Creational Design Patterns
- Design Patterns - Factory Pattern
- Abstract Factory Pattern
- Design Patterns - Singleton Pattern
- Design Patterns - Builder Pattern
- Design Patterns - Prototype Pattern
Structural Design Patterns
- Design Patterns - Adapter Pattern
- Design Patterns - Bridge Pattern
- Design Patterns - Filter Pattern
- Design Patterns - Composite Pattern
- Design Patterns - Decorator Pattern
- Design Patterns - Facade Pattern
- Design Patterns - Flyweight Pattern
- Design Patterns - Proxy Pattern
- Chain of Responsibility Pattern
Behavioral Design Patterns
- Design Patterns - Command Pattern
- Design Patterns - Interpreter Pattern
- Design Patterns - Iterator Pattern
- Design Patterns - Mediator Pattern
- Design Patterns - Memento Pattern
- Design Patterns - Observer Pattern
- Design Patterns - State Pattern
- Design Patterns - Strategy Pattern
- Design Patterns - Template Pattern
- Design Patterns - Visitor Pattern
J2EE Design Patterns
- Design Patterns - Null Object Pattern
- Design Patterns - MVC Pattern
- Business Delegate Pattern
- Composite Entity Pattern
- Data Access Object Pattern
- Front Controller Pattern
- Intercepting Filter Pattern
- Service Locator Pattern
- Transfer Object Pattern
Design Patterns Useful Resources
Design Patterns - Composite Entity Pattern
Overview
Composite Entity pattern is used in EJB persistence mechanism. A Composite entity is an EJB entity bean which represents a graph of objects. When a composite entity is updated, internally dependent objects beans get updated automatically as being managed by EJB entity bean. Following are the participants in Composite Entity Bean.
Composite Entity - It is primary entity bean. It can be coarse grained or can contain a coarse grained object to be used for persistence purpose.
Coarse-Grained Object - This object contains dependent objects. It has its own life cycle and also manages life cycle of dependent objects.
Dependent Object - Dependent object is an object which depends on coarse grained object for its persistence lifecycle.
Strategies - Strategies represents how to implement a Composite Entity.
Implementation
We are going to create CompositeEntity object acting as CompositeEntity. CoarseGrainedObject will be a class which contains dependent objects. CompositeEntityPatternDemo, our demo class will use Client class to demonstrate use of Composite Entity pattern.
Step 1
Create Dependent Objects.
DependentObject1.java
package com.tutorialspoint;
public class DependentObject1 {
private String data;
public void setData(String data){
this.data = data;
}
public String getData(){
return data;
}
}
DependentObject2.java
package com.tutorialspoint;
public class DependentObject2 {
private String data;
public void setData(String data){
this.data = data;
}
public String getData(){
return data;
}
}
Step 2
Create Coarse Grained Object.
CoarseGrainedObject.java
package com.tutorialspoint;
public class CoarseGrainedObject {
DependentObject1 do1 = new DependentObject1();
DependentObject2 do2 = new DependentObject2();
public void setData(String data1, String data2){
do1.setData(data1);
do2.setData(data2);
}
public String[] getData(){
return new String[] {do1.getData(),do2.getData()};
}
}
Step 3
Create Composite Entity.
CompositeEntity.java
package com.tutorialspoint;
public class CompositeEntity {
private CoarseGrainedObject cgo = new CoarseGrainedObject();
public void setData(String data1, String data2){
cgo.setData(data1, data2);
}
public String[] getData(){
return cgo.getData();
}
}
Step 4
Create Client class to use Composite Entity.
Client.java
package com.tutorialspoint;
public class Client {
private CompositeEntity compositeEntity = new CompositeEntity();
public void printData(){
for (int i = 0; i < compositeEntity.getData().length; i++) {
System.out.println("Data: " + compositeEntity.getData()[i]);
}
}
public void setData(String data1, String data2){
compositeEntity.setData(data1, data2);
}
}
Example - Usage of Composite Entity Pattern
Use the Client to demonstrate Composite Entity design pattern usage.
CompositeEntityPatternDemo.java
package com.tutorialspoint;
public class CompositeEntityPatternDemo {
public static void main(String[] args) {
Client client = new Client();
client.setData("Test", "Data");
client.printData();
client.setData("Second Test", "Data1");
client.printData();
}
}
class DependentObject1 {
private String data;
public void setData(String data){
this.data = data;
}
public String getData(){
return data;
}
}
class DependentObject2 {
private String data;
public void setData(String data){
this.data = data;
}
public String getData(){
return data;
}
}
class CoarseGrainedObject {
DependentObject1 do1 = new DependentObject1();
DependentObject2 do2 = new DependentObject2();
public void setData(String data1, String data2){
do1.setData(data1);
do2.setData(data2);
}
public String[] getData(){
return new String[] {do1.getData(),do2.getData()};
}
}
class CompositeEntity {
private CoarseGrainedObject cgo = new CoarseGrainedObject();
public void setData(String data1, String data2){
cgo.setData(data1, data2);
}
public String[] getData(){
return cgo.getData();
}
}
class Client {
private CompositeEntity compositeEntity = new CompositeEntity();
public void printData(){
for (int i = 0; i < compositeEntity.getData().length; i++) {
System.out.println("Data: " + compositeEntity.getData()[i]);
}
}
public void setData(String data1, String data2){
compositeEntity.setData(data1, data2);
}
}
Output
Verify the output.
Data: Test Data: Data Data:Second Test Data: Data1