Ilkka Seppälä
4108f86177
* Changed database implementation. Removed static objects. * Fix Logs * Fix 40 errors from checkstyle plugin run. 139 left)) * Fix CacheStore errors from checkstyle plugin 107 left * Fix last errors in checkstyle. * Fix sonar issues * Fix issues in VALIDATE phase * Fix Bug with mongo connection. Used "Try with resources" * Add test * Added docker-compose for mongo db. MongoDb db work fixed. * Provided missing tests * Comments to start Application with mongo. * Fix some broken links * Remove extra space * Update filename * Fix some links in localization folders * Fix link * Update frontmatters * Work on patterns index page * Work on index page * Fixes according PR comments. Mainly Readme edits. * fix frontmatter * add missing png * Update pattern index.md * Add index.md for Chinese translation * update image paths * update circuit breaker image paths * Update image paths for localizations * add generated puml * Add missing image * Update img file extensions * Update the rest of the EN and ZH patterns to conform with the new website Co-authored-by: Victor Zalevskii <zvictormail@gmail.com>
title, category, language, tags
| title | category | language | tags | |
|---|---|---|---|---|
| Thread Pool | Concurrency | en |
|
Intent
It is often the case that tasks to be executed are short-lived and the number of tasks is large. Creating a new thread for each task would make the system spend more time creating and destroying the threads than executing the actual tasks. Thread Pool solves this problem by reusing existing threads and eliminating the latency of creating new threads.
Explanation
Real-world example
We have a large number of relatively short tasks at hand. We need to peel huge amounts of potatoes and serve a mighty amount of coffee cups. Creating a new thread for each task would be a waste so we establish a thread pool.
In plain words
Thread Pool is a concurrency pattern where threads are allocated once and reused between tasks.
Wikipedia says
In computer programming, a thread pool is a software design pattern for achieving concurrency of execution in a computer program. Often also called a replicated workers or worker-crew model, a thread pool maintains multiple threads waiting for tasks to be allocated for concurrent execution by the supervising program. By maintaining a pool of threads, the model increases performance and avoids latency in execution due to frequent creation and destruction of threads for short-lived tasks. The number of available threads is tuned to the computing resources available to the program, such as a parallel task queue after completion of execution.
Programmatic Example
Let's first look at our task hierarchy. We have a base class and then concrete CoffeeMakingTask
and PotatoPeelingTask.
public abstract class Task {
private static final AtomicInteger ID_GENERATOR = new AtomicInteger();
private final int id;
private final int timeMs;
public Task(final int timeMs) {
this.id = ID_GENERATOR.incrementAndGet();
this.timeMs = timeMs;
}
public int getId() {
return id;
}
public int getTimeMs() {
return timeMs;
}
@Override
public String toString() {
return String.format("id=%d timeMs=%d", id, timeMs);
}
}
public class CoffeeMakingTask extends Task {
private static final int TIME_PER_CUP = 100;
public CoffeeMakingTask(int numCups) {
super(numCups * TIME_PER_CUP);
}
@Override
public String toString() {
return String.format("%s %s", this.getClass().getSimpleName(), super.toString());
}
}
public class PotatoPeelingTask extends Task {
private static final int TIME_PER_POTATO = 200;
public PotatoPeelingTask(int numPotatoes) {
super(numPotatoes * TIME_PER_POTATO);
}
@Override
public String toString() {
return String.format("%s %s", this.getClass().getSimpleName(), super.toString());
}
}
Next, we present a runnable Worker class that the thread pool will utilize to handle all the potato
peeling and coffee making.
@Slf4j
public class Worker implements Runnable {
private final Task task;
public Worker(final Task task) {
this.task = task;
}
@Override
public void run() {
LOGGER.info("{} processing {}", Thread.currentThread().getName(), task.toString());
try {
Thread.sleep(task.getTimeMs());
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
Now we are ready to show the full example in action.
LOGGER.info("Program started");
// Create a list of tasks to be executed
var tasks = List.of(
new PotatoPeelingTask(3),
new PotatoPeelingTask(6),
new CoffeeMakingTask(2),
new CoffeeMakingTask(6),
new PotatoPeelingTask(4),
new CoffeeMakingTask(2),
new PotatoPeelingTask(4),
new CoffeeMakingTask(9),
new PotatoPeelingTask(3),
new CoffeeMakingTask(2),
new PotatoPeelingTask(4),
new CoffeeMakingTask(2),
new CoffeeMakingTask(7),
new PotatoPeelingTask(4),
new PotatoPeelingTask(5));
// Creates a thread pool that reuses a fixed number of threads operating off a shared
// unbounded queue. At any point, at most nThreads threads will be active processing
// tasks. If additional tasks are submitted when all threads are active, they will wait
// in the queue until a thread is available.
var executor = Executors.newFixedThreadPool(3);
// Allocate new worker for each task
// The worker is executed when a thread becomes
// available in the thread pool
tasks.stream().map(Worker::new).forEach(executor::execute);
// All tasks were executed, now shutdown
executor.shutdown();
while (!executor.isTerminated()) {
Thread.yield();
}
LOGGER.info("Program finished");
Class diagram
Applicability
Use the Thread Pool pattern when
- You have a large number of short-lived tasks to be executed in parallel