iri*_*ava 6 scala circular-buffer reentrantreadwritelock
在这里搞乱,用循环缓冲区.这是一个明智的实施还是有更快/更可靠的方式来剥皮这只猫?
class CircularBuffer[T](size: Int)(implicit mf: Manifest[T]) {
private val arr = new scala.collection.mutable.ArrayBuffer[T]()
private var cursor = 0
val monitor = new ReentrantReadWriteLock()
def push(value: T) {
monitor.writeLock().lock()
try {
arr(cursor) = value
cursor += 1
cursor %= size
} finally {
monitor.writeLock().unlock()
}
}
def getAll: Array[T] = {
monitor.readLock().lock()
try {
val copy = new Array[T](size)
arr.copyToArray(copy)
copy
} finally {
monitor.readLock().unlock()
}
}
}
创建
对现有 scala 集合类和 appender 函数的类型声明比“滚动你自己的”更容易实现。如评论中所述,此实现可能不如“真正”循环缓冲区的性能好,但它只需很少的编码即可完成工作:
import scala.collection.immutable
type CircularBuffer[T] = immutable.Vector[T]
def emptyCircularBuffer[T] : CircularBuffer[T] = immutable.Vector.empty[T]
def addToCircularBuffer[T](maxSize : Int)(buffer : CircularBuffer[T], item : T) : CircularBuffer[T] =
(buffer :+ item) takeRight maxSize
这意味着您的“CircularBuffer”实际上是一个 Vector,您现在可以免费获得所有相应的 Vector 方法(filter、map、flatMap 等...):
var intCircularBuffer = emptyCircularBuffer[Int]
//Vector(41)
intCircularBuffer = addToCircularBuffer(2)(intCircularBuffer, 41)
//Vector(41, 42)
intCircularBuffer = addToCircularBuffer(2)(intCircularBuffer, 42)
//Vector(42, 43)
intCircularBuffer = addToCircularBuffer(2)(intCircularBuffer, 43)
//Vector(42)
val evens : CircularBuffer[Int] = intCircularBuffer filter ( _ % 2 == 0)
索引
您可以类似地添加一个用于循环索引的函数:
def circularIndex[T](buffer : CircularBuffer[T])(index : Int) : T =
buffer(index % buffer.size)
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