类，在其中重写finalize方法

public class TestClass {    
    public TestClass() {
        System.out.println("constructor");
    }

    public void display() {
        System.out.println("display");
    }
    @Override
    public void finalize() {
        System.out.println("destructor");
    }
}

finalize方法被调用的几率

public class TestGarbageCollection {
    public static void main(String[] args) {
        while (true) {
            TestClass s = new TestClass();
            s.display();
            System.gc();
        }
    }
}

当内存被转储对象重载时，gc将调用finalize方法

运行并查看控制台，在那里你不会发现finalize方法被频繁调用，当内存超载时，finalize方法将被调用。

Sometimes when it is destroyed, an object must make an action. For example, if an object has a non-java resource such as a file handle or a font, you can verify that these resources are released before destroying an object. To manage such situations, java offers a mechanism called "finalizing". By finalizing it, you can define specific actions that occur when an object is about to be removed from the garbage collector. To add a finalizer to a class simply define the finalize() method. Java execution time calls this method whenever it is about to delete an object of that class. Within the finalize method() you specify actions to be performed before destroying an object. The garbage collector is periodically searched for objects that no longer refer to any running state or indirectly any other object with reference. Before an asset is released, the Java runtime calls the finalize() method on the object. The finalize() method has the following general form:

protected void finalize(){
    // This is where the finalization code is entered
}

使用protected关键字，finalize()类之外的代码可以阻止对finalize()的访问。 务必要理解finalize()是在垃圾收集之前调用的。例如，当对象离开作用域时，它不会被调用。这意味着您无法知道finalize()何时或是否将执行。因此，程序必须提供其他方法来释放系统资源或对象使用的其他资源。不应该依赖finalize()来实现程序的正常运行。

Finalize将打印出类创建的计数。

protected void finalize() throws Throwable {
    System.out.println("Run F" );
    if ( checkedOut)
        System.out.println("Error: Checked out");
        System.out.println("Class Create Count: " + classCreate);
}

main

while ( true) {
    Book novel=new Book(true);
    //System.out.println(novel.checkedOut);
    //Runtime.getRuntime().runFinalization();
    novel.checkIn();
    new Book(true);
    //System.runFinalization();
    System.gc();

如你所见。下面的输出显示了类计数为36时第一次执行的gc。

C:\javaCode\firstClass>java TerminationCondition
Run F
Error: Checked out
Class Create Count: 36
Run F
Error: Checked out
Class Create Count: 48
Run F

试着运行这个程序，以便更好地理解

public class FinalizeTest 
{       
    static {
        System.out.println(Runtime.getRuntime().freeMemory());
    }

    public void run() {
        System.out.println("run");
        System.out.println(Runtime.getRuntime().freeMemory());
    }

     protected void finalize() throws Throwable { 
         System.out.println("finalize");
         while(true)
             break;          
     }

     public static void main(String[] args) {
            for (int i = 0 ; i < 500000 ; i++ ) {
                    new FinalizeTest().run();
            }
     }
}

在最近与终结器方法搏斗之后(为了在测试期间处理连接池)，我不得不说终结器缺少很多东西。使用VisualVM来观察以及使用弱引用来跟踪实际的交互，我发现以下事情在Java 8环境中是正确的(Oracle JDK, Ubuntu 15):

Finalize is not called immediately the Finalizer (GC part) individually owns the reference elusively The default Garbage Collector pools unreachable objects Finalize is called in bulk pointing to an implementation detail that there is a certain phase the garbage collector frees the resources. Calling System.gc() often does not result in objects being finalized more often, it just results in the Finalizer getting aware of an unreachable object more rapidly Creating a thread dump almost always result in triggering the finalizer due to high heap overhead during performing the heap dump or some other internal mechanism Finalization seams to be bound by either memory requirements (free up more memory) or by the list of objects being marked for finalization growing of a certain internal limit. So if you have a lot of objects getting finalized the finalization phase will be triggered more often and earlier when compared with only a few There were circumstances a System.gc() triggered a finalize directly but only if the reference was a local and short living. This might be generation related.

最后认为

最后确定方法是不可靠的，但只能用于一件事。您可以确保在垃圾收集之前关闭或释放对象，从而在正确处理涉及生命结束操作的更复杂生命周期的对象时实现故障安全。这是我能想到的一个值得我们去推翻它的原因。

Java allows objects to implement a method called finalize() that might get called. finalize() method gets called if the garbage collector tries to collect the object. If the garbage collector doesn't run, the method doesn't get called. If the garbage collector fails to collect the object and tries to run it again, the method doesn't get called in the second time. In practice, you are highly unlikely to use it in real projects. Just keep in mind that it might not get called and that it definitely won't be called twice. The finalize() method could run zero or one time. In the following code, finalize() method produces no output when we run it since the program exits before there is any need to run the garbage collector.

源