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Tervezési Minták

Builder tervezési minta

  1. Builder tervezési minta
  2. A Builder DP előnyei
  3. A Builder DP használata
  4. A Builder DP UML-je
  5. Példa a Builder DP-re

Builder Pattern ezt mondja 'összetett objektum építése egyszerű objektumokból lépésről lépésre'

Leginkább akkor használatos, ha az objektum nem hozható létre egyetlen lépésben, mint például egy összetett objektum deszerializálása során.

A Builder tervezési minta előnyei

A Builder Pattern fő előnyei a következők:

  • Világos elválasztást biztosít egy objektum felépítése és ábrázolása között.
  • Jobb ellenőrzést biztosít az építési folyamat felett.
  • Támogatja az objektumok belső reprezentációjának megváltoztatását.

UML a Builder Pattern-példához

Példa a Builder tervezési mintájára

Az építői tervezési minta egyszerű példájának létrehozásához a következő 6 lépést kell követnie.

  1. Csomagolási felület létrehozása
  2. Hozzon létre 2 absztrakt osztályú CD-t és céget
  3. Hozzon létre 2 megvalósítási osztályt a vállalatnál: Sony és Samsung
  4. Hozza létre a CDType osztályt
  5. Hozza létre a CDBuilder osztályt
  6. Hozza létre a BuilderDemo osztályt

1) Csomagolási felület létrehozása

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

2) Hozzon létre 2 absztrakt osztályt CD-vel és céggel

Hozzon létre egy absztrakt osztályú CD-t, amely megvalósítja a csomagolási felületet.

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

3) Hozzon létre 2 vállalati implementációs osztályt: Sony és Samsung

Fájl: 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.
Fájl: 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) Hozza létre a CDType osztályt

Fájl: 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) Hozza létre a CDBuilder osztályt

Fájl: 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) Hozza létre a BuilderDemo osztályt

Fájl: 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(); } }
töltse le ezt az építőminta-példát

A fenti példa kimenete 

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

A Builder Pattern egy másik valós példája

UML a Builder mintához:

Üzleti esetet fontolgatunk Pizza Hut ahol különféle pizzákat és hideg italokat kaphatunk.

pizza Többféle lehet vega pizza vagy nem vega pizza (pl. sajtos pizza, hagymás pizza, masala-pizza stb.), és 4 méretű lesz, azaz kicsi, közepes, nagy, extra nagy.

Hideg ital többféle lehet (pl. Pepsi, Coke, Dew, Sprite, Fanta, Maaza, Limca, Thums-up stb.), és 3 méretben lesz kicsi, közepes, nagy.

Valós példa az építőmintára

Lássuk lépésről lépésre valós példát a Builder Design Patternre.

1. lépés: Hozzon létre egy interfész elemet, amely a pizzát és a hideg italt képviseli.

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

2. lépés: Hozzon létre egy absztrakt Pizza osztályt, amely implementálja az elem felületét.

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

3. lépés: Hozzon létre egy absztrakt ColdDrink osztályt, amely implementálja az elem interfészét.

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

4. lépés: Hozzon létre egy absztrakt VegPizza osztályt, amely kiterjed az absztrakt Pizza osztályra.

Fájl: 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.

5. lépés: Hozzon létre egy absztrakt NonVegPizza osztályt, amely kiterjed a Pizza absztrakt osztályra.

Fájl: 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.

6. lépés: Most hozzon létre konkrét alosztályokat SmallCheezePizza, MediumCheezePizza, LargeCheezePizza, ExtraLargeCheezePizza, amelyek kiterjesztik az absztrakt VegPizza osztályt.

Fájl: 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.
Fájl: 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>
Fájl: 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.

7. lépés: Most hasonlóképpen hozzon létre konkrét alosztályokat SmallOnionPizza, MediumOnionPizza, Large OnionPizza, ExtraLarge OnionPizza, amelyek kiterjesztik az absztrakt VegPizza osztályt.

Fájl: 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.
Fájl: 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.
Fájl: 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.
Fájl: 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

8. lépés: Most hasonlóképpen hozzon létre konkrét alosztályokat SmallMasalaPizza, MediumMasalaPizza, LargeMasalaPizza, ExtraLargeMasalaPizza, amelyek kiterjesztik az absztrakt VegPizza osztályt.

Fájl: 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
Fájl: 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;; }
Fájl: 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
Fájl: 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

9. lépés: Most hozza létre a SmallNonVegPizza, MediumNonVegPizza, LargeNonVegPizza, ExtraLargeNonVegPizza konkrét alosztályokat, amelyek kiterjesztik a NonVegPizza elvont osztályra.

Fájl: 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
Fájl: 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;; }
Fájl: 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
Fájl: 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

10. lépés: Most hozzon létre két absztrakt osztályt Pepsi és Coke, amelyek kiterjesztik az absztrakt ColdDrink osztályt.

Fájl: 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
Fájl: 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>
Fájl: 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
Fájl: 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

12. lépés: Most hozzon létre konkrét SmallCoke, MediumCoke, LargeCoke alosztályokat, amelyek kiterjesztik az absztrakt Coke osztályt.

Fájl: 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
Fájl: 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
Fájl: 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>

14. lépés: Hozzon létre egy OrderBuilder osztályt, amely felelős az OrderedItems osztály objektumainak létrehozásáért.

Fájl: 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

15. lépés: Hozzon létre egy BuilderDemo osztályt, amely az OrderBuilder osztályt fogja használni.

Fájl: 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
töltse le ezt a Builder Pattern példát

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