Kotlin中没有 synchronized 关键字
Kotlin中没有 volatile 关键字
Kotlin的Any类似于 Java 的 Object , 没有 wait() , notify() 和 notifyAll() 方法
1, 创建线程
// 方法一
object : Thread() {
override fun run() {
println("running from Thread: ${Thread.currentThread()}")
}
}.start()
// 方法二
Thread({
println("running from lambda: ${Thread.currentThread()}")
}).start()
kotlin thread 定义
public fun thread(
start: Boolean = true,
isDaemon: Boolean = false,
contextClassLoader: ClassLoader? = null,
name: String? = null,
priority: Int = -1,
block: () -> Unit
): Thread {
val thread = object : Thread() {
public override fun run() {
block()
}
}
if (isDaemon)
thread.isDaemon = true
if (priority > 0)
thread.priority = priority
if (name != null)
thread.name = name
if (contextClassLoader != null)
thread.contextClassLoader = contextClassLoader
if (start)
thread.start()
return thread
}
2, 同步方法和语句块
// 这里 类似于 Java 的 synchroize 关键字,只是这里替换为了注释的方式
@Synchronized fun synchronizedMethod() {
println("inside a synchronized method: ${Thread.currentThread()}")
}
// 语句块与java 的用法类似,但原理是不一样的
fun methodWithSynchronizedBlock() {
println("outside of a synchronized block: ${Thread.currentThread()}")
synchronized(this) {
println("inside a synchronized block: ${Thread.currentThread()}")
}
}
// synchronized 定义
@kotlin.internal.InlineOnly
public actual inline fun <R> synchronized(lock: Any, block: () -> R): R {
contract {
callsInPlace(block, InvocationKind.EXACTLY_ONCE)
}
@Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE", "INVISIBLE_MEMBER")
monitorEnter(lock)
try {
return block()
}
finally {
@Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE", "INVISIBLE_MEMBER")
monitorExit(lock)
}
}
3,volatile 用法
@Volatile private var running = false
fun start() {
running = true
thread(start = true) {
while(running) {
println("Still running:${Thread.currentThread()}")
}
}
}
fun stop() {
running = false
println("Stopped:${Thread.currentThread()}")
}
定义
@Target(FIELD)
@Retention(AnnotationRetention.SOURCE)
@MustBeDocumented
public actual annotation class Volatile
/**
* Marks the JVM backing field of the annotated property as `transient`, meaning that it is not
* part of the default serialized form of the object.
*/
@Target(FIELD)
@Retention(AnnotationRetention.SOURCE)
@MustBeDocumented
public actual annotation class Transient
/**
* Marks the JVM method generated from the annotated function as `strictfp`, meaning that the precision
* of floating point operations performed inside the method needs to be restricted in order to
* achieve better portability.
*/
@Target(FUNCTION, CONSTRUCTOR, PROPERTY_GETTER, PROPERTY_SETTER, CLASS)
@Retention(AnnotationRetention.SOURCE)
@MustBeDocumented
public actual annotation class Strictfp
/**
* Marks the JVM method generated from the annotated function as `synchronized`, meaning that the method
* will be protected from concurrent execution by multiple threads by the monitor of the instance (or,
* for static methods, the class) on which the method is defined.
*/
@Target(FUNCTION, PROPERTY_GETTER, PROPERTY_SETTER)
@Retention(AnnotationRetention.SOURCE)
@MustBeDocumented
public actual annotation class Synchronized
4,wait,notify 与 notifyAll
private val lock = java.lang.Object()
fun produce() = synchronized(lock) {
while (items >= maxItems) {
lock.wait()
}
Thread.sleep(rand.nextInt(100).toLong())
items++
println("Produced, count is $items: ${Thread.currentThread()}")
lock.notifyAll()
}
fun consume() = synchronized(lock) {
while (items <= 0) {
lock.wait()
}
Thread.sleep(rand.nextInt(100).toLong())
items--
println("Consumed, count is $items: ${Thread.currentThread()}")
lock.notifyAll()
}
这里其实用的是黑科技,直接用的 java 的实现
更多并发的实现方式
