Chain of Responsibility

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Chain of Responsibility (Behavioral Pattern)

  • The Chain of Responsibility pattern uses a chain of objects to handle a request, which is typically an event. Objects in the chain forward the request along the chain until one of the objects handles the event. Processing stops after an event is handled.

CoR1.jpg


Purpose

  • Is to avoid coupling the sender of a request to its receiver by giving more than one object a chance to handle the request. Chain the receiving objects and pass the request along the chain until an object handles it.



Applicability

Here are a few situations when using the Chain of Responsibility is more effective:

  • More than one object can handle a request
  • The handler is not known in advance
  • The handler should be determined automatically
  • It’s wished that the request is addressed to a group of objects without explicitly specifying its receiver
  • The group of objects that may handle the request must be specified in a dynamic way



Drawbacks

  • Unhandled requests
    • Unfortunately, the Chain doesn't guarantee that every command is handled, which makes the problem worse, since unhandled commands propagate through the full length of the chain, slowing down the application. One way to solve this is by checking if, at the end of the chain, the request has been handled at least once, otherwise we will have to implement handlers for all the possible requests that may appear.
  • Broken Chain
    • Sometimes we could forget to include in the implementation of the handleRequest method the call to the successor, causing a break in the chain. The request isn’t sent forward from the broken link and so it ends up unhandled.



UML Diagram

CoR UML.jpg


The role of every class:

  • Handler - defines an interface for handling requests
  • ConcreteHandler:
    • handles the requests it is responsible for
    • If it can handle the request it does so, otherwise it sends the request to its successor
  • Client - sends commands to the first object in the chain that may handle the command



Code Examples


Java Example

Example 1 -- This code can be found at www.Javacamp.org import java.io.*; abstract class PurchasePower {

   protected final double base = 500;
   protected PurchasePower successor;
   public void setSuccessor(PurchasePower successor){
       this.successor = successor;
   }
   abstract public void processRequest(PurchaseRequest request);

}

class Manager extends PurchasePower {

   private final double ALLOWABLE = 10 * base;
   public void processRequest(PurchaseRequest request ) {
       if( request.getAmount() < ALLOWABLE )
           System.out.println("Manager will approve $"+ request.getAmount());
       else
          if( successor != null)
              successor.processRequest(request);
 }

}

class Director extends PurchasePower {

   private final double ALLOWABLE = 20 * base;
   public void processRequest(PurchaseRequest request ) {
       if( request.getAmount() < ALLOWABLE )
           System.out.println("Director will approve $"+ request.getAmount());
       else
          if( successor != null)
              successor.processRequest(request);
 }

}

class VicePresident extends PurchasePower {

   private final double ALLOWABLE = 40 * base;
   public void processRequest(PurchaseRequest request) {
       if( request.getAmount() < ALLOWABLE )
           System.out.println("Vice President will approve $" + request.getAmount());
       else
       if( successor != null )
           successor.processRequest(request);
 }

}

class President extends PurchasePower {

   private final double ALLOWABLE = 60 * base;
  
   public void processRequest(PurchaseRequest request){
       if( request.getAmount() < ALLOWABLE )
           System.out.println("President will approve $" + request.getAmount());
       else
           System.out.println( "Your request for $" + request.getAmount() + " needs a board meeting!");
   }

}

class PurchaseRequest {

   private int number;
   private double amount;
   private String purpose;
   public PurchaseRequest(int number, double amount, String purpose){
       this.number = number;
       this.amount = amount;
       this.purpose = purpose;
   }
   public double getAmount() {
       return amount;
   }
   public void setAmount(double amt){
       amount = amt;
   }
   
   public String getPurpose() {
       return purpose;
   }
   public void setPurpose(String reason) {
       purpose = reason;
   }
   public int getNumber(){
       return number;
   }
   public void setNumber(int num) {
       number = num;
    }   

}

class CheckAuthority {

   public static void main(String[] args) throws Exception{
       Manager manager = new Manager();
       Director director = new Director();
       VicePresident vp = new VicePresident();
       President president = new President();
       manager.setSuccessor(director);
       director.setSuccessor(vp);
       vp.setSuccessor(president);
       
       //enter ctrl+c to kill.
       while (true) {
           System.out.println("Enter the amount to check who should approve your expenditure.");
           System.out.print(">");
           double d = Double.parseDouble(new BufferedReader(new InputStreamReader(System.in)).readLine());
           manager.processRequest(new PurchaseRequest(0, d, "General"));
       }
 }

}


C# Example

Example 1 - This code can be found at www.c-sharpcorner.com

Our command will be a PhoneCall class with one method "Converse()" which is our command.

C Caller.GIF

Command handler will be a person.

C handler.gif

C RequestCode.gif

This is how we would implement our chain of responsibility:

C main.GIF

And this would be re result:

  • Father: Hey Mother! Pick up the phone!
  • Mother: Hey Son! Pick up the phone!
  • Son: Hey Daughter! Pick up the phone!
  • Daughter: Hello?
  • Hello. This is ACME Movie Rentals with an important message.

Example 2 - This code can be found at www.dofactory.com

using System;

namespace DoFactory.GangOfFour.Chain.RealWorld

{

 // MainApp test application
 class MainApp
 {
   static void Main()
   {
     // Setup Chain of Responsibility
     Director Larry = new Director();
     VicePresident Sam = new VicePresident();
     President Tammy = new President();
     Larry.SetSuccessor(Sam);
     Sam.SetSuccessor(Tammy);
     // Generate and process purchase requests
     Purchase p = new Purchase(2034, 350.00, "Supplies");
     Larry.ProcessRequest(p);
     p = new Purchase(2035, 32590.10, "Project X");
     Larry.ProcessRequest(p);
     p = new Purchase(2036, 122100.00, "Project Y");
     Larry.ProcessRequest(p);
     // Wait for user
     Console.Read();
   }
 }
 // "Handler"
 abstract class Approver
 {
   protected Approver successor;
   public void SetSuccessor(Approver successor)
   {
     this.successor = successor;
   }
   public abstract void ProcessRequest(Purchase purchase);
 }
 // "ConcreteHandler"
 class Director : Approver
 {
   public override void ProcessRequest(Purchase purchase)
   {
     if (purchase.Amount < 10000.0)
     {
       Console.WriteLine("{0} approved request# {1}",
         this.GetType().Name, purchase.Number);
     }
     else if (successor != null)
     {
       successor.ProcessRequest(purchase);
     }
   }
 }
 // "ConcreteHandler"
 class VicePresident : Approver
 {
   public override void ProcessRequest(Purchase purchase)
   {
     if (purchase.Amount < 25000.0)
     {
       Console.WriteLine("{0} approved request# {1}",
         this.GetType().Name, purchase.Number);
     }
     else if (successor != null)
     {
       successor.ProcessRequest(purchase);
     }
   }
 }
 // "ConcreteHandler"
 class President : Approver
 {
   public override void ProcessRequest(Purchase purchase)
   {
     if (purchase.Amount < 100000.0)
     {
       Console.WriteLine("{0} approved request# {1}",
         this.GetType().Name, purchase.Number);
     }
     else
     {
       Console.WriteLine(
         "Request# {0} requires an executive meeting!",
         purchase.Number);
     }
   }
 }
 // Request details
 class Purchase
 {
   private int number;
   private double amount;
   private string purpose;
   // Constructor
   public Purchase(int number, double amount, string purpose)
   {
     this.number = number;
     this.amount = amount;
     this.purpose = purpose;
   }
   // Properties
   public double Amount
   {
     get{ return amount; }
     set{ amount = value; }
   }
   public string Purpose
   {
     get{ return purpose; }
     set{ purpose = value; }
   }
   public int Number
   {
     get{ return number; }
     set{ number = value; }
   }
 }

}



References

  1. Java World
  2. Developer.com
  3. OODesign.com
  4. Codebetter.com
  5. C-Sharpcorner.com
  6. Javacamp.org


--Djeyarat 15:49, 2 April 2007 (EDT)