Getter- og settermetoder brukes ofte i Java-programmering. Geter og setter metoder i Java er mye brukt for å få tilgang til og manipulere verdiene til klassefelt. Vanligvis er klassefelt dekorert med en privat tilgangsspesifikasjon. Derfor, for å få tilgang til dem, brukes spesifikasjoner for offentlig tilgang med getter- og setter-metodene.
Behovet for Getter og Setter-metoden
Man kan hevde at de erklærer klassefeltene som offentlige og fjerner getter- og setter-metodene. En slik kodestil er imidlertid dårlig, og man kan sette noe absurd verdi på klassefeltene. La oss forstå det ved hjelp av et eksempel.
public class GetterSetterExample { public salary; public storeSalaryDB(int salary) { // code for storing the salary in the database } // main method public static void main(String argvs[]) { GetterSetterExample obj = new GetterSetterExample(); obj.salary = -50000; // storing salary in database obj.storeSalaryDB(salary); } }
Legg merke til at koden lagrer en negativ lønn i databasen som er feil. En organisasjon krediterer aldri en negativ lønn på kontoen til en ansatt. Å tilordne et absurd beløp til lønnsvariabelen skjedde fordi den er deklarert med en offentlighetsspesifikasjon. Den riktige måten å skrive koden ovenfor er:
public class GetterSetterExample { private salary; // a setter method that assign a // value to the salary variable void setSalary(int s) { if(s <0 ) { s="-s;" } this.salary="s;" a getter mehtod to retrieve the salary int getsalary() return this.salary; public storesalarydb(int salary) code for storing in database system.out.println('the ') main method static void main(string argvs[]) creating an object of class gettersetterexample obj="new" gettersetterexample(); obj.setsalary(-50000); obj.storesalarydb(salary); < pre> <p>Now, we can see better control over what we send to the database to store. Whenever the salary is negative, we are converting the salary into a positive value, and then we are sending it to the database to store. Thus, no matter what value we send to the setter method, the if-block of the setter method takes care of the absurd value and thus gives better control on the salary value.</p> <h2>Getter Setter Java Program</h2> <p> <strong>FileName:</strong> GetterSetterExample1.java</p> <pre> class Employee { // class member variable private int eId; private String eName; private String eDesignation; private String eCompany; public int getEmpId() { return eId; } public void setEmpId(final int eId) { this.eId = eId; } public String getEmpName() { return eName; } public void setEmpName(final String eName) { // Validating the employee's name and // throwing an exception if the name is null or its length is less than or equal to 0. if(eName == null || eName.length() <= 0) { throw new illegalargumentexception(); } this.ename="eName;" public string getempdesignation() return edesignation; void setempdesignation(final edesignation) this.edesignation="eDesignation;" getempcompany() ecompany; setempcompany(final ecompany) this.ecompany="eCompany;" for printing the values @override tostring() str="Employee: [id = " + getempid() ', name=" + getEmpName() + " , designation=" + getEmpDesignation() + " company=" + getEmpCompany() + " ]'; str; main class. class gettersetterexample1 method static main(string argvs[]) creating an object of employee final emp="new" employee(); details are getting set using setter methods. emp.setempid(107); emp.setempname('kathy'); emp.setempdesignation('software tester'); emp.setempcompany('xyz corporation'); displaying 'tostring()' method, which uses getter methods system.out.println(emp.tostring()); < pre> <p> <strong>Output:</strong> </p> <pre> Employee: [id = 107, name = Kathy, designation = Software Tester, company = XYZ Corporation] </pre> <h2>Bad Practices in Getter and Setter Methods</h2> <p>There are some common bad practices that people usually do when they deal with the getter and setter methods.</p> <h3>Bad Practice 1:</h3> <p>Using getter and setter for the variable that is declared with low restricted scope.</p> <pre> public salary; void setSalary(int s) { salary = s; } int getSalary() { return salary; } </pre> <p>It is evident that from the main method, one can directly access the variable salary, which is not only bad but also makes the presence of the getter and setter methods irrelevant.</p> <h3>Bad Practice 2:</h3> <p>Using an object reference in the setter method. Consider the following program.</p> <p> <strong>FileName:</strong> GetterSetterExample2.java</p> <pre> class ABC { private int[] val; void setVal(int[] arr) { this.val = arr; // line 7 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; i++) { system.out.print(this.val[i] + ' '); } main class public gettersetterexample2 method static void main(string argvs[]) instantiating the abc obj="new" abc(); int mainarr[]="{3," 4, 6, 8, 78, 9}; invoking setter obj.setval(mainarr); display obj.display(); updating value at 0th index mainarr[0]="-1;" system.out.println(); < pre> <p> <strong>Output:</strong> </p> <pre> 3 4 6 8 78 9 -1 4 6 8 78 9 </pre> <p> <strong>Explanation:</strong> </p> <p>References are a bit tricky to deal with! In the above code, at line 43, the value got updated at the 0th index for array mainArr[]. However, it also got reflected in the array val[]. It should not happen as val[] array is declared private; hence, it is expected that any code outside of the class ABC should not modify it. However, because of the references, everything is messed up. The setter method setVal() expecting a reference of an int array, and at line 7, the reference of the int arr[] is getting copied to val[]. Note that the reference variable arr[] is storing the reference of the array mainArr[]. Thus, we can say val[] is storing the reference of the mainArr[].</p> <p>Therefore, whatever we change in the mainArr[] also gets reflected in the val[] array, which violates the purpose of the setter method. Also, there is no meaning in adding the private access specifier to the val[] array; because one can change the value of the val[] array in the main method, which is evident by looking at the output.</p> <p>A better way of writing the above code is:</p> <p> <strong>FileName:</strong> GetterSetterExample3.java</p> <pre> class ABC { private int[] val; void setVal(int[] arr) { int size = arr.length; // allocating the memory as // per the array arr size val = new int[size]; // line 11 for(int i = 0; i <size; 17 53 i++) { copying the value one by into val array this.val[i]="arr[i];" line } for displaying present in void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + ' '); main class. public class gettersetterexample3 method static main(string argvs[]) instantiating abc obj="new" abc(); mainarr[]="{3," 4, 6, 8, 78, 9}; invoking setter obj.setval(mainarr); display obj.display(); updating at 0th index mainarr[0]="-1;" system.out.println(); again pre> <p> <strong>Output:</strong> </p> <pre> 3 4 6 8 78 9 3 4 6 8 78 9 </pre> <p> <strong>Explanation:</strong> </p> <p>In the above code, we are doing the deep copy of elements of the array arr[]. In line 11, we are creating an entirely new array. Thus, the val[] is not referring to the arr[]. Also, in line 17, only values of the element are getting copied. Therefore, when we change the value of the 0th element at line 53, the change is not reflected in the val[]. Thus, the above code respects the encapsulation of the private member variable val[].</p> <h3>Bad Practice 3:</h3> <p>Returning an object reference in the getter method. Observe the following program.</p> <p> <strong>FileName:</strong> GetterSetterExample4.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { // returning the reference return val; // line 9 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; 42 i++) { system.out.print(this.val[i] + ' '); } main class. public class gettersetterexample4 method static void main(string argvs[]) instantiating the abc obj="new" abc(); invoking getter and storing result int arr[]="obj.getVal();" display obj.display(); updating value at 0th index arr[0]="-1;" line system.out.println(); again < pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 -1 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> </p> <p>The above code is not handling the references properly. The getter method is returning the reference of the array. The arr[] is storing the reference of the array val[], which is declared private in the class ABC. Because of exposing the reference to the outer world, arr[] can manipulate the val[], and thus, the encapsulation of the class ABC is breached. The proper way to handle the above is:</p> <p> <strong>FileName:</strong> GetterSetterExample5.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { int size = val.length; // creating a new array int temp[] = new int[size]; // copying the content of the array to temp array for(int i = 0; i <size; 54 i++) { temp[i]="val[i];" } return temp; for displaying the value present in val array void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + ' '); main class. public class gettersetterexample5 method static main(string argvs[]) instantiating abc obj="new" abc(); invoking getter and storing result arr[]="obj.getVal();" display obj.display(); updating at 0th index arr[0]="-1;" line system.out.println(); pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 67 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> In the above code, the reference of the private array is not sent to the outside world. In the getter method, a new array is created whose reference is sent to the main method. Therefore, when the value at the 0th index gets changed at line 54, that change impacts the temp[] array, not the private array val[]. Thus, the encapsulation of the class ABC is maintained, as the reference of the array val[] is not exposed to the outside world.</p> <h4>Note 1: For primitive data types (int, char, etc.), one does not need to create a copy in the getter and setter methods, as the concept of references is absent for the primitive data types.</h4> <h4>Note 2: Strings object types also work on the references. However, unlike the above examples, one does not need to take care of the String references exposed to the outside world. It is because Strings are immutable. Thus, when one manipulates the string in the main method (or anywhere else), a new String object is created, and the previous one remains untouched.</h4> <p> <strong>FileName:</strong> GetterSetterExample6.java</p> <pre> class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } } </pre> <p> <strong>Output:</strong> </p> <pre> The String is: Hello India! The String is: Hello India! </pre> <hr></size;></pre></size;></pre></size;></pre></size;></pre></=></pre></0>
Dårlig praksis i Getter- og Setter-metoder
Det er noen vanlige dårlige praksiser som folk vanligvis gjør når de håndterer getter- og settermetodene.
Dårlig praksis 1:
Bruk av getter og setter for variabelen som er deklarert med lavt begrenset omfang.
public salary; void setSalary(int s) { salary = s; } int getSalary() { return salary; }
Det er tydelig at fra hovedmetoden kan man direkte få tilgang til den variable lønnen, som ikke bare er dårlig, men også gjør tilstedeværelsen av getter- og settermetodene irrelevant.
Dårlig praksis 2:
Bruke en objektreferanse i setter-metoden. Tenk på følgende program.
Filnavn: GetterSetterExample2.java
class ABC { private int[] val; void setVal(int[] arr) { this.val = arr; // line 7 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; i++) { system.out.print(this.val[i] + \' \'); } main class public gettersetterexample2 method static void main(string argvs[]) instantiating the abc obj="new" abc(); int mainarr[]="{3," 4, 6, 8, 78, 9}; invoking setter obj.setval(mainarr); display obj.display(); updating value at 0th index mainarr[0]="-1;" system.out.println(); < pre> <p> <strong>Output:</strong> </p> <pre> 3 4 6 8 78 9 -1 4 6 8 78 9 </pre> <p> <strong>Explanation:</strong> </p> <p>References are a bit tricky to deal with! In the above code, at line 43, the value got updated at the 0th index for array mainArr[]. However, it also got reflected in the array val[]. It should not happen as val[] array is declared private; hence, it is expected that any code outside of the class ABC should not modify it. However, because of the references, everything is messed up. The setter method setVal() expecting a reference of an int array, and at line 7, the reference of the int arr[] is getting copied to val[]. Note that the reference variable arr[] is storing the reference of the array mainArr[]. Thus, we can say val[] is storing the reference of the mainArr[].</p> <p>Therefore, whatever we change in the mainArr[] also gets reflected in the val[] array, which violates the purpose of the setter method. Also, there is no meaning in adding the private access specifier to the val[] array; because one can change the value of the val[] array in the main method, which is evident by looking at the output.</p> <p>A better way of writing the above code is:</p> <p> <strong>FileName:</strong> GetterSetterExample3.java</p> <pre> class ABC { private int[] val; void setVal(int[] arr) { int size = arr.length; // allocating the memory as // per the array arr size val = new int[size]; // line 11 for(int i = 0; i <size; 17 53 i++) { copying the value one by into val array this.val[i]="arr[i];" line } for displaying present in void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \' \'); main class. public class gettersetterexample3 method static main(string argvs[]) instantiating abc obj="new" abc(); mainarr[]="{3," 4, 6, 8, 78, 9}; invoking setter obj.setval(mainarr); display obj.display(); updating at 0th index mainarr[0]="-1;" system.out.println(); again pre> <p> <strong>Output:</strong> </p> <pre> 3 4 6 8 78 9 3 4 6 8 78 9 </pre> <p> <strong>Explanation:</strong> </p> <p>In the above code, we are doing the deep copy of elements of the array arr[]. In line 11, we are creating an entirely new array. Thus, the val[] is not referring to the arr[]. Also, in line 17, only values of the element are getting copied. Therefore, when we change the value of the 0th element at line 53, the change is not reflected in the val[]. Thus, the above code respects the encapsulation of the private member variable val[].</p> <h3>Bad Practice 3:</h3> <p>Returning an object reference in the getter method. Observe the following program.</p> <p> <strong>FileName:</strong> GetterSetterExample4.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { // returning the reference return val; // line 9 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; 42 i++) { system.out.print(this.val[i] + \' \'); } main class. public class gettersetterexample4 method static void main(string argvs[]) instantiating the abc obj="new" abc(); invoking getter and storing result int arr[]="obj.getVal();" display obj.display(); updating value at 0th index arr[0]="-1;" line system.out.println(); again < pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 -1 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> </p> <p>The above code is not handling the references properly. The getter method is returning the reference of the array. The arr[] is storing the reference of the array val[], which is declared private in the class ABC. Because of exposing the reference to the outer world, arr[] can manipulate the val[], and thus, the encapsulation of the class ABC is breached. The proper way to handle the above is:</p> <p> <strong>FileName:</strong> GetterSetterExample5.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { int size = val.length; // creating a new array int temp[] = new int[size]; // copying the content of the array to temp array for(int i = 0; i <size; 54 i++) { temp[i]="val[i];" } return temp; for displaying the value present in val array void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \' \'); main class. public class gettersetterexample5 method static main(string argvs[]) instantiating abc obj="new" abc(); invoking getter and storing result arr[]="obj.getVal();" display obj.display(); updating at 0th index arr[0]="-1;" line system.out.println(); pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 67 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> In the above code, the reference of the private array is not sent to the outside world. In the getter method, a new array is created whose reference is sent to the main method. Therefore, when the value at the 0th index gets changed at line 54, that change impacts the temp[] array, not the private array val[]. Thus, the encapsulation of the class ABC is maintained, as the reference of the array val[] is not exposed to the outside world.</p> <h4>Note 1: For primitive data types (int, char, etc.), one does not need to create a copy in the getter and setter methods, as the concept of references is absent for the primitive data types.</h4> <h4>Note 2: Strings object types also work on the references. However, unlike the above examples, one does not need to take care of the String references exposed to the outside world. It is because Strings are immutable. Thus, when one manipulates the string in the main method (or anywhere else), a new String object is created, and the previous one remains untouched.</h4> <p> <strong>FileName:</strong> GetterSetterExample6.java</p> <pre> class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } } </pre> <p> <strong>Output:</strong> </p> <pre> The String is: Hello India! The String is: Hello India! </pre> <hr></size;></pre></size;></pre></size;></pre></size;>
Forklaring:
Referanser er litt vanskelige å forholde seg til! I koden ovenfor, på linje 43, ble verdien oppdatert ved den 0. indeksen for array mainArr[]. Imidlertid ble det også reflektert i array val[]. Det bør ikke skje ettersom val[] array er erklært privat; derfor forventes det at enhver kode utenfor klassen ABC ikke skal endre den. Men på grunn av referansene er alt rotet til. Setter-metoden setVal() forventer en referanse til en int-matrise, og på linje 7 blir referansen til int arr[] kopiert til val[]. Merk at referansevariabelen arr[] lagrer referansen til arrayen mainArr[]. Dermed kan vi si at val[] lagrer referansen til mainArr[].
Derfor, uansett hva vi endrer i mainArr[] blir også reflektert i val[]-matrisen, noe som bryter med hensikten med setter-metoden. Det er heller ingen mening med å legge til spesifikasjonen for privat tilgang til val[]-matrisen; fordi man kan endre verdien til val[]-matrisen i hovedmetoden, noe som er tydelig ved å se på utgangen.
En bedre måte å skrive koden ovenfor på er:
osi modelllag
Filnavn: GetterSetterExample3.java
class ABC { private int[] val; void setVal(int[] arr) { int size = arr.length; // allocating the memory as // per the array arr size val = new int[size]; // line 11 for(int i = 0; i <size; 17 53 i++) { copying the value one by into val array this.val[i]="arr[i];" line } for displaying present in void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \' \'); main class. public class gettersetterexample3 method static main(string argvs[]) instantiating abc obj="new" abc(); mainarr[]="{3," 4, 6, 8, 78, 9}; invoking setter obj.setval(mainarr); display obj.display(); updating at 0th index mainarr[0]="-1;" system.out.println(); again pre> <p> <strong>Output:</strong> </p> <pre> 3 4 6 8 78 9 3 4 6 8 78 9 </pre> <p> <strong>Explanation:</strong> </p> <p>In the above code, we are doing the deep copy of elements of the array arr[]. In line 11, we are creating an entirely new array. Thus, the val[] is not referring to the arr[]. Also, in line 17, only values of the element are getting copied. Therefore, when we change the value of the 0th element at line 53, the change is not reflected in the val[]. Thus, the above code respects the encapsulation of the private member variable val[].</p> <h3>Bad Practice 3:</h3> <p>Returning an object reference in the getter method. Observe the following program.</p> <p> <strong>FileName:</strong> GetterSetterExample4.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { // returning the reference return val; // line 9 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; 42 i++) { system.out.print(this.val[i] + \' \'); } main class. public class gettersetterexample4 method static void main(string argvs[]) instantiating the abc obj="new" abc(); invoking getter and storing result int arr[]="obj.getVal();" display obj.display(); updating value at 0th index arr[0]="-1;" line system.out.println(); again < pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 -1 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> </p> <p>The above code is not handling the references properly. The getter method is returning the reference of the array. The arr[] is storing the reference of the array val[], which is declared private in the class ABC. Because of exposing the reference to the outer world, arr[] can manipulate the val[], and thus, the encapsulation of the class ABC is breached. The proper way to handle the above is:</p> <p> <strong>FileName:</strong> GetterSetterExample5.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { int size = val.length; // creating a new array int temp[] = new int[size]; // copying the content of the array to temp array for(int i = 0; i <size; 54 i++) { temp[i]="val[i];" } return temp; for displaying the value present in val array void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \' \'); main class. public class gettersetterexample5 method static main(string argvs[]) instantiating abc obj="new" abc(); invoking getter and storing result arr[]="obj.getVal();" display obj.display(); updating at 0th index arr[0]="-1;" line system.out.println(); pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 67 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> In the above code, the reference of the private array is not sent to the outside world. In the getter method, a new array is created whose reference is sent to the main method. Therefore, when the value at the 0th index gets changed at line 54, that change impacts the temp[] array, not the private array val[]. Thus, the encapsulation of the class ABC is maintained, as the reference of the array val[] is not exposed to the outside world.</p> <h4>Note 1: For primitive data types (int, char, etc.), one does not need to create a copy in the getter and setter methods, as the concept of references is absent for the primitive data types.</h4> <h4>Note 2: Strings object types also work on the references. However, unlike the above examples, one does not need to take care of the String references exposed to the outside world. It is because Strings are immutable. Thus, when one manipulates the string in the main method (or anywhere else), a new String object is created, and the previous one remains untouched.</h4> <p> <strong>FileName:</strong> GetterSetterExample6.java</p> <pre> class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } } </pre> <p> <strong>Output:</strong> </p> <pre> The String is: Hello India! The String is: Hello India! </pre> <hr></size;></pre></size;></pre></size;>
Forklaring:
I koden ovenfor gjør vi den dype kopien av elementer i arrayen arr[]. I linje 11 lager vi en helt ny array. Dermed refererer ikke val[] til arr[]. Dessuten, i linje 17, blir bare verdiene til elementet kopiert. Derfor, når vi endrer verdien av det 0. elementet på linje 53, reflekteres ikke endringen i val[]. Dermed respekterer koden ovenfor innkapslingen av den private medlemsvariabelen val[].
Dårlig praksis 3:
Returnerer en objektreferanse i getter-metoden. Følg følgende program.
Filnavn: GetterSetterExample4.java
class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { // returning the reference return val; // line 9 } // for displaying the value // present in the val array void display() { int size = (this.val).length; for(int i = 0; i <size; 42 i++) { system.out.print(this.val[i] + \' \'); } main class. public class gettersetterexample4 method static void main(string argvs[]) instantiating the abc obj="new" abc(); invoking getter and storing result int arr[]="obj.getVal();" display obj.display(); updating value at 0th index arr[0]="-1;" line system.out.println(); again < pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 -1 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> </p> <p>The above code is not handling the references properly. The getter method is returning the reference of the array. The arr[] is storing the reference of the array val[], which is declared private in the class ABC. Because of exposing the reference to the outer world, arr[] can manipulate the val[], and thus, the encapsulation of the class ABC is breached. The proper way to handle the above is:</p> <p> <strong>FileName:</strong> GetterSetterExample5.java</p> <pre> class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { int size = val.length; // creating a new array int temp[] = new int[size]; // copying the content of the array to temp array for(int i = 0; i <size; 54 i++) { temp[i]="val[i];" } return temp; for displaying the value present in val array void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \' \'); main class. public class gettersetterexample5 method static main(string argvs[]) instantiating abc obj="new" abc(); invoking getter and storing result arr[]="obj.getVal();" display obj.display(); updating at 0th index arr[0]="-1;" line system.out.println(); pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 67 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> In the above code, the reference of the private array is not sent to the outside world. In the getter method, a new array is created whose reference is sent to the main method. Therefore, when the value at the 0th index gets changed at line 54, that change impacts the temp[] array, not the private array val[]. Thus, the encapsulation of the class ABC is maintained, as the reference of the array val[] is not exposed to the outside world.</p> <h4>Note 1: For primitive data types (int, char, etc.), one does not need to create a copy in the getter and setter methods, as the concept of references is absent for the primitive data types.</h4> <h4>Note 2: Strings object types also work on the references. However, unlike the above examples, one does not need to take care of the String references exposed to the outside world. It is because Strings are immutable. Thus, when one manipulates the string in the main method (or anywhere else), a new String object is created, and the previous one remains untouched.</h4> <p> <strong>FileName:</strong> GetterSetterExample6.java</p> <pre> class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } } </pre> <p> <strong>Output:</strong> </p> <pre> The String is: Hello India! The String is: Hello India! </pre> <hr></size;></pre></size;>
Forklaring:
Koden ovenfor håndterer ikke referansene på riktig måte. Getter-metoden returnerer referansen til matrisen. arr[] lagrer referansen til array val[], som er erklært privat i klassen ABC. På grunn av å avsløre referansen til den ytre verden, kan arr[] manipulere val[], og dermed blir innkapslingen av klassen ABC brutt. Den riktige måten å håndtere ovenstående på er:
Filnavn: GetterSetterExample5.java
class ABC { private int[] val = {67, 43, 68, 112, 70, 12}; // the getter method public int[] getVal() { int size = val.length; // creating a new array int temp[] = new int[size]; // copying the content of the array to temp array for(int i = 0; i <size; 54 i++) { temp[i]="val[i];" } return temp; for displaying the value present in val array void display() int size="(this.val).length;" for(int i="0;" < size; system.out.print(this.val[i] + \\' \\'); main class. public class gettersetterexample5 method static main(string argvs[]) instantiating abc obj="new" abc(); invoking getter and storing result arr[]="obj.getVal();" display obj.display(); updating at 0th index arr[0]="-1;" line system.out.println(); pre> <p> <strong>Output:</strong> </p> <pre> 67 43 68 112 70 12 67 43 68 112 70 12 </pre> <p> <strong>Explanation:</strong> In the above code, the reference of the private array is not sent to the outside world. In the getter method, a new array is created whose reference is sent to the main method. Therefore, when the value at the 0th index gets changed at line 54, that change impacts the temp[] array, not the private array val[]. Thus, the encapsulation of the class ABC is maintained, as the reference of the array val[] is not exposed to the outside world.</p> <h4>Note 1: For primitive data types (int, char, etc.), one does not need to create a copy in the getter and setter methods, as the concept of references is absent for the primitive data types.</h4> <h4>Note 2: Strings object types also work on the references. However, unlike the above examples, one does not need to take care of the String references exposed to the outside world. It is because Strings are immutable. Thus, when one manipulates the string in the main method (or anywhere else), a new String object is created, and the previous one remains untouched.</h4> <p> <strong>FileName:</strong> GetterSetterExample6.java</p> <pre> class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } } </pre> <p> <strong>Output:</strong> </p> <pre> The String is: Hello India! The String is: Hello India! </pre> <hr></size;>
Forklaring: I koden ovenfor sendes ikke referansen til den private matrisen til omverdenen. I getter-metoden opprettes en ny matrise hvis referanse sendes til hovedmetoden. Derfor, når verdien ved den 0. indeksen endres på linje 54, påvirker denne endringen temp[]-matrisen, ikke den private matrise-verdien[]. Dermed opprettholdes innkapslingen av klassen ABC, da referansen til array val[] ikke er eksponert for omverdenen.
Merknad 1: For primitive datatyper (int, char osv.) trenger man ikke lage en kopi i getter- og settermetodene, da referansebegrepet er fraværende for de primitive datatypene.
Merknad 2: Strengerobjekttyper fungerer også på referansene. Men i motsetning til eksemplene ovenfor, trenger man ikke å ta vare på String-referansene som er utsatt for omverdenen. Det er fordi strenger er uforanderlige. Således, når man manipulerer strengen i hovedmetoden (eller et annet sted), opprettes et nytt strengobjekt, og det forrige forblir urørt.
Filnavn: GetterSetterExample6.java
class ABC { private String str = null; // a setter method void setVal(String s) { // reference is getting copied this.str = s; } // for displaying the string void display() { System.out.println( 'The String is: ' + this.str); } } // Main class. public class GetterSetterExample6 { // main method public static void main(String argvs[]) { // creating an object of the class ABC ABC obj = new ABC(); // input string String inputStr = 'Hello India!'; // invoking the setter method obj.setVal(inputStr); obj.display(); // manipulation is not allowed! // it leads to the creation of the new string inputStr = 'Hello World!'; obj.display(); } }
Produksjon:
The String is: Hello India! The String is: Hello India!
=>0>