Mediator Pattern
Author: Deron Eriksson
Description: This Java tutorial describes the mediator pattern, a behavioral object pattern.
Tutorial created using:
Windows Vista || JDK 1.6.0_11 || Eclipse JEE Ganymede SR1 (Eclipse 3.4.1)
The mediator pattern is a behavioral object design pattern. The mediator pattern centralizes communication between objects into a mediator object. This centralization is useful since it localizes in one place the interactions between objects, which can increase code maintainability, especially as the number of classes in an application increases. Since communication occurs with the mediator rather than directly with other objects, the mediator pattern results in a loose coupling of objects. The classes that communicate with the mediator are known as Colleagues. The mediator implementation is known as the Concrete Mediator. The mediator can have an interface that spells out the communication with Colleages. Colleagues know their mediator, and the mediator knows its colleagues. Now, let's look at an example of this pattern. We'll create a Mediator class (without implementing a mediator interface in this example). This mediator will mediate the communication between two buyers (a Swedish buyer and a French buyer), an American seller, and a currency converter. The Mediator has references to the two buyers, the seller, and the converter. It has methods so that objects of these types can be registered. It also has a placeBid() method. This method takes a bid amount and a unit of currency as parameters. It converts this amount to a dollar amount via communication with the dollarConverter. It then asks the seller if the bid has been accepted, and it returns the answer. Mediator.javapackage com.cakes; public class Mediator { Buyer swedishBuyer; Buyer frenchBuyer; AmericanSeller americanSeller; DollarConverter dollarConverter; public Mediator() { } public void registerSwedishBuyer(SwedishBuyer swedishBuyer) { this.swedishBuyer = swedishBuyer; } public void registerFrenchBuyer(FrenchBuyer frenchBuyer) { this.frenchBuyer = frenchBuyer; } public void registerAmericanSeller(AmericanSeller americanSeller) { this.americanSeller = americanSeller; } public void registerDollarConverter(DollarConverter dollarConverter) { this.dollarConverter = dollarConverter; } public boolean placeBid(float bid, String unitOfCurrency) { float dollarAmount = dollarConverter.convertCurrencyToDollars(bid, unitOfCurrency); return americanSeller.isBidAccepted(dollarAmount); } } Here is the Buyer class. The SwedishBuyer and FrenchBuyer classes are subclasses of Buyer. The buyer has a unit of currency as a field, and it also has a reference to the mediator. The Buyer class has a attemptToPurchase() method. This method submits a bid to the mediator's placeBid() method. It returns the mediator's response. Buyer.javapackage com.cakes; public class Buyer { Mediator mediator; String unitOfCurrency; public Buyer(Mediator mediator, String unitOfCurrency) { this.mediator = mediator; this.unitOfCurrency = unitOfCurrency; } public boolean attemptToPurchase(float bid) { System.out.println("Buyer attempting a bid of " + bid + " " + unitOfCurrency); return mediator.placeBid(bid, unitOfCurrency); } } The SwedishBuyer class is a subclass of Buyer. In the constructor, we set the unitOfCurrency to be "krona". We also register the SwedishBuyer with the mediator so that the mediator knows about the SwedishBuyer object. SwedishBuyer.javapackage com.cakes; public class SwedishBuyer extends Buyer { public SwedishBuyer(Mediator mediator) { super(mediator, "krona"); this.mediator.registerSwedishBuyer(this); } } The FrenchBuyer class is similar to the SwedishBuyer class, except the unitOfCurrency is "euro", and it registers with the mediator as the FrenchBuyer. FrenchBuyer.javapackage com.cakes; public class FrenchBuyer extends Buyer { public FrenchBuyer(Mediator mediator) { super(mediator, "euro"); this.mediator.registerFrenchBuyer(this); } } (Continued on page 2) Related Tutorials:
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