Starting and using background threads during class initialization can result in class initialization cycles and eventually, deadlock. This is because the main thread responsible for performing class initialization may block waiting for the background thread, which in turn will wait for the main thread to finish class initialization. This issue can arise, for example, when a database connection is established in a background thread while class initialization is in progress. \[[Bloch 05b|AA. Java References#Bloch 05b]\] 

This noncompliant code example begins initializing the class {{Lazy}}. The code in the {{static}} block is responsible for initialization and starts a background thread which is in a different (anonymous) class. The anonymous class attempts to assign to the {{initialized}} field but has to wait before initialization of the {{Lazy}} class has finished. However, the {{Lazy}} class's main thread invokes the {{join()}} method which waits for the background thread to finish. This interdependency causes a class initialization cycle that results in a deadlock situation. \[[Bloch 05b|AA. Java References#Bloch 05b]\] 

public class Lazy {
  private static boolean initialized = false;
  static {
    Thread t = new Thread(new Runnable() {
    public void run() {
      initialized = true;
    });
    
    t.start();
    try {
      t.join();
    } catch(InterruptedException ie) {
        throw new AssertionError(ie);
    }
    // Other initialization
  }
  public static void main(String[] args) {
    System.out.println(initialized);
  }
}

public class Lazy {
  private static boolean initialized = false;
  
  static {
    // Other initialization
  }
  
  public static void main(String[] args) {
    System.out.println(initialized);
  }
}

\[[Bloch 05b|AA. Java References#Bloch 05b]\] 8. "Lazy Initialization"