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Byggerdesignmønster

  1. Byggerdesignmønster
  2. Fordel med Builder DP
  3. Bruk av Builder DP
  4. UML av Builder DP
  5. Eksempel på Byggmester DP

Builder Pattern sier det 'konstruer et komplekst objekt fra enkle objekter ved hjelp av trinn-for-trinn-tilnærming'

Det brukes for det meste når objekter ikke kan opprettes i ett trinn som i de-serialisering av et komplekst objekt.

Fordel med Builder Design Pattern

De viktigste fordelene med Builder Pattern er som følger:

  • Det gir tydelig skille mellom konstruksjon og representasjon av et objekt.
  • Det gir bedre kontroll over byggeprosessen.
  • Den støtter å endre den interne representasjonen av objekter.

UML for Builder Pattern Eksempel


Eksempel på Builder Design Pattern

For å lage et enkelt eksempel på byggmesterdesignmønster, må du følge 6 følgende trinn.

  1. Lag pakkegrensesnitt
  2. Lag 2 abstrakte klasser CD og Company
  3. Lag 2 implementeringsklasser av selskapet: Sony og Samsung
  4. Opprett CDType-klassen
  5. Opprett CDBuilder-klassen
  6. Opprett BuilderDemo-klassen

1) Lag pakkegrensesnitt

Fil: Packing.java
 public interface Packing { public String pack(); public int price(); } 

2) Lag 2 abstrakte klasser CD og Company

Lag en abstrakt klasse-CD som vil implementere Packing-grensesnitt.

Fil: CD.java
 public abstract class CD implements Packing{ public abstract String pack(); } 
Fil: Company.java
 public abstract class Company extends CD{ public abstract int price(); } 

3) Opprett 2 implementeringsklasser av selskapet: Sony og Samsung

Fil: Sony.java
 public class Sony extends Company{ @Override public int price(){ return 20; } @Override public String pack(){ return 'Sony CD'; } }//End of the Sony class. 
Fil: Samsung.java
 public class Samsung extends Company { @Override public int price(){ return 15; } @Override public String pack(){ return 'Samsung CD'; } }//End of the Samsung class. 

4) Opprett CDType-klassen

Fil: CDType.java
 import java.util.ArrayList; import java.util.List; public class CDType { private List items=new ArrayList(); public void addItem(Packing packs) { items.add(packs); } public void getCost(){ for (Packing packs : items) { packs.price(); } } public void showItems(){ for (Packing packing : items){ System.out.print('CD name : '+packing.pack()); System.out.println(', Price : '+packing.price()); } } }//End of the CDType class. 

5) Opprett CDBuilder-klassen

Fil: CDBuilder.java
 public class CDBuilder { public CDType buildSonyCD(){ CDType cds=new CDType(); cds.addItem(new Sony()); return cds; } public CDType buildSamsungCD(){ CDType cds=new CDType(); cds.addItem(new Samsung()); return cds; } }// End of the CDBuilder class. 

6) Opprett BuilderDemo-klassen

Fil: BuilderDemo.java
 public class BuilderDemo{ public static void main(String args[]){ CDBuilder cdBuilder=new CDBuilder(); CDType cdType1=cdBuilder.buildSonyCD(); cdType1.showItems(); CDType cdType2=cdBuilder.buildSamsungCD(); cdType2.showItems(); } } 

last ned dette byggemønstereksemplet

Utdata fra eksemplet ovenfor

 CD name : Sony CD, Price : 20 CD name : Samsung CD, Price : 15 

Nok et eksempel fra den virkelige verden på Builder Pattern

UML for Builder Pattern:

Vi vurderer en business case av pizza Hut hvor vi kan få forskjellige varianter av pizza og kald drikke.

Pizza kan være enten en Veg-pizza eller ikke-vegetarisk pizza av flere typer (som ostepizza, løkpizza, masala-pizza osv.) og vil ha 4 størrelser, dvs. small, medium, large, extra-large.

Kald drikke kan være av flere typer (som Pepsi, Cola, Dew, Sprite, Fanta, Maaza, Limca, Thums-up etc.) og vil være i 3 størrelser small, medium, large.

Eksempler fra den virkelige verden på byggherremønster

La oss se trinn-for-trinn-eksemplet på Builder Design Pattern.

Trinn 1: Lag et grensesnittelement som representerer pizzaen og kalddrikken.

Fil: Item.java
 public interface Item { public String name(); public String size(); public float price(); }// End of the interface Item. 

Steg 2: Lag en abstrakt klasse Pizza som vil implementere til grensesnittet Element.

Fil: Pizza.java
 public abstract class Pizza implements Item{ @Override public abstract float price(); } 

Trinn 3: Lag en abstrakt klasse ColdDrink som vil implementere til grensesnittet Item.

Fil: ColdDrink.java
 public abstract class ColdDrink implements Item{ @Override public abstract float price(); } 

Trinn 4: Lag en abstrakt klasse VegPizza som vil strekke seg til den abstrakte klassen Pizza.

Fil: VegPizza.java
 public abstract class VegPizza extends Pizza{ @Override public abstract float price(); @Override public abstract String name(); @Override public abstract String size(); }// End of the abstract class VegPizza. 

Trinn 5: Lag en abstrakt klasse NonVegPizza som vil strekke seg til den abstrakte klassen Pizza.

Fil: NonVegPizza.java
 public abstract class NonVegPizza extends Pizza{ @Override public abstract float price(); @Override public abstract String name(); @Override public abstract String size(); }// End of the abstract class NonVegPizza. 

Trinn 6: Lag nå konkrete underklasser SmallCheezePizza, MediumCheezePizza, LargeCheezePizza, ExtraLargeCheezePizza som vil strekke seg til den abstrakte klassen VegPizza.

Fil: SmallCheezePizza.java
 public class SmallCheezePizza extends VegPizza{ @Override public float price() { return 170.0f; } @Override public String name() { return 'Cheeze Pizza'; } @Override public String size() { return 'Small size'; } }// End of the SmallCheezePizza class. 
Fil: MediumCheezePizza.java
 public class MediumCheezePizza extends VegPizza{ @Override public float price() { return 220.f; } @Override public String name() { return &apos;Cheeze Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } }// End of the MediumCheezePizza class. File: LargeCheezePizza.java <pre> public class LargeCheezePizza extends VegPizza{ @Override public float price() { return 260.0f; } @Override public String name() { return &apos;Cheeze Pizza&apos;; } @Override public String size() { return &apos;Large Size&apos;; } }// End of the LargeCheezePizza class. </pre> File: ExtraLargeCheezePizza.java <pre> public class ExtraLargeCheezePizza extends VegPizza{ @Override public float price() { return 300.f; } @Override public String name() { return &apos;Cheeze Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeCheezePizza class. </pre> <p>Step 7: <b>Now, similarly create concrete sub-classes SmallOnionPizza, MediumOnionPizza, LargeOnionPizza, ExtraLargeOnionPizza that will extend to the abstract class VegPizza.</b> </p> File: SmallOnionPizza.java <pre> public class SmallOnionPizza extends VegPizza { @Override public float price() { return 120.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Small Size&apos;; } }// End of the SmallOnionPizza class. </pre> File: MediumOnionPizza.java <pre> public class MediumOnionPizza extends VegPizza { @Override public float price() { return 150.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } }// End of the MediumOnionPizza class. </pre> File: LargeOnionPizza.java <pre> public class LargeOnionPizza extends VegPizza{ @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Large size&apos;; } }// End of the LargeOnionPizza class. </pre> File: ExtraLargeOnionPizza.java <pre> public class ExtraLargeOnionPizza extends VegPizza { @Override public float price() { return 200.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeOnionPizza class </pre> <p>Step 8: <b>Now, similarly create concrete sub-classes SmallMasalaPizza, MediumMasalaPizza, LargeMasalaPizza, ExtraLargeMasalaPizza that will extend to the abstract class VegPizza.</b> </p> File: SmallMasalaPizza.java <pre> public class SmallMasalaPizza extends VegPizza{ @Override public float price() { return 100.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Samll Size&apos;; } }// End of the SmallMasalaPizza class </pre> File: MediumMasalaPizza.java <pre> public class MediumMasalaPizza extends VegPizza { @Override public float price() { return 120.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } </pre> File: LargeMasalaPizza.java <pre> public class LargeMasalaPizza extends VegPizza{ @Override public float price() { return 150.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Large Size&apos;; } } //End of the LargeMasalaPizza class </pre> File: ExtraLargeMasalaPizza.java <pre> public class ExtraLargeMasalaPizza extends VegPizza { @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeMasalaPizza class </pre> <p>Step 9: <b>Now, create concrete sub-classes SmallNonVegPizza, MediumNonVegPizza, LargeNonVegPizza, ExtraLargeNonVegPizza that will extend to the abstract class NonVegPizza.</b> </p> File: SmallNonVegPizza.java <pre> public class SmallNonVegPizza extends NonVegPizza { @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Samll Size&apos;; } }// End of the SmallNonVegPizza class </pre> File: MediumNonVegPizza.java <pre> public class MediumNonVegPizza extends NonVegPizza{ @Override public float price() { return 200.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } </pre> File: LargeNonVegPizza.java <pre> public class LargeNonVegPizza extends NonVegPizza{ @Override public float price() { return 220.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Large Size&apos;; } }// End of the LargeNonVegPizza class </pre> File: ExtraLargeNonVegPizza.java <pre> public class ExtraLargeNonVegPizza extends NonVegPizza { @Override public float price() { return 250.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } } // End of the ExtraLargeNonVegPizza class </pre> <p>Step 10: <b>Now, create two abstract classes Pepsi and Coke that will extend abstract class ColdDrink. </b> </p> File: Pepsi.java <pre> public abstract class Pepsi extends ColdDrink { @Override public abstract String name(); @Override public abstract String size(); @Override public abstract float price(); }// End of the Pepsi class </pre> File: Coke.java <pre> public abstract class Coke extends ColdDrink { @Override public abstract String name(); @Override public abstract String size(); @Override public abstract float price(); }// End of the Coke class <p>Step 11: <b>Now, create concrete sub-classes SmallPepsi, MediumPepsi, LargePepsi that will extend to the abstract class Pepsi.</b> </p> File: SmallPepsi.java <pre> public class SmallPepsi extends Pepsi{ @Override public String name() { return &apos;300 ml Pepsi&apos;; } @Override public float price() { return 25.0f; } @Override public String size() { return &apos;Small Size&apos;; } }// End of the SmallPepsi class </pre> File: MediumPepsi.java <pre> public class MediumPepsi extends Pepsi { @Override public String name() { return &apos;500 ml Pepsi&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumPepsi class </pre> File: LargePepsi.java <pre> public class LargePepsi extends Pepsi{ @Override public String name() { return &apos;750 ml Pepsi&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargePepsi class </pre> <p>Step 12: <b>Now, create concrete sub-classes SmallCoke, MediumCoke, LargeCoke that will extend to the abstract class Coke.</b> </p> File: SmallCoke.java <pre> public class SmallCoke extends Coke{ @Override public String name() { return &apos;300 ml Coke&apos;; } @Override public String size() { return &apos;Small Size&apos;; } @Override public float price() { return 25.0f; } }// End of the SmallCoke class </pre> File: MediumCoke.java <pre> public class MediumCoke extends Coke{ @Override public String name() { return &apos;500 ml Coke&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumCoke class </pre> File: LargeCoke.java <pre> public class LargeCoke extends Coke { @Override public String name() { return &apos;750 ml Coke&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargeCoke class <p>Step 13: <b>Create an OrderedItems class that are having Item objects defined above.</b> </p> File: OrderedItems.java <pre> import java.util.ArrayList; import java.util.List; public class OrderedItems { List items=new ArrayList(); public void addItems(Item item){ items.add(item); } public float getCost(){ float cost=0.0f; for (Item item : items) { cost+=item.price(); } return cost; } public void showItems(){ for (Item item : items) { System.out.println(&apos;Item is:&apos; +item.name()); System.out.println(&apos;Size is:&apos; +item.size()); System.out.println(&apos;Price is: &apos; +item.price()); } } }// End of the OrderedItems class </pre> <p>Step 14: <b>Create an OrderBuilder class that will be responsible to create the objects of OrderedItems class.</b> </p> File: OrdereBuilder.java <pre> import java.io.BufferedReader; import java.io.IOException; import java.io.InputStreamReader; public class OrderBuilder { public OrderedItems preparePizza() throws IOException{ OrderedItems itemsOrder=new OrderedItems(); BufferedReader br =new BufferedReader(new InputStreamReader(System.in)); System.out.println(&apos; Enter the choice of Pizza &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Veg-Pizza &apos;); System.out.println(&apos; 2. Non-Veg Pizza &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int pizzaandcolddrinkchoice=Integer.parseInt(br.readLine()); switch(pizzaandcolddrinkchoice) { case 1:{ System.out.println(&apos;You ordered Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos; Enter the types of Veg-Pizza &apos;); System.out.println(&apos;------------------------------&apos;); System.out.println(&apos; 1.Cheeze Pizza &apos;); System.out.println(&apos; 2.Onion Pizza &apos;); System.out.println(&apos; 3.Masala Pizza &apos;); System.out.println(&apos; 4.Exit &apos;); System.out.println(&apos;------------------------------&apos;); int vegpizzachoice=Integer.parseInt(br.readLine()); switch(vegpizzachoice) { case 1: { System.out.println(&apos;You ordered Cheeze Pizza&apos;); System.out.println(&apos;Enter the cheeze pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Cheeze Pizza &apos;); System.out.println(&apos; 2. Medium Cheeze Pizza &apos;); System.out.println(&apos; 3. Large Cheeze Pizza &apos;); System.out.println(&apos; 4. Extra-Large Cheeze Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int cheezepizzasize=Integer.parseInt(br.readLine()); switch(cheezepizzasize) { case 1: itemsOrder.addItems(new SmallCheezePizza()); break; case 2: itemsOrder.addItems(new MediumCheezePizza()); break; case 3: itemsOrder.addItems(new LargeCheezePizza()); break; case 4: itemsOrder.addItems(new ExtraLargeCheezePizza()); break; case 2: { System.out.println(&apos;You ordered Onion Pizza&apos;); System.out.println(&apos;Enter the Onion pizza size&apos;); System.out.println(&apos;----------------------------------&apos;); System.out.println(&apos; 1. Small Onion Pizza &apos;); System.out.println(&apos; 2. Medium Onion Pizza &apos;); System.out.println(&apos; 3. Large Onion Pizza &apos;); System.out.println(&apos; 4. Extra-Large Onion Pizza &apos;); System.out.println(&apos;----------------------------------&apos;); int onionpizzasize=Integer.parseInt(br.readLine()); switch(onionpizzasize) { case 1: itemsOrder.addItems(new SmallOnionPizza()); break; case 2: itemsOrder.addItems(new MediumOnionPizza()); break; case 3: itemsOrder.addItems(new LargeOnionPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeOnionPizza()); break; } } break; case 3: { System.out.println(&apos;You ordered Masala Pizza&apos;); System.out.println(&apos;Enter the Masala pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Masala Pizza &apos;); System.out.println(&apos; 2. Medium Masala Pizza &apos;); System.out.println(&apos; 3. Large Masala Pizza &apos;); System.out.println(&apos; 4. Extra-Large Masala Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int masalapizzasize=Integer.parseInt(br.readLine()); switch(masalapizzasize) { case 1: itemsOrder.addItems(new SmallMasalaPizza()); break; case 2: itemsOrder.addItems(new MediumMasalaPizza()); break; case 3: itemsOrder.addItems(new LargeMasalaPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeMasalaPizza()); break; } } break; } } break;// Veg- pizza choice completed. case 2: { System.out.println(&apos;You ordered Non-Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos;Enter the Non-Veg pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Non-Veg Pizza &apos;); System.out.println(&apos; 2. Medium Non-Veg Pizza &apos;); System.out.println(&apos; 3. Large Non-Veg Pizza &apos;); System.out.println(&apos; 4. Extra-Large Non-Veg Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int nonvegpizzasize=Integer.parseInt(br.readLine()); switch(nonvegpizzasize) { case 1: itemsOrder.addItems(new SmallNonVegPizza()); break; case 2: itemsOrder.addItems(new MediumNonVegPizza()); break; case 3: itemsOrder.addItems(new LargeNonVegPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeNonVegPizza()); break; } } break; default: { break; } }//end of main Switch //continued?.. System.out.println(&apos; Enter the choice of ColdDrink &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Pepsi &apos;); System.out.println(&apos; 2. Coke &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int coldDrink=Integer.parseInt(br.readLine()); switch (coldDrink) { case 1: { System.out.println(&apos;You ordered Pepsi &apos;); System.out.println(&apos;Enter the Pepsi Size &apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Pepsi &apos;); System.out.println(&apos; 2. Medium Pepsi &apos;); System.out.println(&apos; 3. Large Pepsi &apos;); System.out.println(&apos;------------------------&apos;); int pepsisize=Integer.parseInt(br.readLine()); switch(pepsisize) { case 1: itemsOrder.addItems(new SmallPepsi()); break; case 2: itemsOrder.addItems(new MediumPepsi()); break; case 3: itemsOrder.addItems(new LargePepsi()); break; } } break; case 2: { System.out.println(&apos;You ordered Coke&apos;); System.out.println(&apos;Enter the Coke Size&apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Coke &apos;); System.out.println(&apos; 2. Medium Coke &apos;); System.out.println(&apos; 3. Large Coke &apos;); System.out.println(&apos; 4. Extra-Large Coke &apos;); System.out.println(&apos;------------------------&apos;); int cokesize=Integer.parseInt(br.readLine()); switch(cokesize) { case 1: itemsOrder.addItems(new SmallCoke()); break; case 2: itemsOrder.addItems(new MediumCoke()); break; case 3: itemsOrder.addItems(new LargeCoke()); break; } } break; default: { break; } }//End of the Cold-Drink switch return itemsOrder; } //End of the preparePizza() method </pre> <p>Step 15: <b>Create a BuilderDemo class that will use the OrderBuilder class.</b> </p> File: Prototype.java <pre> import java.io.IOException; public class BuilderDemo { public static void main(String[] args) throws IOException { // TODO code application logic here OrderBuilder builder=new OrderBuilder(); OrderedItems orderedItems=builder.preparePizza(); orderedItems.showItems(); System.out.println(&apos;
&apos;); System.out.println(&apos;Total Cost : &apos;+ orderedItems.getCost()); } }// End of the BuilderDemo class </pre> <hr> download this Builder Pattern Example <h4>Output</h4>  </pre></pre>
Fil: ExtraLargeCheezePizza.java
 public class ExtraLargeCheezePizza extends VegPizza{ @Override public float price() { return 300.f; } @Override public String name() { return &apos;Cheeze Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeCheezePizza class. 

Trinn 7: Lag nå konkrete underklasser SmallOnionPizza, MediumOnionPizza, LargeOnionPizza, ExtraLargeOnionPizza som vil strekke seg til den abstrakte klassen VegPizza.

Fil: SmallOnionPizza.java
 public class SmallOnionPizza extends VegPizza { @Override public float price() { return 120.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Small Size&apos;; } }// End of the SmallOnionPizza class. 
Fil: MediumOnionPizza.java
 public class MediumOnionPizza extends VegPizza { @Override public float price() { return 150.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } }// End of the MediumOnionPizza class. 
Fil: LargeOnionPizza.java
 public class LargeOnionPizza extends VegPizza{ @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Large size&apos;; } }// End of the LargeOnionPizza class. 
Fil: ExtraLargeOnionPizza.java
 public class ExtraLargeOnionPizza extends VegPizza { @Override public float price() { return 200.0f; } @Override public String name() { return &apos;Onion Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeOnionPizza class 

Trinn 8: Lag nå konkrete underklasser SmallMasalaPizza, MediumMasalaPizza, LargeMasalaPizza, ExtraLargeMasalaPizza som vil strekke seg til den abstrakte klassen VegPizza.

Fil: SmallMasalaPizza.java
 public class SmallMasalaPizza extends VegPizza{ @Override public float price() { return 100.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Samll Size&apos;; } }// End of the SmallMasalaPizza class 
Fil: MediumMasalaPizza.java
 public class MediumMasalaPizza extends VegPizza { @Override public float price() { return 120.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } 
Fil: LargeMasalaPizza.java
 public class LargeMasalaPizza extends VegPizza{ @Override public float price() { return 150.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Large Size&apos;; } } //End of the LargeMasalaPizza class 
Fil: ExtraLargeMasalaPizza.java
 public class ExtraLargeMasalaPizza extends VegPizza { @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Masala Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } }// End of the ExtraLargeMasalaPizza class 

Trinn 9: Lag nå konkrete underklasser SmallNonVegPizza, MediumNonVegPizza, LargeNonVegPizza, ExtraLargeNonVegPizza som vil strekke seg til den abstrakte klassen NonVegPizza.

Fil: SmallNonVegPizza.java
 public class SmallNonVegPizza extends NonVegPizza { @Override public float price() { return 180.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Samll Size&apos;; } }// End of the SmallNonVegPizza class 
Fil: MediumNonVegPizza.java
 public class MediumNonVegPizza extends NonVegPizza{ @Override public float price() { return 200.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } 
Fil: LargeNonVegPizza.java
 public class LargeNonVegPizza extends NonVegPizza{ @Override public float price() { return 220.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Large Size&apos;; } }// End of the LargeNonVegPizza class 
Fil: ExtraLargeNonVegPizza.java
 public class ExtraLargeNonVegPizza extends NonVegPizza { @Override public float price() { return 250.0f; } @Override public String name() { return &apos;Non-Veg Pizza&apos;; } @Override public String size() { return &apos;Extra-Large Size&apos;; } } // End of the ExtraLargeNonVegPizza class 

Trinn 10: Lag nå to abstrakte klasser Pepsi og Coke som vil utvide abstrakt klasse ColdDrink.

Fil: Pepsi.java
 public abstract class Pepsi extends ColdDrink { @Override public abstract String name(); @Override public abstract String size(); @Override public abstract float price(); }// End of the Pepsi class 
Fil: Coke.java
 public abstract class Coke extends ColdDrink { @Override public abstract String name(); @Override public abstract String size(); @Override public abstract float price(); }// End of the Coke class <p>Step 11: <b>Now, create concrete sub-classes SmallPepsi, MediumPepsi, LargePepsi that will extend to the abstract class Pepsi.</b> </p> File: SmallPepsi.java <pre> public class SmallPepsi extends Pepsi{ @Override public String name() { return &apos;300 ml Pepsi&apos;; } @Override public float price() { return 25.0f; } @Override public String size() { return &apos;Small Size&apos;; } }// End of the SmallPepsi class </pre> File: MediumPepsi.java <pre> public class MediumPepsi extends Pepsi { @Override public String name() { return &apos;500 ml Pepsi&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumPepsi class </pre> File: LargePepsi.java <pre> public class LargePepsi extends Pepsi{ @Override public String name() { return &apos;750 ml Pepsi&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargePepsi class </pre> <p>Step 12: <b>Now, create concrete sub-classes SmallCoke, MediumCoke, LargeCoke that will extend to the abstract class Coke.</b> </p> File: SmallCoke.java <pre> public class SmallCoke extends Coke{ @Override public String name() { return &apos;300 ml Coke&apos;; } @Override public String size() { return &apos;Small Size&apos;; } @Override public float price() { return 25.0f; } }// End of the SmallCoke class </pre> File: MediumCoke.java <pre> public class MediumCoke extends Coke{ @Override public String name() { return &apos;500 ml Coke&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumCoke class </pre> File: LargeCoke.java <pre> public class LargeCoke extends Coke { @Override public String name() { return &apos;750 ml Coke&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargeCoke class <p>Step 13: <b>Create an OrderedItems class that are having Item objects defined above.</b> </p> File: OrderedItems.java <pre> import java.util.ArrayList; import java.util.List; public class OrderedItems { List items=new ArrayList(); public void addItems(Item item){ items.add(item); } public float getCost(){ float cost=0.0f; for (Item item : items) { cost+=item.price(); } return cost; } public void showItems(){ for (Item item : items) { System.out.println(&apos;Item is:&apos; +item.name()); System.out.println(&apos;Size is:&apos; +item.size()); System.out.println(&apos;Price is: &apos; +item.price()); } } }// End of the OrderedItems class </pre> <p>Step 14: <b>Create an OrderBuilder class that will be responsible to create the objects of OrderedItems class.</b> </p> File: OrdereBuilder.java <pre> import java.io.BufferedReader; import java.io.IOException; import java.io.InputStreamReader; public class OrderBuilder { public OrderedItems preparePizza() throws IOException{ OrderedItems itemsOrder=new OrderedItems(); BufferedReader br =new BufferedReader(new InputStreamReader(System.in)); System.out.println(&apos; Enter the choice of Pizza &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Veg-Pizza &apos;); System.out.println(&apos; 2. Non-Veg Pizza &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int pizzaandcolddrinkchoice=Integer.parseInt(br.readLine()); switch(pizzaandcolddrinkchoice) { case 1:{ System.out.println(&apos;You ordered Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos; Enter the types of Veg-Pizza &apos;); System.out.println(&apos;------------------------------&apos;); System.out.println(&apos; 1.Cheeze Pizza &apos;); System.out.println(&apos; 2.Onion Pizza &apos;); System.out.println(&apos; 3.Masala Pizza &apos;); System.out.println(&apos; 4.Exit &apos;); System.out.println(&apos;------------------------------&apos;); int vegpizzachoice=Integer.parseInt(br.readLine()); switch(vegpizzachoice) { case 1: { System.out.println(&apos;You ordered Cheeze Pizza&apos;); System.out.println(&apos;Enter the cheeze pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Cheeze Pizza &apos;); System.out.println(&apos; 2. Medium Cheeze Pizza &apos;); System.out.println(&apos; 3. Large Cheeze Pizza &apos;); System.out.println(&apos; 4. Extra-Large Cheeze Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int cheezepizzasize=Integer.parseInt(br.readLine()); switch(cheezepizzasize) { case 1: itemsOrder.addItems(new SmallCheezePizza()); break; case 2: itemsOrder.addItems(new MediumCheezePizza()); break; case 3: itemsOrder.addItems(new LargeCheezePizza()); break; case 4: itemsOrder.addItems(new ExtraLargeCheezePizza()); break; case 2: { System.out.println(&apos;You ordered Onion Pizza&apos;); System.out.println(&apos;Enter the Onion pizza size&apos;); System.out.println(&apos;----------------------------------&apos;); System.out.println(&apos; 1. Small Onion Pizza &apos;); System.out.println(&apos; 2. Medium Onion Pizza &apos;); System.out.println(&apos; 3. Large Onion Pizza &apos;); System.out.println(&apos; 4. Extra-Large Onion Pizza &apos;); System.out.println(&apos;----------------------------------&apos;); int onionpizzasize=Integer.parseInt(br.readLine()); switch(onionpizzasize) { case 1: itemsOrder.addItems(new SmallOnionPizza()); break; case 2: itemsOrder.addItems(new MediumOnionPizza()); break; case 3: itemsOrder.addItems(new LargeOnionPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeOnionPizza()); break; } } break; case 3: { System.out.println(&apos;You ordered Masala Pizza&apos;); System.out.println(&apos;Enter the Masala pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Masala Pizza &apos;); System.out.println(&apos; 2. Medium Masala Pizza &apos;); System.out.println(&apos; 3. Large Masala Pizza &apos;); System.out.println(&apos; 4. Extra-Large Masala Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int masalapizzasize=Integer.parseInt(br.readLine()); switch(masalapizzasize) { case 1: itemsOrder.addItems(new SmallMasalaPizza()); break; case 2: itemsOrder.addItems(new MediumMasalaPizza()); break; case 3: itemsOrder.addItems(new LargeMasalaPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeMasalaPizza()); break; } } break; } } break;// Veg- pizza choice completed. case 2: { System.out.println(&apos;You ordered Non-Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos;Enter the Non-Veg pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Non-Veg Pizza &apos;); System.out.println(&apos; 2. Medium Non-Veg Pizza &apos;); System.out.println(&apos; 3. Large Non-Veg Pizza &apos;); System.out.println(&apos; 4. Extra-Large Non-Veg Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int nonvegpizzasize=Integer.parseInt(br.readLine()); switch(nonvegpizzasize) { case 1: itemsOrder.addItems(new SmallNonVegPizza()); break; case 2: itemsOrder.addItems(new MediumNonVegPizza()); break; case 3: itemsOrder.addItems(new LargeNonVegPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeNonVegPizza()); break; } } break; default: { break; } }//end of main Switch //continued?.. System.out.println(&apos; Enter the choice of ColdDrink &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Pepsi &apos;); System.out.println(&apos; 2. Coke &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int coldDrink=Integer.parseInt(br.readLine()); switch (coldDrink) { case 1: { System.out.println(&apos;You ordered Pepsi &apos;); System.out.println(&apos;Enter the Pepsi Size &apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Pepsi &apos;); System.out.println(&apos; 2. Medium Pepsi &apos;); System.out.println(&apos; 3. Large Pepsi &apos;); System.out.println(&apos;------------------------&apos;); int pepsisize=Integer.parseInt(br.readLine()); switch(pepsisize) { case 1: itemsOrder.addItems(new SmallPepsi()); break; case 2: itemsOrder.addItems(new MediumPepsi()); break; case 3: itemsOrder.addItems(new LargePepsi()); break; } } break; case 2: { System.out.println(&apos;You ordered Coke&apos;); System.out.println(&apos;Enter the Coke Size&apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Coke &apos;); System.out.println(&apos; 2. Medium Coke &apos;); System.out.println(&apos; 3. Large Coke &apos;); System.out.println(&apos; 4. Extra-Large Coke &apos;); System.out.println(&apos;------------------------&apos;); int cokesize=Integer.parseInt(br.readLine()); switch(cokesize) { case 1: itemsOrder.addItems(new SmallCoke()); break; case 2: itemsOrder.addItems(new MediumCoke()); break; case 3: itemsOrder.addItems(new LargeCoke()); break; } } break; default: { break; } }//End of the Cold-Drink switch return itemsOrder; } //End of the preparePizza() method </pre> <p>Step 15: <b>Create a BuilderDemo class that will use the OrderBuilder class.</b> </p> File: Prototype.java <pre> import java.io.IOException; public class BuilderDemo { public static void main(String[] args) throws IOException { // TODO code application logic here OrderBuilder builder=new OrderBuilder(); OrderedItems orderedItems=builder.preparePizza(); orderedItems.showItems(); System.out.println(&apos;
&apos;); System.out.println(&apos;Total Cost : &apos;+ orderedItems.getCost()); } }// End of the BuilderDemo class </pre> <hr> download this Builder Pattern Example <h4>Output</h4>  </pre>
Fil: MediumPepsi.java
 public class MediumPepsi extends Pepsi { @Override public String name() { return &apos;500 ml Pepsi&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumPepsi class 
Fil: LargePepsi.java
 public class LargePepsi extends Pepsi{ @Override public String name() { return &apos;750 ml Pepsi&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargePepsi class 

Trinn 12: Lag nå konkrete underklasser SmallCoke, MediumCoke, LargeCoke som vil strekke seg til den abstrakte klassen Coke.

Fil: SmallCoke.java
 public class SmallCoke extends Coke{ @Override public String name() { return &apos;300 ml Coke&apos;; } @Override public String size() { return &apos;Small Size&apos;; } @Override public float price() { return 25.0f; } }// End of the SmallCoke class 
Fil: MediumCoke.java
 public class MediumCoke extends Coke{ @Override public String name() { return &apos;500 ml Coke&apos;; } @Override public String size() { return &apos;Medium Size&apos;; } @Override public float price() { return 35.0f; } }// End of the MediumCoke class 
Fil: LargeCoke.java
 public class LargeCoke extends Coke { @Override public String name() { return &apos;750 ml Coke&apos;; } @Override public String size() { return &apos;Large Size&apos;; } @Override public float price() { return 50.0f; } }// End of the LargeCoke class <p>Step 13: <b>Create an OrderedItems class that are having Item objects defined above.</b> </p> File: OrderedItems.java <pre> import java.util.ArrayList; import java.util.List; public class OrderedItems { List items=new ArrayList(); public void addItems(Item item){ items.add(item); } public float getCost(){ float cost=0.0f; for (Item item : items) { cost+=item.price(); } return cost; } public void showItems(){ for (Item item : items) { System.out.println(&apos;Item is:&apos; +item.name()); System.out.println(&apos;Size is:&apos; +item.size()); System.out.println(&apos;Price is: &apos; +item.price()); } } }// End of the OrderedItems class </pre> <p>Step 14: <b>Create an OrderBuilder class that will be responsible to create the objects of OrderedItems class.</b> </p> File: OrdereBuilder.java <pre> import java.io.BufferedReader; import java.io.IOException; import java.io.InputStreamReader; public class OrderBuilder { public OrderedItems preparePizza() throws IOException{ OrderedItems itemsOrder=new OrderedItems(); BufferedReader br =new BufferedReader(new InputStreamReader(System.in)); System.out.println(&apos; Enter the choice of Pizza &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Veg-Pizza &apos;); System.out.println(&apos; 2. Non-Veg Pizza &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int pizzaandcolddrinkchoice=Integer.parseInt(br.readLine()); switch(pizzaandcolddrinkchoice) { case 1:{ System.out.println(&apos;You ordered Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos; Enter the types of Veg-Pizza &apos;); System.out.println(&apos;------------------------------&apos;); System.out.println(&apos; 1.Cheeze Pizza &apos;); System.out.println(&apos; 2.Onion Pizza &apos;); System.out.println(&apos; 3.Masala Pizza &apos;); System.out.println(&apos; 4.Exit &apos;); System.out.println(&apos;------------------------------&apos;); int vegpizzachoice=Integer.parseInt(br.readLine()); switch(vegpizzachoice) { case 1: { System.out.println(&apos;You ordered Cheeze Pizza&apos;); System.out.println(&apos;Enter the cheeze pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Cheeze Pizza &apos;); System.out.println(&apos; 2. Medium Cheeze Pizza &apos;); System.out.println(&apos; 3. Large Cheeze Pizza &apos;); System.out.println(&apos; 4. Extra-Large Cheeze Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int cheezepizzasize=Integer.parseInt(br.readLine()); switch(cheezepizzasize) { case 1: itemsOrder.addItems(new SmallCheezePizza()); break; case 2: itemsOrder.addItems(new MediumCheezePizza()); break; case 3: itemsOrder.addItems(new LargeCheezePizza()); break; case 4: itemsOrder.addItems(new ExtraLargeCheezePizza()); break; case 2: { System.out.println(&apos;You ordered Onion Pizza&apos;); System.out.println(&apos;Enter the Onion pizza size&apos;); System.out.println(&apos;----------------------------------&apos;); System.out.println(&apos; 1. Small Onion Pizza &apos;); System.out.println(&apos; 2. Medium Onion Pizza &apos;); System.out.println(&apos; 3. Large Onion Pizza &apos;); System.out.println(&apos; 4. Extra-Large Onion Pizza &apos;); System.out.println(&apos;----------------------------------&apos;); int onionpizzasize=Integer.parseInt(br.readLine()); switch(onionpizzasize) { case 1: itemsOrder.addItems(new SmallOnionPizza()); break; case 2: itemsOrder.addItems(new MediumOnionPizza()); break; case 3: itemsOrder.addItems(new LargeOnionPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeOnionPizza()); break; } } break; case 3: { System.out.println(&apos;You ordered Masala Pizza&apos;); System.out.println(&apos;Enter the Masala pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Masala Pizza &apos;); System.out.println(&apos; 2. Medium Masala Pizza &apos;); System.out.println(&apos; 3. Large Masala Pizza &apos;); System.out.println(&apos; 4. Extra-Large Masala Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int masalapizzasize=Integer.parseInt(br.readLine()); switch(masalapizzasize) { case 1: itemsOrder.addItems(new SmallMasalaPizza()); break; case 2: itemsOrder.addItems(new MediumMasalaPizza()); break; case 3: itemsOrder.addItems(new LargeMasalaPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeMasalaPizza()); break; } } break; } } break;// Veg- pizza choice completed. case 2: { System.out.println(&apos;You ordered Non-Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos;Enter the Non-Veg pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Non-Veg Pizza &apos;); System.out.println(&apos; 2. Medium Non-Veg Pizza &apos;); System.out.println(&apos; 3. Large Non-Veg Pizza &apos;); System.out.println(&apos; 4. Extra-Large Non-Veg Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int nonvegpizzasize=Integer.parseInt(br.readLine()); switch(nonvegpizzasize) { case 1: itemsOrder.addItems(new SmallNonVegPizza()); break; case 2: itemsOrder.addItems(new MediumNonVegPizza()); break; case 3: itemsOrder.addItems(new LargeNonVegPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeNonVegPizza()); break; } } break; default: { break; } }//end of main Switch //continued?.. System.out.println(&apos; Enter the choice of ColdDrink &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Pepsi &apos;); System.out.println(&apos; 2. Coke &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int coldDrink=Integer.parseInt(br.readLine()); switch (coldDrink) { case 1: { System.out.println(&apos;You ordered Pepsi &apos;); System.out.println(&apos;Enter the Pepsi Size &apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Pepsi &apos;); System.out.println(&apos; 2. Medium Pepsi &apos;); System.out.println(&apos; 3. Large Pepsi &apos;); System.out.println(&apos;------------------------&apos;); int pepsisize=Integer.parseInt(br.readLine()); switch(pepsisize) { case 1: itemsOrder.addItems(new SmallPepsi()); break; case 2: itemsOrder.addItems(new MediumPepsi()); break; case 3: itemsOrder.addItems(new LargePepsi()); break; } } break; case 2: { System.out.println(&apos;You ordered Coke&apos;); System.out.println(&apos;Enter the Coke Size&apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Coke &apos;); System.out.println(&apos; 2. Medium Coke &apos;); System.out.println(&apos; 3. Large Coke &apos;); System.out.println(&apos; 4. Extra-Large Coke &apos;); System.out.println(&apos;------------------------&apos;); int cokesize=Integer.parseInt(br.readLine()); switch(cokesize) { case 1: itemsOrder.addItems(new SmallCoke()); break; case 2: itemsOrder.addItems(new MediumCoke()); break; case 3: itemsOrder.addItems(new LargeCoke()); break; } } break; default: { break; } }//End of the Cold-Drink switch return itemsOrder; } //End of the preparePizza() method </pre> <p>Step 15: <b>Create a BuilderDemo class that will use the OrderBuilder class.</b> </p> File: Prototype.java <pre> import java.io.IOException; public class BuilderDemo { public static void main(String[] args) throws IOException { // TODO code application logic here OrderBuilder builder=new OrderBuilder(); OrderedItems orderedItems=builder.preparePizza(); orderedItems.showItems(); System.out.println(&apos;
&apos;); System.out.println(&apos;Total Cost : &apos;+ orderedItems.getCost()); } }// End of the BuilderDemo class </pre> <hr> download this Builder Pattern Example <h4>Output</h4>  

Trinn 14: Opprett en OrderBuilder-klasse som vil være ansvarlig for å lage objektene til OrderedItems-klassen.

Fil: OrdereBuilder.java
 import java.io.BufferedReader; import java.io.IOException; import java.io.InputStreamReader; public class OrderBuilder { public OrderedItems preparePizza() throws IOException{ OrderedItems itemsOrder=new OrderedItems(); BufferedReader br =new BufferedReader(new InputStreamReader(System.in)); System.out.println(&apos; Enter the choice of Pizza &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Veg-Pizza &apos;); System.out.println(&apos; 2. Non-Veg Pizza &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int pizzaandcolddrinkchoice=Integer.parseInt(br.readLine()); switch(pizzaandcolddrinkchoice) { case 1:{ System.out.println(&apos;You ordered Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos; Enter the types of Veg-Pizza &apos;); System.out.println(&apos;------------------------------&apos;); System.out.println(&apos; 1.Cheeze Pizza &apos;); System.out.println(&apos; 2.Onion Pizza &apos;); System.out.println(&apos; 3.Masala Pizza &apos;); System.out.println(&apos; 4.Exit &apos;); System.out.println(&apos;------------------------------&apos;); int vegpizzachoice=Integer.parseInt(br.readLine()); switch(vegpizzachoice) { case 1: { System.out.println(&apos;You ordered Cheeze Pizza&apos;); System.out.println(&apos;Enter the cheeze pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Cheeze Pizza &apos;); System.out.println(&apos; 2. Medium Cheeze Pizza &apos;); System.out.println(&apos; 3. Large Cheeze Pizza &apos;); System.out.println(&apos; 4. Extra-Large Cheeze Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int cheezepizzasize=Integer.parseInt(br.readLine()); switch(cheezepizzasize) { case 1: itemsOrder.addItems(new SmallCheezePizza()); break; case 2: itemsOrder.addItems(new MediumCheezePizza()); break; case 3: itemsOrder.addItems(new LargeCheezePizza()); break; case 4: itemsOrder.addItems(new ExtraLargeCheezePizza()); break; case 2: { System.out.println(&apos;You ordered Onion Pizza&apos;); System.out.println(&apos;Enter the Onion pizza size&apos;); System.out.println(&apos;----------------------------------&apos;); System.out.println(&apos; 1. Small Onion Pizza &apos;); System.out.println(&apos; 2. Medium Onion Pizza &apos;); System.out.println(&apos; 3. Large Onion Pizza &apos;); System.out.println(&apos; 4. Extra-Large Onion Pizza &apos;); System.out.println(&apos;----------------------------------&apos;); int onionpizzasize=Integer.parseInt(br.readLine()); switch(onionpizzasize) { case 1: itemsOrder.addItems(new SmallOnionPizza()); break; case 2: itemsOrder.addItems(new MediumOnionPizza()); break; case 3: itemsOrder.addItems(new LargeOnionPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeOnionPizza()); break; } } break; case 3: { System.out.println(&apos;You ordered Masala Pizza&apos;); System.out.println(&apos;Enter the Masala pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Masala Pizza &apos;); System.out.println(&apos; 2. Medium Masala Pizza &apos;); System.out.println(&apos; 3. Large Masala Pizza &apos;); System.out.println(&apos; 4. Extra-Large Masala Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int masalapizzasize=Integer.parseInt(br.readLine()); switch(masalapizzasize) { case 1: itemsOrder.addItems(new SmallMasalaPizza()); break; case 2: itemsOrder.addItems(new MediumMasalaPizza()); break; case 3: itemsOrder.addItems(new LargeMasalaPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeMasalaPizza()); break; } } break; } } break;// Veg- pizza choice completed. case 2: { System.out.println(&apos;You ordered Non-Veg Pizza&apos;); System.out.println(&apos;

&apos;); System.out.println(&apos;Enter the Non-Veg pizza size&apos;); System.out.println(&apos;------------------------------------&apos;); System.out.println(&apos; 1. Small Non-Veg Pizza &apos;); System.out.println(&apos; 2. Medium Non-Veg Pizza &apos;); System.out.println(&apos; 3. Large Non-Veg Pizza &apos;); System.out.println(&apos; 4. Extra-Large Non-Veg Pizza &apos;); System.out.println(&apos;------------------------------------&apos;); int nonvegpizzasize=Integer.parseInt(br.readLine()); switch(nonvegpizzasize) { case 1: itemsOrder.addItems(new SmallNonVegPizza()); break; case 2: itemsOrder.addItems(new MediumNonVegPizza()); break; case 3: itemsOrder.addItems(new LargeNonVegPizza()); break; case 4: itemsOrder.addItems(new ExtraLargeNonVegPizza()); break; } } break; default: { break; } }//end of main Switch //continued?.. System.out.println(&apos; Enter the choice of ColdDrink &apos;); System.out.println(&apos;============================&apos;); System.out.println(&apos; 1. Pepsi &apos;); System.out.println(&apos; 2. Coke &apos;); System.out.println(&apos; 3. Exit &apos;); System.out.println(&apos;============================&apos;); int coldDrink=Integer.parseInt(br.readLine()); switch (coldDrink) { case 1: { System.out.println(&apos;You ordered Pepsi &apos;); System.out.println(&apos;Enter the Pepsi Size &apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Pepsi &apos;); System.out.println(&apos; 2. Medium Pepsi &apos;); System.out.println(&apos; 3. Large Pepsi &apos;); System.out.println(&apos;------------------------&apos;); int pepsisize=Integer.parseInt(br.readLine()); switch(pepsisize) { case 1: itemsOrder.addItems(new SmallPepsi()); break; case 2: itemsOrder.addItems(new MediumPepsi()); break; case 3: itemsOrder.addItems(new LargePepsi()); break; } } break; case 2: { System.out.println(&apos;You ordered Coke&apos;); System.out.println(&apos;Enter the Coke Size&apos;); System.out.println(&apos;------------------------&apos;); System.out.println(&apos; 1. Small Coke &apos;); System.out.println(&apos; 2. Medium Coke &apos;); System.out.println(&apos; 3. Large Coke &apos;); System.out.println(&apos; 4. Extra-Large Coke &apos;); System.out.println(&apos;------------------------&apos;); int cokesize=Integer.parseInt(br.readLine()); switch(cokesize) { case 1: itemsOrder.addItems(new SmallCoke()); break; case 2: itemsOrder.addItems(new MediumCoke()); break; case 3: itemsOrder.addItems(new LargeCoke()); break; } } break; default: { break; } }//End of the Cold-Drink switch return itemsOrder; } //End of the preparePizza() method 

Trinn 15: Opprett en BuilderDemo-klasse som vil bruke OrderBuilder-klassen.

Fil: Prototype.java
 import java.io.IOException; public class BuilderDemo { public static void main(String[] args) throws IOException { // TODO code application logic here OrderBuilder builder=new OrderBuilder(); OrderedItems orderedItems=builder.preparePizza(); orderedItems.showItems(); System.out.println(&apos;
&apos;); System.out.println(&apos;Total Cost : &apos;+ orderedItems.getCost()); } }// End of the BuilderDemo class 

last ned dette Builder Pattern-eksemplet

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