to the set and signal that retry is not needed
added = oldSet.add(v)
retry = false
}
}
} else added = true
}
if (retry) spinPut(k, v)
else added
}
spinPut(key, value)
}
/**
* @return Some(value) for the first matching value where the supplied function returns true for the given key,
* if no matches it returns None
*/
def findValue(key: K)(f: (V) => Boolean): Option[V] =
container.get(key) match {
case null => None
case set => set.iterator.asScala.find(f)
}
/**
* Returns an Iterator of V containing the values for the supplied key, or an empty iterator if the key doesn't exist
*/
def valueIterator(key: K): scala.Iterator[V] = {
container.get(key) match {
case null => Iterator.empty
case some => some.iterator.asScala
}
}
/**
* Applies the supplied function to all keys and their values
*/
def foreach(fun: (K, V) => Unit): Unit =
container.entrySet.iterator.asScala.foreach { e =>
e.getValue.iterator.asScala.foreach(fun(e.getKey, _))
}
/**
* Returns the union of all value sets.
*/
def values: Set[V] = {
val builder = Set.newBuilder[V]
for {
values <- container.values.iterator.asScala
v <- values.iterator.asScala
} builder += v
builder.result()
}
/**
* Returns the key set.
*/
def keys: Iterable[K] = container.keySet.asScala
/**
* Disassociates the value of type V from the key of type K
* @return true if the value was disassociated from the key and false if it wasn't previously associated with the key
*/
def remove(key: K, value: V): Boolean = {
val set = container.get(key)
if (set ne null) {
set.synchronized {
if (set.remove(value)) { //If we can remove the value
if (set.isEmpty) //and the set becomes empty
container.remove(key, emptySet) //We try to remove the key if it's mapped to an empty set
true //Remove succeeded
} else false //Remove failed
}
} else false //Remove failed
}
/**
* Disassociates all the values for the specified key
* @return None if the key wasn't associated at all, or Some(scala.Iterable[V]) if it was associated
*/
def remove(key: K): Option[Iterable[V]] = {
val set = container.get(key)
if (set ne null) {
set.synchronized {
container.remove(key, set)
@silent("deprecated")
val ret = collectionAsScalaIterableConverter(set.clone()).asScala // Make copy since we need to clear the original
set.clear() // Clear the original set to signal to any pending writers that there was a conflict
Some(ret)
}
} else None //Remove failed
}
/**
* Removes the specified value from all keys
*/
def removeValue(value: V): Unit = {
val i = container.entrySet().iterator()
while (i.hasNext) {
val e = i.next()
val set = e.getValue()
if (set ne null) {
set.synchronized {
if (set.remove(value)) { //If we can remove the value
if (set.isEmpty) //and the set becomes empty
container.remove(e.getKey, emptySet) //We try to remove the key if it's mapped to an empty set
}
}
}
}
}
/**
* @return true if the underlying containers is empty, may report false negatives when the last remove is underway
*/
def isEmpty: Boolean = container.isEmpty
/**
* Removes all keys and all values
*/
def clear(): Unit = {
val i = container.entrySet().iterator()
while (i.hasNext) {
val e = i.next()
val set = e.getValue()
if (set ne null) {
set.synchronized { set.clear(); container.remove(e.getKey, emptySet) }
}
}
}
}
/**
* An implementation of a ConcurrentMultiMap
* Adds/remove is serialized over the specified key
* Reads are fully concurrent <-- el-cheapo
*/
class ConcurrentMultiMap[K, V](mapSize: Int, valueComparator: Comparator[V])
extends Index[K, V](mapSize, valueComparator)
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