标签:环形队列 大量超时任务 算法实现 大量定时任务 大量任务
基于环形队列的超时触发算法只需要一个timer即可实现批量超时任务的触发,CPU消耗低,效率高。下面是此算法的简单实现。1,TaskHolder.java
package com.zws.timer; /** * * @author wensh.zhu * @date 2018-04-22 */ public class TaskHolder { /** 任务所需等待的圈数,即任务需要走几圈**/ private int cycles; private int delays; private Runnable task; public TaskHolder() {} public TaskHolder(int cycles, int delays, Runnable task) { this.cycles = cycles; this.delays = delays; this.task = task; } public boolean isTimeOut() { return cycles <= 0; } public void cutDown() { cycles --; } public int getCycles() { return cycles; } public void setCycles(int cycles) { this.cycles = cycles; } public int getDelays() { return delays; } public void setDelays(int delays) { this.delays = delays; } public Runnable getTask() { return task; } public void setTask(Runnable task) { this.task = task; } @Override public String toString() { return "TaskHolder[cycles=" + cycles + ", delays=" + delays + "]"; } }
2,TimerContext.java
package com.zws.timer; import java.util.Map; import java.util.Queue; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentLinkedQueue; /** * * @author wensh.zhu * @date 2018-04-22 */ public class TimerContext { public static final int DEFAULT_TICKS = 60; public static final int DEFAULT_TICK_DURATION = 1; private Map<Integer, Queue<TaskHolder>> taskHolders; private volatile int currentTick = 0; /** tick一圈的长度 **/ private int ticks = DEFAULT_TICKS; /** 每tick一次的时间间隔,单位:秒**/ private int tickDuration = DEFAULT_TICK_DURATION; public TimerContext() { init(); } public TimerContext(int ticks, int tickDuration) { if (ticks <= 0) throw new IllegalArgumentException("ticks must be greater than 0"); if (tickDuration <= 0) throw new IllegalArgumentException("tickDuration must be greater than 0"); this.ticks = ticks; this.tickDuration = tickDuration; init(); } private void init() { taskHolders = new ConcurrentHashMap<Integer, Queue<TaskHolder>>(); for (int i = 0; i < ticks; i ++) taskHolders.put(i, new ConcurrentLinkedQueue<TaskHolder>()); } /** * 添加一个定时任务并计算需要走的圈数和落脚的index * @param task * @param delays */ public void addTask(Runnable task, int delays) { if (task == null) throw new NullPointerException("task must not be null"); if (delays <=0) throw new IllegalArgumentException("delays must be greater than 0"); int allSeconds = ticks * tickDuration; int cycles = delays / allSeconds; int index = ((delays % allSeconds) / tickDuration) + currentTick; TaskHolder metaData = new TaskHolder(cycles, delays, task); taskHolders.get(index).add(metaData); } public int tick() { currentTick = (currentTick + 1) % ticks; return currentTick; } public Queue<TaskHolder> getCurrentTasks() { return taskHolders.get(currentTick); } public int getCurrentTick() { return currentTick; } public int getTicks() { return ticks; } public int getTickDuration() { return tickDuration; } @Override public String toString() { return "TimerContext [timers=" + taskHolders + ", ticks=" + ticks + ", tickDuration=" + tickDuration + ", currentTick=" + currentTick + "]"; } }
3,TimerScheduler.java
package com.zws.timer; import java.io.IOException; import java.util.Iterator; import java.util.Queue; import java.util.Timer; import java.util.TimerTask; /** * 用于判断定时器是否到时、执行任务、维护定时器状态。 * @author wensh.zhu * @date 2018-04-22 */ public class TimerScheduler extends TimerTask { private TimerContext timerContext; public TimerScheduler() {} public TimerScheduler(TimerContext timerContext) { this.timerContext = timerContext; } /** * 定时检测,如果定时器触发时间到了就从集合中删除并执行任务,否则圈数减一。 */ @Override public void run() { if (timerContext == null) return; Queue<TaskHolder> timers = timerContext.getCurrentTasks(); Iterator<TaskHolder> itor = timers.iterator(); while (itor.hasNext()) { TaskHolder timer = itor.next(); if (timer.isTimeOut()) { itor.remove(); new Thread(timer.getTask()).start(); } else { timer.cutDown(); } } timerContext.tick(); } public void addTask(Runnable task, int delays) { timerContext.addTask(task, delays); } public TimerContext getTimerContext() { return timerContext; } public void setTimerContext(TimerContext timerContext) { this.timerContext = timerContext; } public static void main(String[] args) throws IOException { TimerContext context = new TimerContext(60, 1); TimerScheduler sheduler = new TimerScheduler(context); sheduler.addTask(new Runnable() { public void run() { System.out.println(DateUtils.now()); } }, 60); System.out.println(DateUtils.now()); Timer timer = new Timer(); timer.scheduleAtFixedRate(sheduler, 0, context.getTickDuration() * 1000L); System.in.read(); } }
4,DateUtils.java
package com.zws.timer; import java.time.LocalDateTime; import java.time.format.DateTimeFormatter; /** * * @author wensh.zhu * @date 2018-04-22 */ public class DateUtils { public static final String DEFAULT_PATTERN = "yyyy-MM-dd HH:mm:ss"; public static String now() { LocalDateTime time = LocalDateTime.now(); return time.format(DateTimeFormatter.ofPattern(DEFAULT_PATTERN)); } public static String plusSeconds(int seconds) { LocalDateTime time = LocalDateTime.now(); time.plusSeconds(seconds); return time.format(DateTimeFormatter.ofPattern(DEFAULT_PATTERN)); } }
标签:环形队列 大量超时任务 算法实现 大量定时任务 大量任务
原文地址:http://blog.51cto.com/wenshengzhu/2106623