Given the following class hierarchy, identify whether the me…
Given the following class hierarchy, identify whether the method explore is overloaded, overridden, or neither by the subclass: public class Traveler { public void explore(String place, String name) { /* implemented */ }}public class Hiker extends Traveler { public void explore(String n, String p) { /* implemented */ }}
Read DetailsGiven the following class hierarchy, identify whether the me…
Given the following class hierarchy, identify whether the method foo is overloaded, overridden, or neither by the subclass: public class Parent { public void foo(int i, String s) { /* implemented */ }}public class Child extends Parent { public void foo(int num, String str) { /* implemented */ }}
Read DetailsAnalyze the following code and indicate, for each line, whet…
Analyze the following code and indicate, for each line, whether autoboxing, unboxing, or neither occurs when the assignment operator is evaluated: char c = new Character(‘b’); // 1 occursCharacter a = c; // 2 occurs 1 : [1] 2 : [2]
Read DetailsCar c1 = new Ford();Car c2 = new Honda();Ford f = new Ford()…
Car c1 = new Ford();Car c2 = new Honda();Ford f = new Ford();Honda h = new Honda(); For the class hierarchy and declarations above, correctly indicate whether each of the following statements will compile and what will happen at runtime (runs correctly or runtime exception). It may be helpful to use scratch paper to keep track of each variable’s static and dynamic type. 1 Car carA = (Car) f; 2 Ford fordA = (Ford) c1; 3 Ford fordB = (Ford) c2; 4 Ford fordC = (Ford) h; 1 : [1] 2 : [2] 3 : [3] 4 : [4]
Read DetailsAnalyze the following code and indicate, for each line, whet…
Analyze the following code and indicate, for each line, whether autoboxing, unboxing, or neither occurs when the assignment operator is evaluated: char c = new Character(‘b’); // 1 occursCharacter a = c; // 2 occurs 1 : [1] 2 : [2]
Read DetailsYou have files Parent.java, Child.java, and a driver class n…
You have files Parent.java, Child.java, and a driver class named Driver.java. Fill in the correct visibility modifiers so that the comments in the class Child and Driver’s main method are upheld. public class Parent { 1 void method1() { /*compiles*/ } 2 void method2() { /*compiles*/ } 3 void method3() { /*compiles*/ } } —– in a separate file in a different package/directory —– public class Child extends Parent { public void foo() { method2(); // doesn’t compile method3(); // compiles }} —– in a separate file in a different package/directory —– public class Driver { public static void main(String[] args) { Child c = new Child(); c.method1(); // compiles c.method2(); // doesn’t compile c.method3(); // doesn’t compile }} 1 : [1] 2 : [2] 3 : [3]
Read DetailsCar c1 = new Ford();Car c2 = new Honda();Ford f = new Ford()…
Car c1 = new Ford();Car c2 = new Honda();Ford f = new Ford();Honda h = new Honda(); For the class hierarchy and declarations above, correctly indicate whether each of the following statements will compile and what will happen at runtime (runs correctly or runtime exception). It may be helpful to use scratch paper to keep track of each variable’s static and dynamic type. 1 Car carA = (Car) f; 2 Ford fordA = (Ford) c1; 3 Ford fordB = (Ford) c2; 4 Ford fordC = (Ford) h; 1 : [1] 2 : [2] 3 : [3] 4 : [4]
Read Details