Types of References in Java

In Java there are four types of references differentiated on the way by which they are garbage collected.

1. Strong References
2. Weak References
3. Soft References
4. Phantom References

Prerequisite: Garbage Collection

• Strong References: This is the default type/class of Reference Object. Any object which has an active strong reference are not eligible for garbage collection. The object is garbage collected only when the variable which was strongly referenced points to null.

  MyClass obj = new MyClass ();          
  

  Here ‘obj’ object is strong reference to newly created instance of MyClass, currently obj is active object so can’t be garbage collected.

  obj = null;
  //'obj' object is no longer referencing to the instance. 
  So the 'MyClass type object is now available for garbage collection.          
  

  

  
  

  
  
  

  // Java program to illustrate Strong reference class Gfg {     //Code.. } public class Example {     public static void main(String[] args)     {          //Strong Reference - by default         Gfg g = new Gfg();                        //Now, object to which 'g' was pointing earlier is          //eligible for garbage collection.         g = null;      } }

• Weak References: Weak Reference Objects are not the default type/class of Reference Object and they should be explicitly specified while using them.
  • This type of reference is used in WeakHashMap to reference the entry objects .
  • If JVM detects an object with only weak references (i.e. no strong or soft references linked to any object object), this object will be marked for garbage collection.
  • To create such references java.lang.ref.WeakReference class is used.
  • These references are used in real time applications while establishing a DBConnection which might be cleaned up by Garbage Collector when the application using the database gets closed.

  

  
  

  
  
  

  //Java Code to illustrate Weak reference import java.lang.ref.WeakReference; class Gfg {     //code     public void x()     {         System.out.println("Lazyroar");     } }    public class Example {     public static void main(String[] args)     {         // Strong Reference         Gfg g = new Gfg();              g.x();                    // Creating Weak Reference to Gfg-type object to which 'g'          // is also pointing.         WeakReference<Gfg> weakref = new WeakReference<Gfg>(g);                    //Now, Gfg-type object to which 'g' was pointing earlier         //is available for garbage collection.         //But, it will be garbage collected only when JVM needs memory.         g = null;                     // You can retrieve back the object which         // has been weakly referenced.         // It successfully calls the method.         g = weakref.get();                     g.x();     } }

  Output:

  Lazyroar
  Lazyroar
  

Two different levels of weakness can be enlisted: Soft and Phantom

• Soft References: In Soft reference, even if the object is free for garbage collection then also its not garbage collected, until JVM is in need of memory badly.The objects gets cleared from the memory when JVM runs out of memory.To create such references java.lang.ref.SoftReference class is used.
  

  
  

  
  
  

  //Code to illustrate Soft reference import java.lang.ref.SoftReference; class Gfg {     //code..     public void x()     {         System.out.println("Lazyroar");     } }    public class Example {     public static void main(String[] args)     {         // Strong Reference         Gfg g = new Gfg();              g.x();                    // Creating Soft Reference to Gfg-type object to which 'g'          // is also pointing.         SoftReference<Gfg> softref = new SoftReference<Gfg>(g);                    // Now, Gfg-type object to which 'g' was pointing         // earlier is available for garbage collection.         g = null;                     // You can retrieve back the object which         // has been weakly referenced.         // It successfully calls the method.         g = softref.get();                     g.x();     } }

  Output:

  Lazyroar
  Lazyroar
  

• Phantom References: The objects which are being referenced by phantom references are eligible for garbage collection. But, before removing them from the memory, JVM puts them in a queue called ‘reference queue’ . They are put in a reference queue after calling finalize() method on them.To create such references java.lang.ref.PhantomReference class is used.

  
  

  
  
  

  //Code to illustrate Phantom reference import java.lang.ref.*; class Gfg {     //code     public void x()     {         System.out.println("Lazyroar");     } }    public class Example {     public static void main(String[] args)     {         //Strong Reference         Gfg g = new Gfg();              g.x();                    //Creating reference queue         ReferenceQueue<Gfg> refQueue = new ReferenceQueue<Gfg>();            //Creating Phantom Reference to Gfg-type object to which 'g'          //is also pointing.         PhantomReference<Gfg> phantomRef = null;                    phantomRef = new PhantomReference<Gfg>(g,refQueue);                    //Now, Gfg-type object to which 'g' was pointing         //earlier is available for garbage collection.         //But, this object is kept in 'refQueue' before          //removing it from the memory.         g = null;                     //It always returns null.          g = phantomRef.get();                     //It shows NullPointerException.         g.x();     } }

  Runtime Error:

  Exception in thread "main" java.lang.NullPointerException
      at Example.main(Example.java:31)

  Output:

  Lazyroar

This article is contributed by Pratik Agarwal. If you like Lazyroar and would like to contribute, you can also write an article using contribute.geeksforgeeks.org or mail your article to contribute@geeksforgeeks.org. See your article appearing on the Lazyroar main page and help other Geeks.

Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above.