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add ThreadPool / Scheduler code

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alex
2025-03-28 22:59:25 +08:00
commit e05d1d1ba8
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.gitignore vendored Executable file
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.idea
.gradle
bin
build

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README.md Normal file
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## 基础架构服务实现 DEMO
### 线程池实现
1. ThreadSea
Deepseek 生成版本, 参考了 JDK 的实现, 但是没有完全实现, 只是实现了核心功能: 核心/非核心线程调度, 任务队列, 线程池状态管理, 线程池关闭, 线程池监控等.
2. ThreadGrok
Grok 版本, 在 Deepseek 基础上再次精简, 只保留了核心/非核心线程调度功能, 去掉了线程池状态管理, 线程池关闭, 线程池监控等.
3. ThreadLake
自己实现的版本, 同样只保留了核心/非核心线程调度功能
### 调度器实现
1. SeqenceScheduler
调度任务, 使用线程池并行顺序化执行任务
2. CombineScheduler
调度任务, 使用线程池合并同时间的任务一起执行

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build.gradle Executable file
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buildscript {
ext {
kotlin_version = '1.8.0'
}
repositories {
mavenLocal()
maven { url 'https://maven.aliyun.com/repository/gradle-plugin' }
maven { url 'https://maven.aliyun.com/repository/central' }
maven { url 'https://maven.aliyun.com/repository/public' }
mavenCentral()
}
dependencies {
classpath "org.jetbrains.kotlin:kotlin-gradle-plugin:$kotlin_version"
}
}
apply plugin: 'idea'
apply plugin: 'java'
apply plugin: 'kotlin'
ext {
spring_version = "2.6.8"
}
group = 'pangu'
version = '0.1.0'
repositories {
mavenLocal()
maven { url 'https://maven.aliyun.com/repository/gradle-plugin' }
maven { url 'https://maven.aliyun.com/repository/central' }
maven { url 'https://maven.aliyun.com/repository/public' }
mavenCentral()
}
dependencies {
implementation "org.jetbrains.kotlin:kotlin-stdlib-jdk8:$kotlin_version"
implementation "org.jetbrains.kotlin:kotlin-reflect:$kotlin_version"
testImplementation group: 'junit', name: 'junit', version: '4.12'
}

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gradle.properties Executable file
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kotlin.code.style=official

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gradle/wrapper/gradle-wrapper.jar vendored Executable file
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gradle/wrapper/gradle-wrapper.properties vendored Executable file
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#Tue May 21 20:15:48 CST 2024
distributionBase=GRADLE_USER_HOME
distributionPath=wrapper/dists
distributionUrl=https\://services.gradle.org/distributions/gradle-7.4.2-bin.zip
zipStoreBase=GRADLE_USER_HOME
zipStorePath=wrapper/dists

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gradlew vendored Executable file
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#!/bin/sh
#
# Copyright © 2015-2021 the original authors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
##############################################################################
#
# Gradle start up script for POSIX generated by Gradle.
#
# Important for running:
#
# (1) You need a POSIX-compliant shell to run this script. If your /bin/sh is
# noncompliant, but you have some other compliant shell such as ksh or
# bash, then to run this script, type that shell name before the whole
# command line, like:
#
# ksh Gradle
#
# Busybox and similar reduced shells will NOT work, because this script
# requires all of these POSIX shell features:
# * functions;
# * expansions «$var», «${var}», «${var:-default}», «${var+SET}»,
# «${var#prefix}», «${var%suffix}», and «$( cmd )»;
# * compound commands having a testable exit status, especially «case»;
# * various built-in commands including «command», «set», and «ulimit».
#
# Important for patching:
#
# (2) This script targets any POSIX shell, so it avoids extensions provided
# by Bash, Ksh, etc; in particular arrays are avoided.
#
# The "traditional" practice of packing multiple parameters into a
# space-separated string is a well documented source of bugs and security
# problems, so this is (mostly) avoided, by progressively accumulating
# options in "$@", and eventually passing that to Java.
#
# Where the inherited environment variables (DEFAULT_JVM_OPTS, JAVA_OPTS,
# and GRADLE_OPTS) rely on word-splitting, this is performed explicitly;
# see the in-line comments for details.
#
# There are tweaks for specific operating systems such as AIX, CygWin,
# Darwin, MinGW, and NonStop.
#
# (3) This script is generated from the Groovy template
# https://github.com/gradle/gradle/blob/master/subprojects/plugins/src/main/resources/org/gradle/api/internal/plugins/unixStartScript.txt
# within the Gradle project.
#
# You can find Gradle at https://github.com/gradle/gradle/.
#
##############################################################################
# Attempt to set APP_HOME
# Resolve links: $0 may be a link
app_path=$0
# Need this for daisy-chained symlinks.
while
APP_HOME=${app_path%"${app_path##*/}"} # leaves a trailing /; empty if no leading path
[ -h "$app_path" ]
do
ls=$( ls -ld "$app_path" )
link=${ls#*' -> '}
case $link in #(
/*) app_path=$link ;; #(
*) app_path=$APP_HOME$link ;;
esac
done
APP_HOME=$( cd "${APP_HOME:-./}" && pwd -P ) || exit
APP_NAME="Gradle"
APP_BASE_NAME=${0##*/}
# Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
DEFAULT_JVM_OPTS='"-Xmx64m" "-Xms64m"'
# Use the maximum available, or set MAX_FD != -1 to use that value.
MAX_FD=maximum
warn () {
echo "$*"
} >&2
die () {
echo
echo "$*"
echo
exit 1
} >&2
# OS specific support (must be 'true' or 'false').
cygwin=false
msys=false
darwin=false
nonstop=false
case "$( uname )" in #(
CYGWIN* ) cygwin=true ;; #(
Darwin* ) darwin=true ;; #(
MSYS* | MINGW* ) msys=true ;; #(
NONSTOP* ) nonstop=true ;;
esac
CLASSPATH=$APP_HOME/gradle/wrapper/gradle-wrapper.jar
# Determine the Java command to use to start the JVM.
if [ -n "$JAVA_HOME" ] ; then
if [ -x "$JAVA_HOME/jre/sh/java" ] ; then
# IBM's JDK on AIX uses strange locations for the executables
JAVACMD=$JAVA_HOME/jre/sh/java
else
JAVACMD=$JAVA_HOME/bin/java
fi
if [ ! -x "$JAVACMD" ] ; then
die "ERROR: JAVA_HOME is set to an invalid directory: $JAVA_HOME
Please set the JAVA_HOME variable in your environment to match the
location of your Java installation."
fi
else
JAVACMD=java
which java >/dev/null 2>&1 || die "ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
Please set the JAVA_HOME variable in your environment to match the
location of your Java installation."
fi
# Increase the maximum file descriptors if we can.
if ! "$cygwin" && ! "$darwin" && ! "$nonstop" ; then
case $MAX_FD in #(
max*)
MAX_FD=$( ulimit -H -n ) ||
warn "Could not query maximum file descriptor limit"
esac
case $MAX_FD in #(
'' | soft) :;; #(
*)
ulimit -n "$MAX_FD" ||
warn "Could not set maximum file descriptor limit to $MAX_FD"
esac
fi
# Collect all arguments for the java command, stacking in reverse order:
# * args from the command line
# * the main class name
# * -classpath
# * -D...appname settings
# * --module-path (only if needed)
# * DEFAULT_JVM_OPTS, JAVA_OPTS, and GRADLE_OPTS environment variables.
# For Cygwin or MSYS, switch paths to Windows format before running java
if "$cygwin" || "$msys" ; then
APP_HOME=$( cygpath --path --mixed "$APP_HOME" )
CLASSPATH=$( cygpath --path --mixed "$CLASSPATH" )
JAVACMD=$( cygpath --unix "$JAVACMD" )
# Now convert the arguments - kludge to limit ourselves to /bin/sh
for arg do
if
case $arg in #(
-*) false ;; # don't mess with options #(
/?*) t=${arg#/} t=/${t%%/*} # looks like a POSIX filepath
[ -e "$t" ] ;; #(
*) false ;;
esac
then
arg=$( cygpath --path --ignore --mixed "$arg" )
fi
# Roll the args list around exactly as many times as the number of
# args, so each arg winds up back in the position where it started, but
# possibly modified.
#
# NB: a `for` loop captures its iteration list before it begins, so
# changing the positional parameters here affects neither the number of
# iterations, nor the values presented in `arg`.
shift # remove old arg
set -- "$@" "$arg" # push replacement arg
done
fi
# Collect all arguments for the java command;
# * $DEFAULT_JVM_OPTS, $JAVA_OPTS, and $GRADLE_OPTS can contain fragments of
# shell script including quotes and variable substitutions, so put them in
# double quotes to make sure that they get re-expanded; and
# * put everything else in single quotes, so that it's not re-expanded.
set -- \
"-Dorg.gradle.appname=$APP_BASE_NAME" \
-classpath "$CLASSPATH" \
org.gradle.wrapper.GradleWrapperMain \
"$@"
# Use "xargs" to parse quoted args.
#
# With -n1 it outputs one arg per line, with the quotes and backslashes removed.
#
# In Bash we could simply go:
#
# readarray ARGS < <( xargs -n1 <<<"$var" ) &&
# set -- "${ARGS[@]}" "$@"
#
# but POSIX shell has neither arrays nor command substitution, so instead we
# post-process each arg (as a line of input to sed) to backslash-escape any
# character that might be a shell metacharacter, then use eval to reverse
# that process (while maintaining the separation between arguments), and wrap
# the whole thing up as a single "set" statement.
#
# This will of course break if any of these variables contains a newline or
# an unmatched quote.
#
eval "set -- $(
printf '%s\n' "$DEFAULT_JVM_OPTS $JAVA_OPTS $GRADLE_OPTS" |
xargs -n1 |
sed ' s~[^-[:alnum:]+,./:=@_]~\\&~g; ' |
tr '\n' ' '
)" '"$@"'
exec "$JAVACMD" "$@"

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gradlew.bat vendored Executable file
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@rem
@rem Copyright 2015 the original author or authors.
@rem
@rem Licensed under the Apache License, Version 2.0 (the "License");
@rem you may not use this file except in compliance with the License.
@rem You may obtain a copy of the License at
@rem
@rem https://www.apache.org/licenses/LICENSE-2.0
@rem
@rem Unless required by applicable law or agreed to in writing, software
@rem distributed under the License is distributed on an "AS IS" BASIS,
@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
@rem See the License for the specific language governing permissions and
@rem limitations under the License.
@rem
@if "%DEBUG%" == "" @echo off
@rem ##########################################################################
@rem
@rem Gradle startup script for Windows
@rem
@rem ##########################################################################
@rem Set local scope for the variables with windows NT shell
if "%OS%"=="Windows_NT" setlocal
set DIRNAME=%~dp0
if "%DIRNAME%" == "" set DIRNAME=.
set APP_BASE_NAME=%~n0
set APP_HOME=%DIRNAME%
@rem Resolve any "." and ".." in APP_HOME to make it shorter.
for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi
@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m"
@rem Find java.exe
if defined JAVA_HOME goto findJavaFromJavaHome
set JAVA_EXE=java.exe
%JAVA_EXE% -version >NUL 2>&1
if "%ERRORLEVEL%" == "0" goto execute
echo.
echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
echo.
echo Please set the JAVA_HOME variable in your environment to match the
echo location of your Java installation.
goto fail
:findJavaFromJavaHome
set JAVA_HOME=%JAVA_HOME:"=%
set JAVA_EXE=%JAVA_HOME%/bin/java.exe
if exist "%JAVA_EXE%" goto execute
echo.
echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME%
echo.
echo Please set the JAVA_HOME variable in your environment to match the
echo location of your Java installation.
goto fail
:execute
@rem Setup the command line
set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar
@rem Execute Gradle
"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %*
:end
@rem End local scope for the variables with windows NT shell
if "%ERRORLEVEL%"=="0" goto mainEnd
:fail
rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of
rem the _cmd.exe /c_ return code!
if not "" == "%GRADLE_EXIT_CONSOLE%" exit 1
exit /b 1
:mainEnd
if "%OS%"=="Windows_NT" endlocal
:omega

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settings.gradle Executable file
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rootProject.name = 'InfrastructureDemo'

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src/main/kotlin/com/pangu/core/scheduler/CombineScheduler.kt Normal file
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package com.pangu.core.scheduler
import java.util.*
import java.util.concurrent.*
class CombineScheduler(private val combineJob: ICombineJob) {
private val triggers = PriorityBlockingQueue<Trigger>()
private val triggerJob = ConcurrentHashMap<Trigger, IJob>()
private val executor = ThreadPoolExecutor(6, 12, 60, TimeUnit.SECONDS, LinkedBlockingQueue())
private val jobPool = mutableSetOf<IJob>()
fun addJob(trigger: Trigger, job: IJob) {
triggers.add(trigger)
triggerJob[trigger] = job
}
fun execute() {
while (true) {
var trigger: Trigger = triggers.peek() ?: return
var span = trigger.nextExecuteTime - Date().time
while (span <= 0) {
trigger = triggers.take()
trigger.execute()
triggers.add(trigger)
jobPool.add(triggerJob[trigger]!!)
trigger = triggers.peek()
span = trigger.nextExecuteTime - Date().time
}
if (jobPool.isNotEmpty()) {
executor.execute(combineJob.combine(*jobPool.toTypedArray()))
jobPool.clear()
}
Thread.sleep(span)
}
}
}

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src/main/kotlin/com/pangu/core/scheduler/ICombineJob.kt Normal file
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package com.pangu.core.scheduler
fun interface ICombineJob {
fun combine(vararg jobs: IJob): Runnable
}

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src/main/kotlin/com/pangu/core/scheduler/IJob.kt Normal file
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package com.pangu.core.scheduler
fun interface IJob : Runnable {
}

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src/main/kotlin/com/pangu/core/scheduler/SequenceScheduler.kt Normal file
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package com.pangu.core.scheduler
import java.util.*
import java.util.concurrent.*
class SequenceScheduler {
private val triggers = PriorityBlockingQueue<Trigger>()
private val triggerJob = ConcurrentHashMap<Trigger, IJob>()
private val executor = ThreadPoolExecutor(6, 12, 60, TimeUnit.SECONDS, LinkedBlockingQueue())
fun addJob(trigger: Trigger, job: IJob) {
triggers.add(trigger)
triggerJob[trigger] = job
}
fun execute() {
while (true) {
var trigger: Trigger = triggers.peek() ?: return
var span = trigger.nextExecuteTime - Date().time
while (span <= 0) {
trigger = triggers.take()
trigger.execute()
triggers.add(trigger)
executor.execute(triggerJob[trigger]!!)
trigger = triggers.peek()
span = trigger.nextExecuteTime - Date().time
}
Thread.sleep(span)
}
}
}

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src/main/kotlin/com/pangu/core/scheduler/Trigger.kt Normal file
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package com.pangu.core.scheduler
import java.util.*
class Trigger(
var interval: Long = 0,
var startTime: Long = Date().time,
var endTime: Long = 0,
) : Comparable<Trigger> {
private var nextTime = startTime
init {
val now = System.currentTimeMillis()
while (now > nextTime) {
nextTime += interval
}
}
val nextExecuteTime: Long
get() = nextTime
fun execute(): Boolean {
nextTime += interval
return endTime == 0L || nextTime <= endTime
}
override fun compareTo(other: Trigger): Int {
// println("this interval $interval, nextExecuteTime $nextExecuteTime; other interval ${other.interval}, nextExecuteTime ${other.nextExecuteTime}")
return if (this.nextExecuteTime > other.nextExecuteTime) 1 else -1
}
}

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src/main/kotlin/com/pangu/core/threads/ThreadGrok.kt Normal file
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package com.pangu.core.threads
import java.util.*
import java.util.concurrent.BlockingQueue
import java.util.concurrent.LinkedBlockingQueue
import java.util.concurrent.RejectedExecutionException
import java.util.concurrent.TimeUnit
import java.util.concurrent.atomic.AtomicInteger
import java.util.concurrent.atomic.AtomicLong
/**
* 自定义线程池实现类类似于Java中的ThreadPoolExecutor
*
* @param corePoolSize 核心线程数,即使空闲也会保留的线程数量
* @param maxPoolSize 最大线程数,线程池允许创建的最大线程数量
* @param keepAliveTime 非核心线程空闲时的存活时间
* @param timeUnit 存活时间的时间单位
* @param taskQueue 用于存放待执行任务的工作队列
*/
class ThreadGrok(
private val corePoolSize: Int = 1,
private val maxPoolSize: Int = 1,
private val keepAliveTime: Long = 1000L,
private val timeUnit: TimeUnit = TimeUnit.MILLISECONDS,
private val taskQueue: BlockingQueue<Runnable> = LinkedBlockingQueue()
) {
// 当前工作线程数的原子计数器
private val workerCount = AtomicInteger(0)
// 工作线程集合,使用同步包装保证线程安全
private val workers = Collections.synchronizedSet(HashSet<Worker>())
// 总的完成任务数量
private var supportCompletedTaskCount = AtomicLong(0)
// 是否允许核心线程超时退出volatile保证可见性
@Volatile
var allowCoreThreadTimeOut = false
val poolSize: Int get() = workerCount.get()
val completedTaskCount: Long get() = (workers.sumOf { it.completedTasks } + supportCompletedTaskCount.get())
val taskCount: Int get() = taskQueue.size
// 初始化时进行参数校验
init {
if (corePoolSize < 0 || maxPoolSize <= 0 || maxPoolSize < corePoolSize || keepAliveTime < 0) {
throw IllegalArgumentException("Invalid configuration for ThreadOcean")
}
}
/**
* 执行任务的方法
* @param task 要执行的任务
*/
fun execute(task: Runnable) {
val wc = workerCount.get()
// 1. 如果当前线程数小于核心线程数,直接创建新线程(核心线程)
if (wc < corePoolSize) {
addWorker(task, true)
return
}
// 2. 尝试将任务加入工作队列
if (taskQueue.offer(task)) {
// 任务加入队列成功,检查是否需要创建一个空任务的线程来处理队列
// 修复不再将同一个任务传给新线程而是传null作为首任务
addWorker(null, false)
return
}
// 3. 如果队列已满且线程数小于最大线程数,创建新线程(非核心线程)
if (wc < maxPoolSize) {
addWorker(task, false)
return
}
// 4. 如果队列已满且线程数已达最大值,可以抛出拒绝异常(这里被注释掉了)
throw RejectedExecutionException("Task rejected from ThreadGrok")
}
/**
* 添加工作线程
* @param firstTask 新线程首先执行的任务可以为null
* @param core 是否为核心线程
*/
private fun addWorker(firstTask: Runnable?, core: Boolean) {
val wc = workerCount.get()
val limit = if (core) corePoolSize else maxPoolSize
// 检查是否超过限制
if (wc >= limit) {
return
}
// 使用CAS增加工作线程计数
if (!workerCount.compareAndSet(wc, wc + 1)) {
return
}
var worker: Worker? = null
var workerStarted = false
try {
// 创建新工作线程
worker = Worker(firstTask)
workers.add(worker)
worker.start()
workerStarted = true
} finally {
// 如果线程启动失败,进行清理
if (!workerStarted) {
workers.remove(worker)
workerCount.decrementAndGet()
}
}
}
/**
* 从队列中获取任务
* @return 获取到的任务如果返回null表示工作线程应该退出
*/
private fun getTask(): Runnable? {
/**
* *** 设计原因 ***
* 1. 综合决策机制:线程是否应该退出不仅取决于超时,还需要考虑:
* - 当前线程数是否超过最大值
* - 是否至少保留一个线程处理队列中的任务
* - 任务队列是否为空
* 2. 保证服务质量:即使某个线程获取任务超时,也不会立即退出,而是在下一次循环中综合评估。这样可以避免在临时任务少的情况下过早释放线程。
* 3. 智能化线程管理:通过(wc > 1 || taskQueue.isEmpty())条件,确保当队列有任务时至少保留一个线程可用,防止所有线程都因超时而退出。
*
* *** 实际应用场景 ***
* 当线程池处于低负载状态时:
* - 如果允许核心线程超时那么核心线程在keepAliveTime时间内没有新任务会尝试退出
* - 但不会让所有线程都退出(特别是当队列中还有任务时)
* - 这种机制确保了线程池既能在低负载时释放资源,又能在任务到来时及时响应
* 这种设计比简单地"超时即退出"更复杂,但能更好地平衡资源利用和服务响应能力。
*/
var timedOut = false // 上次poll是否超时
while (true) {
val wc = workerCount.get()
// 判断是否需要进行超时控制
val timed = allowCoreThreadTimeOut || wc > corePoolSize
// 检查线程是否需要回收:
// 1. 线程数超过最大值 或 (允许超时且已超时)
// 2. 线程数大于1 或 工作队列为空
if ((wc > maxPoolSize || (timed && timedOut)) && (wc > 1 || taskQueue.isEmpty())) {
// 使用CAS减少工作线程计数
if (workerCount.compareAndSet(wc, wc - 1)) {
return null // 返回null表示工作线程应该退出
}
continue
}
try {
// 根据是否允许超时选择不同的获取任务方式
val r = if (timed) {
// 带超时的poll
taskQueue.poll(keepAliveTime, timeUnit)
} else {
// 不带超时的take
taskQueue.take()
}
if (r != null) return r
timedOut = true // 获取任务超时
} catch (e: InterruptedException) {
timedOut = false
}
}
}
/**
* 工作线程内部类,封装了实际执行任务的线程
*/
private inner class Worker(var firstTask: Runnable?) : Runnable {
@Volatile
var completedTasks: Long = 0 // 已完成任务计数
// 实际执行任务的线程
val thread: Thread = Thread(this)
// 启动工作线程
fun start() = thread.start()
override fun run() {
var task = firstTask
firstTask = null
var completedAbruptly = true // 标记是否异常完成
try {
// 循环获取并执行任务
while (task != null || (getTask().also { task = it }) != null) {
try {
task?.run() // 执行任务
completedTasks++
} catch (_: Exception) {
// 捕获任务执行过程中的异常,防止影响线程
} finally {
task = null // 清理任务引用
}
}
completedAbruptly = false // 正常退出循环
} finally {
// 清理工作
if (completedAbruptly) {
workerCount.decrementAndGet()
}
// 累加完成的任务数量到总的完成任务数量
supportCompletedTaskCount.addAndGet(completedTasks)
workers.remove(this)
}
}
}
}

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src/main/kotlin/com/pangu/core/threads/ThreadLake.kt Normal file
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package com.pangu.core.threads
import java.util.*
import java.util.concurrent.BlockingQueue
import java.util.concurrent.LinkedBlockingQueue
import java.util.concurrent.RejectedExecutionException
import java.util.concurrent.TimeUnit
import java.util.concurrent.atomic.AtomicInteger
import java.util.concurrent.atomic.AtomicLong
/**
* 自定义线程池实现类,支持核心线程、最大线程和任务队列配置
*
* @param corePoolSize 核心线程数,即使空闲也会保留的线程数量
* @param maxPoolSize 最大线程数,线程池允许创建的最大线程数量
* @param keepAliveTime 非核心线程空闲时的存活时间单位由timeUnit指定
* @param timeUnit 存活时间的时间单位
* @param taskQueue 用于存放待执行任务的工作队列
*/
class ThreadLake(
private val corePoolSize: Int = 1,
private val maxPoolSize: Int = 1,
private val keepAliveTime: Long = 1000L,
private val timeUnit: TimeUnit = TimeUnit.MILLISECONDS,
private val taskQueue: BlockingQueue<Runnable> = LinkedBlockingQueue()
) {
// 当前工作线程数的原子计数器
private val workerCount = AtomicInteger(0)
// 工作线程集合,使用同步包装保证线程安全
private val workers = Collections.synchronizedSet(HashSet<Worker>())
// 已完成任务总数的计数器(用于已终止线程的任务统计)
private var supportCompletedTaskCount = AtomicLong(0)
/**
* 获取已完成任务总数(包含当前活跃线程和已终止线程完成的任务)
*/
val completedTaskCount: Long get() = (workers.sumOf { it.completedTasks } + supportCompletedTaskCount.get())
// 是否允许核心线程超时退出volatile保证可见性
@Volatile
var allowCoreThreadTimeOut = false
// 初始化时进行参数校验
init {
if (corePoolSize < 0 || maxPoolSize <= 0 || maxPoolSize < corePoolSize || keepAliveTime < 0) {
throw IllegalArgumentException("Invalid configuration for ThreadOcean")
}
}
/**
* 执行任务的方法
* @param task 要执行的任务
* @throws RejectedExecutionException 当线程池已满且队列已满时抛出
*/
fun execute(task: Runnable) {
val wc = workerCount.get()
// 1. 如果当前线程数小于核心线程数,直接创建新线程(核心线程)
if (wc < corePoolSize) {
addWorker(task, true)
return
}
// 2. 尝试将任务加入工作队列
if (taskQueue.offer(task)) {
// 如果队列中有空闲线程,任务会被自动处理
return
}
// 3. 如果队列已满且线程数小于最大线程数,创建新线程(非核心线程)
if (wc < maxPoolSize) {
addWorker(task, false)
return
}
// 4. 如果队列已满且线程数已达最大值,抛出拒绝异常
// throw RejectedExecutionException("Task rejected from ThreadLake")
}
/**
* 添加工作线程
* @param task 新线程首先执行的任务
* @param isCore 是否为核心线程
*/
private fun addWorker(task: Runnable, isCore: Boolean) {
val wc = workerCount.get()
val limit = if (isCore) corePoolSize else maxPoolSize
// 检查是否超过限制
if (wc >= limit) {
return
}
// 使用CAS增加工作线程计数
if (!workerCount.compareAndSet(wc, wc + 1)) {
return
}
// 创建并启动工作线程
val worker = Worker(task)
workers.add(worker)
worker.start()
}
/**
* 从队列中获取任务
* @return 获取到的任务如果返回null表示工作线程应该退出
*/
private fun getTask(): Runnable? {
/**
* *** 设计原因 ***
* 1. 综合决策机制:线程是否应该退出不仅取决于超时,还需要考虑:
* - 当前线程数是否超过最大值
* - 是否至少保留一个线程处理队列中的任务
* - 任务队列是否为空
* 2. 保证服务质量:即使某个线程获取任务超时,也不会立即退出,而是在下一次循环中综合评估。这样可以避免在临时任务少的情况下过早释放线程。
* 3. 智能化线程管理:通过(wc > 1 || taskQueue.isEmpty())条件,确保当队列有任务时至少保留一个线程可用,防止所有线程都因超时而退出。
*
* *** 实际应用场景 ***
* 当线程池处于低负载状态时:
* - 如果允许核心线程超时那么核心线程在keepAliveTime时间内没有新任务会尝试退出
* - 但不会让所有线程都退出(特别是当队列中还有任务时)
* - 这种机制确保了线程池既能在低负载时释放资源,又能在任务到来时及时响应
* 这种设计比简单地"超时即退出"更复杂,但能更好地平衡资源利用和服务响应能力。
*/
var timedOut = false // 上次poll是否超时
while (true) {
val wc = workerCount.get()
// 判断是否需要进行超时控制
val timed = allowCoreThreadTimeOut || wc > corePoolSize
// 检查线程是否需要回收:
// 1. 线程数超过最大值 或 (允许超时且已超时)
// 2. 线程数大于1 或 工作队列为空
if ((wc > maxPoolSize || (timed && timedOut)) && (wc > corePoolSize || taskQueue.isEmpty())) {
return null // 返回null表示工作线程应该退出
}
try {
// 根据是否允许超时选择不同的获取任务方式
val r = if (timed) {
// 带超时的poll
taskQueue.poll(keepAliveTime, timeUnit)
} else {
// 不带超时的take核心线程默认使用
taskQueue.take()
}
if (r != null) return r
timedOut = true // 获取任务超时
} catch (e: InterruptedException) {
timedOut = false
}
}
}
/**
* 工作线程内部类,封装了实际执行任务的线程
* 继承自Thread类直接作为线程使用
*/
private inner class Worker(var firstTask: Runnable?) : Thread() {
// 当前Worker完成的任务数量volatile保证可见性
@Volatile
var completedTasks: Long = 0
override fun run() {
var task = firstTask
firstTask = null
try {
// 循环获取并执行任务
while (task != null || (getTask().also { task = it }) != null) {
try {
task?.run() // 执行任务
completedTasks++
} catch (_: Exception) {
// 捕获任务执行过程中的异常,防止线程意外退出
} finally {
task = null // 清理任务引用
}
}
} finally {
// 线程退出前的清理工作
workerCount.decrementAndGet()
workers.remove(this)
// 将当前Worker完成的任务数累加到总计数器
supportCompletedTaskCount.addAndGet(completedTasks)
}
}
}
}

361
src/main/kotlin/com/pangu/core/threads/ThreadOcean.kt Normal file
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package com.pangu.core.threads
import java.util.*
import java.util.concurrent.*
import java.util.concurrent.atomic.AtomicInteger
import java.util.concurrent.locks.ReentrantLock
import java.util.logging.Level
import java.util.logging.Logger
class ThreadOcean(
private val corePoolSize: Int = 1,
private val maxPoolSize: Int = 1,
private val keepAliveTime: Long = 1000L,
private val timeUnit: TimeUnit = TimeUnit.MILLISECONDS,
private val taskQueue: BlockingQueue<Runnable> = LinkedBlockingQueue()
) {
private val COUNT_BITS = 29
private val CAPACITY = (1 shl COUNT_BITS) - 1
// 运行状态存储在高3位
private val RUNNING = -1 shl COUNT_BITS
private val SHUTDOWN = 0 shl COUNT_BITS
private val STOP = 1 shl COUNT_BITS
private val TIDYING = 2 shl COUNT_BITS
private val TERMINATED = 3 shl COUNT_BITS
// 使用AtomicInteger同时保存线程池状态和工作线程数
private val ctl = AtomicInteger(ctlOf(RUNNING, 0))
private val workers = Collections.synchronizedSet(HashSet<Worker>())
private val mainLock = ReentrantLock()
private val termination = mainLock.newCondition()
@Volatile
private var isShutdown = false
@Volatile
var allowCoreThreadTimeOut = false
init {
require(corePoolSize >= 0 && maxPoolSize > 0 && maxPoolSize >= corePoolSize && keepAliveTime >= 0) {
"Invalid configuration for ThreadOcean"
}
}
val poolSize: Int get() = workerCountOf(ctl.get())
val activeCount: Int get() = workers.count { it.isLocked }
val completedTaskCount: Long get() = workers.sumOf { it.completedTasks }
val queueSize: Int get() = taskQueue.size
@Throws(RejectedExecutionException::class)
fun execute(task: Runnable) {
if (isShutdown) {
throw RejectedExecutionException("ThreadOcean has been shut down")
}
val c = ctl.get()
when {
// 工作线程数 < corePoolSize创建新核心线程
workerCountOf(c) < corePoolSize -> {
if (addWorker(task, true)) return
// 如果添加失败,重新检查状态
}
// 任务可以入队
taskQueue.offer(task) -> {
val recheck = ctl.get()
// 双重检查,防止在入队后线程池关闭或线程死亡
if (isShutdown && remove(task)) {
throw RejectedExecutionException("ThreadOcean has been shut down")
}
if (workerCountOf(recheck) == 0) {
addWorker(null, false)
}
return
}
// 队列已满,尝试创建非核心线程
workerCountOf(c) < maxPoolSize -> {
if (addWorker(task, false)) return
}
}
throw RejectedExecutionException("Task rejected from ThreadOcean")
}
private fun addWorker(firstTask: Runnable?, core: Boolean): Boolean {
retry@ while (true) {
val c = ctl.get()
if (runStateAtLeast(c, SHUTDOWN)) {
return false
}
val wc = workerCountOf(c)
val limit = if (core) corePoolSize else maxPoolSize
if (wc >= limit) {
return false
}
if (compareAndIncrementWorkerCount(c)) {
break
}
}
var worker: Worker? = null
var workerStarted = false
try {
worker = Worker(firstTask)
workers.add(worker)
worker.start()
workerStarted = true
} finally {
if (!workerStarted) {
addWorkerFailed(worker)
}
}
return workerStarted
}
private fun addWorkerFailed(w: Worker?) {
mainLock.lock()
try {
w?.let { workers.remove(it) }
decrementWorkerCount()
tryTerminate()
} finally {
mainLock.unlock()
}
}
private fun getTask(): Runnable? {
var timedOut = false
retry@ while (true) {
val c = ctl.get()
// 检查线程池状态
if (runStateAtLeast(c, SHUTDOWN) && (runStateAtLeast(c, STOP) || taskQueue.isEmpty())) {
decrementWorkerCount()
return null
}
val wc = workerCountOf(c)
// 是否允许超时(非核心线程或允许核心线程超时)
val timed = allowCoreThreadTimeOut || wc > corePoolSize
if ((wc > maxPoolSize || (timed && timedOut)) && (wc > 1 || taskQueue.isEmpty())) {
if (compareAndDecrementWorkerCount(c)) {
return null
}
continue@retry
}
try {
val r = if (timed) {
taskQueue.poll(keepAliveTime, timeUnit)
} else {
taskQueue.take()
}
if (r != null) return r
timedOut = true
} catch (e: InterruptedException) {
timedOut = false
}
}
}
fun shutdown() {
mainLock.lock()
try {
advanceRunState(SHUTDOWN)
interruptIdleWorkers()
} finally {
mainLock.unlock()
}
tryTerminate()
}
fun shutdownNow(): List<Runnable> {
val tasks: List<Runnable>
mainLock.lock()
try {
advanceRunState(STOP)
interruptWorkers()
tasks = drainQueue()
} finally {
mainLock.unlock()
}
tryTerminate()
return tasks
}
private fun interruptIdleWorkers() {
mainLock.lock()
try {
workers.forEach { worker ->
if (!worker.isLocked) {
worker.interrupt()
}
}
} finally {
mainLock.unlock()
}
}
private fun interruptWorkers() {
mainLock.lock()
try {
workers.forEach { it.interrupt() }
} finally {
mainLock.unlock()
}
}
private fun drainQueue(): List<Runnable> {
val taskList = ArrayList<Runnable>()
taskQueue.drainTo(taskList)
if (!taskQueue.isEmpty()) {
taskQueue.forEach { taskList.add(it) }
taskQueue.clear()
}
return taskList
}
private fun tryTerminate() {
while (true) {
val c = ctl.get()
if (isRunning(c) ||
runStateAtLeast(c, TIDYING) ||
(runStateOf(c) == SHUTDOWN && !taskQueue.isEmpty())
) {
return
}
if (workerCountOf(c) != 0) {
interruptIdleWorkers()
return
}
mainLock.lock()
try {
if (ctl.compareAndSet(c, ctlOf(TIDYING, 0))) {
try {
// 终止钩子,可以在这里添加清理逻辑
} finally {
ctl.set(ctlOf(TERMINATED, 0))
termination.signalAll()
}
return
}
} finally {
mainLock.unlock()
}
}
}
fun awaitTermination(timeout: Long, unit: TimeUnit): Boolean {
var nanos = unit.toNanos(timeout)
mainLock.lock()
try {
while (true) {
if (runStateAtLeast(ctl.get(), TERMINATED)) {
return true
}
if (nanos <= 0) {
return false
}
nanos = termination.awaitNanos(nanos)
}
} finally {
mainLock.unlock()
}
}
private inner class Worker(var firstTask: Runnable?) : Runnable {
@Volatile
var completedTasks: Long = 0
val thread: Thread = Thread(this)
@Volatile
var isLocked = false
fun start() = thread.start()
fun interrupt() = thread.interrupt()
fun join(millis: Long) = thread.join(millis)
override fun run() {
runWorker(this)
}
}
private fun runWorker(w: Worker) {
var task = w.firstTask
w.firstTask = null
var completedAbruptly = true
try {
while (task != null || (getTask().also { task = it }) != null) {
w.isLocked = true
try {
task?.run()
w.completedTasks++
} catch (e: Exception) {
Logger.getLogger(ThreadOcean::class.java.name).log(Level.SEVERE, "Task execution failed", e)
} finally {
task = null
w.isLocked = false
}
}
completedAbruptly = false
} finally {
processWorkerExit(w, completedAbruptly)
}
}
private fun processWorkerExit(w: Worker, completedAbruptly: Boolean) {
if (completedAbruptly) {
decrementWorkerCount()
}
mainLock.lock()
try {
workers.remove(w)
tryTerminate()
} finally {
mainLock.unlock()
}
}
private fun remove(task: Runnable?): Boolean {
return taskQueue.remove(task)
}
private fun runStateOf(c: Int) = c and (CAPACITY.inv())
private fun workerCountOf(c: Int) = c and CAPACITY
private fun ctlOf(rs: Int, wc: Int) = rs or wc
private fun runStateAtLeast(c: Int, s: Int) = c >= s
private fun isRunning(c: Int) = c < SHUTDOWN
private fun advanceRunState(targetState: Int) {
while (true) {
val c = ctl.get()
if (runStateAtLeast(c, targetState) ||
ctl.compareAndSet(c, ctlOf(targetState, workerCountOf(c)))
) {
break
}
}
}
private fun compareAndIncrementWorkerCount(expect: Int): Boolean {
return ctl.compareAndSet(expect, expect + 1)
}
private fun compareAndDecrementWorkerCount(expect: Int): Boolean {
return ctl.compareAndSet(expect, expect - 1)
}
private fun decrementWorkerCount() {
ctl.addAndGet(-1)
}
}

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src/test/kotlin/com/pangu/test/SchedulerTest.kt Normal file
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package com.pangu.test
import com.pangu.core.scheduler.*
import junit.framework.TestCase
import java.text.SimpleDateFormat
import java.util.*
class SchedulerTest : TestCase() {
fun testSequenceScheduler() {
val formatter = SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS")
val onetimeScheduler = SequenceScheduler()
val calendar = Calendar.getInstance()
// 设置自定义时间
calendar[2025, Calendar.MARCH, 28, 0, 0] = 0
calendar.set(Calendar.MILLISECOND, 0)
val startTime = calendar.timeInMillis
onetimeScheduler.addJob(Trigger(15000, startTime)) {
println("15s - ${formatter.format(Date())} hello")
}
onetimeScheduler.addJob(Trigger(20000, startTime)) {
println("20s - ${formatter.format(Date())} hello")
}
onetimeScheduler.addJob(Trigger(25000, startTime)) {
println("25s - ${formatter.format(Date())} hello")
}
onetimeScheduler.execute()
}
fun testCombineScheduler() {
val formatter = SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS")
val onetimeScheduler = CombineScheduler { jobs ->
Runnable {
println("---> Combine executed start <---")
jobs.forEach {
it.run()
}
println("---> Combine executed end <---\n")
}
}
val calendar = Calendar.getInstance()
// 设置自定义时间
calendar[2025, Calendar.MARCH, 28, 0, 0] = 0
calendar.set(Calendar.MILLISECOND, 0)
val startTime = calendar.timeInMillis
onetimeScheduler.addJob(Trigger(5000, startTime)) {
println("05s - ${formatter.format(Date())} hello")
}
onetimeScheduler.addJob(Trigger(10000, startTime)) {
println("10s - ${formatter.format(Date())} hello")
}
onetimeScheduler.addJob(Trigger(15000, startTime)) {
println("15s - ${formatter.format(Date())} hello")
}
onetimeScheduler.execute()
}
}

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src/test/kotlin/com/pangu/test/ThreadPoolTest.kt Normal file
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package com.pangu.test
import com.pangu.core.threads.ThreadGrok
import com.pangu.core.threads.ThreadLake
import com.pangu.core.threads.ThreadOcean
import junit.framework.TestCase
import java.util.concurrent.LinkedBlockingQueue
import java.util.concurrent.TimeUnit
import java.util.concurrent.atomic.AtomicLong
import java.util.concurrent.locks.LockSupport
class ThreadPoolTest : TestCase() {
fun testThreadOcean() {
val i = AtomicLong(1000000L)
val threadOcean = ThreadOcean(
2, 5, 1000L, TimeUnit.MILLISECONDS,
LinkedBlockingQueue(100)
)
val start = System.currentTimeMillis()
repeat(1000) { _ ->
threadOcean.execute {
repeat(1000) { _ ->
i.decrementAndGet()
}
}
Thread.sleep(10)
}
while (true) {
if (threadOcean.completedTaskCount == 1000L) {
break
}
Thread.sleep(10)
}
println("结果: $i, 执行时间: ${System.currentTimeMillis() - start}ms")
threadOcean.shutdown()
println("")
}
fun testThreadLake() {
val i = AtomicLong(1000000L)
val threadLake = ThreadLake(
2, 5, 1000L, TimeUnit.MILLISECONDS,
LinkedBlockingQueue(40)
)
val start = System.currentTimeMillis()
repeat(1000) { _ ->
threadLake.execute {
repeat(1000) { _ ->
i.decrementAndGet()
LockSupport.parkNanos(1)
}
}
Thread.sleep(10)
}
while (true) {
if (threadLake.completedTaskCount == 1000L) {
break
}
Thread.sleep(10)
}
println("结果: $i, 执行时间: ${System.currentTimeMillis() - start}ms")
}
fun testThreadGrok() {
val i = AtomicLong(1000000L)
val threadGrok = ThreadGrok(
2, 5, 1000L, TimeUnit.MILLISECONDS,
LinkedBlockingQueue(100)
)
val start = System.currentTimeMillis()
repeat(1000) { _ ->
threadGrok.execute {
repeat(1000) { _ ->
i.decrementAndGet()
LockSupport.parkNanos(1)
}
}
Thread.sleep(10)
}
while (true) {
if (threadGrok.completedTaskCount == 1000L) {
break
}
Thread.sleep(10)
}
println("结果: $i, 执行时间: ${System.currentTimeMillis() - start}ms")
}
}